/* scp.c: simulator control program | |
Copyright (c) 1993-2016, Robert M Supnik | |
Permission is hereby granted, free of charge, to any person obtaining a | |
copy of this software and associated documentation files (the "Software"), | |
to deal in the Software without restriction, including without limitation | |
the rights to use, copy, modify, merge, publish, distribute, sublicense, | |
and/or sell copies of the Software, and to permit persons to whom the | |
Software is furnished to do so, subject to the following conditions: | |
The above copyright notice and this permission notice shall be included in | |
all copies or substantial portions of the Software. | |
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR | |
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, | |
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL | |
ROBERT M SUPNIK BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER | |
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN | |
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. | |
Except as contained in this notice, the name of Robert M Supnik shall not be | |
used in advertising or otherwise to promote the sale, use or other dealings | |
in this Software without prior written authorization from Robert M Supnik. | |
08-Mar-16 RMS Added shutdown flag for detach_all | |
20-Mar-12 MP Fixes to "SHOW <x> SHOW" commands | |
06-Jan-12 JDB Fixed "SHOW DEVICE" with only one enabled unit (Dave Bryan) | |
25-Sep-11 MP Added the ability for a simulator built with | |
SIM_ASYNCH_IO to change whether I/O is actually done | |
asynchronously by the new scp command SET ASYNCH and | |
SET NOASYNCH | |
22-Sep-11 MP Added signal catching of SIGHUP and SIGTERM to cause | |
simulator STOP. This allows an externally signalled | |
event (i.e. system shutdown, or logoff) to signal a | |
running simulator of these events and to allow | |
reasonable actions to be taken. This will facilitate | |
running a simulator as a 'service' on *nix platforms, | |
given a sufficiently flexible simulator .ini file. | |
20-Apr-11 MP Added expansion of %STATUS% and %TSTATUS% in do command | |
arguments. STATUS is the numeric value of the last | |
command error status and TSTATUS is the text message | |
relating to the last command error status | |
17-Apr-11 MP Changed sim_rest to defer attaching devices until after | |
device register contents have been restored since some | |
attach activities may reference register contained info. | |
29-Jan-11 MP Adjusted sim_debug to: | |
- include the simulator timestamp (sim_gtime) | |
as part of the prefix for each line of output | |
- write complete lines at a time (avoid asynch I/O issues). | |
05-Jan-11 MP Added Asynch I/O support | |
22-Jan-11 MP Added SET ON, SET NOON, ON, GOTO and RETURN command support | |
13-Jan-11 MP Added "SHOW SHOW" and "SHOW <dev> SHOW" commands | |
05-Jan-11 RMS Fixed bug in deposit stride for numeric input (John Dundas) | |
23-Dec-10 RMS Clarified some help messages (Mark Pizzolato) | |
08-Nov-10 RMS Fixed handling of DO with no arguments (Dave Bryan) | |
22-May-10 RMS Added *nix READLINE support (Mark Pizzolato) | |
08-Feb-09 RMS Fixed warnings in help printouts | |
29-Dec-08 RMS Fixed implementation of MTAB_NC | |
24-Nov-08 RMS Revised RESTORE unit logic for consistency | |
05-Sep-08 JDB "detach_all" ignores error status returns if shutting down | |
17-Aug-08 RMS Revert RUN/BOOT to standard, rather than powerup, reset | |
25-Jul-08 JDB DO cmd missing params now default to null string | |
29-Jun-08 JDB DO cmd sub_args now allows "\\" to specify literal backslash | |
04-Jun-08 JDB label the patch delta more clearly | |
31-Mar-08 RMS Fixed bug in local/global register search (Mark Pizzolato) | |
Fixed bug in restore of RO units (Mark Pizzolato) | |
06-Feb-08 RMS Added SET/SHO/NO BR with default argument | |
18-Jul-07 RMS Modified match_ext for VMS ext;version support | |
28-Apr-07 RMS Modified sim_instr invocation to call sim_rtcn_init_all | |
Fixed bug in get_sim_opt | |
Fixed bug in restoration with changed memory size | |
08-Mar-07 JDB Fixed breakpoint actions in DO command file processing | |
30-Jan-07 RMS Fixed bugs in get_ipaddr | |
17-Oct-06 RMS Added idle support | |
04-Oct-06 JDB DO cmd failure now echoes cmd unless -q | |
30-Aug-06 JDB detach_unit returns SCPE_UNATT if not attached | |
14-Jul-06 RMS Added sim_activate_abs | |
02-Jun-06 JDB Fixed do_cmd to exit nested files on assertion failure | |
Added -E switch to do_cmd to exit on any error | |
14-Feb-06 RMS Upgraded save file format to V3.5 | |
18-Jan-06 RMS Added fprint_stopped_gen | |
Added breakpoint spaces | |
Fixed unaligned register access (Doug Carman) | |
22-Sep-05 RMS Fixed declarations (Sterling Garwood) | |
30-Aug-05 RMS Revised to trim trailing spaces on file names | |
25-Aug-05 RMS Added variable default device support | |
23-Aug-05 RMS Added Linux line history support | |
16-Aug-05 RMS Fixed C++ declaration and cast problems | |
01-May-05 RMS Revised syntax for SET DEBUG (Dave Bryan) | |
22-Mar-05 JDB Modified DO command to allow ten-level nesting | |
18-Mar-05 RMS Moved DETACH tests into detach_unit (Dave Bryan) | |
Revised interface to fprint_sym, fparse_sym | |
13-Mar-05 JDB ASSERT now requires a conditional operator | |
07-Feb-05 RMS Added ASSERT command (Dave Bryan) | |
02-Feb-05 RMS Fixed bug in global register search | |
26-Dec-04 RMS Qualified SAVE examine, RESTORE deposit with SIM_SW_REST | |
10-Nov-04 JDB Fixed logging of errors from cmds in "do" file | |
05-Nov-04 RMS Moved SET/SHOW DEBUG under CONSOLE hierarchy | |
Renamed unit OFFLINE/ONLINE to DISABLED/ENABLED (Dave Bryan) | |
Revised to flush output files after simulation stop (Dave Bryan) | |
15-Oct-04 RMS Fixed HELP to suppress duplicate descriptions | |
27-Sep-04 RMS Fixed comma-separation options in set (David Bryan) | |
09-Sep-04 RMS Added -p option for RESET | |
13-Aug-04 RMS Qualified RESTORE detach with SIM_SW_REST | |
17-Jul-04 JDB DO cmd file open failure retries with ".sim" appended | |
17-Jul-04 RMS Added ECHO command (Dave Bryan) | |
12-Jul-04 RMS Fixed problem ATTACHing to read only files | |
(John Dundas) | |
28-May-04 RMS Added SET/SHOW CONSOLE | |
14-Feb-04 RMS Updated SAVE/RESTORE (V3.2) | |
RMS Added debug print routines (Dave Hittner) | |
RMS Added sim_vm_parse_addr and sim_vm_fprint_addr | |
RMS Added REG_VMAD support | |
RMS Split out libraries | |
RMS Moved logging function to SCP | |
RMS Exposed step counter interface(s) | |
RMS Fixed double logging of SHOW BREAK (Mark Pizzolato) | |
RMS Fixed implementation of REG_VMIO | |
RMS Added SET/SHOW DEBUG, SET/SHOW <device> DEBUG, | |
SHOW <device> MODIFIERS, SHOW <device> RADIX | |
RMS Changed sim_fsize to take uptr argument | |
29-Dec-03 RMS Added Telnet console output stall support | |
01-Nov-03 RMS Cleaned up implicit detach on attach/restore | |
Fixed bug in command line read while logging (Mark Pizzolato) | |
01-Sep-03 RMS Fixed end-of-file problem in dep, idep | |
Fixed error on trailing spaces in dep, idep | |
15-Jul-03 RMS Removed unnecessary test in reset_all | |
15-Jun-03 RMS Added register flag REG_VMIO | |
25-Apr-03 RMS Added extended address support (V3.0) | |
Fixed bug in SAVE (Peter Schorn) | |
Added u5, u6 fields | |
Added logical name support | |
03-Mar-03 RMS Added sim_fsize | |
27-Feb-03 RMS Fixed bug in multiword deposits to files | |
08-Feb-03 RMS Changed sim_os_sleep to void, match_ext to char* | |
Added multiple actions, .ini file support | |
Added multiple switch evaluations per line | |
07-Feb-03 RMS Added VMS support for ! (Mark Pizzolato) | |
01-Feb-03 RMS Added breakpoint table extension, actions | |
14-Jan-03 RMS Added missing function prototypes | |
10-Jan-03 RMS Added attach/restore flag, dynamic memory size support, | |
case sensitive SET options | |
22-Dec-02 RMS Added ! (OS command) feature (Mark Pizzolato) | |
17-Dec-02 RMS Added get_ipaddr | |
02-Dec-02 RMS Added EValuate command | |
16-Nov-02 RMS Fixed bug in register name match algorithm | |
13-Oct-02 RMS Fixed Borland compiler warnings (Hans Pufal) | |
05-Oct-02 RMS Fixed bugs in set_logon, ssh_break (David Hittner) | |
Added support for fixed buffer devices | |
Added support for Telnet console, removed VT support | |
Added help <command> | |
Added VMS file optimizations (Robert Alan Byer) | |
Added quiet mode, DO with parameters, GUI interface, | |
extensible commands (Brian Knittel) | |
Added device enable/disable commands | |
14-Jul-02 RMS Fixed exit bug in do, added -v switch (Brian Knittel) | |
17-May-02 RMS Fixed bug in fxread/fxwrite error usage (found by | |
Norm Lastovic) | |
02-May-02 RMS Added VT emulation interface, changed {NO}LOG to SET {NO}LOG | |
22-Apr-02 RMS Fixed laptop sleep problem in clock calibration, added | |
magtape record length error (Jonathan Engdahl) | |
26-Feb-02 RMS Fixed initialization bugs in do_cmd, get_aval | |
(Brian Knittel) | |
10-Feb-02 RMS Fixed problem in clock calibration | |
06-Jan-02 RMS Moved device enable/disable to simulators | |
30-Dec-01 RMS Generalized timer packaged, added circular arrays | |
19-Dec-01 RMS Fixed DO command bug (John Dundas) | |
07-Dec-01 RMS Implemented breakpoint package | |
05-Dec-01 RMS Fixed bug in universal register logic | |
03-Dec-01 RMS Added read-only units, extended SET/SHOW, universal registers | |
24-Nov-01 RMS Added unit-based registers | |
16-Nov-01 RMS Added DO command | |
28-Oct-01 RMS Added relative range addressing | |
08-Oct-01 RMS Added SHOW VERSION | |
30-Sep-01 RMS Relaxed attach test in BOOT | |
27-Sep-01 RMS Added queue count routine, fixed typo in ex/mod | |
17-Sep-01 RMS Removed multiple console support | |
07-Sep-01 RMS Removed conditional externs on function prototypes | |
Added special modifier print | |
31-Aug-01 RMS Changed int64 to t_int64 for Windoze (V2.7) | |
18-Jul-01 RMS Minor changes for Macintosh port | |
12-Jun-01 RMS Fixed bug in big-endian I/O (Dave Conroy) | |
27-May-01 RMS Added multiple console support | |
16-May-01 RMS Added logging | |
15-May-01 RMS Added features from Tim Litt | |
12-May-01 RMS Fixed missing return in disable_cmd | |
25-Mar-01 RMS Added ENABLE/DISABLE | |
14-Mar-01 RMS Revised LOAD/DUMP interface (again) | |
05-Mar-01 RMS Added clock calibration support | |
05-Feb-01 RMS Fixed bug, DETACH buffered unit with hwmark = 0 | |
04-Feb-01 RMS Fixed bug, RESTORE not using device's attach routine | |
21-Jan-01 RMS Added relative time | |
22-Dec-00 RMS Fixed find_device for devices ending in numbers | |
08-Dec-00 RMS V2.5a changes | |
30-Oct-00 RMS Added output file option to examine | |
11-Jul-99 RMS V2.5 changes | |
13-Apr-99 RMS Fixed handling of 32b addresses | |
04-Oct-98 RMS V2.4 changes | |
20-Aug-98 RMS Added radix commands | |
05-Jun-98 RMS Fixed bug in ^D handling for UNIX | |
10-Apr-98 RMS Added switches to all commands | |
26-Oct-97 RMS Added search capability | |
25-Jan-97 RMS Revised data types | |
23-Jan-97 RMS Added bi-endian I/O | |
06-Sep-96 RMS Fixed bug in variable length IEXAMINE | |
16-Jun-96 RMS Changed interface to parse/print_sym | |
06-Apr-96 RMS Added error checking in reset all | |
07-Jan-96 RMS Added register buffers in save/restore | |
11-Dec-95 RMS Fixed ordering bug in save/restore | |
22-May-95 RMS Added symbolic input | |
13-Apr-95 RMS Added symbolic printouts | |
*/ | |
/* Macros and data structures */ | |
#define NOT_MUX_USING_CODE /* sim_tmxr library provider or agnostic */ | |
#define IN_SCP_C 1 /* Include from scp.c */ | |
#include "sim_defs.h" | |
#include "sim_rev.h" | |
#include "sim_disk.h" | |
#include "sim_tape.h" | |
#include "sim_ether.h" | |
#include "sim_card.h" | |
#include "sim_serial.h" | |
#include "sim_video.h" | |
#include "sim_sock.h" | |
#include "sim_frontpanel.h" | |
#include <signal.h> | |
#include <ctype.h> | |
#include <time.h> | |
#include <math.h> | |
#if defined(_WIN32) | |
#include <direct.h> | |
#include <io.h> | |
#include <fcntl.h> | |
#else | |
#include <unistd.h> | |
#endif | |
#include <sys/stat.h> | |
#include <setjmp.h> | |
#if defined(HAVE_DLOPEN) /* Dynamic Readline support */ | |
#include <dlfcn.h> | |
#endif | |
#ifndef MAX | |
#define MAX(a,b) (((a) >= (b)) ? (a) : (b)) | |
#endif | |
#ifndef MIN | |
#define MIN(a,b) (((a) <= (b)) ? (a) : (b)) | |
#endif | |
/* search logical and boolean ops */ | |
#define SCH_OR 0 /* search logicals */ | |
#define SCH_AND 1 | |
#define SCH_XOR 2 | |
#define SCH_E 0 /* search booleans */ | |
#define SCH_N 1 | |
#define SCH_G 2 | |
#define SCH_L 3 | |
#define SCH_EE 4 | |
#define SCH_NE 5 | |
#define SCH_GE 6 | |
#define SCH_LE 7 | |
#define MAX_DO_NEST_LVL 20 /* DO cmd nesting level */ | |
#define SRBSIZ 1024 /* save/restore buffer */ | |
#define SIM_BRK_INILNT 4096 /* bpt tbl length */ | |
#define SIM_BRK_ALLTYP 0xFFFFFFFB | |
#define UPDATE_SIM_TIME \ | |
if (1) { \ | |
int32 _x; \ | |
AIO_LOCK; \ | |
if (sim_clock_queue == QUEUE_LIST_END) \ | |
_x = noqueue_time; \ | |
else \ | |
_x = sim_clock_queue->time; \ | |
sim_time = sim_time + (_x - sim_interval); \ | |
sim_rtime = sim_rtime + ((uint32) (_x - sim_interval)); \ | |
if (sim_clock_queue == QUEUE_LIST_END) \ | |
noqueue_time = sim_interval; \ | |
else \ | |
sim_clock_queue->time = sim_interval; \ | |
AIO_UNLOCK; \ | |
} \ | |
else \ | |
(void)0 \ | |
#define SZ_D(dp) (size_map[((dp)->dwidth + CHAR_BIT - 1) / CHAR_BIT]) | |
#define SZ_R(rp) \ | |
(size_map[((rp)->width + (rp)->offset + CHAR_BIT - 1) / CHAR_BIT]) | |
#if defined (USE_INT64) | |
#define SZ_LOAD(sz,v,mb,j) \ | |
if (sz == sizeof (uint8)) v = *(((uint8 *) mb) + ((uint32) j)); \ | |
else if (sz == sizeof (uint16)) v = *(((uint16 *) mb) + ((uint32) j)); \ | |
else if (sz == sizeof (uint32)) v = *(((uint32 *) mb) + ((uint32) j)); \ | |
else v = *(((t_uint64 *) mb) + ((uint32) j)); | |
#define SZ_STORE(sz,v,mb,j) \ | |
if (sz == sizeof (uint8)) *(((uint8 *) mb) + j) = (uint8) v; \ | |
else if (sz == sizeof (uint16)) *(((uint16 *) mb) + ((uint32) j)) = (uint16) v; \ | |
else if (sz == sizeof (uint32)) *(((uint32 *) mb) + ((uint32) j)) = (uint32) v; \ | |
else *(((t_uint64 *) mb) + ((uint32) j)) = v; | |
#else | |
#define SZ_LOAD(sz,v,mb,j) \ | |
if (sz == sizeof (uint8)) v = *(((uint8 *) mb) + ((uint32) j)); \ | |
else if (sz == sizeof (uint16)) v = *(((uint16 *) mb) + ((uint32) j)); \ | |
else v = *(((uint32 *) mb) + ((uint32) j)); | |
#define SZ_STORE(sz,v,mb,j) \ | |
if (sz == sizeof (uint8)) *(((uint8 *) mb) + ((uint32) j)) = (uint8) v; \ | |
else if (sz == sizeof (uint16)) *(((uint16 *) mb) + ((uint32) j)) = (uint16) v; \ | |
else *(((uint32 *) mb) + ((uint32) j)) = v; | |
#endif | |
#define GET_SWITCHES(cp) \ | |
if ((cp = get_sim_sw (cp)) == NULL) return SCPE_INVSW | |
#define GET_RADIX(val,dft) \ | |
if (sim_switches & SWMASK ('O')) val = 8; \ | |
else if (sim_switches & SWMASK ('D')) val = 10; \ | |
else if (sim_switches & SWMASK ('H')) val = 16; \ | |
else if ((sim_switch_number >= 2) && (sim_switch_number <= 36)) val = sim_switch_number; \ | |
else val = dft; | |
/* Asynch I/O support */ | |
#if defined (SIM_ASYNCH_IO) | |
pthread_mutex_t sim_asynch_lock = PTHREAD_MUTEX_INITIALIZER; | |
pthread_cond_t sim_asynch_wake = PTHREAD_COND_INITIALIZER; | |
pthread_mutex_t sim_timer_lock = PTHREAD_MUTEX_INITIALIZER; | |
pthread_cond_t sim_timer_wake = PTHREAD_COND_INITIALIZER; | |
pthread_mutex_t sim_tmxr_poll_lock = PTHREAD_MUTEX_INITIALIZER; | |
pthread_cond_t sim_tmxr_poll_cond = PTHREAD_COND_INITIALIZER; | |
int32 sim_tmxr_poll_count; | |
pthread_t sim_asynch_main_threadid; | |
UNIT * volatile sim_asynch_queue; | |
t_bool sim_asynch_enabled = TRUE; | |
int32 sim_asynch_check; | |
int32 sim_asynch_latency = 4000; /* 4 usec interrupt latency */ | |
int32 sim_asynch_inst_latency = 20; /* assume 5 mip simulator */ | |
int sim_aio_update_queue (void) | |
{ | |
int migrated = 0; | |
AIO_ILOCK; | |
if (AIO_QUEUE_VAL != QUEUE_LIST_END) { /* List !Empty */ | |
UNIT *q, *uptr; | |
int32 a_event_time; | |
do { /* Grab current queue */ | |
q = AIO_QUEUE_VAL; | |
} while (q != AIO_QUEUE_SET(QUEUE_LIST_END, q)); | |
while (q != QUEUE_LIST_END) { /* List !Empty */ | |
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Migrating Asynch event for %s after %d instructions\n", sim_uname(q), q->a_event_time); | |
++migrated; | |
uptr = q; | |
q = q->a_next; | |
uptr->a_next = NULL; /* hygiene */ | |
if (uptr->a_activate_call != &sim_activate_notbefore) { | |
a_event_time = uptr->a_event_time-((sim_asynch_inst_latency+1)/2); | |
if (a_event_time < 0) | |
a_event_time = 0; | |
} | |
else | |
a_event_time = uptr->a_event_time; | |
AIO_IUNLOCK; | |
uptr->a_activate_call (uptr, a_event_time); | |
if (uptr->a_check_completion) { | |
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Calling Completion Check for asynch event on %s\n", sim_uname(uptr)); | |
uptr->a_check_completion (uptr); | |
} | |
AIO_ILOCK; | |
} | |
} | |
AIO_IUNLOCK; | |
return migrated; | |
} | |
void sim_aio_activate (ACTIVATE_API caller, UNIT *uptr, int32 event_time) | |
{ | |
AIO_ILOCK; | |
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Queueing Asynch event for %s after %d instructions\n", sim_uname(uptr), event_time); | |
if (uptr->a_next) { | |
uptr->a_activate_call = sim_activate_abs; | |
} | |
else { | |
UNIT *q; | |
uptr->a_event_time = event_time; | |
uptr->a_activate_call = caller; | |
do { | |
q = AIO_QUEUE_VAL; | |
uptr->a_next = q; /* Mark as on list */ | |
} while (q != AIO_QUEUE_SET(uptr, q)); | |
} | |
AIO_IUNLOCK; | |
sim_asynch_check = 0; /* try to force check */ | |
if (sim_idle_wait) { | |
sim_debug (TIMER_DBG_IDLE, &sim_timer_dev, "waking due to event on %s after %d instructions\n", sim_uname(uptr), event_time); | |
pthread_cond_signal (&sim_asynch_wake); | |
} | |
} | |
#else | |
t_bool sim_asynch_enabled = FALSE; | |
#endif | |
/* The per-simulator init routine is a weak global that defaults to NULL | |
The other per-simulator pointers can be overrriden by the init routine */ | |
WEAK void (*sim_vm_init) (void); | |
char* (*sim_vm_read) (char *ptr, int32 size, FILE *stream) = NULL; | |
void (*sim_vm_post) (t_bool from_scp) = NULL; | |
CTAB *sim_vm_cmd = NULL; | |
void (*sim_vm_sprint_addr) (char *buf, DEVICE *dptr, t_addr addr) = NULL; | |
void (*sim_vm_fprint_addr) (FILE *st, DEVICE *dptr, t_addr addr) = NULL; | |
t_addr (*sim_vm_parse_addr) (DEVICE *dptr, CONST char *cptr, CONST char **tptr) = NULL; | |
t_value (*sim_vm_pc_value) (void) = NULL; | |
t_bool (*sim_vm_is_subroutine_call) (t_addr **ret_addrs) = NULL; | |
t_bool (*sim_vm_fprint_stopped) (FILE *st, t_stat reason) = NULL; | |
/* Prototypes */ | |
/* Set and show command processors */ | |
t_stat set_dev_radix (DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat set_dev_enbdis (DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat set_dev_debug (DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat set_unit_enbdis (DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat ssh_break (FILE *st, const char *cptr, int32 flg); | |
t_stat show_cmd_fi (FILE *ofile, int32 flag, CONST char *cptr); | |
t_stat show_config (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_queue (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_time (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_mod_names (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_show_commands (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_log_names (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_dev_radix (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_dev_debug (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_dev_logicals (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_dev_modifiers (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_dev_show_commands (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_version (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_default (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_break (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_on (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat sim_show_send (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat sim_show_expect (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat show_device (FILE *st, DEVICE *dptr, int32 flag); | |
t_stat show_unit (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag); | |
t_stat show_all_mods (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flg, int32 *toks); | |
t_stat show_one_mod (FILE *st, DEVICE *dptr, UNIT *uptr, MTAB *mptr, CONST char *cptr, int32 flag); | |
t_stat sim_save (FILE *sfile); | |
t_stat sim_rest (FILE *rfile); | |
/* Breakpoint package */ | |
t_stat sim_brk_init (void); | |
t_stat sim_brk_set (t_addr loc, int32 sw, int32 ncnt, CONST char *act); | |
t_stat sim_brk_clr (t_addr loc, int32 sw); | |
t_stat sim_brk_clrall (int32 sw); | |
t_stat sim_brk_show (FILE *st, t_addr loc, int32 sw); | |
t_stat sim_brk_showall (FILE *st, int32 sw); | |
CONST char *sim_brk_getact (char *buf, int32 size); | |
BRKTAB *sim_brk_new (t_addr loc, uint32 btyp); | |
char *sim_brk_clract (void); | |
FILE *stdnul; | |
/* Command support routines */ | |
SCHTAB *get_rsearch (CONST char *cptr, int32 radix, SCHTAB *schptr); | |
SCHTAB *get_asearch (CONST char *cptr, int32 radix, SCHTAB *schptr); | |
int32 test_search (t_value *val, SCHTAB *schptr); | |
static const char *get_glyph_gen (const char *iptr, char *optr, char mchar, t_bool uc, t_bool quote, char escape_char); | |
typedef enum { | |
SW_ERROR, /* Parse Error */ | |
SW_BITMASK, /* Bitmask Value or Not a switch */ | |
SW_NUMBER /* Numeric Value */ | |
} SWITCH_PARSE; | |
SWITCH_PARSE get_switches (const char *cptr, int32 *sw_val, int32 *sw_number); | |
void put_rval (REG *rptr, uint32 idx, t_value val); | |
void fprint_help (FILE *st); | |
void fprint_stopped (FILE *st, t_stat r); | |
void fprint_capac (FILE *st, DEVICE *dptr, UNIT *uptr); | |
void fprint_sep (FILE *st, int32 *tokens); | |
REG *find_reg_glob (CONST char *ptr, CONST char **optr, DEVICE **gdptr); | |
REG *find_reg_glob_reason (CONST char *cptr, CONST char **optr, DEVICE **gdptr, t_stat *stat); | |
const char *sim_eval_expression (const char *cptr, t_svalue *value, t_bool parens_required, t_stat *stat); | |
/* Forward references */ | |
t_stat scp_attach_unit (DEVICE *dptr, UNIT *uptr, const char *cptr); | |
t_stat scp_detach_unit (DEVICE *dptr, UNIT *uptr); | |
t_bool qdisable (DEVICE *dptr); | |
t_stat attach_err (UNIT *uptr, t_stat stat); | |
t_stat detach_all (int32 start_device, t_bool shutdown); | |
t_stat assign_device (DEVICE *dptr, const char *cptr); | |
t_stat deassign_device (DEVICE *dptr); | |
t_stat ssh_break_one (FILE *st, int32 flg, t_addr lo, int32 cnt, CONST char *aptr); | |
t_stat exdep_reg_loop (FILE *ofile, SCHTAB *schptr, int32 flag, CONST char *cptr, | |
REG *lowr, REG *highr, uint32 lows, uint32 highs); | |
t_stat ex_reg (FILE *ofile, t_value val, int32 flag, REG *rptr, uint32 idx); | |
t_stat dep_reg (int32 flag, CONST char *cptr, REG *rptr, uint32 idx); | |
t_stat exdep_addr_loop (FILE *ofile, SCHTAB *schptr, int32 flag, const char *cptr, | |
t_addr low, t_addr high, DEVICE *dptr, UNIT *uptr); | |
t_stat ex_addr (FILE *ofile, int32 flag, t_addr addr, DEVICE *dptr, UNIT *uptr); | |
t_stat dep_addr (int32 flag, const char *cptr, t_addr addr, DEVICE *dptr, | |
UNIT *uptr, int32 dfltinc); | |
void fprint_fields (FILE *stream, t_value before, t_value after, BITFIELD* bitdefs); | |
t_stat step_svc (UNIT *ptr); | |
t_stat expect_svc (UNIT *ptr); | |
t_stat shift_args (char *do_arg[], size_t arg_count); | |
t_stat set_on (int32 flag, CONST char *cptr); | |
t_stat set_verify (int32 flag, CONST char *cptr); | |
t_stat set_message (int32 flag, CONST char *cptr); | |
t_stat set_quiet (int32 flag, CONST char *cptr); | |
t_stat set_asynch (int32 flag, CONST char *cptr); | |
t_stat sim_show_asynch (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr); | |
t_stat do_cmd_label (int32 flag, CONST char *cptr, CONST char *label); | |
void int_handler (int signal); | |
t_stat set_prompt (int32 flag, CONST char *cptr); | |
t_stat sim_set_asynch (int32 flag, CONST char *cptr); | |
static const char *_get_dbg_verb (uint32 dbits, DEVICE* dptr, UNIT *uptr); | |
static t_stat sim_library_unit_tests (void); | |
static t_stat _sim_debug_flush (void); | |
/* Global data */ | |
DEVICE *sim_dflt_dev = NULL; | |
UNIT *sim_clock_queue = QUEUE_LIST_END; | |
int32 sim_interval = 0; | |
int32 sim_switches = 0; | |
int32 sim_switch_number = 0; | |
FILE *sim_ofile = NULL; | |
TMLN *sim_oline = NULL; | |
MEMFILE *sim_mfile = NULL; | |
SCHTAB *sim_schrptr = FALSE; | |
SCHTAB *sim_schaptr = FALSE; | |
DEVICE *sim_dfdev = NULL; | |
UNIT *sim_dfunit = NULL; | |
DEVICE **sim_internal_devices = NULL; | |
uint32 sim_internal_device_count = 0; | |
int32 sim_opt_out = 0; | |
volatile t_bool sim_is_running = FALSE; | |
t_bool sim_processing_event = FALSE; | |
uint32 sim_brk_summ = 0; | |
uint32 sim_brk_types = 0; | |
BRKTYPTAB *sim_brk_type_desc = NULL; /* type descriptions */ | |
uint32 sim_brk_dflt = 0; | |
uint32 sim_brk_match_type; | |
t_addr sim_brk_match_addr; | |
char *sim_brk_act[MAX_DO_NEST_LVL]; | |
char *sim_brk_act_buf[MAX_DO_NEST_LVL]; | |
BRKTAB **sim_brk_tab = NULL; | |
int32 sim_brk_ent = 0; | |
int32 sim_brk_lnt = 0; | |
int32 sim_brk_ins = 0; | |
int32 sim_quiet = 0; | |
int32 sim_step = 0; | |
char *sim_sub_instr = NULL; /* Copy of pre-substitution buffer contents */ | |
char *sim_sub_instr_buf = NULL; /* Buffer address that substitutions were saved in */ | |
size_t sim_sub_instr_size = 0; /* substitution buffer size */ | |
size_t *sim_sub_instr_off = NULL; /* offsets in substitution buffer where original data started */ | |
static double sim_time; | |
static uint32 sim_rtime; | |
static int32 noqueue_time; | |
volatile t_bool stop_cpu = FALSE; | |
static unsigned int sim_stop_sleep_ms = 250; | |
static char **sim_argv; | |
t_value *sim_eval = NULL; | |
static t_value sim_last_val; | |
static t_addr sim_last_addr; | |
FILE *sim_log = NULL; /* log file */ | |
FILEREF *sim_log_ref = NULL; /* log file file reference */ | |
FILE *sim_deb = NULL; /* debug file */ | |
FILEREF *sim_deb_ref = NULL; /* debug file file reference */ | |
int32 sim_deb_switches = 0; /* debug switches */ | |
struct timespec sim_deb_basetime; /* debug timestamp relative base time */ | |
char *sim_prompt = NULL; /* prompt string */ | |
static FILE *sim_gotofile; /* the currently open do file */ | |
static int32 sim_goto_line[MAX_DO_NEST_LVL+1]; /* the current line number in the currently open do file */ | |
static int32 sim_do_echo = 0; /* the echo status of the currently open do file */ | |
static int32 sim_show_message = 1; /* the message display status of the currently open do file */ | |
static int32 sim_on_inherit = 0; /* the inherit status of on state and conditions when executing do files */ | |
static int32 sim_do_depth = 0; | |
static t_bool sim_cmd_echoed = FALSE; /* Command was emitted already prior to message output */ | |
static char **sim_exp_argv = NULL; | |
static int32 sim_on_check[MAX_DO_NEST_LVL+1]; | |
static char *sim_on_actions[MAX_DO_NEST_LVL+1][SCPE_MAX_ERR+2]; | |
#define ON_SIGINT_ACTION (SCPE_MAX_ERR+1) | |
static char sim_do_filename[MAX_DO_NEST_LVL+1][CBUFSIZE]; | |
static const char *sim_do_ocptr[MAX_DO_NEST_LVL+1]; | |
static const char *sim_do_label[MAX_DO_NEST_LVL+1]; | |
static t_bool sim_if_cmd[MAX_DO_NEST_LVL+1]; | |
static t_bool sim_if_cmd_last[MAX_DO_NEST_LVL+1]; | |
static t_bool sim_if_result[MAX_DO_NEST_LVL+1]; | |
static t_bool sim_if_result_last[MAX_DO_NEST_LVL+1]; | |
t_stat sim_last_cmd_stat; /* Command Status */ | |
struct timespec cmd_time; /* */ | |
static SCHTAB sim_stabr; /* Register search specifier */ | |
static SCHTAB sim_staba; /* Memory search specifier */ | |
static DEBTAB sim_dflt_debug[] = { | |
{"EVENT", SIM_DBG_EVENT, "Event Dispatching"}, | |
{"ACTIVATE", SIM_DBG_ACTIVATE, "Event Scheduling"}, | |
{"AIO_QUEUE", SIM_DBG_AIO_QUEUE, "Asynchronous Event Queueing"}, | |
{0} | |
}; | |
static const char *sim_int_step_description (DEVICE *dptr) | |
{ | |
return "Step/Next facility"; | |
} | |
static UNIT sim_step_unit = { UDATA (&step_svc, UNIT_IDLE, 0) }; | |
DEVICE sim_step_dev = { | |
"INT-STEP", &sim_step_unit, NULL, NULL, | |
1, 0, 0, 0, 0, 0, | |
NULL, NULL, NULL, NULL, NULL, NULL, | |
NULL, DEV_NOSAVE, 0, | |
NULL, NULL, NULL, NULL, NULL, NULL, | |
sim_int_step_description}; | |
static const char *sim_int_expect_description (DEVICE *dptr) | |
{ | |
return "Expect facility"; | |
} | |
static UNIT sim_expect_unit = { UDATA (&expect_svc, 0, 0) }; | |
DEVICE sim_expect_dev = { | |
"INT-EXPECT", &sim_expect_unit, NULL, NULL, | |
1, 0, 0, 0, 0, 0, | |
NULL, NULL, NULL, NULL, NULL, NULL, | |
NULL, DEV_NOSAVE, 0, | |
NULL, NULL, NULL, NULL, NULL, NULL, | |
sim_int_expect_description}; | |
#if defined USE_INT64 | |
static const char *sim_si64 = "64b data"; | |
#else | |
static const char *sim_si64 = "32b data"; | |
#endif | |
#if defined USE_ADDR64 | |
static const char *sim_sa64 = "64b addresses"; | |
#else | |
static const char *sim_sa64 = "32b addresses"; | |
#endif | |
const char *sim_savename = sim_name; /* Simulator Name used in SAVE/RESTORE images */ | |
/* Tables and strings */ | |
const char save_vercur[] = "V4.0"; | |
const char save_ver40[] = "V4.0"; | |
const char save_ver35[] = "V3.5"; | |
const char save_ver32[] = "V3.2"; | |
const char save_ver30[] = "V3.0"; | |
const struct scp_error { | |
const char *code; | |
const char *message; | |
} scp_errors[1+SCPE_MAX_ERR-SCPE_BASE] = | |
{{"NXM", "Address space exceeded"}, | |
{"UNATT", "Unit not attached"}, | |
{"IOERR", "I/O error"}, | |
{"CSUM", "Checksum error"}, | |
{"FMT", "Format error"}, | |
{"NOATT", "Unit not attachable"}, | |
{"OPENERR", "File open error"}, | |
{"MEM", "Memory exhausted"}, | |
{"ARG", "Invalid argument"}, | |
{"STEP", "Step expired"}, | |
{"UNK", "Unknown command"}, | |
{"RO", "Read only argument"}, | |
{"INCOMP", "Command not completed"}, | |
{"STOP", "Simulation stopped"}, | |
{"EXIT", "Goodbye"}, | |
{"TTIERR", "Console input I/O error"}, | |
{"TTOERR", "Console output I/O error"}, | |
{"EOF", "End of file"}, | |
{"REL", "Relocation error"}, | |
{"NOPARAM", "No settable parameters"}, | |
{"ALATT", "Unit already attached"}, | |
{"TIMER", "Hardware timer error"}, | |
{"SIGERR", "Signal handler setup error"}, | |
{"TTYERR", "Console terminal setup error"}, | |
{"SUB", "Subscript out of range"}, | |
{"NOFNC", "Command not allowed"}, | |
{"UDIS", "Unit disabled"}, | |
{"NORO", "Read only operation not allowed"}, | |
{"INVSW", "Invalid switch"}, | |
{"MISVAL", "Missing value"}, | |
{"2FARG", "Too few arguments"}, | |
{"2MARG", "Too many arguments"}, | |
{"NXDEV", "Non-existent device"}, | |
{"NXUN", "Non-existent unit"}, | |
{"NXREG", "Non-existent register"}, | |
{"NXPAR", "Non-existent parameter"}, | |
{"NEST", "Nested DO command limit exceeded"}, | |
{"IERR", "Internal error"}, | |
{"MTRLNT", "Invalid magtape record length"}, | |
{"LOST", "Console Telnet connection lost"}, | |
{"TTMO", "Console Telnet connection timed out"}, | |
{"STALL", "Console Telnet output stall"}, | |
{"AFAIL", "Assertion failed"}, | |
{"INVREM", "Invalid remote console command"}, | |
{"NOTATT", "Not attached"}, | |
{"EXPECT", "Expect matched"}, | |
{"AMBREG", "Ambiguous register name"}, | |
{"REMOTE", "remote console command"}, | |
{"INVEXPR", "invalid expression"}, | |
}; | |
const size_t size_map[] = { sizeof (int8), | |
sizeof (int8), sizeof (int16), sizeof (int32), sizeof (int32) | |
#if defined (USE_INT64) | |
, sizeof (t_int64), sizeof (t_int64), sizeof (t_int64), sizeof (t_int64) | |
#endif | |
}; | |
const t_value width_mask[] = { 0, | |
0x1, 0x3, 0x7, 0xF, | |
0x1F, 0x3F, 0x7F, 0xFF, | |
0x1FF, 0x3FF, 0x7FF, 0xFFF, | |
0x1FFF, 0x3FFF, 0x7FFF, 0xFFFF, | |
0x1FFFF, 0x3FFFF, 0x7FFFF, 0xFFFFF, | |
0x1FFFFF, 0x3FFFFF, 0x7FFFFF, 0xFFFFFF, | |
0x1FFFFFF, 0x3FFFFFF, 0x7FFFFFF, 0xFFFFFFF, | |
0x1FFFFFFF, 0x3FFFFFFF, 0x7FFFFFFF, 0xFFFFFFFF | |
#if defined (USE_INT64) | |
, 0x1FFFFFFFF, 0x3FFFFFFFF, 0x7FFFFFFFF, 0xFFFFFFFFF, | |
0x1FFFFFFFFF, 0x3FFFFFFFFF, 0x7FFFFFFFFF, 0xFFFFFFFFFF, | |
0x1FFFFFFFFFF, 0x3FFFFFFFFFF, 0x7FFFFFFFFFF, 0xFFFFFFFFFFF, | |
0x1FFFFFFFFFFF, 0x3FFFFFFFFFFF, 0x7FFFFFFFFFFF, 0xFFFFFFFFFFFF, | |
0x1FFFFFFFFFFFF, 0x3FFFFFFFFFFFF, 0x7FFFFFFFFFFFF, 0xFFFFFFFFFFFFF, | |
0x1FFFFFFFFFFFFF, 0x3FFFFFFFFFFFFF, 0x7FFFFFFFFFFFFF, 0xFFFFFFFFFFFFFF, | |
0x1FFFFFFFFFFFFFF, 0x3FFFFFFFFFFFFFF, | |
0x7FFFFFFFFFFFFFF, 0xFFFFFFFFFFFFFFF, | |
0x1FFFFFFFFFFFFFFF, 0x3FFFFFFFFFFFFFFF, | |
0x7FFFFFFFFFFFFFFF, 0xFFFFFFFFFFFFFFFF | |
#endif | |
}; | |
static const char simh_help[] = | |
/***************** 80 character line width template *************************/ | |
"1Commands\n" | |
#define HLP_RESET "*Commands Resetting Devices" | |
/***************** 80 character line width template *************************/ | |
"2Resetting Devices\n" | |
" The RESET command (abbreviation RE) resets a device or the entire simulator\n" | |
" to a predefined condition. If switch -p is specified, the device is reset\n" | |
" to its power-up state:\n\n" | |
"++RESET reset all devices\n" | |
"++RESET -p powerup all devices\n" | |
"++RESET ALL reset all devices\n" | |
"++RESET <device> reset specified device\n\n" | |
" Typically, RESET stops any in-progress I/O operation, clears any interrupt\n" | |
" request, and returns the device to a quiescent state. It does not clear\n" | |
" main memory or affect I/O connections.\n" | |
#define HLP_EXAMINE "*Commands Examining_and_Changing_State" | |
#define HLP_IEXAMINE "*Commands Examining_and_Changing_State" | |
#define HLP_DEPOSIT "*Commands Examining_and_Changing_State" | |
#define HLP_IDEPOSIT "*Commands Examining_and_Changing_State" | |
/***************** 80 character line width template *************************/ | |
"2Examining and Changing State\n" | |
" There are four commands to examine and change state:\n\n" | |
"++EXAMINE (abbreviated E) examines state\n" | |
"++DEPOSIT (abbreviated D) changes state\n" | |
"++IEXAMINE (interactive examine, abbreviated IE) examines state and allows\n" | |
"++++the user to interactively change it\n" | |
"++IDEPOSIT (interactive deposit, abbreviated ID) allows the user to\n" | |
"++++interactively change state\n\n" | |
" All four commands take the form\n\n" | |
"++command {modifiers} <object list>\n\n" | |
" Deposit must also include a deposit value at the end of the command.\n\n" | |
" There are four kinds of modifiers: switches, device/unit name, search\n" | |
" specifier, and for EXAMINE, output file. Switches have been described\n" | |
" previously. A device/unit name identifies the device and unit whose\n" | |
" address space is to be examined or modified. If no device is specified,\n" | |
" the CPU (main memory)is selected; if a device but no unit is specified,\n" | |
" unit 0 of the device is selected.\n\n" | |
" The search specifier provides criteria for testing addresses or registers\n" | |
" to see if they should be processed. A specifier consists of a logical\n" | |
" operator, a relational operator, or both, optionally separated by spaces.\n\n" | |
"++{<logical op> <value>} <relational op> <value>\n\n" | |
/***************** 80 character line width template *************************/ | |
" where the logical operator is & (and), | (or), or ^ (exclusive or), and the\n" | |
" relational operator is = or == (equal), ! or != (not equal), >= (greater\n" | |
" than or equal), > (greater than), <= (less than or equal), or < (less than).\n" | |
" If a logical operator is specified without a relational operator, it is\n" | |
" ignored. If a relational operator is specified without a logical operator,\n" | |
" no logical operation is performed. All comparisons are unsigned.\n\n" | |
" The output file modifier redirects command output to a file instead of the\n" | |
" console. An output file modifier consists of @ followed by a valid file\n" | |
" name.\n\n" | |
" Modifiers may be specified in any order. If multiple modifiers of the\n" | |
" same type are specified, later modifiers override earlier modifiers. Note\n" | |
" that if the device/unit name comes after the search specifier, the search\n" | |
" values will interpreted in the radix of the CPU, rather than of the\n" | |
" device/unit.\n\n" | |
" The \"object list\" consists of one or more of the following, separated by\n" | |
" commas:\n\n" | |
/***************** 80 character line width template *************************/ | |
"++register the specified register\n" | |
"++register[sub1-sub2] the specified register array locations,\n" | |
"++ starting at location sub1 up to and\n" | |
"++ including location sub2\n" | |
"++register[sub1/length] the specified register array locations,\n" | |
"++ starting at location sub1 up to but\n" | |
"++ not including sub1+length\n" | |
"++register[ALL] all locations in the specified register\n" | |
"++ array\n" | |
"++register1-register2 all the registers starting at register1\n" | |
"++ up to and including register2\n" | |
"++address the specified location\n" | |
"++address1-address2 all locations starting at address1 up to\n" | |
"++ and including address2\n" | |
"++address/length all location starting at address up to\n" | |
"++ but not including address+length\n" | |
"++STATE all registers in the device\n" | |
"++ALL all locations in the unit\n" | |
"++$ the last value displayed by an EXAMINE command\n" | |
" interpreted as an address\n" | |
"3Switches\n" | |
" Switches can be used to control the format of display information:\n\n" | |
/***************** 80 character line width template *************************/ | |
"++-a display as ASCII\n" | |
"++-c display as character string\n" | |
"++-m display as instruction mnemonics\n" | |
"++-o or -8 display as octal\n" | |
"++-d or -10 display as decimal\n" | |
"++-h or -16 display as hexadecimal\n" | |
"++-2 display as binary\n\n" | |
" The simulators typically accept symbolic input (see documentation with each\n" | |
" simulator).\n\n" | |
"3Examples\n" | |
" Examples:\n\n" | |
"++ex 1000-1100 examine 1000 to 1100\n" | |
"++de PC 1040 set PC to 1040\n" | |
"++ie 40-50 interactively examine 40:50\n" | |
"++ie >1000 40-50 interactively examine the subset\n" | |
"++ of locations 40:50 that are >1000\n" | |
"++ex rx0 50060 examine 50060, RX unit 0\n" | |
"++ex rx sbuf[3-6] examine SBUF[3] to SBUF[6] in RX\n" | |
"++de all 0 set main memory to 0\n" | |
"++de &77>0 0 set all addresses whose low order\n" | |
"++ bits are non-zero to 0\n" | |
"++ex -m @memdump.txt 0-7777 dump memory to file\n\n" | |
" Note: to terminate an interactive command, simply type a bad value\n" | |
" (eg, XYZ) when input is requested.\n" | |
#define HLP_EVALUATE "*Commands Evaluating_Instructions" | |
/***************** 80 character line width template *************************/ | |
"2Evaluating Instructions\n" | |
" The EVAL command evaluates a symbolic instruction and returns the equivalent\n" | |
" numeric value. This is useful for obtaining numeric arguments for a search\n" | |
" command:\n\n" | |
"++EVAL <expression>\n\n" | |
" Examples:\n\n" | |
"+On the VAX simulator:\n" | |
"++sim> eval addl2 r2,r3\n" | |
"++0: 005352C0\n" | |
"++sim> eval addl2 #ff,6(r0)\n" | |
"++0: 00FF8FC0\n" | |
"++4: 06A00000\n" | |
"++sim> eval 'AB\n" | |
"++0: 00004241\n\n" | |
"+On the PDP-8:\n" | |
"++sim> eval tad 60\n" | |
"++0: 1060\n" | |
"++sim> eval tad 300\n" | |
"++tad 300\n" | |
"++Can't be parsed as an instruction or data\n\n" | |
" 'tad 300' fails, because with an implicit PC of 0, location 300 can't be\n" | |
" reached with direct addressing.\n" | |
/***************** 80 character line width template *************************/ | |
"2Loading and Saving Programs\n" | |
#define HLP_LOAD "*Commands Loading_and_Saving_Programs LOAD" | |
"3LOAD\n" | |
" The LOAD command (abbreviation LO) loads a file in binary loader format:\n\n" | |
"++LOAD <filename> {implementation options}\n\n" | |
" The types of formats supported are implementation specific. Options (such\n" | |
" as load within range) are also implementation specific.\n\n" | |
#define HLP_DUMP "*Commands Loading_and_Saving_Programs DUMP" | |
"3DUMP\n" | |
" The DUMP command (abbreviation DU) dumps memory in binary loader format:\n\n" | |
"++DUMP <filename> {implementation options}\n\n" | |
" The types of formats supported are implementation specific. Options (such\n" | |
" as dump within range) are also implementation specific.\n" | |
/***************** 80 character line width template *************************/ | |
"2Saving and Restoring State\n" | |
#define HLP_SAVE "*Commands Saving_and_Restoring_State SAVE" | |
"3SAVE\n" | |
" The SAVE command (abbreviation SA) save the complete state of the simulator\n" | |
" to a file. This includes the contents of main memory and all registers,\n" | |
" and the I/O connections of devices:\n\n" | |
"++SAVE <filename>\n\n" | |
#define HLP_RESTORE "*Commands Saving_and_Restoring_State RESTORE" | |
"3RESTORE\n" | |
" The RESTORE command (abbreviation REST, alternately GET) restores a\n" | |
" previously saved simulator state:\n\n" | |
"++RESTORE <filename>\n" | |
"4Switches\n" | |
" Switches can influence the output and behavior of the RESTORE command\n\n" | |
"++-Q Suppresses version warning messages\n" | |
"++-D Suppress detaching and attaching devices during a restore\n" | |
"++-F Overrides the related file timestamp validation check\n" | |
"\n" | |
"4Notes:\n" | |
" 1) SAVE file format compresses zeroes to minimize file size.\n" | |
" 2) The simulator can't restore active incoming telnet sessions to\n" | |
" multiplexer devices, but the listening ports will be restored across a\n" | |
" save/restore.\n" | |
/***************** 80 character line width template *************************/ | |
"2Running A Simulated Program\n" | |
#define HLP_RUN "*Commands Running_A_Simulated_Program RUN" | |
"3RUN {start_pc_addr} {UNTIL stop_pc_addr|\"output-string\"}\n" | |
" The RUN command (abbreviated RU) resets all devices, deposits its argument\n" | |
" (if given) in the PC, and starts execution. If no argument is given,\n" | |
" execution starts at the current PC.\n\n" | |
" The optional UNTIL argument specifies a stop criteria for execution.\n" | |
" There are two forms of execution stop criteria:\n" | |
"+1. A temporary breakpoint (which exists only until it is encountered).\n" | |
"+2. A string which will stop execution when the simulator has output\n" | |
"++the indicated string.\n" | |
#define HLP_GO "*Commands Running_A_Simulated_Program GO" | |
"3GO {start_pc_addr} {UNTIL stop_pc_addr|\"output-string\"}\n" | |
" The GO command does not reset devices, deposits its argument (if given)\n" | |
" in the PC, and starts execution. If no argument is given, execution\n" | |
" starts at the current PC.\n\n" | |
" The optional UNTIL argument specifies a stop criteria for execution.\n" | |
" There are two forms of execution stop criteria:\n" | |
"+1. A temporary breakpoint (which exists only until it is encountered).\n" | |
"+2. A string which will stop execution when the simulator has output\n" | |
"++the indicated string.\n" | |
#define HLP_CONTINUE "*Commands Running_A_Simulated_Program CONTINUE" | |
"3CONTINUE\n" | |
" The CONT command (abbreviated CO) does not reset devices and resumes\n" | |
" execution at the current PC.\n" | |
#define HLP_STEP "*Commands Running_A_Simulated_Program STEP" | |
"3STEP\n" | |
" The STEP command (abbreviated S) resumes execution at the current PC for\n" | |
" the number of instructions given by its argument. If no argument is\n" | |
" supplied, one instruction is executed.\n" | |
"4Switches\n" | |
" If the STEP command is invoked with the -T switch, the step command will\n" | |
" cause execution to run for microseconds rather than instructions.\n" | |
#define HLP_NEXT "*Commands Running_A_Simulated_Program NEXT" | |
"3NEXT\n" | |
" The NEXT command (abbreviated N) resumes execution at the current PC for\n" | |
" one instruction, attempting to execute through a subroutine calls.\n" | |
" If the next instruction to be executed is not a subroutine call,\n" | |
" one instruction is executed.\n" | |
#define HLP_BOOT "*Commands Running_A_Simulated_Program BOOT" | |
"3BOOT\n" | |
" The BOOT command (abbreviated BO) resets all devices and bootstraps the\n" | |
" device and unit given by its argument. If no unit is supplied, unit 0 is\n" | |
" bootstrapped. The specified unit must be attached.\n" | |
/***************** 80 character line width template *************************/ | |
"2Stopping The Simulator\n" | |
" Programs run until the simulator detects an error or stop condition, or\n" | |
" until the user forces a stop condition.\n" | |
"3Simulator Detected Stop Conditions\n" | |
" These simulator-detected conditions stop simulation:\n\n" | |
"++- HALT instruction. If a HALT instruction is decoded, simulation stops.\n" | |
"++- Breakpoint. The simulator may support breakpoints (see below).\n" | |
"++- I/O error. If an I/O error occurs during simulation of an I/O\n" | |
"+++operation, and the device stop-on-I/O-error flag is set, simulation\n" | |
"+++usually stops.\n\n" | |
"++- Processor condition. Certain processor conditions can stop\n" | |
"+++simulation; these are described with the individual simulators.\n" | |
"3User Specified Stop Conditions\n" | |
" Typing the interrupt character stops simulation. The interrupt character\n" | |
" is defined by the WRU (where are you) console option and is initially set\n" | |
" to 005 (^E).\n\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_BREAK "*Commands Stopping_The_Simulator User_Specified_Stop_Conditions BREAK" | |
#define HLP_NOBREAK "*Commands Stopping_The_Simulator User_Specified_Stop_Conditions BREAK" | |
"4Breakpoints\n" | |
" A simulator may offer breakpoint capability. A simulator may define\n" | |
" breakpoints of different types, identified by letter (for example, E for\n" | |
" execution, R for read, W for write, etc). At the moment, most simulators\n" | |
" support only E (execution) breakpoints.\n\n" | |
" Associated with a breakpoint are a count and, optionally, one or more\n" | |
" actions. Each time the breakpoint is taken, the associated count is\n" | |
" decremented. If the count is less than or equal to 0, the breakpoint\n" | |
" occurs; otherwise, it is deferred. When the breakpoint occurs, the\n" | |
" optional actions are automatically executed.\n\n" | |
" A breakpoint is set by the BREAK or the SET BREAK commands:\n\n" | |
"++BREAK {-types} {<addr range>{[count]},{addr range...}}{;action;action...}\n" | |
"++SET BREAK {-types} {<addr range>{[count]},{addr range...}}{;action;action...}\n\n" | |
" If no type is specified, the simulator-specific default breakpoint type\n" | |
" (usually E for execution) is used. If no address range is specified, the\n" | |
" current PC is used. As with EXAMINE and DEPOSIT, an address range may be a\n" | |
" single address, a range of addresses low-high, or a relative range of\n" | |
" address/length.\n" | |
/***************** 80 character line width template *************************/ | |
"5Displaying Breakpoints\n" | |
" Currently set breakpoints can be displayed with the SHOW BREAK command:\n\n" | |
"++SHOW {-C} {-types} BREAK {ALL|<addr range>{,<addr range>...}}\n\n" | |
" Locations with breakpoints of the specified type are displayed.\n\n" | |
" The -C switch displays the selected breakpoint(s) formatted as commands\n" | |
" which may be subsequently used to establish the same breakpoint(s).\n\n" | |
"5Removing Breakpoints\n" | |
" Breakpoints can be cleared by the NOBREAK or the SET NOBREAK commands.\n" | |
"5Examples\n" | |
"++BREAK set E break at current PC\n" | |
"++BREAK -e 200 set E break at 200\n" | |
"++BREAK 2000/2[2] set E breaks at 2000,2001 with count = 2\n" | |
"++BREAK 100;EX AC;D MQ 0 set E break at 100 with actions EX AC and\n" | |
"+++++++++D MQ 0\n" | |
"++BREAK 100; delete action on break at 100\n\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_DEBUG "*Commands Stopping_The_Simulator User_Specified_Stop_Conditions DEBUG" | |
#define HLP_NODEBUG "*Commands Stopping_The_Simulator User_Specified_Stop_Conditions DEBUG" | |
"4Debug\n" | |
" The DEBUG snd NODEBUG commands are aliases for the \"SET DEBUG\" and\n" | |
" \"SET NODEBUG\" commands. Additionally, support is provided that is\n" | |
" equivalent to the \"SET <dev> DEBUG=opt1{;opt2}\" and\n" | |
" \"SET <dev> NODEBUG=opt1{;opt2}\" commands.\n\n" | |
/***************** 80 character line width template *************************/ | |
"2Connecting and Disconnecting Devices\n" | |
" Except for main memory and network devices, units are simulated as\n" | |
" unstructured binary disk files in the host file system. Before using a\n" | |
" simulated unit, the user must specify the file to be accessed by that unit.\n" | |
#define HLP_ATTACH "*Commands Connecting_and_Disconnecting_Devices ATTACH" | |
"3ATTACH\n" | |
" The ATTACH (abbreviation AT) command associates a unit and a file:\n" | |
"++ATTACH <unit> <filename>\n\n" | |
" Some devices have more detailed or specific help available with:\n\n" | |
"++HELP <device> ATTACH\n\n" | |
"4Switches\n" | |
"5-n\n" | |
" If the -n switch is specified when an attach is executed, a new file is\n" | |
" created, and an appropriate message is printed.\n" | |
"5-e\n" | |
" If the file does not exist, and the -e switch was not specified, a new\n" | |
" file is created, and an appropriate message is printed. If the -e switch\n" | |
" was specified, a new file is not created, and an error message is printed.\n" | |
"5-r\n" | |
" If the -r switch is specified, or the file is write protected, ATTACH tries\n" | |
" to open the file read only. If the file does not exist, or the unit does\n" | |
" not support read only operation, an error occurs. Input-only devices, such\n" | |
" as paper-tape readers, and devices with write lock switches, such as disks\n" | |
" and tapes, support read only operation; other devices do not. If a file is\n" | |
" attached read only, its contents can be examined but not modified.\n" | |
"5-q\n" | |
" If the -q switch is specified when creating a new file (-n) or opening one\n" | |
" read only (-r), any messages announcing these facts will be suppressed.\n" | |
"5-f\n" | |
" For simulated magnetic tapes, the ATTACH command can specify the format of\n" | |
" the attached tape image file:\n\n" | |
"++ATTACH -f <tape_unit> <format> <filename>\n\n" | |
" The currently supported tape image file formats are:\n\n" | |
"++SIMH SIMH simulator format\n" | |
"++E11 E11 simulator format\n" | |
"++TPC TPC format\n" | |
"++P7B Pierce simulator 7-track format\n\n" | |
/***************** 80 character line width template *************************/ | |
" For some simulated disk devices, the ATTACH command can specify the format\n" | |
" of the attached disk image file:\n\n" | |
"++ATTACH -f <disk_unit> <format> <filename>\n\n" | |
" The currently supported disk image file formats are:\n\n" | |
"++SIMH SIMH simulator format\n" | |
"++VHD Virtual Disk format\n" | |
"++RAW platform specific access to physical disk or\n" | |
"++ CDROM drives\n" | |
" The disk format can also be set with the SET command prior to ATTACH:\n\n" | |
"++SET <disk_unit> FORMAT=<format>\n" | |
"++ATT <disk_unit> <filename>\n\n" | |
/***************** 80 character line width template *************************/ | |
" The format of an attached tape or disk file can be displayed with the SHOW\n" | |
" command:\n" | |
"++SHOW <unit> FORMAT\n" | |
" For Telnet-based terminal emulation devices, the ATTACH command associates\n" | |
" the master unit with a TCP/IP listening port:\n\n" | |
"++ATTACH <unit> <port>\n\n" | |
" The port is a decimal number between 1 and 65535 that is not already used\n" | |
" other TCP/IP applications.\n" | |
" For Ethernet emulators, the ATTACH command associates the simulated Ethernet\n" | |
" with a physical Ethernet device:\n\n" | |
"++ATTACH <unit> <physical device name>\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_DETACH "*Commands Connecting_and_Disconnecting_Devices DETACH" | |
"3DETACH\n" | |
" The DETACH (abbreviation DET) command breaks the association between a unit\n" | |
" and a file, port, or network device:\n\n" | |
"++DETACH ALL detach all units\n" | |
"++DETACH <unit> detach specified unit\n" | |
" The EXIT command performs an automatic DETACH ALL.\n" | |
"2Controlling Simulator Operating Environment\n" | |
"3Working Directory\n" | |
#define HLP_CD "*Commands Controlling_Simulator_Operating_Environment Working_Directory CD" | |
"4CD\n" | |
" Set the current working directory:\n" | |
"++CD path\n" | |
"4SET_DEFAULT\n" | |
" Set the current working directory:\n" | |
"++SET DEFAULT path\n" | |
#define HLP_PWD "*Commands Controlling_Simulator_Operating_Environment Working_Directory PWD" | |
"4PWD\n" | |
"++PWD\n" | |
" Display the current working directory:\n" | |
"2Listing Files\n" | |
#define HLP_DIR "*Commands Listing_Files DIR" | |
"3DIR\n" | |
"++DIR {path} list directory files\n" | |
#define HLP_LS "*Commands Listing_Files LS" | |
"3LS\n" | |
"++LS {path} list directory files\n" | |
"2Displaying Files\n" | |
#define HLP_TYPE "*Commands Displaying_Files TYPE" | |
"3TYPE\n" | |
"++TYPE file display a file contents\n" | |
#define HLP_CAT "*Commands Displaying_Files CAT" | |
"3CAT\n" | |
"++CAT file display a file contents\n" | |
"2Removing Files\n" | |
#define HLP_DELETE "*Commands Removing_Files DEL" | |
"3DELETE\n" | |
"++DEL{ete} file deletes a file\n" | |
#define HLP_RM "*Commands Removing_Files RM" | |
"3RM\n" | |
"++RM file deletes a file\n" | |
"2Copying Files\n" | |
#define HLP_COPY "*Commands Copying_Files COPY" | |
"3COPY\n" | |
"++COPY sfile dfile copies a file\n" | |
#define HLP_CP "*Commands Copying_Files CP" | |
"3CP\n" | |
"++CP sfile dfile copies a file\n" | |
#define HLP_SET "*Commands SET" | |
"2SET\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_SET_CONSOLE "*Commands SET CONSOLE" | |
"3Console\n" | |
"+SET CONSOLE arg{,arg...} set console options\n" | |
"+SET CONSOLE WRU=value specify console drop to simh character\n" | |
"+SET CONSOLE BRK=value specify console Break character\n" | |
"+SET CONSOLE DEL=value specify console delete character\n" | |
"+SET CONSOLE PCHAR=bitmask bit mask of printable characters in\n" | |
"++++++++ range [31,0]\n" | |
"+SET CONSOLE SPEED=speed{*factor}\n" | |
"++++++++ specify console input data rate\n" | |
"+SET CONSOLE TELNET=port specify console telnet port\n" | |
"+SET CONSOLE TELNET=LOG=log_file\n" | |
"++++++++ specify console telnet logging to the\n" | |
"++++++++ specified destination {LOG,STDOUT,STDERR,\n" | |
"++++++++ DEBUG or filename)\n" | |
"+SET CONSOLE TELNET=NOLOG disables console telnet logging\n" | |
"+SET CONSOLE TELNET=BUFFERED[=bufsize]\n" | |
"++++++++ specify console telnet buffering\n" | |
"+SET CONSOLE TELNET=NOBUFFERED\n" | |
"++++++++ disables console telnet buffering\n" | |
"+SET CONSOLE TELNET=UNBUFFERED\n" | |
"++++++++ disables console telnet buffering\n" | |
"+SET CONSOLE NOTELNET disable console telnet\n" | |
"+SET CONSOLE SERIAL=serialport[;config]\n" | |
"++++++++ specify console serial port and optionally\n" | |
"++++++++ the port config (i.e. ;9600-8n1)\n" | |
"+SET CONSOLE NOSERIAL disable console serial session\n" | |
"+SET CONSOLE SPEED=nn{*fac} specifies the maximum console port input rate\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_SET_REMOTE "*Commands SET REMOTE" | |
"3Remote\n" | |
"+SET REMOTE TELNET=port specify remote console telnet port\n" | |
"+SET REMOTE NOTELNET disables remote console\n" | |
"+SET REMOTE BUFFERSIZE=bufsize\n" | |
"++++++++ specify remote console command output buffer\n" | |
"++++++++ size\n" | |
"+SET REMOTE CONNECTIONS=n specify number of concurrent remote\n" | |
"++++++++ console sessions\n" | |
"+SET REMOTE TIMEOUT=n specify number of seconds without input\n" | |
"++++++++ before automatic continue\n" | |
"+SET REMOTE MASTER enable master mode remote console\n" | |
"+SET REMOTE NOMASTER disable remote master mode console\n" | |
#define HLP_SET_DEFAULT "*Commands SET Working_Directory" | |
"3Working Directory\n" | |
"+SET DEFAULT <dir> set the current directory\n" | |
"+CD <dir> set the current directory\n" | |
#define HLP_SET_LOG "*Commands SET Log" | |
"3Log\n" | |
" Interactions with the simulator session (at the \"sim>\" prompt\n" | |
" can be recorded to a log file\n\n" | |
"+SET LOG log_file specify the log destination\n" | |
"++++++++ (STDOUT,DEBUG or filename)\n" | |
"+SET NOLOG disables any currently active logging\n" | |
"4Switches\n" | |
" By default, log output is written at the end of the specified log file.\n" | |
" A new log file can created if the -N switch is used on the command line.\n" | |
#define HLP_SET_DEBUG "*Commands SET Debug" | |
/***************** 80 character line width template *************************/ | |
"3Debug\n" | |
"+SET DEBUG debug_file specify the debug destination\n" | |
"++++++++ (STDOUT,STDERR,LOG or filename)\n" | |
"+SET NODEBUG disables any currently active debug output\n" | |
"4Switches\n" | |
" Debug message output contains a timestamp which indicates the number of\n" | |
" simulated instructions which have been executed prior to the debug event.\n\n" | |
" Debug message output can be enhanced to contain additional, potentially\n" | |
" useful information.\n" | |
"5-T\n" | |
" The -T switch causes debug output to contain a time of day displayed\n" | |
" as hh:mm:ss.msec.\n" | |
"5-A\n" | |
" The -A switch causes debug output to contain a time of day displayed\n" | |
" as seconds.msec.\n" | |
"5-R\n" | |
" The -R switch causes the time of day displayed due to the -T or -A\n" | |
" switches to be relative to the start time of debugging. If neither\n" | |
" -T or -A is explicitly specified, -T is implied.\n" | |
"5-P\n" | |
" The -P switch adds the output of the PC (Program Counter) to each debug\n" | |
" message.\n" | |
"5-N\n" | |
" The -N switch causes a new/empty file to be written to. The default\n" | |
" is to append to an existing debug log file.\n" | |
"5-D\n" | |
" The -D switch causes data blob output to also display the data as\n" | |
" RADIX-50 characters.\n" | |
"5-F\n" | |
" The -F switch causes duplicate successive lines of debug NOT to be\n" | |
" summarized to reduce repetative noise from the debug data stream.\n" | |
"5-E\n" | |
" The -E switch causes data blob output to also display the data as\n" | |
" EBCDIC characters.\n" | |
#define HLP_SET_BREAK "*Commands SET Breakpoints" | |
"3Breakpoints\n" | |
"+SET BREAK <list> set breakpoints\n" | |
"+SET NOBREAK <list> clear breakpoints\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_SET_THROTTLE "*Commands SET Throttle" | |
"3Throttle\n" | |
" Simulator instruction execution rate can be controlled by specifying\n" | |
" one of the following throttle commands:\n\n" | |
"+SET THROTTLE xM execute x million instructions per second\n" | |
"+SET THROTTLE xK execute x thousand instructions per second\n" | |
"+SET THROTTLE x%% occupy x percent of the host capacity\n" | |
"++++++++executing instructions\n" | |
"+SET THROTTLE x/t sleep for t milliseconds after executing x\n" | |
"++++++++instructions\n\n" | |
"+SET NOTHROTTLE set simulation rate to maximum\n\n" | |
" Throttling is only available on host systems that implement a precision\n" | |
" real-time delay function.\n\n" | |
" xM, xK and x%% modes require the simulator to execute sufficient\n" | |
" instructions to actually calibrate the desired execution rate relative\n" | |
" to wall clock time. Very short running programs may complete before\n" | |
" calibration completes and therefore before the simulated execution rate\n" | |
" can match the desired rate.\n\n" | |
" The SET NOTHROTTLE command turns off throttling. The SHOW THROTTLE\n" | |
" command shows the current settings for throttling and the calibration\n" | |
" results\n\n" | |
" Some simulators implement a different form of host CPU resource management\n" | |
" called idling. Idling suspends simulated execution whenever the program\n" | |
" running in the simulator is doing nothing, and runs the simulator at full\n" | |
" speed when there is work to do. Throttling and idling are mutually\n" | |
" exclusive.\n" | |
#define HLP_SET_CLOCKS "*Commands SET Clocks" | |
"3Clock\n" | |
#if defined (SIM_ASYNCH_CLOCKS) | |
"+SET CLOCK asynch enable asynchronous clocks\n" | |
"+SET CLOCK noasynch disable asynchronous clocks\n" | |
#endif | |
"+SET CLOCK nocatchup disable catchup clock ticks\n" | |
"+SET CLOCK catchup enable catchup clock ticks\n" | |
"+SET CLOCK calib=n%% specify idle calibration skip %%\n" | |
"+SET CLOCK stop=n stop execution after n instructions\n\n" | |
" The SET CLOCK STOP command allows execution to have a bound when\n" | |
" execution starts with a BOOT, NEXT or CONTINUE command.\n" | |
#define HLP_SET_ASYNCH "*Commands SET Asynch" | |
"3Asynch\n" | |
"+SET ASYNCH enable asynchronous I/O\n" | |
"+SET NOASYNCH disable asynchronous I/O\n" | |
#define HLP_SET_ENVIRON "*Commands SET Environment" | |
"3Environment\n" | |
"4Explicitily Changing a Variable\n" | |
"+SET ENVIRONMENT name=val set environment variable\n" | |
"+SET ENVIRONMENT name clear environment variable\n" | |
"4Arithmetic Computations into a Variable\n\n" | |
"+SET ENVIRONMENT -A name=expression\n\n" | |
