// Berkeley Open Infrastructure for Network Computing // http://boinc.berkeley.edu // Copyright (C) 2005 University of California // // This 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 2.1 of the License, or (at your option) any later version. // // This software 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. // // To view the GNU Lesser General Public License visit // http://www.gnu.org/copyleft/lesser.html // or write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // The "policy" part of task execution is here. // The "mechanism" part is in app.C // #include "cpp.h" #ifdef _WIN32 #include "boinc_win.h" #endif #ifndef _WIN32 #include "config.h" #include #include #endif #include "md5_file.h" #include "util.h" #include "error_numbers.h" #include "file_names.h" #include "filesys.h" #include "shmem.h" #include "log_flags.h" #include "client_msgs.h" #include "client_state.h" using std::vector; // Quit running applications, quit benchmarks, // write the client_state.xml file // (in principle we could also terminate net_xfers here, // e.g. flush buffers, but why bother) // int CLIENT_STATE::quit_activities() { int retval; // calculate long-term debts (for state file) // adjust_debts(); retval = active_tasks.exit_tasks(); if (retval) { msg_printf(NULL, MSG_ERROR, "Couldn't exit tasks: %s", boincerror(retval) ); } write_state_file(); abort_cpu_benchmarks(); return 0; } // Handle a task that has finished. // Mark its output files as present, and delete scratch files. // Don't delete input files because they might be shared with other WUs. // Update state of result record. // int CLIENT_STATE::app_finished(ACTIVE_TASK& at) { RESULT* rp = at.result; FILE_INFO* fip; unsigned int i; char path[256]; int retval; double size; bool had_error = false; // scan the output files, check if missing or too big // Don't bother doing this if result was aborted via GUI if (rp->exit_status != ERR_ABORTED_VIA_GUI) { for (i=0; ioutput_files.size(); i++) { fip = rp->output_files[i].file_info; if (fip->uploaded) continue; get_pathname(fip, path); retval = file_size(path, size); if (retval) { // an output file is unexpectedly absent. // fip->status = retval; had_error = true; } else if (size > fip->max_nbytes) { // Note: this is only checked when the application finishes. // The total disk space is checked while the application is running. // msg_printf( rp->project, MSG_INFO, "Output file %s for task %s exceeds size limit.", fip->name, rp->name ); msg_printf( rp->project, MSG_INFO, "File size: %f bytes. Limit: %f bytes", size, fip->max_nbytes ); fip->delete_file(); fip->status = ERR_FILE_TOO_BIG; had_error = true; } else { if (!fip->upload_when_present && !fip->sticky) { fip->delete_file(); // sets status to NOT_PRESENT } else { retval = md5_file(path, fip->md5_cksum, fip->nbytes); if (retval) { fip->status = retval; had_error = true; } else { fip->status = FILE_PRESENT; } } } } } if (rp->exit_status != 0) { had_error = true; } if (had_error) { rp->state = RESULT_COMPUTE_ERROR; } else { rp->state = RESULT_FILES_UPLOADING; rp->project->update_duration_correction_factor(rp); } double wall_cpu_time = now - cpu_sched_last_time; at.result->project->wall_cpu_time_this_period += wall_cpu_time; total_wall_cpu_time_this_period += wall_cpu_time; total_cpu_time_this_period += at.current_cpu_time - at.cpu_time_at_last_sched; return 0; } // clean up after finished apps // bool CLIENT_STATE::handle_finished_apps() { unsigned int i; ACTIVE_TASK* atp; bool action = false; static double last_time = 0; if (gstate.now - last_time < 1.0) return false; last_time = gstate.now; SCOPE_MSG_LOG scope_messages(log_messages, CLIENT_MSG_LOG::DEBUG_TASK); for (i=0; itask_state) { case PROCESS_EXITED: case PROCESS_WAS_SIGNALED: case PROCESS_EXIT_UNKNOWN: case PROCESS_COULDNT_START: case