/* sim_defs.h: simulator definitions | |
Copyright (c) 1993-2008, 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. | |
05-Jan-11 MP Added Asynch I/O support | |
18-Jan-11 MP Added log file reference count support | |
21-Jul-08 RMS Removed inlining support | |
28-May-08 RMS Added inlining support | |
28-Jun-07 RMS Added IA64 VMS support (from Norm Lastovica) | |
18-Jun-07 RMS Added UNIT_IDLE flag | |
18-Mar-07 RMS Added UNIT_TEXT flag | |
07-Mar-07 JDB Added DEBUG_PRJ macro | |
18-Oct-06 RMS Added limit check for clock synchronized keyboard waits | |
13-Jul-06 RMS Guarantee CBUFSIZE is at least 256 | |
07-Jan-06 RMS Added support for breakpoint spaces | |
Added REG_FIT flag | |
16-Aug-05 RMS Fixed C++ declaration and cast problems | |
11-Mar-05 RMS Moved 64b data type definitions outside USE_INT64 | |
07-Feb-05 RMS Added assertion fail stop | |
05-Nov-04 RMS Added support for SHOW opt=val | |
20-Oct-04 RMS Converted all base types to typedefs | |
21-Sep-04 RMS Added switch to flag stop message printout | |
06-Feb-04 RMS Moved device and unit user flags fields (V3.2) | |
RMS Added REG_VMAD | |
29-Dec-03 RMS Added output stall status | |
15-Jun-03 RMS Added register flag REG_VMIO | |
23-Apr-03 RMS Revised for 32b/64b t_addr | |
14-Mar-03 RMS Lengthened default serial output wait | |
31-Mar-03 RMS Added u5, u6 fields | |
18-Mar-03 RMS Added logical name support | |
Moved magtape definitions to sim_tape.h | |
Moved breakpoint definitions from scp.c | |
03-Mar-03 RMS Added sim_fsize | |
08-Feb-03 RMS Changed sim_os_sleep to void, added match_ext | |
05-Jan-03 RMS Added hidden switch definitions, device dyn memory support, | |
parameters for function pointers, case sensitive SET support | |
22-Dec-02 RMS Added break flag | |
08-Oct-02 RMS Increased simulator error code space | |
Added Telnet errors | |
Added end of medium support | |
Added help messages to CTAB | |
Added flag and context fields to DEVICE | |
Added restore flag masks | |
Revised 64b definitions | |
02-May-02 RMS Removed log status codes | |
22-Apr-02 RMS Added magtape record length error | |
30-Dec-01 RMS Generalized timer package, added circular arrays | |
07-Dec-01 RMS Added breakpoint package | |
01-Dec-01 RMS Added read-only unit support, extended SET/SHOW features, | |
improved error messages | |
24-Nov-01 RMS Added unit-based registers | |
27-Sep-01 RMS Added queue count prototype | |
17-Sep-01 RMS Removed multiple console support | |
07-Sep-01 RMS Removed conditional externs on function prototypes | |
31-Aug-01 RMS Changed int64 to t_int64 for Windoze | |
17-Jul-01 RMS Added additional function prototypes | |
27-May-01 RMS Added multiple console support | |
15-May-01 RMS Increased string buffer size | |
25-Feb-01 RMS Revisions for V2.6 | |
15-Oct-00 RMS Editorial revisions for V2.5 | |
11-Jul-99 RMS Added unsigned int data types | |
14-Apr-99 RMS Converted t_addr to unsigned | |
04-Oct-98 RMS Additional definitions for V2.4 | |
The interface between the simulator control package (SCP) and the | |
simulator consists of the following routines and data structures | |
sim_name simulator name string | |
sim_devices[] array of pointers to simulated devices | |
sim_PC pointer to saved PC register descriptor | |
sim_interval simulator interval to next event | |
sim_stop_messages[] array of pointers to stop messages | |
sim_instr() instruction execution routine | |
sim_load() binary loader routine | |
sim_emax maximum number of words in an instruction | |
In addition, the simulator must supply routines to print and parse | |
architecture specific formats | |
print_sym print symbolic output | |
parse_sym parse symbolic input | |
*/ | |
#ifndef SIM_DEFS_H_ | |
#define SIM_DEFS_H_ 0 | |
#include <stddef.h> | |
#include <stdlib.h> | |
#include <stdio.h> | |
#if defined(_MSC_VER) && (_MSC_VER < 1900) | |
#define snprintf _snprintf /* poor man's snprintf which will work most of the time but has different return value */ | |
#endif | |
#include <stdarg.h> | |
#include <string.h> | |
#include <errno.h> | |
#include <limits.h> | |
#ifdef _WIN32 | |
#include <winsock2.h> | |
#undef PACKED /* avoid macro name collision */ | |
#undef ERROR /* avoid macro name collision */ | |
#undef MEM_MAPPED /* avoid macro name collision */ | |
#include <process.h> | |
#endif | |
#ifdef USE_REGEX | |
#undef USE_REGEX | |
#endif | |
#if defined(HAVE_PCREPOSIX_H) | |
#include <pcreposix.h> | |
#define USE_REGEX 1 | |
#elif defined(HAVE_REGEX_H) | |
#include <regex.h> | |
#define USE_REGEX 1 | |
#endif | |
/* avoid macro names collisions */ | |
#ifdef MAX | |
#undef MAX | |
#endif | |
#ifdef MIN | |
#undef MIN | |
#endif | |
#ifdef PMASK | |
#undef PMASK | |
#endif | |
#ifdef RS | |
#undef RS | |
#endif | |
#ifdef PAGESIZE | |
#undef PAGESIZE | |
#endif | |
#ifndef TRUE | |
#define TRUE 1 | |
#define FALSE 0 | |
#endif | |
/* Length specific integer declarations */ | |
#if defined (VMS) | |
#include <ints.h> | |
#else | |
typedef signed char int8; | |
typedef signed short int16; | |
typedef signed int int32; | |
typedef unsigned char uint8; | |
typedef unsigned short uint16; | |
typedef unsigned int uint32; | |
#endif | |
typedef int t_stat; /* status */ | |
typedef int t_bool; /* boolean */ | |
/* 64b integers */ | |
#if defined (__GNUC__) /* GCC */ | |
typedef signed long long t_int64; | |
typedef unsigned long long t_uint64; | |
#elif defined (_WIN32) /* Windows */ | |
typedef signed __int64 t_int64; | |
typedef unsigned __int64 t_uint64; | |
#elif (defined (__ALPHA) || defined (__ia64)) && defined (VMS) /* 64b VMS */ | |
typedef signed __int64 t_int64; | |
typedef unsigned __int64 t_uint64; | |
#elif defined (__ALPHA) && defined (__unix__) /* Alpha UNIX */ | |
typedef signed long t_int64; | |
typedef unsigned long t_uint64; | |
#else /* default */ | |
#define t_int64 signed long long | |
#define t_uint64 unsigned long long | |
#endif /* end 64b */ | |
#ifndef INT64_C | |
#define INT64_C(x) x ## LL | |
#endif | |
#if defined (USE_INT64) /* 64b data */ | |
typedef t_int64 t_svalue; /* signed value */ | |
typedef t_uint64 t_value; /* value */ | |
#else /* 32b data */ | |
typedef int32 t_svalue; | |
typedef uint32 t_value; | |
#endif /* end 64b data */ | |
#if defined (USE_INT64) && defined (USE_ADDR64) /* 64b address */ | |
typedef t_uint64 t_addr; | |
#define T_ADDR_W 64 | |
#define T_ADDR_FMT LL_FMT | |
#else /* 32b address */ | |
typedef uint32 t_addr; | |
#define T_ADDR_W 32 | |
#define T_ADDR_FMT "" | |
#endif /* end 64b address */ | |
#if defined (_WIN32) | |
#define vsnprintf _vsnprintf | |
#endif | |
