/* * processes.c: Process handles * * Author: * Dick Porter (dick@ximian.com) * * (C) 2002-2011 Novell, Inc. * Copyright 2011 Xamarin Inc */ #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_SIGNAL_H #include #endif #include #include #ifdef HAVE_SYS_PARAM_H #include #endif #include #ifdef HAVE_SYS_WAIT_H #include #endif #ifdef HAVE_SYS_RESOURCE_H #include #endif #ifdef HAVE_SYS_MKDEV_H #include #endif #ifdef HAVE_UTIME_H #include #endif /* sys/resource.h (for rusage) is required when using osx 10.3 (but not 10.4) */ #ifdef __APPLE__ #include #include #ifdef HAVE_LIBPROC_H /* proc_name */ #include #endif #endif #if defined(PLATFORM_MACOSX) #define USE_OSX_LOADER #endif #if ( defined(__OpenBSD__) || defined(__FreeBSD__) ) && defined(HAVE_LINK_H) #define USE_BSD_LOADER #endif #if defined(__HAIKU__) #define USE_HAIKU_LOADER #endif #if defined(USE_OSX_LOADER) || defined(USE_BSD_LOADER) #include #include # if !defined(__OpenBSD__) # include # endif # if defined(__FreeBSD__) # include /* struct kinfo_proc */ # endif #endif #ifdef PLATFORM_SOLARIS /* procfs.h cannot be included if this define is set, but it seems to work fine if it is undefined */ #if _FILE_OFFSET_BITS == 64 #undef _FILE_OFFSET_BITS #include #define _FILE_OFFSET_BITS 64 #else #include #endif #endif #ifdef __HAIKU__ #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* The process' environment strings */ #if defined(__APPLE__) #if defined (TARGET_OSX) /* Apple defines this in crt_externs.h but doesn't provide that header for * arm-apple-darwin9. We'll manually define the symbol on Apple as it does * in fact exist on all implementations (so far) */ gchar ***_NSGetEnviron(void); #define environ (*_NSGetEnviron()) #else static char *mono_environ[1] = { NULL }; #define environ mono_environ #endif /* defined (TARGET_OSX) */ #else extern char **environ; #endif static guint32 process_wait (gpointer handle, guint32 timeout, gboolean alertable); static void process_close (gpointer handle, gpointer data); static gboolean is_pid_valid (pid_t pid); #if !(defined(USE_OSX_LOADER) || defined(USE_BSD_LOADER) || defined(USE_HAIKU_LOADER)) static FILE * open_process_map (int pid, const char *mode); #endif struct _WapiHandleOps _wapi_process_ops = { process_close, /* close_shared */ NULL, /* signal */ NULL, /* own */ NULL, /* is_owned */ process_wait, /* special_wait */ NULL /* prewait */ }; #if HAVE_SIGACTION static struct sigaction previous_chld_sa; #endif static mono_once_t process_sig_chld_once = MONO_ONCE_INIT; static void process_add_sigchld_handler (void); /* The signal-safe logic to use mono_processes goes like this: * - The list must be safe to traverse for the signal handler at all times. * It's safe to: prepend an entry (which is a single store to 'mono_processes'), * unlink an entry (assuming the unlinked entry isn't freed and doesn't * change its 'next' pointer so that it can still be traversed). * When cleaning up we first unlink an entry, then we verify that * the read lock isn't locked. Then we can free the entry, since * we know that nobody is using the old version of the list (including * the unlinked entry). * We also need to lock when adding and cleaning up so that those two * operations don't mess with eachother. (This lock is not used in the * signal handler) */ static struct MonoProcess *mono_processes = NULL; static volatile gint32 mono_processes_cleaning_up = 0; static mono_mutex_t mono_processes_mutex; static void mono_processes_cleanup (void); static gpointer current_process; static char *cli_launcher; static WapiHandle_process * lookup_process_handle (gpointer handle) { WapiHandle_process *process_data; gboolean ret; ret = _wapi_lookup_handle (handle, WAPI_HANDLE_PROCESS, (gpointer *)&process_data); if (!ret) return NULL; return process_data; } /* Check if a pid is valid - i.e. if a process exists with this pid. */ static gboolean is_pid_valid (pid_t pid) { gboolean result = FALSE; #if defined(HOST_WATCHOS) result = TRUE; // TODO: Rewrite using sysctl #elif defined(PLATFORM_MACOSX) || defined(__OpenBSD__) || defined(__FreeBSD__) if (((kill(pid, 0) == 0) || (errno == EPERM)) && pid != 0) result = TRUE; #elif defined(__HAIKU__) team_info teamInfo; if (get_team_info ((team_id)pid, &teamInfo) == B_OK) result = TRUE; #else char *dir = g_strdup_printf ("/proc/%d", pid); if (!access (dir, F_OK)) result = TRUE; g_free (dir); #endif return result; } static void process_set_defaults (WapiHandle_process *process_handle) { /* These seem to be the defaults on w2k */ process_handle->min_working_set = 204800; process_handle->max_working_set = 1413120; _wapi_time_t_to_filetime (time (NULL), &process_handle->create_time); } static int len16 (const gunichar2 *str) { int len = 0; while (*str++ != 0) len++; return len; } static gunichar2 * utf16_concat (const gunichar2 *first, ...) { va_list args; int total = 0, i; const gunichar2 *s; gunichar2 *ret; va_start (args, first); total += len16 (first); for (s = va_arg (args, gunichar2 *); s != NULL; s = va_arg(args, gunichar2 *)){ total += len16 (s); } va_end (args); ret = g_new (gunichar2, total + 1); if (ret == NULL) return NULL; ret [total] = 0; i = 0; for (s = first; *s != 0; s++) ret [i++] = *s; va_start (args, first); for (s = va_arg (args, gunichar2 *); s != NULL; s = va_arg (args, gunichar2 *)){ const gunichar2 *p; for (p = s; *p != 0; p++) ret [i++] = *p; } va_end (args); return ret; } static const gunichar2 utf16_space_bytes [2] = { 0x20, 0 }; static const gunichar2 *utf16_space = utf16_space_bytes; static const gunichar2 utf16_quote_bytes [2] = { 0x22, 0 }; static const gunichar2 *utf16_quote = utf16_quote_bytes; #ifdef DEBUG_ENABLED /* Useful in gdb */ void print_utf16 (gunichar2 *str) { char *res; res = g_utf16_to_utf8 (str, -1, NULL, NULL, NULL); g_print ("%s\n", res); g_free (res); } #endif /* Implemented as just a wrapper around CreateProcess () */ gboolean ShellExecuteEx (WapiShellExecuteInfo *sei) { gboolean ret; WapiProcessInformation process_info; gunichar2 *args; if (sei == NULL) { /* w2k just segfaults here, but we can do better than * that */ SetLastError (ERROR_INVALID_PARAMETER); return FALSE; } if (sei->lpFile == NULL) /* w2k returns TRUE for this, for some reason. */ return TRUE; /* Put both executable and parameters into the second argument * to CreateProcess (), so it searches $PATH. The conversion * into and back out of utf8 is because there is no * g_strdup_printf () equivalent for gunichar2 :-( */ args = utf16_concat (utf16_quote, sei->lpFile, utf16_quote, sei->lpParameters == NULL ? NULL : utf16_space, sei->lpParameters, NULL); if (args == NULL) { SetLastError (ERROR_INVALID_DATA); return FALSE; } ret = CreateProcess (NULL, args, NULL, NULL, TRUE, CREATE_UNICODE_ENVIRONMENT, NULL, sei->lpDirectory, NULL, &process_info); g_free (args); if (!ret && GetLastError () == ERROR_OUTOFMEMORY) return ret; if (!ret) { static char *handler; static gunichar2 *handler_utf16; if (handler_utf16 == (gunichar2 *)-1) return FALSE; #ifdef PLATFORM_MACOSX handler = g_strdup ("/usr/bin/open"); #else /* * On Linux, try: xdg-open, the FreeDesktop standard way of doing it, * if that fails, try to use gnome-open, then kfmclient */ handler = g_find_program_in_path ("xdg-open"); if (handler == NULL){ handler = g_find_program_in_path ("gnome-open"); if (handler == NULL){ handler = g_find_program_in_path ("kfmclient"); if (handler == NULL){ handler_utf16 = (gunichar2 *) -1; return FALSE; } else { /* kfmclient needs exec argument */ char *old = handler; handler = g_strconcat (old, " exec", NULL); g_free (old); } } } #endif handler_utf16 = g_utf8_to_utf16 (handler, -1, NULL, NULL, NULL); g_free (handler); /* Put quotes around the filename, in case it's a url * that contains #'s (CreateProcess() calls * g_shell_parse_argv(), which deliberately throws * away anything after an unquoted #). Fixes bug * 371567. */ args = utf16_concat (handler_utf16, utf16_space, utf16_quote, sei->lpFile, utf16_quote, sei->lpParameters == NULL ? NULL : utf16_space, sei->lpParameters, NULL); if (args == NULL) { SetLastError (ERROR_INVALID_DATA); return FALSE; } ret = CreateProcess (NULL, args, NULL, NULL, TRUE, CREATE_UNICODE_ENVIRONMENT, NULL, sei->lpDirectory, NULL, &process_info); g_free (args); if (!ret) { if (GetLastError () != ERROR_OUTOFMEMORY) SetLastError (ERROR_INVALID_DATA); return FALSE; } /* Shell exec should not return a process