/** * @file llformat.cpp * @date January 2007 * @brief string formatting utility * * $LicenseInfo:firstyear=2007&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2010, Linden Research, Inc. * * This library 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; * version 2.1 of the License only. * * This library 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 this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #include "linden_common.h" #include "llpidlock.h" #include "lldir.h" #include "llsd.h" #include "llsdserialize.h" #include "llnametable.h" #include "llframetimer.h" #if LL_WINDOWS //For windows platform. #include namespace { inline DWORD getpid() { return GetCurrentProcessId(); } } bool isProcessAlive(U32 pid) { return (bool) GetProcessVersion((DWORD)pid); } #else //Everyone Else bool isProcessAlive(U32 pid) { return (bool) kill( (pid_t)pid, 0); } #endif //Everyone else. class LLPidLockFile { public: LLPidLockFile( ) : mAutosave(false), mSaving(false), mWaiting(false), mPID(getpid()), mNameTable(NULL), mClean(true) { mLockName = gDirUtilp->getTempDir() + gDirUtilp->getDirDelimiter() + "savelock"; } bool requestLock(LLNameTable *name_table, bool autosave, bool force_immediate=FALSE, F32 timeout=300.0); bool checkLock(); void releaseLock(); private: void writeLockFile(LLSD pids); public: static LLPidLockFile& instance(); // return the singleton black list file bool mAutosave; bool mSaving; bool mWaiting; LLFrameTimer mTimer; U32 mPID; std::string mLockName; std::string mSaveName; LLSD mPIDS_sd; LLNameTable *mNameTable; bool mClean; }; LLPidLockFile& LLPidLockFile::instance() { static LLPidLockFile the_file; return the_file; } void LLPidLockFile::writeLockFile(LLSD pids) { llofstream ofile(mLockName); if (!LLSDSerialize::toXML(pids,ofile)) { llwarns << "Unable to write concurrent save lock file." << llendl; } ofile.close(); } bool LLPidLockFile::requestLock(LLNameTable *name_table, bool autosave, bool force_immediate, F32 timeout) { bool readyToSave = FALSE; if (mSaving) return FALSE; //Bail out if we're currently saving. Will not queue another save. if (!mWaiting){ mNameTable=name_table; mAutosave = autosave; } LLSD out_pids; out_pids.append( (LLSD::Integer)mPID ); llifstream ifile(mLockName); if (ifile.is_open()) { //If file exists, we need to decide whether or not to continue. if ( force_immediate || mTimer.hasExpired() ) //Only deserialize if we REALLY need to. { LLSD in_pids; LLSDSerialize::fromXML(in_pids, ifile); //Clean up any dead PIDS that might be in there. for (LLSD::array_iterator i=in_pids.beginArray(); i !=in_pids.endArray(); ++i) { U32 stored_pid=(*i).asInteger(); if (isProcessAlive(stored_pid)) { out_pids.append( (*i) ); } } readyToSave=TRUE; } ifile.close(); } else { readyToSave=TRUE; } if (!mWaiting) //Not presently waiting to save. Queue up. { mTimer.resetWithExpiry(timeout); mWaiting=TRUE; } if (readyToSave) { //Potential race condition won't kill us. Ignore it. writeLockFile(out_pids); mSaving=TRUE; } return readyToSave; } bool LLPidLockFile::checkLock() { return mWaiting; } void LLPidLockFile::releaseLock() { llifstream ifile(mLockName); LLSD in_pids; LLSD out_pids; bool write_file=FALSE; LLSDSerialize::fromXML(in_pids, ifile); //Clean up this PID and any dead ones. for (LLSD::array_iterator i=in_pids.beginArray(); i !=in_pids.endArray(); ++i) { U32 stored_pid=(*i).asInteger(); if (stored_pid != mPID && isProcessAlive(stored_pid)) { out_pids.append( (*i) ); write_file=TRUE; } } ifile.close(); if (write_file) { writeLockFile(out_pids); } else { unlink(mLockName.c_str()); } mSaving=FALSE; mWaiting=FALSE; } //LLPidLock void LLPidLock::initClass() { (void) LLPidLockFile::instance(); } bool LLPidLock::checkLock() { return LLPidLockFile::instance().checkLock(); } bool LLPidLock::requestLock(LLNameTable *name_table, bool autosave, bool force_immediate, F32 timeout) { return LLPidLockFile::instance().requestLock(name_table,autosave,force_immediate,timeout); } void LLPidLock::releaseLock() { return LLPidLockFile::instance().releaseLock(); } bool LLPidLock::isClean() { return LLPidLockFile::instance().mClean; } //getters LLNameTable * LLPidLock::getNameTable() { return LLPidLockFile::instance().mNameTable; } bool LLPidLock::getAutosave() { return LLPidLockFile::instance().mAutosave; } bool LLPidLock::getClean() { return LLPidLockFile::instance().mClean; } std::string LLPidLock::getSaveName() { return LLPidLockFile::instance().mSaveName; } //setters void LLPidLock::setClean(bool clean) { LLPidLockFile::instance().mClean=clean; } void LLPidLock::setSaveName(std::string savename) { LLPidLockFile::instance().mSaveName=savename; } S32 LLPidLock::getPID() { return (S32)getpid(); }