Subversion Repositories SvarDOS

/* This file is part of the SvarCOM project and is published under the terms

/* This file is part of the SvarCOM project and is published under the terms

 * of the MIT license.

 * of the MIT license.

 *

 *

 * Copyright (C) 2021 Mateusz Viste

 * Copyright (C) 2021 Mateusz Viste

 *

 *

 * Permission is hereby granted, free of charge, to any person obtaining a

 * Permission is hereby granted, free of charge, to any person obtaining a

 * copy of this software and associated documentation files (the "Software"),

 * copy of this software and associated documentation files (the "Software"),

 * to deal in the Software without restriction, including without limitation

 * to deal in the Software without restriction, including without limitation

 * the rights to use, copy, modify, merge, publish, distribute, sublicense,

 * the rights to use, copy, modify, merge, publish, distribute, sublicense,

 * and/or sell copies of the Software, and to permit persons to whom the

 * and/or sell copies of the Software, and to permit persons to whom the

 * Software is furnished to do so, subject to the following conditions:

 * Software is furnished to do so, subject to the following conditions:

 *

 *

 * The above copyright notice and this permission notice shall be included in

 * The above copyright notice and this permission notice shall be included in

 * all copies or substantial portions of the Software.

 * all copies or substantial portions of the Software.

 *

 *

 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR

 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR

 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,

 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,

 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE

 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE

 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER

 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER

 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING

 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING

 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER

 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER

 * DEALINGS IN THE SOFTWARE.

 * DEALINGS IN THE SOFTWARE.

 */

 */

/*

/*

 * SvarCOM is a command-line interpreter.

 * SvarCOM is a command-line interpreter.

 *

 *

 * a little memory area is allocated as high as possible. it contains:

 * a little memory area is allocated as high as possible. it contains:

 *  - a signature (like XMS drivers do)

 *  - a signature (like XMS drivers do)

 *  - a routine for exec'ing programs

 *  - a routine for exec'ing programs

 *  - a "last command" buffer for input history

 *  - a "last command" buffer for input history

 *

 *

 * when svarcom starts, it tries locating the routine in memory.

 * when svarcom starts, it tries locating the routine in memory.

 *

 *

 * if found:

 * if found:

 *   waits for user input and processes it. if execing something is required, set the "next exec" field in routine's memory and quit.

 *   waits for user input and processes it. if execing something is required, set the "next exec" field in routine's memory and quit.

 *

 *

 * if not found:

 * if not found:

 *   installs it by creating a new PSP, set int 22 vector to the routine, set my "parent PSP" to the routine

 *   installs it by creating a new PSP, set int 22 vector to the routine, set my "parent PSP" to the routine

 *   and quit.

 *   and quit.

 *

 *

 * PSP structure

 * PSP structure

 * http://www.piclist.com/techref/dos/psps.htm

 * http://www.piclist.com/techref/dos/psps.htm

 *

 *

 *

 *

 *

 *

 * === MCB ===

 * === MCB ===

 *

 *

 * each time that DOS allocates memory, it prefixes the allocated memory with

 * each time that DOS allocates memory, it prefixes the allocated memory with

 * a 16-bytes structure called a "Memory Control Block" (MCB). This control

 * a 16-bytes structure called a "Memory Control Block" (MCB). This control

 * block has the following structure:

 * block has the following structure:

 *

 *

 * Offset  Size     Description

 * Offset  Size     Description

 *   00h   byte     'M' =  non-last member of the MCB chain

 *   00h   byte     'M' =  non-last member of the MCB chain

 *                  'Z' = indicates last entry in MCB chain

 *                  'Z' = indicates last entry in MCB chain

 *                  other values cause "Memory Allocation Failure" on exit

 *                  other values cause "Memory Allocation Failure" on exit

 *   01h   word     PSP segment address of the owner (Process Id)

 *   01h   word     PSP segment address of the owner (Process Id)

 *                  possible values:

 *                  possible values:

 *                    0 = free

 *                    0 = free

 *                    8 = Allocated by DOS before first user pgm loaded

 *                    8 = Allocated by DOS before first user pgm loaded

 *                    other = Process Id/PSP segment address of owner

 *                    other = Process Id/PSP segment address of owner

 *   03h  word      number of paragraphs related to this MCB (excluding MCB)

 *   03h  word      number of paragraphs related to this MCB (excluding MCB)

 *   05h  11 bytes  reserved

 *   05h  11 bytes  reserved

 *   10h  ...       start of actual allocated memory block

 *   10h  ...       start of actual allocated memory block

 */

 */

#include <i86.h>

#include <i86.h>

#include <dos.h>

#include <dos.h>

#include <stdio.h>

#include <stdio.h>

#include <stdlib.h>

#include <stdlib.h>

#include <string.h>

#include <string.h>

#include <process.h>

#include <process.h>

#include "cmd.h"

#include "cmd.h"

#include "env.h"