#if defined (__DECC) && defined (__VMS) && (defined (__VAX) || (__CRTL_VER <= 70311000)) | |
#define NO_vsnprintf | |
#endif | |
#if defined( NO_vsnprintf) | |
#define STACKBUFSIZE 16384 | |
#else | |
#define STACKBUFSIZE 2048 | |
#endif | |
#if defined (_WIN32) /* Actually, a GCC issue */ | |
#define LL_FMT "I64" | |
#else | |
#define LL_FMT "ll" | |
#endif | |
#if defined (VMS) && (defined (__ia64) || defined (__ALPHA)) | |
#define HAVE_GLOB | |
#endif | |
#if defined (__linux) || defined (VMS) || defined (__APPLE__) | |
#define HAVE_C99_STRFTIME 1 | |
#endif | |
#if defined (_WIN32) | |
#define NULL_DEVICE "NUL:" | |
#elif defined (_VMS) | |
#define NULL_DEVICE "NL:" | |
#else | |
#define NULL_DEVICE "/dev/null" | |
#endif | |
/* Stubs for inlining */ | |
#if defined(_MSC_VER) | |
#define SIM_INLINE _inline | |
#elif defined(__GNUC__) | |
#define SIM_INLINE inline | |
#else | |
#define SIM_INLINE | |
#endif | |
/* System independent definitions */ | |
#define FLIP_SIZE (1 << 16) /* flip buf size */ | |
#if !defined (PATH_MAX) /* usually in limits */ | |
#define PATH_MAX 512 | |
#endif | |
#if (PATH_MAX >= 128) | |
#define CBUFSIZE (128 + PATH_MAX) /* string buf size */ | |
#else | |
#define CBUFSIZE 256 | |
#endif | |
/* Breakpoint spaces definitions */ | |
#define SIM_BKPT_N_SPC 16 /* max number spaces */ | |
#define SIM_BKPT_V_SPC 28 /* location in arg */ | |
/* Extended switch definitions (bits >= 26) */ | |
#define SIM_SW_HIDE (1u << 26) /* enable hiding */ | |
#define SIM_SW_REST (1u << 27) /* attach/restore */ | |
#define SIM_SW_REG (1u << 28) /* register value */ | |
#define SIM_SW_STOP (1u << 29) /* stop message */ | |
/* Simulator status codes | |
0 ok | |
1 - (SCPE_BASE - 1) simulator specific | |
SCPE_BASE - n general | |
*/ | |
#define SCPE_OK 0 /* normal return */ | |
#define SCPE_BASE 64 /* base for messages */ | |
#define SCPE_NXM (SCPE_BASE + 0) /* nxm */ | |
#define SCPE_UNATT (SCPE_BASE + 1) /* no file */ | |
#define SCPE_IOERR (SCPE_BASE + 2) /* I/O error */ | |
#define SCPE_CSUM (SCPE_BASE + 3) /* loader cksum */ | |
#define SCPE_FMT (SCPE_BASE + 4) /* loader format */ | |
#define SCPE_NOATT (SCPE_BASE + 5) /* not attachable */ | |
#define SCPE_OPENERR (SCPE_BASE + 6) /* open error */ | |
#define SCPE_MEM (SCPE_BASE + 7) /* alloc error */ | |
#define SCPE_ARG (SCPE_BASE + 8) /* argument error */ | |
#define SCPE_STEP (SCPE_BASE + 9) /* step expired */ | |
#define SCPE_UNK (SCPE_BASE + 10) /* unknown command */ | |
#define SCPE_RO (SCPE_BASE + 11) /* read only */ | |
#define SCPE_INCOMP (SCPE_BASE + 12) /* incomplete */ | |
#define SCPE_STOP (SCPE_BASE + 13) /* sim stopped */ | |
#define SCPE_EXIT (SCPE_BASE + 14) /* sim exit */ | |
#define SCPE_TTIERR (SCPE_BASE + 15) /* console tti err */ | |
#define SCPE_TTOERR (SCPE_BASE + 16) /* console tto err */ | |
#define SCPE_EOF (SCPE_BASE + 17) /* end of file */ | |
#define SCPE_REL (SCPE_BASE + 18) /* relocation error */ | |
#define SCPE_NOPARAM (SCPE_BASE + 19) /* no parameters */ | |
#define SCPE_ALATT (SCPE_BASE + 20) /* already attached */ | |
#define SCPE_TIMER (SCPE_BASE + 21) /* hwre timer err */ | |
#define SCPE_SIGERR (SCPE_BASE + 22) /* signal err */ | |
#define SCPE_TTYERR (SCPE_BASE + 23) /* tty setup err */ | |
#define SCPE_SUB (SCPE_BASE + 24) /* subscript err */ | |
#define SCPE_NOFNC (SCPE_BASE + 25) /* func not imp */ | |
#define SCPE_UDIS (SCPE_BASE + 26) /* unit disabled */ | |
#define SCPE_NORO (SCPE_BASE + 27) /* rd only not ok */ | |
#define SCPE_INVSW (SCPE_BASE + 28) /* invalid switch */ | |
#define SCPE_MISVAL (SCPE_BASE + 29) /* missing value */ | |
#define SCPE_2FARG (SCPE_BASE + 30) /* too few arguments */ | |
#define SCPE_2MARG (SCPE_BASE + 31) /* too many arguments */ | |
#define SCPE_NXDEV (SCPE_BASE + 32) /* nx device */ | |
#define SCPE_NXUN (SCPE_BASE + 33) /* nx unit */ | |
#define SCPE_NXREG (SCPE_BASE + 34) /* nx register */ | |
#define SCPE_NXPAR (SCPE_BASE + 35) /* nx parameter */ | |
#define SCPE_NEST (SCPE_BASE + 36) /* nested DO */ | |
#define SCPE_IERR (SCPE_BASE + 37) /* internal error */ | |
#define SCPE_MTRLNT (SCPE_BASE + 38) /* tape rec lnt error */ | |
#define SCPE_LOST (SCPE_BASE + 39) /* Telnet conn lost */ | |
#define SCPE_TTMO (SCPE_BASE + 40) /* Telnet conn timeout */ | |
#define SCPE_STALL (SCPE_BASE + 41) /* Telnet conn stall */ | |
#define SCPE_AFAIL (SCPE_BASE + 42) /* assert failed */ | |
#define SCPE_INVREM (SCPE_BASE + 43) /* invalid remote console command */ | |
#define SCPE_NOTATT (SCPE_BASE + 44) /* not attached */ | |
#define SCPE_EXPECT (SCPE_BASE + 45) /* expect matched */ | |
#define SCPE_REMOTE (SCPE_BASE + 46) /* remote console command */ | |
#define SCPE_MAX_ERR (SCPE_BASE + 47) /* Maximum SCPE Error Value */ | |
#define SCPE_KFLAG 0x1000 /* tti data flag */ | |
#define SCPE_BREAK 0x2000 /* tti break flag */ | |
#define SCPE_NOMESSAGE 0x10000000 /* message display supression flag */ | |
#define SCPE_BARE_STATUS(stat) ((stat) & ~(SCPE_NOMESSAGE|SCPE_KFLAG|SCPE_BREAK)) | |
/* Print value format codes */ | |
#define PV_RZRO 0 /* right, zero fill */ | |
#define PV_RSPC 1 /* right, space fill */ | |
#define PV_RCOMMA 2 /* right, space fill. Comma separate every 3 */ | |
#define PV_LEFT 3 /* left justify */ | |
/* Default timing parameters */ | |
#define KBD_POLL_WAIT 5000 /* keyboard poll */ | |
#define KBD_MAX_WAIT 500000 | |
#define SERIAL_IN_WAIT 100 /* serial in time */ | |
#define SERIAL_OUT_WAIT 100 /* serial output */ | |
#define NOQUEUE_WAIT 1000000 /* min check time */ | |
#define KBD_LIM_WAIT(x) (((x) > KBD_MAX_WAIT)? KBD_MAX_WAIT: (x)) | |
#define KBD_WAIT(w,s) ((w)? w: KBD_LIM_WAIT (s)) | |
/* Convert switch letter to bit mask */ | |
#define SWMASK(x) (1u << (((int) (x)) - ((int) 'A'))) | |
/* String match - at least one character required */ | |
#define MATCH_CMD(ptr,cmd) ((NULL == (ptr)) || (!*(ptr)) || strncmp ((ptr), (cmd), strlen (ptr))) | |
/* End of Linked List/Queue value */ | |
/* Chosen for 2 reasons: */ | |
/* 1 - to not be NULL, this allowing the NULL value to */ | |
/* indicate inclusion on a list */ | |
/* and */ | |
/* 2 - to not be a valid/possible pointer (alignment) */ | |
#define QUEUE_LIST_END ((UNIT *)1) | |
/* Typedefs for principal structures */ | |
typedef struct DEVICE DEVICE; | |
typedef struct UNIT UNIT; | |
typedef struct REG REG; | |
typedef struct CTAB CTAB; | |
typedef struct C1TAB C1TAB; | |
typedef struct SHTAB SHTAB; | |
typedef struct MTAB MTAB; | |
typedef struct SCHTAB SCHTAB; | |
typedef struct BRKTAB BRKTAB; | |
typedef struct EXPTAB EXPTAB; | |
typedef struct EXPECT EXPECT; | |
typedef struct SEND SEND; | |
typedef struct DEBTAB DEBTAB; | |
