// Copyright 2014 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 <string>
#include <vector>
#include "base/at_exit.h"
#include "base/auto_reset.h"
#include "base/bind.h"
#include "base/memory/scoped_ptr.h"
#include "base/memory/scoped_vector.h"
#include "base/message_loop/message_loop.h"
#include "base/run_loop.h"
#include "base/strings/stringprintf.h"
#include "mojo/application_manager/application_manager.h"
#include "mojo/common/common_type_converters.h"
#include "mojo/public/cpp/application/application_connection.h"
#include "mojo/public/cpp/application/application_delegate.h"
#include "mojo/public/cpp/application/application_impl.h"
#include "mojo/public/cpp/application/connect.h"
#include "mojo/public/cpp/bindings/lib/router.h"
#include "mojo/public/interfaces/application/service_provider.mojom.h"
#include "mojo/services/public/cpp/geometry/geometry_type_converters.h"
#include "mojo/services/public/cpp/view_manager/types.h"
#include "mojo/services/public/cpp/view_manager/util.h"
#include "mojo/services/public/interfaces/view_manager/view_manager.mojom.h"
#include "mojo/services/view_manager/ids.h"
#include "mojo/services/view_manager/test_change_tracker.h"
#include "mojo/shell/shell_test_helper.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "ui/gfx/geometry/rect.h"
namespace mojo {
namespace service {
namespace {
const char kTestServiceURL[] = "mojo:test_url";
const char kTestServiceURL2[] = "mojo:test_url2";
// ViewManagerProxy is a proxy to an ViewManagerService. It handles invoking
// ViewManagerService functions on the right thread in a synchronous manner
// (each ViewManagerService cover function blocks until the response from the
// ViewManagerService is returned). In addition it tracks the set of
// ViewManagerClient messages received by way of a vector of Changes. Use
// DoRunLoopUntilChangesCount() to wait for a certain number of messages to be
// received.
class ViewManagerProxy : public TestChangeTracker::Delegate {
public:
explicit ViewManagerProxy(TestChangeTracker* tracker)
: tracker_(tracker),
main_loop_(NULL),
view_manager_(NULL),
quit_count_(0),
router_(NULL) {
SetInstance(this);
}
virtual ~ViewManagerProxy() {
}
// Runs a message loop until the single instance has been created.
static ViewManagerProxy* WaitForInstance() {
if (!instance_)
RunMainLoop();
ViewManagerProxy* instance = instance_;
instance_ = NULL;
return instance;
}
ViewManagerService* view_manager() { return view_manager_; }
// Runs the main loop until |count| changes have been received.
std::vector<Change> DoRunLoopUntilChangesCount(size_t count) {
DCHECK_EQ(0u, quit_count_);
if (tracker_->changes()->size() >= count) {
CopyChangesFromTracker();
return changes_;
}
quit_count_ = count - tracker_->changes()->size();
// Run the current message loop. When |count| Changes have been received,
// we'll quit.
RunMainLoop();
return changes_;
}
const std::vector<Change>& changes() const { return changes_; }
// Destroys the connection, blocking until done.
void Destroy() {
router_->CloseMessagePipe();
}
void ClearChanges() {
changes_.clear();
tracker_->changes()->clear();
}
void CopyChangesFromTracker() {
std::vector<Change> changes;
tracker_->changes()->swap(changes);
changes_.swap(changes);
}
// The following functions are cover methods for ViewManagerService. They
// block until the result is received.
bool CreateNode(Id node_id) {
changes_.clear();
ErrorCode result = ERROR_CODE_NONE;
view_manager_->CreateView(
node_id,
base::Bind(&ViewManagerProxy::GotResultWithErrorCode,
base::Unretained(this), &result));
RunMainLoop();
return result == ERROR_CODE_NONE;
}
ErrorCode CreateNodeWithErrorCode(Id node_id) {
changes_.clear();
ErrorCode result = ERROR_CODE_NONE;
view_manager_->CreateView(
node_id,
base::Bind(&ViewManagerProxy::GotResultWithErrorCode,
base::Unretained(this), &result));
RunMainLoop();
return result;
}
bool AddNode(Id parent, Id child) {
changes_.clear();
bool result = false;
view_manager_->AddView(parent, child,
base::Bind(&ViewManagerProxy::GotResult,
base::Unretained(this), &result));
RunMainLoop();
return result;
}
bool RemoveNodeFromParent(Id node_id) {
changes_.clear();
bool result = false;
view_manager_->RemoveViewFromParent(node_id,
base::Bind(&ViewManagerProxy::GotResult,
base::Unretained(this), &result));
RunMainLoop();
return result;
}
bool ReorderNode(Id node_id,
Id relative_node_id,
OrderDirection direction) {
changes_.clear();
bool result = false;
view_manager_->ReorderView(node_id, relative_node_id, direction,
base::Bind(&ViewManagerProxy::GotResult,
base::Unretained(this), &result));
RunMainLoop();
return result;
}
void GetNodeTree(Id node_id, std::vector<TestNode>* nodes) {
changes_.clear();
view_manager_->GetViewTree(node_id,
base::Bind(&ViewManagerProxy::GotNodeTree,
base::Unretained(this), nodes));
RunMainLoop();
}
bool Embed(const Id node_id, const char* url) {
changes_.clear();
base::AutoReset<bool> auto_reset(&in_embed_, true);
bool result = false;
ServiceProviderPtr services;
view_manager_->Embed(url, node_id, services.Pass(),
base::Bind(&ViewManagerProxy::GotResult,
base::Unretained(this), &result));
RunMainLoop();
return result;
}
bool DeleteNode(Id node_id) {
changes_.clear();
bool result = false;
view_manager_->DeleteView(node_id,
base::Bind(&ViewManagerProxy::GotResult,
base::Unretained(this), &result));
RunMainLoop();
return result;
}
bool SetNodeBounds(Id node_id, const gfx::Rect& bounds) {
changes_.clear();
bool result = false;
view_manager_->SetViewBounds(node_id, Rect::From(bounds),
base::Bind(&ViewManagerProxy::GotResult,
base::Unretained(this), &result));
RunMainLoop();
return result;
}
private:
friend class TestViewManagerClientConnection;
void set_router(mojo::internal::Router* router) { router_ = router; }
void set_view_manager(ViewManagerService* view_manager) {
view_manager_ = view_manager;
}
static void RunMainLoop() {
DCHECK(!main_run_loop_);
main_run_loop_ = new base::RunLoop;
main_run_loop_->Run();
delete main_run_loop_;
main_run_loop_ = NULL;
}
void QuitCountReached() {
CopyChangesFromTracker();
main_run_loop_->Quit();
}
static void SetInstance(ViewManagerProxy* instance) {
DCHECK(!instance_);
instance_ = instance;
// Embed() runs its own run loop that is quit when the result is
// received. Embed() also results in a new instance. If we quit here while
// waiting for a Embed() we would prematurely return before we got the
// result from Embed().
