// This file is part of BOINC. // http://boinc.berkeley.edu // Copyright (C) 2008 University of California // // BOINC is free software; you can redistribute it and/or modify it // under the terms of the GNU Lesser General Public License // as published by the Free Software Foundation, // either version 3 of the License, or (at your option) any later version. // // BOINC 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 Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with BOINC. If not, see . // initialization and starting of applications #include "cpp.h" #ifdef _WIN32 #include "boinc_win.h" #include "win_util.h" #ifdef _MSC_VER #define snprintf _snprintf #define strdup _strdup #endif #else #include "config.h" #if HAVE_SCHED_SETSCHEDULER && defined (__linux__) #include #endif #if HAVE_SYS_TIME_H #include #endif #if HAVE_SYS_RESOURCE_H #include #endif #if HAVE_SYS_IPC_H #include #endif #if HAVE_SYS_WAIT_H #include #endif #include #include #include #include #endif #ifdef __EMX__ #include #endif #if (defined (__APPLE__) && (defined(__i386__) || defined(__x86_64__))) #include #include #include #include #endif #if(!defined (_WIN32) && !defined (__EMX__)) #include #endif #include using std::vector; using std::string; #include "filesys.h" #include "error_numbers.h" #include "util.h" #include "str_util.h" #include "str_replace.h" #include "shmem.h" #include "client_msgs.h" #include "client_state.h" #include "file_names.h" #include "base64.h" #include "sandbox.h" #include "unix_util.h" #ifdef _WIN32 #include "run_app_windows.h" #endif #include "cs_proxy.h" #include "app.h" #ifdef _WIN32 // Dynamically link to these functions at runtime; // otherwise BOINC cannot run on Win98 // CreateEnvironmentBlock typedef BOOL (WINAPI *tCEB)(LPVOID *lpEnvironment, HANDLE hToken, BOOL bInherit); // DestroyEnvironmentBlock typedef BOOL (WINAPI *tDEB)(LPVOID lpEnvironment); #endif // Goes through an array of strings, and prints each string // #ifndef _WIN32 static void debug_print_argv(char** argv) { msg_printf(0, MSG_INFO, "[task] Arguments:"); for (int i=0; argv[i]; i++) { msg_printf(0, MSG_INFO, "[task] argv[%d]: %s\n", i, argv[i]); } } #endif // For apps that use coprocessors, append "--device x" to the command line. // NOTE: this is deprecated. Use app_init_data instead. // static void coproc_cmdline( int rsc_type, RESULT* rp, double ninstances, char* cmdline ) { char buf[256]; COPROC* coproc = &coprocs.coprocs[rsc_type]; for (int j=0; jcoproc_indices[j]; // sanity check // if (k < 0 || k >= coproc->count) { msg_printf(0, MSG_INTERNAL_ERROR, "coproc_cmdline: coproc index %d out of range", k ); k = 0; } sprintf(buf, " --device %d", coproc->device_nums[k]); strcat(cmdline, buf); } } // Make a unique key for core/app shared memory segment. // Windows: also create and attach to the segment. // int ACTIVE_TASK::get_shmem_seg_name() { #ifdef _WIN32 int i; char seg_name[256]; bool try_global = (sandbox_account_service_token != NULL); for (i=0; i<1024; i++) { sprintf(seg_name, "%sboinc_%d", SHM_PREFIX, i); shm_handle = create_shmem( seg_name, sizeof(SHARED_MEM), (void**)&app_client_shm.shm, try_global ); if (shm_handle) break; } if (!shm_handle) return ERR_SHMGET; sprintf(shmem_seg_name, "boinc_%d", i); #else char init_data_path[256]; #ifndef __EMX__ // shmem_seg_name is not used with mmap() shared memory if (app_version->api_major_version() >= 