/** * @file llvfsthread.cpp * @brief LLVFSThread implementation * * Copyright (c) 2001-2007, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlife.com/developers/opensource/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at http://secondlife.com/developers/opensource/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. */ #include "linden_common.h" #include "llmath.h" #include "llvfsthread.h" #include "llstl.h" //============================================================================ /*static*/ std::string LLVFSThread::sDataPath = ""; /*static*/ LLVFSThread* LLVFSThread::sLocal = NULL; //============================================================================ // Run on MAIN thread //static void LLVFSThread::initClass(bool local_is_threaded) { llassert(sLocal == NULL); sLocal = new LLVFSThread(local_is_threaded); } //static S32 LLVFSThread::updateClass(U32 ms_elapsed) { sLocal->update(ms_elapsed); return sLocal->getPending(); } //static void LLVFSThread::cleanupClass() { sLocal->setQuitting(); while (sLocal->getPending()) { sLocal->update(0); } delete sLocal; sLocal = 0; } //---------------------------------------------------------------------------- LLVFSThread::LLVFSThread(bool threaded) : LLQueuedThread("VFS", threaded) { } LLVFSThread::~LLVFSThread() { // ~LLQueuedThread() will be called here } //---------------------------------------------------------------------------- LLVFSThread::handle_t LLVFSThread::read(LLVFS* vfs, const LLUUID &file_id, const LLAssetType::EType file_type, U8* buffer, S32 offset, S32 numbytes, U32 priority, U32 flags) { handle_t handle = generateHandle(); priority = llmax(priority, (U32)PRIORITY_LOW); // All reads are at least PRIORITY_LOW Request* req = new Request(handle, priority, flags, FILE_READ, vfs, file_id, file_type, buffer, offset, numbytes); bool res = addRequest(req); if (!res) { llerrs << "LLVFSThread::read called after LLVFSThread::cleanupClass()" << llendl; req->deleteRequest(); handle = nullHandle(); } return handle; } S32 LLVFSThread::readImmediate(LLVFS* vfs, const LLUUID &file_id, const LLAssetType::EType file_type, U8* buffer, S32 offset, S32 numbytes) { handle_t handle = generateHandle(); Request* req = new Request(handle, PRIORITY_IMMEDIATE, 0, FILE_READ, vfs, file_id, file_type, buffer, offset, numbytes); S32 res = addRequest(req) ? 1 : 0; if (res == 0) { llerrs << "LLVFSThread::read called after LLVFSThread::cleanupClass()" << llendl; req->deleteRequest(); } else { llverify(waitForResult(handle, false) == true); res = req->getBytesRead(); completeRequest(handle); } return res; } LLVFSThread::handle_t LLVFSThread::write(LLVFS* vfs, const LLUUID &file_id, const LLAssetType::EType file_type, U8* buffer, S32 offset, S32 numbytes, U32 flags) { handle_t handle = generateHandle(); Request* req = new Request(handle, 0, flags, FILE_WRITE, vfs, file_id, file_type, buffer, offset, numbytes); bool res = addRequest(req); if (!res) { llerrs << "LLVFSThread::read called after LLVFSThread::cleanupClass()" << llendl; req->deleteRequest(); handle = nullHandle(); } return handle; } S32 LLVFSThread::writeImmediate(LLVFS* vfs, const LLUUID &file_id, const LLAssetType::EType file_type, U8* buffer, S32 offset, S32 numbytes) { handle_t handle = generateHandle(); Request* req = new Request(handle, PRIORITY_IMMEDIATE, 0, FILE_WRITE, vfs, file_id, file_type, buffer, offset, numbytes); S32 res = addRequest(req) ? 