#include "ibm1130_defs.h" | |
#include "ibm1130_fmt.h" | |
#include <ctype.h> | |
#ifdef _WIN32 | |
# include <io.h> /* Microsoft puts definition of mktemp into io.h rather than stdlib.h */ | |
#endif | |
/* ibm1130_cr.c: IBM 1130 1442 Card Reader simulator | |
Based on the SIMH package written by Robert M Supnik | |
* (C) Copyright 2002, Brian Knittel. | |
* You may freely use this program, but: it offered strictly on an AS-IS, AT YOUR OWN | |
* RISK basis, there is no warranty of fitness for any purpose, and the rest of the | |
* usual yada-yada. Please keep this notice and the copyright in any distributions | |
* or modifications. | |
* | |
* This is not a supported product, but I welcome bug reports and fixes. | |
* Mail to simh@ibm1130.org | |
* Update 2012-10-12 Added ability to specify tab expansion width in deck files | |
* Update 2008-11-24 Made card reader attach always use read-only mode, so if file does not exist | |
it will not be created as an empty file. Fixed bug in BOOT CR (cold start from card) | |
that resulted in seeing cold card data again when next card was read. (This caused | |
the DMS load deck to fail, for instance). | |
* Update 2007-05-01 Changed name of function xio_1142_card to xio_1442_card. | |
Took six years to notice the mistake. | |
* Update 2006-01-23 More fixes, in call to mktemp and in 2501 support, also thanks | |
to Carl Claunch. | |
* Update 2006-01-03 Fixed bug found by Carl Claunch: feed function does not | |
cause an operation complete interrupt. Standard DMS routines were not | |
sensitive to this but DUP uses its own interrupt handler, and this | |
is why DUP would hang at end of deck. | |
* Update 2005-05-19 Added support for 2501 reader | |
* Update 2004-11-08 Merged in correct physical card reader code | |
* Update 2004-11-02: Added -s to boot command: don't touch console switches. | |
* Update 2004-06-05: Removed "feedcycle" from cr_reset. Reset should not touch the card reader. | |
* Update 2004-04-12: Changed ascii field of CPCODE to unsigned char, caught a couple | |
other potential problems with signed characters used as subscript indexes. | |
* Update 2003-11-25: Physical card reader support working, may not be perfect. | |
Changed magic filename for stdin to "(stdin)". | |
* Update 2003-07-23: Added autodetect for card decks (029 vs binary), | |
made this the default. | |
* Update 2003-06-21: Fixed bug in XIO_SENSE: op_complete and response | |
bits were being cleared before the DSW was saved in ACC. Somehow DMS | |
worked with this, but APL didn't. | |
* Update 2002-02-29: Added deck-list option. | |
* Update 2003-02-08: Fixed error in declaration of array list_save, pointed | |
out by Ray Comas. | |
* ----------------------------------------------------------------------- | |
* USAGE NOTES | |
* ----------------------------------------------------------------------- | |
* Attach switches: | |
The ATTACH CR command accepts several command-line switches | |
-q quiet mode, the simulator will not print the name of each file it opens | |
while processing deck files (which are discussed below). For example, | |
ATTACH CR -q @deckfile | |
-l makes the simulator convert lower case letters in text decks | |
to the IBM lower-case Hollerith character codes. Normally, the simulator | |
converts lower case input to the uppercase Hollerith character codes. | |
(Lowercase codes are used in APL\1130 save decks). | |
-d prints a lot of simulator debugging information | |
-f converts tabs in an ascii file to spaces according to Fortran column conventions | |
-a converts tabs in an ascii file to spaces according to 1130 Assembler column conventions | |
-t converts tabs in an ascii file to spaces, with tab settings every 8 columns | |
-# converts tabs in an ascii file to spaces, with tab settings every # columns | |
(See below for a discussion of tab formatting) | |
-p means that filename is a COM port connected to a physical card reader using | |
the CARDREAD interface (see http://ibm1130.org/sim/downloads) | |
NOTE: for the Card Reader (CR), the -r (readonly) switch is implied. If the file does | |
not exist, it will NOT be created. | |
The ATTACH CP command accepts the -d switch. | |
* Deck lists | |
If you issue an attach command and specify the filename as | |
"@filename", the file is interpreted as a list of filenames to | |
be read in sequence; the effect is that the reader sees the concatenation | |
of all of the files listed. The simulator "reset" does NOT rewind the deck list. | |
Filenames may be quoted if they contain spaces. | |
The strings %1, %2, etc, if they appear, are replaced with arguments passed | |
on the attach command line after the name of the deckfile. These can be the | |
arguments to ibm1130, or to the "do" command if a "do" script is executing, if the | |
attach command is constructed this way: | |
attach CR @deckfile %1 %2 %3 | |
This will pass the ibm1130 or do script arguments to attach, which will make | |
them available in the deckfile. Then, for instance the line | |
%1.for | |
would be substituted accordingly. | |
Blank lines and lines starting with ; # or * are ignored as comments. | |
Filenames may be followed by whitespace and one or more mode options: | |
The mode options are: | |
b forces interpration as raw binary | |
a forces conversion from ascii to 029 coding, tabs are left alone | |
af forces 029 ascii conversion, and interprets tabs in Fortran mode | |
aa forces 029 ascii conversion, and interprets tabs in 1130 Assembler mode | |
at forces 029 ascii conversion, and interprets tabs with settings every 8 spaces | |
a# forces 029 ascii conversion, and interprets tabs with settings every # spaces | |
If "a" or "b" mode is not specified, the device mode setting is used. In this case, | |
if the mode is "auto", the simulator will select binary or 029 by inspecting each | |
file in turn. | |
If a tab mode is not specified, tabs are left unmolested (and are treated as invalid characters) | |
Example: | |
attach cr @decklist | |
reads filenames from file "decklist," which might contain: | |
file01.for xf | |
file02.dat a | |
file03 bin b | |
file04 bin | |
('a' means 029, so, if you need 026 coding, specify the | |
device default as the correct 026 code and omit the 'a' on the text files lines). | |
Literal text cards can be entered in deck files by preceding an input | |
line with an exclamation point. For example, | |
!// JOB | |
!// FOR | |
program.for | |
!// XEQ | |
program.dat | |
looks like two literal supervisor control cards, followed by the contents | |
of file program.for, followed by an // XEQ card, followed by the contents | |
of file program.dat. | |
%n tokens are not replaced in literal cards. | |
The line | |
!BREAK | |
has a special meaning: when read from a deck file, it stops the | |
emulator as if "IMMEDIATE STOP" was pressed. This returns control to | |
the command interpreter or to the current DO command script. | |
* Card image format. | |
Card files can be ascii text or binary. There are several ASCII modes: | |
CODE_029, CODE_26F, etc, corresponding to different code sets. | |
Punch and reader modes can be set independently using | |
set cr binary set cp binary * | |
set cr 029 set cp 029 | |
set cr 026f set cp 026f | |
set cr 026c set cp 026c | |
set cr auto * | |
(* = default mode) | |
In "auto" mode, the card reader will examine the first 160 bytes of | |
the deck and guess whether the card is binary or 029 text encoded. | |
When a deck file is used with auto mode, the simulator guesses for | |
each file named in the deck file. | |
* Tab formatting. The attach command and deckfile entries can indicate | |
that tabs are to be converted to spaces, to help let you write free-form | |
source files. There are three tab conversion modes, which are set | |
with the attach command or in a decklist, as discussed earlier | |
Fortran mode: | |
Input lines of the form | |
[label]<tab>statement | |
or | |
[label]<tab>+continuation | |
(where + is any nonalphabetic character) are rearranged in the | |
appropriate manner: | |
1 2 | |
12345678901234567890... | |
------------------------ | |
label statement | |
label+continuation | |
However, you must take care that you don't end up with statement text after column 72. | |
Input lines with * or C in column 1 (comments and directives) and lines without tabs | |
are left alone. | |
(The ! escape is not used before Fortran directives as before Assembler directives) | |
Assembler mode: | |
Input lines of the form | |
[label]<whitespace>[opcode]<tab>[tag][L]<tab>[argument] | |
are rearranged so that the input fields are placed in the appropriate columns | |
The label must start on the first character of the line. If there is no label, | |
the first character(s) before the opcode must be whitespace. Following the opcode, there | |
MUST be a tab character, followed by the format and tag. Following the format and tag | |
may be exactly one whitespace character, and then starts the argument. | |
Input lines with * in column 1 and blank lines are turned into Assembler comments, | |
with the * in the Opcode field. | |
Assembler directive lines at the beginning of the deck must be preceded by | |
! to indicate that they are not comments. For example, | |
!*LIST | |
* This is a comment | |
Plain Tab mode: | |
Tabs are replaced with spaces. Tab settings are assumed to be eight characters wide, | |
as is standard for vi, notepad, etc. | |
* CGI mode note: The command | |
attach cr (stdin) | |
will attach the card reader to stdin. However, this is not compatible | |
with the default encoding autodetect feature, so the command must be | |
preceded with | |
set cr 029 | |
* ----------------------------------------------------------------------- | |
* PROGRAMMING NOTES | |
* ----------------------------------------------------------------------- | |
NOTE - there is a problem with this code. The Device Status Word (DSW) is | |
computed from current conditions when requested by an XIO load status | |
command; the value of DSW available to the simulator's examine & save | |
commands may NOT be accurate. This should probably be fixed. (I think there's | |
a way to have the expression evaluator call a routine? That would be one | |
way to solve the problem, the other is to keep DSW up-to-date all the time). | |
The 1442 card read/punch has several cycles: | |