typedef struct FILEREF FILEREF; | |
typedef struct BITFIELD BITFIELD; | |
typedef t_stat (*ACTIVATE_API)(UNIT *unit, int32 interval); | |
/* Device data structure */ | |
struct DEVICE { | |
const char *name; /* name */ | |
UNIT *units; /* units */ | |
REG *registers; /* registers */ | |
MTAB *modifiers; /* modifiers */ | |
uint32 numunits; /* #units */ | |
uint32 aradix; /* address radix */ | |
uint32 awidth; /* address width */ | |
uint32 aincr; /* addr increment */ | |
uint32 dradix; /* data radix */ | |
uint32 dwidth; /* data width */ | |
t_stat (*examine)(t_value *v, t_addr a, UNIT *up, | |
int32 sw); /* examine routine */ | |
t_stat (*deposit)(t_value v, t_addr a, UNIT *up, | |
int32 sw); /* deposit routine */ | |
t_stat (*reset)(DEVICE *dp); /* reset routine */ | |
t_stat (*boot)(int32 u, DEVICE *dp); | |
/* boot routine */ | |
t_stat (*attach)(UNIT *up, char *cp); | |
/* attach routine */ | |
t_stat (*detach)(UNIT *up); /* detach routine */ | |
void *ctxt; /* context */ | |
uint32 flags; /* flags */ | |
uint32 dctrl; /* debug control */ | |
DEBTAB *debflags; /* debug flags */ | |
t_stat (*msize)(UNIT *up, int32 v, char *cp, void *dp); | |
/* mem size routine */ | |
char *lname; /* logical name */ | |
t_stat (*help)(FILE *st, DEVICE *dptr, | |
UNIT *uptr, int32 flag, const char *cptr); | |
/* help */ | |
t_stat (*attach_help)(FILE *st, DEVICE *dptr, | |
UNIT *uptr, int32 flag, const char *cptr); | |
/* attach help */ | |
void *help_ctx; /* Context available to help routines */ | |
const char *(*description)(DEVICE *dptr); | |
/* Device Description */ | |
}; | |
/* Device flags */ | |
#define DEV_V_DIS 0 /* dev disabled */ | |
#define DEV_V_DISABLE 1 /* dev disable-able */ | |
#define DEV_V_DYNM 2 /* mem size dynamic */ | |
#define DEV_V_DEBUG 3 /* debug capability */ | |
#define DEV_V_TYPE 4 /* Attach type */ | |
#define DEV_S_TYPE 3 /* Width of Type Field */ | |
#define DEV_V_SECTORS 7 /* Unit Capacity is in 512byte sectors */ | |
#define DEV_V_DONTAUTO 8 /* Do not auto detach already attached units */ | |
#define DEV_V_FLATHELP 9 /* Use traditional (unstructured) help */ | |
#define DEV_V_NOSAVE 10 /* Don't save device state */ | |
#define DEV_V_UF_31 12 /* user flags, V3.1 */ | |
#define DEV_V_UF 16 /* user flags */ | |
#define DEV_V_RSV 31 /* reserved */ | |
#define DEV_DIS (1 << DEV_V_DIS) /* device is currently disabled */ | |
#define DEV_DISABLE (1 << DEV_V_DISABLE) /* device can be set enabled or disabled */ | |
#define DEV_DYNM (1 << DEV_V_DYNM) /* device requires call on msize routine to change memory size */ | |
#define DEV_DEBUG (1 << DEV_V_DEBUG) /* device supports SET DEBUG command */ | |
#define DEV_SECTORS (1 << DEV_V_SECTORS) /* capacity is 512 byte sectors */ | |
#define DEV_DONTAUTO (1 << DEV_V_DONTAUTO) /* Do not auto detach already attached units */ | |
#define DEV_FLATHELP (1 << DEV_V_FLATHELP) /* Use traditional (unstructured) help */ | |
#define DEV_NOSAVE (1 << DEV_V_NOSAVE) /* Don't save device state */ | |
#define DEV_NET 0 /* Deprecated - meaningless */ | |
#define DEV_TYPEMASK (((1 << DEV_S_TYPE) - 1) << DEV_V_TYPE) | |
#define DEV_DISK (1 << DEV_V_TYPE) /* sim_disk Attach */ | |
#define DEV_TAPE (2 << DEV_V_TYPE) /* sim_tape Attach */ | |
#define DEV_MUX (3 << DEV_V_TYPE) /* sim_tmxr Attach */ | |
#define DEV_ETHER (4 << DEV_V_TYPE) /* Ethernet Device */ | |
#define DEV_DISPLAY (5 << DEV_V_TYPE) /* Display Device */ | |
#define DEV_TYPE(dptr) ((dptr)->flags & DEV_TYPEMASK) | |
#define DEV_UFMASK_31 (((1u << DEV_V_RSV) - 1) & ~((1u << DEV_V_UF_31) - 1)) | |
#define DEV_UFMASK (((1u << DEV_V_RSV) - 1) & ~((1u << DEV_V_UF) - 1)) | |
#define DEV_RFLAGS (DEV_UFMASK|DEV_DIS) /* restored flags */ | |
/* Unit data structure | |
Parts of the unit structure are device specific, that is, they are | |
not referenced by the simulator control package and can be freely | |
used by device simulators. Fields starting with 'buf', and flags | |
starting with 'UF', are device specific. The definitions given here | |
are for a typical sequential device. | |
*/ | |
struct UNIT { | |
UNIT *next; /* next active */ | |
t_stat (*action)(UNIT *up); /* action routine */ | |
char *filename; /* open file name */ | |
FILE *fileref; /* file reference */ | |
void *filebuf; /* memory buffer */ | |
uint32 hwmark; /* high water mark */ | |
int32 time; /* time out */ | |
uint32 flags; /* flags */ | |
uint32 dynflags; /* dynamic flags */ | |
t_addr capac; /* capacity */ | |
t_addr pos; /* file position */ | |
void (*io_flush)(UNIT *up); /* io flush routine */ | |
uint32 iostarttime; /* I/O start time */ | |
int32 buf; /* buffer */ | |
int32 wait; /* wait */ | |
int32 u3; /* device specific */ | |
int32 u4; /* device specific */ | |
int32 u5; /* device specific */ | |
int32 u6; /* device specific */ | |
void *up7; /* device specific */ | |
void *up8; /* device specific */ | |
void *tmxr; /* TMXR linkage */ | |
#ifdef SIM_ASYNCH_IO | |
void (*a_check_completion)(UNIT *); | |
t_bool (*a_is_active)(UNIT *); | |
void (*a_cancel)(UNIT *); | |
UNIT *a_next; /* next asynch active */ | |
int32 a_event_time; | |
ACTIVATE_API a_activate_call; | |
/* Asynchronous Polling control */ | |
/* These fields should only be referenced when holding the sim_tmxr_poll_lock */ | |
t_bool a_polling_now; /* polling active flag */ | |
int32 a_poll_waiter_count; /* count of polling threads */ | |
/* waiting for this unit */ | |
/* Asynchronous Timer control */ | |
double a_due_time; /* due time for timer event */ | |
double a_skew; /* accumulated skew being corrected */ | |
double a_last_fired_time; /* time last event fired */ | |
int32 a_usec_delay; /* time delay for timer event */ | |
#endif | |
}; | |
/* Unit flags */ | |
#define UNIT_V_UF_31 12 /* dev spec, V3.1 */ | |
#define UNIT_V_UF 16 /* device specific */ | |
#define UNIT_V_RSV 31 /* reserved!! */ | |
#define UNIT_ATTABLE 0000001 /* attachable */ | |
#define UNIT_RO 0000002 /* read only */ | |
#define UNIT_FIX 0000004 /* fixed capacity */ | |
#define UNIT_SEQ 0000010 /* sequential */ | |
#define UNIT_ATT 0000020 /* attached */ | |
#define UNIT_BINK 0000040 /* K = power of 2 */ | |
#define UNIT_BUFABLE 0000100 /* bufferable */ | |
#define UNIT_MUSTBUF 0000200 /* must buffer */ | |
#define UNIT_BUF 0000400 /* buffered */ | |
#define UNIT_ROABLE 0001000 /* read only ok */ | |
#define UNIT_DISABLE 0002000 /* disable-able */ | |
#define UNIT_DIS 0004000 /* disabled */ | |
#define UNIT_IDLE 0040000 /* idle eligible */ | |
/* Unused/meaningless flags */ | |
#define UNIT_TEXT 0000000 /* text mode - no effect */ | |
#define UNIT_UFMASK_31 (((1u << UNIT_V_RSV) - 1) & ~((1u << UNIT_V_UF_31) - 1)) | |