" Expression can contain any of these C language operators:\n\n" | |
"++ ( Open Parenthesis\n" | |
"++ ) Close Parenthesis\n" | |
"++ - Subtraction\n" | |
"++ + Addition\n" | |
"++ * Multiplication\n" | |
"++ / Division\n" | |
"++ %% Modulus\n" | |
"++ && Logical AND\n" | |
"++ || Logical OR\n" | |
"++ & Bitwise AND\n" | |
"++ | Bitwise Inclusive OR\n" | |
"++ ^ Bitwise Exclusive OR\n" | |
"++ >> Bitwise Right Shift\n" | |
"++ << Bitwise Left Shift\n" | |
"++ == Equality\n" | |
"++ != Inequality\n" | |
"++ <= Less than or Equal\n" | |
"++ < Less than\n" | |
"++ >= Greater than or Equal\n" | |
"++ > Greater than\n" | |
"++ ! Logical Negation\n" | |
"++ ~ Bitwise Compliment\n\n" | |
" Operator precedence is consistent with C language precedence.\n\n" | |
" Expression can contain arbitrary combinations of constant\n" | |
" values, simulator registers and environment variables \n" | |
"5Examples:\n" | |
"++SET ENV -A A=7+2\n" | |
"++SET ENV -A A=A-1\n" | |
"++ECHO A=%%A%%\n" | |
"++A=8\n" | |
"4Gathering Input From A User\n" | |
" Input from a user can be obtained by:\n\n" | |
"+set environment -P \"Prompt String\" name=default\n\n" | |
" The -P switch indicates that the user should be prompted\n" | |
" with the indicated prompt string and the input provided\n" | |
" will be saved in the environment variable 'name'. If no\n" | |
" input is provided, the value specified as 'default' will be\n" | |
" used.\n" | |
#define HLP_SET_ON "*Commands SET Command_Status_Trap_Dispatching" | |
"3Command Status Trap Dispatching\n" | |
"+SET ON enables error checking after command\n" | |
"++++++++ execution\n" | |
"+SET NOON disables error checking after command\n" | |
"++++++++ execution\n" | |
"+SET ON INHERIT enables inheritance of ON state and\n" | |
"++++++++ actions into do command files\n" | |
"+SET ON NOINHERIT disables inheritance of ON state and\n" | |
"++++++++ actions into do command files\n" | |
#define HLP_SET_VERIFY "*Commands SET Command_Execution_Display" | |
#define HLP_SET_VERIFY "*Commands SET Command_Execution_Display" | |
"3Command Execution Display\n" | |
"+SET VERIFY re-enables display of command file\n" | |
"++++++++ processed commands\n" | |
"+SET VERBOSE re-enables display of command file\n" | |
"++++++++ processed commands\n" | |
"+SET NOVERIFY disables display of command file processed\n" | |
"++++++++ commands\n" | |
"+SET NOVERBOSE disables display of command file processed\n" | |
"++++++++ commands\n" | |
#define HLP_SET_MESSAGE "*Commands SET Command_Error_Status_Display" | |
"3Command Error Status Display\n" | |
"+SET MESSAGE re-enables display of command file error\n" | |
"++++++++ messages\n" | |
"+SET NOMESSAGE disables display of command file error\n" | |
"++++++++ messages\n" | |
#define HLP_SET_QUIET "*Commands SET Command_Output_Display" | |
"3Command Output Display\n" | |
"+SET QUIET disables suppression of some output and\n" | |
"++++++++ messages\n" | |
"+SET NOQUIET re-enables suppression of some output and\n" | |
"++++++++ messages\n" | |
#define HLP_SET_PROMPT "*Commands SET Command_Prompt" | |
"3Command Prompt\n" | |
"+SET PROMPT \"string\" sets an alternate simulator prompt string\n" | |
"3Device and Unit\n" | |
"+SET <dev> OCT|DEC|HEX|BIN set device display radix\n" | |
"+SET <dev> ENABLED enable device\n" | |
"+SET <dev> DISABLED disable device\n" | |
"+SET <dev> DEBUG{=arg} set device debug flags\n" | |
"+SET <dev> NODEBUG={arg} clear device debug flags\n" | |
"+SET <dev> arg{,arg...} set device parameters (see show modifiers)\n" | |
"+SET <unit> ENABLED enable unit\n" | |
"+SET <unit> DISABLED disable unit\n" | |
"+SET <unit> arg{,arg...} set unit parameters (see show modifiers)\n" | |
"+HELP <dev> SET displays the device specific set commands\n" | |
"++++++++ available\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_SHOW "*Commands SHOW" | |
"2SHOW\n" | |
"+sh{ow} {-c} br{eak} <list> show breakpoints\n" | |
"+sh{ow} con{figuration} show configuration\n" | |
"+sh{ow} cons{ole} {arg} show console options\n" | |
"+sh{ow} {-ei} dev{ices} show devices\n" | |
"+sh{ow} fea{tures} show system devices with descriptions\n" | |
"+sh{ow} m{odifiers} show modifiers for all devices\n" | |
"+sh{ow} s{how} show SHOW commands for all devices\n" | |
"+sh{ow} n{ames} show logical names\n" | |
"+sh{ow} q{ueue} show event queue\n" | |
"+sh{ow} ti{me} show simulated time\n" | |
"+sh{ow} th{rottle} show simulation rate\n" | |
"+sh{ow} a{synch} show asynchronouse I/O state\n" | |
"+sh{ow} ve{rsion} show simulator version\n" | |
"+sh{ow} def{ault} show current directory\n" | |
"+sh{ow} re{mote} show remote console configuration\n" | |
"+sh{ow} <dev> RADIX show device display radix\n" | |
"+sh{ow} <dev> DEBUG show device debug flags\n" | |
"+sh{ow} <dev> MODIFIERS show device modifiers\n" | |
"+sh{ow} <dev> NAMES show device logical name\n" | |
"+sh{ow} <dev> SHOW show device SHOW commands\n" | |
"+sh{ow} <dev> {arg,...} show device parameters\n" | |
"+sh{ow} <unit> {arg,...} show unit parameters\n" | |
"+sh{ow} ethernet show ethernet devices\n" | |
"+sh{ow} serial show serial devices\n" | |
"+sh{ow} multiplexer {dev} show open multiplexer device info\n" | |
#if defined(USE_SIM_VIDEO) | |
"+sh{ow} video show video capabilities\n" | |
#endif | |
"+sh{ow} clocks show calibrated timer information\n" | |
"+sh{ow} throttle show throttle info\n" | |
"+sh{ow} on show on condition actions\n" | |
"+h{elp} <dev> show displays the device specific show commands\n" | |
"++++++++ available\n" | |
#define HLP_SHOW_CONFIG "*Commands SHOW" | |
#define HLP_SHOW_DEVICES "*Commands SHOW" | |
#define HLP_SHOW_FEATURES "*Commands SHOW" | |
#define HLP_SHOW_QUEUE "*Commands SHOW" | |
#define HLP_SHOW_TIME "*Commands SHOW" | |
#define HLP_SHOW_MODIFIERS "*Commands SHOW" | |
#define HLP_SHOW_NAMES "*Commands SHOW" | |
#define HLP_SHOW_SHOW "*Commands SHOW" | |
#define HLP_SHOW_VERSION "*Commands SHOW" | |
#define HLP_SHOW_DEFAULT "*Commands SHOW" | |
#define HLP_SHOW_CONSOLE "*Commands SHOW" | |
#define HLP_SHOW_REMOTE "*Commands SHOW" | |
#define HLP_SHOW_BREAK "*Commands SHOW" | |
#define HLP_SHOW_LOG "*Commands SHOW" | |
#define HLP_SHOW_DEBUG "*Commands SHOW" | |
#define HLP_SHOW_THROTTLE "*Commands SHOW" | |
#define HLP_SHOW_ASYNCH "*Commands SHOW" | |
#define HLP_SHOW_ETHERNET "*Commands SHOW" | |
#define HLP_SHOW_SERIAL "*Commands SHOW" | |
#define HLP_SHOW_MULTIPLEXER "*Commands SHOW" | |
#define HLP_SHOW_VIDEO "*Commands SHOW" | |
#define HLP_SHOW_CLOCKS "*Commands SHOW" | |
#define HLP_SHOW_ON "*Commands SHOW" | |
#define HLP_SHOW_SEND "*Commands SHOW" | |
#define HLP_SHOW_EXPECT "*Commands SHOW" | |
#define HLP_HELP "*Commands HELP" | |
/***************** 80 character line width template *************************/ | |
"2HELP\n" | |
"+h{elp} type this message\n" | |
"+h{elp} <command> type help for command\n" | |
"+h{elp} <dev> type help for device\n" | |
"+h{elp} <dev> registers type help for device register variables\n" | |
"+h{elp} <dev> attach type help for device specific ATTACH command\n" | |
"+h{elp} <dev> set type help for device specific SET commands\n" | |
"+h{elp} <dev> show type help for device specific SHOW commands\n" | |
"+h{elp} <dev> <command> type help for device specific <command> command\n" | |
/***************** 80 character line width template *************************/ | |
"2Altering The Simulated Configuration\n" | |
" In most simulators, the SET <device> DISABLED command removes the\n" | |
" specified device from the configuration. A DISABLED device is invisible\n" | |
" to running programs. The device can still be RESET, but it cannot be\n" | |
" ATTAChed, DETACHed, or BOOTed. SET <device> ENABLED restores a disabled\n" | |
" device to a configuration.\n\n" | |
" Most multi-unit devices allow units to be enabled or disabled:\n\n" | |
"++SET <unit> ENABLED\n" | |
"++SET <unit> DISABLED\n\n" | |
" When a unit is disabled, it will not be displayed by SHOW DEVICE.\n\n" | |
#define HLP_ASSIGN "*Commands Logical_Names" | |
#define HLP_DEASSIGN "*Commands Logical_Names" | |
"2Logical Names\n" | |
" The standard device names can be supplemented with logical names. Logical\n" | |
" names must be unique within a simulator (that is, they cannot be the same\n" | |
" as an existing device name). To assign a logical name to a device:\n\n" | |
"++ASSIGN <device> <log-name> assign log-name to device\n\n" | |
" To remove a logical name:\n\n" | |
"++DEASSIGN <device> remove logical name\n\n" | |
" To show the current logical name assignment:\n\n" | |
"++SHOW <device> NAMES show logical name, if any\n\n" | |
" To show all logical names:\n\n" | |
"++SHOW NAMES\n\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_DO "*Commands Executing_Command_Files" | |
"2Executing Command Files\n" | |
" The simulator can execute command files with the DO command:\n\n" | |
"++DO <filename> {arguments...} execute commands in file\n\n" | |
" The DO command allows command files to contain substitutable arguments.\n" | |
" The string %%n, where n is between 1 and 9, is replaced with argument n\n" | |
" from the DO command line. The string %%0 is replaced with <filename>.\n" | |
" The string %%* is replaced by the whole set of arguments (%%1 ... %%9).\n" | |
" The sequences \\%% and \\\\ are replaced with the literal characters %% and \\,\n" | |
" respectively. Arguments with spaces can be enclosed in matching single\n" | |
" or double quotation marks.\n\n" | |
" DO commands may be nested up to ten invocations deep.\n\n" | |
"3Switches\n" | |
" If the switch -v is specified, the commands in the file are echoed before\n" | |
" they are executed.\n\n" | |
" If the switch -e is specified, command processing (including nested command\n" | |
" invocations) will be aborted if a command error is encountered.\n" | |
" (Simulation stop never abort processing; use ASSERT to catch unexpected\n" | |
" stops.) Without the switch, all errors except ASSERT failures will be\n" | |
" ignored, and command processing will continue.\n\n" | |
" If the switch -o is specified, the on conditions and actions from the\n" | |
" calling command file will be inherited in the command file being invoked.\n" | |
" If the switch -q is specified, the quiet mode will be explicitly enabled\n" | |
" for the called command file, otherwise quiet mode is inherited from the\n" | |
" calling context.\n" | |
/***************** 80 character line width template *************************/ | |
"3Variable_Insertion\n" | |
" Built In variables %%DATE%%, %%TIME%%, %%DATETIME%%, %%LDATE%%, %%LTIME%%,\n" | |
" %%CTIME%%, %%DATE_YYYY%%, %%DATE_YY%%, %%DATE_YC%%, %%DATE_MM%%, %%DATE_MMM%%,\n" | |
" %%DATE_MONTH%%, %%DATE_DD%%, %%DATE_D%%, %%DATE_WYYYY%%, %%DATE_WW%%,\n" | |
" %%TIME_HH%%, %%TIME_MM%%, %%TIME_SS%%, %%TIME_MSEC%%, %%STATUS%%, %%TSTATUS%%,\n" | |
" %%SIM_VERIFY%%, %%SIM_QUIET%%, %%SIM_MESSAGE%% %%SIM_MESSAGE%%\n" | |
" %%SIM_NAME%%, %%SIM_BIN_NAME%%, %%SIM_BIN_PATH%%m %%SIM_OSTYPE%%\n\n" | |
"+Token %%0 expands to the command file name.\n" | |
"+Token %%n (n being a single digit) expands to the n'th argument\n" | |
"+Token %%* expands to the whole set of arguments (%%1 ... %%9)\n\n" | |
"+The input sequence \"%%%%\" represents a literal \"%%\". All other\n" | |
"+character combinations are rendered literally.\n\n" | |
"+Omitted parameters result in null-string substitutions.\n\n" | |
"+Tokens preceeded and followed by %% characters are expanded as environment\n" | |
"+variables, and if an environment variable isn't found then it can be one of\n" | |
"+several special variables:\n\n" | |
"++%%DATE%% yyyy-mm-dd\n" | |
"++%%TIME%% hh:mm:ss\n" | |
"++%%DATETIME%% yyyy-mm-ddThh:mm:ss\n" | |
"++%%LDATE%% mm/dd/yy (Locale Formatted)\n" | |
"++%%LTIME%% hh:mm:ss am/pm (Locale Formatted)\n" | |
"++%%CTIME%% Www Mmm dd hh:mm:ss yyyy (Locale Formatted)\n" | |
"++%%UTIME%% nnnn (Unix time - seconds since 1/1/1970)\n" | |
"++%%DATE_YYYY%% yyyy (0000-9999)\n" | |
"++%%DATE_YY%% yy (00-99)\n" | |
"++%%DATE_MM%% mm (01-12)\n" | |
"++%%DATE_MMM%% mmm (JAN-DEC)\n" | |
"++%%DATE_MONTH%% month (January-December)\n" | |
"++%%DATE_DD%% dd (01-31)\n" | |
"++%%DATE_WW%% ww (01-53) ISO 8601 week number\n" | |
"++%%DATE_WYYYY%% yyyy (0000-9999) ISO 8601 week year number\n" | |
"++%%DATE_D%% d (1-7) ISO 8601 day of week\n" | |
"++%%DATE_JJJ%% jjj (001-366) day of year\n" | |
"++%%DATE_19XX_YY%% yy A year prior to 2000 with the same\n" | |
"++++++++++ calendar days as the current year\n" | |
"++%%DATE_19XX_YYYY%% yyyy A year prior to 2000 with the same\n" | |
"++++++++++ calendar days as the current year\n" | |
"++%%TIME_HH%% hh (00-23)\n" | |
"++%%TIME_MM%% mm (00-59)\n" | |
"++%%TIME_SS%% ss (00-59)\n" | |
"++%%TIME_MSEC%% msec (000-999)\n" | |
"++%%STATUS%% Status value from the last command executed\n" | |
"++%%TSTATUS%% The text form of the last status value\n" | |
"++%%SIM_VERIFY%% The Verify/Verbose mode of the current Do command file\n" | |
"++%%SIM_VERBOSE%% The Verify/Verbose mode of the current Do command file\n" | |
"++%%SIM_QUIET%% The Quiet mode of the current Do command file\n" | |
"++%%SIM_MESSAGE%% The message display status of the current Do command file\n" | |
"++%%SIM_NAME%% The name of the current simulator\n" | |
"++%%SIM_BIN_NAME%% The program name of the current simulator\n" | |
"++%%SIM_BIN_PATH%% The program path that invoked the current simulator\n" | |
"++%%SIM_OSTYPE%% The Operating System running the current simulator\n\n" | |
"+Environment variable lookups are done first with the precise name between\n" | |
"+the %% characters and if that fails, then the name between the %% characters\n" | |
"+is upcased and a lookup of that valus is attempted.\n\n" | |
"+The first Space delimited token on the line is extracted in uppercase and\n" | |
"+then looked up as an environment variable. If found it the value is\n" | |
"+supstituted for the original string before expanding everything else. If\n" | |
"+it is not found, then the original beginning token on the line is left\n" | |
"+untouched.\n\n" | |
"+Environment variable string substitution:\n\n" | |
"++%%XYZ:str1=str2%%\n\n" | |
"+would expand the XYZ environment variable, substituting each occurrence\n" | |
"+of \"str1\" in the expanded result with \"str2\". \"str2\" can be the empty\n" | |
"+string to effectively delete all occurrences of \"str1\" from the expanded\n" | |
"+output. \"str1\" can begin with an asterisk, in which case it will match\n" | |
"+everything from the beginning of the expanded output to the first\n" | |
"+occurrence of the remaining portion of str1.\n\n" | |
"+May also specify substrings for an expansion.\n\n" | |
"++%%XYZ:~10,5%%\n\n" | |
"+would expand the XYZ environment variable, and then use only the 5\n" | |
"+characters that begin at the 11th (offset 10) character of the expanded\n" | |
"+result. If the length is not specified, then it defaults to the\n" | |
"+remainder of the variable value. If either number (offset or length) is\n" | |
"+negative, then the number used is the length of the environment variable\n" | |
"+value added to the offset or length specified.\n\n" | |
"++%%XYZ:~-10%%\n\n" | |
"+would extract the last 10 characters of the XYZ variable.\n\n" | |
"++%%XYZ:~0,-2%%\n\n" | |
"+would extract all but the last 2 characters of the XYZ variable.\n" | |
#define HLP_GOTO "*Commands Executing_Command_Files GOTO" | |
"3GOTO\n" | |
" Commands in a command file execute in sequence until either an error\n" | |
" trap occurs (when a command completes with an error status), or when an\n" | |
" explict request is made to start command execution elsewhere with the\n" | |
" GOTO command:\n\n" | |
"++GOTO <label>\n\n" | |
" Labels are lines in a command file which the first non whitespace\n" | |
" character is a \":\". The target of a goto is the first matching label\n" | |
" in the current do command file which is encountered. Since labels\n" | |
" don't do anything else besides being the targets of goto's, they could\n" | |
" also be used to provide comments in do command files.\n\n" | |
"4Examples\n\n" | |
"++:: This is a comment\n" | |
"++echo Some Message to Output\n" | |
"++:Target\n" | |
"++:: This is a comment\n" | |
"++GOTO Target\n\n" | |
#define HLP_RETURN "*Commands Executing_Command_Files RETURN" | |
/***************** 80 character line width template *************************/ | |
"3RETURN\n" | |
" The RETURN command causes the current procedure call to be restored to the\n" | |
" calling context, possibly returning a specific return status.\n" | |
" If no return status is specified, the return status from the last command\n" | |
" executed will be returned. The calling context may have ON traps defined\n" | |
" which may redirect command flow in that context.\n\n" | |
"++return return from command file with last command status\n" | |
"++return {-Q} <status> return from command file with specific status\n\n" | |
" The status return can be any numeric value or one of the standard SCPE_\n" | |
" condition names.\n\n" | |
" The -Q switch on the RETURN command will cause the specified status to\n" | |
" be returned, but normal error status message printing to be suppressed.\n" | |
"4Condition Names\n" | |
" The available standard SCPE_ condition names are\n" | |
"5 NXM\n" | |
" Address space exceeded\n" | |
"5 UNATT\n" | |
" Unit not attached\n" | |
"5 IOERR\n" | |
" I/O error\n" | |
"5 CSUM\n" | |
" Checksum error\n" | |
"5 FMT\n" | |
" Format error\n" | |
"5 NOATT\n" | |
" Unit not attachable\n" | |
"5 OPENERR\n" | |
" File open error\n" | |
"5 MEM\n" | |
" Memory exhausted\n" | |
"5 ARG\n" | |
" Invalid argument\n" | |
"5 STEP\n" | |
" Step expired\n" | |
"5 UNK\n" | |
" Unknown command\n" | |
"5 RO\n" | |
" Read only argument\n" | |
"5 INCOMP\n" | |
" Command not completed\n" | |
"5 STOP\n" | |
" Simulation stopped\n" | |
"5 EXIT\n" | |
" Goodbye\n" | |
"5 TTIERR\n" | |
" Console input I/O error\n" | |
"5 TTOERR\n" | |
" Console output I/O error\n" | |
"5 EOF\n" | |
" End of file\n" | |
"5 REL\n" | |
" Relocation error\n" | |
"5 NOPARAM\n" | |
" No settable parameters\n" | |
"5 ALATT\n" | |
" Unit already attached\n" | |
"5 TIMER\n" | |
" Hardware timer error\n" | |
"5 SIGERR\n" | |
" Signal handler setup error\n" | |
"5 TTYERR\n" | |
" Console terminal setup error\n" | |
"5 NOFNC\n" | |
" Command not allowed\n" | |
"5 UDIS\n" | |
" Unit disabled\n" | |
"5 NORO\n" | |
" Read only operation not allowed\n" | |
"5 INVSW\n" | |
" Invalid switch\n" | |
"5 MISVAL\n" | |
" Missing value\n" | |
"5 2FARG\n" | |
" Too few arguments\n" | |
"5 2MARG\n" | |
" Too many arguments\n" | |
"5 NXDEV\n" | |
" Non-existent device\n" | |
"5 NXUN\n" | |
" Non-existent unit\n" | |
"5 NXREG\n" | |
" Non-existent register\n" | |
"5 NXPAR\n" | |
" Non-existent parameter\n" | |
"5 NEST\n" | |
" Nested DO command limit exceeded\n" | |
"5 IERR\n" | |
" Internal error\n" | |
"5 MTRLNT\n" | |
" Invalid magtape record length\n" | |
"5 LOST\n" | |
" Console Telnet connection lost\n" | |
"5 TTMO\n" | |
" Console Telnet connection timed out\n" | |
"5 STALL\n" | |
" Console Telnet output stall\n" | |
"5 AFAIL\n" | |
" Assertion failed\n" | |
"5 INVREM\n" | |
" Invalid remote console command\n" | |
"5 NOTATT\n" | |
" Not attached \n" | |
"5 AMBREG\n" | |
" Ambiguous register\n" | |
#define HLP_SHIFT "*Commands Executing_Command_Files SHIFT" | |
"3SHIFT\n" | |
"++shift shift the command file's positional parameters\n" | |
#define HLP_CALL "*Commands Executing_Command_Files CALL" | |
"3CALL\n" | |
"++call transfer control to a labeled subroutine\n" | |
" a command file.\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_ON "*Commands Executing_Command_Files Error_Trapping" | |
"3Error Trapping\n" | |
" Error traps can be taken when any command returns a non success status.\n" | |
" Actions to be performed for particular status returns are specified with\n" | |
" the ON command.\n" | |
"4Enabling Error Traps\n" | |
" Error trapping is enabled with:\n\n" | |
"++set on enable error traps\n" | |
"4Disabling Error Traps\n" | |
" Error trapping is disabled with:\n\n" | |
"++set noon disable error traps\n" | |
"4ON\n" | |
" To set the action(s) to take when a specific error status is returned by\n" | |
" a command in the currently running do command file:\n\n" | |
"++on <statusvalue> commandtoprocess{; additionalcommandtoprocess}\n\n" | |
" To clear the action(s) taken take when a specific error status is returned:\n\n" | |
"++on <statusvalue>\n\n" | |
" To set the default action(s) to take when any otherwise unspecified error\n" | |
" status is returned by a command in the currently running do command file:\n\n" | |
"++on error commandtoprocess{; additionalcommandtoprocess}\n\n" | |
" To clear the default action(s) taken when any otherwise unspecified error\n" | |
" status is returned:\n\n" | |
"++on error\n" | |
"5Parameters\n" | |
" Error traps can be taken for any command which returns a status other\n" | |
" than SCPE_STEP, SCPE_OK, and SCPE_EXIT.\n\n" | |
" ON Traps can specify any of these status values:\n\n" | |
"++NXM, UNATT, IOERR, CSUM, FMT, NOATT, OPENERR, MEM, ARG,\n" | |
"++STEP, UNK, RO, INCOMP, STOP, TTIERR, TTOERR, EOF, REL,\n" | |
"++NOPARAM, ALATT, TIMER, SIGERR, TTYERR, SUB, NOFNC, UDIS,\n" | |
"++NORO, INVSW, MISVAL, 2FARG, 2MARG, NXDEV, NXUN, NXREG,\n" | |
"++NXPAR, NEST, IERR, MTRLNT, LOST, TTMO, STALL, AFAIL,\n" | |
"++NOTATT, AMBREG\n\n" | |
" These values can be indicated by name or by their internal\n" | |
" numeric value (not recommended).\n" | |
/***************** 80 character line width template *************************/ | |
"3CONTROL-C Trapping\n" | |
" A special ON trap is available to describe action(s) to be taken\n" | |
" when CONTROL_C (aka SIGINT) occurs during the execution of\n" | |
" simh commands and/or command procedures.\n\n" | |
"++on CONTROL_C <action> perform action(s) after CTRL+C\n" | |
"++on CONTROL_C restore default CTRL+C action\n\n" | |
" The default ON CONTROL_C handler will exit nested DO command\n" | |
" procedures and return to the sim> prompt.\n\n" | |
" Note 1: When a simulator is executing instructions entering CTRL+C\n" | |
"+will cause the CNTL+C character to be delivered to the simulator as\n" | |
"+input. The simulator instruction execution can be stopped by entering\n" | |
"+the WRU character (usually CTRL+E). Once instruction execution has\n" | |
"+stopped, CTRL+C can be entered and potentially acted on by the\n" | |
"+ON CONTROL_C trap handler.\n" | |
" Note 2: The ON CONTROL_C trapping is not affected by the SET ON and\n" | |
"+SET NOON commands.\n" | |
#define HLP_PROCEED "*Commands Executing_Command_Files PROCEED" | |
#define HLP_IGNORE "*Commands Executing_Command_Files PROCEED" | |
/***************** 80 character line width template *************************/ | |
"3PROCEED/IGNORE\n" | |
" The PROCEED or IGNORE commands do nothing. They are potentially useful\n" | |
" placeholders for an ON action condition which should be explicitly ignored\n" | |
"++proceed continue command file execution without doing anything\n" | |
"++ignore continue command file execution without doing anything\n" | |
"3DO Command Processing Interactions With ASSERT\n" | |
" The command:\n\n" | |
"++DO -e commandfile\n\n" | |
" is equivalent to starting the invoked command file with:\n\n" | |
"++SET ON\n\n" | |
" which by itself it equivalent to:\n\n" | |
"++SET ON\n" | |
"++ON ERROR RETURN\n\n" | |
" ASSERT failures have several different actions:\n\n" | |
"+* If error trapping is not enabled then AFAIL causes exit from the\n" | |
"++current do command file.\n" | |
"+* If error trapping is enabled and an explicit \"ON AFAIL\" action\n" | |
"++is defined, then the specified action is performed.\n" | |
"+* If error trapping is enabled and no \"ON AFAIL\" action is defined,\n" | |
"++then an AFAIL causes exit from the current do command file.\n" | |
#define HLP_ECHO "*Commands Executing_Command_Files Displaying_Arbitrary_Text ECHO_Command" | |
/***************** 80 character line width template *************************/ | |
"3Displaying Arbitrary Text\n" | |
" The ECHO and ECHOF commands are useful ways of annotating command files.\n\n" | |
"4ECHO command\n" | |
" The ECHO command prints out its arguments on the console (and log)\n" | |
" followed by a newline:\n\n" | |
"++ECHO <string> output string to console\n\n" | |
" If there is no argument, ECHO prints a blank line on the console. This\n" | |
" may be used to provide spacing in the console display or log.\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_ECHOF "*Commands Executing_Command_Files Displaying_Arbitrary_Text ECHOF_Command" | |
/***************** 80 character line width template *************************/ | |
"4ECHOF command\n" | |
" The ECHOF command prints out its arguments on the console (and log)\n" | |
" followed by a newline:\n\n" | |
/***************** 80 character line width template *************************/ | |
"++ECHOF {-n} \"<string>\"|<string> output string to console\n\n" | |
" The ECHOF command can also print output on a specified multiplexer line\n" | |
" (and log) followed by a newline:\n\n" | |
"++ECHOF {-n} dev:line \"<string>\"|<string> output string to specified line\n\n" | |
" If there is no argument, ECHOF prints a blank line.\n" | |
" The string argument may be delimited by quote characters. Quotes may\n" | |
" be either single or double but the opening and closing quote characters\n" | |
" must match. If the string is enclosed in quotes, the string may\n" | |
" contain escaped character strings which is interpreted as described\n" | |
" in Quoted_String_Data and the resulting string is output.\n\n" | |
" A command alias can be used to replace the ECHO command with the ECHOF\n" | |
" command:\n\n" | |
"++sim> SET ENV ECHO=ECHOF\n" | |
"5Switches\n" | |
" Switches can be used to influence the behavior of ECHOF commands\n\n" | |
"6-n\n" | |
" The -n switch indicates that the supplied string should be output\n" | |
" without a newline after the string is written.\n" | |
"5Quoted String Data\n" | |
" String data enclosed in quotes is transformed interpreting character\n" | |
" escapes. The following character escapes are explicitly supported:\n" | |
"++\\r Sends the ASCII Carriage Return character (Decimal value 13)\n" | |
"++\\n Sends the ASCII Linefeed character (Decimal value 10)\n" | |
"++\\f Sends the ASCII Formfeed character (Decimal value 12)\n" | |
"++\\t Sends the ASCII Horizontal Tab character (Decimal value 9)\n" | |
"++\\v Sends the ASCII Vertical Tab character (Decimal value 11)\n" | |
"++\\b Sends the ASCII Backspace character (Decimal value 8)\n" | |
"++\\\\ Sends the ASCII Backslash character (Decimal value 92)\n" | |
"++\\' Sends the ASCII Single Quote character (Decimal value 39)\n" | |
"++\\\" Sends the ASCII Double Quote character (Decimal value 34)\n" | |
"++\\? Sends the ASCII Question Mark character (Decimal value 63)\n" | |
"++\\e Sends the ASCII Escape character (Decimal value 27)\n" | |
" as well as octal character values of the form:\n" | |
"++\\n{n{n}} where each n is an octal digit (0-7)\n" | |
" and hext character values of the form:\n" | |
"++\\xh{h} where each h is a hex digit (0-9A-Fa-f)\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_SEND "*Commands Executing_Command_Files Injecting_Console_Input" | |
/***************** 80 character line width template *************************/ | |
"3Injecting Console Input\n" | |
" The SEND command provides a way to insert input into the console device of\n" | |
" a simulated system as if it was entered by a user.\n\n" | |
"++SEND {-t} {after=nn,}{delay=nn,}\"<string>\"\n\n" | |
"++NOSEND\n\n" | |
"++SHOW SEND\n\n" | |
" The string argument must be delimited by quote characters. Quotes may\n" | |
" be either single or double but the opening and closing quote characters\n" | |
" must match. Data in the string may contain escaped character strings.\n\n" | |
" The SEND command can also insert input into any serial device on a\n" | |
" simulated system as if it was entered by a user.\n\n" | |
"++SEND {-t} {<dev>:line} {after=nn,}{delay=nn,}\"<string>\"\n\n" | |
"++NOSEND {<dev>:line}\n\n" | |
"++SHOW SEND {<dev>:line}\n\n" | |
" The NOSEND command removes any undelivered input data which may be\n" | |
" pending on the CONSOLE or a specific multiplexer line.\n\n" | |
" The SHOW SEND command displays any pending SEND activity for the\n" | |
" CONSOLE or a specific multiplexer line.\n" | |
"4Delay\n" | |
" Specifies an integer (>=0) representing a minimal instruction delay\n" | |
" between characters being sent. The delay parameter can be set by\n" | |
" itself with:\n\n" | |
"++SEND DELAY=n\n\n" | |
" which will set the default delay value for subsequent SEND commands\n" | |
" which don't specify an explicit DELAY parameter along with a string\n" | |
" If a SEND command is processed and no DELAY value has been specified,\n" | |
" the default value of the delay parameter is 1000.\n" | |
/***************** 80 character line width template *************************/ | |
"4After\n" | |
" Specifies an integer (>=0) representing a minimal number of instructions\n" | |
" which must execute before the first character in the string is sent.\n" | |
" The after parameter value can be set by itself with:\n\n" | |
"++SEND AFTER=n\n\n" | |
" which will set the default after value for subsequent SEND commands\n" | |
" which don't specify an explicit AFTER parameter along with a string\n" | |
" If a SEND command is processed and no AFTER value has been specified,\n" | |
" the default value of the delay parameter is the DELAY parameter value.\n" | |
"4Escaping String Data\n" | |
" The following character escapes are explicitly supported:\n" | |
"++\\r Sends the ASCII Carriage Return character (Decimal value 13)\n" | |
"++\\n Sends the ASCII Linefeed character (Decimal value 10)\n" | |
"++\\f Sends the ASCII Formfeed character (Decimal value 12)\n" | |
"++\\t Sends the ASCII Horizontal Tab character (Decimal value 9)\n" | |
"++\\v Sends the ASCII Vertical Tab character (Decimal value 11)\n" | |
"++\\b Sends the ASCII Backspace character (Decimal value 8)\n" | |
"++\\\\ Sends the ASCII Backslash character (Decimal value 92)\n" | |
"++\\' Sends the ASCII Single Quote character (Decimal value 39)\n" | |
"++\\\" Sends the ASCII Double Quote character (Decimal value 34)\n" | |
"++\\? Sends the ASCII Question Mark character (Decimal value 63)\n" | |
"++\\e Sends the ASCII Escape character (Decimal value 27)\n" | |
" as well as octal character values of the form:\n" | |
"++\\n{n{n}} where each n is an octal digit (0-7)\n" | |
" and hext character values of the form:\n" | |
"++\\xh{h} where each h is a hex digit (0-9A-Fa-f)\n" | |
"4Switches\n" | |
" Switches can be used to influence the behavior of SEND commands\n\n" | |
"5-t\n" | |
" The -t switch indicates that the Delay and After values are in\n" | |
" units of microseconds rather than instructions.\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_EXPECT "*Commands Executing_Command_Files Reacting_To_Console_Output" | |
/***************** 80 character line width template *************************/ | |
"3Reacting To Console Output\n" | |
" The EXPECT command provides a way to stop execution and take actions\n" | |
" when specific output has been generated by the simulated system.\n\n" | |
"++EXPECT {dev:line} {[count]} {HALTAFTER=n,}\"<string>\" {actioncommand {; actioncommand}...}\n\n" | |
"++NOEXPECT {dev:line} \"<string>\"\n\n" | |
"++SHOW EXPECT {dev:line}\n\n" | |
" The string argument must be delimited by quote characters. Quotes may\n" | |
" be either single or double but the opening and closing quote characters\n" | |
" must match. Data in the string may contain escaped character strings.\n" | |
" If a [count] is specified, the rule will match after the match string\n" | |
" has matched count times.\n\n" | |
" When multiple expect rules are defined with the same match string, they\n" | |
" will match in the same order they were defined in.\n\n" | |
" When expect rules are defined, they are evaluated agains recently\n" | |
" produced output as each character is output to the device. Since this\n" | |
" evaluation processing is done on each output character, rule matching\n" | |
" is not specifically line oriented. If line oriented matching is desired\n" | |
" then rules should be defined which contain the simulated system's line\n" | |
" ending character sequence (i.e. \"\\r\\n\").\n" | |
" Once data has matched any expect rule, that data is no longer eligible\n" | |
" to match other expect rules which may already be defined.\n" | |
" Data which is output prior to the definition of an expect rule is not\n" | |
" eligible to be matched against.\n\n" | |
" The NOEXPECT command removes a previously defined EXPECT command for the\n" | |
" console or a specific multiplexer line.\n\n" | |
" The SHOW EXPECT command displays all of the pending EXPECT state for\n" | |
" the console or a specific multiplexer line.\n" | |
/***************** 80 character line width template *************************/ | |
"4Switches\n" | |
" Switches can be used to influence the behavior of EXPECT rules\n\n" | |
"5-p\n" | |
" EXPECT rules default to be one shot activities. That is a rule is\n" | |
" automatically removed when it matches unless it is designated as a\n" | |
" persistent rule by using a -p switch when the rule is defined.\n" | |
"5-c\n" | |
" If an expect rule is defined with the -c switch, it will cause all\n" | |
" pending expect rules on the current device to be cleared when the rule\n" | |
" matches data in the device output stream.\n" | |
"5-r\n" | |
" If an expect rule is defined with the -r switch, the string is interpreted\n" | |
" as a regular expression applied to the output data stream. This regular\n" | |
" expression may contain parentheses delimited sub-groups.\n\n" | |
/***************** 80 character line width template *************************/ | |
#if defined (HAVE_PCREPOSIX_H) | |
" The syntax of the regular expressions available are those supported by\n" | |
" the Perl Compatible Regular Expression package (aka PCRE). As the name\n" | |
" implies, the syntax is generally the same as Perl regular expressions.\n" | |
" See http://perldoc.perl.org/perlre.html for more details\n" | |
#elif defined (HAVE_REGEX_H) | |
" The syntax of the regular expressions available are those supported by\n" | |
" your local system's Regular Expression library using the Extended POSIX\n" | |
" Regular Expressiona\n" | |
#else | |
" Regular expression support is not currently available on your environment.\n" | |
" This simulator could use regular expression support provided by the\n" | |
" Perl Compatible Regular Expression (PCRE) package if it was available\n" | |
" when you simulator was compiled.\n" | |
#endif | |
"5-i\n" | |
" If a regular expression expect rule is defined with the -i switch,\n" | |
" character matching for that expression will be case independent.\n" | |
" The -i switch is only valid for regular expression expect rules.\n" | |
"5-t\n" | |
" The -t switch indicates that the value specified by the HaltAfter\n" | |
" parameter are in units of microseconds rather than instructions.\n" | |
"4Determining Which Output Matched\n" | |
" When an expect rule matches data in the output stream, the rule which\n" | |
" matched is recorded in the environment variable _EXPECT_MATCH_PATTERN.\n" | |
" If the expect rule was a regular expression rule, then the environment\n" | |
" variable _EXPECT_MATCH_GROUP_0 is set to the whole string which matched\n" | |
" and if the match pattern had any parentheses delimited sub-groups, the\n" | |
" environment variables _EXPECT_MATCH_PATTERN_1 thru _EXPECT_MATCH_PATTERN_n\n" | |
" are set to the values within the string which matched the respective\n" | |
" sub-groups.\n" | |
/***************** 80 character line width template *************************/ | |
"4Escaping String Data\n" | |
" The following character escapes are explicitly supported when NOT using\n" | |
" regular expression match patterns:\n" | |
"++\\r Expect the ASCII Carriage Return character (Decimal value 13)\n" | |
"++\\n Expect the ASCII Linefeed character (Decimal value 10)\n" | |
"++\\f Expect the ASCII Formfeed character (Decimal value 12)\n" | |
"++\\t Expect the ASCII Horizontal Tab character (Decimal value 9)\n" | |
"++\\v Expect the ASCII Vertical Tab character (Decimal value 11)\n" | |
"++\\b Expect the ASCII Backspace character (Decimal value 8)\n" | |
"++\\\\ Expect the ASCII Backslash character (Decimal value 92)\n" | |
"++\\' Expect the ASCII Single Quote character (Decimal value 39)\n" | |
"++\\\" Expect the ASCII Double Quote character (Decimal value 34)\n" | |
"++\\? Expect the ASCII Question Mark character (Decimal value 63)\n" | |
"++\\e Expect the ASCII Escape character (Decimal value 27)\n" | |
" as well as octal character values of the form:\n" | |
"++\\n{n{n}} where each n is an octal digit (0-7)\n" | |
" and hext character values of the form:\n" | |
"++\\xh{h} where each h is a hex digit (0-9A-Fa-f)\n" | |
"4HaltAfter\n" | |
" Specifies the number of instructions which should be executed before\n" | |
" simulator instruction execution should stop. The default is to stop\n" | |
" executing instructions immediately (i.e. HALTAFTER=0).\n" | |
" The default HaltAfter delay, once set, persists for all expect behaviors\n" | |
" for that device.\n" | |
" The default HaltAfter parameter value can be set by itself with:\n\n" | |
"++EXPECT HALTAFTER=n\n\n" | |
" A unique HaltAfter value can be specified with each expect matching rule\n" | |
" which if it is not specified then the default value will be used.\n" | |
" To avoid potentially unpredictable system hehavior that will happen\n" | |
" if multiple expect rules are in effect and a haltafter value is large\n" | |
" enough for more than one expect rule to match before an earlier haltafter\n" | |
" delay has expired, only a single EXPECT rule can be defined if a non-zero\n" | |
" HaltAfter parameter has been set.\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_SLEEP "*Commands Executing_Command_Files Pausing_Command_Execution" | |
"3Pausing Command Execution\n" | |
" A simulator command file may wait for a specific period of time with the\n\n" | |
"++SLEEP NUMBER[SUFFIX]...\n\n" | |
" Pause for NUMBER seconds. SUFFIX may be 's' for seconds (the default),\n" | |
" 'm' for minutes, 'h' for hours or 'd' for days. NUMBER may be an\n" | |
" arbitrary floating point number. Given two or more arguments, pause\n" | |
" for the amount of time specified by the sum of their values.\n" | |
" NOTE: A SLEEP command is interruptable with SIGINT (CTRL+C).\n\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_ASSERT "*Commands Executing_Command_Files Testing_Simulator_State" | |
#define HLP_IF "*Commands Executing_Command_Files Testing_Simulator_State" | |
"3Testing Simulator State\n" | |
" There are two ways for a command file to examine simulator state and\n" | |
" then take action based on that state:\n" | |
"4ASSERT\n" | |
" The ASSERT command tests a simulator state condition and halts command\n" | |
" file execution if the condition is false:\n\n" | |
"++ASSERT <Simulator State Expressions>\n\n" | |
" If the indicated expression evaluates to false, the command completes\n" | |
" with an AFAIL condition. By default, when a command file encounters a\n" | |
" command which returns the AFAIL condition, it will exit the running\n" | |
" command file with the AFAIL status to the calling command file. This\n" | |
" behavior can be changed with the ON command as well as switches to the\n" | |
" invoking DO command.\n\n" | |
"5Examples:\n" | |
" A command file might be used to bootstrap an operating system that\n" | |
" halts after the initial load from disk. The ASSERT command is then\n" | |
" used to confirm that the load completed successfully by examining the\n" | |
" CPU's \"A\" register for the expected value:\n\n" | |
"++; OS bootstrap command file\n" | |
"++;\n" | |
"++IF EXIST \"os.disk\" echo os.disk exists\n" | |
"++IF NOT EXIST os.disk echo os.disk not existing\n" | |
"++IF EXIST \"os.disk\" echo os.disk exists\n" | |
"++ELSE echo os.disk not existing\n" | |
"++ATTACH DS0 os.disk\n" | |
"++BOOT DS\n" | |
"++; A register contains error code; 0 = good boot\n" | |
"++ASSERT A=0\n" | |
"++ATTACH MT0 sys.tape\n" | |
"++ATTACH MT1 user.tape\n" | |
"++RUN\n\n" | |
/***************** 80 character line width template *************************/ | |
" In the example, if the A register is not 0, the \"ASSERT A=0\" command will\n" | |
" be echoed, the command file will be aborted with an \"Assertion failed\"\n" | |
" message. Otherwise, the command file will continue to bring up the\n" | |
" operating system.\n" | |
"4IF-ELSE\n" | |
" The IF command tests a simulator state condition and executes additional\n" | |
" commands if the condition is true:\n\n" | |
"++IF <Conditional Expressions> commandtoprocess{; additionalcommandtoprocess}...\n" | |
"++{ELSE commandtoprocess{; additionalcommandtoprocess}...}\n\n" | |
"5Examples:\n" | |
" A command file might be used to bootstrap an operating system that\n" | |
" halts after the initial load from disk. The ASSERT command is then\n" | |
" used to confirm that the load completed successfully by examining the\n" | |
" CPU's \"A\" register for the expected value:\n\n" | |
"++; OS bootstrap command file\n" | |
"++;\n" | |
"++IF EXIST \"os.disk\" echo os.disk exists\n" | |
"++IF NOT EXIST os.disk echo os.disk not existing\n" | |
"++ATTACH DS0 os.disk\n" | |
"++BOOT DS\n" | |
"++; A register contains error code; 0 = good boot\n" | |
"++IF NOT A=0 echo Boot failed - Failure Code; EX A; exit AFAIL\n" | |
"++ATTACH MT0 sys.tape\n" | |
"++ATTACH MT1 user.tape\n" | |
"++RUN\n\n" | |
/***************** 80 character line width template *************************/ | |
" In the example, if the A register is not 0, the message \"Boot failed -\n" | |
" Failure Code:\" command will be displayed, the contents of the A register\n" | |
" will be displayed and the command file will be aborted with an \"Assertion\n" | |
" failed\" message. Otherwise, the command file will continue to bring up\n" | |
" the operating system.\n" | |
"4Conditional Expressions\n" | |
" The IF and ASSERT commands evaluate five different forms of conditional\n" | |
" expressions.:\n\n" | |
"5C Style Simulator State Expressions\n" | |
" Comparisons can optionally be done with complete C style computational\n" | |
" expressions which leverage the C operations in the below table and can\n" | |
" optionally reference any combination of values that are constants or\n" | |
" contained in environment variables or simulator registers. C style\n" | |
" expression evaluation is initiated by enclosing the expression in\n" | |
" parenthesis.\n\n" | |
" Expression can contain any of these C language operators:\n\n" | |
"++ ( Open Parenthesis\n" | |
"++ ) Close Parenthesis\n" | |
"++ - Subtraction\n" | |
"++ + Addition\n" | |
"++ * Multiplication\n" | |
"++ / Division\n" | |
"++ %% Modulus\n" | |
"++ && Logical AND\n" | |
"++ || Logical OR\n" | |
"++ & Bitwise AND\n" | |
"++ | Bitwise Inclusive OR\n" | |
"++ ^ Bitwise Exclusive OR\n" | |
"++ >> Bitwise Right Shift\n" | |
"++ << Bitwise Left Shift\n" | |
"++ == Equality\n" | |
"++ != Inequality\n" | |
"++ <= Less than or Equal\n" | |
"++ < Less than\n" | |
"++ >= Greater than or Equal\n" | |
"++ > Greater than\n" | |
"++ ! Logical Negation\n" | |
"++ ~ Bitwise Compliment\n\n" | |
" Operator precedence is consistent with C language precedence.\n\n" | |
" Expression can contain arbitrary combinations of constant\n" | |
" values, simulator registers and environment variables \n" | |
"5Simulator State Expressions\n" | |
" The values of simulator registers can be evaluated with:\n\n" | |
"++{NOT} {<dev>} <reg>|<addr>{<logical-op><value>}<conditional-op><value>\n\n" | |
" If <dev> is not specified, CPU is assumed. <reg> is a register (scalar\n" | |
" or subscripted) belonging to the indicated device. <addr> is an address\n" | |
" in the address space of the indicated device. The <conditional-op>\n" | |
" and optional <logical-op> are the same as those used for \"search\n" | |
" specifiers\" by the EXAMINE and DEPOSIT commands. The <value>s are\n" | |
" expressed in the radix specified for <reg>, not in the radix for the\n" | |
" device when referencing a register and when an address is referenced\n" | |
" the device radix is used as the default.\n\n" | |
" If the <logical-op> and <value> are specified, the target register value\n" | |
" is first altered as indicated. The result is then compared to the\n" | |
" <value> via the <conditional-op>. If the result is true, the additional\n" | |
" command(s) are executed before proceeding to the next line in the command\n" | |
" file. Otherwise, the next command in the command file is processed.\n\n" | |
"5String Comparison Expressions\n" | |
" String Values can be compared with:\n" | |
"++{-i} {NOT} \"<string1>\"|EnVarName1 <compare-op> \"<string2>|EnvVarName2\"\n\n" | |
" The -i switch, if present, causes comparisons to be case insensitive.\n" | |
" <string1> and <string2> are quoted string values which may have\n" | |
" environment variables substituted as desired.\n" | |
" Either quoted string may alternatively be an environment variable name.\n" | |
" <compare-op> may be one of:\n\n" | |
"++== - equal\n" | |
"++EQU - equal\n" | |
"++!= - not equal\n" | |
"++NEQ - not equal\n" | |
"++< - less than\n" | |
"++LSS - less than\n" | |
"++<= - less than or equal\n" | |
"++LEQ - less than or equal\n" | |
"++> - greater than\n" | |
"++GTR - greater than\n" | |
"++>= - greater than or equal\n" | |
"++GEQ - greater than or equal\n\n" | |
" Comparisons are generic. This means that if both string1 and string2 are\n" | |
" comprised of all numeric digits, then the strings are converted to numbers\n" | |
" and a numeric comparison is performed. For example: \"+1\" EQU \"1\" will be\n" | |
" true.\n" | |
"5File Existence Expressions\n" | |
" File existence can be determined with:\n\n" | |
"++{NOT} EXIST \"<filespec>\"\n\n" | |
"++{NOT} EXIST <filespec>\n\n" | |
" Specifies a true (false {NOT}) condition if the file exists.\n" | |
"5File Comparison Expressions\n" | |
" Files can have their contents compared with:\n\n" | |
"++-D {NOT} \"<filespec1>\" == \"<filespec2>\" \n\n" | |
" Specifies a true (false {NOT}) condition if the indicated files\n" | |
" have the same contents.\n\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_EXIT "*Commands Exiting_The_Simulator" | |
"2Exiting The Simulator\n" | |
" EXIT (synonyms QUIT and BYE) returns control to the operating system.\n" | |
/***************** 80 character line width template *************************/ | |
#define HLP_SCREENSHOT "*Commands Screenshot_Video_Window" | |
"2Screenshot Video Window\n" | |
" Simulators with Video devices display the simulated video in a window\n" | |
" on the local system. The contents of that display can be saved in a\n" | |
" file with the SCREENSHOT command:\n\n" | |
" +SCREENSHOT screenshotfile\n\n" | |
#if defined(HAVE_LIBPNG) | |
" which will create a screen shot file called screenshotfile.png\n" | |
#else | |
" which will create a screen shot file called screenshotfile.bmp\n" | |
#endif | |
#define HLP_SPAWN "*Commands Executing_System_Commands" | |
"2Executing System Commands\n" | |
" The simulator can execute operating system commands with the ! (spawn)\n" | |
" command:\n\n" | |
"++! execute local command interpreter\n" | |
"++! <command> execute local host command\n" | |
" If no operating system command is provided, the simulator attempts to\n" | |
" launch the host operating system's command shell.\n" | |
" The exit status from the command which was executed is set as the command\n" | |
" completion status for the ! command. This may influence any enabled ON\n" | |
" condition traps\n"; | |
static CTAB cmd_table[] = { | |
{ "RESET", &reset_cmd, 0, HLP_RESET }, | |
{ "EXAMINE", &exdep_cmd, EX_E, HLP_EXAMINE }, | |
{ "IEXAMINE", &exdep_cmd, EX_E+EX_I, HLP_IEXAMINE }, | |
{ "DEPOSIT", &exdep_cmd, EX_D, HLP_DEPOSIT }, | |
{ "IDEPOSIT", &exdep_cmd, EX_D+EX_I, HLP_IDEPOSIT }, | |
{ "EVALUATE", &eval_cmd, 0, HLP_EVALUATE }, | |
{ "RUN", &run_cmd, RU_RUN, HLP_RUN, NULL, &run_cmd_message }, | |
{ "GO", &run_cmd, RU_GO, HLP_GO, NULL, &run_cmd_message }, | |
{ "STEP", &run_cmd, RU_STEP, HLP_STEP, NULL, &run_cmd_message }, | |
{ "NEXT", &run_cmd, RU_NEXT, HLP_NEXT, NULL, &run_cmd_message }, | |
{ "CONTINUE", &run_cmd, RU_CONT, HLP_CONTINUE, NULL, &run_cmd_message }, | |
{ "BOOT", &run_cmd, RU_BOOT, HLP_BOOT, NULL, &run_cmd_message }, | |
{ "BREAK", &brk_cmd, SSH_ST, HLP_BREAK }, | |
{ "NOBREAK", &brk_cmd, SSH_CL, HLP_NOBREAK }, | |
{ "DEBUG", &debug_cmd, 1, HLP_DEBUG}, | |
{ "NODEBUG", &debug_cmd, 0, HLP_NODEBUG }, | |
{ "ATTACH", &attach_cmd, 0, HLP_ATTACH }, | |
{ "DETACH", &detach_cmd, 0, HLP_DETACH }, | |
{ "ASSIGN", &assign_cmd, 0, HLP_ASSIGN }, | |
{ "DEASSIGN", &deassign_cmd, 0, HLP_DEASSIGN }, | |
{ "SAVE", &save_cmd, 0, HLP_SAVE }, | |
{ "RESTORE", &restore_cmd, 0, HLP_RESTORE }, | |
{ "GET", &restore_cmd, 0, NULL }, | |
{ "LOAD", &load_cmd, 0, HLP_LOAD }, | |
{ "DUMP", &load_cmd, 1, HLP_DUMP }, | |
{ "EXIT", &exit_cmd, 0, HLP_EXIT }, | |
{ "QUIT", &exit_cmd, 0, NULL }, | |
{ "BYE", &exit_cmd, 0, NULL }, | |
{ "CD", &set_default_cmd, 0, HLP_CD }, | |
{ "PWD", &pwd_cmd, 0, HLP_PWD }, | |
{ "DIR", &dir_cmd, 0, HLP_DIR }, | |
{ "LS", &dir_cmd, 0, HLP_LS }, | |
{ "TYPE", &type_cmd, 0, HLP_TYPE }, | |
{ "CAT", &type_cmd, 0, HLP_CAT }, | |
{ "DELETE", &delete_cmd, 0, HLP_DELETE }, | |
{ "RM", &delete_cmd, 0, HLP_RM }, | |
{ "COPY", ©_cmd, 0, HLP_COPY }, | |
{ "CP", ©_cmd, 0, HLP_CP }, | |
{ "SET", &set_cmd, 0, HLP_SET }, | |
{ "SHOW", &show_cmd, 0, HLP_SHOW }, | |
{ "DO", &do_cmd, 1, HLP_DO }, | |
{ "GOTO", &goto_cmd, 1, HLP_GOTO }, | |
{ "RETURN", &return_cmd, 0, HLP_RETURN }, | |
{ "SHIFT", &shift_cmd, 0, HLP_SHIFT }, | |
{ "CALL", &call_cmd, 0, HLP_CALL }, | |
{ "ON", &on_cmd, 0, HLP_ON }, | |
{ "IF", &assert_cmd, 0, HLP_IF }, | |
{ "ELSE", &assert_cmd, 2, HLP_IF }, | |
{ "PROCEED", &noop_cmd, 0, HLP_PROCEED }, | |
{ "IGNORE", &noop_cmd, 0, HLP_IGNORE }, | |
{ "ECHO", &echo_cmd, 0, HLP_ECHO }, | |
{ "ECHOF", &echof_cmd, 0, HLP_ECHOF }, | |
{ "ASSERT", &assert_cmd, 1, HLP_ASSERT }, | |
{ "SEND", &send_cmd, 1, HLP_SEND }, | |
{ "NOSEND", &send_cmd, 0, HLP_SEND }, | |
{ "EXPECT", &expect_cmd, 1, HLP_EXPECT }, | |
{ "NOEXPECT", &expect_cmd, 0, HLP_EXPECT }, | |
{ "SLEEP", &sleep_cmd, 0, HLP_SLEEP }, | |
{ "!", &spawn_cmd, 0, HLP_SPAWN }, | |
{ "HELP", &help_cmd, 0, HLP_HELP }, | |
#if defined(USE_SIM_VIDEO) | |
{ "SCREENSHOT", &screenshot_cmd,0, HLP_SCREENSHOT }, | |
#endif | |
{ NULL, NULL, 0 } | |
}; | |
static CTAB set_glob_tab[] = { | |
{ "CONSOLE", &sim_set_console, 0, HLP_SET_CONSOLE }, | |
{ "REMOTE", &sim_set_remote_console, 0, HLP_SET_REMOTE }, | |
{ "BREAK", &brk_cmd, SSH_ST, HLP_SET_BREAK }, | |
{ "NOBREAK", &brk_cmd, SSH_CL, HLP_SET_BREAK }, | |
{ "DEFAULT", &set_default_cmd, 1, HLP_SET_DEFAULT }, | |
{ "TELNET", &sim_set_telnet, 0 }, /* deprecated */ | |
{ "NOTELNET", &sim_set_notelnet, 0 }, /* deprecated */ | |
{ "LOG", &sim_set_logon, 0, HLP_SET_LOG }, | |
{ "NOLOG", &sim_set_logoff, 0, HLP_SET_LOG }, | |
{ "DEBUG", &sim_set_debon, 0, HLP_SET_DEBUG }, | |
{ "NODEBUG", &sim_set_deboff, 0, HLP_SET_DEBUG }, | |
{ "THROTTLE", &sim_set_throt, 1, HLP_SET_THROTTLE }, | |
{ "NOTHROTTLE", &sim_set_throt, 0, HLP_SET_THROTTLE }, | |
{ "CLOCKS", &sim_set_timers, 1, HLP_SET_CLOCKS }, | |
{ "ASYNCH", &sim_set_asynch, 1, HLP_SET_ASYNCH }, | |
{ "NOASYNCH", &sim_set_asynch, 0, HLP_SET_ASYNCH }, | |
{ "ENVIRONMENT", &sim_set_environment, 1, HLP_SET_ENVIRON }, | |
{ "ON", &set_on, 1, HLP_SET_ON }, | |
{ "NOON", &set_on, 0, HLP_SET_ON }, | |
{ "VERIFY", &set_verify, 1, HLP_SET_VERIFY }, | |
{ "VERBOSE", &set_verify, 1, HLP_SET_VERIFY }, | |
{ "NOVERIFY", &set_verify, 0, HLP_SET_VERIFY }, | |
{ "NOVERBOSE", &set_verify, 0, HLP_SET_VERIFY }, | |
{ "MESSAGE", &set_message, 1, HLP_SET_MESSAGE }, | |
{ "NOMESSAGE", &set_message, 0, HLP_SET_MESSAGE }, | |
{ "QUIET", &set_quiet, 1, HLP_SET_QUIET }, | |
{ "NOQUIET", &set_quiet, 0, HLP_SET_QUIET }, | |
{ "PROMPT", &set_prompt, 0, HLP_SET_PROMPT }, | |
{ NULL, NULL, 0 } | |
}; | |
static C1TAB set_dev_tab[] = { | |
{ "OCTAL", &set_dev_radix, 8 }, | |
{ "DECIMAL", &set_dev_radix, 10 }, | |
{ "HEX", &set_dev_radix, 16 }, | |
{ "BINARY", &set_dev_radix, 2 }, | |
{ "ENABLED", &set_dev_enbdis, 1 }, | |
{ "DISABLED", &set_dev_enbdis, 0 }, | |
{ "DEBUG", &set_dev_debug, 1 }, | |
{ "NODEBUG", &set_dev_debug, 0 }, | |
{ NULL, NULL, 0 } | |
}; | |
static C1TAB set_unit_tab[] = { | |
{ "ENABLED", &set_unit_enbdis, 1 }, | |
{ "DISABLED", &set_unit_enbdis, 0 }, | |
{ "DEBUG", &set_dev_debug, 2+1 }, | |
{ "NODEBUG", &set_dev_debug, 2+0 }, | |
{ NULL, NULL, 0 } | |
}; | |
static SHTAB show_glob_tab[] = { | |
{ "CONFIGURATION", &show_config, 0, HLP_SHOW_CONFIG }, | |
{ "DEVICES", &show_config, 1, HLP_SHOW_DEVICES }, | |
{ "FEATURES", &show_config, 2, HLP_SHOW_FEATURES }, | |
{ "QUEUE", &show_queue, 0, HLP_SHOW_QUEUE }, | |
{ "TIME", &show_time, 0, HLP_SHOW_TIME }, | |
{ "MODIFIERS", &show_mod_names, 0, HLP_SHOW_MODIFIERS }, | |
{ "NAMES", &show_log_names, 0, HLP_SHOW_NAMES }, | |
{ "SHOW", &show_show_commands, 0, HLP_SHOW_SHOW }, | |
{ "VERSION", &show_version, 1, HLP_SHOW_VERSION }, | |
{ "DEFAULT", &show_default, 0, HLP_SHOW_DEFAULT }, | |
{ "CONSOLE", &sim_show_console, 0, HLP_SHOW_CONSOLE }, | |
{ "REMOTE", &sim_show_remote_console, 0, HLP_SHOW_REMOTE }, | |
{ "BREAK", &show_break, 0, HLP_SHOW_BREAK }, | |
{ "LOG", &sim_show_log, 0, HLP_SHOW_LOG }, | |
{ "TELNET", &sim_show_telnet, 0 }, /* deprecated */ | |
{ "DEBUG", &sim_show_debug, 0, HLP_SHOW_DEBUG }, | |
{ "THROTTLE", &sim_show_throt, 0, HLP_SHOW_THROTTLE }, | |
{ "ASYNCH", &sim_show_asynch, 0, HLP_SHOW_ASYNCH }, | |
{ "ETHERNET", ð_show_devices, 0, HLP_SHOW_ETHERNET }, | |
{ "SERIAL", &sim_show_serial, 0, HLP_SHOW_SERIAL }, | |
{ "MULTIPLEXER", &tmxr_show_open_devices, 0, HLP_SHOW_MULTIPLEXER }, | |
{ "MUX", &tmxr_show_open_devices, 0, HLP_SHOW_MULTIPLEXER }, | |
#if defined(USE_SIM_VIDEO) | |
{ "VIDEO", &vid_show, 0, HLP_SHOW_VIDEO }, | |
#endif | |
{ "CLOCKS", &sim_show_timers, 0, HLP_SHOW_CLOCKS }, | |
{ "SEND", &sim_show_send, 0, HLP_SHOW_SEND }, | |
{ "EXPECT", &sim_show_expect, 0, HLP_SHOW_EXPECT }, | |
{ "ON", &show_on, 0, HLP_SHOW_ON }, | |
{ NULL, NULL, 0 } | |
}; | |
static SHTAB show_dev_tab[] = { | |
{ "RADIX", &show_dev_radix, 0 }, | |
{ "DEBUG", &show_dev_debug, 0 }, | |
{ "MODIFIERS", &show_dev_modifiers, 0 }, | |
{ "NAMES", &show_dev_logicals, 0 }, | |
{ "SHOW", &show_dev_show_commands, 0 }, | |
{ NULL, NULL, 0 } | |
}; | |
static SHTAB show_unit_tab[] = { | |
{ "DEBUG", &show_dev_debug, 1 }, | |
{ NULL, NULL, 0 } | |
}; | |
#if defined(_WIN32) || defined(__hpux) | |
static | |
int setenv(const char *envname, const char *envval, int overwrite) | |
{ | |
char *envstr = (char *)malloc(strlen(envname)+strlen(envval)+2); | |
int r; | |
sprintf(envstr, "%s=%s", envname, envval); | |
#if defined(_WIN32) | |
r = _putenv(envstr); | |
free(envstr); | |
#else | |
r = putenv(envstr); | |
#endif | |
return r; | |
} | |
static | |
int unsetenv(const char *envname) | |
{ | |
setenv(envname, "", 1); | |
return 0; | |
} | |
#endif | |
t_stat process_stdin_commands (t_stat stat, char *argv[]); | |
/* Main command loop */ | |
int main (int argc, char *argv[]) | |
{ | |
char cbuf[4*CBUFSIZE], *cptr, *cptr2; | |
char nbuf[PATH_MAX + 7]; | |
char **targv = NULL; | |
int32 i, sw; | |
t_bool lookswitch; | |
t_stat stat; | |
#if defined (__MWERKS__) && defined (macintosh) | |
argc = ccommand (&argv); | |
#endif | |
/* Make sure that argv has at least 10 elements and that it ends in a NULL pointer */ | |
targv = (char **)calloc (1+MAX(10, argc), sizeof(*targv)); | |
for (i=0; i<argc; i++) | |
targv[i] = argv[i]; | |
argv = targv; | |
set_prompt (0, "sim>"); /* start with set standard prompt */ | |
*cbuf = 0; /* init arg buffer */ | |
sim_switches = 0; /* init switches */ | |
lookswitch = TRUE; | |
stdnul = fopen(NULL_DEVICE,"wb"); | |
for (i = 1; i < argc; i++) { /* loop thru args */ | |
if (argv[i] == NULL) /* paranoia */ | |
continue; | |
if ((*argv[i] == '-') && lookswitch) { /* switch? */ | |
if (get_switches (argv[i], &sw, NULL) == SW_ERROR) { | |
fprintf (stderr, "Invalid switch %s\n", argv[i]); | |
return 0; | |
} | |
sim_switches = sim_switches | sw; | |
} | |
else { | |
if ((strlen (argv[i]) + strlen (cbuf) + 3) >= sizeof(cbuf)) { | |
fprintf (stderr, "Argument string too long\n"); | |
return 0; | |
} | |
if (*cbuf) /* concat args */ | |
strlcat (cbuf, " ", sizeof (cbuf)); | |
sprintf(&cbuf[strlen(cbuf)], "%s%s%s", strchr(argv[i], ' ') ? "\"" : "", argv[i], strchr(argv[i], ' ') ? "\"" : ""); | |
lookswitch = FALSE; /* no more switches */ | |
} | |
} /* end for */ | |
sim_quiet = sim_switches & SWMASK ('Q'); /* -q means quiet */ | |
sim_on_inherit = sim_switches & SWMASK ('O'); /* -o means inherit on state */ | |
sim_init_sock (); /* init socket capabilities */ | |
AIO_INIT; /* init Asynch I/O */ | |
if (sim_vm_init != NULL) /* call once only */ | |
(*sim_vm_init)(); | |
sim_finit (); /* init fio package */ | |
setenv ("SIM_NAME", sim_name, 1); /* Publish simulator name */ | |
stop_cpu = FALSE; | |
sim_interval = 0; | |
sim_time = sim_rtime = 0; | |
noqueue_time = 0; | |
sim_clock_queue = QUEUE_LIST_END; | |
sim_is_running = FALSE; | |
sim_log = NULL; | |
if (sim_emax <= 0) | |
sim_emax = 1; | |
if (sim_timer_init ()) { | |
fprintf (stderr, "Fatal timer initialization error\n"); | |
read_line_p ("Hit Return to exit: ", cbuf, sizeof (cbuf) - 1, stdin); | |
return 0; | |
} | |
sim_register_internal_device (&sim_expect_dev); | |
sim_register_internal_device (&sim_step_dev); | |
if ((stat = sim_ttinit ()) != SCPE_OK) { | |
fprintf (stderr, "Fatal terminal initialization error\n%s\n", | |
sim_error_text (stat)); | |
read_line_p ("Hit Return to exit: ", cbuf, sizeof (cbuf) - 1, stdin); | |
return 0; | |
} | |
if ((sim_eval = (t_value *) calloc (sim_emax, sizeof (t_value))) == NULL) { | |
fprintf (stderr, "Unable to allocate examine buffer\n"); | |
read_line_p ("Hit Return to exit: ", cbuf, sizeof (cbuf) - 1, stdin); | |
return 0; | |
}; | |
if (sim_dflt_dev == NULL) /* if no default */ | |
sim_dflt_dev = sim_devices[0]; | |
if ((stat = reset_all_p (0)) != SCPE_OK) { | |
fprintf (stderr, "Fatal simulator initialization error\n%s\n", | |
sim_error_text (stat)); | |
read_line_p ("Hit Return to exit: ", cbuf, sizeof (cbuf) - 1, stdin); | |
return 0; | |
} | |
if ((stat = sim_brk_init ()) != SCPE_OK) { | |
fprintf (stderr, "Fatal breakpoint table initialization error\n%s\n", | |
sim_error_text (stat)); | |
read_line_p ("Hit Return to exit: ", cbuf, sizeof (cbuf) - 1, stdin); | |
return 0; | |
} | |
signal (SIGINT, int_handler); | |
if (!sim_quiet) { | |
printf ("\n"); | |
show_version (stdout, NULL, NULL, 0, NULL); | |
} | |
show_version (stdnul, NULL, NULL, 1, NULL); /* Quietly set SIM_OSTYPE */ | |
if (((sim_dflt_dev->flags & DEV_DEBUG) == 0) && /* default device without debug? */ | |
(sim_dflt_dev->debflags == NULL)) { | |
sim_dflt_dev->flags |= DEV_DEBUG; /* connect default event debugging */ | |
sim_dflt_dev->debflags = sim_dflt_debug; | |
} | |
if (*argv[0]) { /* sim name arg? */ | |
char *np; /* "path.ini" */ | |
strncpy (nbuf, argv[0], PATH_MAX + 1); /* copy sim name */ | |
if ((np = (char *)match_ext (nbuf, "EXE"))) /* remove .exe */ | |
*np = 0; | |
np = strrchr (nbuf, '/'); /* stript path and try again in cwd */ | |
if (np == NULL) | |
np = strrchr (nbuf, '\\'); /* windows path separator */ | |
if (np == NULL) | |
np = strrchr (nbuf, ']'); /* VMS path separator */ | |
if (np != NULL) | |
setenv ("SIM_BIN_NAME", np+1, 1); /* Publish simulator binary name */ | |
setenv ("SIM_BIN_PATH", argv[0], 1); | |
} | |
sim_argv = argv; | |
cptr = getenv("HOME"); | |
if (cptr == NULL) { | |
cptr = getenv("HOMEPATH"); | |
cptr2 = getenv("HOMEDRIVE"); | |
} | |
else | |
cptr2 = NULL; | |
if (cptr && sizeof (nbuf) > strlen (cptr) + strlen ("/simh.ini") + 1) { | |
sprintf(nbuf, "\"%s%s%ssimh.ini\"", cptr2 ? cptr2 : "", cptr, strchr (cptr, '/') ? "/" : "\\"); | |
stat = do_cmd (-1, nbuf) & ~SCPE_NOMESSAGE; /* simh.ini proc cmd file */ | |
} | |
if (stat == SCPE_OPENERR) | |
stat = do_cmd (-1, "simh.ini"); /* simh.ini proc cmd file */ | |
if (*cbuf) /* cmd file arg? */ | |
stat = do_cmd (0, cbuf); /* proc cmd file */ | |
else if (*argv[0]) { /* sim name arg? */ | |
char *np; /* "path.ini" */ | |
nbuf[0] = '"'; /* starting " */ | |
strncpy (nbuf + 1, argv[0], PATH_MAX + 1); /* copy sim name */ | |
if ((np = (char *)match_ext (nbuf, "EXE"))) /* remove .exe */ | |
*np = 0; | |
strlcat (nbuf, ".ini\"", sizeof (nbuf)); /* add .ini" */ | |
stat = do_cmd (-1, nbuf) & ~SCPE_NOMESSAGE; /* proc default cmd file */ | |
if (stat == SCPE_OPENERR) { /* didn't exist/can't open? */ | |
np = strrchr (nbuf, '/'); /* stript path and try again in cwd */ | |
if (np == NULL) | |
np = strrchr (nbuf, '\\'); /* windows path separator */ | |
if (np == NULL) | |
np = strrchr (nbuf, ']'); /* VMS path separator */ | |
if (np != NULL) { | |
*np = '"'; | |
stat = do_cmd (-1, np) & ~SCPE_NOMESSAGE; /* proc default cmd file */ | |