6) { shmem_seg_name = -1; return 0; } #endif sprintf(init_data_path, "%s/%s", slot_dir, INIT_DATA_FILE); // ftok() only works if there's a file at the given location // if (!boinc_file_exists(init_data_path)) { FILE* f = boinc_fopen(init_data_path, "w"); if (f) { fclose(f); } else { msg_printf(wup->project, MSG_INTERNAL_ERROR, "error: can't open file for shmem seg name" ); } } shmem_seg_name = ftok(init_data_path, 1); if (shmem_seg_name == -1) { msg_printf(wup->project, MSG_INTERNAL_ERROR, "error: can't open file for shmem seg name: %d", errno ); perror("ftok"); return ERR_SHMEM_NAME; } #endif return 0; } void ACTIVE_TASK::init_app_init_data(APP_INIT_DATA& aid) { char project_dir[256], project_path[256]; aid.major_version = BOINC_MAJOR_VERSION; aid.minor_version = BOINC_MINOR_VERSION; aid.release = BOINC_RELEASE; aid.app_version = app_version->version_num; safe_strcpy(aid.app_name, wup->app->name); safe_strcpy(aid.symstore, wup->project->symstore); safe_strcpy(aid.acct_mgr_url, gstate.acct_mgr_info.master_url); if (wup->project->project_specific_prefs.length()) { aid.project_preferences = strdup( wup->project->project_specific_prefs.c_str() ); } aid.userid = wup->project->userid; aid.teamid = wup->project->teamid; aid.hostid = wup->project->hostid; safe_strcpy(aid.user_name, wup->project->user_name); safe_strcpy(aid.team_name, wup->project->team_name); get_project_dir(wup->project, project_dir, sizeof(project_dir)); relative_to_absolute(project_dir, project_path); strcpy(aid.project_dir, project_path); relative_to_absolute("", aid.boinc_dir); strcpy(aid.authenticator, wup->project->authenticator); aid.slot = slot; strcpy(aid.wu_name, wup->name); strcpy(aid.result_name, result->name); aid.user_total_credit = wup->project->user_total_credit; aid.user_expavg_credit = wup->project->user_expavg_credit; aid.host_total_credit = wup->project->host_total_credit; aid.host_expavg_credit = wup->project->host_expavg_credit; double rrs = gstate.runnable_resource_share(RSC_TYPE_CPU); if (rrs) { aid.resource_share_fraction = wup->project->resource_share/rrs; } else { aid.resource_share_fraction = 1; } aid.host_info = gstate.host_info; aid.proxy_info = working_proxy_info; aid.global_prefs = gstate.global_prefs; aid.starting_elapsed_time = checkpoint_elapsed_time; aid.using_sandbox = g_use_sandbox; aid.rsc_fpops_est = wup->rsc_fpops_est; aid.rsc_fpops_bound = wup->rsc_fpops_bound; aid.rsc_memory_bound = wup->rsc_memory_bound; aid.rsc_disk_bound = wup->rsc_disk_bound; aid.computation_deadline = result->computation_deadline(); int rt = app_version->gpu_usage.rsc_type; if (rt) { COPROC& cp = coprocs.coprocs[rt]; strcpy(aid.gpu_type, cp.type); int k = result->coproc_indices[0]; if (k<0 || k>=cp.count) { msg_printf(0, MSG_INTERNAL_ERROR, "init_app_init_data(): coproc index %d out of range", k ); k = 0; } aid.gpu_device_num = cp.device_nums[k]; aid.gpu_opencl_dev_index = cp.opencl_device_indexes[k]; } else { strcpy(aid.gpu_type, ""); aid.gpu_device_num = -1; aid.gpu_opencl_dev_index = -1; } aid.ncpus = app_version->avg_ncpus; aid.checkpoint_period = gstate.global_prefs.disk_interval; aid.fraction_done_start = 0; aid.fraction_done_end = 1; #ifdef _WIN32 strcpy(aid.shmem_seg_name, shmem_seg_name); #else aid.shmem_seg_name = shmem_seg_name; #endif aid.wu_cpu_time = checkpoint_cpu_time; } // write the app init file. // This is done before starting or