content/child/indexed_db/proxy_webidbcursor_impl.cc - chromium/src - Git at Google

 // Copyright 2013 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 "content/child/indexed_db/proxy_webidbcursor_impl.h"

 #include <vector>

 #include "content/child/thread_safe_sender.h"
 #include "content/child/indexed_db/indexed_db_dispatcher.h"
 #include "content/child/indexed_db/indexed_db_key_builders.h"
 #include "content/common/indexed_db/indexed_db_messages.h"

 using blink::WebData;
 using blink::WebIDBCallbacks;
 using blink::WebIDBKey;

 namespace content {

 RendererWebIDBCursorImpl::RendererWebIDBCursorImpl(
     int32 ipc_cursor_id,
     ThreadSafeSender* thread_safe_sender)
     : ipc_cursor_id_(ipc_cursor_id),
       continue_count_(0),
       used_prefetches_(0),
       pending_onsuccess_callbacks_(0),
       prefetch_amount_(kMinPrefetchAmount),
       thread_safe_sender_(thread_safe_sender) {}

 RendererWebIDBCursorImpl::~RendererWebIDBCursorImpl() {
   // It's not possible for there to be pending callbacks that address this
   // object since inside WebKit, they hold a reference to the object which owns
   // this object. But, if that ever changed, then we'd need to invalidate
   // any such pointers.

   if (ipc_cursor_id_ != kInvalidCursorId) {
     // Invalid ID used in tests to avoid really sending this message.
     thread_safe_sender_->Send(
         new IndexedDBHostMsg_CursorDestroyed(ipc_cursor_id_));
   }
   IndexedDBDispatcher* dispatcher =
       IndexedDBDispatcher::ThreadSpecificInstance(thread_safe_sender_.get());
   dispatcher->CursorDestroyed(ipc_cursor_id_);
 }

 void RendererWebIDBCursorImpl::advance(unsigned long count,
                                        WebIDBCallbacks* callbacks_ptr) {
   IndexedDBDispatcher* dispatcher =
       IndexedDBDispatcher::ThreadSpecificInstance(thread_safe_sender_.get());
   scoped_ptr<WebIDBCallbacks> callbacks(callbacks_ptr);
   ResetPrefetchCache();
   dispatcher->RequestIDBCursorAdvance(
       count, callbacks.release(), ipc_cursor_id_);
 }

 void RendererWebIDBCursorImpl::continueFunction(
     const WebIDBKey& key,
     WebIDBCallbacks* callbacks_ptr) {
   continueFunction(key, WebIDBKey::createNull(), callbacks_ptr);
 }

 void RendererWebIDBCursorImpl::continueFunction(
     const WebIDBKey& key,
     const WebIDBKey& primary_key,
     WebIDBCallbacks* callbacks_ptr) {
   IndexedDBDispatcher* dispatcher =
       IndexedDBDispatcher::ThreadSpecificInstance(thread_safe_sender_.get());
   scoped_ptr<WebIDBCallbacks> callbacks(callbacks_ptr);

   if (key.keyType() == blink::WebIDBKeyTypeNull &&
       primary_key.keyType() == blink::WebIDBKeyTypeNull) {
     // No key(s), so this would qualify for a prefetch.
     ++continue_count_;

     if (!prefetch_keys_.empty()) {
       // We have a prefetch cache, so serve the result from that.
       CachedContinue(callbacks.get());
       return;
     }

     if (continue_count_ > kPrefetchContinueThreshold) {
       // Request pre-fetch.
       ++pending_onsuccess_callbacks_;
       dispatcher->RequestIDBCursorPrefetch(
           prefetch_amount_, callbacks.release(), ipc_cursor_id_);

       // Increase prefetch_amount_ exponentially.
       prefetch_amount_ *= 2;
       if (prefetch_amount_ > kMaxPrefetchAmount)
         prefetch_amount_ = kMaxPrefetchAmount;

       return;
     }
   } else {
     // Key argument supplied. We couldn't prefetch this.
     ResetPrefetchCache();
   }

   dispatcher->RequestIDBCursorContinue(IndexedDBKeyBuilder::Build(key),
                                        IndexedDBKeyBuilder::Build(primary_key),
                                        callbacks.release(),
                                        ipc_cursor_id_);
 }

 void RendererWebIDBCursorImpl::postSuccessHandlerCallback() {
   pending_onsuccess_callbacks_--;

   // If the onsuccess callback called continue() on the cursor again,
   // and that continue was served by the prefetch cache, then
   // pending_onsuccess_callbacks_ would be incremented.
   // If not, it means the callback did something else, or nothing at all,
   // in which case we need to reset the cache.

