// 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 "webkit/blob/blob_storage_controller.h"
#include "base/logging.h"
#include "googleurl/src/gurl.h"
#include "net/base/upload_data.h"
#include "webkit/blob/blob_data.h"
namespace webkit_blob {
namespace {
// We can't use GURL directly for these hash fragment manipulations
// since it doesn't have specific knowlege of the BlobURL format. GURL
// treats BlobURLs as if they were PathURLs which don't support hash
// fragments.
bool BlobUrlHasRef(const GURL& url) {
return url.spec().find('#') != std::string::npos;
}
GURL ClearBlobUrlRef(const GURL& url) {
size_t hash_pos = url.spec().find('#');
if (hash_pos == std::string::npos)
return url;
return GURL(url.spec().substr(0, hash_pos));
}
static const int64 kMaxMemoryUsage = 1024 * 1024 * 1024; // 1G
} // namespace
BlobStorageController::BlobStorageController()
: memory_usage_(0) {
}
BlobStorageController::~BlobStorageController() {
}
void BlobStorageController::StartBuildingBlob(const GURL& url) {
DCHECK(url.SchemeIs("blob"));
DCHECK(!BlobUrlHasRef(url));
BlobData* blob_data = new BlobData;
unfinalized_blob_map_[url.spec()] = blob_data;
IncrementBlobDataUsage(blob_data);
}
void BlobStorageController::AppendBlobDataItem(
const GURL& url, const BlobData::Item& item) {
DCHECK(url.SchemeIs("blob"));
DCHECK(!BlobUrlHasRef(url));
BlobMap::iterator found = unfinalized_blob_map_.find(url.spec());
if (found == unfinalized_blob_map_.end())
return;
BlobData* target_blob_data = found->second;
DCHECK(target_blob_data);
memory_usage_ -= target_blob_data->GetMemoryUsage();
// The blob data is stored in the "canonical" way. That is, it only contains a
// list of Data and File items.
// 1) The Data item is denoted by the raw data and the range.
// 2) The File item is denoted by the file path, the range and the expected
// modification time.
// All the Blob items in the passing blob data are resolved and expanded into
// a set of Data and File items.
switch (item.type) {
case BlobData::TYPE_DATA:
// WebBlobData does not allow partial data.
DCHECK(!(item.offset) && item.length == item.data.size());
target_blob_data->AppendData(item.data.c_str(), item.data.size());
break;
case BlobData::TYPE_DATA_EXTERNAL:
DCHECK(!item.offset);
target_blob_data->AppendData(item.data_external, item.length);
break;
case BlobData::TYPE_FILE:
AppendFileItem(target_blob_data,
item.file_path,
item.offset,
item.length,
item.expected_modification_time);
break;
case BlobData::TYPE_BLOB:
BlobData* src_blob_data = GetBlobDataFromUrl(item.blob_url);
DCHECK(src_blob_data);
if (src_blob_data)
AppendStorageItems(target_blob_data,
src_blob_data,
item.offset,
item.length);
break;
}
memory_usage_ += target_blob_data->GetMemoryUsage();
// If we're using too much memory, drop this blob.
// TODO(michaeln): Blob memory storage does not yet spill over to disk,
// until it does, we'll prevent memory usage over a max amount.
if (memory_usage_ > kMaxMemoryUsage)
RemoveBlob(url);
}
void BlobStorageController::FinishBuildingBlob(
const GURL& url, const std::string& content_type) {
DCHECK(url.SchemeIs("blob"));
DCHECK(!BlobUrlHasRef(url));
BlobMap::iterator found = unfinalized_blob_map_.find(url.spec());
if (found == unfinalized_blob_map_.end())
return;
found->second->set_content_type(content_type);
blob_map_[url.spec()] = found->second;
unfinalized_blob_map_.erase(found);
}
void BlobStorageController::AddFinishedBlob(const GURL& url,
const BlobData* data) {
StartBuildingBlob(url);
for (std::vector<BlobData::Item>::const_iterator iter =
data->items().begin();
iter != data->items().end(); ++iter) {
AppendBlobDataItem(url, *iter);
}
FinishBuildingBlob(url, data->content_type());
}
void BlobStorageController::CloneBlob(
const GURL& url, const GURL& src_url) {
DCHECK(url.SchemeIs("blob"));
DCHECK(!BlobUrlHasRef(url));
BlobData* blob_data = GetBlobDataFromUrl(src_url);
DCHECK(blob_data);
if (!blob_data)
return;
blob_map_[url.spec()] = blob_data;
IncrementBlobDataUsage(blob_data);
}
void BlobStorageController::RemoveBlob(const GURL& url) {
DCHECK(url.SchemeIs("blob"));
DCHECK(!BlobUrlHasRef(url));
if (!RemoveFromMapHelper(&unfinalized_blob_map_, url))
RemoveFromMapHelper(&blob_map_, url);
}
bool BlobStorageController::RemoveFromMapHelper(
BlobMap* map, const GURL& url) {
BlobMap::iterator found = map->find(url.spec());
if (found == map->end())
return false;
if (DecrementBlobDataUsage(found->second))
memory_usage_ -= found->second->GetMemoryUsage();
map->erase(found);
return true;
}
BlobData* BlobStorageController::GetBlobDataFromUrl(const GURL& url) {
BlobMap::iterator found = blob_map_.find(
BlobUrlHasRef(url) ? ClearBlobUrlRef(url).spec() : url.spec());
return (found != blob_map_.end()) ? found->second : NULL;
}
void BlobStorageController::ResolveBlobReferencesInUploadData(
net::UploadData* upload_data) {
DCHECK(upload_data);
std::vector<net::UploadData::Element>* uploads = upload_data->elements();
std::vector<net::UploadData::Element>::iterator iter;
for (iter = uploads->begin(); iter != uploads->end();) {
if (iter->type() != net::UploadData::TYPE_BLOB) {
iter++;
continue;
}
// Find the referred blob data.
