/* Proxy shell designed for use with Emacs on Windows 95 and NT. Copyright (C) 1997, 2001-2022 Free Software Foundation, Inc. Accepts subset of Unix sh(1) command-line options, for compatibility with elisp code written for Unix. When possible, executes external programs directly (a common use of /bin/sh by Emacs), otherwise invokes the user-specified command processor to handle built-in shell commands, batch files and interactive mode. The main function is simply to process the "-c string" option in the way /bin/sh does, since the standard Windows command shells use the convention that everything after "/c" (the Windows equivalent of "-c") is the input string. This file is part of GNU Emacs. GNU Emacs is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. GNU Emacs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Emacs. If not, see . */ #include #include /* va_args */ #include /* alloca */ #include /* getenv */ #include /* strlen */ #include /* isspace, isalpha */ /* We don't want to include stdio.h because we are already duplicating lots of it here */ extern int _snprintf (char *buffer, size_t count, const char *format, ...); /******* Mock C library routines *********************************/ /* These routines are used primarily to minimize the executable size. */ #define stdout GetStdHandle (STD_OUTPUT_HANDLE) #define stderr GetStdHandle (STD_ERROR_HANDLE) #if __GNUC__ + (__GNUC_MINOR__ >= 4) >= 5 void fail (const char *, ...) __attribute__((noreturn)); #else void fail (const char *, ...); #endif int vfprintf (HANDLE, const char *, va_list); int fprintf (HANDLE, const char *, ...); int printf (const char *, ...); void warn (const char *, ...); int vfprintf (HANDLE hnd, const char * msg, va_list args) { DWORD bytes_written; char buf[1024]; wvsprintf (buf, msg, args); return WriteFile (hnd, buf, strlen (buf), &bytes_written, NULL); } int fprintf (HANDLE hnd, const char * msg, ...) { va_list args; int rc; va_start (args, msg); rc = vfprintf (hnd, msg, args); va_end (args); return rc; } int printf (const char * msg, ...) { va_list args; int rc; va_start (args, msg); rc = vfprintf (stdout, msg, args); va_end (args); return rc; } void fail (const char * msg, ...) { va_list args; va_start (args, msg); vfprintf (stderr, msg, args); va_end (args); exit (-1); } void warn (const char * msg, ...) { va_list args; va_start (args, msg); vfprintf (stderr, msg, args); va_end (args); } /******************************************************************/ static char * canon_filename (char *fname) { char *p = fname; while (*p) { if (*p == '/') *p = '\\'; p++; } return fname; } static const char * skip_space (const char *str) { while (isspace (*str)) str++; return str; } static const char * skip_nonspace (const char *str) { while (*str && !isspace (*str)) str++; return str; } /* This value is never changed by the code. We keep the code that supports also the value of '"', but let's allow the compiler to optimize it out, until someone actually uses that. */ const int escape_char = '\\'; /* Get next token from input, advancing pointer. */ static int get_next_token (char * buf, const char ** pSrc) { const char * p = *pSrc; char * o = buf; p = skip_space (p); if (*p == '"') { int escape_char_run = 0; /* Go through src until an ending quote is found, unescaping quotes along the way. If the escape char is not quote, then do special handling of multiple escape chars preceding a quote char (ie. the reverse of what Emacs does to escape quotes). */ p++; while (1) { if (p[0] == escape_char && escape_char != '"') { escape_char_run++; p++; continue; } else if (p[0] == '"') { while (escape_char_run > 1) { *o++ = escape_char; escape_char_run -= 2; } if (escape_char_run > 0) { /* escaped quote */ *o++ = *p++; escape_char_run = 0; } else if (p[1] == escape_char && escape_char == '"') { /* quote escaped by doubling */ *o++ = *p; p += 2; } else { /* The ending quote. */ *o = '\0'; /* Leave input pointer after token. */ p++; break; } } else if (p[0] == '\0') { /* End of string, but no ending quote found. We might want to flag this as an error, but for now will consider the end as the end of the token. */ if (escape_char == '\\') { /* Output literal backslashes. Note that if the token ends with an unpaired backslash, we eat it up here. But since this case invokes undefined behavior anyway, it's okay. */ while (escape_char_run > 1) { *o++ = escape_char; escape_char_run -= 2; } } *o = '\0'; break; } else { if (escape_char == '\\') { /* Output literal backslashes. Note that we don't