#include "env.h"

#include "helpers.h"

#include "helpers.h"

#include "redir.h"

#include "redir.h"

#include "rmodinit.h"

#include "rmodinit.h"

#include "sayonara.h"

#include "sayonara.h"

struct config {

struct config {

  unsigned char flags; /* command.com flags, as defined in rmodinit.h */

  unsigned char flags; /* command.com flags, as defined in rmodinit.h */

  char *execcmd;

  char *execcmd;

  unsigned short envsiz;

  unsigned short envsiz;

};

};

/* parses command line the hard way (directly from PSP) */

/* parses command line the hard way (directly from PSP) */

static void parse_argv(struct config *cfg) {

static void parse_argv(struct config *cfg) {

  unsigned short i;

  unsigned short i;

  const unsigned char *cmdlinelen = (unsigned char *)0x80;

  const unsigned char *cmdlinelen = (unsigned char *)0x80;

  char *cmdline = (char *)0x81;

  char *cmdline = (char *)0x81;

  memset(cfg, 0, sizeof(*cfg));

  memset(cfg, 0, sizeof(*cfg));

  /* set a NULL terminator on cmdline */

  /* set a NULL terminator on cmdline */

  cmdline[*cmdlinelen] = 0;

  cmdline[*cmdlinelen] = 0;

  for (i = 0;;) {

  for (i = 0;;) {

    /* skip over any leading spaces */

    /* skip over any leading spaces */

    for (;; i++) {

    for (;; i++) {

      if (cmdline[i] == 0) return;

      if (cmdline[i] == 0) return;

      if (cmdline[i] != ' ') break;

      if (cmdline[i] != ' ') break;

    }

    }

    if (cmdline[i] != '/') {

    if (cmdline[i] != '/') {

      output("Invalid parameter: ");

      output("Invalid parameter: ");

      outputnl(cmdline + i);

      outputnl(cmdline + i);

      /* exit(1); */

      /* exit(1); */

    } else {

    } else {

      i++;        /* skip the slash */

      i++;        /* skip the slash */

      switch (cmdline[i]) {

      switch (cmdline[i]) {

        case 'c': /* /C = execute command and quit */

        case 'c': /* /C = execute command and quit */

        case 'C':

        case 'C':

          cfg->flags |= FLAG_EXEC_AND_QUIT;

          cfg->flags |= FLAG_EXEC_AND_QUIT;

          /* FALLTHRU */

          /* FALLTHRU */

        case 'k': /* /K = execute command and keep running */

        case 'k': /* /K = execute command and keep running */

        case 'K':

        case 'K':

          cfg->execcmd = cmdline + i + 1;

          cfg->execcmd = cmdline + i + 1;

          return;

          return;

        case 'e': /* preset the initial size of the environment block */

        case 'e': /* preset the initial size of the environment block */

        case 'E':

        case 'E':

          i++;

          i++;

          if (cmdline[i] == ':') i++; /* could be /E:size */

          if (cmdline[i] == ':') i++; /* could be /E:size */

          atous(&(cfg->envsiz), cmdline + i);

          atous(&(cfg->envsiz), cmdline + i);

          if (cfg->envsiz < 64) cfg->envsiz = 0;

          if (cfg->envsiz < 64) cfg->envsiz = 0;

          break;

          break;

        case 'p': /* permanent shell (can't exit) */

        case 'p': /* permanent shell (can't exit) */

        case 'P':

        case 'P':

          cfg->flags |= FLAG_PERMANENT;

          cfg->flags |= FLAG_PERMANENT;

          break;

          break;

        case '?':

        case '?':

          outputnl("Starts the SvarCOM command interpreter");

          outputnl("Starts the SvarCOM command interpreter");

          outputnl("");

          outputnl("");

          outputnl("COMMAND /E:nnn [/[C|K] command]");

          outputnl("COMMAND /E:nnn [/[C|K] command]");

          outputnl("");

          outputnl("");

          outputnl("/E:nnn     Sets the environment size to nnn bytes");

          outputnl("/E:nnn     Sets the environment size to nnn bytes");

          outputnl("/P         Makes the new command interpreter permanent (can't exit)");

          outputnl("/P         Makes the new command interpreter permanent (can't exit)");

          outputnl("/C         Executes the specified command and returns");

          outputnl("/C         Executes the specified command and returns");

          outputnl("/K         Executes the specified command and continues running");

          outputnl("/K         Executes the specified command and continues running");

          exit(1);

          exit(1);

          break;

          break;

        default:

        default:

          output("Invalid switch:");

          output("Invalid switch:");

          output(" ");

          output(" ");

          outputnl(cmdline + i);

          outputnl(cmdline + i);

          exit(1);

          exit(1);

          break;

          break;