feed cycle: moves card from hopper to read station | |
card from read station to punch station | |
card from punch station to stacker | |
read or punch: operates on card at read or punch station (but not both). | |
The simulator requires input cards to be read from the file attached | |
to the card reader unit. A feed cycle reads one line (text mode) or | |
160 bytes (binary mode) from the input file to the read station buffer, | |
copies the read station buffer to the punch station buffer, and if | |
the punch unit is attached to a file, writes the punch station buffer to | |
the output file. | |
The read and punch cycles operate on the appropriate card buffer. | |
Detaching the card punch flushes the punch station buffer if necessary. | |
As does the 1442, a read or punch cycle w/o a feed cycle causes a | |
feed cycle first. | |
A feed cycle on an empty deck (reader unattaced or at EOF) clears | |
the appropriate buffer, so you can punch w/o attaching a deck to | |
the card reader. | |
(Note: Carl Claunch determined by examining DUP code that a feed cycle | |
does not cause an operation complete interrupt). | |
-- -- this may need changing depending on how things work in hardware. TBD. | |
|| A read cycle on an empty deck causes an error. | |
|| Hmmm -- what takes the place of the Start button on | |
-- the card reader? | |
Binary format is stored using fxwrite of short ints, in this format: | |
1 1 | |
2 2 0 1 2 3 4 5 6 7 8 9 | |
* * * * * * * * * * * * 0 0 0 0 | |
MSB LSB | |
byte 0 [ 6] [ 7] [ 8] [ 9] 0 0 0 0 | |
byte 1 [12] [11] [ 0] [ 1] [ 2] [ 3] [ 4] [ 5] | |
This means we can read words (little endian) and get this in memory: | |
12 11 0 1 2 3 4 5 6 7 8 9 - - - - | |
which is what the 1130 sees. | |
ASCII can be read in blocks of 80 characters but can be terminated by newline prematurely. | |
Booting: card reader IPL loads 80 columns (1 card) into memory starting | |
at location 0 in a split fashion: | |
________________ _ _ _ | |
/ | |
12 | | |
11 | | |
0 | | |
1 | | |
2 | | |
3 | Punched card | |
4 | | |
5 | | |
6 | | |
7 | | |
8 | | |
9 | | |
+------------------ - - - | |
12 11 0 1 2 3 4 5 6 7 8 9 <- columns of cold start card | |
| | | | | 0 0 0 / \ | | | | | | | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| 0| 1| 2| 3| 4| 5| 6| 7| 8| 9|10|11|12|13|14|15| | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
| OPCODE | F| Tag | DISPLACEMENT | | |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | |
The zeros mean that all IPL instructions are short form, | |
nonindexed. The 3 column is repeated in bits 8 and 9 so | |
it's a sign bit. | |
Boot command on a binary deck does this. Boot on an unattached | |
reader loads one of the built-in boot card images. Boot with an ASCII | |
deck isn't allowed. | |
*/ | |
#define READ_DELAY 35 /* see how small a number we can get away with */ | |
#define PUNCH_DELAY 35 | |
#define FEED_DELAY 25 | |
#define READ_2501_DELAY 500 | |
/* umm, this is a weird little future project of mine. */ | |
#define ENABLE_PHYSICAL_CARD_READER_SUPPORT | |
extern UNIT cpu_unit; | |
static t_stat cr_svc (UNIT *uptr); | |
static t_stat cr_reset (DEVICE *dptr); | |
static t_stat cr_set_code (UNIT *uptr, int32 match, char *cptr, void *desc); | |
static t_stat cr_attach (UNIT *uptr, char *cptr); | |
static int32 guess_cr_code (void); | |
static void feedcycle (t_bool load, t_bool punching); | |
static t_stat cp_reset (DEVICE *dptr); | |
static t_stat cp_set_code (UNIT *uptr, int32 match, char *cptr, void *desc); | |
static t_stat cp_attach (UNIT *uptr, char *cptr); | |
static t_stat cp_detach (UNIT *uptr); | |
static int16 cr_dsw = 0; /* device status word */ | |
static int32 cr_wait = READ_DELAY; /* read per-column wait */ | |
static int32 cr_wait2501 = READ_2501_DELAY; /* read card wait for 2501 reader */ | |
static int32 cf_wait = PUNCH_DELAY; /* punch per-column wait */ | |
static int32 cp_wait = FEED_DELAY; /* feed op wait */ | |
static int32 cr_count= 0; /* read and punch card count */ | |
static int32 cp_count= 0; | |
static int32 cr_addr = 0; /* 2501 reader transfer address */ | |
static int32 cr_cols = 0; /* 2501 reader column count */ | |
#define UNIT_V_OPERATION (UNIT_V_UF + 0) /* operation in progress */ | |
#define UNIT_V_CODE (UNIT_V_UF + 2) /* three bits */ | |
#define UNIT_V_CR_EMPTY (UNIT_V_UF + 5) /* NOTE: THIS MUST BE SET IN ibm1130_gui.c too */ | |
#define UNIT_V_SCRATCH (UNIT_V_UF + 6) | |
#define UNIT_V_QUIET (UNIT_V_UF + 7) | |
#define UNIT_V_DEBUG (UNIT_V_UF + 8) | |
#define UNIT_V_PHYSICAL (UNIT_V_UF + 9) /* NOTE: THIS MUST BE SET IN ibm1130_gui.c too */ | |
#define UNIT_V_LASTPUNCH (UNIT_V_UF + 10) /* used in unit_cp only */ | |
#define UNIT_V_LOWERCASE (UNIT_V_UF + 10) /* used in unit_cr only */ | |
#define UNIT_V_ACTCODE (UNIT_V_UF + 11) /* used in unit_cr only, 3 bits */ | |
#define UNIT_V_2501 (UNIT_V_UF + 14) | |
#define UNIT_OP (3u << UNIT_V_OPERATION) /* two bits */ | |
#define UNIT_CODE (7u << UNIT_V_CODE) /* three bits */ | |
#define UNIT_CR_EMPTY (1u << UNIT_V_CR_EMPTY) | |
#define UNIT_SCRATCH (1u << UNIT_V_SCRATCH) /* temp file */ | |
#define UNIT_QUIET (1u << UNIT_V_QUIET) | |
#define UNIT_DEBUG (1u << UNIT_V_DEBUG) | |
#define UNIT_PHYSICAL (1u << UNIT_V_PHYSICAL) | |
#define UNIT_LASTPUNCH (1u << UNIT_V_LASTPUNCH) | |
#define UNIT_LOWERCASE (1u << UNIT_V_LOWERCASE) /* permit lowercase input (needed for APL) */ | |
#define UNIT_ACTCODE (7u << UNIT_V_ACTCODE) | |
#define UNIT_2501 (1u << UNIT_V_2501) | |
#define OP_IDLE (0u << UNIT_V_OPERATION) | |
#define OP_READING (1u << UNIT_V_OPERATION) | |
#define OP_PUNCHING (2u << UNIT_V_OPERATION) | |
#define OP_FEEDING (3u << UNIT_V_OPERATION) | |
#define SET_OP(op) {cr_unit.flags &= ~UNIT_OP; cr_unit.flags |= (op);} | |
#define CURRENT_OP (cr_unit.flags & UNIT_OP) | |
#define CODE_AUTO (0u << UNIT_V_CODE) | |
#define CODE_029 (1u << UNIT_V_CODE) | |
#define CODE_026F (2u << UNIT_V_CODE) | |
#define CODE_026C (3u << UNIT_V_CODE) | |
#define CODE_BINARY (4u << UNIT_V_CODE) | |
#define GET_CODE(un) (un.flags & UNIT_CODE) | |
#define SET_CODE(un,cd) {un.flags &= ~UNIT_CODE; un.flags |= (cd);} | |
#define ACTCODE_029 (CODE_029 << (UNIT_V_ACTCODE-UNIT_V_CODE)) /* these are used ONLY in MTAB. Elsewhere */ | |
#define ACTCODE_026F (CODE_026F << (UNIT_V_ACTCODE-UNIT_V_CODE)) /* we use values CODE_xxx with macros */ | |
#define ACTCODE_026C (CODE_026C << (UNIT_V_ACTCODE-UNIT_V_CODE)) /* GET_ACTCODE and SET_ACTCODE. */ | |
#define ACTCODE_BINARY (CODE_BINARY << (UNIT_V_ACTCODE-UNIT_V_CODE)) | |
/* get/set macros for actual-code field, these use values like CODE_029 meant for the UNIT_CODE field */ | |
#define GET_ACTCODE(un) ((un.flags & UNIT_ACTCODE) >> (UNIT_V_ACTCODE-UNIT_V_CODE)) | |
#define SET_ACTCODE(un,cd) {un.flags &= ~UNIT_ACTCODE; un.flags |= (cd) << (UNIT_V_ACTCODE-UNIT_V_CODE);} | |
#define COLUMN u4 /* column field in unit record */ | |
UNIT cr_unit = { UDATA (&cr_svc, UNIT_ATTABLE|UNIT_ROABLE|UNIT_CR_EMPTY, 0) }; | |
UNIT cp_unit = { UDATA (NULL, UNIT_ATTABLE, 0) }; | |
MTAB cr_mod[] = { | |
{ UNIT_CODE, CODE_029, "029", "029", &cr_set_code}, | |
{ UNIT_CODE, CODE_026F, "026F", "026F", &cr_set_code}, | |
{ UNIT_CODE, CODE_026C, "026C", "026C", &cr_set_code}, | |
{ UNIT_CODE, CODE_BINARY, "BINARY", "BINARY", &cr_set_code}, | |
{ UNIT_CODE, CODE_AUTO, "AUTO", "AUTO", &cr_set_code}, | |
{ UNIT_ACTCODE, ACTCODE_029, "(029)", NULL, NULL}, /* display-only, shows current mode */ | |
{ UNIT_ACTCODE, ACTCODE_026F, "(026F)", NULL, NULL}, | |
{ UNIT_ACTCODE, ACTCODE_026C, "(026C)", NULL, NULL}, | |
{ UNIT_ACTCODE, ACTCODE_BINARY, "(BINARY)", NULL, NULL}, | |
{ UNIT_2501, 0, "1442", "1442", NULL}, | |
{ UNIT_2501, UNIT_2501, "2501", "2501", NULL}, | |
{ 0 } }; | |
MTAB cp_mod[] = { | |
{ UNIT_CODE, CODE_029, "029", "029", &cp_set_code}, | |
{ UNIT_CODE, CODE_026F, "026F", "026F", &cp_set_code}, | |
{ UNIT_CODE, CODE_026C, "026C", "026C", &cp_set_code}, | |
{ UNIT_CODE, CODE_BINARY, "BINARY", "BINARY", &cp_set_code}, | |
{ 0 } }; | |
REG cr_reg[] = { | |
{ HRDATA (CRDSW, cr_dsw, 16) }, /* device status word */ | |
{ DRDATA (CRTIME, cr_wait, 24), PV_LEFT }, /* operation wait for 1442 column read*/ | |
{ DRDATA (2501TIME, cr_wait2501, 24), PV_LEFT }, /* operation wait for 2501 whole card read*/ | |
{ DRDATA (CFTIME, cf_wait, 24), PV_LEFT }, /* operation wait */ | |
{ DRDATA (CRCOUNT, cr_count, 32),PV_LEFT }, /* number of cards read since last attach cmd */ | |
{ HRDATA (CRADDR, cr_addr, 32) }, /* 2501 reader transfer address */ | |
{ HRDATA (CRCOLS, cr_cols, 32) }, /* 2501 reader column count */ | |
{ NULL } }; | |
REG cp_reg[] = { | |
{ DRDATA (CPTIME, cp_wait, 24), PV_LEFT }, /* operation wait */ | |
{ DRDATA (CPCOUNT, cp_count, 32),PV_LEFT }, /* number of cards punched since last attach cmd */ | |
{ NULL } }; | |
DEVICE cr_dev = { | |
"CR", &cr_unit, cr_reg, cr_mod, | |
1, 16, 16, 1, 16, 16, | |
NULL, NULL, cr_reset, | |
cr_boot, cr_attach, cr_detach}; | |
DEVICE cp_dev = { | |
"CP", &cp_unit, cp_reg, cp_mod, | |
1, 16, 16, 1, 16, 16, | |
NULL, NULL, cp_reset, | |
NULL, cp_attach, cp_detach}; | |
#define CR_DSW_1442_READ_RESPONSE 0x8000 /* device status word bits */ | |
#define CR_DSW_1442_PUNCH_RESPONSE 0x4000 | |
#define CR_DSW_1442_ERROR_CHECK 0x2000 | |
#define CR_DSW_1442_LAST_CARD 0x1000 | |
#define CR_DSW_1442_OP_COMPLETE 0x0800 | |
#define CR_DSW_1442_FEED_CHECK 0x0100 | |
#define CR_DSW_1442_BUSY 0x0002 | |
#define CR_DSW_1442_NOT_READY 0x0001 | |
#define CR_DSW_2501_ERROR_CHECK 0x2000 /* DSW for 2501 reader */ | |
#define CR_DSW_2501_LAST_CARD 0x1000 | |
#define CR_DSW_2501_OP_COMPLETE 0x0800 | |
#define CR_DSW_2501_BUSY 0x0002 | |
#define CR_DSW_2501_NOT_READY 0x0001 | |
typedef struct { | |
uint16 hollerith; | |
unsigned char ascii; | |
} CPCODE; | |
static CPCODE cardcode_029[] = | |
{ | |
{0x0000, ' '}, | |
{0x8000, '&'}, /* + in 026 Fortran */ | |
{0x4000, '-'}, | |
{0x2000, '0'}, | |
{0x1000, '1'}, | |
{0x0800, '2'}, | |
{0x0400, '3'}, | |
{0x0200, '4'}, | |
{0x0100, '5'}, | |
{0x0080, '6'}, | |
{0x0040, '7'}, | |
{0x0020, '8'}, | |
{0x0010, '9'}, | |
{0x9000, 'A'}, | |
{0x8800, 'B'}, | |
{0x8400, 'C'}, | |
{0x8200, 'D'}, | |
{0x8100, 'E'}, | |
{0x8080, 'F'}, | |
{0x8040, 'G'}, | |
{0x8020, 'H'}, | |
{0x8010, 'I'}, | |
{0x5000, 'J'}, | |
{0x4800, 'K'}, | |
{0x4400, 'L'}, | |
{0x4200, 'M'}, | |
{0x4100, 'N'}, | |
{0x4080, 'O'}, | |
{0x4040, 'P'}, | |