if (!in_embed_ && main_run_loop_)
main_run_loop_->Quit();
}
// Callbacks from the various ViewManagerService functions.
void GotResult(bool* result_cache, bool result) {
*result_cache = result;
DCHECK(main_run_loop_);
main_run_loop_->Quit();
}
void GotResultWithErrorCode(ErrorCode* error_code_cache,
ErrorCode error_code) {
*error_code_cache = error_code;
DCHECK(main_run_loop_);
main_run_loop_->Quit();
}
void GotNodeTree(std::vector<TestNode>* nodes, Array<ViewDataPtr> results) {
ViewDatasToTestNodes(results, nodes);
DCHECK(main_run_loop_);
main_run_loop_->Quit();
}
// TestChangeTracker::Delegate:
virtual void OnChangeAdded() OVERRIDE {
if (quit_count_ > 0 && --quit_count_ == 0)
QuitCountReached();
}
static ViewManagerProxy* instance_;
static base::RunLoop* main_run_loop_;
static bool in_embed_;
TestChangeTracker* tracker_;
// MessageLoop of the test.
base::MessageLoop* main_loop_;
ViewManagerService* view_manager_;
// Number of changes we're waiting on until we quit the current loop.
size_t quit_count_;
std::vector<Change> changes_;
mojo::internal::Router* router_;
DISALLOW_COPY_AND_ASSIGN(ViewManagerProxy);
};
// static
ViewManagerProxy* ViewManagerProxy::instance_ = NULL;
// static
base::RunLoop* ViewManagerProxy::main_run_loop_ = NULL;
// static
bool ViewManagerProxy::in_embed_ = false;
class TestViewManagerClientConnection
: public InterfaceImpl<ViewManagerClient> {
public:
TestViewManagerClientConnection() : connection_(&tracker_) {
tracker_.set_delegate(&connection_);
}
// InterfaceImpl:
virtual void OnConnectionEstablished() OVERRIDE {
connection_.set_router(internal_state()->router());
connection_.set_view_manager(client());
}
// ViewManagerClient:
virtual void OnEmbed(
ConnectionSpecificId connection_id,
const String& creator_url,
ViewDataPtr root,
InterfaceRequest<ServiceProvider> services) OVERRIDE {
tracker_.OnEmbed(connection_id, creator_url, root.Pass());
}
virtual void OnViewBoundsChanged(Id node_id,
RectPtr old_bounds,
RectPtr new_bounds) OVERRIDE {
tracker_.OnNodeBoundsChanged(node_id, old_bounds.Pass(), new_bounds.Pass());
}
virtual void OnViewHierarchyChanged(Id node,
Id new_parent,
Id old_parent,
Array<ViewDataPtr> nodes) OVERRIDE {
tracker_.OnNodeHierarchyChanged(node, new_parent, old_parent, nodes.Pass());
}
virtual void OnViewReordered(Id node_id,
Id relative_node_id,
OrderDirection direction) OVERRIDE {
tracker_.OnNodeReordered(node_id, relative_node_id, direction);
}
virtual void OnViewDeleted(Id node) OVERRIDE {
tracker_.OnNodeDeleted(node);
}
virtual void OnViewInputEvent(Id node_id,
EventPtr event,
const Callback<void()>& callback) OVERRIDE {
tracker_.OnNodeInputEvent(node_id, event.Pass());
}
virtual void Embed(
const String& url,
InterfaceRequest<ServiceProvider> service_provider) OVERRIDE {
tracker_.DelegateEmbed(url);
}
virtual void DispatchOnViewInputEvent(mojo::EventPtr event) OVERRIDE {
}
private:
TestChangeTracker tracker_;
ViewManagerProxy connection_;
DISALLOW_COPY_AND_ASSIGN(TestViewManagerClientConnection);
};
// Used with ViewManagerService::Embed(). Creates a
// TestViewManagerClientConnection, which creates and owns the ViewManagerProxy.
class EmbedApplicationLoader : public ApplicationLoader,
ApplicationDelegate,
public InterfaceFactory<ViewManagerClient> {
public:
EmbedApplicationLoader() {}
virtual ~EmbedApplicationLoader() {}
// ApplicationLoader implementation:
virtual void Load(ApplicationManager* manager,
const GURL& url,
scoped_refptr<LoadCallbacks> callbacks) OVERRIDE {
ScopedMessagePipeHandle shell_handle = callbacks->RegisterApplication();
if (!shell_handle.is_valid())
return;
scoped_ptr<ApplicationImpl> app(new ApplicationImpl(this,
shell_handle.Pass()));
apps_.push_back(app.release());
}
virtual void OnServiceError(ApplicationManager* manager,
const GURL& url) OVERRIDE {}
// ApplicationDelegate implementation:
virtual bool ConfigureIncomingConnection(ApplicationConnection* connection)
OVERRIDE {
connection->AddService(this);
return true;
}
// InterfaceFactory<ViewManagerClient> implementation:
virtual void Create(ApplicationConnection* connection,
InterfaceRequest<ViewManagerClient> request) OVERRIDE {
BindToRequest(new TestViewManagerClientConnection, &request);
}
private:
ScopedVector<ApplicationImpl> apps_;
DISALLOW_COPY_AND_ASSIGN(EmbedApplicationLoader);
};
// Creates an id used for transport from the specified parameters.