1 : 0; if (res == 0) { llerrs << "LLVFSThread::read called after LLVFSThread::cleanupClass()" << llendl; req->deleteRequest(); } else { llverify(waitForResult(handle, false) == true); res = req->getBytesRead(); completeRequest(handle); } return res; } // LLVFSThread::handle_t LLVFSThread::rename(LLVFS* vfs, const LLUUID &file_id, const LLAssetType::EType file_type, // const LLUUID &new_id, const LLAssetType::EType new_type, U32 flags) // { // handle_t handle = generateHandle(); // LLUUID* new_idp = new LLUUID(new_id); // deleted with Request // // new_type is passed as "numbytes" // Request* req = new Request(handle, 0, flags, FILE_RENAME, vfs, file_id, file_type, // (U8*)new_idp, 0, (S32)new_type); // bool res = addRequest(req); // if (!res) // { // llerrs << "LLVFSThread::read called after LLVFSThread::cleanupClass()" << llendl; // req->deleteRequest(); // handle = nullHandle(); // } // return handle; // } //============================================================================ LLVFSThread::Request::Request(handle_t handle, U32 priority, U32 flags, operation_t op, LLVFS* vfs, const LLUUID &file_id, const LLAssetType::EType file_type, U8* buffer, S32 offset, S32 numbytes) : QueuedRequest(handle, priority, flags), mOperation(op), mVFS(vfs), mFileID(file_id), mFileType(file_type), mBuffer(buffer), mOffset(offset), mBytes(numbytes), mBytesRead(0) { llassert(mBuffer); if (numbytes <= 0 && mOperation != FILE_RENAME) { llwarns << "LLVFSThread: Request with numbytes = " << numbytes << " operation = " << op << " offset " << offset << " file_type " << file_type << llendl; } if (mOperation == FILE_WRITE) { S32 blocksize = mVFS->getMaxSize(mFileID, mFileType); if (blocksize < 0) { llwarns << "VFS write to temporary block (shouldn't happen)" << llendl; } mVFS->incLock(mFileID, mFileType, VFSLOCK_APPEND); } else if (mOperation == FILE_RENAME) { mVFS->incLock(mFileID, mFileType, VFSLOCK_APPEND); } else // if (mOperation == FILE_READ) { mVFS->incLock(mFileID, mFileType, VFSLOCK_READ); } } // dec locks as soon as a request finishes void LLVFSThread::Request::finishRequest(bool completed) { if (mOperation == FILE_WRITE) { mVFS->decLock(mFileID, mFileType, VFSLOCK_APPEND); } else if (mOperation == FILE_RENAME) { mVFS->decLock(mFileID, mFileType, VFSLOCK_APPEND); } else // if (mOperation == FILE_READ) { mVFS->decLock(mFileID, mFileType, VFSLOCK_READ); } } void LLVFSThread::Request::deleteRequest() { if (getStatus() == STATUS_QUEUED) { llerrs << "Attempt to delete a queued LLVFSThread::Request!" << llendl; } if (mOperation == FILE_WRITE) { if (mFlags & FLAG_AUTO_DELETE) { delete [] mBuffer; } } else if (mOperation == FILE_RENAME) { LLUUID* new_idp = (LLUUID*)mBuffer; delete new_idp; } LLQueuedThread::QueuedRequest::deleteRequest(); } bool LLVFSThread::Request::processRequest() { bool complete = false; if (mOperation == FILE_READ) { llassert(mOffset >= 0); mBytesRead = mVFS->getData(mFileID, mFileType, mBuffer, mOffset, mBytes); complete = true; //llinfos << llformat("LLVFSThread::READ '%s': %d bytes arg:%d",getFilename(),mBytesRead) << llendl; } else if (mOperation == FILE_WRITE) { mBytesRead = mVFS->storeData(mFileID, mFileType, mBuffer, mOffset, mBytes); complete = true; //llinfos << llformat("LLVFSThread::WRITE '%s': %d bytes arg:%d",getFilename(),mBytesRead) << llendl; } else if (mOperation == FILE_RENAME) { LLUUID* new_idp = (LLUUID*)mBuffer; LLAssetType::EType new_type = (LLAssetType::EType)mBytes; mVFS->renameFile(mFileID, mFileType, *new_idp, new_type); mFileID = *new_idp; complete = true; //llinfos << llformat("LLVFSThread::RENAME '%s': %d bytes arg:%d",getFilename(),mBytesRead) << llendl; } else { llerrs << llformat("LLVFSThread::unknown operation: %d", mOperation) << llendl; } return complete; } //============================================================================