/* | |
* DOSMID - a low-requirement MIDI and MUS player for DOS | |
* | |
* Copyright (C) 2014-2020, Mateusz Viste | |
* All rights reserved. | |
* | |
* Redistribution and use in source and binary forms, with or without | |
* modification, are permitted provided that the following conditions are met: | |
* | |
* 1. Redistributions of source code must retain the above copyright notice, | |
* this list of conditions and the following disclaimer. | |
* | |
* 2. Redistributions in binary form must reproduce the above copyright | |
* notice, this list of conditions and the following disclaimer in the | |
* documentation and/or other materials provided with the distribution. | |
* | |
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" | |
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE | |
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE | |
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE | |
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR | |
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF | |
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS | |
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN | |
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) | |
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE | |
* POSSIBILITY OF SUCH DAMAGE. | |
*/ | |
#include <dos.h> /* REGS */ | |
#include <stdio.h> /* printf() */ | |
#include <limits.h> /* ULONG_MAX */ | |
#include <stdlib.h> /* rand() */ | |
#include <string.h> /* memset(), strcpy(), strncat(), memcpy() */ | |
#include "bitfield.h" | |
#include "fio.h" | |
#include "gus.h" | |
#include "mem.h" | |
#include "midi.h" | |
#include "mus.h" | |
#include "outdev.h" | |
#include "rs232.h" | |
#include "syx.h" | |
#include "timer.h" | |
#include "ui.h" | |
#include "version.h" | |
#define MAXTRACKS 64 | |
#define EVENTSCACHESIZE 64 /* *must* be a power of 2 !!! */ | |
#define EVENTSCACHEMASK 63 /* used by the circular events buffer */ | |
#define PRESET_GM 0 /* default */ | |
#define PRESET_GS 1 | |
#define PRESET_XG 2 | |
#define PRESET_NONE 3 | |
/* define a work buffer that will be used instead of malloc() calls whenever a temporary buffer is required */ | |
unsigned char wbuff[8192]; | |
enum playactions { | |
ACTION_NONE = 0, | |
ACTION_NEXT = 1, | |
ACTION_PREV = 2, | |
ACTION_ERR_SOFT = 3, | |
ACTION_ERR_HARD = 4, | |
ACTION_EXIT = 64 | |
}; | |
struct clioptions { | |
int memmode; /* type of memory to use: MEM_XMS or MEM_MALLOC */ | |
unsigned short devport; | |
unsigned short port_mpu; | |
unsigned short port_awe; | |
unsigned short port_opl; | |
unsigned short port_sb; | |
enum outdev_types device; | |
int devicesubtype; | |
char *devname; /* the human name of the out device (MPU, AWE..) */ | |
char *midifile; /* MIDI filename to play */ | |
char *syxrst; /* syx file to use for MIDI resets */ | |
int delay; /* additional delay to apply before playing a file */ | |
char *playlist; /* the playlist to read files from */ | |
char *sbnk; /* optional sound bank to use (IBK file or so) */ | |
#ifdef DBGFILE | |
FILE *logfd; /* an open file descriptor to the debug log file */ | |
#endif | |
/* 'flags' */ | |
unsigned char xmsdelay; | |
unsigned char nopowersave; | |
unsigned char dontstop; | |
unsigned char random; /* randomize playlist order */ | |
unsigned char gmgspreset; /* PRESET_GM, PRESET_GS, PRESET_XG, PRESET_NONE */ | |
}; | |
/* fetch directory where the program resides, and return its length. result | |
* string is never longer than 128 (incl. the null terminator), and it is | |
* always terminated with a backslash separator, unless it is an empty string */ | |
static int exepath(char *result) { | |
char far *psp, far *env; | |
unsigned int envseg, pspseg, x, i; | |
int lastsep; | |
union REGS regs; | |
/* get the PSP segment */ | |
regs.h.ah = 0x62; | |
int86(0x21, ®s, ®s), | |
pspseg = regs.x.bx; | |
/* compute a far pointer that points to the top of PSP */ | |
psp = MK_FP(pspseg, 0); | |
/* fetch the segment address of the environment */ | |
envseg = psp[0x2D]; | |
envseg <<= 8; | |
envseg |= psp[0x2C]; | |
/* compute the env pointer */ | |
env = MK_FP(envseg, 0); | |
/* skip all environment variables */ | |
x = 0; | |
for (;;) { | |
x++; | |
if (env[x] == 0) { /* end of variable */ | |
x++; | |
if (env[x] == 0) break; /* end of list */ | |
} | |
} | |
x++; | |
/* read the WORD that indicates string that follow */ | |
if (env[x] < 1) { | |
result[0] = 0; | |
return(0); | |
} | |
x += 2; | |
/* else copy the EXEPATH to our return variable, and truncate after last '\' */ | |
lastsep = -1; | |
for (i = 0;; i++) { | |
result[i] = env[x++]; | |
if (result[i] == '\\') lastsep = i; | |
if (result[i] == 0) break; /* end of string */ | |
if (i >= 126) break; /* this DOS string should never go beyond 127 chars! */ | |
} | |
result[lastsep + 1] = 0; | |
return(lastsep + 1); | |
} | |
static void dos_puts(char *s) { | |
/* DOS 1+ - WRITE STRING TO STANDARD OUTPUT | |
AH = 09h | |
DS:DX -> '$'-terminated string */ | |
unsigned short segm, offs; | |
segm = FP_SEG(s); | |
offs = FP_OFF(s); | |
__asm { | |
mov ah, 9 | |
push ds | |
mov cx, segm | |
push cx | |
pop ds | |
mov dx, offs | |
int 21h | |
pop ds /* restore DS */ | |
/* print out a CR/LF using INT21h AH=2 */ | |
mov ah, 2 | |
mov dl, 0dh | |
int 21h | |
mov ah, 2 | |
mov dl, 0ah | |
int 21h | |
} | |
} | |
/* returns a pseudo-random number, based on the DOS system timer */ | |
static unsigned long rnd(void) { | |
unsigned long res; | |
union REGS regs; | |
regs.h.ah = 0; | |
int86(0x1A, ®s, ®s); | |
res = regs.x.cx; /* number of clock ticks since midnight (high word) */ | |
res <<= 16; | |
res |= regs.x.dx; /* number of clock ticks since midnight (low word) */ | |
return(res); | |
} | |
/* copies the base name of a file (ie without directory path) into a string */ | |
static void filename2basename(char *fromname, char *tobasename, char *todirname, int maxlen) { | |
int x, x2, firstchar = 0; | |
/* find the first character of the base name */ | |
for (x = 0; fromname[x] != 0; x++) { | |
switch (fromname[x]) { | |
case '/': | |
case '\\': | |
case ':': | |
firstchar = x + 1; | |
break; | |
} | |
} | |
/* copy basename to tobasename */ | |
if (tobasename != NULL) { | |
x2 = 0; | |
for (x = firstchar; fromname[x] != 0; x++) { | |
if ((fromname[x] == 0) || (x2+1 >= maxlen)) break; | |
tobasename[x2++] = fromname[x]; | |
} | |
tobasename[x2] = 0; | |
} | |
/* copy dirname to todirname */ | |
if (todirname != NULL) { | |
x2 = 0; | |
for (x = 0; x < firstchar; x++) { | |
if ((fromname[x] == 0) || (x2+1 >= maxlen)) break; | |
todirname[x2++] = fromname[x]; | |
} | |
todirname[x2] = 0; | |
} | |
} | |
/* switch a string to upper case */ | |
static void ucasestr(char *s) { | |
