// 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 . #ifdef _WIN32 #include "boinc_win.h" #else #include #endif #include "crypt.h" #include "error_numbers.h" #include "filesys.h" #include "md5_file.h" #include "app.h" #include "client_msgs.h" #include "client_state.h" #include "project.h" #include "sandbox.h" #include "async_file.h" using std::vector; vector async_verifies; vector async_copies; #define BUFSIZE 64*1024 int ASYNC_COPY::init( ACTIVE_TASK* _atp, FILE_INFO* _fip, const char* from_path, const char* _to_path ) { atp = _atp; fip = _fip; safe_strcpy(to_path, _to_path); if (log_flags.async_file_debug) { msg_printf(atp->wup->project, MSG_INFO, "[async] started async copy of %s", from_path ); } in = fopen(from_path, "rb"); if (!in) return ERR_FOPEN; safe_strcpy(temp_path, to_path); char* p = strrchr(temp_path, '/'); *(p+1) = 0; strlcat(temp_path, "copy_temp", sizeof(temp_path)); #ifdef _WIN32 boinc_allocate_file(temp_path, fip->nbytes); #endif out = fopen(temp_path, "wb"); if (!out) { fclose(in); return ERR_FOPEN; } atp->async_copy = this; async_copies.push_back(this); return 0; } ASYNC_COPY::ASYNC_COPY() { in = out = NULL; atp = NULL; fip = NULL; } ASYNC_COPY::~ASYNC_COPY() { if (in) fclose(in); if (out) fclose(out); if (atp) { atp->async_copy = NULL; } } // copy a 64KB chunk. // return nonzero if we're done (success or fail) // int ASYNC_COPY::copy_chunk() { unsigned char buf[BUFSIZE]; int retval; size_t n = fread(buf, 1, BUFSIZE, in); if (n == 0) { // copy done. rename temp file // fclose(in); fclose(out); in = out = NULL; retval = boinc_rename(temp_path, to_path); if (retval) { error(retval); return 1; } if (log_flags.async_file_debug) { msg_printf(atp->wup->project, MSG_INFO, "[async] async copy of %s finished", to_path ); } atp->async_copy = NULL; fip->set_permissions(to_path); // If task is still scheduled, start it. // if (atp->scheduler_state == CPU_SCHED_SCHEDULED) { retval = atp->start(); if (retval) { error(retval); } } return 1; // tell caller we're done } else { size_t m = fwrite(buf, 1, n, out); if (m != n) { error(ERR_FWRITE); return 1; } } return 0; } // handle the failure of a copy; error out the result // void ASYNC_COPY::error(int retval) { atp->set_task_state(PROCESS_COULDNT_START, "ASYNC_COPY::error"); gstate.report_result_error( *(atp->result), "Couldn't copy file: %s", boincerror(retval) ); gstate.request_schedule_cpus("start failed"); } void remove_async_copy(ASYNC_COPY* acp) { vector::iterator i = async_copies.begin(); while (i != async_copies.end()) { if (*i == acp) { async_copies.erase(i); break; } i++; } delete acp; } int ASYNC_VERIFY::init(FILE_INFO* _fip) { fip = _fip; md5_init(&md5_state); get_pathname(fip, inpath, sizeof(inpath)); if (log_flags.async_file_debug) { msg_printf(fip->project, MSG_INFO, "[async] started async MD5%s of %s", fip->download_gzipped?" and uncompress":"", fip->name ); } if (fip->download_gzipped) { safe_strcpy(outpath, inpath); safe_strcpy(temp_path, outpath); char* p = strrchr(temp_path, '/'); *(p+1) = 0; strlcat(temp_path, "verify_temp", sizeof(temp_path)); #ifdef _WIN32 boinc_allocate_file(temp_path, fip->nbytes); #endif out = boinc_fopen(temp_path, "wb"); if (!out) return ERR_FOPEN; strcat(inpath, ".gz"); gzin = gzopen(inpath, "rb"); if (gzin == Z_NULL) { fclose(out); return ERR_FOPEN; } } else { in = fopen(inpath, "rb"); if (!in) return ERR_FOPEN; } async_verifies.push_back(this); fip->async_verify = this; return 0; } // the MD5 has been computed. Finish up. // void ASYNC_VERIFY::finish() { unsigned char binout[16]; char md5_buf[64]; int retval; md5_finish(&md5_state, binout); for (int i=0; i<16; i++) { sprintf(md5_buf+2*i, "%02x", binout[i]); } md5_buf[32] = 0; if (fip->signature_required) { bool verified; retval = check_file_signature2(md5_buf, fip->file_signature, fip->project->code_sign_key, verified ); if (retval) { error(retval); return; } if (!verified) { error(ERR_RSA_FAILED); return; } } else { if (strcmp(md5_buf, fip->md5_cksum)) { error(ERR_MD5_FAILED); return; } } if (log_flags.async_file_debug) { msg_printf(fip->project, MSG_INFO, "[async] async verify of %s finished", fip->name ); } fip->async_verify = NULL; fip->status = FILE_PRESENT; fip->set_permissions(); } void ASYNC_VERIFY::error(int retval) { if (log_flags.async_file_debug) { msg_printf(fip->project, MSG_INFO, "[async] async verify of %s failed: %s", fip->name, boincerror(retval) ); } fip->async_verify = NULL; fip->status = retval; } int ASYNC_VERIFY::verify_chunk() { int n; unsigned char buf[BUFSIZE]; if (fip->download_gzipped) { n = gzread(gzin, buf, BUFSIZE); if (n <=0) { // done // gzclose(gzin); fclose(out); delete_project_owned_file(inpath, true); boinc_rename(temp_path, outpath); finish(); return 1; } else { int m = (int)fwrite(buf, 1, n, out); if (m != n) { // write failed // error(ERR_FWRITE); return 1; } md5_append(&md5_state, buf, n); } } else { n = fread(buf, 1, BUFSIZE, in); if (n <= 0) { fclose(in); finish(); return 1; } else { md5_append(&md5_state, buf, n); } } return 0; } void remove_async_verify(ASYNC_VERIFY* avp) { vector::iterator i = async_verifies.begin(); while (i != async_verifies.end()) { if (*i == avp) { async_verifies.erase(i); break; } i++; } delete avp; } // If there are any async file operations, // do a 64KB chunk of the first one and return true. // // Note: if there are lots of pending operations, // it's better to finish the oldest one before starting the rest // bool do_async_file_ops() { if (async_copies.size()) { ASYNC_COPY* acp = async_copies[0]; if (acp->copy_chunk()) { async_copies.erase(async_copies.begin()); delete acp; } return true; } if (async_verifies.size()) { if (async_verifies[0]->verify_chunk()) { async_verifies.erase(async_verifies.begin()); } return true; } return false; }