treat a backslash as an escape character here, since it doesn't precede a quote. */ for ( ; escape_char_run > 0; escape_char_run--) *o++ = escape_char; } *o++ = *p++; } } } else { /* Next token is delimited by whitespace. */ const char * p1 = skip_nonspace (p); memcpy (o, p, p1 - p); o += (p1 - p); *o = '\0'; p = p1; } *pSrc = p; return o - buf; } /* Return TRUE if PROGNAME is a batch file. */ static BOOL batch_file_p (const char *progname) { const char *exts[] = {".bat", ".cmd"}; int n_exts = sizeof (exts) / sizeof (char *); int i; const char *ext = strrchr (progname, '.'); if (ext) { for (i = 0; i < n_exts; i++) { if (stricmp (ext, exts[i]) == 0) return TRUE; } } return FALSE; } /* Search for EXEC file in DIR. If EXEC does not have an extension, DIR is searched for EXEC with the standard extensions appended. */ static int search_dir (const char *dir, const char *exec, int bufsize, char *buffer) { const char *exts[] = {".bat", ".cmd", ".exe", ".com"}; int n_exts = sizeof (exts) / sizeof (char *); char *dummy; int i, rc; const char *pext = strrchr (exec, '\\'); /* Does EXEC already include an extension? */ if (!pext) pext = exec; pext = strchr (pext, '.'); /* Search the directory for the program. */ if (pext) { /* SearchPath will not append an extension if the file already has an extension, so we must append it ourselves. */ char exec_ext[MAX_PATH], *p; p = strcpy (exec_ext, exec) + strlen (exec); /* Search first without any extension; if found, we are done. */ rc = SearchPath (dir, exec_ext, NULL, bufsize, buffer, &dummy); if (rc > 0) return rc; /* Try the known extensions. */ for (i = 0; i < n_exts; i++) { strcpy (p, exts[i]); rc = SearchPath (dir, exec_ext, NULL, bufsize, buffer, &dummy); if (rc > 0) return rc; } } else { for (i = 0; i < n_exts; i++) { rc = SearchPath (dir, exec, exts[i], bufsize, buffer, &dummy); if (rc > 0) return rc; } } return 0; } /* Return the absolute name of executable file PROG, including any file extensions. If an absolute name for PROG cannot be found, return NULL. */ static char * make_absolute (const char *prog) { char absname[MAX_PATH]; char dir[MAX_PATH]; char curdir[MAX_PATH]; char *p, *path; const char *fname; /* At least partial absolute path specified; search there. */ if ((isalpha (prog[0]) && prog[1] == ':') || (prog[0] == '\\')) { /* Split the directory from the filename. */ fname = strrchr (prog, '\\'); if (!fname) /* Only a drive specifier is given. */ fname = prog + 2; strncpy (dir, prog, fname - prog); dir[fname - prog] = '\0'; /* Search the directory for the program. */ if (search_dir (dir, prog, MAX_PATH, absname) > 0) return strdup (absname); else return NULL; } if (GetCurrentDirectory (MAX_PATH, curdir) <= 0) return NULL; /* Relative path; search in current dir. */ if (strpbrk (prog, "\\")) { if (search_dir (curdir, prog, MAX_PATH, absname) > 0) return strdup (absname); else return NULL; } /* Just filename; search current directory then PATH. */ path = alloca (strlen (getenv ("PATH")) + strlen (curdir) + 2); strcpy (path, curdir); strcat (path, ";"); strcat (path, getenv ("PATH")); while (*path) { size_t len; /* Get next directory from path. */ p = path; while (*p && *p != ';') p++; /* A broken PATH could have too long directory names in it. */ len = min (p - path, sizeof (dir) - 1); strncpy (dir, path, len); dir[len] = '\0'; /* Search the directory for the program. */ if (search_dir (dir, prog, MAX_PATH, absname) > 0) return strdup (absname); /* Move to the next directory. */ path = p + 1; } return NULL; } /* Try to decode the given command line the way cmd would do it. On success, return 1 with cmdline dequoted. Otherwise, when we've found constructs only cmd can properly interpret, return 0 and leave cmdline unchanged. */ static int try_dequote_cmdline (char* cmdline) { /* Dequoting can only subtract characters, so the length of the original command line is a bound on the amount of scratch space we need. This length, in turn, is bounded by the 32k CreateProcess limit. */ char * old_pos = cmdline; char * new_cmdline = alloca (strlen(cmdline)); char * new_pos = new_cmdline; char c; enum { NORMAL, AFTER_CARET, INSIDE_QUOTE } state = NORMAL; while ((c = *old_pos++)) { switch (state) { case NORMAL: switch(c) { case '"': *new_pos++ = c; state = INSIDE_QUOTE; break; case '^': state = AFTER_CARET; break; case '<': case '>': case '&': case '|': case '(': case ')': case '%': case '!': /* We saw an unquoted shell metacharacter and we don't understand it. Bail out. */ return 0; default: *new_pos++ = c; break; } break; case AFTER_CARET: *new_pos++ = c; state = NORMAL; break; case INSIDE_QUOTE: switch (c) { case '"': *new_pos++ = c; state = NORMAL; break; case '%': case '!': /* Variable substitution inside quote. Bail out. */ return 0; default: *new_pos++ = c; break; } break; } } /* We were able to dequote the entire string. Copy our scratch buffer on top of the original buffer and return success. */ memcpy (cmdline, new_cmdline, new_pos - new_cmdline); cmdline[new_pos - new_cmdline] = '\0'; return 1; } /*****************************************************************/ #if 0 char ** _argv; int _argc; /* Parse commandline into argv array, allowing proper quoting of args. */ void setup_argv (void) { char * cmdline = GetCommandLine (); int arg_bytes = 0; } #endif /* Information about child proc is global, to allow for automatic termination when interrupted. At the moment, only one child process can be running at any one time. */ PROCESS_INFORMATION child; int interactive = TRUE; BOOL console_event_handler (DWORD); BOOL console_event_handler (DWORD event) { switch (event) { case CTRL_C_EVENT: case CTRL_BREAK_EVENT: if (!interactive) { /* Both command.com and cmd.exe have the annoying behavior of prompting "Terminate batch job (y/n)?" when interrupted while running a batch file, even if running in non-interactive (-c) mode. Try to make up for this deficiency by forcibly terminating the subprocess if running non-interactively. */ if (child.hProcess && WaitForSingleObject (child.hProcess, 500) != WAIT_OBJECT_0) TerminateProcess (child.hProcess, 0); exit (STATUS_CONTROL_C_EXIT); } break; #if 0 default: /* CLOSE, LOGOFF and SHUTDOWN events - actually we don't get these under Windows 95. */ fail ("cmdproxy: received %d event\n", event); if (child.hProcess) TerminateProcess (child.hProcess, 0); #endif } return TRUE; } /* Change from normal usage; return value indicates whether spawn succeeded or failed - program return code is returned separately. */ static int spawn (const char *progname, char *cmdline, const char *dir, int *retcode) { BOOL success = FALSE; SECURITY_ATTRIBUTES sec_attrs; STARTUPINFO start; /* In theory, passing NULL for the environment block to CreateProcess is the same as passing the value of GetEnvironmentStrings, but doing this explicitly seems to cure problems running DOS programs in some cases. */ char * envblock = GetEnvironmentStrings (); sec_attrs.nLength = sizeof (sec_attrs); sec_attrs.lpSecurityDescriptor = NULL; sec_attrs.bInheritHandle = FALSE; memset (&start, 0, sizeof (start)); start.cb = sizeof (start); /* CreateProcess handles batch files as progname specially. This special handling fails when both the batch file and arguments are quoted. We pass NULL as progname to avoid the special handling. */ if (progname != NULL && cmdline[0] == '"' && batch_file_p (progname)) progname = NULL; if (CreateProcess (progname, cmdline, &sec_attrs, NULL, TRUE, 0, envblock, dir, &start, &child)) { success = TRUE; /* wait for completion and pass on return code */ WaitForSingleObject (child.hProcess, INFINITE); if (retcode) GetExitCodeProcess (child.hProcess, (DWORD *)retcode); CloseHandle (child.hThread); CloseHandle (child.hProcess); child.hProcess = NULL; } FreeEnvironmentStrings (envblock); return success; } /* Return size of current environment block. */ static int get_env_size (void) { char * start = GetEnvironmentStrings (); char * tmp = start; while (tmp[0] || tmp[1]) ++tmp; FreeEnvironmentStrings (start); return tmp + 2 - start; } /******* Main program ********************************************/ int main (int argc, char ** argv) { int rc; int need_shell; char * cmdline; char * progname; int envsize; char **pass_through_args; int num_pass_through_args; char modname[MAX_PATH]; char path[MAX_PATH]; char dir[MAX_PATH]; int status; interactive = TRUE; SetConsoleCtrlHandler ((PHANDLER_ROUTINE) console_event_handler, TRUE); if (!GetCurrentDirectory (sizeof (dir), dir)) fail ("error: GetCurrentDirectory failed\n"); /* We serve double duty: we can be called either as a proxy for the real shell (that is, because we are defined to be the user shell), or in our role as a helper application for running DOS programs. In the former case, we interpret the command line options as if we were a Unix shell, but in the latter case we simply pass our command line to CreateProcess. We know which case we are dealing with by whether argv[0] refers to ourself or to some other program. (This relies on an arcane feature of CreateProcess, where we can specify