for (; *s != 0; s++) if ((*s >= 'a') && (*s <= 'z')) *s -= 32; | |
} | |
/* returns the lower-case version of c char, if applicable */ | |
static int lcase(char c) { | |
if ((c >= 'A') && (c <= 'Z')) return(c + 32); | |
return(c); | |
} | |
/* a case-insensitive version of strcmp() */ | |
static int strucmp(char *s1, char *s2) { | |
for (;;) { | |
if (lcase(*s1) != lcase(*s2)) return(1); | |
if (*s1 == 0) return(0); | |
s1++; | |
s2++; | |
} | |
} | |
/* checks whether str starts with start or not. returns 0 if so, non-zero | |
* otherwise - this function is case insensitive */ | |
static int stringstartswith(char *str, char *start) { | |
if ((str == NULL) || (start == NULL)) return(-1); | |
while (*start != 0) { | |
if (lcase(*start) != lcase(*str)) return(-1); | |
str++; | |
start++; | |
} | |
return(0); | |
} | |
static int hexchar2int(char c) { | |
if ((c >= '0') && (c <= '9')) return(c - '0'); | |
if ((c >= 'a') && (c <= 'f')) return(10 + c - 'a'); | |
if ((c >= 'A') && (c <= 'F')) return(10 + c - 'A'); | |
return(-1); | |
} | |
/* converts a hex string to unsigned int. stops at first null terminator or | |
* space. returns zero on error. */ | |
static unsigned int hexstr2uint(char *hexstr) { | |
unsigned int v = 0; | |
while ((*hexstr != 0) && (*hexstr != ' ')) { | |
int c; | |
c = hexchar2int(*hexstr); | |
if (c < 0) return(0); | |
v <<= 4; | |
v |= c; | |
hexstr++; | |
} | |
return(v); | |
} | |
static char *devtoname(enum outdev_types device, int devicesubtype) { | |
switch (device) { | |
case DEV_NONE: return("NONE"); | |
case DEV_MPU401: return("MPU"); | |
case DEV_AWE: return("AWE"); | |
case DEV_OPL: return("OPL"); | |
case DEV_OPL2: return("OPL2"); | |
case DEV_OPL3: return("OPL3"); | |
case DEV_RS232: | |
if (devicesubtype == 1) return("COM1"); | |
if (devicesubtype == 2) return("COM2"); | |
if (devicesubtype == 3) return("COM3"); | |
if (devicesubtype == 4) return("COM4"); | |
return("COM"); | |
case DEV_SBMIDI: return("SB"); | |
case DEV_GUS: return("GUS"); | |
default: return("UNK"); | |
} | |
} | |
/* analyzes a 16 bytes file header and guess the file format */ | |
static enum fileformats header2fileformat(unsigned char *hdr) { | |
/* Classic MIDI */ | |
if ((hdr[0] == 'M') && (hdr[1] == 'T') && (hdr[2] == 'h') && (hdr[3] == 'd')) { | |
return(FORMAT_MIDI); | |
} | |
/* RMID inside a RIFF container */ | |
if ((hdr[0] == 'R') && (hdr[1] == 'I') && (hdr[2] == 'F') && (hdr[3] == 'F') | |
&& (hdr[8] == 'R') && (hdr[9] == 'M') && (hdr[10] == 'I') && (hdr[11] == 'D')) { | |
return(FORMAT_RMID); | |
} | |
/* MUS (as used in Doom, from Id Software) */ | |
if ((hdr[0] == 'M') && (hdr[1] == 'U') && (hdr[2] == 'S') && (hdr[3] == 0x1A)) { | |
return(FORMAT_MUS); | |
} | |
/* else I don't know */ | |
return(FORMAT_UNKNOWN); | |
} | |
/* loads the file's extension into ext (limited to limit characters) */ | |
static void getfileext(char *ext, char *filename, int limit) { | |
int x; | |
char *extptr = NULL; | |
ext[0] = 0; | |
/* find the last dot first */ | |
while (*filename != 0) { | |
if (*filename == '.') { | |
extptr = filename + 1; | |
} | |
filename++; | |
} | |
if (extptr == NULL) return; | |
/* copy the extension to ext, up to limit bytes */ | |
limit--; /* make room for the null char */ | |
for (x = 0; extptr[x] != 0; x++) { | |
if (x >= limit) break; | |
/* make sure the extension is all-lowercase */ | |
if ((extptr[x] >= 'A') && (extptr[x] <= 'Z')) { | |
ext[x] = extptr[x] + 32; | |
} else { | |
ext[x] = extptr[x]; | |
} | |
} | |
ext[x] = 0; /* terminate the ext string */ | |
} | |
/* interpret a single config argument, returns NULL on succes, or a pointer to | |
* an error string otherwise */ | |
static char *feedarg(char *arg, struct clioptions *params, int fileallowed) { | |
if (strucmp(arg, "/noxms") == 0) { | |
params->memmode = MEM_MALLOC; | |
} else if (strucmp(arg, "/xmsdelay") == 0) { | |
params->xmsdelay = 1; | |
} else if (strucmp(arg, "/fullcpu") == 0) { | |
params->nopowersave = 1; | |
} else if (strucmp(arg, "/dontstop") == 0) { | |
params->dontstop = 1; | |
} else if (strucmp(arg, "/random") == 0) { | |
params->random = 1; | |
} else if (strucmp(arg, "/nosound") == 0) { | |
params->device = DEV_NONE; | |
params->devport = 0; | |
#ifdef SBAWE | |
} else if (strucmp(arg, "/awe") == 0) { | |
params->device = DEV_AWE; | |
params->devport = params->port_awe; | |
/* if AWE port not found in BLASTER, use the default 0x620 */ | |
if (params->devport == 0) params->devport = 0x620; | |
} else if (stringstartswith(arg, "/awe=") == 0) { | |
params->device = DEV_AWE; | |
params->devport = hexstr2uint(arg + 5); | |
if (params->devport < 1) return("Invalid AWE port provided. Example: /awe=620$"); | |
#endif | |
} else if (strucmp(arg, "/mpu") == 0) { | |
params->device = DEV_MPU401; | |
params->devport = params->port_mpu; | |
/* if MPU port not found in BLASTER, use the default 0x330 */ | |
if (params->devport == 0) params->devport = 0x330; | |
} else if (strucmp(arg, "/preset=gm") == 0) { | |
params->gmgspreset = PRESET_GM; | |
} else if (strucmp(arg, "/preset=gs") == 0) { | |
params->gmgspreset = PRESET_GS; | |
} else if (strucmp(arg, "/preset=xg") == 0) { | |
params->gmgspreset = PRESET_XG; | |
} else if (strucmp(arg, "/preset=none") == 0) { | |
params->gmgspreset = PRESET_NONE; | |
} else if (strucmp(arg, "/gus") == 0) { | |
params->device = DEV_GUS; | |
params->devport = gus_find(); | |
if (params->devport < 1) return("GUS error: No ULTRAMID driver found$"); | |
#ifdef OPL | |
} else if (strucmp(arg, "/opl") == 0) { | |
params->device = DEV_OPL; | |
params->devport = 0x388; | |
} else if (stringstartswith(arg, "/opl=") == 0) { | |
params->device = DEV_OPL; | |
params->devport = hexstr2uint(arg + 5); | |
if (params->devport < 1) return("Invalid OPL port provided. Example: /opl=388$"); | |
#endif | |
} else if (stringstartswith(arg, "/sbnk=") == 0) { | |
if (params->sbnk != NULL) free(params->sbnk); /* drop last sbnk if already present, so a CLI sbnk would take precedence over a config-file sbnk */ | |
params->sbnk = strdup(arg + 6); | |
} else if (stringstartswith(arg, "/mpu=") == 0) { | |
params->device = DEV_MPU401; | |
params->devport = hexstr2uint(arg + 5); | |
if (params->devport < 1) return("Invalid MPU port provided. Example: /mpu=330$"); | |
} else if (stringstartswith(arg, "/com=") == 0) { | |
params->device = DEV_RS232; | |
params->devport = hexstr2uint(arg + 5); | |
if (params->devport < 10) return("Invalid COM port provided. Example: /com=3f8$"); | |
} else if (stringstartswith(arg, "/com") == 0) { /* must be compared AFTER "/com=" */ | |
params->device = DEV_RS232; | |
params->devicesubtype = arg[4] - '0'; | |