Id BuildNodeId(ConnectionSpecificId connection_id,
ConnectionSpecificId node_id) {
return (connection_id << 16) | node_id;
}
// Callback from Embed(). |result| is the result of the
// Embed() call and |run_loop| the nested RunLoop.
void EmbedCallback(bool* result_cache, base::RunLoop* run_loop, bool result) {
*result_cache = result;
run_loop->Quit();
}
// Embed from an application that does not yet have a view manager connection.
// Blocks until result is determined.
bool InitEmbed(ViewManagerInitService* view_manager_init,
const std::string& url,
size_t number_of_calls) {
bool result = false;
base::RunLoop run_loop;
for (size_t i = 0; i < number_of_calls; ++i) {
ServiceProviderPtr sp;
view_manager_init->Embed(url, sp.Pass(),
base::Bind(&EmbedCallback, &result, &run_loop));
}
run_loop.Run();
return result;
}
} // namespace
typedef std::vector<std::string> Changes;
class ViewManagerTest : public testing::Test {
public:
ViewManagerTest()
: connection_(NULL),
connection2_(NULL),
connection3_(NULL) {}
virtual void SetUp() OVERRIDE {
test_helper_.Init();
test_helper_.SetLoaderForURL(
scoped_ptr<ApplicationLoader>(new EmbedApplicationLoader()),
GURL(kTestServiceURL));
test_helper_.SetLoaderForURL(
scoped_ptr<ApplicationLoader>(new EmbedApplicationLoader()),
GURL(kTestServiceURL2));
test_helper_.application_manager()->ConnectToService(
GURL("mojo:mojo_view_manager"), &view_manager_init_);
ASSERT_TRUE(InitEmbed(view_manager_init_.get(), kTestServiceURL, 1));
connection_ = ViewManagerProxy::WaitForInstance();
ASSERT_TRUE(connection_ != NULL);
connection_->DoRunLoopUntilChangesCount(1);
}
virtual void TearDown() OVERRIDE {
if (connection3_)
connection3_->Destroy();
if (connection2_)
connection2_->Destroy();
if (connection_)
connection_->Destroy();
}
protected:
void EstablishSecondConnectionWithRoot(Id root_id) {
ASSERT_TRUE(connection_->Embed(root_id, kTestServiceURL));
connection2_ = ViewManagerProxy::WaitForInstance();
ASSERT_TRUE(connection2_ != NULL);
connection2_->DoRunLoopUntilChangesCount(1);
ASSERT_EQ(1u, connection2_->changes().size());
}
// Creates a second connection to the viewmanager.
void EstablishSecondConnection(bool create_initial_node) {
if (create_initial_node)
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 1)));
ASSERT_NO_FATAL_FAILURE(
EstablishSecondConnectionWithRoot(BuildNodeId(1, 1)));
const std::vector<Change>& changes(connection2_->changes());
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("OnEmbed creator=mojo:test_url",
ChangesToDescription1(changes)[0]);
if (create_initial_node) {
EXPECT_EQ("[node=1,1 parent=null]",
ChangeNodeDescription(changes));
}
}
void EstablishThirdConnection(ViewManagerProxy* owner, Id root_id) {
ASSERT_TRUE(connection3_ == NULL);
ASSERT_TRUE(owner->Embed(root_id, kTestServiceURL2));
connection3_ = ViewManagerProxy::WaitForInstance();
ASSERT_TRUE(connection3_ != NULL);
connection3_->DoRunLoopUntilChangesCount(1);
ASSERT_EQ(1u, connection3_->changes().size());
EXPECT_EQ("OnEmbed creator=mojo:test_url",
ChangesToDescription1(connection3_->changes())[0]);
}
void DestroySecondConnection() {
connection2_->Destroy();
connection2_ = NULL;
}
base::ShadowingAtExitManager at_exit_;
shell::ShellTestHelper test_helper_;
ViewManagerInitServicePtr view_manager_init_;
// NOTE: this connection is the root. As such, it has special permissions.
ViewManagerProxy* connection_;
ViewManagerProxy* connection2_;
ViewManagerProxy* connection3_;
DISALLOW_COPY_AND_ASSIGN(ViewManagerTest);
};
TEST_F(ViewManagerTest, SecondEmbedRoot_InitService) {
ASSERT_TRUE(InitEmbed(view_manager_init_.get(), kTestServiceURL, 1));
connection_->DoRunLoopUntilChangesCount(1);
EXPECT_EQ(kTestServiceURL, connection_->changes()[0].embed_url);
}
TEST_F(ViewManagerTest, SecondEmbedRoot_Service) {
ASSERT_TRUE(connection_->Embed(BuildNodeId(0, 0), kTestServiceURL));
connection_->DoRunLoopUntilChangesCount(1);
EXPECT_EQ(kTestServiceURL, connection_->changes()[0].embed_url);
}
TEST_F(ViewManagerTest, MultipleEmbedRootsBeforeWTHReady) {
ASSERT_TRUE(InitEmbed(view_manager_init_.get(), kTestServiceURL, 2));
connection_->DoRunLoopUntilChangesCount(2);
EXPECT_EQ(kTestServiceURL, connection_->changes()[0].embed_url);
EXPECT_EQ(kTestServiceURL, connection_->changes()[1].embed_url);
}
// Verifies client gets a valid id.
