// 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 . // Handle a scheduling server RPC #include "config.h" #ifdef _USING_FCGI_ #include "boinc_fcgi.h" #else #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include "boinc_db.h" #include "backend_lib.h" #include "error_numbers.h" #include "parse.h" #include "str_util.h" #include "str_replace.h" #include "util.h" #include "filesys.h" #include "sched_vda.h" #include "credit.h" #include "sched_main.h" #include "sched_types.h" #include "sched_util.h" #include "handle_request.h" #include "sched_msgs.h" #include "sched_resend.h" #include "sched_send.h" #include "sched_config.h" #include "sched_locality.h" #include "sched_result.h" #include "sched_customize.h" #include "time_stats_log.h" // find the user's most recently-created host with given various characteristics // static bool find_host_by_other(DB_USER& user, HOST req_host, DB_HOST& host) { char buf[2048]; char dn[512], ip[512], os[512], pm[512]; // don't dig through hosts of these users // prevents flooding the DB with slow queries from users with many hosts for(unsigned int i=0; i < config.dont_search_host_for_userid.size(); i++) if (user.id == config.dont_search_host_for_userid[i]) return false; // Only check if the fields are populated if (strlen(req_host.domain_name) && strlen(req_host.last_ip_addr) && strlen(req_host.os_name) && strlen(req_host.p_model)) { strcpy(dn, req_host.domain_name); escape_string(dn, 512); strcpy(ip, req_host.last_ip_addr); escape_string(ip, 512); strcpy(os, req_host.os_name); escape_string(os, 512); strcpy(pm, req_host.p_model); escape_string(pm, 512); sprintf(buf, "where userid=%d and id>%d and domain_name='%s' and last_ip_addr = '%s' and os_name = '%s' and p_model = '%s'" " and m_nbytes = %lf order by id desc", user.id, req_host.id, dn, ip, os, pm, req_host.m_nbytes ); if (!host.enumerate(buf)) { host.end_enumerate(); return true; } } return false; } static void send_error_message(const char* msg, int delay) { g_reply->insert_message(msg, "low"); g_reply->set_delay(delay); g_reply->nucleus_only = true; } // Try to lock a file with name based on host ID, // to prevent 2 schedulers from running at same time for same host. // Return: // 0 if successful // In this case store file descriptor in reply struct so we can unlock later // In other cases store -1 in reply struct // PID (>0) if another process has lock // -1 if error (e.g. can't create file) // int lock_sched() { char filename[256]; char pid_string[16]; int fd, pid, count; g_reply->lockfile_fd=-1; sprintf(filename, "%s/CGI_%07d", config.sched_lockfile_dir, g_reply->host.id ); fd = open(filename, O_WRONLY|O_CREAT, S_IRUSR|S_IWUSR|S_IRGRP|S_IROTH); if (fd < 0) return -1; // if we can't get an advisory write lock on the file, // return the PID of the process that DOES hold the lock. // (or -1 if failure) // pid = mylockf(fd); if (pid) { close(fd); return pid; } // write PID into the CGI_ file and flush to disk // count = sprintf(pid_string, "%d\n", getpid()); ssize_t n = write(fd, pid_string, count); if (n < 0) { close(fd); return -1; } fsync(fd); g_reply->lockfile_fd = fd; return 0; } // unlock and delete per-host lockfile // void unlock_sched() { char filename[256]; if (g_reply->lockfile_fd < 0) return; sprintf(filename, "%s/CGI_%07d", config.sched_lockfile_dir, g_reply->host.id); unlink(filename); close(g_reply->lockfile_fd); } // find the user's most recently-created host with given host CPID // static bool find_host_by_cpid(DB_USER& user, char* host_cpid, DB_HOST& host) { char buf[256], buf2[256]; sprintf(buf, "%s%s", host_cpid, user.email_addr); md5_block((const unsigned char*)buf, strlen(buf), buf2); sprintf(buf, "where userid=%d and host_cpid='%s' order by id desc", user.id, buf2 ); if (!host.enumerate(buf)) { host.end_enumerate(); return true; } return false; } // Called when there's evidence that the host has detached. // Mark in-progress results for the given host // as server state OVER, outcome CLIENT_DETACHED. // This serves two purposes: // 1) make sure we don't resend these results to the host // (they may be the reason the user detached) // 2) trigger the generation of new results for these WUs // static void mark_results_over(DB_HOST& host) { char buf[256], buf2[256]; DB_RESULT result; sprintf(buf, "where hostid=%d and server_state=%d", host.id, RESULT_SERVER_STATE_IN_PROGRESS ); while (!result.enumerate(buf)) { sprintf(buf2, "server_state=%d, outcome=%d, received_time = %ld", RESULT_SERVER_STATE_OVER, RESULT_OUTCOME_CLIENT_DETACHED, time(0) ); result.update_field(buf2); // and trigger WU transition // DB_WORKUNIT wu; wu.id = result.workunitid; sprintf(buf2, "transition_time=%d", (int)time(0)); wu.update_field(buf2); log_messages.printf(MSG_CRITICAL, "[HOST#%d] [RESULT#%d] [WU#%d] changed CPID: marking in-progress result %s as client error!