   if (pending_onsuccess_callbacks_ == 0)
     ResetPrefetchCache();
 }

 void RendererWebIDBCursorImpl::SetPrefetchData(
     const std::vector<IndexedDBKey>& keys,
     const std::vector<IndexedDBKey>& primary_keys,
     const std::vector<WebData>& values) {
   prefetch_keys_.assign(keys.begin(), keys.end());
   prefetch_primary_keys_.assign(primary_keys.begin(), primary_keys.end());
   prefetch_values_.assign(values.begin(), values.end());

   used_prefetches_ = 0;
   pending_onsuccess_callbacks_ = 0;
 }

 void RendererWebIDBCursorImpl::CachedContinue(WebIDBCallbacks* callbacks) {
   DCHECK_GT(prefetch_keys_.size(), 0ul);
   DCHECK(prefetch_primary_keys_.size() == prefetch_keys_.size());
   DCHECK(prefetch_values_.size() == prefetch_keys_.size());

   IndexedDBKey key = prefetch_keys_.front();
   IndexedDBKey primary_key = prefetch_primary_keys_.front();
   // this could be a real problem.. we need 2 CachedContinues
   WebData value = prefetch_values_.front();

   prefetch_keys_.pop_front();
   prefetch_primary_keys_.pop_front();
   prefetch_values_.pop_front();
   used_prefetches_++;

   pending_onsuccess_callbacks_++;

   callbacks->onSuccess(WebIDBKeyBuilder::Build(key),
                        WebIDBKeyBuilder::Build(primary_key), value);
 }

 void RendererWebIDBCursorImpl::ResetPrefetchCache() {
   continue_count_ = 0;
   prefetch_amount_ = kMinPrefetchAmount;

   if (!prefetch_keys_.size()) {
     // No prefetch cache, so no need to reset the cursor in the back-end.
     return;
   }

   IndexedDBDispatcher* dispatcher =
       IndexedDBDispatcher::ThreadSpecificInstance(thread_safe_sender_.get());
   dispatcher->RequestIDBCursorPrefetchReset(
       used_prefetches_, prefetch_keys_.size(), ipc_cursor_id_);
   prefetch_keys_.clear();
   prefetch_primary_keys_.clear();
   prefetch_values_.clear();

   pending_onsuccess_callbacks_ = 0;
 }

 }  // namespace content
	// Copyright 2013 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 "content/child/indexed_db/proxy_webidbcursor_impl.h"

	#include <vector>

	#include "content/child/thread_safe_sender.h"
	#include "content/child/indexed_db/indexed_db_dispatcher.h"
	#include "content/child/indexed_db/indexed_db_key_builders.h"
	#include "content/common/indexed_db/indexed_db_messages.h"

	using blink::WebData;
	using blink::WebIDBCallbacks;
	using blink::WebIDBKey;

	namespace content {

	RendererWebIDBCursorImpl::RendererWebIDBCursorImpl(
	int32 ipc_cursor_id,
	ThreadSafeSender* thread_safe_sender)
	: ipc_cursor_id_(ipc_cursor_id),
	continue_count_(0),
	used_prefetches_(0),
	pending_onsuccess_callbacks_(0),
	prefetch_amount_(kMinPrefetchAmount),
	thread_safe_sender_(thread_safe_sender) {}

	RendererWebIDBCursorImpl::~RendererWebIDBCursorImpl() {
	// It's not possible for there to be pending callbacks that address this
	// object since inside WebKit, they hold a reference to the object which owns
	// this object. But, if that ever changed, then we'd need to invalidate
	// any such pointers.

	if (ipc_cursor_id_ != kInvalidCursorId) {
	// Invalid ID used in tests to avoid really sending this message.
	thread_safe_sender_->Send(
	new IndexedDBHostMsg_CursorDestroyed(ipc_cursor_id_));
	}
	IndexedDBDispatcher* dispatcher =
	IndexedDBDispatcher::ThreadSpecificInstance(thread_safe_sender_.get());
	dispatcher->CursorDestroyed(ipc_cursor_id_);
	}

	void RendererWebIDBCursorImpl::advance(unsigned long count,
	WebIDBCallbacks* callbacks_ptr) {
	IndexedDBDispatcher* dispatcher =
	IndexedDBDispatcher::ThreadSpecificInstance(thread_safe_sender_.get());
	scoped_ptr<WebIDBCallbacks> callbacks(callbacks_ptr);
	ResetPrefetchCache();
	dispatcher->RequestIDBCursorAdvance(
	count, callbacks.release(), ipc_cursor_id_);
	}