#if defined(OS_LINUX)
// http://crbug.com/396492
#define MAYBE_ValidId DISABLED_ValidId
#else
#define MAYBE_ValidId ValidId
#endif
TEST_F(ViewManagerTest, MAYBE_ValidId) {
// TODO(beng): this should really have the URL of the application that
// connected to ViewManagerInit.
EXPECT_EQ("OnEmbed creator=",
ChangesToDescription1(connection_->changes())[0]);
// All these tests assume 1 for the client id. The only real assertion here is
// the client id is not zero, but adding this as rest of code here assumes 1.
EXPECT_EQ(1, connection_->changes()[0].connection_id);
}
// Verifies two clients/connections get different ids.
TEST_F(ViewManagerTest, TwoClientsGetDifferentConnectionIds) {
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
EXPECT_EQ("OnEmbed creator=mojo:test_url",
ChangesToDescription1(connection2_->changes())[0]);
// It isn't strictly necessary that the second connection gets 2, but these
// tests are written assuming that is the case. The key thing is the
// connection ids of |connection_| and |connection2_| differ.
EXPECT_EQ(2, connection2_->changes()[0].connection_id);
}
// Verifies when Embed() is invoked any child nodes are removed.
TEST_F(ViewManagerTest, NodesRemovedWhenEmbedding) {
// Two nodes 1 and 2. 2 is parented to 1.
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 1)));
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 2)));
ASSERT_TRUE(connection_->AddNode(BuildNodeId(1, 1), BuildNodeId(1, 2)));
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(false));
EXPECT_EQ("[node=1,1 parent=null]",
ChangeNodeDescription(connection2_->changes()));
// Embed() removed node 2.
{
std::vector<TestNode> nodes;
connection_->GetNodeTree(BuildNodeId(1, 2), &nodes);
ASSERT_EQ(1u, nodes.size());
EXPECT_EQ("node=1,2 parent=null", nodes[0].ToString());
}
// |connection2_| should not see node 2.
{
std::vector<TestNode> nodes;
connection2_->GetNodeTree(BuildNodeId(1, 1), &nodes);
ASSERT_EQ(1u, nodes.size());
EXPECT_EQ("node=1,1 parent=null", nodes[0].ToString());
}
{
std::vector<TestNode> nodes;
connection2_->GetNodeTree(BuildNodeId(1, 2), &nodes);
EXPECT_TRUE(nodes.empty());
}
// Nodes 3 and 4 in connection 2.
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 3)));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 4)));
ASSERT_TRUE(connection2_->AddNode(BuildNodeId(2, 3), BuildNodeId(2, 4)));
// Connection 3 rooted at 2.
ASSERT_NO_FATAL_FAILURE(EstablishThirdConnection(connection2_,
BuildNodeId(2, 3)));
// Node 4 should no longer have a parent.
{
std::vector<TestNode> nodes;
connection2_->GetNodeTree(BuildNodeId(2, 3), &nodes);
ASSERT_EQ(1u, nodes.size());
EXPECT_EQ("node=2,3 parent=null", nodes[0].ToString());
nodes.clear();
connection2_->GetNodeTree(BuildNodeId(2, 4), &nodes);
ASSERT_EQ(1u, nodes.size());
EXPECT_EQ("node=2,4 parent=null", nodes[0].ToString());
}
// And node 4 should not be visible to connection 3.
{
std::vector<TestNode> nodes;
connection3_->GetNodeTree(BuildNodeId(2, 3), &nodes);
ASSERT_EQ(1u, nodes.size());
EXPECT_EQ("node=2,3 parent=null", nodes[0].ToString());
}
}
// Verifies once Embed() has been invoked the parent connection can't see any
// children.
TEST_F(ViewManagerTest, CantAccessChildrenOfEmbeddedNode) {
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 2)));
ASSERT_TRUE(connection2_->AddNode(BuildNodeId(1, 1), BuildNodeId(2, 2)));
ASSERT_NO_FATAL_FAILURE(EstablishThirdConnection(connection2_,
BuildNodeId(2, 2)));
ASSERT_TRUE(connection3_->CreateNode(BuildNodeId(3, 3)));
ASSERT_TRUE(connection3_->AddNode(BuildNodeId(2, 2), BuildNodeId(3, 3)));
// Even though 3 is a child of 2 connection 2 can't see 3 as it's from a
// different connection.
{
std::vector<TestNode> nodes;
connection2_->GetNodeTree(BuildNodeId(2, 2), &nodes);
ASSERT_EQ(1u, nodes.size());
EXPECT_EQ("node=2,2 parent=1,1", nodes[0].ToString());
}
{
std::vector<TestNode> nodes;
connection2_->GetNodeTree(BuildNodeId(3, 3), &nodes);
EXPECT_TRUE(nodes.empty());
}
// Connection 2 shouldn't be able to get node 3 at all.
{
std::vector<TestNode> nodes;
connection2_->GetNodeTree(BuildNodeId(3, 3), &nodes);
EXPECT_TRUE(nodes.empty());
}
// Connection 1 should be able to see it all (its the root).
{
std::vector<TestNode> nodes;
connection_->GetNodeTree(BuildNodeId(1, 1), &nodes);
ASSERT_EQ(3u, nodes.size());
EXPECT_EQ("node=1,1 parent=null", nodes[0].ToString());
EXPECT_EQ("node=2,2 parent=1,1", nodes[1].ToString());
EXPECT_EQ("node=3,3 parent=2,2", nodes[2].ToString());
}
}
// Verifies once Embed() has been invoked the parent can't mutate the children.