cmdproxy as the module to run, but specify a different program in the command line - the MSVC startup code sets argv[0] from the command line.) */ if (!GetModuleFileName (NULL, modname, sizeof (modname))) fail ("error: GetModuleFileName failed\n"); /* Change directory to location of .exe so startup directory can be deleted. */ progname = strrchr (modname, '\\'); *progname = '\0'; SetCurrentDirectory (modname); *progname = '\\'; /* Due to problems with interaction between API functions that use "OEM" codepage vs API functions that use the "ANSI" codepage, we need to make things consistent by choosing one and sticking with it. */ SetConsoleCP (GetACP ()); SetConsoleOutputCP (GetACP ()); /* Although Emacs always sets argv[0] to an absolute pathname, we might get run in other ways as well, so convert argv[0] to an absolute name before comparing to the module name. */ path[0] = '\0'; /* The call to SearchPath will find argv[0] in the current directory, append ".exe" to it if needed, and also canonicalize it, to resolve references to ".", "..", etc. */ status = SearchPath (NULL, argv[0], ".exe", sizeof (path), path, &progname); if (!(status > 0 && stricmp (modname, path) == 0)) { if (status <= 0) { char *s; /* Make sure we have argv[0] in path[], as the failed SearchPath might not have copied it there. */ strcpy (path, argv[0]); /* argv[0] could include forward slashes; convert them all to backslashes, for strrchr calls below to DTRT. */ for (s = path; *s; s++) if (*s == '/') *s = '\\'; } /* Perhaps MODNAME and PATH use mixed short and long file names. */ if (!(GetShortPathName (modname, modname, sizeof (modname)) && GetShortPathName (path, path, sizeof (path)) && stricmp (modname, path) == 0)) { /* Sometimes GetShortPathName fails because one or more directories leading to argv[0] have issues with access rights. In that case, at least we can compare the basenames. Note: this disregards the improbable case of invoking a program of the same name from another directory, since the chances of that other executable to be both our namesake and a 16-bit DOS application are nil. */ char *p = strrchr (path, '\\'); char *q = strrchr (modname, '\\'); char *pdot, *qdot; if (!p) p = strchr (path, ':'); if (!p) p = path; else p++; if (!q) q = strchr (modname, ':'); if (!q) q = modname; else q++; pdot = strrchr (p, '.'); if (!pdot || stricmp (pdot, ".exe") != 0) pdot = p + strlen (p); qdot = strrchr (q, '.'); if (!qdot || stricmp (qdot, ".exe") != 0) qdot = q + strlen (q); if (pdot - p != qdot - q || strnicmp (p, q, pdot - p) != 0) { /* We are being used as a helper to run a DOS app; just pass command line to DOS app without change. */ /* TODO: fill in progname. */ if (spawn (NULL, GetCommandLine (), dir, &rc)) return rc; fail ("Could not run %s\n", GetCommandLine ()); } } } /* Process command line. If running interactively (-c or /c not specified) then spawn a real command shell, passing it the command line arguments. If not running interactively, then attempt to execute the specified command directly. If necessary, spawn a real shell to execute the command. */ progname = NULL; cmdline = NULL; /* If no args, spawn real shell for interactive use. */ need_shell = TRUE; interactive = TRUE; /* Ask command.com to create an environment block with a reasonable amount of free space. */ envsize = get_env_size () + 300; pass_through_args = (char **) alloca (argc * sizeof (char *)); num_pass_through_args = 0; while (--argc > 0) { ++argv; /* Act on switches we recognize (mostly single letter switches, except for -e); all unrecognized switches and extra args are passed on to real shell if used (only really of benefit for interactive use, but allow for batch use as well). Accept / as switch char for compatibility with cmd.exe. */ if (((*argv)[0] == '-' || (*argv)[0] == '/') && (*argv)[1] != '\0') { if (((*argv)[1] == 'c' || (*argv)[1] == 'C') && ((*argv)[2] == '\0')) { if (--argc == 0) fail ("error: expecting arg for %s\n", *argv); cmdline = *(++argv); interactive = FALSE; } else if (((*argv)[1] == 'i' || (*argv)[1] == 'I') && ((*argv)[2] == '\0')) { if (cmdline) warn ("warning: %s ignored because of -c\n", *argv); } else if (((*argv)[1] == 'e' || (*argv)[1] == 'E') && ((*argv)[2] == ':')) { int requested_envsize = atoi (*argv + 3); /* Enforce a reasonable minimum size, as above. */ if (requested_envsize > envsize) envsize = requested_envsize; /* For sanity, enforce a reasonable maximum. */ if (envsize > 32768) envsize = 32768; } else { /* warn ("warning: unknown option %s