\n", host.id, result.id, result.workunitid, result.name ); } } // Based on the info in the request message, // look up the host and its user, and make sure the authenticator matches. // Some special cases: // 1) If no host ID is supplied, or if RPC seqno mismatch, // create a new host record // 2) If the host record specified by g_request->hostid is a "zombie" // (i.e. it was merged with another host via the web site) // then follow links to find the proper host // // POSTCONDITION: // If this function returns zero, then: // - reply.host contains a valid host record (possibly new) // - reply.user contains a valid user record // - if user belongs to a team, reply.team contains team record // int authenticate_user() { int retval; char buf[256]; DB_HOST host; DB_USER user; DB_TEAM team; if (g_request->hostid) { retval = host.lookup_id(g_request->hostid); while (!retval && host.userid==0) { // if host record is zombie, follow link to new host // retval = host.lookup_id(host.rpc_seqno); if (!retval) { g_reply->hostid = host.id; log_messages.printf(MSG_NORMAL, "[HOST#%d] forwarding to new host ID %d\n", g_request->hostid, host.id ); } } if (retval) { g_reply->insert_message("Can't find host record", "low"); log_messages.printf(MSG_NORMAL, "[HOST#%d?] can't find host\n", g_request->hostid ); g_request->hostid = 0; goto lookup_user_and_make_new_host; } g_reply->host = host; // look up user based on the ID in host record, // and see if the authenticator matches (regular or weak) // g_request->using_weak_auth = false; sprintf(buf, "where id=%d", host.userid); retval = user.lookup(buf); if (!retval && !strcmp(user.authenticator, g_request->authenticator)) { // req auth matches user auth - go on } else { if (!retval) { // user for host.userid exists - check weak auth // get_weak_auth(user, buf); if (!strcmp(buf, g_request->authenticator)) { g_request->using_weak_auth = true; log_messages.printf(MSG_DEBUG, "[HOST#%d] accepting weak authenticator\n", host.id ); } } if (!g_request->using_weak_auth) { // weak auth failed - look up user based on authenticator // strlcpy( user.authenticator, g_request->authenticator, sizeof(user.authenticator) ); sprintf(buf, "where authenticator='%s'", user.authenticator); retval = user.lookup(buf); if (retval) { g_reply->insert_message( _("Invalid or missing account key. To fix, remove and add this project."), "notice" ); g_reply->set_delay(DELAY_MISSING_KEY); g_reply->nucleus_only = true; log_messages.printf(MSG_CRITICAL, "[HOST#%d] [USER#%d] Bad authenticator '%s'\n", host.id, user.id, g_request->authenticator ); return ERR_AUTHENTICATOR; } } } g_reply->user = user; if (host.userid != user.id) { // If the request's host ID isn't consistent with the authenticator, // create a new host record. // log_messages.printf(MSG_NORMAL, "[HOST#%d] [USER#%d] inconsistent host ID; creating new host\n", host.id, user.id ); goto make_new_host; } // If the seqno from the host is less than what we expect, // the user must have copied the state file to a different host. // Make a new host record. // if (!batch && g_request->rpc_seqno < g_reply->host.rpc_seqno) { g_request->hostid = 0; log_messages.printf(MSG_NORMAL, "[HOST#%d] [USER#%d] RPC seqno %d less than expected %d; creating new host\n", g_reply->host.id, user.id, g_request->rpc_seqno, g_reply->host.rpc_seqno ); goto make_new_host; } } else { // Here no hostid was given, or the ID was bad. // Look up the user, then create a new host record // lookup_user_and_make_new_host: // if authenticator contains _, it's a weak auth // if (strchr(g_request->authenticator, '_')) { int userid = atoi(g_request->authenticator); retval = user.lookup_id(userid); if (!retval) { get_weak_auth(user, buf); if (strcmp(buf, g_request->authenticator)) { retval = ERR_AUTHENTICATOR; } } } else { strlcpy( user.authenticator, g_request->authenticator, sizeof(user.authenticator) ); sprintf(buf, "where authenticator='%s'", user.authenticator); retval = user.lookup(buf); } if (retval) { g_reply->insert_message( "Invalid or missing account key. To fix, remove and add this project .", "low" ); g_reply->set_delay(DELAY_MISSING_KEY); log_messages.printf(MSG_CRITICAL, "[HOST#] Bad authenticator '%s': %s\n", g_request->authenticator, boincerror(retval) ); return ERR_AUTHENTICATOR; } g_reply->user = user; // If host CPID is present, // scan backwards through this user's hosts, // looking for one with the same host CPID. // If we find one, it means the user detached and reattached. // Use the existing host record, // and mark in-progress results as over. // if (strlen(g_request->host.host_cpid)) { if (find_host_by_cpid(user, g_request->host.host_cpid, host)) { log_messages.printf(MSG_CRITICAL, "[HOST#%d] [USER#%d] User has another host with same CPID.