      }

      }

    }

    }

    /* move to next argument or quit processing if end of cmdline */

    /* move to next argument or quit processing if end of cmdline */

    for (i++; (cmdline[i] != 0) && (cmdline[i] != ' ') && (cmdline[i] != '/'); i++);

    for (i++; (cmdline[i] != 0) && (cmdline[i] != ' ') && (cmdline[i] != '/'); i++);

  }

  }

}

}

static void buildprompt(char *s, unsigned short envseg) {

static void buildprompt(char *s, unsigned short envseg) {

  /* locate the prompt variable or use the default pattern */

  /* locate the prompt variable or use the default pattern */

  const char far *fmt = env_lookup_val(envseg, "PROMPT");

  const char far *fmt = env_lookup_val(envseg, "PROMPT");

  if ((fmt == NULL) || (*fmt == 0)) fmt = "$p$g"; /* fallback to default if empty */

  if ((fmt == NULL) || (*fmt == 0)) fmt = "$p$g"; /* fallback to default if empty */

  /* build the prompt string based on pattern */

  /* build the prompt string based on pattern */

  for (; *fmt != 0; fmt++) {

  for (; *fmt != 0; fmt++) {

    if (*fmt != '$') {

    if (*fmt != '$') {

      *s = *fmt;

      *s = *fmt;

      s++;

      s++;

      continue;

      continue;

    }

    }

    /* escape code ($P, etc) */

    /* escape code ($P, etc) */

    fmt++;

    fmt++;

    switch (*fmt) {

    switch (*fmt) {

      case 'Q':  /* $Q = = (equal sign) */

      case 'Q':  /* $Q = = (equal sign) */

      case 'q':

      case 'q':

        *s = '=';

        *s = '=';

        s++;

        s++;

        break;

        break;

      case '$':  /* $$ = $ (dollar sign) */

      case '$':  /* $$ = $ (dollar sign) */

        *s = '$';

        *s = '$';

        s++;

        s++;

        break;

        break;

      case 'T':  /* $t = current time */

      case 'T':  /* $t = current time */

      case 't':

      case 't':

        s += sprintf(s, "00:00"); /* TODO */

        s += sprintf(s, "00:00"); /* TODO */

        break;

        break;

      case 'D':  /* $D = current date */

      case 'D':  /* $D = current date */

      case 'd':

      case 'd':

        s += sprintf(s, "1985-07-29"); /* TODO */

        s += sprintf(s, "1985-07-29"); /* TODO */

        break;

        break;

      case 'P':  /* $P = current drive and path */

      case 'P':  /* $P = current drive and path */

      case 'p':

      case 'p':

        _asm {

        _asm {

          mov ah, 0x19    /* DOS 1+ - GET CURRENT DRIVE */

          mov ah, 0x19    /* DOS 1+ - GET CURRENT DRIVE */

          int 0x21

          int 0x21

          mov bx, s

          mov bx, s

          mov [bx], al  /* AL = drive (00 = A:, 01 = B:, etc */

          mov [bx], al  /* AL = drive (00 = A:, 01 = B:, etc */

        }

        }

        *s += 'A';

        *s += 'A';

        s++;

        s++;

        *s = ':';

        *s = ':';

        s++;

        s++;

        *s = '\\';

        *s = '\\';

        s++;

        s++;

        _asm {

        _asm {

          mov ah, 0x47    /* DOS 2+ - CWD - GET CURRENT DIRECTORY */

          mov ah, 0x47    /* DOS 2+ - CWD - GET CURRENT DIRECTORY */

          xor dl,dl       /* DL = drive number (00h = default, 01h = A:, etc) */

          xor dl,dl       /* DL = drive number (00h = default, 01h = A:, etc) */

          mov si, s       /* DS:SI -> 64-byte buffer for ASCIZ pathname */

          mov si, s       /* DS:SI -> 64-byte buffer for ASCIZ pathname */

          int 0x21

          int 0x21

        }

        }

        while (*s != 0) s++; /* move ptr forward to end of pathname */

        while (*s != 0) s++; /* move ptr forward to end of pathname */

        break;

        break;

      case 'V':  /* $V = DOS version number */

      case 'V':  /* $V = DOS version number */

      case 'v':

      case 'v':

        s += sprintf(s, "VER"); /* TODO */

        s += sprintf(s, "VER"); /* TODO */

        break;

        break;

      case 'N':  /* $N = current drive */

      case 'N':  /* $N = current drive */

      case 'n':

      case 'n':

        _asm {

        _asm {

          mov ah, 0x19    /* DOS 1+ - GET CURRENT DRIVE */

          mov ah, 0x19    /* DOS 1+ - GET CURRENT DRIVE */

          int 0x21

          int 0x21

          mov bx, s

          mov bx, s

          mov [bx], al  /* AL = drive (00 = A:, 01 = B:, etc */

          mov [bx], al  /* AL = drive (00 = A:, 01 = B:, etc */

        }

        }

        *s += 'A';

