// 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 // If you change anything, make sure you also change: // client_types.C (to write and parse it) // client_state.C (to cross-link objects) // #ifndef _CLIENT_TYPES_ #define _CLIENT_TYPES_ #include "cpp.h" #if !defined(_WIN32) || defined(__CYGWIN32__) #include #include #endif #include "md5_file.h" #include "hostinfo.h" #include "miofile.h" #include "result_state.h" #define P_LOW 1 #define P_MEDIUM 3 #define P_HIGH 5 #define MAX_FILE_INFO_LEN 4096 #define MAX_SIGNATURE_LEN 4096 #define MAX_KEY_LEN 4096 // If the status is neither of these two, // it will be an error code defined in error_numbers.h, // indicating an unrecoverable error in the upload or download of the file, // or that the file was too big and was deleted // #define FILE_NOT_PRESENT 0 #define FILE_PRESENT 1 class FILE_INFO { public: char name[256]; char md5_cksum[33]; double max_nbytes; double nbytes; double upload_offset; bool generated_locally; // file is produced by app int status; bool executable; // change file protections to make executable bool uploaded; // file has been uploaded bool upload_when_present; bool sticky; // don't delete unless instructed to do so bool report_on_rpc; // include this in each scheduler request bool marked_for_delete; // server requested delete; // if not in use, delete even if sticky is true // don't report to server even if report_on_rpc is true bool signature_required; // true iff associated with app version bool is_user_file; class PERS_FILE_XFER* pers_file_xfer; // nonzero if in the process of being up/downloaded struct RESULT* result; // for upload files (to authenticate) class PROJECT* project; int ref_cnt; std::vector urls; int start_url; int current_url; char signed_xml[MAX_FILE_INFO_LEN]; // if the file_info is signed (for uploadable files) // this is the text that is signed // Otherwise it is the FILE_INFO's XML descriptor // (without enclosing tags) char xml_signature[MAX_SIGNATURE_LEN]; // ... and this is the signature char file_signature[MAX_SIGNATURE_LEN]; // if the file itself is signed (for executable files) // this is the signature #if 0 int priority; double time_last_used; // time of last use of FILE_INFO, update during parsing, writing, or application usage double exp_date; #endif std::string error_msg; // if permanent error occurs during file xfer, // it's recorded here FILE_INFO(); ~FILE_INFO(); void reset(); int set_permissions(); int parse(MIOFILE&, bool from_server); int write(MIOFILE&, bool to_server); int write_gui(MIOFILE&); int delete_file(); // attempt to delete the underlying file const char* get_init_url(bool); const char* get_next_url(bool); const char* get_current_url(bool); bool is_correct_url_type(bool, std::string&); bool had_failure(int& failnum); void failure_message(std::string&); int merge_info(FILE_INFO&); int verify_file(bool); int update_time(); // updates time last used to the current time }; // Describes a connection between a file and a workunit, result, or application. // In the first two cases, // the app will either use open() or fopen() to access the file // (in which case "open_name" is the name it will use) // or the app will be connected by the given fd (in which case fd is nonzero) // struct FILE_REF { char file_name[256]; char open_name[256]; int fd; bool main_program; FILE_INFO* file_info; bool copy_file; // if true, core client will copy the file instead of linking int parse(MIOFILE&); int write(MIOFILE&); }; // statistics at a specific day // struct DAILY_STATS { double user_total_credit; double user_expavg_credit; double host_total_credit; double host_expavg_credit; double day; void clear(); DAILY_STATS() {clear();} int parse(FILE*); }; class PROJECT { public: // the following items come from the account file // They are a function only of the user and the project // char master_url[256]; // url of site that contains scheduler tags // for this project char authenticator[256]; // user's authenticator on this project std::string project_prefs; // without the enclosing tags. // May include elements // This field is used only briefly: between handling a // scheduler RPC reply and writing the account file std::string project_specific_prefs; // without enclosing tags // Does not include elements std::string gui_urls; // GUI URLs, with enclosing tags double resource_share; // project's resource share relative to other projects. char