} | |
} | |
} | |
if (sim_switches & SWMASK ('T')) /* Command Line -T switch */ | |
sim_library_unit_tests (); /* run library unit tests */ | |
stat = process_stdin_commands (SCPE_BARE_STATUS(stat), argv); | |
detach_all (0, TRUE); /* close files */ | |
sim_set_deboff (0, NULL); /* close debug */ | |
sim_set_logoff (0, NULL); /* close log */ | |
sim_set_notelnet (0, NULL); /* close Telnet */ | |
vid_close (); /* close video */ | |
sim_ttclose (); /* close console */ | |
AIO_CLEANUP; /* Asynch I/O */ | |
sim_cleanup_sock (); /* cleanup sockets */ | |
fclose (stdnul); /* close bit bucket file handle */ | |
free (targv); /* release any argv copy that was made */ | |
return 0; | |
} | |
t_stat process_stdin_commands (t_stat stat, char *argv[]) | |
{ | |
char cbuf[4*CBUFSIZE], gbuf[CBUFSIZE]; | |
CONST char *cptr; | |
t_stat stat_nomessage; | |
CTAB *cmdp; | |
stat = SCPE_BARE_STATUS(stat); /* remove possible flag */ | |
while (stat != SCPE_EXIT) { /* in case exit */ | |
if (stop_cpu) { /* SIGINT happened? */ | |
stop_cpu = FALSE; | |
if (!sim_ttisatty()) { | |
stat = SCPE_EXIT; | |
break; | |
} | |
if (sim_on_actions[sim_do_depth][ON_SIGINT_ACTION]) | |
sim_brk_setact (sim_on_actions[sim_do_depth][ON_SIGINT_ACTION]); | |
} | |
if ((cptr = sim_brk_getact (cbuf, sizeof(cbuf)))) { /* pending action? */ | |
if (sim_do_echo) | |
printf ("%s+ %s\n", sim_prompt, cptr); /* echo */ | |
} | |
else { | |
if (sim_vm_read != NULL) { /* sim routine? */ | |
printf ("%s", sim_prompt); /* prompt */ | |
cptr = (*sim_vm_read) (cbuf, sizeof(cbuf), stdin); | |
} | |
else | |
cptr = read_line_p (sim_prompt, cbuf, sizeof(cbuf), stdin);/* read with prompt*/ | |
} | |
if (cptr == NULL) { /* EOF? or SIGINT? */ | |
if (sim_ttisatty()) { | |
printf ("\n"); | |
continue; /* ignore tty EOF */ | |
} | |
else | |
break; /* otherwise exit */ | |
} | |
if (*cptr == 0) /* ignore blank */ | |
continue; | |
sim_cmd_echoed = TRUE; | |
sim_sub_args (cbuf, sizeof(cbuf), argv); | |
if (sim_log) /* log cmd */ | |
fprintf (sim_log, "%s%s\n", sim_prompt, cptr); | |
if (sim_deb && (sim_deb != sim_log) && (sim_deb != stdout)) | |
fprintf (sim_deb, "%s%s\n", sim_prompt, cptr); | |
sim_if_cmd_last[sim_do_depth] = sim_if_cmd[sim_do_depth]; | |
sim_if_result_last[sim_do_depth] = sim_if_result[sim_do_depth]; | |
sim_if_result[sim_do_depth] = sim_if_cmd[sim_do_depth] = FALSE; | |
cptr = get_glyph_cmd (cptr, gbuf); /* get command glyph */ | |
sim_switches = 0; /* init switches */ | |
if ((cmdp = find_cmd (gbuf))) /* lookup command */ | |
stat = cmdp->action (cmdp->arg, cptr); /* if found, exec */ | |
else | |
stat = SCPE_UNK; | |
stat_nomessage = stat & SCPE_NOMESSAGE; /* extract possible message supression flag */ | |
stat_nomessage = stat_nomessage || (!sim_show_message);/* Apply global suppression */ | |
stat = SCPE_BARE_STATUS(stat); /* remove possible flag */ | |
sim_last_cmd_stat = stat; /* save command error status */ | |
if (!stat_nomessage) { /* displaying message status? */ | |
if (cmdp && (cmdp->message)) /* special message handler? */ | |
cmdp->message (NULL, stat); /* let it deal with display */ | |
else | |
if (stat >= SCPE_BASE) /* error? */ | |
sim_printf ("%s\n", sim_error_text (stat)); | |
} | |
if (sim_vm_post != NULL) | |
(*sim_vm_post) (TRUE); | |
} /* end while */ | |
return stat; | |
} | |
/* Set prompt routine */ | |
t_stat set_prompt (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE], *gptr; | |
if ((!cptr) || (*cptr == '\0')) | |
return SCPE_ARG; | |
cptr = get_glyph_nc (cptr, gbuf, '"'); /* get quote delimited token */ | |
if (gbuf[0] == '\0') { /* Token started with quote */ | |
gbuf[sizeof (gbuf)-1] = '\0'; | |
strlcpy (gbuf, cptr, sizeof (gbuf)); | |
gptr = strchr (gbuf, '"'); | |
if (gptr) | |
*gptr = '\0'; | |
} | |
sim_prompt = (char *)realloc (sim_prompt, strlen (gbuf) + 2); /* nul terminator and trailing blank */ | |
sprintf (sim_prompt, "%s ", gbuf); | |
return SCPE_OK; | |
} | |
/* Find command routine */ | |
CTAB *find_cmd (const char *gbuf) | |
{ | |
CTAB *cmdp = NULL; | |
if (sim_vm_cmd) /* try ext commands */ | |
cmdp = find_ctab (sim_vm_cmd, gbuf); | |
if (cmdp == NULL) /* try regular cmds */ | |
cmdp = find_ctab (cmd_table, gbuf); | |
return cmdp; | |
} | |
/* Exit command */ | |
t_stat exit_cmd (int32 flag, CONST char *cptr) | |
{ | |
return SCPE_EXIT; | |
} | |
/* Help command */ | |
/* Used when sorting a list of command names */ | |
static int _cmd_name_compare (const void *pa, const void *pb) | |
{ | |
CTAB * const *a = (CTAB * const *)pa; | |
CTAB * const *b = (CTAB * const *)pb; | |
return strcmp((*a)->name, (*b)->name); | |
} | |
void fprint_help (FILE *st) | |
{ | |
CTAB *cmdp; | |
CTAB **hlp_cmdp = NULL; | |
int cmd_cnt = 0; | |
int cmd_size = 0; | |
size_t max_cmdname_size = 0; | |
int i, line_offset; | |
for (cmdp = sim_vm_cmd; cmdp && (cmdp->name != NULL); cmdp++) { | |
if (cmdp->help) { | |
if (cmd_cnt >= cmd_size) { | |
cmd_size += 20; | |
hlp_cmdp = (CTAB **)realloc (hlp_cmdp, sizeof(*hlp_cmdp)*cmd_size); | |
} | |
hlp_cmdp[cmd_cnt] = cmdp; | |
++cmd_cnt; | |
if (strlen(cmdp->name) > max_cmdname_size) | |
max_cmdname_size = strlen(cmdp->name); | |
} | |
} | |
for (cmdp = cmd_table; cmdp && (cmdp->name != NULL); cmdp++) { | |
if (cmdp->help && (!sim_vm_cmd || !find_ctab (sim_vm_cmd, cmdp->name))) { | |
if (cmd_cnt >= cmd_size) { | |
cmd_size += 20; | |
hlp_cmdp = (CTAB **)realloc (hlp_cmdp, sizeof(*hlp_cmdp)*cmd_size); | |
} | |
hlp_cmdp[cmd_cnt] = cmdp; | |
++cmd_cnt; | |
if (strlen (cmdp->name) > max_cmdname_size) | |
max_cmdname_size = strlen(cmdp->name); | |
} | |
} | |
fprintf (st, "Help is available for the following commands:\n\n "); | |
qsort (hlp_cmdp, cmd_cnt, sizeof(*hlp_cmdp), _cmd_name_compare); | |
line_offset = 4; | |
for (i=0; i<cmd_cnt; ++i) { | |
fputs (hlp_cmdp[i]->name, st); | |
line_offset += 5 + max_cmdname_size; | |
if (line_offset + max_cmdname_size > 79) { | |
line_offset = 4; | |
fprintf (st, "\n "); | |
} | |
else | |
fprintf (st, "%*s", (int)(max_cmdname_size + 5 - strlen (hlp_cmdp[i]->name)), ""); | |
} | |
free (hlp_cmdp); | |
fprintf (st, "\n"); | |
return; | |
} | |
static void fprint_header (FILE *st, t_bool *pdone, char *context) | |
{ | |
if (!*pdone) | |
fprintf (st, "%s", context); | |
*pdone = TRUE; | |
} | |
void fprint_reg_help_ex (FILE *st, DEVICE *dptr, t_bool silent) | |
{ | |
REG *rptr, *trptr; | |
t_bool found = FALSE; | |
t_bool all_unique = TRUE; | |
size_t max_namelen = 0; | |
DEVICE *tdptr; | |
CONST char *tptr; | |
char *namebuf; | |
char rangebuf[32]; | |
if (dptr->registers) | |
for (rptr = dptr->registers; rptr->name != NULL; rptr++) { | |
if (rptr->flags & REG_HIDDEN) | |
continue; | |
if (rptr->depth > 1) | |
sprintf (rangebuf, "[%d:%d]", 0, rptr->depth-1); | |
else | |
strcpy (rangebuf, ""); | |
if (max_namelen < (strlen(rptr->name) + strlen (rangebuf))) | |
max_namelen = strlen(rptr->name) + strlen (rangebuf); | |
found = TRUE; | |
trptr = find_reg_glob (rptr->name, &tptr, &tdptr); | |
if ((trptr == NULL) || (tdptr != dptr)) | |
all_unique = FALSE; | |
} | |
if (!found) { | |
if (!silent) | |
fprintf (st, "No register help is available for the %s device\n", dptr->name); | |
} | |
else { | |
namebuf = (char *)calloc (max_namelen + 1, sizeof (*namebuf)); | |
fprintf (st, "\nThe %s device implements these registers:\n\n", dptr->name); | |
for (rptr = dptr->registers; rptr->name != NULL; rptr++) { | |
if (rptr->flags & REG_HIDDEN) | |
continue; | |
if (rptr->depth <= 1) | |
sprintf (namebuf, "%*s", -((int)max_namelen), rptr->name); | |
else { | |
sprintf (rangebuf, "[%d:%d]", 0, rptr->depth-1); | |
sprintf (namebuf, "%s%*s", rptr->name, (int)(strlen(rptr->name))-((int)max_namelen), rangebuf); | |
} | |
if (all_unique) { | |
fprintf (st, " %s %4d %s\n", namebuf, rptr->width, rptr->desc ? rptr->desc : ""); | |
continue; | |
} | |
trptr = find_reg_glob (rptr->name, &tptr, &tdptr); | |
if ((trptr == NULL) || (tdptr != dptr)) | |
fprintf (st, " %s %s %4d %s\n", dptr->name, namebuf, rptr->width, rptr->desc ? rptr->desc : ""); | |
else | |
fprintf (st, " %*s %s %4d %s\n", (int)strlen(dptr->name), "", namebuf, rptr->width, rptr->desc ? rptr->desc : ""); | |
} | |
free (namebuf); | |
} | |
} | |
void fprint_reg_help (FILE *st, DEVICE *dptr) | |
{ | |
fprint_reg_help_ex (st, dptr, TRUE); | |
} | |
void fprint_attach_help_ex (FILE *st, DEVICE *dptr, t_bool silent) | |
{ | |
if (dptr->attach_help) { | |
fprintf (st, "\n%s device attach commands:\n\n", dptr->name); | |
dptr->attach_help (st, dptr, NULL, 0, NULL); | |
return; | |
} | |
if (DEV_TYPE(dptr) == DEV_MUX) { | |
fprintf (st, "\n%s device attach commands:\n\n", dptr->name); | |
tmxr_attach_help (st, dptr, NULL, 0, NULL); | |
return; | |
} | |
if (DEV_TYPE(dptr) == DEV_DISK) { | |
fprintf (st, "\n%s device attach commands:\n\n", dptr->name); | |
sim_disk_attach_help (st, dptr, NULL, 0, NULL); | |
return; | |
} | |
if (DEV_TYPE(dptr) == DEV_TAPE) { | |
fprintf (st, "\n%s device attach commands:\n\n", dptr->name); | |
sim_tape_attach_help (st, dptr, NULL, 0, NULL); | |
return; | |
} | |
if (DEV_TYPE(dptr) == DEV_ETHER) { | |
fprintf (st, "\n%s device attach commands:\n\n", dptr->name); | |
eth_attach_help (st, dptr, NULL, 0, NULL); | |
return; | |
} | |
#if defined(USE_SIM_CARD) && defined(SIM_CARD_API) | |
if (DEV_TYPE(dptr) == DEV_CARD) { | |
fprintf (st, "\n%s device attach commands:\n\n", dptr->name); | |
sim_card_attach_help (st, dptr, NULL, 0, NULL); | |
return; | |
} | |
#endif | |
if (!silent) { | |
fprintf (st, "No ATTACH help is available for the %s device\n", dptr->name); | |
if (dptr->help) | |
dptr->help (st, dptr, NULL, 0, NULL); | |
} | |
} | |
void fprint_set_help_ex (FILE *st, DEVICE *dptr, t_bool silent) | |
{ | |
MTAB *mptr; | |
DEBTAB *dep; | |
t_bool found = FALSE; | |
t_bool deb_desc_available = FALSE; | |
char buf[CBUFSIZE], header[CBUFSIZE]; | |
sprintf (header, "\n%s device SET commands:\n\n", dptr->name); | |
if (dptr->modifiers) { | |
for (mptr = dptr->modifiers; mptr->mask != 0; mptr++) { | |
if (!MODMASK(mptr,MTAB_VDV) && MODMASK(mptr,MTAB_VUN) && (dptr->numunits != 1)) | |
continue; /* skip unit only extended modifiers */ | |
if ((dptr->numunits != 1) && !(mptr->mask & MTAB_XTD)) | |
continue; /* skip unit only simple modifiers */ | |
if (mptr->mstring) { | |
fprint_header (st, &found, header); | |
sprintf (buf, "set %s %s%s", sim_dname (dptr), mptr->mstring, (strchr(mptr->mstring, '=')) ? "" : (MODMASK(mptr,MTAB_VALR) ? "=val" : (MODMASK(mptr,MTAB_VALO) ? "{=val}" : ""))); | |
if ((strlen (buf) < 30) || (!mptr->help)) | |
fprintf (st, "%-30s\t%s\n", buf, mptr->help ? mptr->help : ""); | |
else | |
fprintf (st, "%s\n%-30s\t%s\n", buf, "", mptr->help); | |
} | |
} | |
} | |
if (dptr->flags & DEV_DISABLE) { | |
fprint_header (st, &found, header); | |
sprintf (buf, "set %s ENABLE", sim_dname (dptr)); | |
fprintf (st, "%-30s\tEnables device %s\n", buf, sim_dname (dptr)); | |
sprintf (buf, "set %s DISABLE", sim_dname (dptr)); | |
fprintf (st, "%-30s\tDisables device %s\n", buf, sim_dname (dptr)); | |
} | |
if ((dptr->flags & DEV_DEBUG) || (dptr->debflags)) { | |
fprint_header (st, &found, header); | |
sprintf (buf, "set %s DEBUG", sim_dname (dptr)); | |
fprintf (st, "%-30s\tEnables debugging for device %s\n", buf, sim_dname (dptr)); | |
sprintf (buf, "set %s NODEBUG", sim_dname (dptr)); | |
fprintf (st, "%-30s\tDisables debugging for device %s\n", buf, sim_dname (dptr)); | |
if (dptr->debflags) { | |
strcpy (buf, ""); | |
fprintf (st, "set %s DEBUG=", sim_dname (dptr)); | |
for (dep = dptr->debflags; dep->name != NULL; dep++) { | |
fprintf (st, "%s%s", ((dep == dptr->debflags) ? "" : ";"), dep->name); | |
deb_desc_available |= ((dep->desc != NULL) && (dep->desc[0] != '\0')); | |
} | |
fprintf (st, "\n"); | |
fprintf (st, "%-30s\tEnables specific debugging for device %s\n", buf, sim_dname (dptr)); | |
fprintf (st, "set %s NODEBUG=", sim_dname (dptr)); | |
for (dep = dptr->debflags; dep->name != NULL; dep++) | |
fprintf (st, "%s%s", ((dep == dptr->debflags) ? "" : ";"), dep->name); | |
fprintf (st, "\n"); | |
fprintf (st, "%-30s\tDisables specific debugging for device %s\n", buf, sim_dname (dptr)); | |
} | |
} | |
if ((dptr->modifiers) && (dptr->units) && (dptr->numunits != 1)) { | |
if (dptr->units->flags & UNIT_DISABLE) { | |
fprint_header (st, &found, header); | |
sprintf (buf, "set %sn ENABLE", sim_dname (dptr)); | |
fprintf (st, "%-30s\tEnables unit %sn\n", buf, sim_dname (dptr)); | |
sprintf (buf, "set %sn DISABLE", sim_dname (dptr)); | |
fprintf (st, "%-30s\tDisables unit %sn\n", buf, sim_dname (dptr)); | |
} | |
if (((dptr->flags & DEV_DEBUG) || (dptr->debflags)) && | |
((DEV_TYPE(dptr) == DEV_DISK) || (DEV_TYPE(dptr) == DEV_TAPE))) { | |
sprintf (buf, "set %sn DEBUG", sim_dname (dptr)); | |
fprintf (st, "%-30s\tEnables debugging for device unit %sn\n", buf, sim_dname (dptr)); | |
sprintf (buf, "set %sn NODEBUG", sim_dname (dptr)); | |
fprintf (st, "%-30s\tDisables debugging for device unit %sn\n", buf, sim_dname (dptr)); | |
if (dptr->debflags) { | |
strcpy (buf, ""); | |
fprintf (st, "set %sn DEBUG=", sim_dname (dptr)); | |
for (dep = dptr->debflags; dep->name != NULL; dep++) | |
fprintf (st, "%s%s", ((dep == dptr->debflags) ? "" : ";"), dep->name); | |
fprintf (st, "\n"); | |
fprintf (st, "%-30s\tEnables specific debugging for device unit %sn\n", buf, sim_dname (dptr)); | |
fprintf (st, "set %sn NODEBUG=", sim_dname (dptr)); | |
for (dep = dptr->debflags; dep->name != NULL; dep++) | |
fprintf (st, "%s%s", ((dep == dptr->debflags) ? "" : ";"), dep->name); | |
fprintf (st, "\n"); | |
fprintf (st, "%-30s\tDisables specific debugging for device unit %sn\n", buf, sim_dname (dptr)); | |
} | |
} | |
for (mptr = dptr->modifiers; mptr->mask != 0; mptr++) { | |
if ((!MODMASK(mptr,MTAB_VUN)) && MODMASK(mptr,MTAB_XTD)) | |
continue; /* skip device only modifiers */ | |
if ((!mptr->valid) && MODMASK(mptr,MTAB_XTD)) | |
continue; /* skip show only modifiers */ | |
if (mptr->mstring) { | |
fprint_header (st, &found, header); | |
sprintf (buf, "set %s%s %s%s", sim_dname (dptr), (dptr->numunits > 1) ? "n" : "0", mptr->mstring, (strchr(mptr->mstring, '=')) ? "" : (MODMASK(mptr,MTAB_VALR) ? "=val" : (MODMASK(mptr,MTAB_VALO) ? "{=val}": ""))); | |
fprintf (st, "%-30s\t%s\n", buf, (strchr (mptr->mstring, '=')) ? ((strlen (buf) > 30) ? "" : mptr->help) : (mptr->help ? mptr->help : "")); | |
if ((strchr (mptr->mstring, '=')) && (strlen (buf) > 30)) | |
fprintf (st, "%-30s\t%s\n", "", mptr->help); | |
} | |
} | |
} | |
if (deb_desc_available) { | |
fprintf (st, "\n*%s device DEBUG settings:\n", sim_dname (dptr)); | |
for (dep = dptr->debflags; dep->name != NULL; dep++) | |
fprintf (st, "%4s%-12s%s\n", "", dep->name, dep->desc ? dep->desc : ""); | |
} | |
if (!found && !silent) | |
fprintf (st, "No SET help is available for the %s device\n", dptr->name); | |
} | |
void fprint_set_help (FILE *st, DEVICE *dptr) | |
{ | |
fprint_set_help_ex (st, dptr, TRUE); | |
} | |
void fprint_show_help_ex (FILE *st, DEVICE *dptr, t_bool silent) | |
{ | |
MTAB *mptr; | |
t_bool found = FALSE; | |
char buf[CBUFSIZE], header[CBUFSIZE]; | |
sprintf (header, "\n%s device SHOW commands:\n\n", dptr->name); | |
if (dptr->modifiers) { | |
for (mptr = dptr->modifiers; mptr->mask != 0; mptr++) { | |
if (!MODMASK(mptr,MTAB_VDV) && MODMASK(mptr,MTAB_VUN) && (dptr->numunits != 1)) | |
continue; /* skip unit only extended modifiers */ | |
if ((dptr->numunits != 1) && !(mptr->mask & MTAB_XTD)) | |
continue; /* skip unit only simple modifiers */ | |
if ((!mptr->disp) || (!mptr->pstring) || !(*mptr->pstring)) | |
continue; | |
fprint_header (st, &found, header); | |
sprintf (buf, "show %s %s%s", sim_dname (dptr), mptr->pstring, MODMASK(mptr,MTAB_SHP) ? "=arg" : ""); | |
fprintf (st, "%-30s\t%s\n", buf, mptr->help ? mptr->help : ""); | |
} | |
} | |
if ((dptr->flags & DEV_DEBUG) || (dptr->debflags)) { | |
fprint_header (st, &found, header); | |
sprintf (buf, "show %s DEBUG", sim_dname (dptr)); | |
fprintf (st, "%-30s\tDisplays debugging status for device %s\n", buf, sim_dname (dptr)); | |
} | |
if ((dptr->modifiers) && (dptr->units) && (dptr->numunits != 1)) { | |
for (mptr = dptr->modifiers; mptr->mask != 0; mptr++) { | |
if ((!MODMASK(mptr,MTAB_VUN)) && MODMASK(mptr,MTAB_XTD)) | |
continue; /* skip device only modifiers */ | |
if ((!mptr->disp) || (!mptr->pstring)) | |
continue; | |
fprint_header (st, &found, header); | |
sprintf (buf, "show %s%s %s%s", sim_dname (dptr), (dptr->numunits > 1) ? "n" : "0", mptr->pstring, MODMASK(mptr,MTAB_SHP) ? "=arg" : ""); | |
fprintf (st, "%-30s\t%s\n", buf, mptr->help ? mptr->help : ""); | |
} | |
} | |
if (!found && !silent) | |
fprintf (st, "No SHOW help is available for the %s device\n", dptr->name); | |
} | |
void fprint_show_help (FILE *st, DEVICE *dptr) | |
{ | |
fprint_show_help_ex (st, dptr, TRUE); | |
} | |
void fprint_brk_help_ex (FILE *st, DEVICE *dptr, t_bool silent) | |
{ | |
BRKTYPTAB *brkt = dptr->brk_types; | |
char gbuf[CBUFSIZE]; | |
if (sim_brk_types == 0) { | |
if ((dptr != sim_dflt_dev) && (!silent)) { | |
fprintf (st, "Breakpoints are not supported in the %s simulator\n", sim_name); | |
if (dptr->help) | |
dptr->help (st, dptr, NULL, 0, NULL); | |
} | |
return; | |
} | |
if (brkt == NULL) { | |
int i; | |
if (dptr == sim_dflt_dev) { | |
if (sim_brk_types & ~sim_brk_dflt) { | |
fprintf (st, "%s supports the following breakpoint types:\n", sim_dname (dptr)); | |
for (i=0; i<26; i++) { | |
if (sim_brk_types & (1<<i)) | |
fprintf (st, " -%c\n", 'A'+i); | |
} | |
} | |
fprintf (st, "The default breakpoint type is: %s\n", put_switches (gbuf, sizeof(gbuf), sim_brk_dflt)); | |
} | |
return; | |
} | |
fprintf (st, "%s supports the following breakpoint types:\n", sim_dname (dptr)); | |
while (brkt->btyp) { | |
fprintf (st, " %s %s\n", put_switches (gbuf, sizeof(gbuf), brkt->btyp), brkt->desc); | |
++brkt; | |
} | |
fprintf (st, "The default breakpoint type is: %s\n", put_switches (gbuf, sizeof(gbuf), sim_brk_dflt)); | |
} | |
t_stat help_dev_help (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, const char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
CTAB *cmdp; | |
if (*cptr) { | |
const char *gptr = get_glyph (cptr, gbuf, 0); | |
if ((cmdp = find_cmd (gbuf))) { | |
if (cmdp->action == &exdep_cmd) { | |
if (dptr->help) /* Shouldn't this pass cptr so the device knows which command invoked? */ | |
return dptr->help (st, dptr, uptr, flag, gptr); | |
else | |
fprintf (st, "No help available for the %s %s command\n", cmdp->name, sim_dname(dptr)); | |
return SCPE_OK; | |
} | |
if (cmdp->action == &set_cmd) { | |
fprint_set_help_ex (st, dptr, FALSE); | |
return SCPE_OK; | |
} | |
if (cmdp->action == &show_cmd) { | |
fprint_show_help_ex (st, dptr, FALSE); | |
return SCPE_OK; | |
} | |
if (cmdp->action == &attach_cmd) { | |
fprint_attach_help_ex (st, dptr, FALSE); | |
return SCPE_OK; | |
} | |
if (cmdp->action == &brk_cmd) { | |
fprint_brk_help_ex (st, dptr, FALSE); | |
return SCPE_OK; | |
} | |
if (dptr->help) | |
return dptr->help (st, dptr, uptr, flag, cptr); | |
fprintf (st, "No %s help is available for the %s device\n", cmdp->name, dptr->name); | |
return SCPE_OK; | |
} | |
if (MATCH_CMD (gbuf, "REGISTERS") == 0) { | |
fprint_reg_help_ex (st, dptr, FALSE); | |
return SCPE_OK; | |
} | |
if (dptr->help) | |
return dptr->help (st, dptr, uptr, flag, cptr); | |
fprintf (st, "No %s help is available for the %s device\n", gbuf, dptr->name); | |
return SCPE_OK; | |
} | |
if (dptr->help) { | |
return dptr->help (st, dptr, uptr, flag, cptr); | |
} | |
if (dptr->description) | |
fprintf (st, "%s %s help\n", dptr->description (dptr), dptr->name); | |
else | |
fprintf (st, "%s help\n", dptr->name); | |
fprint_set_help_ex (st, dptr, TRUE); | |
fprint_show_help_ex (st, dptr, TRUE); | |
fprint_attach_help_ex (st, dptr, TRUE); | |
fprint_reg_help_ex (st, dptr, TRUE); | |
fprint_brk_help_ex (st, dptr, TRUE); | |
return SCPE_OK; | |
} | |
t_stat help_cmd_output (int32 flag, const char *help, const char *help_base) | |
{ | |
switch (help[0]) { | |
case '*': | |
scp_help (stdout, NULL, NULL, flag, help_base ? help_base : simh_help, help+1); | |
if (sim_log) | |
scp_help (sim_log, NULL, NULL, flag | SCP_HELP_FLAT, help_base ? help_base : simh_help, help+1); | |
break; | |
default: | |
fputs (help, stdout); | |
if (sim_log) | |
fputs (help, sim_log); | |
break; | |
} | |
return SCPE_OK; | |
} | |
t_stat help_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
CTAB *cmdp; | |
GET_SWITCHES (cptr); | |
if (sim_switches & SWMASK ('F')) | |
flag = flag | SCP_HELP_FLAT; | |
if (*cptr) { | |
cptr = get_glyph (cptr, gbuf, 0); | |
if ((cmdp = find_cmd (gbuf))) { | |
if (*cptr) { | |
if ((cmdp->action == &set_cmd) || (cmdp->action == &show_cmd)) { | |
DEVICE *dptr; | |
UNIT *uptr; | |
t_stat r; | |
cptr = get_glyph (cptr, gbuf, 0); | |
dptr = find_unit (gbuf, &uptr); | |
if (dptr == NULL) | |
dptr = find_dev (gbuf); | |
if (dptr != NULL) { | |
r = help_dev_help (stdout, dptr, uptr, flag, (cmdp->action == &set_cmd) ? "SET" : "SHOW"); | |
if (sim_log) | |
help_dev_help (sim_log, dptr, uptr, flag | SCP_HELP_FLAT, (cmdp->action == &set_cmd) ? "SET" : "SHOW"); | |
return r; | |
} | |
if (cmdp->action == &set_cmd) { /* HELP SET xxx (not device or unit) */ | |
if ((cmdp = find_ctab (set_glob_tab, gbuf)) && | |
(cmdp->help)) | |
return help_cmd_output (flag, cmdp->help, cmdp->help_base); | |
} | |
else { /* HELP SHOW xxx (not device or unit) */ | |
SHTAB *shptr = find_shtab (show_glob_tab, gbuf); | |
if ((shptr == NULL) || (shptr->help == NULL) || (*shptr->help == '\0')) | |
return SCPE_ARG; | |
return help_cmd_output (flag, shptr->help, NULL); | |
} | |
return SCPE_ARG; | |
} | |
else | |
return SCPE_2MARG; | |
} | |
if (cmdp->help) { | |
if (strcmp (cmdp->name, "HELP") == 0) { | |
DEVICE *dptr; | |
int i; | |
for (i = 0; (dptr = sim_devices[i]) != NULL; i++) { | |
if (dptr->help) | |
sim_printf ("h{elp} %-17s display help for device %s\n", dptr->name, dptr->name); | |
if (dptr->attach_help || | |
(DEV_TYPE(dptr) == DEV_MUX) || | |
(DEV_TYPE(dptr) == DEV_DISK) || | |
(DEV_TYPE(dptr) == DEV_TAPE)) { | |
sim_printf ("h{elp} %s ATTACH\t display help for device %s ATTACH command\n", dptr->name, dptr->name); | |
} | |
if (dptr->registers) { | |
if (dptr->registers->name != NULL) | |
sim_printf ("h{elp} %s REGISTERS\t display help for device %s register variables\n", dptr->name, dptr->name); | |
} | |
if (dptr->modifiers) { | |
MTAB *mptr; | |
for (mptr = dptr->modifiers; mptr->pstring != NULL; mptr++) { | |
if (mptr->help) { | |
sim_printf ("h{elp} %s SET\t\t display help for device %s SET commands (modifiers)\n", dptr->name, dptr->name); | |
break; | |
} | |
} | |
} | |
} | |
} | |
else { | |
if (((cmdp->action == &exdep_cmd) || (0 == strcmp(cmdp->name, "BOOT"))) && | |
sim_dflt_dev->help) { | |
sim_dflt_dev->help (stdout, sim_dflt_dev, sim_dflt_dev->units, 0, cmdp->name); | |
if (sim_log) | |
sim_dflt_dev->help (sim_log, sim_dflt_dev, sim_dflt_dev->units, 0, cmdp->name); | |
} | |
} | |
help_cmd_output (flag, cmdp->help, cmdp->help_base); | |
} | |
else { /* no help so it is likely a command alias */ | |
CTAB *cmdpa; | |
for (cmdpa=cmd_table; cmdpa->name != NULL; cmdpa++) | |
if ((cmdpa->action == cmdp->action) && (cmdpa->help)) { | |
sim_printf ("%s is an alias for the %s command:\n%s", | |
cmdp->name, cmdpa->name, cmdpa->help); | |
break; | |
} | |
if (cmdpa->name == NULL) /* not found? */ | |
sim_printf ("No help available for the %s command\n", cmdp->name); | |
} | |
} | |
else { | |
DEVICE *dptr; | |
UNIT *uptr; | |
t_stat r; | |
dptr = find_unit (gbuf, &uptr); | |
if (dptr == NULL) { | |
dptr = find_dev (gbuf); | |
if (dptr == NULL) | |
return SCPE_ARG; | |
if (dptr->flags & DEV_DISABLE) | |
sim_printf ("Device %s is currently disabled\n", dptr->name); | |
} | |
r = help_dev_help (stdout, dptr, uptr, flag, cptr); | |
if (sim_log) | |
help_dev_help (sim_log, dptr, uptr, flag | SCP_HELP_FLAT, cptr); | |
return r; | |
} | |
} | |
else { | |
fprint_help (stdout); | |
if (sim_log) | |
fprint_help (sim_log); | |
} | |
return SCPE_OK; | |
} | |
/* Spawn command */ | |
t_stat spawn_cmd (int32 flag, CONST char *cptr) | |
{ | |
t_stat status; | |
if ((cptr == NULL) || (strlen (cptr) == 0)) | |
cptr = getenv("SHELL"); | |
if ((cptr == NULL) || (strlen (cptr) == 0)) | |
cptr = getenv("ComSpec"); | |
#if defined (VMS) | |
if ((cptr == NULL) || (strlen (cptr) == 0)) | |
cptr = "SPAWN/INPUT=SYS$COMMAND:"; | |
#endif | |
fflush(stdout); /* flush stdout */ | |
if (sim_log) /* flush log if enabled */ | |
fflush (sim_log); | |
if (sim_deb) /* flush debug if enabled */ | |
fflush (sim_deb); | |
status = system (cptr); | |
#if defined (VMS) | |
printf ("\n"); | |
#endif | |
return status; | |
} | |
/* Screenshot command */ | |
t_stat screenshot_cmd (int32 flag, CONST char *cptr) | |
{ | |
if ((cptr == NULL) || (strlen (cptr) == 0)) | |
return SCPE_ARG; | |
#if defined (USE_SIM_VIDEO) | |
return vid_screenshot (cptr); | |
#else | |
sim_printf ("No video device\n"); | |
return SCPE_UNK|SCPE_NOMESSAGE; | |
#endif | |
} | |
/* Echo command */ | |
t_stat echo_cmd (int32 flag, CONST char *cptr) | |
{ | |
sim_printf ("%s\n", cptr); | |
return SCPE_OK; | |
} | |
/* EchoF command */ | |
t_stat echof_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
CONST char *tptr; | |
TMLN *lp = NULL; | |
uint8 dbuf[4*CBUFSIZE]; | |
uint32 dsize = 0; | |
t_stat r; | |
GET_SWITCHES (cptr); | |
tptr = get_glyph (cptr, gbuf, ','); | |
if (sim_isalpha(gbuf[0]) && (strchr (gbuf, ':'))) { | |
r = tmxr_locate_line (gbuf, &lp); | |
if (r != SCPE_OK) | |
return r; | |
cptr = tptr; | |
} | |
GET_SWITCHES (cptr); | |
if ((*cptr == '"') || (*cptr == '\'')) { | |
cptr = get_glyph_quoted (cptr, gbuf, 0); | |
if (*cptr != '\0') | |
return SCPE_2MARG; /* No more arguments */ | |
if (SCPE_OK != sim_decode_quoted_string (gbuf, dbuf, &dsize)) | |
return sim_messagef (SCPE_ARG, "Invalid String\n"); | |
dbuf[dsize] = 0; | |
cptr = (char *)dbuf; | |
} | |
if (lp) { | |
tmxr_linemsgf (lp, "%s%s", cptr, (sim_switches & SWMASK('N')) ? "" : "\r\n"); | |
tmxr_send_buffered_data (lp); | |
} | |
else | |
sim_printf ("%s%s", cptr, (sim_switches & SWMASK('N')) ? "" : "\n"); | |
return SCPE_OK; | |
} | |
/* Do command | |
Syntax: DO {-E} {-V} <filename> {<arguments>...} | |
-E causes all command errors to be fatal; without it, only EXIT and ASSERT | |
failure will stop a command file. | |
-V causes commands to be echoed before execution. | |
Note that SCPE_STEP ("Step expired") is considered a note and not an error | |
and so does not abort command execution when using -E. | |
Inputs: | |
flag = caller and nesting level indicator | |
fcptr = filename and optional arguments, space-separated | |
Outputs: | |
status = error status | |
The "flag" input value indicates the source of the call, as follows: | |
-1 = initialization file (no error if not found) | |
0 = command line file | |
1 = "DO" command | |
>1 = nested "DO" command | |
*/ | |
t_stat do_cmd (int32 flag, CONST char *fcptr) | |
{ | |
return do_cmd_label (flag, fcptr, NULL); | |
} | |
static char *do_position(void) | |
{ | |
static char cbuf[CBUFSIZE]; | |
sprintf (cbuf, "%s%s%s-%d", sim_do_filename[sim_do_depth], sim_do_label[sim_do_depth] ? "::" : "", sim_do_label[sim_do_depth] ? sim_do_label[sim_do_depth] : "", sim_goto_line[sim_do_depth]); | |
return cbuf; | |
} | |
t_stat do_cmd_label (int32 flag, CONST char *fcptr, CONST char *label) | |
{ | |
char cbuf[4*CBUFSIZE], gbuf[CBUFSIZE], abuf[4*CBUFSIZE], quote, *c, *do_arg[11]; | |
CONST char *cptr; | |
FILE *fpin; | |
CTAB *cmdp = NULL; | |
int32 echo, nargs, errabort, i; | |
int32 saved_sim_do_echo = sim_do_echo, | |
saved_sim_show_message = sim_show_message, | |
saved_sim_on_inherit = sim_on_inherit, | |
saved_sim_quiet = sim_quiet; | |
t_bool staying; | |
t_stat stat, stat_nomessage; | |
stat = SCPE_OK; | |
staying = TRUE; | |
if (flag > 0) /* need switches? */ | |
GET_SWITCHES (fcptr); /* get switches */ | |
echo = (sim_switches & SWMASK ('V')) || sim_do_echo; /* -v means echo */ | |
sim_quiet = (sim_switches & SWMASK ('Q')) || sim_quiet; /* -q means quiet */ | |
sim_on_inherit =(sim_switches & SWMASK ('O')) || sim_on_inherit; /* -o means inherit ON condition actions */ | |
errabort = sim_switches & SWMASK ('E'); /* -e means abort on error */ | |
abuf[sizeof(abuf)-1] = '\0'; | |
strlcpy (abuf, fcptr, sizeof(abuf)); | |
c = abuf; | |
do_arg[10] = NULL; /* make sure the argument list always ends with a NULL */ | |
for (nargs = 0; nargs < 10; ) { /* extract arguments */ | |
while (sim_isspace (*c)) /* skip blanks */ | |
c++; | |
if (*c == 0) /* all done? */ | |
do_arg [nargs++] = NULL; /* null argument */ | |
else { | |
if (*c == '\'' || *c == '"') /* quoted string? */ | |
quote = *c++; | |
else quote = 0; | |
do_arg[nargs++] = c; /* save start */ | |
while (*c && (quote ? (*c != quote) : !sim_isspace (*c))) | |
c++; | |
if (*c) /* term at quote/spc */ | |
*c++ = 0; | |
} | |
} /* end for */ | |
if (do_arg [0] == NULL) /* need at least 1 */ | |
return SCPE_2FARG; | |
if ((fpin = fopen (do_arg[0], "r")) == NULL) { /* file failed to open? */ | |
strlcpy (cbuf, do_arg[0], sizeof (cbuf)); /* try again with .sim extension */ | |
strlcat (cbuf, ".sim", sizeof (cbuf)); | |
if ((fpin = fopen (cbuf, "r")) == NULL) { /* failed a second time? */ | |
if (flag == 0) /* cmd line file? */ | |
fprintf (stderr, "Can't open file %s\n", do_arg[0]); | |
return SCPE_OPENERR; /* return failure */ | |
} | |
} | |
if (flag >= 0) { /* Only bump nesting from command or nested */ | |
++sim_do_depth; | |
if (sim_on_inherit) { /* inherit ON condition actions? */ | |
sim_on_check[sim_do_depth] = sim_on_check[sim_do_depth-1]; /* inherit On mode */ | |
for (i=0; i<=SCPE_MAX_ERR; i++) { /* replicate appropriate on commands */ | |
if (sim_on_actions[sim_do_depth-1][i]) { | |
sim_on_actions[sim_do_depth][i] = (char *)malloc(1+strlen(sim_on_actions[sim_do_depth-1][i])); | |
if (NULL == sim_on_actions[sim_do_depth][i]) { | |
while (--i >= 0) { | |
free(sim_on_actions[sim_do_depth][i]); | |
sim_on_actions[sim_do_depth][i] = NULL; | |
} | |
sim_on_check[sim_do_depth] = 0; | |
sim_brk_clract (); /* defang breakpoint actions */ | |
--sim_do_depth; /* unwind nesting */ | |
fclose (fpin); | |
return SCPE_MEM; | |
} | |
strcpy(sim_on_actions[sim_do_depth][i], sim_on_actions[sim_do_depth-1][i]); | |
} | |
} | |
} | |
} | |
sim_debug (SIM_DBG_DO, sim_dflt_dev, "do_cmd_label(%d, flag=%d, '%s', '%s')\n", sim_do_depth, flag, fcptr, label ? label : ""); | |
strlcpy( sim_do_filename[sim_do_depth], do_arg[0], | |
sizeof (sim_do_filename[sim_do_depth])); /* stash away do file name for possible use by 'call' command */ | |
sim_do_label[sim_do_depth] = label; /* stash away do label for possible use in messages */ | |
sim_goto_line[sim_do_depth] = 0; | |
if (label) { | |
sim_gotofile = fpin; | |
sim_do_echo = echo; | |
stat = goto_cmd (0, label); | |
if (stat != SCPE_OK) { | |
strcpy(cbuf, "RETURN SCPE_ARG"); | |
cptr = get_glyph (cbuf, gbuf, 0); /* get command glyph */ | |
cmdp = find_cmd (gbuf); /* return the errorStage things to the stat will be returned */ | |
goto Cleanup_Return; | |
} | |
} | |
if (errabort) /* -e flag? */ | |
set_on (1, NULL); /* equivalent to ON ERROR RETURN */ | |
do { | |
if (stop_cpu) { /* SIGINT? */ | |
if (sim_on_actions[sim_do_depth][ON_SIGINT_ACTION]) { | |
stop_cpu = FALSE; | |
sim_brk_setact (sim_on_actions[sim_do_depth][ON_SIGINT_ACTION]);/* Use specified action */ | |
} | |
else | |
break; /* Exit this command procedure */ | |
} | |
sim_do_ocptr[sim_do_depth] = cptr = sim_brk_getact (cbuf, sizeof(cbuf)); /* get bkpt action */ | |
if (!sim_do_ocptr[sim_do_depth]) { /* no pending action? */ | |
sim_do_ocptr[sim_do_depth] = cptr = read_line (cbuf, sizeof(cbuf), fpin);/* get cmd line */ | |
sim_goto_line[sim_do_depth] += 1; | |
} | |
if (cptr == NULL) { /* EOF? */ | |
stat = SCPE_OK; /* set good return */ | |
break; | |
} | |
sim_debug (SIM_DBG_DO, sim_dflt_dev, "Input Command: %s\n", cbuf); | |
sim_sub_args (cbuf, sizeof(cbuf), do_arg); /* substitute args */ | |
sim_debug (SIM_DBG_DO, sim_dflt_dev, "Expanded Command: %s\n", cbuf); | |
if (*cptr == 0) /* ignore blank */ | |
continue; | |
if (echo) /* echo if -v */ | |
sim_printf("%s> %s\n", do_position(), cptr); | |
sim_cmd_echoed = echo; | |
if (*cptr == ':') /* ignore label */ | |
continue; | |
cptr = get_glyph_cmd (cptr, gbuf); /* get command glyph */ | |
sim_switches = 0; /* init switches */ | |
sim_gotofile = fpin; | |
sim_do_echo = echo; | |
sim_if_cmd_last[sim_do_depth] = sim_if_cmd[sim_do_depth]; | |
sim_if_result_last[sim_do_depth] = sim_if_result[sim_do_depth]; | |
sim_if_result[sim_do_depth] = sim_if_cmd[sim_do_depth] = FALSE; | |
if ((cmdp = find_cmd (gbuf))) { /* lookup command */ | |
if (cmdp->action == &return_cmd) /* RETURN command? */ | |
break; /* done! */ | |
if (cmdp->action == &do_cmd) { /* DO command? */ | |
if (sim_do_depth >= MAX_DO_NEST_LVL) /* nest too deep? */ | |
stat = SCPE_NEST; | |
else | |
stat = do_cmd (sim_do_depth+1, cptr); /* exec DO cmd */ | |
} | |
else | |
if (cmdp->action == &shift_cmd) /* SHIFT command */ | |
stat = shift_args(do_arg, sizeof(do_arg)/sizeof(do_arg[0])); | |
else | |
stat = cmdp->action (cmdp->arg, cptr); /* exec other cmd */ | |
} | |
else | |
stat = SCPE_UNK; /* bad cmd given */ | |
sim_debug (SIM_DBG_DO, sim_dflt_dev, "Command '%s', Result: 0x%X - %s\n", cmdp ? cmdp->name : "", stat, sim_error_text (stat)); | |
echo = sim_do_echo; /* Allow for SET VERIFY */ | |
stat_nomessage = stat & SCPE_NOMESSAGE; /* extract possible message supression flag */ | |
stat_nomessage = stat_nomessage || (!sim_show_message);/* Apply global suppression */ | |
stat = SCPE_BARE_STATUS(stat); /* remove possible flag */ | |
if (((stat != SCPE_OK) && (stat != SCPE_EXPECT)) || | |
((cmdp->action != &return_cmd) && | |
(cmdp->action != &goto_cmd) && | |
(cmdp->action != &on_cmd) && | |
(cmdp->action != &echo_cmd) && | |
(cmdp->action != &echof_cmd) && | |
(cmdp->action != &sleep_cmd))) | |
sim_last_cmd_stat = stat; /* save command error status */ | |
switch (stat) { | |
case SCPE_AFAIL: | |
staying = (sim_on_check[sim_do_depth] && /* if trap action defined */ | |
sim_on_actions[sim_do_depth][stat]); /* use it, otherwise exit */ | |
break; | |
case SCPE_EXIT: | |
staying = FALSE; | |
break; | |
case SCPE_OK: | |
case SCPE_STEP: | |
break; | |
default: | |
break; | |
} | |
if ((stat >= SCPE_BASE) && (stat != SCPE_EXIT) && /* error from cmd? */ | |
(stat != SCPE_STEP)) { | |
if (!echo && /* report if not echoing */ | |
!stat_nomessage && /* and not suppressing messages */ | |
!(cmdp && cmdp->message)) { /* and not handling them specially */ | |
sim_printf("%s> %s\n", do_position(), sim_do_ocptr[sim_do_depth]); | |
} | |
} | |
if (!stat_nomessage) { /* report error if not suppressed */ | |
if (cmdp && cmdp->message) /* special message handler */ | |
cmdp->message ((!echo && !sim_quiet) ? sim_do_ocptr[sim_do_depth] : NULL, stat); | |
else | |
if (stat >= SCPE_BASE) /* report error if not suppressed */ | |
sim_printf ("%s\n", sim_error_text (stat)); | |
} | |
if (stat == SCPE_EXPECT) /* EXPECT status is non actionable */ | |
stat = SCPE_OK; /* so adjust it to SCPE_OK */ | |
if (staying && | |
(sim_on_check[sim_do_depth]) && | |
(stat != SCPE_OK) && | |
(stat != SCPE_STEP)) { | |
if ((stat <= SCPE_MAX_ERR) && sim_on_actions[sim_do_depth][stat]) | |
sim_brk_setact (sim_on_actions[sim_do_depth][stat]); | |
else | |
sim_brk_setact (sim_on_actions[sim_do_depth][0]); | |
} | |
if (sim_vm_post != NULL) | |
(*sim_vm_post) (TRUE); | |
} while (staying); | |
Cleanup_Return: | |
fclose (fpin); /* close file */ | |
sim_gotofile = NULL; | |
if (flag >= 0) { | |
sim_do_echo = saved_sim_do_echo; /* restore echo state we entered with */ | |
sim_show_message = saved_sim_show_message; /* restore message display state we entered with */ | |
sim_on_inherit = saved_sim_on_inherit; /* restore ON inheritance state we entered with */ | |
sim_quiet = saved_sim_quiet; /* restore quiet mode we entered with */ | |
} | |
if ((flag >= 0) || (!sim_on_inherit)) { | |
for (i=0; i<=SCPE_MAX_ERR; i++) { /* release any on commands */ | |
free (sim_on_actions[sim_do_depth][i]); | |
sim_on_actions[sim_do_depth][i] = NULL; | |
} | |
sim_on_check[sim_do_depth] = 0; /* clear on mode */ | |
} | |
sim_debug (SIM_DBG_DO, sim_dflt_dev, "do_cmd_label - exiting - stat:%d (%d, flag=%d, '%s', '%s')\n", stat, sim_do_depth, flag, fcptr, label ? label : ""); | |
if (flag >= 0) { | |
sim_brk_clract (); /* defang breakpoint actions */ | |
--sim_do_depth; /* unwind nesting */ | |
} | |
if (cmdp && (cmdp->action == &return_cmd) && (0 != *cptr)) { /* return command with argument? */ | |
sim_string_to_stat (cptr, &stat); | |
sim_last_cmd_stat = stat; /* save explicit status as command error status */ | |
if (sim_switches & SWMASK ('Q')) | |
stat |= SCPE_NOMESSAGE; /* suppress error message display (in caller) if requested */ | |
return stat; /* return with explicit return status */ | |
} | |
return stat | SCPE_NOMESSAGE; /* suppress message since we've already done that here */ | |
} | |
/* Substitute_args - replace %n tokens in 'instr' with the do command's arguments | |
and other enviroment variables | |
Calling sequence | |
instr = input string | |
instr_size = sizeof input string buffer | |
do_arg[10] = arguments | |
Token %0 expands to the command file name. | |
Token %n (n being a single digit) expands to the n'th argument | |
Tonen %* expands to the whole set of arguments (%1 ... %9) | |
The input sequence "%%" represents a literal "%". All other | |
character combinations are rendered literally. | |
Omitted parameters result in null-string substitutions. | |
Tokens preceeded and followed by % characters are expanded as environment | |
variables, and if one isn't found then can be one of several special | |
variables: | |
%DATE% yyyy-mm-dd | |
%TIME% hh:mm:ss | |
%DATETIME% yyyy-mm-ddThh:mm:ss | |
%STIME% hh_mm_ss | |
%CTIME% Www Mmm dd hh:mm:ss yyyy | |
%UTIME% nnn (Unix time - seconds since 1/1/1970) | |
%STATUS% Status value from the last command executed | |
%TSTATUS% The text form of the last status value | |
%SIM_VERIFY% The Verify/Verbose mode of the current Do command file | |
%SIM_VERBOSE% The Verify/Verbose mode of the current Do command file | |
%SIM_QUIET% The Quiet mode of the current Do command file | |
%SIM_MESSAGE% The message display status of the current Do command file | |
Environment variable lookups are done first with the precise name between | |
the % characters and if that fails, then the name between the % characters | |
is upcased and a lookup of that valus is attempted. | |
The first Space delimited token on the line is extracted in uppercase and | |
then looked up as an environment variable. If found it the value is | |
supstituted for the original string before expanding everything else. If | |
it is not found, then the original beginning token on the line is left | |
untouched. | |
*/ | |
static const char * | |
_sim_gen_env_uplowcase (const char *gbuf, char *rbuf, size_t rbuf_size) | |
{ | |
const char *ap; | |
char tbuf[CBUFSIZE]; | |
ap = getenv(gbuf); /* first try using the literal name */ | |
if (!ap) { | |
get_glyph (gbuf, tbuf, 0); /* now try using the upcased name */ | |
if (strcmp (gbuf, tbuf)) /* upcase different? */ | |
ap = getenv(tbuf); /* lookup the upcase name */ | |
} | |
if (ap) { /* environment variable found? */ | |
strlcpy (rbuf, ap, rbuf_size); /* Return the environment value */ | |
ap = rbuf; | |
} | |
return ap; | |
} | |
/* | |
Environment variable substitution: | |
%XYZ:str1=str2% | |
would expand the XYZ environment variable, substituting each occurrence | |
of "str1" in the expanded result with "str2". "str2" can be the empty | |
string to effectively delete all occurrences of "str1" from the expanded | |
output. "str1" can begin with an asterisk, in which case it will match | |
everything from the beginning of the expanded output to the first | |
occurrence of the remaining portion of str1. | |
May also specify substrings for an expansion. | |
%XYZ:~10,5% | |
would expand the XYZ environment variable, and then use only the 5 | |
characters that begin at the 11th (offset 10) character of the expanded | |
result. If the length is not specified, then it defaults to the | |
remainder of the variable value. If either number (offset or length) is | |
negative, then the number used is the length of the environment variable | |
value added to the offset or length specified. | |
%XYZ:~-10% | |
would extract the last 10 characters of the XYZ variable. | |
%XYZ:~0,-2% | |
would extract all but the last 2 characters of the XYZ variable. | |
*/ | |
static void _sim_subststr_substr (const char *ops, char *rbuf, size_t rbuf_size) | |
{ | |
int rbuf_len = (int)strlen (rbuf); | |
char *tstr = (char *)malloc (1 + rbuf_len); | |
strcpy (tstr, rbuf); | |
if (*ops == '~') { /* Substring? */ | |
int offset = 0, length = rbuf_len; | |
int o, l; | |
switch (sscanf (ops + 1, "%d,%d", &o, &l)) { | |
case 2: | |
if (l < 0) | |
length = rbuf_len - MIN(-l, rbuf_len); | |
else | |
length = l; | |
/* fall through */ | |
case 1: | |
if (o < 0) | |
offset = rbuf_len - MIN(-o, rbuf_len); | |
else | |
offset = MIN(o, rbuf_len); | |
break; | |
case 0: | |
offset = 0; | |
length = rbuf_len; | |
break; | |
} | |
if (offset + length > rbuf_len) | |
length = rbuf_len - offset; | |
memcpy (rbuf, tstr + offset, length); | |
rbuf[length] = '\0'; | |
} | |
else { | |
const char *eq; | |
if ((eq = strchr (ops, '='))) { /* Substitute? */ | |
const char *last = tstr; | |
const char *curr = tstr; | |
char *match = (char *)malloc (1 + (eq - ops)); | |
size_t move_size; | |
t_bool asterisk_match; | |
strlcpy (match, ops, 1 + (eq - ops)); | |
asterisk_match = (*ops == '*'); | |
if (asterisk_match) | |
memmove (match, match + 1, 1 + strlen (match + 1)); | |
while ((curr = strstr (last, match))) { | |
if (!asterisk_match) { | |
move_size = MIN((size_t)(curr - last), rbuf_size); | |
memcpy (rbuf, last, move_size); | |
rbuf_size -= move_size; | |
rbuf += move_size; | |
} | |
else | |
asterisk_match = FALSE; | |
move_size = MIN(strlen (eq + 1), rbuf_size); | |
memcpy (rbuf, eq + 1, move_size); | |
rbuf_size -= move_size; | |
rbuf += move_size; | |
curr += strlen (match); | |
last = curr; | |
} | |
move_size = MIN(strlen (last), rbuf_size); | |
memcpy (rbuf, last, move_size); | |
rbuf_size -= move_size; | |
rbuf += move_size; | |
if (rbuf_size) | |
*rbuf = '\0'; | |
free (match); | |
} | |
} | |
free (tstr); | |
} | |
static const char * | |
_sim_get_env_special (const char *gbuf, char *rbuf, size_t rbuf_size) | |
{ | |
const char *ap; | |
const char *fixup_needed = strchr (gbuf, ':'); | |
char *tgbuf = NULL; | |
size_t tgbuf_size = MAX(rbuf_size, 1 + (size_t)(fixup_needed - gbuf)); | |
if (fixup_needed) { | |
tgbuf = (char *)calloc (tgbuf_size, 1); | |
memcpy (tgbuf, gbuf, (fixup_needed - gbuf)); | |
gbuf = tgbuf; | |
} | |
ap = _sim_gen_env_uplowcase (gbuf, rbuf, rbuf_size);/* Look for environment variable */ | |
if (!ap) { /* no environment variable found? */ | |
time_t now = (time_t)cmd_time.tv_sec; | |
struct tm *tmnow = localtime(&now); | |
/* ISO 8601 format date/time info */ | |
if (!strcmp ("DATE", gbuf)) { | |
sprintf (rbuf, "%4d-%02d-%02d", tmnow->tm_year+1900, tmnow->tm_mon+1, tmnow->tm_mday); | |
ap = rbuf; | |
} | |
else if (!strcmp ("TIME", gbuf)) { | |
sprintf (rbuf, "%02d:%02d:%02d", tmnow->tm_hour, tmnow->tm_min, tmnow->tm_sec); | |
ap = rbuf; | |
} | |
else if (!strcmp ("DATETIME", gbuf)) { | |
sprintf (rbuf, "%04d-%02d-%02dT%02d:%02d:%02d", tmnow->tm_year+1900, tmnow->tm_mon+1, tmnow->tm_mday, tmnow->tm_hour, tmnow->tm_min, tmnow->tm_sec); | |
ap = rbuf; | |
} | |
/* Locale oriented formatted date/time info */ | |
else if (!strcmp ("LDATE", gbuf)) { | |
strftime (rbuf, rbuf_size, "%x", tmnow); | |
ap = rbuf; | |
} | |
else if (!strcmp ("LTIME", gbuf)) { | |
#if defined(HAVE_C99_STRFTIME) | |
strftime (rbuf, rbuf_size, "%r", tmnow); | |
#else | |
strftime (rbuf, rbuf_size, "%p", tmnow); | |
if (rbuf[0]) | |
strftime (rbuf, rbuf_size, "%I:%M:%S %p", tmnow); | |
else | |
strftime (rbuf, rbuf_size, "%H:%M:%S", tmnow); | |
#endif | |
ap = rbuf; | |
} | |
else if (!strcmp ("CTIME", gbuf)) { | |
#if defined(HAVE_C99_STRFTIME) | |
strftime (rbuf, rbuf_size, "%c", tmnow); | |
#else | |
strcpy (rbuf, ctime(&now)); | |
rbuf[strlen (rbuf)-1] = '\0'; /* remove trailing \n */ | |
#endif | |
ap = rbuf; | |
} | |
else if (!strcmp ("UTIME", gbuf)) { | |
sprintf (rbuf, "%" LL_FMT "d", (LL_TYPE)now); | |
ap = rbuf; | |
} | |
/* Separate Date/Time info */ | |
else if (!strcmp ("DATE_YYYY", gbuf)) {/* Year (0000-9999) */ | |
strftime (rbuf, rbuf_size, "%Y", tmnow); | |
ap = rbuf; | |
} | |
else if (!strcmp ("DATE_YY", gbuf)) {/* Year (00-99) */ | |
strftime (rbuf, rbuf_size, "%y", tmnow); | |
ap = rbuf; | |
} | |
else if (!strcmp ("DATE_YC", gbuf)) {/* Century (year/100) */ | |
sprintf (rbuf, "%d", (tmnow->tm_year + 1900)/100); | |
ap = rbuf; | |
} | |
else if ((!strcmp ("DATE_19XX_YY", gbuf)) || /* Year with same calendar */ | |
(!strcmp ("DATE_19XX_YYYY", gbuf))) { | |
int year = tmnow->tm_year + 1900; | |
int days = year - 2001; | |
int leaps = days/4 - days/100 + days/400; | |
int lyear = ((year % 4) == 0) && (((year % 100) != 0) || ((year % 400) == 0)); | |
int selector = ((days + leaps + 7) % 7) + lyear * 7; | |
static int years[] = {90, 91, 97, 98, 99, 94, 89, | |
96, 80, 92, 76, 88, 72, 84}; | |
int cal_year = years[selector]; | |
if (!strcmp ("DATE_19XX_YY", gbuf)) | |
sprintf (rbuf, "%d", cal_year); /* 2 digit year */ | |
else | |
sprintf (rbuf, "%d", cal_year + 1900); /* 4 digit year */ | |
ap = rbuf; | |
} | |
else if (!strcmp ("DATE_MM", gbuf)) {/* Month number (01-12) */ | |
strftime (rbuf, rbuf_size, "%m", tmnow); | |
ap = rbuf; | |
} | |
else if (!strcmp ("DATE_MMM", gbuf)) {/* abbreviated Month name */ | |
strftime (rbuf, rbuf_size, "%b", tmnow); | |
ap = rbuf; | |
} | |
else if (!strcmp ("DATE_MONTH", gbuf)) {/* full Month name */ | |
strftime (rbuf, rbuf_size, "%B", tmnow); | |
ap = rbuf; | |
} | |
else if (!strcmp ("DATE_DD", gbuf)) {/* Day of Month (01-31) */ | |
strftime (rbuf, rbuf_size, "%d", tmnow); | |
ap = rbuf; | |
} | |
else if (!strcmp ("DATE_D", gbuf)) { /* ISO 8601 weekday number (1-7) */ | |
sprintf (rbuf, "%d", (tmnow->tm_wday ? tmnow->tm_wday : 7)); | |
ap = rbuf; | |
} | |
else if ((!strcmp ("DATE_WW", gbuf)) || /* ISO 8601 week number (01-53) */ | |
(!strcmp ("DATE_WYYYY", gbuf))) {/* ISO 8601 week year number (0000-9999) */ | |
int iso_yr = tmnow->tm_year + 1900; | |
int iso_wk = (tmnow->tm_yday + 11 - (tmnow->tm_wday ? tmnow->tm_wday : 7))/7;; | |
if (iso_wk == 0) { | |
iso_yr = iso_yr - 1; | |
tmnow->tm_yday += 365 + (((iso_yr % 4) == 0) ? 1 : 0); /* Adjust for Leap Year (Correct thru 2099) */ | |
iso_wk = (tmnow->tm_yday + 11 - (tmnow->tm_wday ? tmnow->tm_wday : 7))/7; | |
} | |
else | |
if ((iso_wk == 53) && (((31 - tmnow->tm_mday) + tmnow->tm_wday) < 4)) { | |
++iso_yr; | |
iso_wk = 1; | |
} | |
if (!strcmp ("DATE_WW", gbuf)) | |
sprintf (rbuf, "%02d", iso_wk); | |
else | |
sprintf (rbuf, "%04d", iso_yr); | |
ap = rbuf; | |
} | |
else if (!strcmp ("DATE_JJJ", gbuf)) {/* day of year (001-366) */ | |
strftime (rbuf, rbuf_size, "%j", tmnow); | |
ap = rbuf; | |
} | |
else if (!strcmp ("TIME_HH", gbuf)) {/* Hour of day (00-23) */ | |
strftime (rbuf, rbuf_size, "%H", tmnow); | |
ap = rbuf; | |
} | |
else if (!strcmp ("TIME_MM", gbuf)) {/* Minute of hour (00-59) */ | |
strftime (rbuf, rbuf_size, "%M", tmnow); | |
ap = rbuf; | |
} | |
else if (!strcmp ("TIME_SS", gbuf)) {/* Second of minute (00-59) */ | |
strftime (rbuf, rbuf_size, "%S", tmnow); | |
ap = rbuf; | |
} | |
else if (!strcmp ("TIME_MSEC", gbuf)) {/* Milliseconds of Second (000-999) */ | |
sprintf (rbuf, "%03d", (int)(cmd_time.tv_nsec / 1000000)); | |
ap = rbuf; | |
} | |
else if (!strcmp ("STATUS", gbuf)) { | |
sprintf (rbuf, "%08X", sim_last_cmd_stat); | |
ap = rbuf; | |
} | |
else if (!strcmp ("TSTATUS", gbuf)) { | |
sprintf (rbuf, "%s", sim_error_text (sim_last_cmd_stat)); | |
ap = rbuf; | |
} | |
else if (!strcmp ("SIM_VERIFY", gbuf)) { | |
sprintf (rbuf, "%s", sim_do_echo ? "-V" : ""); | |
ap = rbuf; | |
} | |
else if (!strcmp ("SIM_VERBOSE", gbuf)) { | |
sprintf (rbuf, "%s", sim_do_echo ? "-V" : ""); | |
ap = rbuf; | |
} | |
else if (!strcmp ("SIM_QUIET", gbuf)) { | |
sprintf (rbuf, "%s", sim_quiet ? "-Q" : ""); | |
ap = rbuf; | |
} | |
else if (!strcmp ("SIM_MESSAGE", gbuf)) { | |
sprintf (rbuf, "%s", sim_show_message ? "" : "-Q"); | |
ap = rbuf; | |
} | |
} | |
if (ap && fixup_needed) { /* substring/substituted needed? */ | |
strlcpy (tgbuf, ap, tgbuf_size); | |
_sim_subststr_substr (fixup_needed + 1, tgbuf, tgbuf_size); | |
strlcpy (rbuf, tgbuf, rbuf_size); | |
} | |
free (tgbuf); | |
return ap; | |
} | |
/* Substitute_args - replace %n tokens in 'instr' with the do command's arguments | |
Calling sequence | |
instr = input string | |
tmpbuf = temp buffer | |
maxstr = min (len (instr), len (tmpbuf)) | |
do_arg[10] = arguments | |
Token "%0" represents the command file name. | |
The input sequence "\%" represents a literal "%", and "\\" represents a | |
literal "\". All other character combinations are rendered literally. | |
Omitted parameters result in null-string substitutions. | |
*/ | |
void sim_sub_args (char *instr, size_t instr_size, char *do_arg[]) | |
{ | |
char gbuf[CBUFSIZE]; | |
char *ip = instr, *op, *oend, *istart, *tmpbuf; | |
const char *ap; | |
char rbuf[CBUFSIZE]; | |
int i; | |
size_t instr_off = 0; | |
size_t outstr_off = 0; | |
sim_exp_argv = do_arg; | |
clock_gettime(CLOCK_REALTIME, &cmd_time); | |
tmpbuf = (char *)malloc(instr_size); | |
op = tmpbuf; | |
oend = tmpbuf + instr_size - 2; | |
if (instr_size > sim_sub_instr_size) { | |
sim_sub_instr = (char *)realloc (sim_sub_instr, instr_size*sizeof(*sim_sub_instr)); | |
sim_sub_instr_off = (size_t *)realloc (sim_sub_instr_off, instr_size*sizeof(*sim_sub_instr_off)); | |
sim_sub_instr_size = instr_size; | |
} | |
sim_sub_instr_buf = instr; | |
strlcpy (sim_sub_instr, instr, instr_size*sizeof(*sim_sub_instr)); | |
while (sim_isspace (*ip)) { /* skip leading spaces */ | |
sim_sub_instr_off[outstr_off++] = ip - instr; | |
*op++ = *ip++; | |
} | |
/* If entire string is within quotes, strip the quotes */ | |
if ((*ip == '"') || (*ip == '\'')) { /* start with a quote character? */ | |
const char *cptr = ip; | |
char *tp = op; /* use remainder of output buffer as temp buffer */ | |
cptr = get_glyph_quoted (cptr, tp, 0); /* get quoted string */ | |
while (sim_isspace (*cptr)) | |
++cptr; /* skip over trailing spaces */ | |
if (*cptr == '\0') { /* full string was quoted? */ | |
uint32 dsize; | |
if (SCPE_OK == sim_decode_quoted_string (tp, (uint8 *)tp, &dsize)) { | |
tp[dsize] = '\0'; | |
while (sim_isspace (*tp)) | |
memmove (tp, tp + 1, strlen (tp)); | |
strlcpy (ip, tp, instr_size - (ip - instr));/* copy quoted contents to input buffer */ | |
strlcpy (sim_sub_instr + (ip - instr), tp, instr_size - (ip - instr)); | |
} | |
} | |
} | |
istart = ip; | |
for (; *ip && (op < oend); ) { | |
if ((ip [0] == '%') && (ip [1] == '%')) { /* literal % insert? */ | |
sim_sub_instr_off[outstr_off++] = ip - instr; | |
ip++; /* skip one */ | |
*op++ = *ip++; /* copy insert % */ | |
} | |
else | |
if ((*ip == '%') && | |
(sim_isalnum(ip[1]) || (ip[1] == '*') || (ip[1] == '_'))) {/* sub? */ | |
if ((ip[1] >= '0') && (ip[1] <= ('9'))) { /* %n = sub */ | |
ap = do_arg[ip[1] - '0']; | |
for (i=0; i<ip[1] - '0'; ++i) /* make sure we're not past the list end */ | |
if (do_arg[i] == NULL) { | |
ap = NULL; | |
break; | |
} | |
ip = ip + 2; | |
} | |
else if (ip[1] == '*') { /* %1 ... %9 = sub */ | |
memset (rbuf, '\0', sizeof(rbuf)); | |
ap = rbuf; | |
for (i=1; i<=9; ++i) | |
if (do_arg[i] == NULL) | |
break; | |
else | |
if ((sizeof(rbuf)-strlen(rbuf)) < (2 + strlen(do_arg[i]))) { | |
if (strchr(do_arg[i], ' ')) { /* need to surround this argument with quotes */ | |
char quote = '"'; | |
if (strchr(do_arg[i], quote)) | |
quote = '\''; | |
sprintf(&rbuf[strlen(rbuf)], "%s%c%s%c\"", (i != 1) ? " " : "", quote, do_arg[i], quote); | |
} | |
else | |
sprintf(&rbuf[strlen(rbuf)], "%s%s", (i != 1) ? " " : "", do_arg[i]); | |
} | |
else | |
break; | |
ip = ip + 2; | |
} | |
else { /* check environment variable or special variables */ | |
get_glyph_nc (ip+1, gbuf, '%'); /* get the literal name */ | |
ap = _sim_get_env_special (gbuf, rbuf, sizeof (rbuf)); | |
ip += 1 + strlen (gbuf); | |
if (*ip == '%') | |
++ip; | |
} | |
if (ap) { /* non-null arg? */ | |
while (*ap && (op < oend)) { /* copy the argument */ | |
sim_sub_instr_off[outstr_off++] = ip - instr; | |
*op++ = *ap++; | |
} | |
} | |
} | |
else | |
if (ip == istart) { /* at beginning of input? */ | |
get_glyph (istart, gbuf, 0); /* substitute initial token */ | |
ap = getenv(gbuf); /* if it is an environment variable name */ | |
if (!ap) { /* nope? */ | |
sim_sub_instr_off[outstr_off++] = ip - instr; | |
*op++ = *ip++; /* press on with literal character */ | |
continue; | |
} | |
while (*ap && (op < oend)) { /* copy the translation */ | |
sim_sub_instr_off[outstr_off++] = ip - instr; | |
*op++ = *ap++; | |
} | |
ip += strlen(gbuf); | |
} | |
else { | |
sim_sub_instr_off[outstr_off++] = ip - instr; | |
*op++ = *ip++; /* literal character */ | |
} | |
} | |
*op = 0; /* term buffer */ | |
sim_sub_instr_off[outstr_off] = 0; | |
strcpy (instr, tmpbuf); | |
free (tmpbuf); | |
return; | |
} | |
t_stat shift_args (char *do_arg[], size_t arg_count) | |
{ | |
size_t i; | |
for (i=1; i<arg_count-1; ++i) | |
do_arg[i] = do_arg[i+1]; | |
return SCPE_OK; | |
} | |
static | |
int sim_cmp_string (const char *s1, const char *s2) | |
{ | |
long int v1, v2; | |
char *ep1, *ep2; | |
if (sim_switches & SWMASK ('F')) { /* File Compare? */ | |
FILE *f1, *f2; | |
int c1, c2; | |
char *filename1, *filename2; | |
filename1 = (char *)malloc (strlen (s1)); | |
strcpy (filename1, s1 + 1); | |
filename1[strlen (filename1) - 1] = '\0'; | |
filename2 = (char *)malloc (strlen (s2)); | |
strcpy (filename2, s2 + 1); | |
filename2[strlen (filename2) - 1] = '\0'; | |
f1 = fopen (filename1, "rb"); | |
f2 = fopen (filename2, "rb"); | |
free (filename1); | |
free (filename2); | |
if ((f1 == NULL) && (f2 == NULL)) /* Both can't open? */ | |
return 0; /* Call that equal */ | |
if (f1 == NULL) { | |
fclose (f2); | |
return -1; | |
} | |
if (f2 == NULL) { | |
fclose (f1); | |
return 1; | |
} | |
while (((c1 = fgetc (f1)) == (c2 = fgetc (f2))) && | |
(c1 != EOF)) ; | |
fclose (f1); | |
fclose (f2); | |
return c1 - c2; | |
} | |
v1 = strtol(s1+1, &ep1, 0); | |
v2 = strtol(s2+1, &ep2, 0); | |
if ((ep1 != s1 + strlen (s1) - 1) || | |
(ep2 != s2 + strlen (s2) - 1)) | |
return (strlen (s1) == strlen (s2)) ? strncmp (s1 + 1, s2 + 1, strlen (s1) - 2) | |
: strcmp (s1, s2); | |
if (v1 == v2) | |
return 0; | |
if (v1 < v2) | |
return -1; | |
return 1; | |
} | |
/* Assert command | |
If command | |
Syntax: ASSERT {NOT} {<dev>} <reg>{<logical-op><value>}<conditional-op><value> | |
Syntax: IF {NOT} {<dev>} <reg>{<logical-op><value>}<conditional-op><value> commandtoprocess{; additionalcommandtoprocess}... | |
If NOT is specified, the resulting expression value is inverted. | |
If <dev> is not specified, sim_dflt_dev (CPU) is assumed. | |
<value> is expressed in the radix specified for <reg>. | |
<logical-op> and <conditional-op> are the same as that | |
allowed for examine and deposit search specifications. | |
Syntax: ASSERT {-i} {NOT} "<string1>"|EnvVarName1 <compare-op> "<string2>"|EnvVarName2 | |
Syntax: IF {-i} {NOT} "<string1>"|EnvVarName1 <compare-op> "<string2>"|EnvVarName2 commandtoprocess{; additionalcommandtoprocess}... | |
If -i is specified, the comparisons are done in a case insensitive manner. | |
If NOT is specified, the resulting expression value is inverted. | |
"<string1>" and "<string2>" are quote delimited strings which include | |
expansion references to environment variables in the simulator. | |
<compare-op> can be any one of: | |
== - equal | |
EQU - equal | |
!= - not equal | |
NEQ - not equal | |
< - less than | |
LSS - less than | |
<= - less than or equal | |
LEQ - less than or equal | |
> - greater than | |
GTR - greater than | |
>= - greater than or equal | |
GEQ - greater than or equal | |
*/ | |
static CONST char *_get_string (CONST char *iptr, char *optr, char mchar) | |
{ | |
const char *ap; | |
CONST char *tptr, *gptr; | |
REG *rptr; | |
tptr = (CONST char *)get_glyph_gen (iptr, optr, mchar, (sim_switches & SWMASK ('I')), TRUE, '\\'); | |
if ((*optr != '"') && (*optr != '\'')) { | |
ap = getenv (optr); | |
if (!ap) | |
return tptr; | |
/* for legacy ASSERT/IF behavior give precidence to REGister names over Environment Variables */ | |
get_glyph (optr, optr, 0); | |
rptr = find_reg (optr, &gptr, sim_dfdev); | |
if (rptr) | |
return tptr; | |
snprintf (optr, CBUFSIZE - 1, "\"%s\"", ap); | |
get_glyph_gen (optr, optr, 0, (sim_switches & SWMASK ('I')), TRUE, '\\'); | |
} | |
return tptr; | |
} | |
t_stat assert_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE], gbuf2[CBUFSIZE]; | |
CONST char *tptr, *gptr; | |
REG *rptr; | |
uint32 idx; | |
t_stat r; | |
t_bool Not = FALSE; | |
t_bool Exist = FALSE; | |
t_bool result; | |
t_addr addr; | |
t_stat reason; | |
cptr = (CONST char *)get_sim_opt (CMD_OPT_SW|CMD_OPT_DFT, (CONST char *)cptr, &r); | |
/* get sw, default */ | |
sim_stabr.boolop = sim_staba.boolop = -1; /* no relational op dflt */ | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
if (flag == 2) { /* ELSE command? */ | |
if (!sim_if_cmd_last[sim_do_depth]) | |
return sim_messagef (SCPE_UNK, "Invalid Command Sequence, ELSE not following IF\n"); | |
if (*cptr == '\0') /* no more? */ | |
return sim_messagef (SCPE_2FARG, "Missing ELSE commands\n"); | |
if (!sim_if_result_last[sim_do_depth]) | |
sim_brk_setact (cptr); /* set up ELSE actions */ | |
return SCPE_OK; | |
} | |
tptr = get_glyph (cptr, gbuf, 0); /* get token */ | |
if (!strcmp (gbuf, "NOT")) { /* Conditional Inversion? */ | |
Not = TRUE; /* remember that, and */ | |
cptr = (CONST char *)tptr; | |
tptr = get_glyph (cptr, gbuf, 0); /* get next token */ | |
} | |
if (!strcmp (gbuf, "EXIST")) { /* File Exist Test? */ | |
Exist = TRUE; /* remember that, and */ | |
cptr = (CONST char *)tptr; | |
} | |
tptr = _get_string (cptr, gbuf, ' '); /* get first string */ | |
if (Exist || (*gbuf == '"') || (*gbuf == '\'')) { /* quoted string comparison? */ | |
char quote = *gbuf; | |
char op[CBUFSIZE]; | |
static struct { | |
const char *op; | |
int aval; | |
int bval; | |
t_bool invert; | |
} *optr, compare_ops[] = | |
{ | |
{"==", 0, 0, FALSE}, | |
{"EQU", 0, 0, FALSE}, | |
{"!=", 0, 0, TRUE}, | |
{"NEQ", 0, 0, TRUE}, | |
{"<", -1, -1, FALSE}, | |
{"LSS", -1, -1, FALSE}, | |
{"<=", 0, -1, FALSE}, | |
{"LEQ", 0, -1, FALSE}, | |
{">", 1, 1, FALSE}, | |
{"GTR", 1, 1, FALSE}, | |
{">=", 0, 1, FALSE}, | |
{"GEQ", 0, 1, FALSE}, | |
{NULL}}; | |
if (!*tptr) | |
return SCPE_2FARG; | |
cptr = tptr; | |
while (sim_isspace (*cptr)) /* skip spaces */ | |
++cptr; | |
if (!Exist) { | |
get_glyph (cptr, op, quote); | |
for (optr = compare_ops; optr->op; optr++) | |
if (0 == strncmp (op, optr->op, strlen (optr->op))) | |
break; | |
if (!optr->op) | |
return sim_messagef (SCPE_ARG, "Invalid operator: %s\n", op); | |
cptr += strlen (optr->op); | |
if ((!isspace (*cptr)) && isalpha (optr->op[strlen (optr->op) - 1]) && isalnum (*cptr)) | |
return sim_messagef (SCPE_ARG, "Invalid operator: %s\n", op); | |
while (sim_isspace (*cptr)) /* skip spaces */ | |
++cptr; | |
cptr = _get_string (cptr, gbuf2, 0); /* get second string */ | |
if (*cptr) { /* more? */ | |
if (flag == 1) /* ASSERT has no more args */ | |
return SCPE_2MARG; | |
} | |
else { | |
if (flag != 1) | |
return SCPE_2FARG; /* IF/ELSE needs actions! */ | |
} | |
sim_if_cmd[sim_do_depth] = (flag == 0); /* record IF command */ | |
result = sim_cmp_string (gbuf, gbuf2); | |
result = ((result == optr->aval) || (result == optr->bval)); | |
if (optr->invert) | |
result = !result; | |
} | |
else { | |
FILE *f = fopen (gbuf, "r"); | |
if (f) | |
fclose (f); | |
sim_if_cmd[sim_do_depth] = (flag == 0); /* record IF command */ | |
result = (f != NULL); | |
} | |
} | |
else { | |
while (sim_isspace (*cptr)) /* skip spaces */ | |
++cptr; | |
if (*cptr == '(') { | |
t_svalue value; | |
if ((cptr > sim_sub_instr_buf) && ((size_t)(cptr - sim_sub_instr_buf) < sim_sub_instr_size)) | |
cptr = &sim_sub_instr[sim_sub_instr_off[cptr - sim_sub_instr_buf]]; /* get un-substituted string */ | |
cptr = sim_eval_expression (cptr, &value, TRUE, &r); | |
result = (value != 0); | |
} | |
else { | |
cptr = get_glyph (cptr, gbuf, 0); /* get register */ | |
rptr = find_reg (gbuf, &gptr, sim_dfdev); /* parse register */ | |
if (rptr) { /* got register? */ | |
if (*gptr == '[') { /* subscript? */ | |
if (rptr->depth <= 1) /* array register? */ | |
return SCPE_ARG; | |
idx = (uint32) strtotv (++gptr, &tptr, 10); /* convert index */ | |
if ((gptr == tptr) || (*tptr++ != ']')) | |
return SCPE_ARG; | |
gptr = tptr; /* update */ | |
} | |
else idx = 0; /* not array */ | |
if (idx >= rptr->depth) /* validate subscript */ | |
return SCPE_SUB; | |
} | |
else { /* not reg, check for memory */ | |