\n", host.id, host.userid ); if ((g_request->allow_multiple_clients != 1) && (g_request->other_results.size() == 0) ) { mark_results_over(host); } goto got_host; } } make_new_host: // One final attempt to locate an existing host record: // scan backwards through this user's hosts, // looking for one with the same host name, // IP address, processor and amount of RAM. // If found, use the existing host record, // and mark in-progress results as over. // // NOTE: If the client was run with --allow_multiple_clients, skip this. // if ((g_request->allow_multiple_clients==1) && find_host_by_other(user, g_request->host, host) ) { log_messages.printf(MSG_NORMAL, "[HOST#%d] [USER#%d] Found similar existing host for this user - assigned.\n", host.id, host.userid ); mark_results_over(host); goto got_host; } // either of the above cases, // or host ID didn't match user ID, // or RPC seqno was too low. // // Create a new host. // g_reply->user is filled in and valid at this point // host = g_request->host; host.id = 0; host.create_time = time(0); host.userid = g_reply->user.id; host.rpc_seqno = 0; host.expavg_time = time(0); strcpy(host.venue, g_reply->user.venue); host.fix_nans(); retval = host.insert(); if (retval) { g_reply->insert_message( "Couldn't create host record in database", "low" ); boinc_db.print_error("host.insert()"); log_messages.printf(MSG_CRITICAL, "host.insert() failed\n"); return retval; } host.id = boinc_db.insert_id(); got_host: g_reply->host = host; g_reply->hostid = g_reply->host.id; // this tells client to updates its host ID g_request->rpc_seqno = 0; // this value eventually gets written to host DB record; // for new hosts it must be zero. // This kludge forces this. } // have user record in g_reply->user at this point // if (g_reply->user.teamid) { retval = team.lookup_id(g_reply->user.teamid); if (!retval) g_reply->team = team; } // compute email hash // md5_block( (unsigned char*)g_reply->user.email_addr, strlen(g_reply->user.email_addr), g_reply->email_hash ); // if new user CPID, update user record // if (!g_request->using_weak_auth && strlen(g_request->cross_project_id)) { if (strcmp(g_request->cross_project_id, g_reply->user.cross_project_id)) { user.id = g_reply->user.id; escape_string(g_request->cross_project_id, sizeof(g_request->cross_project_id)); sprintf(buf, "cross_project_id='%s'", g_request->cross_project_id); unescape_string(g_request->cross_project_id, sizeof(g_request->cross_project_id)); user.update_field(buf); } } return 0; } // modify host struct based on request. // Copy all fields that are determined by the client. // static int modify_host_struct(HOST& host) { host.timezone = g_request->host.timezone; strncpy(host.domain_name, g_request->host.domain_name, sizeof(host.domain_name)); char buf[256], buf2[256]; sprintf(buf, "[BOINC|%d.%d.%d]", g_request->core_client_major_version, g_request->core_client_minor_version, g_request->core_client_release ); g_request->coprocs.summary_string(buf2, sizeof(buf2)); strlcpy(host.serialnum, buf, sizeof(host.serialnum)); strlcat(host.serialnum, buf2, sizeof(host.serialnum)); if (strlen(g_request->host.virtualbox_version)) { sprintf(buf2, "[vbox|%s]", g_request->host.virtualbox_version); strlcat(host.serialnum, buf2, sizeof(host.serialnum)); } if (strcmp(host.last_ip_addr, g_request->host.last_ip_addr)) { strncpy( host.last_ip_addr, g_request->host.last_ip_addr, sizeof(host.last_ip_addr) ); host.nsame_ip_addr = 0; } else { host.nsame_ip_addr++; } host.on_frac = g_request->host.on_frac; host.connected_frac = g_request->host.connected_frac; host.active_frac = g_request->host.active_frac; host.duration_correction_factor = g_request->host.duration_correction_factor; host.p_ncpus = g_request->host.p_ncpus; strncpy(host.p_vendor, g_request->host.p_vendor, sizeof(host.p_vendor)); // unlikely this will change strncpy(host.p_model, g_request->host.p_model, sizeof(host.p_model)); host.p_fpops = g_request->host.p_fpops; host.p_iops = g_request->host.p_iops; host.p_membw = g_request->host.p_membw; strncpy(host.os_name, g_request->host.os_name, sizeof(host.os_name)); strncpy(host.os_version, g_request->host.os_version, sizeof(host.os_version)); host.m_nbytes = g_request->host.m_nbytes; host.m_cache = g_request->host.m_cache; host.m_swap = g_request->host.m_swap; host.d_total = g_request->host.d_total; host.d_free = g_request->host.d_free; host.d_boinc_used_total = g_request->host.d_boinc_used_total; host.d_boinc_used_project = g_request->host.d_boinc_used_project; host.n_bwup = g_request->host.n_bwup; host.n_bwdown = g_request->host.n_bwdown; if (strlen(g_request->host.host_cpid)) { strcpy(host.host_cpid, g_request->host.host_cpid); } host.fix_nans(); return 0; } // update the DB record to the values in "xhost" // "initial_host" stores the current DB values; // update only those fields that have changed // static int update_host_record(HOST& initial_host, HOST& xhost, USER& user) { DB_HOST host; int retval; char buf[1024]; host = xhost; // hash the CPID reported by the host with the user's email address. // This prevents one user from spoofing another one's host. // if (strlen(host.host_cpid)) { sprintf(buf, "%s%s", host.host_cpid, user.email_addr); md5_block((const unsigned char*)buf, strlen(buf), host.host_cpid); } char* p = getenv("REMOTE_ADDR"); if (p) { strlcpy(host.external_ip_addr, p, sizeof(host.external_ip_addr)); } retval = host.update_diff_sched(initial_host); if (retval) { log_messages.printf(MSG_CRITICAL, "host.update() failed: %s\n", boincerror(retval) ); } return 0; } inline const char* reason_str(int n) { switch (n) { case ABORT_REASON_NOT_FOUND: return "result not in request"; case ABORT_REASON_WU_CANCELLED: return "WU cancelled"; case ABORT_REASON_ASSIMILATED: return "WU assimilated"; case ABORT_REASON_TIMED_OUT: return "result timed out"; } return "Unknown"; } // Figure out which of the results the host currently has // should be aborted outright, or aborted if not started yet // int send_result_abort() { int aborts_sent = 0; int retval = 0; DB_IN_PROGRESS_RESULT result; std::string result_names; unsigned int i; if (g_request->other_results.size() == 0) { return 0; } // build list of result names // for (i=0; iother_results.size(); i++) { OTHER_RESULT& orp=g_request->other_results[i]; orp.abort = true; // if the host has a result not in the DB, abort it orp.abort_if_not_started = false; orp.reason = ABORT_REASON_NOT_FOUND; if (i > 0) result_names.append(", "); result_names.append("'"); char buf[1024]; strcpy(buf, orp.name); escape_string(buf, 1024); result_names.append(buf); result_names.append("'"); } // look up selected fields from the results and their WUs, // and decide if they should be aborted // while (!(retval = result.enumerate(g_reply->host.id, result_names.c_str()))) { for (i=0; iother_results.size(); i++) { OTHER_RESULT& orp = g_request->other_results[i]; if (!strcmp(orp.name, result.result_name)) { if (result.error_mask&WU_ERROR_CANCELLED ) { // if the WU has been canceled, abort the result // orp.abort = true; orp.abort_if_not_started = false; orp.reason = ABORT_REASON_WU_CANCELLED; } else if (result.assimilate_state == ASSIMILATE_DONE) { // if the WU has been assimilated, abort if not started // orp.abort = false; orp.abort_if_not_started = true; orp.reason = ABORT_REASON_ASSIMILATED; } else if (result.server_state == RESULT_SERVER_STATE_OVER && result.outcome == RESULT_OUTCOME_NO_REPLY ) { // if timed out, abort if not started // orp.abort = false; orp.abort_if_not_started = true; orp.reason = ABORT_REASON_TIMED_OUT; } else { // all is good with the result - let it process orp.abort = false; orp.abort_if_not_started = false; } break; } } } // If enumeration returned an error, don't send any aborts // if (retval && (retval != ERR_DB_NOT_FOUND)) { return retval; } // loop through the results and send the appropriate message (if any) // for (i=0; iother_results.size(); i++) { OTHER_RESULT& orp = g_request->other_results[i]; if (orp.abort) { g_reply->result_aborts.push_back(orp.name); log_messages.printf(MSG_NORMAL, "[HOST#%d]: Send result_abort for result %s; reason: %s\n", g_reply->host.id, orp.name, reason_str(orp.reason) ); // send user message char buf[256]; sprintf(buf, "Result %s is no longer usable", orp.name); g_reply->insert_message(buf, "low"); } else if (orp.abort_if_not_started) { g_reply->result_abort_if_not_starteds.push_back(orp.name); log_messages.printf(MSG_NORMAL, "[HOST#%d]: Send result_abort_if_unstarted for result %s; reason %d\n", g_reply->host.id, orp.name, orp.reason ); } } return aborts_sent; } // 