#define UNIT_UFMASK (((1u << UNIT_V_RSV) - 1) & ~((1u << UNIT_V_UF) - 1)) | |
#define UNIT_RFLAGS (UNIT_UFMASK|UNIT_DIS) /* restored flags */ | |
/* Unit dynamic flags (dynflags) */ | |
/* These flags are only set dynamically */ | |
#define UNIT_ATTMULT 0000001 /* Allow multiple attach commands */ | |
#define UNIT_TM_POLL 0000002 /* TMXR Polling unit */ | |
#define UNIT_NO_FIO 0000004 /* fileref is NOT a FILE * */ | |
#define UNIT_DISK_CHK 0000010 /* disk data debug checking (sim_disk) */ | |
#define UNIT_V_DF_TAPE 4 /* Bit offset for Tape Density reservation */ | |
#define UNIT_S_DF_TAPE 3 /* Bits Reserved for Tape Density */ | |
struct BITFIELD { | |
const char *name; /* field name */ | |
uint32 offset; /* starting bit */ | |
uint32 width; /* width */ | |
const char **valuenames; /* map of values to strings */ | |
const char *format; /* value format string */ | |
}; | |
/* Register data structure */ | |
struct REG { | |
const char *name; /* name */ | |
void *loc; /* location */ | |
uint32 radix; /* radix */ | |
uint32 width; /* width */ | |
uint32 offset; /* starting bit */ | |
uint32 depth; /* save depth */ | |
const char *desc; /* description */ | |
BITFIELD *fields; /* bit fields */ | |
size_t str_size; /* structure size */ | |
uint32 flags; /* flags */ | |
uint32 qptr; /* circ q ptr */ | |
}; | |
/* Register flags */ | |
#define REG_FMT 00003 /* see PV_x */ | |
#define REG_RO 00004 /* read only */ | |
#define REG_HIDDEN 00010 /* hidden */ | |
#define REG_NZ 00020 /* must be non-zero */ | |
#define REG_UNIT 00040 /* in unit struct */ | |
#define REG_STRUCT 00100 /* in structure array */ | |
#define REG_CIRC 00200 /* circular array */ | |
#define REG_VMIO 00400 /* use VM data print/parse */ | |
#define REG_VMAD 01000 /* use VM addr print/parse */ | |
#define REG_FIT 02000 /* fit access to size */ | |
#define REG_HRO (REG_RO | REG_HIDDEN) /* hidden, read only */ | |
#define REG_V_UF 16 /* device specific */ | |
#define REG_UFMASK (~((1u << REG_V_UF) - 1)) /* user flags mask */ | |
#define REG_VMFLAGS (REG_VMIO | REG_UFMASK) /* call VM routine if any of these are set */ | |
/* Command tables, base and alternate formats */ | |
struct CTAB { | |
const char *name; /* name */ | |
t_stat (*action)(int32 flag, char *cptr); | |
/* action routine */ | |
int32 arg; /* argument */ | |
const char *help; /* help string/structured locator */ | |
const char *help_base; /* structured help base*/ | |
void (*message)(const char *unechoed_cmdline, t_stat stat); | |
/* message printing routine */ | |
}; | |
struct C1TAB { | |
const char *name; /* name */ | |
t_stat (*action)(DEVICE *dptr, UNIT *uptr, | |
int32 flag, char *cptr); /* action routine */ | |
int32 arg; /* argument */ | |
const char *help; /* help string */ | |
}; | |
struct SHTAB { | |
const char *name; /* name */ | |
t_stat (*action)(FILE *st, DEVICE *dptr, | |
UNIT *uptr, int32 flag, char *cptr); | |
int32 arg; /* argument */ | |
const char *help; /* help string */ | |
}; | |
/* Modifier table - only extended entries have disp, reg, or flags */ | |
struct MTAB { | |
uint32 mask; /* mask */ | |
uint32 match; /* match */ | |
const char *pstring; /* print string */ | |
const char *mstring; /* match string */ | |
t_stat (*valid)(UNIT *up, int32 v, char *cp, void *dp); | |
/* validation routine */ | |
t_stat (*disp)(FILE *st, UNIT *up, int32 v, void *dp); | |
/* display routine */ | |
void *desc; /* value descriptor */ | |
/* REG * if MTAB_VAL */ | |
/* int * if not */ | |
const char *help; /* help string */ | |
}; | |
/* mtab mask flag bits */ | |
/* NOTE: MTAB_VALR and MTAB_VALO are only used to display help */ | |
#define MTAB_XTD (1u << UNIT_V_RSV) /* ext entry flag */ | |
#define MTAB_VDV (0001 | MTAB_XTD) /* valid for dev */ | |
#define MTAB_VUN (0002 | MTAB_XTD) /* valid for unit */ | |
#define MTAB_VALR (0004 | MTAB_XTD) /* takes a value (required) */ | |
#define MTAB_VALO (0010 | MTAB_XTD) /* takes a value (optional) */ | |
#define MTAB_NMO (0020 | MTAB_XTD) /* only if named */ | |
#define MTAB_NC (0040 | MTAB_XTD) /* no UC conversion */ | |
#define MTAB_QUOTE (0100 | MTAB_XTD) /* quoted string */ | |
#define MTAB_SHP (0200 | MTAB_XTD) /* show takes parameter */ | |
#define MODMASK(mptr,flag) (((mptr)->mask & (uint32)(flag)) == (uint32)(flag))/* flag mask test */ | |
/* Search table */ | |
struct SCHTAB { | |
int32 logic; /* logical operator */ | |
int32 boolop; /* boolean operator */ | |
uint32 count; /* value count in mask and comp arrays */ | |
t_value *mask; /* mask for logical */ | |
t_value *comp; /* comparison for boolean */ | |
}; | |
/* Breakpoint table */ | |
struct BRKTAB { | |
t_addr addr; /* address */ | |
uint32 typ; /* mask of types */ | |
#define BRK_TYP_DYN_STEPOVER (SWMASK ('Z'+1)) | |
#define BRK_TYP_DYN_USR (SWMASK ('Z'+2)) | |
#define BRK_TYP_DYN_ALL (BRK_TYP_DYN_USR|BRK_TYP_DYN_STEPOVER) /* Mask of All Dynamic types */ | |
int32 cnt; /* proceed count */ | |
char *act; /* action string */ | |
}; | |
/* Expect rule */ | |
struct EXPTAB { | |
uint8 *match; /* match string */ | |
uint32 size; /* match string size */ | |
char *match_pattern; /* match pattern for format */ | |
int32 cnt; /* proceed count */ | |
int32 switches; /* flags */ | |
#define EXP_TYP_PERSIST (SWMASK ('P')) /* rule persists after match, default is once a rule matches, it is removed */ | |
#define EXP_TYP_CLEARALL (SWMASK ('C')) /* clear all rules after matching this rule, default is to once a rule matches, it is removed */ | |
#define EXP_TYP_REGEX (SWMASK ('R')) /* rule pattern is a regular expression */ | |
#define EXP_TYP_REGEX_I (SWMASK ('I')) /* regular expression pattern matching should be case independent */ | |
#define EXP_TYP_TIME (SWMASK ('T')) /* halt delay is in microseconds instead of instructions */ | |
#if defined(USE_REGEX) | |
regex_t regex; /* compiled regular expression */ | |
#endif | |
char *act; /* action string */ | |
}; | |
/* Expect Context */ | |
struct EXPECT { | |
DEVICE *dptr; /* Device (for Debug) */ | |
uint32 dbit; /* Debugging Bit */ | |
EXPTAB *rules; /* match rules */ | |
int32 size; /* count of match rules */ | |
uint32 after; /* delay before halting */ | |
uint8 *buf; /* buffer of output data which has produced */ | |
uint32 buf_ins; /* buffer insertion point for the next output data */ | |
uint32 buf_size; /* buffer size */ | |
}; | |
/* Send Context */ | |
struct SEND { | |
uint32 delay; /* instruction delay between sent data */ | |
#define SEND_DEFAULT_DELAY 1000 /* default delay instruction count */ | |
DEVICE *dptr; /* Device (for Debug) */ | |
uint32 dbit; /* Debugging Bit */ | |