        *s += 'A';

        s++;

        s++;

        break;

        break;

      case 'G':  /* $G = > (greater-than sign) */

      case 'G':  /* $G = > (greater-than sign) */

      case 'g':

      case 'g':

        *s = '>';

        *s = '>';

        s++;

        s++;

        break;

        break;

      case 'L':  /* $L = < (less-than sign) */

      case 'L':  /* $L = < (less-than sign) */

      case 'l':

      case 'l':

        *s = '<';

        *s = '<';

        s++;

        s++;

        break;

        break;

      case 'B':  /* $B = | (pipe) */

      case 'B':  /* $B = | (pipe) */

      case 'b':

      case 'b':

        *s = '|';

        *s = '|';

        s++;

        s++;

        break;

        break;

      case 'H':  /* $H = backspace (erases previous character) */

      case 'H':  /* $H = backspace (erases previous character) */

      case 'h':

      case 'h':

        *s = '\b';

        *s = '\b';

        s++;

        s++;

        break;

        break;

      case 'E':  /* $E = Escape code (ASCII 27) */

      case 'E':  /* $E = Escape code (ASCII 27) */

      case 'e':

      case 'e':

        *s = 27;

        *s = 27;

        s++;

        s++;

        break;

        break;

      case '_':  /* $_ = CR+LF */

      case '_':  /* $_ = CR+LF */

        *s = '\r';

        *s = '\r';

        s++;

        s++;

        *s = '\n';

        *s = '\n';

        s++;

        s++;

        break;

        break;

    }

    }

  }

  }

  *s = '$';

  *s = '$';

}

}

/* tries locating executable fname in path and fille res with result. returns 0 on success,

/* tries locating executable fname in path and fille res with result. returns 0 on success,

 * -1 on failed match and -2 on failed match + "don't even try with other paths"

 * -1 on failed match and -2 on failed match + "don't even try with other paths"

 * format is filled the offset where extension starts in fname (-1 if not found) */

 * format is filled the offset where extension starts in fname (-1 if not found) */

int lookup_cmd(char *res, const char *fname, const char *path, const char **extptr) {

int lookup_cmd(char *res, const char *fname, const char *path, const char **extptr) {

  unsigned short lastbslash = 0xffff;

  unsigned short lastbslash = 0xffff;

  unsigned short i, len;

  unsigned short i, len;

  unsigned char explicitpath = 0;

  unsigned char explicitpath = 0;

  /* does the original fname had an explicit path prefix or explicit ext? */

  /* does the original fname had an explicit path prefix or explicit ext? */

  *extptr = NULL;

  *extptr = NULL;

  for (i = 0; fname[i] != 0; i++) {

  for (i = 0; fname[i] != 0; i++) {

    switch (fname[i]) {

    switch (fname[i]) {

      case ':':

      case ':':

      case '\\':

      case '\\':

        explicitpath = 1;

        explicitpath = 1;

        *extptr = NULL; /* extension is the last dot AFTER all path delimiters */

        *extptr = NULL; /* extension is the last dot AFTER all path delimiters */

        break;

        break;

      case '.':

      case '.':

        *extptr = fname + i + 1;

        *extptr = fname + i + 1;

        break;

        break;

    }

    }

  }

  }

  /* normalize filename */

  /* normalize filename */

  if (file_truename(fname, res) != 0) return(-2);

  if (file_truename(fname, res) != 0) return(-2);

  /* printf("truename: %s\r\n", res); */

  /* printf("truename: %s\r\n", res); */

  /* figure out where the command starts and if it has an explicit extension */

  /* figure out where the command starts and if it has an explicit extension */

  for (len = 0; res[len] != 0; len++) {

  for (len = 0; res[len] != 0; len++) {

    switch (res[len]) {

    switch (res[len]) {

      case '?':   /* abort on any wildcard character */

      case '?':   /* abort on any wildcard character */

      case '*':

      case '*':

        return(-2);

        return(-2);

      case '\\':

      case '\\':

        lastbslash = len;

        lastbslash = len;

        break;

        break;

    }

    }

  }

  }

  /* printf("lastbslash=%u\r\n", lastbslash); */

  /* printf("lastbslash=%u\r\n", lastbslash); */

  /* if no path prefix in fname (':' or backslash), then assemble path+filename */

  /* if no path prefix in fname (':' or backslash), then assemble path+filename */

  if (!explicitpath) {

  if (!explicitpath) {

    if (path != NULL) {

    if (path != NULL) {

      i = strlen(path);

      i = strlen(path);

    } else {

    } else {

      i = 0;

      i = 0;

    }

    }

    if ((i != 0) && (path[i - 1] != '\\')) i++; /* add a byte for inserting a bkslash after path */

    if ((i != 0) && (path[i - 1] != '\\')) i++; /* add a byte for inserting a bkslash after path */

    memmove(res + i, res + lastbslash + 1, len - lastbslash);

    memmove(res + i, res + lastbslash + 1, len - lastbslash);

    if (i != 0) {

    if (i != 0) {

      memmove(res, path, i);

      memmove(res, path, i);

      res[i - 1] = '\\';

      res[i - 1] = '\\';