if (sim_dfdev && sim_vm_parse_addr) /* get addr */ | |
addr = sim_vm_parse_addr (sim_dfdev, gbuf, &gptr); | |
else | |
addr = (t_addr) strtotv (gbuf, &gptr, sim_dfdev ? sim_dfdev->dradix : sim_dflt_dev->dradix); | |
if (gbuf == gptr) /* not register? */ | |
return SCPE_NXREG; | |
} | |
if (*gptr != 0) /* more? must be search */ | |
get_glyph (gptr, gbuf, 0); | |
else { | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
cptr = get_glyph (cptr, gbuf, 0); /* get search cond */ | |
} | |
if (*cptr) { /* more? */ | |
if (flag) /* ASSERT has no more args */ | |
return SCPE_2MARG; | |
} | |
else { | |
if (!flag) | |
return SCPE_2FARG; /* IF needs actions! */ | |
} | |
if (rptr) { /* Handle register case */ | |
if (!get_rsearch (gbuf, rptr->radix, &sim_stabr) || /* parse condition */ | |
(sim_stabr.boolop == -1)) /* relational op reqd */ | |
return SCPE_MISVAL; | |
sim_eval[0] = get_rval (rptr, idx); /* get register value */ | |
result = test_search (sim_eval, &sim_stabr); /* test condition */ | |
} | |
else { /* Handle memory case */ | |
if (!get_asearch (gbuf, sim_dfdev ? sim_dfdev->dradix : sim_dflt_dev->dradix, &sim_staba) || /* parse condition */ | |
(sim_staba.boolop == -1)) /* relational op reqd */ | |
return SCPE_MISVAL; | |
reason = get_aval (addr, sim_dfdev, sim_dfunit);/* get data */ | |
if (reason != SCPE_OK) /* return if error */ | |
return reason; | |
result = test_search (sim_eval, &sim_staba); /* test condition */ | |
} | |
} | |
} | |
if ((cptr > sim_sub_instr_buf) && ((size_t)(cptr - sim_sub_instr_buf) < sim_sub_instr_size)) | |
cptr = &sim_sub_instr[sim_sub_instr_off[cptr - sim_sub_instr_buf]]; /* get un-substituted string */ | |
if (Not ^ result) { | |
if (!flag) { | |
sim_brk_setact (cptr); /* set up IF actions */ | |
sim_if_result[sim_do_depth] = TRUE; | |
} | |
} | |
else | |
if (flag) | |
return SCPE_AFAIL; /* return assert status */ | |
else | |
sim_if_result[sim_do_depth] = FALSE; | |
return SCPE_OK; | |
} | |
/* Send command | |
Syntax: SEND {After=m},{Delay=n},"string-to-send" | |
After - is an integer (>= 0) representing a number of instruction | |
delay before the initial characters is sent. The after | |
parameter can is set by itself (with SEND AFTER=n). | |
The value specified then persists across SEND commands, | |
and is the default value used in subsequent SEND commands | |
which don't specify an explicit AFTER parameter. This default | |
value is visible externally via an environment variable. | |
Delay - is an integer (>= 0) representing a number of instruction | |
delay before and between characters being sent. The | |
delay parameter can is set by itself (with SEND DELAY=n) | |
The value specified persists across SEND commands, and is | |
the default value used in subsequent SEND commands which | |
don't specify an explicit DELAY parameter. This default | |
value is visible externally via an environment variable. | |
String - must be quoted. Quotes may be either single or double but the | |
opening anc closing quote characters must match. Within quotes | |
C style character escapes are allowed. | |
The following character escapes are explicitly supported: | |
\r Sends the ASCII Carriage Return character (Decimal value 13) | |
\n Sends the ASCII Linefeed character (Decimal value 10) | |
\f Sends the ASCII Formfeed character (Decimal value 12) | |
\t Sends the ASCII Horizontal Tab character (Decimal value 9) | |
\v Sends the ASCII Vertical Tab character (Decimal value 11) | |
\b Sends the ASCII Backspace character (Decimal value 8) | |
\\ Sends the ASCII Backslash character (Decimal value 92) | |
\' Sends the ASCII Single Quote character (Decimal value 39) | |
\" Sends the ASCII Double Quote character (Decimal value 34) | |
\? Sends the ASCII Question Mark character (Decimal value 63) | |
\e Sends the ASCII Escape character (Decimal value 27) | |
as well as octal character values of the form: | |
\n{n{n}} where each n is an octal digit (0-7) | |
and hext character values of the form: | |
\xh{h} where each h is a hex digit (0-9A-Fa-f) | |
*/ | |
static uint32 get_default_env_parameter (const char *dev_name, const char *param_name, uint32 default_value) | |
{ | |
char varname[CBUFSIZE]; | |
uint32 val; | |
char *endptr; | |
const char *colon = strchr (dev_name, ':'); | |
if (colon) | |
snprintf (varname, sizeof(varname), "%s_%*.*s_%s", param_name, (int)(colon-dev_name), (int)(colon-dev_name), dev_name, colon + 1); | |
else | |
snprintf (varname, sizeof(varname), "%s_%s", param_name, dev_name); | |
if (!getenv (varname)) | |
val = default_value; | |
else { | |
val = strtoul (getenv (varname), &endptr, 0); | |
if (*endptr) | |
val = default_value; | |
} | |
return val; | |
} | |
static void set_default_env_parameter (const char *dev_name, const char *param_name, uint32 value) | |
{ | |
char varname[CBUFSIZE]; | |
char valbuf[CBUFSIZE]; | |
const char *colon = strchr (dev_name, ':'); | |
if (colon) | |
snprintf (varname, sizeof(varname), "%s_%*.*s_%s", param_name, (int)(colon-dev_name), (int)(colon-dev_name), dev_name, colon + 1); | |
else | |
snprintf (varname, sizeof(varname), "%s_%s", param_name, dev_name); | |
snprintf (valbuf, sizeof(valbuf), "%u", value); | |
setenv(varname, valbuf, 1); | |
} | |
t_stat send_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
CONST char *tptr; | |
uint8 dbuf[CBUFSIZE]; | |
uint32 dsize = 0; | |
const char *dev_name; | |
uint32 delay; | |
t_bool delay_set = FALSE; | |
uint32 after; | |
t_bool after_set = FALSE; | |
t_stat r; | |
SEND *snd; | |
GET_SWITCHES (cptr); /* get switches */ | |
tptr = get_glyph (cptr, gbuf, ','); | |
if (sim_isalpha(gbuf[0]) && (strchr (gbuf, ':'))) { | |
r = tmxr_locate_line_send (gbuf, &snd); | |
if (r != SCPE_OK) | |
return r; | |
cptr = tptr; | |
tptr = get_glyph (tptr, gbuf, ','); | |
} | |
else | |
snd = sim_cons_get_send (); | |
dev_name = tmxr_send_line_name (snd); | |
if (!flag) | |
return sim_send_clear (snd); | |
delay = get_default_env_parameter (dev_name, "SIM_SEND_DELAY", SEND_DEFAULT_DELAY); | |
after = get_default_env_parameter (dev_name, "SIM_SEND_AFTER", delay); | |
while (*cptr) { | |
if ((!strncmp(gbuf, "DELAY=", 6)) && (gbuf[6])) { | |
delay = (uint32)get_uint (&gbuf[6], 10, 10000000, &r); | |
if (r != SCPE_OK) | |
return sim_messagef (SCPE_ARG, "Invalid Delay Value\n"); | |
cptr = tptr; | |
tptr = get_glyph (cptr, gbuf, ','); | |
delay_set = TRUE; | |
if (!after_set) | |
after = delay; | |
continue; | |
} | |
if ((!strncmp(gbuf, "AFTER=", 6)) && (gbuf[6])) { | |
after = (uint32)get_uint (&gbuf[6], 10, 10000000, &r); | |
if (r != SCPE_OK) | |
return sim_messagef (SCPE_ARG, "Invalid After Value\n"); | |
cptr = tptr; | |
tptr = get_glyph (cptr, gbuf, ','); | |
after_set = TRUE; | |
continue; | |
} | |
if ((*cptr == '"') || (*cptr == '\'')) | |
break; | |
return SCPE_ARG; | |
} | |
if (!*cptr) { | |
if ((!delay_set) && (!after_set)) | |
return SCPE_2FARG; | |
set_default_env_parameter (dev_name, "SIM_SEND_DELAY", delay); | |
set_default_env_parameter (dev_name, "SIM_SEND_AFTER", after); | |
return SCPE_OK; | |
} | |
if ((*cptr != '"') && (*cptr != '\'')) | |
return sim_messagef (SCPE_ARG, "String must be quote delimited\n"); | |
cptr = get_glyph_quoted (cptr, gbuf, 0); | |
if (*cptr != '\0') | |
return SCPE_2MARG; /* No more arguments */ | |
if (SCPE_OK != sim_decode_quoted_string (gbuf, dbuf, &dsize)) | |
return sim_messagef (SCPE_ARG, "Invalid String\n"); | |
return sim_send_input (snd, dbuf, dsize, after, delay); | |
} | |
t_stat sim_show_send (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
CONST char *tptr; | |
t_stat r; | |
SEND *snd; | |
tptr = get_glyph (cptr, gbuf, ','); | |
if (sim_isalpha(gbuf[0]) && (strchr (gbuf, ':'))) { | |
r = tmxr_locate_line_send (gbuf, &snd); | |
if (r != SCPE_OK) | |
return r; | |
cptr = tptr; | |
} | |
else | |
snd = sim_cons_get_send (); | |
if (*cptr) | |
return SCPE_2MARG; | |
return sim_show_send_input (st, snd); | |
} | |
t_stat expect_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
CONST char *tptr; | |
t_stat r; | |
EXPECT *exp; | |
GET_SWITCHES (cptr); /* get switches */ | |
tptr = get_glyph (cptr, gbuf, ','); | |
if (sim_isalpha(gbuf[0]) && (strchr (gbuf, ':'))) { | |
r = tmxr_locate_line_expect (gbuf, &exp); | |
if (r != SCPE_OK) | |
return sim_messagef (r, "No such active line: %s\n", gbuf); | |
cptr = tptr; | |
} | |
else | |
exp = sim_cons_get_expect (); | |
if (flag) | |
return sim_set_expect (exp, cptr); | |
else | |
return sim_set_noexpect (exp, cptr); | |
} | |
t_stat sim_show_expect (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
CONST char *tptr; | |
t_stat r; | |
EXPECT *exp; | |
tptr = get_glyph (cptr, gbuf, ','); | |
if (sim_isalpha(gbuf[0]) && (strchr (gbuf, ':'))) { | |
r = tmxr_locate_line_expect (gbuf, &exp); | |
if (r != SCPE_OK) | |
return r; | |
cptr = tptr; | |
} | |
else | |
exp = sim_cons_get_expect (); | |
if (*cptr && (*cptr != '"') && (*cptr != '\'')) | |
return SCPE_ARG; /* String must be quote delimited */ | |
tptr = get_glyph_quoted (cptr, gbuf, 0); | |
if (*tptr != '\0') | |
return SCPE_2MARG; /* No more arguments */ | |
if (*cptr && (cptr[strlen(cptr)-1] != '"') && (cptr[strlen(cptr)-1] != '\'')) | |
return SCPE_ARG; /* String must be quote delimited */ | |
return sim_exp_show (st, exp, gbuf); | |
} | |
/* Sleep command */ | |
t_stat sleep_cmd (int32 flag, CONST char *cptr) | |
{ | |
char *tptr; | |
double wait; | |
while (*cptr) { | |
wait = strtod (cptr, &tptr); | |
switch (*tptr) { | |
case ' ': | |
case '\t': | |
case '\0': | |
break; | |
case 's': | |
case 'S': | |
++tptr; | |
break; | |
case 'm': | |
case 'M': | |
++tptr; | |
wait *= 60.0; | |
break; | |
case 'h': | |
case 'H': | |
++tptr; | |
wait *= (60.0*60.0); | |
break; | |
case 'd': | |
case 'D': | |
++tptr; | |
wait *= (24.0*60.0*60.0); | |
break; | |
default: | |
return sim_messagef (SCPE_ARG, "Invalid Sleep unit '%c'\n", *cptr); | |
} | |
wait *= 1000.0; /* Convert to Milliseconds */ | |
cptr = tptr; | |
while ((wait > 1000.0) && (!stop_cpu)) | |
wait -= sim_os_ms_sleep (1000); | |
if ((wait > 0.0) && (!stop_cpu)) | |
sim_os_ms_sleep ((unsigned)wait); | |
} | |
stop_cpu = FALSE; /* Clear in case sleep was interrupted */ | |
return SCPE_OK; | |
} | |
/* Goto command */ | |
t_stat goto_cmd (int32 flag, CONST char *fcptr) | |
{ | |
char cbuf[CBUFSIZE], gbuf[CBUFSIZE], gbuf1[CBUFSIZE]; | |
const char *cptr; | |
long fpos; | |
int32 saved_do_echo = sim_do_echo; | |
int32 saved_goto_line = sim_goto_line[sim_do_depth]; | |
if (NULL == sim_gotofile) return SCPE_UNK; /* only valid inside of do_cmd */ | |
get_glyph (fcptr, gbuf1, 0); | |
if ('\0' == gbuf1[0]) /* unspecified goto target */ | |
return sim_messagef (SCPE_ARG, "Missing goto target\n"); | |
fpos = ftell(sim_gotofile); /* Save start position */ | |
if (fpos < 0) | |
return sim_messagef (SCPE_IERR, "goto ftell error: %s\n", strerror (errno)); | |
rewind(sim_gotofile); /* start search for label */ | |
sim_goto_line[sim_do_depth] = 0; /* reset line number */ | |
sim_do_echo = 0; /* Don't echo while searching for label */ | |
while (1) { | |
cptr = read_line (cbuf, sizeof(cbuf), sim_gotofile);/* get cmd line */ | |
if (cptr == NULL) break; /* exit on eof */ | |
sim_goto_line[sim_do_depth] += 1; /* record line number */ | |
if (*cptr == 0) continue; /* ignore blank */ | |
if (*cptr != ':') continue; /* ignore non-labels */ | |
++cptr; /* skip : */ | |
while (sim_isspace (*cptr)) ++cptr; /* skip blanks */ | |
get_glyph (cptr, gbuf, 0); /* get label glyph */ | |
if (0 == strcmp(gbuf, gbuf1)) { | |
sim_brk_clract (); /* goto defangs current actions */ | |
sim_do_echo = saved_do_echo; /* restore echo mode */ | |
if (sim_do_echo) /* echo if -v */ | |
sim_printf("%s> %s\n", do_position(), cbuf); | |
return SCPE_OK; | |
} | |
} | |
sim_do_echo = saved_do_echo; /* restore echo mode */ | |
sim_goto_line[sim_do_depth] = saved_goto_line; /* restore start line number */ | |
if (fseek(sim_gotofile, fpos, SEEK_SET)) /* restore start position */ | |
return sim_messagef (SCPE_IERR, "goto seek error: %s\n", strerror (errno)); | |
return sim_messagef (SCPE_ARG, "goto target '%s' not found\n", gbuf1); | |
} | |
/* Return command */ | |
/* The return command is invalid unless encountered in a do_cmd context, */ | |
/* and in that context, it is handled as a special case inside of do_cmd() */ | |
/* and not dispatched here, so if we get here a return has been issued from */ | |
/* interactive input */ | |
t_stat return_cmd (int32 flag, CONST char *fcptr) | |
{ | |
return SCPE_UNK; /* only valid inside of do_cmd */ | |
} | |
/* Shift command */ | |
/* The shift command is invalid unless encountered in a do_cmd context, */ | |
/* and in that context, it is handled as a special case inside of do_cmd() */ | |
/* and not dispatched here, so if we get here a shift has been issued from */ | |
/* interactive input (it is not valid interactively since it would have to */ | |
/* mess with the program's argv which is owned by the C runtime library */ | |
t_stat shift_cmd (int32 flag, CONST char *fcptr) | |
{ | |
return SCPE_UNK; /* only valid inside of do_cmd */ | |
} | |
/* Call command */ | |
/* The call command is invalid unless encountered in a do_cmd context, */ | |
/* and in that context, it is handled as a special case inside of do_cmd() */ | |
/* and not dispatched here, so if we get here a call has been issued from */ | |
/* interactive input */ | |
t_stat call_cmd (int32 flag, CONST char *fcptr) | |
{ | |
char cbuf[CBUFSIZE], gbuf[CBUFSIZE]; | |
const char *cptr; | |
if (NULL == sim_gotofile) return SCPE_UNK; /* only valid inside of do_cmd */ | |
cptr = get_glyph (fcptr, gbuf, 0); | |
if ('\0' == gbuf[0]) return SCPE_ARG; /* unspecified goto target */ | |
sprintf(cbuf, "%s %s", sim_do_filename[sim_do_depth], cptr); | |
sim_switches |= SWMASK ('O'); /* inherit ON state and actions */ | |
return do_cmd_label (flag, cbuf, gbuf); | |
} | |
/* On command */ | |
t_stat on_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
t_stat cond; | |
cptr = get_glyph (cptr, gbuf, 0); | |
if ('\0' == gbuf[0]) return SCPE_ARG; /* unspecified condition */ | |
if (0 == strcmp("ERROR", gbuf)) | |
cond = 0; | |
else { | |
if (SCPE_OK != sim_string_to_stat (gbuf, &cond)) { | |
if ((MATCH_CMD (gbuf, "CONTROL_C") == 0) || | |
(MATCH_CMD (gbuf, "SIGINT") == 0)) | |
cond = ON_SIGINT_ACTION; /* Special case */ | |
else | |
return sim_messagef (SCPE_ARG, "Invalid argument: %s\n", gbuf); | |
} | |
} | |
if (cond == SCPE_OK) | |
return sim_messagef (SCPE_ARG, "Invalid argument: %s\n", gbuf); | |
if ((NULL == cptr) || ('\0' == *cptr)) { /* Empty Action */ | |
free(sim_on_actions[sim_do_depth][cond]); /* Clear existing condition */ | |
sim_on_actions[sim_do_depth][cond] = NULL; } | |
else { | |
sim_on_actions[sim_do_depth][cond] = | |
(char *)realloc(sim_on_actions[sim_do_depth][cond], 1+strlen(cptr)); | |
strcpy(sim_on_actions[sim_do_depth][cond], cptr); | |
} | |
return SCPE_OK; | |
} | |
/* noop command */ | |
/* The noop command (IGNORE, PROCEED) does nothing */ | |
t_stat noop_cmd (int32 flag, CONST char *cptr) | |
{ | |
if (cptr && (*cptr != 0)) /* now eol? */ | |
return SCPE_2MARG; | |
return SCPE_OK; /* we're happy doing nothing */ | |
} | |
/* Set on/noon routine */ | |
t_stat set_on (int32 flag, CONST char *cptr) | |
{ | |
if ((flag) && (cptr) && (*cptr)) { /* Set ON with arg */ | |
char gbuf[CBUFSIZE]; | |
cptr = get_glyph (cptr, gbuf, 0); /* get command glyph */ | |
if (((MATCH_CMD(gbuf,"INHERIT")) && | |
(MATCH_CMD(gbuf,"NOINHERIT"))) || | |
(*cptr)) | |
return SCPE_2MARG; | |
if ((gbuf[0]) && (0 == MATCH_CMD(gbuf,"INHERIT"))) | |
sim_on_inherit = 1; | |
if ((gbuf[0]) && (0 == MATCH_CMD(gbuf,"NOINHERIT"))) | |
sim_on_inherit = 0; | |
return SCPE_OK; | |
} | |
if (cptr && (*cptr != 0)) /* now eol? */ | |
return SCPE_2MARG; | |
sim_on_check[sim_do_depth] = flag; | |
if ((sim_do_depth != 0) && | |
(NULL == sim_on_actions[sim_do_depth][0])) { /* default handler set? */ | |
sim_on_actions[sim_do_depth][0] = /* No, so make "RETURN" */ | |
(char *)malloc(1+strlen("RETURN")); /* be the default action */ | |
strcpy(sim_on_actions[sim_do_depth][0], "RETURN"); | |
} | |
if ((sim_do_depth != 0) && | |
(NULL == sim_on_actions[sim_do_depth][SCPE_AFAIL])) {/* handler set for AFAIL? */ | |
sim_on_actions[sim_do_depth][SCPE_AFAIL] = /* No, so make "RETURN" */ | |
(char *)malloc(1+strlen("RETURN")); /* be the action */ | |
strcpy(sim_on_actions[sim_do_depth][SCPE_AFAIL], "RETURN"); | |
} | |
return SCPE_OK; | |
} | |
/* Set verify/noverify routine */ | |
t_stat set_verify (int32 flag, CONST char *cptr) | |
{ | |
if (cptr && (*cptr != 0)) /* now eol? */ | |
return SCPE_2MARG; | |
if (flag == sim_do_echo) /* already set correctly? */ | |
return SCPE_OK; | |
sim_do_echo = flag; | |
return SCPE_OK; | |
} | |
/* Set message/nomessage routine */ | |
t_stat set_message (int32 flag, CONST char *cptr) | |
{ | |
if (cptr && (*cptr != 0)) /* now eol? */ | |
return SCPE_2MARG; | |
if (flag == sim_show_message) /* already set correctly? */ | |
return SCPE_OK; | |
sim_show_message = flag; | |
return SCPE_OK; | |
} | |
/* Set quiet/noquiet routine */ | |
t_stat set_quiet (int32 flag, CONST char *cptr) | |
{ | |
if (cptr && (*cptr != 0)) /* now eol? */ | |
return SCPE_2MARG; | |
if (flag == sim_quiet) /* already set correctly? */ | |
return SCPE_OK; | |
sim_quiet = flag; | |
return SCPE_OK; | |
} | |
/* Set asynch/noasynch routine */ | |
t_stat sim_set_asynch (int32 flag, CONST char *cptr) | |
{ | |
if (cptr && (*cptr != 0)) /* now eol? */ | |
return SCPE_2MARG; | |
#ifdef SIM_ASYNCH_IO | |
if (flag == sim_asynch_enabled) /* already set correctly? */ | |
return SCPE_OK; | |
sim_asynch_enabled = flag; | |
tmxr_change_async (); | |
sim_timer_change_asynch (); | |
if (1) { | |
uint32 i, j; | |
DEVICE *dptr; | |
UNIT *uptr; | |
/* Call unit flush routines to report asynch status change to device layer */ | |
for (i = 1; (dptr = sim_devices[i]) != NULL; i++) { /* flush attached files */ | |
for (j = 0; j < dptr->numunits; j++) { /* if not buffered in mem */ | |
uptr = dptr->units + j; | |
if ((uptr->flags & UNIT_ATT) && /* attached, */ | |
(uptr->io_flush)) /* unit specific flush routine */ | |
uptr->io_flush (uptr); | |
} | |
} | |
} | |
if (!sim_quiet) | |
fprintf (stdout, "Asynchronous I/O %sabled\n", sim_asynch_enabled ? "en" : "dis"); | |
if ((!sim_oline) && sim_log) | |
fprintf (sim_log, "Asynchronous I/O %sabled\n", sim_asynch_enabled ? "en" : "dis"); | |
return SCPE_OK; | |
#else | |
if (!sim_quiet) | |
fprintf (stdout, "Asynchronous I/O is not available in this simulator\n"); | |
if ((!sim_oline) && sim_log) | |
fprintf (sim_log, "Asynchronous I/O is not available in this simulator\n"); | |
return SCPE_NOFNC; | |
#endif | |
} | |
/* Show asynch routine */ | |
t_stat sim_show_asynch (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
if (cptr && (*cptr != 0)) | |
return SCPE_2MARG; | |
#ifdef SIM_ASYNCH_IO | |
fprintf (st, "Asynchronous I/O is %sabled, %s\n", (sim_asynch_enabled) ? "en" : "dis", AIO_QUEUE_MODE); | |
#if defined(SIM_ASYNCH_MUX) | |
fprintf (st, "Asynchronous Multiplexer support is available\n"); | |
#endif | |
#if defined(SIM_ASYNCH_CLOCKS) | |
fprintf (st, "Asynchronous Clock is %sabled\n", (sim_asynch_timer) ? "en" : "dis"); | |
#endif | |
#else | |
fprintf (st, "Asynchronous I/O is not available in this simulator\n"); | |
#endif | |
return SCPE_OK; | |
} | |
/* Set environment routine */ | |
t_stat sim_set_environment (int32 flag, CONST char *cptr) | |
{ | |
char varname[CBUFSIZE], prompt[CBUFSIZE], cbuf[CBUFSIZE]; | |
if ((!cptr) || (*cptr == 0)) /* now eol? */ | |
return SCPE_2FARG; | |
if (sim_switches & SWMASK ('P')) { | |
CONST char *deflt = NULL; | |
cptr = get_glyph_quoted (cptr, prompt, 0); /* get prompt */ | |
if (prompt[0] == '\0') | |
return sim_messagef (SCPE_2FARG, "Missing Prompt and Environment Variable Name\n"); | |
if ((prompt[0] == '"') || (prompt[0] == '\'')) { | |
prompt[strlen (prompt) - 1] = '\0'; | |
memmove (prompt, prompt + 1, strlen (prompt)); | |
} | |
deflt = get_glyph (cptr, varname, '='); /* get environment variable name */ | |
if (deflt == NULL) | |
deflt = ""; | |
if (*deflt) { | |
strlcat (prompt, " [", sizeof (prompt)); | |
strlcat (prompt, deflt, sizeof (prompt)); | |
strlcat (prompt, "] ", sizeof (prompt)); | |
} | |
else | |
strlcat (prompt, " ", sizeof (prompt)); | |
if (sim_rem_cmd_active_line == -1) { | |
cptr = read_line_p (prompt, cbuf, sizeof(cbuf), stdin); | |
if ((cptr == NULL) || (*cptr == 0)) | |
cptr = deflt; | |
else | |
cptr = cbuf; | |
} | |
else | |
cptr = deflt; | |
} | |
else { | |
cptr = get_glyph (cptr, varname, '='); /* get environment variable name */ | |
strlcpy (cbuf, cptr, sizeof(cbuf)); | |
sim_trim_endspc (cbuf); | |
if (sim_switches & SWMASK ('S')) { /* Quote String argument? */ | |
uint32 str_size; | |
cptr = cbuf; | |
get_glyph_quoted (cptr, cbuf, 0); | |
if (SCPE_OK != sim_decode_quoted_string (cbuf, (uint8 *)cbuf, &str_size)) | |
return sim_messagef (SCPE_ARG, "Invalid quoted string: %s\n", cbuf); | |
cbuf[str_size] = '\0'; | |
} | |
else { | |
if (sim_switches & SWMASK ('A')) { /* Arithmentic Expression Evaluation argument? */ | |
t_svalue val; | |
t_stat stat; | |
const char *eptr = cptr; | |
if ((cptr > sim_sub_instr_buf) && ((size_t)(cptr - sim_sub_instr_buf) < sim_sub_instr_size)) | |
eptr = &sim_sub_instr[sim_sub_instr_off[cptr - sim_sub_instr_buf]]; /* get un-substituted string */ | |
cptr = sim_eval_expression (eptr, &val, FALSE, &stat); | |
if (stat == SCPE_OK) { | |
sprintf (cbuf, "%ld", (long)val); | |
cptr = cbuf; | |
} | |
else | |
return stat; | |
} | |
} | |
} | |
setenv(varname, cptr, 1); | |
return SCPE_OK; | |
} | |
/* Set command */ | |
t_stat set_cmd (int32 flag, CONST char *cptr) | |
{ | |
uint32 lvl = 0; | |
t_stat r; | |
char gbuf[CBUFSIZE], *cvptr; | |
CONST char *svptr; | |
DEVICE *dptr; | |
UNIT *uptr; | |
MTAB *mptr; | |
CTAB *gcmdp; | |
C1TAB *ctbr = NULL, *glbr; | |
GET_SWITCHES (cptr); /* get switches */ | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
cptr = get_glyph (svptr = cptr, gbuf, 0); /* get glob/dev/unit */ | |
if ((dptr = find_dev (gbuf))) { /* device match? */ | |
uptr = dptr->units; /* first unit */ | |
ctbr = set_dev_tab; /* global table */ | |
lvl = MTAB_VDV; /* device match */ | |
GET_SWITCHES (cptr); /* get more switches */ | |
} | |
else if ((dptr = find_unit (gbuf, &uptr))) { /* unit match? */ | |
if (uptr == NULL) /* invalid unit */ | |
return SCPE_NXUN; | |
ctbr = set_unit_tab; /* global table */ | |
lvl = MTAB_VUN; /* unit match */ | |
GET_SWITCHES (cptr); /* get more switches */ | |
} | |
else if ((gcmdp = find_ctab (set_glob_tab, gbuf))) { /* global? */ | |
GET_SWITCHES (cptr); /* get more switches */ | |
return gcmdp->action (gcmdp->arg, cptr); /* do the rest */ | |
} | |
else { | |
if (sim_dflt_dev->modifiers) { | |
if ((cvptr = strchr (gbuf, '='))) /* = value? */ | |
*cvptr++ = 0; | |
for (mptr = sim_dflt_dev->modifiers; mptr->mask != 0; mptr++) { | |
if (mptr->mstring && (MATCH_CMD (gbuf, mptr->mstring) == 0)) { | |
dptr = sim_dflt_dev; | |
cptr = svptr; | |
while (sim_isspace(*cptr)) | |
++cptr; | |
break; | |
} | |
} | |
} | |
if (!dptr) | |
return SCPE_NXDEV; /* no match */ | |
lvl = MTAB_VDV; /* device match */ | |
uptr = dptr->units; /* first unit */ | |
} | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
GET_SWITCHES (cptr); /* get more switches */ | |
while (*cptr != 0) { /* do all mods */ | |
cptr = get_glyph (svptr = cptr, gbuf, ','); /* get modifier */ | |
if ((cvptr = strchr (gbuf, '='))) /* = value? */ | |
*cvptr++ = 0; | |
for (mptr = dptr->modifiers; mptr && (mptr->mask != 0); mptr++) { | |
if ((mptr->mstring) && /* match string */ | |
(MATCH_CMD (gbuf, mptr->mstring) == 0)) { /* matches option? */ | |
if (mptr->mask & MTAB_XTD) { /* extended? */ | |
if (((lvl & mptr->mask) & ~MTAB_XTD) == 0) | |
return SCPE_ARG; | |
if ((lvl == MTAB_VUN) && (uptr->flags & UNIT_DIS)) | |
return SCPE_UDIS; /* unit disabled? */ | |
if (mptr->valid) { /* validation rtn? */ | |
if (cvptr && MODMASK(mptr,MTAB_QUOTE)) { | |
get_glyph_quoted (svptr, gbuf, ','); | |
if ((cvptr = strchr (gbuf, '='))) | |
*cvptr++ = 0; | |
} | |
else { | |
if (cvptr && MODMASK(mptr,MTAB_NC)) { | |
get_glyph_nc (svptr, gbuf, ','); | |
if ((cvptr = strchr (gbuf, '='))) | |
*cvptr++ = 0; | |
} | |
} | |
r = mptr->valid (uptr, mptr->match, cvptr, mptr->desc); | |
if (r != SCPE_OK) | |
return r; | |
} | |
else if (!mptr->desc) /* value desc? */ | |
break; | |
// else if (mptr->mask & MTAB_VAL) { /* take a value? */ | |
// if (!cvptr) return SCPE_MISVAL; /* none? error */ | |
// r = dep_reg (0, cvptr, (REG *) mptr->desc, 0); | |
// if (r != SCPE_OK) return r; | |
// } | |
else if (cvptr) /* = value? */ | |
return SCPE_ARG; | |
else *((int32 *) mptr->desc) = mptr->match; | |
} /* end if xtd */ | |
else { /* old style */ | |
if (cvptr) /* = value? */ | |
return SCPE_ARG; | |
if (uptr->flags & UNIT_DIS) /* disabled? */ | |
return SCPE_UDIS; | |
if ((mptr->valid) && /* invalid? */ | |
((r = mptr->valid (uptr, mptr->match, cvptr, mptr->desc)) != SCPE_OK)) | |
return r; | |
uptr->flags = (uptr->flags & ~(mptr->mask)) | | |
(mptr->match & mptr->mask); /* set new value */ | |
} /* end else xtd */ | |
break; /* terminate for */ | |
} /* end if match */ | |
} /* end for */ | |
if (!mptr || (mptr->mask == 0)) { /* no match? */ | |
if ((glbr = find_c1tab (ctbr, gbuf))) { /* global match? */ | |
r = glbr->action (dptr, uptr, glbr->arg, cvptr); /* do global */ | |
if (r != SCPE_OK) | |
return r; | |
} | |
else if (!dptr->modifiers) /* no modifiers? */ | |
return SCPE_NOPARAM; | |
else return SCPE_NXPAR; | |
} /* end if no mat */ | |
} /* end while */ | |
return SCPE_OK; /* done all */ | |
} | |
/* Match CTAB/CTAB1 name */ | |
CTAB *find_ctab (CTAB *tab, const char *gbuf) | |
{ | |
if (!tab) | |
return NULL; | |
for (; tab->name != NULL; tab++) { | |
if (MATCH_CMD (gbuf, tab->name) == 0) | |
return tab; | |
} | |
return NULL; | |
} | |
C1TAB *find_c1tab (C1TAB *tab, const char *gbuf) | |
{ | |
if (!tab) | |
return NULL; | |
for (; tab->name != NULL; tab++) { | |
if (MATCH_CMD (gbuf, tab->name) == 0) | |
return tab; | |
} | |
return NULL; | |
} | |
/* Set device data radix routine */ | |
t_stat set_dev_radix (DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
if (cptr) | |
return SCPE_ARG; | |
dptr->dradix = flag & 037; | |
return SCPE_OK; | |
} | |
/* Set device enabled/disabled routine */ | |
t_stat set_dev_enbdis (DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
UNIT *up; | |
uint32 i; | |
if (cptr) | |
return SCPE_ARG; | |
if ((dptr->flags & DEV_DISABLE) == 0) /* allowed? */ | |
return SCPE_NOFNC; | |
if (flag) { /* enable? */ | |
if ((dptr->flags & DEV_DIS) == 0) /* already enb? ok */ | |
return SCPE_OK; | |
dptr->flags = dptr->flags & ~DEV_DIS; /* no, enable */ | |
} | |
else { | |
if (dptr->flags & DEV_DIS) /* already dsb? ok */ | |
return SCPE_OK; | |
for (i = 0; i < dptr->numunits; i++) { /* check units */ | |
up = (dptr->units) + i; /* att or active? */ | |
if ((up->flags & UNIT_ATT) || sim_is_active (up)) | |
return SCPE_NOFNC; /* can't do it */ | |
} | |
dptr->flags = dptr->flags | DEV_DIS; /* disable */ | |
} | |
if (dptr->reset) /* reset device */ | |
return dptr->reset (dptr); | |
else return SCPE_OK; | |
} | |
/* Set unit enabled/disabled routine */ | |
t_stat set_unit_enbdis (DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
if (cptr) | |
return SCPE_ARG; | |
if (!(uptr->flags & UNIT_DISABLE)) /* allowed? */ | |
return SCPE_NOFNC; | |
if (flag) /* enb? enable */ | |
uptr->flags = uptr->flags & ~UNIT_DIS; | |
else { | |
if ((uptr->flags & UNIT_ATT) || /* dsb */ | |
sim_is_active (uptr)) /* more tests */ | |
return SCPE_NOFNC; | |
uptr->flags = uptr->flags | UNIT_DIS; /* disable */ | |
} | |
return SCPE_OK; | |
} | |
/* Set device/unit debug enabled/disabled routine */ | |
t_stat set_dev_debug (DEVICE *dptr, UNIT *uptr, int32 flags, CONST char *cptr) | |
{ | |
int32 flag = flags & 1; | |
t_bool uflag = ((flags & 2) != 0); | |
char gbuf[CBUFSIZE]; | |
DEBTAB *dep; | |
if ((dptr->flags & DEV_DEBUG) == 0) | |
return SCPE_NOFNC; | |
if (cptr == NULL) { /* no arguments? */ | |
if (uflag) | |
uptr->dctrl = flag ? (dptr->debflags ? flag : 0xFFFFFFFF) : 0;/* disable/enable w/o table */ | |
else | |
dptr->dctrl = flag ? (dptr->debflags ? flag : 0xFFFFFFFF) : 0;/* disable/enable w/o table */ | |
if (flag && dptr->debflags) { /* enable with table? */ | |
for (dep = dptr->debflags; dep->name != NULL; dep++) | |
if (uflag) | |
uptr->dctrl = uptr->dctrl | dep->mask; /* set all */ | |
else | |
dptr->dctrl = dptr->dctrl | dep->mask; /* set all */ | |
} | |
return SCPE_OK; | |
} | |
if (dptr->debflags == NULL) /* must have table */ | |
return SCPE_ARG; | |
while (*cptr) { | |
cptr = get_glyph (cptr, gbuf, ';'); /* get debug flag */ | |
for (dep = dptr->debflags; dep->name != NULL; dep++) { | |
if (strcmp (dep->name, gbuf) == 0) { /* match? */ | |
if (flag) | |
if (uflag) | |
uptr->dctrl = uptr->dctrl | dep->mask; | |
else | |
dptr->dctrl = dptr->dctrl | dep->mask; | |
else | |
if (uflag) | |
uptr->dctrl = uptr->dctrl & ~dep->mask; | |
else | |
dptr->dctrl = dptr->dctrl & ~dep->mask; | |
break; | |
} | |
} /* end for */ | |
if (dep->mask == 0) /* no match? */ | |
return SCPE_ARG; | |
} /* end while */ | |
return SCPE_OK; | |
} | |
/* Show command */ | |
t_stat show_cmd (int32 flag, CONST char *cptr) | |
{ | |
t_stat r; | |
cptr = get_sim_opt (CMD_OPT_SW|CMD_OPT_OF, cptr, &r); | |
/* get sw, ofile */ | |
if (!cptr) /* error? */ | |
return r; | |
if (sim_ofile) { /* output file? */ | |
r = show_cmd_fi (sim_ofile, flag, cptr); /* do show */ | |
fclose (sim_ofile); | |
} | |
else { | |
r = show_cmd_fi (stdout, flag, cptr); /* no, stdout, log */ | |
if ((!sim_oline) && (sim_log && (sim_log != stdout))) | |
show_cmd_fi (sim_log, flag, cptr); | |
if ((!sim_oline) && (sim_deb && (sim_deb != stdout) && (sim_deb != sim_log))) | |
show_cmd_fi (sim_deb, flag, cptr); | |
} | |
return r; | |
} | |
t_stat show_cmd_fi (FILE *ofile, int32 flag, CONST char *cptr) | |
{ | |
uint32 lvl = 0xFFFFFFFF; | |
char gbuf[CBUFSIZE], *cvptr; | |
CONST char *svptr; | |
DEVICE *dptr; | |
UNIT *uptr; | |
MTAB *mptr; | |
SHTAB *shtb = NULL, *shptr; | |
GET_SWITCHES (cptr); /* get switches */ | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
cptr = get_glyph (svptr = cptr, gbuf, 0); /* get next glyph */ | |
if ((dptr = find_dev (gbuf))) { /* device match? */ | |
uptr = dptr->units; /* first unit */ | |
shtb = show_dev_tab; /* global table */ | |
lvl = MTAB_VDV; /* device match */ | |
GET_SWITCHES (cptr); /* get more switches */ | |
} | |
else if ((dptr = find_unit (gbuf, &uptr))) { /* unit match? */ | |
if (uptr == NULL) /* invalid unit */ | |
return SCPE_NXUN; | |
if (uptr->flags & UNIT_DIS) /* disabled? */ | |
return SCPE_UDIS; | |
shtb = show_unit_tab; /* global table */ | |
lvl = MTAB_VUN; /* unit match */ | |
GET_SWITCHES (cptr); /* get more switches */ | |
} | |
else if ((shptr = find_shtab (show_glob_tab, gbuf))) { /* global? */ | |
GET_SWITCHES (cptr); /* get more switches */ | |
return shptr->action (ofile, NULL, NULL, shptr->arg, cptr); | |
} | |
else { | |
if (sim_dflt_dev->modifiers) { | |
if ((cvptr = strchr (gbuf, '='))) /* = value? */ | |
*cvptr++ = 0; | |
for (mptr = sim_dflt_dev->modifiers; mptr->mask != 0; mptr++) { | |
if ((((mptr->mask & MTAB_VDV) == MTAB_VDV) && | |
(mptr->pstring && (MATCH_CMD (gbuf, mptr->pstring) == 0))) || | |
(!(mptr->mask & MTAB_VDV) && (mptr->mstring && (MATCH_CMD (gbuf, mptr->mstring) == 0)))) { | |
dptr = sim_dflt_dev; | |
lvl = MTAB_VDV; /* device match */ | |
cptr = svptr; | |
while (sim_isspace(*cptr)) | |
++cptr; | |
break; | |
} | |
} | |
} | |
if (!dptr) { | |
if ((shptr = find_shtab (show_dev_tab, gbuf))) /* global match? */ | |
return shptr->action (ofile, sim_dflt_dev, uptr, shptr->arg, cptr); | |
else | |
return SCPE_NXDEV; /* no match */ | |
} | |
} | |
if (*cptr == 0) { /* now eol? */ | |
return (lvl == MTAB_VDV)? | |
show_device (ofile, dptr, 0): | |
show_unit (ofile, dptr, uptr, -1); | |
} | |
GET_SWITCHES (cptr); /* get more switches */ | |
while (*cptr != 0) { /* do all mods */ | |
cptr = get_glyph (cptr, gbuf, ','); /* get modifier */ | |
if ((cvptr = strchr (gbuf, '='))) /* = value? */ | |
*cvptr++ = 0; | |
for (mptr = dptr->modifiers; mptr && (mptr->mask != 0); mptr++) { | |
if (((mptr->mask & MTAB_XTD)? /* right level? */ | |
((mptr->mask & lvl) == lvl): (MTAB_VUN & lvl)) && | |
((mptr->disp && mptr->pstring && /* named disp? */ | |
(MATCH_CMD (gbuf, mptr->pstring) == 0)) | |
// || | |
// ((mptr->mask & MTAB_VAL) && /* named value? */ | |
// mptr->mstring && | |
// (MATCH_CMD (gbuf, mptr->mstring) == 0))) | |
)) { | |
if (cvptr && !(mptr->mask & MTAB_SHP)) | |
return SCPE_ARG; | |
show_one_mod (ofile, dptr, uptr, mptr, cvptr, 1); | |
break; | |
} /* end if */ | |
} /* end for */ | |
if (!mptr || (mptr->mask == 0)) { /* no match? */ | |
if (shtb && (shptr = find_shtab (shtb, gbuf))) {/* global match? */ | |
t_stat r; | |
r = shptr->action (ofile, dptr, uptr, shptr->arg, cptr); | |
if (r != SCPE_OK) | |
return r; | |
} | |
else if (!dptr->modifiers) /* no modifiers? */ | |
return SCPE_NOPARAM; | |
else | |
return SCPE_NXPAR; | |
} /* end if */ | |
} /* end while */ | |
return SCPE_OK; | |
} | |
SHTAB *find_shtab (SHTAB *tab, const char *gbuf) | |
{ | |
if (!tab) | |
return NULL; | |
for (; tab->name != NULL; tab++) { | |
if (MATCH_CMD (gbuf, tab->name) == 0) | |
return tab; | |
} | |
return NULL; | |
} | |
/* Show device and unit */ | |
t_stat show_device (FILE *st, DEVICE *dptr, int32 flag) | |
{ | |
uint32 j, udbl, ucnt; | |
UNIT *uptr; | |
int32 toks = 0; | |
fprintf (st, "%s", sim_dname (dptr)); /* print dev name */ | |
if ((flag == 2) && dptr->description) { | |
fprintf (st, "\t%s\n", dptr->description(dptr)); | |
} | |
else { | |
if ((sim_switches & SWMASK ('D')) && dptr->description) | |
fprintf (st, "\t%s\n", dptr->description(dptr)); | |
} | |
if (qdisable (dptr)) { /* disabled? */ | |
fprintf (st, "\tdisabled\n"); | |
return SCPE_OK; | |
} | |
for (j = ucnt = udbl = 0; j < dptr->numunits; j++) { /* count units */ | |
uptr = dptr->units + j; | |
if (!(uptr->flags & UNIT_DIS)) /* count enabled units */ | |
ucnt++; | |
else if (uptr->flags & UNIT_DISABLE) | |
udbl++; /* count user-disabled */ | |
} | |
show_all_mods (st, dptr, dptr->units, MTAB_VDV, &toks); /* show dev mods */ | |
if (dptr->numunits == 0) { | |
if (toks) | |
fprintf (st, "\n"); | |
} | |
else { | |
if (ucnt == 0) { | |
fprint_sep (st, &toks); | |
fprintf (st, "all units disabled\n"); | |
} | |
else if ((ucnt > 1) || (udbl > 0)) { | |
fprint_sep (st, &toks); | |
fprintf (st, "%d units\n", ucnt + udbl); | |
} | |
else | |
if ((flag != 2) || !dptr->description || toks) | |
fprintf (st, "\n"); | |
toks = 0; | |
} | |
if (flag) /* dev only? */ | |
return SCPE_OK; | |
for (j = 0; j < dptr->numunits; j++) { /* loop thru units */ | |
uptr = dptr->units + j; | |
if ((uptr->flags & UNIT_DIS) == 0) | |
show_unit (st, dptr, uptr, ucnt + udbl); | |
} | |
return SCPE_OK; | |
} | |
void fprint_sep (FILE *st, int32 *tokens) | |
{ | |
fprintf (st, (*tokens > 0) ? ", " : "\t"); | |
*tokens += 1; | |
} | |
t_stat show_unit (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag) | |
{ | |
int32 u = (int32)(uptr - dptr->units); | |
int32 toks = 0; | |
if (flag > 1) | |
fprintf (st, " %s%d", sim_dname (dptr), u); | |
else if (flag < 0) | |
fprintf (st, "%s%d", sim_dname (dptr), u); | |
if (uptr->flags & UNIT_FIX) { | |
fprint_sep (st, &toks); | |
fprint_capac (st, dptr, uptr); | |
} | |
if (uptr->flags & UNIT_ATT) { | |
fprint_sep (st, &toks); | |
fprintf (st, "attached to %s", uptr->filename); | |
if (uptr->flags & UNIT_RO) | |
fprintf (st, ", read only"); | |
} | |
else { | |
if (uptr->flags & UNIT_ATTABLE) { | |
fprint_sep (st, &toks); | |
fprintf (st, "not attached"); | |
} | |
} | |
show_all_mods (st, dptr, uptr, MTAB_VUN, &toks); /* show unit mods */ | |
if (toks || (flag < 0) || (flag > 1)) | |
fprintf (st, "\n"); | |
return SCPE_OK; | |
} | |
const char *sprint_capac (DEVICE *dptr, UNIT *uptr) | |
{ | |
static char capac_buf[((CHAR_BIT * sizeof (t_value) * 4 + 3)/3) + 8]; | |
t_addr kval = (uptr->flags & UNIT_BINK)? 1024: 1000; | |
t_addr mval; | |
t_addr psize = uptr->capac; | |
const char *scale, *width; | |
if (sim_switches & SWMASK ('B')) | |
kval = 1024; | |
mval = kval * kval; | |
if (dptr->flags & DEV_SECTORS) | |
psize = psize * 512; | |
if ((dptr->dwidth / dptr->aincr) > 8) | |
width = "W"; | |
else | |
width = "B"; | |
if (psize < (kval * 10)) | |
scale = ""; | |
else if (psize < (mval * 10)) { | |
scale = "K"; | |
psize = psize / kval; | |
} | |
else { | |
scale = "M"; | |
psize = psize / mval; | |
} | |
sprint_val (capac_buf, (t_value) psize, 10, T_ADDR_W, PV_LEFT); | |
sprintf (&capac_buf[strlen (capac_buf)], "%s%s", scale, width); | |
return capac_buf; | |
} | |
void fprint_capac (FILE *st, DEVICE *dptr, UNIT *uptr) | |
{ | |
fprintf (st, "%s", sprint_capac (dptr, uptr)); | |
} | |
/* Show <global name> processors */ | |
t_stat show_version (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
int32 vmaj = SIM_MAJOR, vmin = SIM_MINOR, vpat = SIM_PATCH, vdelt = SIM_DELTA; | |
const char *cpp = ""; | |
const char *build = ""; | |
const char *arch = ""; | |
if (cptr && (*cptr != 0)) | |
return SCPE_2MARG; | |
fprintf (st, "%s simulator V%d.%d-%d", sim_name, vmaj, vmin, vpat); | |
if (vdelt) | |
fprintf (st, " delta %d", vdelt); | |
#if defined (SIM_VERSION_MODE) | |
fprintf (st, " %s", SIM_VERSION_MODE); | |
#endif | |
if (flag) { | |
t_bool idle_capable; | |
uint32 os_ms_sleep_1, os_tick_size; | |
char os_type[128] = "Unknown"; | |
fprintf (st, "\n Simulator Framework Capabilities:"); | |
fprintf (st, "\n %s", sim_si64); | |
fprintf (st, "\n %s", sim_sa64); | |
fprintf (st, "\n %s", eth_capabilities()); | |
idle_capable = sim_timer_idle_capable (&os_ms_sleep_1, &os_tick_size); | |
fprintf (st, "\n Idle/Throttling support is %savailable", idle_capable ? "" : "NOT "); | |
if (sim_disk_vhd_support()) | |
fprintf (st, "\n Virtual Hard Disk (VHD) support"); | |
if (sim_disk_raw_support()) | |
fprintf (st, "\n RAW disk and CD/DVD ROM support"); | |
#if defined (SIM_ASYNCH_IO) | |
fprintf (st, "\n Asynchronous I/O support (%s)", AIO_QUEUE_MODE); | |
#endif | |
#if defined (SIM_ASYNCH_MUX) | |
fprintf (st, "\n Asynchronous Multiplexer support"); | |
#endif | |
#if defined (SIM_ASYNCH_CLOCKS) | |
fprintf (st, "\n Asynchronous Clock support"); | |
#endif | |
#if defined (SIM_FRONTPANEL_VERSION) | |
fprintf (st, "\n FrontPanel API Version %d", SIM_FRONTPANEL_VERSION); | |
#endif | |
fprintf (st, "\n Host Platform:"); | |
#if defined (__GNUC__) && defined (__VERSION__) | |
fprintf (st, "\n Compiler: GCC %s", __VERSION__); | |
#elif defined (__clang_version__) | |
fprintf (st, "\n Compiler: clang %s", __clang_version__); | |
#elif defined (_MSC_FULL_VER) && defined (_MSC_BUILD) | |
fprintf (st, "\n Compiler: Microsoft Visual C++ %d.%02d.%05d.%02d", _MSC_FULL_VER/10000000, (_MSC_FULL_VER/100000)%100, _MSC_FULL_VER%100000, _MSC_BUILD); | |
#if defined(_DEBUG) | |
build = " (Debug Build)"; | |
#else | |
build = " (Release Build)"; | |
#endif | |
#elif defined (__DECC_VER) | |
fprintf (st, "\n Compiler: DEC C %c%d.%d-%03d", ("T SV")[((__DECC_VER/10000)%10)-6], __DECC_VER/10000000, (__DECC_VER/100000)%100, __DECC_VER%10000); | |
#elif defined (SIM_COMPILER) | |
#define S_xstr(a) S_str(a) | |
#define S_str(a) #a | |
fprintf (st, "\n Compiler: %s", S_xstr(SIM_COMPILER)); | |
#undef S_str | |
#undef S_xstr | |
#endif | |
#if defined(__GNUC__) | |
#if defined(__OPTIMIZE__) | |
build = " (Release Build)"; | |
#else | |
build = " (Debug Build)"; | |
#endif | |
#endif | |
#if defined(_M_X64) || defined(_M_AMD64) || defined(__amd64__) || defined(__x86_64__) | |
arch = " arch: x64"; | |
#elif defined(_M_IX86) || defined(__i386) | |
arch = " arch: x86"; | |
#elif defined(_M_ARM64) || defined(__aarch64_) | |
arch = " arch: ARM64"; | |
#elif defined(_M_ARM) || defined(__arm__) | |
arch = " arch: ARM"; | |
#elif defined(__ia64__) || defined(_M_IA64) || defined(__itanium__) | |
arch = " arch: IA-64"; | |
#endif | |
#if defined (__DATE__) && defined (__TIME__) | |
#ifdef __cplusplus | |
cpp = "C++"; | |
#else | |
cpp = "C"; | |
#endif | |
#if !defined (SIM_BUILD_OS) | |
fprintf (st, "\n Simulator Compiled as %s%s%s on %s at %s", cpp, arch, build, __DATE__, __TIME__); | |
#else | |
#define S_xstr(a) S_str(a) | |
#define S_str(a) #a | |
fprintf (st, "\n Simulator Compiled as %s%s%s on %s at %s %s", cpp, arch, build, __DATE__, __TIME__, S_xstr(SIM_BUILD_OS)); | |
#undef S_str | |
#undef S_xstr | |
#endif | |
#endif | |
fprintf (st, "\n Memory Access: %s Endian", sim_end ? "Little" : "Big"); | |
fprintf (st, "\n Memory Pointer Size: %d bits", (int)sizeof(dptr)*8); | |
fprintf (st, "\n %s", sim_toffset_64 ? "Large File (>2GB) support" : "No Large File support"); | |
fprintf (st, "\n SDL Video support: %s", vid_version()); | |
#if defined (HAVE_PCREPOSIX_H) | |
fprintf (st, "\n PCRE RegEx (Version %s) support for EXPECT commands", pcre_version()); | |
#elif defined (HAVE_REGEX_H) | |
fprintf (st, "\n RegEx support for EXPECT commands"); | |
#else | |
fprintf (st, "\n No RegEx support for EXPECT commands"); | |
#endif | |
fprintf (st, "\n OS clock resolution: %dms", os_tick_size); | |
fprintf (st, "\n Time taken by msleep(1): %dms", os_ms_sleep_1); | |
#if defined(__VMS) | |
if (1) { | |
char *arch = | |
#if defined(__ia64) | |
"I64"; | |
#elif defined(__ALPHA) | |
"Alpha"; | |
#else | |
"VAX"; | |
#endif | |
strlcpy (os_type, "OpenVMS ", sizeof (os_type)); | |
strlcat (os_type, arch, sizeof (os_type)); | |
fprintf (st, "\n OS: OpenVMS %s %s", arch, __VMS_VERSION); | |
} | |
#elif defined(_WIN32) | |
if (1) { | |
char *proc_id = getenv ("PROCESSOR_IDENTIFIER"); | |
char *arch = getenv ("PROCESSOR_ARCHITECTURE"); | |
char *procs = getenv ("NUMBER_OF_PROCESSORS"); | |
char *proc_level = getenv ("PROCESSOR_LEVEL"); | |
char *proc_rev = getenv ("PROCESSOR_REVISION"); | |
char *proc_arch3264 = getenv ("PROCESSOR_ARCHITEW6432"); | |
char osversion[PATH_MAX+1] = ""; | |
FILE *f; | |
if ((f = _popen ("ver", "r"))) { | |
memset (osversion, 0, sizeof(osversion)); | |
do { | |
if (NULL == fgets (osversion, sizeof(osversion)-1, f)) | |
break; | |
sim_trim_endspc (osversion); | |
} while (osversion[0] == '\0'); | |
_pclose (f); | |
} | |
fprintf (st, "\n OS: %s", osversion); | |
fprintf (st, "\n Architecture: %s%s%s, Processors: %s", arch, proc_arch3264 ? " on " : "", proc_arch3264 ? proc_arch3264 : "", procs); | |
fprintf (st, "\n Processor Id: %s, Level: %s, Revision: %s", proc_id ? proc_id : "", proc_level ? proc_level : "", proc_rev ? proc_rev : ""); | |
strlcpy (os_type, "Windows", sizeof (os_type)); | |
} | |
#else | |
if (1) { | |
char osversion[2*PATH_MAX+1] = ""; | |
FILE *f; | |
if ((f = popen ("uname -a", "r"))) { | |
memset (osversion, 0, sizeof (osversion)); | |
do { | |
if (NULL == fgets (osversion, sizeof (osversion)-1, f)) | |
break; | |
sim_trim_endspc (osversion); | |
} while (osversion[0] == '\0'); | |
pclose (f); | |
} | |
fprintf (st, "\n OS: %s", osversion); | |
if ((f = popen ("uname", "r"))) { | |
memset (os_type, 0, sizeof (os_type)); | |
do { | |
if (NULL == fgets (os_type, sizeof (os_type)-1, f)) | |
break; | |
sim_trim_endspc (os_type); | |
} while (os_type[0] == '\0'); | |
pclose (f); | |
} | |
} | |
#endif | |
if ((!strcmp (os_type, "Unknown")) && (getenv ("OSTYPE"))) | |
strlcpy (os_type, getenv ("OSTYPE"), sizeof (os_type)); | |
setenv ("SIM_OSTYPE", os_type, 1); | |
} | |
#if defined(SIM_GIT_COMMIT_ID) | |
#define S_xstr(a) S_str(a) | |
#define S_str(a) #a | |
fprintf (st, "%sgit commit id: %8.8s", flag ? "\n " : " ", S_xstr(SIM_GIT_COMMIT_ID)); | |
#if defined(SIM_GIT_COMMIT_TIME) | |
if (flag) | |
fprintf (st, "%sgit commit time: %s", "\n ", S_xstr(SIM_GIT_COMMIT_TIME)); | |
#endif | |
#undef S_str | |
#undef S_xstr | |
#endif | |
#if defined(SIM_BUILD) | |
#define S_xstr(a) S_str(a) | |
#define S_str(a) #a | |
fprintf (st, "%sBuild: %s", flag ? "\n " : " ", S_xstr(SIM_BUILD)); | |
#undef S_str | |
#undef S_xstr | |
#endif | |
fprintf (st, "\n"); | |
return SCPE_OK; | |
} | |
t_stat show_config (FILE *st, DEVICE *dnotused, UNIT *unotused, int32 flag, CONST char *cptr) | |
{ | |
int32 i; | |
DEVICE *dptr; | |
t_bool only_enabled = (sim_switches & SWMASK ('E')); | |
if (cptr && (*cptr != 0)) | |
return SCPE_2MARG; | |
fprintf (st, "%s simulator configuration%s\n\n", sim_name, only_enabled ? " (enabled devices)" : ""); | |
for (i = 0; (dptr = sim_devices[i]) != NULL; i++) | |
if (!only_enabled || !qdisable (dptr)) | |
show_device (st, dptr, flag); | |
if (sim_switches & SWMASK ('I')) { | |
fprintf (st, "\nInternal Devices%s\n\n", only_enabled ? " (enabled devices)" : ""); | |
for (i = 0; sim_internal_device_count && (dptr = sim_internal_devices[i]); ++i) | |
if (!only_enabled || !qdisable (dptr)) | |
show_device (st, dptr, flag); | |
} | |
return SCPE_OK; | |
} | |
t_stat show_log_names (FILE *st, DEVICE *dnotused, UNIT *unotused, int32 flag, CONST char *cptr) | |
{ | |
int32 i; | |
DEVICE *dptr; | |
if (cptr && (*cptr != 0)) | |
return SCPE_2MARG; | |
for (i = 0; (dptr = sim_devices[i]) != NULL; i++) | |
show_dev_logicals (st, dptr, NULL, 1, cptr); | |
return SCPE_OK; | |
} | |
t_stat show_dev_logicals (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
if (dptr->lname) | |
fprintf (st, "%s -> %s\n", dptr->lname, dptr->name); | |
else if (!flag) | |
fputs ("no logical name assigned\n", st); | |
return SCPE_OK; | |
} | |
t_stat show_queue (FILE *st, DEVICE *dnotused, UNIT *unotused, int32 flag, CONST char *cptr) | |
{ | |
DEVICE *dptr; | |
UNIT *uptr; | |
int32 accum; | |
MEMFILE buf; | |
memset (&buf, 0, sizeof (buf)); | |
if (cptr && (*cptr != 0)) | |
return SCPE_2MARG; | |
if (sim_clock_queue == QUEUE_LIST_END) | |
fprintf (st, "%s event queue empty, time = %.0f, executing %s instructios/sec\n", | |
sim_name, sim_time, sim_fmt_numeric (sim_timer_inst_per_sec ())); | |
else { | |
const char *tim; | |
fprintf (st, "%s event queue status, time = %.0f, executing %s instructions/sec\n", | |
sim_name, sim_time, sim_fmt_numeric (sim_timer_inst_per_sec ())); | |
accum = 0; | |
for (uptr = sim_clock_queue; uptr != QUEUE_LIST_END; uptr = uptr->next) { | |
if (uptr == &sim_step_unit) | |
fprintf (st, " Step timer"); | |
else | |
if (uptr == &sim_expect_unit) | |
fprintf (st, " Expect fired"); | |
else | |
if ((dptr = find_dev_from_unit (uptr)) != NULL) { | |
fprintf (st, " %s", sim_dname (dptr)); | |
if (dptr->numunits > 1) | |
fprintf (st, " unit %d", (int32) (uptr - dptr->units)); | |
} | |
else | |
fprintf (st, " Unknown"); | |
tim = sim_fmt_secs(((accum + uptr->time) / sim_timer_inst_per_sec ()) + (uptr->usecs_remaining / 1000000.0)); | |
if (uptr->usecs_remaining) | |
fprintf (st, " at %d plus %.0f usecs%s%s%s%s\n", accum + uptr->time, uptr->usecs_remaining, | |
(*tim) ? " (" : "", tim, (*tim) ? " total)" : "", | |
(uptr->flags & UNIT_IDLE) ? " (Idle capable)" : ""); | |
else | |
fprintf (st, " at %d%s%s%s%s\n", accum + uptr->time, | |
(*tim) ? " (" : "", tim, (*tim) ? ")" : "", | |
(uptr->flags & UNIT_IDLE) ? " (Idle capable)" : ""); | |
accum = accum + uptr->time; | |
} | |
} | |
sim_show_clock_queues (st, dnotused, unotused, flag, cptr); | |
#if defined (SIM_ASYNCH_IO) | |
pthread_mutex_lock (&sim_asynch_lock); | |
sim_mfile = &buf; | |
fprintf (st, "asynchronous pending event queue\n"); | |
if (sim_asynch_queue == QUEUE_LIST_END) | |
fprintf (st, " Empty\n"); | |
else { | |
for (uptr = sim_asynch_queue; uptr != QUEUE_LIST_END; uptr = uptr->a_next) { | |
if ((dptr = find_dev_from_unit (uptr)) != NULL) { | |
fprintf (st, " %s", sim_dname (dptr)); | |
if (dptr->numunits > 1) fprintf (st, " unit %d", | |
(int32) (uptr - dptr->units)); | |
} | |
else fprintf (st, " Unknown"); | |
fprintf (st, " event delay %d\n", uptr->a_event_time); | |
} | |
} | |
fprintf (st, "asynch latency: %d nanoseconds\n", sim_asynch_latency); | |
fprintf (st, "asynch instruction latency: %d instructions\n", sim_asynch_inst_latency); | |
pthread_mutex_unlock (&sim_asynch_lock); | |
sim_mfile = NULL; | |
fprintf (st, "%*.*s", (int)buf.pos, (int)buf.pos, buf.buf); | |
free (buf.buf); | |
#endif /* SIM_ASYNCH_IO */ | |
return SCPE_OK; | |
} | |
t_stat show_time (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
if (cptr && (*cptr != 0)) | |
return SCPE_2MARG; | |
fprintf (st, "Time:\t%.0f\n", sim_gtime()); | |
return SCPE_OK; | |
} | |
t_stat show_break (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
t_stat r; | |
if (cptr && (*cptr != 0)) | |
r = ssh_break (st, cptr, 1); /* more? */ | |
else | |
r = sim_brk_showall (st, sim_switches); | |
return r; | |
} | |
t_stat show_dev_radix (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
fprintf (st, "Radix=%d\n", dptr->dradix); | |
return SCPE_OK; | |
} | |
t_stat show_dev_debug (FILE *st, DEVICE *dptr, UNIT *uptr, int32 uflag, CONST char *cptr) | |
{ | |
DEBTAB *dep; | |
uint32 unit; | |
int32 any = 0; | |
if (uflag) { | |
if ((dptr->flags & DEV_DEBUG) || (dptr->debflags)) { | |
if (!uptr->dctrl) | |
return SCPE_OK; | |
if (dptr->debflags == NULL) | |
fprintf (st, "%s: Debugging enabled\n", sim_uname (uptr)); | |
else { | |
uint32 dctrl = uptr->dctrl; | |
for (dep = dptr->debflags; (dctrl != 0) && (dep->name != NULL); dep++) { | |
if ((dctrl & dep->mask) == dep->mask) { | |
dctrl &= ~dep->mask; | |
if (any) | |
fputc (';', st); | |
else | |
fprintf (st, "%s: Debug=", sim_uname (uptr)); | |
fputs (dep->name, st); | |
any = 1; | |
} | |
} | |
if (any) | |
fputc ('\n', st); | |
} | |
} | |
return SCPE_OK; | |
} | |
if ((dptr->flags & DEV_DEBUG) || (dptr->debflags)) { | |
if (dptr->dctrl == 0) | |
fputs ("Debugging disabled", st); | |
else if (dptr->debflags == NULL) | |
fputs ("Debugging enabled", st); | |
else { | |
uint32 dctrl = dptr->dctrl; | |
fputs ("Debug=", st); | |
for (dep = dptr->debflags; (dctrl != 0) && (dep->name != NULL); dep++) { | |
if ((dctrl & dep->mask) == dep->mask) { | |
dctrl &= ~dep->mask; | |
if (any) | |
fputc (';', st); | |
fputs (dep->name, st); | |
any = 1; | |
} | |
} | |
} | |
fputc ('\n', st); | |
for (unit = 0; unit < dptr->numunits; unit++) | |
show_dev_debug (st, dptr, &dptr->units[unit], 1, NULL); | |
return SCPE_OK; | |
} | |
else return SCPE_NOFNC; | |
} | |
/* Show On actions */ | |
t_stat show_on (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
int32 lvl, i; | |
if (cptr && (*cptr != 0)) return SCPE_2MARG; /* now eol? */ | |
for (lvl=sim_do_depth; lvl >= 0; --lvl) { | |
if (lvl > 0) | |
fprintf(st, "On Processing at Do Nest Level: %d", lvl); | |
else | |
fprintf(st, "On Processing for input commands"); | |
fprintf(st, " is %s\n", (sim_on_check[lvl]) ? "enabled" : "disabled"); | |
for (i=1; i<SCPE_BASE; ++i) { | |
if (sim_on_actions[lvl][i]) | |
fprintf(st, " on %6d %s\n", i, sim_on_actions[lvl][i]); } | |
for (i=SCPE_BASE; i<=SCPE_MAX_ERR; ++i) { | |
if (sim_on_actions[lvl][i]) | |
fprintf(st, " on %-6s %s\n", scp_errors[i-SCPE_BASE].code, sim_on_actions[lvl][i]); } | |
if (sim_on_actions[lvl][0]) | |
fprintf(st, " on ERROR %s\n", sim_on_actions[lvl][0]); | |
if (sim_on_actions[lvl][ON_SIGINT_ACTION]) { | |
fprintf(st, "CONTROL+C/SIGINT Handling:\n"); | |
fprintf(st, " on CONTROL_C %s\n", sim_on_actions[lvl][ON_SIGINT_ACTION]); | |
} | |
fprintf(st, "\n"); | |
} | |
if (sim_on_inherit) | |
fprintf(st, "on state and actions are inherited by nested do commands and subroutines\n"); | |
return SCPE_OK; | |
} | |
/* Show modifiers */ | |
t_stat show_mod_names (FILE *st, DEVICE *dnotused, UNIT *unotused, int32 flag, CONST char *cptr) | |
{ | |
int32 i; | |
DEVICE *dptr; | |
if (cptr && (*cptr != 0)) /* now eol? */ | |
return SCPE_2MARG; | |
for (i = 0; (dptr = sim_devices[i]) != NULL; i++) | |
show_dev_modifiers (st, dptr, NULL, flag, cptr); | |
for (i = 0; sim_internal_device_count && (dptr = sim_internal_devices[i]); ++i) | |
show_dev_modifiers (st, dptr, NULL, flag, cptr); | |
return SCPE_OK; | |
} | |
t_stat show_dev_modifiers (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
fprint_set_help (st, dptr); | |
return SCPE_OK; | |
} | |
t_stat show_all_mods (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, int32 *toks) | |
{ | |
MTAB *mptr; | |
t_stat r = SCPE_OK; | |
if (dptr->modifiers == NULL) | |
return SCPE_OK; | |
for (mptr = dptr->modifiers; mptr->mask != 0; mptr++) { | |
if (mptr->pstring && | |
((mptr->mask & MTAB_XTD)? | |
(MODMASK(mptr,flag) && !MODMASK(mptr,MTAB_NMO)): | |
((MTAB_VUN == (uint32)flag) && ((uptr->flags & mptr->mask) == mptr->match)))) { | |
if (*toks > 2) { | |
fprintf (st, "\n"); | |
*toks = 0; | |
} | |
if (r == SCPE_OK) | |
fprint_sep (st, toks); | |
r = show_one_mod (st, dptr, uptr, mptr, NULL, 0); | |
} | |
} | |
return SCPE_OK; | |
} | |
t_stat show_one_mod (FILE *st, DEVICE *dptr, UNIT *uptr, MTAB *mptr, | |
CONST char *cptr, int32 flag) | |
{ | |
t_stat r = SCPE_OK; | |
//t_value val; | |
if (mptr->disp) | |
r = mptr->disp (st, uptr, mptr->match, (CONST void *)(cptr? cptr: mptr->desc)); | |
//else if ((mptr->mask & MTAB_XTD) && (mptr->mask & MTAB_VAL)) { | |
// REG *rptr = (REG *) mptr->desc; | |
// fprintf (st, "%s=", mptr->pstring); | |
// val = get_rval (rptr, 0); | |
// fprint_val (st, val, rptr->radix, rptr->width, | |
// rptr->flags & REG_FMT); | |
// } | |
else fputs (mptr->pstring, st); | |
if ((r == SCPE_OK) && (flag && !((mptr->mask & MTAB_XTD) && MODMASK(mptr,MTAB_NMO)))) | |
fputc ('\n', st); | |
return r; | |
} | |
/* Show show commands */ | |
t_stat show_show_commands (FILE *st, DEVICE *dnotused, UNIT *unotused, int32 flag, CONST char *cptr) | |
{ | |
int32 i; | |
DEVICE *dptr; | |
if (cptr && (*cptr != 0)) /* now eol? */ | |
return SCPE_2MARG; | |
for (i = 0; (dptr = sim_devices[i]) != NULL; i++) | |
show_dev_show_commands (st, dptr, NULL, flag, cptr); | |
for (i = 0; sim_internal_device_count && (dptr = sim_internal_devices[i]); ++i) | |
show_dev_show_commands (st, dptr, NULL, flag, cptr); | |
return SCPE_OK; | |
} | |
t_stat show_dev_show_commands (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
fprint_show_help (st, dptr); | |
return SCPE_OK; | |
} | |
/* Show/change the current working directiory commands */ | |
t_stat show_default (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, CONST char *cptr) | |
{ | |
char buffer[PATH_MAX]; | |
char *wd = getcwd(buffer, PATH_MAX); | |
fprintf (st, "%s\n", wd); | |
return SCPE_OK; | |
} | |
t_stat set_default_cmd (int32 flg, CONST char *cptr) | |
{ | |
char gbuf[4*CBUFSIZE]; | |
if (sim_is_running) | |
return SCPE_INVREM; | |
if ((!cptr) || (*cptr == 0)) | |
return SCPE_2FARG; | |
gbuf[sizeof(gbuf)-1] = '\0'; | |
strlcpy (gbuf, cptr, sizeof(gbuf)); | |
sim_trim_endspc(gbuf); | |
if (chdir(gbuf) != 0) | |
return sim_messagef(SCPE_IOERR, "Unable to directory change to: %s\n", gbuf); | |
return SCPE_OK; | |
} | |
t_stat pwd_cmd (int32 flg, CONST char *cptr) | |
{ | |
return show_cmd (0, "DEFAULT"); | |
} | |
#if defined (_WIN32) | |
t_stat sim_dir_scan (const char *cptr, DIR_ENTRY_CALLBACK entry, void *context) | |
{ | |
HANDLE hFind; | |
WIN32_FIND_DATAA File; | |
struct stat filestat; | |
char WildName[PATH_MAX + 1]; | |
strlcpy (WildName, cptr, sizeof(WildName)); | |
cptr = WildName; | |
sim_trim_endspc (WildName); | |
if ((hFind = FindFirstFileA (cptr, &File)) != INVALID_HANDLE_VALUE) { | |
t_int64 FileSize; | |
char DirName[PATH_MAX + 1], FileName[PATH_MAX + 1]; | |
char *c; | |
const char *backslash = strchr (cptr, '\\'); | |
const char *slash = strchr (cptr, '/'); | |
const char *pathsep = (backslash && slash) ? MIN (backslash, slash) : (backslash ? backslash : slash); | |
GetFullPathNameA(cptr, sizeof(DirName), DirName, (char **)&c); | |
c = strrchr (DirName, '\\'); | |
*c = '\0'; /* Truncate to just directory path */ | |
if (!pathsep || (!strcmp (slash, "/*"))) /* Separator wasn't mentioned? */ | |
pathsep = "\\"; /* Default to Windows backslash */ | |
if (*pathsep == '/') { /* If slash separator? */ | |
while ((c = strchr (DirName, '\\'))) | |
*c = '/'; /* Convert backslash to slash */ | |
} | |
sprintf (&DirName[strlen (DirName)], "%c", *pathsep); | |
do { | |
FileSize = (((t_int64)(File.nFileSizeHigh)) << 32) | File.nFileSizeLow; | |
sprintf (FileName, "%s%s", DirName, File.cFileName); | |
stat (FileName, &filestat); | |
entry (DirName, File.cFileName, FileSize, &filestat, context); | |
} while (FindNextFile (hFind, &File)); | |
FindClose (hFind); | |
} | |
else | |
return SCPE_ARG; | |
return SCPE_OK; | |
} | |
#else /* !defined (_WIN32) */ | |
#if defined (HAVE_GLOB) | |
#include <glob.h> | |
#else /* !defined (HAVE_GLOB) */ | |
#include <dirent.h> | |
#if defined (HAVE_FNMATCH) | |
#include <fnmatch.h> | |
#endif | |
#endif /* defined (HAVE_GLOB) */ | |
t_stat sim_dir_scan (const char *cptr, DIR_ENTRY_CALLBACK entry, void *context) | |
{ | |
#if defined (HAVE_GLOB) | |
glob_t paths; | |
#else | |
DIR *dir; | |
#endif | |
struct stat filestat; | |
char *c; | |
char DirName[PATH_MAX + 1], WholeName[PATH_MAX + 1], WildName[PATH_MAX + 1]; | |
memset (DirName, 0, sizeof(DirName)); | |
memset (WholeName, 0, sizeof(WholeName)); | |
strlcpy (WildName, cptr, sizeof(WildName)); | |
cptr = WildName; | |
sim_trim_endspc (WildName); | |
if ((*cptr != '/') || (0 == memcmp (cptr, "./", 2)) || (0 == memcmp (cptr, "../", 3))) { | |
#if defined (VMS) | |
getcwd (WholeName, sizeof (WholeName)-1, 0); | |
#else | |
getcwd (WholeName, sizeof (WholeName)-1); | |
#endif | |
strlcat (WholeName, "/", sizeof (WholeName)); | |
strlcat (WholeName, cptr, sizeof (WholeName)); | |
sim_trim_endspc (WholeName); | |
} | |
else | |
strlcpy (WholeName, cptr, sizeof (WholeName)); | |
while ((c = strstr (WholeName, "/./"))) | |
memmove (c + 1, c + 3, 1 + strlen (c + 3)); | |
while ((c = strstr (WholeName, "//"))) | |
memmove (c + 1, c + 2, 1 + strlen (c + 2)); | |
while ((c = strstr (WholeName, "/../"))) { | |
char *c1; | |
c1 = c - 1; | |
while ((c1 >= WholeName) && (*c1 != '/')) | |
c1 = c1 - 1; | |
memmove (c1, c + 3, 1 + strlen (c + 3)); | |
while (0 == memcmp (WholeName, "/../", 4)) | |
memmove (WholeName, WholeName+3, 1 + strlen (WholeName+3)); | |
} | |
c = strrchr (WholeName, '/'); | |
if (c) { | |
memmove (DirName, WholeName, 1+c-WholeName); | |
DirName[1+c-WholeName] = '\0'; | |
} | |
else { | |
#if defined (VMS) | |
getcwd (WholeName, sizeof (WholeName)-1, 0); | |
#else | |
getcwd (WholeName, sizeof (WholeName)-1); | |
#endif | |
} | |
cptr = WholeName; | |
#if defined (HAVE_GLOB) | |
memset (&paths, 0, sizeof (paths)); | |
if (0 == glob (cptr, 0, NULL, &paths)) { | |
#else | |
dir = opendir(DirName[0] ? DirName : "/."); | |
if (dir) { | |
struct dirent *ent; | |
#endif | |
t_offset FileSize; | |
char FileName[PATH_MAX + 1]; | |
const char *MatchName = 1 + strrchr (cptr, '/'); | |
char *p_name; | |
struct tm *local; | |
#if defined (HAVE_GLOB) | |
size_t i; | |
#endif | |
#if defined (HAVE_GLOB) | |
for (i=0; i<paths.gl_pathc; i++) { | |
sprintf (FileName, "%s", paths.gl_pathv[i]); | |
#else | |
while ((ent = readdir (dir))) { | |
#if defined (HAVE_FNMATCH) | |
if (fnmatch(MatchName, ent->d_name, 0)) | |
continue; | |
#else | |
/* only match exact name without fnmatch support */ | |
if (strcmp(MatchName, ent->d_name) != 0) | |
continue; | |
#endif | |
sprintf (FileName, "%s%s", DirName, ent->d_name); | |
#endif | |
p_name = FileName + strlen (DirName); | |
memset (&filestat, 0, sizeof (filestat)); | |
(void)stat (FileName, &filestat); | |
FileSize = (t_offset)((filestat.st_mode & S_IFDIR) ? 0 : sim_fsize_name_ex (FileName)); | |
entry (DirName, p_name, FileSize, &filestat, context); | |
} | |
#if defined (HAVE_GLOB) | |
globfree (&paths); | |
#else | |
closedir (dir); | |
#endif | |
} | |
else | |
return SCPE_ARG; | |
return SCPE_OK; | |
} | |
#endif /* !defined(_WIN32) */ | |
typedef struct { | |
char LastDir[PATH_MAX + 1]; | |
t_offset TotalBytes; | |
int TotalDirs; | |
int TotalFiles; | |
int DirChanges; | |
int DirCount; | |
int FileCount; | |
t_offset ByteCount; | |
} DIR_CTX; | |
static void sim_dir_entry (const char *directory, | |
const char *filename, | |
t_offset FileSize, | |
const struct stat *filestat, | |
void *context) | |
{ | |
DIR_CTX *ctx = (DIR_CTX *)context; | |
struct tm *local; | |
if ((directory == NULL) || (filename == NULL)) { | |
if (ctx->DirChanges > 1) | |
sim_printf (" Total Files Listed:\n"); | |
if (ctx->DirChanges > 0) { | |
sim_printf ("%16d File(s) ", ctx->TotalFiles); | |
sim_print_val ((t_value) ctx->TotalBytes, 10, 17, PV_RCOMMA); | |
sim_printf (" bytes\n"); | |
sim_printf ("%16d Dir(s)\n", ctx->TotalDirs); | |
} | |
return; | |
} | |
if (strcmp (ctx->LastDir, directory)) { | |
if (ctx->DirCount || ctx->FileCount) { | |
sim_printf ("%16d File(s) ", ctx->FileCount); | |
sim_print_val ((t_value) ctx->ByteCount, 10, 17, PV_RCOMMA); | |
sim_printf (" bytes\n"); | |
ctx->ByteCount = ctx->DirCount = ctx->FileCount = 0; | |
sim_printf ("%16d Dir(s)\n", ctx->DirCount); | |
} | |
++ctx->DirChanges; | |
sim_printf (" Directory of %*.*s\n\n", (int)(strlen (directory) - 1), (int)(strlen (directory) - 1), directory); | |
strcpy (ctx->LastDir, directory); | |
} | |
local = localtime (&filestat->st_mtime); | |
