/* -*- Mode: C ; c-basic-offset: 2 -*- */ /* * LADI Session Handler (ladish) * * Copyright (C) 2008, 2009, 2010, 2011, 2012 Nedko Arnaudov * Copyright (C) 2008 Juuso Alasuutari * Copyright (C) 2002 Robert Ham * ************************************************************************** * This file contains code that starts programs ************************************************************************** * * LADI Session Handler 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 2 of the License, or * (at your option) any later version. * * LADI Session Handler 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 LADI Session Handler. If not, see * or write to the Free Software Foundation, Inc., * 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "common.h" #include #include #include /* forkpty() */ #include #include #include #include "loader.h" #include "../proxies/conf_proxy.h" #include "conf.h" #include "../common/catdup.h" #define XTERM_COMMAND_EXTENSION "&& sh || sh" #define CLIENT_OUTPUT_BUFFER_SIZE 2048 struct loader_child { struct list_head siblings; char * vgraph_name; char * app_name; char * project_name; bool dead; int exit_status; pid_t pid; bool terminal; int stdout; char stdout_buffer[CLIENT_OUTPUT_BUFFER_SIZE]; char stdout_last_line[CLIENT_OUTPUT_BUFFER_SIZE]; unsigned int stdout_last_line_repeat_count; char * stdout_buffer_ptr; int stderr; char stderr_buffer[CLIENT_OUTPUT_BUFFER_SIZE]; char stderr_last_line[CLIENT_OUTPUT_BUFFER_SIZE]; unsigned int stderr_last_line_repeat_count; char * stderr_buffer_ptr; }; static void (* g_on_child_exit)(pid_t pid, int exit_status); static struct list_head g_childs_list; static struct loader_child * loader_child_find(pid_t pid) { struct list_head *node_ptr; struct loader_child *child_ptr; list_for_each (node_ptr, &g_childs_list) { child_ptr = list_entry(node_ptr, struct loader_child, siblings); if (child_ptr->pid == pid) { return child_ptr; } } return NULL; } static void loader_check_line_repeat_end( char * vgraph_name, char * app_name, bool error, unsigned int last_line_repeat_count) { if (last_line_repeat_count >= 2) { if (error) { log_error_plain("%s:%s: stderr line repeated %u times", vgraph_name, app_name, last_line_repeat_count); } else { log_info("%s:%s: stdout line repeated %u times", vgraph_name, app_name, last_line_repeat_count); } } } static void loader_childs_bury(void) { struct list_head *node_ptr; struct list_head *next_ptr; struct loader_child *child_ptr; list_for_each_safe (node_ptr, next_ptr, &g_childs_list) { child_ptr = list_entry(node_ptr, struct loader_child, siblings); if (child_ptr->dead) { loader_check_line_repeat_end( child_ptr->vgraph_name, child_ptr->app_name, false, child_ptr->stdout_last_line_repeat_count); loader_check_line_repeat_end( child_ptr->vgraph_name, child_ptr->app_name, true, child_ptr->stderr_last_line_repeat_count); log_debug("Bury child '%s' with PID %llu", child_ptr->app_name, (unsigned long long)child_ptr->pid); list_del(&child_ptr->siblings); free(child_ptr->project_name); free(child_ptr->vgraph_name); free(child_ptr->app_name); if (!child_ptr->terminal) { close(child_ptr->stdout); close(child_ptr->stderr); } g_on_child_exit(child_ptr->pid, child_ptr->exit_status); free(child_ptr); } } } static void loader_sigchld_handler(int signum) { int status; pid_t pid; struct loader_child *child_ptr; int signal; ASSERT(signum == SIGCHLD); while ((pid = waitpid(-1, &status, WNOHANG)) > 