// 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 // Includes the methods required for managing saved data on the client // utilized by the client to managed its deletion policy and communicate with // the user and the server what the status of the data storage is // // Uhhhh... what exactly does the above say???? // #include "cpp.h" #ifdef _WIN32 #include "boinc_win.h" #endif #ifndef _WIN32 #include #include #endif #include "filesys.h" #include "client_msgs.h" #include "client_types.h" #include "client_state.h" using std::vector; #if 0 // This gets called when the client doesn't have enough disk space to continue // running active tasks. // Notify user which project is the greatest offender // of their data share // void data_overflow_notify(PROJECT* project) { if (project == NULL) { msg_printf(NULL, MSG_ERROR, "BOINC has run out of disk space.\n" "Please change your General Preferences to allocate more space.\n" ); } else { msg_printf(project, MSG_ERROR, "BOINC has run out of disk space for %s.\n" "Please change your General Preferences to allocate more space.\n", project->project_name ); } } // Polling function called in do_something() // // Makes sure the disk bounds have not been drastically violated // Returns true if something has been violated and tries to correct // the problem // TODO: notify the user of corrections made? // bool CLIENT_STATE::data_manager_poll() { double tdu, adu; static int counter=0; if (++counter < 10000) { return false; } counter = 0; total_disk_usage(tdu); allowed_disk_usage(adu); // delete files from offenders only // if (tdu > adu) { if (size_overflow || !projects.size()) { return false; } return fix_data_overflow(tdu, adu); } if (size_overflow) { calc_all_proj_size(); size_overflow = false; } return false; } bool CLIENT_STATE::fix_data_overflow(double tdu, double adu) { double space_needed, deleted_space; unsigned int i; int priority; bool deleted; bool tentative; PROJECT* p; // Check if any projects are tentative // could have new prefs in RPC // for (i=0; itentative) return false; } // get accurate sizes as of right now // calc_all_proj_size(); // delete files from offenders only space_needed = tdu - adu; get_more_disk_space(NULL, space_needed); total_disk_usage(tdu); i=0; priority = P_LOW; deleted = false; while (tdu > adu) { // there is an offender that doesn't want to give up its files // try deleting files from other projects first // if (i >= projects.size()) { if (!deleted){ if (priority >= P_HIGH) { break; } else { priority++; } } deleted = false; i=0; } p = projects[i]; deleted_space = select_delete(p, 1, priority); if (deleted_space != 0) deleted = true; tdu -= deleted_space; i++; } i=0; deleted = false; tentative = false; while (tdu > adu) { // still not enough space, projects give up non-active WUs // if (i >= projects.size()) { if (!deleted) { size_overflow = true; data_overflow_notify(NULL); return true; } i=0; deleted = false; } p = projects[i]; deleted_space = delete_results(p, 1); if (deleted_space != 0) deleted = true; tdu -= deleted_space; i++; } return false; } // calculate the size of all the projects // use after any deletions to ensure accurate number for size // int CLIENT_STATE::calc_all_proj_size() { for (unsigned int i=0; isize = 0; project_disk_usage(p, p->size); compute_share_disk_size(p); return 0; } // Any space that is unallocated, returns number of bytes // int CLIENT_STATE::anything_free(double& size) { double total_size = 0; double disk_available; for (unsigned int i=0; isize; } allowed_project_disk_usage(disk_available); size = disk_available - total_size; if (size > 0) { return 0; } else { size = 0; return 1; } } // Tries to get more disk space for a project. Takes some percentage // of the disk space that is not utilzed by a project and awards the // space to the project to be used. Returns true if this was successful, // false if it was not. It will be uncessful if all the projects are at their // limits and the currect project is trying to exceed theirs. // // This function will try its best to allow a project to grow in size // It will delete files from all projects that have a larger gap than // the current project. // bool CLIENT_STATE::get_more_disk_space(PROJECT *p, double space_needed) { PROJECT * other_p = NULL; double total_space = 0; double free_space; double offend_size; int priority = 0; // check to see if there is enough extra space floating around // such will be the case after calling this after a deletion // if (!anything_free(free_space)) { total_space += free_space; if (total_space > space_needed) { return true; } } // If the function has not exited with true, this means that all available // space is being used by some combination of projects // Check if one of the projects is over its resource share and give the space // to the requesting project reset_checks(); priority = P_LOW; while (total_space < space_needed) { other_p = greatest_offender(); if (other_p == NULL || (other_p == p)) { if (priority > P_HIGH) { return false; } else { priority++; reset_checks(); continue; } } other_p->checked = true; offend_size = offender(other_p); if (space_needed - total_space > offend_size) { total_space += select_delete(other_p, offend_size, priority); } else { total_space += select_delete(other_p, (space_needed - total_space), priority); } } return true; } // try and delete this many bytes of data from the greatest offender // return the amount of disk space that was actually freed by the delete // double CLIENT_STATE::select_delete(PROJECT* p, double space_to_delete, int priority) { double deleted_space = 0; double total_space = 0; garbage_collect(); // if not, then it must start selecting and deleting files // until enough space is freed up while (total_space < space_to_delete) { deleted_space = delete_next_file(p, priority); if (deleted_space == 0) break; total_space += deleted_space; } // delete all files that you can after reflagging stickys garbage_collect(); // calculate