	void RendererWebIDBCursorImpl::continueFunction(
	const WebIDBKey& key,
	WebIDBCallbacks* callbacks_ptr) {
	continueFunction(key, WebIDBKey::createNull(), callbacks_ptr);
	}

	void RendererWebIDBCursorImpl::continueFunction(
	const WebIDBKey& key,
	const WebIDBKey& primary_key,
	WebIDBCallbacks* callbacks_ptr) {
	IndexedDBDispatcher* dispatcher =
	IndexedDBDispatcher::ThreadSpecificInstance(thread_safe_sender_.get());
	scoped_ptr<WebIDBCallbacks> callbacks(callbacks_ptr);

	if (key.keyType() == blink::WebIDBKeyTypeNull &&
	primary_key.keyType() == blink::WebIDBKeyTypeNull) {
	// No key(s), so this would qualify for a prefetch.
	++continue_count_;

	if (!prefetch_keys_.empty()) {
	// We have a prefetch cache, so serve the result from that.
	CachedContinue(callbacks.get());
	return;
	}

	if (continue_count_ > kPrefetchContinueThreshold) {
	// Request pre-fetch.
	++pending_onsuccess_callbacks_;
	dispatcher->RequestIDBCursorPrefetch(
	prefetch_amount_, callbacks.release(), ipc_cursor_id_);

	// Increase prefetch_amount_ exponentially.
	prefetch_amount_ *= 2;
	if (prefetch_amount_ > kMaxPrefetchAmount)
	prefetch_amount_ = kMaxPrefetchAmount;

	return;
	}
	} else {
	// Key argument supplied. We couldn't prefetch this.
	ResetPrefetchCache();
	}

	dispatcher->RequestIDBCursorContinue(IndexedDBKeyBuilder::Build(key),
	IndexedDBKeyBuilder::Build(primary_key),
	callbacks.release(),
	ipc_cursor_id_);
	}

	void RendererWebIDBCursorImpl::postSuccessHandlerCallback() {
	pending_onsuccess_callbacks_--;

	// If the onsuccess callback called continue() on the cursor again,
	// and that continue was served by the prefetch cache, then
	// pending_onsuccess_callbacks_ would be incremented.
	// If not, it means the callback did something else, or nothing at all,
	// in which case we need to reset the cache.

	if (pending_onsuccess_callbacks_ == 0)
	ResetPrefetchCache();
	}

	void RendererWebIDBCursorImpl::SetPrefetchData(
	const std::vector<IndexedDBKey>& keys,
	const std::vector<IndexedDBKey>& primary_keys,
	const std::vector<WebData>& values) {
	prefetch_keys_.assign(keys.begin(), keys.end());
	prefetch_primary_keys_.assign(primary_keys.begin(), primary_keys.end());
	prefetch_values_.assign(values.begin(), values.end());

	used_prefetches_ = 0;
	pending_onsuccess_callbacks_ = 0;
	}

	void RendererWebIDBCursorImpl::CachedContinue(WebIDBCallbacks* callbacks) {
	DCHECK_GT(prefetch_keys_.size(), 0ul);
	DCHECK(prefetch_primary_keys_.size() == prefetch_keys_.size());
	DCHECK(prefetch_values_.size() == prefetch_keys_.size());

	IndexedDBKey key = prefetch_keys_.front();
	IndexedDBKey primary_key = prefetch_primary_keys_.front();
	// this could be a real problem.. we need 2 CachedContinues
	WebData value = prefetch_values_.front();

	prefetch_keys_.pop_front();
	prefetch_primary_keys_.pop_front();
	prefetch_values_.pop_front();
	used_prefetches_++;

	pending_onsuccess_callbacks_++;

	callbacks->onSuccess(WebIDBKeyBuilder::Build(key),
	WebIDBKeyBuilder::Build(primary_key), value);
	}

	void RendererWebIDBCursorImpl::ResetPrefetchCache() {
	continue_count_ = 0;
	prefetch_amount_ = kMinPrefetchAmount;

	if (!prefetch_keys_.size()) {
	// No prefetch cache, so no need to reset the cursor in the back-end.
	return;
	}

	IndexedDBDispatcher* dispatcher =
	IndexedDBDispatcher::ThreadSpecificInstance(thread_safe_sender_.get());
	dispatcher->RequestIDBCursorPrefetchReset(
	used_prefetches_, prefetch_keys_.size(), ipc_cursor_id_);
	prefetch_keys_.clear();
	prefetch_primary_keys_.clear();
	prefetch_values_.clear();

	pending_onsuccess_callbacks_ = 0;
	}

	} // namespace content