sim_printf ("%02d/%02d/%04d %02d:%02d %s ", local->tm_mon+1, local->tm_mday, 1900+local->tm_year, local->tm_hour%12, local->tm_min, (local->tm_hour >= 12) ? "PM" : "AM"); | |
if (filestat->st_mode & S_IFDIR) { | |
++ctx->DirCount; | |
++ctx->TotalDirs; | |
sim_printf (" <DIR> "); | |
} | |
else { | |
if (filestat->st_mode & S_IFREG) { | |
++ctx->FileCount; | |
++ctx->TotalFiles; | |
sim_print_val ((t_value) FileSize, 10, 17, PV_RCOMMA); | |
ctx->ByteCount += FileSize; | |
ctx->TotalBytes += FileSize; | |
} | |
else { | |
sim_printf ("%17s", ""); | |
} | |
} | |
sim_printf (" %s\n", filename); | |
} | |
t_stat dir_cmd (int32 flg, CONST char *cptr) | |
{ | |
DIR_CTX dir_state; | |
t_stat r; | |
char WildName[PATH_MAX + 1]; | |
memset (&dir_state, 0, sizeof (dir_state)); | |
strlcpy (WildName, cptr, sizeof(WildName)); | |
cptr = WildName; | |
sim_trim_endspc (WildName); | |
if (*cptr == '\0') | |
cptr = "./*"; | |
else { | |
struct stat filestat; | |
if ((!stat (WildName, &filestat)) && (filestat.st_mode & S_IFDIR)) | |
strlcat (WildName, "/*", sizeof (WildName)); | |
} | |
r = sim_dir_scan (cptr, sim_dir_entry, &dir_state); | |
sim_dir_entry (NULL, NULL, 0, NULL, &dir_state); /* output summary */ | |
if (r != SCPE_OK) | |
return sim_messagef (SCPE_ARG, "File Not Found\n"); | |
return r; | |
} | |
typedef struct { | |
t_stat stat; | |
} TYPE_CTX; | |
static void sim_type_entry (const char *directory, | |
const char *filename, | |
t_offset FileSize, | |
const struct stat *filestat, | |
void *context) | |
{ | |
TYPE_CTX *ctx = (TYPE_CTX *)context; | |
char FullPath[PATH_MAX + 1]; | |
FILE *file; | |
char lbuf[4*CBUFSIZE]; | |
sprintf (FullPath, "%s%s", directory, filename); | |
file = sim_fopen (FullPath, "r"); | |
if (file == NULL) /* open failed? */ | |
return; | |
sim_printf ("\n%s\n\n", FullPath); | |
lbuf[sizeof(lbuf)-1] = '\0'; | |
while (fgets (lbuf, sizeof(lbuf)-1, file)) | |
sim_printf ("%s", lbuf); | |
fclose (file); | |
} | |
t_stat type_cmd (int32 flg, CONST char *cptr) | |
{ | |
FILE *file; | |
char lbuf[4*CBUFSIZE]; | |
if ((!cptr) || (*cptr == 0)) | |
return SCPE_2FARG; | |
lbuf[sizeof(lbuf)-1] = '\0'; | |
strlcpy (lbuf, cptr, sizeof(lbuf)); | |
sim_trim_endspc(lbuf); | |
file = sim_fopen (lbuf, "r"); | |
if (file == NULL) { /* open failed? */ | |
TYPE_CTX type_state; | |
t_stat stat; | |
memset (&type_state, 0, sizeof (type_state)); | |
stat = sim_dir_scan (cptr, sim_type_entry, &type_state); | |
if (stat == SCPE_OK) | |
return SCPE_OK; | |
return sim_messagef (SCPE_OPENERR, "The system cannot find the file specified.\n"); | |
} | |
lbuf[sizeof(lbuf)-1] = '\0'; | |
while (fgets (lbuf, sizeof(lbuf)-1, file)) | |
sim_printf ("%s", lbuf); | |
fclose (file); | |
return SCPE_OK; | |
} | |
typedef struct { | |
t_stat stat; | |
} DEL_CTX; | |
static void sim_delete_entry (const char *directory, | |
const char *filename, | |
t_offset FileSize, | |
const struct stat *filestat, | |
void *context) | |
{ | |
DEL_CTX *ctx = (DEL_CTX *)context; | |
char FullPath[PATH_MAX + 1]; | |
sprintf (FullPath, "%s%s", directory, filename); | |
if (!unlink (FullPath)) | |
return; | |
ctx->stat = sim_messagef (SCPE_ARG, "%s\n", strerror (errno)); | |
} | |
t_stat delete_cmd (int32 flg, CONST char *cptr) | |
{ | |
DEL_CTX del_state; | |
t_stat stat; | |
if ((!cptr) || (*cptr == 0)) | |
return SCPE_2FARG; | |
memset (&del_state, 0, sizeof (del_state)); | |
stat = sim_dir_scan (cptr, sim_delete_entry, &del_state); | |
if (stat == SCPE_OK) | |
return del_state.stat; | |
return sim_messagef (SCPE_ARG, "No such file or directory: %s\n", cptr); | |
} | |
typedef struct { | |
t_stat stat; | |
int count; | |
char destname[CBUFSIZE]; | |
} COPY_CTX; | |
static void sim_copy_entry (const char *directory, | |
const char *filename, | |
t_offset FileSize, | |
const struct stat *filestat, | |
void *context) | |
{ | |
COPY_CTX *ctx = (COPY_CTX *)context; | |
struct stat deststat; | |
char FullPath[PATH_MAX + 1]; | |
char dname[CBUFSIZE];\ | |
t_stat st; | |
strlcpy (dname, ctx->destname, sizeof (dname)); | |
sprintf (FullPath, "%s%s", directory, filename); | |
if ((dname[strlen (dname) - 1] == '/') || (dname[strlen (dname) - 1] == '\\')) | |
dname[strlen (dname) - 1] = '\0'; | |
if ((!stat (dname, &deststat)) && (deststat.st_mode & S_IFDIR)) { | |
const char *dslash = (strrchr (dname, '/') ? "/" : (strrchr (dname, '\\') ? "\\" : "/")); | |
dname[sizeof (dname) - 1] = '\0'; | |
snprintf (&dname[strlen (dname)], sizeof (dname) - strlen (dname), "%s%s", dslash, filename); | |
} | |
st = sim_copyfile (FullPath, dname, TRUE); | |
if (SCPE_OK == st) | |
++ctx->count; | |
else | |
ctx->stat = st; | |
} | |
t_stat copy_cmd (int32 flg, CONST char *cptr) | |
{ | |
char sname[CBUFSIZE]; | |
COPY_CTX copy_state; | |
t_stat stat; | |
memset (©_state, 0, sizeof (copy_state)); | |
if ((!cptr) || (*cptr == 0)) | |
return SCPE_2FARG; | |
cptr = get_glyph_quoted (cptr, sname, 0); | |
if ((!cptr) || (*cptr == 0)) | |
return SCPE_2FARG; | |
cptr = get_glyph_quoted (cptr, copy_state.destname, 0); | |
stat = sim_dir_scan (sname, sim_copy_entry, ©_state); | |
if ((stat == SCPE_OK) && (copy_state.count)) | |
return sim_messagef (SCPE_OK, " %3d file(s) copied\n", copy_state.count); | |
return copy_state.stat; | |
} | |
/* Debug command */ | |
t_stat debug_cmd (int32 flg, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
CONST char *svptr; | |
DEVICE *dptr; | |
GET_SWITCHES (cptr); /* get switches */ | |
cptr = get_glyph (svptr = cptr, gbuf, 0); /* get next glyph */ | |
if ((dptr = find_dev (gbuf))) /* device match? */ | |
return set_dev_debug (dptr, NULL, flg, *cptr ? cptr : NULL); | |
cptr = svptr; | |
if (flg) | |
return sim_set_debon (0, cptr); | |
else | |
return sim_set_deboff (0, cptr); | |
} | |
/* Breakpoint commands */ | |
t_stat brk_cmd (int32 flg, CONST char *cptr) | |
{ | |
GET_SWITCHES (cptr); /* get switches */ | |
return ssh_break (NULL, cptr, flg); /* call common code */ | |
} | |
t_stat ssh_break (FILE *st, const char *cptr, int32 flg) | |
{ | |
char gbuf[CBUFSIZE], *aptr, abuf[4*CBUFSIZE]; | |
CONST char *tptr, *t1ptr; | |
DEVICE *dptr = sim_dflt_dev; | |
UNIT *uptr; | |
t_stat r; | |
t_addr lo, hi, max; | |
int32 cnt; | |
if (sim_brk_types == 0) | |
return sim_messagef (SCPE_NOFNC, "No breakpoint support in this simulator\n"); | |
if (dptr == NULL) | |
return SCPE_IERR; | |
uptr = dptr->units; | |
if (uptr == NULL) | |
return SCPE_IERR; | |
max = uptr->capac - 1; | |
abuf[sizeof(abuf)-1] = '\0'; | |
strlcpy (abuf, cptr, sizeof(abuf)); | |
if ((aptr = strchr (abuf, ';'))) { /* ;action? */ | |
cptr += aptr - abuf + 1; | |
if (flg != SSH_ST) /* only on SET */ | |
return sim_messagef (SCPE_ARG, "Invalid argument: %s\n", cptr); | |
*aptr++ = 0; /* separate strings */ | |
if ((cptr > sim_sub_instr_buf) && ((size_t)(cptr - sim_sub_instr_buf) < sim_sub_instr_size)) | |
aptr = &sim_sub_instr[sim_sub_instr_off[cptr - sim_sub_instr_buf]]; /* get un-substituted string */ | |
} | |
cptr = abuf; | |
if (*cptr == 0) { /* no argument? */ | |
lo = (t_addr) get_rval (sim_PC, 0); /* use PC */ | |
return ssh_break_one (st, flg, lo, 0, aptr); | |
} | |
while (*cptr) { | |
cptr = get_glyph (cptr, gbuf, ','); | |
tptr = get_range (dptr, gbuf, &lo, &hi, dptr->aradix, max, 0); | |
if (tptr == NULL) | |
return sim_messagef (SCPE_ARG, "Invalid address specifier: %s\n", gbuf); | |
if (*tptr == '[') { | |
cnt = (int32) strtotv (tptr + 1, &t1ptr, 10); | |
if ((tptr == t1ptr) || (*t1ptr != ']') || (flg != SSH_ST)) | |
return sim_messagef (SCPE_ARG, "Invalid repeat count specifier: %s\n", tptr + 1); | |
tptr = t1ptr + 1; | |
} | |
else cnt = 0; | |
if (*tptr != 0) | |
return sim_messagef (SCPE_ARG, "Unexpected argument: %s\n", tptr); | |
if ((lo == 0) && (hi == max)) { | |
if (flg == SSH_CL) | |
sim_brk_clrall (sim_switches); | |
else | |
if (flg == SSH_SH) | |
sim_brk_showall (st, sim_switches); | |
else | |
return SCPE_ARG; | |
} | |
else { | |
for ( ; lo <= hi; lo = lo + 1) { | |
r = ssh_break_one (st, flg, lo, cnt, aptr); | |
if (r != SCPE_OK) | |
return r; | |
} | |
} | |
} | |
return SCPE_OK; | |
} | |
t_stat ssh_break_one (FILE *st, int32 flg, t_addr lo, int32 cnt, CONST char *aptr) | |
{ | |
if (!sim_brk_types) | |
return sim_messagef (SCPE_NOFNC, "No breakpoint support in this simulator\n"); | |
switch (flg) { | |
case SSH_ST: | |
return sim_brk_set (lo, sim_switches, cnt, aptr); | |
break; | |
case SSH_CL: | |
return sim_brk_clr (lo, sim_switches); | |
break; | |
case SSH_SH: | |
return sim_brk_show (st, lo, sim_switches); | |
break; | |
default: | |
return SCPE_ARG; | |
} | |
} | |
/* Reset command and routines | |
re[set] reset all devices | |
re[set] all reset all devices | |
re[set] device reset specific device | |
*/ | |
static t_bool run_cmd_did_reset = FALSE; | |
t_stat reset_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
DEVICE *dptr; | |
GET_SWITCHES (cptr); /* get switches */ | |
run_cmd_did_reset = FALSE; | |
if (*cptr == 0) /* reset(cr) */ | |
return (reset_all (0)); | |
cptr = get_glyph (cptr, gbuf, 0); /* get next glyph */ | |
if (*cptr != 0) /* now eol? */ | |
return SCPE_2MARG; | |
if (strcmp (gbuf, "ALL") == 0) | |
return (reset_all (0)); | |
dptr = find_dev (gbuf); /* locate device */ | |
if (dptr == NULL) /* found it? */ | |
return SCPE_NXDEV; | |
if (dptr->reset != NULL) | |
return dptr->reset (dptr); | |
else return SCPE_OK; | |
} | |
/* Reset devices start..end | |
Inputs: | |
start = number of starting device | |
Outputs: | |
status = error status | |
*/ | |
t_stat reset_all (uint32 start) | |
{ | |
DEVICE *dptr; | |
uint32 i; | |
t_stat reason; | |
for (i = 0; i < start; i++) { | |
if (sim_devices[i] == NULL) | |
return SCPE_IERR; | |
} | |
for (i = start; (dptr = sim_devices[i]) != NULL; i++) { | |
if (sim_switches & SWMASK('P')) | |
tmxr_add_debug (dptr); /* Add TMXR debug to MUX devices */ | |
if (dptr->reset != NULL) { | |
reason = dptr->reset (dptr); | |
if (reason != SCPE_OK) | |
return reason; | |
} | |
} | |
for (i = 0; sim_internal_device_count && (dptr = sim_internal_devices[i]); ++i) { | |
if (dptr->reset != NULL) { | |
reason = dptr->reset (dptr); | |
if (reason != SCPE_OK) | |
return reason; | |
} | |
} | |
return SCPE_OK; | |
} | |
static DEBTAB scp_debug[] = { | |
{"EVENT", SIM_DBG_EVENT, "event dispatch activities"}, | |
{"ACTIVATE", SIM_DBG_ACTIVATE, "queue insertion activities"}, | |
{"QUEUE", SIM_DBG_AIO_QUEUE, "asynch event queue activities"}, | |
{"EXPSTACK", SIM_DBG_EXP_STACK, "expression stack activities"}, | |
{"EXPEVAL", SIM_DBG_EXP_EVAL, "expression evaluation activities"}, | |
{"ACTION", SIM_DBG_BRK_ACTION, "action activities"}, | |
{"DO", SIM_DBG_DO, "do activities"}, | |
{0} | |
}; | |
t_stat sim_add_debug_flags (DEVICE *dptr, DEBTAB *debflags) | |
{ | |
dptr->flags |= DEV_DEBUG; | |
if (!dptr->debflags) | |
dptr->debflags = debflags; | |
else { | |
DEBTAB *cdptr, *sdptr, *ndptr; | |
for (sdptr = debflags; sdptr->name; sdptr++) { | |
for (cdptr = dptr->debflags; cdptr->name; cdptr++) { | |
if (sdptr->mask == cdptr->mask) | |
break; | |
} | |
if (sdptr->mask != cdptr->mask) { | |
int i, dcount = 0; | |
for (cdptr = dptr->debflags; cdptr->name; cdptr++) | |
dcount++; | |
for (cdptr = debflags; cdptr->name; cdptr++) | |
dcount++; | |
ndptr = (DEBTAB *)calloc (1 + dcount, sizeof (*ndptr)); | |
for (dcount = 0, cdptr = dptr->debflags; cdptr->name; cdptr++) | |
ndptr[dcount++] = *cdptr; | |
for (cdptr = debflags; cdptr->name; cdptr++) { | |
for (i = 0; i < dcount; i++) { | |
if (cdptr->mask == ndptr[i].mask) | |
break; | |
} | |
if (i == dcount) | |
ndptr[dcount++] = *cdptr; | |
} | |
dptr->debflags = ndptr; | |
break; | |
} | |
} | |
} | |
return SCPE_OK; | |
} | |
/* Reset to powerup state | |
Inputs: | |
start = number of starting device | |
Outputs: | |
status = error status | |
*/ | |
t_stat reset_all_p (uint32 start) | |
{ | |
t_stat r; | |
int32 old_sw = sim_switches; | |
sim_switches = SWMASK ('P'); | |
r = reset_all (start); | |
sim_switches = old_sw; | |
if (sim_dflt_dev) /* Make sure that SCP debug options are available */ | |
sim_add_debug_flags (sim_dflt_dev, scp_debug); | |
return r; | |
} | |
/* Load and dump commands | |
lo[ad] filename {arg} load specified file | |
du[mp] filename {arg} dump to specified file | |
*/ | |
/* Memory File use (for internal memory static ROM images) | |
when used to read ROM image with internally generated | |
load commands, calling code setups with sim_set_memory_file() | |
sim_load uses Fgetc() instead of fgetc() or getc() | |
*/ | |
static const unsigned char *mem_data = NULL; | |
static size_t mem_data_size = 0; | |
t_stat sim_set_memory_load_file (const unsigned char *data, size_t size) | |
{ | |
mem_data = data; | |
mem_data_size = size; | |
return SCPE_OK; | |
} | |
int Fgetc (FILE *f) | |
{ | |
if (mem_data) { | |
if (mem_data_size == 0) | |
return EOF; | |
--mem_data_size; | |
return (int)(*mem_data++); | |
} | |
else | |
return fgetc (f); | |
} | |
t_stat load_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
FILE *loadfile = NULL; | |
t_stat reason; | |
GET_SWITCHES (cptr); /* get switches */ | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
cptr = get_glyph_nc (cptr, gbuf, 0); /* get file name */ | |
if (!mem_data) { | |
loadfile = sim_fopen (gbuf, flag? "wb": "rb"); /* open for wr/rd */ | |
if (loadfile == NULL) | |
return SCPE_OPENERR; | |
} | |
GET_SWITCHES (cptr); /* get switches */ | |
reason = sim_load (loadfile, (CONST char *)cptr, gbuf, flag);/* load or dump */ | |
if (loadfile) | |
fclose (loadfile); | |
return reason; | |
} | |
/* Attach command | |
at[tach] unit file attach specified unit to file | |
*/ | |
t_stat attach_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[4*CBUFSIZE]; | |
DEVICE *dptr; | |
UNIT *uptr; | |
t_stat r; | |
GET_SWITCHES (cptr); /* get switches */ | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
cptr = get_glyph (cptr, gbuf, 0); /* get next glyph */ | |
GET_SWITCHES (cptr); /* get switches */ | |
if (*cptr == 0) /* now eol? */ | |
return SCPE_2FARG; | |
dptr = find_unit (gbuf, &uptr); /* locate unit */ | |
if (dptr == NULL) /* found dev? */ | |
return SCPE_NXDEV; | |
if (uptr == NULL) /* valid unit? */ | |
return SCPE_NXUN; | |
if (uptr->flags & UNIT_ATT) { /* already attached? */ | |
if (!(uptr->dynflags & UNIT_ATTMULT) && /* and only single attachable */ | |
!(dptr->flags & DEV_DONTAUTO)) { /* and auto detachable */ | |
r = scp_detach_unit (dptr, uptr); /* detach it */ | |
if (r != SCPE_OK) /* error? */ | |
return r; | |
} | |
else { | |
if (!(uptr->dynflags & UNIT_ATTMULT)) | |
return SCPE_ALATT; /* Already attached */ | |
} | |
} | |
gbuf[sizeof(gbuf)-1] = '\0'; | |
strlcpy (gbuf, cptr, sizeof(gbuf)); | |
sim_trim_endspc (gbuf); /* trim trailing spc */ | |
return scp_attach_unit (dptr, uptr, gbuf); /* attach */ | |
} | |
/* Call device-specific or file-oriented attach unit routine */ | |
t_stat scp_attach_unit (DEVICE *dptr, UNIT *uptr, const char *cptr) | |
{ | |
if (uptr->flags & UNIT_DIS) /* disabled? */ | |
return SCPE_UDIS; | |
if (dptr->attach != NULL) /* device routine? */ | |
return dptr->attach (uptr, (CONST char *)cptr); /* call it */ | |
return attach_unit (uptr, (CONST char *)cptr); /* no, std routine */ | |
} | |
/* Attach unit to file */ | |
t_stat attach_unit (UNIT *uptr, CONST char *cptr) | |
{ | |
DEVICE *dptr; | |
if (!(uptr->flags & UNIT_ATTABLE)) /* not attachable? */ | |
return SCPE_NOATT; | |
if ((dptr = find_dev_from_unit (uptr)) == NULL) | |
return SCPE_NOATT; | |
uptr->filename = (char *) calloc (CBUFSIZE, sizeof (char)); /* alloc name buf */ | |
if (uptr->filename == NULL) | |
return SCPE_MEM; | |
strlcpy (uptr->filename, cptr, CBUFSIZE); /* save name */ | |
if ((sim_switches & SWMASK ('R')) || /* read only? */ | |
((uptr->flags & UNIT_RO) != 0)) { | |
if (((uptr->flags & UNIT_ROABLE) == 0) && /* allowed? */ | |
((uptr->flags & UNIT_RO) == 0)) | |
return attach_err (uptr, SCPE_NORO); /* no, error */ | |
uptr->fileref = sim_fopen (cptr, "rb"); /* open rd only */ | |
if (uptr->fileref == NULL) /* open fail? */ | |
return attach_err (uptr, SCPE_OPENERR); /* yes, error */ | |
if (!(uptr->flags & UNIT_RO)) | |
sim_messagef (SCPE_OK, "%s: unit is read only\n", sim_dname (dptr)); | |
uptr->flags = uptr->flags | UNIT_RO; /* set rd only */ | |
} | |
else { | |
if (sim_switches & SWMASK ('N')) { /* new file only? */ | |
uptr->fileref = sim_fopen (cptr, "wb+"); /* open new file */ | |
if (uptr->fileref == NULL) /* open fail? */ | |
return attach_err (uptr, SCPE_OPENERR); /* yes, error */ | |
sim_messagef (SCPE_OK, "%s: creating new file\n", sim_dname (dptr)); | |
} | |
else { /* normal */ | |
uptr->fileref = sim_fopen (cptr, "rb+"); /* open r/w */ | |
if (uptr->fileref == NULL) { /* open fail? */ | |
#if defined(EPERM) | |
if ((errno == EROFS) || (errno == EACCES) || (errno == EPERM)) {/* read only? */ | |
#else | |
if ((errno == EROFS) || (errno == EACCES)) {/* read only? */ | |
#endif | |
if ((uptr->flags & UNIT_ROABLE) == 0) /* allowed? */ | |
return attach_err (uptr, SCPE_NORO);/* no error */ | |
uptr->fileref = sim_fopen (cptr, "rb"); /* open rd only */ | |
if (uptr->fileref == NULL) /* open fail? */ | |
return attach_err (uptr, SCPE_OPENERR); /* yes, error */ | |
uptr->flags = uptr->flags | UNIT_RO; /* set rd only */ | |
sim_messagef (SCPE_OK, "%s: unit is read only\n", sim_dname (dptr)); | |
} | |
else { /* doesn't exist */ | |
if (sim_switches & SWMASK ('E')) /* must exist? */ | |
return attach_err (uptr, SCPE_OPENERR); /* yes, error */ | |
uptr->fileref = sim_fopen (cptr, "wb+");/* open new file */ | |
if (uptr->fileref == NULL) /* open fail? */ | |
return attach_err (uptr, SCPE_OPENERR); /* yes, error */ | |
sim_messagef (SCPE_OK, "%s: creating new file\n", sim_dname (dptr)); | |
} | |
} /* end if null */ | |
} /* end else */ | |
} | |
if (uptr->flags & UNIT_BUFABLE) { /* buffer? */ | |
uint32 cap = ((uint32) uptr->capac) / dptr->aincr; /* effective size */ | |
if (uptr->flags & UNIT_MUSTBUF) /* dyn alloc? */ | |
uptr->filebuf = calloc (cap, SZ_D (dptr)); /* allocate */ | |
if (uptr->filebuf == NULL) /* no buffer? */ | |
return attach_err (uptr, SCPE_MEM); /* error */ | |
sim_messagef (SCPE_OK, "%s: buffering file in memory\n", sim_dname (dptr)); | |
uptr->hwmark = (uint32)sim_fread (uptr->filebuf, /* read file */ | |
SZ_D (dptr), cap, uptr->fileref); | |
uptr->flags = uptr->flags | UNIT_BUF; /* set buffered */ | |
} | |
uptr->flags = uptr->flags | UNIT_ATT; | |
uptr->pos = 0; | |
return SCPE_OK; | |
} | |
t_stat attach_err (UNIT *uptr, t_stat stat) | |
{ | |
free (uptr->filename); | |
uptr->filename = NULL; | |
return stat; | |
} | |
/* Detach command | |
det[ach] all detach all units | |
det[ach] unit detach specified unit | |
*/ | |
t_stat detach_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
DEVICE *dptr; | |
UNIT *uptr; | |
GET_SWITCHES (cptr); /* get switches */ | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
cptr = get_glyph (cptr, gbuf, 0); /* get next glyph */ | |
if (*cptr != 0) /* now eol? */ | |
return SCPE_2MARG; | |
if (strcmp (gbuf, "ALL") == 0) | |
return (detach_all (0, FALSE)); | |
dptr = find_unit (gbuf, &uptr); /* locate unit */ | |
if (dptr == NULL) /* found dev? */ | |
return SCPE_NXDEV; | |
if (uptr == NULL) /* valid unit? */ | |
return SCPE_NXUN; | |
return scp_detach_unit (dptr, uptr); /* detach */ | |
} | |
/* Detach devices start..end | |
Inputs: | |
start = number of starting device | |
shutdown = TRUE if simulator shutting down | |
Outputs: | |
status = error status | |
Note that during shutdown, detach routines for non-attachable devices | |
will be called. These routines can implement simulator shutdown. Error | |
returns during shutdown are ignored. | |
*/ | |
t_stat detach_all (int32 start, t_bool shutdown) | |
{ | |
uint32 i, j; | |
DEVICE *dptr; | |
UNIT *uptr; | |
t_stat r; | |
if ((start < 0) || (start > 1)) | |
return SCPE_IERR; | |
if (shutdown) | |
sim_switches = sim_switches | SIM_SW_SHUT; /* flag shutdown */ | |
for (i = start; (dptr = sim_devices[i]) != NULL; i++) { /* loop thru dev */ | |
for (j = 0; j < dptr->numunits; j++) { /* loop thru units */ | |
uptr = (dptr->units) + j; | |
if ((uptr->flags & UNIT_ATT) || /* attached? */ | |
(shutdown && dptr->detach && /* shutdown, spec rtn, */ | |
!(uptr->flags & UNIT_ATTABLE))) { /* !attachable? */ | |
r = scp_detach_unit (dptr, uptr); /* detach unit */ | |
if ((r != SCPE_OK) && !shutdown) /* error and not shutting down? */ | |
return r; /* bail out now with error status */ | |
} | |
} | |
} | |
return SCPE_OK; | |
} | |
/* Call device-specific or file-oriented detach unit routine */ | |
t_stat scp_detach_unit (DEVICE *dptr, UNIT *uptr) | |
{ | |
if (dptr->detach != NULL) /* device routine? */ | |
return dptr->detach (uptr); | |
return detach_unit (uptr); /* no, standard */ | |
} | |
/* Detach unit from file */ | |
t_stat detach_unit (UNIT *uptr) | |
{ | |
DEVICE *dptr; | |
if (uptr == NULL) | |
return SCPE_IERR; | |
if (!(uptr->flags & UNIT_ATTABLE)) /* attachable? */ | |
return SCPE_NOATT; | |
if (!(uptr->flags & UNIT_ATT)) { /* not attached? */ | |
if (sim_switches & SIM_SW_REST) /* restoring? */ | |
return SCPE_OK; /* allow detach */ | |
else | |
return SCPE_NOTATT; /* complain */ | |
} | |
if ((dptr = find_dev_from_unit (uptr)) == NULL) | |
return SCPE_OK; | |
if ((uptr->flags & UNIT_BUF) && (uptr->filebuf)) { | |
uint32 cap = (uptr->hwmark + dptr->aincr - 1) / dptr->aincr; | |
if (uptr->hwmark && ((uptr->flags & UNIT_RO) == 0)) { | |
sim_messagef (SCPE_OK, "%s: writing buffer to file\n", sim_dname (dptr)); | |
rewind (uptr->fileref); | |
sim_fwrite (uptr->filebuf, SZ_D (dptr), cap, uptr->fileref); | |
if (ferror (uptr->fileref)) | |
sim_printf ("%s: I/O error - %s", sim_dname (dptr), strerror (errno)); | |
} | |
if (uptr->flags & UNIT_MUSTBUF) { /* dyn alloc? */ | |
free (uptr->filebuf); /* free buf */ | |
uptr->filebuf = NULL; | |
} | |
uptr->flags = uptr->flags & ~UNIT_BUF; | |
} | |
uptr->flags = uptr->flags & ~(UNIT_ATT | ((uptr->flags & UNIT_ROABLE) ? UNIT_RO : 0)); | |
free (uptr->filename); | |
uptr->filename = NULL; | |
if (uptr->fileref) { /* Only close open file */ | |
if (fclose (uptr->fileref) == EOF) { | |
uptr->fileref = NULL; | |
return SCPE_IOERR; | |
} | |
uptr->fileref = NULL; | |
} | |
return SCPE_OK; | |
} | |
/* Assign command | |
as[sign] device name assign logical name to device | |
*/ | |
t_stat assign_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
DEVICE *dptr; | |
GET_SWITCHES (cptr); /* get switches */ | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
cptr = get_glyph (cptr, gbuf, 0); /* get next glyph */ | |
GET_SWITCHES (cptr); /* get switches */ | |
if (*cptr == 0) /* now eol? */ | |
return SCPE_2FARG; | |
dptr = find_dev (gbuf); /* locate device */ | |
if (dptr == NULL) /* found dev? */ | |
return SCPE_NXDEV; | |
cptr = get_glyph (cptr, gbuf, 0); /* get next glyph */ | |
if (*cptr != 0) /* must be eol */ | |
return SCPE_2MARG; | |
if (find_dev (gbuf)) /* name in use */ | |
return SCPE_ARG; | |
deassign_device (dptr); /* release current */ | |
return assign_device (dptr, gbuf); | |
} | |
t_stat assign_device (DEVICE *dptr, const char *cptr) | |
{ | |
dptr->lname = (char *) calloc (1 + strlen (cptr), sizeof (char)); | |
if (dptr->lname == NULL) | |
return SCPE_MEM; | |
strcpy (dptr->lname, cptr); | |
return SCPE_OK; | |
} | |
/* Deassign command | |
dea[ssign] device deassign logical name | |
*/ | |
t_stat deassign_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
DEVICE *dptr; | |
GET_SWITCHES (cptr); /* get switches */ | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
cptr = get_glyph (cptr, gbuf, 0); /* get next glyph */ | |
if (*cptr != 0) /* now eol? */ | |
return SCPE_2MARG; | |
dptr = find_dev (gbuf); /* locate device */ | |
if (dptr == NULL) /* found dev? */ | |
return SCPE_NXDEV; | |
return deassign_device (dptr); | |
} | |
t_stat deassign_device (DEVICE *dptr) | |
{ | |
free (dptr->lname); | |
dptr->lname = NULL; | |
return SCPE_OK; | |
} | |
/* Get device display name */ | |
const char *sim_dname (DEVICE *dptr) | |
{ | |
return (dptr ? (dptr->lname? dptr->lname: dptr->name) : ""); | |
} | |
/* Get unit display name */ | |
const char *sim_uname (UNIT *uptr) | |
{ | |
DEVICE *d; | |
char uname[CBUFSIZE]; | |
if (!uptr) | |
return ""; | |
if (uptr->uname) | |
return uptr->uname; | |
d = find_dev_from_unit(uptr); | |
if (!d) | |
return ""; | |
if (d->numunits == 1) | |
sprintf (uname, "%s", sim_dname (d)); | |
else | |
sprintf (uname, "%s%d", sim_dname (d), (int)(uptr-d->units)); | |
return sim_set_uname (uptr, uname); | |
} | |
const char *sim_set_uname (UNIT *uptr, const char *uname) | |
{ | |
free (uptr->uname); | |
return uptr->uname = strcpy ((char *)malloc (1 + strlen (uname)), uname); | |
} | |
/* Save command | |
sa[ve] filename save state to specified file | |
*/ | |
t_stat save_cmd (int32 flag, CONST char *cptr) | |
{ | |
FILE *sfile; | |
t_stat r; | |
char gbuf[4*CBUFSIZE]; | |
GET_SWITCHES (cptr); /* get switches */ | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
gbuf[sizeof(gbuf)-1] = '\0'; | |
strlcpy (gbuf, cptr, sizeof(gbuf)); | |
sim_trim_endspc (gbuf); | |
if ((sfile = sim_fopen (gbuf, "wb")) == NULL) | |
return SCPE_OPENERR; | |
r = sim_save (sfile); | |
fclose (sfile); | |
return r; | |
} | |
t_stat sim_save (FILE *sfile) | |
{ | |
void *mbuf; | |
int32 l, t; | |
uint32 i, j, device_count; | |
t_addr k, high; | |
t_value val; | |
t_stat r; | |
t_bool zeroflg; | |
size_t sz; | |
DEVICE *dptr; | |
UNIT *uptr; | |
REG *rptr; | |
#define WRITE_I(xx) sim_fwrite (&(xx), sizeof (xx), 1, sfile) | |
/* Don't make changes below without also changing save_vercur above */ | |
fprintf (sfile, "%s\n%s\n%s\n%s\n%s\n%.0f\n", | |
save_vercur, /* [V2.5] save format */ | |
sim_savename, /* sim name */ | |
sim_si64, sim_sa64, eth_capabilities(), /* [V3.5] options */ | |
sim_time); /* [V3.2] sim time */ | |
WRITE_I (sim_rtime); /* [V2.6] sim rel time */ | |
#if defined(SIM_GIT_COMMIT_ID) | |
#define S_xstr(a) S_str(a) | |
#define S_str(a) #a | |
fprintf (sfile, "git commit id: %8.8s\n", S_xstr(SIM_GIT_COMMIT_ID)); | |
#undef S_str | |
#undef S_xstr | |
#else | |
fprintf (sfile, "git commit id: unknown\n"); | |
#endif | |
for (device_count = 0; sim_devices[device_count]; device_count++);/* count devices */ | |
for (i = 0; i < (device_count + sim_internal_device_count); i++) {/* loop thru devices */ | |
if (i < device_count) | |
dptr = sim_devices[i]; | |
else | |
dptr = sim_internal_devices[i - device_count]; | |
if (dptr->flags & DEV_NOSAVE) | |
continue; | |
fputs (dptr->name, sfile); /* device name */ | |
fputc ('\n', sfile); | |
if (dptr->lname) /* [V3.0] logical name */ | |
fputs (dptr->lname, sfile); | |
fputc ('\n', sfile); | |
WRITE_I (dptr->flags); /* [V2.10] flags */ | |
for (j = 0; j < dptr->numunits; j++) { | |
uptr = dptr->units + j; | |
t = sim_activate_time (uptr); | |
WRITE_I (j); /* unit number */ | |
WRITE_I (t); /* activation time */ | |
WRITE_I (uptr->u3); /* unit specific */ | |
WRITE_I (uptr->u4); | |
WRITE_I (uptr->u5); /* [V3.0] more unit */ | |
WRITE_I (uptr->u6); | |
WRITE_I (uptr->flags); /* [V2.10] flags */ | |
WRITE_I (uptr->dynflags); | |
WRITE_I (uptr->wait); | |
WRITE_I (uptr->buf); | |
WRITE_I (uptr->capac); /* [V3.5] capacity */ | |
fprintf (sfile, "%.0f\n", uptr->usecs_remaining);/* [V4.0] remaining wait */ | |
if (uptr->flags & UNIT_ATT) { | |
fputs (uptr->filename, sfile); | |
if ((uptr->flags & UNIT_BUF) && /* writable buffered */ | |
uptr->hwmark && /* files need to be */ | |
((uptr->flags & UNIT_RO) == 0)) { /* written on save */ | |
uint32 cap = (uptr->hwmark + dptr->aincr - 1) / dptr->aincr; | |
rewind (uptr->fileref); | |
sim_fwrite (uptr->filebuf, SZ_D (dptr), cap, uptr->fileref); | |
fclose (uptr->fileref); /* flush data and state */ | |
uptr->fileref = sim_fopen (uptr->filename, "rb+");/* reopen r/w */ | |
} | |
} | |
fputc ('\n', sfile); | |
if (((uptr->flags & (UNIT_FIX + UNIT_ATTABLE)) == UNIT_FIX) && | |
(dptr->examine != NULL) && | |
((high = uptr->capac) != 0)) { /* memory-like unit? */ | |
WRITE_I (high); /* [V2.5] write size */ | |
sz = SZ_D (dptr); | |
if ((mbuf = calloc (SRBSIZ, sz)) == NULL) { | |
fclose (sfile); | |
return SCPE_MEM; | |
} | |
for (k = 0; k < high; ) { /* loop thru mem */ | |
zeroflg = TRUE; | |
for (l = 0; (l < SRBSIZ) && (k < high); l++, | |
k = k + (dptr->aincr)) { /* check for 0 block */ | |
r = dptr->examine (&val, k, uptr, SIM_SW_REST); | |
if (r != SCPE_OK) { | |
free (mbuf); | |
return r; | |
} | |
if (val) zeroflg = FALSE; | |
SZ_STORE (sz, val, mbuf, l); | |
} /* end for l */ | |
if (zeroflg) { /* all zero's? */ | |
l = -l; /* invert block count */ | |
WRITE_I (l); /* write only count */ | |
} | |
else { | |
WRITE_I (l); /* block count */ | |
sim_fwrite (mbuf, sz, l, sfile); | |
} | |
} /* end for k */ | |
free (mbuf); /* dealloc buffer */ | |
} /* end if mem */ | |
else { /* no memory */ | |
high = 0; /* write 0 */ | |
WRITE_I (high); | |
} /* end else mem */ | |
} /* end unit loop */ | |
t = -1; /* end units */ | |
WRITE_I (t); /* write marker */ | |
for (rptr = dptr->registers; (rptr != NULL) && /* loop thru regs */ | |
(rptr->name != NULL); rptr++) { | |
fputs (rptr->name, sfile); /* name */ | |
fputc ('\n', sfile); | |
WRITE_I (rptr->depth); /* [V2.10] depth */ | |
for (j = 0; j < rptr->depth; j++) { /* loop thru values */ | |
val = get_rval (rptr, j); /* get value */ | |
WRITE_I (val); /* store */ | |
} | |
} | |
fputc ('\n', sfile); /* end registers */ | |
} | |
fputc ('\n', sfile); /* end devices */ | |
return (ferror (sfile))? SCPE_IOERR: SCPE_OK; /* error during save? */ | |
} | |
/* Restore command | |
re[store] filename restore state from specified file | |
*/ | |
t_stat restore_cmd (int32 flag, CONST char *cptr) | |
{ | |
FILE *rfile; | |
t_stat r; | |
char gbuf[4*CBUFSIZE]; | |
GET_SWITCHES (cptr); /* get switches */ | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
gbuf[sizeof(gbuf)-1] = '\0'; | |
strlcpy (gbuf, cptr, sizeof(gbuf)); | |
sim_trim_endspc (gbuf); | |
if ((rfile = sim_fopen (gbuf, "rb")) == NULL) | |
return SCPE_OPENERR; | |
r = sim_rest (rfile); | |
fclose (rfile); | |
return r; | |
} | |
t_stat sim_rest (FILE *rfile) | |
{ | |
char buf[CBUFSIZE]; | |
char **attnames = NULL; | |
UNIT **attunits = NULL; | |
int32 *attswitches = NULL; | |
int32 attcnt = 0; | |
void *mbuf; | |
int32 j, blkcnt, limit, unitno, time, flg; | |
uint32 us, depth; | |
t_addr k, high, old_capac; | |
t_value val, mask; | |
t_stat r; | |
size_t sz; | |
t_bool v40, v35, v32; | |
DEVICE *dptr; | |
UNIT *uptr; | |
REG *rptr; | |
struct stat rstat; | |
t_bool force_restore = ((sim_switches & SWMASK ('F')) != 0); | |
t_bool dont_detach_attach = ((sim_switches & SWMASK ('D')) != 0); | |
t_bool suppress_warning = ((sim_switches & SWMASK ('Q')) != 0); | |
t_bool warned = FALSE; | |
sim_switches &= ~(SWMASK ('F') | SWMASK ('D') | SWMASK ('Q')); /* remove digested switches */ | |
#define READ_S(xx) if (read_line ((xx), sizeof(xx), rfile) == NULL) { \ | |
r = SCPE_IOERR; \ | |
goto Cleanup_Return; \ | |
} | |
#define READ_I(xx) if (sim_fread (&xx, sizeof (xx), 1, rfile) == 0) { \ | |
r = SCPE_IOERR; \ | |
goto Cleanup_Return; \ | |
} | |
if (fstat (fileno (rfile), &rstat)) { | |
r = SCPE_IOERR; | |
goto Cleanup_Return; | |
} | |
READ_S (buf); /* [V2.5+] read version */ | |
v40 = v35 = v32 = FALSE; | |
if (strcmp (buf, save_ver40) == 0) /* version 4.0? */ | |
v40 = v35 = v32 = TRUE; | |
else if (strcmp (buf, save_ver35) == 0) /* version 3.5? */ | |
v35 = v32 = TRUE; | |
else if (strcmp (buf, save_ver32) == 0) /* version 3.2? */ | |
v32 = TRUE; | |
else if (strcmp (buf, save_ver30) != 0) { /* version 3.0? */ | |
sim_printf ("Invalid file version: %s\n", buf); | |
return SCPE_INCOMP; | |
} | |
if ((strcmp (buf, save_ver40) != 0) && (!sim_quiet) && (!suppress_warning)) { | |
sim_printf ("warning - attempting to restore a saved simulator image in %s image format.\n", buf); | |
warned = TRUE; | |
} | |
READ_S (buf); /* read sim name */ | |
if (strcmp (buf, sim_savename)) { /* name match? */ | |
sim_printf ("Wrong system type: %s\n", buf); | |
return SCPE_INCOMP; | |
} | |
if (v35) { /* [V3.5+] options */ | |
READ_S (buf); /* integer size */ | |
if (strcmp (buf, sim_si64) != 0) { | |
sim_printf ("Incompatible integer size, save file = %s\n", buf); | |
return SCPE_INCOMP; | |
} | |
READ_S (buf); /* address size */ | |
if (strcmp (buf, sim_sa64) != 0) { | |
sim_printf ("Incompatible address size, save file = %s\n", buf); | |
return SCPE_INCOMP; | |
} | |
READ_S (buf); /* Ethernet */ | |
} | |
if (v32) { /* [V3.2+] time as string */ | |
READ_S (buf); | |
sscanf (buf, "%lf", &sim_time); | |
} | |
else READ_I (sim_time); /* sim time */ | |
READ_I (sim_rtime); /* [V2.6+] sim rel time */ | |
if (v40) { | |
READ_S (buf); /* read git commit id */ | |
#if defined(SIM_GIT_COMMIT_ID) | |
#define S_xstr(a) S_str(a) | |
#define S_str(a) #a | |
if ((memcmp (buf, "git commit id: " S_xstr(SIM_GIT_COMMIT_ID), 23)) && | |
(!sim_quiet) && (!suppress_warning)) { | |
sim_printf ("warning - different simulator git versions.\nSaved commit id: %8.8s, Running commit id: %8.8s\n", buf + 15, S_xstr(SIM_GIT_COMMIT_ID)); | |
warned = TRUE; | |
} | |
#undef S_str | |
#undef S_xstr | |
#endif | |
} | |
if (!dont_detach_attach) | |
detach_all (0, 0); /* Detach everything to start from a consistent state */ | |
else { | |
if (!suppress_warning) { | |
uint32 i, j; | |
for (i = 0; (dptr = sim_devices[i]) != NULL; i++) { /* loop thru dev */ | |
for (j = 0; j < dptr->numunits; j++) { /* loop thru units */ | |
uptr = (dptr->units) + j; | |
if (uptr->flags & UNIT_ATT) { /* attached? */ | |
sim_printf ("warning - leaving %s attached to '%s'\n", sim_uname (uptr), uptr->filename); | |
warned = TRUE; | |
} | |
} | |
} | |
} | |
} | |
for ( ;; ) { /* device loop */ | |
READ_S (buf); /* read device name */ | |
if (buf[0] == 0) /* last? */ | |
break; | |
if ((dptr = find_dev (buf)) == NULL) { /* locate device */ | |
sim_printf ("Invalid device name: %s\n", buf); | |
r = SCPE_INCOMP; | |
goto Cleanup_Return; | |
} | |
READ_S (buf); /* [V3.0+] logical name */ | |
deassign_device (dptr); /* delete old name */ | |
if ((buf[0] != 0) && | |
((r = assign_device (dptr, buf)) != SCPE_OK)) { | |
r = SCPE_INCOMP; | |
goto Cleanup_Return; | |
} | |
READ_I (flg); /* [V2.10+] ctlr flags */ | |
if (!v32) | |
flg = ((flg & DEV_UFMASK_31) << (DEV_V_UF - DEV_V_UF_31)) | | |
(flg & ~DEV_UFMASK_31); /* [V3.2+] flags moved */ | |
dptr->flags = (dptr->flags & ~DEV_RFLAGS) | /* restore ctlr flags */ | |
(flg & DEV_RFLAGS); | |
for ( ;; ) { /* unit loop */ | |
sim_switches = SIM_SW_REST; /* flag rstr, clr RO */ | |
READ_I (unitno); /* unit number */ | |
if (unitno < 0) /* end units? */ | |
break; | |
if ((uint32) unitno >= dptr->numunits) { /* too big? */ | |
sim_printf ("Invalid unit number: %s%d\n", sim_dname (dptr), unitno); | |
r = SCPE_INCOMP; | |
goto Cleanup_Return; | |
} | |
READ_I (time); /* event time */ | |
uptr = (dptr->units) + unitno; | |
sim_cancel (uptr); | |
if (time > 0) | |
sim_activate (uptr, time - 1); | |
READ_I (uptr->u3); /* device specific */ | |
READ_I (uptr->u4); | |
READ_I (uptr->u5); /* [V3.0+] more dev spec */ | |
READ_I (uptr->u6); | |
READ_I (flg); /* [V2.10+] unit flags */ | |
if (v40) { /* [V4.0+] dynflags */ | |
READ_I (uptr->dynflags); | |
READ_I (uptr->wait); | |
READ_I (uptr->buf); | |
} | |
old_capac = uptr->capac; /* save current capacity */ | |
if (v35) { /* [V3.5+] capacity */ | |
READ_I (uptr->capac); | |
} | |
if (v40) { | |
READ_S (buf); | |
sscanf (buf, "%lf", &uptr->usecs_remaining); | |
} | |
if (!v32) | |
flg = ((flg & UNIT_UFMASK_31) << (UNIT_V_UF - UNIT_V_UF_31)) | | |
(flg & ~UNIT_UFMASK_31); /* [V3.2+] flags moved */ | |
uptr->flags = (uptr->flags & ~UNIT_RFLAGS) | | |
(flg & UNIT_RFLAGS); /* restore */ | |
READ_S (buf); /* attached file */ | |
if ((uptr->flags & UNIT_ATT) && /* unit currently attached? */ | |
(!dont_detach_attach)) { | |
r = scp_detach_unit (dptr, uptr); /* detach it */ | |
if (r != SCPE_OK) { | |
sim_printf ("Error detaching %s from %s: %s\n", sim_uname (uptr), uptr->filename, sim_error_text (r)); | |
r = SCPE_INCOMP; | |
goto Cleanup_Return; | |
} | |
} | |
if ((buf[0] != '\0') && /* unit to be reattached? */ | |
((uptr->flags & UNIT_ATTABLE) || /* and unit is attachable */ | |
(dptr->attach != NULL))) { /* or VM attach routine provided? */ | |
uptr->flags = uptr->flags & ~UNIT_DIS; /* ensure device is enabled */ | |
if (flg & UNIT_RO) /* [V2.10+] saved flgs & RO? */ | |
sim_switches |= SWMASK ('R'); /* RO attach */ | |
/* add unit to list of units to attach after registers are read */ | |
attunits = (UNIT **)realloc (attunits, sizeof (*attunits)*(attcnt+1)); | |
attunits[attcnt] = uptr; | |
attnames = (char **)realloc (attnames, sizeof (*attnames)*(attcnt+1)); | |
attnames[attcnt] = (char *)malloc(1+strlen(buf)); | |
strcpy (attnames[attcnt], buf); | |
attswitches = (int32 *)realloc (attswitches, sizeof (*attswitches)*(attcnt+1)); | |
attswitches[attcnt] = sim_switches; | |
++attcnt; | |
} | |
READ_I (high); /* memory capacity */ | |
if (high > 0) { /* [V2.5+] any memory? */ | |
if (((uptr->flags & (UNIT_FIX + UNIT_ATTABLE)) != UNIT_FIX) || | |
(dptr->deposit == NULL)) { | |
sim_printf ("Can't restore memory: %s%d\n", sim_dname (dptr), unitno); | |
r = SCPE_INCOMP; | |
goto Cleanup_Return; | |
} | |
if (high != old_capac) { /* size change? */ | |
uptr->capac = old_capac; /* temp restore old */ | |
if ((dptr->flags & DEV_DYNM) && | |
((dptr->msize == NULL) || | |
(dptr->msize (uptr, (int32) high, NULL, NULL) != SCPE_OK))) { | |
sim_printf ("Can't change memory size: %s%d\n", | |
sim_dname (dptr), unitno); | |
r = SCPE_INCOMP; | |
goto Cleanup_Return; | |
} | |
uptr->capac = high; /* new memory size */ | |
sim_printf ("Memory size changed: %s%d = ", sim_dname (dptr), unitno); | |
fprint_capac (stdout, dptr, uptr); | |
if (sim_log) | |
fprint_capac (sim_log, dptr, uptr); | |
sim_printf ("\n"); | |
} | |
sz = SZ_D (dptr); /* allocate buffer */ | |
if ((mbuf = calloc (SRBSIZ, sz)) == NULL) { | |
r = SCPE_MEM; | |
goto Cleanup_Return; | |
} | |
for (k = 0; k < high; ) { /* loop thru mem */ | |
if (sim_fread (&blkcnt, sizeof (blkcnt), 1, rfile) == 0) {/* block count */ | |
free (mbuf); | |
r = SCPE_IOERR; | |
goto Cleanup_Return; | |
} | |
if (blkcnt < 0) /* compressed? */ | |
limit = -blkcnt; | |
else limit = (int32)sim_fread (mbuf, sz, blkcnt, rfile); | |
if (limit <= 0) { /* invalid or err? */ | |
free (mbuf); | |
r = SCPE_IOERR; | |
goto Cleanup_Return; | |
} | |
for (j = 0; j < limit; j++, k = k + (dptr->aincr)) { | |
if (blkcnt < 0) /* compressed? */ | |
val = 0; | |
else SZ_LOAD (sz, val, mbuf, j); /* saved value */ | |
r = dptr->deposit (val, k, uptr, SIM_SW_REST); | |
if (r != SCPE_OK) { | |
free (mbuf); | |
goto Cleanup_Return; | |
} | |
} /* end for j */ | |
} /* end for k */ | |
free (mbuf); /* dealloc buffer */ | |
} /* end if high */ | |
} /* end unit loop */ | |
for ( ;; ) { /* register loop */ | |
READ_S (buf); /* read reg name */ | |
if (buf[0] == 0) /* last? */ | |
break; | |
READ_I (depth); /* [V2.10+] depth */ | |
if ((rptr = find_reg (buf, NULL, dptr)) == NULL) { | |
sim_printf ("Invalid register name: %s %s\n", sim_dname (dptr), buf); | |
for (us = 0; us < depth; us++) { /* skip values */ | |
READ_I (val); | |
} | |
continue; | |
} | |
if (depth != rptr->depth) { /* [V2.10+] mismatch? */ | |
sim_printf ("Register depth mismatch: %s %s, file = %d, sim = %d\n", | |
sim_dname (dptr), buf, depth, rptr->depth); | |
if (depth > rptr->depth) | |
depth = rptr->depth; | |
} | |
mask = width_mask[rptr->width]; /* get mask */ | |
for (us = 0; us < depth; us++) { /* loop thru values */ | |
READ_I (val); /* read value */ | |
if (val > mask) { /* value ok? */ | |
sim_printf ("Invalid register value: %s %s\n", sim_dname (dptr), buf); | |
} | |
else if (us < rptr->depth) /* in range? */ | |
put_rval (rptr, us, val); | |
} | |
} /* end register loop */ | |
} /* end device loop */ | |
/* Now that all of the register state has been imported, we can attach | |
units which were originally attached. Some of these attach operations | |
may depend on the state of the device (in registers) to work correctly */ | |
for (j=0, r = SCPE_OK; j<attcnt; j++) { | |
if ((r == SCPE_OK) && (!dont_detach_attach)) { | |
struct stat fstat; | |
t_addr saved_pos; | |
dptr = find_dev_from_unit (attunits[j]); | |
if ((!force_restore) && | |
(!stat(attnames[j], &fstat))) | |
if (fstat.st_mtime > rstat.st_mtime + 30) { | |
r = SCPE_INCOMP; | |
sim_printf ("Error Attaching %s to %s - the restore state is %d seconds older than the attach file\n", sim_dname (dptr), attnames[j], (int)(fstat.st_mtime - rstat.st_mtime)); | |
sim_printf ("restore with the -F switch to override this sanity check\n"); | |
continue; | |
} | |
saved_pos = attunits[j]->pos; | |
sim_switches = attswitches[j]; | |
r = scp_attach_unit (dptr, attunits[j], attnames[j]);/* reattach unit */ | |
attunits[j]->pos = saved_pos; | |
if (r != SCPE_OK) | |
sim_printf ("Error Attaching %s to %s\n", sim_dname (dptr), attnames[j]); | |
} | |
else { | |
if ((r == SCPE_OK) && (dont_detach_attach)) { | |
if ((!suppress_warning) && | |
((!attunits[j]->filename) || (strcmp (attunits[j]->filename, attnames[j]) != 0))) { | |
warned = TRUE; | |
sim_printf ("warning - %s was attached to '%s'", sim_uname (attunits[j]), attnames[j]); | |
if (attunits[j]->filename) | |
sim_printf (", now attached to '%s'\n", attunits[j]->filename); | |
else | |
sim_printf (", now unattached\n"); | |
} | |
} | |
} | |
free (attnames[j]); | |
attnames[j] = NULL; | |
} | |
Cleanup_Return: | |
for (j=0; j < attcnt; j++) | |
free (attnames[j]); | |
free (attnames); | |
free (attunits); | |
free (attswitches); | |
if (warned) | |
sim_printf ("restore with the -Q switch to suppress warning messages\n"); | |
return r; | |
} | |
/* Run, go, boot, cont, step, next commands | |
ru[n] [new PC] reset and start simulation | |
go [new PC] start simulation | |
co[nt] start simulation | |
s[tep] [step limit] start simulation for 'limit' instructions | |
next start simulation for 1 instruction | |
stepping over subroutine calls | |
b[oot] device bootstrap from device and start simulation | |
switches: | |
-Q quiet return status | |
-T (only for step), causes the step limit to | |
be a number of microseconds to run for | |
*/ | |
t_stat run_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE] = ""; | |
CONST char *tptr; | |
uint32 i, j; | |
int32 sim_next = 0; | |
int32 unitno; | |
t_value pcv, orig_pcv; | |
t_stat r; | |
DEVICE *dptr; | |
UNIT *uptr; | |
GET_SWITCHES (cptr); /* get switches */ | |
sim_step = 0; | |
if ((flag == RU_RUN) || (flag == RU_GO)) { /* run or go */ | |
orig_pcv = get_rval (sim_PC, 0); /* get current PC value */ | |
if (*cptr != 0) { /* argument? */ | |
cptr = get_glyph (cptr, gbuf, 0); /* get next glyph */ | |
if (MATCH_CMD (gbuf, "UNTIL") != 0) { | |
if (sim_vm_parse_addr) /* address parser? */ | |
pcv = sim_vm_parse_addr (sim_dflt_dev, gbuf, &tptr); | |
else pcv = strtotv (gbuf, &tptr, sim_PC->radix);/* parse PC */ | |
if ((tptr == gbuf) || (*tptr != 0) || /* error? */ | |
(pcv > width_mask[sim_PC->width])) | |
return SCPE_ARG; | |
put_rval (sim_PC, 0, pcv); /* Save in PC */ | |
} | |
} | |
if ((flag == RU_RUN) && /* run? */ | |
((r = sim_run_boot_prep (flag)) != SCPE_OK)) { /* reset sim */ | |
put_rval (sim_PC, 0, orig_pcv); /* restore original PC */ | |
return r; | |
} | |
if ((*cptr) || (MATCH_CMD (gbuf, "UNTIL") == 0)) { /* should be end */ | |
int32 saved_switches = sim_switches; | |
if (MATCH_CMD (gbuf, "UNTIL") != 0) | |
cptr = get_glyph (cptr, gbuf, 0); /* get next glyph */ | |
if (MATCH_CMD (gbuf, "UNTIL") != 0) | |
return sim_messagef (SCPE_2MARG, "Unexpected %s command argument: %s %s\n", | |
(flag == RU_RUN) ? "RUN" : "GO", gbuf, cptr); | |
sim_switches = 0; | |
GET_SWITCHES (cptr); | |
if (((*cptr == '\'') || (*cptr == '"')) || /* Expect UNTIL condition */ | |
(!sim_strncasecmp(cptr, "HALTAFTER=", 10))) { | |
r = expect_cmd (1, cptr); | |
if (r != SCPE_OK) | |
return r; | |
} | |
else { /* BREAK UNTIL condition */ | |
if (sim_switches == 0) | |
sim_switches = sim_brk_dflt; | |
sim_switches |= BRK_TYP_TEMP; /* make this a one-shot breakpoint */ | |
sim_brk_types |= BRK_TYP_TEMP; | |
r = ssh_break (NULL, cptr, SSH_ST); | |
if (r != SCPE_OK) | |
return sim_messagef (r, "Unable to establish breakpoint at: %s\n", cptr); | |
} | |
sim_switches = saved_switches; | |
} | |
} | |
else if ((flag == RU_STEP) || | |
((flag == RU_NEXT) && !sim_vm_is_subroutine_call)) { /* step */ | |
static t_bool not_implemented_message = FALSE; | |
if ((!not_implemented_message) && (flag == RU_NEXT)) { | |
sim_printf ("This simulator does not have subroutine call detection.\nPerforming a STEP instead\n"); | |
not_implemented_message = TRUE; | |
flag = RU_STEP; | |
} | |
if (*cptr != 0) { /* argument? */ | |
cptr = get_glyph (cptr, gbuf, 0); /* get next glyph */ | |
if (*cptr != 0) /* should be end */ | |
return SCPE_2MARG; | |
sim_step = (int32) get_uint (gbuf, 10, INT_MAX, &r); | |
if ((r != SCPE_OK) || (sim_step <= 0)) /* error? */ | |
return SCPE_ARG; | |
} | |
else sim_step = 1; | |
if ((flag == RU_STEP) && (sim_switches & SWMASK ('T'))) | |
sim_step = (int32)((sim_timer_inst_per_sec ()*sim_step)/1000000.0); | |
} | |
else if (flag == RU_NEXT) { /* next */ | |
t_addr *addrs; | |
if (*cptr != 0) { /* argument? */ | |
cptr = get_glyph (cptr, gbuf, 0); /* get next glyph */ | |
if (*cptr != 0) /* should be end */ | |
return SCPE_2MARG; | |
sim_next = (int32) get_uint (gbuf, 10, INT_MAX, &r); | |
if ((r != SCPE_OK) || (sim_next <= 0)) /* error? */ | |
return SCPE_ARG; | |
} | |
else | |
sim_next = 1; | |
if (sim_vm_is_subroutine_call(&addrs)) { | |
sim_brk_types |= BRK_TYP_DYN_STEPOVER; | |
for (i=0; addrs[i]; i++) | |
sim_brk_set (addrs[i], BRK_TYP_DYN_STEPOVER, 0, NULL); | |
} | |
else | |
sim_step = 1; | |
} | |
else if (flag == RU_BOOT) { /* boot */ | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
cptr = get_glyph (cptr, gbuf, 0); /* get next glyph */ | |
if (*cptr != 0) /* should be end */ | |
return SCPE_2MARG; | |
dptr = find_unit (gbuf, &uptr); /* locate unit */ | |
if (dptr == NULL) /* found dev? */ | |
return SCPE_NXDEV; | |
if (uptr == NULL) /* valid unit? */ | |
return SCPE_NXUN; | |
if (dptr->boot == NULL) /* can it boot? */ | |
return SCPE_NOFNC; | |
if (uptr->flags & UNIT_DIS) /* disabled? */ | |
return SCPE_UDIS; | |
if ((uptr->flags & UNIT_ATTABLE) && /* if attable, att? */ | |
!(uptr->flags & UNIT_ATT)) | |
return SCPE_UNATT; | |
unitno = (int32) (uptr - dptr->units); /* recover unit# */ | |
if ((r = sim_run_boot_prep (flag)) != SCPE_OK) /* reset sim */ | |
return r; | |
if ((r = dptr->boot (unitno, dptr)) != SCPE_OK) /* boot device */ | |
return r; | |
} | |
else | |
if (flag != RU_CONT) /* must be cont */ | |
return SCPE_IERR; | |
else /* CONTINUE command */ | |
if (*cptr != 0) /* should be end (no arguments allowed) */ | |
return sim_messagef (SCPE_2MARG, "CONTINUE command takes no arguments\n"); | |
if (sim_switches & SIM_SW_HIDE) /* Setup only for Remote Console Mode */ | |
return SCPE_OK; | |
for (i = 1; (dptr = sim_devices[i]) != NULL; i++) { /* reposition all */ | |
for (j = 0; j < dptr->numunits; j++) { /* seq devices */ | |
uptr = dptr->units + j; | |
if ((uptr->flags & (UNIT_ATT + UNIT_SEQ)) == (UNIT_ATT + UNIT_SEQ)) | |
if (sim_fseek (uptr->fileref, uptr->pos, SEEK_SET)) | |
return sim_messagef (SCPE_IERR, "Can't seek to %u in %s for %s\n", (unsigned)uptr->pos, uptr->filename, sim_uname (uptr)); | |
} | |
} | |
if ((r = sim_ttrun ()) != SCPE_OK) { /* set console mode */ | |
r = sim_messagef (SCPE_TTYERR, "sim_ttrun() returned: %s - errno: %d - %s\n", sim_error_text (r), errno, strerror (errno)); | |
sim_ttcmd (); | |
return r; | |
} | |
if ((r = sim_check_console (30)) != SCPE_OK) { /* check console, error? */ | |
r = sim_messagef (r, "sim_check_console () returned: %s - errno: %d - %s\n", sim_error_text (r), errno, strerror (errno)); | |
sim_ttcmd (); | |
return r; | |
} | |
#ifdef SIGHUP | |
if (signal (SIGHUP, int_handler) == SIG_ERR) { /* set WRU */ | |
r = sim_messagef (SCPE_SIGERR, "Can't establish SIGHUP: errno: %d - %s", errno, strerror (errno)); | |
sim_ttcmd (); | |
return r; | |
} | |
#endif | |
if (signal (SIGTERM, int_handler) == SIG_ERR) { /* set WRU */ | |
r = sim_messagef (SCPE_SIGERR, "Can't establish SIGTERM: errno: %d - %s", errno, strerror (errno)); | |
sim_ttcmd (); | |
return r; | |
} | |
stop_cpu = FALSE; | |
sim_is_running = TRUE; /* flag running */ | |
if (sim_step) /* set step timer */ | |
sim_activate (&sim_step_unit, sim_step); | |
fflush(stdout); /* flush stdout */ | |
if (sim_log) /* flush log if enabled */ | |
fflush (sim_log); | |
sim_throt_sched (); /* set throttle */ | |
sim_rtcn_init_all (); /* re-init clocks */ | |
sim_start_timer_services (); /* enable wall clock timing */ | |
do { | |
t_addr *addrs; | |
while (1) { | |
r = sim_instr(); | |
if (r != SCPE_REMOTE) | |
break; | |
sim_remote_process_command (); /* Process the command and resume processing */ | |
} | |
if ((flag != RU_NEXT) || /* done if not doing NEXT */ | |
(--sim_next <=0)) | |
break; | |
if (sim_step == 0) { /* doing a NEXT? */ | |
t_addr val; | |
BRKTAB *bp; | |
if (SCPE_BARE_STATUS(r) >= SCPE_BASE) /* done if an error occurred */ | |
break; | |
if (sim_vm_pc_value) /* done if didn't stop at a dynamic breakpoint */ | |
val = (t_addr)(*sim_vm_pc_value)(); | |
else | |
val = (t_addr)get_rval (sim_PC, 0); | |
if ((!(bp = sim_brk_fnd (val))) || (!(bp->typ & BRK_TYP_DYN_STEPOVER))) | |
break; | |
sim_brk_clrall (BRK_TYP_DYN_STEPOVER); /* cancel any step/over subroutine breakpoints */ | |
} | |
else { | |
if (r != SCPE_STEP) /* done if step didn't complete with step expired */ | |
break; | |
} | |
/* setup another next/step */ | |
sim_step = 0; | |
if (sim_vm_is_subroutine_call(&addrs)) { | |
sim_brk_types |= BRK_TYP_DYN_STEPOVER; | |
for (i=0; addrs[i]; i++) | |
sim_brk_set (addrs[i], BRK_TYP_DYN_STEPOVER, 0, NULL); | |
} | |
else | |
sim_step = 1; | |
if (sim_step) /* set step timer */ | |
sim_activate (&sim_step_unit, sim_step); | |
} while (1); | |
if ((SCPE_BARE_STATUS(r) == SCPE_STOP) && /* WRU exit from sim_instr() */ | |
(sim_on_actions[sim_do_depth][SCPE_STOP] == NULL) &&/* without a handler for a STOP condition */ | |
(sim_on_actions[sim_do_depth][0] == NULL)) | |
sim_os_ms_sleep (sim_stop_sleep_ms); /* wait a bit for SIGINT */ | |
sim_is_running = FALSE; /* flag idle */ | |
sim_stop_timer_services (); /* disable wall clock timing */ | |
sim_ttcmd (); /* restore console */ | |
sim_brk_clrall (BRK_TYP_DYN_STEPOVER); /* cancel any step/over subroutine breakpoints */ | |
#ifdef SIGHUP | |
signal (SIGHUP, SIG_DFL); /* cancel WRU */ | |
#endif | |
signal (SIGTERM, SIG_DFL); /* cancel WRU */ | |
if (sim_log) /* flush console log */ | |
fflush (sim_log); | |
if (sim_deb) /* flush debug log */ | |
_sim_debug_flush (); | |
for (i = 1; (dptr = sim_devices[i]) != NULL; i++) { /* flush attached files */ | |
for (j = 0; j < dptr->numunits; j++) { /* if not buffered in mem */ | |
uptr = dptr->units + j; | |
if (uptr->flags & UNIT_ATT) { /* attached, */ | |
if (uptr->io_flush) /* unit specific flush routine */ | |
uptr->io_flush (uptr); /* call it */ | |
else { | |
if (!(uptr->flags & UNIT_BUF) && /* not buffered, */ | |
(uptr->fileref) && /* real file, */ | |
!(uptr->dynflags & UNIT_NO_FIO) && /* is FILE *, */ | |
!(uptr->flags & UNIT_RO)) /* not read only? */ | |
fflush (uptr->fileref); | |
} | |
} | |
} | |
} | |
sim_cancel (&sim_step_unit); /* cancel step timer */ | |
sim_throt_cancel (); /* cancel throttle */ | |
AIO_UPDATE_QUEUE; | |
UPDATE_SIM_TIME; /* update sim time */ | |
return r | ((sim_switches & SWMASK ('Q')) ? SCPE_NOMESSAGE : 0); | |
} | |
/* run command message handler */ | |
void | |
run_cmd_message (const char *unechoed_cmdline, t_stat r) | |
{ | |
#if defined (VMS) | |
printf ("\n"); | |
#endif | |
if (unechoed_cmdline && (r >= SCPE_BASE) && (r != SCPE_STEP) && (r != SCPE_STOP) && (r != SCPE_EXPECT)) | |
sim_printf("%s> %s\n", do_position(), unechoed_cmdline); | |
fprint_stopped (stdout, r); /* print msg */ | |
if ((!sim_oline) && ((sim_log && (sim_log != stdout))))/* log if enabled */ | |
fprint_stopped (sim_log, r); | |
if (sim_deb && (sim_deb != stdout) && (sim_deb != sim_log)) {/* debug if enabled */ | |
TMLN *saved_oline = sim_oline; | |
sim_oline = NULL; /* avoid potential debug to active socket */ | |
fprint_stopped (sim_deb, r); | |
sim_oline = saved_oline; /* restore original socket */ | |
} | |
} | |
/* Common setup for RUN or BOOT */ | |
t_stat sim_run_boot_prep (int32 flag) | |
{ | |
t_stat r; | |
sim_interval = 0; /* reset queue */ | |
sim_time = sim_rtime = 0; | |
noqueue_time = 0; /* reset queue */ | |
while (sim_clock_queue != QUEUE_LIST_END) | |
sim_cancel (sim_clock_queue); | |
noqueue_time = sim_interval = 0; | |
r = reset_all (0); | |
if ((r == SCPE_OK) && (flag == RU_RUN)) { | |
if ((run_cmd_did_reset) && (0 == (sim_switches & SWMASK ('Q')))) { | |
sim_printf ("Resetting all devices... This may not have been your intention.\n"); | |
sim_printf ("The GO and CONTINUE commands do not reset devices.\n"); | |
} | |
run_cmd_did_reset = TRUE; | |
} | |
return r; | |
} | |
/* Print stopped message | |
* For VM stops, if a VM-specific "sim_vm_fprint_stopped" pointer is defined, | |
* call the indicated routine to print additional information after the message | |
* and before the PC value is printed. If the routine returns FALSE, skip | |
* printing the PC and its related instruction. | |
*/ | |
void fprint_stopped_gen (FILE *st, t_stat v, REG *pc, DEVICE *dptr) | |
{ | |
int32 i; | |
t_stat r = 0; | |
t_addr k; | |
t_value pcval; | |
fputc ('\n', st); /* start on a new line */ | |
if (v >= SCPE_BASE) /* SCP error? */ | |
fputs (sim_error_text (v), st); /* print it from the SCP list */ | |
else { /* VM error */ | |
if (sim_stop_messages [v]) | |
fputs (sim_stop_messages [v], st); /* print the VM-specific message */ | |
else | |
fprintf (st, "Unknown %s simulator stop code %d", sim_name, v); | |
if ((sim_vm_fprint_stopped != NULL) && /* if a VM-specific stop handler is defined */ | |
(!sim_vm_fprint_stopped (st, v))) /* call it; if it returned FALSE, */ | |
return; /* we're done */ | |
} | |
fprintf (st, ", %s: ", pc->name); /* print the name of the PC register */ | |
pcval = get_rval (pc, 0); | |
if ((pc->flags & REG_VMAD) && sim_vm_fprint_addr) /* if reg wants VM-specific printer */ | |
sim_vm_fprint_addr (st, dptr, (t_addr) pcval); /* call it to print the PC address */ | |
else fprint_val (st, pcval, pc->radix, pc->width, /* otherwise, print as a numeric value */ | |
pc->flags & REG_FMT); /* with the radix and formatting specified */ | |
if ((dptr != NULL) && (dptr->examine != NULL)) { | |
for (i = 0; i < sim_emax; i++) | |
sim_eval[i] = 0; | |
for (i = 0, k = (t_addr) pcval; i < sim_emax; i++, k = k + dptr->aincr) { | |
if ((r = dptr->examine (&sim_eval[i], k, dptr->units, SWMASK ('V')|SIM_SW_STOP)) != SCPE_OK) | |
break; | |
} | |
if ((r == SCPE_OK) || (i > 0)) { | |
fprintf (st, " ("); | |
if (fprint_sym (st, (t_addr) pcval, sim_eval, NULL, SWMASK('M')|SIM_SW_STOP) > 0) | |
fprint_val (st, sim_eval[0], dptr->dradix, dptr->dwidth, PV_RZRO); | |
fprintf (st, ")"); | |
} | |
} | |
fprintf (st, "\n"); | |
} | |
void fprint_stopped (FILE *st, t_stat v) | |
{ | |
fprint_stopped_gen (st, v, sim_PC, sim_dflt_dev); | |
return; | |
} | |
/* Unit service for step timeout, originally scheduled by STEP n command | |
Return step timeout SCP code, will cause simulation to stop */ | |
t_stat step_svc (UNIT *uptr) | |
{ | |
return SCPE_STEP; | |
} | |
/* Unit service to facilitate expect matching to stop simulation. | |
Return expect SCP code, will cause simulation to stop */ | |
t_stat expect_svc (UNIT *uptr) | |
{ | |
return SCPE_EXPECT | (sim_do_echo ? 0 : SCPE_NOMESSAGE); | |
} | |
/* Cancel scheduled step service */ | |
t_stat sim_cancel_step (void) | |
{ | |
return sim_cancel (&sim_step_unit); | |
} | |
/* Signal handler for ^C signal - set stop simulation flag */ | |
void int_handler (int sig) | |
{ | |
stop_cpu = TRUE; | |
return; | |
} | |
/* Examine/deposit commands | |
ex[amine] [modifiers] list examine | |
de[posit] [modifiers] list val deposit | |
ie[xamine] [modifiers] list interactive examine | |
id[eposit] [modifiers] list interactive deposit | |
modifiers | |
@filename output file | |
-letter(s) switches | |
devname'n device name and unit number | |
[{&|^}value]{=|==|!|!=|>|>=|<|<=} value search specification | |
list list of addresses and registers | |
addr[:addr|-addr] address range | |
ALL all addresses | |
register[:register|-register] register range | |
register[index] register array element | |
register[start:end] register array range | |
STATE all registers | |
*/ | |
t_stat exdep_cmd (int32 flag, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
CONST char *gptr; | |
CONST char *tptr = NULL; | |
const char *ap; | |
int32 opt; | |
t_addr low, high; | |
t_stat reason; | |
DEVICE *tdptr; | |
t_stat tstat = SCPE_OK; | |
REG *lowr, *highr; | |
FILE *ofile; | |
opt = CMD_OPT_SW|CMD_OPT_SCH|CMD_OPT_DFT; /* options for all */ | |
if (flag == EX_E) /* extra for EX */ | |
opt = opt | CMD_OPT_OF; | |
cptr = get_sim_opt (opt, cptr, &reason); /* get cmd options */ | |
if (!cptr) /* error? */ | |
return reason; | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
if (sim_dfunit == NULL) /* got a unit? */ | |
return SCPE_NXUN; | |
cptr = get_glyph (cptr, gbuf, 0); /* get list */ | |
if ((flag == EX_D) && (*cptr == 0)) /* deposit needs more */ | |
return SCPE_2FARG; | |
ofile = sim_ofile? sim_ofile: stdout; /* no ofile? use stdout */ | |
for (gptr = gbuf, reason = SCPE_OK; | |
(*gptr != 0) && (reason == SCPE_OK); gptr = tptr) { | |
tdptr = sim_dfdev; /* working dptr */ | |
if (strncmp (gptr, "STATE", strlen ("STATE")) == 0) { | |
tptr = gptr + strlen ("STATE"); | |
if (*tptr && (*tptr++ != ',')) | |
return SCPE_ARG; | |
if ((lowr = sim_dfdev->registers) == NULL) | |
return SCPE_NXREG; | |
for (highr = lowr; highr->name != NULL; highr++) ; | |
sim_switches = sim_switches | SIM_SW_HIDE; | |
reason = exdep_reg_loop (ofile, sim_schrptr, flag, cptr, | |
lowr, --highr, 0, 0xFFFFFFFF); | |
if ((!sim_oline) && (sim_log && (ofile == stdout))) | |
exdep_reg_loop (sim_log, sim_schrptr, EX_E, cptr, | |
lowr, --highr, 0, 0xFFFFFFFF); | |
continue; | |
} | |
if ((lowr = find_reg (gptr, &tptr, tdptr)) || /* local reg or */ | |
(!(sim_opt_out & CMD_OPT_DFT) && /* no dflt, global? */ | |
(lowr = find_reg_glob_reason (gptr, &tptr, &tdptr, &tstat)))) { | |
low = high = 0; | |
if ((*tptr == '-') || (*tptr == ':')) { | |
highr = find_reg (tptr + 1, &tptr, tdptr); | |
if (highr == NULL) | |
return SCPE_NXREG; | |
} | |
else { | |
highr = lowr; | |
if (*tptr == '[') { | |
if (lowr->depth <= 1) | |
return SCPE_ARG; | |
tptr = get_range (NULL, tptr + 1, &low, &high, | |
10, lowr->depth - 1, ']'); | |
if (tptr == NULL) | |
return SCPE_ARG; | |
} | |
} | |
if (*tptr && (*tptr++ != ',')) | |
return SCPE_ARG; | |
reason = exdep_reg_loop (ofile, sim_schrptr, flag, cptr, | |
lowr, highr, (uint32) low, (uint32) high); | |
if ((flag & EX_E) && (!sim_oline) && (sim_log && (ofile == stdout))) | |
exdep_reg_loop (sim_log, sim_schrptr, EX_E, cptr, | |
lowr, highr, (uint32) low, (uint32) high); | |
continue; | |
} | |
if ((ap = getenv (gptr))) { | |
strlcpy (gbuf, ap, sizeof (gbuf)); | |
gptr = gbuf; | |
} | |
tptr = get_range (sim_dfdev, gptr, &low, &high, sim_dfdev->aradix, | |
(((sim_dfunit->capac == 0) || (flag == EX_E))? 0: | |
sim_dfunit->capac - sim_dfdev->aincr), 0); | |
if (tptr == NULL) | |
return (tstat ? tstat : SCPE_ARG); | |
if (*tptr && (*tptr++ != ',')) | |
return SCPE_ARG; | |
reason = exdep_addr_loop (ofile, sim_schaptr, flag, cptr, low, high, | |
sim_dfdev, sim_dfunit); | |
if ((flag & EX_E) && (!sim_oline) && (sim_log && (ofile == stdout))) | |
exdep_addr_loop (sim_log, sim_schaptr, EX_E, cptr, low, high, | |
sim_dfdev, sim_dfunit); | |
} /* end for */ | |
if (sim_ofile) /* close output file */ | |
fclose (sim_ofile); | |
return reason; | |
} | |
/* Loop controllers for examine/deposit | |
exdep_reg_loop examine/deposit range of registers | |
exdep_addr_loop examine/deposit range of addresses | |
*/ | |
t_stat exdep_reg_loop (FILE *ofile, SCHTAB *schptr, int32 flag, CONST char *cptr, | |
REG *lowr, REG *highr, uint32 lows, uint32 highs) | |
{ | |
t_stat reason; | |
uint32 idx, val_start=lows, limits; | |
t_value val, last_val; | |
REG *rptr; | |
int32 saved_switches = sim_switches; | |
if ((lowr == NULL) || (highr == NULL)) | |
return SCPE_IERR; | |
if (lowr > highr) | |
return SCPE_ARG; | |
for (rptr = lowr; rptr <= highr; rptr++) { | |
if ((sim_switches & SIM_SW_HIDE) && | |
(rptr->flags & REG_HIDDEN)) | |
continue; | |
val = last_val = 0; | |
limits = highs; | |
if (highs == 0xFFFFFFFF) | |
limits = (rptr->depth > 1) ? (rptr->depth - 1) : 0; | |
for (idx = lows; idx <= limits; idx++) { | |
if (idx >= rptr->depth) | |
return SCPE_SUB; | |
sim_eval[0] = val = get_rval (rptr, idx); | |
sim_switches = saved_switches; | |
if (schptr && !test_search (sim_eval, schptr)) | |
continue; | |
if (flag == EX_E) { | |
if ((idx > lows) && (val == last_val)) | |
continue; | |
if (idx > val_start+1) { | |