uint32 after; /* instruction delay before sending any data */ | |
double next_time; /* execution time when next data can be sent */ | |
uint8 *buffer; /* buffer */ | |
size_t bufsize; /* buffer size */ | |
int32 insoff; /* insert offset */ | |
int32 extoff; /* extra offset */ | |
}; | |
/* Debug table */ | |
struct DEBTAB { | |
const char *name; /* control name */ | |
uint32 mask; /* control bit */ | |
const char *desc; /* description */ | |
}; | |
/* Deprecated Debug macros. Use sim_debug() */ | |
#define DEBUG_PRS(d) (sim_deb && d.dctrl) | |
#define DEBUG_PRD(d) (sim_deb && d->dctrl) | |
#define DEBUG_PRI(d,m) (sim_deb && (d.dctrl & (m))) | |
#define DEBUG_PRJ(d,m) (sim_deb && ((d)->dctrl & (m))) | |
#define SIM_DBG_EVENT 0x10000 | |
#define SIM_DBG_ACTIVATE 0x20000 | |
#define SIM_DBG_AIO_QUEUE 0x40000 | |
/* File Reference */ | |
struct FILEREF { | |
char name[CBUFSIZE]; /* file name */ | |
FILE *file; /* file handle */ | |
int32 refcount; /* reference count */ | |
}; | |
/* The following macros define structure contents */ | |
#define UDATA(act,fl,cap) NULL,act,NULL,NULL,NULL,0,0,(fl),0,(cap),0,NULL,0,0 | |
#if defined (__STDC__) || defined (_WIN32) | |
/* Right Justified Octal Register Data */ | |
#define ORDATA(nm,loc,wd) #nm, &(loc), 8, (wd), 0, 1, NULL, NULL, 0 | |
/* Right Justified Decimal Register Data */ | |
#define DRDATA(nm,loc,wd) #nm, &(loc), 10, (wd), 0, 1, NULL, NULL, 0 | |
/* Right Justified Hexadecimal Register Data */ | |
#define HRDATA(nm,loc,wd) #nm, &(loc), 16, (wd), 0, 1, NULL, NULL, 0 | |
/* One-bit binary flag at an arbitrary offset in a 32-bit word Register */ | |
#define FLDATA(nm,loc,pos) #nm, &(loc), 2, 1, (pos), 1, NULL, NULL, 0 | |
/* Arbitrary location and Radix Register */ | |
#define GRDATA(nm,loc,rdx,wd,pos) #nm, &(loc), (rdx), (wd), (pos), 1, NULL, NULL, 0 | |
/* Arrayed register whose data is kept in a standard C array Register */ | |
#define BRDATA(nm,loc,rdx,wd,dep) #nm, (loc), (rdx), (wd), 0, (dep), NULL, NULL, 0 | |
/* Arrayed register whose data is part of the UNIT structure */ | |
#define URDATA(nm,loc,rdx,wd,off,dep,fl) \ | |
#nm, &(loc), (rdx), (wd), (off), (dep), NULL, NULL, 0, ((fl) | REG_UNIT) | |
/* Arrayed register whose data is part of an arbitrary structure */ | |
#define SRDATA(nm,loc,rdx,wd,off,dep,siz,fl) \ | |
#nm, &(loc), (rdx), (wd), (off), (dep), NULL, NULL, (siz), ((fl) | REG_STRUCT) | |
/* Same as above, but with additional description initializer */ | |
#define ORDATAD(nm,loc,wd,desc) #nm, &(loc), 8, (wd), 0, 1, (desc), NULL, 0 | |
#define DRDATAD(nm,loc,wd,desc) #nm, &(loc), 10, (wd), 0, 1, (desc), NULL, 0 | |
#define HRDATAD(nm,loc,wd,desc) #nm, &(loc), 16, (wd), 0, 1, (desc), NULL, 0 | |
#define FLDATAD(nm,loc,pos,desc) #nm, &(loc), 2, 1, (pos), 1, (desc), NULL, 0 | |
#define GRDATAD(nm,loc,rdx,wd,pos,desc) #nm, &(loc), (rdx), (wd), (pos), 1, (desc), NULL, 0 | |
#define BRDATAD(nm,loc,rdx,wd,dep,desc) #nm, (loc), (rdx), (wd), 0, (dep), (desc), NULL, 0 | |
#define URDATAD(nm,loc,rdx,wd,off,dep,fl,desc) \ | |
#nm, &(loc), (rdx), (wd), (off), (dep), (desc), NULL, 0, ((fl) | REG_UNIT) | |
#define SRDATAD(nm,loc,rdx,wd,off,dep,siz,fl,desc) \ | |
#nm, &(loc), (rdx), (wd), (off), (dep), (desc), NULL, (siz), ((fl) | REG_STRUCT) | |
/* Same as above, but with additional description initializer, and bitfields */ | |
#define ORDATADF(nm,loc,wd,desc,flds) #nm, &(loc), 8, (wd), 0, 1, (desc), (flds), 0 | |
#define DRDATADF(nm,loc,wd,desc,flds) #nm, &(loc), 10, (wd), 0, 1, (desc), (flds), 0 | |
#define HRDATADF(nm,loc,wd,desc,flds) #nm, &(loc), 16, (wd), 0, 1, (desc), (flds), 0 | |
#define FLDATADF(nm,loc,pos,desc,flds) #nm, &(loc), 2, 1, (pos), 1, (desc), (flds), 0 | |
#define GRDATADF(nm,loc,rdx,wd,pos,desc,flds) #nm, &(loc), (rdx), (wd), (pos), 1, (desc), (flds), 0 | |
#define BRDATADF(nm,loc,rdx,wd,dep,desc,flds) #nm, (loc), (rdx), (wd), 0, (dep), (desc), (flds), 0 | |
#define URDATADF(nm,loc,rdx,wd,off,dep,fl,desc,flds) \ | |
#nm, &(loc), (rdx), (wd), (off), (dep), (desc), (flds), 0, ((fl) | REG_UNIT) | |
#define SRDATADF(nm,loc,rdx,wd,off,dep,siz,fl,desc,flds) \ | |
#nm, &(loc), (rdx), (wd), (off), (dep), (desc), (flds), (siz), ((fl) | REG_STRUCT) | |
#define BIT(nm) {#nm, 0xffffffff, 1} /* Single Bit definition */ | |
#define BITNC {"", 0xffffffff, 1} /* Don't care Bit definition */ | |
#define BITF(nm,sz) {#nm, 0xffffffff, sz} /* Bit Field definition */ | |
#define BITNCF(sz) {"", 0xffffffff, sz} /* Don't care Bit Field definition */ | |
#define BITFFMT(nm,sz,fmt) {#nm, 0xffffffff, sz, NULL, #fmt}/* Bit Field definition with Output format */ | |
#define BITFNAM(nm,sz,names) {#nm, 0xffffffff, sz, names} /* Bit Field definition with value->name map */ | |
#else | |
#define ORDATA(nm,loc,wd) "nm", &(loc), 8, (wd), 0, 1, NULL, NULL, 0 | |
#define DRDATA(nm,loc,wd) "nm", &(loc), 10, (wd), 0, 1, NULL, NULL, 0 | |
#define HRDATA(nm,loc,wd) "nm", &(loc), 16, (wd), 0, 1, NULL, NULL, 0 | |
#define FLDATA(nm,loc,pos) "nm", &(loc), 2, 1, (pos), 1, NULL, NULL, 0 | |
#define GRDATA(nm,loc,rdx,wd,pos) "nm", &(loc), (rdx), (wd), (pos), 1, NULL, NULL, 0 | |
#define BRDATA(nm,loc,rdx,wd,dep) "nm", (loc), (rdx), (wd), 0, (dep), NULL, NULL, 0 | |
#define URDATA(nm,loc,rdx,wd,off,dep,fl) \ | |
"nm", &(loc), (rdx), (wd), (off), (dep), NULL, NULL, 0, ((fl) | REG_UNIT) | |
#define SRDATA(nm,loc,rdx,wd,off,dep,siz,fl) \ | |
"nm", &(loc), (rdx), (wd), (off), (dep), NULL, NULL, (siz), ((fl) | REG_STRUCT) | |
#define ORDATAD(nm,loc,wd,desc) "nm", &(loc), 8, (wd), 0, 1, (desc), NULL, 0 | |
#define DRDATAD(nm,loc,wd,desc) "nm", &(loc), 10, (wd), 0, 1, (desc), NULL, 0 | |
#define HRDATAD(nm,loc,wd,desc) "nm", &(loc), 16, (wd), 0, 1, (desc), NULL, 0 | |
#define FLDATAD(nm,loc,pos,desc) "nm", &(loc), 2, 1, (pos), 1, (desc), NULL, 0 | |
#define GRDATAD(nm,loc,rdx,wd,pos,desc) "nm", &(loc), (rdx), (wd), (pos), 1, (desc), NULL, 0 | |
#define BRDATAD(nm,loc,rdx,wd,dep,desc) "nm", (loc), (rdx), (wd), 0, (dep), (desc), NULL, 0 | |
#define URDATAD(nm,loc,rdx,wd,off,dep,fl,desc) \ | |
"nm", &(loc), (rdx), (wd), (off), (dep), (desc), NULL, 0, ((fl) | REG_UNIT) | |
#define SRDATAD(nm,loc,rdx,wd,off,dep,fl,siz,desc) \ | |
"nm", &(loc), (rdx), (wd), (off), (dep), (desc), NULL, (siz), ((fl) | REG_STRUCT) | |
#define ORDATADF(nm,loc,wd,desc,flds) "nm", &(loc), 8, (wd), 0, 1, (desc), (flds), 0 | |
#define DRDATADF(nm,loc,wd,desc,flds) "nm", &(loc), 10, (wd), 0, 1, (desc), (flds), 0 | |
#define HRDATADF(nm,loc,wd,desc,flds) "nm", &(loc), 16, (wd), 0, 1, (desc), (flds), 0 | |
#define FLDATADF(nm,loc,pos,desc,flds) "nm", &(loc), 2, 1, (pos), 1, (desc), (flds), 0 | |