TEST_F(ViewManagerTest, CantModifyChildrenOfEmbeddedNode) {
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 2)));
ASSERT_TRUE(connection2_->AddNode(BuildNodeId(1, 1), BuildNodeId(2, 2)));
ASSERT_NO_FATAL_FAILURE(EstablishThirdConnection(connection2_,
BuildNodeId(2, 2)));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 3)));
// Connection 2 shouldn't be able to add anything to the node anymore.
ASSERT_FALSE(connection2_->AddNode(BuildNodeId(2, 2), BuildNodeId(2, 3)));
// Create node 3 in connection 3 and add it to node 3.
ASSERT_TRUE(connection3_->CreateNode(BuildNodeId(3, 3)));
ASSERT_TRUE(connection3_->AddNode(BuildNodeId(2, 2), BuildNodeId(3, 3)));
// Connection 2 shouldn't be able to remove node 3.
ASSERT_FALSE(connection2_->RemoveNodeFromParent(BuildNodeId(3, 3)));
}
// Verifies client gets a valid id.
TEST_F(ViewManagerTest, CreateNode) {
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 1)));
EXPECT_TRUE(connection_->changes().empty());
// Can't create a node with the same id.
ASSERT_EQ(ERROR_CODE_VALUE_IN_USE,
connection_->CreateNodeWithErrorCode(BuildNodeId(1, 1)));
EXPECT_TRUE(connection_->changes().empty());
// Can't create a node with a bogus connection id.
EXPECT_EQ(ERROR_CODE_ILLEGAL_ARGUMENT,
connection_->CreateNodeWithErrorCode(BuildNodeId(2, 1)));
EXPECT_TRUE(connection_->changes().empty());
}
// Verifies AddNode fails when node is already in position.
TEST_F(ViewManagerTest, AddNodeWithNoChange) {
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 2)));
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 3)));
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
// Make 3 a child of 2.
ASSERT_TRUE(connection_->AddNode(BuildNodeId(1, 2), BuildNodeId(1, 3)));
// Try again, this should fail.
EXPECT_FALSE(connection_->AddNode(BuildNodeId(1, 2), BuildNodeId(1, 3)));
}
// Verifies AddNode fails when node is already in position.
TEST_F(ViewManagerTest, AddAncestorFails) {
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 2)));
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 3)));
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
// Make 3 a child of 2.
ASSERT_TRUE(connection_->AddNode(BuildNodeId(1, 2), BuildNodeId(1, 3)));
// Try to make 2 a child of 3, this should fail since 2 is an ancestor of 3.
EXPECT_FALSE(connection_->AddNode(BuildNodeId(1, 3), BuildNodeId(1, 2)));
}
// Verifies adding to root sends right notifications.
TEST_F(ViewManagerTest, AddToRoot) {
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 21)));
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 3)));
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
// Make 3 a child of 21.
ASSERT_TRUE(connection_->AddNode(BuildNodeId(1, 21), BuildNodeId(1, 3)));
// Make 21 a child of 1.
ASSERT_TRUE(connection_->AddNode(BuildNodeId(1, 1), BuildNodeId(1, 21)));
// Connection 2 should not be told anything (because the node is from a
// different connection). Create a node to ensure we got a response from
// the server.
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 100)));
connection2_->CopyChangesFromTracker();
EXPECT_TRUE(connection2_->changes().empty());
}
// Verifies HierarchyChanged is correctly sent for various adds/removes.
TEST_F(ViewManagerTest, NodeHierarchyChangedNodes) {
// 1,2->1,11.
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 2)));
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 11)));
ASSERT_TRUE(connection_->AddNode(BuildNodeId(1, 2), BuildNodeId(1, 11)));
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
// 1,1->1,2->1,11
{
// Client 2 should not get anything (1,2 is from another connection).
connection2_->ClearChanges();
ASSERT_TRUE(connection_->AddNode(BuildNodeId(1, 1), BuildNodeId(1, 2)));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 100)));
connection2_->CopyChangesFromTracker();
EXPECT_TRUE(connection2_->changes().empty());
}
// 0,1->1,1->1,2->1,11.
{
// Again, client 2 should not get anything.
connection2_->ClearChanges();
ASSERT_TRUE(connection_->AddNode(BuildNodeId(0, 1), BuildNodeId(1, 1)));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 101)));
connection2_->CopyChangesFromTracker();
EXPECT_TRUE(connection2_->changes().empty());
}
// 1,1->1,2->1,11.
{
connection2_->ClearChanges();
ASSERT_TRUE(connection_->RemoveNodeFromParent(BuildNodeId(1, 1)));
EXPECT_TRUE(connection_->changes().empty());
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 102)));
connection2_->CopyChangesFromTracker();
EXPECT_TRUE(connection2_->changes().empty());
}
// 1,1->1,2->1,11->1,111.
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 111)));
{
connection2_->ClearChanges();
ASSERT_TRUE(connection_->AddNode(BuildNodeId(1, 11), BuildNodeId(1, 111)));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 103)));
connection2_->CopyChangesFromTracker();
EXPECT_TRUE(connection2_->changes().empty());
}
// 0,1->1,1->1,2->1,11->1,111
{
connection2_->ClearChanges();
ASSERT_TRUE(connection_->AddNode(BuildNodeId(0, 1), BuildNodeId(1, 1)));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 104)));
connection2_->CopyChangesFromTracker();
EXPECT_TRUE(connection2_->changes().empty());
}
}
TEST_F(ViewManagerTest, NodeHierarchyChangedAddingKnownToUnknown) {
// Create the following structure: root -> 1 -> 11 and 2->21 (2 has no
// parent).
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 11)));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 2)));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 21)));
// Set up the hierarchy.