if ((params->devicesubtype < 1) || (params->devicesubtype > 4)) return("Invalid COM port provided. Example: /com1$"); | |
params->devport = rs232_getport(params->devicesubtype); | |
if (params->devport < 1) return("Failed to autodetect the I/O address of this COM port. Try using the /com=XXX option.$"); | |
} else if (strucmp(arg, "/sbmidi") == 0) { | |
params->device = DEV_SBMIDI; | |
params->devport = params->port_sb; | |
/* if SB port not found in BLASTER, use the default 0x220 */ | |
if (params->devport == 0) params->devport = 0x220; | |
} else if (stringstartswith(arg, "/sbmidi=") == 0) { | |
params->device = DEV_SBMIDI; | |
params->devport = hexstr2uint(arg + 8); | |
if (params->devport < 1) return("Invalid SBMIDI port provided. Example: /sbmidi=220$"); | |
#ifdef DBGFILE | |
} else if (stringstartswith(arg, "/log=") == 0) { | |
if (params->logfd == NULL) { | |
params->logfd = fopen(arg + 5, "wb"); | |
if (params->logfd == NULL) { | |
return("Failed to open the debug log file.$"); | |
} | |
} | |
#endif | |
} else if (stringstartswith(arg, "/syx=") == 0) { | |
params->syxrst = strdup(arg + 5); | |
} else if (stringstartswith(arg, "/delay=") == 0) { | |
params->delay = atoi(arg + 7); | |
if ((params->delay < 1) || (params->delay > 9000)) { | |
return("Invalid delay value: must be in the range 1..9000$"); | |
} | |
} else if ((strucmp(arg, "/?") == 0) || (strucmp(arg, "/h") == 0) || (strucmp(arg, "/help") == 0)) { | |
return(""); | |
} else if ((fileallowed != 0) && (arg[0] != '/') && (params->midifile == NULL) && (params->playlist == NULL)) { | |
char ext[4]; | |
getfileext(ext, arg, 4); | |
if (strucmp(ext, "m3u") == 0) { | |
params->playlist = arg; | |
} else { | |
params->midifile = arg; | |
} | |
} else { | |
return("Unknown option.$"); | |
} | |
return(NULL); | |
} | |
/* trims any white-space and line feeds occuring at the right of the string */ | |
static void rtrim(char *s) { | |
char *lastchar = s; | |
while (*s != 0) { | |
switch (*s) { | |
case ' ': | |
case '\t': | |
case '\r': | |
case '\n': | |
s++; | |
break; | |
default: | |
lastchar = ++s; | |
} | |
} | |
*lastchar = 0; | |
} | |
static char *loadconfigfile(struct clioptions *params) { | |
char buff[128 + 12]; /* 128 for exepath plus 8+3 for the config file */ | |
int r; | |
char *res = NULL; | |
struct fiofile_t f; | |
/* prepare config file's full path */ | |
r = exepath(buff); | |
if (r < 1) return(NULL); | |
/* append the config file itself */ | |
sprintf(buff + r, "dosmid.cfg"); | |
/* open file */ | |
if (fio_open(buff, FIO_OPEN_RD, &f) != 0) return(NULL); | |
for (;;) { | |
/* read line & trim */ | |
r = fio_getline(&f, buff, sizeof(buff)); | |
if (r < 0) break; /* stop on EOF */ | |
if (*buff == '#') continue; /* skip comments */ | |
rtrim(buff); | |
if (*buff == 0) continue; /* skip empty lines */ | |
/* push arg to feedarg() (files not allowed because filename not allocated in persistent memory) */ | |
res = feedarg(buff, params, 0); | |
if (res != NULL) break; | |
} | |
/* close file */ | |
fio_close(&f); | |
return(res); | |
} | |
/* parse command line params and fills the params struct accordingly. returns | |
NULL on sucess, or a pointer to an error string otherwise. */ | |
static char *parseargv(int argc, char **argv, struct clioptions *params) { | |
int i; | |
/* if no params at all, don't waste time */ | |
if (argc == 0) return(""); | |
/* now read params */ | |
for (i = 1; i < argc; i++) { | |
char *r; | |
r = feedarg(argv[i], params, 1); | |
if (r != NULL) return(r); | |
} | |
/* check if at least a MIDI filename have been provided */ | |
if ((params->midifile == NULL) && (params->playlist == NULL)) { | |
return("You have to provide the path to a MIDI file or a playlist to play.$"); | |
} | |
/* all good */ | |
return(NULL); | |
} | |
/* computes the time elapsed since the song started (in secs). Returns 0 if | |
* elapsed time didn't changed since last time, non-zero otherwise */ | |
static int compute_elapsed_time(unsigned long starttime, unsigned long *elapsed) { | |
unsigned long curtime, res; | |
timer_read(&curtime); | |
if (curtime < starttime) { /* wraparound detected */ | |
res = (ULONG_MAX - starttime) + curtime; | |
} else { | |
res = curtime - starttime; | |
} | |
res /= 1000000lu; /* microseconds to seconds */ | |
if (res == *elapsed) return(0); | |
*elapsed = res; | |
return(1); | |
} | |
/* check the event cache for a given event. to reset the cache, issue a single | |
* call with trackpos < 0. */ | |
static struct midi_event_t *getnexteventfromcache(struct midi_event_t *eventscache, long trackpos, int xmsdelay) { | |
static unsigned int itemsincache = 0; | |
static unsigned int curcachepos = 0; | |
struct midi_event_t *res = NULL; | |
long nextevent; | |
/* if trackpos < 0 then this is only about flushing cache */ | |
if (trackpos < 0) { | |
memset(eventscache, 0, sizeof(*eventscache)); | |
itemsincache = 0; | |
curcachepos = 0; | |
return(NULL); | |
} | |
/* if we have available cache */ | |
if (itemsincache > 0) { | |
curcachepos++; | |
curcachepos &= EVENTSCACHEMASK; | |
itemsincache--; | |
res = &eventscache[curcachepos]; | |
/* if we have some free time, refill the cache proactively */ | |
if (res->deltatime > 0) { | |
int nextslot, pullres; | |
/* sleep 2ms after a MIDI OUT write, and before accessing XMS. | |
This is especially important for SoundBlaster "AWE" cards with the | |
AWEUTIL TSR midi emulation enabled, without this AWEUTIL crashes. */ | |
if (xmsdelay != 0) udelay(2000); | |
nextslot = curcachepos + itemsincache; | |
nextevent = eventscache[nextslot & EVENTSCACHEMASK].next; | |
while ((itemsincache < EVENTSCACHESIZE - 1) && (nextevent >= 0)) { | |
nextslot++; | |
nextslot &= EVENTSCACHEMASK; | |
pullres = mem_pull(nextevent, &eventscache[nextslot], sizeof(struct midi_event_t)); | |
if (pullres != 0) { | |
/* printf("pullevent() ERROR: %u (eventid = %ld)\n", pullres, trackpos); */ | |
return(NULL); | |
} | |
nextevent = eventscache[nextslot].next; | |
itemsincache++; | |
} | |
} | |
} else { /* need to refill the cache NOW */ | |
int refillcount, pullres; | |
/* sleep 2ms after a MIDI OUT write, and before accessing XMS. | |
this is especially important for SoundBlaster "AWE" cards with the | |
AWEUTIL TSR midi emulation enabled, without this AWEUTIL crashes. */ | |
if (xmsdelay != 0) udelay(2000); | |
nextevent = trackpos; | |
curcachepos = 0; | |
for (refillcount = 0; refillcount < EVENTSCACHESIZE; refillcount++) { | |
pullres = mem_pull(nextevent, &eventscache[refillcount], sizeof(struct midi_event_t)); | |
if (pullres != 0) { | |
/* printf("pullevent() ERROR: %u (eventid = %ld)\n", pullres, trackpos); */ | |
return(NULL); | |
} | |
nextevent = eventscache[refillcount].next; | |
itemsincache++; | |
if (nextevent < 0) break; | |
