// Copyright (c) 2011 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 "chrome/browser/net/resolve_proxy_msg_helper.h"
#include "content/common/child_process_messages.h"
#include "ipc/ipc_test_sink.h"
#include "net/base/net_errors.h"
#include "net/proxy/mock_proxy_resolver.h"
#include "net/proxy/proxy_config_service.h"
#include "testing/gtest/include/gtest/gtest.h"
// This ProxyConfigService always returns "http://pac" as the PAC url to use.
class MockProxyConfigService : public net::ProxyConfigService {
public:
virtual void AddObserver(Observer* observer) {}
virtual void RemoveObserver(Observer* observer) {}
virtual ConfigAvailability GetLatestProxyConfig(net::ProxyConfig* results) {
*results = net::ProxyConfig::CreateFromCustomPacURL(GURL("http://pac"));
return CONFIG_VALID;
}
};
class ResolveProxyMsgHelperTest : public testing::Test,
public IPC::Channel::Listener {
public:
struct PendingResult {
PendingResult(int error_code,
const std::string& proxy_list)
: error_code(error_code), proxy_list(proxy_list) {
}
int error_code;
std::string proxy_list;
};
ResolveProxyMsgHelperTest()
: resolver_(new net::MockAsyncProxyResolver),
service_(new net::ProxyService(
new MockProxyConfigService, resolver_, NULL)),
helper_(new ResolveProxyMsgHelper(service_.get())),
message_loop_(MessageLoop::TYPE_IO),
io_thread_(BrowserThread::IO, &message_loop_) {
test_sink_.AddFilter(this);
helper_->OnFilterAdded(&test_sink_);
}
protected:
const PendingResult* pending_result() const { return pending_result_.get(); }
void clear_pending_result() {
pending_result_.reset();
}
IPC::Message* GenerateReply() {
int temp_int;
std::string temp_string;
ChildProcessHostMsg_ResolveProxy message(GURL(), &temp_int, &temp_string);
return IPC::SyncMessage::GenerateReply(&message);
}
net::MockAsyncProxyResolver* resolver_;
scoped_refptr<net::ProxyService> service_;
scoped_refptr<ResolveProxyMsgHelper> helper_;
scoped_ptr<PendingResult> pending_result_;
private:
virtual bool OnMessageReceived(const IPC::Message& msg) {
TupleTypes<ChildProcessHostMsg_ResolveProxy::ReplyParam>::ValueTuple
reply_data;
EXPECT_TRUE(
ChildProcessHostMsg_ResolveProxy::ReadReplyParam(&msg, &reply_data));
DCHECK(!pending_result_.get());
pending_result_.reset(new PendingResult(reply_data.a, reply_data.b));
test_sink_.ClearMessages();
return true;
}
MessageLoop message_loop_;
BrowserThread io_thread_;
IPC::TestSink test_sink_;
};
// Issue three sequential requests -- each should succeed.
TEST_F(ResolveProxyMsgHelperTest, Sequential) {
GURL url1("http://www.google1.com/");
GURL url2("http://www.google2.com/");
GURL url3("http://www.google3.com/");
// Messages are deleted by the sink.
IPC::Message* msg1 = GenerateReply();
IPC::Message* msg2 = GenerateReply();
IPC::Message* msg3 = GenerateReply();
// Execute each request sequentially (so there are never 2 requests
// outstanding at the same time).
helper_->OnResolveProxy(url1, msg1);
// Finish ProxyService's initialization.
resolver_->pending_set_pac_script_request()->CompleteNow(net::OK);
ASSERT_EQ(1u, resolver_->pending_requests().size());
EXPECT_EQ(url1, resolver_->pending_requests()[0]->url());
resolver_->pending_requests()[0]->results()->UseNamedProxy("result1:80");
resolver_->pending_requests()[0]->CompleteNow(net::OK);
// Check result.
EXPECT_EQ(net::OK, pending_result()->error_code);
EXPECT_EQ("PROXY result1:80", pending_result()->proxy_list);
clear_pending_result();
helper_->OnResolveProxy(url2, msg2);
ASSERT_EQ(1u, resolver_->pending_requests().size());
EXPECT_EQ(url2, resolver_->pending_requests()[0]->url());
resolver_->pending_requests()[0]->results()->UseNamedProxy("result2:80");
resolver_->pending_requests()[0]->CompleteNow(net::OK);
// Check result.