    }

    }

  }

  }

  /* if no extension was initially provided, try matching COM, EXE, BAT */

  /* if no extension was initially provided, try matching COM, EXE, BAT */

  if (*extptr == NULL) {

  if (*extptr == NULL) {

    const char *ext[] = {".COM", ".EXE", ".BAT", NULL};

    const char *ext[] = {".COM", ".EXE", ".BAT", NULL};

    len = strlen(res);

    len = strlen(res);

    for (i = 0; ext[i] != NULL; i++) {

    for (i = 0; ext[i] != NULL; i++) {

      strcpy(res + len, ext[i]);

      strcpy(res + len, ext[i]);

      /* printf("? '%s'\r\n", res); */

      /* printf("? '%s'\r\n", res); */

      *extptr = ext[i] + 1;

      *extptr = ext[i] + 1;

      if (file_getattr(res) >= 0) return(0);

      if (file_getattr(res) >= 0) return(0);

    }

    }

  } else { /* try finding it as-is */

  } else { /* try finding it as-is */

    /* printf("? '%s'\r\n", res); */

    /* printf("? '%s'\r\n", res); */

    if (file_getattr(res) >= 0) return(0);

    if (file_getattr(res) >= 0) return(0);

  }

  }

  /* not found */

  /* not found */

  if (explicitpath) return(-2); /* don't bother trying other paths, the caller had its own path preset anyway */

  if (explicitpath) return(-2); /* don't bother trying other paths, the caller had its own path preset anyway */

  return(-1);

  return(-1);

}

}

static void run_as_external(char *buff, const char far *cmdline, unsigned short envseg, struct rmod_props far *rmod) {

static void run_as_external(char *buff, const char far *cmdline, unsigned short envseg, struct rmod_props far *rmod) {

  char const **argvlist = (void *)(buff + 512);

  char const **argvlist = (void *)(buff + 512);

  char *cmdfile = buff + 1024;

  char *cmdfile = buff + 1024;

  const char far *pathptr;

  const char far *pathptr;

  int lookup;

  int lookup;

  unsigned short i;

  unsigned short i;

  const char *ext;

  const char *ext;

  const char far *cmdtail;

  const char far *cmdtail;

  char far *rmod_execprog = MK_FP(rmod->rmodseg, RMOD_OFFSET_EXECPROG);

  char far *rmod_execprog = MK_FP(rmod->rmodseg, RMOD_OFFSET_EXECPROG);

  char far *rmod_cmdtail = MK_FP(rmod->rmodseg, 0x81);

  char far *rmod_cmdtail = MK_FP(rmod->rmodseg, 0x81);

  _Packed struct {

  _Packed struct {

    unsigned short envseg;

    unsigned short envseg;

    unsigned long cmdtail;

    unsigned long cmdtail;

    unsigned long fcb1;

    unsigned long fcb1;

    unsigned long fcb2;

    unsigned long fcb2;

  } far *ExecParam = MK_FP(rmod->rmodseg, RMOD_OFFSET_EXECPARAM);

  } far *ExecParam = MK_FP(rmod->rmodseg, RMOD_OFFSET_EXECPARAM);

  cmd_explode(buff + 2048, cmdline, argvlist);

  cmd_explode(buff + 2048, cmdline, argvlist);

  /* for (i = 0; argvlist[i] != NULL; i++) printf("arg #%d = '%s'\r\n", i, argvlist[i]); */

  /* for (i = 0; argvlist[i] != NULL; i++) printf("arg #%d = '%s'\r\n", i, argvlist[i]); */

  /* is this a command in curdir? */

  /* is this a command in curdir? */

  lookup = lookup_cmd(cmdfile, argvlist[0], NULL, &ext);

  lookup = lookup_cmd(cmdfile, argvlist[0], NULL, &ext);

  if (lookup == 0) {

  if (lookup == 0) {

    /* printf("FOUND LOCAL EXEC FILE: '%s'\r\n", cmdfile); */

    /* printf("FOUND LOCAL EXEC FILE: '%s'\r\n", cmdfile); */

    goto RUNCMDFILE;

    goto RUNCMDFILE;

  } else if (lookup == -2) {

  } else if (lookup == -2) {

    /* puts("NOT FOUND"); */

    /* puts("NOT FOUND"); */

    return;

    return;

  }

  }

  /* try matching something in PATH */

  /* try matching something in PATH */

  pathptr = env_lookup_val(envseg, "PATH");

  pathptr = env_lookup_val(envseg, "PATH");

  if (pathptr == NULL) return;

  if (pathptr == NULL) return;

