// 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 . #ifndef _SERVER_TYPES_ #define _SERVER_TYPES_ #include #include #include "boinc_db.h" #include "common_defs.h" #include "md5_file.h" #include "coproc.h" #include "edf_sim.h" // for projects that support work filtering by app, // this records an app for which the user will accept work // struct APP_INFO { int appid; int work_available; }; // represents a resource (disk etc.) that the client may not have enough of // struct RESOURCE { bool insufficient; double needed; // the min extra amount needed inline void set_insufficient(double x) { insufficient = true; if (needed) { if (x < needed) needed = x; } else { needed = x; } } }; // a message for the volunteer // struct USER_MESSAGE { std::string message; std::string priority; USER_MESSAGE(const char* m, const char*p); }; struct HOST_USAGE { int proc_type; double gpu_usage; double gpu_ram; double avg_ncpus; double max_ncpus; double projected_flops; // the scheduler's best estimate of wu.rsc_fpops_est/elapsed_time. // Taken from host_app_version elapsed time statistics if available, // else on estimate provided by app_plan() double peak_flops; // stored in result.flops_estimate, and used for credit calculations char cmdline[256]; HOST_USAGE() { proc_type = PROC_TYPE_CPU; gpu_usage = 0; gpu_ram = 0; avg_ncpus = 1; max_ncpus = 1; projected_flops = 0; peak_flops = 0; strcpy(cmdline, ""); } void sequential_app(double flops) { proc_type = PROC_TYPE_CPU; gpu_usage = 0; gpu_ram = 0; avg_ncpus = 1; max_ncpus = 1; if (flops <= 0) flops = 1e9; projected_flops = flops; peak_flops = flops; strcpy(cmdline, ""); } inline bool is_sequential_app() { if (proc_type != PROC_TYPE_CPU) return false; if (avg_ncpus != 1) return false; return true; } inline int resource_type() { switch (proc_type) { case PROC_TYPE_NVIDIA_GPU: return ANON_PLATFORM_NVIDIA; case PROC_TYPE_AMD_GPU: return ANON_PLATFORM_ATI; case PROC_TYPE_INTEL_GPU: return ANON_PLATFORM_INTEL; default: return ANON_PLATFORM_CPU; } } inline bool uses_gpu() { return (proc_type != PROC_TYPE_CPU); } }; // a description of a sticky file on host, or a job input file // struct FILE_INFO { char name[256]; double nbytes; int status; bool sticky; int parse(XML_PARSER&); }; struct MSG_FROM_HOST_DESC { char variety[256]; std::string msg_text; int parse(XML_PARSER&); }; // an app version from an anonymous-platform client // (starting with 6.11, ALL clients send these) // struct CLIENT_APP_VERSION { char app_name[256]; char platform[256]; int version_num; char plan_class[256]; HOST_USAGE host_usage; double rsc_fpops_scale; // multiply wu.rsc_fpops_est and rsc_fpops_limit // by this amount when send to client, // to reflect the discrepancy between how fast the client // thinks the app is versus how fast we think it is APP* app; // if NULL, this record is a place-holder, // used to preserve array indices int parse(XML_PARSER&); }; // keep track of the best app_version for each app for this host // struct BEST_APP_VERSION { int appid; bool for_64b_jobs; // maintain this separately for jobs that need > 2GB RAM, // in which case we can't use 32-bit apps bool present; // false means there's no usable version for this app CLIENT_APP_VERSION* cavp; // populated if anonymous platform APP_VERSION* avp; // populated otherwise HOST_USAGE host_usage; // populated in either case bool reliable; bool trusted; DB_HOST_APP_VERSION* host_app_version(); // get the HOST_APP_VERSION, if any BEST_APP_VERSION() { present = false; cavp = NULL; avp = NULL; } }; struct SCHED_DB_RESULT : DB_RESULT { // the following used by the scheduler, but not stored in the DB // char wu_name[256]; int units; // used for granting credit by # of units processed int parse_from_client(XML_PARSER&); char platform_name[256]; BEST_APP_VERSION bav; int write_to_client(FILE*); }; // subset of global prefs used by scheduler // struct GLOBAL_PREFS { double mod_time; double disk_max_used_gb; double disk_max_used_pct; double disk_min_free_gb; double work_buf_min_days; double ram_max_used_busy_frac; double