{0x4020, 'Q'}, | |
{0x4010, 'R'}, | |
{0x3000, '/'}, | |
{0x2800, 'S'}, | |
{0x2400, 'T'}, | |
{0x2200, 'U'}, | |
{0x2100, 'V'}, | |
{0x2080, 'W'}, | |
{0x2040, 'X'}, | |
{0x2020, 'Y'}, | |
{0x2010, 'Z'}, | |
{0x0820, ':'}, | |
{0x0420, '#'}, /* = in 026 Fortran */ | |
{0x0220, '@'}, /* ' in 026 Fortran */ | |
{0x0120, '\''}, | |
{0x00A0, '='}, | |
{0x0060, '"'}, | |
{0x8820, (unsigned char) '\xA2'}, /* cent, in MS-DOS encoding (this is in guess_cr_code as well) */ | |
{0x8420, '.'}, | |
{0x8220, '<'}, /* ) in 026 Fortran */ | |
{0x8120, '('}, | |
{0x80A0, '+'}, | |
{0x8060, '|'}, | |
{0x4820, '!'}, | |
{0x4420, '$'}, | |
{0x4220, '*'}, | |
{0x4120, ')'}, | |
{0x40A0, ';'}, | |
{0x4060, (unsigned char) '\xAC'}, /* not, in MS-DOS encoding (this is in guess_cr_code as well) */ | |
{0x2420, ','}, | |
{0x2220, '%'}, /* ( in 026 Fortran */ | |
{0x2120, '_'}, | |
{0x20A0, '>'}, | |
{0xB000, 'a'}, | |
{0xA800, 'b'}, | |
{0xA400, 'c'}, | |
{0xA200, 'd'}, | |
{0xA100, 'e'}, | |
{0xA080, 'f'}, | |
{0xA040, 'g'}, | |
{0xA020, 'h'}, | |
{0xA010, 'i'}, | |
{0xD000, 'j'}, | |
{0xC800, 'k'}, | |
{0xC400, 'l'}, | |
{0xC200, 'm'}, | |
{0xC100, 'n'}, | |
{0xC080, 'o'}, | |
{0xC040, 'p'}, | |
{0xC020, 'q'}, | |
{0xC010, 'r'}, | |
{0x6800, 's'}, | |
{0x6400, 't'}, | |
{0x6200, 'u'}, | |
{0x6100, 'v'}, | |
{0x6080, 'w'}, | |
{0x6040, 'x'}, | |
{0x6020, 'y'}, | |
{0x6010, 'z'}, /* these odd punch codes are used by APL: */ | |
{0x1010, '\001'}, /* no corresponding ASCII using ^A */ | |
{0x0810, '\002'}, /* SYN using ^B */ | |
{0x0410, '\003'}, /* no corresponding ASCII using ^C */ | |
{0x0210, '\004'}, /* PUNCH ON using ^D */ | |
{0x0110, '\005'}, /* READER STOP using ^E */ | |
{0x0090, '\006'}, /* UPPER CASE using ^F */ | |
{0x0050, '\013'}, /* EOT using ^K */ | |
{0x0030, '\016'}, /* no corresponding ASCII using ^N */ | |
{0x1030, '\017'}, /* no corresponding ASCII using ^O */ | |
{0x0830, '\020'}, /* no corresponding ASCII using ^P */ | |
}; | |
static CPCODE cardcode_026F[] = /* 026 fortran */ | |
{ | |
{0x0000, ' '}, | |
{0x8000, '+'}, | |
{0x4000, '-'}, | |
{0x2000, '0'}, | |
{0x1000, '1'}, | |
{0x0800, '2'}, | |
{0x0400, '3'}, | |
{0x0200, '4'}, | |
{0x0100, '5'}, | |
{0x0080, '6'}, | |
{0x0040, '7'}, | |
{0x0020, '8'}, | |
{0x0010, '9'}, | |
{0x9000, 'A'}, | |
{0x8800, 'B'}, | |
{0x8400, 'C'}, | |
{0x8200, 'D'}, | |
{0x8100, 'E'}, | |
{0x8080, 'F'}, | |
{0x8040, 'G'}, | |
{0x8020, 'H'}, | |
{0x8010, 'I'}, | |
{0x5000, 'J'}, | |
{0x4800, 'K'}, | |
{0x4400, 'L'}, | |
{0x4200, 'M'}, | |
{0x4100, 'N'}, | |
{0x4080, 'O'}, | |
{0x4040, 'P'}, | |
{0x4020, 'Q'}, | |
{0x4010, 'R'}, | |
{0x3000, '/'}, | |
{0x2800, 'S'}, | |
{0x2400, 'T'}, | |
{0x2200, 'U'}, | |
{0x2100, 'V'}, | |
{0x2080, 'W'}, | |
{0x2040, 'X'}, | |
{0x2020, 'Y'}, | |
{0x2010, 'Z'}, | |
{0x0420, '='}, | |
{0x0220, '\''}, | |
{0x8420, '.'}, | |
{0x8220, ')'}, | |
{0x8220, '<'}, /* if ASCII has <, treat like ) */ | |
{0x4420, '$'}, | |
{0x4220, '*'}, | |
{0x2420, ','}, | |
{0x2220, '('}, | |
{0x2220, '%'}, /* if ASCII has %, treat like ) */ | |
}; | |
static CPCODE cardcode_026C[] = /* 026 commercial */ | |
{ | |
{0x0000, ' '}, | |
{0x8000, '+'}, | |
{0x4000, '-'}, | |
{0x2000, '0'}, | |
{0x1000, '1'}, | |
{0x0800, '2'}, | |
{0x0400, '3'}, | |
{0x0200, '4'}, | |
{0x0100, '5'}, | |
{0x0080, '6'}, | |
{0x0040, '7'}, | |
{0x0020, '8'}, | |
{0x0010, '9'}, | |
{0x9000, 'A'}, | |
{0x8800, 'B'}, | |
{0x8400, 'C'}, | |
{0x8200, 'D'}, | |
{0x8100, 'E'}, | |
{0x8080, 'F'}, | |
{0x8040, 'G'}, | |
{0x8020, 'H'}, | |
{0x8010, 'I'}, | |
{0x5000, 'J'}, | |
{0x4800, 'K'}, | |
{0x4400, 'L'}, | |
{0x4200, 'M'}, | |
{0x4100, 'N'}, | |
{0x4080, 'O'}, | |
{0x4040, 'P'}, | |
{0x4020, 'Q'}, | |
{0x4010, 'R'}, | |
{0x3000, '/'}, | |
{0x2800, 'S'}, | |
{0x2400, 'T'}, | |
{0x2200, 'U'}, | |
{0x2100, 'V'}, | |
{0x2080, 'W'}, | |
{0x2040, 'X'}, | |
{0x2020, 'Y'}, | |
{0x2010, 'Z'}, | |
{0x0420, '='}, | |
{0x0220, '\''}, | |
{0x8420, '.'}, | |
{0x8220, '<'}, | |
{0x8220, ')'}, /* if ASCII has ), treat like < */ | |
{0x4420, '$'}, | |
{0x4220, '*'}, | |
{0x2420, ','}, | |
{0x2220, '%'}, | |
{0x2220, '('}, /* if ASCII has (, treat like % */ | |
}; | |
extern int cgi; | |
static int16 ascii_to_card[256]; | |
static CPCODE *cardcode; | |
static int ncardcode; | |
static FILE *deckfile = NULL; | |
static char tempfile[128]; | |
static int any_punched = 0; | |
#define MAXARGLEN 80 /* max length of a saved attach command argument */ | |
#define MAXARGS 10 /* max number of arguments to save */ | |
static char list_save[MAXARGS][MAXARGLEN], *list_arg[MAXARGLEN+1]; | |
static int list_nargs = 0; | |
static char* (*tab_proc)(char* str, int width) = NULL; /* tab reformatting routine */ | |
static int tab_width = 8; | |
static uint16 punchstation[80]; | |
static uint16 readstation[80]; | |
static enum {STATION_EMPTY, STATION_LOADED, STATION_READ, STATION_PUNCHED} punchstate = STATION_EMPTY, readstate = STATION_EMPTY; | |
static t_bool nextdeck (void); | |
static void checkdeck (void); | |
static t_stat pcr_attach(UNIT *uptr, char *devname); | |
static t_stat pcr_detach(UNIT *uptr); | |
static t_stat pcr_svc(UNIT *uptr); | |
static void pcr_xio_sense(int modify); | |
static void pcr_xio_feedcycle(void); | |
static void pcr_xio_startread(void); | |
static void pcr_reset(void); | |
/* lookup_codetable - use code flag setting to get code table pointer and length */ | |
static t_bool lookup_codetable (int32 match, CPCODE **pcode, int *pncode) | |
{ | |
switch (match) { | |
case CODE_029: | |
*pcode = cardcode_029; | |
*pncode = sizeof(cardcode_029) / sizeof(CPCODE); | |
break; | |
case CODE_026F: | |
*pcode = cardcode_026F; | |
*pncode = sizeof(cardcode_026F) / sizeof(CPCODE); | |
break; | |
case CODE_026C: | |
*pcode = cardcode_026C; | |
*pncode = sizeof(cardcode_026C) / sizeof(CPCODE); | |
break; | |
case CODE_BINARY: | |
*pcode = NULL; | |
*pncode = 0; | |
break; | |
default: | |
printf("Eek! Undefined code table index"); | |
return FALSE; | |
} | |
return TRUE; | |
} | |
t_stat set_active_cr_code (int match) | |
{ | |
CPCODE *code; | |
int i, ncode; | |
SET_ACTCODE(cr_unit, match); | |
if (! lookup_codetable(match, &code, &ncode)) | |
return SCPE_ARG; | |
if (code != NULL) { /* if an ASCII mode was selected */ | |
memset(ascii_to_card, 0, sizeof(ascii_to_card)); | |
for (i = 0; i < ncode; i++) /* set ascii to card code table */ | |
ascii_to_card[code[i].ascii] = code[i].hollerith; | |
} | |
return SCPE_OK; | |
} | |
static t_stat cr_set_code (UNIT *uptr, int32 match, char *cptr, void *desc) | |
{ | |
if (match == CODE_AUTO) | |
match = guess_cr_code(); | |
return set_active_cr_code(match); | |
} | |
static int32 guess_cr_code (void) | |
{ | |
int i; | |
long filepos; | |
int32 guess; | |
union { | |
uint16 w[80]; /* one card image, viewed as 80 short words */ | |
char c[160]; /* same, viewed as 160 characters */ | |
} line; | |
/* here, we can see if the attached file is binary or ascii and auto-set the | |
* mode. If we the file is a binary deck, we should be able to read a record of 80 short | |
* words, and the low 4 bits of each word must be zero. If the file was an ascii deck, | |
* then these low 4 bits are the low 4 bits of every other character in the first 160 | |
* chararacters of the file. They would all only be 0 if all of these characters were | |
* in the following set: {NUL ^P space 0 @ P ` p} . It seems very unlikely that | |
* this would happen, as even if the deck consisted of untrimmed card images and | |
* the first two lines were blank, the 81'st character would be a newline, and it would | |
* appear at one of the every-other characters seen on little-endian machines, anyway. | |
* So: if the code mode is AUTO, we can use this test and select either BINARY or 029. | |
* Might as well also check for the all-blanks and newlines case in case this is a | |
* big-endian machine. | |
*/ | |
guess = CODE_029; /* assume ASCII, 029 */ | |
if ((cr_unit.flags & UNIT_ATT) && (cr_unit.fileref != NULL)) { | |
filepos = ftell(cr_unit.fileref); /* remember current position in file */ | |
fseek(cr_unit.fileref, 0, SEEK_SET); /* go to first record of file */ | |
/* read card image; if file too short, leave guess set to 029 */ | |
if (fxread(line.w, sizeof(line.w[0]), 80, cr_unit.fileref) == 80) { | |
guess = CODE_BINARY; /* we got a card image, assume binary */ | |
for (i = 0; i < 80; i++) { /* make sure low bits are zeroes, which our binary card format promises */ | |
if (line.w[i] & 0x000F) { | |
guess = CODE_029; /* low bits set, must be ascii text */ | |
break; | |
} | |
} | |
if (guess == CODE_BINARY) { /* if we saw no low bits, it could have been all spaces. */ | |
guess = CODE_029; /* so now assume file is text */ | |
for (i = 0; i < 160; i++) { /* ensure all 160 characters are 7-bit ASCII (or not or cent) */ | |
/* 3.0-3, changed test for > 0x7f to & 0x80 */ | |
if ((strchr("\r\n\t\xA2\xAC", line.c[i]) == NULL) && ((line.c[i] < ' ') || (line.c[i] & 0x80))) { | |
guess = CODE_BINARY; /* oops, null or weird character, it's binary after all */ | |
break; | |
} | |
} | |
} | |
} | |
fseek(cr_unit.fileref, filepos, SEEK_SET); /* return to original position */ | |
} | |
return guess; | |
} | |
static t_stat cp_set_code (UNIT *uptr, int32 match, char *cptr, void *desc) | |
{ | |
CPCODE *code; | |
int ncode; | |
if (! lookup_codetable(match, &code, &ncode)) | |
return SCPE_ARG; | |
cardcode = code; /* save code table for punch output */ | |
ncardcode = ncode; | |
return SCPE_OK; | |
} | |
t_stat load_cr_boot (int32 drvno, int switches) | |
{ | |
int i; | |
char *name, msg[80]; | |
t_bool expand; | |
uint16 word, *boot; | |
static uint16 dms_boot_data[] = { /* DMSV2M12, already expanded to 16 bits */ | |
0xc80a, 0x18c2, 0xd008, 0xc019, 0x8007, 0xd017, 0xc033, 0x100a, | |
0xd031, 0x7015, 0x000c, 0xe800, 0x0020, 0x08f8, 0x4828, 0x7035, | |
0x70fa, 0x4814, 0xf026, 0x2000, 0x8800, 0x9000, 0x9800, 0xa000, | |
0xb000, 0xb800, 0xb810, 0xb820, 0xb830, 0xb820, 0x3000, 0x08ea, | |
0xc0eb, 0x4828, 0x70fb, 0x9027, 0x4830, 0x70f8, 0x8001, 0xd000, | |
0xc0f4, 0xd0d9, 0xc01d, 0x1804, 0xe8d6, 0xd0d9, 0xc8e3, 0x18d3, | |
0xd017, 0x18c4, 0xd0d8, 0x9016, 0xd815, 0x90db, 0xe8cc, 0xd0ef, | |
0xc016, 0x1807, 0x0035, 0x00d0, 0xc008, 0x1803, 0xe8c4, 0xd00f, | |
0x080d, 0x08c4, 0x1003, 0x4810, 0x70d9, 0x3000, 0x08df, 0x3000, | |
0x7010, 0x00d1, 0x0028, 0x000a, 0x70f3, 0x0000, 0x00d0, 0xa0c0 | |
}; | |