restarting the app, // and when project prefs have changed during app execution // int ACTIVE_TASK::write_app_init_file(APP_INIT_DATA& aid) { FILE *f; char init_data_path[256]; sprintf(init_data_path, "%s/%s", slot_dir, INIT_DATA_FILE); // delete the file using the switcher (Unix) // in case it's owned by another user and we don't have write access // delete_project_owned_file(init_data_path, false); f = boinc_fopen(init_data_path, "w"); if (!f) { msg_printf(wup->project, MSG_INTERNAL_ERROR, "Failed to open init file %s", init_data_path ); return ERR_FOPEN; } int retval = write_init_data_file(f, aid); fclose(f); return retval; } // Given a logical name of the form D1/D2/.../Dn/F, // create the directories D1 ... Dn in the slot dir // static int create_dirs_for_logical_name( const char* name, const char* slot_dir ) { char buf[1024]; char dir_path[1024]; int retval; strcpy(buf, name); strcpy(dir_path, slot_dir); char* p = buf; while (1) { char* q = strstr(p, "/"); if (!q) break; *q = 0; strcat(dir_path, "/"); strcat(dir_path, p); retval = boinc_mkdir(dir_path); if (retval) return retval; p = q+1; } return 0; } static void prepend_prefix(APP_VERSION* avp, char* in, char* out) { if (strlen(avp->file_prefix)) { sprintf(out, "%s/%s", avp->file_prefix, in); } else { strcpy(out, in); } } // an input/output file must be copied if either // - the FILE_REFERENCE says so or // - the APP_VERSION has a non-empty file_prefix // bool ACTIVE_TASK::must_copy_file(FILE_REF& fref, bool is_io_file) { if (fref.copy_file) return true; if (is_io_file && strlen(app_version->file_prefix)) return true; return false; } // set up a file reference, given a slot dir and project dir. // This means: // 1) copy the file to slot dir, if reference is by copy // 2) else make a soft link // int ACTIVE_TASK::setup_file( FILE_INFO* fip, FILE_REF& fref, char* file_path, bool input, bool is_io_file ) { char link_path[256], rel_file_path[256], open_name[256]; int retval; PROJECT* project = result->project; if (strlen(fref.open_name)) { if (is_io_file) { prepend_prefix(app_version, fref.open_name, open_name); } else { strcpy(open_name, fref.open_name); } retval = create_dirs_for_logical_name(open_name, slot_dir); if (retval) return retval; sprintf(link_path, "%s/%s", slot_dir, open_name); } else { sprintf(link_path, "%s/%s", slot_dir, fip->name); } sprintf(rel_file_path, "../../%s", file_path ); // if anonymous platform, this is called even if not first time, // so link may already be there // if (input && project->anonymous_platform && boinc_file_exists(link_path)) { return 0; } if (must_copy_file(fref, is_io_file)) { if (input) { retval = boinc_copy(file_path, link_path); if (retval) { msg_printf(project, MSG_INTERNAL_ERROR, "Can't copy %s to %s: %s", file_path, link_path, boincerror(retval) ); return retval; } #ifdef SANDBOX return set_to_project_group(link_path); #endif } return 0; } #ifdef _WIN32 retval = make_soft_link(project, link_path, rel_file_path); if (retval) return retval; #else if (project->use_symlinks) { retval = symlink(rel_file_path, link_path); } else { retval = make_soft_link(project, link_path, rel_file_path); } if (retval) return retval; #endif #ifdef SANDBOX return set_to_project_group(link_path); #endif return 0; } int ACTIVE_TASK::link_user_files() { PROJECT* project = wup->project; unsigned int i; FILE_REF fref; FILE_INFO* fip; char