// 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 "base/basictypes.h"
#include "base/shared_memory.h"
#include "base/string_util.h"
#include "base/utf_string_conversions.h"
#include "chrome/test/base/render_view_test.h"
#include "content/common/native_web_keyboard_event.h"
#include "content/common/view_messages.h"
#include "net/base/net_errors.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "third_party/WebKit/Source/WebKit/chromium/public/WebString.h"
#include "third_party/WebKit/Source/WebKit/chromium/public/WebURLError.h"
#include "third_party/WebKit/Source/WebKit/chromium/public/WebView.h"
#include "ui/base/keycodes/keyboard_codes.h"
#include "ui/gfx/codec/jpeg_codec.h"
#include "webkit/glue/web_io_operators.h"
using WebKit::WebFrame;
using WebKit::WebString;
using WebKit::WebTextDirection;
using WebKit::WebURLError;
// Test that we get form state change notifications when input fields change.
TEST_F(RenderViewTest, OnNavStateChanged) {
// Don't want any delay for form state sync changes. This will still post a
// message so updates will get coalesced, but as soon as we spin the message
// loop, it will generate an update.
view_->set_send_content_state_immediately(true);
LoadHTML("<input type=\"text\" id=\"elt_text\"></input>");
// We should NOT have gotten a form state change notification yet.
EXPECT_FALSE(render_thread_.sink().GetFirstMessageMatching(
ViewHostMsg_UpdateState::ID));
render_thread_.sink().ClearMessages();
// Change the value of the input. We should have gotten an update state
// notification. We need to spin the message loop to catch this update.
ExecuteJavaScript("document.getElementById('elt_text').value = 'foo';");
ProcessPendingMessages();
EXPECT_TRUE(render_thread_.sink().GetUniqueMessageMatching(
ViewHostMsg_UpdateState::ID));
}
// Test that we get the correct UpdateState message when we go back twice
// quickly without committing. Regression test for http://crbug.com/58082.
TEST_F(RenderViewTest, LastCommittedUpdateState) {
// Load page A.
LoadHTML("<div>Page A</div>");
// Load page B, which will trigger an UpdateState message for page A.
LoadHTML("<div>Page B</div>");
// Check for a valid UpdateState message for page A.
const IPC::Message* msg_A = render_thread_.sink().GetUniqueMessageMatching(
ViewHostMsg_UpdateState::ID);
ASSERT_TRUE(msg_A);
int page_id_A;
std::string state_A;
ViewHostMsg_UpdateState::Read(msg_A, &page_id_A, &state_A);
EXPECT_EQ(1, page_id_A);
render_thread_.sink().ClearMessages();
// Load page C, which will trigger an UpdateState message for page B.
LoadHTML("<div>Page C</div>");
// Check for a valid UpdateState for page B.
const IPC::Message* msg_B = render_thread_.sink().GetUniqueMessageMatching(
ViewHostMsg_UpdateState::ID);
ASSERT_TRUE(msg_B);
int page_id_B;
std::string state_B;
ViewHostMsg_UpdateState::Read(msg_B, &page_id_B, &state_B);
EXPECT_EQ(2, page_id_B);
EXPECT_NE(state_A, state_B);
render_thread_.sink().ClearMessages();
// Load page D, which will trigger an UpdateState message for page C.
LoadHTML("<div>Page D</div>");
// Check for a valid UpdateState for page C.
const IPC::Message* msg_C = render_thread_.sink().GetUniqueMessageMatching(
ViewHostMsg_UpdateState::ID);
ASSERT_TRUE(msg_C);
int page_id_C;
std::string state_C;
ViewHostMsg_UpdateState::Read(msg_C, &page_id_C, &state_C);
EXPECT_EQ(3, page_id_C);
EXPECT_NE(state_B, state_C);
render_thread_.sink().ClearMessages();
// Go back to C and commit, preparing for our real test.
ViewMsg_Navigate_Params params_C;
params_C.navigation_type = ViewMsg_Navigate_Type::NORMAL;
params_C.transition = PageTransition::FORWARD_BACK;
params_C.current_history_list_length = 4;
params_C.current_history_list_offset = 3;
params_C.pending_history_list_offset = 2;
params_C.page_id = 3;
params_C.state = state_C;
view_->OnNavigate(params_C);
ProcessPendingMessages();
render_thread_.sink().ClearMessages();
// Go back twice quickly, such that page B does not have a chance to commit.
// This leads to two changes to the back/forward list but only one change to
// the RenderView's page ID.