1) Decide which global prefs to use for sched decisions: either // - from request msg // - from request message // - prefs from user DB record // and parse them into g_request->global_prefs. // 2) update prefs in user record if needed // 2) send global prefs in reply msg if needed // int handle_global_prefs() { char buf[BLOB_SIZE]; g_reply->send_global_prefs = false; bool have_working_prefs = (strlen(g_request->working_global_prefs_xml)>0); bool have_master_prefs = (strlen(g_request->global_prefs_xml)>0); // absent if the host has host-specific prefs bool have_db_prefs = (strlen(g_reply->user.global_prefs)>0); bool same_account = !strcmp( g_request->global_prefs_source_email_hash, g_reply->email_hash ); double master_mod_time=0, db_mod_time=0, working_mod_time=0; if (have_master_prefs) { parse_double(g_request->global_prefs_xml, "", master_mod_time); if (master_mod_time > dtime()) master_mod_time = dtime(); } if (have_working_prefs) { parse_double(g_request->working_global_prefs_xml, "", working_mod_time); if (working_mod_time > dtime()) working_mod_time = dtime(); } if (have_db_prefs) { parse_double(g_reply->user.global_prefs, "", db_mod_time); if (db_mod_time > dtime()) db_mod_time = dtime(); } if (config.debug_prefs) { log_messages.printf(MSG_NORMAL, "[prefs] have_master:%d have_working: %d have_db: %d\n", have_master_prefs, have_working_prefs, have_db_prefs ); } // decide which prefs to use for sched decisions, // and parse them into g_request->global_prefs // if (have_working_prefs) { g_request->global_prefs.parse(g_request->working_global_prefs_xml, ""); if (config.debug_prefs) { log_messages.printf(MSG_NORMAL, "[prefs] using working prefs\n"); } } else { if (have_master_prefs) { if (have_db_prefs && db_mod_time > master_mod_time) { g_request->global_prefs.parse(g_reply->user.global_prefs, g_reply->host.venue); if (config.debug_prefs) { log_messages.printf(MSG_NORMAL, "[prefs] using db prefs - more recent\n" ); } } else { g_request->global_prefs.parse(g_request->global_prefs_xml, g_reply->host.venue); if (config.debug_prefs) { log_messages.printf(MSG_NORMAL, "[prefs] using master prefs\n" ); } } } else { if (have_db_prefs) { g_request->global_prefs.parse(g_reply->user.global_prefs, g_reply->host.venue); if (config.debug_prefs) { log_messages.printf(MSG_NORMAL, "[prefs] using db prefs\n"); } } else { g_request->global_prefs.defaults(); if (config.debug_prefs) { log_messages.printf(MSG_NORMAL, "[prefs] using default prefs\n"); } } } } // decide whether to update DB // if (!g_request->using_weak_auth && have_master_prefs) { bool update_user_record = false; if (have_db_prefs) { if (master_mod_time > db_mod_time && same_account) { update_user_record = true; } } else { if (same_account) update_user_record = true; } if (update_user_record) { if (config.debug_prefs) { log_messages.printf(MSG_NORMAL, "[prefs] updating db prefs\n"); } strcpy(g_reply->user.global_prefs, g_request->global_prefs_xml); DB_USER user; user.id = g_reply->user.id; escape_string(g_request->global_prefs_xml, sizeof(g_request->global_prefs_xml)); sprintf(buf, "global_prefs='%s'", g_request->global_prefs_xml); unescape_string(g_request->global_prefs_xml, sizeof(g_request->global_prefs_xml)); int retval = user.update_field(buf); if (retval) { log_messages.printf(MSG_CRITICAL, "user.update_field() failed: %s\n", boincerror(retval) ); } } } // decide whether to send DB prefs in reply msg // if (config.debug_prefs) { log_messages.printf(MSG_NORMAL, "[prefs] have DB prefs: %d; dbmod %f; global mod %f; working mod %f\n", have_db_prefs, db_mod_time, g_request->global_prefs.mod_time, working_mod_time ); } if (have_db_prefs && db_mod_time > master_mod_time && db_mod_time > working_mod_time) { if (config.debug_prefs) { log_messages.printf(MSG_DEBUG, "[prefs] sending DB prefs in reply\n" ); } g_reply->send_global_prefs = true; } return 0; } // if the client has an old code sign public key, // send it the new one, with a signature based on the old one. // If they don't have a code sign key, send them one // bool send_code_sign_key(char* code_sign_key) { char* oldkey, *signature; int i, retval; char path[256]; if (strlen(g_request->code_sign_key)) { if (strcmp(g_request->code_sign_key, code_sign_key)) { log_messages.printf(MSG_NORMAL, "received old code sign key\n"); // look for a signature file // for (i=0; ; i++) { sprintf(path, "%s/old_key_%d", config.key_dir, i); retval = read_file_malloc(path, oldkey); if (retval) { g_reply->insert_message( _("Invalid code signing key. To fix, remove and add this