// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/disk_cache/in_flight_backend_io.h" #include "base/bind.h" #include "base/bind_helpers.h" #include "base/compiler_specific.h" #include "base/logging.h" #include "net/base/net_errors.h" #include "net/disk_cache/backend_impl.h" #include "net/disk_cache/entry_impl.h" #include "net/disk_cache/histogram_macros.h" namespace disk_cache { BackendIO::BackendIO(InFlightIO* controller, BackendImpl* backend, const net::CompletionCallback& callback) : BackgroundIO(controller), backend_(backend), callback_(callback), operation_(OP_NONE), entry_ptr_(NULL), iter_ptr_(NULL), iter_(NULL), entry_(NULL), index_(0), offset_(0), buf_len_(0), truncate_(false), offset64_(0), start_(NULL) { start_time_ = base::TimeTicks::Now(); } // Runs on the background thread. void BackendIO::ExecuteOperation() { if (IsEntryOperation()) return ExecuteEntryOperation(); ExecuteBackendOperation(); } // Runs on the background thread. void BackendIO::OnIOComplete(int result) { DCHECK(IsEntryOperation()); DCHECK_NE(result, net::ERR_IO_PENDING); result_ = result; NotifyController(); } // Runs on the primary thread. void BackendIO::OnDone(bool cancel) { if (IsEntryOperation()) { CACHE_UMA(TIMES, "TotalIOTime", 0, ElapsedTime()); } if (!ReturnsEntry()) return; if (result() == net::OK) { static_cast(*entry_ptr_)->OnEntryCreated(backend_); if (cancel) (*entry_ptr_)->Close(); } } bool BackendIO::IsEntryOperation() { return operation_ > OP_MAX_BACKEND; } // Runs on the background thread. void BackendIO::ReferenceEntry() { entry_->AddRef(); } void BackendIO::Init() { operation_ = OP_INIT; } void BackendIO::OpenEntry(const std::string& key, Entry** entry) { operation_ = OP_OPEN; key_ = key; entry_ptr_ = entry; } void BackendIO::CreateEntry(const std::string& key, Entry** entry) { operation_ = OP_CREATE; key_ = key; entry_ptr_ = entry; } void BackendIO::DoomEntry(const std::string& key) { operation_ = OP_DOOM; key_ = key; } void BackendIO::DoomAllEntries() { operation_ = OP_DOOM_ALL; } void BackendIO::DoomEntriesBetween(const base::Time initial_time, const base::Time end_time) { operation_ = OP_DOOM_BETWEEN; initial_time_ = initial_time; end_time_ = end_time; } void BackendIO::DoomEntriesSince(const base::Time initial_time) { operation_ = OP_DOOM_SINCE; initial_time_ = initial_time; } void BackendIO::OpenNextEntry(void** iter, Entry** next_entry) { operation_ = OP_OPEN_NEXT; iter_ptr_ = iter; entry_ptr_ = next_entry; } void BackendIO::OpenPrevEntry(void** iter, Entry** prev_entry) { operation_ = OP_OPEN_PREV; iter_ptr_ = iter; entry_ptr_ = prev_entry; } void BackendIO::EndEnumeration(void* iterator) { operation_ = OP_END_ENUMERATION; iter_ = iterator; } void BackendIO::OnExternalCacheHit(const std::string& key) { operation_ = OP_ON_EXTERNAL_CACHE_HIT; key_ = key; } void BackendIO::CloseEntryImpl(EntryImpl* entry) { operation_ = OP_CLOSE_ENTRY; entry_ = entry; } void BackendIO::DoomEntryImpl(EntryImpl* entry) { operation_ = OP_DOOM_ENTRY; entry_ = entry; } void BackendIO::FlushQueue() { operation_ = OP_FLUSH_QUEUE; } void BackendIO::RunTask(const base::Closure& task) { operation_ = OP_RUN_TASK; task_ = task; } void BackendIO::ReadData(EntryImpl* entry, int index, int offset, net::IOBuffer* buf, int buf_len) { operation_ = OP_READ; entry_ = entry; index_ = index; offset_ = offset; buf_ = buf; buf_len_ = buf_len; } void BackendIO::WriteData(EntryImpl* entry, int index, int offset, net::IOBuffer* buf, int buf_len, bool truncate) { operation_ = OP_WRITE; entry_ = entry; index_ = index; offset_ = offset; buf_ = buf; buf_len_ = buf_len; truncate_ = truncate; } void BackendIO::ReadSparseData(EntryImpl* entry, int64 offset, net::IOBuffer* buf, int buf_len) { operation_ = OP_READ_SPARSE; entry_ = entry; offset64_ = offset; buf_ = buf; buf_len_ = buf_len; } void BackendIO::WriteSparseData(EntryImpl* entry, int64 offset, net::IOBuffer* buf, int buf_len) { operation_ = OP_WRITE_SPARSE; entry_ = entry; offset64_ = offset; buf_ = buf; buf_len_ = buf_len; } void BackendIO::GetAvailableRange(EntryImpl* entry, int64 offset, int len, int64* start) { operation_ = OP_GET_RANGE; entry_ = entry; offset64_ = offset; buf_len_ = len; start_ = start; } void BackendIO::CancelSparseIO(EntryImpl* entry) { operation_ = OP_CANCEL_IO; entry_ = entry; } void BackendIO::ReadyForSparseIO(EntryImpl* entry) { operation_ = OP_IS_READY; entry_ = entry; } BackendIO::~BackendIO() {} bool BackendIO::ReturnsEntry() { return (operation_ == OP_OPEN || operation_ == OP_CREATE || operation_ == OP_OPEN_NEXT || operation_ == OP_OPEN_PREV); } base::TimeDelta BackendIO::ElapsedTime() const { return base::TimeTicks::Now() - start_time_; } // Runs on the background thread. void BackendIO::ExecuteBackendOperation() { switch (operation_) { case OP_INIT: result_ = backend_->SyncInit(); break; case OP_OPEN: result_ = backend_->SyncOpenEntry(key_, entry_ptr_); break; case OP_CREATE: result_ = backend_->SyncCreateEntry(key_, entry_ptr_); break; case OP_DOOM: result_ = backend_->SyncDoomEntry(key_); break; case OP_DOOM_ALL: result_ = backend_->SyncDoomAllEntries(); break; case OP_DOOM_BETWEEN: result_ = backend_->SyncDoomEntriesBetween(initial_time_, end_time_); break; case OP_DOOM_SINCE: result_ = backend_->SyncDoomEntriesSince(initial_time_); break; case OP_OPEN_NEXT: result_ = backend_->SyncOpenNextEntry(iter_ptr_, entry_ptr_); break; case OP_OPEN_PREV: result_ = backend_->SyncOpenPrevEntry(iter_ptr_, entry_ptr_); break; case OP_END_ENUMERATION: backend_->SyncEndEnumeration(iter_); result_ = net::OK; break; case OP_ON_EXTERNAL_CACHE_HIT: backend_->SyncOnExternalCacheHit(key_); result_ = net::OK; break; case OP_CLOSE_ENTRY: entry_->Release(); result_ = net::OK; break; case OP_DOOM_ENTRY: entry_->DoomImpl(); result_ = net::OK; break; case OP_FLUSH_QUEUE: result_ = net::OK; break; case OP_RUN_TASK: task_.Run(); result_ = net::OK; break; default: NOTREACHED() << "Invalid Operation"; result_ = net::ERR_UNEXPECTED; } DCHECK_NE(net::ERR_IO_PENDING, result_); NotifyController(); } // Runs on the background thread. void BackendIO::ExecuteEntryOperation() { switch (operation_) { case OP_READ: result_ = entry_->ReadDataImpl(index_, offset_, buf_.get(), buf_len_, base::Bind(&BackendIO::OnIOComplete, this)); break; case OP_WRITE: result_ = entry_->WriteDataImpl(index_, offset_, buf_.get(), buf_len_, base::Bind(&BackendIO::OnIOComplete, this), truncate_); break; case OP_READ_SPARSE: result_ = entry_->ReadSparseDataImpl( offset64_, buf_.get(), buf_len_, base::Bind(&BackendIO::OnIOComplete, this)); break; case OP_WRITE_SPARSE: result_ = entry_->WriteSparseDataImpl( offset64_, buf_.get(), buf_len_, base::Bind(&BackendIO::OnIOComplete, this)); break; case OP_GET_RANGE: result_ = entry_->GetAvailableRangeImpl(offset64_, buf_len_, start_); break; case OP_CANCEL_IO: entry_->CancelSparseIOImpl(); result_ = net::OK; break; case OP_IS_READY: result_ = entry_->ReadyForSparseIOImpl( base::Bind(&BackendIO::OnIOComplete, this)); break; default: NOTREACHED() << "Invalid Operation"; result_ = net::ERR_UNEXPECTED; } buf_ = NULL; if (result_ != net::ERR_IO_PENDING) NotifyController(); } InFlightBackendIO::InFlightBackendIO(BackendImpl* backend, base::MessageLoopProxy* background_thread) : backend_(backend), background_thread_(background_thread), ptr_factory_(this) { } InFlightBackendIO::~InFlightBackendIO() { } void InFlightBackendIO::Init(const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->Init(); PostOperation(operation.get()); } void InFlightBackendIO::OpenEntry(const std::string& key, Entry** entry, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->OpenEntry(key, entry); PostOperation(operation.get()); } void InFlightBackendIO::CreateEntry(const std::string& key, Entry** entry, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->CreateEntry(key, entry); PostOperation(operation.get()); } void InFlightBackendIO::DoomEntry(const std::string& key, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->DoomEntry(key); PostOperation(operation.get()); } void InFlightBackendIO::DoomAllEntries( const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->DoomAllEntries(); PostOperation(operation.get()); } void InFlightBackendIO::DoomEntriesBetween(const base::Time initial_time, const base::Time