// The contents of this file are subject to the BOINC Public License // Version 1.0 (the "License"); you may not use this file except in // compliance with the License. You may obtain a copy of the License at // http://boinc.berkeley.edu/license_1.0.txt // // Software distributed under the License is distributed on an "AS IS" // basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the // License for the specific language governing rights and limitations // under the License. // // The Original Code is the Berkeley Open Infrastructure for Network Computing. // // The Initial Developer of the Original Code is the SETI@home project. // Portions created by the SETI@home project are Copyright (C) 2002 // University of California at Berkeley. All Rights Reserved. // // Contributor(s): // // Code that's in the BOINC app library (but NOT in the core client) #include #include #include #ifdef _WIN32 #include #include #include #include #include // for timing MMRESULT timer_id; #endif #if HAVE_UNISTD_H #include #endif #ifdef HAVE_SYS_TIME_H #include #endif #include #include #include #ifdef BOINC_APP_GRAPHICS #ifdef _WIN32 HANDLE hQuitEvent; extern HANDLE graphics_threadh; extern BOOL win_loop_done; #endif #ifdef __APPLE_CC__ #include #endif #endif #include "parse.h" #include "shmem.h" #include "util.h" #include "error_numbers.h" #include "app_ipc.h" #include "boinc_api.h" #ifdef _WIN32 HANDLE hQuitRequest, hSharedMem; LONG CALLBACK boinc_catch_signal(EXCEPTION_POINTERS *ExceptionInfo); #else extern void boinc_catch_signal(int signal); extern void boinc_quit(int sig); #endif static APP_INIT_DATA aid; GRAPHICS_INFO gi; static double timer_period = 1.0/50.0; // 50 Hz timer static double time_until_checkpoint; static double time_until_fraction_done_update; static double fraction_done; static double last_checkpoint_cpu_time; static bool ready_to_checkpoint = false; static bool write_frac_done = false; static bool this_process_active; static bool time_to_quit = false; bool using_opengl = false; APP_CLIENT_SHM *app_client_shm; // read the INIT_DATA and FD_INIT files // int boinc_init() { bool standalone = false; FILE* f; int retval; #ifdef _WIN32 freopen(STDERR_FILE, "a", stderr); #endif #ifdef API_STANDALONE standalone = true; #endif // If in standalone mode, use init files if they're there, // but don't demand that they exist // f = fopen(INIT_DATA_FILE, "r"); if (!f) { if (standalone) { safe_strncpy(aid.app_preferences, "", sizeof(aid.app_preferences)); safe_strncpy(aid.user_name, "John Smith", sizeof(aid.user_name)); safe_strncpy(aid.team_name, "The A-Team", sizeof(aid.team_name)); aid.wu_cpu_time = 1000; aid.user_total_credit = 1000; aid.user_expavg_credit = 500; aid.host_total_credit = 1000; aid.host_expavg_credit = 500; aid.checkpoint_period = DEFAULT_CHECKPOINT_PERIOD; aid.fraction_done_update_period = DEFAULT_FRACTION_DONE_UPDATE_PERIOD; } else { fprintf(stderr, "boinc_init(): can't open init data file\n"); return ERR_FOPEN; } } else { retval = parse_init_data_file(f, aid); fclose(f); if (retval) { fprintf(stderr, "boinc_init(): can't parse init data file\n"); return retval; } } f = fopen(GRAPHICS_DATA_FILE, "r"); if (!f) { fprintf(stderr, "boinc_init(): can't open graphics data file\n"); fprintf(stderr, "Using default graphics settings.\n"); gi.refresh_period = 0.1; // 1/10th of a second gi.xsize = 640; gi.ysize = 480; } else { retval = parse_graphics_file(f, &gi); if (retval) { fprintf(stderr, "boinc_init(): can't parse graphics data file\n"); return retval; } fclose(f); } f = fopen(FD_INIT_FILE, "r"); if (f) { parse_fd_init_file(f); fclose(f); } time_until_checkpoint = aid.checkpoint_period; time_until_fraction_done_update = aid.fraction_done_update_period; this_process_active = true; boinc_install_signal_handlers(); set_timer(timer_period); setup_shared_mem(); return 0; } // Install signal handlers to aid in debugging // TODO: write Windows equivalent error handlers? // int