} | |
itemsincache--; | |
res = eventscache; | |
} | |
return(res); | |
} | |
/* reads the BLASTER variable for best guessing of current hardware and port. | |
* If nothing found, fallbacks to MPU and 0x330 */ | |
static void preload_outdev(struct clioptions *params) { | |
char *blaster; | |
params->port_mpu = 0; | |
params->port_awe = 0; | |
params->port_opl = 0; | |
params->port_sb = 0; | |
/* check if a blaster variable is present */ | |
blaster = getenv("BLASTER"); | |
/* if so, read it looking for 'P' and 'E' parameters */ | |
if (blaster != NULL) { | |
char *blasterptr[16]; | |
int blastercount = 0; | |
/* read the variable in a first pass to collect all starting points */ | |
if (*blaster != 0) { | |
blasterptr[blastercount++] = blaster++; | |
} | |
for (;;) { | |
if (*blaster == ' ') { | |
blasterptr[blastercount++] = ++blaster; | |
} else if ((*blaster == 0) || (blastercount >= 16)) { | |
break; | |
} else { | |
blaster++; | |
} | |
} | |
while (blastercount-- > 0) { | |
unsigned short p; | |
unsigned short *portptr; | |
blaster = blasterptr[blastercount]; | |
/* have we found an interesting param? */ | |
if ((*blaster != 'P') && (*blaster != 'E') && (*blaster != 'A')) continue; | |
if (*blaster == 'E') { | |
portptr = &(params->port_awe); | |
} else if (*blaster == 'P') { | |
portptr = &(params->port_mpu); | |
} else { | |
portptr = &(params->port_sb); | |
} | |
/* read the param value into a variable */ | |
p = hexstr2uint(blaster + 1); | |
/* if what we have read looks sane, keep it */ | |
if (p > 0) *portptr = p; | |
} | |
} | |
/* look at what we got, and choose in order of preference */ | |
/* set NONE, just so we have anything set */ | |
params->device = DEV_NONE; | |
params->devport = 0; | |
/* use OPL on port 0x388, if OPL output is compiled in */ | |
#ifdef OPL | |
params->device = DEV_OPL; | |
params->devport = 0x388; | |
#endif | |
/* never try using SBMIDI: it's unlikely anything's connected to it anyway */ | |
/* is there an MPU? if so, take it */ | |
if (params->port_mpu > 0) { | |
params->device = DEV_MPU401; | |
params->devport = params->port_mpu; | |
} | |
/* if a GUS seems to be installed, let's try it */ | |
if (getenv("ULTRADIR") != 0) { | |
int gusp = gus_find(); | |
if (gusp > 0) { | |
params->device = DEV_GUS; | |
params->devport = gusp; | |
} | |
} | |
/* AWE is the most desirable, if present (and compiled in) */ | |
#ifdef SBAWE | |
if (params->port_awe > 0) { /* AWE is the most desirable, if present */ | |
params->device = DEV_AWE; | |
params->devport = params->port_awe; | |
} | |
#endif | |
} | |
enum direction_t { | |
DIR_FWD, | |
DIR_REV, | |
DIR_RND | |
}; | |
/* reads a position from an M3U file and returns a ptr from static mem */ | |
static char *getnextm3uitem(char *playlist, enum direction_t dir) { | |
static char fnamebuf[256]; | |
char tempstr[256]; | |
long fsize; | |
static long pos = 0; | |
int slen; | |
struct fiofile_t f; | |
/* open the playlist and read its size */ | |
if (fio_open(playlist, FIO_OPEN_RD, &f) != 0) return(NULL); | |
fsize = fio_seek(&f, FIO_SEEK_END, 0); | |
if (fsize < 3) { /* a one-entry m3u would be at least 3 bytes long */ | |
fio_close(&f); | |
return(NULL); | |
} | |
if (dir == DIR_RND) { | |
/* go to a random position (avoid last bytes, could be an empty \r\n record) */ | |
pos = (rnd() << 1) % (fsize - 2); /* mul rnd by 2 to speed up 'randomness' at the cost of getting only even offsets */ | |
} | |
if (dir == DIR_REV) pos -= 3; | |
GOHEREFORPREV: | |
if (pos < 0) pos = 0; | |
fio_seek(&f, FIO_SEEK_START, pos); | |
/* rewind back to nearest \n or 0 position */ | |
while (pos > 0) { | |
fio_read(&f, tempstr, 1); | |
if (tempstr[0] != '\n') { | |
fio_seek(&f, FIO_SEEK_CUR, -2); | |
pos--; | |
} else { | |
pos++; | |
break; | |
} | |
} | |
if (dir == DIR_REV) { | |
pos -= 3; | |
dir = DIR_FWD; | |
goto GOHEREFORPREV; | |
} | |
/* read the string into fnamebuf */ | |
slen = 0; | |
fnamebuf[0] = 0; | |
for (;;) { | |
char c; | |
if ((fio_read(&f, &c, 1) != 1) || (c == '\r') || (c == '\n')) break; | |
pos++; | |
fnamebuf[slen++] = c; | |
if (slen == sizeof(fnamebuf)) { /* overflow! */ | |
fnamebuf[0] = 0; | |
break; | |
} | |
fnamebuf[slen] = 0; | |
} | |
/* if sequential reading of the playlist, then jump to next entry */ | |
if (dir == DIR_FWD) { | |
for (;;) { | |
char c; | |
if (fio_read(&f, &c, 1) != 1) { | |
pos = 0; | |
break; | |
} else if ((c == '\r') || (c == '\n')) { | |
pos++; | |
} else { | |
break; | |
} | |
} | |
} | |
/* close the file descriptor */ | |
fio_close(&f); | |
/* trim any leading spaces, if any */ | |
rtrim(fnamebuf); | |
/* if empty, something went wrong */ | |
if (fnamebuf[0] == 0) return(NULL); | |
/* if the file is a relative path, then prepend it with the path of the playlist */ | |
if (fnamebuf[1] != ':') { | |
strcpy(tempstr, fnamebuf); | |
filename2basename(playlist, NULL, fnamebuf, sizeof(fnamebuf) - 1); | |
strncat(fnamebuf, tempstr, sizeof(fnamebuf) - 1); | |
} | |
/* return the result */ | |
return(fnamebuf); | |
} | |
/* returns a pointer to the next line of s, or NULL if no more lines */ | |
static char *nextlinefrombuf(char *s) { | |
for (;; s++) { | |
if (*s == 0) return(NULL); | |
if (*s == '\n') { | |
s++; | |
if (*s == 0) return(NULL); | |
return(s); | |
} | |
} | |
} | |
/* copy the first line of s into d, up to l characters (incl. null term.) */ | |
static void copyline(char *d, int l, char *s) { | |
for (;;) { | |
*d = *s; | |
if (*d == 0) return; | |
if ((*d == '\r') || (*d == '\n') || (--l == 0)) { | |
*d = 0; | |
return; | |
} | |
d++; | |
s++; | |
} | |
} | |
static enum playactions loadfile_midi(struct fiofile_t *f, struct clioptions *params, struct trackinfodata *trackinfo, long *trackpos) { | |
static unsigned long trackmap[MAXTRACKS]; | |
int miditracks; | |
int i; | |
long newtrack; | |
char copystring[UI_TITLEMAXLEN]; | |
char text[256]; | |
*trackpos = -1; | |
miditracks = midi_readhdr(f, &(trackinfo->midiformat), &(trackinfo->miditimeunitdiv), trackmap, MAXTRACKS); | |
if (miditracks < 1) { | |
char errstr[64]; | |
sprintf(errstr, "Error: Invalid MIDI file format (ERR %d)", miditracks); | |
ui_puterrmsg(params->midifile, errstr); | |
return(ACTION_ERR_SOFT); | |
} | |
trackinfo->trackscount = miditracks; | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "LOADED FILE '%s': format=%d tracks=%d timeunitdiv=%u\n", params->midifile, trackinfo->midiformat, miditracks, trackinfo->miditimeunitdiv); | |
#endif | |
if ((trackinfo->midiformat != 0) && (trackinfo->midiformat != 1)) { | |
char errstr[64]; | |
sprintf(errstr, "Error: Unsupported MIDI format (%d)", trackinfo->midiformat); | |
ui_puterrmsg(params->midifile, errstr); | |
return(ACTION_ERR_SOFT); | |
} | |
