// 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): // #include #include #include #include #include "util.h" #include "parse.h" #include "error_numbers.h" #include "client_state.h" #include "client_types.h" #include "file_names.h" #include "log_flags.h" #include "scheduler_op.h" extern void project_add_failed(PROJECT*); SCHEDULER_OP::SCHEDULER_OP(HTTP_OP_SET* h) { state = SCHEDULER_OP_STATE_IDLE; http_op.http_op_state = HTTP_STATE_IDLE; http_ops = h; } // see if there's a pending master file fetch. start it if so. // bool SCHEDULER_OP::check_master_fetch_start() { int retval; project = gstate.next_project_master_pending(); if (project) { retval = init_master_fetch(project); if (retval) { msg_printf(project, MSG_ERROR, "Couldn't read master page for %s: error %d", project->get_project_name(), retval ); if (project->tentative) { msg_printf(project, MSG_ERROR, "Detaching from project - check for URL error"); project_add_failed(project); } else { project->master_fetch_failures++; backoff(project, "Master file fetch failed\n"); } } return true; } return false; } // try to get enough work to bring us up to max buffer level // int SCHEDULER_OP::init_get_work() { int retval; char err_msg[256]; double ns = gstate.work_needed_secs(); must_get_work = true; project = gstate.next_project(0); if (project) { msg_printf(project, MSG_INFO, "Requesting %f seconds of work", ns ); retval = init_op_project(ns); if (retval) { sprintf(err_msg, "init_op_project failed, error %d\n", retval); backoff(project, err_msg); return retval; } } else { check_master_fetch_start(); } return 0; } // report results for a particular project. // also get work from that project if below max buffer level // int SCHEDULER_OP::init_return_results(PROJECT* p, double ns) { must_get_work = false; project = p; return init_op_project(ns); } // try to initiate an RPC to the current project. // If there are multiple schedulers, start with the first one // int SCHEDULER_OP::init_op_project(double ns) { int retval; char err_msg[256]; ScopeMessages scope_messages(log_messages, ClientMessages::DEBUG_SCHED_OP); scope_messages.printf("SCHEDULER_OP::init_op_project(): starting op for %s\n", project->master_url); // if project has no schedulers, skip everything else // and just get its master file. // url_index = 0; if (project->scheduler_urls.size() == 0) { retval = init_master_fetch(project); goto done; } retval = gstate.make_scheduler_request(project, ns); if (retval) { msg_printf(project, MSG_ERROR, "make_scheduler_request: %d\n", retval); goto done; } retval = start_rpc(); done: if (retval) { sprintf(err_msg, "scheduler init_op_project to %s failed, error %d\n", project->scheduler_urls[url_index].text, retval ); backoff(project, err_msg); } return retval; } // Set a project's min RPC time to something in the future, // based on exponential backoff // int SCHEDULER_OP::set_min_rpc_time(PROJECT* p) { int exp_backoff; int n = p->nrpc_failures; if (n > gstate.retry_cap) n = gstate.retry_cap; ScopeMessages scope_messages(log_messages, ClientMessages::DEBUG_SCHED_OP); // we've hit the limit on master_url fetches // if (p->master_fetch_failures >= gstate.master_fetch_retry_cap) { scope_messages.printf("SCHEDULER_OP::set_min_rpc_time(): we've hit the limit on master_url fetches\n"); exp_backoff = calculate_exponential_backoff("scheduler_op/master_url", p->master_fetch_failures, gstate.sched_retry_delay_min, gstate.master_fetch_interval ); } else { exp_backoff = calculate_exponential_backoff("scheduler_op", n, gstate.sched_retry_delay_min, gstate.sched_retry_delay_max, gstate.retry_base_period ); } p->set_min_rpc_time(time(0) + exp_backoff); // note: we don't need to print a message now, it will be printed the // next time p->waiting_until_min_rpc_time() is called. return 0; } // Back off contacting scheduler and output an error msg if needed // void SCHEDULER_OP::backoff(PROJECT* p, char *error_msg ) { msg_printf(p, MSG_ERROR, error_msg); if (p->master_fetch_failures >= gstate.master_fetch_retry_cap) { p->master_url_fetch_pending = true; } else { // if nrpc failures is a multiple of master_fetch_period, // then set master_url_fetch_pending and initialize again // if (p->nrpc_failures == gstate.master_fetch_period) { p->master_url_fetch_pending = true; p->min_rpc_time = 0; p->nrpc_failures = 0; p->master_fetch_failures++; } p->nrpc_failures++; } set_min_rpc_time(p); } // low-level routine to initiate an RPC // If successful, creates an HTTP_OP that must be polled // int SCHEDULER_OP::start_rpc() { int retval; ScopeMessages scope_messages(log_messages, ClientMessages::DEBUG_SCHED_OP); safe_strcpy(scheduler_url, project->scheduler_urls[url_index].text); if (log_flags.sched_ops) { msg_printf( project, MSG_INFO, "Sending request to scheduler: %s\n", scheduler_url ); } scope_messages.printf_file(SCHED_OP_REQUEST_FILE, "req:"); if (gstate.use_http_proxy) { http_op.use_http_proxy = true; safe_strcpy(http_op.proxy_server_name, gstate.proxy_server_name); http_op.proxy_server_port = gstate.proxy_server_port; } retval = http_op.init_post( scheduler_url, SCHED_OP_REQUEST_FILE, SCHED_OP_RESULT_FILE ); if (retval) return retval; retval = http_ops->insert(&http_op); if (retval) return retval; project->rpc_seqno++; state = SCHEDULER_OP_STATE_RPC; return 0; } // initiate a fetch of a project's master URL file // int SCHEDULER_OP::init_master_fetch(PROJECT* p) { int retval; ScopeMessages scope_messages(log_messages, ClientMessages::DEBUG_SCHED_OP); project = p; scope_messages.printf("SCHEDULER_OP::init_master_fetch(): Fetching master file for %s\n", project->master_url); if (gstate.use_http_proxy) { http_op.use_http_proxy = true; safe_strcpy(http_op.proxy_server_name, gstate.proxy_server_name); http_op.proxy_server_port = gstate.proxy_server_port; } retval = http_op.init_get(project->master_url, MASTER_FILE_NAME, true); if (retval) return retval; retval = http_ops->insert(&http_op); if (retval) return retval; state = SCHEDULER_OP_STATE_GET_MASTER; return 0; } static void trim(STRING256& str) { char* last_char = str.text + strlen(str.text); while (isspace(*(last_char-1)) && last_char > str.text) { --last_char; } *last_char = '\0'; char *first_char = str.text; if (isspace(*first_char)) { while (isspace(*first_char)) { ++first_char; } char* dest = str.text; while (*first_char) { *dest++ = *first_char++; } *dest = '\0'; } } // parse a master file. // int SCHEDULER_OP::parse_master_file(vector &urls) { char buf[256]; STRING256 str; FILE* f; ScopeMessages scope_messages(log_messages, ClientMessages::DEBUG_SCHED_OP); f = fopen(MASTER_FILE_NAME, "r"); if (!f) { msg_printf(project, MSG_ERROR, "Can't open master file\n"); return ERR_FOPEN; } project->scheduler_urls.clear(); while (fgets(buf, 256, f)) { if (parse_str(buf, "", str.text, sizeof(str.text))) { trim(str); urls.push_back(str); } } fclose(f); scope_messages.printf("SCHEDULER_OP::parse_master_file(): got %d scheduler URLs\n", (int)urls.size()); // couldn't find any urls in the master file? // if ((int) urls.size() == 0) { return ERR_XML_PARSE; } return 0; } // A master file has just been read. // transfer scheduler urls to project. // Return true if any of them is new // bool SCHEDULER_OP::update_urls(PROJECT& project, vector &urls) { unsigned int i, j; bool found, any_new; any_new = false; for (i=0; i urls; bool changed, scheduler_op_done; bool action = false, err = false; char err_msg[256], *err_url=NULL; ScopeMessages scope_messages(log_messages, ClientMessages::DEBUG_SCHED_OP); switch(state) { case SCHEDULER_OP_STATE_GET_MASTER: // here we're fetching the master file for a project // if (http_op.http_op_state == HTTP_STATE_DONE) { action = true; project->master_url_fetch_pending = false; gstate.set_client_state_dirty("master URL fetch done"); http_ops->remove(&http_op); if (http_op.http_op_retval == 0) { scope_messages.printf( "SCHEDULER_OP::poll(): Got master file from %s; parsing\n", project->master_url ); retval = parse_master_file(urls); if (retval) { // master file parse failed. // if (project->tentative) { PROJECT* project_temp = project; project = 0; // keep detach(0) from removing HTTP OP project_add_failed(project_temp); err = true; } else { project->master_fetch_failures++; backoff(project, "Master file parse failed\n"); err_url = project->master_url; } } else { // everything succeeded. Clear error counters // changed = update_urls(*project, urls); if (changed) { project->min_rpc_time = 0; project->nrpc_failures = 0; project->master_fetch_failures = 0; } } } else { // master file fetch failed. // project->master_fetch_failures++; backoff(project, "Master file fetch failed\n"); err_url = project->master_url; } // If don't have any schedulers for this project, // it may be the wrong URL. notify the user // if (!err && project->scheduler_urls.size() == 0) { if (project->tentative) { project_add_failed(project); } else { sprintf(err_msg, "Could not contact any schedulers for %s.", err_url ); msg_printf(project, MSG_ERROR, err_msg); project->master_fetch_failures++; backoff(project, err_msg); } } // See if need to read master file for another project; // if not, we're done for now // if (!check_master_fetch_start()) { state = SCHEDULER_OP_STATE_IDLE; scope_messages.printf("SCHEDULER_OP::poll(): return to idle state\n"); } } break; case SCHEDULER_OP_STATE_RPC: // here we're doing a scheduler RPC // scheduler_op_done = false; if (http_op.http_op_state == HTTP_STATE_DONE) { action = true; http_ops->remove(&http_op); if (http_op.http_op_retval) { if (log_flags.sched_ops) { msg_printf(project, MSG_ERROR, "Scheduler RPC to %s failed\n", project->scheduler_urls[url_index].text ); } // scheduler RPC failed. Try another scheduler if one exists // url_index++; if (url_index < project->scheduler_urls.size()) { start_rpc(); } else { backoff(project, "No schedulers responded"); if (must_get_work) { project = gstate.next_project(project); if (project) { retval = init_op_project(gstate.work_needed_secs()); } else { scheduler_op_done = true; } } else { scheduler_op_done = true; } } } else { if (log_flags.sched_ops) { msg_printf( project, MSG_INFO, "Scheduler RPC to %s succeeded\n", project->scheduler_urls[url_index].text ); } gstate.handle_scheduler_reply(project, scheduler_url, nresults); // if this was a tentative project and we didn't get user name, // the account ID must be bad. Tell the user. // if (project->tentative) { if (strlen(project->user_name)) { project->tentative = false; project->write_account_file(); } else { project_add_failed(project); } } else { // if we asked for work and didn't get any, // back off this project // if (must_get_work && nresults==0) { backoff(project, "No work from project\n"); } else { project->nrpc_failures = 0; project->min_rpc_time = 0; } } // if we didn't get all the work we needed, // ask another project for work // if (must_get_work) { double x = gstate.work_needed_secs(); if (x > 0) { project = gstate.next_project(project); if (project) { retval = init_op_project(x); } else { scheduler_op_done = true; } } else { scheduler_op_done = true; } } else { scheduler_op_done = true; } } } // If no outstanding ops, see if need a master fetch // if (scheduler_op_done) { project = gstate.next_project_master_pending(); if (project) { retval = init_master_fetch(project); if (retval) { scope_messages.printf("SCHEDULER_OP::poll(): init_master_fetch failed.\n" ); backoff(project, "Scheduler op: init_master_fetch failed.