handle when it spawned a GUI thing, like a browser. */ CloseHandle (process_info.hProcess); process_info.hProcess = NULL; } if (sei->fMask & SEE_MASK_NOCLOSEPROCESS) sei->hProcess = process_info.hProcess; else CloseHandle (process_info.hProcess); return ret; } static gboolean is_managed_binary (const char *filename) { int original_errno = errno; #if defined(HAVE_LARGE_FILE_SUPPORT) && defined(O_LARGEFILE) int file = open (filename, O_RDONLY | O_LARGEFILE); #else int file = open (filename, O_RDONLY); #endif off_t new_offset; unsigned char buffer[8]; off_t file_size, optional_header_offset; off_t pe_header_offset; gboolean managed = FALSE; int num_read; guint32 first_word, second_word; /* If we are unable to open the file, then we definitely * can't say that it is managed. The child mono process * probably wouldn't be able to open it anyway. */ if (file < 0) { errno = original_errno; return FALSE; } /* Retrieve the length of the file for future sanity checks. */ file_size = lseek (file, 0, SEEK_END); lseek (file, 0, SEEK_SET); /* We know we need to read a header field at offset 60. */ if (file_size < 64) goto leave; num_read = read (file, buffer, 2); if ((num_read != 2) || (buffer[0] != 'M') || (buffer[1] != 'Z')) goto leave; new_offset = lseek (file, 60, SEEK_SET); if (new_offset != 60) goto leave; num_read = read (file, buffer, 4); if (num_read != 4) goto leave; pe_header_offset = buffer[0] | (buffer[1] << 8) | (buffer[2] << 16) | (buffer[3] << 24); if (pe_header_offset + 24 > file_size) goto leave; new_offset = lseek (file, pe_header_offset, SEEK_SET); if (new_offset != pe_header_offset) goto leave; num_read = read (file, buffer, 4); if ((num_read != 4) || (buffer[0] != 'P') || (buffer[1] != 'E') || (buffer[2] != 0) || (buffer[3] != 0)) goto leave; /* * Verify that the header we want in the optional header data * is present in this binary. */ new_offset = lseek (file, pe_header_offset + 20, SEEK_SET); if (new_offset != pe_header_offset + 20) goto leave; num_read = read (file, buffer, 2); if ((num_read != 2) || ((buffer[0] | (buffer[1] << 8)) < 216)) goto leave; /* Read the CLR header address and size fields. These will be * zero if the binary is not managed. */ optional_header_offset = pe_header_offset + 24; new_offset = lseek (file, optional_header_offset + 208, SEEK_SET); if (new_offset != optional_header_offset + 208) goto leave; num_read = read (file, buffer, 8); /* We are not concerned with endianness, only with * whether it is zero or not. */ first_word = *(guint32 *)&buffer[0]; second_word = *(guint32 *)&buffer[4]; if ((num_read != 8) || (first_word == 0) || (second_word == 0)) goto leave; managed = TRUE; leave: close (file); errno = original_errno; return managed; } gboolean CreateProcessWithLogonW (const gunichar2 *username, const gunichar2 *domain, const gunichar2 *password, const guint32 logonFlags, const gunichar2 *appname, const gunichar2 *cmdline, guint32 create_flags, gpointer env, const gunichar2 *cwd, WapiStartupInfo *startup, WapiProcessInformation *process_info) { /* FIXME: use user information */ return CreateProcess (appname, cmdline, NULL, NULL, FALSE, create_flags, env, cwd, startup, process_info); } static gboolean is_readable_or_executable (const char *prog) { struct stat buf; int a = access (prog, R_OK); int b = access (prog, X_OK); if (a != 0 && b != 0) return FALSE; if (stat (prog, &buf)) return FALSE; if (S_ISREG (buf.st_mode)) return TRUE; return FALSE; } static gboolean is_executable (const char *prog) { struct stat buf; if (access (prog, X_OK) != 0) return FALSE; if (stat (prog, &buf)) return FALSE; if (S_ISREG (buf.st_mode)) return TRUE; return FALSE; } static void switch_dir_separators (char *path) { size_t i, pathLength = strlen(path); /* Turn all the slashes round the right way, except for \' */ /* There are probably other characters that need to be excluded as well. */ for (i = 0; i < pathLength; i++) { if (path[i] == '\\' && i < pathLength - 1 && path[i+1] != '\'' ) path[i] = '/'; } } gboolean CreateProcess (const gunichar2 *appname, const gunichar2 *cmdline, WapiSecurityAttributes *process_attrs G_GNUC_UNUSED, WapiSecurityAttributes *thread_attrs G_GNUC_UNUSED, gboolean inherit_handles, guint32 create_flags, gpointer new_environ, const gunichar2 *cwd, WapiStartupInfo *startup, WapiProcessInformation *process_info) { #if defined (HAVE_FORK) && defined (HAVE_EXECVE) char *cmd = NULL, *prog = NULL, *full_prog = NULL, *args = NULL, *args_after_prog = NULL; char *dir = NULL, **env_strings = NULL, **argv = NULL; guint32 i, env_count = 0; gboolean ret = FALSE; gpointer handle = NULL; WapiHandle_process process_handle = {0}, *process_handle_data; GError *gerr = NULL; int in_fd, out_fd, err_fd; pid_t pid = 0; int thr_ret; int startup_pipe [2] = {-1, -1}; int dummy; struct MonoProcess *mono_process; gboolean fork_failed = FALSE; mono_once (&process_sig_chld_once, process_add_sigchld_handler); /* appname and cmdline specify the executable and its args: * * If appname is not NULL, it is the name of the executable. * Otherwise the executable is the first token in cmdline. * * Executable searching: * * If appname is not NULL, it can specify the full path and * file name, or else a partial name and the current directory * will be used. There is no additional searching. * * If appname is NULL, the first whitespace-delimited token in * cmdline is used. If the name does not contain a full * directory path, the search sequence is: * * 1) The directory containing the current process * 2) The current working directory * 3) The windows system directory (Ignored) * 4) The windows directory (Ignored) * 5) $PATH * * Just to make things more interesting, tokens can contain * white space if they are surrounded by quotation marks. I'm * beginning to understand just why windows apps are generally * so crap, with an API like this :-( */ if (appname != NULL) { cmd = mono_unicode_to_external (appname); if (cmd == NULL) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: unicode conversion returned NULL", __func__); SetLastError (ERROR_PATH_NOT_FOUND); goto free_strings; } switch_dir_separators(cmd); } if (cmdline != NULL) { args = mono_unicode_to_external (cmdline); if (args == NULL) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: unicode conversion returned NULL", __func__); SetLastError (ERROR_PATH_NOT_FOUND); goto free_strings; } } if (cwd != NULL) { dir = mono_unicode_to_external (cwd); if (dir == NULL) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: unicode conversion returned NULL", __func__); SetLastError (ERROR_PATH_NOT_FOUND); goto free_strings; } /* Turn all the slashes round the right way */ switch_dir_separators(dir); } /* We can't put off locating the executable any longer :-( */ if (cmd != NULL) { char *unquoted; if (g_ascii_isalpha (cmd[0]) && (cmd[1] == ':')) { /* Strip off the drive letter. I can't * believe that CP/M holdover is still * visible... */ g_memmove (cmd, cmd+2, strlen (cmd)-2); cmd[strlen (cmd)-2] = '\0'; } unquoted = g_shell_unquote (cmd, NULL); if (unquoted[0] == '/') { /* Assume full path given */ prog = g_strdup (unquoted); /* Executable existing ? */ if (!is_readable_or_executable (prog)) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Couldn't find executable %s", __func__, prog); g_free (unquoted); SetLastError (ERROR_FILE_NOT_FOUND); goto free_strings; } } else { /* Search for file named by cmd in the current * directory */ char *curdir = g_get_current_dir (); prog = g_strdup_printf ("%s/%s", curdir, unquoted); g_free (curdir); /* And make sure it's readable */ if (!is_readable_or_executable (prog)) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Couldn't find executable %s", __func__, prog); g_free (unquoted); SetLastError (ERROR_FILE_NOT_FOUND); goto free_strings; } } g_free (unquoted); args_after_prog = args; } else { char *token = NULL; char quote; /* Dig out the first token from args, taking quotation * marks into account */ /* First, strip off all leading whitespace */ args = g_strchug (args); /* args_after_prog points to the contents of args * after token has been set (otherwise argv[0] is * duplicated) */ args_after_prog = args; /* Assume the opening quote will always be the first * character */ if (args[0] == '\"' || args [0] == '\'') { quote = args [0]; for (i = 1; args[i] != '\0' && args[i] != quote; i++); if (args [i + 1] == '\0' || g_ascii_isspace (args[i+1])) { /* We found the first token */ token = g_strndup (args+1, i-1); args_after_prog = g_strchug (args + i + 1); } else { /* Quotation mark appeared in the * middle of the token. Just give the * whole first token, quotes and all, * to exec. */ } } if (token == NULL) { /* No quote mark, or malformed */ for (i = 0; args[i] != '\0'; i++) { if (g_ascii_isspace (args[i])) { token = g_strndup (args, i); args_after_prog = args + i + 1; break; } } } if (token == NULL && args[0] != '\0') { /* Must be just one token in the string */ token = g_strdup (args); args_after_prog = NULL; } if (token == NULL) { /* Give up */ MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Couldn't find what to exec", __func__); SetLastError (ERROR_PATH_NOT_FOUND); goto free_strings; } /* Turn all the slashes round the right way. Only for * the prg. name */ switch_dir_separators(token); if (g_ascii_isalpha (token[0]) && (token[1] == ':')) { /* Strip off the drive letter. I can't * believe that CP/M holdover is still * visible... */ g_memmove (token, token+2, strlen (token)-2); token[strlen (token)-2] = '\0'; } if (token[0] == '/') { /* Assume full path given */ prog = g_strdup (token); /* Executable existing ? */ if (!is_readable_or_executable (prog)) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Couldn't find executable %s", __func__, token); g_free (token); SetLastError (ERROR_FILE_NOT_FOUND); goto free_strings; } } else { char *curdir = g_get_current_dir (); /* FIXME: Need to record the directory * containing the current process, and check * that for the new executable as the first * place to look */ prog = g_strdup_printf ("%s/%s", curdir, token); g_free (curdir); /* I assume X_OK is the criterion to use, * rather than F_OK * * X_OK is too strict *if* the target is a CLR binary */ if (!is_readable_or_executable (prog)) { g_free (prog); prog = g_find_program_in_path (token); if (prog == NULL) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Couldn't find executable %s", __func__, token); g_free (token); SetLastError (ERROR_FILE_NOT_FOUND); goto free_strings; } } } g_free (token); } MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Exec prog [%s] args [%s]", __func__, prog, args_after_prog); /* Check for CLR binaries; if found, we will try to invoke * them using the same mono binary that started us. */ if (is_managed_binary (prog)) { gunichar2 *newapp = NULL, *newcmd; gsize bytes_ignored; if (cli_launcher) newapp = mono_unicode_from_external (cli_launcher, &bytes_ignored); else newapp = mono_unicode_from_external ("mono", &bytes_ignored); if (newapp != NULL) { if (appname != NULL) { newcmd = utf16_concat (utf16_quote, newapp, utf16_quote, utf16_space, appname, utf16_space, cmdline, NULL); } else { newcmd = utf16_concat (utf16_quote, newapp, utf16_quote, utf16_space, cmdline, NULL); } g_free ((gunichar2 *)newapp); if (newcmd != NULL) { ret = CreateProcess (NULL, newcmd, process_attrs, thread_attrs, inherit_handles, create_flags, new_environ, cwd, startup, process_info); g_free ((gunichar2 *)newcmd); goto free_strings; } } } else { if (!is_executable (prog)) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Executable permisson not set on %s", __func__, prog); SetLastError (ERROR_ACCESS_DENIED); goto free_strings; } } if (args_after_prog != NULL && *args_after_prog) { char *qprog; qprog = g_shell_quote (prog); full_prog = g_strconcat (qprog, " ", args_after_prog, NULL); g_free (qprog); } else { full_prog = g_shell_quote (prog); } ret = g_shell_parse_argv (full_prog, NULL, &argv, &gerr); if (ret == FALSE) { g_message ("CreateProcess: %s\n", gerr->message); g_error_free (gerr); gerr = NULL; goto free_strings; } if (startup != NULL && startup->dwFlags & STARTF_USESTDHANDLES) { in_fd = GPOINTER_TO_UINT (startup->hStdInput); out_fd = GPOINTER_TO_UINT (startup->hStdOutput); err_fd = GPOINTER_TO_UINT (startup->hStdError); } else { in_fd = GPOINTER_TO_UINT (GetStdHandle (STD_INPUT_HANDLE)); out_fd = GPOINTER_TO_UINT (GetStdHandle (STD_OUTPUT_HANDLE)); err_fd = GPOINTER_TO_UINT (GetStdHandle (STD_ERROR_HANDLE)); } process_handle.proc_name = g_strdup (prog); process_set_defaults (&process_handle); handle = _wapi_handle_new (WAPI_HANDLE_PROCESS, &process_handle); if (handle == _WAPI_HANDLE_INVALID) { g_warning ("%s: error creating process handle", __func__); ret = FALSE; SetLastError (ERROR_OUTOFMEMORY); goto free_strings; } /* new_environ is a block of NULL-terminated strings, which * is itself NULL-terminated. Of course, passing an array of * string pointers would have made things too easy :-( * * If new_environ is not NULL it specifies the entire set of * environment variables in the new process. Otherwise the * new process inherits the same environment. */ if (new_environ) { gunichar2 *new_environp; /* Count the number of strings */ for (new_environp = (gunichar2 *)new_environ; *new_environp; new_environp++) { env_count++; while (*new_environp) { new_environp++; } } /* +2: one for the process handle value, and the last * one is NULL */ env_strings = g_new0 (char *, env_count + 2); /* Copy each environ string into 'strings' turning it * into utf8 (or the requested encoding) at the same * time */ env_count = 0; for (new_environp = (gunichar2 *)new_environ; *new_environp; new_environp++) { env_strings[env_count] = mono_unicode_to_external (new_environp); env_count++; while (*new_environp) { new_environp++; } } } else { for (i = 0; environ[i] != NULL; i++) env_count++; /* +2: one for the process handle value, and the last * one is NULL */ env_strings = g_new0 (char *, env_count + 2); /* Copy each environ string into 'strings' turning it * into utf8 (or the requested encoding) at the same * time */ env_count = 0; for (i = 0; environ[i] != NULL; i++) { env_strings[env_count] = g_strdup (environ[i]); env_count++; } } /* Create a pipe to make sure the child doesn't exit before * we can add the process to the linked list of mono_processes */ if (pipe (startup_pipe) == -1) { /* Could not create the pipe to synchroniz process startup. We'll just not synchronize. * This is just for a very hard to hit race condition in the first place */ startup_pipe [0] = startup_pipe [1] = -1; MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: new process startup not synchronized. We may not notice if the newly created process exits immediately.", __func__); } thr_ret = _wapi_handle_lock_shared_handles (); g_assert (thr_ret == 0); pid = fork (); if (pid == -1) { /* Error */ SetLastError (ERROR_OUTOFMEMORY); ret = FALSE; fork_failed = TRUE; goto cleanup; } else if (pid == 0) { /* Child */ if (startup_pipe [0] != -1) { /* Wait until the parent has updated it's internal data */ ssize_t _i G_GNUC_UNUSED = read (startup_pipe [0], &dummy, 1); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: child: parent has completed its setup", __func__); close (startup_pipe [0]); close (startup_pipe [1]); } /* should we detach from the process group? */ /* Connect stdin, stdout and stderr */ dup2 (in_fd, 0); dup2 (out_fd, 1); dup2 (err_fd, 2); if (inherit_handles != TRUE) { /* FIXME: do something here */ } /* Close all file descriptors */ for (i = wapi_getdtablesize () - 1; i > 2; i--) close (i); #ifdef DEBUG_ENABLED MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: exec()ing [%s] in dir [%s]", __func__, cmd, dir == NULL?".":dir); for (i = 0; argv[i] != NULL; i++) g_message ("arg %d: [%s]", i, argv[i]); for (i = 0; env_strings[i] != NULL; i++) g_message ("env %d: [%s]", i, env_strings[i]); #endif /* set cwd */ if (dir != NULL && chdir (dir) == -1) { /* set error */ _exit (-1); } /* exec */ execve (argv[0], argv, env_strings); /* set error */ _exit (-1); } /* parent */ process_handle_data = lookup_process_handle (handle); if (!process_handle_data) { g_warning ("%s: error looking up process handle %p", __func__, handle); _wapi_handle_unref (handle); goto cleanup; } process_handle_data->id = pid; /* Add our mono_process into the linked list of mono_processes */ mono_process = (struct MonoProcess *) g_malloc0 (sizeof (struct MonoProcess)); mono_process->pid = pid; mono_process->handle_count = 1; if (mono_os_sem_init (&mono_process->exit_sem, 0) != 0) { /* If we can't create the exit semaphore, we just don't add anything * to our list of mono processes. Waiting on the process will return * immediately. */ g_warning ("%s: could not create exit semaphore