// This file is part of BOINC. // http://boinc.berkeley.edu // Copyright (C) 2012 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 . // The part of the implementation of vda_lib.h // that's NOT used by the simulator #include #include #include #include #include #include "error_numbers.h" #include "filesys.h" #include "md5_file.h" #include "sched_config.h" #include "sched_msgs.h" #include "sched_util.h" #include "vda_lib.h" using std::set; using std::vector; #define DATA_FILENAME "data.vda" ///////////////// Utility funcs /////////////////////// // return the name of a file created by Jerasure's encoder // // encoder creates files with names of the form // Coding/fname_k01.ext // Coding/fname_m01.ext // // Assume there's no extension // void encoder_filename( const char* base, const char* ext, CODING& c, int i, char* buf ) { int ndigits = 1; if (c.m > 9) ndigits = 2; else if (c.m > 99) ndigits = 3; else if (c.m > 999) ndigits = 4; int j; char ch; if (i >= c.n) { j = i-c.n + 1; ch = 'm'; } else { j = i+1; ch = 'k'; } sprintf(buf, "%s_%c%0*d.%s", base, ch, ndigits, j, ext); } int get_chunk_numbers(VDA_CHUNK_HOST& vch, vector& chunk_numbers) { char buf[256]; strcpy(buf, vch.physical_file_name); // vda_hostid_chunknums_filename char* p = buf; p = strchr(p, '_') + 1; p = strchr(p, '_') + 1; char* q = strchr(p, '_') + 1; *q = 0; while (1) { int i = atoi(p); chunk_numbers.push_back(i); p = strchr(p, '.'); if (!p) break; p++; } return 0; } ///////////////// DATA_UNIT /////////////////////// int DATA_UNIT::delete_file() { char path[1024], buf[1024]; sprintf(path, "%s/data.vda", dir); ssize_t n = readlink(path, buf, sizeof(buf)-1); if (n < 0) { printf("readlink %s failed\n", path); return ERR_SYMLINK; } buf[n] = 0; int retval = unlink(buf); if (retval) { printf("unlink %s failed\n", buf); return ERR_UNLINK; } return 0; } ///////////////// META_CHUNK /////////////////////// META_CHUNK::META_CHUNK(VDA_FILE_AUX* d, META_CHUNK* p, int index) { dfile = d; parent = p; if (parent) { if (strlen(parent->name)) { sprintf(name, "%s.%d", parent->name, index); } else { sprintf(name, "%d", index); } } else { strcpy(name, ""); } } // initialize a meta-chunk: // encode it, then recursively initialize its meta-chunk children // int META_CHUNK::init(const char* _dir, POLICY& p, int coding_level) { double size; char child_dir[1024]; strcpy(dir, _dir); coding = p.codings[coding_level]; int retval = encode(true); if (retval) return retval; p.chunk_sizes[coding_level] = child_size; if (coding_level < p.coding_levels - 1) { for (int i=0; iinit(child_dir, p, coding_level+1); if (retval) return retval; children.push_back(mc); } bottom_level = false; } else { for (int i=0; iget_state(child_dir, p, coding_level+1); if (retval) return retval; children.push_back(mc); } bottom_level = false; } else { for (int i=0; ipresent_on_server) { rename_child = false; break; } } if (rename_child) { encoder_filename("data", "vda", coding, 0, enc_filename); sprintf(cmd, "mv %s/Coding/%s %s/Coding/decode_temp", dir, enc_filename, dir ); system(cmd); } } sprintf(cmd, "cd %s; /mydisks/b/users/boincadm/vda_test/decoder %s | grep Decoding", dir, DATA_FILENAME ); printf("%s\n", cmd); int s = system(cmd); if (!WIFEXITED(s) || WEXITSTATUS(s)) { printf("system(%s) failed\n", cmd); return -1; } if (rename_child) { sprintf(cmd, "mv %s/Coding/decode_temp %s/Coding/%s", dir, dir, enc_filename ); system(cmd); } // decoder puts its result in Coding/data_decoded.vda // Move this to file.ext // char linkpath[1024], filepath[1024]; sprintf(linkpath, "%s/data.vda", dir); ssize_t n = readlink(linkpath, filepath, sizeof(filepath)-1); if (n < 0) { perror("readlink"); return -1; } filepath[n] = 0; sprintf(cmd, "mv %s/Coding/data_decoded.vda %s", dir, filepath); system(cmd); return 0; } // the meta-chunk is present, and we're retrieving the file // int META_CHUNK::reconstruct() { unsigned int i; int retval; // reconstruct enough children that we can reconstruct ourself // if (!bottom_level) { int n = 0; for (i=0; istatus == PRESENT) { retval = cp->reconstruct(); if (retval) return retval; n++; if (n == coding.n) break; } } } retval = decode(); if (retval) return retval; // then delete childrens' files // for (i=0; idelete_file(); } return 0; } // We're retrieving the file. // Start all possible uploads. // int META_CHUNK::upload_all() { unsigned int i; for (i=0; iupload_all(); } return 0; } ///////////////// CHUNK /////////////////////// CHUNK::CHUNK(META_CHUNK* mc, double s, int index) { parent = mc; size = s; if (strlen(parent->name)) { sprintf(name, "%s.%d", parent->name, index); } else { sprintf(name, "%d", index); } sprintf(dir, "%s/%d", mc->dir, index); char path[256]; double fsize; sprintf(path, "%s/data.vda", dir); int retval = file_size(path, fsize); if (retval || fsize != size) { present_on_server = false; } else { present_on_server = true; } } // assign this chunk to a host // int CHUNK::assign() { int host_id = parent->dfile->choose_host(); if (!host_id) { log_messages.printf(MSG_CRITICAL, "CHUNK::assign: can't get host\n"); return ERR_NOT_FOUND; } DB_VDA_CHUNK_HOST ch; ch.create_time = dtime(); ch.vda_file_id = parent->dfile->id; ch.host_id = host_id; physical_file_name( host_id, name, parent->dfile->file_name, ch.physical_file_name ); ch.present_on_host = 0; ch.transfer_in_progress = true; ch.transfer_wait = true; ch.transfer_request_time = ch.create_time; ch.transfer_send_time = 0; int retval = ch.insert(); if (retval) { log_messages.printf(MSG_CRITICAL, "ch.insert() failed\n"); return retval; } log_messages.printf(MSG_NORMAL, " assigning chunk %s to host %d\n", name, host_id ); return 0; } int CHUNK::start_upload_from_host(VDA_CHUNK_HOST& ch) { DB_VDA_CHUNK_HOST dch; char set_clause[256], where_clause[256]; log_messages.printf(MSG_NORMAL, " requesting upload of %s from host %d\n", name, ch.host_id ); sprintf(set_clause, "transfer_in_progress=1, transfer_wait=1, transfer_request_time=%f", dtime() ); sprintf(where_clause, "vda_file_id=%d and host_id=%d and physical_file_name='%s'", ch.vda_file_id, ch.host_id, ch.physical_file_name ); return dch.update_fields_noid(set_clause, where_clause); } // if no upload of this chunk is in progress, start one. // NOTES: // - all instances are inherently present_on_host, // since this is only called if chunk is not present on server // - we arbitrarily pick the first host in the list. // Could randomize this or use other criteria. // int CHUNK::start_upload() { VDA_CHUNK_HOST* chp; set::iterator i; for (i=hosts.begin(); i!=hosts.end(); i++) { chp = *i; if (chp->transfer_in_progress) return 0; } chp = *(hosts.begin()); return start_upload_from_host(*chp); } // Start uploads of all instances. // Used when retrieving the file. // int CHUNK::upload_all() { if (present_on_server) return 0; VDA_CHUNK_HOST* chp; set::iterator i; for (i=hosts.begin(); i!