\n" ); } } else { state = SCHEDULER_OP_STATE_IDLE; scope_messages.printf("SCHEDULER_OP::poll(): return to idle state\n"); } } break; default: break; } return action; } SCHEDULER_REPLY::SCHEDULER_REPLY() { global_prefs_xml = 0; project_prefs_xml = 0; code_sign_key = 0; code_sign_key_signature = 0; } SCHEDULER_REPLY::~SCHEDULER_REPLY() { if (global_prefs_xml) free(global_prefs_xml); if (project_prefs_xml) free(project_prefs_xml); if (code_sign_key) free(code_sign_key); if (code_sign_key_signature) free(code_sign_key_signature); } int SCHEDULER_REPLY::parse(FILE* in, PROJECT* project) { char buf[256], *p; int retval; hostid = 0; host_total_credit = 0; host_expavg_credit = 0; host_create_time = 0; request_delay = 0; strcpy(message, ""); strcpy(message_priority, ""); strcpy(project_name, ""); global_prefs_xml = 0; project_prefs_xml = 0; strcpy(user_name, ""); strcpy(team_name, ""); user_total_credit = 0; user_expavg_credit = 0; strcpy(host_venue, ""); user_create_time = 0; code_sign_key = 0; code_sign_key_signature = 0; trickle_ack = false; p = fgets(buf, 256, in); if (!p) { msg_printf(project, MSG_ERROR, "SCHEDULER_REPLY::parse(): empty file\n"); return ERR_XML_PARSE; } // First part of content should either be tag (HTTP 1.0) or // hex length of response (HTTP 1.1) if (!match_tag(buf, "")) { msg_printf(project, MSG_ERROR, "SCHEDULER_REPLY::parse(): bad first tag %s\n", buf); return ERR_XML_PARSE; } while (fgets(buf, 256, in)) { if (match_tag(buf, "")) { // Do nothing } else if (match_tag(buf, "")) return 0; else if (parse_str(buf, "", project_name, sizeof(project_name))) continue; else if (parse_str(buf, "", user_name, sizeof(user_name))) continue; else if (parse_double(buf, "", user_total_credit)) continue; else if (parse_double(buf, "", user_expavg_credit)) continue; else if (parse_int(buf, "", (int &)user_create_time)) continue; else if (parse_str(buf, "", team_name, sizeof(team_name))) continue; else if (parse_int(buf, "", hostid)) continue; else if (parse_double(buf, "", host_total_credit)) continue; else if (parse_double(buf, "", host_expavg_credit)) continue; else if (parse_str(buf, "", host_venue, sizeof(host_venue))) continue; else if (parse_int(buf, "", (int &)host_create_time)) continue; else if (parse_int(buf, "", request_delay)) continue; else if (match_tag(buf, "")) { retval = dup_element_contents( in, "", &global_prefs_xml ); if (retval) return ERR_XML_PARSE; msg_printf(project, MSG_INFO, "General preferences have been updated\n" ); } else if (match_tag(buf, "")) { retval = dup_element_contents( in, "", &project_prefs_xml ); if (retval) return ERR_XML_PARSE; // TODO: display message below if project preferences have changed. // msg_printf(project, MSG_INFO, "Project preferences have been updated\n"); } else if (match_tag(buf, "")) { retval = dup_element_contents( in, "", &code_sign_key ); if (retval) { msg_printf(project, MSG_ERROR, "SCHEDULER_REPLY.parse(): xml parsing error\n"); return ERR_XML_PARSE; } } else if (match_tag(buf, "")) { retval = dup_element_contents( in, "", &code_sign_key_signature ); if (retval) return ERR_XML_PARSE; } else if (match_tag(buf, "")) { APP app; app.parse(in); apps.push_back(app); } else if (match_tag(buf, "")) { FILE_INFO file_info; file_info.parse(in, true); file_infos.push_back(file_info); } else if (match_tag(buf, "")) { APP_VERSION av; av.parse(in); app_versions.push_back(av); } else if (match_tag(buf, "")) { WORKUNIT wu; wu.parse(in); workunits.push_back(wu); } else if (match_tag(buf, "")) { RESULT result; // make sure this is here so constructor // gets called each time result.parse_server(in); results.push_back(result); } else if (match_tag(buf, "")) { RESULT result; result.parse_ack(in); result_acks.push_back(result); } else if (parse_str(buf, "")) { trickle_ack = true; } else if (strlen(buf)>1){ msg_printf(project, MSG_ERROR, "SCHEDULER_REPLY::parse(): unrecognized %s\n", buf); } } msg_printf(project, MSG_ERROR, "SCHEDULER_REPLY::parse(): no close tag\n"); return ERR_XML_PARSE; }