boinc_install_signal_handlers() { #ifdef HAVE_SIGNAL_H signal( SIGHUP, boinc_catch_signal ); // terminal line hangup signal( SIGINT, boinc_catch_signal ); // interrupt program signal( SIGQUIT, boinc_quit ); // quit program signal( SIGILL, boinc_catch_signal ); // illegal instruction signal( SIGABRT, boinc_catch_signal ); // abort(2) call signal( SIGBUS, boinc_catch_signal ); // bus error signal( SIGSEGV, boinc_catch_signal ); // segmentation violation signal( SIGSYS, boinc_catch_signal ); // system call given invalid argument signal( SIGPIPE, boinc_catch_signal ); // write on a pipe with no reader #endif #ifdef _WIN32 //SetUnhandledExceptionFilter( boinc_catch_signal ); #endif return 0; } #ifdef _WIN32 LONG CALLBACK boinc_catch_signal(EXCEPTION_POINTERS *ExceptionInfo) { PVOID exceptionAddr = ExceptionInfo->ExceptionRecord->ExceptionAddress; DWORD exceptionCode = ExceptionInfo->ExceptionRecord->ExceptionCode; char status[256]; static int already_caught_signal = 0; // If we've been in this procedure before, something went wrong so we immediately exit if (already_caught_signal) _exit(ERR_SIGNAL_CATCH); already_caught_signal = 1; switch (exceptionCode) { case STATUS_WAIT_0: safe_strncpy(status,"Wait 0",sizeof(status)); break; case STATUS_ABANDONED_WAIT_0: safe_strncpy(status,"Abandoned Wait 0",sizeof(status)); break; case STATUS_USER_APC: safe_strncpy(status,"User APC",sizeof(status)); break; case STATUS_TIMEOUT: safe_strncpy(status,"Timeout",sizeof(status)); break; case STATUS_PENDING: safe_strncpy(status,"Pending",sizeof(status)); break; case STATUS_SEGMENT_NOTIFICATION: return DBG_EXCEPTION_NOT_HANDLED; case STATUS_GUARD_PAGE_VIOLATION: safe_strncpy(status,"Guard Page Violation",sizeof(status)); break; case STATUS_DATATYPE_MISALIGNMENT: safe_strncpy(status,"Data Type Misalignment",sizeof(status)); break; case STATUS_BREAKPOINT: return DBG_EXCEPTION_NOT_HANDLED; case STATUS_SINGLE_STEP: return DBG_EXCEPTION_NOT_HANDLED; case STATUS_ACCESS_VIOLATION: safe_strncpy(status,"Access Violation",sizeof(status)); break; case STATUS_IN_PAGE_ERROR: safe_strncpy(status,"In Page Error",sizeof(status)); break; case STATUS_NO_MEMORY: safe_strncpy(status,"No Memory",sizeof(status)); break; case STATUS_ILLEGAL_INSTRUCTION: safe_strncpy(status,"Illegal Instruction",sizeof(status)); break; case STATUS_NONCONTINUABLE_EXCEPTION: safe_strncpy(status,"Noncontinuable Exception",sizeof(status)); break; case STATUS_INVALID_DISPOSITION: safe_strncpy(status,"Invalid Disposition",sizeof(status)); break; case STATUS_ARRAY_BOUNDS_EXCEEDED: safe_strncpy(status,"Array Bounds Exceeded",sizeof(status)); break; case STATUS_FLOAT_DENORMAL_OPERAND: safe_strncpy(status,"Float Denormal Operand",sizeof(status)); break; case STATUS_FLOAT_DIVIDE_BY_ZERO: safe_strncpy(status,"Divide by Zero",sizeof(status)); break; case STATUS_FLOAT_INEXACT_RESULT: safe_strncpy(status,"Float Inexact Result",sizeof(status)); break; case STATUS_FLOAT_INVALID_OPERATION: safe_strncpy(status,"Float Invalid Operation",sizeof(status)); break; case STATUS_FLOAT_OVERFLOW: safe_strncpy(status,"Float Overflow",sizeof(status)); break; case STATUS_FLOAT_STACK_CHECK: safe_strncpy(status,"Float Stack Check",sizeof(status)); break; case STATUS_FLOAT_UNDERFLOW: safe_strncpy(status,"Float Underflow",sizeof(status)); break; case STATUS_INTEGER_DIVIDE_BY_ZERO: safe_strncpy(status,"Integer Divide by Zero",sizeof(status)); break; case STATUS_INTEGER_OVERFLOW: safe_strncpy(status,"Integer Overflow",sizeof(status)); break; case STATUS_PRIVILEGED_INSTRUCTION: safe_strncpy(status,"Privileged Instruction",sizeof(status)); break; case STATUS_STACK_OVERFLOW: safe_strncpy(status,"Stack Overflow",sizeof(status)); break; case STATUS_CONTROL_C_EXIT: safe_strncpy(status,"Ctrl+C Exit",sizeof(status)); break; default: safe_strncpy(status,"Unknown exception",sizeof(status)); break; } // TODO: also output info in CONTEXT structure? fprintf( stderr, "\n***UNHANDLED EXCEPTION****\n"); fprintf( stderr, "Reason: %s at address 0x%p\n",status,exceptionAddr); fprintf( stderr, "Exiting...