if (miditracks > MAXTRACKS) { | |
char errstr[64]; | |
sprintf(errstr, "Error: Too many tracks (%d, max: %d)", miditracks, MAXTRACKS); | |
ui_puterrmsg(params->midifile, errstr); | |
return(ACTION_ERR_SOFT); | |
} | |
for (i = 0; i < miditracks; i++) { | |
char tracktitle[UI_TITLEMAXLEN]; | |
unsigned long tracklen; | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "LOADING TRACK %d FROM OFFSET 0x%04X\n", i, trackmap[i]); | |
#endif | |
fio_seek(f, FIO_SEEK_START, trackmap[i]); | |
if (i == 0) { /* copyright and text events are fetched from track 0 only */ | |
newtrack = midi_track2events(f, tracktitle, UI_TITLEMAXLEN, copystring, | |
UI_TITLEMAXLEN, text, sizeof(text), | |
&(trackinfo->channelsusage), | |
#ifdef DBGFILE | |
params->logfd, | |
#endif | |
&tracklen, trackinfo->reqpatches); | |
} else { | |
newtrack = midi_track2events(f, tracktitle, UI_TITLEMAXLEN, NULL, 0, | |
NULL, 0, &(trackinfo->channelsusage), | |
#ifdef DBGFILE | |
params->logfd, | |
#endif | |
&tracklen, trackinfo->reqpatches); | |
} | |
/* look for error conditions */ | |
if (newtrack == MIDI_OUTOFMEM) { | |
ui_puterrmsg(params->midifile, "Error: Out of memory"); | |
return(ACTION_ERR_SOFT); | |
} else if (newtrack == MIDI_TRACKERROR) { | |
ui_puterrmsg(params->midifile, "Error: Malformed MIDI file"); | |
return(ACTION_ERR_SOFT); | |
} | |
/* there is a non-written rule saying that useful text is written into | |
* titles of empty tracks - push data into next available title node */ | |
if (((tracklen == 0) || (i == 0)) && (trackinfo->titlescount < UI_TITLENODES) && (tracktitle[0] != 0)) { | |
/* ignore empty titles, though, if no valid title was found before */ | |
rtrim(tracktitle); | |
if ((trackinfo->titlescount > 0) || (tracktitle[0] != 0)) { | |
memcpy(trackinfo->title[trackinfo->titlescount++], tracktitle, UI_TITLEMAXLEN); | |
} | |
} | |
/* merge the track now */ | |
if (newtrack >= 0) { | |
*trackpos = midi_mergetrack(*trackpos, newtrack, &(trackinfo->totlen), trackinfo->miditimeunitdiv); | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "TRACK %d MERGED (start id=%ld) -> TOTAL TIME: %ld\n", i, *trackpos, trackinfo->totlen); | |
#endif | |
} | |
} | |
/* if we got any 'text', but no 'titles', then push the text into titles */ | |
if ((text[0] != 0) && (trackinfo->titlescount == 0)) { | |
char *l; | |
for (l = text; (l != NULL) && (trackinfo->titlescount < UI_TITLENODES); l = nextlinefrombuf(l)) { | |
copyline(trackinfo->title[trackinfo->titlescount++], UI_TITLEMAXLEN, l); | |
} | |
} | |
/* if we have room in title nodes, copy the copyright string there */ | |
if ((trackinfo->titlescount < UI_TITLENODES) && (copystring[0] != 0)) { | |
memcpy(trackinfo->title[trackinfo->titlescount++], copystring, UI_TITLEMAXLEN); | |
} | |
return(ACTION_NONE); | |
} | |
static enum playactions loadfile(struct clioptions *params, struct trackinfodata *trackinfo, long *trackpos) { | |
struct fiofile_t f; | |
unsigned char hdr[16]; | |
enum playactions res; | |
/* (try to) open the music file */ | |
if (fio_open(params->midifile, FIO_OPEN_RD, &f) != 0) { | |
ui_puterrmsg(params->midifile, "Error: Failed to open the file"); | |
return(ACTION_ERR_SOFT); | |
} | |
/* read first few bytes of the file to detect its format, and rewind */ | |
if (fio_read(&f, hdr, 16) != 16) { | |
fio_close(&f); | |
ui_puterrmsg(params->midifile, "Error: Unknown file format"); | |
return(ACTION_ERR_SOFT); | |
} | |
fio_seek(&f, FIO_SEEK_START, 0); | |
/* analyze the header to guess the format of the file */ | |
trackinfo->fileformat = header2fileformat(hdr); | |
/* load file if format recognized */ | |
switch (trackinfo->fileformat) { | |
case FORMAT_MIDI: | |
case FORMAT_RMID: | |
res = loadfile_midi(&f, params, trackinfo, trackpos); | |
break; | |
case FORMAT_MUS: | |
*trackpos = mus_load(&f, &(trackinfo->totlen), &(trackinfo->miditimeunitdiv), &(trackinfo->channelsusage), trackinfo->reqpatches); | |
if (*trackpos == MUS_OUTOFMEM) { /* detect out of memory */ | |
res = ACTION_ERR_SOFT; | |
ui_puterrmsg(params->midifile, "Error: Out of memory"); | |
} else if (*trackpos < 0) { /* detect any other problems */ | |
char msg[64]; | |
res = ACTION_ERR_SOFT; | |
snprintf(msg, 64, "Error: Failed to load the MUS file (%ld)", *trackpos); | |
ui_puterrmsg(params->midifile, msg); | |
} else { /* all right, now we're talking */ | |
trackinfo->trackscount = 1; | |
res = ACTION_NONE; | |
} | |
break; | |
default: | |
res = ACTION_ERR_SOFT; | |
ui_puterrmsg(params->midifile, "Error: Unknown file format"); | |
break; | |
} | |
fio_close(&f); | |
/* if no text data could be found at all, add a note about that */ | |
if ((res == ACTION_NONE) && (trackinfo->titlescount == 0)) { | |
strcpy(trackinfo->title[trackinfo->titlescount++], "<no title>"); | |
} | |
return(res); | |
} | |
static void pauseplay(unsigned long *starttime, unsigned long *nexteventtime, struct trackinfodata *trackinfo) { | |
unsigned long beforepause, afterpause, deltaremainder; | |
int i; | |
/* save timing information */ | |
timer_read(&beforepause); | |
deltaremainder = *nexteventtime - beforepause; | |
/* print a pause message on screen */ | |
ui_puterrmsg("PAUSE", "[ Press any key ]"); | |
/* turn off all notes before pausing */ | |
for (i = 0; i < 128; i++) { | |
if (trackinfo->notestates[i] != 0) { | |
int c; | |
for (c = 0; c < 16; c++) { | |
if (trackinfo->notestates[i] & (1 << c)) { | |
/* printf("note #%d is still playing on channel %d\n", i, c); */ | |
dev_noteoff(c, i); | |
} | |
} | |
} | |
} | |
/* wait for a key press */ | |
getkey(); | |
/* restore play timing */ | |
/* FIXME if paused for a long time (over a hour and some), the timer might wrap, leading to very bad things */ | |
timer_read(&afterpause); | |
*nexteventtime = afterpause + deltaremainder; /* set nexteventtime to resync the song */ | |
/* adapt starttime to keep the progress bar in sync */ | |
*starttime += (afterpause - beforepause); | |
} | |
static void init_trackinfo(struct trackinfodata *trackinfo, struct clioptions *params) { | |
/* zero out the entire structure */ | |
memset(trackinfo, 0, sizeof(struct trackinfodata)); | |
/* preload piano into channels and set initial tempo */ | |
/* for (i = 0; i < 16; i++) trackinfo->chanprogs[i] = 0; */ /* no need, already zeroed by memset() */ | |
trackinfo->tempo = 500000l; | |
/* put a something into the 'filename' field - midi or playlist, anything */ | |
if (params->midifile != NULL) { | |
filename2basename(params->midifile, trackinfo->filename, NULL, UI_FILENAMEMAXLEN); | |
} else if (params->playlist != NULL) { | |
filename2basename(params->playlist, trackinfo->filename, NULL, UI_FILENAMEMAXLEN); | |
} | |
ucasestr(trackinfo->filename); | |
} | |