  /* try each path in %PATH% */

  /* try each path in %PATH% */

  for (;;) {

  for (;;) {

    for (i = 0;; i++) {

    for (i = 0;; i++) {

      buff[i] = *pathptr;

      buff[i] = *pathptr;

      if ((buff[i] == 0) || (buff[i] == ';')) break;

      if ((buff[i] == 0) || (buff[i] == ';')) break;

      pathptr++;

      pathptr++;

    }

    }

    buff[i] = 0;

    buff[i] = 0;

    lookup = lookup_cmd(cmdfile, argvlist[0], buff, &ext);

    lookup = lookup_cmd(cmdfile, argvlist[0], buff, &ext);

    if (lookup == 0) break;

    if (lookup == 0) break;

    if (lookup == -2) return;

    if (lookup == -2) return;

    if (*pathptr == ';') {

    if (*pathptr == ';') {

      pathptr++;

      pathptr++;

    } else {

    } else {

      return;

      return;

    }

    }

  }

  }

  RUNCMDFILE:

  RUNCMDFILE:

  /* TODO run command through INT 0x21 */

  /* TODO run command through INT 0x21 */

  /* TODO copy environment and append full exec path */

  /* TODO copy environment and append full exec path */

  /* TODO special handling of batch files */

  /* TODO special handling of batch files */

  if ((ext != NULL) && (imatch(ext, "bat"))) {

  if ((ext != NULL) && (imatch(ext, "bat"))) {

    outputnl("batch processing not supported yet");

    outputnl("batch processing not supported yet");

    return;

    return;

  }

  }

  /* find cmdtail */

  /* find cmdtail */

  cmdtail = cmdline;

  cmdtail = cmdline;

  while (*cmdtail == ' ') cmdtail++;

  while (*cmdtail == ' ') cmdtail++;

  while ((*cmdtail != ' ') && (*cmdtail != '/') && (*cmdtail != '+') && (*cmdtail != 0)) {

  while ((*cmdtail != ' ') && (*cmdtail != '/') && (*cmdtail != '+') && (*cmdtail != 0)) {

    cmdtail++;

    cmdtail++;

  }

  }

  /* copy full filename to execute */

  /* copy full filename to execute */

  for (i = 0; cmdfile[i] != 0; i++) rmod_execprog[i] = cmdfile[i];

  for (i = 0; cmdfile[i] != 0; i++) rmod_execprog[i] = cmdfile[i];

  rmod_execprog[i] = 0;

  rmod_execprog[i] = 0;

  /* copy cmdtail to rmod's PSP and compute its len */

  /* copy cmdtail to rmod's PSP and compute its len */

  for (i = 0; cmdtail[i] != 0; i++) rmod_cmdtail[i] = cmdtail[i];

  for (i = 0; cmdtail[i] != 0; i++) rmod_cmdtail[i] = cmdtail[i];

  rmod_cmdtail[i] = '\r';

  rmod_cmdtail[i] = '\r';

  rmod_cmdtail[-1] = i;

  rmod_cmdtail[-1] = i;

  /* set up rmod to execute the command */

  /* set up rmod to execute the command */

  ExecParam->cmdtail = (unsigned long)MK_FP(rmod->rmodseg, 0x80); /* farptr, must be in PSP format (lenbyte args \r) */

  ExecParam->cmdtail = (unsigned long)MK_FP(rmod->rmodseg, 0x80); /* farptr, must be in PSP format (lenbyte args \r) */

  ExecParam->fcb1 = 0; /* TODO farptr */

  ExecParam->fcb1 = 0; /* TODO farptr */

  ExecParam->fcb2 = 0; /* TODO farptr */

  ExecParam->fcb2 = 0; /* TODO farptr */

  exit(0); /* let rmod do the job now */

  exit(0); /* let rmod do the job now */

}

}

static void set_comspec_to_self(unsigned short envseg) {

static void set_comspec_to_self(unsigned short envseg) {

  unsigned short *psp_envseg = (void *)(0x2c); /* pointer to my env segment field in the PSP */

  unsigned short *psp_envseg = (void *)(0x2c); /* pointer to my env segment field in the PSP */

  char far *myenv = MK_FP(*psp_envseg, 0);

  char far *myenv = MK_FP(*psp_envseg, 0);

  unsigned short varcount;

  unsigned short varcount;

  char buff[256] = "COMSPEC=";

  char buff[256] = "COMSPEC=";

  char *buffptr = buff + 8;

  char *buffptr = buff + 8;

  /* who am i? look into my own environment, at the end of it should be my EXEPATH string */

  /* who am i? look into my own environment, at the end of it should be my EXEPATH string */

  while (*myenv != 0) {

  while (*myenv != 0) {

    /* consume a NULL-terminated string */

    /* consume a NULL-terminated string */

    while (*myenv != 0) myenv++;

    while (*myenv != 0) myenv++;

    /* move to next string */

    /* move to next string */

    myenv++;

    myenv++;

