// 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 . using namespace std; #include "config.h" #include #include #include #include #include #include #include #include "filesys.h" #include "md5_file.h" #include "error_numbers.h" #include "sched_msgs.h" #include "sched_util.h" #include "util.h" #ifdef _USING_FCGI_ #include "boinc_fcgi.h" #endif const char* STOP_DAEMONS_FILENAME = "../stop_daemons"; // NOTE: this must be same as in the "start" script const char* STOP_SCHED_FILENAME = "../stop_sched"; // NOTE: this must be same as in the "start" script const int STOP_SIGNAL = SIGHUP; // NOTE: this must be same as in the "start" script void write_pid_file(const char* filename) { #ifndef _USING_FCGI_ FILE* fpid = fopen(filename, "w"); #else FCGI_FILE* fpid = FCGI::fopen(filename,"w"); #endif if (!fpid) { log_messages.printf(MSG_CRITICAL, "Couldn't write pid file\n"); return; } fprintf(fpid, "%d\n", (int)getpid()); fclose(fpid); } // caught_sig_int will be set to true if STOP_SIGNAL (normally SIGHUP) // is caught. bool caught_stop_signal = false; static void stop_signal_handler(int) { fprintf(stderr, "GOT STOP SIGNAL\n"); caught_stop_signal = true; } void install_stop_signal_handler() { signal(STOP_SIGNAL, stop_signal_handler); // handler is now default again so hitting ^C again will kill the program. } void check_stop_daemons() { if (caught_stop_signal) { log_messages.printf(MSG_NORMAL, "Quitting due to SIGHUP\n"); exit(0); } if (boinc_file_exists(STOP_DAEMONS_FILENAME)) { log_messages.printf(MSG_NORMAL, "Quitting because trigger file '%s' is present\n", STOP_DAEMONS_FILENAME ); exit(0); } } bool check_stop_sched() { return boinc_file_exists(STOP_SCHED_FILENAME); } // try to open a file. // On failure: // return ERR_FOPEN if the dir is there but not file // (this is generally a nonrecoverable failure) // return ERR_OPENDIR if dir is not there. // (this is generally a recoverable error, // like NFS mount failure, that may go away later) // #ifndef _USING_FCGI_ int try_fopen(const char* path, FILE*& f, const char* mode) { #else int try_fopen(const char* path, FCGI_FILE*& f, const char *mode) { #endif char* p; DIR* d; char dirpath[256]; #ifndef _USING_FCGI_ f = fopen(path, mode); #else f = FCGI::fopen(path, mode); #endif if (!f) { memset(dirpath, '\0', sizeof(dirpath)); p = strrchr(path, '/'); if (p) { strncpy(dirpath, path, (int)(p-path)); } else { strcpy(dirpath, "."); } if ((d = opendir(dirpath)) == NULL) { return ERR_OPENDIR; } else { closedir(d); return ERR_FOPEN; } } return 0; } void get_log_path(char* p, const char* filename) { char host[256]; char dir[256]; gethostname(host, 256); char* q = strchr(host, '.'); if (q) *q=0; sprintf(dir, "../log_%s", host); sprintf(p, "%s/%s", dir, filename); mode_t old_mask = umask(0); mkdir(dir, 01770); // make log_x directory sticky and group-rwx // so that whatever apache puts there will be owned by us umask(old_mask); } static void filename_hash(const char* filename, int fanout, char* dir) { std::string s = md5_string((const unsigned char*)filename, strlen(filename)); int x = strtol(s.substr(1, 7).c_str(), 0, 16); sprintf(dir, "%x", x % fanout); } // given a filename, compute its path in a directory hierarchy // If create is true, create the directory if needed // int dir_hier_path( const char* filename, const char* root, int fanout, char* path, bool create ) { char dir[256], dirpath[256]; int retval; if (fanout==0) { sprintf(path, "%s/%s", root, filename); return 