src/net/disk_cache/flash/segment.cc - cobalt - Git at Google

 // 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 <algorithm>

 #include "base/logging.h"
 #include "net/disk_cache/flash/format.h"
 #include "net/disk_cache/flash/segment.h"
 #include "net/disk_cache/flash/storage.h"

 namespace disk_cache {

 Segment::Segment(int32 index, bool read_only, Storage* storage)
     : index_(index),
       num_users_(0),
       read_only_(read_only),
       init_(false),
       storage_(storage),
       offset_(index * kFlashSegmentSize),
       summary_offset_(offset_ + kFlashSegmentSize - kFlashSummarySize),
       write_offset_(offset_) {
   DCHECK(storage);
   DCHECK(storage->size() % kFlashSegmentSize == 0);
 }

 Segment::~Segment() {
   DCHECK(!init_ || read_only_);
   if (num_users_ != 0)
     LOG(WARNING) << "Users exist, but we don't care? " << num_users_;
 }

 bool Segment::HaveOffset(int32 offset) const {
   DCHECK(init_);
   return std::binary_search(offsets_.begin(), offsets_.end(), offset);
 }

 void Segment::AddUser() {
   DCHECK(init_);
   ++num_users_;
 }

 void Segment::ReleaseUser() {
   DCHECK(init_);
   --num_users_;
 }

 bool Segment::HasNoUsers() const {
   DCHECK(init_);
   return num_users_ == 0;
 }

 bool Segment::Init() {
   DCHECK(!init_);

   if (offset_ < 0 || offset_ + kFlashSegmentSize > storage_->size())
     return false;

   if (!read_only_) {
     init_ = true;
     return true;
   }

   int32 summary[kFlashMaxEntryCount + 1];
   if (!storage_->Read(summary, kFlashSummarySize, summary_offset_))
     return false;

   size_t entry_count = summary[0];
   DCHECK_LE(entry_count, kFlashMaxEntryCount);

   std::vector<int32> tmp(summary + 1, summary + 1 + entry_count);
   offsets_.swap(tmp);
   init_ = true;
   return true;
 }

 bool Segment::WriteData(const void* buffer, int32 size) {
   DCHECK(init_ && !read_only_);
   DCHECK(write_offset_ + size <= summary_offset_);
   if (!storage_->Write(buffer, size, write_offset_))
     return false;
   write_offset_ += size;
   return true;
 }

 void Segment::StoreOffset(int32 offset) {
   DCHECK(init_ && !read_only_);
   DCHECK(offsets_.size() < kFlashMaxEntryCount);
   offsets_.push_back(offset);
 }

 bool Segment::ReadData(void* buffer, int32 size, int32 offset) const {
   DCHECK(init_);
   DCHECK(offset >= offset_ && offset + size <= offset_ + kFlashSegmentSize);
   return storage_->Read(buffer, size, offset);
 }

 bool Segment::Close() {
   DCHECK(init_);
   if (read_only_)
     return true;

   DCHECK(offsets_.size() <= kFlashMaxEntryCount);

   int32 summary[kFlashMaxEntryCount + 1];
   memset(summary, 0, kFlashSummarySize);
   summary[0] = offsets_.size();
   std::copy(offsets_.begin(), offsets_.end(), summary + 1);
   if (!storage_->Write(summary, kFlashSummarySize, summary_offset_))
     return false;

   read_only_ = true;
   return true;
 }

 bool Segment::CanHold(int32 size) const {
   DCHECK(init_);
   return offsets_.size() < kFlashMaxEntryCount &&
       write_offset_ + size <= summary_offset_;
 }

 }  // namespace disk_cache
	// 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 <algorithm>

	#include "base/logging.h"
	#include "net/disk_cache/flash/format.h"
	#include "net/disk_cache/flash/segment.h"
	#include "net/disk_cache/flash/storage.h"

	namespace disk_cache {

	Segment::Segment(int32 index, bool read_only, Storage* storage)
	: index_(index),
	num_users_(0),
	read_only_(read_only),
	init_(false),
	storage_(storage),
	offset_(index * kFlashSegmentSize),
	summary_offset_(offset_ + kFlashSegmentSize - kFlashSummarySize),
	write_offset_(offset_) {
	DCHECK(storage);
	DCHECK(storage->size() % kFlashSegmentSize == 0);
	}

	Segment::~Segment() {
	DCHECK(!init_ \|\| read_only_);
	if (num_users_ != 0)
	LOG(WARNING) << "Users exist, but we don't care? " << num_users_;
	}

	bool Segment::HaveOffset(int32 offset) const {
	DCHECK(init_);
	return std::binary_search(offsets_.begin(), offsets_.end(), offset);
	}

	void Segment::AddUser() {
	DCHECK(init_);
	++num_users_;
	}

	void Segment::ReleaseUser() {
	DCHECK(init_);
	--num_users_;
	}

	bool Segment::HasNoUsers() const {
	DCHECK(init_);
	return num_users_ == 0;
	}

	bool Segment::Init() {
	DCHECK(!init_);

	if (offset_ < 0 \|\| offset_ + kFlashSegmentSize > storage_->size())
	return false;

	if (!read_only_) {
	init_ = true;
	return true;
	}

	int32 summary[kFlashMaxEntryCount + 1];
	if (!storage_->Read(summary, kFlashSummarySize, summary_offset_))
	return false;

	size_t entry_count = summary[0];
	DCHECK_LE(entry_count, kFlashMaxEntryCount);

	std::vector<int32> tmp(summary + 1, summary + 1 + entry_count);
	offsets_.swap(tmp);
	init_ = true;
	return true;
	}

	bool Segment::WriteData(const void* buffer, int32 size) {
	DCHECK(init_ && !read_only_);
	DCHECK(write_offset_ + size <= summary_offset_);
	if (!storage_->Write(buffer, size, write_offset_))
	return false;
	write_offset_ += size;
	return true;
	}

	void Segment::StoreOffset(int32 offset) {
	DCHECK(init_ && !read_only_);
	DCHECK(offsets_.size() < kFlashMaxEntryCount);
	offsets_.push_back(offset);
	}

	bool Segment::ReadData(void* buffer, int32 size, int32 offset) const {
	DCHECK(init_);
	DCHECK(offset >= offset_ && offset + size <= offset_ + kFlashSegmentSize);
	return storage_->Read(buffer, size, offset);
	}

	bool Segment::Close() {
	DCHECK(init_);
	if (read_only_)
	return true;

	DCHECK(offsets_.size() <= kFlashMaxEntryCount);

	int32 summary[kFlashMaxEntryCount + 1];
	memset(summary, 0, kFlashSummarySize);
	summary[0] = offsets_.size();
	std::copy(offsets_.begin(), offsets_.end(), summary + 1);
	if (!storage_->Write(summary, kFlashSummarySize, summary_offset_))
	return false;

	read_only_ = true;
	return true;
	}

	bool Segment::CanHold(int32 size) const {
	DCHECK(init_);
	return offsets_.size() < kFlashMaxEntryCount &&
	write_offset_ + size <= summary_offset_;
	}

	} // namespace disk_cache