the size of the project after the deletion calc_proj_size(p); return total_space; } // Tries to delete everything but files associated with the active task // If this function exits with 0 and there is still not enough space, // the active task needs to be suspended and not restarted until there is // enough space to run that project. double CLIENT_STATE::delete_results(PROJECT *p, double space_to_delete) { double deleted_space = 0; double oldsize = p->size; while (deleted_space < space_to_delete) { if (delete_inactive_results(p)) { break; } calc_proj_size(p); deleted_space += oldsize - p->size; } return deleted_space; } // Returns the next file based on the deletion policy of the project. // Returns true if a file that can be deleted was found, // false otherwise // double CLIENT_STATE::delete_next_file(PROJECT* p, int priority) { FILE_INFO* retval = NULL; double space_freed = 0; if (p->deletion_policy_expire) { space_freed = delete_expired(p); } if (space_freed == 0) { retval = get_priority_or_lru(p, priority); if (retval != NULL) { retval->sticky = false; space_freed = retval->nbytes; } } return space_freed; } // Returns the file_info from the project that has the lowest priority // FILE_INFO* CLIENT_STATE::get_priority_or_lru(PROJECT* p, int priority) { FILE_INFO* fip; unsigned int i; double lowest_p = 0; FILE_INFO* lowest = NULL; for (i=0; iref_cnt==0 && fip->project == p && fip->sticky && fip->priority <= priority) { if (lowest == NULL) { lowest = fip; lowest_p = fip->priority; } else if (fip->priority < lowest_p) { lowest = file_infos[i]; lowest_p = lowest->priority; } else if (fip->priority == lowest_p) { if (p->deletion_policy_expire && fip->exp_date < lowest->exp_date) { lowest = file_infos[i]; } else if (fip->time_last_used < lowest->time_last_used) { lowest = file_infos[i]; } } } } return lowest; } // Deletes all expired file_infos // Returns the amount of bytes freed // double CLIENT_STATE::delete_expired(PROJECT* p) { FILE_INFO* fip; double time_now = dtime(); double space_expired = 0; unsigned int i; for (i=0; iref_cnt==0 && fip->project == p && fip->sticky) { if (fip->exp_date > time_now) { fip->sticky = false; space_expired += fip->nbytes; } } } return space_expired; } // Delete any files that associated with inactive results // by marking their results to acknowledged // int CLIENT_STATE::delete_inactive_results(PROJECT *p) { bool deleted = false; RESULT* result; unsigned int i; for (i=0; iis_active && result->state < RESULT_COMPUTE_DONE) { result->got_server_ack = true; unstick_result_files(result); deleted = true; } } if (deleted) { garbage_collect(); return 0; } else { return 1; } } // should be called after forcebly deleting any result // ensures any files that were supposed to by permanent are // deleted as well, as we are already low on disk space // int CLIENT_STATE::unstick_result_files(RESULT *rp) { WORKUNIT* wup; int retval = 1; unsigned int i; for (i=0; ioutput_files.size(); i++) { retval = 0; rp->output_files[i].file_info->sticky = false; } wup = rp->wup; for (i=0; iinput_files.size(); i++) { retval = 0; wup->input_files[i].file_info->sticky = false; } return retval; } // returns the number of bytes the greatest offender is over his usual resource share // the argument is returned with the number of bytes and the offending // project is returned // PROJECT* CLIENT_STATE::greatest_offender() { PROJECT* g_offender = NULL; PROJECT* current_suspect; double max_offense = 0; for (unsigned int i=0; ichecked){ current_suspect = projects[i]; if (offender(current_suspect) > max_offense) { g_offender = current_suspect; max_offense = offender(current_suspect); } } } return g_offender; } // returns the number of bytes the project is offending by // will be negative if it is not an offender // double CLIENT_STATE::offender(PROJECT* p) { if (p->share_size == 0) { calc_all_proj_size(); } return (p->size - p->share_size); } // Computes the percentage of the actual resource share that // has been awarded to this project when compared with the totals // from all other projects // double CLIENT_STATE::compute_resource_share(PROJECT *p) { double total_resource_share = 0; for (unsigned int i=0; iresource_share; } return p->resource_share/total_resource_share; } // Computes the size of the allowed disk share in number of bytes. // This number may be smaller than the actual disk usage of the project // since projects are allowed to grow outside of their disk bounds if there // is space not utilzed by other projects // int CLIENT_STATE::compute_share_disk_size(PROJECT *p) { double disk_available; allowed_project_disk_usage(disk_available); p->share_size = disk_available * compute_resource_share(p); return 0; } // resets the checked flag for all projects in gstate to false; // int CLIENT_STATE::reset_checks() { unsigned int i; for (i=0; ichecked = false; } return 0; } int CLIENT_STATE::total_potential_offender(PROJECT* p, double& tps) { PROJECT* other_p; unsigned int i; garbage_collect(); anything_free(tps); for (i=0; i 0) { return 0; } else { tps = 0; return 1; } } int CLIENT_STATE::total_potential_self(PROJECT* p, double& tps) { FILE_INFO* fip; unsigned int i; total_potential_offender(p, tps); for (i=0; iref_cnt == 0 && fip->project == p && fip->sticky) { if (!p->deletion_policy_expire) { tps += fip->nbytes; } else if (p->deletion_policy_expire && (fip->exp_date > dtime())) { tps += fip->nbytes; } } } if (tps > 0) { return 0; } else { tps = 0; return 1; } } double CLIENT_STATE::proj_potentially_free(PROJECT* p) { double offend_share = offender(p); double tps = 0; FILE_INFO* fip; unsigned int i; if (offend_share <= 0) { return 0; } for (i=0; i offend_share) break; fip = file_infos[i]; if (fip->ref_cnt==0 && fip->project == p && fip->sticky) { if (!p->deletion_policy_expire) { tps += fip->nbytes; } else if (p->deletion_policy_expire && (fip->exp_date > dtime())) { tps += fip->nbytes; } } } return tps; } #endif const char *BOINC_RCSID_c8458fed1c = "$Id$";