\n" ); fflush(stderr); _exit(ERR_SIGNAL_CATCH); return(EXCEPTION_EXECUTE_HANDLER); } #endif #ifdef HAVE_SIGNAL_H void boinc_catch_signal(int signal) { switch(signal) { case SIGHUP: fprintf( stderr, "SIGHUP: terminal line hangup" ); break; case SIGINT: fprintf( stderr, "SIGINT: interrupt program" ); break; case SIGILL: fprintf( stderr, "SIGILL: illegal instruction" ); break; case SIGABRT: fprintf( stderr, "SIGABRT: abort called" ); break; case SIGBUS: fprintf( stderr, "SIGBUS: bus error" ); break; case SIGSEGV: fprintf( stderr, "SIGSEGV: segmentation violation" ); break; case SIGSYS: fprintf( stderr, "SIGSYS: system call given invalid argument" ); break; case SIGPIPE: fprintf( stderr, "SIGPIPE: write on a pipe with no reader" ); break; default: fprintf( stderr, "unknown signal %d", signal ); break; } fprintf( stderr, "\nExiting...\n" ); exit(ERR_SIGNAL_CATCH); } void boinc_quit(int sig) { signal( SIGQUIT, boinc_quit ); // reset signal time_to_quit = true; } #endif int boinc_finish(int status) { double cur_mem; boinc_cpu_time(last_checkpoint_cpu_time, cur_mem); update_app_progress(fraction_done, last_checkpoint_cpu_time, last_checkpoint_cpu_time, cur_mem); #ifdef _WIN32 // Stop the timer timeKillEvent(timer_id); #ifdef BOINC_APP_GRAPHICS if (using_opengl) { // If the graphics thread is running, tell it to quit and wait for it win_loop_done = TRUE; if (hQuitEvent != NULL) { WaitForSingleObject(hQuitEvent, 1000); // Wait up to 1000 ms } } #endif #endif cleanup_shared_mem(); exit(status); return 0; } int boinc_get_init_data(APP_INIT_DATA& app_init_data) { app_init_data = aid; return 0; } bool boinc_time_to_checkpoint() { #ifdef __APPLE_CC__ //YieldToAnyThread(); #elif _WIN32 DWORD eventState; // Check if core client has requested us to exit eventState = WaitForSingleObject(hQuitRequest, 0L); switch (eventState) { case WAIT_OBJECT_0: case WAIT_ABANDONED: time_to_quit = true; break; } #endif if (write_frac_done) { double cur_cpu; double cur_mem; boinc_cpu_time(cur_cpu, cur_mem); update_app_progress(fraction_done, cur_cpu, last_checkpoint_cpu_time, cur_mem); time_until_fraction_done_update = aid.fraction_done_update_period; write_frac_done = false; } // If the application has received a quit request it should checkpoint // if (time_to_quit) { return true; } return ready_to_checkpoint; } int boinc_checkpoint_completed() { double cur_mem; boinc_cpu_time(last_checkpoint_cpu_time, cur_mem); update_app_progress(fraction_done, last_checkpoint_cpu_time, last_checkpoint_cpu_time, cur_mem); ready_to_checkpoint = false; time_until_checkpoint = aid.checkpoint_period; // If it's time to quit, call boinc_finish which will // exit the app properly if (time_to_quit) { boinc_finish(ERR_QUIT_REQUEST); } return 0; } int boinc_fraction_done(double x) { fraction_done = x; return 0; } int boinc_child_start() { this_process_active = false; return 0; } int boinc_child_done(double cpu) { this_process_active = true; return 0; } int boinc_cpu_time(double &cpu_t, double &ws_t) { double cpu_secs; // Start with the CPU time from previous runs, then // add the CPU time of the current run cpu_secs = aid.wu_cpu_time; #ifdef HAVE_SYS_RESOURCE_H int retval, pid = getpid(); struct rusage ru; retval = getrusage(RUSAGE_SELF, &ru); if(retval) { fprintf(stderr, "error: could not get cpu time for %d\n", pid); return ERR_GETRUSAGE; } // Sum the user and system time spent in this process cpu_secs += (double)ru.ru_utime.tv_sec + (((double)ru.ru_utime.tv_usec) / ((double)1000000.0)); cpu_secs += (double)ru.ru_stime.tv_sec + (((double)ru.ru_stime.tv_usec) / ((double)1000000.0)); cpu_t = cpu_secs; ws_t = ru.ru_idrss; // TODO: fix this (mult by page size) return 0; #else #ifdef _WIN32 HANDLE hProcess; FILETIME creationTime,exitTime,kernelTime,userTime; // TODO: Could we speed this up by retaining the process handle? hProcess = OpenProcess(PROCESS_QUERY_INFORMATION, 