host_venue[256]; // logically, this belongs in the client state file // rather than the account file. // But we need it in the latter in order to parse prefs. bool using_venue_specific_prefs; // the following items come from client_state.xml // They may depend on the host as well as user and project // NOTE: if you add anything, add it to copy_state_fields() also!!! // std::vector scheduler_urls; // where to find scheduling servers char project_name[256]; // descriptive. not unique char symstore[256]; // URL of symbol server (Windows) char user_name[256]; char team_name[256]; char email_hash[MD5_LEN]; char cross_project_id[MD5_LEN]; double user_total_credit; double user_expavg_credit; double user_create_time; int hostid; double host_total_credit; double host_expavg_credit; double host_create_time; // stuff related to scheduler RPCs and master fetch // int rpc_seqno; int nrpc_failures; // # of consecutive times we've failed to // contact all scheduling servers int master_fetch_failures; double min_rpc_time; // earliest time to contact any server // of this project (or zero) void set_min_rpc_time(double future_time); bool waiting_until_min_rpc_time(); // returns true if min_rpc_time > now bool master_url_fetch_pending; // need to fetch and parse the master URL bool sched_rpc_pending; // we need to do a scheduler RPC, for various possible reasons: // user request, propagate host CPID, time-based, etc double next_rpc_time; // if nonzero, specifies a time when another scheduler RPC // should be done (as requested by server) bool trickle_up_pending; // have trickle up to send bool tentative; // master URL and account ID not confirmed bool anonymous_platform; // app_versions.xml file found in project dir; // use those apps rather then getting from server bool non_cpu_intensive; bool send_file_list; // send the list of permanent files associated/with the project // in the next scheduler reply bool suspended_via_gui; bool dont_request_more_work; // Return work, but don't request more // Used for a clean exit to a project, // or if a user wants to pause doing work for the project bool attached_via_acct_mgr; char code_sign_key[MAX_KEY_LEN]; std::vector user_files; int parse_preferences_for_user_files(); // Multiply by this when estimating the CPU time of a result // (based on FLOPs estimated and benchmarks). // This is dynamically updated in a way that maintains an upper bound. // it goes down slowly but if a new estimate X is larger, // the factor is set to X. // double duration_correction_factor; void update_duration_correction_factor(RESULT*); // fields used by CPU scheduler and work fetch // everything from here on applies only to CPU intensive projects bool contactable(); // not suspended and not deferred and not no more work bool runnable(); // has a runnable result bool downloading(); // has a result in downloading state bool potentially_runnable(); // runnable or contactable or downloading // temps used in CLIENT_STATE::rr_misses_deadline(); std::vectoractive; std::vectorpending; double rrsim_proc_rate; // fraction of each CPU this project will get in RR simulation void set_rrsim_proc_rate(double per_cpu_proc_rate, double rrs); // "debt" is how much CPU time we owe this project relative to others double short_term_debt; // computed over runnable projects // used for CPU scheduling double long_term_debt; // Computed over potentially runnable projects // (defined for all projects, but doesn't change if // not potentially runnable). // Normalized so mean over all projects is zero double anticipated_debt; // expected debt by the end of the preemption period double wall_cpu_time_this_period; // how much "wall CPU time" has been devoted to this // project in the current scheduling period (secs) struct RESULT *next_runnable_result; // the next result to run for this project int nactive_uploads; // number of file uploads in progress. // Don't start new results if these exceeds 2. double work_request; // the unit is "project-normalized CPU seconds", // i.e. the work should take 1 CPU on this host // X seconds of wall-clock time to complete, // taking into account // 1) this project's fractional resource share // 2) on_frac, active_frac, and cpu_effiency // see doc/sched.php int work_request_urgency; int nresults_returned; // # of results being returned in current scheduler op const char* get_scheduler_url(int index, double r); // get scheduler URL with