if (idx-1 == val_start+1) { | |
reason = ex_reg (ofile, val, flag, rptr, idx-1); | |
sim_switches = saved_switches; | |
if (reason != SCPE_OK) | |
return reason; | |
} | |
else { | |
if (val_start+1 != idx-1) | |
fprintf (ofile, "%s[%d]-%s[%d]: same as above\n", rptr->name, val_start+1, rptr->name, idx-1); | |
else | |
fprintf (ofile, "%s[%d]: same as above\n", rptr->name, val_start+1); | |
} | |
} | |
sim_last_val = last_val = val; | |
val_start = idx; | |
reason = ex_reg (ofile, val, flag, rptr, idx); | |
sim_switches = saved_switches; | |
if (reason != SCPE_OK) | |
return reason; | |
} | |
if (flag != EX_E) { | |
reason = dep_reg (flag, cptr, rptr, idx); | |
sim_switches = saved_switches; | |
if (reason != SCPE_OK) | |
return reason; | |
} | |
} | |
if ((flag == EX_E) && (val_start != limits)) { | |
if (highs == val_start+1) { | |
reason = ex_reg (ofile, val, flag, rptr, limits); | |
sim_switches = saved_switches; | |
if (reason != SCPE_OK) | |
return reason; | |
} | |
else { | |
if (val_start+1 != limits) | |
fprintf (ofile, "%s[%d]-%s[%d]: same as above\n", rptr->name, val_start+1, rptr->name, limits); | |
else | |
fprintf (ofile, "%s[%d]: same as above\n", rptr->name, val_start+1); | |
} | |
} | |
} | |
return SCPE_OK; | |
} | |
t_stat exdep_addr_loop (FILE *ofile, SCHTAB *schptr, int32 flag, const char *cptr, | |
t_addr low, t_addr high, DEVICE *dptr, UNIT *uptr) | |
{ | |
t_addr i, mask; | |
t_stat reason; | |
int32 saved_switches = sim_switches; | |
if (uptr->flags & UNIT_DIS) /* disabled? */ | |
return SCPE_UDIS; | |
mask = (t_addr) width_mask[dptr->awidth]; | |
if ((low > mask) || (high > mask) || (low > high)) | |
return SCPE_ARG; | |
for (i = low; i <= high; ) { /* all paths must incr!! */ | |
reason = get_aval (i, dptr, uptr); /* get data */ | |
sim_switches = saved_switches; | |
if (reason != SCPE_OK) /* return if error */ | |
return reason; | |
if (schptr && !test_search (sim_eval, schptr)) | |
i = i + dptr->aincr; /* sch fails, incr */ | |
else { /* no sch or success */ | |
if (flag != EX_D) { /* ex, ie, or id? */ | |
reason = ex_addr (ofile, flag, i, dptr, uptr); | |
sim_switches = saved_switches; | |
if (reason > SCPE_OK) | |
return reason; | |
} | |
else | |
reason = 1 - dptr->aincr; /* no, dflt incr */ | |
if (flag != EX_E) { /* ie, id, or d? */ | |
reason = dep_addr (flag, cptr, i, dptr, uptr, reason); | |
sim_switches = saved_switches; | |
if (reason > SCPE_OK) | |
return reason; | |
} | |
i = i + (1 - reason); /* incr */ | |
} | |
} | |
return SCPE_OK; | |
} | |
/* Examine register routine | |
Inputs: | |
ofile = output stream | |
val = current register value | |
flag = type of ex/mod command (ex, iex, idep) | |
rptr = pointer to register descriptor | |
idx = index | |
Outputs: | |
return = error status | |
*/ | |
t_stat ex_reg (FILE *ofile, t_value val, int32 flag, REG *rptr, uint32 idx) | |
{ | |
int32 rdx; | |
if (rptr == NULL) | |
return SCPE_IERR; | |
if (rptr->depth > 1) | |
fprintf (ofile, "%s[%d]:\t", rptr->name, idx); | |
else | |
fprintf (ofile, "%s:\t", rptr->name); | |
if (!(flag & EX_E)) | |
return SCPE_OK; | |
sim_eval[0] = val; | |
GET_RADIX (rdx, rptr->radix); | |
if ((rptr->flags & REG_VMAD) && sim_vm_fprint_addr) | |
sim_vm_fprint_addr (ofile, sim_dflt_dev, (t_addr) val); | |
else if (!(rptr->flags & REG_VMFLAGS) || | |
(fprint_sym (ofile, (rptr->flags & REG_UFMASK) | rdx, sim_eval, | |
NULL, sim_switches | SIM_SW_REG) > 0)) { | |
fprint_val (ofile, val, rdx, rptr->width, rptr->flags & REG_FMT); | |
if (rptr->fields) { | |
fprintf (ofile, "\t"); | |
fprint_fields (ofile, val, val, rptr->fields); | |
} | |
} | |
if (flag & EX_I) | |
fprintf (ofile, "\t"); | |
else | |
fprintf (ofile, "\n"); | |
return SCPE_OK; | |
} | |
/* Get register value | |
Inputs: | |
rptr = pointer to register descriptor | |
idx = index | |
Outputs: | |
return = register value | |
*/ | |
t_value get_rval (REG *rptr, uint32 idx) | |
{ | |
size_t sz; | |
t_value val; | |
uint32 *ptr; | |
sz = SZ_R (rptr); | |
if ((rptr->depth > 1) && (rptr->flags & REG_CIRC)) { | |
idx = idx + rptr->qptr; | |
if (idx >= rptr->depth) idx = idx - rptr->depth; | |
} | |
if ((rptr->depth > 1) && (rptr->flags & REG_UNIT)) { | |
ptr = (uint32 *)(((UNIT *) rptr->loc) + idx); | |
#if defined (USE_INT64) | |
if (sz <= sizeof (uint32)) | |
val = *ptr; | |
else val = *((t_uint64 *) ptr); | |
#else | |
val = *ptr; | |
#endif | |
} | |
else if ((rptr->depth > 1) && (rptr->flags & REG_STRUCT)) { | |
ptr = (uint32 *)(((size_t) rptr->loc) + (idx * rptr->str_size)); | |
#if defined (USE_INT64) | |
if (sz <= sizeof (uint32)) | |
val = *ptr; | |
else val = *((t_uint64 *) ptr); | |
#else | |
val = *ptr; | |
#endif | |
} | |
else if (((rptr->depth > 1) || (rptr->flags & REG_FIT)) && | |
(sz == sizeof (uint8))) | |
val = *(((uint8 *) rptr->loc) + idx); | |
else if (((rptr->depth > 1) || (rptr->flags & REG_FIT)) && | |
(sz == sizeof (uint16))) | |
val = *(((uint16 *) rptr->loc) + idx); | |
#if defined (USE_INT64) | |
else if (sz <= sizeof (uint32)) | |
val = *(((uint32 *) rptr->loc) + idx); | |
else val = *(((t_uint64 *) rptr->loc) + idx); | |
#else | |
else val = *(((uint32 *) rptr->loc) + idx); | |
#endif | |
val = (val >> rptr->offset) & width_mask[rptr->width]; | |
return val; | |
} | |
/* Deposit register routine | |
Inputs: | |
flag = type of deposit (normal/interactive) | |
cptr = pointer to input string | |
rptr = pointer to register descriptor | |
idx = index | |
Outputs: | |
return = error status | |
*/ | |
t_stat dep_reg (int32 flag, CONST char *cptr, REG *rptr, uint32 idx) | |
{ | |
t_stat r; | |
t_value val, mask; | |
int32 rdx; | |
CONST char *tptr; | |
char gbuf[CBUFSIZE]; | |
if ((cptr == NULL) || (rptr == NULL)) | |
return SCPE_IERR; | |
if (rptr->flags & REG_RO) | |
return SCPE_RO; | |
if (flag & EX_I) { | |
cptr = read_line (gbuf, sizeof(gbuf), stdin); | |
if (sim_log) | |
fprintf (sim_log, "%s\n", cptr? cptr: ""); | |
if (cptr == NULL) /* force exit */ | |
return 1; | |
if (*cptr == 0) /* success */ | |
return SCPE_OK; | |
} | |
mask = width_mask[rptr->width]; | |
GET_RADIX (rdx, rptr->radix); | |
if ((rptr->flags & REG_VMAD) && sim_vm_parse_addr) { /* address form? */ | |
val = sim_vm_parse_addr (sim_dflt_dev, cptr, &tptr); | |
if ((tptr == cptr) || (*tptr != 0) || (val > mask)) | |
return SCPE_ARG; | |
} | |
else | |
if (!(rptr->flags & REG_VMFLAGS) || /* dont use sym? */ | |
(parse_sym ((CONST char *)cptr, (rptr->flags & REG_UFMASK) | rdx, NULL, | |
&val, sim_switches | SIM_SW_REG) > SCPE_OK)) { | |
val = get_uint (cptr, rdx, mask, &r); | |
if (r != SCPE_OK) | |
return SCPE_ARG; | |
} | |
if ((rptr->flags & REG_NZ) && (val == 0)) | |
return SCPE_ARG; | |
put_rval (rptr, idx, val); | |
return SCPE_OK; | |
} | |
/* Put register value | |
Inputs: | |
rptr = pointer to register descriptor | |
idx = index | |
val = new value | |
mask = mask | |
Outputs: | |
none | |
*/ | |
void put_rval (REG *rptr, uint32 idx, t_value val) | |
{ | |
size_t sz; | |
t_value mask; | |
uint32 *ptr; | |
#define PUT_RVAL(sz,rp,id,v,m) \ | |
*(((sz *) rp->loc) + id) = \ | |
(sz)((*(((sz *) rp->loc) + id) & \ | |
~((m) << (rp)->offset)) | ((v) << (rp)->offset)) | |
if (rptr == sim_PC) | |
sim_brk_npc (0); | |
sz = SZ_R (rptr); | |
mask = width_mask[rptr->width]; | |
if ((rptr->depth > 1) && (rptr->flags & REG_CIRC)) { | |
idx = idx + rptr->qptr; | |
if (idx >= rptr->depth) | |
idx = idx - rptr->depth; | |
} | |
if ((rptr->depth > 1) && (rptr->flags & REG_UNIT)) { | |
ptr = (uint32 *)(((UNIT *) rptr->loc) + idx); | |
#if defined (USE_INT64) | |
if (sz <= sizeof (uint32)) | |
*ptr = (*ptr & | |
~(((uint32) mask) << rptr->offset)) | | |
(((uint32) val) << rptr->offset); | |
else *((t_uint64 *) ptr) = (*((t_uint64 *) ptr) | |
& ~(mask << rptr->offset)) | (val << rptr->offset); | |
#else | |
*ptr = (*ptr & | |
~(((uint32) mask) << rptr->offset)) | | |
(((uint32) val) << rptr->offset); | |
#endif | |
} | |
else if ((rptr->depth > 1) && (rptr->flags & REG_STRUCT)) { | |
ptr = (uint32 *)(((size_t) rptr->loc) + (idx * rptr->str_size)); | |
#if defined (USE_INT64) | |
if (sz <= sizeof (uint32)) | |
*((uint32 *) ptr) = (*((uint32 *) ptr) & | |
~(((uint32) mask) << rptr->offset)) | | |
(((uint32) val) << rptr->offset); | |
else *((t_uint64 *) ptr) = (*((t_uint64 *) ptr) | |
& ~(mask << rptr->offset)) | (val << rptr->offset); | |
#else | |
*ptr = (*ptr & | |
~(((uint32) mask) << rptr->offset)) | | |
(((uint32) val) << rptr->offset); | |
#endif | |
} | |
else if (((rptr->depth > 1) || (rptr->flags & REG_FIT)) && | |
(sz == sizeof (uint8))) | |
PUT_RVAL (uint8, rptr, idx, (uint32) val, (uint32) mask); | |
else if (((rptr->depth > 1) || (rptr->flags & REG_FIT)) && | |
(sz == sizeof (uint16))) | |
PUT_RVAL (uint16, rptr, idx, (uint32) val, (uint32) mask); | |
#if defined (USE_INT64) | |
else if (sz <= sizeof (uint32)) | |
PUT_RVAL (uint32, rptr, idx, (int32) val, (uint32) mask); | |
else PUT_RVAL (t_uint64, rptr, idx, val, mask); | |
#else | |
else PUT_RVAL (uint32, rptr, idx, val, mask); | |
#endif | |
} | |
/* Examine address routine | |
Inputs: (sim_eval is an implicit argument) | |
ofile = output stream | |
flag = type of ex/mod command (ex, iex, idep) | |
addr = address to examine | |
dptr = pointer to device | |
uptr = pointer to unit | |
Outputs: | |
return = if > 0, error status | |
if <= 0,-number of extra addr units retired | |
*/ | |
t_stat ex_addr (FILE *ofile, int32 flag, t_addr addr, DEVICE *dptr, UNIT *uptr) | |
{ | |
t_stat reason; | |
int32 rdx; | |
if (sim_vm_fprint_addr) | |
sim_vm_fprint_addr (ofile, dptr, addr); | |
else fprint_val (ofile, addr, dptr->aradix, dptr->awidth, PV_LEFT); | |
fprintf (ofile, ":\t"); | |
if (!(flag & EX_E)) | |
return (1 - dptr->aincr); | |
GET_RADIX (rdx, dptr->dradix); | |
if ((reason = fprint_sym (ofile, addr, sim_eval, uptr, sim_switches)) > 0) { | |
fprint_val (ofile, sim_eval[0], rdx, dptr->dwidth, PV_RZRO); | |
reason = 1 - dptr->aincr; | |
} | |
if (flag & EX_I) | |
fprintf (ofile, "\t"); | |
else | |
fprintf (ofile, "\n"); | |
return reason; | |
} | |
/* Get address routine | |
Inputs: | |
flag = type of ex/mod command (ex, iex, idep) | |
addr = address to examine | |
dptr = pointer to device | |
uptr = pointer to unit | |
Outputs: (sim_eval is an implicit output) | |
return = error status | |
*/ | |
t_stat get_aval (t_addr addr, DEVICE *dptr, UNIT *uptr) | |
{ | |
int32 i; | |
t_value mask; | |
t_addr j, loc; | |
size_t sz; | |
t_stat reason = SCPE_OK; | |
if ((dptr == NULL) || (uptr == NULL)) | |
return SCPE_IERR; | |
mask = width_mask[dptr->dwidth]; | |
for (i = 0; i < sim_emax; i++) | |
sim_eval[i] = 0; | |
for (i = 0, j = addr; i < sim_emax; i++, j = j + dptr->aincr) { | |
if (dptr->examine != NULL) { | |
reason = dptr->examine (&sim_eval[i], j, uptr, sim_switches); | |
if (reason != SCPE_OK) | |
break; | |
} | |
else { | |
if (!(uptr->flags & UNIT_ATT)) | |
return SCPE_UNATT; | |
if ((uptr->dynflags & UNIT_NO_FIO) || | |
(uptr->fileref == NULL)) | |
return SCPE_NOFNC; | |
if ((uptr->flags & UNIT_FIX) && (j >= uptr->capac)) { | |
reason = SCPE_NXM; | |
break; | |
} | |
sz = SZ_D (dptr); | |
loc = j / dptr->aincr; | |
if (uptr->flags & UNIT_BUF) { | |
SZ_LOAD (sz, sim_eval[i], uptr->filebuf, loc); | |
} | |
else { | |
if (sim_fseek (uptr->fileref, (t_addr)(sz * loc), SEEK_SET)) { | |
clearerr (uptr->fileref); | |
reason = SCPE_IOERR; | |
break; | |
} | |
sim_fread (&sim_eval[i], sz, 1, uptr->fileref); | |
if ((feof (uptr->fileref)) && | |
!(uptr->flags & UNIT_FIX)) { | |
reason = SCPE_EOF; | |
break; | |
} | |
else if (ferror (uptr->fileref)) { | |
clearerr (uptr->fileref); | |
reason = SCPE_IOERR; | |
break; | |
} | |
} | |
} | |
sim_last_val = sim_eval[i] = sim_eval[i] & mask; | |
} | |
if ((reason != SCPE_OK) && (i == 0)) | |
return reason; | |
return SCPE_OK; | |
} | |
/* Deposit address routine | |
Inputs: | |
flag = type of deposit (normal/interactive) | |
cptr = pointer to input string | |
addr = address to examine | |
dptr = pointer to device | |
uptr = pointer to unit | |
dfltinc = value to return on cr input | |
Outputs: | |
return = if > 0, error status | |
if <= 0, -number of extra address units retired | |
*/ | |
t_stat dep_addr (int32 flag, const char *cptr, t_addr addr, DEVICE *dptr, | |
UNIT *uptr, int32 dfltinc) | |
{ | |
int32 i, count, rdx; | |
t_addr j, loc; | |
t_stat r, reason; | |
t_value mask; | |
size_t sz; | |
char gbuf[CBUFSIZE]; | |
if (dptr == NULL) | |
return SCPE_IERR; | |
if (flag & EX_I) { | |
cptr = read_line (gbuf, sizeof(gbuf), stdin); | |
if (sim_log) | |
fprintf (sim_log, "%s\n", cptr? cptr: ""); | |
if (cptr == NULL) /* force exit */ | |
return 1; | |
if (*cptr == 0) /* success */ | |
return dfltinc; | |
} | |
if (uptr->flags & UNIT_RO) /* read only? */ | |
return SCPE_RO; | |
mask = width_mask[dptr->dwidth]; | |
GET_RADIX (rdx, dptr->dradix); | |
if ((reason = parse_sym ((CONST char *)cptr, addr, uptr, sim_eval, sim_switches)) > 0) { | |
sim_eval[0] = get_uint (cptr, rdx, mask, &reason); | |
if (reason != SCPE_OK) | |
return reason; | |
reason = dfltinc; | |
} | |
count = (1 - reason + (dptr->aincr - 1)) / dptr->aincr; | |
for (i = 0, j = addr; i < count; i++, j = j + dptr->aincr) { | |
sim_eval[i] = sim_eval[i] & mask; | |
if (dptr->deposit != NULL) { | |
r = dptr->deposit (sim_eval[i], j, uptr, sim_switches); | |
if (r != SCPE_OK) | |
return r; | |
} | |
else { | |
if (!(uptr->flags & UNIT_ATT)) | |
return SCPE_UNATT; | |
if (uptr->dynflags & UNIT_NO_FIO) | |
return SCPE_NOFNC; | |
if ((uptr->flags & UNIT_FIX) && (j >= uptr->capac)) | |
return SCPE_NXM; | |
sz = SZ_D (dptr); | |
loc = j / dptr->aincr; | |
if (uptr->flags & UNIT_BUF) { | |
SZ_STORE (sz, sim_eval[i], uptr->filebuf, loc); | |
if (loc >= uptr->hwmark) | |
uptr->hwmark = (uint32) loc + 1; | |
} | |
else { | |
if (sim_fseek (uptr->fileref, (t_addr)(sz * loc), SEEK_SET)) { | |
clearerr (uptr->fileref); | |
return SCPE_IOERR; | |
} | |
sim_fwrite (&sim_eval[i], sz, 1, uptr->fileref); | |
if (ferror (uptr->fileref)) { | |
clearerr (uptr->fileref); | |
return SCPE_IOERR; | |
} | |
} | |
} | |
} | |
return reason; | |
} | |
/* Evaluate command */ | |
t_stat eval_cmd (int32 flg, CONST char *cptr) | |
{ | |
DEVICE *dptr = sim_dflt_dev; | |
int32 i, rdx, a, lim; | |
t_stat r; | |
GET_SWITCHES (cptr); | |
GET_RADIX (rdx, dptr->dradix); | |
for (i = 0; i < sim_emax; i++) | |
sim_eval[i] = 0; | |
if (*cptr == 0) | |
return SCPE_2FARG; | |
if ((r = parse_sym ((CONST char *)cptr, 0, dptr->units, sim_eval, sim_switches)) > 0) { | |
sim_eval[0] = get_uint (cptr, rdx, width_mask[dptr->dwidth], &r); | |
if (r != SCPE_OK) | |
return sim_messagef (r, "%s\nCan't be parsed as an instruction or data\n", cptr); | |
} | |
lim = 1 - r; | |
for (i = a = 0; a < lim; ) { | |
sim_printf ("%d:\t", a); | |
if ((r = fprint_sym (stdout, a, &sim_eval[i], dptr->units, sim_switches)) > 0) | |
r = fprint_val (stdout, sim_eval[i], rdx, dptr->dwidth, PV_RZRO); | |
if (sim_log) { | |
if ((r = fprint_sym (sim_log, a, &sim_eval[i], dptr->units, sim_switches)) > 0) | |
r = fprint_val (sim_log, sim_eval[i], rdx, dptr->dwidth, PV_RZRO); | |
} | |
sim_printf ("\n"); | |
if (r < 0) | |
a = a + 1 - r; | |
else a = a + dptr->aincr; | |
i = a / dptr->aincr; | |
} | |
return SCPE_OK; | |
} | |
/* String processing routines | |
read_line read line | |
Inputs: | |
cptr = pointer to buffer | |
size = maximum size | |
stream = pointer to input stream | |
Outputs: | |
optr = pointer to first non-blank character | |
NULL if EOF | |
*/ | |
char *read_line (char *cptr, int32 size, FILE *stream) | |
{ | |
return read_line_p (NULL, cptr, size, stream); | |
} | |
/* read_line_p read line with prompt | |
Inputs: | |
prompt = pointer to prompt string | |
cptr = pointer to buffer | |
size = maximum size | |
stream = pointer to input stream | |
Outputs: | |
optr = pointer to first non-blank character | |
NULL if EOF | |
*/ | |
char *read_line_p (const char *prompt, char *cptr, int32 size, FILE *stream) | |
{ | |
char *tptr; | |
#if defined(HAVE_DLOPEN) | |
static int initialized = 0; | |
typedef char *(*readline_func)(const char *); | |
static readline_func p_readline = NULL; | |
typedef void (*add_history_func)(const char *); | |
static add_history_func p_add_history = NULL; | |
if (prompt && (!initialized)) { | |
initialized = 1; | |
void *handle; | |
#define S__STR_QUOTE(tok) #tok | |
#define S__STR(tok) S__STR_QUOTE(tok) | |
handle = dlopen("libncurses." S__STR(HAVE_DLOPEN), RTLD_NOW|RTLD_GLOBAL); | |
handle = dlopen("libcurses." S__STR(HAVE_DLOPEN), RTLD_NOW|RTLD_GLOBAL); | |
handle = dlopen("libreadline." S__STR(HAVE_DLOPEN), RTLD_NOW|RTLD_GLOBAL); | |
if (!handle) | |
handle = dlopen("libreadline." S__STR(HAVE_DLOPEN) ".7", RTLD_NOW|RTLD_GLOBAL); | |
if (!handle) | |
handle = dlopen("libreadline." S__STR(HAVE_DLOPEN) ".6", RTLD_NOW|RTLD_GLOBAL); | |
if (!handle) | |
handle = dlopen("libreadline." S__STR(HAVE_DLOPEN) ".5", RTLD_NOW|RTLD_GLOBAL); | |
if (handle) { | |
p_readline = (readline_func)((size_t)dlsym(handle, "readline")); | |
p_add_history = (add_history_func)((size_t)dlsym(handle, "add_history")); | |
} | |
} | |
if (prompt) { /* interactive? */ | |
if (p_readline) { | |
char *tmpc = p_readline (prompt); /* get cmd line */ | |
if (tmpc == NULL) /* bad result? */ | |
cptr = NULL; | |
else { | |
strlcpy (cptr, tmpc, size); /* copy result */ | |
free (tmpc) ; /* free temp */ | |
} | |
} | |
else { | |
printf ("%s", prompt); /* display prompt */ | |
cptr = fgets (cptr, size, stream); /* get cmd line */ | |
} | |
} | |
else cptr = fgets (cptr, size, stream); /* get cmd line */ | |
#else | |
if (prompt) /* interactive? */ | |
printf ("%s", prompt); /* display prompt */ | |
cptr = fgets (cptr, size, stream); /* get cmd line */ | |
#endif | |
if (cptr == NULL) { | |
clearerr (stream); /* clear error */ | |
return NULL; /* ignore EOF */ | |
} | |
for (tptr = cptr; tptr < (cptr + size); tptr++) { /* remove cr or nl */ | |
if ((*tptr == '\n') || (*tptr == '\r') || | |
(tptr == (cptr + size - 1))) { /* str max length? */ | |
*tptr = 0; /* terminate */ | |
break; | |
} | |
} | |
if (0 == memcmp (cptr, "\xEF\xBB\xBF", 3)) /* Skip/ignore UTF8_BOM */ | |
memmove (cptr, cptr + 3, strlen (cptr + 3)); | |
while (sim_isspace (*cptr)) /* trim leading spc */ | |
cptr++; | |
sim_trim_endspc (cptr); /* trim trailing spc */ | |
if ((*cptr == ';') || (*cptr == '#')) { /* ignore comment */ | |
if (sim_do_echo) /* echo comments if -v */ | |
sim_printf("%s> %s\n", do_position(), cptr); | |
*cptr = 0; | |
} | |
#if defined (HAVE_DLOPEN) | |
if (prompt && p_add_history && *cptr) /* Save non blank lines in history */ | |
p_add_history (cptr); | |
#endif | |
return cptr; | |
} | |
/* get_glyph get next glyph (force upper case) | |
get_glyph_nc get next glyph (no conversion) | |
get_glyph_quoted get next glyph (potentially enclosed in quotes, no conversion) | |
get_glyph_cmd get command glyph (force upper case, extract leading !) | |
get_glyph_gen get next glyph (general case) | |
Inputs: | |
iptr = pointer to input string | |
optr = pointer to output string | |
mchar = optional end of glyph character | |
uc = TRUE for convert to upper case (_gen only) | |
quote = TRUE to allow quote enclosing values (_gen only) | |
escape_char = optional escape character within quoted strings (_gen only) | |
Outputs | |
result = pointer to next character in input string | |
*/ | |
static const char *get_glyph_gen (const char *iptr, char *optr, char mchar, t_bool uc, t_bool quote, char escape_char) | |
{ | |
t_bool quoting = FALSE; | |
t_bool escaping = FALSE; | |
t_bool got_quoted = FALSE; | |
char quote_char = 0; | |
while ((*iptr != 0) && (!got_quoted) && | |
((quote && quoting) || ((sim_isspace (*iptr) == 0) && (*iptr != mchar)))) { | |
if (quote) { | |
if (quoting) { | |
if (!escaping) { | |
if (*iptr == escape_char) | |
escaping = TRUE; | |
else | |
if (*iptr == quote_char) { | |
quoting = FALSE; | |
got_quoted = TRUE; | |
} | |
} | |
else | |
escaping = FALSE; | |
} | |
else { | |
if ((*iptr == '"') || (*iptr == '\'')) { | |
quoting = TRUE; | |
quote_char = *iptr; | |
} | |
} | |
} | |
if (sim_islower (*iptr) && uc) | |
*optr = (char)sim_toupper (*iptr); | |
else *optr = *iptr; | |
iptr++; optr++; | |
} | |
*optr = 0; | |
if (mchar && (*iptr == mchar)) /* skip terminator */ | |
iptr++; | |
while (sim_isspace (*iptr)) /* absorb spaces */ | |
iptr++; | |
return iptr; | |
} | |
CONST char *get_glyph (const char *iptr, char *optr, char mchar) | |
{ | |
return (CONST char *)get_glyph_gen (iptr, optr, mchar, TRUE, FALSE, 0); | |
} | |
CONST char *get_glyph_nc (const char *iptr, char *optr, char mchar) | |
{ | |
return (CONST char *)get_glyph_gen (iptr, optr, mchar, FALSE, FALSE, 0); | |
} | |
CONST char *get_glyph_quoted (const char *iptr, char *optr, char mchar) | |
{ | |
return (CONST char *)get_glyph_gen (iptr, optr, mchar, FALSE, TRUE, '\\'); | |
} | |
CONST char *get_glyph_cmd (const char *iptr, char *optr) | |
{ | |
/* Tolerate "!subprocess" vs. requiring "! subprocess" */ | |
if ((iptr[0] == '!') && (!sim_isspace(iptr[1]))) { | |
strcpy (optr, "!"); /* return ! as command glyph */ | |
return (CONST char *)(iptr + 1); /* and skip over the leading ! */ | |
} | |
return (CONST char *)get_glyph_gen (iptr, optr, 0, TRUE, FALSE, 0); | |
} | |
/* Trim trailing spaces from a string | |
Inputs: | |
cptr = pointer to string | |
Outputs: | |
cptr = pointer to string | |
*/ | |
char *sim_trim_endspc (char *cptr) | |
{ | |
char *tptr; | |
tptr = cptr + strlen (cptr); | |
while ((--tptr >= cptr) && sim_isspace (*tptr)) | |
*tptr = 0; | |
return cptr; | |
} | |
int sim_isspace (int c) | |
{ | |
return ((c < 0) || (c >= 128)) ? 0 : isspace (c); | |
} | |
int sim_islower (int c) | |
{ | |
return (c >= 'a') && (c <= 'z'); | |
} | |
int sim_isupper (int c) | |
{ | |
return (c >= 'A') && (c <= 'Z'); | |
} | |
int sim_toupper (int c) | |
{ | |
return ((c >= 'a') && (c <= 'z')) ? ((c - 'a') + 'A') : c; | |
} | |
int sim_tolower (int c) | |
{ | |
return ((c >= 'A') && (c <= 'Z')) ? ((c - 'A') + 'a') : c; | |
} | |
int sim_isalpha (int c) | |
{ | |
return ((c < 0) || (c >= 128)) ? 0 : isalpha (c); | |
} | |
int sim_isprint (int c) | |
{ | |
return ((c < 0) || (c >= 128)) ? 0 : isprint (c); | |
} | |
int sim_isdigit (int c) | |
{ | |
return ((c < 0) || (c >= 128)) ? 0 : isdigit (c); | |
} | |
int sim_isgraph (int c) | |
{ | |
return ((c < 0) || (c >= 128)) ? 0 : isgraph (c); | |
} | |
int sim_isalnum (int c) | |
{ | |
return ((c < 0) || (c >= 128)) ? 0 : isalnum (c); | |
} | |
/* strncasecmp() is not available on all platforms */ | |
int sim_strncasecmp (const char* string1, const char* string2, size_t len) | |
{ | |
size_t i; | |
unsigned char s1, s2; | |
for (i=0; i<len; i++) { | |
s1 = (unsigned char)string1[i]; | |
s2 = (unsigned char)string2[i]; | |
s1 = (unsigned char)sim_toupper (s1); | |
s2 = (unsigned char)sim_toupper (s2); | |
if (s1 < s2) | |
return -1; | |
if (s1 > s2) | |
return 1; | |
if (s1 == 0) | |
return 0; | |
} | |
return 0; | |
} | |
/* strcasecmp() is not available on all platforms */ | |
int sim_strcasecmp (const char *string1, const char *string2) | |
{ | |
size_t i = 0; | |
unsigned char s1, s2; | |
while (1) { | |
s1 = (unsigned char)string1[i]; | |
s2 = (unsigned char)string2[i]; | |
s1 = (unsigned char)sim_toupper (s1); | |
s2 = (unsigned char)sim_toupper (s2); | |
if (s1 == s2) { | |
if (s1 == 0) | |
return 0; | |
i++; | |
continue; | |
} | |
if (s1 < s2) | |
return -1; | |
if (s1 > s2) | |
return 1; | |
} | |
return 0; | |
} | |
/* strlcat() and strlcpy() are not available on all platforms */ | |
/* Copyright (c) 1998 Todd C. Miller <Todd.Miller@courtesan.com> */ | |
/* | |
* Appends src to string dst of size siz (unlike strncat, siz is the | |
* full size of dst, not space left). At most siz-1 characters | |
* will be copied. Always NUL terminates (unless siz <= strlen(dst)). | |
* Returns strlen(src) + MIN(siz, strlen(initial dst)). | |
* If retval >= siz, truncation occurred. | |
*/ | |
size_t sim_strlcat(char *dst, const char *src, size_t size) | |
{ | |
char *d = dst; | |
const char *s = src; | |
size_t n = size; | |
size_t dlen; | |
/* Find the end of dst and adjust bytes left but don't go past end */ | |
while (n-- != 0 && *d != '\0') | |
d++; | |
dlen = d - dst; | |
n = size - dlen; | |
if (n == 0) | |
return (dlen + strlen(s)); | |
while (*s != '\0') { | |
if (n != 1) { | |
*d++ = *s; | |
n--; | |
} | |
s++; | |
} | |
*d = '\0'; | |
return (dlen + (s - src)); /* count does not include NUL */ | |
} | |
/* | |
* Copy src to string dst of size siz. At most siz-1 characters | |
* will be copied. Always NUL terminates (unless siz == 0). | |
* Returns strlen(src); if retval >= siz, truncation occurred. | |
*/ | |
size_t sim_strlcpy (char *dst, const char *src, size_t size) | |
{ | |
char *d = dst; | |
const char *s = src; | |
size_t n = size; | |
/* Copy as many bytes as will fit */ | |
if (n != 0) { | |
while (--n != 0) { | |
if ((*d++ = *s++) == '\0') | |
break; | |
} | |
} | |
/* Not enough room in dst, add NUL and traverse rest of src */ | |
if (n == 0) { | |
if (size != 0) | |
*d = '\0'; /* NUL-terminate dst */ | |
while (*s++) | |
; | |
} | |
return (s - src - 1); /* count does not include NUL */ | |
} | |
/* get_yn yes/no question | |
Inputs: | |
ques = pointer to question | |
deflt = default answer | |
Outputs: | |
result = true if yes, false if no | |
*/ | |
t_stat get_yn (const char *ques, t_stat deflt) | |
{ | |
char cbuf[CBUFSIZE]; | |
const char *cptr; | |
if (sim_switches & SWMASK ('Y')) | |
return TRUE; | |
if (sim_switches & SWMASK ('N')) | |
return FALSE; | |
if (sim_rem_cmd_active_line != -1) | |
return deflt; | |
cptr = read_line_p (ques, cbuf, sizeof(cbuf), stdin); | |
if ((cptr == NULL) || (*cptr == 0)) | |
return deflt; | |
if ((*cptr == 'Y') || (*cptr == 'y')) | |
return TRUE; | |
return FALSE; | |
} | |
/* get_uint unsigned number | |
Inputs: | |
cptr = pointer to input string | |
radix = input radix | |
max = maximum acceptable value | |
*status = pointer to error status | |
Outputs: | |
val = value | |
*/ | |
t_value get_uint (const char *cptr, uint32 radix, t_value max, t_stat *status) | |
{ | |
t_value val; | |
CONST char *tptr; | |
*status = SCPE_OK; | |
val = strtotv ((CONST char *)cptr, &tptr, radix); | |
if ((cptr == tptr) || (val > max)) | |
*status = SCPE_ARG; | |
else { | |
while (sim_isspace (*tptr)) tptr++; | |
if (*tptr != 0) | |
*status = SCPE_ARG; | |
} | |
return val; | |
} | |
/* get_range range specification | |
Inputs: | |
dptr = pointer to device (NULL if none) | |
cptr = pointer to input string | |
*lo = pointer to low result | |
*hi = pointer to high result | |
aradix = radix | |
max = default high value | |
term = terminating character, 0 if none | |
Outputs: | |
tptr = input pointer after processing | |
NULL if error | |
*/ | |
CONST char *get_range (DEVICE *dptr, CONST char *cptr, t_addr *lo, t_addr *hi, | |
uint32 rdx, t_addr max, char term) | |
{ | |
CONST char *tptr; | |
if (max && strncmp (cptr, "ALL", strlen ("ALL")) == 0) { /* ALL? */ | |
tptr = cptr + strlen ("ALL"); | |
*lo = 0; | |
*hi = max; | |
} | |
else { | |
if ((strncmp (cptr, ".", strlen (".")) == 0) && /* .? */ | |
((cptr[1] == '\0') || | |
(cptr[1] == '-') || | |
(cptr[1] == ':') || | |
(cptr[1] == '/'))) { | |
tptr = cptr + strlen ("."); | |
*lo = *hi = sim_last_addr; | |
} | |
else { | |
if (strncmp (cptr, "$", strlen ("$")) == 0) { /* $? */ | |
tptr = cptr + strlen ("$"); | |
*hi = *lo = (t_addr)sim_last_val; | |
} | |
else { | |
if (dptr && sim_vm_parse_addr) /* get low */ | |
*lo = sim_vm_parse_addr (dptr, cptr, &tptr); | |
else | |
*lo = (t_addr) strtotv (cptr, &tptr, rdx); | |
if (cptr == tptr) /* error? */ | |
return NULL; | |
} | |
} | |
if ((*tptr == '-') || (*tptr == ':')) { /* range? */ | |
cptr = tptr + 1; | |
if (dptr && sim_vm_parse_addr) /* get high */ | |
*hi = sim_vm_parse_addr (dptr, cptr, &tptr); | |
else *hi = (t_addr) strtotv (cptr, &tptr, rdx); | |
if (cptr == tptr) | |
return NULL; | |
if (*lo > *hi) | |
return NULL; | |
} | |
else if (*tptr == '/') { /* relative? */ | |
cptr = tptr + 1; | |
*hi = (t_addr) strtotv (cptr, &tptr, rdx); /* get high */ | |
if ((cptr == tptr) || (*hi == 0)) | |
return NULL; | |
*hi = *lo + *hi - 1; | |
} | |
else *hi = *lo; | |
} | |
sim_last_addr = *hi; | |
if (term && (*tptr++ != term)) | |
return NULL; | |
return tptr; | |
} | |
/* sim_decode_quoted_string | |
Inputs: | |
iptr = pointer to input string | |
optr = pointer to output buffer | |
the output buffer must be allocated by the caller | |
and to avoid overrunat it must be at least as big | |
as the input string. | |
Outputs | |
result = status of decode SCPE_OK when good, SCPE_ARG otherwise | |
osize = size of the data in the optr buffer | |
The input string must be quoted. Quotes may be either single or | |
double but the opening anc closing quote characters must match. | |
Within quotes C style character escapes are allowed. | |
The following character escapes are explicitly supported: | |
\r ASCII Carriage Return character (Decimal value 13) | |
\n ASCII Linefeed character (Decimal value 10) | |
\f ASCII Formfeed character (Decimal value 12) | |
\t ASCII Horizontal Tab character (Decimal value 9) | |
\v ASCII Vertical Tab character (Decimal value 11) | |
\b ASCII Backspace character (Decimal value 8) | |
\\ ASCII Backslash character (Decimal value 92) | |
\' ASCII Single Quote character (Decimal value 39) | |
\" ASCII Double Quote character (Decimal value 34) | |
\? ASCII Question Mark character (Decimal value 63) | |
\e ASCII Escape character (Decimal value 27) | |
as well as octal character values of the form: | |
\n{n{n}} where each n is an octal digit (0-7) | |
and hext character values of the form: | |
\xh{h} where each h is a hex digit (0-9A-Fa-f) | |
*/ | |
t_stat sim_decode_quoted_string (const char *iptr, uint8 *optr, uint32 *osize) | |
{ | |
char quote_char; | |
uint8 *ostart = optr; | |
*osize = 0; | |
if ((strlen(iptr) == 1) || | |
(iptr[0] != iptr[strlen(iptr)-1]) || | |
((iptr[strlen(iptr)-1] != '"') && (iptr[strlen(iptr)-1] != '\''))) | |
return SCPE_ARG; /* String must be quote delimited */ | |
quote_char = *iptr++; /* Save quote character */ | |
while (iptr[1]) { /* Skip trailing quote */ | |
if (*iptr != '\\') { | |
if (*iptr == quote_char) | |
return SCPE_ARG; /* Imbedded quotes must be escaped */ | |
*(optr++) = (uint8)(*(iptr++)); | |
continue; | |
} | |
++iptr; /* Skip backslash */ | |
switch (*iptr) { | |
case 'r': /* ASCII Carriage Return character (Decimal value 13) */ | |
*(optr++) = 13; ++iptr; | |
break; | |
case 'n': /* ASCII Linefeed character (Decimal value 10) */ | |
*(optr++) = 10; ++iptr; | |
break; | |
case 'f': /* ASCII Formfeed character (Decimal value 12) */ | |
*(optr++) = 12; ++iptr; | |
break; | |
case 't': /* ASCII Horizontal Tab character (Decimal value 9) */ | |
*(optr++) = 9; ++iptr; | |
break; | |
case 'v': /* ASCII Vertical Tab character (Decimal value 11) */ | |
*(optr++) = 11; ++iptr; | |
break; | |
case 'b': /* ASCII Backspace character (Decimal value 8) */ | |
*(optr++) = 8; ++iptr; | |
break; | |
case '\\': /* ASCII Backslash character (Decimal value 92) */ | |
*(optr++) = 92; ++iptr; | |
break; | |
case 'e': /* ASCII Escape character (Decimal value 27) */ | |
*(optr++) = 27; ++iptr; | |
break; | |
case '\'': /* ASCII Single Quote character (Decimal value 39) */ | |
*(optr++) = 39; ++iptr; | |
break; | |
case '"': /* ASCII Double Quote character (Decimal value 34) */ | |
*(optr++) = 34; ++iptr; | |
break; | |
case '?': /* ASCII Question Mark character (Decimal value 63) */ | |
*(optr++) = 63; ++iptr; | |
break; | |
case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': | |
*optr = *(iptr++) - '0'; | |
if ((*iptr >= '0') && (*iptr <= '7')) | |
*optr = ((*optr)<<3) + (*(iptr++) - '0'); | |
if ((*iptr >= '0') && (*iptr <= '7')) | |
*optr = ((*optr)<<3) + (*(iptr++) - '0'); | |
++optr; | |
break; | |
case 'x': | |
if (1) { | |
static const char *hex_digits = "0123456789ABCDEF"; | |
const char *c; | |
++iptr; | |
*optr = 0; | |
c = strchr (hex_digits, sim_toupper(*iptr)); | |
if (c) { | |
*optr = ((*optr)<<4) + (uint8)(c-hex_digits); | |
++iptr; | |
} | |
c = strchr (hex_digits, sim_toupper(*iptr)); | |
if (c) { | |
*optr = ((*optr)<<4) + (uint8)(c-hex_digits); | |
++iptr; | |
} | |
++optr; | |
} | |
break; | |
default: | |
return SCPE_ARG; /* Invalid escape */ | |
} | |
} | |
*optr = '\0'; | |
*osize = (uint32)(optr-ostart); | |
return SCPE_OK; | |
} | |
/* sim_encode_quoted_string | |
Inputs: | |
iptr = pointer to input buffer | |
size = number of bytes of data in the buffer | |
Outputs | |
optr = pointer to output buffer | |
the output buffer must be freed by the caller | |
The input data will be encoded into a simply printable form. | |
Control and other non-printable data will be escaped using the | |
following rules: | |
The following character escapes are explicitly supported: | |
\r ASCII Carriage Return character (Decimal value 13) | |
\n ASCII Linefeed character (Decimal value 10) | |
\f ASCII Formfeed character (Decimal value 12) | |
\t ASCII Horizontal Tab character (Decimal value 9) | |
\v ASCII Vertical Tab character (Decimal value 11) | |
\b ASCII Backspace character (Decimal value 8) | |
\\ ASCII Backslash character (Decimal value 92) | |
\' ASCII Single Quote character (Decimal value 39) | |
\" ASCII Double Quote character (Decimal value 34) | |
\? ASCII Question Mark character (Decimal value 63) | |
\e ASCII Escape character (Decimal value 27) | |
as well as octal character values of the form: | |
\n{n{n}} where each n is an octal digit (0-7) | |
and hext character values of the form: | |
\xh{h} where each h is a hex digit (0-9A-Fa-f) | |
*/ | |
char *sim_encode_quoted_string (const uint8 *iptr, uint32 size) | |
{ | |
uint32 i; | |
t_bool double_quote_found = FALSE; | |
t_bool single_quote_found = FALSE; | |
char quote = '"'; | |
char *tptr, *optr; | |
optr = (char *)malloc (4*size + 3); | |
if (optr == NULL) | |
return NULL; | |
tptr = optr; | |
for (i=0; i<size; i++) | |
switch ((char)iptr[i]) { | |
case '"': | |
double_quote_found = TRUE; | |
break; | |
case '\'': | |
single_quote_found = TRUE; | |
break; | |
} | |
if (double_quote_found && (!single_quote_found)) | |
quote = '\''; | |
*tptr++ = quote; | |
while (size--) { | |
switch (*iptr) { | |
case '\r': | |
*tptr++ = '\\'; *tptr++ = 'r'; break; | |
case '\n': | |
*tptr++ = '\\'; *tptr++ = 'n'; break; | |
case '\f': | |
*tptr++ = '\\'; *tptr++ = 'f'; break; | |
case '\t': | |
*tptr++ = '\\'; *tptr++ = 't'; break; | |
case '\v': | |
*tptr++ = '\\'; *tptr++ = 'v'; break; | |
case '\b': | |
*tptr++ = '\\'; *tptr++ = 'b'; break; | |
case '\\': | |
*tptr++ = '\\'; *tptr++ = '\\'; break; | |
case '"': | |
case '\'': | |
if (quote == *iptr) | |
*tptr++ = '\\'; | |
/* fall through */ | |
default: | |
if (sim_isprint (*iptr)) | |
*tptr++ = *iptr; | |
else { | |
sprintf (tptr, "\\%03o", *iptr); | |
tptr += 4; | |
} | |
break; | |
} | |
++iptr; | |
} | |
*tptr++ = quote; | |
*tptr++ = '\0'; | |
return optr; | |
} | |
void fprint_buffer_string (FILE *st, const uint8 *buf, uint32 size) | |
{ | |
char *string; | |
string = sim_encode_quoted_string (buf, size); | |
fprintf (st, "%s", string); | |
free (string); | |
} | |
/* Find_device find device matching input string | |
Inputs: | |
cptr = pointer to input string | |
Outputs: | |
result = pointer to device | |
*/ | |
DEVICE *find_dev (const char *cptr) | |
{ | |
int32 i; | |
DEVICE *dptr; | |
if (cptr == NULL) | |
return NULL; | |
for (i = 0; (dptr = sim_devices[i]) != NULL; i++) { | |
if ((strcmp (cptr, dptr->name) == 0) || | |
(dptr->lname && | |
(strcmp (cptr, dptr->lname) == 0))) | |
return dptr; | |
} | |
for (i = 0; sim_internal_device_count && (dptr = sim_internal_devices[i]); ++i) { | |
if ((strcmp (cptr, dptr->name) == 0) || | |
(dptr->lname && | |
(strcmp (cptr, dptr->lname) == 0))) | |
return dptr; | |
} | |
return NULL; | |
} | |
/* Find_unit find unit matching input string | |
Inputs: | |
cptr = pointer to input string | |
uptr = pointer to unit pointer | |
Outputs: | |
result = pointer to device (null if no dev) | |
*iptr = pointer to unit (null if nx unit) | |
*/ | |
DEVICE *find_unit (const char *cptr, UNIT **uptr) | |
{ | |
uint32 i, u; | |
const char *nptr; | |
const char *tptr; | |
t_stat r; | |
DEVICE *dptr; | |
if (uptr == NULL) /* arg error? */ | |
return NULL; | |
*uptr = NULL; | |
if ((dptr = find_dev (cptr))) { /* exact match? */ | |
if (qdisable (dptr)) /* disabled? */ | |
return NULL; | |
*uptr = dptr->units; /* unit 0 */ | |
return dptr; | |
} | |
for (i = 0; (dptr = sim_devices[i]) != NULL; i++) { /* base + unit#? */ | |
if (dptr->numunits && /* any units? */ | |
(((nptr = dptr->name) && | |
(strncmp (cptr, nptr, strlen (nptr)) == 0)) || | |
((nptr = dptr->lname) && | |
(strncmp (cptr, nptr, strlen (nptr)) == 0)))) { | |
tptr = cptr + strlen (nptr); | |
if (sim_isdigit (*tptr)) { | |
if (qdisable (dptr)) /* disabled? */ | |
return NULL; | |
u = (uint32) get_uint (tptr, 10, dptr->numunits - 1, &r); | |
if (r != SCPE_OK) /* error? */ | |
*uptr = NULL; | |
else *uptr = dptr->units + u; | |
return dptr; | |
} | |
} | |
} | |
return NULL; | |
} | |
/* sim_register_internal_device Add device to internal device list | |
Inputs: | |
dptr = pointer to device | |
*/ | |
t_stat sim_register_internal_device (DEVICE *dptr) | |
{ | |
uint32 i; | |
for (i = 0; i < sim_internal_device_count; i++) | |
if (sim_internal_devices[i] == dptr) | |
return SCPE_OK; | |
for (i = 0; (sim_devices[i] != NULL); i++) | |
if (sim_devices[i] == dptr) | |
return SCPE_OK; | |
++sim_internal_device_count; | |
sim_internal_devices = (DEVICE **)realloc(sim_internal_devices, (sim_internal_device_count+1)*sizeof(*sim_internal_devices)); | |
sim_internal_devices[sim_internal_device_count-1] = dptr; | |
sim_internal_devices[sim_internal_device_count] = NULL; | |
return SCPE_OK; | |
} | |
/* Find_dev_from_unit find device for unit | |
Inputs: | |
uptr = pointer to unit | |
Outputs: | |
result = pointer to device | |
*/ | |
DEVICE *find_dev_from_unit (UNIT *uptr) | |
{ | |
DEVICE *dptr; | |
uint32 i, j; | |
if (uptr == NULL) | |
return NULL; | |
if (uptr->dptr) | |
return uptr->dptr; | |
for (i = 0; (dptr = sim_devices[i]) != NULL; i++) { | |
for (j = 0; j < dptr->numunits; j++) { | |
if (uptr == (dptr->units + j)) { | |
uptr->dptr = dptr; | |
return dptr; | |
} | |
} | |
} | |
for (i = 0; i<sim_internal_device_count; i++) { | |
dptr = sim_internal_devices[i]; | |
for (j = 0; j < dptr->numunits; j++) { | |
if (uptr == (dptr->units + j)) { | |
uptr->dptr = dptr; | |
return dptr; | |
} | |
} | |
} | |
return NULL; | |
} | |
/* Test for disabled device */ | |
t_bool qdisable (DEVICE *dptr) | |
{ | |
return (dptr->flags & DEV_DIS? TRUE: FALSE); | |
} | |
/* find_reg_glob find globally unique register | |
Inputs: | |
cptr = pointer to input string | |
optr = pointer to output pointer (can be null) | |
gdptr = pointer to global device | |
Outputs: | |
result = pointer to register, NULL if error | |
*optr = pointer to next character in input string | |
*gdptr = pointer to device where found | |
*stat = pointer to stat for reason | |
*/ | |
REG *find_reg_glob_reason (CONST char *cptr, CONST char **optr, DEVICE **gdptr, t_stat *stat) | |
{ | |
int32 i, j; | |
DEVICE *dptr, **devs, **dptrptr[] = {sim_devices, sim_internal_devices, NULL}; | |
REG *rptr, *srptr = NULL; | |
if (stat) | |
*stat = SCPE_OK; | |
*gdptr = NULL; | |
for (j = 0; (devs = dptrptr[j]) != NULL; j++) { | |
for (i = 0; (dptr = devs[i]) != NULL; i++) { /* all dev */ | |
if (dptr->flags & DEV_DIS) /* skip disabled */ | |
continue; | |
if ((rptr = find_reg (cptr, optr, dptr))) { /* found? */ | |
if (srptr) { /* ambig? err */ | |
if (stat) { | |
if (sim_show_message) { | |
if (*stat == SCPE_OK) | |
sim_printf ("Ambiguous register. %s appears in devices %s and %s", cptr, (*gdptr)->name, dptr->name); | |
else | |
sim_printf (" and %s", dptr->name); | |
} | |
*stat = SCPE_AMBREG|SCPE_NOMESSAGE; | |
} | |
else | |
return NULL; | |
} | |
srptr = rptr; /* save reg */ | |
*gdptr = dptr; /* save unit */ | |
} | |
} | |
} | |
if (stat && (*stat != SCPE_OK)) { | |
if (sim_show_message) | |
sim_printf ("\n"); | |
srptr = NULL; | |
} | |
return srptr; | |
} | |
REG *find_reg_glob (CONST char *cptr, CONST char **optr, DEVICE **gdptr) | |
{ | |
return find_reg_glob_reason (cptr, optr, gdptr, NULL); | |
} | |
/* find_reg find register matching input string | |
Inputs: | |
cptr = pointer to input string | |
optr = pointer to output pointer (can be null) | |
dptr = pointer to device | |
Outputs: | |
result = pointer to register, NULL if error | |
*optr = pointer to next character in input string | |
*/ | |
REG *find_reg (CONST char *cptr, CONST char **optr, DEVICE *dptr) | |
{ | |
CONST char *tptr; | |
REG *rptr; | |
size_t slnt; | |
if ((cptr == NULL) || (dptr == NULL) || (dptr->registers == NULL)) | |
return NULL; | |
tptr = cptr; | |
do { | |
tptr++; | |
} while (sim_isalnum (*tptr) || (*tptr == '*') || (*tptr == '_') || (*tptr == '.')); | |
slnt = tptr - cptr; | |
for (rptr = dptr->registers; rptr->name != NULL; rptr++) { | |
if ((slnt == strlen (rptr->name)) && | |
(strncmp (cptr, rptr->name, slnt) == 0)) { | |
if (optr != NULL) | |
*optr = tptr; | |
return rptr; | |
} | |
} | |
return NULL; | |
} | |
/* get_switches get switches from input string | |
Inputs: | |
cptr = pointer to input string | |
Outputs: | |
*sw = switch bit mask | |
*mumber = numeric value | |
Return value: SW_ERROR if error | |
SW_BITMASK if switch bitmask or not a switch | |
SW_NUMBER if numeric | |
*/ | |
SWITCH_PARSE get_switches (const char *cptr, int32 *sw, int32 *number) | |
{ | |
*sw = 0; | |
if (*cptr != '-') | |
return SW_BITMASK; | |
if (number) | |
*number = 0; | |
if (sim_isdigit(cptr[1])) { | |
char *end; | |
long val = strtol (1+cptr, &end, 10); | |
if ((*end != 0) || (number == NULL)) | |
return SW_ERROR; | |
*number = (int32)val; | |
return SW_NUMBER; | |
} | |
for (cptr++; (sim_isspace (*cptr) == 0) && (*cptr != 0); cptr++) { | |
if (sim_isalpha (*cptr) == 0) | |
return SW_ERROR; | |
*sw = *sw | SWMASK (sim_toupper (*cptr)); | |
} | |
return SW_BITMASK; | |
} | |
/* get_sim_sw accumulate sim_switches | |
Inputs: | |
cptr = pointer to input string | |
Outputs: | |
ptr = pointer to first non-string glyph | |
NULL if error | |
*/ | |
CONST char *get_sim_sw (CONST char *cptr) | |
{ | |
int32 lsw, lnum; | |
char gbuf[CBUFSIZE]; | |
while (*cptr == '-') { /* while switches */ | |
cptr = get_glyph (cptr, gbuf, 0); /* get switch glyph */ | |
switch (get_switches (gbuf, &lsw, &lnum)) { /* parse */ | |
case SW_ERROR: | |
return NULL; | |
case SW_BITMASK: | |
sim_switches = sim_switches | lsw; /* accumulate */ | |
break; | |
case SW_NUMBER: | |
sim_switch_number = lnum; /* set number */ | |
break; | |
} | |
} | |
return cptr; | |
} | |
/* get_sim_opt get simulator command options | |
Inputs: | |
opt = command options | |
cptr = pointer to input string | |
Outputs: | |
ptr = pointer to next glypsh, NULL if error | |
*stat = error status | |
*/ | |
CONST char *get_sim_opt (int32 opt, CONST char *cptr, t_stat *st) | |
{ | |
int32 t, n; | |
char gbuf[CBUFSIZE]; | |
CONST char *svptr; | |
DEVICE *tdptr; | |
UNIT *tuptr; | |
sim_switches = 0; /* no switches */ | |
sim_switch_number = 0; /* no numberuc switch */ | |
sim_ofile = NULL; /* no output file */ | |
sim_schrptr = NULL; /* no search */ | |
sim_schaptr = NULL; /* no search */ | |
sim_stabr.logic = sim_staba.logic = SCH_OR; /* default search params */ | |
sim_stabr.boolop = sim_staba.boolop = SCH_GE; | |
sim_stabr.count = 1; | |
sim_stabr.mask = (t_value *)realloc (sim_stabr.mask, sim_emax * sizeof(*sim_stabr.mask)); | |
memset (sim_stabr.mask, 0, sim_emax * sizeof(*sim_stabr.mask)); | |
sim_stabr.comp = (t_value *)realloc (sim_stabr.comp, sim_emax * sizeof(*sim_stabr.comp)); | |
memset (sim_stabr.comp, 0, sim_emax * sizeof(*sim_stabr.comp)); | |
sim_staba.count = sim_emax; | |
sim_staba.mask = (t_value *)realloc (sim_staba.mask, sim_emax * sizeof(*sim_staba.mask)); | |
memset (sim_staba.mask, 0, sim_emax * sizeof(*sim_staba.mask)); | |
sim_staba.comp = (t_value *)realloc (sim_staba.comp, sim_emax * sizeof(*sim_staba.comp)); | |
memset (sim_staba.comp, 0, sim_emax * sizeof(*sim_staba.comp)); | |
sim_dfdev = sim_dflt_dev; | |
sim_dfunit = sim_dfdev->units; | |
sim_opt_out = 0; /* no options yet */ | |
*st = SCPE_OK; | |
while (*cptr) { /* loop through modifiers */ | |
svptr = cptr; /* save current position */ | |
if ((opt & CMD_OPT_OF) && (*cptr == '@')) { /* output file spec? */ | |
if (sim_ofile) { /* already got one? */ | |
fclose (sim_ofile); /* one per customer */ | |
*st = SCPE_ARG; | |
return NULL; | |
} | |
cptr = get_glyph (cptr + 1, gbuf, 0); | |
sim_ofile = sim_fopen (gbuf, "a"); /* open for append */ | |
if (sim_ofile == NULL) { /* open failed? */ | |
*st = SCPE_OPENERR; | |
return NULL; | |
} | |
sim_opt_out |= CMD_OPT_OF; /* got output file */ | |
continue; | |
} | |
cptr = get_glyph (cptr, gbuf, 0); | |
switch (get_switches (gbuf, &t, &n)) { /* try for switches */ | |
case SW_ERROR: /* err if bad switch */ | |
*st = SCPE_INVSW; | |
return NULL; | |
case SW_NUMBER: | |
sim_switch_number = n; /* set number */ | |
continue; | |
case SW_BITMASK: | |
if (t != 0) { | |
sim_switches = sim_switches | t;/* or in new switches */ | |
continue; | |
} | |
break; | |
} | |
if ((opt & CMD_OPT_SCH) && /* if allowed, */ | |
get_rsearch (gbuf, sim_dfdev->dradix, &sim_stabr)) { /* try for search */ | |
sim_schrptr = &sim_stabr; /* set search */ | |
sim_schaptr = get_asearch (gbuf, sim_dfdev->dradix, &sim_staba);/* populate memory version of the same expression */ | |
sim_opt_out |= CMD_OPT_SCH; /* got search */ | |
} | |
else if ((opt & CMD_OPT_DFT) && /* default allowed? */ | |
((sim_opt_out & CMD_OPT_DFT) == 0) && /* none yet? */ | |
(tdptr = find_unit (gbuf, &tuptr)) && /* try for default */ | |
(tuptr != NULL)) { | |
sim_dfdev = tdptr; /* set as default */ | |
sim_dfunit = tuptr; | |
sim_opt_out |= CMD_OPT_DFT; /* got default */ | |
} | |
else return svptr; /* not rec, break out */ | |
} | |
return cptr; | |
} | |
/* put_switches put switches into string | |
Inputs: | |
buf = pointer to string buffer | |
bufsize = size of string buffer | |
sw = switch bit mask | |
Outputs: | |
buf = buffer with switches converted to text | |
*/ | |
const char *put_switches (char *buf, size_t bufsize, uint32 sw) | |
{ | |
char *optr = buf; | |
int32 bit; | |
memset (buf, 0, bufsize); | |
if ((sw == 0) || (bufsize < 3)) | |
return buf; | |
--bufsize; /* leave room for terminating NUL */ | |
*optr++ = '-'; | |
for (bit=0; bit <= ('Z'-'A'); bit++) | |
if (sw & (1 << bit)) | |
if ((size_t)(optr - buf) < bufsize) | |
*optr++ = 'A' + bit; | |
return buf; | |
} | |
/* Match file extension | |
Inputs: | |
fnam = file name | |
ext = extension, without period | |
Outputs: | |
cp = pointer to final '.' if match, NULL if not | |
*/ | |
CONST char *match_ext (CONST char *fnam, const char *ext) | |
{ | |
CONST char *pptr, *fptr; | |
const char *eptr; | |
if ((fnam == NULL) || (ext == NULL)) /* bad arguments? */ | |
return NULL; | |
pptr = strrchr (fnam, '.'); /* find last . */ | |
if (pptr) { /* any? */ | |
for (fptr = pptr + 1, eptr = ext; /* match characters */ | |
#if defined (VMS) /* VMS: stop at ; or null */ | |
(*fptr != 0) && (*fptr != ';'); | |
#else | |
*fptr != 0; /* others: stop at null */ | |
#endif | |
fptr++, eptr++) { | |
if (sim_toupper (*fptr) != sim_toupper (*eptr)) | |
return NULL; | |
} | |
if (*eptr != 0) /* ext exhausted? */ | |
return NULL; | |
} | |
return pptr; | |
} | |
/* Get register search specification | |
Inputs: | |
cptr = pointer to input string | |
radix = radix for numbers | |
schptr = pointer to search table | |
Outputs: | |
return = NULL if error | |
schptr if valid search specification | |
*/ | |
SCHTAB *get_rsearch (CONST char *cptr, int32 radix, SCHTAB *schptr) | |
{ | |
int32 c, logop, cmpop; | |
t_value logval, cmpval; | |
const char *sptr; | |
CONST char *tptr; | |
const char logstr[] = "|&^", cmpstr[] = "=!><"; | |
logval = cmpval = 0; | |
if (*cptr == 0) /* check for clause */ | |
return NULL; | |
for (logop = cmpop = -1; (c = *cptr++); ) { /* loop thru clauses */ | |
if ((sptr = strchr (logstr, c))) { /* check for mask */ | |
logop = (int32)(sptr - logstr); | |
logval = strtotv (cptr, &tptr, radix); | |
if (cptr == tptr) | |
return NULL; | |
cptr = tptr; | |
} | |
else if ((sptr = strchr (cmpstr, c))) { /* check for boolop */ | |
cmpop = (int32)(sptr - cmpstr); | |
if (*cptr == '=') { | |
cmpop = cmpop + strlen (cmpstr); | |
cptr++; | |
} | |
cmpval = strtotv (cptr, &tptr, radix); | |
if (cptr == tptr) | |
return NULL; | |
cptr = tptr; | |
} | |
else return NULL; | |
} /* end for */ | |
if (schptr->count != 1) { | |
free (schptr->mask); | |
schptr->mask = (t_value *)calloc (sim_emax, sizeof(*schptr->mask)); | |
free (schptr->comp); | |
schptr->comp = (t_value *)calloc (sim_emax, sizeof(*schptr->comp)); | |
} | |
if (logop >= 0) { | |
schptr->logic = logop; | |
schptr->mask[0] = logval; | |
} | |
if (cmpop >= 0) { | |
schptr->boolop = cmpop; | |
schptr->comp[0] = cmpval; | |
} | |
schptr->count = 1; | |
return schptr; | |
} | |
/* Get memory search specification | |
Inputs: | |
cptr = pointer to input string | |
radix = radix for numbers | |
schptr = pointer to search table | |
Outputs: | |
return = NULL if error | |
schptr if valid search specification | |
*/ | |
SCHTAB *get_asearch (CONST char *cptr, int32 radix, SCHTAB *schptr) | |
{ | |
int32 c, logop, cmpop; | |
t_value *logval, *cmpval; | |
t_stat reason; | |
CONST char *ocptr = cptr; | |
const char *sptr; | |
char gbuf[CBUFSIZE]; | |
const char logstr[] = "|&^", cmpstr[] = "=!><"; | |
if (*cptr == 0) /* check for clause */ | |
return NULL; | |
logval = (t_value *)calloc (sim_emax, sizeof(*logval)); | |
cmpval = (t_value *)calloc (sim_emax, sizeof(*cmpval)); | |
for (logop = cmpop = -1; (c = *cptr++); ) { /* loop thru clauses */ | |
if ((sptr = strchr (logstr, c))) { /* check for mask */ | |
logop = (int32)(sptr - logstr); | |
cptr = get_glyph (cptr, gbuf, 0); | |
reason = parse_sym (gbuf, 0, sim_dfunit, logval, sim_switches); | |
if (reason > 0) { | |
free (logval); | |
free (cmpval); | |
return get_rsearch (ocptr, radix, schptr); | |
} | |
} | |
else if ((sptr = strchr (cmpstr, c))) { /* check for boolop */ | |
cmpop = (int32)(sptr - cmpstr); | |
if (*cptr == '=') { | |
cmpop = cmpop + strlen (cmpstr); | |
cptr++; | |
} | |
cptr = get_glyph (cptr, gbuf, 0); | |
reason = parse_sym (gbuf, 0, sim_dfunit, cmpval, sim_switches); | |
if (reason > 0) { | |
free (logval); | |
free (cmpval); | |
return get_rsearch (ocptr, radix, schptr); | |
} | |
} | |
else { | |
free (logval); | |
free (cmpval); | |
return NULL; | |
} | |
} /* end for */ | |
if (schptr->count != (1 - reason)) { | |
schptr->count = 1 - reason; | |
free (schptr->mask); | |
schptr->mask = (t_value *)calloc (sim_emax, sizeof(*schptr->mask)); | |
free (schptr->comp); | |
schptr->comp = (t_value *)calloc (sim_emax, sizeof(*schptr->comp)); | |
} | |
if (logop >= 0) { | |
schptr->logic = logop; | |
free (schptr->mask); | |
schptr->mask = logval; | |
} | |
else { | |
free (logval); | |
} | |
if (cmpop >= 0) { | |
schptr->boolop = cmpop; | |
free (schptr->comp); | |
schptr->comp = cmpval; | |
} | |
else { | |
free (cmpval); | |
} | |
return schptr; | |
} | |
/* Test value against search specification | |
Inputs: | |
val = value list to test | |
schptr = pointer to search table | |
Outputs: | |
return = 1 if value passes search criteria, 0 if not | |
*/ | |
int32 test_search (t_value *values, SCHTAB *schptr) | |
{ | |
t_value *val = NULL; | |
int32 i, updown; | |
int32 ret = 0; | |
if (schptr == NULL) | |
return ret; | |
val = (t_value *)malloc (schptr->count * sizeof (*values)); | |
for (i=0; i<(int32)schptr->count; i++) { | |
val[i] = values[i]; | |
switch (schptr->logic) { /* case on logical */ | |
case SCH_OR: | |
val[i] = val[i] | schptr->mask[i]; | |
break; | |
case SCH_AND: | |
val[i] = val[i] & schptr->mask[i]; | |
break; | |
case SCH_XOR: | |
val[i] = val[i] ^ schptr->mask[i]; | |
break; | |
} | |
} | |
ret = 1; | |
if (1) { /* Little Endian VM */ | |
updown = -1; | |
i=schptr->count-1; | |
} | |
else { /* Big Endian VM */ | |
updown = 1; | |
i=0; | |
} | |
for (; (i>=0) && (i<(int32)schptr->count) && ret; i += updown) { | |
switch (schptr->boolop) { /* case on comparison */ | |
case SCH_E: case SCH_EE: | |
if (val[i] != schptr->comp[i]) | |
ret = 0; | |
break; | |
case SCH_N: case SCH_NE: | |
if (val[i] != schptr->comp[i]) | |
ret = 0; | |
break; | |
case SCH_G: | |
if (val[i] <= schptr->comp[i]) | |
ret = 0; | |
break; | |
case SCH_GE: | |
if (val[i] < schptr->comp[i]) | |
ret = 0; | |
break; | |
case SCH_L: | |
if (val[i] >= schptr->comp[i]) | |
ret = 0; | |
break; | |
case SCH_LE: | |
if (val[i] > schptr->comp[i]) | |
ret = 0; | |
break; | |
} | |
} | |
free (val); | |
return ret; | |
} | |
/* Radix independent input/output package | |
strtotv - general radix input routine | |
strtotsv - general radix input routine | |
Inputs: | |
inptr = string to convert | |
endptr = pointer to first unconverted character | |
radix = radix for input | |
Output strtotv: | |
value = converted value | |
Outputs strtotsv: | |
value = converted signed value | |
On an error, the endptr will equal the inptr. | |
If the value of radix is zero, the syntax expected is similar | |
to that of integer constants, which is formed by a succession of: | |
- An optional sign character (+ or -) | |
- An optional prefix indicating octal or hexadecimal radix | |
("0" or "0x"/"0X" respectively) | |
- A sequence of decimal digits (if no radix prefix was specified) | |
or one of binary, octal or hexadecimal digits if a specific | |
prefix is present | |
If the radix value is between 2 and 36, the format expected for | |
the integral number is a succession of any of the valid digits | |
and/or letters needed to represent integers of the specified | |
radix (starting from '0' and up to 'z'/'Z' for radix 36). The | |
sequence may optionally be preceded by a sign (either + or -) and, | |
if base is 16, an optional "0x" or "0X" prefix. If the base is 2, | |
an optional "0b" or "0B" prefix. | |
*/ | |
t_value strtotv (CONST char *inptr, CONST char **endptr, uint32 radix) | |
{ | |
t_bool nodigits; | |
t_value val; | |
uint32 c, digit; | |
if (endptr) | |
*endptr = inptr; /* assume fails */ | |
if (((radix < 2) || (radix > 36)) && (radix != 0)) | |
return 0; | |
while (sim_isspace (*inptr)) /* bypass white space */ | |
inptr++; | |
if (((radix == 0) || (radix == 16)) && | |
((!memcmp("0x", inptr, 2)) || (!memcmp("0X", inptr, 2)))) { | |
radix = 16; | |
inptr += 2; | |
} | |
if (((radix == 0) || (radix == 2)) && | |
((!memcmp("0b", inptr, 2)) || (!memcmp("0B", inptr, 2)))) { | |
radix = 2; | |
inptr += 2; | |
} | |
if ((radix == 0) && (*inptr == '0')) /* Default radix and octal? */ | |
radix = 8; | |
if (radix == 0) /* Default base 10 radix */ | |
radix = 10; | |
val = 0; | |
nodigits = TRUE; | |
for (c = *inptr; sim_isalnum(c); c = *++inptr) { /* loop through char */ | |
c = sim_toupper (c); | |
if (sim_isdigit (c)) /* digit? */ | |
digit = c - (uint32) '0'; | |
else { | |
if (radix <= 10) /* stop if not expected */ | |
break; | |
else | |
digit = c + 10 - (uint32) 'A'; /* convert letter */ | |
} | |
if (digit >= radix) /* valid in radix? */ | |
return 0; | |
val = (val * radix) + digit; /* add to value */ | |
nodigits = FALSE; | |
} | |
if (nodigits) /* no digits? */ | |
return 0; | |
if (endptr) | |
*endptr = inptr; /* result pointer */ | |
return val; | |
} | |
t_svalue strtotsv (CONST char *inptr, CONST char **endptr, uint32 radix) | |
{ | |
t_bool nodigits; | |
t_svalue val; | |
t_svalue negate = 1; | |
uint32 c, digit; | |
if (endptr) | |
*endptr = inptr; /* assume fails */ | |
if (((radix < 2) || (radix > 36)) && (radix != 0)) | |
return 0; | |
while (sim_isspace (*inptr)) /* bypass white space */ | |
inptr++; | |
if ((*inptr == '-') || | |
(*inptr == '+')) { | |
if (*inptr == '-') | |
negate = -1; | |
++inptr; | |
} | |
if (((radix == 0) || (radix == 16)) && | |
((!memcmp("0x", inptr, 2)) || (!memcmp("0X", inptr, 2)))) { | |
radix = 16; | |
inptr += 2; | |
} | |
if (((radix == 0) || (radix == 2)) && | |
((!memcmp("0b", inptr, 2)) || (!memcmp("0B", inptr, 2)))) { | |
radix = 2; | |
inptr += 2; | |
} | |
if ((radix == 0) && (*inptr == '0')) /* Default radix and octal? */ | |
radix = 8; | |
if (radix == 0) /* Default base 10 radix */ | |
radix = 10; | |
val = 0; | |
nodigits = TRUE; | |
for (c = *inptr; sim_isalnum(c); c = *++inptr) { /* loop through char */ | |
c = sim_toupper (c); | |
if (sim_isdigit (c)) /* digit? */ | |
digit = c - (uint32) '0'; | |
else { | |
if (radix <= 10) /* stop if not expected */ | |
break; | |
else | |
digit = c + 10 - (uint32) 'A'; /* convert letter */ | |
} | |
if (digit >= radix) /* valid in radix? */ | |
return 0; | |
val = (val * radix) + digit; /* add to value */ | |
nodigits = FALSE; | |
} | |
if (nodigits) /* no digits? */ | |
return 0; | |
if (endptr) | |
*endptr = inptr; /* result pointer */ | |
return val * negate; | |
} | |
/* fprint_val - general radix printing routine | |
Inputs: | |
stream = stream designator | |
val = value to print | |
radix = radix to print | |
width = width to print | |
format = leading zeroes format | |
Outputs: | |
status = error status | |
if stream is NULL, returns length of output that would | |
have been generated. | |
*/ | |
t_stat sprint_val (char *buffer, t_value val, uint32 radix, | |
uint32 width, uint32 format) | |
{ | |
#define MAX_WIDTH ((int) ((CHAR_BIT * sizeof (t_value) * 4 + 3)/3)) | |
t_value owtest, wtest; | |
t_bool negative = FALSE; | |
int32 d, digit, ndigits, commas = 0; | |
char dbuf[MAX_WIDTH + 1]; | |
if (((format == PV_LEFTSIGN) || (format == PV_RCOMMASIGN)) && | |
(0 > (t_svalue)val)) { | |
val = (t_value)(-((t_svalue)val)); | |
negative = TRUE; | |
} | |
for (d = 0; d < MAX_WIDTH; d++) | |
dbuf[d] = (format == PV_RZRO)? '0': ' '; | |
dbuf[MAX_WIDTH] = 0; | |
d = MAX_WIDTH; | |
do { | |
d = d - 1; | |
digit = (int32) (val % radix); | |
val = val / radix; | |
dbuf[d] = (char)((digit <= 9)? '0' + digit: 'A' + (digit - 10)); | |
} while ((d > 0) && (val != 0)); | |
if (negative && (format == PV_LEFTSIGN)) | |
dbuf[--d] = '-'; | |
switch (format) { | |
case PV_LEFT: | |
case PV_LEFTSIGN: | |
break; | |
case PV_RCOMMA: | |
case PV_RCOMMASIGN: | |
for (digit = 0; digit < MAX_WIDTH; digit++) | |
if (dbuf[digit] != ' ') | |
break; | |
ndigits = MAX_WIDTH - digit; | |
commas = (ndigits - 1)/3; | |
for (digit=0; digit<ndigits-3; digit++) | |
dbuf[MAX_WIDTH + (digit - ndigits) - (ndigits - digit - 1)/3] = dbuf[MAX_WIDTH + (digit - ndigits)]; | |
for (digit=1; digit<=commas; digit++) | |
dbuf[MAX_WIDTH - (digit * 4)] = ','; | |
d = d - commas; | |
if (negative && (format == PV_RCOMMASIGN)) | |
dbuf[--d] = '-'; | |
if (width > MAX_WIDTH) { | |
if (!buffer) | |
return width; | |
sprintf (buffer, "%*s", -((int)width), dbuf); | |
return SCPE_OK; | |
} | |
else | |
if (width > 0) | |
d = MAX_WIDTH - width; | |
break; | |
case PV_RZRO: | |
case PV_RSPC: | |
wtest = owtest = radix; | |
ndigits = 1; | |
while ((wtest < width_mask[width]) && (wtest >= owtest)) { | |
owtest = wtest; | |
wtest = wtest * radix; | |
ndigits = ndigits + 1; | |
} | |
if ((MAX_WIDTH - (ndigits + commas)) < d) | |
d = MAX_WIDTH - (ndigits + commas); | |
break; | |
} | |
if (!buffer) | |
return strlen(dbuf+d); | |
*buffer = '\0'; | |
if (width < strlen(dbuf+d)) | |
return SCPE_IOERR; | |
strcpy(buffer, dbuf+d); | |
return SCPE_OK; | |
} | |
t_stat fprint_val (FILE *stream, t_value val, uint32 radix, | |
uint32 width, uint32 format) | |
{ | |
char dbuf[MAX_WIDTH + 1]; | |
if (!stream) | |
return sprint_val (NULL, val, radix, width, format); | |
if (width > MAX_WIDTH) | |
width = MAX_WIDTH; | |
sprint_val (dbuf, val, radix, width, format); | |
if (fprintf (stream, "%s", dbuf) < 0) | |
return SCPE_IOERR; | |
return SCPE_OK; | |
} | |
t_stat sim_print_val (t_value val, uint32 radix, | |
uint32 width, uint32 format) | |
{ | |
char dbuf[MAX_WIDTH + 1]; | |
t_stat stat = SCPE_OK; | |
if (width > MAX_WIDTH) | |
width = MAX_WIDTH; | |
sprint_val (dbuf, val, radix, width, format); | |
if (fputs (dbuf, stdout) == EOF) | |
stat = SCPE_IOERR; | |
if ((!sim_oline) && ((sim_log && (sim_log != stdout)))) | |
if (fputs (dbuf, sim_log) == EOF) | |
stat = SCPE_IOERR; | |
if (sim_deb && (sim_deb != stdout)) { | |
TMLN *saved_oline = sim_oline; | |
sim_oline = NULL; /* avoid potential debug to active socket */ | |
if (fputs (dbuf, sim_deb) == EOF) | |
stat = SCPE_IOERR; | |
sim_oline = saved_oline; /* restore original socket */ | |
} | |
return stat; | |
} | |
const char *sim_fmt_secs (double seconds) | |
{ | |
static char buf[60]; | |
char frac[16] = ""; | |
const char *sign = ""; | |
double val = seconds; | |
double days, hours, mins, secs, msecs, usecs; | |
if (val == 0.0) | |
return ""; | |
if (val < 0.0) { | |
sign = "-"; | |
val = -val; | |
} | |
days = floor (val / (24.0*60.0*60.0)); | |
val -= (days * 24.0*60.0*60.0); | |
hours = floor (val / (60.0*60.0)); | |
val -= (hours * 60.0 * 60.0); | |
mins = floor (val / 60.0); | |
val -= (mins * 60.0); | |