static uint16 apl_boot_data[] = { /* APLIPL, already expanded */ | |
0x7021, 0x3000, 0x7038, 0xa0c0, 0x0002, 0x4808, 0x0003, 0x0026, | |
0x0001, 0x0001, 0x000c, 0x0000, 0x0000, 0x0800, 0x48f8, 0x0027, | |
0x7002, 0x08f2, 0x3800, 0xe0fe, 0x18cc, 0x100e, 0x10c1, 0x4802, | |
0x7007, 0x4828, 0x7005, 0x4804, 0x7001, 0x70f3, 0x08e7, 0x70e1, | |
0x08ed, 0x70f1, 0xc0e0, 0x1807, 0xd0de, 0xc0df, 0x1801, 0xd0dd, | |
0x800d, 0xd00c, 0xc0e3, 0x1005, 0xe80a, 0xd009, 0xc0d8, 0x1008, | |
0xd0d6, 0xc0dd, 0x1008, 0x80d4, 0xd0da, 0x1000, 0xb000, 0x00f6, | |
0x70e7, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, | |
0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, | |
0x9000, 0x4004, 0x40c0, 0x8001, 0x4004, 0x40c0, 0x0000, 0x0000 }; | |
static uint16 aplp_boot_data[] = { /* APLIPL Privileged, already expanded */ | |
0x7021, 0x3000, 0x7038, 0xa0c0, 0x0002, 0x4808, 0x0003, 0x0026, | |
0x0001, 0x0001, 0x000c, 0x0000, 0x0000, 0x0800, 0x48f8, 0x0027, | |
0x7002, 0x08f2, 0x3800, 0xe0fe, 0x18cc, 0x100e, 0x10c1, 0x4802, | |
0x7007, 0x4828, 0x7005, 0x4804, 0x7001, 0x70f3, 0x08e7, 0x70e1, | |
0x08ed, 0x70f1, 0xc0e0, 0x1807, 0xd0de, 0xc0df, 0x1801, 0xd0dd, | |
0x800d, 0xd00c, 0xc0e3, 0x1005, 0xe80a, 0xd009, 0xc0d8, 0x1008, | |
0xd0d6, 0xc0dd, 0x1008, 0x80d4, 0xd0da, 0x1002, 0xb000, 0x00f6, | |
0x70e7, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, | |
0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, | |
0x9000, 0x4004, 0x40c0, 0x8001, 0x4004, 0x40c0, 0x4004, 0x4001 | |
}; | |
if ((switches & SWMASK('A')) && (switches & SWMASK('P'))) { | |
boot = aplp_boot_data; | |
name = "APL\\1130 Privileged"; | |
expand = FALSE; | |
} | |
else if (switches & SWMASK('A')) { | |
boot = apl_boot_data; | |
name = "APL\\1130"; | |
expand = FALSE; | |
} | |
else { | |
boot = dms_boot_data; | |
name = "DMS V2M12"; | |
expand = FALSE; | |
} | |
if (drvno >= 0 && ! (switches & SWMASK('S'))) /* if specified, set toggle switches to disk drive no */ | |
CES = drvno; /* so BOOT DSK1 will work correctly (DMS boot uses this) */ | |
/* but do not touch switches if -S was specified */ | |
IAR = 0; /* clear IAR */ | |
for (i = 0; i < 80; i++) { /* store the boot image to core words 0..79 */ | |
word = boot[i]; /* expanding the 12-bit card data to 16 bits if not already expanded */ | |
if (expand) | |
word = (word & 0xF800) | ((word & 0x0400) ? 0x00C0 : 0x0000) | ((word & 0x03F0) >> 4); | |
WriteW(i, word); | |
} | |
/* quiet switch or CGI mode inhibit the boot remark */ | |
if (((switches & SWMASK('Q')) == 0) && ! cgi) { /* 3.0-3, parenthesized & operation, per lint check */ | |
sprintf(msg, "Loaded %s cold start card", name); | |
#ifdef GUI_SUPPORT | |
remark_cmd(msg); | |
#else | |
printf("%s\n", msg); | |
#endif | |
} | |
return SCPE_OK; | |
} | |
t_stat cr_boot (int32 unitno, DEVICE *dptr) | |
{ | |
t_stat rval; | |
int i; | |
if ((rval = reset_all(0)) != SCPE_OK) | |
return rval; | |
if (! (cr_unit.flags & UNIT_ATT)) /* no deck; load standard boot anyway */ | |
return load_cr_boot(-1, 0); | |
if (GET_ACTCODE(cr_unit) != CODE_BINARY) { | |
printf("Can only boot from card reader when set to BINARY mode\n"); | |
return SCPE_IOERR; | |
} | |
if (cr_unit.fileref == NULL) /* this will happen if no file in deck file can be opened */ | |
return SCPE_IOERR; | |
feedcycle(TRUE, FALSE); | |
if (readstate != STATION_LOADED) { | |
printf("No cards in reader\n"); | |
return SCPE_IOERR; | |
} | |
/* if (fxread(buf, sizeof(buf[0]), 80, cr_unit.fileref) != 80) */ | |
/* return SCPE_IOERR; */ | |
IAR = 0; /* Program Load sets IAR = 0 */ | |
for (i = 0; i < 80; i++) /* shift 12 bits into 16 */ | |
WriteW(i, (readstation[i] & 0xF800) | ((readstation[i] & 0x0400) ? 0x00C0 : 0x0000) | ((readstation[i] & 0x03F0) >> 4)); | |
readstate = STATION_READ; /* the current card has been consumed */ | |
return SCPE_OK; | |
} | |
char card_to_ascii (uint16 hol) | |
{ | |
int i; | |
for (i = 0; i < ncardcode; i++) | |
if (cardcode[i].hollerith == hol) | |
return (char) cardcode[i].ascii; | |
return '?'; | |
} | |
/* hollerith_to_ascii - provide a generic conversion for simulator debugging */ | |
char hollerith_to_ascii (uint16 hol) | |
{ | |
int i; | |
for (i = 0; i < ncardcode; i++) | |
if (cardcode_029[i].hollerith == hol) | |
return (char) cardcode[i].ascii; | |
return ' '; | |
} | |
/* feedcycle - move cards to next station */ | |
static void feedcycle (t_bool load, t_bool punching) | |
{ | |
char buf[84], *x, *result; | |
int i, nread, nwrite, ch; | |
/* write punched card if punch is attached to a file */ | |
if (cp_unit.flags & UNIT_ATT) { | |
if (any_punched && punchstate != STATION_EMPTY) { | |
if (GET_CODE(cp_unit) == CODE_BINARY) { | |
fxwrite(punchstation, sizeof(punchstation[0]), 80, cp_unit.fileref); | |
} | |
else { | |
for (i = 80; --i >= 0; ) { /* find last nonblank column */ | |
if (punchstation[i] != 0) | |
break; | |
} | |
/* i is now index of last character to output or -1 if all blank */ | |
for (nwrite = 0; nwrite <= i; nwrite++) { /* convert characters */ | |
buf[nwrite] = card_to_ascii(punchstation[nwrite]); | |
} | |
/* nwrite is now number of characters to output */ | |
#ifdef WIN32 | |
buf[nwrite++] = '\r'; /* add CR before NL for microsoft */ | |
#endif | |
buf[nwrite++] = '\n'; /* append newline */ | |
fxwrite(buf, sizeof(char), nwrite, cp_unit.fileref); | |
} | |
} | |
cp_count++; | |
} | |
if (! load) /* all we wanted to do was flush the punch */ | |
return; | |
/* slide cards from reader to punch. If we know we're punching, | |
* generate a blank card in any case. Otherwise, it should take two feed | |
* cycles to get a read card from the hopper to punch station. Also when | |
* the reader is a 2501, we assume the 1442 is a punch only */ | |
if (readstate == STATION_EMPTY || (cr_unit.flags & UNIT_2501)) { | |
if (punching) { | |
memset(punchstation, 0, sizeof(punchstation)); | |
punchstate = STATION_LOADED; | |
} | |
else | |
punchstate = STATION_EMPTY; | |
} | |
else { | |
memcpy(punchstation, readstation, sizeof(punchstation)); | |
punchstate = STATION_LOADED; | |
} | |
/* load card into read station */ | |
again: /* jump here if we've loaded a new deck after emptying the previous one */ | |
if (cr_unit.flags & UNIT_ATT) { | |
memset(readstation, 0, sizeof(readstation)); /* blank out the card image */ | |
if (cr_unit.fileref == NULL) | |
nread = 0; | |
else if (GET_ACTCODE(cr_unit) == CODE_BINARY) /* binary read is straightforward */ | |
nread = fxread(readstation, sizeof(readstation[0]), 80, cr_unit.fileref); | |
else if (fgets(buf, sizeof(buf), cr_unit.fileref) == NULL) /* read up to 80 chars */ | |
nread = 0; /* hmm, end of file */ | |
else { /* check for CRLF or newline */ | |
if ((x = strchr(buf, '\r')) == NULL) | |
x = strchr(buf, '\n'); | |
if (x == NULL) { /* there were no delimiters, burn rest of line */ | |
while ((ch = getc(cr_unit.fileref)) != EOF) { /* get character */ | |
if (ch == '\n') /* newline, done */ | |
break; | |
if (ch == '\r') { /* CR, try to take newline too */ | |
ch = getc(cr_unit.fileref); | |
if (ch != EOF && ch != '\n') /* hmm, put it back */ | |
ungetc(ch, cr_unit.fileref); | |
break; | |
} | |
} | |
if ((nread = strlen(buf)) > 80) /* use the line as read, at most 80 characters */ | |
nread = 80; | |
} | |
else | |
nread = x-buf; /* reduce length of string */ | |
if (! (cr_unit.flags & UNIT_LOWERCASE)) | |
upcase(buf); /* force uppercase */ | |
if (tab_proc != NULL) { /* apply tab editing, if specified */ | |
buf[nread] = '\0'; /* .. be sure string is terminated */ | |
result = (*tab_proc)(buf, tab_width); /* .. convert tabs spaces */ | |
nread = strlen(result); /* .. set new read length */ | |
} | |
else | |
result = buf; | |
for (i = 0; i < nread; i++) /* convert ascii to punch code */ | |
readstation[i] = ascii_to_card[(unsigned char) result[i]]; | |
nread = 80; /* even if line was blank consider it present */ | |
} | |
if (nread <= 0) { /* set hopper flag accordingly */ | |
if (deckfile != NULL && nextdeck()) | |
goto again; | |
if (punching) /* pretend we loaded a blank card */ | |
nread = 80; | |
} | |
if (nread == 0) { | |
SETBIT(cr_unit.flags, UNIT_CR_EMPTY); | |
readstate = STATION_EMPTY; | |
cr_count = -1; /* nix the card counter */ | |
} | |
else { | |
CLRBIT(cr_unit.flags, UNIT_CR_EMPTY); | |
readstate = STATION_LOADED; | |
cr_count++; | |
cr_unit.pos++; | |
} | |
} | |
/* else */ | |
/* readstate = STATION_EMPTY; */ | |
cr_unit.COLUMN = -1; /* neither device is currently cycling */ | |
cp_unit.COLUMN = -1; | |
} | |
#ifdef NO_USE_FOR_THIS_CURRENTLY | |
/* this routine should probably be hooked up to the GUI somehow */ | |
/* NPRO - nonprocess runout, flushes out the reader/punch */ | |
static void npro (void) | |
{ | |
if (cr_unit.flags & UNIT_ATT) | |
fseek(cr_unit.fileref, 0, SEEK_END); /* push reader to EOF */ | |
if (deckfile != NULL) | |
fseek(deckfile, 0, SEEK_END); /* skip to end of deck list */ | |
cr_count = -1; /* nix the card counter */ | |
if (punchstate == STATION_PUNCHED) | |
feedcycle(FALSE, FALSE); /* flush out card just punched */ | |
readstate = punchstate = STATION_EMPTY; | |
cr_unit.COLUMN = -1; /* neither device is currently cycling */ | |
cp_unit.COLUMN = -1; | |
SETBIT(cr_unit.flags, UNIT_CR_EMPTY); /* set hopper empty */ | |
} | |
#endif | |
/* skipbl - skip leading whitespace in a string */ | |
static char * skipbl (char *str) | |
{ | |
while (*str && *str <= ' ') | |
str++; | |
return str; | |
} | |
static char * trim (char *str) | |
{ | |
char *s, *lastnb; | |
for (lastnb = str-1, s = str; *s; s++) /* point to last nonblank characteter in string */ | |
if (*s > ' ') | |
lastnb = s; | |
lastnb[1] = '\0'; /* clip just after it */ | |
return str; | |
} | |
/* alltrim - remove all leading and trailing whitespace from a string */ | |
static char * alltrim (char *str) | |
{ | |
char *s, *lastnb; | |
if ((s = skipbl(str)) != str) /* slide down over leading whitespace */ | |
strcpy(str, s); | |
for (lastnb = str-1, s = str; *s; s++) /* point to last nonblank characteter in string */ | |
if (*s > ' ') | |
lastnb = s; | |
lastnb[1] = '\0'; /* clip just after it */ | |
return str; | |
} | |
/* checkdeck - set hopper empty status based on condition of current reader file */ | |
static void checkdeck (void) | |
{ | |
t_bool empty; | |
if (cr_unit.fileref == NULL) { /* there is no open file */ | |
empty = TRUE; | |
} | |
else { | |