BlobData* blob_data = GetBlobDataFromUrl(iter->blob_url());
DCHECK(blob_data);
if (!blob_data) {
// TODO(jianli): We should probably fail uploading the data
iter++;
continue;
}
// Remove this element.
iter = uploads->erase(iter);
// If there is no element in the referred blob data, continue the loop.
// Note that we should not increase iter since it already points to the one
// after the removed element.
if (blob_data->items().empty())
continue;
// Ensure the blob and any attached shareable files survive until
// upload completion.
upload_data->SetUserData(blob_data,
new base::UserDataAdapter<BlobData>(blob_data));
// Insert the elements in the referred blob data.
// Note that we traverse from the bottom so that the elements can be
// inserted in the original order.
for (size_t i = blob_data->items().size(); i > 0; --i) {
iter = uploads->insert(iter, net::UploadData::Element());
const BlobData::Item& item = blob_data->items().at(i - 1);
switch (item.type) {
case BlobData::TYPE_DATA:
// TODO(jianli): Figure out how to avoid copying the data.
// TODO(michaeln): Now that blob_data surives for the duration,
// maybe UploadData could take a raw ptr without having to copy.
iter->SetToBytes(
&item.data.at(0) + static_cast<int>(item.offset),
static_cast<int>(item.length));
break;
case BlobData::TYPE_FILE:
iter->SetToFilePathRange(
item.file_path,
item.offset,
item.length,
item.expected_modification_time);
break;
default:
NOTREACHED();
break;
}
}
}
}
void BlobStorageController::AppendStorageItems(
BlobData* target_blob_data, BlobData* src_blob_data,
uint64 offset, uint64 length) {
DCHECK(target_blob_data && src_blob_data &&
length != static_cast<uint64>(-1));
std::vector<BlobData::Item>::const_iterator iter =
src_blob_data->items().begin();
if (offset) {
for (; iter != src_blob_data->items().end(); ++iter) {
if (offset >= iter->length)
offset -= iter->length;
else
break;
}
}
for (; iter != src_blob_data->items().end() && length > 0; ++iter) {
uint64 current_length = iter->length - offset;
uint64 new_length = current_length > length ? length : current_length;
if (iter->type == BlobData::TYPE_DATA) {
target_blob_data->AppendData(
iter->data.c_str() + static_cast<size_t>(iter->offset + offset),
static_cast<uint32>(new_length));
} else {
DCHECK(iter->type == BlobData::TYPE_FILE);
AppendFileItem(target_blob_data,
iter->file_path,
iter->offset + offset,
new_length,
iter->expected_modification_time);
}
length -= new_length;
offset = 0;
}
}
void BlobStorageController::AppendFileItem(
BlobData* target_blob_data,
const FilePath& file_path, uint64 offset, uint64 length,
const base::Time& expected_modification_time) {
target_blob_data->AppendFile(file_path, offset, length,
expected_modification_time);
// It may be a temporary file that should be deleted when no longer needed.
scoped_refptr<ShareableFileReference> shareable_file =
ShareableFileReference::Get(file_path);
if (shareable_file)
target_blob_data->AttachShareableFileReference(shareable_file);
}
void BlobStorageController::IncrementBlobDataUsage(BlobData* blob_data) {
blob_data_usage_count_[blob_data] += 1;
}
bool BlobStorageController::DecrementBlobDataUsage(BlobData* blob_data) {
BlobDataUsageMap::iterator found = blob_data_usage_count_.find(blob_data);
DCHECK(found != blob_data_usage_count_.end());
if (--(found->second))
return false; // Still in use
blob_data_usage_count_.erase(found);
return true;
}
} // namespace webkit_blob