secs = floor (val); | |
val -= secs; | |
val *= 1000.0; | |
msecs = floor (val); | |
val -= msecs; | |
val *= 1000.0; | |
usecs = floor (val+0.5); | |
if (usecs == 1000.0) { | |
usecs = 0.0; | |
msecs += 1; | |
} | |
if ((msecs > 0.0) || (usecs > 0.0)) { | |
sprintf (frac, ".%03.0f%03.0f", msecs, usecs); | |
while (frac[strlen (frac) - 1] == '0') | |
frac[strlen (frac) - 1] = '\0'; | |
if (strlen (frac) == 1) | |
frac[0] = '\0'; | |
} | |
if (days > 0) | |
sprintf (buf, "%s%.0f day%s %02.0f:%02.0f:%02.0f%s hour%s", sign, days, (days != 1)? "s" : "", hours, mins, secs, frac, (days == 1) ? "s" : ""); | |
else | |
if (hours > 0) | |
sprintf (buf, "%s%.0f:%02.0f:%02.0f%s hour", sign, hours, mins, secs, frac); | |
else | |
if (mins > 0) | |
sprintf (buf, "%s%.0f:%02.0f%s minute", sign, mins, secs, frac); | |
else | |
if (secs > 0) | |
sprintf (buf, "%s%.0f%s second", sign, secs, frac); | |
else | |
if (msecs > 0) { | |
if (usecs > 0) | |
sprintf (buf, "%s%.0f.%s msec", sign, msecs, frac+4); | |
else | |
sprintf (buf, "%s%.0f msec", sign, msecs); | |
} | |
else | |
sprintf (buf, "%s%.0f usec", sign, usecs); | |
if (0 != strncmp ("1 ", buf, 2)) | |
strcpy (&buf[strlen (buf)], "s"); | |
return buf; | |
} | |
const char *sim_fmt_numeric (double number) | |
{ | |
static char buf[60]; | |
char tmpbuf[60]; | |
size_t len; | |
uint32 c; | |
char *p; | |
sprintf (tmpbuf, "%.0f", number); | |
len = strlen (tmpbuf); | |
for (c=0, p=buf; c < len; c++) { | |
if ((c > 0) && | |
(sim_isdigit (tmpbuf[c])) && | |
(0 == ((len - c) % 3))) | |
*(p++) = ','; | |
*(p++) = tmpbuf[c]; | |
} | |
*p = '\0'; | |
return buf; | |
} | |
/* Event queue package | |
sim_activate add entry to event queue | |
sim_activate_abs add entry to event queue even if event already scheduled | |
sim_activate_notbefore add entry to event queue even if event already scheduled | |
but not before the specified time | |
sim_activate_after add entry to event queue after a specified amount of wall time | |
sim_cancel remove entry from event queue | |
sim_process_event process entries on event queue | |
sim_is_active see if entry is on event queue | |
sim_activate_time return time until activation | |
sim_atime return absolute time for an entry | |
sim_gtime return global time | |
sim_qcount return event queue entry count | |
Asynchronous events are set up by queueing a unit data structure | |
to the event queue with a timeout (in simulator units, relative | |
to the current time). Each simulator 'times' these events by | |
counting down interval counter sim_interval. When this reaches | |
zero the simulator calls sim_process_event to process the event | |
and to see if further events need to be processed, or sim_interval | |
reset to count the next one. | |
The event queue is maintained in clock order; entry timeouts are | |
RELATIVE to the time in the previous entry. | |
sim_process_event - process event | |
Inputs: | |
none | |
Outputs: | |
reason = reason code returned by any event processor, | |
or 0 (SCPE_OK) if no exceptions | |
*/ | |
t_stat sim_process_event (void) | |
{ | |
UNIT *uptr; | |
t_stat reason, bare_reason; | |
if (stop_cpu) { /* stop CPU? */ | |
stop_cpu = 0; | |
return SCPE_STOP; | |
} | |
AIO_UPDATE_QUEUE; | |
UPDATE_SIM_TIME; /* update sim time */ | |
if (sim_clock_queue == QUEUE_LIST_END) { /* queue empty? */ | |
sim_interval = noqueue_time = NOQUEUE_WAIT; /* flag queue empty */ | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Queue Empty New Interval = %d\n", sim_interval); | |
return SCPE_OK; | |
} | |
sim_processing_event = TRUE; | |
do { | |
uptr = sim_clock_queue; /* get first */ | |
sim_clock_queue = uptr->next; /* remove first */ | |
uptr->next = NULL; /* hygiene */ | |
uptr->time = 0; | |
if (sim_clock_queue != QUEUE_LIST_END) | |
sim_interval += sim_clock_queue->time; | |
else | |
sim_interval = noqueue_time = NOQUEUE_WAIT; | |
AIO_EVENT_BEGIN(uptr); | |
if (uptr->usecs_remaining) { | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Requeueing %s after %.0f usecs\n", sim_uname (uptr), uptr->usecs_remaining); | |
reason = sim_timer_activate_after (uptr, uptr->usecs_remaining); | |
} | |
else { | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Processing Event for %s\n", sim_uname (uptr)); | |
if (uptr->uname && ((*uptr->uname == '\0') || (*uptr->uname == ' '))) | |
reason = SCPE_OK; /* do nothing breakpoint location */ | |
if (uptr->action != NULL) | |
reason = uptr->action (uptr); | |
else | |
reason = SCPE_OK; | |
} | |
AIO_EVENT_COMPLETE(uptr, reason); | |
bare_reason = SCPE_BARE_STATUS (reason); | |
if ((bare_reason != SCPE_OK) && /* Provide context for unexpected errors */ | |
(bare_reason != SCPE_STOP) && | |
(bare_reason != SCPE_STEP) && | |
(bare_reason != SCPE_EXPECT) && | |
(bare_reason != SCPE_EXIT) && | |
(bare_reason != SCPE_REMOTE)) | |
reason = sim_messagef (SCPE_IERR, "\nUnexpected internal error while processing event for %s which returned %d - %s\n", sim_uname (uptr), reason, sim_error_text (reason)); | |
} while ((reason == SCPE_OK) && | |
(sim_interval <= 0) && | |
(sim_clock_queue != QUEUE_LIST_END) && | |
(!stop_cpu)); | |
if (sim_clock_queue == QUEUE_LIST_END) { /* queue empty? */ | |
sim_interval = noqueue_time = NOQUEUE_WAIT; /* flag queue empty */ | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Processing Queue Complete New Interval = %d\n", sim_interval); | |
} | |
else | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Processing Queue Complete New Interval = %d(%s)\n", sim_interval, sim_uname(sim_clock_queue)); | |
if ((reason == SCPE_OK) && stop_cpu) { | |
stop_cpu = FALSE; | |
reason = SCPE_STOP; | |
} | |
sim_processing_event = FALSE; | |
return reason; | |
} | |
/* sim_activate - activate (queue) event | |
Inputs: | |
uptr = pointer to unit | |
event_time = relative timeout | |
Outputs: | |
reason = result (SCPE_OK if ok) | |
*/ | |
t_stat sim_activate (UNIT *uptr, int32 event_time) | |
{ | |
if (uptr->dynflags & UNIT_TMR_UNIT) | |
return sim_timer_activate (uptr, event_time); | |
return _sim_activate (uptr, event_time); | |
} | |
t_stat _sim_activate (UNIT *uptr, int32 event_time) | |
{ | |
UNIT *cptr, *prvptr; | |
int32 accum; | |
AIO_ACTIVATE (_sim_activate, uptr, event_time); | |
if (sim_is_active (uptr)) /* already active? */ | |
return SCPE_OK; | |
UPDATE_SIM_TIME; /* update sim time */ | |
sim_debug (SIM_DBG_ACTIVATE, sim_dflt_dev, "Activating %s delay=%d\n", sim_uname (uptr), event_time); | |
prvptr = NULL; | |
accum = 0; | |
for (cptr = sim_clock_queue; cptr != QUEUE_LIST_END; cptr = cptr->next) { | |
if (event_time < (accum + cptr->time)) | |
break; | |
accum = accum + cptr->time; | |
prvptr = cptr; | |
} | |
if (prvptr == NULL) { /* insert at head */ | |
cptr = uptr->next = sim_clock_queue; | |
sim_clock_queue = uptr; | |
} | |
else { | |
cptr = uptr->next = prvptr->next; /* insert at prvptr */ | |
prvptr->next = uptr; | |
} | |
uptr->time = event_time - accum; | |
if (cptr != QUEUE_LIST_END) | |
cptr->time = cptr->time - uptr->time; | |
sim_interval = sim_clock_queue->time; | |
return SCPE_OK; | |
} | |
/* sim_activate_abs - activate (queue) event even if event already scheduled | |
Inputs: | |
uptr = pointer to unit | |
event_time = relative timeout | |
Outputs: | |
reason = result (SCPE_OK if ok) | |
*/ | |
t_stat sim_activate_abs (UNIT *uptr, int32 event_time) | |
{ | |
AIO_ACTIVATE (sim_activate_abs, uptr, event_time); | |
sim_cancel (uptr); | |
return _sim_activate (uptr, event_time); | |
} | |
/* sim_activate_notbefore - activate (queue) event even if event already scheduled | |
but not before the specified time | |
Inputs: | |
uptr = pointer to unit | |
rtime = relative timeout | |
Outputs: | |
reason = result (SCPE_OK if ok) | |
*/ | |
t_stat sim_activate_notbefore (UNIT *uptr, int32 rtime) | |
{ | |
uint32 rtimenow, urtime = (uint32)rtime; | |
AIO_ACTIVATE (sim_activate_notbefore, uptr, rtime); | |
sim_cancel (uptr); | |
rtimenow = sim_grtime(); | |
sim_cancel (uptr); | |
if (0x80000000 <= urtime-rtimenow) | |
return _sim_activate (uptr, 0); | |
else | |
return sim_activate (uptr, urtime-rtimenow); | |
} | |
/* sim_activate_after - activate (queue) event | |
Inputs: | |
uptr = pointer to unit | |
usec_delay = relative timeout (in microseconds) | |
Outputs: | |
reason = result (SCPE_OK if ok) | |
*/ | |
t_stat sim_activate_after_abs (UNIT *uptr, uint32 usec_delay) | |
{ | |
return _sim_activate_after_abs (uptr, usec_delay); | |
} | |
t_stat sim_activate_after_abs_d (UNIT *uptr, double usec_delay) | |
{ | |
return _sim_activate_after_abs (uptr, usec_delay); | |
} | |
t_stat _sim_activate_after_abs (UNIT *uptr, double usec_delay) | |
{ | |
AIO_VALIDATE(uptr); /* Can't call asynchronously */ | |
sim_cancel (uptr); | |
return _sim_activate_after (uptr, usec_delay); | |
} | |
t_stat sim_activate_after (UNIT *uptr, uint32 usec_delay) | |
{ | |
return _sim_activate_after (uptr, (double)usec_delay); | |
} | |
t_stat sim_activate_after_d (UNIT *uptr, double usec_delay) | |
{ | |
return _sim_activate_after (uptr, usec_delay); | |
} | |
t_stat _sim_activate_after (UNIT *uptr, double usec_delay) | |
{ | |
AIO_VALIDATE(uptr); /* Can't call asynchronously */ | |
if (sim_is_active (uptr)) /* already active? */ | |
return SCPE_OK; | |
return sim_timer_activate_after (uptr, usec_delay); | |
} | |
/* sim_cancel - cancel (dequeue) event | |
Inputs: | |
uptr = pointer to unit | |
Outputs: | |
reason = result (SCPE_OK if ok) | |
*/ | |
t_stat sim_cancel (UNIT *uptr) | |
{ | |
UNIT *cptr, *nptr; | |
AIO_VALIDATE(uptr); | |
if ((uptr->cancel) && uptr->cancel (uptr)) | |
return SCPE_OK; | |
if (uptr->dynflags & UNIT_TMR_UNIT) | |
sim_timer_cancel (uptr); | |
AIO_CANCEL(uptr); | |
AIO_UPDATE_QUEUE; | |
if (sim_clock_queue == QUEUE_LIST_END) | |
return SCPE_OK; | |
UPDATE_SIM_TIME; /* update sim time */ | |
if (!sim_is_active (uptr)) | |
return SCPE_OK; | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Event for %s\n", sim_uname(uptr)); | |
nptr = QUEUE_LIST_END; | |
if (sim_clock_queue == uptr) { | |
nptr = sim_clock_queue = uptr->next; | |
uptr->next = NULL; /* hygiene */ | |
} | |
else { | |
for (cptr = sim_clock_queue; cptr != QUEUE_LIST_END; cptr = cptr->next) { | |
if (cptr->next == uptr) { | |
nptr = cptr->next = uptr->next; | |
uptr->next = NULL; /* hygiene */ | |
break; /* end queue scan */ | |
} | |
} | |
} | |
if (nptr != QUEUE_LIST_END) | |
nptr->time += (uptr->next) ? 0 : uptr->time; | |
if (!uptr->next) | |
uptr->time = 0; | |
uptr->usecs_remaining = 0; | |
if (sim_clock_queue != QUEUE_LIST_END) | |
sim_interval = sim_clock_queue->time; | |
else sim_interval = noqueue_time = NOQUEUE_WAIT; | |
if (uptr->next) { | |
sim_printf ("Cancel failed for %s\n", sim_uname(uptr)); | |
if (sim_deb) | |
fclose(sim_deb); | |
abort (); | |
} | |
return SCPE_OK; | |
} | |
/* sim_is_active - test for entry in queue | |
Inputs: | |
uptr = pointer to unit | |
Outputs: | |
result = TRUE if unit is busy, FALSE inactive | |
*/ | |
t_bool sim_is_active (UNIT *uptr) | |
{ | |
AIO_VALIDATE(uptr); | |
AIO_UPDATE_QUEUE; | |
return (((uptr->next) || AIO_IS_ACTIVE(uptr) || ((uptr->dynflags & UNIT_TMR_UNIT) ? sim_timer_is_active (uptr) : FALSE)) ? TRUE : FALSE); | |
} | |
/* sim_activate_time - return activation time | |
Inputs: | |
uptr = pointer to unit | |
Outputs: | |
result = absolute activation time + 1, 0 if inactive | |
*/ | |
int32 _sim_activate_time (UNIT *uptr) | |
{ | |
UNIT *cptr; | |
int32 accum; | |
accum = 0; | |
for (cptr = sim_clock_queue; cptr != QUEUE_LIST_END; cptr = cptr->next) { | |
if (cptr == sim_clock_queue) { | |
if (sim_interval > 0) | |
accum = accum + sim_interval; | |
} | |
else | |
accum = accum + cptr->time; | |
if (cptr == uptr) | |
return accum + 1 + (int32)((uptr->usecs_remaining * sim_timer_inst_per_sec ()) / 1000000.0); | |
} | |
return 0; | |
} | |
int32 sim_activate_time (UNIT *uptr) | |
{ | |
int32 accum; | |
AIO_VALIDATE(uptr); | |
accum = _sim_timer_activate_time (uptr); | |
if (accum >= 0) | |
return accum; | |
return _sim_activate_time (uptr); | |
} | |
double sim_activate_time_usecs (UNIT *uptr) | |
{ | |
UNIT *cptr; | |
int32 accum; | |
double result; | |
AIO_VALIDATE(uptr); | |
result = sim_timer_activate_time_usecs (uptr); | |
if (result >= 0) | |
return result; | |
accum = 0; | |
for (cptr = sim_clock_queue; cptr != QUEUE_LIST_END; cptr = cptr->next) { | |
if (cptr == sim_clock_queue) { | |
if (sim_interval > 0) | |
accum = accum + sim_interval; | |
} | |
else | |
accum = accum + cptr->time; | |
if (cptr == uptr) | |
return 1.0 + uptr->usecs_remaining + ((1000000.0 * accum) / sim_timer_inst_per_sec ()); | |
} | |
return 0.0; | |
} | |
/* sim_gtime - return global time | |
sim_grtime - return global time with rollover | |
Inputs: none | |
Outputs: | |
time = global time | |
*/ | |
double sim_gtime (void) | |
{ | |
if (AIO_MAIN_THREAD) { | |
UPDATE_SIM_TIME; | |
} | |
return sim_time; | |
} | |
uint32 sim_grtime (void) | |
{ | |
UPDATE_SIM_TIME; | |
return sim_rtime; | |
} | |
/* sim_qcount - return queue entry count | |
Inputs: none | |
Outputs: | |
count = number of entries on the queue | |
*/ | |
int32 sim_qcount (void) | |
{ | |
int32 cnt; | |
UNIT *uptr; | |
cnt = 0; | |
for (uptr = sim_clock_queue; uptr != QUEUE_LIST_END; uptr = uptr->next) | |
cnt++; | |
return cnt; | |
} | |
/* Breakpoint package. This module replaces the VM-implemented one | |
instruction breakpoint capability. | |
Breakpoints are stored in table sim_brk_tab, which is ordered by address for | |
efficient binary searching. A breakpoint consists of a six entry structure: | |
addr address of the breakpoint | |
type types of breakpoints set on the address | |
a bit mask representing letters A-Z | |
cnt number of iterations before breakp is taken | |
action pointer command string to be executed | |
when break is taken | |
next list of other breakpoints with the same addr specifier | |
time_fired array of when this breakpoint was fired for each class | |
sim_brk_summ is a summary of the types of breakpoints that are currently set (it | |
is the bitwise OR of all the type fields). A simulator need only check for | |
a breakpoint of type X if bit SWMASK('X') is set in sim_brk_summ. | |
The package contains the following public routines: | |
sim_brk_init initialize | |
sim_brk_set set breakpoint | |
sim_brk_clr clear breakpoint | |
sim_brk_clrall clear all breakpoints | |
sim_brk_show show breakpoint | |
sim_brk_showall show all breakpoints | |
sim_brk_test test for breakpoint | |
sim_brk_npc PC has been changed | |
sim_brk_getact get next action | |
sim_brk_clract clear pending actions | |
Initialize breakpoint system. | |
*/ | |
t_stat sim_brk_init (void) | |
{ | |
int32 i; | |
for (i=0; i<sim_brk_lnt; i++) { | |
BRKTAB *bp = sim_brk_tab[i]; | |
while (bp) { | |
BRKTAB *bpt = bp->next; | |
free (bp->act); | |
free (bp); | |
bp = bpt; | |
} | |
} | |
memset (sim_brk_tab, 0, sim_brk_lnt*sizeof (BRKTAB*)); | |
sim_brk_lnt = SIM_BRK_INILNT; | |
sim_brk_tab = (BRKTAB **) realloc (sim_brk_tab, sim_brk_lnt*sizeof (BRKTAB*)); | |
if (sim_brk_tab == NULL) | |
return SCPE_MEM; | |
memset (sim_brk_tab, 0, sim_brk_lnt*sizeof (BRKTAB*)); | |
sim_brk_ent = sim_brk_ins = 0; | |
sim_brk_clract (); | |
sim_brk_npc (0); | |
return SCPE_OK; | |
} | |
/* Search for a breakpoint in the sorted breakpoint table */ | |
BRKTAB *sim_brk_fnd (t_addr loc) | |
{ | |
int32 lo, hi, p; | |
BRKTAB *bp; | |
if (sim_brk_ent == 0) { /* table empty? */ | |
sim_brk_ins = 0; /* insrt at head */ | |
return NULL; /* sch fails */ | |
} | |
lo = 0; /* initial bounds */ | |
hi = sim_brk_ent - 1; | |
do { | |
p = (lo + hi) >> 1; /* probe */ | |
bp = sim_brk_tab[p]; /* table addr */ | |
if (loc == bp->addr) { /* match? */ | |
sim_brk_ins = p; | |
return bp; | |
} | |
else | |
if (loc < bp->addr) /* go down? p is upper */ | |
hi = p - 1; | |
else | |
lo = p + 1; /* go up? p is lower */ | |
} while (lo <= hi); | |
if (loc < bp->addr) /* insrt before or */ | |
sim_brk_ins = p; | |
else | |
sim_brk_ins = p + 1; /* after last sch */ | |
return NULL; | |
} | |
BRKTAB *sim_brk_fnd_ex (t_addr loc, uint32 btyp, t_bool any_typ, uint32 spc) | |
{ | |
BRKTAB *bp = sim_brk_fnd (loc); | |
while (bp) { | |
if (any_typ ? ((bp->typ & btyp) && (bp->time_fired[spc] != sim_gtime())) : | |
(bp->typ == btyp)) | |
return bp; | |
bp = bp->next; | |
} | |
return bp; | |
} | |
/* Insert a breakpoint */ | |
BRKTAB *sim_brk_new (t_addr loc, uint32 btyp) | |
{ | |
int32 i, t; | |
BRKTAB *bp, **newp; | |
if (sim_brk_ins < 0) | |
return NULL; | |
if (sim_brk_ent >= sim_brk_lnt) { /* out of space? */ | |
t = sim_brk_lnt + SIM_BRK_INILNT; /* new size */ | |
newp = (BRKTAB **) calloc (t, sizeof (BRKTAB*)); /* new table */ | |
if (newp == NULL) /* can't extend */ | |
return NULL; | |
memcpy (newp, sim_brk_tab, sim_brk_lnt * sizeof (*sim_brk_tab));/* copy table */ | |
memset (newp + sim_brk_lnt, 0, SIM_BRK_INILNT * sizeof (*newp));/* zero new entries */ | |
free (sim_brk_tab); /* free old table */ | |
sim_brk_tab = newp; /* new base, lnt */ | |
sim_brk_lnt = t; | |
} | |
if ((sim_brk_ins == sim_brk_ent) || | |
((sim_brk_ins != sim_brk_ent) && | |
(sim_brk_tab[sim_brk_ins]->addr != loc))) { /* need to open a hole? */ | |
for (i = sim_brk_ent; i > sim_brk_ins; --i) | |
sim_brk_tab[i] = sim_brk_tab[i - 1]; | |
sim_brk_tab[sim_brk_ins] = NULL; | |
} | |
bp = (BRKTAB *)calloc (1, sizeof (*bp)); | |
bp->next = sim_brk_tab[sim_brk_ins]; | |
sim_brk_tab[sim_brk_ins] = bp; | |
if (bp->next == NULL) | |
sim_brk_ent += 1; | |
bp->addr = loc; | |
bp->typ = btyp; | |
bp->cnt = 0; | |
bp->act = NULL; | |
for (i = 0; i < SIM_BKPT_N_SPC; i++) | |
bp->time_fired[i] = -1.0; | |
return bp; | |
} | |
/* Set a breakpoint of type sw */ | |
t_stat sim_brk_set (t_addr loc, int32 sw, int32 ncnt, CONST char *act) | |
{ | |
BRKTAB *bp; | |
if ((sw == 0) || (sw == BRK_TYP_DYN_STEPOVER)) | |
sw |= sim_brk_dflt; | |
if (~sim_brk_types & sw) { | |
char gbuf[CBUFSIZE]; | |
return sim_messagef (SCPE_NOFNC, "Unknown breakpoint type; %s\n", put_switches(gbuf, sizeof(gbuf), sw & ~sim_brk_types)); | |
} | |
if ((sw & BRK_TYP_DYN_ALL) && act) /* can't specify an action with a dynamic breakpoint */ | |
return SCPE_ARG; | |
bp = sim_brk_fnd (loc); /* loc present? */ | |
if (!bp) /* no, allocate */ | |
bp = sim_brk_new (loc, sw); | |
else { | |
while (bp && (bp->typ != sw)) | |
bp = bp->next; | |
if (!bp) | |
bp = sim_brk_new (loc, sw); | |
} | |
if (!bp) /* still no? mem err */ | |
return SCPE_MEM; | |
bp->cnt = ncnt; /* set count */ | |
if ((!(sw & BRK_TYP_DYN_ALL)) && /* Not Dynamic and */ | |
(bp->act != NULL) && (act != NULL)) { /* replace old action? */ | |
free (bp->act); /* deallocate */ | |
bp->act = NULL; /* now no action */ | |
} | |
if ((act != NULL) && (*act != 0)) { /* new action? */ | |
char *newp = (char *) calloc (CBUFSIZE+1, sizeof (char)); /* alloc buf */ | |
if (newp == NULL) /* mem err? */ | |
return SCPE_MEM; | |
strlcpy (newp, act, CBUFSIZE); /* copy action */ | |
bp->act = newp; /* set pointer */ | |
} | |
sim_brk_summ = sim_brk_summ | (sw & ~BRK_TYP_TEMP); | |
return SCPE_OK; | |
} | |
/* Clear a breakpoint */ | |
t_stat sim_brk_clr (t_addr loc, int32 sw) | |
{ | |
BRKTAB *bpl = NULL; | |
BRKTAB *bp = sim_brk_fnd (loc); | |
int32 i; | |
if (!bp) /* not there? ok */ | |
return SCPE_OK; | |
if (sw == 0) | |
sw = SIM_BRK_ALLTYP; | |
while (bp) { | |
if (bp->typ == (bp->typ & sw)) { | |
free (bp->act); /* deallocate action */ | |
if (bp == sim_brk_tab[sim_brk_ins]) | |
bpl = sim_brk_tab[sim_brk_ins] = bp->next; /* remove from head of list */ | |
else | |
bpl->next = bp->next; /* remove from middle of list */ | |
free (bp); | |
bp = bpl; | |
} | |
else { | |
bpl = bp; | |
bp = bp->next; | |
} | |
} | |
if (sim_brk_tab[sim_brk_ins] == NULL) { /* erased entry */ | |
sim_brk_ent = sim_brk_ent - 1; /* decrement count */ | |
for (i = sim_brk_ins; i < sim_brk_ent; i++) /* shuffle remaining entries */ | |
sim_brk_tab[i] = sim_brk_tab[i+1]; | |
} | |
sim_brk_summ = 0; /* recalc summary */ | |
for (i = 0; i < sim_brk_ent; i++) { | |
bp = sim_brk_tab[i]; | |
while (bp) { | |
sim_brk_summ |= (bp->typ & ~BRK_TYP_TEMP); | |
bp = bp->next; | |
} | |
} | |
return SCPE_OK; | |
} | |
/* Clear all breakpoints */ | |
t_stat sim_brk_clrall (int32 sw) | |
{ | |
int32 i; | |
if (sw == 0) | |
sw = SIM_BRK_ALLTYP; | |
for (i = 0; i < sim_brk_ent;) { | |
t_addr loc = sim_brk_tab[i]->addr; | |
sim_brk_clr (loc, sw); | |
if ((i < sim_brk_ent) && | |
(loc == sim_brk_tab[i]->addr)) | |
++i; | |
} | |
return SCPE_OK; | |
} | |
/* Show a breakpoint */ | |
t_stat sim_brk_show (FILE *st, t_addr loc, int32 sw) | |
{ | |
BRKTAB *bp = sim_brk_fnd_ex (loc, sw & (~SWMASK ('C')), FALSE, 0); | |
DEVICE *dptr; | |
int32 i, any; | |
if ((sw == 0) || (sw == SWMASK ('C'))) | |
sw = SIM_BRK_ALLTYP | ((sw == SWMASK ('C')) ? SWMASK ('C') : 0); | |
if (!bp || (!(bp->typ & sw))) | |
return SCPE_OK; | |
dptr = sim_dflt_dev; | |
if (dptr == NULL) | |
return SCPE_OK; | |
if (sw & SWMASK ('C')) | |
fprintf (st, "SET BREAK "); | |
else { | |
if (sim_vm_fprint_addr) | |
sim_vm_fprint_addr (st, dptr, loc); | |
else fprint_val (st, loc, dptr->aradix, dptr->awidth, PV_LEFT); | |
fprintf (st, ":\t"); | |
} | |
for (i = any = 0; i < 26; i++) { | |
if ((bp->typ >> i) & 1) { | |
if ((sw & SWMASK ('C')) == 0) { | |
if (any) | |
fprintf (st, ", "); | |
fputc (i + 'A', st); | |
} | |
else | |
fprintf (st, "-%c", i + 'A'); | |
any = 1; | |
} | |
} | |
if (sw & SWMASK ('C')) { | |
fprintf (st, " "); | |
if (sim_vm_fprint_addr) | |
sim_vm_fprint_addr (st, dptr, loc); | |
else fprint_val (st, loc, dptr->aradix, dptr->awidth, PV_LEFT); | |
} | |
if (bp->cnt > 0) | |
fprintf (st, "[%d]", bp->cnt); | |
if (bp->act != NULL) | |
fprintf (st, "; %s", bp->act); | |
fprintf (st, "\n"); | |
return SCPE_OK; | |
} | |
/* Show all breakpoints */ | |
t_stat sim_brk_showall (FILE *st, int32 sw) | |
{ | |
int32 bit, mask, types; | |
BRKTAB **bpt; | |
if ((sw == 0) || (sw == SWMASK ('C'))) | |
sw = SIM_BRK_ALLTYP | ((sw == SWMASK ('C')) ? SWMASK ('C') : 0); | |
for (types=bit=0; bit <= ('Z'-'A'); bit++) | |
if (sim_brk_types & (1 << bit)) | |
++types; | |
if ((!(sw & SWMASK ('C'))) && sim_brk_types && (types > 1)) { | |
fprintf (st, "Supported Breakpoint Types:"); | |
for (bit=0; bit <= ('Z'-'A'); bit++) | |
if (sim_brk_types & (1 << bit)) | |
fprintf (st, " -%c", 'A' + bit); | |
fprintf (st, "\n"); | |
} | |
if (((sw & sim_brk_types) != sim_brk_types) && (types > 1)) { | |
mask = (sw & sim_brk_types); | |
fprintf (st, "Displaying Breakpoint Types:"); | |
for (bit=0; bit <= ('Z'-'A'); bit++) | |
if (mask & (1 << bit)) | |
fprintf (st, " -%c", 'A' + bit); | |
fprintf (st, "\n"); | |
} | |
for (bpt = sim_brk_tab; bpt < (sim_brk_tab + sim_brk_ent); bpt++) { | |
BRKTAB *prev = NULL; | |
BRKTAB *cur = *bpt; | |
BRKTAB *next; | |
/* First reverse the list */ | |
while (cur) { | |
next = cur->next; | |
cur->next = prev; | |
prev = cur; | |
cur = next; | |
} | |
/* save reversed list in the head pointer so lookups work */ | |
*bpt = prev; | |
/* Walk the reversed list and print it in the order it was defined in */ | |
cur = prev; | |
while (cur) { | |
if (cur->typ & sw) | |
sim_brk_show (st, cur->addr, cur->typ | ((sw & SWMASK ('C')) ? SWMASK ('C') : 0)); | |
cur = cur->next; | |
} | |
/* reversing the list again */ | |
cur = prev; | |
prev = NULL; | |
while (cur) { | |
next = cur->next; | |
cur->next = prev; | |
prev = cur; | |
cur = next; | |
} | |
/* restore original list */ | |
*bpt = prev; | |
} | |
return SCPE_OK; | |
} | |
/* Test for breakpoint */ | |
uint32 sim_brk_test (t_addr loc, uint32 btyp) | |
{ | |
BRKTAB *bp; | |
uint32 spc = (btyp >> SIM_BKPT_V_SPC) & (SIM_BKPT_N_SPC - 1); | |
if (sim_brk_summ & BRK_TYP_DYN_ALL) | |
btyp |= BRK_TYP_DYN_ALL; | |
if ((bp = sim_brk_fnd_ex (loc, btyp, TRUE, spc))) { /* in table, and type match? */ | |
if (bp->time_fired[spc] == sim_time) /* already taken? */ | |
return 0; | |
bp->time_fired[spc] = sim_time; /* remember match time */ | |
if (--bp->cnt > 0) /* count > 0? */ | |
return 0; | |
bp->cnt = 0; /* reset count */ | |
sim_brk_setact (bp->act); /* set up actions */ | |
sim_brk_match_type = btyp & bp->typ; /* set return value */ | |
if (bp->typ & BRK_TYP_TEMP) | |
sim_brk_clr (loc, bp->typ); /* delete one-shot breakpoint */ | |
sim_brk_match_addr = loc; | |
return sim_brk_match_type; | |
} | |
return 0; | |
} | |
/* Get next pending action, if any */ | |
CONST char *sim_brk_getact (char *buf, int32 size) | |
{ | |
char *ep; | |
size_t lnt; | |
if (sim_brk_act[sim_do_depth] == NULL) /* any action? */ | |
return NULL; | |
while (sim_isspace (*sim_brk_act[sim_do_depth])) /* skip spaces */ | |
sim_brk_act[sim_do_depth]++; | |
if (*sim_brk_act[sim_do_depth] == 0) { /* now empty? */ | |
return sim_brk_clract (); | |
} | |
ep = strpbrk (sim_brk_act[sim_do_depth], ";\"'"); /* search for a semicolon or single or double quote */ | |
if ((ep != NULL) && (*ep != ';')) { /* if a quoted string is present */ | |
char quote = *ep++; /* then save the opening quotation mark */ | |
while (ep [0] != '\0' && ep [0] != quote) /* while characters remain within the quotes */ | |
if (ep [0] == '\\' && ep [1] == quote) /* if an escaped quote sequence follows */ | |
ep = ep + 2; /* then skip over the pair */ | |
else /* otherwise */ | |
ep = ep + 1; /* skip the non-quote character */ | |
ep = strchr (ep, ';'); /* the next semicolon is outside the quotes if it exists */ | |
} | |
if (ep != NULL) { /* if a semicolon is present */ | |
lnt = ep - sim_brk_act[sim_do_depth]; /* cmd length */ | |
memcpy (buf, sim_brk_act[sim_do_depth], lnt + 1); /* copy with ; */ | |
buf[lnt] = 0; /* erase ; */ | |
sim_brk_act[sim_do_depth] += lnt + 1; /* adv ptr */ | |
} | |
else { | |
strlcpy (buf, sim_brk_act[sim_do_depth], size); /* copy action */ | |
sim_brk_act[sim_do_depth] = NULL; /* mark as digested */ | |
sim_brk_clract (); /* no more */ | |
} | |
sim_trim_endspc (buf); | |
sim_debug (SIM_DBG_BRK_ACTION, sim_dflt_dev, "sim_brk_getact(%d) - Returning: '%s'\n", sim_do_depth, buf); | |
return buf; | |
} | |
/* Clear pending actions */ | |
char *sim_brk_clract (void) | |
{ | |
if (sim_brk_act[sim_do_depth]) | |
sim_debug (SIM_DBG_BRK_ACTION, sim_dflt_dev, "sim_brk_clract(%d) - Clearing: '%s'\n", sim_do_depth, sim_brk_act[sim_do_depth]); | |
free (sim_brk_act_buf[sim_do_depth]); | |
return sim_brk_act[sim_do_depth] = sim_brk_act_buf[sim_do_depth] = NULL; | |
} | |
/* Set up pending actions */ | |
void sim_brk_setact (const char *action) | |
{ | |
if (action) { | |
if (sim_brk_act[sim_do_depth] && (*sim_brk_act[sim_do_depth])) { | |
/* push new actions ahead of whatever is already pending */ | |
size_t old_size = strlen (sim_brk_act[sim_do_depth]); | |
size_t new_size = strlen (action) + old_size + 3; | |
char *old_action = (char *)malloc (1 + old_size); | |
strlcpy (old_action, sim_brk_act[sim_do_depth], 1 + old_size); | |
sim_brk_act_buf[sim_do_depth] = (char *)realloc (sim_brk_act_buf[sim_do_depth], new_size); | |
strlcpy (sim_brk_act_buf[sim_do_depth], action, new_size); | |
strlcat (sim_brk_act_buf[sim_do_depth], "; ", new_size); | |
strlcat (sim_brk_act_buf[sim_do_depth], old_action, new_size); | |
sim_debug (SIM_DBG_BRK_ACTION, sim_dflt_dev, "sim_brk_setact(%d) - Pushed: '%s' ahead of: '%s'\n", sim_do_depth, action, old_action); | |
free (old_action); | |
} | |
else { | |
sim_brk_act_buf[sim_do_depth] = (char *)realloc (sim_brk_act_buf[sim_do_depth], strlen (action) + 1); | |
strcpy (sim_brk_act_buf[sim_do_depth], action); | |
sim_debug (SIM_DBG_BRK_ACTION, sim_dflt_dev, "sim_brk_setact(%d) - Set to: '%s'\n", sim_do_depth, action); | |
} | |
sim_brk_act[sim_do_depth] = sim_brk_act_buf[sim_do_depth]; | |
} | |
else | |
sim_brk_clract (); | |
} | |
char *sim_brk_replace_act (char *new_action) | |
{ | |
char *old_action = sim_brk_act_buf[sim_do_depth]; | |
sim_brk_act_buf[sim_do_depth] = new_action; | |
return old_action; | |
} | |
/* New PC */ | |
void sim_brk_npc (uint32 cnt) | |
{ | |
uint32 spc; | |
BRKTAB **bpt, *bp; | |
if ((cnt == 0) || (cnt > SIM_BKPT_N_SPC)) | |
cnt = SIM_BKPT_N_SPC; | |
for (bpt = sim_brk_tab; bpt < (sim_brk_tab + sim_brk_ent); bpt++) { | |
for (bp = *bpt; bp; bp = bp->next) { | |
for (spc = 0; spc < cnt; spc++) | |
bp->time_fired[spc] = -1.0; | |
} | |
} | |
} | |
/* Clear breakpoint space */ | |
void sim_brk_clrspc (uint32 spc, uint32 btyp) | |
{ | |
BRKTAB **bpt, *bp; | |
if (spc < SIM_BKPT_N_SPC) { | |
for (bpt = sim_brk_tab; bpt < (sim_brk_tab + sim_brk_ent); bpt++) { | |
for (bp = *bpt; bp; bp = bp->next) { | |
if (bp->typ & btyp) | |
bp->time_fired[spc] = -1.0; | |
} | |
} | |
} | |
} | |
const char *sim_brk_message(void) | |
{ | |
static char msg[256]; | |
char addr[65]; | |
char buf[32]; | |
msg[0] = '\0'; | |
if (sim_vm_sprint_addr) | |
sim_vm_sprint_addr (addr, sim_dflt_dev, (t_value)sim_brk_match_addr); | |
else sprint_val (addr, (t_value)sim_brk_match_addr, sim_dflt_dev->aradix, sim_dflt_dev->awidth, PV_LEFT); | |
if (sim_brk_type_desc) { | |
BRKTYPTAB *brk = sim_brk_type_desc; | |
while (2 == strlen (put_switches (buf, sizeof(buf), brk->btyp))) { | |
if (brk->btyp == sim_brk_match_type) { | |
sprintf (msg, "%s: %s", brk->desc, addr); | |
break; | |
} | |
brk++; | |
} | |
} | |
if (!msg[0]) | |
sprintf (msg, "%s Breakpoint at: %s\n", put_switches (buf, sizeof(buf), sim_brk_match_type), addr); | |
return msg; | |
} | |
/* Expect package. This code provides a mechanism to stop and control simulator | |
execution based on traffic coming out of simulated ports and as well as a means | |
to inject data into those ports. It can conceptually viewed as a string | |
breakpoint package. | |
Expect rules are stored in tables associated with each port which can use this | |
facility. An expect rule consists of a five entry structure: | |
match the expect match string | |
size the number of bytes in the match string | |
match_pattern the expect match string in display format | |
cnt number of iterations before match is declared | |
action command string to be executed when match occurs | |
All active expect rules are contained in an expect match context structure. | |
rules the match rules | |
size the count of match rules | |
buf the buffer of output data which has been produced | |
buf_ins the buffer insertion point for the next output data | |
buf_size the buffer size | |
The package contains the following public routines: | |
sim_set_expect expect command parser and intializer | |
sim_set_noexpect noexpect command parser | |
sim_exp_init initialize an expect context | |
sim_exp_set set or add an expect rule | |
sim_exp_clr clear or delete an expect rule | |
sim_exp_clrall clear all expect rules | |
sim_exp_show show an expect rule | |
sim_exp_showall show all expect rules | |
sim_exp_check test for rule match | |
*/ | |
/* Initialize an expect context. */ | |
t_stat sim_exp_init (EXPECT *exp) | |
{ | |
memset (exp, 0, sizeof(*exp)); | |
return SCPE_OK; | |
} | |
/* Set expect */ | |
t_stat sim_set_expect (EXPECT *exp, CONST char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
CONST char *tptr; | |
CONST char *c1ptr; | |
const char *dev_name; | |
uint32 after; | |
t_bool after_set = FALSE; | |
int32 cnt = 0; | |
t_stat r; | |
if ((cptr == NULL) || (*cptr == 0)) | |
return SCPE_2FARG; | |
dev_name = tmxr_expect_line_name (exp); | |
after = get_default_env_parameter (dev_name, "SIM_EXPECT_HALTAFTER", 0); | |
if (*cptr == '[') { | |
cnt = (int32) strtotv (cptr + 1, &c1ptr, 10); | |
if ((cptr == c1ptr) || (*c1ptr != ']')) | |
return sim_messagef (SCPE_ARG, "Invalid Repeat count specification\n"); | |
cptr = c1ptr + 1; | |
while (sim_isspace(*cptr)) | |
++cptr; | |
} | |
tptr = get_glyph (cptr, gbuf, ','); | |
if ((!strncmp(gbuf, "HALTAFTER=", 10)) && (gbuf[10])) { | |
after = (uint32)get_uint (&gbuf[10], 10, 100000000, &r); | |
if (r != SCPE_OK) | |
return sim_messagef (SCPE_ARG, "Invalid Halt After Value\n"); | |
cptr = tptr; | |
after_set = TRUE; | |
} | |
if ((*cptr != '\0') && (*cptr != '"') && (*cptr != '\'')) | |
return sim_messagef (SCPE_ARG, "String must be quote delimited\n"); | |
cptr = get_glyph_quoted (cptr, gbuf, 0); | |
/* Hsndle a bare HALTAFTER=nnn command */ | |
if ((gbuf[0] == '\0') && (*cptr == '\0') && after_set) { | |
set_default_env_parameter (dev_name, "SIM_EXPECT_HALTAFTER", after); | |
return SCPE_OK; | |
} | |
return sim_exp_set (exp, gbuf, cnt, after, sim_switches, cptr); | |
} | |
/* Clear expect */ | |
t_stat sim_set_noexpect (EXPECT *exp, const char *cptr) | |
{ | |
char gbuf[CBUFSIZE]; | |
if (!cptr || !*cptr) | |
return sim_exp_clrall (exp); /* clear all rules */ | |
if ((*cptr != '"') && (*cptr != '\'')) | |
return sim_messagef (SCPE_ARG, "String must be quote delimited\n"); | |
cptr = get_glyph_quoted (cptr, gbuf, 0); | |
if (*cptr != '\0') | |
return SCPE_2MARG; /* No more arguments */ | |
return sim_exp_clr (exp, gbuf); /* clear one rule */ | |
} | |
/* Search for an expect rule in an expect context */ | |
CONST EXPTAB *sim_exp_fnd (CONST EXPECT *exp, const char *match, int32 start_rule) | |
{ | |
int32 i; | |
if (!exp->rules) | |
return NULL; | |
for (i=start_rule; i<exp->size; i++) | |
if (!strcmp (exp->rules[i].match_pattern, match)) | |
return &exp->rules[i]; | |
return NULL; | |
} | |
/* Clear (delete) an expect rule */ | |
t_stat sim_exp_clr_tab (EXPECT *exp, EXPTAB *ep) | |
{ | |
int32 i; | |
if (!ep) /* not there? ok */ | |
return SCPE_OK; | |
free (ep->match); /* deallocate match string */ | |
free (ep->match_pattern); /* deallocate the display format match string */ | |
free (ep->act); /* deallocate action */ | |
#if defined(USE_REGEX) | |
if (ep->switches & EXP_TYP_REGEX) | |
regfree (&ep->regex); /* release compiled regex */ | |
#endif | |
exp->size -= 1; /* decrement count */ | |
for (i=ep-exp->rules; i<exp->size; i++) /* shuffle up remaining rules */ | |
exp->rules[i] = exp->rules[i+1]; | |
if (exp->size == 0) { /* No rules left? */ | |
free (exp->rules); | |
exp->rules = NULL; | |
} | |
return SCPE_OK; | |
} | |
t_stat sim_exp_clr (EXPECT *exp, const char *match) | |
{ | |
EXPTAB *ep = (EXPTAB *)sim_exp_fnd (exp, match, 0); | |
while (ep) { | |
sim_exp_clr_tab (exp, ep); | |
ep = (EXPTAB *)sim_exp_fnd (exp, match, ep - exp->rules); | |
} | |
return SCPE_OK; | |
} | |
/* Clear all expect rules */ | |
t_stat sim_exp_clrall (EXPECT *exp) | |
{ | |
int32 i; | |
for (i=0; i<exp->size; i++) { | |
free (exp->rules[i].match); /* deallocate match string */ | |
free (exp->rules[i].match_pattern); /* deallocate display format match string */ | |
free (exp->rules[i].act); /* deallocate action */ | |
} | |
free (exp->rules); | |
exp->rules = NULL; | |
exp->size = 0; | |
free (exp->buf); | |
exp->buf = NULL; | |
exp->buf_size = 0; | |
exp->buf_data = exp->buf_ins = 0; | |
return SCPE_OK; | |
} | |
/* Set/Add an expect rule */ | |
t_stat sim_exp_set (EXPECT *exp, const char *match, int32 cnt, uint32 after, int32 switches, const char *act) | |
{ | |
EXPTAB *ep; | |
uint8 *match_buf; | |
uint32 match_size; | |
int i; | |
/* Validate the match string */ | |
match_buf = (uint8 *)calloc (strlen (match) + 1, 1); | |
if (!match_buf) | |
return SCPE_MEM; | |
if (switches & EXP_TYP_REGEX) { | |
#if !defined (USE_REGEX) | |
free (match_buf); | |
return sim_messagef (SCPE_ARG, "RegEx support not available\n"); | |
} | |
#else /* USE_REGEX */ | |
int res; | |
regex_t re; | |
memset (&re, 0, sizeof(re)); | |
memcpy (match_buf, match+1, strlen(match)-2); /* extract string without surrounding quotes */ | |
match_buf[strlen(match)-2] = '\0'; | |
res = regcomp (&re, (char *)match_buf, REG_EXTENDED | ((switches & EXP_TYP_REGEX_I) ? REG_ICASE : 0)); | |
if (res) { | |
size_t err_size = regerror (res, &re, NULL, 0); | |
char *err_buf = (char *)calloc (err_size+1, 1); | |
regerror (res, &re, err_buf, err_size); | |
sim_messagef (SCPE_ARG, "Regular Expression Error: %s\n", err_buf); | |
free (err_buf); | |
free (match_buf); | |
return SCPE_ARG|SCPE_NOMESSAGE; | |
} | |
sim_debug (exp->dbit, exp->dptr, "Expect Regular Expression: \"%s\" has %d sub expressions\n", match_buf, (int)re.re_nsub); | |
regfree (&re); | |
} | |
#endif | |
else { | |
if (switches & EXP_TYP_REGEX_I) { | |
free (match_buf); | |
return sim_messagef (SCPE_ARG, "Case independed matching is only valid for RegEx expect rules\n"); | |
} | |
sim_data_trace(exp->dptr, exp->dptr->units, (const uint8 *)match, "", strlen(match)+1, "Expect Match String", exp->dbit); | |
if (SCPE_OK != sim_decode_quoted_string (match, match_buf, &match_size)) { | |
free (match_buf); | |
return sim_messagef (SCPE_ARG, "Invalid quoted string\n"); | |
} | |
} | |
free (match_buf); | |
for (i=0; i<exp->size; i++) { /* Make sure this rule won't be occluded */ | |
if ((0 == strcmp (match, exp->rules[i].match_pattern)) && | |
(exp->rules[i].switches & EXP_TYP_PERSIST)) | |
return sim_messagef (SCPE_ARG, "Persistent Expect rule with identical match string already exists\n"); | |
} | |
if (after && exp->size) | |
return sim_messagef (SCPE_ARG, "Multiple concurrent EXPECT rules aren't valid when a HALTAFTER parameter is non-zero\n"); | |
exp->rules = (EXPTAB *) realloc (exp->rules, sizeof (*exp->rules)*(exp->size + 1)); | |
ep = &exp->rules[exp->size]; | |
exp->size += 1; | |
memset (ep, 0, sizeof(*ep)); | |
ep->after = after; /* set halt after value */ | |
ep->match_pattern = (char *)malloc (strlen (match) + 1); | |
if (ep->match_pattern) | |
strcpy (ep->match_pattern, match); | |
ep->cnt = cnt; /* set proceed count */ | |
ep->switches = switches; /* set switches */ | |
match_buf = (uint8 *)calloc (strlen (match) + 1, 1); | |
if ((match_buf == NULL) || (ep->match_pattern == NULL)) { | |
sim_exp_clr_tab (exp, ep); /* clear it */ | |
free (match_buf); | |
return SCPE_MEM; | |
} | |
if (switches & EXP_TYP_REGEX) { | |
#if defined(USE_REGEX) | |
memcpy (match_buf, match+1, strlen(match)-2); /* extract string without surrounding quotes */ | |
match_buf[strlen(match)-2] = '\0'; | |
regcomp (&ep->regex, (char *)match_buf, REG_EXTENDED); | |
#endif | |
free (match_buf); | |
match_buf = NULL; | |
} | |
else { | |
sim_data_trace(exp->dptr, exp->dptr->units, (const uint8 *)match, "", strlen(match)+1, "Expect Match String", exp->dbit); | |
/* quoted string was validated above, this decode operation will always succeed */ | |
(void)sim_decode_quoted_string (match, match_buf, &match_size); | |
ep->match = match_buf; | |
ep->size = match_size; | |
} | |
ep->match_pattern = (char *)malloc (strlen (match) + 1); | |
strcpy (ep->match_pattern, match); | |
if (ep->act) { /* replace old action? */ | |
free (ep->act); /* deallocate */ | |
ep->act = NULL; /* now no action */ | |
} | |
if (act) | |
while (sim_isspace(*act)) ++act; /* skip leading spaces in action string */ | |
if ((act != NULL) && (*act != 0)) { /* new action? */ | |
char *newp; | |
if ((act > sim_sub_instr_buf) && ((size_t)(act - sim_sub_instr_buf) < sim_sub_instr_size)) | |
act = &sim_sub_instr[sim_sub_instr_off[act - sim_sub_instr_buf]]; /* get un-substituted string */ | |
newp = (char *) calloc (strlen (act)+1, sizeof (*act)); /* alloc buf */ | |
if (newp == NULL) /* mem err? */ | |
return SCPE_MEM; | |
strcpy (newp, act); /* copy action */ | |
ep->act = newp; /* set pointer */ | |
} | |
/* Make sure that the production buffer is large enough to detect a match for all rules including a NUL termination byte */ | |
for (i=0; i<exp->size; i++) { | |
uint32 compare_size = (exp->rules[i].switches & EXP_TYP_REGEX) ? MAX(10 * strlen(ep->match_pattern), 1024) : exp->rules[i].size; | |
if (compare_size >= exp->buf_size) { | |
exp->buf = (uint8 *)realloc (exp->buf, compare_size + 2); /* Extra byte to null terminate regex compares */ | |
exp->buf_size = compare_size + 1; | |
} | |
} | |
return SCPE_OK; | |
} | |
/* Show an expect rule */ | |
t_stat sim_exp_show_tab (FILE *st, const EXPECT *exp, const EXPTAB *ep) | |
{ | |
const char *dev_name = tmxr_expect_line_name (exp); | |
uint32 default_haltafter = get_default_env_parameter (dev_name, "SIM_EXPECT_HALTAFTER", 0); | |
if (!ep) | |
return SCPE_OK; | |
fprintf (st, " EXPECT"); | |
if (ep->switches & EXP_TYP_PERSIST) | |
fprintf (st, " -p"); | |
if (ep->switches & EXP_TYP_CLEARALL) | |
fprintf (st, " -c"); | |
if (ep->switches & EXP_TYP_REGEX) | |
fprintf (st, " -r"); | |
if (ep->switches & EXP_TYP_REGEX_I) | |
fprintf (st, " -i"); | |
if (ep->after != default_haltafter) | |
fprintf (st, " HALTAFTER=%d", (int)ep->after); | |
fprintf (st, " %s", ep->match_pattern); | |
if (ep->cnt > 0) | |
fprintf (st, " [%d]", ep->cnt); | |
if (ep->act) | |
fprintf (st, " %s", ep->act); | |
fprintf (st, "\n"); | |
return SCPE_OK; | |
} | |
t_stat sim_exp_show (FILE *st, CONST EXPECT *exp, const char *match) | |
{ | |
CONST EXPTAB *ep = (CONST EXPTAB *)sim_exp_fnd (exp, match, 0); | |
const char *dev_name = tmxr_expect_line_name (exp); | |
uint32 default_haltafter = get_default_env_parameter (dev_name, "SIM_EXPECT_HALTAFTER", 0); | |
if (exp->buf_size) { | |
char *bstr = sim_encode_quoted_string (exp->buf, exp->buf_ins); | |
fprintf (st, " Match Buffer Size: %d\n", exp->buf_size); | |
fprintf (st, " Buffer Insert Offset: %d\n", exp->buf_ins); | |
fprintf (st, " Buffer Contents: %s\n", bstr); | |
if (default_haltafter) | |
fprintf (st, " Default HaltAfter: %u instructions\n", (unsigned)default_haltafter); | |
free (bstr); | |
} | |
if (exp->dptr && (exp->dbit & exp->dptr->dctrl)) | |
fprintf (st, " Expect Debugging via: SET %s DEBUG%s%s\n", sim_dname(exp->dptr), exp->dptr->debflags ? "=" : "", exp->dptr->debflags ? _get_dbg_verb (exp->dbit, exp->dptr, NULL) : ""); | |
fprintf (st, " Match Rules:\n"); | |
if (!*match) | |
return sim_exp_showall (st, exp); | |
if (!ep) { | |
fprintf (st, " No Rules match '%s'\n", match); | |
return SCPE_ARG; | |
} | |
do { | |
sim_exp_show_tab (st, exp, ep); | |
ep = (CONST EXPTAB *)sim_exp_fnd (exp, match, 1 + (ep - exp->rules)); | |
} while (ep); | |
return SCPE_OK; | |
} | |
/* Show all expect rules */ | |
t_stat sim_exp_showall (FILE *st, const EXPECT *exp) | |
{ | |
int32 i; | |
for (i=0; i < exp->size; i++) | |
sim_exp_show_tab (st, exp, &exp->rules[i]); | |
return SCPE_OK; | |
} | |
/* Test for expect match */ | |
t_stat sim_exp_check (EXPECT *exp, uint8 data) | |
{ | |
int32 i; | |
EXPTAB *ep; | |
int regex_checks = 0; | |
char *tstr = NULL; | |
if ((!exp) || (!exp->rules)) /* Anying to check? */ | |
return SCPE_OK; | |
exp->buf[exp->buf_ins++] = data; /* Save new data */ | |
exp->buf[exp->buf_ins] = '\0'; /* Nul terminate for RegEx match */ | |
if (exp->buf_data < exp->buf_size) | |
++exp->buf_data; /* Record amount of data in buffer */ | |
for (i=0; i < exp->size; i++) { | |
ep = &exp->rules[i]; | |
if (ep->switches & EXP_TYP_REGEX) { | |
#if defined (USE_REGEX) | |
regmatch_t *matches; | |
char *cbuf = (char *)exp->buf; | |
static size_t sim_exp_match_sub_count = 0; | |
if (tstr) | |
cbuf = tstr; | |
else { | |
if (strlen ((char *)exp->buf) != exp->buf_ins) { /* Nul characters in buffer? */ | |
size_t off; | |
tstr = (char *)malloc (exp->buf_ins + 1); | |
tstr[0] = '\0'; | |
for (off=0; off < exp->buf_ins; off += 1 + strlen ((char *)&exp->buf[off])) | |
strcpy (&tstr[strlen (tstr)], (char *)&exp->buf[off]); | |
cbuf = tstr; | |
} | |
} | |
++regex_checks; | |
matches = (regmatch_t *)calloc ((ep->regex.re_nsub + 1), sizeof(*matches)); | |
if (sim_deb && exp->dptr && (exp->dptr->dctrl & exp->dbit)) { | |
char *estr = sim_encode_quoted_string (exp->buf, exp->buf_ins); | |
sim_debug (exp->dbit, exp->dptr, "Checking String: %s\n", estr); | |
sim_debug (exp->dbit, exp->dptr, "Against RegEx Match Rule: %s\n", ep->match_pattern); | |
free (estr); | |
} | |
if (!regexec (&ep->regex, cbuf, ep->regex.re_nsub + 1, matches, REG_NOTBOL)) { | |
size_t j; | |
char *buf = (char *)malloc (1 + exp->buf_ins); | |
for (j=0; j<ep->regex.re_nsub + 1; j++) { | |
char env_name[32]; | |
sprintf (env_name, "_EXPECT_MATCH_GROUP_%d", (int)j); | |
memcpy (buf, &cbuf[matches[j].rm_so], matches[j].rm_eo-matches[j].rm_so); | |
buf[matches[j].rm_eo-matches[j].rm_so] = '\0'; | |
setenv (env_name, buf, 1); /* Make the match and substrings available as environment variables */ | |
sim_debug (exp->dbit, exp->dptr, "%s=%s\n", env_name, buf); | |
} | |
for (; j<sim_exp_match_sub_count; j++) { | |
char env_name[32]; | |
sprintf (env_name, "_EXPECT_MATCH_GROUP_%d", (int)j); | |
setenv (env_name, "", 1); /* Remove previous extra environment variables */ | |
} | |
sim_exp_match_sub_count = ep->regex.re_nsub; | |
free (matches); | |
free (buf); | |
break; | |
} | |
free (matches); | |
#endif | |
} | |
else { | |
if (exp->buf_data < ep->size) /* Too little data to match yet? */ | |
continue; /* Yes, Try next one. */ | |
if (exp->buf_ins < ep->size) { /* Match might stradle end of buffer */ | |
/* | |
* First compare the newly deposited data at the beginning | |
* of buffer with the end of the match string | |
*/ | |
if (exp->buf_ins) { | |
if (sim_deb && exp->dptr && (exp->dptr->dctrl & exp->dbit)) { | |
char *estr = sim_encode_quoted_string (exp->buf, exp->buf_ins); | |
char *mstr = sim_encode_quoted_string (&ep->match[ep->size-exp->buf_ins], exp->buf_ins); | |
sim_debug (exp->dbit, exp->dptr, "Checking String[0:%d]: %s\n", exp->buf_ins, estr); | |
sim_debug (exp->dbit, exp->dptr, "Against Match Data: %s\n", mstr); | |
free (estr); | |
free (mstr); | |
} | |
if (memcmp (exp->buf, &ep->match[ep->size-exp->buf_ins], exp->buf_ins)) /* Tail Match? */ | |
continue; /* Nope, Try next one. */ | |
} | |
if (sim_deb && exp->dptr && (exp->dptr->dctrl & exp->dbit)) { | |
char *estr = sim_encode_quoted_string (&exp->buf[exp->buf_size-(ep->size-exp->buf_ins)], ep->size-exp->buf_ins); | |
char *mstr = sim_encode_quoted_string (ep->match, ep->size-exp->buf_ins); | |
sim_debug (exp->dbit, exp->dptr, "Checking String[%d:%d]: %s\n", exp->buf_size-(ep->size-exp->buf_ins), ep->size-exp->buf_ins, estr); | |
sim_debug (exp->dbit, exp->dptr, "Against Match Data: %s\n", mstr); | |
free (estr); | |
free (mstr); | |
} | |
if (memcmp (&exp->buf[exp->buf_size-(ep->size-exp->buf_ins)], ep->match, ep->size-exp->buf_ins)) /* Front Match? */ | |
continue; /* Nope, Try next one. */ | |
break; | |
} | |
else { | |
if (sim_deb && exp->dptr && (exp->dptr->dctrl & exp->dbit)) { | |
char *estr = sim_encode_quoted_string (&exp->buf[exp->buf_ins-ep->size], ep->size); | |
char *mstr = sim_encode_quoted_string (ep->match, ep->size); | |
sim_debug (exp->dbit, exp->dptr, "Checking String[%d:%d]: %s\n", exp->buf_ins-ep->size, ep->size, estr); | |
sim_debug (exp->dbit, exp->dptr, "Against Match Data: %s\n", mstr); | |
free (estr); | |
free (mstr); | |
} | |
if (memcmp (&exp->buf[exp->buf_ins-ep->size], ep->match, ep->size)) /* Whole string match? */ | |
continue; /* Nope, Try next one. */ | |
break; | |
} | |
} | |
} | |
if (exp->buf_ins == exp->buf_size) { /* At end of match buffer? */ | |
if (regex_checks) { | |
/* When processing regular expressions, let the match buffer fill | |
up and then shuffle the buffer contents down by half the buffer size | |
so that the regular expression has a single contiguous buffer to | |
match against instead of the wrapping buffer paradigm which is | |
used when no regular expression rules are in effect */ | |
memmove (exp->buf, &exp->buf[exp->buf_size/2], exp->buf_size-(exp->buf_size/2)); | |
exp->buf_ins -= exp->buf_size/2; | |
exp->buf_data = exp->buf_ins; | |
sim_debug (exp->dbit, exp->dptr, "Buffer Full - sliding the last %d bytes to start of buffer new insert at: %d\n", (exp->buf_size/2), exp->buf_ins); | |
} | |
else { | |
exp->buf_ins = 0; /* wrap around to beginning */ | |
sim_debug (exp->dbit, exp->dptr, "Buffer wrapping\n"); | |
} | |
} | |
if (i != exp->size) { /* Found? */ | |
sim_debug (exp->dbit, exp->dptr, "Matched expect pattern: %s\n", ep->match_pattern); | |
setenv ("_EXPECT_MATCH_PATTERN", ep->match_pattern, 1); /* Make the match detail available as an environment variable */ | |
if (ep->cnt > 0) { | |
ep->cnt -= 1; | |
sim_debug (exp->dbit, exp->dptr, "Waiting for %d more match%s before stopping\n", | |
ep->cnt, (ep->cnt == 1) ? "" : "es"); | |
} | |
else { | |
uint32 after = ep->after; | |
int32 switches = ep->switches; | |
if (ep->act && *ep->act) { | |
sim_debug (exp->dbit, exp->dptr, "Initiating actions: %s\n", ep->act); | |
} | |
else { | |
sim_debug (exp->dbit, exp->dptr, "No actions specified, stopping...\n"); | |
} | |
sim_brk_setact (ep->act); /* set up actions */ | |
if (ep->switches & EXP_TYP_CLEARALL) /* Clear-all expect rule? */ | |
sim_exp_clrall (exp); /* delete all rules */ | |
else { | |
if (!(ep->switches & EXP_TYP_PERSIST)) /* One shot expect rule? */ | |
sim_exp_clr_tab (exp, ep); /* delete it */ | |
} | |
sim_activate (&sim_expect_unit, /* schedule simulation stop when indicated */ | |
(switches & EXP_TYP_TIME) ? | |
(int32)((sim_timer_inst_per_sec ()*after)/1000000.0) : | |
after); | |
} | |
/* Matched data is no longer available for future matching */ | |
exp->buf_data = exp->buf_ins = 0; | |
} | |
free (tstr); | |
return SCPE_OK; | |
} | |
/* Queue input data for sending */ | |
t_stat sim_send_input (SEND *snd, uint8 *data, size_t size, uint32 after, uint32 delay) | |
{ | |
if (snd->extoff != 0) { | |
if (snd->insoff-snd->extoff > 0) | |
memmove(snd->buffer, snd->buffer+snd->extoff, snd->insoff-snd->extoff); | |
snd->insoff -= snd->extoff; | |
snd->extoff -= snd->extoff; | |
} | |
if (snd->insoff+size > snd->bufsize) { | |
snd->bufsize = snd->insoff+size; | |
snd->buffer = (uint8 *)realloc(snd->buffer, snd->bufsize); | |
} | |
memcpy(snd->buffer+snd->insoff, data, size); | |
snd->insoff += size; | |
snd->delay = (sim_switches & SWMASK ('T')) ? (uint32)((sim_timer_inst_per_sec()*delay)/1000000.0) : delay; | |
snd->after = (sim_switches & SWMASK ('T')) ? (uint32)((sim_timer_inst_per_sec()*after)/1000000.0) : after; | |
snd->next_time = sim_gtime() + snd->after; | |
return SCPE_OK; | |
} | |
/* Cancel Queued input data */ | |
t_stat sim_send_clear (SEND *snd) | |
{ | |
snd->insoff = 0; | |
snd->extoff = 0; | |
return SCPE_OK; | |
} | |
/* Display console Queued input data status */ | |
t_stat sim_show_send_input (FILE *st, const SEND *snd) | |
{ | |
const char *dev_name = tmxr_send_line_name (snd); | |
uint32 delay = get_default_env_parameter (dev_name, "SIM_SEND_DELAY", SEND_DEFAULT_DELAY); | |
uint32 after = get_default_env_parameter (dev_name, "SIM_SEND_AFTER", delay); | |
fprintf (st, "%s\n", tmxr_send_line_name (snd)); | |
if (snd->extoff < snd->insoff) { | |
fprintf (st, " %d bytes of pending input Data:\n ", snd->insoff-snd->extoff); | |
fprint_buffer_string (st, snd->buffer+snd->extoff, snd->insoff-snd->extoff); | |
fprintf (st, "\n"); | |
} | |
else | |
fprintf (st, " No Pending Input Data\n"); | |
if ((snd->next_time - sim_gtime()) > 0) { | |
if (((snd->next_time - sim_gtime()) > (sim_timer_inst_per_sec()/1000000.0)) && ((sim_timer_inst_per_sec()/1000000.0) > 0.0)) | |
fprintf (st, " Minimum of %d instructions (%d microseconds) before sending first character\n", (int)(snd->next_time - sim_gtime()), | |
(int)((snd->next_time - sim_gtime())/(sim_timer_inst_per_sec()/1000000.0))); | |
else | |
fprintf (st, " Minimum of %d instructions before sending first character\n", (int)(snd->next_time - sim_gtime())); | |
} | |
if ((snd->delay > (sim_timer_inst_per_sec()/1000000.0)) && ((sim_timer_inst_per_sec()/1000000.0) > 0.0)) | |
fprintf (st, " Minimum of %d instructions (%d microseconds) between characters\n", (int)snd->delay, (int)(snd->delay/(sim_timer_inst_per_sec()/1000000.0))); | |
else | |
fprintf (st, " Minimum of %d instructions between characters\n", (int)snd->delay); | |
if (after) | |
fprintf (st, " Default delay before first character input is %u instructions\n", after); | |
if (delay) | |
fprintf (st, " Default delay between character input is %u instructions\n", after); | |
if (snd->dptr && (snd->dbit & snd->dptr->dctrl)) | |
fprintf (st, " Send Debugging via: SET %s DEBUG%s%s\n", sim_dname(snd->dptr), snd->dptr->debflags ? "=" : "", snd->dptr->debflags ? _get_dbg_verb (snd->dbit, snd->dptr, NULL) : ""); | |
return SCPE_OK; | |
} | |
/* Poll for Queued input data */ | |
t_bool sim_send_poll_data (SEND *snd, t_stat *stat) | |
{ | |
if (snd && (snd->extoff < snd->insoff)) { /* pending input characters available? */ | |
if (sim_gtime() < snd->next_time) { /* too soon? */ | |
*stat = SCPE_OK; | |
sim_debug (snd->dbit, snd->dptr, "Too soon to inject next byte\n"); | |
} | |
else { | |
char dstr[8] = ""; | |
*stat = snd->buffer[snd->extoff++] | SCPE_KFLAG;/* get one */ | |
snd->next_time = sim_gtime() + snd->delay; | |
if (sim_isgraph(*stat & 0xFF) || ((*stat & 0xFF) == ' ')) | |
sprintf (dstr, " '%c'", *stat & 0xFF); | |
sim_debug (snd->dbit, snd->dptr, "Byte value: 0x%02X%s injected\n", *stat & 0xFF, dstr); | |
} | |
return TRUE; | |
} | |
return FALSE; | |
} | |
/* Message Text */ | |
const char *sim_error_text (t_stat stat) | |
{ | |
static char msgbuf[64]; | |
stat &= ~(SCPE_KFLAG|SCPE_BREAK|SCPE_NOMESSAGE); /* remove any flags */ | |
if (stat == SCPE_OK) | |
return "No Error"; | |
if ((stat >= SCPE_BASE) && (stat <= SCPE_MAX_ERR)) | |
return scp_errors[stat-SCPE_BASE].message; | |
sprintf(msgbuf, "Error %d", stat); | |
return msgbuf; | |
} | |
t_stat sim_string_to_stat (const char *cptr, t_stat *stat) | |
{ | |
char gbuf[CBUFSIZE]; | |
int32 cond; | |
*stat = SCPE_ARG; | |
cptr = get_glyph (cptr, gbuf, 0); | |
if (0 == memcmp("SCPE_", gbuf, 5)) | |
memmove (gbuf, gbuf+5, 1 + strlen (gbuf+5));/* skip leading SCPE_ */ | |
for (cond=0; cond <= (SCPE_MAX_ERR-SCPE_BASE); cond++) | |
if (0 == strcmp(scp_errors[cond].code, gbuf)) { | |
cond += SCPE_BASE; | |
break; | |
} | |
if (0 == strcmp(gbuf, "OK")) | |
cond = SCPE_OK; | |
if (cond == (1+SCPE_MAX_ERR-SCPE_BASE)) { /* not found? */ | |
if (0 == (cond = strtol(gbuf, NULL, 0))) /* try explicit number */ | |
return SCPE_ARG; | |
} | |
*stat = cond; | |
if (cond > SCPE_MAX_ERR) | |
return SCPE_ARG; | |
return SCPE_OK; | |
} | |
/* Debug printout routines, from Dave Hittner */ | |
const char *debug_bstates = "01_^"; | |
AIO_TLS char debug_line_prefix[256]; | |
int32 debug_unterm = 0; | |
char *debug_line_buf_last = NULL; | |
size_t debug_line_buf_last_endprefix_offset = 0; | |
AIO_TLS char debug_line_last_prefix[256]; | |
char *debug_line_buf = NULL; | |
size_t debug_line_bufsize = 0; | |
size_t debug_line_offset = 0; | |
size_t debug_line_count = 0; | |
/* | |
* Optionally filter debug output to summarize duplicate debug lines | |
*/ | |
static void _sim_debug_write_flush (const char *buf, size_t len, t_bool flush) | |
{ | |
char *eol; | |
if (!(sim_deb_switches & SWMASK ('F'))) { /* filtering disabled? */ | |
if (len > 0) | |
fwrite (buf, 1, len, sim_deb); /* output now. */ | |
return; /* done */ | |
} | |
if (debug_line_offset + len + 1 > debug_line_bufsize) { | |
debug_line_bufsize += MAX(1024, debug_line_offset + len + 1); | |
debug_line_buf = (char *)realloc (debug_line_buf, debug_line_bufsize); | |
debug_line_buf_last = (char *)realloc (debug_line_buf_last, debug_line_bufsize); | |
} | |
memcpy (&debug_line_buf[debug_line_offset], buf, len); | |
debug_line_buf[debug_line_offset + len] = '\0'; | |
debug_line_offset += len; | |
while ((eol = strchr (debug_line_buf, '\n')) || flush) { | |
char *endprefix = strstr (debug_line_buf, ")> "); | |
size_t linesize = (eol - debug_line_buf) + 1; | |
if ((0 != memcmp ("DBG(", debug_line_buf, 4)) || (endprefix == NULL)) { | |
if (debug_line_count > 0) | |
fwrite (debug_line_buf_last, 1, strlen (debug_line_buf_last), sim_deb); | |
if (debug_line_count > 1) { | |
char countstr[32]; | |
sprintf (countstr, "same as above (%d time%s)\r\n", (int)(debug_line_count - 1), ((debug_line_count - 1) != 1) ? "s" : ""); | |
fwrite (debug_line_last_prefix, 1, strlen (debug_line_last_prefix), sim_deb); | |
fwrite (countstr, 1, strlen (countstr), sim_deb); | |
} | |
if (flush) { | |
linesize = debug_line_offset; | |
flush = FALSE; /* already flushed */ | |
} | |
if (linesize) | |
fwrite (debug_line_buf, 1, linesize, sim_deb); | |
debug_line_count = 0; | |
} | |
else { | |
if (debug_line_count == 0) { | |
debug_line_buf_last_endprefix_offset = endprefix - debug_line_buf; | |
memcpy (debug_line_buf_last, debug_line_buf, linesize); | |
debug_line_buf_last[linesize] = '\0'; | |
debug_line_count = 1; | |
} | |
else { | |
if (0 == memcmp (&debug_line_buf[endprefix - debug_line_buf], | |
&debug_line_buf_last[debug_line_buf_last_endprefix_offset], | |
(eol - endprefix)+ 1)) { | |
++debug_line_count; | |
memcpy (debug_line_last_prefix, debug_line_buf, (endprefix - debug_line_buf) + 3); | |
debug_line_last_prefix[(endprefix - debug_line_buf) + 3] = '\0'; | |
} | |
else { | |
fwrite (debug_line_buf_last, 1, strlen (debug_line_buf_last), sim_deb); | |
if (debug_line_count > 1) { | |
char countstr[32]; | |
sprintf (countstr, "same as above (%d time%s)\r\n", (int)(debug_line_count - 1), ((debug_line_count - 1) != 1) ? "s" : ""); | |
fwrite (debug_line_last_prefix, 1, strlen (debug_line_last_prefix), sim_deb); | |
fwrite (countstr, 1, strlen (countstr), sim_deb); | |
} | |
debug_line_buf_last_endprefix_offset = endprefix - debug_line_buf; | |
memcpy (debug_line_buf_last, debug_line_buf, linesize); | |
debug_line_buf_last[linesize] = '\0'; | |
debug_line_count = 1; | |
} | |
} | |
} | |
debug_line_offset -= linesize; | |
if ((debug_line_offset > 0) && (!flush)) | |
memmove (debug_line_buf, eol + 1, debug_line_offset); | |
debug_line_buf[debug_line_offset] = '\0'; | |
} | |
} | |
static void _sim_debug_write (const char *buf, size_t len) | |
{ | |
_sim_debug_write_flush (buf, len, FALSE); | |
} | |
static t_stat _sim_debug_flush (void) | |
{ | |
int32 saved_quiet = sim_quiet; | |
int32 saved_sim_switches = sim_switches; | |
int32 saved_deb_switches = sim_deb_switches; | |
struct timespec saved_deb_basetime = sim_deb_basetime; | |
char saved_debug_filename[CBUFSIZE]; | |
if (sim_deb == NULL) /* no debug? */ | |
return SCPE_OK; | |
_sim_debug_write_flush ("", 0, TRUE); | |
if (sim_deb == sim_log) { /* debug is log */ | |
fflush (sim_deb); /* fflush is the best we can do */ | |
return SCPE_OK; | |
} | |
strcpy (saved_debug_filename, sim_logfile_name (sim_deb, sim_deb_ref)); | |
sim_quiet = 1; | |
sim_set_deboff (0, NULL); | |
sim_switches = saved_deb_switches; | |
sim_set_debon (0, saved_debug_filename); | |
sim_deb_basetime = saved_deb_basetime; | |
sim_switches = saved_sim_switches; | |
sim_quiet = saved_quiet; | |
return SCPE_OK; | |
} | |
/* Finds debug phrase matching bitmask from from device DEBTAB table */ | |
static const char *_get_dbg_verb (uint32 dbits, DEVICE* dptr, UNIT *uptr) | |
{ | |
static const char *debtab_none = "DEBTAB_ISNULL"; | |
static const char *debtab_nomatch = "DEBTAB_NOMATCH"; | |
const char *some_match = NULL; | |
int32 offset = 0; | |
if (dptr->debflags == 0) | |
return debtab_none; | |
dbits &= (dptr->dctrl | (uptr ? uptr->dctrl : 0));/* Look for just the bits that matched */ | |
/* Find matching words for bitmask */ | |
while (dptr->debflags[offset].name && (offset < 32)) { | |
if (dptr->debflags[offset].mask == dbits) /* All Bits Match */ | |
return dptr->debflags[offset].name; | |
if (dptr->debflags[offset].mask & dbits) | |
some_match = dptr->debflags[offset].name; | |
offset++; | |
} | |
return some_match ? some_match : debtab_nomatch; | |
} | |
/* Prints standard debug prefix unless previous call unterminated */ | |
static const char *sim_debug_prefix (uint32 dbits, DEVICE* dptr, UNIT* uptr) | |
{ | |
const char* debug_type = _get_dbg_verb (dbits, dptr, uptr); | |
char tim_t[32] = ""; | |
char tim_a[32] = ""; | |
char pc_s[64] = ""; | |
struct timespec time_now; | |
if (sim_deb_switches & (SWMASK ('T') | SWMASK ('R') | SWMASK ('A'))) { | |
clock_gettime(CLOCK_REALTIME, &time_now); | |
if (sim_deb_switches & SWMASK ('R')) | |
sim_timespec_diff (&time_now, &time_now, &sim_deb_basetime); | |
if (sim_deb_switches & SWMASK ('T')) { | |
time_t tnow = (time_t)time_now.tv_sec; | |
struct tm *now = localtime(&tnow); | |
sprintf(tim_t, "%02d:%02d:%02d.%03d ", now->tm_hour, now->tm_min, now->tm_sec, (int)(time_now.tv_nsec/1000000)); | |
} | |
if (sim_deb_switches & SWMASK ('A')) { | |
sprintf(tim_t, "%" LL_FMT "d.%03d ", (LL_TYPE)(time_now.tv_sec), (int)(time_now.tv_nsec/1000000)); | |
} | |
} | |
if (sim_deb_switches & SWMASK ('P')) { | |
t_value val; | |
/* Some simulators expose the PC as a register, some don't expose it or expose a register | |
which is not a variable which is updated during instruction execution (i.e. only upon | |
exit of sim_instr()). For the -P debug option to be effective, such a simulator should | |
provide a routine which returns the value of the current PC and set the sim_vm_pc_value | |
routine pointer to that routine. | |
*/ | |
if (sim_vm_pc_value) | |
val = (*sim_vm_pc_value)(); | |
else | |
val = get_rval (sim_PC, 0); | |
sprintf(pc_s, "-%s:", sim_PC->name); | |
sprint_val (&pc_s[strlen(pc_s)], val, sim_PC->radix, sim_PC->width, sim_PC->flags & REG_FMT); | |
} | |
sprintf(debug_line_prefix, "DBG(%s%s%.0f%s)%s> %s %s: ", tim_t, tim_a, sim_gtime(), pc_s, AIO_MAIN_THREAD ? "" : "+", dptr->name, debug_type); | |
return debug_line_prefix; | |
} | |
void fprint_fields (FILE *stream, t_value before, t_value after, BITFIELD* bitdefs) | |
{ | |
int32 i, fields, offset; | |
uint32 value, beforevalue, mask; | |
for (fields=offset=0; bitdefs[fields].name; ++fields) { | |