  }

  }

  /* get next word, if 1 then EXEPATH follows */

  /* get next word, if 1 then EXEPATH follows */

  myenv++;

  myenv++;

  varcount = *myenv;

  varcount = *myenv;

  myenv++;

  myenv++;

  varcount |= (*myenv << 8);

  varcount |= (*myenv << 8);

  myenv++;

  myenv++;

  if (varcount != 1) return; /* NO EXEPATH FOUND */

  if (varcount != 1) return; /* NO EXEPATH FOUND */

  while (*myenv != 0) {

  while (*myenv != 0) {

    *buffptr = *myenv;

    *buffptr = *myenv;

    buffptr++;

    buffptr++;

    myenv++;

    myenv++;

  }

  }

  *buffptr = 0;

  *buffptr = 0;

  /* printf("EXEPATH: '%s'\r\n", buff); */

  /* printf("EXEPATH: '%s'\r\n", buff); */

  env_setvar(envseg, buff);

  env_setvar(envseg, buff);

}

}

/* wait for user input */

/* wait for user input */

static void cmdline_getinput(unsigned short inpseg, unsigned short inpoff) {

static void cmdline_getinput(unsigned short inpseg, unsigned short inpoff) {

  _asm {

  _asm {

    push ax

    push ax

    push bx

    push bx

    push cx

    push cx

    push dx

    push dx

    push ds

    push ds

    /* is DOSKEY support present? (INT 2Fh, AX=4800h, returns non-zero in AL if present) */

    /* is DOSKEY support present? (INT 2Fh, AX=4800h, returns non-zero in AL if present) */

    mov ax, 0x4800

    mov ax, 0x4800

    int 0x2f

    int 0x2f

    mov bl, al /* save doskey status in BL */

    mov bl, al /* save doskey status in BL */

    /* set up buffered input to inpseg:inpoff */

    /* set up buffered input to inpseg:inpoff */

    mov ax, inpseg

    mov ax, inpseg

    push ax

    push ax

    pop ds

    pop ds

    mov dx, inpoff

    mov dx, inpoff

    /* execute either DOS input or DOSKEY */

    /* execute either DOS input or DOSKEY */

    test bl, bl /* zf set if no DOSKEY present */

    test bl, bl /* zf set if no DOSKEY present */

    jnz DOSKEY

    jnz DOSKEY

    mov ah, 0x0a

    mov ah, 0x0a

    int 0x21

    int 0x21

    jmp short DONE

    jmp short DONE

    DOSKEY:

    DOSKEY:

    mov ax, 0x4810

    mov ax, 0x4810

    int 0x2f

    int 0x2f

    DONE:

    DONE:

    /* terminate command with a CR/LF */

    /* terminate command with a CR/LF */

    mov ah, 0x02 /* display character in dl */

    mov ah, 0x02 /* display character in dl */

    mov dl, 0x0d

    mov dl, 0x0d

    int 0x21

    int 0x21

    mov dl, 0x0a

    mov dl, 0x0a

    int 0x21

    int 0x21

    pop ds

    pop ds

    pop dx

    pop dx

    pop cx

    pop cx

    pop bx

    pop bx

    pop ax

    pop ax

  }

  }

}

}

int main(void) {

int main(void) {

  static struct config cfg;

  static struct config cfg;

  static unsigned short rmod_seg;

  static unsigned short rmod_seg;

  static unsigned short far *rmod_envseg;

  static unsigned short far *rmod_envseg;

  static unsigned short far *lastexitcode;

  static unsigned short far *lastexitcode;

  static unsigned char BUFFER[4096];

  static unsigned char BUFFER[4096];

  static struct rmod_props far *rmod;

  static struct rmod_props far *rmod;

  parse_argv(&cfg);

  parse_argv(&cfg);

  rmod = rmod_find();

  rmod = rmod_find();

  if (rmod == NULL) {

  if (rmod == NULL) {

    rmod = rmod_install(cfg.envsiz);

    rmod = rmod_install(cfg.envsiz);

    if (rmod == NULL) {

    if (rmod == NULL) {

      outputnl("ERROR: rmod_install() failed");

      outputnl("ERROR: rmod_install() failed");

      return(1);

      return(1);

    }

    }

    /* copy flags to rmod's storage */

    /* copy flags to rmod's storage */

    rmod->flags = cfg.flags;

    rmod->flags = cfg.flags;

/*    printf("rmod installed at seg 0x%04X\r\n", rmod_seg); */

/*    printf("rmod installed at seg 0x%04X\r\n", rmod_seg); */

  } else {

  } else {

/*    printf("rmod found at seg 0x%04x\r\n", rmod_seg); */

/*    printf("rmod found at seg 0x%04x\r\n", rmod_seg); */

  }

  }

  rmod_seg = rmod->rmodseg;

  rmod_seg = rmod->rmodseg;

  rmod_envseg = MK_FP(rmod_seg, RMOD_OFFSET_ENVSEG);

  rmod_envseg = MK_FP(rmod_seg, RMOD_OFFSET_ENVSEG);

  lastexitcode = MK_FP(rmod_seg, RMOD_OFFSET_LEXITCODE);

  lastexitcode = MK_FP(rmod_seg, RMOD_OFFSET_LEXITCODE);