0, GetCurrentProcessId()); if (GetProcessTimes( hProcess, &creationTime, &exitTime, &kernelTime, &userTime) ) { ULARGE_INTEGER tKernel, tUser; LONGLONG totTime; CloseHandle(hProcess); tKernel.LowPart = kernelTime.dwLowDateTime; tKernel.HighPart = kernelTime.dwHighDateTime; tUser.LowPart = userTime.dwLowDateTime; tUser.HighPart = userTime.dwHighDateTime; totTime = tKernel.QuadPart + tUser.QuadPart; // Runtimes in 100-nanosecond units cpu_secs += totTime / 1.e7; // Convert to seconds and return cpu_t = cpu_secs; ws_t = 0; return 0; } CloseHandle(hProcess); // TODO: Handle timer wraparound static bool first=true; static DWORD first_count = 0; if (first) { first_count = GetTickCount(); first = false; } DWORD cur = GetTickCount(); cpu_t = cpu_secs + ((cur - first_count)/1000.); ws_t = 0; return 0; #endif // _WIN32 #endif fprintf(stderr, "boinc_cpu_time(): not implemented\n"); return -1; } // This function should be as fast as possible, and shouldn't make any system calls // #ifdef _WIN32 void CALLBACK on_timer(UINT uTimerID, UINT uMsg, DWORD dwUser, DWORD dw1, DWORD dw2) { #else void on_timer(int a) { #endif if (!ready_to_checkpoint) { time_until_checkpoint -= timer_period; if (time_until_checkpoint <= 0) { ready_to_checkpoint = true; } } if (!write_frac_done && this_process_active) { time_until_fraction_done_update -= timer_period; if (time_until_fraction_done_update <= 0) { write_frac_done = true; } } #if defined __APPLE_CC__ && defined BOINC_APP_GRAPHICS // Yield to the graphics thread to let it draw if needed YieldToAnyThread(); #endif } int set_timer(double period) { int retval=0; #ifdef _WIN32 char buf[256]; // Use Windows multimedia timer, since it is more accurate // than SetTimer and doesn't require an associated event loop timer_id = timeSetEvent( (int)(period*1000), // uDelay (int)(period*1000), // uResolution on_timer, // lpTimeProc NULL, // dwUser TIME_PERIODIC // fuEvent ); sprintf(buf, "%s%s", QUIT_PREFIX, aid.comm_obj_name); hQuitRequest = OpenEvent(EVENT_ALL_ACCESS, FALSE, buf); #ifdef BOINC_APP_GRAPHICS // Create the event object used to signal between the // worker and event threads hQuitEvent = CreateEvent( NULL, // no security attributes TRUE, // manual reset event TRUE, // initial state is signaled NULL); // object not named #endif #endif #if HAVE_SIGNAL_H #if HAVE_SYS_TIME_H struct sigaction sa; itimerval value; sa.sa_handler = on_timer; sa.sa_flags = SA_RESTART; retval = sigaction(SIGALRM, &sa, NULL); if (retval) { perror( "boinc set_timer() sigaction" ); return retval; } value.it_value.tv_sec = (int)period; value.it_value.tv_usec = ((int)(period*1000000))%1000000; value.it_interval = value.it_value; retval = setitimer(ITIMER_REAL, &value, NULL); if (retval) { perror( "boinc set_timer() setitimer" ); } #endif #endif return retval; } void setup_shared_mem(void) { app_client_shm = new APP_CLIENT_SHM; #ifdef API_STANDALONE app_client_shm->shm = NULL; fprintf( stderr, "Standalone mode, so not attaching to shared memory.\n" ); return; #endif #ifdef _WIN32 char buf[256]; sprintf(buf, "%s%s", SHM_PREFIX, aid.comm_obj_name); hSharedMem = attach_shmem(buf, (void**)&app_client_shm->shm); if (hSharedMem == NULL) app_client_shm = NULL; #endif #ifdef HAVE_SYS_SHM_H #ifdef HAVE_SYS_IPC_H if (attach_shmem(aid.shm_key, (void**)&app_client_shm->shm)) { app_client_shm = NULL; } #endif #endif } void cleanup_shared_mem(void) { if (!app_client_shm) return; #ifdef _WIN32 if (app_client_shm->shm != NULL) detach_shmem(hSharedMem, app_client_shm->shm); #endif #ifdef HAVE_SYS_SHM_H #ifdef HAVE_SYS_IPC_H if (app_client_shm->shm != NULL) detach_shmem(app_client_shm->shm); #endif #endif } int update_app_progress(double frac_done, double cpu_t, double cp_cpu_t, double ws_t) { char msg_buf[SHM_SEG_SIZE]; sprintf( msg_buf, "%2.8f\n" "%10.4f\n" "%10.4f\n" "%f\n", frac_done, cpu_t, cp_cpu_t, ws_t ); if (app_client_shm) return app_client_shm->send_msg(msg_buf, APP_CORE_WORKER_SEG); else return 0; }