// Back to page B (page_id 2), without committing.
ViewMsg_Navigate_Params params_B;
params_B.navigation_type = ViewMsg_Navigate_Type::NORMAL;
params_B.transition = PageTransition::FORWARD_BACK;
params_B.current_history_list_length = 4;
params_B.current_history_list_offset = 2;
params_B.pending_history_list_offset = 1;
params_B.page_id = 2;
params_B.state = state_B;
view_->OnNavigate(params_B);
// Back to page A (page_id 1) and commit.
ViewMsg_Navigate_Params params;
params.navigation_type = ViewMsg_Navigate_Type::NORMAL;
params.transition = PageTransition::FORWARD_BACK;
params_B.current_history_list_length = 4;
params_B.current_history_list_offset = 2;
params_B.pending_history_list_offset = 0;
params.page_id = 1;
params.state = state_A;
view_->OnNavigate(params);
ProcessPendingMessages();
// Now ensure that the UpdateState message we receive is consistent
// and represents page C in both page_id and state.
const IPC::Message* msg = render_thread_.sink().GetUniqueMessageMatching(
ViewHostMsg_UpdateState::ID);
ASSERT_TRUE(msg);
int page_id;
std::string state;
ViewHostMsg_UpdateState::Read(msg, &page_id, &state);
EXPECT_EQ(page_id_C, page_id);
EXPECT_NE(state_A, state);
EXPECT_NE(state_B, state);
EXPECT_EQ(state_C, state);
}
// Test that the history_page_ids_ list can reveal when a stale back/forward
// navigation arrives from the browser and can be ignored. See
// http://crbug.com/86758.
TEST_F(RenderViewTest, StaleNavigationsIgnored) {
// Load page A.
LoadHTML("<div>Page A</div>");
EXPECT_EQ(1, view_->history_list_length_);
EXPECT_EQ(0, view_->history_list_offset_);
EXPECT_EQ(1, view_->history_page_ids_[0]);
// Load page B, which will trigger an UpdateState message for page A.
LoadHTML("<div>Page B</div>");
EXPECT_EQ(2, view_->history_list_length_);
EXPECT_EQ(1, view_->history_list_offset_);
EXPECT_EQ(2, view_->history_page_ids_[1]);
// Check for a valid UpdateState message for page A.
const IPC::Message* msg_A = render_thread_.sink().GetUniqueMessageMatching(
ViewHostMsg_UpdateState::ID);
ASSERT_TRUE(msg_A);
int page_id_A;
std::string state_A;
ViewHostMsg_UpdateState::Read(msg_A, &page_id_A, &state_A);
EXPECT_EQ(1, page_id_A);
render_thread_.sink().ClearMessages();
// Back to page A (page_id 1) and commit.
ViewMsg_Navigate_Params params_A;
params_A.navigation_type = ViewMsg_Navigate_Type::NORMAL;
params_A.transition = PageTransition::FORWARD_BACK;
params_A.current_history_list_length = 2;
params_A.current_history_list_offset = 1;
params_A.pending_history_list_offset = 0;
params_A.page_id = 1;
params_A.state = state_A;
view_->OnNavigate(params_A);
ProcessPendingMessages();
// A new navigation commits, clearing the forward history.
LoadHTML("<div>Page C</div>");
EXPECT_EQ(2, view_->history_list_length_);
EXPECT_EQ(1, view_->history_list_offset_);
EXPECT_EQ(3, view_->history_page_ids_[1]);
// The browser then sends a stale navigation to B, which should be ignored.
ViewMsg_Navigate_Params params_B;
params_B.navigation_type = ViewMsg_Navigate_Type::NORMAL;
params_B.transition = PageTransition::FORWARD_BACK;
params_B.current_history_list_length = 2;
params_B.current_history_list_offset = 0;
params_B.pending_history_list_offset = 1;
params_B.page_id = 2;
params_B.state = state_A; // Doesn't matter, just has to be present.
view_->OnNavigate(params_B);
// State should be unchanged.
EXPECT_EQ(2, view_->history_list_length_);
EXPECT_EQ(1, view_->history_list_offset_);
EXPECT_EQ(3, view_->history_page_ids_[1]);
}
// Test that we do not ignore navigations after the entry limit is reached,
// in which case the browser starts dropping entries from the front. In this
// case, we'll see a page_id mismatch but the RenderView's id will be older,
// not newer, than params.page_id. Use this as a cue that we should update the
// state and not treat it like a navigation to a cropped forward history item.