/* plays a file. returns 0 on success, non-zero if the program must exit */ | |
static enum playactions playfile(struct clioptions *params, struct trackinfodata *trackinfo, struct midi_event_t *eventscache, int playlistdir) { | |
static int volume = 100; /* volume is static because it needs to be retained between songs */ | |
int i; | |
enum playactions exitaction; | |
unsigned long nexteventtime; | |
unsigned short refreshflags = UI_REFRESH_ALL; | |
unsigned short refreshchans = 0xffffu; | |
long trackpos; | |
unsigned long midiplaybackstart; | |
struct midi_event_t *curevent; | |
unsigned long elticks = 0; /* used only to count clock ticks in debug mode */ | |
unsigned char *sysexbuff; | |
/* flush all MIDI events from memory for new events to have where to load */ | |
mem_clear(); | |
/* init trackinfo & cache data */ | |
init_trackinfo(trackinfo, params); | |
getnexteventfromcache(eventscache, -1, 0); | |
/* update screen with the next operation */ | |
sprintf(trackinfo->title[0], "Loading file..."); | |
ui_draw(trackinfo, &refreshflags, &refreshchans, params->devname, params->devport, volume); | |
refreshflags = UI_REFRESH_ALL; | |
/* if running on a playlist, load next song */ | |
if (params->playlist != NULL) { | |
params->midifile = getnextm3uitem(params->playlist, playlistdir); | |
if (params->midifile == NULL) { | |
ui_puterrmsg("Playlist error", "Failed to fetch an entry from the playlist"); | |
return(ACTION_ERR_HARD); /* this must be a hard error otherwise DOSMid might be trapped into a loop */ | |
} | |
} | |
/* reset the timer, to make sure it doesn't wrap around during playback */ | |
timer_reset(); | |
timer_read(&nexteventtime); /* save current time, to schedule when the song shall start */ | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "Reset MPU\n"); | |
#endif | |
/* load piano to all channels (even real MIDI synths do not always reset | |
* those properly) - this could just as well happen during dev_clear(), but | |
* there are users that happen to use DOSMid to init their MPU hardware, | |
* and resetting patches *after* the midi file played would break that | |
* usage for them */ | |
for (i = 0; i < 16; i++) { | |
if (i != 9) dev_setprog(i, 0); /* do not set program on percussion */ | |
/* set pitch bend to a default preset */ | |
dev_controller(i, 100, 0); /* RPN MSB 0 */ | |
dev_controller(i, 101, 0); /* RPN LSB 0 -> RPN 0x0000 = "pitch bend" */ | |
dev_controller(i, 6, 2); /* Pitch Bend Sensitivity MSB */ | |
dev_controller(i, 38, 0); /* Pitch Bend Sensitivity LSB */ | |
} | |
/* reset the device's master volume via sysex */ | |
dev_sysex(0x7F, "\xF0\x7F\x7F\x04\x01\x7F\x7F\xF7", 8); | |
/* preset the midi device to GM/GS/XG mode (or nothing) */ | |
switch (params->gmgspreset) { | |
case PRESET_GM: /* GM RESET */ | |
dev_sysex(0, "\xF0\x7E\x7F\x09\x01\xF7", 6); | |
break; | |
case PRESET_GS: /* ROLAND GS RESET */ | |
dev_sysex(0, "\xF0\x41\x10\x42\x12\x40\x00\x7F\x00\x41\xF7", 11); | |
break; | |
case PRESET_XG: /* YAMAHA XG RESET */ | |
dev_sysex(0, "\xF0\x7E\x7F\x09\x01\xF7", 6); /* prefixed with GM reset */ | |
dev_sysex(0, "\xF0\x43\x10\x4C\x00\x00\x7E\x00\xF7", 9); | |
break; | |
} | |
/* if a SYX init file is provided, feed it to the MIDI synth now */ | |
if (params->syxrst != NULL) { | |
int syxlen; | |
struct fiofile_t syxfh; | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "loading SYSEX file %s\n", params->syxrst); | |
#endif | |
/* open the syx file */ | |
if (fio_open(params->syxrst, FIO_OPEN_RD, &syxfh) != 0) { | |
ui_puterrmsg(params->syxrst, "Error: Failed to open the SYX file"); | |
return(ACTION_ERR_HARD); | |
} | |
/* alloc a temporary buffer to hold sysex messages */ | |
sysexbuff = (void *)wbuff; | |
/* read SYSEX messages until EOF */ | |
for (;;) { | |
syxlen = syx_fetchnext(&syxfh, sysexbuff, 8192); | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "sys_fetchnext() returned %d\n", syxlen); | |
#endif | |
if (syxlen == 0) break; /* EOF */ | |
if (syxlen < 0) { /* error condition */ | |
fio_close(&syxfh); /* close the syx file */ | |
ui_puterrmsg(params->syxrst, "Error: Failed to process the SYX file"); | |
return(ACTION_ERR_HARD); | |
} | |
/* send the SYSEX message to the MIDI device, and wait a short moment | |
* between messages so the device has time to digest them */ | |
dev_sysex(sysexbuff[0] & 0x0F, sysexbuff, syxlen); | |
udelay(40000); /* 40ms should be enough time for the MPU interface */ | |
/* note that MT32 rev00 are *very* sensitive to this! */ | |
if (sysexbuff[0] == 0x7F) { /* the 'all parameters reset' sysex takes */ | |
udelay(250000lu); /* a very long time to be processed on */ | |
} /* MT32 rev00 gears. */ | |
} | |
fio_close(&syxfh); /* close the syx file */ | |
} | |
/* load the file into memory */ | |
sprintf(trackinfo->title[0], "Loading..."); | |
filename2basename(params->midifile, trackinfo->filename, NULL, UI_FILENAMEMAXLEN); | |
ucasestr(trackinfo->filename); | |
ui_draw(trackinfo, &refreshflags, &refreshchans, params->devname, params->devport, volume); | |
memset(trackinfo->title[0], 0, 16); | |
refreshflags = UI_REFRESH_ALL; | |
if ((params->playlist != NULL) && (params->delay < 2000)) nexteventtime += (2000 - params->delay) * 1000L; /* playback starts no sooner than in 2s (for playlist listening comfort) */ | |
nexteventtime += params->delay * 1000L; /* add the extra custom delay */ | |
exitaction = loadfile(params, trackinfo, &trackpos); | |
if (exitaction != ACTION_NONE) return(exitaction); | |
/* if driving a GUS, preload needed MIDI patches up front */ | |
if (params->device == DEV_GUS) { | |
int i; | |
dev_preloadpatch(params->device, 0); /* always load grand piano, since it's the default instrument and the midi track might omit loading it explicitely */ | |
for (i = 0; i < 256; i++) { | |
if (BIT_GET(trackinfo->reqpatches, i) != 0) { | |
dev_preloadpatch(params->device, i); | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "preloading patch %d\n", i); | |
#endif | |
} | |
} | |
} | |
/* draw the gui with track's data */ | |
ui_draw(trackinfo, &refreshflags, &refreshchans, params->devname, params->devport, volume); | |
for (;;) { | |
timer_read(&midiplaybackstart); /* save start time so we can compute elapsed time later */ | |
if (midiplaybackstart >= nexteventtime) break; /* wait until the scheduled start time is met */ | |
} | |
nexteventtime = midiplaybackstart; | |
while (trackpos >= 0) { | |
/* fetch next event */ | |
curevent = getnexteventfromcache(eventscache, trackpos, params->xmsdelay); | |
if (curevent == NULL) { /* abort on error */ | |
ui_puterrmsg(params->midifile, "Error: Memory access fault"); | |
exitaction = ACTION_ERR_HARD; | |
break; | |
} | |
/* give some time to the outdev driver for doing its things */ | |