project."), "notice" ); return false; } if (!strcmp(oldkey, g_request->code_sign_key)) { sprintf(path, "%s/signature_%d", config.key_dir, i); retval = read_file_malloc(path, signature); if (retval) { g_reply->insert_message( _("The project has changed its security key. Please remove and add this project."), "notice" ); } else { safe_strcpy(g_reply->code_sign_key, code_sign_key); safe_strcpy(g_reply->code_sign_key_signature, signature); free(signature); } } free(oldkey); return false; } } } else { safe_strcpy(g_reply->code_sign_key, code_sign_key); } return true; } // If is set, // and the core client version is less than this version, // send a warning to users to upgrade before deadline // // void warn_user_if_core_client_upgrade_scheduled() { if (g_request->core_client_version < config.min_core_client_version_announced) { // time remaining in hours, before upgrade required int remaining = config.min_core_client_upgrade_deadline-time(0); remaining /= 3600; if (0 < remaining) { char msg[512]; int days = remaining / 24; int hours = remaining % 24; sprintf(msg, "In %d days and %d hours, this project will require a minimum " "BOINC version of %d.%d.%d. You are currently using " "version %d.%d.%d; please upgrade before this time.", days, hours, config.min_core_client_version_announced / 10000, (config.min_core_client_version_announced / 100)%100, config.min_core_client_version_announced % 100, g_request->core_client_major_version, g_request->core_client_minor_version, g_request->core_client_release ); // make this low priority until three days are left. Then // bump to high. // if (days<3) { g_reply->insert_message(msg, "notice"); } else { g_reply->insert_message(msg, "low"); } log_messages.printf(MSG_DEBUG, "Sending warning: upgrade client %d.%d.%d within %d days %d hours\n", g_request->core_client_major_version, g_request->core_client_minor_version, g_request->core_client_release, days, hours ); } } return; } bool unacceptable_os() { unsigned int i; char buf[1024]; for (i=0; isize(); i++) { regex_t& re = (*config.ban_os)[i]; strcpy(buf, g_request->host.os_name); strcat(buf, "\t"); strcat(buf, g_request->host.os_version); if (!regexec(&re, buf, 0, NULL, 0)) { log_messages.printf(MSG_NORMAL, "Unacceptable OS %s %s\n", g_request->host.os_name, g_request->host.os_version ); sprintf(buf, "%s %s %s", _("This project doesn't support operating system"), g_request->host.os_name, g_request->host.os_version ); g_reply->insert_message(buf, "notice"); g_reply->set_delay(DELAY_UNACCEPTABLE_OS); return true; } } return false; } bool unacceptable_cpu() { unsigned int i; char buf[1024]; for (i=0; isize(); i++) { regex_t& re = (*config.ban_cpu)[i]; strcpy(buf, g_request->host.p_vendor); strcat(buf, "\t"); strcat(buf, g_request->host.p_model); if (!regexec(&re, buf, 0, NULL, 0)) { log_messages.printf(MSG_NORMAL, "Unacceptable CPU %s %s\n", g_request->host.p_vendor, g_request->host.p_model ); sprintf(buf, "%s %s %s", _("This project doesn't support CPU type"), g_request->host.p_vendor, g_request->host.p_model ); g_reply->insert_message(buf, "notice"); g_reply->set_delay(DELAY_UNACCEPTABLE_OS); return true; } } return false; } bool wrong_core_client_version() { if (!config.min_core_client_version) { return false; } if (g_request->core_client_version >= config.min_core_client_version) { return false; } log_messages.printf(MSG_NORMAL, "[HOST#%d] Wrong client version from user: wanted %d, got %d\n", g_request->hostid, config.min_core_client_version, g_request->core_client_minor_version ); g_reply->insert_message( _("Your BOINC client software is too old. Please install the current version."), "notice" ); g_reply->set_delay(DELAY_BAD_CLIENT_VERSION); return true; } inline static const char* get_remote_addr() { const char * r = getenv("REMOTE_ADDR"); return r ? r : "?.?.?.?"; } void handle_msgs_from_host() { unsigned int i; DB_MSG_FROM_HOST mfh; int retval; for (i=0; imsgs_from_host.size(); i++) { g_reply->send_msg_ack = true; MSG_FROM_HOST_DESC& md = g_request->msgs_from_host[i]; mfh.clear(); mfh.create_time = time(0); safe_strcpy(mfh.variety, md.variety); mfh.hostid = g_reply->host.id; mfh.handled = false; safe_strcpy(mfh.xml, md.msg_text.c_str()); log_messages.printf(MSG_NORMAL, "got msg from host; variety %s \n", mfh.variety ); retval = mfh.insert(); if (retval) { log_messages.printf(MSG_CRITICAL, "[HOST#%d] message insert failed: %s\n", g_reply->host.id, boincerror(retval) ); g_reply->send_msg_ack = false; // may as well return; if one insert failed, others will too // return; } } } void handle_msgs_to_host() { DB_MSG_TO_HOST mth; char buf[256]; sprintf(buf, "where hostid = %d and handled = %d", g_reply->host.id, 0); while (!mth.enumerate(buf)) { g_reply->msgs_to_host.push_back(mth); mth.handled = true; mth.update(); } } static void log_request() { log_messages.printf(MSG_NORMAL, "Request: [USER#%d] [HOST#%d] [IP %s] client %d.