#define GRDATADF(nm,loc,rdx,wd,pos,desc,flds) "nm", &(loc), (rdx), (wd), (pos), 1, (desc), (flds), 0 | |
#define BRDATADF(nm,loc,rdx,wd,dep,desc,flds) "nm", (loc), (rdx), (wd), 0, (dep), (desc), (flds), 0 | |
#define URDATADF(nm,loc,rdx,wd,off,dep,fl,desc,flds) \ | |
"nm", &(loc), (rdx), (wd), (off), (dep), (desc), (flds), 0, ((fl) | REG_UNIT) | |
#define SRDATADF(nm,loc,rdx,wd,off,dep,fl,siz,desc,flds) \ | |
"nm", &(loc), (rdx), (wd), (off), (dep), (desc), (flds), (siz), ((fl) | REG_STRUCT) | |
#define BIT(nm) {"nm", 0xffffffff, 1} /* Single Bit definition */ | |
#define BITNC {"", 0xffffffff, 1} /* Don't care Bit definition */ | |
#define BITF(nm,sz) {"nm", 0xffffffff, sz} /* Bit Field definition */ | |
#define BITNCF(sz) {"", 0xffffffff, sz} /* Don't care Bit Field definition */ | |
#define BITFFMT(nm,sz,fmt) {"nm", 0xffffffff, sz, NULL, "fmt"}/* Bit Field definition with Output format */ | |
#define BITFNAM(nm,sz,names) {"nm", 0xffffffff, sz, names} /* Bit Field definition with value->name map */ | |
#endif | |
#define ENDBITS {NULL} /* end of bitfield list */ | |
/* Function prototypes */ | |
#include "scp.h" | |
#include "sim_console.h" | |
#include "sim_timer.h" | |
#include "sim_fio.h" | |
/* Macro to ALWAYS execute the specified expression and fail if it evaluates to false. */ | |
/* This replaces any references to "assert()" which should never be invoked */ | |
/* with an expression which causes side effects (i.e. must be executed for */ | |
/* the program to work correctly) */ | |
#define ASSURE(_Expression) while (!(_Expression)) {fprintf(stderr, "%s failed at %s line %d\n", #_Expression, __FILE__, __LINE__); \ | |
sim_printf("%s failed at %s line %d\n", #_Expression, __FILE__, __LINE__); \ | |
abort();} | |
/* Asynch/Threaded I/O support */ | |
#if defined (SIM_ASYNCH_IO) | |
#include <pthread.h> | |
extern pthread_mutex_t sim_asynch_lock; | |
extern pthread_cond_t sim_asynch_wake; | |
extern pthread_mutex_t sim_timer_lock; | |
extern pthread_cond_t sim_timer_wake; | |
extern t_bool sim_timer_event_canceled; | |
extern int32 sim_tmxr_poll_count; | |
extern pthread_cond_t sim_tmxr_poll_cond; | |
extern pthread_mutex_t sim_tmxr_poll_lock; | |
extern pthread_t sim_asynch_main_threadid; | |
extern UNIT * volatile sim_asynch_queue; | |
extern UNIT * volatile sim_wallclock_queue; | |
extern UNIT * volatile sim_wallclock_entry; | |
extern volatile t_bool sim_idle_wait; | |
extern int32 sim_asynch_check; | |
extern int32 sim_asynch_latency; | |
extern int32 sim_asynch_inst_latency; | |
/* Thread local storage */ | |
#if defined(__GNUC__) && !defined(__APPLE__) && !defined(__hpux) && !defined(__OpenBSD__) && !defined(_AIX) | |
#define AIO_TLS __thread | |
#elif defined(_MSC_VER) | |
#define AIO_TLS __declspec(thread) | |
#else | |
/* Other compiler environment, then don't worry about thread local storage. */ | |
/* It is primarily used only used in debugging messages */ | |
#define AIO_TLS | |
#endif | |
#define AIO_QUEUE_CHECK(que, lock) \ | |
if (1) { \ | |
UNIT *_cptr; \ | |
if (lock) \ | |
pthread_mutex_lock (lock); \ | |
for (_cptr = que; \ | |
(_cptr != QUEUE_LIST_END); \ | |
_cptr = _cptr->next) \ | |
if (!_cptr->next) { \ | |
if (sim_deb) { \ | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Queue Corruption detected\n");\ | |
fclose(sim_deb); \ | |
} \ | |
sim_printf("Queue Corruption detected\n"); \ | |
abort(); \ | |
} \ | |
if (lock) \ | |
pthread_mutex_unlock (lock); \ | |
} else (void)0 | |
#define AIO_MAIN_THREAD (pthread_equal ( pthread_self(), sim_asynch_main_threadid )) | |
#define AIO_LOCK \ | |
pthread_mutex_lock(&sim_asynch_lock) | |
#define AIO_UNLOCK \ | |
pthread_mutex_unlock(&sim_asynch_lock) | |
#define AIO_IS_ACTIVE(uptr) (((uptr)->a_is_active ? (uptr)->a_is_active (uptr) : FALSE) || ((uptr)->a_next)) | |
#if !defined(SIM_ASYNCH_MUX) && !defined(SIM_ASYNCH_CLOCKS) | |
#define AIO_CANCEL(uptr) \ | |
if ((uptr)->a_cancel) \ | |
(uptr)->a_cancel (uptr); \ | |
else \ | |
(void)0 | |
#endif /* !defined(SIM_ASYNCH_MUX) && !defined(SIM_ASYNCH_CLOCKS) */ | |
#if !defined(SIM_ASYNCH_MUX) && defined(SIM_ASYNCH_CLOCKS) | |
#define AIO_CANCEL(uptr) \ | |
if ((uptr)->a_cancel) \ | |
(uptr)->a_cancel (uptr); \ | |
else { \ | |
AIO_UPDATE_QUEUE; \ | |
if ((uptr)->a_next) { \ | |
UNIT *cptr; \ | |
pthread_mutex_lock (&sim_timer_lock); \ | |
if ((uptr) == sim_wallclock_queue) { \ | |
sim_wallclock_queue = (uptr)->a_next; \ | |
(uptr)->a_next = NULL; \ | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Timer Event for %s\n", sim_uname(uptr));\ | |
sim_timer_event_canceled = TRUE; \ | |
pthread_cond_signal (&sim_timer_wake); \ | |
} \ | |
else \ | |
for (cptr = sim_wallclock_queue; \ | |
(cptr != QUEUE_LIST_END); \ | |
cptr = cptr->a_next) \ | |
if (cptr->a_next == (uptr)) { \ | |
cptr->a_next = (uptr)->a_next; \ | |
(uptr)->a_next = NULL; \ | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Timer Event for %s\n", sim_uname(uptr));\ | |
break; \ | |
} \ | |
if ((uptr)->a_next == NULL) \ | |
(uptr)->a_due_time = (uptr)->a_usec_delay = 0; \ | |
else { \ | |
int tmr; \ | |
for (tmr=0; tmr<SIM_NTIMERS; tmr++) { \ | |
if ((uptr) == sim_clock_cosched_queue[tmr]) { \ | |
sim_clock_cosched_queue[tmr] = (uptr)->a_next; \ | |
(uptr)->a_next = NULL; \ | |
} \ | |
else \ | |
for (cptr = sim_clock_cosched_queue[tmr]; \ | |
(cptr != QUEUE_LIST_END); \ | |
cptr = cptr->a_next) \ | |
if (cptr->a_next == (uptr)) { \ | |
cptr->a_next = (uptr)->a_next; \ | |
(uptr)->a_next = NULL; \ | |
break; \ | |
} \ | |
if ((uptr)->a_next == NULL) { \ | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Clock Coscheduling Event for %s\n", sim_uname(uptr));\ | |
} \ | |
} \ | |
} \ | |
while (sim_timer_event_canceled) { \ | |
pthread_mutex_unlock (&sim_timer_lock); \ | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Waiting for Timer Event cancelation for %s\n", sim_uname(uptr));\ | |
sim_os_ms_sleep (0); \ | |
pthread_mutex_lock (&sim_timer_lock); \ | |
} \ | |
pthread_mutex_unlock (&sim_timer_lock); \ | |
} \ | |
} | |
#endif | |
#if defined(SIM_ASYNCH_MUX) && !defined(SIM_ASYNCH_CLOCKS) | |
#define AIO_CANCEL(uptr) \ | |
if ((uptr)->a_cancel) \ | |
(uptr)->a_cancel (uptr); \ | |
else { \ | |
if (((uptr)->dynflags & UNIT_TM_POLL) && \ | |
!((uptr)->next) && !((uptr)->a_next)) { \ | |
(uptr)->a_polling_now = FALSE; \ | |
sim_tmxr_poll_count -= (uptr)->a_poll_waiter_count; \ | |
(uptr)->a_poll_waiter_count = 0; \ | |
} \ | |
} | |
#endif /* defined(SIM_ASYNCH_MUX) && !defined(SIM_ASYNCH_CLOCKS) */ | |
#if defined(SIM_ASYNCH_MUX) && defined(SIM_ASYNCH_CLOCKS) | |
#define AIO_CANCEL(uptr) \ | |