ASSERT_TRUE(connection_->AddNode(BuildNodeId(0, 1), BuildNodeId(1, 1)));
ASSERT_TRUE(connection2_->AddNode(BuildNodeId(1, 1), BuildNodeId(2, 11)));
ASSERT_TRUE(connection2_->AddNode(BuildNodeId(2, 2), BuildNodeId(2, 21)));
// Remove 11, should result in a hierarchy change for the root.
{
connection_->ClearChanges();
ASSERT_TRUE(connection2_->RemoveNodeFromParent(BuildNodeId(2, 11)));
connection_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection_->changes()));
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("HierarchyChanged node=2,11 new_parent=null old_parent=1,1",
changes[0]);
}
// Add 2 to 1.
{
ASSERT_TRUE(connection2_->AddNode(BuildNodeId(1, 1), BuildNodeId(2, 2)));
connection_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection_->changes()));
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("HierarchyChanged node=2,2 new_parent=1,1 old_parent=null",
changes[0]);
EXPECT_EQ("[node=2,2 parent=1,1],"
"[node=2,21 parent=2,2]",
ChangeNodeDescription(connection_->changes()));
}
}
TEST_F(ViewManagerTest, ReorderNode) {
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
Id node1_id = BuildNodeId(2, 1);
Id node2_id = BuildNodeId(2, 2);
Id node3_id = BuildNodeId(2, 3);
Id node4_id = BuildNodeId(1, 4); // Peer to 1,1
Id node5_id = BuildNodeId(1, 5); // Peer to 1,1
Id node6_id = BuildNodeId(2, 6); // Child of 1,2.
Id node7_id = BuildNodeId(2, 7); // Unparented.
Id node8_id = BuildNodeId(2, 8); // Unparented.
ASSERT_TRUE(connection2_->CreateNode(node1_id));
ASSERT_TRUE(connection2_->CreateNode(node2_id));
ASSERT_TRUE(connection2_->CreateNode(node3_id));
ASSERT_TRUE(connection_->CreateNode(node4_id));
ASSERT_TRUE(connection_->CreateNode(node5_id));
ASSERT_TRUE(connection2_->CreateNode(node6_id));
ASSERT_TRUE(connection2_->CreateNode(node7_id));
ASSERT_TRUE(connection2_->CreateNode(node8_id));
ASSERT_TRUE(connection2_->AddNode(node1_id, node2_id));
ASSERT_TRUE(connection2_->AddNode(node2_id, node6_id));
ASSERT_TRUE(connection2_->AddNode(node1_id, node3_id));
ASSERT_TRUE(connection_->AddNode(
NodeIdToTransportId(RootNodeId()), node4_id));
ASSERT_TRUE(connection_->AddNode(
NodeIdToTransportId(RootNodeId()), node5_id));
ASSERT_TRUE(connection_->AddNode(
NodeIdToTransportId(RootNodeId()), node1_id));
{
ASSERT_TRUE(
connection2_->ReorderNode(node2_id, node3_id, ORDER_DIRECTION_ABOVE));
connection_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection_->changes()));
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("Reordered node=2,2 relative=2,3 direction=above",
changes[0]);
}
{
ASSERT_TRUE(connection2_->ReorderNode(
node2_id, node3_id, ORDER_DIRECTION_BELOW));
connection_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection_->changes()));
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("Reordered node=2,2 relative=2,3 direction=below",
changes[0]);
}
// node2 is already below node3.
EXPECT_FALSE(
connection2_->ReorderNode(node2_id, node3_id, ORDER_DIRECTION_BELOW));
// node4 & 5 are unknown to connection2_.
EXPECT_FALSE(connection2_->ReorderNode(
node4_id, node5_id, ORDER_DIRECTION_ABOVE));
// node6 & node3 have different parents.
EXPECT_FALSE(
connection_->ReorderNode(node3_id, node6_id, ORDER_DIRECTION_ABOVE));
// Non-existent node-ids
EXPECT_FALSE(connection_->ReorderNode(
BuildNodeId(1, 27), BuildNodeId(1, 28), ORDER_DIRECTION_ABOVE));
// node7 & node8 are un-parented.
EXPECT_FALSE(
connection_->ReorderNode(node7_id, node8_id, ORDER_DIRECTION_ABOVE));
}
// Verifies DeleteNode works.
TEST_F(ViewManagerTest, DeleteNode) {
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 2)));
// Make 2 a child of 1.
{
ASSERT_TRUE(connection2_->AddNode(BuildNodeId(1, 1), BuildNodeId(2, 2)));
connection_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection_->changes()));
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("HierarchyChanged node=2,2 new_parent=1,1 old_parent=null",
changes[0]);
}
// Delete 2.
{
ASSERT_TRUE(connection2_->DeleteNode(BuildNodeId(2, 2)));
EXPECT_TRUE(connection2_->changes().empty());
connection_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection_->changes()));
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("NodeDeleted node=2,2", changes[0]);
}
}
// Verifies DeleteNode isn't allowed from a separate connection.
TEST_F(ViewManagerTest, DeleteNodeFromAnotherConnectionDisallowed) {
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
EXPECT_FALSE(connection2_->DeleteNode(BuildNodeId(1, 1)));
}
// Verifies if a node was deleted and then reused that other clients are
// properly notified.
TEST_F(ViewManagerTest, ReuseDeletedNodeId) {
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 2)));
// Add 2 to 1.
{
ASSERT_TRUE(connection2_->AddNode(BuildNodeId(1, 1), BuildNodeId(2, 2)));
connection_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection_->changes()));
EXPECT_EQ("HierarchyChanged node=2,2 new_parent=1,1 old_parent=null",
changes[0]);
EXPECT_EQ("[node=2,2 parent=1,1]",
ChangeNodeDescription(connection_->changes()));
}
// Delete 2.
{
ASSERT_TRUE(connection2_->DeleteNode(BuildNodeId(2, 2)));
connection_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection_->changes()));
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("NodeDeleted node=2,2", changes[0]);
}
// Create 2 again, and add it back to 1. Should get the same notification.