EXPECT_EQ(net::OK, pending_result()->error_code);
EXPECT_EQ("PROXY result2:80", pending_result()->proxy_list);
clear_pending_result();
helper_->OnResolveProxy(url3, msg3);
ASSERT_EQ(1u, resolver_->pending_requests().size());
EXPECT_EQ(url3, resolver_->pending_requests()[0]->url());
resolver_->pending_requests()[0]->results()->UseNamedProxy("result3:80");
resolver_->pending_requests()[0]->CompleteNow(net::OK);
// Check result.
EXPECT_EQ(net::OK, pending_result()->error_code);
EXPECT_EQ("PROXY result3:80", pending_result()->proxy_list);
clear_pending_result();
}
// Issue a request while one is already in progress -- should be queued.
TEST_F(ResolveProxyMsgHelperTest, QueueRequests) {
GURL url1("http://www.google1.com/");
GURL url2("http://www.google2.com/");
GURL url3("http://www.google3.com/");
IPC::Message* msg1 = GenerateReply();
IPC::Message* msg2 = GenerateReply();
IPC::Message* msg3 = GenerateReply();
// Start three requests. Since the proxy resolver is async, all the
// requests will be pending.
helper_->OnResolveProxy(url1, msg1);
// Finish ProxyService's initialization.
resolver_->pending_set_pac_script_request()->CompleteNow(net::OK);
helper_->OnResolveProxy(url2, msg2);
helper_->OnResolveProxy(url3, msg3);
// ResolveProxyHelper only keeps 1 request outstanding in ProxyService
// at a time.
ASSERT_EQ(1u, resolver_->pending_requests().size());
EXPECT_EQ(url1, resolver_->pending_requests()[0]->url());
resolver_->pending_requests()[0]->results()->UseNamedProxy("result1:80");
resolver_->pending_requests()[0]->CompleteNow(net::OK);
// Check result.
EXPECT_EQ(net::OK, pending_result()->error_code);
EXPECT_EQ("PROXY result1:80", pending_result()->proxy_list);
clear_pending_result();
ASSERT_EQ(1u, resolver_->pending_requests().size());
EXPECT_EQ(url2, resolver_->pending_requests()[0]->url());
resolver_->pending_requests()[0]->results()->UseNamedProxy("result2:80");
resolver_->pending_requests()[0]->CompleteNow(net::OK);
// Check result.
EXPECT_EQ(net::OK, pending_result()->error_code);
EXPECT_EQ("PROXY result2:80", pending_result()->proxy_list);
clear_pending_result();
ASSERT_EQ(1u, resolver_->pending_requests().size());
EXPECT_EQ(url3, resolver_->pending_requests()[0]->url());
resolver_->pending_requests()[0]->results()->UseNamedProxy("result3:80");
resolver_->pending_requests()[0]->CompleteNow(net::OK);
// Check result.
EXPECT_EQ(net::OK, pending_result()->error_code);
EXPECT_EQ("PROXY result3:80", pending_result()->proxy_list);
clear_pending_result();
}
// Delete the helper while a request is in progress, and others are pending.
TEST_F(ResolveProxyMsgHelperTest, CancelPendingRequests) {
GURL url1("http://www.google1.com/");
GURL url2("http://www.google2.com/");
GURL url3("http://www.google3.com/");
// They will be deleted by the request's cancellation.
IPC::Message* msg1 = GenerateReply();
IPC::Message* msg2 = GenerateReply();
IPC::Message* msg3 = GenerateReply();
// Start three requests. Since the proxy resolver is async, all the
// requests will be pending.
helper_->OnResolveProxy(url1, msg1);
// Finish ProxyService's initialization.
resolver_->pending_set_pac_script_request()->CompleteNow(net::OK);
helper_->OnResolveProxy(url2, msg2);
helper_->OnResolveProxy(url3, msg3);
// ResolveProxyHelper only keeps 1 request outstanding in ProxyService
// at a time.
ASSERT_EQ(1u, resolver_->pending_requests().size());
EXPECT_EQ(url1, resolver_->pending_requests()[0]->url());
// Delete the underlying ResolveProxyMsgHelper -- this should cancel all
// the requests which are outstanding.
helper_ = NULL;
// The pending requests sent to the proxy resolver should have been cancelled.
EXPECT_EQ(0u, resolver_->pending_requests().size());
EXPECT_TRUE(pending_result() == NULL);
// It should also be the case that msg1, msg2, msg3 were deleted by the
// cancellation. (Else will show up as a leak in Purify/Valgrind).
}