fseek(cr_unit.fileref, 0, SEEK_END); /* seek to end of file */ | |
empty = ftell(cr_unit.fileref) <= 0; /* file is empty if there was nothing in it*/ | |
cr_count = 0; /* reset card counter */ | |
cr_unit.pos = 0; | |
fseek(cr_unit.fileref, 0, SEEK_SET); /* rewind deck */ | |
} | |
if (empty) { | |
SETBIT(cr_unit.flags, UNIT_CR_EMPTY); | |
if (cr_unit.fileref != NULL) /* real file but it's empty, hmmm, try another */ | |
nextdeck(); | |
} | |
else { | |
CLRBIT(cr_unit.flags, UNIT_CR_EMPTY); | |
} | |
} | |
/* nextdeck - attempt to load a new file from the deck list into the hopper */ | |
static t_bool nextdeck (void) | |
{ | |
char buf[200], *fname, *c, quote; | |
int code; | |
long fpos; | |
cr_count = 0; /* clear read count */ | |
cr_unit.pos = 0; | |
if (deckfile == NULL) /* we can't help */ | |
return FALSE; | |
code = GET_CODE(cr_unit); /* default code as set */ | |
if (cr_unit.fileref != NULL) { /* this pulls the rug out from under scp */ | |
fclose(cr_unit.fileref); /* since the attach flag is still set. be careful! */ | |
cr_unit.fileref = NULL; | |
if (cr_unit.flags & UNIT_SCRATCH) { | |
remove(tempfile); | |
CLRBIT(cr_unit.flags, UNIT_SCRATCH); | |
} | |
} | |
for (;;) { /* get a filename */ | |
tab_proc = NULL; /* default: no tab editing */ | |
tab_width = 8; | |
if (fgets(buf, sizeof(buf), deckfile) == NULL) | |
break; /* oops, no more names */ | |
alltrim(buf); /* remove leading and trailing spaces */ | |
if (! *buf) | |
continue; /* empty line */ | |
if (*buf == '#' || *buf == '*' || *buf == ';') | |
continue; /* comment */ | |
if (strnicmp(buf, "!BREAK", 6) == 0) { /* stop the simulation */ | |
break_simulation(STOP_DECK_BREAK); | |
continue; | |
} | |
if (buf[0] == '!') { /* literal text line, make a temporary file */ | |
#if defined (__GNUC__) && !defined (_WIN32) /* GCC complains about mktemp & always provides mkstemp */ | |
if (*tempfile == '\0') { /* first time, open guaranteed-unique file */ | |
int fh; | |
strcpy(tempfile, "tempXXXXXX"); /* get modifiable copy of name template */ | |
if ((fh = mkstemp(tempfile)) == -1) { /* open file. Actual name is set by side effect */ | |
printf("Cannot create temporary deck file\n"); | |
break_simulation(STOP_DECK_BREAK); | |
return 0; | |
} | |
/* get FILE * from the file handle */ | |
if ((cr_unit.fileref = fdopen(fh, "w+b")) == NULL) { | |
printf("Cannot use temporary deck file %s\n", tempfile); | |
break_simulation(STOP_DECK_BREAK); | |
return 0; | |
} | |
} | |
else { /* on later opens, just reuse the old name */ | |
if ((cr_unit.fileref = fopen(tempfile, "w+b")) == NULL) { | |
printf("Cannot create temporary file %s\n", tempfile); | |
break_simulation(STOP_DECK_BREAK); | |
return 0; | |
} | |
} | |
#else /* ANSI standard C always provides mktemp */ | |
if (*tempfile == '\0') { /* first time, construct unique name */ | |
strcpy(tempfile, "tempXXXXXX"); /* make a modifiable copy of the template */ | |
if (mktemp(tempfile) == NULL) { | |
printf("Cannot create temporary card file name\n"); | |
break_simulation(STOP_DECK_BREAK); | |
return 0; | |
} | |
} | |
/* (re)create file */ | |
if ((cr_unit.fileref = fopen(tempfile, "w+b")) == NULL) { | |
printf("Cannot create temporary file %s\n", tempfile); | |
break_simulation(STOP_DECK_BREAK); | |
return 0; | |
} | |
#endif | |
SETBIT(cr_unit.flags, UNIT_SCRATCH); | |
for (;;) { /* store literal cards into temporary file */ | |
upcase(buf+1); | |
fputs(buf+1, cr_unit.fileref); | |
putc('\n', cr_unit.fileref); | |
if (cpu_unit.flags & UNIT_ATT) | |
trace_io("(Literal card %s\n)", buf+1); | |
if (! (cr_unit.flags & UNIT_QUIET)) | |
printf( "(Literal card %s)\n", buf+1); | |
fpos = ftell(deckfile); | |
if (fgets(buf, sizeof(buf), deckfile) == NULL) | |
break; /* oops, end of file */ | |
if (buf[0] != '!' || strnicmp(buf, "!BREAK", 6) == 0) | |
break; | |
alltrim(buf); | |
} | |
fseek(deckfile, fpos, SEEK_SET); /* restore deck file to just before non-literal card */ | |
fseek(cr_unit.fileref, 0, SEEK_SET); /* rewind scratch file for reading */ | |
code = CODE_029; /* assume literal cards use keycode 029 */ | |
break; | |
} | |
sim_sub_args(buf, sizeof(buf), list_arg); /* substitute in stuff from the attach command line */ | |
c = buf; /* pick filename from string */ | |
while (*c && *c <= ' ') /* skip leading blanks (there could be some now after subsitution) */ | |
c++; | |
fname = c; /* remember start */ | |
if (*c == '\'' || *c == '"') { /* quoted string */ | |
quote = *c++; /* remember the quote type */ | |
fname++; /* skip the quote */ | |
while (*c && (*c != quote)) | |
c++; /* skip to end of quote */ | |
} | |
else { /* not quoted; look for terminating whitespace */ | |
while (*c && (*c > ' ')) | |
c++; | |
} | |
if (*c) | |
*c++ = 0; /* term arg at space or closing quote & move to next character */ | |
if (! *fname) /* blank line, no filename */ | |
continue; | |
if ((cr_unit.fileref = fopen(fname, "rb")) == NULL) { | |
printf("File '%s' specified in deck file '%s' cannot be opened\n", fname, cr_unit.filename+1); | |
continue; | |
} | |
c = skipbl(c); /* skip to next token, which would be mode, if present */ | |
switch (*c) { | |
case 'b': | |
case 'B': | |
code = CODE_BINARY; /* force code */ | |
c++; /* accept mode character by moving past it */ | |
break; | |
case 'a': | |
case 'A': | |
code = CODE_029; | |
c++; | |
switch (*c) { /* is ascii mode followed by another character? */ | |
case 'F': | |
case 'f': | |
tab_proc = EditToFortran; | |
c++; | |
break; | |
case 'A': | |
case 'a': | |
tab_proc = EditToAsm; | |
c++; | |
break; | |
case 't': | |
case 'T': | |
tab_proc = EditToWhitespace; | |
c++; | |
tab_width = 0; /* see if there is a digit after the 4 -- if so use it as tab expansion width */ | |
while (isdigit(*c)) | |
tab_width = tab_width*10 + *c++ - '0'; | |
if (tab_width == 0) | |
tab_width = 8; | |
break; | |
} | |
} | |
if (code == CODE_AUTO) /* otherwise if mode is auto, guess it, otherwise use default */ | |
code = guess_cr_code(); | |
if (cpu_unit.flags & UNIT_ATT) | |
trace_io("(Opened %s deck %s%s)\n", (code == CODE_BINARY) ? "binary" : "text", fname, tab_proc ? (*tab_proc)(NULL, tab_width) : ""); | |
if (! (cr_unit.flags & UNIT_QUIET)) | |
printf( "(Opened %s deck %s%s)\n", (code == CODE_BINARY) ? "binary" : "text", fname, tab_proc ? (*tab_proc)(NULL, tab_width) : ""); | |
break; | |
} | |
checkdeck(); | |
if (code != CODE_AUTO) /* if code was determined, set it */ | |
set_active_cr_code(code); /* (it may be left at CODE_AUTO when deckfile is exhausted */ | |
return (cr_unit.flags & UNIT_CR_EMPTY) == 0;/* return TRUE if a deck has been loaded */ | |
} | |
static t_stat cr_reset (DEVICE *dptr) | |
{ | |
if (GET_ACTCODE(cr_unit) == CODE_AUTO) | |
SET_ACTCODE(cr_unit, CODE_029); /* if actual code is not yet set, select 029 for now*/ | |
cr_set_code(&cr_unit, GET_ACTCODE(cr_unit), NULL, NULL); /* reset to specified code table */ | |
readstate = STATION_EMPTY; | |
cr_dsw = 0; | |
sim_cancel(&cr_unit); /* cancel any pending ops */ | |
calc_ints(); | |
SET_OP(OP_IDLE); | |
cr_unit.COLUMN = -1; /* neither device is currently cycling */ | |
if (cr_unit.flags & UNIT_PHYSICAL) { | |
pcr_reset(); | |
return SCPE_OK; | |
} | |
return SCPE_OK; | |
} | |
static t_stat cp_reset (DEVICE *dptr) | |
{ | |
if (GET_CODE(cp_unit) == CODE_AUTO) | |
SET_CODE(cp_unit, CODE_BINARY); /* punch is never in auto mode; turn it to binary on startup */ | |
cp_set_code(&cp_unit, GET_CODE(cp_unit), NULL, NULL); | |
punchstate = STATION_EMPTY; | |
cp_unit.COLUMN = -1; | |
return SCPE_OK; | |
} | |
t_stat cr_rewind (void) | |
{ | |
if ((cr_unit.flags & UNIT_ATT) == 0) | |
return SCPE_UNATT; | |
if (deckfile) { | |
fseek(deckfile, 0, SEEK_SET); | |
nextdeck(); | |
} | |
else { | |
fseek(cr_unit.fileref, 0, SEEK_SET); | |
checkdeck(); | |
cr_set_code(&cr_unit, GET_CODE(cr_unit), NULL, NULL); | |
} | |
cr_unit.pos = 0; | |
/* there is a read pending. Pull the card in to make it go */ | |
if (CURRENT_OP == OP_READING || CURRENT_OP == OP_PUNCHING || CURRENT_OP == OP_FEEDING) | |
feedcycle(TRUE, (cp_unit.flags & UNIT_ATT) != 0); | |
return SCPE_OK; | |
} | |
static t_stat cr_attach (UNIT *uptr, char *cptr) | |
{ | |
t_stat rval; | |
t_bool use_decklist, old_quiet; | |
char *c, *arg, quote; | |
cr_detach(uptr); /* detach file and possibly deck file */ | |
CLRBIT(uptr->flags, UNIT_SCRATCH|UNIT_QUIET|UNIT_DEBUG|UNIT_PHYSICAL|UNIT_LOWERCASE); /* set options */ | |
tab_proc = NULL; | |
tab_width = 8; | |
use_decklist = FALSE; | |
sim_switches |= SWMASK('R'); // the card reader is readonly. Don't create an empty file if file does not exist | |
if (sim_switches & SWMASK('D')) SETBIT(uptr->flags, UNIT_DEBUG); | |
if (sim_switches & SWMASK('Q')) SETBIT(uptr->flags, UNIT_QUIET); | |
if (sim_switches & SWMASK('L')) SETBIT(uptr->flags, UNIT_LOWERCASE); | |
if (sim_switches & SWMASK('F')) tab_proc = EditToFortran; | |
if (sim_switches & SWMASK('A')) tab_proc = EditToAsm; | |
if (sim_switches & SWMASK('T')) tab_proc = EditToWhitespace; | |
/* user can specify multiple names on the CR attach command if using a deck file. The deck file | |
* can contain %n tokens to pickup the additional name(s). */ | |
c = cptr; /* extract arguments */ | |
for (list_nargs = 0; list_nargs < MAXARGS; list_nargs++) { | |
while (*c && (*c <= ' ')) /* skip blanks */ | |
c++; | |
if (! *c) | |
break; /* all done */ | |
if (list_nargs == 0 && *c == '@') { /* @ might occur before a quoted name; check first */ | |
c++; | |
use_decklist = TRUE; | |
} | |
if (*c == '\'' || *c == '"') { /* quoted string */ | |
quote = *c++; | |
arg = c; /* save start */ | |
while (*c && (*c != quote)) | |
c++; | |
} | |
else { | |
arg = c; /* save start */ | |
while (*c && (*c > ' ')) | |
c++; | |
} | |
if (*c) | |
*c++ = 0; /* term arg at space or closing quote */ | |
list_arg[list_nargs] = list_save[list_nargs]; /* set pointer to permanent storage location */ | |
strncpy(list_arg[list_nargs], arg, MAXARGLEN); /* store copy */ | |
} | |
list_arg[list_nargs] = NULL; /* NULL terminate the end of the argument list */ | |
if (list_nargs <= 0) /* need at least 1 */ | |
return SCPE_2FARG; | |
cr_count = 0; /* reset card counter */ | |
cptr = list_arg[0]; /* filename is first argument */ | |
if (*cptr == '@') { /* @ might also occur inside a quoted name; check afterwards too */ | |
use_decklist = TRUE; | |
cptr++; | |
} | |
else if (sim_switches & SWMASK('P')) { /* open physical card reader device */ | |