for process.", strerror (errno)); g_free (mono_process); } else { /* Keep the process handle artificially alive until the process * exits so that the information in the handle isn't lost. */ _wapi_handle_ref (handle); mono_process->handle = handle; process_handle_data->mono_process = mono_process; mono_os_mutex_lock (&mono_processes_mutex); mono_process->next = mono_processes; mono_processes = mono_process; mono_os_mutex_unlock (&mono_processes_mutex); } if (process_info != NULL) { process_info->hProcess = handle; process_info->dwProcessId = pid; /* FIXME: we might need to handle the thread info some * day */ process_info->hThread = INVALID_HANDLE_VALUE; process_info->dwThreadId = 0; } cleanup: _wapi_handle_unlock_shared_handles (); if (fork_failed) _wapi_handle_unref (handle); if (startup_pipe [1] != -1) { /* Write 1 byte, doesn't matter what */ ssize_t _i G_GNUC_UNUSED = write (startup_pipe [1], startup_pipe, 1); close (startup_pipe [0]); close (startup_pipe [1]); } free_strings: if (cmd) g_free (cmd); if (full_prog) g_free (full_prog); if (prog) g_free (prog); if (args) g_free (args); if (dir) g_free (dir); if (env_strings) g_strfreev (env_strings); if (argv) g_strfreev (argv); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: returning handle %p for pid %d", __func__, handle, pid); /* Check if something needs to be cleaned up. */ mono_processes_cleanup (); return ret; #else SetLastError (ERROR_NOT_SUPPORTED); return FALSE; #endif // defined (HAVE_FORK) && defined (HAVE_EXECVE) } static void process_set_name (WapiHandle_process *process_handle) { char *progname, *utf8_progname, *slash; progname = g_get_prgname (); utf8_progname = mono_utf8_from_external (progname); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: using [%s] as prog name", __func__, progname); if (utf8_progname) { slash = strrchr (utf8_progname, '/'); if (slash) process_handle->proc_name = g_strdup (slash+1); else process_handle->proc_name = g_strdup (utf8_progname); g_free (utf8_progname); } } void wapi_processes_init (void) { pid_t pid = _wapi_getpid (); WapiHandle_process process_handle = {0}; _wapi_handle_register_capabilities (WAPI_HANDLE_PROCESS, (WapiHandleCapability)(WAPI_HANDLE_CAP_WAIT | WAPI_HANDLE_CAP_SPECIAL_WAIT)); process_handle.id = pid; process_set_defaults (&process_handle); process_set_name (&process_handle); current_process = _wapi_handle_new (WAPI_HANDLE_PROCESS, &process_handle); g_assert (current_process); mono_os_mutex_init (&mono_processes_mutex); } gpointer _wapi_process_duplicate (void) { _wapi_handle_ref (current_process); return current_process; } /* Returns a pseudo handle that doesn't need to be closed afterwards */ gpointer GetCurrentProcess (void) { return _WAPI_PROCESS_CURRENT; } guint32 GetProcessId (gpointer handle) { WapiHandle_process *process_handle; if (WAPI_IS_PSEUDO_PROCESS_HANDLE (handle)) /* This is a pseudo handle */ return WAPI_HANDLE_TO_PID (handle); process_handle = lookup_process_handle (handle); if (!process_handle) { SetLastError (ERROR_INVALID_HANDLE); return 0; } return process_handle->id; } static gboolean process_open_compare (gpointer handle, gpointer user_data) { pid_t wanted_pid; WapiHandle_process *process_handle; pid_t checking_pid; g_assert (!WAPI_IS_PSEUDO_PROCESS_HANDLE (handle)); process_handle = lookup_process_handle (handle); g_assert (process_handle); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: looking at process %d", __func__, process_handle->id); checking_pid = process_handle->id; if (checking_pid == 0) return FALSE; wanted_pid = GPOINTER_TO_UINT (user_data); /* It's possible to have more than one process handle with the * same pid, but only the one running process can be * unsignalled */ if (checking_pid == wanted_pid && !_wapi_handle_issignalled (handle)) { /* If the handle is blown away in the window between * returning TRUE here and _wapi_search_handle pinging * the timestamp, the search will continue */ return TRUE; } else { return FALSE; } } gboolean CloseProcess (gpointer handle) { if (WAPI_IS_PSEUDO_PROCESS_HANDLE (handle)) return TRUE; return CloseHandle (handle); } /* * The caller owns the returned handle and must call CloseProcess () on it to clean it up. */ gpointer OpenProcess (guint32 req_access G_GNUC_UNUSED, gboolean inherit G_GNUC_UNUSED, guint32 pid) { /* Find the process handle that corresponds to pid */ gpointer handle = NULL; MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: looking for process %d", __func__, pid); handle = _wapi_search_handle (WAPI_HANDLE_PROCESS, process_open_compare, GUINT_TO_POINTER (pid), NULL, TRUE); if (handle == 0) { if (is_pid_valid (pid)) { /* Return a pseudo handle for processes we * don't have handles for */ return WAPI_PID_TO_HANDLE (pid); } else { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Can't find pid %d", __func__, pid); SetLastError (ERROR_PROC_NOT_FOUND); return NULL; } } /* _wapi_search_handle () already added a ref */ return handle; } gboolean GetExitCodeProcess (gpointer process, guint32 *code) { WapiHandle_process *process_handle; guint32 pid = -1; if (!code) return FALSE; if (WAPI_IS_PSEUDO_PROCESS_HANDLE (process)) { pid = WAPI_HANDLE_TO_PID (process); /* This is a pseudo handle, so we don't know what the * exit code was, but we can check whether it's alive or not */ if (is_pid_valid (pid)) { *code = STILL_ACTIVE; return TRUE; } else { return FALSE; } } process_handle = lookup_process_handle (process); if (!process_handle) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Can't find process %p", __func__, process); return FALSE; } if (process_handle->id == _wapi_getpid ()) { *code = STILL_ACTIVE; return TRUE; } /* A process handle is only signalled if the process has exited * and has been waited for */ /* Make sure any process exit has been noticed, before * checking if the process is signalled. Fixes bug 325463. */ process_wait (process, 0, TRUE); if (_wapi_handle_issignalled (process)) *code = process_handle->exitstatus; else *code = STILL_ACTIVE; return TRUE; } gboolean GetProcessTimes (gpointer process, WapiFileTime *create_time, WapiFileTime *exit_time, WapiFileTime *kernel_time, WapiFileTime *user_time) { WapiHandle_process *process_handle; gboolean ku_times_set = FALSE; if (create_time == NULL || exit_time == NULL || kernel_time == NULL || user_time == NULL) /* Not sure if w32 allows NULLs here or not */ return FALSE; if (WAPI_IS_PSEUDO_PROCESS_HANDLE (process)) { gpointer pid = GINT_TO_POINTER (WAPI_HANDLE_TO_PID(process)); gint64 start_ticks, user_ticks, kernel_ticks; mono_process_get_times (pid, &start_ticks, &user_ticks, &kernel_ticks); _wapi_guint64_to_filetime (start_ticks, create_time); _wapi_guint64_to_filetime (user_ticks, kernel_time); _wapi_guint64_to_filetime (kernel_ticks, user_time); return TRUE; } process_handle = lookup_process_handle (process); if (!process_handle) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Can't find process %p", __func__, process); return FALSE; } *create_time = process_handle->create_time; /* A process handle is only signalled if the process has * exited. Otherwise exit_time isn't set */ if (_wapi_handle_issignalled (process)) *exit_time = process_handle->exit_time; #ifdef HAVE_GETRUSAGE if (process_handle->id == getpid ()) { struct rusage time_data; if (getrusage (RUSAGE_SELF, &time_data) == 0) { guint64 tick_val; ku_times_set = TRUE; tick_val = (guint64)time_data.ru_utime.tv_sec * 10000000 + (guint64)time_data.ru_utime.tv_usec * 10; _wapi_guint64_to_filetime (tick_val, user_time); tick_val = (guint64)time_data.ru_stime.tv_sec * 10000000 + (guint64)time_data.ru_stime.tv_usec * 10; _wapi_guint64_to_filetime (tick_val, kernel_time); } } #endif if (!ku_times_set) { memset (kernel_time, 0, sizeof (WapiFileTime)); memset (user_time, 0, sizeof (WapiFileTime)); } return TRUE; } typedef struct { gpointer address_start; gpointer address_end; char *perms; gpointer address_offset; guint64 device; guint64 inode; char *filename; } WapiProcModule; static void free_procmodule (WapiProcModule *mod) { if (mod->perms != NULL) { g_free (mod->perms); } if (mod->filename != NULL) { g_free (mod->filename); } g_free (mod); } static gint find_procmodule (gconstpointer a, gconstpointer b) { WapiProcModule *want = (WapiProcModule *)a; WapiProcModule *compare = (WapiProcModule *)b; if ((want->device == compare->device) && (want->inode == compare->inode)) { return(0); } else { return(1); } } #if defined(USE_OSX_LOADER) #include #include static GSList *load_modules (void) { GSList *ret = NULL; WapiProcModule *mod; uint32_t count = _dyld_image_count (); int i = 0; for (i = 0; i < count; i++) { #if SIZEOF_VOID_P == 8 const struct mach_header_64 *hdr; const struct section_64 *sec; #else const struct mach_header *hdr; const struct section *sec; #endif const char *name; name = _dyld_get_image_name (i); #if SIZEOF_VOID_P == 8 hdr = (const struct mach_header_64*)_dyld_get_image_header (i); sec = getsectbynamefromheader_64 (hdr, SEG_DATA, SECT_DATA); #else hdr = _dyld_get_image_header (i); sec = getsectbynamefromheader (hdr, SEG_DATA, SECT_DATA); #endif /* Some dynlibs do not have data sections on osx (#533893) */ if (sec == 0) { continue; } mod = g_new0 (WapiProcModule, 1); mod->address_start = GINT_TO_POINTER (sec->addr); mod->address_end = GINT_TO_POINTER (sec->addr+sec->size); mod->perms = g_strdup ("r--p"); mod->address_offset = 0; mod->device = makedev (0, 0); mod->inode = i; mod->filename = g_strdup (name); if (g_slist_find_custom (ret, mod, find_procmodule) == NULL) { ret = g_slist_prepend (ret, mod); } else { free_procmodule (mod); } } ret = g_slist_reverse (ret); return(ret); } #elif defined(USE_BSD_LOADER) #include static int load_modules_callback (struct dl_phdr_info *info, size_t size, void *ptr) { if (size < offsetof (struct dl_phdr_info, dlpi_phnum) + sizeof (info->dlpi_phnum)) return (-1); struct dl_phdr_info *cpy = calloc(1, sizeof(struct dl_phdr_info)); if (!cpy) return (-1); memcpy(cpy, info, sizeof(*info)); g_ptr_array_add ((GPtrArray *)ptr, cpy); return (0); } static GSList *load_modules (void) { GSList *ret = NULL; WapiProcModule *mod; GPtrArray *dlarray = g_ptr_array_new(); int i; if (dl_iterate_phdr(load_modules_callback, dlarray) < 0) return (ret); for (i = 0; i < dlarray->len; i++) { struct dl_phdr_info *info = g_ptr_array_index (dlarray, i); mod = g_new0 (WapiProcModule, 1); mod->address_start = (gpointer)(info->dlpi_addr + info->dlpi_phdr[0].p_vaddr); mod->address_end = (gpointer)(info->dlpi_addr + info->dlpi_phdr[info->dlpi_phnum - 1].p_vaddr); mod->perms = g_strdup ("r--p"); mod->address_offset = 0; mod->inode = i; mod->filename = g_strdup (info->dlpi_name); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: inode=%d, filename=%s, address_start=%p, address_end=%p", __func__, mod->inode, mod->filename, mod->address_start, mod->address_end); free(info); if (g_slist_find_custom (ret, mod, find_procmodule) == NULL) { ret = g_slist_prepend (ret, mod); } else { free_procmodule (mod); } } g_ptr_array_free (dlarray, TRUE); ret = g_slist_reverse (ret); return(ret); } #elif defined(USE_HAIKU_LOADER) static GSList *load_modules (void) { GSList *ret = NULL; WapiProcModule *mod; int32 cookie = 0; image_info imageInfo; while (get_next_image_info (B_CURRENT_TEAM, &cookie, &imageInfo) == B_OK) { mod = g_new0 (WapiProcModule, 1); mod->device = imageInfo.device; mod->inode = imageInfo.node; mod->filename = g_strdup (imageInfo.name); mod->address_start = MIN (imageInfo.text, imageInfo.data); mod->address_end = MAX ((uint8_t*)imageInfo.text + imageInfo.text_size, (uint8_t*)imageInfo.data + imageInfo.data_size); mod->perms = g_strdup ("r--p"); mod->address_offset = 0; if (g_slist_find_custom (ret, mod, find_procmodule) == NULL) { ret = g_slist_prepend (ret, mod); } else { free_procmodule (mod); } } ret = g_slist_reverse (ret); return ret; } #else static GSList *load_modules (FILE *fp) { GSList *ret = NULL; WapiProcModule *mod; char buf[MAXPATHLEN + 1], *p, *endp; char *start_start, *end_start, *prot_start, *offset_start; char *maj_dev_start, *min_dev_start, *inode_start, prot_buf[5]; gpointer address_start, address_end, address_offset; guint32 maj_dev, min_dev; guint64 inode; guint64 device; while (fgets (buf, sizeof(buf), fp)) { p = buf; while (g_ascii_isspace (*p)) ++p; start_start = p; if (!g_ascii_isxdigit (*start_start)) { continue; } address_start = (gpointer)strtoul (start_start, &endp, 16); p = endp; if (*p != '-') { continue; } ++p; end_start = p; if (!g_ascii_isxdigit (*end_start)) { continue; } address_end = (gpointer)strtoul (end_start, &endp, 16); p = endp; if (!g_ascii_isspace (*p)) { continue; } while (g_ascii_isspace (*p)) ++p; prot_start = p; if (*prot_start != 'r' && *prot_start != '-') { continue; } memcpy (prot_buf, prot_start, 4); prot_buf[4] = '\0'; while (!g_ascii_isspace (*p)) ++p; while (g_ascii_isspace (*p)) ++p; offset_start = p; if (!g_ascii_isxdigit (*offset_start)) { continue; } address_offset = (gpointer)strtoul (offset_start, &endp, 16); p = endp; if (!g_ascii_isspace (*p)) { continue; } while(g_ascii_isspace (*p)) ++p; maj_dev_start = p; if (!g_ascii_isxdigit (*maj_dev_start)) { continue; } maj_dev = strtoul (maj_dev_start, &endp, 16); p = endp; if (*p != ':') { continue; } ++p; min_dev_start = p; if (!g_ascii_isxdigit (*min_dev_start)) { continue; } min_dev = strtoul (min_dev_start, &endp, 16); p = endp; if (!g_ascii_isspace (*p)) { continue; } while (g_ascii_isspace (*p)) ++p; inode_start = p; if (!g_ascii_isxdigit (*inode_start)) { continue; } inode = (guint64)strtol (inode_start, &endp, 10); p = endp; if (!g_ascii_isspace (*p)) { continue; } device = makedev ((int)maj_dev, (int)min_dev); if ((device == 0) && (inode == 0)) { continue; } while(g_ascii_isspace (*p)) ++p; /* p now points to the filename */ mod = g_new0 (WapiProcModule, 1); mod->address_start = address_start; mod->address_end = address_end; mod->perms = g_strdup (prot_buf); mod->address_offset = address_offset; mod->device = device; mod->inode = inode; mod->filename = g_strdup (g_strstrip (p)); if (g_slist_find_custom (ret, mod, find_procmodule) == NULL) { ret = g_slist_prepend (ret, mod); } else { free_procmodule (mod); } } ret = g_slist_reverse (ret); return(ret); } #endif static gboolean match_procname_to_modulename (char *procname, char *modulename) { char* lastsep = NULL; char* lastsep2 = NULL; char* pname = NULL; char* mname = NULL; gboolean result = FALSE; if (procname == NULL || modulename == NULL) return (FALSE); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: procname=\"%s\", modulename=\"%s\"", __func__, procname, modulename); pname = mono_path_resolve_symlinks (procname); mname = mono_path_resolve_symlinks (modulename); if (!strcmp (pname, mname)) result = TRUE; if (!result) { lastsep = strrchr (mname, '/'); if (lastsep) if (!strcmp (lastsep+1, pname)) result = TRUE; if (!result) { lastsep2 = strrchr (pname, '/'); if (lastsep2){ if (lastsep) { if (!strcmp (lastsep+1, lastsep2+1)) result = TRUE; } else { if (!strcmp (mname, lastsep2+1)) result = TRUE; } } } } g_free (pname); g_free (mname); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: result is %d", __func__, result); return result; } #if !(defined(USE_OSX_LOADER) || defined(USE_BSD_LOADER) || defined(USE_HAIKU_LOADER)) static FILE * open_process_map (int pid, const char *mode) { FILE *fp = NULL; const char *proc_path[] = { "/proc/%d/maps", /* GNU/Linux */ "/proc/%d/map", /* FreeBSD */ NULL }; int i; char *filename; for (i = 0; fp == NULL && proc_path [i]; i++) { filename = g_strdup_printf (proc_path[i], pid); fp = fopen (filename, mode); g_free (filename); } return fp; } #endif static char *get_process_name_from_proc (pid_t pid); gboolean EnumProcessModules (gpointer process, gpointer *modules, guint32 size, guint32 *needed) { WapiHandle_process *process_handle; #if !defined(USE_OSX_LOADER) && !defined(USE_BSD_LOADER) FILE *fp; #endif GSList *mods = NULL; WapiProcModule *module; guint32 count, avail = size / sizeof(gpointer); int i; pid_t pid; char *proc_name = NULL; /* Store modules in an array of pointers (main module as * modules[0]), using the load address for each module as a * token. (Use 'NULL' as an alternative for the main module * so that the simple implementation can just return one item * for now.) Get the info from /proc//maps on linux, * /proc//map on FreeBSD, other systems will have to * implement /dev/kmem reading or whatever other horrid * technique is needed. */ if (size < sizeof(gpointer)) return FALSE; if (WAPI_IS_PSEUDO_PROCESS_HANDLE (process)) { pid = WAPI_HANDLE_TO_PID (process); proc_name = get_process_name_from_proc (pid); } else { process_handle = lookup_process_handle (process); if (!process_handle) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Can't find