dev_tick(); | |
/* printf("Action: %d / Note: %d / Vel: %d / t=%lu / next->%ld\n", curevent->type, curevent->data.note.note, curevent->data.note.velocity, curevent->deltatime, curevent->next); */ | |
if (curevent->deltatime > 0) { /* if I have some time ahead, I can do a few things */ | |
nexteventtime += (curevent->deltatime * trackinfo->tempo / trackinfo->miditimeunitdiv); | |
elticks += curevent->deltatime; | |
while (exitaction == ACTION_NONE) { | |
unsigned long t; | |
/* is time for next event yet? */ | |
timer_read(&t); | |
if (t >= nexteventtime) break; | |
/* detect wraparound of the timer counter */ | |
if (nexteventtime - t > ULONG_MAX / 2) break; | |
/* if next event not due yet, do some keyboard/screen processing */ | |
if (compute_elapsed_time(midiplaybackstart, &(trackinfo->elapsedsec)) != 0) refreshflags |= UI_REFRESH_TIME; | |
/* read keypresses */ | |
switch (getkey_ifany()) { | |
case 0x1B: /* escape */ | |
exitaction = ACTION_EXIT; | |
break; | |
case 0x0D: /* return */ | |
exitaction = ACTION_NEXT; | |
break; | |
case 0x08: /* bkspc */ | |
exitaction = ACTION_PREV; | |
break; | |
case '+': /* volume up */ | |
volume += 5; /* note: I could also use a MIDI command to */ | |
if (volume > 100) volume = 100; /* adjust the MPU's global volume but this */ | |
refreshflags |= UI_REFRESH_VOLUME; /* is messy because the MIDI file might use */ | |
break; /* such message, too. Besides, some MPUs do */ | |
case '-': /* volume down */ /* not support volume control (eg. my SB64) */ | |
volume -= 5; | |
if (volume < 0) volume = 0; | |
refreshflags |= UI_REFRESH_VOLUME; | |
break; | |
case ' ': /* pause */ | |
pauseplay(&midiplaybackstart, &nexteventtime, trackinfo); | |
refreshflags = UI_REFRESH_ALL; /* force a full-screen refresh to wipe */ | |
refreshchans = 0xffffu; /* the pause message out of the screen */ | |
break; | |
} | |
/* do I need to refresh the screen now? if not, just call INT28h */ | |
if (refreshflags != 0) { | |
ui_draw(trackinfo, &refreshflags, &refreshchans, params->devname, params->devport, volume); | |
} else if (params->nopowersave == 0) { /* if no screen refresh is */ | |
union REGS regs; /* needed, and power saver not */ | |
int86(0x28, ®s, ®s); /* disabled, then call INT 28h */ | |
} /* for some power saving */ | |
} | |
if (exitaction != ACTION_NONE) break; | |
} | |
switch (curevent->type) { | |
case EVENT_NOTEON: | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu: NOTE ON chan: %d / note: %d / vel: %d\n", trackinfo->elapsedsec, curevent->data.note.chan, curevent->data.note.note, curevent->data.note.velocity); | |
#endif | |
dev_noteon(curevent->data.note.chan, curevent->data.note.note, (volume * curevent->data.note.velocity) / 100); | |
trackinfo->notestates[curevent->data.note.note] |= (1 << curevent->data.note.chan); | |
refreshflags |= UI_REFRESH_NOTES; | |
refreshchans |= (1 << curevent->data.note.chan); | |
break; | |
case EVENT_NOTEOFF: | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu: NOTE OFF chan: %d / note: %d\n", trackinfo->elapsedsec, curevent->data.note.chan, curevent->data.note.note); | |
#endif | |
dev_noteoff(curevent->data.note.chan, curevent->data.note.note); | |
trackinfo->notestates[curevent->data.note.note] &= (0xFFFF ^ (1 << curevent->data.note.chan)); | |
refreshflags |= UI_REFRESH_NOTES; | |
refreshchans |= (1 << curevent->data.note.chan); | |
break; | |
case EVENT_TEMPO: | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu (%lu): TEMPO change from %lu to %lu\n", trackinfo->elapsedsec, elticks, trackinfo->tempo, curevent->data.tempoval); | |
#endif | |
trackinfo->tempo = curevent->data.tempoval; | |
refreshflags |= UI_REFRESH_TEMPO; | |
break; | |
case EVENT_PROGCHAN: | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu: CHANNEL #%d PROG: %d\n", trackinfo->elapsedsec, curevent->data.prog.chan, curevent->data.prog.prog); | |
#endif | |
trackinfo->chanprogs[curevent->data.prog.chan] = curevent->data.prog.prog; | |
dev_setprog(curevent->data.prog.chan, curevent->data.prog.prog); | |
refreshflags |= UI_REFRESH_PROGS; | |
break; | |
case EVENT_PITCH: | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu: PITCH WHEEL ON CHAN #%d: %d\n", trackinfo->elapsedsec, curevent->data.pitch.chan, curevent->data.pitch.wheel); | |
#endif | |
dev_pitchwheel(curevent->data.pitch.chan, curevent->data.pitch.wheel); | |
break; | |
case EVENT_CONTROL: | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu: CONTROLLER %d ON CHAN #%d -> val %d\n", trackinfo->elapsedsec, curevent->data.control.id, curevent->data.control.chan, curevent->data.control.val); | |
#endif | |
dev_controller(curevent->data.control.chan, curevent->data.control.id, curevent->data.control.val); | |
break; | |
case EVENT_CHANPRESSURE: | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu: CHANNEL PRESSURE %d ON CHAN #%d\n", trackinfo->elapsedsec, curevent->data.chanpressure.pressure, curevent->data.chanpressure.chan); | |
#endif | |
dev_chanpressure(curevent->data.chanpressure.chan, curevent->data.chanpressure.pressure); | |
break; | |
case EVENT_KEYPRESSURE: | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu: KEY PRESSURE %d ON CHAN #%d, KEY %d\n", trackinfo->elapsedsec, curevent->data.keypressure.pressure, curevent->data.keypressure.chan, curevent->data.keypressure.note); | |
#endif | |
dev_keypressure(curevent->data.keypressure.chan, curevent->data.keypressure.note, curevent->data.keypressure.pressure); | |
break; | |
case EVENT_SYSEX: | |
{ | |
unsigned short sysexlen; | |
/* read two bytes from sysexptr so I know how long the thing is */ | |
mem_pull(curevent->data.sysex.sysexptr, &sysexlen, 2); | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu: SYSEX is %d bytes long", trackinfo->elapsedsec, sysexlen); | |
#endif | |
/* */ | |
i = sysexlen; | |
if ((i & 1) != 0) i++; /* XMS moves MUST occur on even-aligned data only */ | |
sysexbuff = (void *)wbuff; | |
mem_pull(curevent->data.sysex.sysexptr, sysexbuff, i + 2); | |
dev_sysex(sysexbuff[2] & 0x0F, sysexbuff + 2, sysexlen); | |
#ifdef DBGFILE | |
if (params->logfd != NULL) { | |
for (i = 0; i < sysexlen; i++) { | |
fprintf(params->logfd, " %02Xh", sysexbuff[i + 2]); | |
} | |
fprintf(params->logfd, "\n"); | |
} | |
#endif | |
break; | |
} | |
default: | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "%lu: ILLEGAL COMMAND: 0x%02X\n", trackinfo->elapsedsec, curevent->type); | |
#endif | |
break; | |
} | |
if (trackpos < 0) break; | |
trackpos = curevent->next; | |
} | |
#ifdef DBGFILE | |
if (params->logfd != NULL) fprintf(params->logfd, "Clear notes\n"); | |
#endif | |
/* Look for notes that are still ON and turn them OFF */ | |
for (i = 0; i < 128; i++) { | |
if (trackinfo->notestates[i] != 0) { | |