return pcr_attach(uptr, cptr); | |
} | |
if (list_nargs > 1 && ! use_decklist) /* if not using deck file, there should have been only one name */ | |
return SCPE_2MARG; | |
if (strcmp(cptr, "(stdin)") == 0 && ! use_decklist) { /* standard input */ | |
if (uptr->flags & UNIT_DIS) return SCPE_UDIS; /* disabled? */ | |
uptr->filename = calloc(CBUFSIZE, sizeof(char)); | |
strcpy(uptr->filename, "(stdin)"); | |
uptr->fileref = stdin; | |
SETBIT(uptr->flags, UNIT_ATT); | |
uptr->pos = 0; | |
} | |
else { | |
old_quiet = sim_quiet; /* attach the file, but set sim_quiet so we don't get the "CR is read-only" message */ | |
sim_quiet = TRUE; | |
rval = attach_unit(uptr, cptr); | |
sim_quiet = old_quiet; | |
if (rval != SCPE_OK) /* file did not exist */ | |
return rval; | |
} | |
if (use_decklist) { /* if we skipped the '@', store the actually-specified name */ | |
uptr->filename[0] = '@'; | |
strncpy(uptr->filename+1, cptr, CBUFSIZE-1); | |
deckfile = cr_unit.fileref; /* save the deck file stream in our local variable */ | |
cr_unit.fileref = NULL; | |
nextdeck(); | |
} | |
else { | |
checkdeck(); | |
cr_set_code(&cr_unit, GET_CODE(cr_unit), NULL, NULL); | |
} | |
/* there is a read pending. Pull the card in to make it go */ | |
if (CURRENT_OP == OP_READING || CURRENT_OP == OP_PUNCHING || CURRENT_OP == OP_FEEDING) | |
feedcycle(TRUE, (cp_unit.flags & UNIT_ATT) != 0); | |
return SCPE_OK; | |
} | |
t_stat cr_detach (UNIT *uptr) | |
{ | |
t_stat rval; | |
cr_count = 0; /* clear read count */ | |
if (cr_unit.flags & UNIT_PHYSICAL) | |
return pcr_detach(uptr); | |
if (cr_unit.flags & UNIT_ATT && deckfile != NULL) { | |
if (cr_unit.fileref != NULL) /* close the active card deck */ | |
fclose(cr_unit.fileref); | |
if (cr_unit.flags & UNIT_SCRATCH) { | |
remove(tempfile); | |
CLRBIT(cr_unit.flags, UNIT_SCRATCH); | |
} | |
cr_unit.fileref = deckfile; /* give scp a file to close */ | |
} | |
if (uptr->fileref == stdin) { | |
CLRBIT(uptr->flags, UNIT_ATT); | |
free(uptr->filename); | |
uptr->filename = NULL; | |
uptr->fileref = NULL; | |
rval = SCPE_OK; | |
} | |
else | |
rval = detach_unit(uptr); | |
return rval; | |
} | |
static t_stat cp_attach (UNIT *uptr, char *cptr) | |
{ | |
/* if -d is specified turn on debugging (bit is in card reader UNIT) */ | |
if (sim_switches & SWMASK('D')) SETBIT(cr_unit.flags, UNIT_DEBUG); | |
return attach_unit(uptr, quotefix(cptr)); /* fix quotes in filenames & attach */ | |
} | |
static t_stat cp_detach (UNIT *uptr) | |
{ | |
if (cp_unit.flags & UNIT_ATT) | |
if (punchstate == STATION_PUNCHED) | |
feedcycle(FALSE, FALSE); /* flush out card just punched */ | |
any_punched = 0; /* reset punch detected */ | |
cp_count = 0; /* clear punch count */ | |
return detach_unit(uptr); | |
} | |
static void op_done (UNIT *u, char *opname, t_bool issue_intr) | |
{ | |
if (u->flags & UNIT_DEBUG) | |
DEBUG_PRINT("!CR %s Op Complete, card %d%s", opname, cr_count, issue_intr ? ", interrupt" : ""); | |
SET_OP(OP_IDLE); | |
if (u->flags & UNIT_2501) /* we use u-> not cr_unit. because PUNCH is always a 1442 */ | |
CLRBIT(cr_dsw, CR_DSW_2501_BUSY); | |
else | |
CLRBIT(cr_dsw, CR_DSW_1442_BUSY); /* this is trickier. 1442 cr and cp share a dsw */ | |
if (issue_intr) { /* issue op-complete interrupt for read and punch ops but not feed */ | |
if (u->flags & UNIT_2501) { | |
SETBIT(cr_dsw, CR_DSW_2501_OP_COMPLETE); | |
SETBIT(ILSW[4], ILSW_4_2501_CARD); | |
} | |
else { | |
SETBIT(cr_dsw, CR_DSW_1442_OP_COMPLETE); | |
SETBIT(ILSW[4], ILSW_4_1442_CARD); | |
} | |
calc_ints(); | |
} | |
} | |
static t_stat cr_svc (UNIT *uptr) | |
{ | |
int i; | |
if (uptr->flags & UNIT_PHYSICAL) | |
return pcr_svc(uptr); | |
switch (CURRENT_OP) { | |
case OP_IDLE: | |
break; | |
case OP_FEEDING: | |
op_done(&cr_unit, "feed", FALSE); | |
break; | |
case OP_READING: | |
if (readstate == STATION_EMPTY) { /* read active but no cards? hang */ | |
sim_activate(&cr_unit, cf_wait); | |
break; | |
} | |
if (cr_unit.flags & UNIT_2501) { /* 2501 transfers entire card then interrupts */ | |
for (i = 0; i < cr_cols; i++) /* (we wait until end of delay time before transferring data) */ | |
M[(cr_addr + i) & mem_mask] = readstation[i]; | |
readstate = STATION_READ; | |
op_done(&cr_unit, "read", TRUE); | |
} | |
else if (++cr_unit.COLUMN < 80) { /* 1442 interrupts on each column... */ | |
SETBIT(cr_dsw, CR_DSW_1442_READ_RESPONSE); | |
SETBIT(ILSW[0], ILSW_0_1442_CARD); | |
calc_ints(); | |
sim_activate(&cr_unit, cr_wait); | |
if (cr_unit.flags & UNIT_DEBUG) | |
DEBUG_PRINT("!CR Read Response %d : %d", cr_count, cr_unit.COLUMN+1); | |
} | |
else { /* ... then issues op-complete */ | |
readstate = STATION_READ; | |
op_done(&cr_unit, "read", TRUE); | |
} | |
break; | |
case OP_PUNCHING: | |
if (punchstate == STATION_EMPTY) { /* punch active but no cards? hang */ | |
sim_activate(&cr_unit, cf_wait); | |
break; | |
} | |
if (cp_unit.flags & UNIT_LASTPUNCH) { | |
punchstate = STATION_PUNCHED; | |
op_done(&cp_unit, "punch", TRUE); | |
} | |
else if (++cp_unit.COLUMN < 80) { | |
SETBIT(cr_dsw, CR_DSW_1442_PUNCH_RESPONSE); | |
SETBIT(ILSW[0], ILSW_0_1442_CARD); | |
calc_ints(); | |
sim_activate(&cr_unit, cp_wait); | |
if (cr_unit.flags & UNIT_DEBUG) | |
DEBUG_PRINT("!CR Punch Response"); | |
} | |
else { | |
punchstate = STATION_PUNCHED; | |
op_done(&cp_unit, "punch", TRUE); | |
} | |
break; | |
} | |
return SCPE_OK; | |
} | |
void xio_2501_card (int32 addr, int32 func, int32 modify) | |
{ | |
char msg[80]; | |
int ch; | |
t_bool lastcard; | |
/* it would be nice for simulated reader to be able to use 2501 mode -- much more | |
* efficient. Using the 1403 printer and 2501 reader speeds things up quite considerably. */ | |
switch (func) { | |
case XIO_SENSE_DEV: | |
if (cr_unit.flags & UNIT_PHYSICAL) { | |
pcr_xio_sense(modify); | |
break; | |
} | |
// the following part is questionable -- the 2501 might need to be more picky about setting | |
// the LAST_CARD bit... | |
if ((cr_unit.flags & UNIT_ATT) == 0) | |
lastcard = TRUE; /* if nothing to read, hopper's empty */ | |
else if (readstate == STATION_LOADED) | |
lastcard = FALSE; | |
else if (cr_unit.fileref == NULL) | |
lastcard = TRUE; | |
else if ((ch = getc(cr_unit.fileref)) != EOF) { | |
ungetc(ch, cr_unit.fileref); /* put character back; hopper's not empty */ | |
lastcard = FALSE; | |
} | |
else if (deckfile != NULL && nextdeck()) | |
lastcard = FALSE; | |
else | |
lastcard = TRUE; /* there is nothing left to read for a next card */ | |
CLRBIT(cr_dsw, CR_DSW_2501_LAST_CARD|CR_DSW_2501_BUSY|CR_DSW_2501_NOT_READY); | |
if (lastcard) | |
SETBIT(cr_dsw, CR_DSW_2501_LAST_CARD|CR_DSW_2501_NOT_READY); | |
// don't clear it here -- modify bit must be set before last card can be cleared | |
if (CURRENT_OP != OP_IDLE) | |
SETBIT(cr_dsw, CR_DSW_2501_BUSY|CR_DSW_2501_NOT_READY); | |
ACC = cr_dsw; /* return the DSW */ | |
if (cr_unit.flags & UNIT_DEBUG) | |
DEBUG_PRINT("#CR Sense %04x%s", cr_dsw & 0xFFFF, (modify & 1) ? " RESET" : ""); | |
if (modify & 0x01) { /* reset interrupts */ | |
// if (! lastcard) /* (lastcard is reset only when modify bit is set) */ | |
CLRBIT(cr_dsw, CR_DSW_2501_LAST_CARD); | |
CLRBIT(cr_dsw, CR_DSW_2501_OP_COMPLETE); | |
CLRBIT(ILSW[4], ILSW_4_2501_CARD); | |
} | |
break; | |
case XIO_INITR: | |
if (cr_unit.flags & UNIT_DEBUG) | |
DEBUG_PRINT("#CR Start read"); | |
cr_unit.COLUMN = -1; | |
cr_cols = M[addr & mem_mask]; /* save column count and transfer address */ | |
cr_addr = addr+1; | |
if ((cr_cols < 0) || (cr_cols > 80)) /* this is questionable -- what would hardware do? */ | |
cr_cols = 80; | |
if (cr_unit.flags & UNIT_PHYSICAL) { | |
pcr_xio_startread(); | |
break; | |
} | |
if (readstate != STATION_LOADED) | |
feedcycle(TRUE, (cp_unit.flags & UNIT_ATT) != 0); | |
SET_OP(OP_READING); | |
sim_cancel(&cr_unit); | |
sim_activate(&cr_unit, cr_wait2501); | |
break; | |
default: | |
sprintf(msg, "Invalid 2501 XIO function %x", func); | |
xio_error(msg); | |
break; | |
} | |
} | |
void xio_1442_card (int32 addr, int32 func, int32 modify) | |
{ | |
char msg[80]; | |
int ch; | |
uint16 wd; | |
t_bool lastcard; | |
switch (func) { | |
case XIO_SENSE_DEV: | |
if (cr_unit.flags & UNIT_PHYSICAL) { | |
pcr_xio_sense(modify); | |
break; | |
} | |
/* glunk | |
* have to separate out what status is 1442 is punch only and 2501 is the reader */ | |
if (cp_unit.flags & UNIT_ATT) | |
lastcard = FALSE; /* if punch file is open, assume infinite blank cards in reader */ | |
else if ((cr_unit.flags & UNIT_ATT) == 0) | |
lastcard = TRUE; /* if nothing to read, hopper's empty */ | |
else if (readstate == STATION_LOADED) | |
lastcard = FALSE; | |
else if (cr_unit.fileref == NULL) | |
lastcard = TRUE; | |
else if ((ch = getc(cr_unit.fileref)) != EOF) { | |
ungetc(ch, cr_unit.fileref); /* put character back; hopper's not empty */ | |
lastcard = FALSE; | |
} | |
else if (deckfile != NULL && nextdeck()) | |
lastcard = FALSE; | |
else | |
lastcard = TRUE; /* there is nothing left to read for a next card */ | |
CLRBIT(cr_dsw, CR_DSW_1442_LAST_CARD | CR_DSW_1442_BUSY | CR_DSW_1442_NOT_READY); | |
if (lastcard) | |
SETBIT(cr_dsw, CR_DSW_1442_LAST_CARD); | |
if (CURRENT_OP != OP_IDLE) | |
SETBIT(cr_dsw, CR_DSW_1442_BUSY | CR_DSW_1442_NOT_READY); | |
else if (readstate == STATION_EMPTY && punchstate == STATION_EMPTY && lastcard) | |
SETBIT(cr_dsw, CR_DSW_1442_NOT_READY); | |
ACC = cr_dsw; /* return the DSW */ | |
if (cr_unit.flags & UNIT_DEBUG) | |
DEBUG_PRINT("#CR Sense %04x%s%s", cr_dsw & 0xFFFF, (modify & 1) ? " RESET0" : "", (modify & 2) ? " RESET4" : ""); | |
if (modify & 0x01) { /* reset interrupts */ | |
CLRBIT(cr_dsw, CR_DSW_1442_READ_RESPONSE | CR_DSW_1442_PUNCH_RESPONSE); | |
CLRBIT(ILSW[0], ILSW_0_1442_CARD); | |
} | |
if (modify & 0x02) { | |
CLRBIT(cr_dsw, CR_DSW_1442_OP_COMPLETE); | |
CLRBIT(ILSW[4], ILSW_4_1442_CARD); | |
} | |
break; | |
case XIO_READ: /* get card data into word pointed to in IOCC packet */ | |
if (cr_unit.flags & OP_READING) { | |
if (cr_unit.COLUMN < 0) { | |
xio_error("1442: Premature read!"); | |
} | |
else if (cr_unit.COLUMN < 80) { | |
WriteW(addr, readstation[cr_unit.COLUMN]); | |
if (cr_unit.flags & UNIT_DEBUG) | |
DEBUG_PRINT("#CR Read %03x", (readstation[cr_unit.COLUMN] >> 4)); | |
} | |
else if (cr_unit.COLUMN == 80) { | |
xio_error("1442: Read past column 80!"); | |
cr_unit.COLUMN++; /* don't report it again */ | |
