static volatile const char *BOINCrcsid="$Id$"; // 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): // // Manage a (perhaps multi-processor) benchmark. // Because of hyperthreaded CPUs we can't just benchmark 1 CPU; // we have to run parallel benchmarks, // and we have to ensure that they run more or less concurrently. // Here's our scheme: // - the main program forks N benchmarks threads or processes // - after FP_START seconds it creates a file "do_fp" // - after FP_END seconds it deletes do_fp // - after INT_START seconds it creates do_int // - after INT_END seconds it deletes do_int and starts waiting for processes // Each thread/process checks for the relevant file before // starting or stopping each benchmark #include "cpp.h" #ifdef _WIN32 #include "boinc_win.h" #endif #ifndef _WIN32 #if HAVE_SYS_TYPES_H #include #endif #if HAVE_SYS_WAIT_H #include #endif #include #if HAVE_SYS_SIGNAL_H #include #endif #ifdef HAVE_UNISTD_H #include #endif #include #include #include #endif #include "error_numbers.h" #include "file_names.h" #include "filesys.h" #include "util.h" #include "cpu_benchmark.h" #include "client_msgs.h" #include "client_state.h" // defaults in case benchmarks fail or time out. // better to err on the low side so hosts don't get too much work #define DEFAULT_FPOPS 1e7 #define DEFAULT_IOPS 1e7 #define DEFAULT_MEMBW 1e8 #define DEFAULT_CACHE 1e6 #define FP_START 2 #define FP_END 22 #define INT_START 37 #define INT_END 57 #define BM_FP_INIT 0 #define BM_FP 1 #define BM_INT_INIT 2 #define BM_INT 3 #define BM_SLEEP 4 #define BM_DONE 5 static int bm_state; #define BENCHMARK_PERIOD (SECONDS_PER_DAY*5) // rerun CPU benchmarks this often (hardware may have been upgraded) extern void guiOnBenchmarksBegin(); extern void guiOnBenchmarksEnd(); // represents a benchmark thread/process, in progress or completed // struct BENCHMARK_DESC { int ordinal; HOST_INFO host_info; bool done; bool error; #ifdef _WIN32 HANDLE handle; DWORD pid; #else char filename[256]; PROCESS_ID pid; #endif }; static BENCHMARK_DESC* benchmark_descs=0; static bool benchmarks_running=false; // at least 1 benchmark thread running static double cpu_benchmarks_start; char *file_names[2] = {"do_fp", "do_int"}; static void remove_benchmark_file(int which) { boinc_delete_file(file_names[which]); } static void make_benchmark_file(int which) { FILE* f = boinc_fopen(file_names[which], "w"); fclose(f); } void benchmark_wait_to_start(int which) { while (1) { if (boinc_file_exists(file_names[which])) { break; } boinc_sleep(0.1); } } bool benchmark_time_to_stop(int which) { if (boinc_file_exists(file_names[which])) { return false; } return true; } // benchmark a single CPU // This takes 60-120 seconds, // int cpu_benchmarks(BENCHMARK_DESC* bdp) { HOST_INFO host_info; double x, y; host_info.clear_host_info(); whetstone(host_info.p_fpops); dhrystone(x, y); host_info.p_iops = y*1e6; host_info.p_membw = 1e9; host_info.m_cache = 1e6; // TODO: measure the cache #ifdef _WIN32 bdp->host_info = host_info; #else FILE* finfo; finfo = boinc_fopen(bdp->filename, "w"); if (!finfo) return ERR_FOPEN; host_info.write_cpu_benchmarks(finfo); fclose(finfo); #endif return 0; } #ifdef _WIN32 DWORD WINAPI win_cpu_benchmarks(LPVOID p) { return cpu_benchmarks((BENCHMARK_DESC*)p); } #endif void CLIENT_STATE::start_cpu_benchmarks() { int i; SCOPE_MSG_LOG scope_messages(log_messages, CLIENT_MSG_LOG::DEBUG_MEASUREMENT); if (skip_cpu_benchmarks) { scope_messages.printf("CLIENT_STATE::cpu_benchmarks(): Skipping CPU benchmarks.\n"); host_info.p_fpops = DEFAULT_FPOPS; host_info.p_iops = DEFAULT_IOPS; host_info.p_membw = DEFAULT_MEMBW; host_info.m_cache = DEFAULT_CACHE; return; } bm_state = BM_FP_INIT; remove_benchmark_file(BM_TYPE_FP); remove_benchmark_file(BM_TYPE_INT); cpu_benchmarks_start = dtime(); msg_printf(NULL, MSG_INFO, "Running CPU benchmarks"); if (!benchmark_descs) { benchmark_descs = (BENCHMARK_DESC*)calloc( host_info.p_ncpus, sizeof(BENCHMARK_DESC) ); } guiOnBenchmarksBegin(); benchmarks_running = true; for (i=0; i BENCHMARK_PERIOD) ); } // abort a running benchmark thread/process // void abort_benchmark(BENCHMARK_DESC& desc) { if (desc.done) return; #ifdef _WIN32 TerminateThread(desc.handle, 0); CloseHandle(desc.handle); #else kill(desc.pid, SIGKILL); #endif } // check a running benchmark thread/process. // void check_benchmark(BENCHMARK_DESC& desc) { #ifdef _WIN32 DWORD exit_code = 0; GetExitCodeThread(desc.handle, &exit_code); if (exit_code != STILL_ACTIVE) { CloseHandle(desc.handle); desc.done = true; } #else int retval; int exit_code = 0; retval = waitpid(desc.pid, &exit_code, WNOHANG); if (retval) { desc.done = true; FILE* f = fopen(desc.filename, "r"); if (!f) { desc.error = true; return; } retval = desc.host_info.parse_cpu_benchmarks(f); fclose(f); boinc_delete_file(desc.filename); if (retval) { desc.error = true; } } #endif } void CLIENT_STATE::abort_cpu_benchmarks() { int i; if (!benchmarks_running) return; for (i=0; i FP_START) { make_benchmark_file(BM_TYPE_FP); bm_state = BM_FP; } return false; case BM_FP: if (now - cpu_benchmarks_start > FP_END) { remove_benchmark_file(BM_TYPE_FP); bm_state = BM_INT_INIT; } return false; case BM_INT_INIT: if (now - cpu_benchmarks_start > INT_START) { make_benchmark_file(BM_TYPE_INT); bm_state = BM_INT; } return false; case BM_INT: if (now - cpu_benchmarks_start > INT_END) { remove_benchmark_file(BM_TYPE_INT); bm_state = BM_SLEEP; } return false; case BM_SLEEP: boinc_sleep(2.0); bm_state = BM_DONE; return false; } // check for timeout // if (now > cpu_benchmarks_start + MAX_CPU_BENCHMARKS_SECONDS) { msg_printf(NULL, MSG_ERROR, "CPU benchmarks timed out, using default values"); abort_cpu_benchmarks(); host_info.p_fpops = DEFAULT_FPOPS; host_info.p_iops = DEFAULT_IOPS; host_info.p_membw = DEFAULT_MEMBW; host_info.m_cache = DEFAULT_CACHE; guiOnBenchmarksEnd(); benchmarks_running = false; set_client_state_dirty("CPU benchmarks"); } int ndone = 0; bool had_error = false; for (i=0; i