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 2)));
{
ASSERT_TRUE(connection2_->AddNode(BuildNodeId(1, 1), BuildNodeId(2, 2)));
connection_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection_->changes()));
EXPECT_EQ("HierarchyChanged node=2,2 new_parent=1,1 old_parent=null",
changes[0]);
EXPECT_EQ("[node=2,2 parent=1,1]",
ChangeNodeDescription(connection_->changes()));
}
}
// Assertions for GetNodeTree.
TEST_F(ViewManagerTest, GetNodeTree) {
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
// Create 11 in first connection and make it a child of 1.
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 11)));
ASSERT_TRUE(connection_->AddNode(BuildNodeId(0, 1), BuildNodeId(1, 1)));
ASSERT_TRUE(connection_->AddNode(BuildNodeId(1, 1), BuildNodeId(1, 11)));
// Create two nodes in second connection, 2 and 3, both children of 1.
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 2)));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 3)));
ASSERT_TRUE(connection2_->AddNode(BuildNodeId(1, 1), BuildNodeId(2, 2)));
ASSERT_TRUE(connection2_->AddNode(BuildNodeId(1, 1), BuildNodeId(2, 3)));
// Verifies GetNodeTree() on the root. The root connection sees all.
{
std::vector<TestNode> nodes;
connection_->GetNodeTree(BuildNodeId(0, 1), &nodes);
ASSERT_EQ(5u, nodes.size());
EXPECT_EQ("node=0,1 parent=null", nodes[0].ToString());
EXPECT_EQ("node=1,1 parent=0,1", nodes[1].ToString());
EXPECT_EQ("node=1,11 parent=1,1", nodes[2].ToString());
EXPECT_EQ("node=2,2 parent=1,1", nodes[3].ToString());
EXPECT_EQ("node=2,3 parent=1,1", nodes[4].ToString());
}
// Verifies GetNodeTree() on the node 1,1. This does not include any children
// as they are not from this connection.
{
std::vector<TestNode> nodes;
connection2_->GetNodeTree(BuildNodeId(1, 1), &nodes);
ASSERT_EQ(1u, nodes.size());
EXPECT_EQ("node=1,1 parent=null", nodes[0].ToString());
}
// Connection 2 shouldn't be able to get the root tree.
{
std::vector<TestNode> nodes;
connection2_->GetNodeTree(BuildNodeId(0, 1), &nodes);
ASSERT_EQ(0u, nodes.size());
}
}
TEST_F(ViewManagerTest, SetNodeBounds) {
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 1)));
ASSERT_TRUE(connection_->AddNode(BuildNodeId(0, 1), BuildNodeId(1, 1)));
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(false));
ASSERT_TRUE(connection_->SetNodeBounds(BuildNodeId(1, 1),
gfx::Rect(0, 0, 100, 100)));
connection2_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection2_->changes()));
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("BoundsChanged node=1,1 old_bounds=0,0 0x0 new_bounds=0,0 100x100",
changes[0]);
// Should not be possible to change the bounds of a node created by another
// connection.
ASSERT_FALSE(connection2_->SetNodeBounds(BuildNodeId(1, 1),
gfx::Rect(0, 0, 0, 0)));
}
// Verify AddNode fails when trying to manipulate nodes in other roots.
TEST_F(ViewManagerTest, CantMoveNodesFromOtherRoot) {
// Create 1 and 2 in the first connection.
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 1)));
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 2)));
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(false));
// Try to move 2 to be a child of 1 from connection 2. This should fail as 2
// should not be able to access 1.
ASSERT_FALSE(connection2_->AddNode(BuildNodeId(1, 1), BuildNodeId(1, 2)));
// Try to reparent 1 to the root. A connection is not allowed to reparent its
// roots.
ASSERT_FALSE(connection2_->AddNode(BuildNodeId(0, 1), BuildNodeId(1, 1)));
}
// Verify RemoveNodeFromParent fails for nodes that are descendants of the
// roots.
TEST_F(ViewManagerTest, CantRemoveNodesInOtherRoots) {
// Create 1 and 2 in the first connection and parent both to the root.
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 1)));
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 2)));
ASSERT_TRUE(connection_->AddNode(BuildNodeId(0, 1), BuildNodeId(1, 1)));
ASSERT_TRUE(connection_->AddNode(BuildNodeId(0, 1), BuildNodeId(1, 2)));
// Establish the second connection and give it the root 1.
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(false));
// Connection 2 should not be able to remove node 2 or 1 from its parent.
ASSERT_FALSE(connection2_->RemoveNodeFromParent(BuildNodeId(1, 2)));
ASSERT_FALSE(connection2_->RemoveNodeFromParent(BuildNodeId(1, 1)));
// Create nodes 10 and 11 in 2.
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 10)));
ASSERT_TRUE(connection2_->CreateNode(BuildNodeId(2, 11)));
// Parent 11 to 10.
ASSERT_TRUE(connection2_->AddNode(BuildNodeId(2, 10), BuildNodeId(2, 11)));
// Remove 11 from 10.
ASSERT_TRUE(connection2_->RemoveNodeFromParent( BuildNodeId(2, 11)));
// Verify nothing was actually removed.
{
std::vector<TestNode> nodes;
connection_->GetNodeTree(BuildNodeId(0, 1), &nodes);
ASSERT_EQ(3u, nodes.size());
EXPECT_EQ("node=0,1 parent=null", nodes[0].ToString());
EXPECT_EQ("node=1,1 parent=0,1", nodes[1].ToString());
EXPECT_EQ("node=1,2 parent=0,1", nodes[2].ToString());
}
}
// Verify GetNodeTree fails for nodes that are not descendants of the roots.
TEST_F(ViewManagerTest, CantGetNodeTreeOfOtherRoots) {
// Create 1 and 2 in the first connection and parent both to the root.
