// The contents of this file are subject to the Mozilla 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://www.mozilla.org/MPL/ // // 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): // // Handle a scheduling server RPC #include #include #include using namespace std; #include #include #include #include #include #include "db.h" #include "backend_lib.h" #include "parse.h" #include "server_types.h" #include "main.h" #include "handle_request.h" #define MIN_SECONDS_TO_SEND 0 #define SECONDS_PER_DAY (3600*24) #define MAX_SECONDS_TO_SEND (28*SECONDS_PER_DAY) #define MAX_WUS_TO_SEND 2 // return true if the WU can be executed on the host // bool wu_is_feasible(WORKUNIT& wu, HOST& host) { return ((wu.rsc_disk <= host.d_free) && (wu.rsc_memory <= host.m_nbytes)); } // estimate the time that a WU will take on a host // TODO: improve this. take memory bandwidth into account // double estimate_duration(WORKUNIT& wu, HOST& host) { if (host.p_fpops <= 0) host.p_fpops = 1e9; if (host.p_iops <= 0) host.p_iops = 1e9; if (wu.rsc_fpops <= 0) wu.rsc_fpops = 1e12; if (wu.rsc_iops <= 0) wu.rsc_iops = 1e12; return wu.rsc_fpops/host.p_fpops + wu.rsc_iops/host.p_iops; } // insert "text" right after "after" in the given buffer // int insert_after(char* buffer, char* after, char* text) { char* p; char temp[MAX_BLOB_SIZE]; if (strlen(buffer) + strlen(text) > MAX_BLOB_SIZE-1) return -1; p = strstr(buffer, after); if (!p) return -1; p += strlen(after); strcpy(temp, p); strcpy(p, text); strcat(p, temp); return 0; } // add elements in xml_doc: // WU name, app name, // and estimate of how many seconds it will take on this host // int insert_wu_tags(WORKUNIT& wu, double seconds, APP& app) { char buf[256]; int retval; sprintf(buf, " %f\n", seconds ); retval = insert_after(wu.xml_doc, "\n", buf); if (retval) return retval; sprintf(buf, " %s\n %s\n", wu.name, app.name ); return insert_after(wu.xml_doc, "\n", buf); } // add the given workunit to a reply. // look up its app, and make sure there's a version for this platform. // Add the app and app_version to the reply also. // int add_wu_to_reply( WORKUNIT& wu, SCHEDULER_REPLY& reply, PLATFORM& platform, SCHED_SHMEM& ss, double seconds_to_complete ) { APP* app; APP_VERSION* app_version; int retval; WORKUNIT wu2; app = ss.lookup_app(wu.appid); if (!app) return -1; app_version = ss.lookup_app_version(app->id, platform.id, app->min_version); if (!app_version) return -1; // add the app, app_version, and workunit to the reply, // but only if they aren't already there reply.insert_app_unique(*app); reply.insert_app_version_unique(*app_version); // add time estimate to reply // wu2 = wu; // make copy since we're going to modify its XML field retval = insert_wu_tags(wu2, seconds_to_complete, *app); if (retval) return retval; reply.insert_workunit_unique(wu2); return 0; } // Look up the host and its user, and make sure the authenticator matches. // If no host ID is supplied, or if RPC seqno mismatch, // create a new host record and return its ID // int authenticate_user(SCHEDULER_REQUEST& sreq, SCHEDULER_REPLY& reply) { int retval; if (sreq.hostid) { retval = db_host(sreq.hostid, reply.host); if (retval) { strcpy(reply.message, "Can't find host record"); strcpy(reply.message_priority, "low"); return -1; } retval = db_user(reply.host.userid, reply.user); if (retval) { strcpy(reply.message, "Can't find user record"); strcpy(reply.message_priority, "low"); return -1; } if (strcmp(sreq.authenticator, reply.user.authenticator)) { strcpy(reply.message, "Invalid or missing authenticator. " "Visit this project's web site to get an authenticator." ); strcpy(reply.message_priority, "low"); reply.request_delay = 120; return -1; } // 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 (sreq.rpc_seqno < reply.host.rpc_seqno) { sreq.hostid = 0; goto new_host; } reply.host.rpc_seqno = sreq.rpc_seqno; reply.host.rpc_time = time(0); } else { strncpy( reply.user.authenticator, sreq.authenticator, sizeof(reply.user.authenticator) ); retval = db_user_lookup_auth(reply.user); if (retval) { strcpy(reply.message, "Invalid or missing authenticator. " "Visit this project's web site to get an authenticator."); strcpy(reply.message_priority, "low"); reply.request_delay = 120; return -1; } new_host: // reply.user is filled in and valid at this point // reply.host = sreq.host; reply.host.id = 0; reply.host.create_time = time(0); reply.host.userid = reply.user.id; reply.host.rpc_seqno = 0; reply.host.rpc_time = time(0); retval = db_host_new(reply.host); if (retval) { strcpy(reply.message, "server database error"); strcpy(reply.message_priority, "low"); db_print_error("db_host_new"); return -1; } reply.host.id = db_insert_id(); reply.hostid = reply.host.id; // this tells client to updates its host ID } return 0; } // somewhat arbitrary formula for credit as a function of CPU time. // Could also include terms for RAM size, network speed etc. // static void compute_credit_rating(HOST& host) { host.credit_per_cpu_sec = (host.p_fpops/1e9 + host.p_iops/1e9 + host.p_membw/4e9)/3; } // Update host record based on request. // Copy all fields that are determined by the client. // int update_host_record(SCHEDULER_REQUEST& sreq, HOST& host) { int retval; host.timezone = sreq.host.timezone; strncpy(host.domain_name, sreq.host.domain_name, sizeof(host.domain_name)); strncpy(host.serialnum, sreq.host.serialnum, sizeof(host.serialnum)); if (strcmp(host.last_ip_addr, sreq.host.last_ip_addr)) { strncpy(host.last_ip_addr, sreq.host.last_ip_addr, sizeof(host.last_ip_addr)); } else { host.nsame_ip_addr++; } host.on_frac = sreq.host.on_frac; host.connected_frac = sreq.host.connected_frac; host.active_frac = sreq.host.active_frac; host.p_ncpus = sreq.host.p_ncpus; strncpy(host.p_vendor, sreq.host.p_vendor, sizeof(host.p_vendor)); // unlikely this will change strncpy(host.p_model, sreq.host.p_model, sizeof(host.p_model)); host.p_fpops = sreq.host.p_fpops; host.p_iops = sreq.host.p_iops; host.p_membw = sreq.host.p_membw; host.p_calculated = sreq.host.p_calculated; strncpy(host.os_name, sreq.host.os_name, sizeof(host.os_name)); strncpy(host.os_version, sreq.host.os_version, sizeof(host.os_version)); host.m_nbytes = sreq.host.m_nbytes; host.m_cache = sreq.host.m_cache; host.m_swap = sreq.host.m_swap; host.d_total = sreq.host.d_total; host.d_free = sreq.host.d_free; host.n_bwup = sreq.host.n_bwup; host.n_bwdown = sreq.host.n_bwdown; compute_credit_rating(host); retval = db_host_update(host); if (retval) { fprintf(stderr, "sched (%s): db_host_update: %d\n", config.user_name, retval); } return 0; } // Deal with global preferences. // If the client sent global prefs, and they're more recent than ours, // update user record in DB. // If DB has more recent global prefs than client's, send them. // int handle_global_prefs(SCHEDULER_REQUEST& sreq, SCHEDULER_REPLY& reply) { unsigned int req_mod_time, db_mod_time; bool need_update; reply.send_global_prefs = false; if (sreq.global_prefs_xml) { need_update = false; parse_int(sreq.global_prefs_xml, "", (int)req_mod_time); if (strlen(reply.user.global_prefs)) { parse_int(reply.user.global_prefs, "", (int)db_mod_time); if (req_mod_time > db_mod_time) { need_update = true; } else if (req_mod_time < db_mod_time) { reply.send_global_prefs = true; } } else { need_update = true; } if (need_update) { strncpy( reply.user.global_prefs, sreq.global_prefs_xml, sizeof(reply.user.global_prefs) ); db_user_update(reply.user); } } else { if (strlen(reply.user.global_prefs)) { reply.send_global_prefs = true; } } return 0; } // handle completed results // int handle_results( SCHEDULER_REQUEST& sreq, SCHEDULER_REPLY& reply, HOST& host ) { unsigned int i; int retval; RESULT result, *rp; WORKUNIT wu; for (i=0; iname, sizeof(result.name)); retval = db_result_lookup_name(result); if (retval) { printf("can't find result %s\n", rp->name); } else { if (result.state != RESULT_STATE_IN_PROGRESS) { fprintf(stderr, "got unexpected result for %s: state is %d\n", rp->name, result.state ); continue; } if (result.hostid != sreq.hostid) { fprintf(stderr, "got result from wrong host: %d %d\n", result.hostid, sreq.hostid ); continue; } // TODO: handle error returns // result.hostid = reply.host.id; result.received_time = time(0); result.exit_status = rp->exit_status; result.cpu_time = rp->cpu_time; if (rp->exit_status) { result.state = RESULT_STATE_ERROR; } else { result.state = RESULT_STATE_DONE; } result.claimed_credit = result.cpu_time * host.credit_per_cpu_sec; result.validate_state = VALIDATE_STATE_NEED_CHECK; strncpy(result.stderr_out, rp->stderr_out, sizeof(result.stderr_out)); strncpy(result.xml_doc_out, rp->xml_doc_out, sizeof(result.xml_doc_out)); retval = db_result_update(result); if (retval) { fprintf(stderr, "can't update result %d\n", result.id); } retval = db_workunit(result.workunitid, wu); if (retval) { fprintf(stderr, "can't find WU %d for result %d\n", result.workunitid, result.id ); } else { wu.need_validate = 1; retval = db_workunit_update(wu); if (retval) { fprintf(stderr, "Can't update WU\n"); } fprintf(stderr, "BOINC scheduler: set need_validate for WU %d\n", wu.id ); } } } return 0; } int insert_name_tags(RESULT& result, WORKUNIT& wu) { char buf[256]; int retval; sprintf(buf, "%s\n", result.name); retval = insert_after(result.xml_doc_in, "\n", buf); if (retval) return retval; sprintf(buf, "%s\n", wu.name); retval = insert_after(result.xml_doc_in, "\n", buf); if (retval) return retval; return 0; } int send_work( SCHEDULER_REQUEST& sreq, SCHEDULER_REPLY& reply, PLATFORM& platform, SCHED_SHMEM& ss ) { int i, retval, nresults = 0, seconds_to_fill; WORKUNIT wu; RESULT result, result_copy; #if 0 APP* app; char prefix [256]; #endif seconds_to_fill = sreq.work_req_seconds; if (seconds_to_fill > MAX_SECONDS_TO_SEND) { seconds_to_fill = MAX_SECONDS_TO_SEND; } if (seconds_to_fill < MIN_SECONDS_TO_SEND) { seconds_to_fill = MIN_SECONDS_TO_SEND; } for (i=0; i0; i++) { // the following should be a critical section // if (!ss.wu_results[i].present || !wu_is_feasible(ss.wu_results[i].workunit, reply.host) ) { continue; } wu = ss.wu_results[i].workunit; result = ss.wu_results[i].result; ss.wu_results[i].present = false; retval = add_wu_to_reply(wu, reply, platform, ss, estimate_duration(wu, reply.host) ); if (retval) continue; fprintf(stderr, "BOINC scheduler: sending result name %s, id %d\n", result.name, result.id ); // copy the result so we don't overwrite its XML fields // result_copy = result; retval = insert_name_tags(result_copy, wu); if (retval) { fprintf(stderr, "send_work: can't insert name tags\n"); } reply.insert_result(result_copy); seconds_to_fill -= (int)estimate_duration(wu, reply.host); result.state = RESULT_STATE_IN_PROGRESS; result.hostid = reply.host.id; result.sent_time = time(0); db_result_update(result); nresults++; if (nresults == MAX_WUS_TO_SEND) break; } if (nresults == 0) { strcpy(reply.message, "no work available"); strcpy(reply.message_priority, "low"); reply.request_delay = 10; } 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 // void send_code_sign_key( SCHEDULER_REQUEST& sreq, SCHEDULER_REPLY& reply, char* code_sign_key ) { char* oldkey, *signature; int i, retval; char path[256]; if (sreq.code_sign_key) { if (strcmp(sreq.code_sign_key, code_sign_key)) { fprintf(stderr, "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) { strcpy(reply.message, "Can't update code signing key. " "Please report this to project." ); return; } if (!strcmp(oldkey, sreq.code_sign_key)) { sprintf(path, "%s/signature_%d", config.key_dir, i); retval = read_file_malloc(path, signature); if (retval) { strcpy(reply.message, "Can't update code signing key. " "Please report this to project." ); } else { reply.code_sign_key = strdup(code_sign_key); reply.code_sign_key_signature = signature; } } free(oldkey); return; } } } else { reply.code_sign_key = strdup(code_sign_key); } } bool wrong_major_version(SCHEDULER_REQUEST& sreq, SCHEDULER_REPLY& reply) { if (sreq.core_client_major_version != MAJOR_VERSION) { reply.nucleus_only = true; sprintf(reply.message, "To participate in this project, " "you must use major version %d of the BOINC core client. " "Your core client is major version %d.", MAJOR_VERSION, sreq.core_client_major_version ); return true; } return false; } void process_request( SCHEDULER_REQUEST& sreq, SCHEDULER_REPLY& reply, SCHED_SHMEM& ss, char* code_sign_key ) { PLATFORM* platform; int retval; char buf[256]; // if different major version of BOINC, just send a message // if (wrong_major_version(sreq, reply)) return; retval = authenticate_user(sreq, reply); if (retval) return; retval = update_host_record(sreq, reply.host); // look up the client's platform in the DB // platform = ss.lookup_platform(sreq.platform_name); if (!platform) { sprintf(buf, "platform %s not found", sreq.platform_name); strcpy(reply.message, buf); strcpy(reply.message_priority, "low"); return; } handle_global_prefs(sreq, reply); handle_results(sreq, reply, reply.host); send_work(sreq, reply, *platform, ss); send_code_sign_key(sreq, reply, code_sign_key); } void handle_request( FILE* fin, FILE* fout, SCHED_SHMEM& ss, char* code_sign_key ) { SCHEDULER_REQUEST sreq; SCHEDULER_REPLY sreply; memset(&sreq, 0, sizeof(sreq)); sreq.parse(fin); process_request(sreq, sreply, ss, code_sign_key); sreply.write(fout); }