end_time, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->DoomEntriesBetween(initial_time, end_time); PostOperation(operation.get()); } void InFlightBackendIO::DoomEntriesSince( const base::Time initial_time, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->DoomEntriesSince(initial_time); PostOperation(operation.get()); } void InFlightBackendIO::OpenNextEntry(void** iter, Entry** next_entry, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->OpenNextEntry(iter, next_entry); PostOperation(operation.get()); } void InFlightBackendIO::OpenPrevEntry(void** iter, Entry** prev_entry, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->OpenPrevEntry(iter, prev_entry); PostOperation(operation.get()); } void InFlightBackendIO::EndEnumeration(void* iterator) { scoped_refptr operation( new BackendIO(this, backend_, net::CompletionCallback())); operation->EndEnumeration(iterator); PostOperation(operation.get()); } void InFlightBackendIO::OnExternalCacheHit(const std::string& key) { scoped_refptr operation( new BackendIO(this, backend_, net::CompletionCallback())); operation->OnExternalCacheHit(key); PostOperation(operation.get()); } void InFlightBackendIO::CloseEntryImpl(EntryImpl* entry) { scoped_refptr operation( new BackendIO(this, backend_, net::CompletionCallback())); operation->CloseEntryImpl(entry); PostOperation(operation.get()); } void InFlightBackendIO::DoomEntryImpl(EntryImpl* entry) { scoped_refptr operation( new BackendIO(this, backend_, net::CompletionCallback())); operation->DoomEntryImpl(entry); PostOperation(operation.get()); } void InFlightBackendIO::FlushQueue(const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->FlushQueue(); PostOperation(operation.get()); } void InFlightBackendIO::RunTask( const base::Closure& task, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->RunTask(task); PostOperation(operation.get()); } void InFlightBackendIO::ReadData(EntryImpl* entry, int index, int offset, net::IOBuffer* buf, int buf_len, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->ReadData(entry, index, offset, buf, buf_len); PostOperation(operation.get()); } void InFlightBackendIO::WriteData(EntryImpl* entry, int index, int offset, net::IOBuffer* buf, int buf_len, bool truncate, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->WriteData(entry, index, offset, buf, buf_len, truncate); PostOperation(operation.get()); } void InFlightBackendIO::ReadSparseData( EntryImpl* entry, int64 offset, net::IOBuffer* buf, int buf_len, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->ReadSparseData(entry, offset, buf, buf_len); PostOperation(operation.get()); } void InFlightBackendIO::WriteSparseData( EntryImpl* entry, int64 offset, net::IOBuffer* buf, int buf_len, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->WriteSparseData(entry, offset, buf, buf_len); PostOperation(operation.get()); } void InFlightBackendIO::GetAvailableRange( EntryImpl* entry, int64 offset, int len, int64* start, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->GetAvailableRange(entry, offset, len, start); PostOperation(operation.get()); } void InFlightBackendIO::CancelSparseIO(EntryImpl* entry) { scoped_refptr operation( new BackendIO(this, backend_, net::CompletionCallback())); operation->CancelSparseIO(entry); PostOperation(operation.get()); } void InFlightBackendIO::ReadyForSparseIO( EntryImpl* entry, const net::CompletionCallback& callback) { scoped_refptr operation(new BackendIO(this, backend_, callback)); operation->ReadyForSparseIO(entry); PostOperation(operation.get()); } void InFlightBackendIO::WaitForPendingIO() { InFlightIO::WaitForPendingIO(); } void InFlightBackendIO::OnOperationComplete(BackgroundIO* operation, bool cancel) { BackendIO* op = static_cast(operation); op->OnDone(cancel); if (!op->callback().is_null() && (!cancel || op->IsEntryOperation())) op->callback().Run(op->result()); } void InFlightBackendIO::PostOperation(BackendIO* operation) { background_thread_->PostTask(FROM_HERE, base::Bind(&BackendIO::ExecuteOperation, operation)); OnOperationPosted(operation); } base::WeakPtr InFlightBackendIO::GetWeakPtr() { return ptr_factory_.GetWeakPtr(); } } // namespace