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 1)));
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 2)));
ASSERT_TRUE(connection_->AddNode(BuildNodeId(0, 1), BuildNodeId(1, 1)));
ASSERT_TRUE(connection_->AddNode(BuildNodeId(0, 1), BuildNodeId(1, 2)));
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(false));
std::vector<TestNode> nodes;
// Should get nothing for the root.
connection2_->GetNodeTree(BuildNodeId(0, 1), &nodes);
ASSERT_TRUE(nodes.empty());
// Should get nothing for node 2.
connection2_->GetNodeTree(BuildNodeId(1, 2), &nodes);
ASSERT_TRUE(nodes.empty());
// Should get node 1 if asked for.
connection2_->GetNodeTree(BuildNodeId(1, 1), &nodes);
ASSERT_EQ(1u, nodes.size());
EXPECT_EQ("node=1,1 parent=null", nodes[0].ToString());
}
TEST_F(ViewManagerTest, ConnectTwice) {
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 1)));
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 2)));
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(false));
// Try to connect again to 1,1, this should fail as already connected to that
// root.
ASSERT_FALSE(connection_->Embed(BuildNodeId(1, 1), kTestServiceURL));
// Connecting to 1,2 should succeed and end up in connection2.
{
ASSERT_TRUE(connection_->Embed(BuildNodeId(1, 2), kTestServiceURL));
connection2_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection2_->changes()));
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("OnEmbed creator=mojo:test_url", changes[0]);
EXPECT_EQ("[node=1,2 parent=null]",
ChangeNodeDescription(connection2_->changes()));
}
}
TEST_F(ViewManagerTest, OnNodeInput) {
ASSERT_TRUE(connection_->CreateNode(BuildNodeId(1, 1)));
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(false));
// Dispatch an event to the node and verify its received.
{
EventPtr event(Event::New());
event->action = static_cast<EventType>(1);
connection_->view_manager()->DispatchOnViewInputEvent(
BuildNodeId(1, 1),
event.Pass());
connection2_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection2_->changes()));
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("InputEvent node=1,1 event_action=1", changes[0]);
}
}
TEST_F(ViewManagerTest, EmbedWithSameNodeId) {
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
ASSERT_NO_FATAL_FAILURE(EstablishThirdConnection(connection_,
BuildNodeId(1, 1)));
// Connection2 should have been told the node was deleted.
{
connection2_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection2_->changes()));
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("NodeDeleted node=1,1", changes[0]);
}
// Connection2 has no root. Verify it can't see node 1,1 anymore.
{
std::vector<TestNode> nodes;
connection2_->GetNodeTree(BuildNodeId(1, 1), &nodes);
EXPECT_TRUE(nodes.empty());
}
}
TEST_F(ViewManagerTest, EmbedWithSameNodeId2) {
ASSERT_NO_FATAL_FAILURE(EstablishSecondConnection(true));
ASSERT_NO_FATAL_FAILURE(EstablishThirdConnection(connection_,
BuildNodeId(1, 1)));
// Connection2 should have been told the node was deleted.
connection2_->DoRunLoopUntilChangesCount(1);
connection2_->ClearChanges();
// Create a node in the third connection and parent it to the root.
ASSERT_TRUE(connection3_->CreateNode(BuildNodeId(3, 1)));
ASSERT_TRUE(connection3_->AddNode(BuildNodeId(1, 1), BuildNodeId(3, 1)));
// Connection 1 should have been told about the add (it owns the node).
{
connection_->DoRunLoopUntilChangesCount(1);
const Changes changes(ChangesToDescription1(connection_->changes()));
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("HierarchyChanged node=3,1 new_parent=1,1 old_parent=null",
changes[0]);
}
// Embed 1,1 back in connection 2.
{
// 2 should be told about the new embed.
ASSERT_TRUE(connection_->Embed(BuildNodeId(1, 1), kTestServiceURL));
connection2_->DoRunLoopUntilChangesCount(1);
const std::vector<Change>& changes(connection2_->changes());
ASSERT_EQ(1u, changes.size());
EXPECT_EQ("OnEmbed creator=mojo:test_url",
ChangesToDescription1(changes)[0]);
EXPECT_EQ("[node=1,1 parent=null]",
ChangeNodeDescription(changes));
// And 3 should get a delete.
connection3_->DoRunLoopUntilChangesCount(1);
ASSERT_EQ(1u, connection3_->changes().size());
EXPECT_EQ("NodeDeleted node=1,1",
ChangesToDescription1(connection3_->changes())[0]);
}
// Connection3_ has no root. Verify it can't see node 1,1 anymore.
{
std::vector<TestNode> nodes;
connection3_->GetNodeTree(BuildNodeId(1, 1), &nodes);
EXPECT_TRUE(nodes.empty());
}
// Verify 3,1 is no longer parented to 1,1. We have to do this from 1,1 as
// connection3_ can no longer see 1,1.
{
std::vector<TestNode> nodes;
connection_->GetNodeTree(BuildNodeId(1, 1), &nodes);
ASSERT_EQ(1u, nodes.size());
EXPECT_EQ("node=1,1 parent=null", nodes[0].ToString());
}
// Verify connection3_ can still see the node it created 3,1.
{
std::vector<TestNode> nodes;
connection3_->GetNodeTree(BuildNodeId(3, 1), &nodes);
ASSERT_EQ(1u, nodes.size());
EXPECT_EQ("node=3,1 parent=null", nodes[0].ToString());
}
}
// TODO(sky): add coverage of test that destroys connections and ensures other
// connections get deletion notification.
// TODO(sky): need to better track changes to initial connection. For example,
// that SetBounsdNodes/AddNode and the like don't result in messages to the
// originating connection.
} // namespace service
} // namespace mojo