0) { child_ptr = loader_child_find(pid); if (!child_ptr) { log_error("Termination of unknown child process with PID %llu detected", (unsigned long long)pid); } else { log_info("Termination of child process '%s' with PID %llu detected", child_ptr->app_name, (unsigned long long)pid); child_ptr->dead = true; child_ptr->exit_status = status; } if (WIFEXITED(status)) { log_info("Child exited, code=%d", WEXITSTATUS(status)); } else if (WIFSIGNALED(status)) { signal = WTERMSIG(status); switch (signal) { case SIGILL: case SIGABRT: case SIGSEGV: case SIGFPE: log_error("Child was killed by signal %d", signal); break; default: log_info("Child was killed by signal %d", signal); } } else if (WIFSTOPPED(status)) { log_info("Child was stopped by signal %d", WSTOPSIG(status)); } } } void loader_init(void (* on_child_exit)(pid_t pid, int exit_status)) { g_on_child_exit = on_child_exit; signal(SIGCHLD, loader_sigchld_handler); INIT_LIST_HEAD(&g_childs_list); } void loader_uninit(void) { loader_childs_bury(); } #if 0 static void loader_exec_program_in_xterm(const char * const * argv) { char * dst_ptr; const char * const * src_ptr_ptr; size_t len; log_debug("Executing program '%s' with PID %llu in terminal", argv[0], (unsigned long long)getpid()); /* Calculate the command string length */ len = strlen(XTERM_COMMAND_EXTENSION) + 1; for (src_ptr_ptr = argv; *src_ptr_ptr != NULL; src_ptr_ptr++) { len += strlen(*src_ptr_ptr) + 3; /* three additional chars per argument: two double quotes and a space */ } char buf[len]; /* dynamically allocate in stack */ /* Create the command string */ src_ptr_ptr = argv; dst_ptr = buf; while (*src_ptr_ptr != NULL) { len = strlen(*src_ptr_ptr); dst_ptr[0] = '"'; memcpy(dst_ptr + 1, src_ptr_ptr, len); dst_ptr[1 + len] = '"'; dst_ptr[1 + len + 1] = ' '; dst_ptr += len + 3; src_ptr_ptr++; } strcat(dst_ptr, XTERM_COMMAND_EXTENSION); /* Execute the command */ execlp("xterm", "xterm", "-e", "/bin/sh", "-c", buf, NULL); log_error("Failed to execute command '%s' in terminal: %s", buf, strerror(errno)); exit(1); } #endif static void loader_exec_program( const char * commandline, const char * working_dir, const char * session_dir, bool run_in_terminal, const char * vgraph_name, const char * project_name, const char * app_name) { const char * argv[8]; unsigned int i; /* for non terminal processes we use forkpty() that calls login_tty() that calls setsid() */ /* we can successful call setsid() only once */ if (run_in_terminal) { /* no longer anything to do with lashd */ if (setsid() == -1) { fprintf(stderr, "Could not create new process group: %s\n", strerror(errno)); } } /* change the working dir */ if (chdir(working_dir) == -1) { fprintf(stderr, "Could not change directory to working dir '%s' for app '%s': %s\n", working_dir, app_name, strerror(errno)); } setenv("LADISH_APP_NAME", app_name, true); setenv("LADISH_VGRAPH_NAME", vgraph_name, true); if (project_name != NULL) { setenv("LADISH_PROJECT_NAME", project_name, true); } if (session_dir != NULL) { setenv("SESSION_DIR", session_dir, true); } i = 0; if (run_in_terminal) { if (!conf_get(LADISH_CONF_KEY_DAEMON_TERMINAL, argv + i)) { argv[i] = LADISH_CONF_KEY_DAEMON_TERMINAL_DEFAULT; } i++; if (strcmp(argv[0], "xterm") == 0 && strchr(app_name, '"') == NULL && strchr(app_name, '\'') == NULL && strchr(app_name, '`') == NULL) { argv[i++] = "-T"; argv[i++] = app_name; } argv[i++] = "-e"; } if (!conf_get(LADISH_CONF_KEY_DAEMON_SHELL, argv + i)) { argv[i] = LADISH_CONF_KEY_DAEMON_SHELL_DEFAULT; } i++; argv[i++] = "-c"; argv[i++] = commandline; argv[i++] = NULL; printf("Executing '%s' with PID %llu\n", commandline, (unsigned long long)getpid()); /* Execute it */ execvp(argv[0], (char **)argv); fprintf(stderr, "Executing program '%s' failed: %s\n", argv[0], strerror(errno)); exit(1); } static void loader_read_child_output( char * vgraph_name, char * app_name, int fd, bool error, char * buffer_ptr, char ** buffer_ptr_ptr, char * last_line, unsigned int * last_line_repeat_count) { ssize_t ret; char *char_ptr; char *eol_ptr; size_t left; size_t max_read; do { max_read = CLIENT_OUTPUT_BUFFER_SIZE - 1 - (*buffer_ptr_ptr - buffer_ptr); ret = read(fd, *buffer_ptr_ptr, max_read); if (ret > 0) { (*buffer_ptr_ptr)[ret] = 0; char_ptr = buffer_ptr; while ((eol_ptr = strchr(char_ptr, '\n')) != NULL) { *eol_ptr = 0; if (*last_line_repeat_count > 0 && strcmp(last_line, char_ptr) == 0) { if (*last_line_repeat_count == 1) { if (error) { log_error_plain("%s:%s: last stderr line repeating..", vgraph_name, app_name); } else { log_info("%s:%s: last stdout line repeating...", vgraph_name, app_name); } } (*last_line_repeat_count)++; } else { loader_check_line_repeat_end(vgraph_name, app_name, error, *last_line_repeat_count); strcpy(last_line, char_ptr); *last_line_repeat_count = 1; if (error) { log_error_plain("%s:%s: %s", vgraph_name, app_name, char_ptr); } else { log_info("%s:%s: %s", vgraph_name, app_name, char_ptr); } } char_ptr = eol_ptr + 1; } left = ret - (char_ptr - *buffer_ptr_ptr); if (left != 0) { /* last line does not end with newline */ if (left == CLIENT_OUTPUT_BUFFER_SIZE - 1) { /* line is too long to fit in buffer */ /* print it like it is, rest (or more) of it will be logged on next interation */ if (error) { log_error_plain("%s:%s: %s " ANSI_RESET ANSI_COLOR_RED "(truncated) " ANSI_RESET, vgraph_name, app_name, char_ptr); } else { log_info("%s:%s: %s " ANSI_RESET ANSI_COLOR_RED "(truncated) " ANSI_RESET, vgraph_name, app_name, char_ptr); } left = 0; } else { memmove(buffer_ptr, char_ptr, left); } } *buffer_ptr_ptr = buffer_ptr + left; } } while ((size_t)ret == max_read); /* if we have read everything as much as we can, then maybe there is more to read */ } static void loader_read_childs_output(void) { struct list_head * node_ptr; struct loader_child * child_ptr; list_for_each (node_ptr, &g_childs_list) { child_ptr = list_entry(node_ptr, struct loader_child, siblings); if (!child_ptr->terminal) { loader_read_child_output( child_ptr->vgraph_name, child_ptr->app_name, child_ptr->stdout, false, child_ptr->stdout_buffer, &child_ptr->stdout_buffer_ptr, child_ptr->stdout_last_line, &child_ptr->stdout_last_line_repeat_count); loader_read_child_output( child_ptr->vgraph_name, child_ptr->app_name, child_ptr->stderr, true, child_ptr->stderr_buffer, &child_ptr->stderr_buffer_ptr, child_ptr->stderr_last_line, &child_ptr->stderr_last_line_repeat_count); } } } void loader_run(void) { loader_read_childs_output(); loader_childs_bury(); } #define LD_PRELOAD_ADD "libalsapid.so libasound.so.2" static void set_ldpreload(void) { const char * old; char * new; old = getenv("LD_PRELOAD"); if (old != NULL) { new = catdup3(LD_PRELOAD_ADD, " ", old); if (new == NULL) { fprintf(stderr, "Memory allocation failure. Cannot hook libalsapid.so through LD_PRELOAD.