random offset r bool checked; // temporary used when scanning projects // vars related to file-transfer backoff // file_xfer_failures_up: count of consecutive upload failures // next_file_xfer_up: when to start trying uploads again // // if file_xfer_failures_up exceeds FILE_XFER_FAILURE_LIMIT, // we switch from a per-file to a project-wide backoff policy // (separately for the up/down directions) // #define FILE_XFER_FAILURE_LIMIT 3 private: int file_xfer_failures_up; int file_xfer_failures_down; double next_file_xfer_up; double next_file_xfer_down; public: double next_file_xfer_time(const bool); void file_xfer_failed(const bool); void file_xfer_succeeded(const bool); PROJECT(); ~PROJECT(){} void init(); void copy_state_fields(PROJECT&); char *get_project_name(); int write_account_file(); int parse_account(FILE*); int parse_account_file(); int parse_state(MIOFILE&); int write_state(MIOFILE&, bool gui_rpc=false); void attach_failed(int reason); // statistic of the last x days std::vector statistics; int parse_statistics(MIOFILE&); int parse_statistics(FILE*); int write_statistics(MIOFILE&, bool gui_rpc=false); int write_statistics_file(); }; struct APP { char name[256]; PROJECT* project; int parse(MIOFILE&); int write(MIOFILE&); }; struct APP_VERSION { char app_name[256]; int version_num; APP* app; PROJECT* project; std::vector app_files; int ref_cnt; int parse(MIOFILE&); int write(MIOFILE&); bool had_download_failure(int& failnum); void get_file_errors(std::string&); void clear_errors(); }; struct WORKUNIT { char name[256]; char app_name[256]; int version_num; // This isn't sent from the server. // Instead, the client picks the latest app version std::string command_line; //char env_vars[256]; // environment vars in URL format std::vector input_files; PROJECT* project; APP* app; APP_VERSION* avp; int ref_cnt; double rsc_fpops_est; double rsc_fpops_bound; double rsc_memory_bound; double rsc_disk_bound; int parse(MIOFILE&); int write(MIOFILE&); bool had_download_failure(int& failnum); void get_file_errors(std::string&); void clear_errors(); }; struct RESULT { char name[256]; char wu_name[256]; double report_deadline; std::vector output_files; bool ready_to_report; // we're ready to report this result to the server; // either computation is done and all the files have been uploaded // or there was an error double completed_time; // time when ready_to_report was set bool got_server_ack; // we're received the ack for this result from the server double final_cpu_time; double fpops_per_cpu_sec; // nonzero if reported by app double fpops_cumulative; // nonzero if reported by app double intops_per_cpu_sec; // nonzero if reported by app double intops_cumulative; // nonzero if reported by app int state; // state of this result: see lib/result_state.h int exit_status; // return value from the application std::string stderr_out; // the concatenation of: // // - if report_result_error() is called for this result: // x // x // x // - if called in FILES_DOWNLOADED state: // x // - if called in NEW state: // x for each failed download // - if called in COMPUTE_DONE state: // x for each failed upload // // - X, where X is the app's stderr output bool suspended_via_gui; APP* app; WORKUNIT* wup; // this may be NULL after result is finished PROJECT* project; void clear(); int parse_server(MIOFILE&); int parse_state(MIOFILE&); int parse_name(FILE*, const char* end_tag); int write(MIOFILE&, bool to_server); int write_gui(MIOFILE&); bool is_upload_done(); // files uploaded? void reset_files(); FILE_REF* lookup_file(FILE_INFO*); FILE_INFO* lookup_file_logical(const char*); void abort_inactive(int); // abort the result if it hasn't started computing yet // Called only for results with no active task // (otherwise you need to abort the active task) // stuff related to CPU scheduling double estimated_cpu_time(); double estimated_cpu_time_uncorrected(); double estimated_cpu_time_remaining(); bool computing_done(); bool runnable(); // downloaded, not finished, not suspended, project not suspended bool runnable_soon(); // downloading or downloaded, // not finished, suspended, project not suspended // temporaries used in CLIENT_STATE::rr_misses_deadline(): double rrsim_cpu_left; double rrsim_finish_delay; bool already_selected; // used to keep cpu scheduler from scheduling a result twice // transient; used only within schedule_cpus() double computation_deadline(); }; #endif