0; } filename_hash(filename, fanout, dir); sprintf(dirpath, "%s/%s", root, dir); if (create) { retval = boinc_mkdir(dirpath); if (retval && (errno != EEXIST)) { fprintf(stderr, "boinc_mkdir(%s): retval %d errno %d\n", dirpath, retval, errno); return ERR_MKDIR; } } sprintf(path, "%s/%s", dirpath, filename); return 0; } // same, but the output is a URL (used by tools/backend_lib.C) // int dir_hier_url( const char* filename, const char* root, int fanout, char* result ) { char dir[256]; if (fanout==0) { sprintf(result, "%s/%s", root, filename); return 0; } filename_hash(filename, fanout, dir); sprintf(result, "%s/%s/%s", root, dir, filename); return 0; } // Locality scheduling: get filename from result name // int extract_filename(char* in, char* out) { strcpy(out, in); char* p = strstr(out, "__"); if (!p) return -1; *p = 0; return 0; } void compute_avg_turnaround(HOST& host, double turnaround) { double new_avg; if (host.avg_turnaround == 0) { new_avg = turnaround; } else { new_avg = .7*host.avg_turnaround + .3*turnaround; } host.avg_turnaround = new_avg; } double elapsed_wallclock_time() { static double wallclock_execution_time=0.0; if (wallclock_execution_time == 0.0) { wallclock_execution_time=dtime(); return 0.0; } return dtime()-wallclock_execution_time; } // Request lock on the given file with given fd. Returns: // 0 if we get lock // PID (>0) if another process has lock // -1 if error // int mylockf(int fd) { struct flock fl; fl.l_type=F_WRLCK; fl.l_whence=SEEK_SET; fl.l_start=0; fl.l_len=0; if (-1 != fcntl(fd, F_SETLK, &fl)) return 0; // if lock failed, find out why errno=0; fcntl(fd, F_GETLK, &fl); if (fl.l_pid>0) return fl.l_pid; return -1; } double fpops_to_credit(double fpops, double intops) { // TODO: use fp_weight if specified in config file double fpc = (fpops/1e9)*COBBLESTONE_FACTOR/SECONDS_PER_DAY; double intc = (intops/1e9)*COBBLESTONE_FACTOR/SECONDS_PER_DAY; return std::max(fpc, intc); } double credit_multiplier(int appid, time_t create_time) { DB_CREDIT_MULTIPLIER mult; mult.get_nearest(appid,create_time); return mult.multiplier; } int count_results(char* query, int& n) { DB_RESULT result; int retval = result.count(n, query); if (retval) return retval; return 0; } int count_workunits(int& n, const char* query) { DB_WORKUNIT workunit; int retval = workunit.count(n, query); if (retval) return retval; return 0; } int count_unsent_results(int& n, int appid) { char buf[256]; if (appid) { sprintf(buf, "where server_state=%d and appid=%d ", RESULT_SERVER_STATE_UNSENT, appid ); } else { sprintf(buf, "where server_state=%d", RESULT_SERVER_STATE_UNSENT); } return count_results(buf, n); } #ifdef GCL_SIMULATOR void simulator_signal_handler(int signum){ FILE *fsim; char currenttime[64]; fsim = fopen("../simulator/sim_time.txt","r"); if(fsim){ fscanf(fsim,"%s", currenttime); simtime = atof(currenttime); fclose(fsim); } log_messages.printf(SCHED_MSG_LOG::MSG_NORMAL, "Invoked by the simulator at time %.0f... \n", simtime ); } int itime() { return (int) simtime; } void continue_simulation(const char *daemonname){ char daemonfilelok[64]; char daemonfile[64]; sprintf(daemonfile, "../simulator/sim_%s.txt",daemonname); sprintf(daemonfilelok, "../simulator/sim_%s.lok",daemonname); FILE *fsimlok = fopen(daemonfilelok, "w"); if (fsimlok){ fclose(fsimlok); FILE *fsim = fopen(daemonfile, "w"); if (fsim) { fclose(fsim); } } remove(daemonfilelok); } #endif const char *BOINC_RCSID_affa6ef1e4 = "$Id$";