process %p", __func__, process); return FALSE; } pid = process_handle->id; proc_name = g_strdup (process_handle->proc_name); } #if defined(USE_OSX_LOADER) || defined(USE_BSD_LOADER) || defined(USE_HAIKU_LOADER) mods = load_modules (); if (!proc_name) { modules[0] = NULL; *needed = sizeof(gpointer); return TRUE; } #else fp = open_process_map (pid, "r"); if (!fp) { /* No /proc//maps so just return the main module * shortcut for now */ modules[0] = NULL; *needed = sizeof(gpointer); g_free (proc_name); return TRUE; } mods = load_modules (fp); fclose (fp); #endif count = g_slist_length (mods); /* count + 1 to leave slot 0 for the main module */ *needed = sizeof(gpointer) * (count + 1); /* * Use the NULL shortcut, as the first line in * /proc//maps isn't the executable, and we need * that first in the returned list. Check the module name * to see if it ends with the proc name and substitute * the first entry with it. FIXME if this turns out to * be a problem. */ modules[0] = NULL; for (i = 0; i < (avail - 1) && i < count; i++) { module = (WapiProcModule *)g_slist_nth_data (mods, i); if (modules[0] != NULL) modules[i] = module->address_start; else if (match_procname_to_modulename (proc_name, module->filename)) modules[0] = module->address_start; else modules[i + 1] = module->address_start; } for (i = 0; i < count; i++) { free_procmodule ((WapiProcModule *)g_slist_nth_data (mods, i)); } g_slist_free (mods); g_free (proc_name); return TRUE; } static char * get_process_name_from_proc (pid_t pid) { #if defined(USE_BSD_LOADER) int mib [6]; size_t size; struct kinfo_proc *pi; #elif defined(USE_OSX_LOADER) #if !(!defined (__mono_ppc__) && defined (TARGET_OSX)) size_t size; struct kinfo_proc *pi; int mib[] = { CTL_KERN, KERN_PROC, KERN_PROC_PID, pid }; #endif #else FILE *fp; char *filename = NULL; #endif char buf[256]; char *ret = NULL; #if defined(PLATFORM_SOLARIS) filename = g_strdup_printf ("/proc/%d/psinfo", pid); if ((fp = fopen (filename, "r")) != NULL) { struct psinfo info; int nread; nread = fread (&info, sizeof (info), 1, fp); if (nread == 1) { ret = g_strdup (info.pr_fname); } fclose (fp); } g_free (filename); #elif defined(USE_OSX_LOADER) #if !defined (__mono_ppc__) && defined (TARGET_OSX) /* No proc name on OSX < 10.5 nor ppc nor iOS */ memset (buf, '\0', sizeof(buf)); proc_name (pid, buf, sizeof(buf)); // Fixes proc_name triming values to 15 characters #32539 if (strlen (buf) >= MAXCOMLEN - 1) { char path_buf [PROC_PIDPATHINFO_MAXSIZE]; char *name_buf; int path_len; memset (path_buf, '\0', sizeof(path_buf)); path_len = proc_pidpath (pid, path_buf, sizeof(path_buf)); if (path_len > 0 && path_len < sizeof(path_buf)) { name_buf = path_buf + path_len; for(;name_buf > path_buf; name_buf--) { if (name_buf [0] == '/') { name_buf++; break; } } if (memcmp (buf, name_buf, MAXCOMLEN - 1) == 0) ret = g_strdup (name_buf); } } if (ret == NULL && strlen (buf) > 0) ret = g_strdup (buf); #else if (sysctl(mib, 4, NULL, &size, NULL, 0) < 0) return(ret); if ((pi = malloc(size)) == NULL) return(ret); if (sysctl (mib, 4, pi, &size, NULL, 0) < 0) { if (errno == ENOMEM) { free(pi); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Didn't allocate enough memory for kproc info", __func__); } return(ret); } if (strlen (pi->kp_proc.p_comm) > 0) ret = g_strdup (pi->kp_proc.p_comm); free(pi); #endif #elif defined(USE_BSD_LOADER) #if defined(__FreeBSD__) mib [0] = CTL_KERN; mib [1] = KERN_PROC; mib [2] = KERN_PROC_PID; mib [3] = pid; if (sysctl(mib, 4, NULL, &size, NULL, 0) < 0) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: sysctl() failed: %d", __func__, errno); return(ret); } if ((pi = malloc(size)) == NULL) return(ret); if (sysctl (mib, 4, pi, &size, NULL, 0) < 0) { if (errno == ENOMEM) { free(pi); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Didn't allocate enough memory for kproc info", __func__); } return(ret); } if (strlen (pi->ki_comm) > 0) ret = g_strdup (pi->ki_comm); free(pi); #elif defined(__OpenBSD__) mib [0] = CTL_KERN; mib [1] = KERN_PROC; mib [2] = KERN_PROC_PID; mib [3] = pid; mib [4] = sizeof(struct kinfo_proc); mib [5] = 0; retry: if (sysctl(mib, 6, NULL, &size, NULL, 0) < 0) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: sysctl() failed: %d", __func__, errno); return(ret); } if ((pi = malloc(size)) == NULL) return(ret); mib[5] = (int)(size / sizeof(struct kinfo_proc)); if ((sysctl (mib, 6, pi, &size, NULL, 0) < 0) || (size != sizeof (struct kinfo_proc))) { if (errno == ENOMEM) { free(pi); goto retry; } return(ret); } if (strlen (pi->p_comm) > 0) ret = g_strdup (pi->p_comm); free(pi); #endif #elif defined(USE_HAIKU_LOADER) image_info imageInfo; int32 cookie = 0; if (get_next_image_info ((team_id)pid, &cookie, &imageInfo) == B_OK) { ret = g_strdup (imageInfo.name); } #else memset (buf, '\0', sizeof(buf)); filename = g_strdup_printf ("/proc/%d/exe", pid); if (readlink (filename, buf, 255) > 0) { ret = g_strdup (buf); } g_free (filename); if (ret != NULL) { return(ret); } filename = g_strdup_printf ("/proc/%d/cmdline", pid); if ((fp = fopen (filename, "r")) != NULL) { if (fgets (buf, 256, fp) != NULL) { ret = g_strdup (buf); } fclose (fp); } g_free (filename); if (ret != NULL) { return(ret); } filename = g_strdup_printf ("/proc/%d/stat", pid); if ((fp = fopen (filename, "r")) != NULL) { if (fgets (buf, 256, fp) != NULL) { char *start, *end; start = strchr (buf, '('); if (start != NULL) { end = strchr (start + 1, ')'); if (end != NULL) { ret = g_strndup (start + 1, end - start - 1); } } } fclose (fp); } g_free (filename); #endif return ret; } /* * wapi_process_get_path: * * Return the full path of the executable of the process PID, or NULL if it cannot be determined. * Returns malloc-ed memory. */ char* wapi_process_get_path (pid_t pid) { #if defined(PLATFORM_MACOSX) && !defined(__mono_ppc__) && defined(TARGET_OSX) char buf [PROC_PIDPATHINFO_MAXSIZE]; int res; res = proc_pidpath (pid, buf, sizeof (buf)); if (res <= 0) return NULL; if (buf [0] == '\0') return NULL; return g_strdup (buf); #else return get_process_name_from_proc (pid); #endif } /* * wapi_process_set_cli_launcher: * * Set the full path of the runtime executable used to launch managed exe's. */ void wapi_process_set_cli_launcher (char *path) { g_free (cli_launcher); cli_launcher = path ? g_strdup (path) : NULL; } static guint32 get_module_name (gpointer process, gpointer module, gunichar2 *basename, guint32 size, gboolean base) { WapiHandle_process *process_handle; pid_t pid; gunichar2 *procname; char *procname_ext = NULL; glong len; gsize bytes; #if !defined(USE_OSX_LOADER) && !defined(USE_BSD_LOADER) FILE *fp; #endif GSList *mods = NULL; WapiProcModule *found_module; guint32 count; int i; char *proc_name = NULL; MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Getting module base name, process handle %p module %p", __func__, process, module); size = size * sizeof (gunichar2); /* adjust for unicode characters */ if (basename == NULL || size == 0) return 0; if (WAPI_IS_PSEUDO_PROCESS_HANDLE (process)) { /* This is a pseudo handle */ pid = (pid_t)WAPI_HANDLE_TO_PID (process); proc_name = get_process_name_from_proc (pid); } else { process_handle = lookup_process_handle (process); if (!process_handle) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Can't find process %p", __func__, process); return 0; } pid = process_handle->id; proc_name = g_strdup (process_handle->proc_name); } /* Look up the address in /proc//maps */ #if defined(USE_OSX_LOADER) || defined(USE_BSD_LOADER) || defined(USE_HAIKU_LOADER) mods = load_modules (); #else fp = open_process_map (pid, "r"); if (fp == NULL) { if (errno == EACCES && module == NULL && base == TRUE) { procname_ext = get_process_name_from_proc (pid); } else { /* No /proc//maps, so just return failure * for now */ g_free (proc_name); return 0; } } else { mods = load_modules (fp); fclose (fp); } #endif count = g_slist_length (mods); /* If module != NULL compare the address. * If module == NULL we are looking for the main module. * The best we can do for now check it the module name end with the process name. */ for (i = 0; i < count; i++) { found_module = (WapiProcModule *)g_slist_nth_data (mods, i); if (procname_ext == NULL && ((module == NULL && match_procname_to_modulename (proc_name, found_module->filename)) || (module != NULL && found_module->address_start == module))) { if (base) procname_ext = g_path_get_basename (found_module->filename); else procname_ext = g_strdup (found_module->filename); } free_procmodule (found_module); } if (procname_ext == NULL) { /* If it's *still* null, we might have hit the * case where reading /proc/$pid/maps gives an * empty file for this user. */ procname_ext = get_process_name_from_proc (pid); } g_slist_free (mods); g_free (proc_name); if (procname_ext) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Process name is [%s]", __func__, procname_ext); procname = mono_unicode_from_external (procname_ext, &bytes); if (procname == NULL) { /* bugger */ g_free (procname_ext); return 0; } len = (bytes / 2); /* Add the terminator */ bytes += 2; if (size < bytes) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Size %d smaller than needed (%ld); truncating", __func__, size, bytes); memcpy (basename, procname, size); } else { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Size %d larger than needed (%ld)", __func__, size, bytes); memcpy (basename, procname, bytes); } g_free (procname); g_free (procname_ext); return len; } return 0; } static guint32 get_module_filename (gpointer process, gpointer module, gunichar2 *basename, guint32 size) { int pid, len; gsize bytes; char *path; gunichar2 *proc_path; size *= sizeof (gunichar2); /* adjust for unicode characters */ if (basename == NULL || size == 0) return 0; pid = GetProcessId (process); path = wapi_process_get_path (pid); if (path == NULL) return 0; proc_path = mono_unicode_from_external (path, &bytes); g_free (path); if (proc_path == NULL) return 0; len = (bytes / 2); /* Add the terminator */ bytes += 2; if (size < bytes) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Size %d smaller than needed (%ld); truncating", __func__, size, bytes); memcpy (basename, proc_path, size); } else { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Size %d larger than needed (%ld)", __func__, size, bytes); memcpy (basename, proc_path, bytes); } g_free (proc_path); return len; } guint32 GetModuleBaseName (gpointer process, gpointer module, gunichar2 *basename, guint32 size) { return get_module_name (process, module, basename, size, TRUE); } guint32 GetModuleFileNameEx (gpointer process, gpointer module, gunichar2 *filename, guint32 size) { return get_module_filename (process, module, filename, size); } gboolean GetModuleInformation (gpointer process, gpointer module, WapiModuleInfo *modinfo, guint32 size) { WapiHandle_process *process_handle; pid_t pid; #if !defined(USE_OSX_LOADER) && !defined(USE_BSD_LOADER) FILE *fp; #endif GSList *mods = NULL; WapiProcModule *found_module; guint32 count; int i; gboolean ret = FALSE; char *proc_name = NULL; MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Getting module info, process handle %p module %p", __func__, process, module); if (modinfo == NULL || size < sizeof (WapiModuleInfo)) return FALSE; if (WAPI_IS_PSEUDO_PROCESS_HANDLE (process)) { pid = (pid_t)WAPI_HANDLE_TO_PID (process); proc_name = get_process_name_from_proc (pid); } else { process_handle = lookup_process_handle (process); if (!process_handle) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Can't find process %p", __func__, process); return FALSE; } pid = process_handle->id; proc_name = g_strdup (process_handle->proc_name); } #if defined(USE_OSX_LOADER) || defined(USE_BSD_LOADER) || defined(USE_HAIKU_LOADER) mods = load_modules (); #else /* Look up the address in /proc//maps */ if ((fp = open_process_map (pid, "r")) == NULL) { /* No /proc//maps, so just return failure * for now */ g_free (proc_name); return FALSE; } mods = load_modules (fp); fclose (fp); #endif count = g_slist_length (mods); /* If module != NULL compare the address. * If module == NULL we are looking for the main module. * The best we can do for now check it the module name end with the process name. */ for (i = 0; i < count; i++) { found_module = (WapiProcModule *)g_slist_nth_data (mods, i); if (ret == FALSE && ((module == NULL && match_procname_to_modulename (proc_name, found_module->filename)) || (module != NULL && found_module->address_start == module))) { modinfo->lpBaseOfDll = found_module->address_start; modinfo->SizeOfImage = (gsize)(found_module->address_end) - (gsize)(found_module->address_start); modinfo->EntryPoint = found_module->address_offset; ret = TRUE; } free_procmodule (found_module); } g_slist_free (mods); g_free (proc_name); return ret; } gboolean GetProcessWorkingSetSize (gpointer process, size_t *min, size_t *max) { WapiHandle_process *process_handle; if (min == NULL || max == NULL) /* Not sure if w32 allows NULLs here or not */ return FALSE; if (WAPI_IS_PSEUDO_PROCESS_HANDLE (process)) /* This is a pseudo handle, so just fail for now */ return FALSE; process_handle = lookup_process_handle (process); if (!process_handle) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Can't find process %p", __func__, process); return FALSE; } *min = process_handle->min_working_set; *max = process_handle->max_working_set; return TRUE; } gboolean SetProcessWorkingSetSize (gpointer process, size_t min, size_t max) { WapiHandle_process *process_handle; if (WAPI_IS_PSEUDO_PROCESS_HANDLE (process)) /* This is a pseudo handle, so just fail for now */ return FALSE; process_handle = lookup_process_handle (process); if (!process_handle) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Can't find process %p", __func__, process); return FALSE; } process_handle->min_working_set = min; process_handle->max_working_set = max; return TRUE; } gboolean TerminateProcess (gpointer process, gint32 exitCode) { #if defined(HAVE_KILL) WapiHandle_process *process_handle; int signo; int ret; pid_t pid; if (WAPI_IS_PSEUDO_PROCESS_HANDLE (process)) { /* This is a pseudo handle */ pid = (pid_t)WAPI_HANDLE_TO_PID (process); } else { process_handle = lookup_process_handle (process); if (!process_handle) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s: Can't find process %p", __func__, process); SetLastError (ERROR_INVALID_HANDLE); return FALSE; } pid = process_handle->id; } signo = (exitCode == -1) ? SIGKILL : SIGTERM; ret = kill (pid, signo); if (ret == -1) { switch (errno) { case EINVAL: SetLastError (ERROR_INVALID_PARAMETER); break; case EPERM: SetLastError (ERROR_ACCESS_DENIED); break; case ESRCH: SetLastError (ERROR_PROC_NOT_FOUND); break; default: SetLastError (ERROR_GEN_FAILURE); } } return (ret == 0); #else g_error ("kill() is not supported by this platform"); return FALSE; #endif } guint32 GetPriorityClass (gpointer process) { #ifdef HAVE_GETPRIORITY WapiHandle_process *process_handle; int ret; pid_t pid; if (WAPI_IS_PSEUDO_PROCESS_HANDLE (process)) { /* This is a pseudo handle */ pid = (pid_t)WAPI_HANDLE_TO_PID (process); } else { process_handle = lookup_process_handle (process); if (!process_handle) { SetLastError (ERROR_INVALID_HANDLE); return FALSE; } pid = process_handle->id; } errno = 0; ret = getpriority (PRIO_PROCESS, pid); if (ret == -1 && errno != 0) { switch (errno) { case EPERM: case EACCES: SetLastError (ERROR_ACCESS_DENIED); break; case ESRCH: SetLastError (ERROR_PROC_NOT_FOUND); break; default: SetLastError (ERROR_GEN_FAILURE); } return FALSE; } if (ret == 0) return NORMAL_PRIORITY_CLASS; else if (ret < -15) return REALTIME_PRIORITY_CLASS; else if (ret < -10) return HIGH_PRIORITY_CLASS; else if (ret < 0) return ABOVE_NORMAL_PRIORITY_CLASS; else if (ret > 10) return IDLE_PRIORITY_CLASS; else if (ret > 0) return BELOW_NORMAL_PRIORITY_CLASS; return NORMAL_PRIORITY_CLASS; #else SetLastError (ERROR_NOT_SUPPORTED); return 0; #endif } gboolean SetPriorityClass (gpointer process, guint32 priority_class) { #ifdef HAVE_SETPRIORITY WapiHandle_process *process_handle; int ret; int prio; pid_t pid; if (WAPI_IS_PSEUDO_PROCESS_HANDLE (process)) { /* This is a pseudo handle */ pid = (pid_t)WAPI_HANDLE_TO_PID (process); } else { process_handle = lookup_process_handle (process); if (!process_handle) { SetLastError (ERROR_INVALID_HANDLE); return FALSE; } pid = process_handle->id; } switch (priority_class) { case IDLE_PRIORITY_CLASS: prio = 19; break; case BELOW_NORMAL_PRIORITY_CLASS: prio = 10; break; case NORMAL_PRIORITY_CLASS: prio = 0; break; case ABOVE_NORMAL_PRIORITY_CLASS: prio = -5; break; case HIGH_PRIORITY_CLASS: prio = -11; break; case REALTIME_PRIORITY_CLASS: prio = -20; break; default: SetLastError (ERROR_INVALID_PARAMETER); return FALSE; } ret = setpriority (PRIO_PROCESS, pid, prio); if (ret == -1) { switch (errno) { case EPERM: case EACCES: SetLastError (ERROR_ACCESS_DENIED); break; case ESRCH: SetLastError (ERROR_PROC_NOT_FOUND); break; default: SetLastError (ERROR_GEN_FAILURE); } } return ret == 0; #else SetLastError (ERROR_NOT_SUPPORTED); return FALSE; #endif } static void mono_processes_cleanup (void) { struct MonoProcess *mp; struct MonoProcess *prev = NULL; GSList *finished = NULL; GSList *l; gpointer unref_handle; MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s", __func__); /* Ensure we're not in here in multiple threads at once, nor recursive. */ if (InterlockedCompareExchange (&mono_processes_cleaning_up, 1, 0) != 0) return; for (mp = mono_processes; mp; mp = mp->next) { if (mp->pid == 0 && mp->handle) { /* This process has exited and we need to remove the artifical ref * on the handle */ mono_os_mutex_lock (&mono_processes_mutex); unref_handle = mp->handle; mp->handle = NULL; mono_os_mutex_unlock (&mono_processes_mutex); if (unref_handle) _wapi_handle_unref (unref_handle); } } /* * Remove processes which exited from the mono_processes list. * We need to synchronize with the sigchld handler here, which runs * asynchronously. The handler requires that the mono_processes list * remain valid. */ mono_os_mutex_lock (&mono_processes_mutex); mp = mono_processes; while (mp) { if (mp->handle_count == 0 && mp->freeable) { /* * Unlink the entry. * This code can run parallel with the sigchld handler, but the * modifications it makes are safe. */ if (mp == mono_processes) mono_processes = mp->next; else prev->next = mp->next; finished = g_slist_prepend (finished, mp); mp = mp->next; } else { prev = mp; mp = mp->next; } } mono_memory_barrier (); for (l = finished; l; l = l->next) { /* * All the entries in the finished list are unlinked from mono_processes, and * they have the 'finished' flag set, which means the sigchld handler is done * accessing them. */ mp = (MonoProcess *)l->data; mono_os_sem_destroy (&mp->exit_sem); g_free (mp); } g_slist_free (finished); mono_os_mutex_unlock (&mono_processes_mutex); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s done", __func__); InterlockedDecrement (&mono_processes_cleaning_up); } static void process_close (gpointer handle, gpointer data) { WapiHandle_process *process_handle; MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s", __func__); process_handle = (WapiHandle_process *) data; g_free (process_handle->proc_name); process_handle->proc_name = NULL; if (process_handle->mono_process) InterlockedDecrement (&process_handle->mono_process->handle_count); mono_processes_cleanup (); } #if HAVE_SIGACTION MONO_SIGNAL_HANDLER_FUNC (static, mono_sigchld_signal_handler, (int _dummy, siginfo_t *info, void *context)) { int status; int pid; struct MonoProcess *p; MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "SIG CHILD handler for pid: %i\n", info->si_pid); do { do { pid = waitpid (-1, &status, WNOHANG); } while (pid == -1 && errno == EINTR); if (pid <= 0) break; MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "child ended: %i", pid); /* * This can run concurrently with the code in the rest of this module. */ for (p = mono_processes; p; p = p->next) { if (p->pid == pid) { break; } } if (p) { p->pid = 0; /* this pid doesn't exist anymore, clear it */ p->status = status; mono_os_sem_post (&p->exit_sem); mono_memory_barrier (); /* Mark this as freeable, the pointer becomes invalid afterwards */ p->freeable = TRUE; } } while (1); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "SIG CHILD handler: done looping."); } #endif static void process_add_sigchld_handler (void) { #if HAVE_SIGACTION struct sigaction sa; sa.sa_sigaction = mono_sigchld_signal_handler; sigemptyset (&sa.sa_mask); sa.sa_flags = SA_NOCLDSTOP | SA_SIGINFO; g_assert (sigaction (SIGCHLD, &sa, &previous_chld_sa) != -1); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "Added SIGCHLD handler"); #endif } static guint32 process_wait (gpointer handle, guint32 timeout, gboolean alertable) { WapiHandle_process *process_handle; pid_t pid G_GNUC_UNUSED, ret; int status; gint64 start, now; struct MonoProcess *mp; /* FIXME: We can now easily wait on processes that aren't our own children, * but WaitFor*Object won't call us for pseudo handles. */ g_assert ((GPOINTER_TO_UINT (handle) & _WAPI_PROCESS_UNHANDLED) != _WAPI_PROCESS_UNHANDLED); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u)", __func__, handle, timeout); process_handle = lookup_process_handle (handle); if (!process_handle) { g_warning ("%s: error looking up process handle %p", __func__, handle); return WAIT_FAILED; } if (process_handle->exited) { /* We've already done this one */ MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): Process already exited", __func__, handle, timeout); return WAIT_OBJECT_0; } pid = process_handle->id; MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): PID: %d", __func__, handle, timeout, pid); /* We don't need to lock mono_processes here, the entry * has a handle_count > 0 which means it will not be freed. */ mp = process_handle->mono_process; if (!mp) { pid_t res; if (pid == mono_process_current_pid ()) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): waiting on current process", __func__, handle, timeout); return WAIT_TIMEOUT; } /* This path is used when calling Process.HasExited, so * it is only used to poll the state of the process, not * to actually wait on it to exit */ g_assert (timeout == 0); MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): waiting on non-child process", __func__, handle, timeout); res = waitpid (pid, &status, WNOHANG); if (res == 0) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): non-child process WAIT_TIMEOUT", __func__, handle, timeout); return WAIT_TIMEOUT; } if (res > 0) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): non-child process waited successfully", __func__, handle, timeout); return WAIT_OBJECT_0; } MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): non-child process WAIT_FAILED, error : %s (%d))", __func__, handle, timeout, g_strerror (errno), errno); return WAIT_FAILED; } start = mono_msec_ticks (); now = start; while (1) { if (timeout != INFINITE) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): waiting on semaphore for %li ms...", __func__, handle, timeout, (timeout - (now - start))); ret = mono_os_sem_timedwait (&mp->exit_sem, (timeout - (now - start)), alertable ? MONO_SEM_FLAGS_ALERTABLE : MONO_SEM_FLAGS_NONE); } else { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): waiting on semaphore forever...", __func__, handle, timeout); ret = mono_os_sem_wait (&mp->exit_sem, alertable ? MONO_SEM_FLAGS_ALERTABLE : MONO_SEM_FLAGS_NONE); } if (ret == -1 && errno != EINTR && errno != ETIMEDOUT) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): sem_timedwait failure: %s", __func__, handle, timeout, g_strerror (errno)); /* Should we return a failure here? */ } if (ret == 0) { /* Success, process has exited */ mono_os_sem_post (&mp->exit_sem); break; } if (timeout == 0) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): WAIT_TIMEOUT (timeout = 0)", __func__, handle, timeout); return WAIT_TIMEOUT; } now = mono_msec_ticks (); if (now - start >= timeout) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): WAIT_TIMEOUT", __func__, handle, timeout); return WAIT_TIMEOUT; } if (alertable && _wapi_thread_cur_apc_pending ()) { MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): WAIT_IO_COMPLETION", __func__, handle, timeout); return WAIT_IO_COMPLETION; } } /* Process must have exited */ MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): Waited successfully", __func__, handle, timeout); ret = _wapi_handle_lock_shared_handles (); g_assert (ret == 0); status = mp ? mp->status : 0; if (WIFSIGNALED (status)) process_handle->exitstatus = 128 + WTERMSIG (status); else process_handle->exitstatus = WEXITSTATUS (status); _wapi_time_t_to_filetime (time (NULL), &process_handle->exit_time); process_handle->exited = TRUE; MONO_TRACE (G_LOG_LEVEL_DEBUG, MONO_TRACE_IO_LAYER, "%s (%p, %u): Setting pid %d signalled, exit status %d", __func__, handle, timeout, process_handle->id, process_handle->exitstatus); _wapi_handle_set_signal_state (handle, TRUE, TRUE); _wapi_handle_unlock_shared_handles (); return WAIT_OBJECT_0; } void wapi_processes_cleanup (void) { g_free (cli_launcher); }