\n"); return; } } else { new = LD_PRELOAD_ADD; } printf("LD_PRELOAD set to \"%s\"\n", new); setenv("LD_PRELOAD", new, 1); if (old) { free(new); } } bool loader_execute( const char * vgraph_name, const char * project_name, const char * app_name, const char * working_dir, const char * session_dir, bool run_in_terminal, const char * commandline, pid_t * pid_ptr) { pid_t pid; struct loader_child * child_ptr; int stderr_pipe[2]; child_ptr = malloc(sizeof(struct loader_child)); if (child_ptr == NULL) { log_error("malloc() failed to allocate struct loader_child"); goto fail; } child_ptr->vgraph_name = strdup(vgraph_name); if (child_ptr->vgraph_name == NULL) { log_error("strdup() failed to duplicate vgraph name '%s'", vgraph_name); goto free_struct; } if (project_name != NULL) { child_ptr->project_name = strdup(app_name); if (child_ptr->project_name == NULL) { log_error("strdup() failed to duplicate project name '%s'", project_name); goto free_vgraph_name; } } else { child_ptr->project_name = NULL; } child_ptr->app_name = strdup(app_name); if (child_ptr->app_name == NULL) { log_error("strdup() failed to duplicate app name '%s'", app_name); goto free_project_name; } child_ptr->dead = false; child_ptr->terminal = run_in_terminal; child_ptr->stdout_buffer_ptr = child_ptr->stdout_buffer; child_ptr->stderr_buffer_ptr = child_ptr->stderr_buffer; child_ptr->stdout_last_line_repeat_count = 0; child_ptr->stderr_last_line_repeat_count = 0; if (!run_in_terminal) { if (pipe(stderr_pipe) == -1) { log_error("Failed to create stderr pipe"); } else { child_ptr->stderr = stderr_pipe[0]; if (fcntl(child_ptr->stderr, F_SETFL, O_NONBLOCK) == -1) { log_error("Failed to set nonblocking mode on " "stderr reading end: %s", strerror(errno)); close(stderr_pipe[0]); close(stderr_pipe[1]); } } } list_add_tail(&child_ptr->siblings, &g_childs_list); if (!run_in_terminal) { /* We need pty to disable libc buffering of stdout */ pid = forkpty(&child_ptr->stdout, NULL, NULL, NULL); } else { pid = fork(); } if (pid == -1) { log_error("Could not fork to exec program %s:%s: %s", vgraph_name, app_name, strerror(errno)); list_del(&child_ptr->siblings); /* fork failed so it is not really a child process to watch for. */ return false; } if (pid == 0) { /* Need to close all open file descriptors except the std ones */ struct rlimit max_fds; rlim_t fd; getrlimit(RLIMIT_NOFILE, &max_fds); for (fd = 3; fd < max_fds.rlim_cur; ++fd) { close(fd); } if (!run_in_terminal) { /* In child, close unused reading end of pipe */ close(stderr_pipe[0]); dup2(stderr_pipe[1], fileno(stderr)); } set_ldpreload(); loader_exec_program(commandline, working_dir, session_dir, run_in_terminal, vgraph_name, project_name, app_name); return false; /* We should never get here */ } if (!run_in_terminal) { /* In parent, close unused writing ends of pipe */ close(stderr_pipe[1]); if (fcntl(child_ptr->stdout, F_SETFL, O_NONBLOCK) == -1) { log_error("Could not set noblocking mode on stdout " "- pty: %s", strerror(errno)); close(stderr_pipe[0]); close(child_ptr->stdout); } } log_info("Forked to run program %s:%s pid = %llu", vgraph_name, app_name, (unsigned long long)pid); *pid_ptr = child_ptr->pid = pid; return true; free_project_name: free(child_ptr->project_name); free_vgraph_name: free(child_ptr->vgraph_name); free_struct: free(child_ptr); fail: return false; } unsigned int loader_get_app_count(void) { struct list_head * node_ptr; unsigned int count; count = 0; list_for_each(node_ptr, &g_childs_list) { count++; } return count; }