file_path[1024]; for (i=0; iuser_files.size(); i++) { fref = project->user_files[i]; fip = fref.file_info; if (fip->status != FILE_PRESENT) continue; get_pathname(fip, file_path, sizeof(file_path)); setup_file(fip, fref, file_path, true, false); } return 0; } int ACTIVE_TASK::copy_output_files() { char slotfile[256], projfile[256], open_name[256]; unsigned int i; for (i=0; ioutput_files.size(); i++) { FILE_REF& fref = result->output_files[i]; if (!must_copy_file(fref, true)) continue; FILE_INFO* fip = fref.file_info; prepend_prefix(app_version, fref.open_name, open_name); sprintf(slotfile, "%s/%s", slot_dir, open_name); get_pathname(fip, projfile, sizeof(projfile)); #if 1 boinc_rename(slotfile, projfile); #else int retval = boinc_rename(slotfile, projfile); // this isn't a BOINC error. // it just means the app didn't create an output file // that it was supposed to. // if (retval) { msg_printf(wup->project, MSG_INTERNAL_ERROR, "Can't rename output file %s to %s: %s", fip->name, projfile, boincerror(retval) ); } #endif } return 0; } // Start a task in a slot directory. // This includes setting up soft links, // passing preferences, and starting the process // // Current dir is top-level BOINC dir // // postcondition: // If any error occurs // ACTIVE_TASK::task_state is PROCESS_COULDNT_START // report_result_error() is called // else // ACTIVE_TASK::task_state is PROCESS_EXECUTING // int ACTIVE_TASK::start(bool first_time) { char exec_name[256], file_path[256], buf[256], exec_path[256]; char cmdline[80000]; // 64KB plus some extra unsigned int i; FILE_REF fref; FILE_INFO* fip; int retval, rt; APP_INIT_DATA aid; // if this job less than one CPU, run it at above idle priority // bool high_priority = (app_version->avg_ncpus < 1); if (wup->project->verify_files_on_app_start) { fip=0; retval = gstate.input_files_available(result, true, &fip); if (retval) { if (fip) { snprintf( buf, sizeof(buf), "Input file %s missing or invalid: %d", fip->name, retval ); } else { strcpy(buf, "Input file missing or invalid"); } goto error; } } current_cpu_time = checkpoint_cpu_time; elapsed_time = checkpoint_elapsed_time; graphics_request_queue.init(result->name); // reset message queues process_control_queue.init(result->name); bytes_sent = 0; bytes_received = 0; if (!app_client_shm.shm) { retval = get_shmem_seg_name(); if (retval) { sprintf(buf, "Can't get shared memory segment name: %s", boincerror(retval) ); goto error; } } // this must go AFTER creating shmem name, // since the shmem name is part of the file // init_app_init_data(aid); retval = write_app_init_file(aid); if (retval) { sprintf(buf, "Can't write init file: %d", retval); goto error; } // set up applications files // strcpy(exec_name, ""); for (i=0; iapp_files.size(); i++) { fref = app_version->app_files[i]; fip = fref.file_info; get_pathname(fip, file_path, sizeof(file_path)); if (fref.main_program) { if (is_image_file(fip->name)) { sprintf(buf, "Main program %s is an image file", fip->name); retval = ERR_NO_SIGNATURE; goto error; } if (!fip->executable && !wup->project->anonymous_platform) { sprintf(buf, "Main program %s is not executable", fip->name); retval = ERR_NO_SIGNATURE; goto error; } safe_strcpy(exec_name, fip->name); safe_strcpy(exec_path, file_path); } // anonymous platform may use different files than // when the result was started, so link files even if not first time // if (first_time || wup->project->anonymous_platform) { retval = setup_file(fip, fref, file_path, true, false); if (retval) { strcpy(buf, "Can't link app version file"); goto error; } } } if (!strlen(exec_name)) { strcpy(buf, "No main program specified"); retval = ERR_NOT_FOUND; goto error; } // set up input, output files // if (first_time) { for (i=0; iinput_files.size(); i++) { fref = wup->input_files[i]; fip = fref.file_info; get_pathname(fref.file_info, file_path, sizeof(file_path)); retval = setup_file(fip, fref, file_path, true, true); if (retval) { strcpy(buf, "Can't link input file"); goto error; } } for (i=0; ioutput_files.size(); i++) { fref = result->output_files[i]; if (must_copy_file(fref, true)) continue; fip = fref.file_info; get_pathname(fref.file_info, file_path, sizeof(file_path)); retval = setup_file(fip, fref, file_path, false, true); if (retval) { strcpy(buf, "Can't link output file"); goto error; } } } link_user_files(); // don't check retval here // make sure temporary exit file isn't there // sprintf(file_path, "%s/%s", slot_dir, TEMPORARY_EXIT_FILE); delete_project_owned_file(file_path, true); if (config.exit_before_start) { msg_printf(0, MSG_INFO, "about to start a job; exiting"); exit(0); } #ifdef _WIN32 PROCESS_INFORMATION process_info; STARTUPINFO startup_info; LPVOID environment_block = NULL; char slotdirpath[256]; char error_msg[1024]; char error_msg2[1024]; memset(&process_info, 0, sizeof(process_info)); memset(&startup_info, 0, sizeof(startup_info)); startup_info.cb = sizeof(startup_info); // suppress 2-sec rotating hourglass cursor on startup // startup_info.dwFlags = STARTF_FORCEOFFFEEDBACK; app_client_shm.reset_msgs(); if (config.run_apps_manually) { // fill in core client's PID so we won't think app has exited // pid = GetCurrentProcessId(); process_handle = GetCurrentProcess(); set_task_state(PROCESS_EXECUTING, "start"); return 0; } sprintf(cmdline, "%s %s %s", exec_path, wup->command_line.c_str(), app_version->cmdline ); rt = app_version->gpu_usage.rsc_type; if (rt) { coproc_cmdline(rt, result, app_version->gpu_usage.usage, cmdline); } relative_to_absolute(slot_dir, slotdirpath); bool success = false; int prio_mask; if (config.no_priority_change) { prio_mask = 0; } else if (high_priority) { prio_mask = BELOW_NORMAL_PRIORITY_CLASS; } else { prio_mask = IDLE_PRIORITY_CLASS; } for (i=0; i<5; i++) { if (sandbox_account_service_token != NULL) { // Find CreateEnvironmentBlock/DestroyEnvironmentBlock pointers tCEB pCEB = NULL; tDEB pDEB = NULL; HMODULE hUserEnvLib = NULL; hUserEnvLib = LoadLibrary("userenv.dll"); if (hUserEnvLib) { pCEB = (tCEB) GetProcAddress(hUserEnvLib, "CreateEnvironmentBlock"); pDEB = (tDEB) GetProcAddress(hUserEnvLib, "DestroyEnvironmentBlock"); } if (!pCEB(&environment_block, sandbox_account_service_token, FALSE)) { if (log_flags.task) { windows_error_string(error_msg, sizeof(error_msg)); msg_printf(wup->project, MSG_INFO, "Process environment block creation failed: %s", error_msg ); } } if (CreateProcessAsUser( sandbox_account_service_token, exec_path, cmdline, NULL, NULL, FALSE, CREATE_NEW_PROCESS_GROUP|CREATE_NO_WINDOW|prio_mask|CREATE_UNICODE_ENVIRONMENT, environment_block, slotdirpath, &startup_info, &process_info )) { success = true; break; } else { windows_error_string(error_msg, sizeof(error_msg)); msg_printf(wup->project, MSG_INTERNAL_ERROR, "Process creation failed: %s", error_msg ); } if (!pDEB(environment_block)) { if (log_flags.task) { windows_error_string(error_msg, sizeof(error_msg2)); msg_printf(wup->project, MSG_INFO, "Process environment block cleanup failed: %s", error_msg2 ); } } if (hUserEnvLib) { pCEB = NULL; pDEB = NULL; FreeLibrary(hUserEnvLib); } } else { if (CreateProcess( exec_path, cmdline, NULL, NULL, FALSE, CREATE_NEW_PROCESS_GROUP|CREATE_NO_WINDOW|prio_mask, NULL, slotdirpath, &startup_info, &process_info )) { success = true; break; } else { windows_error_string(error_msg, sizeof(error_msg)); msg_printf(wup->project, MSG_INTERNAL_ERROR, "Process creation failed: %s", error_msg ); } } boinc_sleep(drand()); } if (!success) { sprintf(buf, "CreateProcess() failed - %s", error_msg); retval = ERR_EXEC; goto error; } pid = process_info.dwProcessId; process_handle = process_info.hProcess; CloseHandle(process_info.hThread); // thread handle is not used #elif defined(__EMX__) char* argv[100]; char current_dir[_MAX_PATH]; // Set up core/app shared memory seg if needed // if (!app_client_shm.shm) { retval = create_shmem( shmem_seg_name, sizeof(SHARED_MEM), (void**)&app_client_shm.shm ); if (retval) { return retval; } } app_client_shm.reset_msgs(); // save current dir getcwd(current_dir, sizeof(current_dir)); // chdir() into the slot directory // retval = chdir(slot_dir); if (retval) { sprintf(buf, "Can't change directory: %s", slot_dir, boincerror(retval)); goto error; } // hook up stderr to a specially-named file // //freopen(STDERR_FILE, "a", stderr); argv[0] = exec_name; char cmdline[8192]; strcpy(cmdline, wup->command_line.c_str()); if (strlen(result->cmdline)) { strcat(cmdline, " "); strcat(cmdline, result->cmdline); } parse_command_line(cmdline, argv+1); if (log_flags.task_debug) { debug_print_argv(argv); } sprintf(buf, "../../%s", exec_path ); pid = spawnv(P_NOWAIT, buf, argv); if (pid == -1) { sprintf(buf, "Process creation failed: %s\n", buf, boincerror(retval)); chdir(current_dir); retval = ERR_EXEC; goto error; } // restore current dir chdir(current_dir); if (log_flags.task_debug) { msg_printf(wup->project, MSG_INFO, "[task] ACTIVE_TASK::start(): forked process: pid %d\n", pid ); } if (!config.no_priority_change) { if (setpriority(PRIO_PROCESS, pid, high_priority?PROCESS_MEDIUM_PRIORITY:PROCESS_IDLE_PRIORITY) ) { perror("setpriority"); } } #else // Unix/Linux/Mac case char* argv[100]; char current_dir[1024]; getcwd(current_dir, sizeof(current_dir)); sprintf(cmdline, "%s %s", wup->command_line.c_str(), app_version->cmdline ); rt = app_version->gpu_usage.rsc_type; if (rt) { coproc_cmdline(rt, result, app_version->gpu_usage.usage, cmdline); } // Set up core/app shared memory seg if needed // if (!app_client_shm.shm) { if (app_version->api_major_version() >= 6) { // Use mmap() shared memory sprintf(buf, "%s/%s", slot_dir, MMAPPED_FILE_NAME); if (g_use_sandbox) { if (!boinc_file_exists(buf)) { int fd = open(buf, O_RDWR | O_CREAT, 0660); if (fd >= 0) { close (fd); #ifdef SANDBOX set_to_project_group(buf); #endif } } } retval = create_shmem_mmap( buf, sizeof(SHARED_MEM), (void**)&app_client_shm.shm ); if (retval) { msg_printf(wup->project, MSG_INTERNAL_ERROR, "ACTIVE_TASK::start(): can't create memory-mapped file: %s", boincerror(retval) ); return retval; } } else { // Use shmget() shared memory retval = create_shmem( shmem_seg_name, sizeof(SHARED_MEM), gstate.boinc_project_gid, (void**)&app_client_shm.shm ); if (retval) { needs_shmem = true; destroy_shmem(shmem_seg_name); return retval; } } needs_shmem = false; } app_client_shm.reset_msgs(); #if (defined (__APPLE__) && (defined(__i386__) || defined(__x86_64__))) // PowerPC apps emulated on i386 Macs crash if running graphics powerpc_emulated_on_i386 = ! is_native_i386_app(exec_path); #endif if (config.run_apps_manually) { pid = getpid(); // use the client's PID set_task_state(PROCESS_EXECUTING, "start"); return 0; } pid = fork(); if (pid == -1) { sprintf(buf, "fork() failed: %s", strerror(errno)); retval = ERR_FORK; goto error; } if (pid == 0) { // from here on we're running in a new process. // If an error happens, // exit nonzero so that the core client knows there was a problem. // don't pass stdout to the app // int fd = open("/dev/null", O_RDWR); dup2(fd, STDOUT_FILENO); close(fd); // prepend to library path: // - the project dir (../../projects/X) // - the slot dir (.) // - the BOINC dir (../..) // (Mac) /usr/local/cuda/lib/ // We use relative paths in case higher-level dirs // are not readable to the account under which app runs // char libpath[8192]; char newlibs[256]; get_project_dir(wup->project, buf, sizeof(buf)); sprintf(newlibs, "../../%s:.:../..", buf); #ifdef __APPLE__ strcat(newlibs, ":/usr/local/cuda/lib/"); #endif char* p = getenv("LD_LIBRARY_PATH"); if (p) { sprintf(libpath, "%s:%s", newlibs, p); } else { strcpy(libpath, newlibs); } setenv("LD_LIBRARY_PATH", libpath, 1); // On the Mac, do the same for DYLD_LIBRARY_PATH // #ifdef __APPLE__ p = getenv("DYLD_LIBRARY_PATH"); if (p) { sprintf(libpath, "%s:%s", newlibs, p); } else { strcpy(libpath, newlibs); } setenv("DYLD_LIBRARY_PATH", libpath, 1); #endif retval = chdir(slot_dir); if (retval) { perror("chdir"); fflush(NULL); _exit(errno); } #if 0 // set stack size limit to the max. // Some BOINC apps have reported problems with exceeding // small stack limits (e.g. 8 MB) // and it seems like the best thing to raise it as high as possible // struct rlimit rlim; #define MIN_STACK_LIMIT 64000000 getrlimit(RLIMIT_STACK, &rlim); if (rlim.rlim_cur != RLIM_INFINITY && rlim.rlim_cur <= MIN_STACK_LIMIT) { if (rlim.rlim_max == RLIM_INFINITY || rlim.rlim_max > MIN_STACK_LIMIT) { rlim.rlim_cur = MIN_STACK_LIMIT; } else { rlim.rlim_cur = rlim.rlim_max; } setrlimit(RLIMIT_STACK, &rlim); } #endif // hook up stderr to a specially-named file // freopen(STDERR_FILE, "a", stderr); if (!config.no_priority_change) { #if HAVE_SETPRIORITY if (setpriority(PRIO_PROCESS, 0, high_priority?PROCESS_MEDIUM_PRIORITY:PROCESS_IDLE_PRIORITY) ) { perror("setpriority"); } #endif #if HAVE_SCHED_SETSCHEDULER && defined(SCHED_BATCH) && defined (__linux__) if (!high_priority) { struct sched_param sp; sp.sched_priority = 0; if (sched_setscheduler(0, SCHED_BATCH, &sp)) { perror("sched_setscheduler"); } } #endif } sprintf(buf, "../../%s", exec_path); if (g_use_sandbox) { char switcher_path[100]; sprintf(switcher_path, "../../%s/%s", SWITCHER_DIR, SWITCHER_FILE_NAME ); argv[0] = const_cast(SWITCHER_FILE_NAME); argv[1] = buf; argv[2] = exec_name; parse_command_line(cmdline, argv+3); if (log_flags.task_debug) { debug_print_argv(argv); } // Files written by projects have user boinc_project // and group boinc_project, // so they must be world-readable so BOINC CLient can read them // umask(2); retval = execv(switcher_path, argv); } else { argv[0] = buf; parse_command_line(cmdline, argv+1); retval = execv(buf, argv); } msg_printf(wup->project, MSG_INTERNAL_ERROR, "Process creation (%s) failed: %s, errno=%d\n", buf, boincerror(retval), errno ); perror("execv"); fflush(NULL); _exit(errno); } if (log_flags.task_debug) { msg_printf(wup->project, MSG_INFO, "[task] ACTIVE_TASK::start(): forked process: pid %d\n", pid ); } #endif set_task_state(PROCESS_EXECUTING, "start"); return 0; // go here on error; "buf" contains error message, "retval" is nonzero // error: // if something failed, it's possible that the executable was munged. // Verify it to trigger another download. // gstate.input_files_available(result, true); gstate.report_result_error(*result, "couldn't start %s: %d", buf, retval); if (log_flags.task_debug) { msg_printf(wup->project, MSG_INFO, "[task] couldn't start app: %s", buf ); } set_task_state(PROCESS_COULDNT_START, "start"); return retval; } // Resume the task if it was previously running; otherwise start it // Postcondition: "state" is set correctly // int ACTIVE_TASK::resume_or_start(bool first_time) { const char* str = "??"; int retval; switch (task_state()) { case PROCESS_UNINITIALIZED: if (first_time) { retval = start(true); str = "Starting"; } else { retval = start(false); str = "Restarting"; } if ((retval == ERR_SHMGET) || (retval == ERR_SHMAT)) { return retval; } if (retval) { set_task_state(PROCESS_COULDNT_START, "resume_or_start1"); return retval; } break; case PROCESS_SUSPENDED: retval = unsuspend(); if (retval) { msg_printf(wup->project, MSG_INTERNAL_ERROR, "Couldn't resume task %s", result->name ); set_task_state(PROCESS_COULDNT_START, "resume_or_start2"); return retval; } str = "Resuming"; break; default: msg_printf(result->project, MSG_INTERNAL_ERROR, "Unexpected state %d for task %s", task_state(), result->name ); return 0; } if (log_flags.task) { char buf[256]; strcpy(buf, ""); if (strlen(app_version->plan_class)) { sprintf(buf, " (%s)", app_version->plan_class); } msg_printf(result->project, MSG_INFO, "%s task %s using %s version %d%s", str, result->name, app_version->app->name, app_version->version_num, buf ); } return 0; } #if (defined (__APPLE__) && (defined(__i386__) || defined(__x86_64__))) union headeru { fat_header fat; mach_header mach; }; // Read the mach-o headers to determine the architectures // supported by executable file. // Returns 1 if application can run natively on i386 / x86_64 Macs, else returns 0. // int ACTIVE_TASK::is_native_i386_app(char* exec_path) { FILE *f; int result = 0; headeru myHeader; fat_arch fatHeader; uint32_t n, i, len; uint32_t theMagic; integer_t theType; f = boinc_fopen(exec_path, "rb"); if (!f) { return result; // Should never happen } myHeader.fat.magic = 0; myHeader.fat.nfat_arch = 0; fread(&myHeader, 1, sizeof(fat_header), f); theMagic = myHeader.mach.magic; switch (theMagic) { case MH_CIGAM: case MH_MAGIC: case MH_MAGIC_64: case MH_CIGAM_64: theType = myHeader.mach.cputype; if ((theMagic == MH_CIGAM) || (theMagic == MH_CIGAM_64)) { theType = OSSwapInt32(theType); } if ((theType == CPU_TYPE_I386) || (theType == CPU_TYPE_X86_64)) { result = 1; // Single-architecture i386or x86_64 file } break; case FAT_MAGIC: case FAT_CIGAM: n = myHeader.fat.nfat_arch; if (theMagic == FAT_CIGAM) { n = OSSwapInt32(myHeader.fat.nfat_arch); } // Multiple architecture (fat) file for (i=0; i