ram_max_used_idle_frac; double max_ncpus_pct; void parse(const char* buf, const char* venue); void defaults(); inline double work_buf_min() {return work_buf_min_days*86400;} }; struct GUI_URLS { char* text; void init(); void get_gui_urls(USER& user, HOST& host, TEAM& team, char*); }; struct PROJECT_FILES { char* text; void init(); }; // Represents a result from this project that the client has. // The request message has a list of these. // The reply message may include a list of those to be aborted // or aborted if not started // struct OTHER_RESULT { char name[256]; int app_version; // index into CLIENT_APP_VERSION array char plan_class[64]; bool have_plan_class; bool abort; bool abort_if_not_started; int reason; // see codes below int parse(XML_PARSER&); }; #define ABORT_REASON_NOT_FOUND 1 #define ABORT_REASON_WU_CANCELLED 2 #define ABORT_REASON_ASSIMILATED 3 #define ABORT_REASON_TIMED_OUT 4 struct CLIENT_PLATFORM { char name[256]; int parse(XML_PARSER&); }; struct PLATFORM_LIST { std::vector list; }; struct SCHEDULER_REQUEST { char authenticator[256]; CLIENT_PLATFORM platform; std::vector alt_platforms; PLATFORM_LIST platforms; char cross_project_id[256]; int hostid; // zero if first RPC int core_client_major_version; int core_client_minor_version; int core_client_release; int core_client_version; // 10000*major + 100*minor + release int rpc_seqno; double work_req_seconds; // in "normalized CPU seconds" (see work_req.php) double cpu_req_secs; double cpu_req_instances; double resource_share_fraction; // this project's fraction of total resource share double rrs_fraction; // ... of runnable resource share double prrs_fraction; // ... of potentially runnable resource share double cpu_estimated_delay; // currently queued jobs saturate the CPU for this long; // used for crude deadline check double duration_correction_factor; double uptime; double previous_uptime; char global_prefs_xml[BLOB_SIZE]; char working_global_prefs_xml[BLOB_SIZE]; char code_sign_key[4096]; std::vector client_app_versions; GLOBAL_PREFS global_prefs; char global_prefs_source_email_hash[MD5_LEN]; HOST host; // request message is parsed into here. // does NOT contain the full host record. COPROCS coprocs; std::vector results; // completed results being reported bool results_truncated; // set if (to limit memory usage) we capped this size of "results" // In this case, don't resend lost results // since we don't know what was lost. std::vector file_xfer_results; std::vector msgs_from_host; std::vector file_infos; // sticky files reported by host // temps used by locality scheduling: std::vector file_delete_candidates; // deletion candidates std::vector files_not_needed; // files no longer needed std::vector other_results; // in-progress results from this project std::vector ip_results; // in-progress results from all projects bool have_other_results_list; bool have_ip_results_list; bool have_time_stats_log; bool client_cap_plan_class; int sandbox; // whether client uses account-based sandbox. -1 = don't know int allow_multiple_clients; // whether client allows multiple clients per host, -1 don't know bool using_weak_auth; // Request uses weak authenticator. // Don't modify user prefs or CPID int last_rpc_dayofyear; int current_rpc_dayofyear; std::string client_opaque; SCHEDULER_REQUEST(){}; ~SCHEDULER_REQUEST(){}; const char* parse(XML_PARSER&); int write(FILE*); // write request info to file: not complete }; // keep track of bottleneck disk preference // struct DISK_LIMITS { double max_used; double max_frac; double min_free; }; // summary of a client's request for work, and our response to it // Note: this is zeroed out in SCHEDULER_REPLY constructor // struct WORK_REQ { bool anonymous_platform; // the following defined if anonymous platform // bool client_has_apps_for_proc_type[NPROC_TYPES]; // Flags used by old-style scheduling, // while making multiple passes through the work array // bool infeasible_only; bool reliable_only; bool user_apps_only; bool beta_only; bool locality_sched_lite; // for LSL apps, send only jobs