  /* make COMPSEC point to myself */

  /* make COMPSEC point to myself */

  set_comspec_to_self(*rmod_envseg);

  set_comspec_to_self(*rmod_envseg);

/*  {

/*  {

    unsigned short envsiz;

    unsigned short envsiz;

    unsigned short far *sizptr = MK_FP(*rmod_envseg - 1, 3);

    unsigned short far *sizptr = MK_FP(*rmod_envseg - 1, 3);

    envsiz = *sizptr;

    envsiz = *sizptr;

    envsiz *= 16;

    envsiz *= 16;

    printf("rmod_inpbuff at %04X:%04X, env_seg at %04X:0000 (env_size = %u bytes)\r\n", rmod_seg, RMOD_OFFSET_INPBUFF, *rmod_envseg, envsiz);

    printf("rmod_inpbuff at %04X:%04X, env_seg at %04X:0000 (env_size = %u bytes)\r\n", rmod_seg, RMOD_OFFSET_INPBUFF, *rmod_envseg, envsiz);

  }*/

  }*/

  do {

  do {

    char far *cmdline = rmod->inputbuf + 2;

    char far *cmdline = rmod->inputbuf + 2;

    /* (re)load translation strings if needed */

    /* (re)load translation strings if needed */

    nls_langreload(BUFFER, *rmod_envseg);

    nls_langreload(BUFFER, *rmod_envseg);

    /* skip user input if I have a command to exec (/C or /K) */

    /* skip user input if I have a command to exec (/C or /K) */

    if (cfg.execcmd != NULL) {

    if (cfg.execcmd != NULL) {

      cmdline = cfg.execcmd;

      cmdline = cfg.execcmd;

      cfg.execcmd = NULL;

      cfg.execcmd = NULL;

      goto EXEC_CMDLINE;

      goto EXEC_CMDLINE;

    }

    }

    if (rmod->echoflag != 0) outputnl(""); /* terminate the previous command with a CR/LF */

    if (rmod->echoflag != 0) outputnl(""); /* terminate the previous command with a CR/LF */

    SKIP_NEWLINE:

    SKIP_NEWLINE:

    /* print shell prompt (only if ECHO is enabled) */

    /* print shell prompt (only if ECHO is enabled) */

    if (rmod->echoflag != 0) {

    if (rmod->echoflag != 0) {

      char *promptptr = BUFFER;

      char *promptptr = BUFFER;

      buildprompt(promptptr, *rmod_envseg);

      buildprompt(promptptr, *rmod_envseg);

      _asm {

      _asm {

        push ax

        push ax

        push dx

        push dx

        mov ah, 0x09

        mov ah, 0x09

        mov dx, promptptr

        mov dx, promptptr

        int 0x21

        int 0x21

        pop dx

        pop dx

        pop ax

        pop ax

      }

      }

    }

    }

    /* revert input history terminator to \r */

    /* revert input history terminator to \r */

    if (cmdline[-1] != 0) {

    if (cmdline[-1] != 0) {

      cmdline[(unsigned short)(cmdline[-1])] = '\r';

      cmdline[(unsigned short)(cmdline[-1])] = '\r';

    }

    }

    /* wait for user command line */

    /* wait for user command line */

    cmdline_getinput(FP_SEG(rmod->inputbuf), FP_OFF(rmod->inputbuf));

    cmdline_getinput(FP_SEG(rmod->inputbuf), FP_OFF(rmod->inputbuf));

    /* if nothing entered, loop again (but without appending an extra CR/LF) */

    /* if nothing entered, loop again (but without appending an extra CR/LF) */

    if (cmdline[-1] == 0) goto SKIP_NEWLINE;

    if (cmdline[-1] == 0) goto SKIP_NEWLINE;

    /* replace \r by a zero terminator */

    /* replace \r by a zero terminator */

    cmdline[(unsigned char)(cmdline[-1])] = 0;

    cmdline[(unsigned char)(cmdline[-1])] = 0;

    /* I jump here when I need to exec an initial command (/C or /K) */

    /* I jump here when I need to exec an initial command (/C or /K) */

    EXEC_CMDLINE:

    EXEC_CMDLINE:

    /* move pointer forward to skip over any leading spaces */

    /* move pointer forward to skip over any leading spaces */

    while (*cmdline == ' ') cmdline++;

    while (*cmdline == ' ') cmdline++;

    /* update rmod's ptr to COMPSPEC so it is always up to date */

    /* update rmod's ptr to COMPSPEC so it is always up to date */

    rmod_updatecomspecptr(rmod_seg, *rmod_envseg);

    rmod_updatecomspecptr(rmod_seg, *rmod_envseg);

    /* handle redirections (if any) */