if (bitdefs[fields].offset == 0xffffffff) /* fixup uninitialized offsets */ | |
bitdefs[fields].offset = offset; | |
offset += bitdefs[fields].width; | |
} | |
for (i = fields-1; i >= 0; i--) { /* print xlation, transition */ | |
if (bitdefs[i].name[0] == '\0') | |
continue; | |
if ((bitdefs[i].width == 1) && (bitdefs[i].valuenames == NULL)) { | |
int off = ((after >> bitdefs[i].offset) & 1) + (((before ^ after) >> bitdefs[i].offset) & 1) * 2; | |
fprintf(stream, "%s%c ", bitdefs[i].name, debug_bstates[off]); | |
} | |
else { | |
const char *delta = ""; | |
mask = 0xFFFFFFFF >> (32-bitdefs[i].width); | |
value = (uint32)((after >> bitdefs[i].offset) & mask); | |
beforevalue = (uint32)((before >> bitdefs[i].offset) & mask); | |
if (value < beforevalue) | |
delta = "_"; | |
if (value > beforevalue) | |
delta = "^"; | |
if (bitdefs[i].valuenames) | |
fprintf(stream, "%s=%s%s ", bitdefs[i].name, delta, bitdefs[i].valuenames[value]); | |
else | |
if (bitdefs[i].format) { | |
fprintf(stream, "%s=%s", bitdefs[i].name, delta); | |
fprintf(stream, bitdefs[i].format, value); | |
fprintf(stream, " "); | |
} | |
else | |
fprintf(stream, "%s=%s0x%X ", bitdefs[i].name, delta, value); | |
} | |
} | |
} | |
/* Prints state of a register: bit translation + state (0,1,_,^) | |
indicating the state and transition of the bit and bitfields. States: | |
0=steady(0->0), 1=steady(1->1), _=falling(1->0), ^=rising(0->1) */ | |
void sim_debug_bits_hdr(uint32 dbits, DEVICE* dptr, const char *header, | |
BITFIELD* bitdefs, uint32 before, uint32 after, int terminate) | |
{ | |
if (sim_deb && dptr && (dptr->dctrl & dbits)) { | |
TMLN *saved_oline = sim_oline; | |
sim_oline = NULL; /* avoid potential debug to active socket */ | |
if (!debug_unterm) | |
fprintf(sim_deb, "%s", sim_debug_prefix(dbits, dptr, NULL)); /* print prefix if required */ | |
if (header) | |
fprintf(sim_deb, "%s: ", header); | |
fprint_fields (sim_deb, (t_value)before, (t_value)after, bitdefs); /* print xlation, transition */ | |
if (terminate) | |
fprintf(sim_deb, "\r\n"); | |
debug_unterm = terminate ? 0 : 1; /* set unterm for next */ | |
sim_oline = saved_oline; /* restore original socket */ | |
} | |
} | |
void sim_debug_bits(uint32 dbits, DEVICE* dptr, BITFIELD* bitdefs, | |
uint32 before, uint32 after, int terminate) | |
{ | |
sim_debug_bits_hdr(dbits, dptr, NULL, bitdefs, before, after, terminate); | |
} | |
/* Print message to stdout, sim_log (if enabled) and sim_deb (if enabled) */ | |
void sim_printf (const char* fmt, ...) | |
{ | |
char stackbuf[STACKBUFSIZE]; | |
int32 bufsize = sizeof(stackbuf); | |
char *buf = stackbuf; | |
int32 len; | |
va_list arglist; | |
while (1) { /* format passed string, args */ | |
va_start (arglist, fmt); | |
#if defined(NO_vsnprintf) | |
len = vsprintf (buf, fmt, arglist); | |
#else /* !defined(NO_vsnprintf) */ | |
len = vsnprintf (buf, bufsize-1, fmt, arglist); | |
#endif /* NO_vsnprintf */ | |
va_end (arglist); | |
/* If the formatted result didn't fit into the buffer, then grow the buffer and try again */ | |
if ((len < 0) || (len >= bufsize-1)) { | |
if (buf != stackbuf) | |
free (buf); | |
bufsize = bufsize * 2; | |
if (bufsize < len + 2) | |
bufsize = len + 2; | |
buf = (char *) malloc (bufsize); | |
if (buf == NULL) /* out of memory */ | |
return; | |
buf[bufsize-1] = '\0'; | |
continue; | |
} | |
break; | |
} | |
if (sim_is_running) { | |
char *c, *remnant = buf; | |
while ((c = strchr (remnant, '\n'))) { | |
if ((c != buf) && (*(c - 1) != '\r')) | |
fprintf (stdout, "%.*s\r\n", (int)(c-remnant), remnant); | |
else | |
fprintf (stdout, "%.*s\n", (int)(c-remnant), remnant); | |
remnant = c + 1; | |
} | |
fprintf (stdout, "%s", remnant); | |
} | |
else | |
fprintf (stdout, "%s", buf); | |
if ((!sim_oline) && (sim_log && (sim_log != stdout))) | |
fprintf (sim_log, "%s", buf); | |
if (sim_deb && (sim_deb != stdout) && (sim_deb != sim_log)) | |
_sim_debug_write (buf, strlen (buf)); | |
if (buf != stackbuf) | |
free (buf); | |
} | |
void sim_perror (const char *msg) | |
{ | |
int saved_errno = errno; | |
perror (msg); | |
sim_printf ("%s: %s\n", msg, strerror (saved_errno)); | |
} | |
/* Print command result message to stdout, sim_log (if enabled) and sim_deb (if enabled) */ | |
t_stat sim_messagef (t_stat stat, const char* fmt, ...) | |
{ | |
char stackbuf[STACKBUFSIZE]; | |
int32 bufsize = sizeof(stackbuf); | |
char *buf = stackbuf; | |
int32 len; | |
va_list arglist; | |
t_bool inhibit_message = (!sim_show_message || (stat & SCPE_NOMESSAGE)); | |
if ((stat == SCPE_OK) && (sim_quiet || (sim_switches & SWMASK ('Q')))) | |
return stat; | |
while (1) { /* format passed string, args */ | |
va_start (arglist, fmt); | |
#if defined(NO_vsnprintf) | |
len = vsprintf (buf, fmt, arglist); | |
#else /* !defined(NO_vsnprintf) */ | |
len = vsnprintf (buf, bufsize-1, fmt, arglist); | |
#endif /* NO_vsnprintf */ | |
va_end (arglist); | |
/* If the formatted result didn't fit into the buffer, then grow the buffer and try again */ | |
if ((len < 0) || (len >= bufsize-1)) { | |
if (buf != stackbuf) | |
free (buf); | |
bufsize = bufsize * 2; | |
if (bufsize < len + 2) | |
bufsize = len + 2; | |
buf = (char *) malloc (bufsize); | |
if (buf == NULL) /* out of memory */ | |
return SCPE_MEM; | |
buf[bufsize-1] = '\0'; | |
continue; | |
} | |
break; | |
} | |
if (sim_do_ocptr[sim_do_depth]) { | |
if (!sim_do_echo && !inhibit_message && !sim_cmd_echoed) { | |
sim_printf("%s> %s\n", do_position(), sim_do_ocptr[sim_do_depth]); | |
sim_cmd_echoed = TRUE; | |
} | |
else { | |
if (sim_deb) { /* Always put context in debug output */ | |
TMLN *saved_oline = sim_oline; | |
sim_oline = NULL; /* avoid potential debug to active socket */ | |
fprintf (sim_deb, "%s> %s\n", do_position(), sim_do_ocptr[sim_do_depth]); | |
sim_oline = saved_oline; /* restore original socket */ | |
} | |
} | |
} | |
if (sim_is_running && !inhibit_message) { | |
char *c, *remnant = buf; | |
while ((c = strchr(remnant, '\n'))) { | |
if ((c != buf) && (*(c - 1) != '\r')) | |
fprintf (stdout, "%.*s\r\n", (int)(c-remnant), remnant); | |
else | |
fprintf (stdout, "%.*s\n", (int)(c-remnant), remnant); | |
remnant = c + 1; | |
} | |
fprintf (stdout, "%s", remnant); | |
} | |
else { | |
if (!inhibit_message) | |
fprintf (stdout, "%s", buf); | |
} | |
if ((!sim_oline) && (sim_log && (sim_log != stdout) && !inhibit_message)) | |
fprintf (sim_log, "%s", buf); | |
/* Always display messages in debug output */ | |
if (sim_deb && (((sim_deb != stdout) && (sim_deb != sim_log)) || inhibit_message)) { | |
TMLN *saved_oline = sim_oline; | |
sim_oline = NULL; /* avoid potential debug to active socket */ | |
fprintf (sim_deb, "%s", buf); | |
sim_oline = saved_oline; /* restore original socket */ | |
} | |
if (buf != stackbuf) | |
free (buf); | |
return stat | ((stat != SCPE_OK) ? SCPE_NOMESSAGE : 0); | |
} | |
/* Inline debugging - will print debug message if debug file is | |
set and the bitmask matches the current device debug options. | |
Extra returns are added for un*x systems, since the output | |
device is set into 'raw' mode when the cpu is booted, | |
and the extra returns don't hurt any other systems. | |
Callers should be calling sim_debug() which is a macro | |
defined in scp.h which evaluates the action condition before | |
incurring call overhead. */ | |
static void _sim_vdebug (uint32 dbits, DEVICE* dptr, UNIT *uptr, const char* fmt, va_list arglist) | |
{ | |
if (sim_deb && dptr && ((dptr->dctrl | (uptr ? uptr->dctrl : 0)) & dbits)) { | |
TMLN *saved_oline = sim_oline; | |
char stackbuf[STACKBUFSIZE]; | |
int32 bufsize = sizeof(stackbuf); | |
char *buf = stackbuf; | |
int32 i, j, len; | |
const char* debug_prefix = sim_debug_prefix(dbits, dptr, uptr); /* prefix to print if required */ | |
sim_oline = NULL; /* avoid potential debug to active socket */ | |
buf[bufsize-1] = '\0'; | |
while (1) { /* format passed string, args */ | |
#if defined(NO_vsnprintf) | |
len = vsprintf (buf, fmt, arglist); | |
#else /* !defined(NO_vsnprintf) */ | |
len = vsnprintf (buf, bufsize-1, fmt, arglist); | |
#endif /* NO_vsnprintf */ | |
/* If the formatted result didn't fit into the buffer, then grow the buffer and try again */ | |
if ((len < 0) || (len >= bufsize-1)) { | |
if (buf != stackbuf) | |
free (buf); | |
bufsize = bufsize * 2; | |
if (bufsize < len + 2) | |
bufsize = len + 2; | |
buf = (char *) malloc (bufsize); | |
if (buf == NULL) /* out of memory */ | |
return; | |
buf[bufsize-1] = '\0'; | |
continue; | |
} | |
break; | |
} | |
/* Output the formatted data expanding newlines where they exist */ | |
for (i = j = 0; i < len; ++i) { | |
if ('\n' == buf[i]) { | |
if (i >= j) { | |
if ((i != j) || (i == 0)) { | |
if (!debug_unterm) /* print prefix when required */ | |
_sim_debug_write (debug_prefix, strlen (debug_prefix)); | |
_sim_debug_write (&buf[j], i-j); | |
_sim_debug_write ("\r\n", 2); | |
} | |
debug_unterm = 0; | |
} | |
j = i + 1; | |
} | |
} | |
if (i > j) { | |
if (!debug_unterm) /* print prefix when required */ | |
_sim_debug_write (debug_prefix, strlen (debug_prefix)); | |
_sim_debug_write (&buf[j], i-j); | |
} | |
/* Set unterminated flag for next time */ | |
debug_unterm = len ? (((buf[len-1]=='\n')) ? 0 : 1) : debug_unterm; | |
if (buf != stackbuf) | |
free (buf); | |
sim_oline = saved_oline; /* restore original socket */ | |
} | |
} | |
void _sim_debug_unit (uint32 dbits, UNIT *uptr, const char* fmt, ...) | |
{ | |
DEVICE *dptr = (uptr ? uptr->dptr : NULL); | |
if (sim_deb && (((dptr ? dptr->dctrl : 0) | (uptr ? uptr->dctrl : 0)) & dbits)) { | |
va_list arglist; | |
va_start (arglist, fmt); | |
_sim_vdebug (dbits, dptr, uptr, fmt, arglist); | |
va_end (arglist); | |
} | |
} | |
void _sim_debug_device (uint32 dbits, DEVICE* dptr, const char* fmt, ...) | |
{ | |
if (sim_deb && dptr && (dptr->dctrl & dbits)) { | |
va_list arglist; | |
va_start (arglist, fmt); | |
_sim_vdebug (dbits, dptr, NULL, fmt, arglist); | |
va_end (arglist); | |
} | |
} | |
void sim_data_trace(DEVICE *dptr, UNIT *uptr, const uint8 *data, const char *position, size_t len, const char *txt, uint32 reason) | |
{ | |
if (sim_deb && ((dptr->dctrl | (uptr ? uptr->dctrl : 0)) & reason)) { | |
_sim_debug_unit (reason, uptr, "%s %s %slen: %08X\n", sim_uname(uptr), txt, position, (unsigned int)len); | |
if (data && len) { | |
unsigned int i, same, group, sidx, oidx, ridx, eidx, soff; | |
char outbuf[80], strbuf[28], rad50buf[36], ebcdicbuf[32]; | |
static char hex[] = "0123456789ABCDEF"; | |
static char rad50[] = " ABCDEFGHIJKLMNOPQRSTUVWXYZ$._0123456789"; | |
static unsigned char ebcdic2ascii[] = { | |
0000,0001,0002,0003,0234,0011,0206,0177, | |
0227,0215,0216,0013,0014,0015,0016,0017, | |
0020,0021,0022,0023,0235,0205,0010,0207, | |
0030,0031,0222,0217,0034,0035,0036,0037, | |
0200,0201,0202,0203,0204,0012,0027,0033, | |
0210,0211,0212,0213,0214,0005,0006,0007, | |
0220,0221,0026,0223,0224,0225,0226,0004, | |
0230,0231,0232,0233,0024,0025,0236,0032, | |
0040,0240,0241,0242,0243,0244,0245,0246, | |
0247,0250,0133,0056,0074,0050,0053,0041, | |
0046,0251,0252,0253,0254,0255,0256,0257, | |
0260,0261,0135,0044,0052,0051,0073,0136, | |
0055,0057,0262,0263,0264,0265,0266,0267, | |
0270,0271,0174,0054,0045,0137,0076,0077, | |
0272,0273,0274,0275,0276,0277,0300,0301, | |
0302,0140,0072,0043,0100,0047,0075,0042, | |
0303,0141,0142,0143,0144,0145,0146,0147, | |
0150,0151,0304,0305,0306,0307,0310,0311, | |
0312,0152,0153,0154,0155,0156,0157,0160, | |
0161,0162,0313,0314,0315,0316,0317,0320, | |
0321,0176,0163,0164,0165,0166,0167,0170, | |
0171,0172,0322,0323,0324,0325,0326,0327, | |
0330,0331,0332,0333,0334,0335,0336,0337, | |
0340,0341,0342,0343,0344,0345,0346,0347, | |
0173,0101,0102,0103,0104,0105,0106,0107, | |
0110,0111,0350,0351,0352,0353,0354,0355, | |
0175,0112,0113,0114,0115,0116,0117,0120, | |
0121,0122,0356,0357,0360,0361,0362,0363, | |
0134,0237,0123,0124,0125,0126,0127,0130, | |
0131,0132,0364,0365,0366,0367,0370,0371, | |
0060,0061,0062,0063,0064,0065,0066,0067, | |
0070,0071,0372,0373,0374,0375,0376,0377, | |
}; | |
for (i=same=0; i<len; i += 16) { | |
if ((i > 0) && (0 == memcmp (&data[i], &data[i-16], 16))) { | |
++same; | |
continue; | |
} | |
if (same > 0) { | |
_sim_debug_unit (reason, uptr, "%04X thru %04X same as above\n", i-(16*same), i-1); | |
same = 0; | |
} | |
group = (((len - i) > 16) ? 16 : (len - i)); | |
strcpy (ebcdicbuf, (sim_deb_switches & SWMASK ('E')) ? " EBCDIC:" : ""); | |
eidx = strlen(ebcdicbuf); | |
strcpy (rad50buf, (sim_deb_switches & SWMASK ('D')) ? " RAD50:" : ""); | |
ridx = strlen(rad50buf); | |
strcpy (strbuf, (sim_deb_switches & (SWMASK ('E') | SWMASK ('D'))) ? "ASCII:" : ""); | |
soff = strlen(strbuf); | |
for (sidx=oidx=0; sidx<group; ++sidx) { | |
outbuf[oidx++] = ' '; | |
outbuf[oidx++] = hex[(data[i+sidx]>>4)&0xf]; | |
outbuf[oidx++] = hex[data[i+sidx]&0xf]; | |
if (sim_isprint (data[i+sidx])) | |
strbuf[soff+sidx] = data[i+sidx]; | |
else | |
strbuf[soff+sidx] = '.'; | |
if (ridx && ((sidx&1) == 0)) { | |
uint16 word = data[i+sidx] + (((uint16)data[i+sidx+1]) << 8); | |
if (word >= 64000) { | |
rad50buf[ridx++] = '|'; /* Invalid RAD-50 character */ | |
rad50buf[ridx++] = '|'; /* Invalid RAD-50 character */ | |
rad50buf[ridx++] = '|'; /* Invalid RAD-50 character */ | |
} | |
else { | |
rad50buf[ridx++] = rad50[word/1600]; | |
rad50buf[ridx++] = rad50[(word/40)%40]; | |
rad50buf[ridx++] = rad50[word%40]; | |
} | |
} | |
if (eidx) { | |
if (sim_isprint (ebcdic2ascii[data[i+sidx]])) | |
ebcdicbuf[eidx++] = ebcdic2ascii[data[i+sidx]]; | |
else | |
ebcdicbuf[eidx++] = '.'; | |
} | |
} | |
outbuf[oidx] = '\0'; | |
strbuf[soff+sidx] = '\0'; | |
ebcdicbuf[eidx] = '\0'; | |
rad50buf[ridx] = '\0'; | |
_sim_debug_unit (reason, uptr, "%04X%-48s %s%s%s\n", i, outbuf, strbuf, ebcdicbuf, rad50buf); | |
} | |
if (same > 0) { | |
_sim_debug_unit (reason, uptr, "%04X thru %04X same as above\n", i-(16*same), (unsigned int)(len-1)); | |
} | |
} | |
} | |
} | |
int Fprintf (FILE *f, const char* fmt, ...) | |
{ | |
int ret = 0; | |
va_list args; | |
if (sim_mfile || (f == sim_deb)) { | |
char stackbuf[STACKBUFSIZE]; | |
int32 bufsize = sizeof(stackbuf); | |
char *buf = stackbuf; | |
va_list arglist; | |
int32 len; | |
buf[bufsize-1] = '\0'; | |
while (1) { /* format passed string, args */ | |
va_start (arglist, fmt); | |
#if defined(NO_vsnprintf) | |
len = vsprintf (buf, fmt, arglist); | |
#else /* !defined(NO_vsnprintf) */ | |
len = vsnprintf (buf, bufsize-1, fmt, arglist); | |
#endif /* NO_vsnprintf */ | |
va_end (arglist); | |
/* If the formatted result didn't fit into the buffer, | |
* then grow the buffer and try again | |
*/ | |
if ((len < 0) || (len >= bufsize-1)) { | |
if (buf != stackbuf) | |
free (buf); | |
bufsize = bufsize * 2; | |
if (bufsize < len + 2) | |
bufsize = len + 2; | |
buf = (char *) malloc (bufsize); | |
if (buf == NULL) /* out of memory */ | |
return -1; | |
buf[bufsize-1] = '\0'; | |
continue; | |
} | |
break; | |
} | |
/* Store the formatted data */ | |
if (f == sim_deb) { | |
_sim_debug_write (buf, len); | |
} | |
else { | |
if (sim_mfile->pos + len > sim_mfile->size) { | |
sim_mfile->size = sim_mfile->pos + 2 * MAX(bufsize, 512); | |
sim_mfile->buf = (char *)realloc (sim_mfile->buf, sim_mfile->size); | |
} | |
memcpy (sim_mfile->buf + sim_mfile->pos, buf, len); | |
sim_mfile->pos += len; | |
} | |
if (buf != stackbuf) | |
free (buf); | |
} | |
else { | |
va_start (args, fmt); | |
if (sim_oline) | |
tmxr_linemsgvf (sim_oline, fmt, args); | |
else | |
ret = vfprintf (f, fmt, args); | |
va_end (args); | |
} | |
return ret; | |
} | |
/* Hierarchical help presentation | |
* | |
* Device help can be presented hierarchically by calling | |
* | |
* t_stat scp_help (FILE *st, DEVICE *dptr, | |
* UNIT *uptr, int flag, const char *help, char *cptr) | |
* | |
* or one of its three cousins from the device HELP routine. | |
* | |
* *help is the pointer to the structured help text to be displayed. | |
* | |
* The format and usage, and some helper macros can be found in scp_help.h | |
* If you don't use the macros, it is not necessary to #include "scp_help.h". | |
* | |
* Actually, if you don't specify a DEVICE pointer and don't include | |
* other device references, it can be used for non-device help. | |
*/ | |
#define blankch(x) ((x) == ' ' || (x) == '\t') | |
typedef struct topic { | |
uint32 level; | |
char *title; | |
char *label; | |
struct topic *parent; | |
struct topic **children; | |
uint32 kids; | |
char *text; | |
size_t len; | |
uint32 flags; | |
uint32 kidwid; | |
#define HLP_MAGIC_TOPIC 1 | |
} TOPIC; | |
static volatile struct { | |
const char *error; | |
const char *prox; | |
size_t block; | |
size_t line; | |
} help_where = { "", NULL, 0, 0 }; | |
jmp_buf (help_env); | |
#define FAIL(why,text,here) { help_where.error = #text; help_where.prox = here; longjmp (help_env, (why)); } | |
/* Add to topic text. | |
* Expands text buffer as necessary. | |
*/ | |
static void appendText (TOPIC *topic, const char *text, size_t len) | |
{ | |
char *newt; | |
if (!len) | |
return; | |
newt = (char *)realloc (topic->text, topic->len + len +1); | |
if (!newt) { | |
FAIL (SCPE_MEM, No memory, NULL); | |
} | |
topic->text = newt; | |
memcpy (newt + topic->len, text, len); | |
topic->len +=len; | |
newt[topic->len] = '\0'; | |
return; | |
} | |
/* Release memory held by a topic and its children. | |
*/ | |
static void cleanHelp (TOPIC *topic) | |
{ | |
TOPIC *child; | |
size_t i; | |
free (topic->title); | |
free (topic->text); | |
free (topic->label); | |
for (i = 0; i < topic->kids; i++) { | |
child = topic->children[i]; | |
cleanHelp (child); | |
free (child); | |
} | |
free (topic->children); | |
return; | |
} | |
/* Build a help tree from a string. | |
* Handles substitutions, formatting. | |
*/ | |
static TOPIC *buildHelp (TOPIC *topic, DEVICE *dptr, | |
UNIT *uptr, const char *htext, va_list ap) | |
{ | |
char *end; | |
size_t n, ilvl; | |
#define VSMAX 100 | |
char *vstrings[VSMAX]; | |
size_t vsnum = 0; | |
char * astrings[VSMAX+1]; | |
size_t asnum = 0; | |
char *const *hblock; | |
const char *ep; | |
t_bool excluded = FALSE; | |
/* variable arguments consumed table. | |
* The scheme used allows arguments to be accessed in random | |
* order, but for portability, all arguments must be char *. | |
* If you try to violate this, there ARE machines that WILL break. | |
*/ | |
memset (vstrings, 0, sizeof (vstrings)); | |
memset (astrings, 0, sizeof (astrings)); | |
astrings[asnum++] = (char *) htext; | |
for (hblock = astrings; (htext = *hblock) != NULL; hblock++) { | |
help_where.block = hblock - astrings; | |
help_where.line = 0; | |
while (*htext) { | |
const char *start; | |
help_where.line++; | |
if (sim_isspace (*htext) || *htext == '+') {/* Topic text, indented topic text */ | |
if (excluded) { /* Excluded topic text */ | |
while (*htext && *htext != '\n') | |
htext++; | |
if (*htext) | |
++htext; | |
continue; | |
} | |
ilvl = 1; | |
appendText (topic, " ", 4); /* Basic indentation */ | |
if (*htext == '+') { /* More for each + */ | |
while (*htext == '+') { | |
ilvl++; | |
appendText (topic, " ", 4); | |
htext++; | |
} | |
} | |
while (*htext && *htext != '\n' && sim_isspace (*htext)) | |
htext++; | |
if (!*htext) /* Empty after removing leading spaces */ | |
break; | |
start = htext; | |
while (*htext) { /* Process line for substitutions */ | |
if (*htext == '%') { | |
appendText (topic, start, htext - start); /* Flush up to escape */ | |
switch (*++htext) { /* Evaluate escape */ | |
case 'U': | |
if (dptr) { | |
char buf[129]; | |
n = uptr? uptr - dptr->units: 0; | |
sprintf (buf, "%s%u", dptr->name, (int)n); | |
appendText (topic, buf, strlen (buf)); | |
} | |
break; | |
case 'D': | |
if (dptr) { | |
appendText (topic, dptr->name, strlen (dptr->name)); | |
break; | |
} | |
case 'S': | |
appendText (topic, sim_name, strlen (sim_name)); | |
break; | |
case '%': | |
appendText (topic, "%", 1); | |
break; | |
case '+': | |
appendText (topic, "+", 1); | |
break; | |
default: /* Check for vararg # */ | |
if (sim_isdigit (*htext)) { | |
n = 0; | |
while (sim_isdigit (*htext)) | |
n += (n * 10) + (*htext++ - '0'); | |
if (( *htext != 'H' && *htext != 's') || | |
n == 0 || n >= VSMAX) | |
FAIL (SCPE_ARG, Invalid escape, htext); | |
while (n > vsnum) /* Get arg pointer if not cached */ | |
vstrings[vsnum++] = va_arg (ap, char *); | |
start = vstrings[n-1]; /* Insert selected string */ | |
if (*htext == 'H') { /* Append as more input */ | |
if (asnum >= VSMAX) { | |
FAIL (SCPE_ARG, Too many blocks, htext); | |
} | |
astrings[asnum++] = (char *)start; | |
break; | |
} | |
ep = start; | |
while (*ep) { | |
if (*ep == '\n') { | |
ep++; /* Segment to \n */ | |
appendText (topic, start, ep - start); | |
if (*ep) { /* More past \n, indent */ | |
size_t i; | |
for (i = 0; i < ilvl; i++) | |
appendText (topic, " ", 4); | |
} | |
start = ep; | |
} | |
else | |
ep++; | |
} | |
appendText (topic, start, ep-start); | |
break; | |
} | |
FAIL (SCPE_ARG, Invalid escape, htext); | |
} /* switch (escape) */ | |
start = ++htext; | |
continue; /* Current line */ | |
} /* if (escape) */ | |
if (*htext == '\n') { /* End of line, append last segment */ | |
htext++; | |
appendText (topic, start, htext - start); | |
break; /* To next line */ | |
} | |
htext++; /* Regular character */ | |
} | |
continue; | |
} /* topic text line */ | |
if (sim_isdigit (*htext)) { /* Topic heading */ | |
TOPIC **children; | |
TOPIC *newt; | |
char nbuf[100]; | |
n = 0; | |
start = htext; | |
while (sim_isdigit (*htext)) | |
n += (n * 10) + (*htext++ - '0'); | |
if ((htext == start) || !n) { | |
FAIL (SCPE_ARG, Invalid topic heading, htext); | |
} | |
if (n <= topic->level) { /* Find level for new topic */ | |
while (n <= topic->level) | |
topic = topic->parent; | |
} | |
else { | |
if (n > topic->level +1) { /* Skipping down more than 1 */ | |
FAIL (SCPE_ARG, Level not contiguous, htext); /* E.g. 1 3, not reasonable */ | |
} | |
} | |
while (*htext && (*htext != '\n') && sim_isspace (*htext)) | |
htext++; | |
if (!*htext || (*htext == '\n')) { /* Name missing */ | |
FAIL (SCPE_ARG, Missing topic name, htext); | |
} | |
start = htext; | |
while (*htext && (*htext != '\n')) | |
htext++; | |
if (start == htext) { /* Name NULL */ | |
FAIL (SCPE_ARG, Null topic name, htext); | |
} | |
excluded = FALSE; | |
if (*start == '?') { /* Conditional topic? */ | |
size_t n = 0; | |
start++; | |
while (sim_isdigit (*start)) /* Get param # */ | |
n += (n * 10) + (*start++ - '0'); | |
if (!*start || *start == '\n'|| n == 0 || n >= VSMAX) | |
FAIL (SCPE_ARG, Invalid parameter number, start); | |
while (n > vsnum) /* Get arg pointer if not cached */ | |
vstrings[vsnum++] = va_arg (ap, char *); | |
end = vstrings[n-1]; /* Check for True */ | |
if (!end || !(sim_toupper (*end) == 'T' || *end == '1')) { | |
excluded = TRUE; /* False, skip topic this time */ | |
if (*htext) | |
htext++; | |
continue; | |
} | |
} | |
newt = (TOPIC *) calloc (sizeof (TOPIC), 1); | |
if (!newt) { | |
FAIL (SCPE_MEM, No memory, NULL); | |
} | |
newt->title = (char *) malloc ((htext - start)+1); | |
if (!newt->title) { | |
free (newt); | |
FAIL (SCPE_MEM, No memory, NULL); | |
} | |
memcpy (newt->title, start, htext - start); | |
newt->title[htext - start] = '\0'; | |
if (*htext) | |
htext++; | |
if (newt->title[0] == '$') | |
newt->flags |= HLP_MAGIC_TOPIC; | |
children = (TOPIC **) realloc (topic->children, | |
(topic->kids +1) * sizeof (TOPIC *)); | |
if (!children) { | |
free (newt->title); | |
free (newt); | |
FAIL (SCPE_MEM, No memory, NULL); | |
} | |
topic->children = children; | |
topic->children[topic->kids++] = newt; | |
newt->level = n; | |
newt->parent = topic; | |
n = strlen (newt->title); | |
if (n > topic->kidwid) | |
topic->kidwid = n; | |
sprintf (nbuf, ".%u", topic->kids); | |
n = strlen (topic->label) + strlen (nbuf) + 1; | |
newt->label = (char *) malloc (n); | |
if (!newt->label) { | |
free (newt->title); | |
topic->children[topic->kids -1] = NULL; | |
free (newt); | |
FAIL (SCPE_MEM, No memory, NULL); | |
} | |
sprintf (newt->label, "%s%s", topic->label, nbuf); | |
topic = newt; | |
continue; | |
} /* digits introducing a topic */ | |
if (*htext == ';') { /* Comment */ | |
while (*htext && *htext != '\n') | |
htext++; | |
continue; | |
} | |
FAIL (SCPE_ARG, Unknown line type, htext); /* Unknown line */ | |
} /* htext not at end */ | |
memset (vstrings, 0, VSMAX * sizeof (char *)); | |
vsnum = 0; | |
} /* all strings */ | |
return topic; | |
} | |
/* Create prompt string - top thru current topic | |
* Add prompt at end. | |
*/ | |
static char *helpPrompt ( TOPIC *topic, const char *pstring, t_bool oneword ) | |
{ | |
char *prefix; | |
char *newp, *newt; | |
if (topic->level == 0) { | |
prefix = (char *) calloc (2,1); | |
if (!prefix) { | |
FAIL (SCPE_MEM, No memory, NULL); | |
} | |
prefix[0] = '\n'; | |
} | |
else | |
prefix = helpPrompt (topic->parent, "", oneword); | |
newp = (char *) malloc (strlen (prefix) + 1 + strlen (topic->title) + 1 + | |
strlen (pstring) +1); | |
if (!newp) { | |
free (prefix); | |
FAIL (SCPE_MEM, No memory, NULL); | |
} | |
strcpy (newp, prefix); | |
if (topic->children) { | |
if (topic->level != 0) | |
strcat (newp, " "); | |
newt = (topic->flags & HLP_MAGIC_TOPIC)? | |
topic->title+1: topic->title; | |
if (oneword) { | |
char *np = newp + strlen (newp); | |
while (*newt) { | |
*np++ = blankch (*newt)? '_' : *newt; | |
newt++; | |
} | |
*np = '\0'; | |
} | |
else | |
strcat (newp, newt); | |
if (*pstring && *pstring != '?') | |
strcat (newp, " "); | |
} | |
strcat (newp, pstring); | |
free (prefix); | |
return newp; | |
} | |
static void displayMagicTopic (FILE *st, DEVICE *dptr, TOPIC *topic) | |
{ | |
char tbuf[CBUFSIZE]; | |
size_t i, skiplines = 0; | |
#ifdef _WIN32 | |
FILE *tmp; | |
char *tmpnam; | |
do { | |
int fd; | |
tmpnam = _tempnam (NULL, "simh"); | |
fd = _open (tmpnam, _O_CREAT | _O_RDWR | _O_EXCL, _S_IREAD | _S_IWRITE); | |
if (fd != -1) { | |
tmp = _fdopen (fd, "w+"); | |
break; | |
} | |
} while (1); | |
#else | |
FILE *tmp = tmpfile(); | |
#endif | |
if (!tmp) { | |
fprintf (st, "Unable to create temporary file: %s\n", strerror (errno)); | |
return; | |
} | |
if (topic->title) { | |
fprintf (st, "%s\n", topic->title+1); | |
skiplines = 0; | |
if (dptr) { | |
if (!strcmp (topic->title+1, "Registers")) { | |
fprint_reg_help (tmp, dptr) ; | |
skiplines = 1; | |
} | |
else | |
if (!strcmp (topic->title+1, "Set commands")) { | |
fprint_set_help (tmp, dptr); | |
skiplines = 3; | |
} | |
else | |
if (!strcmp (topic->title+1, "Show commands")) { | |
fprint_show_help (tmp, dptr); | |
skiplines = 3; | |
} | |
} | |
} | |
rewind (tmp); | |
/* Discard leading blank lines/redundant titles */ | |
for (i =0; i < skiplines; i++) | |
fgets (tbuf, sizeof (tbuf), tmp); | |
while (fgets (tbuf, sizeof (tbuf), tmp)) { | |
if (tbuf[0] != '\n') | |
fputs (" ", st); | |
fputs (tbuf, st); | |
} | |
fclose (tmp); | |
#ifdef _WIN32 | |
remove (tmpnam); | |
free (tmpnam); | |
#endif | |
return; | |
} | |
/* Flatten and display help for those who say they prefer it. | |
*/ | |
static t_stat displayFlatHelp (FILE *st, DEVICE *dptr, | |
UNIT *uptr, int32 flag, | |
TOPIC *topic, va_list ap ) | |
{ | |
size_t i; | |
if (topic->flags & HLP_MAGIC_TOPIC) { | |
fprintf (st, "\n%s ", topic->label); | |
displayMagicTopic (st, dptr, topic); | |
} | |
else | |
fprintf (st, "\n%s %s\n", topic->label, topic->title); | |
/* Topic text (for magic topics, follows for explanations) | |
* It's possible/reasonable for a magic topic to have no text. | |
*/ | |
if (topic->text) | |
fputs (topic->text, st); | |
for (i = 0; i < topic->kids; i++) | |
displayFlatHelp (st, dptr, uptr, flag, topic->children[i], ap); | |
return SCPE_OK; | |
} | |
#define HLP_MATCH_AMBIGUOUS (~0u) | |
#define HLP_MATCH_WILDCARD (~1U) | |
#define HLP_MATCH_NONE 0 | |
static int matchHelpTopicName (TOPIC *topic, const char *token) | |
{ | |
size_t i, match; | |
char cbuf[CBUFSIZE], *cptr; | |
if (!strcmp (token, "*")) | |
return HLP_MATCH_WILDCARD; | |
match = 0; | |
for (i = 0; i < topic->kids; i++) { | |
strcpy (cbuf,topic->children[i]->title + | |
((topic->children[i]->flags & HLP_MAGIC_TOPIC)? 1 : 0)); | |
cptr = cbuf; | |
while (*cptr) { | |
if (blankch (*cptr)) { | |
*cptr++ = '_'; | |
} | |
else { | |
*cptr = (char)sim_toupper (*cptr); | |
cptr++; | |
} | |
} | |
if (!strncmp (cbuf, token, strlen (token))) { | |
if (match) | |
return HLP_MATCH_AMBIGUOUS; | |
match = i+1; | |
} | |
} | |
return match; | |
} | |
/* Main help routine | |
* Takes a va_list | |
*/ | |
t_stat scp_vhelp (FILE *st, DEVICE *dptr, | |
UNIT *uptr, int32 flag, | |
const char *help, const char *cptr, va_list ap) | |
{ | |
TOPIC top; | |
TOPIC *topic = ⊤ | |
int failed; | |
size_t match; | |
size_t i; | |
const char *p; | |
t_bool flat_help = FALSE; | |
char cbuf [CBUFSIZE], gbuf[CBUFSIZE]; | |
static const char attach_help[] = { " ATTACH" }; | |
static const char brief_help[] = { "%s help. Type <CR> to exit, HELP for navigation help" }; | |
static const char onecmd_help[] = { "%s help." }; | |
static const char help_help[] = { | |
/****|***********************80 column width guide********************************/ | |
" This help command provides hierarchical help. To see more information,\n" | |
" type an offered subtopic name. To move back a level, just type <CR>.\n" | |
" To review the current topic/subtopic, type \"?\".\n" | |
" To view all subtopics, type \"*\".\n" | |
" To exit help at any time, type EXIT.\n" | |
}; | |
memset (&top, 0, sizeof(top)); | |
top.parent = ⊤ | |
if ((failed = setjmp (help_env)) != 0) { | |
fprintf (stderr, "\nHelp was unable to process the help for this device.\n" | |
"Error in block %u line %u: %s\n" | |
"%s%*.*s%s" | |
" Please contact the device maintainer.\n", | |
(int)help_where.block, (int)help_where.line, help_where.error, | |
help_where.prox ? "Near '" : "", | |
help_where.prox ? 15 : 0, help_where.prox ? 15 : 0, | |
help_where.prox ? help_where.prox : "", | |
help_where.prox ? "'" : ""); | |
cleanHelp (&top); | |
return failed; | |
} | |
/* Compile string into navigation tree */ | |
/* Root */ | |
if (dptr) { | |
p = dptr->name; | |
flat_help = (dptr->flags & DEV_FLATHELP) != 0; | |
} | |
else | |
p = sim_name; | |
top.title = (char *) malloc (strlen (p) + ((flag & SCP_HELP_ATTACH)? sizeof (attach_help)-1: 0) +1); | |
for (i = 0; p[i]; i++ ) | |
top.title[i] = (char)sim_toupper (p[i]); | |
top.title[i] = '\0'; | |
if (flag & SCP_HELP_ATTACH) | |
strcpy (top.title+i, attach_help); | |
top.label = (char *) malloc (sizeof ("1")); | |
strcpy (top.label, "1"); | |
flat_help = flat_help || !sim_ttisatty() || (flag & SCP_HELP_FLAT); | |
if (flat_help) { | |
flag |= SCP_HELP_FLAT; | |
if (sim_ttisatty()) | |
fprintf (st, "%s help.\nThis help is also available in hierarchical form.\n", top.title); | |
else | |
fprintf (st, "%s help.\n", top.title); | |
} | |
else | |
fprintf (st, ((flag & SCP_HELP_ONECMD)? onecmd_help: brief_help), top.title); | |
/* Add text and subtopics */ | |
(void) buildHelp (&top, dptr, uptr, help, ap); | |
/* Go to initial topic if provided */ | |
while (cptr && *cptr) { | |
cptr = get_glyph (cptr, gbuf, 0); | |
if (!gbuf[0]) | |
break; | |
if (!strcmp (gbuf, "HELP")) { /* HELP (about help) */ | |
fprintf (st, "\n"); | |
fputs (help_help, st); | |
break; | |
} | |
match = matchHelpTopicName (topic, gbuf); | |
if (match == HLP_MATCH_WILDCARD) { | |
displayFlatHelp (st, dptr, uptr, flag, topic, ap); | |
cleanHelp (&top); | |
return SCPE_OK; | |
} | |
if (match == HLP_MATCH_AMBIGUOUS) { | |
fprintf (st, "\n%s is ambiguous in %s\n", gbuf, topic->title); | |
break; | |
} | |
if (match == HLP_MATCH_NONE) { | |
fprintf (st, "\n%s is not available in %s\n", gbuf, topic->title); | |
break; | |
} | |
topic = topic->children[match-1]; | |
} | |
cptr = NULL; | |
if (flat_help) { | |
displayFlatHelp (st, dptr, uptr, flag, topic, ap); | |
cleanHelp (&top); | |
return SCPE_OK; | |
} | |
/* Interactive loop displaying help */ | |
while (TRUE) { | |
char *pstring; | |
const char *prompt[2] = {"? ", "Subtopic? "}; | |
/* Some magic topic names for help from data structures */ | |
if (topic->flags & HLP_MAGIC_TOPIC) { | |
fputc ('\n', st); | |
displayMagicTopic (st, dptr, topic); | |
} | |
else | |
fprintf (st, "\n%s\n", topic->title); | |
/* Topic text (for magic topics, follows for explanations) | |
* It's possible/reasonable for a magic topic to have no text. | |
*/ | |
if (topic->text) | |
fputs (topic->text, st); | |
if (topic->kids) { | |
size_t w = 0; | |
char *p; | |
char tbuf[CBUFSIZE]; | |
fprintf (st, "\n Additional information available:\n\n"); | |
for (i = 0; i < topic->kids; i++) { | |
strcpy (tbuf, topic->children[i]->title + | |
((topic->children[i]->flags & HLP_MAGIC_TOPIC)? 1 : 0)); | |
for (p = tbuf; *p; p++) { | |
if (blankch (*p)) | |
*p = '_'; | |
} | |
w += 4 + topic->kidwid; | |
if (w > 80) { | |
w = 4 + topic->kidwid; | |
fputc ('\n', st); | |
} | |
fprintf (st, " %-*s", topic->kidwid, tbuf); | |
} | |
fprintf (st, "\n\n"); | |
if (flag & SCP_HELP_ONECMD) { | |
pstring = helpPrompt (topic, "", TRUE); | |
fprintf (st, "To view additional topics, type HELP %s topicname\n", pstring+1); | |
free (pstring); | |
break; | |
} | |
} | |
if (!sim_ttisatty() || (flag & SCP_HELP_ONECMD)) | |
break; | |
reprompt: | |
if (!cptr || !*cptr) { | |
pstring = helpPrompt (topic, prompt[topic->kids != 0], FALSE); | |
cptr = read_line_p (pstring, cbuf, sizeof (cbuf), stdin); | |
free (pstring); | |
} | |
if (!cptr) /* EOF, exit help */ | |
break; | |
cptr = get_glyph (cptr, gbuf, 0); | |
if (!strcmp (gbuf, "*")) { /* Wildcard */ | |
displayFlatHelp (st, dptr, uptr, flag, topic, ap); | |
gbuf[0] = '\0'; /* Displayed all subtopics, go up */ | |
} | |
if (!gbuf[0]) { /* Blank, up a level */ | |
if (topic->level == 0) | |
break; | |
topic = topic->parent; | |
continue; | |
} | |
if (!strcmp (gbuf, "?")) /* ?, repaint current topic */ | |
continue; | |
if (!strcmp (gbuf, "HELP")) { /* HELP (about help) */ | |
fputs (help_help, st); | |
goto reprompt; | |
} | |
if (!strcmp (gbuf, "EXIT") || !strcmp (gbuf, "QUIT")) /* EXIT (help) */ | |
break; | |
/* String - look for that topic */ | |
if (!topic->kids) { | |
fprintf (st, "No additional help at this level.\n"); | |
cptr = NULL; | |
goto reprompt; | |
} | |
match = matchHelpTopicName (topic, gbuf); | |
if (match == HLP_MATCH_AMBIGUOUS) { | |
fprintf (st, "%s is ambiguous, please type more of the topic name\n", gbuf); | |
cptr = NULL; | |
goto reprompt; | |
} | |
if (match == HLP_MATCH_NONE) { | |
fprintf (st, "Help for %s is not available\n", gbuf); | |
cptr = NULL; | |
goto reprompt; | |
} | |
/* Found, display subtopic */ | |
topic = topic->children[match-1]; | |
} | |
/* Free structures and return */ | |
cleanHelp (&top); | |
return SCPE_OK; | |
} | |
/* variable argument list shell - most commonly used | |
*/ | |
t_stat scp_help (FILE *st, DEVICE *dptr, | |
UNIT *uptr, int32 flag, | |
const char *help, const char *cptr, ...) | |
{ | |
t_stat r; | |
va_list ap; | |
va_start (ap, cptr); | |
r = scp_vhelp (st, dptr, uptr, flag, help, cptr, ap); | |
va_end (ap); | |
return r; | |
} | |
#if 01 | |
/* Read help from a file | |
* | |
* Not recommended due to OS-dependent issues finding the file, + maintenance. | |
* Don't hardcode any path - just name.hlp - so there's a chance the file can | |
* be found. | |
*/ | |
t_stat scp_vhelpFromFile (FILE *st, DEVICE *dptr, | |
UNIT *uptr, int32 flag, | |
const char *helpfile, | |
const char *cptr, va_list ap) | |
{ | |
FILE *fp; | |
char *help, *p; | |
t_offset size, n; | |
int c; | |
t_stat r; | |
fp = sim_fopen (helpfile, "r"); | |
if (fp == NULL) { | |
if (sim_argv && *sim_argv[0]) { | |
char fbuf[(4*PATH_MAX)+1]; /* PATH_MAX is ridiculously small on some platforms */ | |
const char *d = NULL; | |
/* Try to find a path from argv[0]. This won't always | |
* work (one reason files are probably not a good idea), | |
* but we might as well try. Some OSs won't include a | |
* path. Having failed in the CWD, try to find the location | |
* of the executable. Failing that, try the 'help' subdirectory | |
* of the executable. Failing that, we're out of luck. | |
*/ | |
fbuf[sizeof(fbuf)-1] = '\0'; | |
strlcpy (fbuf, sim_argv[0], sizeof (fbuf)); | |
if ((p = (char *)match_ext (fbuf, "EXE"))) | |
*p = '\0'; | |
if ((p = strrchr (fbuf, '\\'))) { | |
p[1] = '\0'; | |
d = "%s\\"; | |
} | |
else { | |
if ((p = strrchr (fbuf, '/'))) { | |
p[1] = '\0'; | |
d = "%s/"; | |
#ifdef VMS | |
} | |
else { | |
if ((p = strrchr (fbuf, ']'))) { | |
p[1] = '\0'; | |
d = "[%s]"; | |
} | |
#endif | |
} | |
} | |
if (p && (strlen (fbuf) + strlen (helpfile) +1) <= sizeof (fbuf)) { | |
strcat (fbuf, helpfile); | |
fp = sim_fopen (fbuf, "r"); | |
} | |
if (!fp && p && (strlen (fbuf) + strlen (d) + sizeof ("help") + | |
strlen (helpfile) +1) <= sizeof (fbuf)) { | |
sprintf (p+1, d, "help"); | |
strcat (p+1, helpfile); | |
fp = sim_fopen (fbuf, "r"); | |
} | |
} | |
} | |
if (fp == NULL) { | |
fprintf (stderr, "Unable to open %s\n", helpfile); | |
return SCPE_UNATT; | |
} | |
size = sim_fsize_ex (fp); /* Estimate; line endings will vary */ | |
help = (char *) malloc ((size_t) size +1); | |
if (!help) { | |
fclose (fp); | |
return SCPE_MEM; | |
} | |
p = help; | |
n = 0; | |
while ((c = fgetc (fp)) != EOF) { | |
if (++n > size) { | |
#define XPANDQ 512 | |
p = (char *) realloc (help, ((size_t)size) + XPANDQ +1); | |
if (!p) { | |
free (help); | |
fclose (fp); | |
return SCPE_MEM; | |
} | |
help = p; | |
size += XPANDQ; | |
p += n; | |
} | |
*p++ = (char)c; | |
} | |
*p++ = '\0'; | |
fclose (fp); | |
r = scp_vhelp (st, dptr, uptr, flag, help, cptr, ap); | |
free (help); | |
return r; | |
} | |
t_stat scp_helpFromFile (FILE *st, DEVICE *dptr, | |
UNIT *uptr, int32 flag, | |
const char *helpfile, const char *cptr, ...) | |
{ | |
t_stat r; | |
va_list ap; | |
va_start (ap, cptr); | |
r = scp_vhelpFromFile (st, dptr, uptr, flag, helpfile, cptr, ap); | |
va_end (ap); | |
return r; | |
} | |
#endif | |
/* | |
* Expression evaluation package | |
* | |
* Derived from code provided by Gabriel Pizzolato | |
*/ | |
typedef t_svalue (*Operator_Function)(t_svalue, t_svalue); | |
typedef t_svalue (*Operator_String_Function)(const char *, const char *); | |
typedef struct Operator { | |
const char *string; | |
int precedence; | |
int unary; | |
Operator_Function | |
function; | |
Operator_String_Function | |
string_function; | |
const char *description; | |
} Operator; | |
typedef struct Stack_Element { | |
Operator *op; | |
char data[72]; | |
} Stack_Element; | |
typedef struct Stack { | |
int size; | |
int pointer; | |
int id; | |
Stack_Element *elements; | |
} Stack; | |
#define STACK_GROW_AMOUNT 5 /* Number of elements to add to stack when needed */ | |
/* static variable allocation */ | |
static int stack_counter = 0; /* number of stacks current allocated */ | |
/* start of true stack code */ | |
/*----------------------------------------------------------------------------- | |
* Delete the given stack and free all memory associated with it. | |
-----------------------------------------------------------------------------*/ | |
void delete_Stack (Stack *sp) | |
{ | |
if (sp == NULL) | |
return; | |
sim_debug (SIM_DBG_EXP_STACK, sim_dflt_dev, "[Stack %d has been deallocated]\n", sp->id); | |
/* Free the data that the stack was pointing at */ | |
free (sp->elements); | |
free (sp); | |
stack_counter--; | |
} | |
/*----------------------------------------------------------------------------- | |
* Check to see if a stack is empty | |
-----------------------------------------------------------------------------*/ | |
static t_bool isempty_Stack (Stack *this_Stack) | |
{ | |
return (this_Stack->pointer == 0); | |
} | |
/*----------------------------------------------------------------------------- | |
* Create a new stack. | |
-----------------------------------------------------------------------------*/ | |
static Stack *new_Stack (void) | |
{ | |
/* Stack variable to return */ | |
Stack *this_Stack = (Stack *)calloc(1, sizeof(*this_Stack)); | |
this_Stack->id = ++stack_counter; | |
sim_debug (SIM_DBG_EXP_STACK, sim_dflt_dev, "[Stack %d has been allocated]\n", this_Stack->id); | |
return this_Stack; /* Returns created stack */ | |
} | |
/*----------------------------------------------------------------------------- | |
* Remove the top element from the specified stack | |
-----------------------------------------------------------------------------*/ | |
static t_bool pop_Stack (Stack * this_Stack, char *data, Operator **op) | |
{ | |
*op = NULL; | |
*data = '\0'; | |
if (isempty_Stack(this_Stack)) | |
return FALSE; | |
strcpy (data, this_Stack->elements[this_Stack->pointer-1].data); | |
*op = this_Stack->elements[this_Stack->pointer-1].op; | |
--this_Stack->pointer; | |
if (*op) | |
sim_debug (SIM_DBG_EXP_STACK, sim_dflt_dev, "[Stack %d - Popping '%s'(precedence %d)]\n", | |
this_Stack->id, (*op)->string, (*op)->precedence); | |
else | |
sim_debug (SIM_DBG_EXP_STACK, sim_dflt_dev, "[Stack %d - Popping %s]\n", | |
this_Stack->id, data); | |
return TRUE; /* Success */ | |
} | |
/*----------------------------------------------------------------------------- | |
* Add an element to the specified stack. | |
-----------------------------------------------------------------------------*/ | |
static t_bool push_Stack (Stack * this_Stack, char *data, Operator *op) | |
{ | |
if (this_Stack == NULL) | |
return FALSE; | |
if (this_Stack->pointer == this_Stack->size) { /* If necessary, grow stack */ | |
this_Stack->size += STACK_GROW_AMOUNT; | |
this_Stack->elements = (Stack_Element *)realloc (this_Stack->elements, this_Stack->size * sizeof(*this_Stack->elements)); | |
memset (&this_Stack->elements[this_Stack->size - STACK_GROW_AMOUNT], 0, STACK_GROW_AMOUNT * sizeof(*this_Stack->elements)); | |
} | |
this_Stack->elements[this_Stack->pointer].op = op; | |
strlcpy (this_Stack->elements[this_Stack->pointer].data, data, sizeof (this_Stack->elements[this_Stack->pointer].data)); | |
++this_Stack->pointer; | |
if (op) | |
sim_debug (SIM_DBG_EXP_STACK, sim_dflt_dev, "[Stack %d - Pushing '%s'(precedence %d)]\n", | |
this_Stack->id, op->string, op->precedence); | |
else | |
sim_debug (SIM_DBG_EXP_STACK, sim_dflt_dev, "[Stack %d - Pushing %s]\n", | |
this_Stack->id, data); | |
return TRUE; /* Success */ | |
} | |
/*----------------------------------------------------------------------------- | |
* Return the element at the top of the stack. | |
-----------------------------------------------------------------------------*/ | |
static t_bool top_Stack (Stack * this_Stack, char *data, Operator **op) | |
{ | |
if (isempty_Stack(this_Stack)) | |
return FALSE; | |
strcpy (data, this_Stack->elements[this_Stack->pointer-1].data); | |
*op = this_Stack->elements[this_Stack->pointer-1].op; | |
if (*op) | |
sim_debug (SIM_DBG_EXP_STACK, sim_dflt_dev, "[Stack %d - Topping '%s'(precedence %d)]\n", | |
this_Stack->id, (*op)->string, (*op)->precedence); | |
else | |
sim_debug (SIM_DBG_EXP_STACK, sim_dflt_dev, "[Stack %d - Topping %s]\n", | |
this_Stack->id, data); | |
return TRUE; /* Success */ | |
} | |
/* All Functions implementing operations */ | |
static t_svalue _op_add (t_svalue augend, t_svalue addend) | |
{ | |
return augend + addend; | |
} | |
static t_svalue _op_sub (t_svalue subtrahend, t_svalue minuend) | |
{ | |
return minuend - subtrahend; | |
} | |
static t_svalue _op_mult (t_svalue factorx, t_svalue factory) | |
{ | |
return factorx * factory; | |
} | |
static t_svalue _op_div (t_svalue divisor, t_svalue dividend) | |
{ | |
if (divisor != 0) | |
return dividend / divisor; | |
return T_SVALUE_MAX; | |
} | |
static t_svalue _op_mod (t_svalue divisor, t_svalue dividend) | |
{ | |
if (divisor != 0) | |
return dividend % divisor; | |
return 0; | |
} | |
static t_svalue _op_comp (t_svalue data, t_svalue unused) | |
{ | |
return ~data; | |
} | |
static t_svalue _op_log_not (t_svalue data, t_svalue unused) | |
{ | |
return !data; | |
} | |
static t_svalue _op_log_and (t_svalue data1, t_svalue data2) | |
{ | |
return data2 && data1; | |
} | |
static t_svalue _op_log_or (t_svalue data1, t_svalue data2) | |
{ | |
return data2 || data1; | |
} | |
static t_svalue _op_bit_and (t_svalue data1, t_svalue data2) | |
{ | |
return data2 & data1; | |
} | |
static t_svalue _op_bit_rsh (t_svalue shift, t_svalue data) | |
{ | |
return data >> shift; | |
} | |
static t_svalue _op_bit_lsh (t_svalue shift, t_svalue data) | |
{ | |
return data << shift; | |
} | |
static t_svalue _op_bit_or (t_svalue data1, t_svalue data2) | |
{ | |
return data2 | data1; | |
} | |
static t_svalue _op_bit_xor (t_svalue data1, t_svalue data2) | |
{ | |
return data2 ^ data1; | |
} | |
static t_svalue _op_eq (t_svalue data1, t_svalue data2) | |
{ | |
return data2 == data1; | |
} | |
static t_svalue _op_ne (t_svalue data1, t_svalue data2) | |
{ | |
return data2 != data1; | |
} | |
static t_svalue _op_le (t_svalue data1, t_svalue data2) | |
{ | |
return data2 <= data1; | |
} | |
static t_svalue _op_lt (t_svalue data1, t_svalue data2) | |
{ | |
return data2 < data1; | |
} | |
static t_svalue _op_ge (t_svalue data1, t_svalue data2) | |
{ | |
return data2 >= data1; | |
} | |
static t_svalue _op_gt (t_svalue data1, t_svalue data2) | |
{ | |
return data2 > data1; | |
} | |
static int _i_strcmp (const char *s1, const char *s2) | |
{ | |
return ((sim_switches & SWMASK('I')) ? strcasecmp (s2, s1) : strcmp (s2, s1)); | |
} | |
static t_svalue _op_str_eq (const char *str1, const char *str2) | |
{ | |
return (0 == _i_strcmp (str2, str1)); | |
} | |
static t_svalue _op_str_ne (const char *str1, const char *str2) | |
{ | |
return (0 != _i_strcmp (str2, str1)); | |
} | |
static t_svalue _op_str_le (const char *str1, const char *str2) | |
{ | |
return (0 <= _i_strcmp (str2, str1)); | |
} | |
static t_svalue _op_str_lt (const char *str1, const char *str2) | |
{ | |
return (0 < _i_strcmp (str2, str1)); | |
} | |
static t_svalue _op_str_ge (const char *str1, const char *str2) | |
{ | |
return (0 >= _i_strcmp (str2, str1)); | |
} | |
static t_svalue _op_str_gt (const char *str1, const char *str2) | |
{ | |
return (0 > _i_strcmp (str2, str1)); | |
} | |
/* | |
* The order of elements in this array is significant. | |
* Care must be taken so that longer strings which have | |
* shorter strings contained in them must come first. | |
* For example "!=" must come before "!". | |
* | |
* These operators implement C language operator precedence | |
* as described in: | |
* http://en.cppreference.com/w/c/language/operator_precedence | |
*/ | |
static Operator operators[] = { | |
{"(", 99, 0, NULL, NULL, "Open Parenthesis"}, | |
{")", 99, 0, NULL, NULL, "Close Parenthesis"}, | |
{"+", 4, 0, _op_add, NULL, "Addition"}, | |
{"-", 4, 0, _op_sub, NULL, "Subtraction"}, | |
{"*", 3, 0, _op_mult, NULL, "Multiplication"}, | |
{"/", 3, 0, _op_div, NULL, "Division"}, | |
{"%", 3, 0, _op_mod, NULL, "Modulus"}, | |
{"&&", 11, 0, _op_log_and, NULL, "Logical AND"}, | |
{"||", 12, 0, _op_log_or, NULL, "Logical OR"}, | |
{"&", 8, 0, _op_bit_and, NULL, "Bitwise AND"}, | |
{">>", 5, 0, _op_bit_rsh, NULL, "Bitwise Right Shift"}, | |
{"<<", 5, 0, _op_bit_lsh, NULL, "Bitwise Left Shift"}, | |
{"|", 10, 0, _op_bit_or, NULL, "Bitwise Inclusive OR"}, | |
{"^", 9, 0, _op_bit_xor, NULL, "Bitwise Exclusive OR"}, | |
{"==", 7, 0, _op_eq, _op_str_eq, "Equality"}, | |
{"!=", 7, 0, _op_ne, _op_str_ne, "Inequality"}, | |
{"<=", 6, 0, _op_le, _op_str_le, "Less than or Equal"}, | |
{"<", 6, 0, _op_lt, _op_str_lt, "Less than"}, | |
{">=", 6, 0, _op_ge, _op_str_ge, "Greater than or Equal"}, | |
{">", 6, 0, _op_gt, _op_str_gt, "Greater than"}, | |
{"!", 2, 1, _op_log_not, NULL, "Logical Negation"}, | |
{"~", 2, 1, _op_comp, NULL, "Bitwise Compliment"}, | |
{NULL}}; | |
static const char *get_glyph_exp (const char *cptr, char *buf, Operator **oper, t_stat *stat) | |
{ | |
static const char HexDigits[] = "0123456789abcdefABCDEF"; | |
static const char OctalDigits[] = "01234567"; | |
static const char BinaryDigits[] = "01"; | |
*stat = SCPE_OK; /* Assume Success */ | |
*buf = '\0'; | |
*oper = NULL; | |
while (isspace (*cptr)) | |
++cptr; | |
if (isalpha (*cptr) || (*cptr == '_')) { | |
while (isalnum (*cptr) || (*cptr == '.') || (*cptr == '_')) | |
*buf++ = *cptr++; | |
*buf = '\0'; | |
} | |
else { | |
if (isdigit (*cptr)) { | |
if ((!memcmp (cptr, "0x", 2)) || /* Hex Number */ | |
(!memcmp (cptr, "0X", 2))) { | |
memcpy (buf, cptr, 2); | |
cptr += 2; | |
buf += 2; | |
while (*cptr && strchr (HexDigits, *cptr)) | |
*buf++ = *cptr++; | |
*buf = '\0'; | |
} | |
else { | |
if ((!memcmp (cptr, "0b", 2)) ||/* Binary Number */ | |
(!memcmp (cptr, "0B", 2))) { | |
memcpy (buf, cptr, 2); | |
cptr += 2; | |
buf += 2; | |
while (*cptr && strchr (BinaryDigits, *cptr)) | |
*buf++ = *cptr++; | |
*buf = '\0'; | |
} | |
else { | |
if (*cptr == '0') { /* Octal Number */ | |
while (*cptr && strchr (OctalDigits, *cptr)) | |
*buf++ = *cptr++; | |
*buf = '\0'; | |
} | |
else { /* Decimal Number */ | |
while (isdigit (*cptr)) | |
*buf++ = *cptr++; | |
*buf = '\0'; | |
} | |
} | |
} | |
if (isalpha (*cptr)) { /* Numbers can't be followed by alpha character */ | |
*stat = SCPE_INVEXPR; | |
return cptr; | |
} | |
} | |
else { | |
if (((cptr[0] == '-') || (cptr[0] == '+')) && | |
(isdigit (cptr[1]))) { /* Signed Decimal Number */ | |
*buf++ = *cptr++; | |
while (isdigit (*cptr)) | |
*buf++ = *cptr++; | |
*buf = '\0'; | |
if (isalpha (*cptr)) { /* Numbers can't be followed by alpha character */ | |
*stat = SCPE_INVEXPR; | |
return cptr; | |
} | |
} | |
else { /* Special Characters (operators) */ | |
if ((*cptr == '"') || (*cptr == '\'')) { | |
cptr = (CONST char *)get_glyph_gen (cptr, buf, 0, (sim_switches & SWMASK ('I')), TRUE, '\\'); | |
} | |
else { | |
Operator *op; | |
for (op = operators; op->string; op++) { | |
if (!memcmp (cptr, op->string, strlen (op->string))) { | |
strcpy (buf, op->string); | |
cptr += strlen (op->string); | |
*oper = op; | |
break; | |
} | |
} | |
if (!op->string) { | |
*stat = SCPE_INVEXPR; | |
return cptr; | |
} | |
} | |
} | |
} | |
} | |
while (isspace (*cptr)) | |
++cptr; | |
return cptr; | |
} | |
/* | |
* Translate a string containing an infix ordered expression | |
* into a stack containing that expression in postfix order | |
*/ | |
static const char *sim_into_postfix (Stack *stack1, const char *cptr, t_stat *stat, t_bool parens_required) | |
{ | |
const char *start = cptr; | |
const char *last_cptr; | |
int parens = 0; | |
Operator *op = NULL, *last_op; | |
Stack *stack2 = new_Stack(); /* operator stack */ | |
char gbuf[CBUFSIZE]; | |
while (isspace(*cptr)) /* skip leading whitespace */ | |
++cptr; | |
if (parens_required && (*cptr != '(')) { | |
delete_Stack (stack2); | |
*stat = SCPE_INVEXPR; | |
return cptr; | |
} | |
while (*cptr) { | |
last_cptr = cptr; | |
last_op = op; | |
cptr = get_glyph_exp (cptr, gbuf, &op, stat); | |
if (*stat != SCPE_OK) { | |
delete_Stack (stack2); | |
return cptr; | |
} | |
if (!last_op && !op && ((gbuf[0] == '-') || (gbuf[0] == '+'))) { | |
for (op = operators; gbuf[0] != op->string[0]; op++); | |
gbuf[0] = '0'; | |
cptr = last_cptr + 1; | |
} | |
sim_debug (SIM_DBG_EXP_EVAL, sim_dflt_dev, "[Glyph: %s]\n", op ? op->string : gbuf); | |
if (!op) { | |
push_Stack (stack1, gbuf, op); | |
continue; | |
} | |
if (0 == strcmp (op->string, "(")) { | |
++parens; | |
push_Stack (stack2, gbuf, op); | |
continue; | |
} | |
if (0 == strcmp (op->string, ")")) { | |
char temp_buf[CBUFSIZE]; | |
Operator *temp_op; | |
--parens; | |
if ((!pop_Stack (stack2, temp_buf, &temp_op)) || | |
(parens < 0)){ | |
*stat = sim_messagef (SCPE_INVEXPR, "Invalid Parenthesis nesting\n"); | |
delete_Stack (stack2); | |
return cptr; | |
} | |
while (0 != strcmp (temp_op->string, "(")) { | |
push_Stack (stack1, temp_buf, temp_op); | |
if (!pop_Stack (stack2, temp_buf, &temp_op)) | |
break; | |
} | |
if (parens_required && (parens == 0)) { | |
delete_Stack (stack2); | |
return cptr; | |
} | |
continue; | |
} | |
while (!isempty_Stack(stack2)) { | |
char top_buf[CBUFSIZE]; | |
Operator *top_op; | |
top_Stack (stack2, top_buf, &top_op); | |
if (top_op->precedence > op->precedence) | |
break; | |
pop_Stack (stack2, top_buf, &top_op); | |
push_Stack (stack1, top_buf, top_op); | |
} | |
push_Stack (stack2, gbuf, op); | |
} | |
if (parens != 0) | |
*stat = sim_messagef (SCPE_INVEXPR, "Invalid Parenthesis nesting\n"); | |
/* migrate the rest of stack2 onto stack1 */ | |
while (!isempty_Stack (stack2)) { | |
pop_Stack (stack2, gbuf, &op); | |
push_Stack (stack1, gbuf, op); | |
} | |
delete_Stack (stack2); /* delete the working operator stack */ | |
return cptr; /* return any unprocessed input */ | |
} | |
static t_bool _value_of (const char *data, t_svalue *svalue, char *string, size_t string_size) | |
{ | |
CONST char *gptr; | |
size_t data_size = strlen (data); | |
if (isalpha (*data) || (*data == '_')) { | |
REG *rptr = NULL; | |
DEVICE *dptr = sim_dfdev; | |
const char *dot; | |
dot = strchr (data, '.'); | |
if (dot) { | |
char devnam[CBUFSIZE]; | |
memcpy (devnam, data, dot - data); | |
devnam[dot - data] = '\0'; | |
if (find_dev (devnam)) { | |
dptr = find_dev (devnam); | |
data = dot + 1; | |
rptr = find_reg (data, &gptr, dptr); | |
} | |
} | |
else | |
rptr = find_reg_glob (data, &gptr, &dptr); | |
if (rptr) { | |
*svalue = (t_svalue)get_rval (rptr, 0); | |
sprint_val (string, *svalue, 10, string_size - 1, PV_LEFTSIGN); | |
return TRUE; | |
} | |
gptr = _sim_get_env_special (data, string, string_size - 1); | |
if (gptr) { | |
*svalue = strtotsv(string, &gptr, 0); | |
return ((*gptr == '\0') && (*string)); | |
} | |
else { | |
data = ""; | |
data_size = 0; | |
} | |
} | |
string[0] = '\0'; | |
if ((data[0] == '\'') && (data_size > 1) && (data[data_size - 1] == '\'')) | |
snprintf (string, string_size - 1, "\"%*.*s\"", (int)(data_size - 2), (int)(data_size - 2), data + 1); | |
if ((data[0] == '"') && (data_size > 1) && (data[data_size - 1] == '"')) | |
strlcpy (string, data, string_size); | |
if (string[0] == '\0') { | |
*svalue = strtotsv(data, &gptr, 0); | |
return ((*gptr == '\0') && (*data)); | |
} | |
sim_sub_args (string, string_size, sim_exp_argv); | |
*svalue = strtotsv(string, &gptr, 0); | |
return ((*gptr == '\0') && (*string)); | |
} | |
/* | |
* Evaluate a given stack1 containing a postfix expression | |
*/ | |
static t_svalue sim_eval_postfix (Stack *stack1, t_stat *stat) | |
{ | |
Stack *stack2 = new_Stack(); /* local working stack2 which is holds the numbers operators */ | |
char temp_data[CBUFSIZE]; /* Holds the items popped from the stack2 */ | |
Operator *temp_op; | |
t_svalue temp_val; | |
char temp_string[CBUFSIZE + 2]; | |
*stat = SCPE_OK; | |
/* Reverse stack1 onto stack2 leaving stack1 empty */ | |
while (!isempty_Stack(stack1)) { | |
pop_Stack (stack1, temp_data, &temp_op); | |
if (temp_op) | |
sim_debug (SIM_DBG_EXP_EVAL, sim_dflt_dev, "[Expression element: %s (%d)\n", | |
temp_op->string, temp_op->precedence); | |
else | |
sim_debug (SIM_DBG_EXP_EVAL, sim_dflt_dev, "[Expression element: %s\n", | |
temp_data); | |
push_Stack (stack2, temp_data, temp_op); | |
} | |
/* Loop through the postfix expression in stack2 evaluating until stack2 is empty */ | |
while (!isempty_Stack(stack2)) { | |
pop_Stack (stack2, temp_data, &temp_op); | |
if (temp_op) { /* operator? */ | |
t_bool num1; | |
t_svalue val1; | |
char item1[CBUFSIZE], string1[CBUFSIZE+2]; | |
Operator *op1; | |
t_bool num2; | |
t_svalue val2; | |
char item2[CBUFSIZE], string2[CBUFSIZE+2]; | |
Operator *op2; | |
if (!pop_Stack (stack1, item1, &op1)) { | |
*stat = SCPE_INVEXPR; | |
delete_Stack (stack2); | |
return 0; | |
} | |
if (temp_op->unary) | |
strlcpy (item2, "0", sizeof (item2)); | |
else { | |
if ((!pop_Stack (stack1, item2, &op2)) && | |
(temp_op->string[0] != '-') && | |
(temp_op->string[0] != '+')) { | |
*stat = SCPE_INVEXPR; | |
delete_Stack (stack2); | |
return 0; | |
} | |
} | |
num1 = _value_of (item1, &val1, string1, sizeof (string1)); | |
num2 = _value_of (item2, &val2, string2, sizeof (string2)); | |
if ((!(num1 && num2)) && temp_op->string_function) | |
sprint_val (temp_data, (t_value)temp_op->string_function (string1, string2), 10, sizeof(temp_data) - 1, PV_LEFTSIGN); | |
else | |
sprint_val (temp_data, (t_value)temp_op->function (val1, val2), 10, sizeof(temp_data) - 1, PV_LEFTSIGN); | |
push_Stack (stack1, temp_data, NULL); | |
} | |
else | |
push_Stack (stack1, temp_data, temp_op); | |
} | |
if (!pop_Stack (stack1, temp_data, &temp_op)) { | |
*stat = SCPE_INVEXPR; | |
delete_Stack (stack2); | |
return 0; | |
} | |
delete_Stack (stack2); | |
if (_value_of (temp_data, &temp_val, temp_string, sizeof (temp_string))) | |
return temp_val; | |
else | |
return (t_svalue)(strlen (temp_string) > 2); | |
} | |
const char *sim_eval_expression (const char *cptr, t_svalue *value, t_bool parens_required, t_stat *stat) | |
{ | |
const char *iptr = cptr; | |
Stack *postfix = new_Stack (); /* for the postfix expression */ | |
sim_debug (SIM_DBG_EXP_EVAL, sim_dflt_dev, "[Evaluate Expression: %s\n", cptr); | |
*value = 0; | |
cptr = sim_into_postfix (postfix, cptr, stat, parens_required); | |
if (*stat != SCPE_OK) { | |
delete_Stack (postfix); | |
*stat = sim_messagef (SCPE_ARG, "Invalid Expression Element:\n%s\n%*s^\n", iptr, (int)(cptr-iptr), ""); | |
return cptr; | |
} | |
*value = sim_eval_postfix (postfix, stat); | |
delete_Stack (postfix); | |
return cptr; | |
} | |
/* | |
Compiled in unit tests for the various device oriented library | |
modules: sim_card, sim_disk, sim_tape, sim_ether, sim_tmxr, etc. | |
*/ | |
static t_stat create_card_file (const char *filename, int cards) | |
{ | |
FILE *f; | |
int i; | |
f = fopen (filename, "w"); | |
if (f == NULL) | |
return SCPE_OPENERR; | |
for (i=0; i<cards; i++) | |
fprintf (f, "%05d ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789\n", i); | |
fclose (f); | |
return SCPE_OK; | |
} | |
#define TST(_stat) do { if (SCPE_OK != (stat = (_stat))) {sim_printf ("Error: %d - '%s' processing: " #_stat "\n", stat, sim_error_text(stat)); goto done; }} while (0) | |
static t_stat test_card (DEVICE *dptr) | |
{ | |
t_stat stat = SCPE_OK; | |
#if defined(USE_SIM_CARD) && defined(SIM_CARD_API) | |
char cmd[CBUFSIZE]; | |
char saved_filename[4*CBUFSIZE]; | |
uint16 card_image[80]; | |
if ((dptr->units->flags & UNIT_RO) == 0) /* Punch device? */ | |
return SCPE_OK; | |
sim_printf ("Testing %s device sim_card APIs\n", dptr->name); | |
(void)remove("file1.deck"); | |
(void)remove("file2.deck"); | |
(void)remove("file3.deck"); | |
(void)remove("file4.deck"); | |
TST(create_card_file ("File10.deck", 10)); | |
TST(create_card_file ("File20.deck", 20)); | |
TST(create_card_file ("File30.deck", 30)); | |
TST(create_card_file ("File40.deck", 40)); | |
sprintf (cmd, "%s File10.deck", dptr->name); | |
TST(attach_cmd (0, cmd)); | |
sprintf (cmd, "%s File20.deck", dptr->name); | |
TST(attach_cmd (0, cmd)); | |
sprintf (cmd, "%s -S File30.deck", dptr->name); | |
TST(attach_cmd (0, cmd)); | |
sprintf (cmd, "%s -S -E File40.deck", dptr->name); | |
TST(attach_cmd (0, cmd)); | |
sprintf (saved_filename, "%s %s", dptr->name, dptr->units->filename); | |
show_cmd (0, dptr->name); | |
sim_printf ("Input Hopper Count: %d\n", sim_card_input_hopper_count(dptr->units)); | |
sim_printf ("Output Hopper Count: %d\n", sim_card_output_hopper_count(dptr->units)); | |
while (!sim_card_eof (dptr->units)) | |
TST(sim_read_card (dptr->units, card_image)); | |
sim_printf ("Input Hopper Count: %d\n", sim_card_input_hopper_count(dptr->units)); | |
sim_printf ("Output Hopper Count: %d\n", sim_card_output_hopper_count(dptr->units)); | |
sim_printf ("Detaching %s\n", dptr->name); | |
TST(detach_cmd (0, dptr->name)); | |
show_cmd (0, dptr->name); | |
sim_printf ("Input Hopper Count: %d\n", sim_card_input_hopper_count(dptr->units)); | |
sim_printf ("Output Hopper Count: %d\n", sim_card_output_hopper_count(dptr->units)); | |
sim_printf ("Attaching Saved Filenames: %s\n", saved_filename + strlen(dptr->name)); | |
TST(attach_cmd (0, saved_filename)); | |
show_cmd (0, dptr->name); | |
sim_printf ("Input Hopper Count: %d\n", sim_card_input_hopper_count(dptr->units)); | |
sim_printf ("Output Hopper Count: %d\n", sim_card_output_hopper_count(dptr->units)); | |
TST(detach_cmd (0, dptr->name)); | |
done: | |
(void)remove ("file10.deck"); | |
(void)remove ("file20.deck"); | |
(void)remove ("file30.deck"); | |
(void)remove ("file40.deck"); | |
#endif /* defined(USE_SIM_CARD) && defined(SIM_CARD_API) */ | |
return stat; | |
} | |
static t_stat test_tape (DEVICE *dptr) | |
{ | |
return SCPE_OK; | |
} | |
static t_stat test_disk (DEVICE *dptr) | |
{ | |
return SCPE_OK; | |
} | |
static t_stat test_ether (DEVICE *dptr) | |
{ | |
return SCPE_OK; | |
} | |
static t_stat sim_library_unit_tests (void) | |
{ | |
int i; | |
DEVICE *dptr; | |
t_stat stat = SCPE_OK; | |
for (i = 0; (dptr = sim_devices[i]) != NULL; i++) { | |
if (DEV_TYPE(dptr) == DEV_CARD) | |
stat = test_card (dptr); | |
else | |
if (DEV_TYPE(dptr) == DEV_TAPE) | |
stat = test_tape (dptr); | |
else | |
if (DEV_TYPE(dptr) == DEV_DISK) | |
stat = test_disk (dptr); | |
else | |
if (DEV_TYPE(dptr) == DEV_ETHER) | |
stat = test_ether (dptr); | |
} | |
return stat; | |
} |