/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * dosys.cc * * Execute one commandline */ /* * Included files */ #include /* WIFEXITED(status) */ #include /* alloca() */ #include /* errno */ #include /* errno */ #include /* open() */ #include #include /* getvar() */ #include /* getmem(), fatal_mksh(), errmsg() */ #include /* SIG_DFL */ #include /* open() */ #include /* wait() */ #include /* ulimit() */ #include /* close(), dup2() */ #include /* * typedefs & structs */ /* * Static variables */ /* * File table of contents */ static Boolean exec_vp(register char *name, register char **argv, char **envp, register Boolean ignore_error, pathpt vroot_path); /* * Workaround for NFS bug. Sometimes, when running 'open' on a remote * dmake server, it fails with "Stale NFS file handle" error. * The second attempt seems to work. */ int my_open(const char *path, int oflag, mode_t mode) { int res = open(path, oflag, mode); if (res < 0 && (errno == ESTALE || errno == EAGAIN)) { /* Stale NFS file handle. Try again */ res = open(path, oflag, mode); } return res; } /* * void * redirect_io(char *stdout_file, char *stderr_file) * * Redirects stdout and stderr for a child mksh process. */ void redirect_io(char *stdout_file, char *stderr_file) { long descriptor_limit; int i; if ((descriptor_limit = ulimit(UL_GDESLIM)) < 0) { fatal_mksh(gettext("ulimit() failed: %s"), errmsg(errno)); } for (i = 3; i < descriptor_limit; i++) { (void) close(i); } if ((i = my_open(stdout_file, O_WRONLY | O_CREAT | O_TRUNC | O_DSYNC, S_IREAD | S_IWRITE)) < 0) { fatal_mksh(gettext("Couldn't open standard out temp file `%s': %s"), stdout_file, errmsg(errno)); } else { if (dup2(i, 1) == -1) { fatal_mksh("*** Error: dup2(3, 1) failed: %s", errmsg(errno)); } close(i); } if (stderr_file == NULL) { if (dup2(1, 2) == -1) { fatal_mksh("*** Error: dup2(1, 2) failed: %s", errmsg(errno)); } } else if ((i = my_open(stderr_file, O_WRONLY | O_CREAT | O_TRUNC | O_DSYNC, S_IREAD | S_IWRITE)) < 0) { fatal_mksh(gettext("Couldn't open standard error temp file `%s': %s"), stderr_file, errmsg(errno)); } else { if (dup2(i, 2) == -1) { fatal_mksh("*** Error: dup2(3, 2) failed: %s", errmsg(errno)); } close(i); } } /* * doshell(command, ignore_error) * * Used to run command lines that include shell meta-characters. * The make macro SHELL is supposed to contain a path to the shell. * * Return value: * The pid of the process we started * * Parameters: * command The command to run * ignore_error Should we abort on error? * * Global variables used: * filter_stderr If -X is on we redirect stderr * shell_name The Name "SHELL", used to get the path to shell */ int doshell(wchar_t *command, register Boolean ignore_error, char *stdout_file, char *stderr_file, int nice_prio) { char *argv[6]; int argv_index = 0; int cmd_argv_index; int length; char nice_prio_buf[MAXPATHLEN]; register Name shell = getvar(shell_name); register char *shellname; char *tmp_mbs_buffer; if (IS_EQUAL(shell->string_mb, "")) { shell = shell_name; } if ((shellname = strrchr(shell->string_mb, (int) slash_char)) == NULL) { shellname = shell->string_mb; } else { shellname++; } /* * Only prepend the /usr/bin/nice command to the original command * if the nice priority, nice_prio, is NOT zero (0). * Nice priorities can be a positive or a negative number. */ if (nice_prio != 0) { argv[argv_index++] = (char *)"nice"; (void) sprintf(nice_prio_buf, "-%d", nice_prio); argv[argv_index++] = strdup(nice_prio_buf); } argv[argv_index++] = shellname; argv[argv_index++] = (char*)(ignore_error ? "-c" : "-ce"); if ((length = wcslen(command)) >= MAXPATHLEN) { tmp_mbs_buffer = getmem((length * MB_LEN_MAX) + 1); (void) wcstombs(tmp_mbs_buffer, command, (length * MB_LEN_MAX) + 1); cmd_argv_index = argv_index; argv[argv_index++] = strdup(tmp_mbs_buffer); retmem_mb(tmp_mbs_buffer); } else { WCSTOMBS(mbs_buffer, command); cmd_argv_index = argv_index; argv[argv_index++] = strdup(mbs_buffer); } argv[argv_index] = NULL; (void) fflush(stdout); if ((childPid = fork()) == 0) { enable_interrupt((void (*) (int)) SIG_DFL); #if 0 if (filter_stderr) { redirect_stderr(); } #endif if (nice_prio != 0) { (void) execve("/usr/bin/nice", argv, environ); fatal_mksh(gettext("Could not load `/usr/bin/nice': %s"), errmsg(errno)); } else { (void) execve(shell->string_mb, argv, environ); fatal_mksh(gettext("Could not load Shell from `%s': %s"), shell->string_mb, errmsg(errno)); } } if (childPid == -1) { fatal_mksh(gettext("fork failed: %s"), errmsg(errno)); } retmem_mb(argv[cmd_argv_index]); return childPid; } /* * exec_vp(name, argv, envp, ignore_error) * * Like execve, but does path search. * This starts command when make invokes it directly (without a shell). * * Return value: * Returns false if the exec failed * * Parameters: * name The name of the command to run * argv Arguments for the command * envp The environment for it * ignore_error Should we abort on error? * * Global variables used: * shell_name The Name "SHELL", used to get the path to shell * vroot_path The path used by the vroot package */ static Boolean exec_vp(register char *name, register char **argv, char **envp, register Boolean ignore_error, pathpt vroot_path) { register Name shell = getvar(shell_name); register char *shellname; char *shargv[4]; Name tmp_shell; if (IS_EQUAL(shell->string_mb, "")) { shell = shell_name; } for (int i = 0; i < 5; i++) { (void) execve_vroot(name, argv + 1, envp, vroot_path, VROOT_DEFAULT); switch (errno) { case ENOEXEC: case ENOENT: /* That failed. Let the shell handle it */ shellname = strrchr(shell->string_mb, (int) slash_char); if (shellname == NULL) { shellname = shell->string_mb; } else { shellname++; } shargv[0] = shellname; shargv[1] = (char*)(ignore_error ? "-c" : "-ce"); shargv[2] = argv[0]; shargv[3] = NULL; tmp_shell = getvar(shell_name); if (IS_EQUAL(tmp_shell->string_mb, "")) { tmp_shell = shell_name; } (void) execve_vroot(tmp_shell->string_mb, shargv, envp, vroot_path, VROOT_DEFAULT); return failed; case ETXTBSY: /* * The program is busy (debugged?). * Wait and then try again. */ (void) sleep((unsigned) i); case EAGAIN: break; default: return failed; } } return failed; } /* * doexec(command, ignore_error) * * Will scan an argument string and split it into words * thus building an argument list that can be passed to exec_ve() * * Return value: * The pid of the process started here * * Parameters: * command The command to run * ignore_error Should we abort on error? * * Global variables used: * filter_stderr If -X is on we redirect stderr */ int doexec(register wchar_t *command, register Boolean ignore_error, char *stdout_file, char *stderr_file, pathpt vroot_path, int nice_prio) { int arg_count = 5; char **argv; int length; char nice_prio_buf[MAXPATHLEN]; register char **p; wchar_t *q; register wchar_t *t; char *tmp_mbs_buffer; /* * Only prepend the /usr/bin/nice command to the original command * if the nice priority, nice_prio, is NOT zero (0). * Nice priorities can be a positive or a negative number. */ if (nice_prio != 0) { arg_count += 2; } for (t = command; *t != (int) nul_char; t++) { if (iswspace(*t)) { arg_count++; } } argv = (char **)alloca(arg_count * (sizeof(char *))); /* * Reserve argv[0] for sh in case of exec_vp failure. * Don't worry about prepending /usr/bin/nice command to argv[0]. * In fact, doing it may cause the sh command to fail! */ p = &argv[1]; if ((length = wcslen(command)) >= MAXPATHLEN) { tmp_mbs_buffer = getmem((length * MB_LEN_MAX) + 1); (void) wcstombs(tmp_mbs_buffer, command, (length * MB_LEN_MAX) + 1); argv[0] = strdup(tmp_mbs_buffer); retmem_mb(tmp_mbs_buffer); } else { WCSTOMBS(mbs_buffer, command); argv[0] = strdup(mbs_buffer); } if (nice_prio != 0) { *p++ = strdup("/usr/bin/nice"); (void) sprintf(nice_prio_buf, "-%d", nice_prio); *p++ = strdup(nice_prio_buf); } /* Build list of argument words. */ for (t = command; *t;) { if (p >= &argv[arg_count]) { /* This should never happen, right? */ WCSTOMBS(mbs_buffer, command); fatal_mksh(gettext("Command `%s' has more than %d arguments"), mbs_buffer, arg_count); } q = t; while (!iswspace(*t) && (*t != (int) nul_char)) { t++; } if (*t) { for (*t++ = (int) nul_char; iswspace(*t); t++); } if ((length = wcslen(q)) >= MAXPATHLEN) { tmp_mbs_buffer = getmem((length * MB_LEN_MAX) + 1); (void) wcstombs(tmp_mbs_buffer, q, (length * MB_LEN_MAX) + 1); *p++ = strdup(tmp_mbs_buffer); retmem_mb(tmp_mbs_buffer); } else { WCSTOMBS(mbs_buffer, q); *p++ = strdup(mbs_buffer); } } *p = NULL; /* Then exec