if ((uptr)->a_cancel) \ | |
(uptr)->a_cancel (uptr); \ | |
else { \ | |
AIO_UPDATE_QUEUE; \ | |
if (((uptr)->dynflags & UNIT_TM_POLL) && \ | |
!((uptr)->next) && !((uptr)->a_next)) { \ | |
(uptr)->a_polling_now = FALSE; \ | |
sim_tmxr_poll_count -= (uptr)->a_poll_waiter_count; \ | |
(uptr)->a_poll_waiter_count = 0; \ | |
} \ | |
if ((uptr)->a_next) { \ | |
UNIT *cptr; \ | |
pthread_mutex_lock (&sim_timer_lock); \ | |
if ((uptr) == sim_wallclock_queue) { \ | |
sim_wallclock_queue = (uptr)->a_next; \ | |
(uptr)->a_next = NULL; \ | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Timer Event for %s\n", sim_uname(uptr));\ | |
sim_timer_event_canceled = TRUE; \ | |
pthread_cond_signal (&sim_timer_wake); \ | |
} \ | |
else \ | |
for (cptr = sim_wallclock_queue; \ | |
(cptr != QUEUE_LIST_END); \ | |
cptr = cptr->a_next) \ | |
if (cptr->a_next == (uptr)) { \ | |
cptr->a_next = (uptr)->a_next; \ | |
(uptr)->a_next = NULL; \ | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Timer Event for %s\n", sim_uname(uptr));\ | |
break; \ | |
} \ | |
if ((uptr)->a_next == NULL) \ | |
(uptr)->a_due_time = (uptr)->a_usec_delay = 0; \ | |
else { \ | |
if ((uptr) == sim_clock_cosched_queue) { \ | |
sim_clock_cosched_queue = (uptr)->a_next; \ | |
(uptr)->a_next = NULL; \ | |
} \ | |
else \ | |
for (cptr = sim_clock_cosched_queue; \ | |
(cptr != QUEUE_LIST_END); \ | |
cptr = cptr->a_next) \ | |
if (cptr->a_next == (uptr)) { \ | |
cptr->a_next = (uptr)->a_next; \ | |
(uptr)->a_next = NULL; \ | |
break; \ | |
} \ | |
if ((uptr)->a_next == NULL) { \ | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Clock Coscheduling Event for %s\n", sim_uname(uptr));\ | |
} \ | |
} \ | |
while (sim_timer_event_canceled) { \ | |
pthread_mutex_unlock (&sim_timer_lock); \ | |
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Waiting for Timer Event cancelation for %s\n", sim_uname(uptr));\ | |
sim_os_ms_sleep (0); \ | |
pthread_mutex_lock (&sim_timer_lock); \ | |
} \ | |
pthread_mutex_unlock (&sim_timer_lock); \ | |
} \ | |
} | |
#endif | |
#if defined(SIM_ASYNCH_CLOCKS) | |
#define AIO_RETURN_TIME(uptr) \ | |
if (1) { \ | |
pthread_mutex_lock (&sim_timer_lock); \ | |
for (cptr = sim_wallclock_queue; \ | |
cptr != QUEUE_LIST_END; \ | |
cptr = cptr->a_next) \ | |
if ((uptr) == cptr) { \ | |
double inst_per_sec = sim_timer_inst_per_sec (); \ | |
int32 result; \ | |
\ | |
result = (int32)(((uptr)->a_due_time - sim_timenow_double())*inst_per_sec);\ | |
if (result < 0) \ | |
result = 0; \ | |
pthread_mutex_unlock (&sim_timer_lock); \ | |
return result + 1; \ | |
} \ | |
pthread_mutex_unlock (&sim_timer_lock); \ | |
if ((uptr)->a_next) /* On asynch queue? */ \ | |
return (uptr)->a_event_time + 1; \ | |
} \ | |
else \ | |
(void)0 | |
#else | |
#define AIO_RETURN_TIME(uptr) (void)0 | |
#endif | |
#define AIO_EVENT_BEGIN(uptr) \ | |
do { \ | |
int __was_poll = uptr->dynflags & UNIT_TM_POLL | |
#define AIO_EVENT_COMPLETE(uptr, reason) \ | |
if (__was_poll) { \ | |
pthread_mutex_lock (&sim_tmxr_poll_lock); \ | |
uptr->a_polling_now = FALSE; \ | |
if (uptr->a_poll_waiter_count) { \ | |
sim_tmxr_poll_count -= uptr->a_poll_waiter_count; \ | |
uptr->a_poll_waiter_count = 0; \ | |
if (0 == sim_tmxr_poll_count) \ | |
pthread_cond_broadcast (&sim_tmxr_poll_cond); \ | |
} \ | |
pthread_mutex_unlock (&sim_tmxr_poll_lock); \ | |
} \ | |
AIO_UPDATE_QUEUE; \ | |
} while (0) | |
#if defined(__DECC_VER) | |
#include <builtins> | |
#if defined(__IA64) | |
#define USE_AIO_INTRINSICS 1 | |
#endif | |
#endif | |
#if defined(_WIN32) || defined(__GCC_HAVE_SYNC_COMPARE_AND_SWAP_4) || defined(__GCC_HAVE_SYNC_COMPARE_AND_SWAP_8) | |
#define USE_AIO_INTRINSICS 1 | |
#endif | |
/* Provide a way to test both Intrinsic and Lock based queue manipulations */ | |
/* when both are available on a particular platform */ | |
#if defined(DONT_USE_AIO_INTRINSICS) && defined(USE_AIO_INTRINSICS) | |
#undef USE_AIO_INTRINSICS | |
#endif | |
#ifdef USE_AIO_INTRINSICS | |
/* This approach uses intrinsics to manage access to the link list head */ | |
/* sim_asynch_queue. This implementation is a completely lock free design */ | |
/* which avoids the potential ABA issues. */ | |
#define AIO_QUEUE_MODE "Lock free asynchronous event queue access" | |
#define AIO_INIT \ | |
if (1) { \ | |
int tmr; \ | |
sim_asynch_main_threadid = pthread_self(); \ | |
/* Empty list/list end uses the point value (void *)1. \ | |
This allows NULL in an entry's a_next pointer to \ | |
indicate that the entry is not currently in any list */ \ | |
sim_asynch_queue = QUEUE_LIST_END; \ | |
sim_wallclock_queue = QUEUE_LIST_END; \ | |
sim_wallclock_entry = NULL; \ | |
for (tmr=0; tmr<SIM_NTIMERS; tmr++) \ | |
sim_clock_cosched_queue[tmr] = QUEUE_LIST_END; \ | |
} \ | |
else \ | |
(void)0 | |
#define AIO_CLEANUP \ | |
if (1) { \ | |
pthread_mutex_destroy(&sim_asynch_lock); \ | |
pthread_cond_destroy(&sim_asynch_wake); \ | |
pthread_mutex_destroy(&sim_timer_lock); \ | |
pthread_cond_destroy(&sim_timer_wake); \ | |
pthread_mutex_destroy(&sim_tmxr_poll_lock); \ | |
pthread_cond_destroy(&sim_tmxr_poll_cond); \ | |
} \ | |
else \ | |
(void)0 | |
#ifdef _WIN32 | |
#elif defined(__GCC_HAVE_SYNC_COMPARE_AND_SWAP_4) || defined(__GCC_HAVE_SYNC_COMPARE_AND_SWAP_8) | |
#define InterlockedCompareExchangePointer(Destination, Exchange, Comparand) __sync_val_compare_and_swap(Destination, Comparand, Exchange) | |
#elif defined(__DECC_VER) | |
#define InterlockedCompareExchangePointer(Destination, Exchange, Comparand) (void *)((int32)_InterlockedCompareExchange64(Destination, Exchange, Comparand)) | |
#else | |
#error "Implementation of function InterlockedCompareExchangePointer() is needed to build with USE_AIO_INTRINSICS" | |
#endif | |
#define AIO_QUEUE_VAL (UNIT *)(InterlockedCompareExchangePointer(&sim_asynch_queue, sim_asynch_queue, NULL)) | |
#define AIO_QUEUE_SET(val, queue) (UNIT *)(InterlockedCompareExchangePointer(&sim_asynch_queue, val, queue)) | |
#define AIO_UPDATE_QUEUE \ | |
if (AIO_QUEUE_VAL != QUEUE_LIST_END) { /* List !Empty */ \ | |
UNIT *q, *uptr; \ | |
int32 a_event_time; \ | |
do \ | |
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);\ | |
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; \ | |
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); \ | |
} \ | |
} \ | |
} else (void)0 | |
#define AIO_ACTIVATE(caller, uptr, event_time) \ | |
if (!pthread_equal ( pthread_self(), sim_asynch_main_threadid )) { \ | |
UNIT *ouptr = (uptr); \ | |
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Queueing Asynch event for %s after %d instructions\n", sim_uname(ouptr), event_time);\ | |