PROCESS_ABORTED: msg_printf(atp->wup->project, MSG_INFO, "Computation for task %s finished", atp->result->name ); scope_messages.printf( "CLIENT_STATE::handle_finished_apps(): task finished; pid %d, status %d\n", atp->pid, atp->result->exit_status ); app_finished(*atp); active_tasks.remove(atp); delete atp; set_client_state_dirty("handle_finished_apps"); action = true; } } return action; } // Returns true if all the input files for a result are present // (both WU and app version) // false otherwise // bool CLIENT_STATE::input_files_available(RESULT* rp) { WORKUNIT* wup = rp->wup; FILE_INFO* fip; unsigned int i; APP_VERSION* avp; FILE_REF fr; PROJECT* project = rp->project; avp = wup->avp; for (i=0; iapp_files.size(); i++) { fr = avp->app_files[i]; fip = fr.file_info; if (fip->status != FILE_PRESENT) return false; // don't check file size for anonymous platform // if (!project->anonymous_platform) { if (fip->verify_file(false)) return false; } } for (i=0; iinput_files.size(); i++) { fip = wup->input_files[i].file_info; if (fip->status != FILE_PRESENT) return false; if (fip->verify_file(false)) return false; } return true; } // if there's not an active task for the result, make one // int CLIENT_STATE::schedule_result(RESULT* rp) { ACTIVE_TASK *atp = lookup_active_task_by_result(rp); if (!atp) { atp = new ACTIVE_TASK; atp->init(rp); atp->slot = active_tasks.get_free_slot(); get_slot_dir(atp->slot, atp->slot_dir); active_tasks.active_tasks.push_back(atp); } atp->next_scheduler_state = CPU_SCHED_SCHEDULED; return 0; } // find total resource shares of all projects // double CLIENT_STATE::total_resource_share() { double x = 0; for (unsigned int i=0; inon_cpu_intensive ) { x += projects[i]->resource_share; } } return x; } // same, but only runnable projects (can use CPU right now) // double CLIENT_STATE::runnable_resource_share() { double x = 0; for (unsigned int i=0; irunnable()) { x += p->resource_share; } } return x; } // same, but potentially runnable (could ask for work right now) // double CLIENT_STATE::potentially_runnable_resource_share() { double x = 0; for (unsigned int i=0; ipotentially_runnable()) { x += p->resource_share; } } return x; } // This is called when the client is initialized. // Try to restart any tasks that were running when we last shut down. // int CLIENT_STATE::restart_tasks() { return active_tasks.restart_tasks(ncpus); } void CLIENT_STATE::set_ncpus() { if (host_info.p_ncpus > 0) { ncpus = host_info.p_ncpus; } else { ncpus = 1; } if (ncpus > global_prefs.max_cpus) ncpus = global_prefs.max_cpus; } inline double force_fraction(double f) { if (f < 0) return 0; if (f > 1) return 1; return f; } double CLIENT_STATE::get_fraction_done(RESULT* result) { ACTIVE_TASK* atp = active_tasks.lookup_result(result); return atp ? force_fraction(atp->fraction_done) : 0.0; } // Decide which app version to use for a WU. // Return -1 if can't find one // int CLIENT_STATE::choose_version_num(char* app_name, SCHEDULER_REPLY& sr) { unsigned int i; int best = -1; APP_VERSION* avp; // First look in the scheduler reply // for (i=0; iapp_name)) { return avp->version_num; } } // If not there, use the latest one in our state // for (i=0; iapp_name, app_name)) continue; if (avp->version_num < best) continue; best = avp->version_num; } if (best < 0) { msg_printf(0, MSG_ERROR, "No version found for application %s", app_name ); } return best; } // handle file-transfer applications // void CLIENT_STATE::handle_file_xfer_apps() { unsigned int i; for (i=0; iwup->avp->app_files.size() == 0 && rp->state == RESULT_FILES_DOWNLOADED) { rp->state = RESULT_FILES_UPLOADING; rp->reset_files(); } } } void CLIENT_STATE::request_schedule_cpus(const char* where) { must_schedule_cpus = true; msg_printf(0, MSG_INFO, "Rescheduling CPU: %s", where); } const char *BOINC_RCSID_7bf63ad771 = "$Id$";