%d.%d\n", g_reply->user.id, g_reply->host.id, get_remote_addr(), g_request->core_client_major_version, g_request->core_client_minor_version, g_request->core_client_release ); if (config.debug_request_details) { log_messages.printf(MSG_DEBUG, "Request details: auth %s, RPC seqno %d, platform %s\n", g_request->authenticator, g_request->rpc_seqno, g_request->platform.name ); } log_messages.set_indent_level(2); } bool bad_install_type() { if (config.no_vista_sandbox) { if (!strcmp(g_request->host.os_name, "Microsoft Windows Vista")) { if (g_request->sandbox == 1) { log_messages.printf(MSG_NORMAL, "Vista secure install - not sending work\n" ); g_reply->insert_message( "Unable to send work to Vista with BOINC installed in protected mode. Please reinstall BOINC and uncheck 'Protected application execution'", "notice" ); } } } return false; } static inline bool requesting_work() { if (g_request->work_req_seconds > 0) return true; if (g_request->cpu_req_secs > 0) return true; if (g_request->coprocs.nvidia.count && g_request->coprocs.nvidia.req_secs) return true; if (g_request->coprocs.ati.count && g_request->coprocs.ati.req_secs) return true; return false; } void process_request(char* code_sign_key) { PLATFORM* platform; int retval; double last_rpc_time, x; struct tm *rpc_time_tm; bool ok_to_send_work = !config.dont_send_jobs; bool have_no_work = false; char buf[256]; HOST initial_host; unsigned int i; time_t t; memset(&g_reply->wreq, 0, sizeof(g_reply->wreq)); // if different major version of BOINC, just send a message // if (wrong_core_client_version() || unacceptable_os() || unacceptable_cpu() ) { ok_to_send_work = false; } // if no jobs reported and none to send, return without accessing DB // if (!ok_to_send_work && !g_request->results.size()) { return; } warn_user_if_core_client_upgrade_scheduled(); if (requesting_work()) { if (config.locality_scheduling || config.locality_scheduler_fraction || config.enable_assignment) { have_no_work = false; } else { lock_sema(); have_no_work = ssp->no_work(g_pid); if (have_no_work) { g_wreq->no_jobs_available = true; if (config.debug_send) { log_messages.printf(MSG_NORMAL, "[send] No jobs in shmem\n" ); } } unlock_sema(); } } // If: // - there's no work, // - a config flag is set, // - client isn't returning results, // - this isn't an initial RPC, // - client is requesting work // then return without accessing the DB. // This is an efficiency hack for when servers are overloaded // if ( have_no_work && config.nowork_skip && requesting_work() && (g_request->results.size() == 0) && (g_request->hostid != 0) ) { g_reply->insert_message("No work available", "low"); g_reply->set_delay(DELAY_NO_WORK_SKIP); if (!config.msg_to_host && !config.enable_vda) { log_messages.printf(MSG_NORMAL, "No work - skipping DB access\n"); return; } } // FROM HERE ON DON'T RETURN; "goto leave" instead // (because ssp->no_work() may have tagged an entry in the work array // with our process ID) retval = open_database(); if (retval) { send_error_message("Server can't open database", 3600); g_reply->project_is_down = true; goto leave; } retval = authenticate_user(); if (retval) goto leave; if (g_reply->user.id == 0) { log_messages.printf(MSG_CRITICAL, "No user ID!\n"); } initial_host = g_reply->host; g_reply->host.rpc_seqno = g_request->rpc_seqno; g_reply->nucleus_only = false; log_request(); // is host blacklisted? // if (g_reply->host._max_results_day == -1) { send_error_message("Not accepting requests from this host", 86400); goto leave; } if (strlen(config.sched_lockfile_dir)) { int pid_with_lock = lock_sched(); if (pid_with_lock > 0) { log_messages.printf(MSG_CRITICAL, "Another scheduler instance [PID=%d] is running for this host\n", pid_with_lock ); } else if (pid_with_lock) { log_messages.printf(MSG_CRITICAL, "Error acquiring lock for [HOST#%d]\n", g_reply->host.id ); } if (pid_with_lock) { send_error_message( "Another scheduler instance is running for this host", 60 ); goto leave; } } // in deciding whether it's a new day, // add a random factor (based on host ID) // to smooth out network traffic over the day // retval = rand(); srand(g_reply->host.id); x = drand()*86400; srand(retval); last_rpc_time = g_reply->host.rpc_time; t = g_reply->host.rpc_time + x; rpc_time_tm = localtime(&t); g_request->last_rpc_dayofyear = rpc_time_tm->tm_yday; t = time(0); g_reply->host.rpc_time = t; t += x; rpc_time_tm = localtime(&t); g_request->current_rpc_dayofyear = rpc_time_tm->tm_yday; retval = modify_host_struct(g_reply->host); // write time stats to disk if present // if (g_request->have_time_stats_log) { write_time_stats_log(); } // look up the client's platform(s) in the DB // platform = ssp->lookup_platform(g_request->platform.name); if (platform) g_request->platforms.list.push_back(platform); for (i=0; ialt_platforms.size(); i++) { platform = ssp->lookup_platform(g_request->alt_platforms[i].name); if (platform) g_request->platforms.list.push_back(platform); } if (g_request->platforms.list.size() == 0) { sprintf(buf, "%s %s", _("This project doesn't support computers of type"), g_request->platform.name ); g_reply->insert_message(buf, "notice"); log_messages.printf(MSG_CRITICAL, "[HOST#%d] platform '%s' not found\n", g_reply->host.id, g_request->platform.name ); g_reply->set_delay(DELAY_PLATFORM_UNSUPPORTED); goto leave; } handle_global_prefs(); read_host_app_versions(); update_n_jobs_today(); handle_results(); handle_file_xfer_results(); if (config.enable_vda) { handle_vda(); } // Do this before resending lost jobs // if (bad_install_type()) { ok_to_send_work = false; } if (!requesting_work()) { ok_to_send_work = false; } send_work_setup(); if (g_request->have_other_results_list) { if (ok_to_send_work && (config.resend_lost_results || g_wreq->resend_lost_results) ) { if (resend_lost_work()) { ok_to_send_work = false; } } if (config.send_result_abort) { send_result_abort(); } } if (requesting_work()) { if (!send_code_sign_key(code_sign_key)) { ok_to_send_work = false; } // if last RPC was within config.min_sendwork_interval, don't send work // if (!have_no_work && ok_to_send_work) { if (config.min_sendwork_interval) { double diff = dtime() - last_rpc_time; if (diff < config.min_sendwork_interval) { ok_to_send_work = false; log_messages.printf(MSG_NORMAL, "Not sending work - last request too recent: %f\n", diff ); sprintf(buf, "Not sending work - last request too recent: %d sec", (int)diff ); g_reply->insert_message(buf, "low"); // the 1.01 is in case client's clock // is slightly faster than ours // g_reply->set_delay(1.01*config.min_sendwork_interval); } } if (ok_to_send_work) { send_work(); } } if (g_wreq->no_jobs_available) { g_reply->insert_message("Project has no tasks available", "low"); } } handle_msgs_from_host(); if (config.msg_to_host) { handle_msgs_to_host(); } update_host_record(initial_host, g_reply->host, g_reply->user); write_host_app_versions(); leave: if (!have_no_work) { ssp->restore_work(g_pid); } } static void log_incomplete_request() { // BOINC scheduler requests use method POST. // So method GET means that someone is trying a browser. // char *rm=getenv("REQUEST_METHOD"); bool used_get = false; if (rm && !strcmp(rm, "GET")) { used_get = true; } log_messages.printf(MSG_NORMAL, "Incomplete request received %sfrom IP %s, auth %s, platform %s, version %d.%d.%d\n", used_get?"(used GET method - probably a browser) ":"", get_remote_addr(), g_request->authenticator, g_request->platform.name, g_request->core_client_major_version, g_request->core_client_minor_version, g_request->core_client_release ); } static void log_user_messages() { for (unsigned int i=0; imessages.size(); i++) { USER_MESSAGE um = g_reply->messages[i]; log_messages.printf(MSG_NORMAL, "[user_messages] [HOST#%d] MSG(%s) %s\n", g_reply->host.id, um.priority.c_str(), um.message.c_str() ); } } void handle_request(FILE* fin, FILE* fout, char* code_sign_key) { SCHEDULER_REQUEST sreq; SCHEDULER_REPLY sreply; char buf[1024]; g_request = &sreq; g_reply = &sreply; g_wreq = &sreply.wreq; sreply.nucleus_only = true; log_messages.set_indent_level(1); MIOFILE mf; XML_PARSER xp(&mf); mf.init_file(fin); const char* p = sreq.parse(xp); double start_time = dtime(); if (!p){ process_request(code_sign_key); } else { sprintf(buf, "Error in request message: %s", p); log_incomplete_request(); sreply.insert_message(buf, "low"); } if ((config.locality_scheduling || config.locality_scheduler_fraction) && !sreply.nucleus_only) { send_file_deletes(); } if (config.debug_user_messages) { log_user_messages(); } sreply.write(fout, sreq); log_messages.printf(MSG_NORMAL, "Scheduler ran %.3f seconds\n", dtime()-start_time ); if (strlen(config.sched_lockfile_dir)) { unlock_sched(); } } const char *BOINC_RCSID_2ac231f9de = "$Id$";