where client has > 0 files bool resend_lost_results; // this is set if the request is reporting a result // that was previously reported. // This is evidence that the earlier reply was not received // by the client. It may have contained results, // so check and resend just in case. // user preferences // bool dont_use_proc_type[NPROC_TYPES]; bool allow_non_preferred_apps; bool allow_beta_work; std::vector preferred_apps; bool has_reliable_version; // whether the host has a reliable app version int effective_ncpus; int effective_ngpus; // 6.7+ clients send separate requests for different resource types: // double req_secs[NPROC_TYPES]; // instance-seconds requested double req_instances[NPROC_TYPES]; // number of idle instances, use if possible inline bool need_proc_type(int t) { return (req_secs[t]>0) || (req_instances[t]>0); } inline void clear_cpu_req() { req_secs[PROC_TYPE_CPU] = 0; req_instances[PROC_TYPE_CPU] = 0; } inline void clear_gpu_req() { for (int i=1; i edf_reject_max_delay_bound) edf_reject_max_delay_bound = delay_bound; } else { edf_reject_min_cpu = cpu; edf_reject_max_delay_bound = delay_bound; have_edf_reject = true; } } bool edf_reject_test(double cpu, int delay_bound) { if (!have_edf_reject) return false; if (cpu < edf_reject_min_cpu) return false; if (delay_bound > edf_reject_max_delay_bound) return false; return true; } RESOURCE disk; RESOURCE mem; RESOURCE speed; RESOURCE bandwidth; std::vector no_work_messages; std::vector best_app_versions; std::vector host_app_versions; std::vector host_app_versions_orig; // various reasons for not sending jobs (used to explain why) // bool no_allowed_apps_available; bool hr_reject_temp; bool hr_reject_perm; bool outdated_client; bool max_jobs_on_host_exceeded; bool max_jobs_on_host_cpu_exceeded; bool max_jobs_on_host_gpu_exceeded; bool no_jobs_available; // project has no work right now int max_jobs_per_rpc; void add_no_work_message(const char*); void get_job_limits(); ~WORK_REQ() {} }; // NOTE: if any field requires initialization, // you must do it in the constructor. Nothing is zeroed by default. // struct SCHEDULER_REPLY { WORK_REQ wreq; DISK_LIMITS disk_limits; double request_delay; // don't request again until this time elapses std::vector messages; int hostid; // nonzero only if a new host record was created. // this tells client to reset rpc_seqno int lockfile_fd; // file descriptor of lockfile, or -1 if no lock. bool send_global_prefs; bool nucleus_only; // send only message USER user; char email_hash[MD5_LEN]; HOST host; // after validation, contains full host rec TEAM team; std::vector apps; std::vector app_versions; std::vectorwus; std::vectorresults; std::vectorresult_acks; std::vectorresult_aborts; std::vectorresult_abort_if_not_starteds; std::vectormsgs_to_host; std::vectorfile_deletes; std::vector file_transfer_requests; char code_sign_key[4096]; char code_sign_key_signature[4096]; bool send_msg_ack; bool project_is_down; std::vectorold_app_versions; // superceded app versions that we consider using because of // homogeneous app version. SCHEDULER_REPLY(); ~SCHEDULER_REPLY(){}; int write(FILE*, SCHEDULER_REQUEST&); void insert_app_unique(APP&); void insert_app_version_unique(APP_VERSION&); void insert_workunit_unique(WORKUNIT&); void insert_result(SCHED_DB_RESULT&); void insert_message(const char* msg, const char* prio); void insert_message(USER_MESSAGE&); void set_delay(double); }; extern SCHEDULER_REQUEST* g_request; extern SCHEDULER_REPLY* g_reply; extern WORK_REQ* g_wreq; extern double capped_host_fpops(); static inline void add_no_work_message(const char* m) { g_wreq->add_no_work_message(m); } extern void get_weak_auth(USER&, char*); extern void get_rss_auth(USER&, char*); extern void read_host_app_versions(); extern DB_HOST_APP_VERSION* get_host_app_version(int gavid); extern void write_host_app_versions(); extern DB_HOST_APP_VERSION* gavid_to_havp(int gavid); extern DB_HOST_APP_VERSION* quota_exceeded_version(); inline bool is_64b_platform(const char* name) { return (strstr(name, "64") != NULL); } #endif