} | |
} | |
else { | |
/* don't complain: APL\1130 issues both reads and writes on every interrupt | |
* (probably to keep the code small). Apparently it's just ignored if corresponding | |
* control didn't initiate a read cycle. | |
* xio_error("1442: Read when not in a read cycle!"); */ | |
} | |
break; | |
case XIO_WRITE: | |
if (cr_unit.flags & OP_PUNCHING) { | |
if (cp_unit.COLUMN < 0) { | |
xio_error("1442: Premature write!"); | |
} | |
else if (cp_unit.flags & UNIT_LASTPUNCH) { | |
xio_error("1442: Punch past last-punch column!"); | |
cp_unit.COLUMN = 81; | |
} | |
else if (cp_unit.COLUMN < 80) { | |
wd = (uint16) ReadW(addr); /* store one word to punch buffer */ | |
punchstation[cp_unit.COLUMN] = wd & 0xFFF0; | |
if (wd & 0x0008) /* mark this as last column to be punched */ | |
SETBIT(cp_unit.flags, UNIT_LASTPUNCH); | |
if (cr_unit.flags & UNIT_DEBUG) | |
DEBUG_PRINT("#CR Punch %03x%s", (wd >> 4) & 0xFFF, (wd & 8) ? " LAST" : ""); | |
} | |
else if (cp_unit.COLUMN == 80) { | |
xio_error("1442: Punch past column 80!"); | |
cp_unit.COLUMN++; /* don't report it again */ | |
} | |
} | |
else { | |
/* don't complain: APL\1130 issues both reads and writes on every interrupt | |
* (probably to keep the code small). Apparently it's just ignored if corresponding | |
* control didn't initiate a punch cycle. | |
* xio_error("1442: Write when not in a punch cycle!"); */ | |
} | |
break; | |
case XIO_CONTROL: | |
switch (modify & 7) { | |
case 1: /* start punch */ | |
if (cr_unit.flags & UNIT_DEBUG) | |
DEBUG_PRINT("#CR Start Punch"); | |
if (punchstate != STATION_LOADED) | |
feedcycle(TRUE, TRUE); | |
SET_OP(OP_PUNCHING); | |
cp_unit.COLUMN = -1; | |
CLRBIT(cp_unit.flags, UNIT_LASTPUNCH); | |
any_punched = 1; /* we've started punching, so enable writing to output deck file */ | |
sim_cancel(&cr_unit); | |
sim_activate(&cr_unit, cp_wait); | |
break; | |
case 2: /* feed cycle */ | |
if (cr_unit.flags & UNIT_DEBUG) | |
DEBUG_PRINT("#CR Feed"); | |
if (cr_unit.flags & UNIT_PHYSICAL) { | |
pcr_xio_feedcycle(); | |
break; | |
} | |
feedcycle(TRUE, (cp_unit.flags & UNIT_ATT) != 0); | |
SET_OP(OP_FEEDING); | |
sim_cancel(&cr_unit); | |
sim_activate(&cr_unit, cf_wait); | |
break; | |
case 4: /* start read */ | |
if (cr_unit.flags & UNIT_DEBUG) | |
DEBUG_PRINT("#CR Start read"); | |
cr_unit.COLUMN = -1; | |
if (cr_unit.flags & UNIT_PHYSICAL) { | |
pcr_xio_startread(); | |
break; | |
} | |
if (readstate != STATION_LOADED) | |
feedcycle(TRUE, (cp_unit.flags & UNIT_ATT) != 0); | |
SET_OP(OP_READING); | |
sim_cancel(&cr_unit); | |
sim_activate(&cr_unit, cr_wait); | |
break; | |
case 0: | |
if (cr_unit.flags & UNIT_DEBUG) | |
DEBUG_PRINT("#CR NOP"); | |
break; | |
default: | |
sprintf(msg, "1442: Multiple operations in XIO_CONTROL: %x", modify); | |
xio_error(msg); | |
return; | |
} | |
break; | |
default: | |
sprintf(msg, "Invalid 1442 XIO function %x", func); | |
xio_error(msg); | |
break; | |
} | |
} | |
#if ! (defined(ENABLE_PHYSICAL_CARD_READER_SUPPORT) && defined(WIN32)) | |
/* stub out the physical card reader routines */ | |
static t_stat pcr_attach (UNIT *uptr, char *devname) {return SCPE_ARG;} | |
static t_stat pcr_detach (UNIT *uptr) {return detach_unit(uptr);} | |
static t_stat pcr_svc (UNIT *uptr) {return SCPE_OK;} | |
static void pcr_xio_sense (int modify) {} | |
static void pcr_xio_feedcycle (void) {} | |
static void pcr_xio_startread (void) {} | |
static void pcr_reset (void) {} | |
#else | |
/* | |
* This code supports a physical card reader interface I built. Interface schematic | |
* and documentation can be downloaded from http://ibm1130.org/sim/downloads/cardread.zip | |
*/ | |
#include <windows.h> | |
#define PCR_STATUS_READY 1 /* bits in interface reply byte */ | |
#define PCR_STATUS_ERROR 2 | |
#define PCR_STATUS_HEMPTY 4 | |
#define PCR_STATUS_EOF 8 | |
#define PCR_STATUS_PICKING 16 | |
#define PCR_STATUS_MSEC 150 /* when idle, get status every 150 msec */ | |
typedef enum { | |
PCR_STATE_IDLE, /* nothing expected from the interface */ | |
PCR_STATE_WAIT_CMD_RESPONSE, /* waiting for response from any command other than P */ | |
PCR_STATE_WAIT_PICK_CMD_RESPONSE, /* waiting for response from P command */ | |
PCR_STATE_WAIT_DATA_START, /* waiting for introduction to data from P command */ | |
PCR_STATE_WAIT_DATA, /* waiting for data from P command */ | |
PCR_STATE_WAIT_PICK_FINAL_RESPONSE, /* waiting for status byte after last of the card data */ | |
PCR_STATE_CLOSED | |
} PCR_STATE; | |
static void pcr_cmd (char cmd); | |
static DWORD CALLBACK pcr_thread (LPVOID arg); | |
static BOOL pcr_handle_status_byte (int nrcvd); | |
static void pcr_trigger_interrupt_0(void); | |
static void begin_pcr_critical_section (void); | |
static void end_pcr_critical_section (void); | |
static void pcr_set_dsw_from_status (BOOL post_pick); | |
static t_stat pcr_open_controller (char *devname); | |
static PCR_STATE pcr_state = PCR_STATE_CLOSED; /* current state of connection to physical card reader interface */ | |
static char pcr_status = 0; /* last status byte received from the interface */ | |
static int pcr_nleft; /* number of bytes still expected from pick command */ | |
static int pcr_nready; /* number of bytes waiting in the input buffer for simulator to read */ | |
static BOOL pcr_done; | |
static HANDLE hpcr = INVALID_HANDLE_VALUE; | |
static HANDLE hPickEvent = INVALID_HANDLE_VALUE; | |
static HANDLE hResetEvent = INVALID_HANDLE_VALUE; | |
static OVERLAPPED ovRd, ovWr; /* overlapped IO structures for reading from, writing to device */ | |
static int nwaits; /* number of timeouts waiting for response from interface */ | |
static char response_byte; /* buffer to receive command/status response byte from overlapped read */ | |
static char lastcmd = '?'; | |
/* pcr_attach - perform attach function to physical card reader */ | |
static t_stat pcr_attach (UNIT *uptr, char *devname) | |
{ | |
DWORD thread_id; | |
t_stat rval; | |
pcr_state = PCR_STATE_CLOSED; | |
sim_cancel(uptr); | |
cr_unit.COLUMN = -1; /* device is not currently cycling */ | |
if ((rval = pcr_open_controller(devname)) != SCPE_OK) | |
return rval; | |
if (hPickEvent == INVALID_HANDLE_VALUE) | |
hPickEvent = CreateEvent(NULL, FALSE, FALSE, NULL); | |
if (hResetEvent == INVALID_HANDLE_VALUE) | |
hResetEvent = CreateEvent(NULL, FALSE, FALSE, NULL); | |
pcr_status = PCR_STATUS_HEMPTY; /* set default status: offline, no cards */ | |
pcr_state = PCR_STATE_IDLE; | |
pcr_done = FALSE; | |
cr_dsw = CR_DSW_1442_LAST_CARD | CR_DSW_1442_NOT_READY; | |
set_active_cr_code(CODE_BINARY); /* force binary mode */ | |
if (CreateThread(NULL, 0, pcr_thread, NULL, 0, &thread_id) == NULL) { | |
pcr_state = PCR_STATE_CLOSED; | |
CloseHandle(hpcr); | |
hpcr = INVALID_HANDLE_VALUE; | |
printf("Error creating card reader thread\n"); | |
return SCPE_IERR; | |
} | |
SETBIT(uptr->flags, UNIT_PHYSICAL|UNIT_ATT); /* mark device as attached */ | |
uptr->filename = malloc(strlen(devname)+1); | |
strcpy(uptr->filename, devname); | |
return SCPE_OK; | |
} | |
/* pcr_open_controller - open the USB device's virtual COM port and configure the interface */ | |
static t_stat pcr_open_controller (char *devname) | |
{ | |
DCB dcb; | |
COMMTIMEOUTS cto; | |
DWORD nerr; | |
if (hpcr != INVALID_HANDLE_VALUE) | |
return SCPE_OK; | |
/* open the COM port */ | |
hpcr = CreateFile(devname, GENERIC_READ|GENERIC_WRITE, 0, NULL, OPEN_EXISTING, FILE_FLAG_OVERLAPPED, NULL); | |
if (hpcr == INVALID_HANDLE_VALUE) | |
return SCPE_OPENERR; | |
memset(&dcb, 0, sizeof(dcb)); /* set communications parameters */ | |
dcb.DCBlength = sizeof(DCB); | |
dcb.BaudRate = CBR_115200; /* for the USB virtual com port, baud rate is irrelevant */ | |
dcb.fBinary = 1; | |
dcb.fParity = 0; | |
dcb.fOutxCtsFlow = 0; | |
dcb.fOutxDsrFlow = 0; | |
dcb.fDtrControl = DTR_CONTROL_ENABLE; | |
dcb.fDsrSensitivity = FALSE; | |
dcb.fTXContinueOnXoff = 0; | |
dcb.fOutX = 0; | |
dcb.fInX = 0; | |
dcb.fErrorChar = 0; | |
dcb.fNull = 0; | |
dcb.fRtsControl = RTS_CONTROL_ENABLE; | |
dcb.fAbortOnError = 0; | |
dcb.XonLim = 0; | |
dcb.XoffLim = 0; | |
dcb.ByteSize = 8; | |
dcb.Parity = NOPARITY; | |
dcb.StopBits = ONESTOPBIT; | |
dcb.XonChar = 0; | |
dcb.XoffChar = 0; | |
dcb.ErrorChar = 0; | |
dcb.EofChar = 0; | |
dcb.EvtChar = 0; | |
if (! SetCommState(hpcr, &dcb)) { | |
CloseHandle(hpcr); | |
hpcr = INVALID_HANDLE_VALUE; | |
printf("Call to SetCommState failed\n"); | |
return SCPE_OPENERR; | |
} | |
cto.ReadIntervalTimeout = 100; /* stop if 100 msec elapses between two received bytes */ | |
cto.ReadTotalTimeoutMultiplier = 0; /* no length sensitivity */ | |
cto.ReadTotalTimeoutConstant = 400; /* allow 400 msec for a read (reset command can take a while) */ | |
cto.WriteTotalTimeoutMultiplier = 0; | |
cto.WriteTotalTimeoutConstant = 200; /* allow 200 msec for a write */ | |
if (! SetCommTimeouts(hpcr, &cto)) { | |
CloseHandle(hpcr); | |
hpcr = INVALID_HANDLE_VALUE; | |
printf("Call to SetCommTimeouts failed\n"); | |
return SCPE_OPENERR; | |
} | |
PurgeComm(hpcr, PURGE_TXABORT|PURGE_RXABORT|PURGE_TXCLEAR|PURGE_RXCLEAR); | |
ClearCommError(hpcr, &nerr, NULL); | |
return SCPE_OK; | |
} | |
/* pcr_detach - detach physical reader from CR device */ | |
static t_stat pcr_detach (UNIT *uptr) | |
{ | |
if (cr_unit.flags & UNIT_ATT) { | |
CloseHandle(hpcr); /* close the COM port (this will lead to the thread closing) */ | |
hpcr = INVALID_HANDLE_VALUE; | |
pcr_state = PCR_STATE_CLOSED; | |
free(uptr->filename); /* release the name copy */ | |
uptr->filename = NULL; | |
} | |
CLRBIT(cr_unit.flags, UNIT_PHYSICAL|UNIT_ATT); /* drop the attach and physical bits */ | |
return SCPE_OK; | |
} | |
/* pcr_xio_sense - perform XIO sense function on physical card reader */ | |
static void pcr_xio_sense (int modify) | |
{ | |
if (modify & 0x01) { /* reset simulated interrupts */ | |
CLRBIT(cr_dsw, CR_DSW_1442_READ_RESPONSE | CR_DSW_1442_PUNCH_RESPONSE); | |
CLRBIT(ILSW[0], ILSW_0_1442_CARD); | |
} | |
if (modify & 0x02) { | |
CLRBIT(cr_dsw, CR_DSW_1442_OP_COMPLETE); | |
CLRBIT(ILSW[4], ILSW_4_1442_CARD); | |
} | |
ACC = cr_dsw; /* DSW was set in real-time, just return the DSW */ | |
if (cr_unit.flags & UNIT_DEBUG) | |
DEBUG_PRINT("#CR Sense %04x%s%s", cr_dsw, (modify & 1) ? " RESET0" : "", (modify & 2) ? " RESET4" : ""); | |
} | |
/* report_error - issue detailed report of Windows IO error */ | |
static void report_error (char *msg, DWORD err) | |