ignored", *argv); */ pass_through_args[num_pass_through_args++] = *argv; } } else break; } #if 0 /* I think this is probably not useful - cmd.exe ignores extra (non-switch) args in interactive mode, and they cannot be passed on when -c was given. */ /* Collect any remaining args after (initial) switches. */ while (argc-- > 0) { pass_through_args[num_pass_through_args++] = *argv++; } #else /* Probably a mistake for there to be extra args; not fatal. */ if (argc > 0) warn ("warning: extra args ignored after '%s'\n", argv[-1]); #endif pass_through_args[num_pass_through_args] = NULL; /* If -c option, determine if we must spawn a real shell, or if we can execute the command directly ourself. */ if (cmdline) { const char *args; /* The program name is the first token of cmdline. Since filenames cannot legally contain embedded quotes, the value of escape_char doesn't matter. */ args = cmdline; if (!get_next_token (path, &args)) fail ("error: no program name specified.\n"); canon_filename (path); progname = make_absolute (path); /* If we found the program and the rest of the command line does not contain unquoted shell metacharacters, run the program directly (if not found it might be an internal shell command, so don't fail). */ if (progname != NULL && try_dequote_cmdline (cmdline)) need_shell = FALSE; else progname = NULL; } pass_to_shell: if (need_shell) { char * p; int extra_arg_space = 0; int maxlen, remlen; int run_command_dot_com; progname = getenv ("COMSPEC"); if (!progname) fail ("error: COMSPEC is not set\n"); canon_filename (progname); progname = make_absolute (progname); if (progname == NULL || strchr (progname, '\\') == NULL) fail ("error: the program %s could not be found.\n", getenv ("COMSPEC")); /* Need to set environment size when running command.com. */ run_command_dot_com = (stricmp (strrchr (progname, '\\'), "command.com") == 0); /* Work out how much extra space is required for pass_through_args. */ for (argv = pass_through_args; *argv != NULL; ++argv) /* We don't expect to have to quote switches. */ extra_arg_space += strlen (*argv) + 2; if (cmdline) { char * buf; /* Convert to syntax expected by cmd.exe/command.com for running non-interactively. Always quote program name in case path contains spaces (fortunately it can't contain quotes, since they are illegal in path names). */ remlen = maxlen = strlen (progname) + extra_arg_space + strlen (cmdline) + 16 + 2; buf = p = alloca (maxlen + 1); /* Quote progname in case it contains spaces. */ p += _snprintf (p, remlen, "\"%s\"", progname); remlen = maxlen - (p - buf); /* Include pass_through_args verbatim; these are just switches so should not need quoting. */ for (argv = pass_through_args; *argv != NULL; ++argv) { p += _snprintf (p, remlen, " %s", *argv); remlen = maxlen - (p - buf); } /* Now that we know we will be invoking the shell, quote the command line after the "/c" switch as the shell expects: a single pair of quotes enclosing the entire command tail, no matter whether quotes are used in the command line, and how many of them are there. See the output of "cmd /?" for how cmd.exe treats quotes. */ if (run_command_dot_com) _snprintf (p, remlen, " /e:%d /c \"%s\"", envsize, cmdline); else _snprintf (p, remlen, " /c \"%s\"", cmdline); cmdline = buf; } else { if (run_command_dot_com) { /* Provide dir arg expected by command.com when first started interactively (the "command search path"). To avoid potential problems with spaces in command dir (which cannot be quoted - command.com doesn't like it), we always use the 8.3 form. */ GetShortPathName (progname, path, sizeof (path)); p = strrchr (path, '\\'); /* Trailing slash is acceptable, so always leave it. */ *(++p) = '\0'; } else path[0] = '\0'; remlen = maxlen = strlen (progname) + extra_arg_space + strlen (path) + 13; cmdline = p = alloca (maxlen + 1); /* Quote progname in case it contains spaces. */ p += _snprintf (p, remlen, "\"%s\" %s", progname, path); remlen = maxlen - (p - cmdline); /* Include pass_through_args verbatim; these are just switches so should not need quoting. */ for (argv = pass_through_args; *argv != NULL; ++argv) { p += _snprintf (p, remlen, " %s", *argv); remlen = maxlen - (p - cmdline); } if (run_command_dot_com) _snprintf (p, remlen, " /e:%d", envsize); } } if (!progname) fail ("Internal error: program name not defined\n"); if (!cmdline) cmdline = progname; if (spawn (progname, cmdline, dir, &rc)) return rc; if (!need_shell) { need_shell = TRUE; goto pass_to_shell; } fail ("Could not run %s\n", progname); return 0; }