the command with that argument list. */ (void) fflush(stdout); if ((childPid = fork()) == 0) { enable_interrupt((void (*) (int)) SIG_DFL); #if 0 if (filter_stderr) { redirect_stderr(); } #endif (void) exec_vp(argv[1], argv, environ, ignore_error, vroot_path); fatal_mksh(gettext("Cannot load command `%s': %s"), argv[1], errmsg(errno)); } if (childPid == -1) { fatal_mksh(gettext("fork failed: %s"), errmsg(errno)); } for (int i = 0; argv[i] != NULL; i++) { retmem_mb(argv[i]); } return childPid; } /* * await(ignore_error, silent_error, target, command, running_pid) * * Wait for one child process and analyzes * the returned status when the child process terminates. * * Return value: * Returns true if commands ran OK * * Parameters: * ignore_error Should we abort on error? * silent_error Should error messages be suppressed for dmake? * target The target we are building, for error msgs * command The command we ran, for error msgs * running_pid The pid of the process we are waiting for * * Static variables used: * filter_file The fd for the filter file * filter_file_name The name of the filter file * * Global variables used: * filter_stderr Set if -X is on */ Boolean await(register Boolean ignore_error, register Boolean silent_error, Name target, wchar_t *command, pid_t running_pid, void *xdrs_p, int job_msg_id) { int status; char *buffer; int core_dumped; int exit_status; FILE *outfp; register pid_t pid; struct stat stat_buff; int termination_signal; char tmp_buf[MAXPATHLEN]; while ((pid = wait(&status)) != running_pid) { if (pid == -1) { fatal_mksh(gettext("wait() failed: %s"), errmsg(errno)); } } (void) fflush(stdout); (void) fflush(stderr); if (status == 0) { #ifdef PRINT_EXIT_STATUS warning_mksh("I'm in await(), and status is 0."); #endif return succeeded; } #ifdef PRINT_EXIT_STATUS warning_mksh("I'm in await(), and status is *NOT* 0."); #endif exit_status = WEXITSTATUS(status); #ifdef PRINT_EXIT_STATUS warning_mksh("I'm in await(), and exit_status is %d.", exit_status); #endif termination_signal = WTERMSIG(status); core_dumped = WCOREDUMP(status); /* * If the child returned an error, we now try to print a * nice message about it. */ tmp_buf[0] = (int) nul_char; if (!silent_error) { if (exit_status != 0) { (void) fprintf(stdout, gettext("*** Error code %d"), exit_status); } else { (void) fprintf(stdout, gettext("*** Signal %d"), termination_signal); if (core_dumped) { (void) fprintf(stdout, gettext(" - core dumped")); } } if (ignore_error) { (void) fprintf(stdout, gettext(" (ignored)")); } (void) fprintf(stdout, "\n"); (void) fflush(stdout); } #ifdef PRINT_EXIT_STATUS warning_mksh("I'm in await(), returning failed."); #endif return failed; } /* * sh_command2string(command, destination) * * Run one sh command and capture the output from it. * * Return value: * * Parameters: * command The command to run * destination Where to deposit the output from the command * * Static variables used: * * Global variables used: */ void sh_command2string(register String command, register String destination) { register FILE *fd; register int chr; int status; Boolean command_generated_output = false; command->text.p = (int) nul_char; WCSTOMBS(mbs_buffer, command->buffer.start); if ((fd = popen(mbs_buffer, "r")) == NULL) { WCSTOMBS(mbs_buffer, command->buffer.start); fatal_mksh(gettext("Could not run command `%s' for :sh transformation"), mbs_buffer); } while ((chr = getc(fd)) != EOF) { if (chr == (int) newline_char) { chr = (int) space_char; } command_generated_output = true; append_char(chr, destination); } /* * We don't want to keep the last LINE_FEED since usually * the output of the 'sh:' command is used to evaluate * some MACRO. ( /bin/sh and other shell add a line feed * to the output so that the prompt appear in the right place. * We don't need that */ if (command_generated_output){ if ( *(destination->text.p-1) == (int) space_char) { * (-- destination->text.p) = '\0'; } } else { /* * If the command didn't generate any output, * set the buffer to a null string. */ *(destination->text.p) = '\0'; } status = pclose(fd); if (status != 0) { WCSTOMBS(mbs_buffer, command->buffer.start); fatal_mksh(gettext("The command `%s' returned status `%d'"), mbs_buffer, WEXITSTATUS(status)); } }