{ | |
char *lpMessageBuffer = NULL; | |
FormatMessage( | |
FORMAT_MESSAGE_ALLOCATE_BUFFER | | |
FORMAT_MESSAGE_FROM_SYSTEM, | |
NULL, | |
GetLastError(), | |
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), /* The user default language */ | |
(LPTSTR) &lpMessageBuffer, | |
0, | |
NULL ); | |
printf("GetOverlappedResult failed, %s, %s\n", | |
msg, lpMessageBuffer); | |
LocalFree(lpMessageBuffer); | |
} | |
/* pcr_thread - thread to handle card reader interface communications */ | |
static DWORD CALLBACK pcr_thread (LPVOID arg) | |
{ | |
DWORD event; | |
long nrcvd, nread, nwritten; | |
HANDLE objs[4]; | |
BOOL pick_queued = FALSE, reset_queued = FALSE; | |
nwaits = 0; | |
ZeroMemory(&ovRd, sizeof(ovRd)); | |
ZeroMemory(&ovWr, sizeof(ovWr)); | |
ovRd.hEvent = CreateEvent(NULL, TRUE, FALSE, NULL); /* create an event for async IO reads */ | |
ovWr.hEvent = CreateEvent(NULL, TRUE, FALSE, NULL); /* create an event for async IO writes */ | |
objs[0] = ovRd.hEvent; | |
objs[1] = ovWr.hEvent; | |
objs[2] = hResetEvent; | |
objs[3] = hPickEvent; | |
while (hpcr != INVALID_HANDLE_VALUE) { | |
if (pcr_state == PCR_STATE_IDLE) { | |
if (pick_queued) { | |
pcr_cmd('P'); | |
pick_queued = FALSE; | |
pcr_done = FALSE; | |
pcr_state = PCR_STATE_WAIT_PICK_CMD_RESPONSE; | |
} | |
else if (reset_queued) { | |
pcr_cmd('X'); | |
reset_queued = FALSE; | |
pcr_state = PCR_STATE_WAIT_CMD_RESPONSE; | |
} | |
} | |
event = WaitForMultipleObjects(4, objs, FALSE, PCR_STATUS_MSEC); | |
switch (event) { | |
case WAIT_OBJECT_0+0: /* read complete */ | |
ResetEvent(ovRd.hEvent); | |
if (! GetOverlappedResult(hpcr, &ovRd, &nrcvd, TRUE)) | |
report_error("PCR_Read", GetLastError()); | |
else if (cr_unit.flags & UNIT_DEBUG) | |
printf("PCR_Read: event, %d rcvd\n", nrcvd); | |
break; | |
case WAIT_OBJECT_0+1: /* write complete */ | |
nwritten = 0; | |
ResetEvent(ovWr.hEvent); | |
if (! GetOverlappedResult(hpcr, &ovWr, &nwritten, TRUE)) | |
report_error("PCR_Write", GetLastError()); | |
else if (cr_unit.flags & UNIT_DEBUG) | |
printf("PCR_Write: event, %d sent\n", nwritten); | |
continue; | |
case WAIT_OBJECT_0+2: /* reset request from simulator */ | |
reset_queued = TRUE; | |
pick_queued = FALSE; | |
continue; | |
case WAIT_OBJECT_0+3: /* pick request from simulator */ | |
pick_queued = TRUE; | |
continue; | |
case WAIT_TIMEOUT: | |
if (pcr_state == PCR_STATE_IDLE) { | |
pcr_state = PCR_STATE_WAIT_CMD_RESPONSE; | |
ovRd.Offset = ovRd.OffsetHigh = 0; | |
pcr_cmd('S'); | |
} | |
else if (pcr_state == PCR_STATE_WAIT_CMD_RESPONSE && ++nwaits >= 6) { | |
printf("Requesting status again!\n"); | |
ovRd.Offset = ovRd.OffsetHigh = 0; | |
pcr_cmd('S'); | |
} | |
continue; | |
default: | |
printf("Unexpected pcr_wait result %08lx", event); | |
continue; | |
} | |
/* We only get here if read event occurred */ | |
switch (pcr_state) { | |
case PCR_STATE_IDLE: /* nothing expected from the interface */ | |
PurgeComm(hpcr, PURGE_RXCLEAR|PURGE_RXABORT); | |
break; | |
case PCR_STATE_WAIT_CMD_RESPONSE: /* waiting for response from any command other than P */ | |
if (pcr_handle_status_byte(nrcvd)) | |
pcr_state = PCR_STATE_IDLE; | |
break; | |
case PCR_STATE_WAIT_PICK_CMD_RESPONSE: /* waiting for response from P command */ | |
if (pcr_handle_status_byte(nrcvd)) { | |
pcr_cmd('\0'); /* queue a response read */ | |
pcr_state = PCR_STATE_WAIT_DATA_START; | |
} | |
break; | |
case PCR_STATE_WAIT_DATA_START: /* waiting for leadin character from P command (= or !) */ | |
if (nrcvd <= 0) { /* (this could take an indefinite amount of time) */ | |
if (cr_unit.flags & UNIT_DEBUG) | |
printf("PCR: NO RESP YET\n"); | |
continue; /* reader is not ready */ | |
} | |
if (cr_unit.flags & UNIT_DEBUG) /* (this could take an indefinite amount of time) */ | |
printf("PCR: GOT %c\n", response_byte); | |
switch (response_byte) { | |
case '=': /* = means pick in progress, 160 bytes of data will be coming */ | |
pcr_state = PCR_STATE_WAIT_DATA; | |
ovRd.Offset = ovRd.OffsetHigh = 0; | |
nread = 20; /* initiate a read */ | |
ReadFile(hpcr, ((char *) readstation), nread, &nrcvd, &ovRd); | |
break; | |
case '!': /* ! means pick has been canceled, status will be coming next */ | |
pcr_state = PCR_STATE_WAIT_CMD_RESPONSE; | |
pcr_cmd('\0'); /* initiate read */ | |
break; | |
default: /* anything else is a datacomm error, or something */ | |
/* indicate read check or something */ | |
/* pcr_state = PCR_STATE_IDLE; */ | |
break; | |
} | |
break; | |
case PCR_STATE_WAIT_DATA: /* waiting for data from P command */ | |
if (cr_unit.flags & UNIT_DEBUG) | |
printf((nrcvd <= 0) ? "PCR: NO RESP!\n" : "PCR: GOT %d BYTES\n", nrcvd); | |
if (nrcvd > 0) { | |
pcr_nleft -= nrcvd; | |
begin_pcr_critical_section(); | |
pcr_nready += nrcvd; | |
end_pcr_critical_section(); | |
} | |
if (pcr_nleft > 0) { | |
ovRd.Offset = ovRd.OffsetHigh = 0; | |
nread = min(pcr_nleft, 20); | |
ReadFile(hpcr, ((char *) readstation)+160-pcr_nleft, nread, &nrcvd, &ovRd); | |
} | |
else { | |
pcr_state = PCR_STATE_WAIT_PICK_FINAL_RESPONSE; | |
pcr_cmd('\0'); /* queue read */ | |
} | |
break; | |
case PCR_STATE_WAIT_PICK_FINAL_RESPONSE: /* waiting for status byte after last of the card data */ | |
if (pcr_handle_status_byte(nrcvd)) { | |
readstate = STATION_READ; | |
pcr_state = PCR_STATE_IDLE; | |
pcr_done = TRUE; | |
} | |
break; | |
} | |
} | |
CloseHandle(ovRd.hEvent); | |
CloseHandle(ovWr.hEvent); | |
return 0; | |
} | |
/* pcr_cmd - issue command byte to interface. Read of response byte is queued */ | |
static void pcr_cmd (char cmd) | |
{ | |
long nwritten, nrcvd; | |
int status; | |
if (cmd != '\0') { | |
if (cr_unit.flags & UNIT_DEBUG /* && (cmd != 'S' || cmd != lastcmd) */) | |
printf("PCR: SENT %c\n", cmd); | |
lastcmd = cmd; | |
ResetEvent(ovWr.hEvent); | |
ovWr.Offset = ovWr.OffsetHigh = 0; | |
status = WriteFile(hpcr, &cmd, 1, &nwritten, &ovWr); | |
if (status == 0 && GetLastError() != ERROR_IO_PENDING) | |
printf("Error initiating write in pcr_cmd\n"); | |
} | |
ovRd.Offset = ovRd.OffsetHigh = 0; | |
status = ReadFile(hpcr, &response_byte, 1, &nrcvd, &ovRd); /* if no bytes ready, just return -- a later wait-event will catch it */ | |
if (status == 0 && GetLastError() != ERROR_IO_PENDING) | |
printf("Error initiating read in pcr_cmd\n"); | |
/* if (cr_unit.flags & UNIT_DEBUG) | |
* if (nrcvd == 0) | |
* printf("PCR: NO RESPONSE\n"); | |
* else | |
* printf("PCR: RESPONSE %c\n", response_byte); */ | |
nwaits = 0; | |
} | |
/* pcr_handle_status_byte - handle completion of read of response byte */ | |
static BOOL pcr_handle_status_byte (int nrcvd) | |
{ | |
static char prev_status = '?'; | |
BOOL show; | |
if (nrcvd <= 0) | |
return FALSE; | |
pcr_status = response_byte; /* save new status */ | |
show = lastcmd != 'S' || pcr_status != prev_status; | |
if ((cr_unit.flags & UNIT_DEBUG) && show) { | |
printf("PCR: status %c\n", pcr_status); | |
prev_status = pcr_status; | |
} | |
pcr_set_dsw_from_status(FALSE); | |
return TRUE; | |
} | |
/* pcr_set_dsw_from_status - construct device status word from current physical reader status */ | |
static void pcr_set_dsw_from_status (BOOL post_pick) | |
{ | |
/* set 1130 status word bits */ | |
CLRBIT(cr_dsw, CR_DSW_1442_LAST_CARD | CR_DSW_1442_BUSY | CR_DSW_1442_NOT_READY | CR_DSW_1442_ERROR_CHECK); | |
if (pcr_status & PCR_STATUS_HEMPTY) | |
SETBIT(cr_dsw, CR_DSW_1442_LAST_CARD | CR_DSW_1442_NOT_READY); | |
if (pcr_status & PCR_STATUS_ERROR) | |
SETBIT(cr_dsw, CR_DSW_1442_ERROR_CHECK); | |
/* we have a problem -- ready doesn't come back up right away after a pick. */ | |
/* I think I'll fudge this and not set NOT_READY immediately after a pick */ | |
if ((! post_pick) && ! (pcr_status & PCR_STATUS_READY)) | |
SETBIT(cr_dsw, CR_DSW_1442_NOT_READY); | |
if (CURRENT_OP != OP_IDLE) | |
SETBIT(cr_dsw, CR_DSW_1442_BUSY | CR_DSW_1442_NOT_READY); | |
} | |
static void pcr_xio_feedcycle (void) | |
{ | |
SET_OP(OP_FEEDING); | |
cr_unit.COLUMN = -1; | |
SetEvent(hPickEvent); | |
sim_activate(&cr_unit, cr_wait); /* keep checking frequently */ | |
} | |
static void pcr_xio_startread (void) | |
{ | |
SET_OP(OP_READING); | |
cr_unit.COLUMN = -1; | |
pcr_nleft = 160; | |
pcr_nready = 0; | |
SetEvent(hPickEvent); | |
sim_activate(&cr_unit, cr_wait); /* keep checking frequently */ | |
} | |
static void pcr_reset (void) | |
{ | |
pcr_status = PCR_STATUS_HEMPTY; /* set default status: offline, no cards */ | |
pcr_state = PCR_STATE_IDLE; | |
cr_dsw = CR_DSW_1442_LAST_CARD | CR_DSW_1442_NOT_READY; | |
sim_cancel(&cr_unit); | |
SetEvent(hResetEvent); | |
} | |
/* pcr_trigger_interrupt_0 - simulate a read response interrupt so OS will read queued column data */ | |
static void pcr_trigger_interrupt_0 (void) | |
{ | |
if (++cr_unit.COLUMN < 80) { | |
SETBIT(cr_dsw, CR_DSW_1442_READ_RESPONSE); | |
SETBIT(ILSW[0], ILSW_0_1442_CARD); | |
calc_ints(); | |
begin_pcr_critical_section(); | |
pcr_nready -= 2; | |
end_pcr_critical_section(); | |
if (cr_unit.flags & UNIT_DEBUG) | |
printf("SET IRQ0 col %d\n", cr_unit.COLUMN+1); | |
} | |
} | |
static t_stat pcr_svc (UNIT *uptr) | |
{ | |
switch (CURRENT_OP) { | |
case OP_IDLE: | |
break; | |
case OP_READING: | |
if (pcr_nready >= 2) { /* if there is a whole column buffered, simulate column interrupt*/ | |
/* pcr_trigger_interrupt_0 - simulate a read response interrupt so OS will read queued column data */ | |
pcr_trigger_interrupt_0(); | |
sim_activate(&cr_unit, cr_wait); /* keep checking frequently */ | |
} | |
else if (pcr_done) { | |
pcr_done = FALSE; | |
cr_count++; | |
op_done(&cr_unit, "pcr read", TRUE); | |
pcr_set_dsw_from_status(TRUE); | |
} | |
else | |
sim_activate(&cr_unit, cr_wait); /* keep checking frequently */ | |
break; | |
case OP_FEEDING: | |
if (pcr_done) { | |
cr_count++; | |
op_done(&cr_unit, "pcr feed", FALSE); | |
pcr_set_dsw_from_status(TRUE); | |
} | |
else | |
sim_activate(&cr_unit, cr_wait); /* keep checking frequently */ | |
break; | |
case OP_PUNCHING: | |
return cr_svc(uptr); | |
} | |
return SCPE_OK; | |
} | |
static CRITICAL_SECTION pcr_critsect; | |
static void begin_pcr_critical_section (void) | |
{ | |
static BOOL mustinit = TRUE; | |
if (mustinit) { | |
InitializeCriticalSection(&pcr_critsect); | |
mustinit = FALSE; | |
} | |
EnterCriticalSection(&pcr_critsect); | |
} | |
static void end_pcr_critical_section (void) | |
{ | |
LeaveCriticalSection(&pcr_critsect); | |
} | |
#endif | |