if (ouptr->a_next) { \ | |
ouptr->a_activate_call = sim_activate_abs; \ | |
} else { \ | |
UNIT *q, *qe; \ | |
ouptr->a_event_time = event_time; \ | |
ouptr->a_activate_call = (ACTIVATE_API)&caller; \ | |
ouptr->a_next = QUEUE_LIST_END; /* Mark as on list */ \ | |
do { \ | |
do \ | |
q = AIO_QUEUE_VAL; \ | |
while (q != AIO_QUEUE_SET(QUEUE_LIST_END, q));/* Grab current list */\ | |
for (qe = ouptr; qe->a_next != QUEUE_LIST_END; qe = qe->a_next); \ | |
qe->a_next = q; /* append current list */\ | |
do \ | |
q = AIO_QUEUE_VAL; \ | |
while (q != AIO_QUEUE_SET(ouptr, q)); \ | |
ouptr = q; \ | |
} while (ouptr != QUEUE_LIST_END); \ | |
} \ | |
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(ouptr), event_time);\ | |
pthread_cond_signal (&sim_asynch_wake); \ | |
} \ | |
return SCPE_OK; \ | |
} else (void)0 | |
#define AIO_ACTIVATE_LIST(caller, list, event_time) \ | |
if (list) { \ | |
UNIT *ouptr, *q, *qe; \ | |
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Queueing Asynch events for %s after %d instructions\n", sim_uname(list), event_time);\ | |
for (qe=(list); qe->a_next != QUEUE_LIST_END;) { \ | |
qe->a_event_time = event_time; \ | |
qe->a_activate_call = (ACTIVATE_API)&caller; \ | |
qe = qe->a_next; \ | |
} \ | |
qe->a_event_time = event_time; \ | |
qe->a_activate_call = (ACTIVATE_API)&caller; \ | |
ouptr = (list); \ | |
do { \ | |
do \ | |
q = AIO_QUEUE_VAL; \ | |
while (q != AIO_QUEUE_SET(QUEUE_LIST_END, q));/* Grab current list */ \ | |
for (qe = ouptr; qe->a_next != QUEUE_LIST_END; qe = qe->a_next); \ | |
qe->a_next = q; /* append current list */ \ | |
do \ | |
q = AIO_QUEUE_VAL; \ | |
while (q != AIO_QUEUE_SET(ouptr, q)); \ | |
ouptr = q; \ | |
} while (ouptr != QUEUE_LIST_END); \ | |
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(ouptr), event_time);\ | |
pthread_cond_signal (&sim_asynch_wake); \ | |
} \ | |
} else (void)0 | |
#else /* !USE_AIO_INTRINSICS */ | |
/* This approach uses a pthread mutex to manage access to the link list */ | |
/* head sim_asynch_queue. It will always work, but may be slower than the */ | |
/* lock free approach when using USE_AIO_INTRINSICS */ | |
#define AIO_QUEUE_MODE "Lock based asynchronous event queue access" | |
#define AIO_INIT \ | |
if (1) { \ | |
int tmr; \ | |
pthread_mutexattr_t attr; \ | |
\ | |
pthread_mutexattr_init (&attr); \ | |
pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE); \ | |
pthread_mutex_init (&sim_asynch_lock, &attr); \ | |
pthread_mutexattr_destroy (&attr); \ | |
sim_asynch_main_threadid = pthread_self(); \ | |
/* Empty list/list end uses the point value (void *)1. \ | |
This allows NULL in an entry's a_next pointer to \ | |
indicate that the entry is not currently in any list */ \ | |
sim_asynch_queue = QUEUE_LIST_END; \ | |
sim_wallclock_queue = QUEUE_LIST_END; \ | |
sim_wallclock_entry = NULL; \ | |
for (tmr=0; tmr<SIM_NTIMERS; tmr++) \ | |
sim_clock_cosched_queue[tmr] = QUEUE_LIST_END; \ | |
} \ | |
else \ | |
(void)0 | |
#define AIO_CLEANUP \ | |
if (1) { \ | |
pthread_mutex_destroy(&sim_asynch_lock); \ | |
pthread_cond_destroy(&sim_asynch_wake); \ | |
pthread_mutex_destroy(&sim_timer_lock); \ | |
pthread_cond_destroy(&sim_timer_wake); \ | |
pthread_mutex_destroy(&sim_tmxr_poll_lock); \ | |
pthread_cond_destroy(&sim_tmxr_poll_cond); \ | |
} \ | |
else \ | |
(void)0 | |
#define AIO_UPDATE_QUEUE \ | |
if (1) { \ | |
UNIT *uptr; \ | |
AIO_LOCK; \ | |
while (sim_asynch_queue != QUEUE_LIST_END) { /* List !Empty */ \ | |
int32 a_event_time; \ | |
uptr = sim_asynch_queue; \ | |
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Migrating Asynch event for %s after %d instructions\n", sim_uname(uptr), uptr->a_event_time);\ | |
sim_asynch_queue = uptr->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_UNLOCK; \ | |
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_LOCK; \ | |
} \ | |
AIO_UNLOCK; \ | |
} else (void)0 | |
#define AIO_ACTIVATE(caller, uptr, event_time) \ | |
if (!pthread_equal ( pthread_self(), sim_asynch_main_threadid )) { \ | |
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Queueing Asynch event for %s after %d instructions\n", sim_uname(uptr), event_time);\ | |
AIO_LOCK; \ | |
if (uptr->a_next) { /* already queued? */ \ | |
uptr->a_activate_call = sim_activate_abs; \ | |
} else { \ | |
uptr->a_next = sim_asynch_queue; \ | |
uptr->a_event_time = event_time; \ | |
uptr->a_activate_call = (ACTIVATE_API)&caller; \ | |
sim_asynch_queue = uptr; \ | |
} \ | |
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); \ | |
} \ | |
AIO_UNLOCK; \ | |
sim_asynch_check = 0; \ | |
return SCPE_OK; \ | |
} else (void)0 | |
#define AIO_ACTIVATE_LIST(caller, list, event_time) \ | |
if (list) { \ | |
UNIT *qe; \ | |
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Queueing Asynch events for %s after %d instructions\n", sim_uname(list), event_time);\ | |
for (qe=list; qe->a_next != QUEUE_LIST_END;) { \ | |
qe->a_event_time = event_time; \ | |
qe->a_activate_call = (ACTIVATE_API)&caller; \ | |
qe = qe->a_next; \ | |
} \ | |
qe->a_event_time = event_time; \ | |
qe->a_activate_call = (ACTIVATE_API)&caller; \ | |
AIO_LOCK; \ | |
qe->a_next = sim_asynch_queue; \ | |
sim_asynch_queue = list; \ | |
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(list), event_time);\ | |
pthread_cond_signal (&sim_asynch_wake); \ | |
} \ | |
AIO_UNLOCK; \ | |
} else (void)0 | |
#endif /* USE_AIO_INTRINSICS */ | |
#define AIO_VALIDATE if (!pthread_equal ( pthread_self(), sim_asynch_main_threadid )) {sim_printf("Improper thread context for operation\n"); abort();} | |
#define AIO_CHECK_EVENT \ | |
if (0 > --sim_asynch_check) { \ | |
AIO_UPDATE_QUEUE; \ | |
sim_asynch_check = sim_asynch_inst_latency; \ | |
} else (void)0 | |
#define AIO_SET_INTERRUPT_LATENCY(instpersec) \ | |
if (1) { \ | |
sim_asynch_inst_latency = (int32)((((double)(instpersec))*sim_asynch_latency)/1000000000);\ | |
if (sim_asynch_inst_latency == 0) \ | |
sim_asynch_inst_latency = 1; \ | |
} else (void)0 | |
#else /* !SIM_ASYNCH_IO */ | |
#define AIO_QUEUE_MODE "Asynchronous I/O is not available" | |
#define AIO_UPDATE_QUEUE | |
#define AIO_ACTIVATE(caller, uptr, event_time) | |
#define AIO_VALIDATE | |
#define AIO_CHECK_EVENT | |
#define AIO_INIT | |
#define AIO_MAIN_THREAD TRUE | |
#define AIO_LOCK | |
#define AIO_UNLOCK | |
#define AIO_CLEANUP | |
#define AIO_RETURN_TIME(uptr) | |
#define AIO_EVENT_BEGIN(uptr) | |
#define AIO_EVENT_COMPLETE(uptr, reason) | |
#define AIO_IS_ACTIVE(uptr) FALSE | |
#define AIO_CANCEL(uptr) | |
#define AIO_SET_INTERRUPT_LATENCY(instpersec) | |
#define AIO_TLS | |
#endif /* SIM_ASYNCH_IO */ | |
#endif |