boinc/sched/server_types.h

205 lines
5.9 KiB
C++

// 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
#ifndef _SERVER_TYPES_
#define _SERVER_TYPES_
#include <cstdio>
#include <vector>
#include "boinc_db.h"
#include "result_state.h"
#include "md5_file.h"
// summary of a client's request for work, and our response to it
//
struct WORK_REQ {
bool infeasible_only;
double seconds_to_fill;
// in "normalized CPU seconds" (see doc/work_req.php)
double disk_available;
int nresults;
int core_client_version;
// the following flags are set whenever a result is infeasible;
// used to construct explanatory message to user
//
bool insufficient_disk;
bool insufficient_mem;
bool insufficient_speed;
bool excessive_work_buf;
bool no_app_version;
bool homogeneous_redundancy_reject;
bool outdated_core;
bool daily_result_quota_exceeded;
int daily_result_quota; // for this machine: number of cpus * daily_quota/cpu
void update_for_result(double seconds_filled);
};
// a description of a sticky file on host.
//
struct FILE_INFO {
char name[256];
int parse(FILE*);
};
struct MSG_FROM_HOST_DESC {
char variety[256];
std::string msg_text;
int parse(FILE*);
};
// an app version from an anonymous-platform client
//
struct CLIENT_APP_VERSION {
char app_name[256];
int version_num;
int parse(FILE*);
};
// subset of global prefs used by scheduler
//
struct GLOBAL_PREFS {
double disk_max_used_gb;
double disk_max_used_pct;
double disk_min_free_gb;
double work_buf_min_days;
void parse(char* buf, char* venue);
};
struct GUI_URLS {
char* text;
void init();
void get_gui_urls(USER& user, HOST& host, TEAM& team, char*);
};
struct SCHEDULER_REQUEST {
char authenticator[256];
char platform_name[256];
char cross_project_id[256];
int hostid; // zero if first RPC
int core_client_major_version;
int core_client_minor_version;
int rpc_seqno;
double work_req_seconds;
// in "normalized CPU seconds" (see work_req.php)
double resource_share_fraction;
double estimated_delay;
// how many wall-clock seconds will elapse before
// host will begin any new work for this project
char global_prefs_xml[LARGE_BLOB_SIZE];
char code_sign_key[4096];
// ROMW: Added these back in since we have 3.x clients who still want
// want to send us the older style for determining disk usage.
// TODO: Remove the two lines below when the 4.x way of doing things
// is completely implemented.
double total_disk_usage;
double project_disk_usage;
#if 0
double project_disk_free;
double potentially_free_offender;
double potentially_free_self;
#endif
bool anonymous_platform;
std::vector<CLIENT_APP_VERSION> 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.
std::vector<RESULT> results;
std::vector<MSG_FROM_HOST_DESC> msgs_from_host;
std::vector<FILE_INFO> file_infos; // sticky files reported by host
SCHEDULER_REQUEST();
~SCHEDULER_REQUEST();
int parse(FILE*);
bool has_version(APP& app);
int write(FILE*); // write request info to file: not complete
};
// message intended for human eyes
//
struct USER_MESSAGE {
std::string message;
std::string priority;
USER_MESSAGE(const char* m, const char*p);
};
// keep track of bottleneck disk preference
//
struct DISK_LIMITS {
double max_used;
double max_frac;
double min_free;
};
// 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<USER_MESSAGE> messages;
int hostid;
// nonzero only if a new host record was created.
// this tells client to reset rpc_seqno
bool send_global_prefs; // whether to send global preferences
bool nucleus_only; // send only message
bool probable_user_browser;
USER user;
char email_hash[MD5_LEN];
HOST host; // after validation, contains full host rec
TEAM team;
std::vector<APP> apps;
std::vector<APP_VERSION> app_versions;
std::vector<WORKUNIT>wus;
std::vector<RESULT>results;
std::vector<RESULT>result_acks;
std::vector<MSG_TO_HOST>msgs_to_host;
std::vector<FILE_INFO>file_deletes;
char code_sign_key[4096];
char code_sign_key_signature[4096];
bool send_msg_ack;
bool update_user_record;
bool deletion_policy_priority;
bool deletion_policy_expire;
SCHEDULER_REPLY();
~SCHEDULER_REPLY();
int write(FILE*);
void insert_app_unique(APP&);
void insert_app_version_unique(APP_VERSION&);
void insert_workunit_unique(WORKUNIT&);
void insert_result(RESULT&);
void insert_message(USER_MESSAGE&);
bool work_needed(bool locality_sched=false);
void set_delay(double);
void got_good_result(); // adjust max_results_day
void got_bad_result(); // adjust max_results_day
};
#endif