int c; | |
for (c = 0; c < 16; c++) { | |
if (trackinfo->notestates[i] & (1 << c)) { | |
/* printf("note #%d is still playing on channel %d\n", i, c); */ | |
dev_noteoff(c, i); | |
} | |
} | |
} | |
} | |
/* reinit the device (all notes off, reset master volume, etc) */ | |
dev_clear(); | |
return(exitaction); | |
} | |
int main(int argc, char **argv) { | |
char *errstr; | |
enum playactions action = ACTION_NONE; | |
int softerrcount = 0; /* counts soft errors - if too many occurs at once, dosmid quits */ | |
/* below objects are declared static so they land in the data segment and not in stack */ | |
static struct trackinfodata trackinfo; | |
static struct midi_event_t eventscache[EVENTSCACHESIZE]; | |
static struct clioptions params; | |
enum direction_t playlistdir; | |
/* make sure to init all CLI params to empty values */ | |
/* memset(¶ms, 0, sizeof(params)); */ /* no need to (static storage) */ | |
/* preload the mpu port to be used (might be forced later via **argv) */ | |
preload_outdev(¶ms); | |
errstr = loadconfigfile(¶ms); | |
if (errstr == NULL) errstr = parseargv(argc, argv, ¶ms); | |
if (errstr != NULL) { | |
if (*errstr != 0) { | |
dos_puts(errstr); | |
dos_puts("Run DOSMID /? for additional help$"); | |
} else { | |
dos_puts("DOSMid v" PVER " Copyright (C) " PDATE " Mateusz Viste\r\n" | |
"a MIDI player that plays MID, RMI and MUS files.\r\n" | |
"\r\n" | |
"usage: dosmid [options] file.mid (or m3u playlist)\r\n" | |
"\r\n" | |
"options:\r\n" | |
" /noxms use conventional memory instead of XMS (loads small files only)$"); | |
dos_puts(" /xmsdelay wait 2ms before accessing XMS memory (AWEUTIL compatibility)\r\n" | |
" /mpu[=XXX] use MPU-401 on I/O port XXX. /mpu reads port address from BLASTER\r\n" | |
#ifdef SBAWE | |
" /awe[=XXX] use the EMU8K on SB AWE cards, port is optional (read from BLASTER)\r\n" | |
#endif | |
#ifdef OPL | |
" /opl[=XXX] use an FM synthesis OPL2/OPL3 chip for sound output\r\n" | |
#endif | |
" /sbmidi[=XXX] outputs MIDI to the SoundBlaster MIDI port at I/O addr XXX$"); | |
dos_puts(" /com[=XXX] output MIDI messages to the RS-232 port at I/O address XXX\r\n" | |
" /comX same as /com=XXX, but takes a COM port instead (example: /com1)\r\n" | |
" /gus use the Gravis UltraSound card (requires ULTRAMID)\r\n" | |
" /syx=FILE use SYSEX instructions from FILE for MIDI initialization$"); | |
dos_puts(" /sbnk=FILE load a custom sound bank file(s) (IBK on OPL, SBK on AWE)\r\n" | |
#ifdef DBGFILE | |
" /log=FILE write highly verbose logs about DOSMid's activity to FILE\r\n" | |
#endif | |
" /preset=XX preset midi device to one of modes: GM, GS, XG or NONE (default=GM)\r\n" | |
" /fullcpu do not let DOSMid try to be CPU-friendly\r\n" | |
" /dontstop never wait for a keypress on error and continue the playlist\r\n" | |
" /random randomize playlist order\r\n" | |
" /nosound disable sound output\r\n" | |
"$"); /* DOS string terminator */ | |
} | |
return(1); | |
} | |
params.devname = devtoname(params.device, params.devicesubtype); | |
/* populate trackinfo with initial data */ | |
init_trackinfo(&trackinfo, ¶ms); | |
/* initialize the high resolution timer */ | |
timer_init(); | |
/* init ui and hide the blinking cursor */ | |
ui_init(); | |
ui_hidecursor(); | |
/* init the sound device */ | |
sprintf(trackinfo.title[0], "Sound hardware initialization..."); | |
{ | |
unsigned short rflags = 0xffffu, rchans = 0xffffu; | |
ui_draw(&trackinfo, &rflags, &rchans, params.devname, params.devport, 100); | |
} | |
#ifdef DBGFILE | |
if (params.logfd != NULL) fprintf(params.logfd, "INIT SOUND HARDWARE\n"); | |
#endif | |
errstr = dev_init(params.device, params.devport, params.sbnk); | |
if (errstr != NULL) { | |
ui_puterrmsg("Hardware initialization failure", errstr); | |
getkey(); | |
goto hardwarefailure; | |
} | |
/* refresh outdev and its name (might have been changed due to OPL autodetection) */ | |
params.device = dev_getcurdev(); | |
params.devname = devtoname(params.device, params.devicesubtype); | |
/* allocate the work memory */ | |
if (mem_init(params.memmode) == 0) { | |
if (params.memmode == MEM_XMS) { | |
ui_puterrmsg("ERROR: Memory init failed! No XMS maybe? Try /noxms.", NULL); | |
} else { | |
ui_puterrmsg("ERROR: Memory init failed!", NULL); | |
} | |
getkey(); | |
goto memallocfail; | |
} | |
/* playlist loop */ | |
if (params.random != 0) { | |
playlistdir = DIR_RND; | |
} else { | |
playlistdir = DIR_FWD; | |
} | |
while (action != ACTION_EXIT) { | |
action = playfile(¶ms, &trackinfo, eventscache, playlistdir); | |
if (params.random != 0) { | |
playlistdir = DIR_RND; | |
} else { | |
playlistdir = DIR_FWD; | |
} | |
/* if I get three soft errors in a row, it's time to quit */ | |
if (action != ACTION_ERR_SOFT) softerrcount = 0; | |
switch (action) { | |
case ACTION_EXIT: | |
/* do nothing, we will exit at the end of the loop anyway */ | |
break; | |
case ACTION_PREV: | |
playlistdir = DIR_REV; | |
break; | |
case ACTION_NEXT: | |
/* no explicit action - we will do a 'next' action by default */ | |
break; | |
case ACTION_ERR_HARD: /* wait for a keypress and quit */ | |
udelay(2000000lu); | |
getkey(); | |
action = ACTION_EXIT; | |
break; | |
case ACTION_ERR_SOFT: /* wait for a keypress so the user */ | |
if (params.dontstop == 0) { /* acknowledges the error message, */ | |
getkey(); /* then continue as usual */ | |
} else { | |
udelay(2000000lu); | |
} | |
/* if too many soft error occur in a row, quit */ | |
if (++softerrcount > 2) { | |
ui_puterrmsg("", "Too many failures occured, will quit now!"); | |
udelay(2000000lu); | |
getkey(); | |
action = ACTION_EXIT; | |
break; | |
} | |
case ACTION_NONE: /* choose an action depending on the mode we are in */ | |
if (params.playlist == NULL) { | |
/* wait 1s before quit, so it doesn't feel 'brutal', but don't if */ | |
if (action == ACTION_NONE) udelay(1000000lu); /* an error occured */ | |
action = ACTION_EXIT; | |
} else { | |
action = ACTION_NEXT; | |
} | |
break; | |
} | |
} | |
/* unload XMS memory */ | |
mem_close(); | |
memallocfail: /* jump here if mem_init() fails */ | |
/* close sound hardware */ | |
dev_close(); | |
hardwarefailure: /* this label I jump to when sound hardware init fails */ | |
/* reset screen (clears the screen and makes the cursor visible again) */ | |
ui_close(); | |
/* free the allocated strings, if any */ | |
if (params.sbnk != NULL) free(params.sbnk); | |
if (params.syxrst != NULL) free(params.syxrst); | |
/* if a verbose log file was used, close it now */ | |
#ifdef DBGFILE | |
if (params.logfd != NULL) { | |
fprintf(params.logfd, "Closing the log file\n"); | |
fclose(params.logfd); | |
} | |
#endif | |
dos_puts("DOSMid v" PVER " Copyright (C) " PDATE " Mateusz Viste$"); | |
return(0); | |
} |