=hosts.end(); i++) { chp = *i; if (chp->transfer_in_progress) continue; int retval = start_upload_from_host(*chp); if (retval) return retval; } return 0; } ///////////////// VDA_FILE_AUX /////////////////////// // initialize a file: create its directory hierarchy // and expand out its encoding tree, // leaving only the bottom-level chunks // int VDA_FILE_AUX::init() { char buf[1024], buf2[1024]; sprintf(buf, "%s/%s", dir, DATA_FILENAME); sprintf(buf2, "%s/%s", dir, file_name); int retval = symlink(buf2, buf); if (retval) { log_messages.printf(MSG_CRITICAL, "symlink %s %s failed\n", buf2, buf); return ERR_SYMLINK; } meta_chunk = new META_CHUNK(this, NULL, 0); retval = meta_chunk->init(dir, policy, 0); if (retval) return retval; sprintf(buf, "%s/chunk_sizes.txt", dir); FILE* f = fopen(buf, "w"); for (int i=0; iget_state(dir, policy, 0); if (retval) return retval; // enumerate the VDA_CHUNK_HOST records from DB and store in memory // DB_VDA_CHUNK_HOST vch; sprintf(buf, "where vda_file_id=%d", id); while (1) { retval = vch.enumerate(buf); if (retval == ERR_DB_NOT_FOUND) break; if (retval) return retval; vector chunk_numbers; retval = get_chunk_numbers(vch, chunk_numbers); if (retval) { log_messages.printf(MSG_CRITICAL, "get_chunk_numbers(): %d\n", retval ); return retval; } if ((int)(chunk_numbers.size()) != policy.coding_levels) { log_messages.printf(MSG_CRITICAL, "wrong get_chunk_numbers: got %d, expected %d\n", (int)(chunk_numbers.size()), policy.coding_levels ); return -1; } META_CHUNK* mc = meta_chunk; for (int i=0; ichildren[chunk_numbers[i]]); VDA_CHUNK_HOST* vchp = new VDA_CHUNK_HOST(); *vchp = vch; c->hosts.insert(vchp); } else { mc = (META_CHUNK*)(mc->children[chunk_numbers[i]]); } } } return 0; } // Pick a host to send a chunk of this file to. // We want to pick the host that has the fewest chunks // of this file already (preferably zero). // The policy is: // - maintain a threshold "max_chunks". // - enumerate all hosts that are alive // - if find a host H w/ at most max_chunks of this file, // set max_chunks to nchunks(H) and return H // - if scan all hosts w/o finding one, increment max_chunks and start over // int VDA_FILE_AUX::choose_host() { int retval; char buf[256]; // terminology: // "enum" is the result of one DB query (typically 100 hosts) // "scan" is a set of enums covering the entire host table // while (1) { if (!enum_active) { sprintf(enum_query, "where cpu_efficiency=0 and id > %d order by id limit 100", last_id ); enum_active = true; found_any_this_enum = false; if (last_id == 0) { found_this_scan = false; found_any_this_scan = false; } } retval = enum_host.enumerate(enum_query); if (retval == ERR_DB_NOT_FOUND) { // we've finished an enum // enum_active = false; if (found_any_this_enum) { // if we found anything in this enum, continue the scan continue; } // we've finished a scan // last_id = 0; if (!found_any_this_scan) { log_messages.printf(MSG_CRITICAL, "choose_host(): no live hosts\n" ); return 0; } if (!found_this_scan) { max_chunks++; log_messages.printf(MSG_NORMAL, "choose_host(): completed scan, new max_chunks %d\n", max_chunks ); continue; } continue; } if (retval) { // a DB error occurred log_messages.printf(MSG_CRITICAL, "choose_host(): DB error %d\n", retval ); enum_active = false; return 0; } found_any_this_enum = true; found_any_this_scan = true; last_id = enum_host.id; // if the host is running old client software, classify it as dead // if (outdated_client(enum_host)) { enum_host.cpu_efficiency = 1; enum_host.update(); continue; } // we have a live host. // see whether it satisfies max_chunks // DB_VDA_CHUNK_HOST ch; int count; sprintf(buf, "where vda_file_id=%d and host_id=%d", id, enum_host.id); retval = ch.count(count, buf); if (retval) { log_messages.printf(MSG_CRITICAL, "ch.count failed\n"); return 0; } if (count <= max_chunks) { found_this_scan = true; max_chunks = count; return enum_host.id; } } }