// See http://crbug.com/89798.
TEST_F(RenderViewTest, DontIgnoreBackAfterNavEntryLimit) {
// Load page A.
LoadHTML("<div>Page A</div>");
EXPECT_EQ(1, view_->history_list_length_);
EXPECT_EQ(0, view_->history_list_offset_);
EXPECT_EQ(1, view_->history_page_ids_[0]);
// Load page B, which will trigger an UpdateState message for page A.
LoadHTML("<div>Page B</div>");
EXPECT_EQ(2, view_->history_list_length_);
EXPECT_EQ(1, view_->history_list_offset_);
EXPECT_EQ(2, view_->history_page_ids_[1]);
// Check for a valid UpdateState message for page A.
const IPC::Message* msg_A = render_thread_.sink().GetUniqueMessageMatching(
ViewHostMsg_UpdateState::ID);
ASSERT_TRUE(msg_A);
int page_id_A;
std::string state_A;
ViewHostMsg_UpdateState::Read(msg_A, &page_id_A, &state_A);
EXPECT_EQ(1, page_id_A);
render_thread_.sink().ClearMessages();
// Load page C, which will trigger an UpdateState message for page B.
LoadHTML("<div>Page C</div>");
EXPECT_EQ(3, view_->history_list_length_);
EXPECT_EQ(2, view_->history_list_offset_);
EXPECT_EQ(3, view_->history_page_ids_[2]);
// Check for a valid UpdateState message for page B.
const IPC::Message* msg_B = render_thread_.sink().GetUniqueMessageMatching(
ViewHostMsg_UpdateState::ID);
ASSERT_TRUE(msg_B);
int page_id_B;
std::string state_B;
ViewHostMsg_UpdateState::Read(msg_B, &page_id_B, &state_B);
EXPECT_EQ(2, page_id_B);
render_thread_.sink().ClearMessages();
// Suppose the browser has limited the number of NavigationEntries to 2.
// It has now dropped the first entry, but the renderer isn't notified.
// Ensure that going back to page B (page_id 2) at offset 0 is successful.
ViewMsg_Navigate_Params params_B;
params_B.navigation_type = ViewMsg_Navigate_Type::NORMAL;
params_B.transition = PageTransition::FORWARD_BACK;
params_B.current_history_list_length = 2;
params_B.current_history_list_offset = 1;
params_B.pending_history_list_offset = 0;
params_B.page_id = 2;
params_B.state = state_B;
view_->OnNavigate(params_B);
ProcessPendingMessages();
EXPECT_EQ(2, view_->history_list_length_);
EXPECT_EQ(0, view_->history_list_offset_);
EXPECT_EQ(2, view_->history_page_ids_[0]);
}
// Test that our IME backend sends a notification message when the input focus
// changes.
TEST_F(RenderViewTest, OnImeStateChanged) {
// Enable our IME backend code.
view_->OnSetInputMethodActive(true);
// Load an HTML page consisting of two input fields.
view_->set_send_content_state_immediately(true);
LoadHTML("<html>"
"<head>"
"</head>"
"<body>"
"<input id=\"test1\" type=\"text\"></input>"
"<input id=\"test2\" type=\"password\"></input>"
"</body>"
"</html>");
render_thread_.sink().ClearMessages();
const int kRepeatCount = 10;
for (int i = 0; i < kRepeatCount; i++) {
// Move the input focus to the first <input> element, where we should
// activate IMEs.
ExecuteJavaScript("document.getElementById('test1').focus();");
ProcessPendingMessages();
render_thread_.sink().ClearMessages();
// Update the IME status and verify if our IME backend sends an IPC message
// to activate IMEs.
view_->UpdateInputMethod();
const IPC::Message* msg = render_thread_.sink().GetMessageAt(0);
EXPECT_TRUE(msg != NULL);
EXPECT_EQ(ViewHostMsg_ImeUpdateTextInputState::ID, msg->type());
ViewHostMsg_ImeUpdateTextInputState::Param params;
ViewHostMsg_ImeUpdateTextInputState::Read(msg, ¶ms);
EXPECT_EQ(params.a, ui::TEXT_INPUT_TYPE_TEXT);
EXPECT_EQ(params.b, true);
EXPECT_TRUE(params.c.x() > 0 && params.c.y() > 0);
// Move the input focus to the second <input> element, where we should
// de-activate IMEs.
ExecuteJavaScript("document.getElementById('test2').focus();");
ProcessPendingMessages();
render_thread_.sink().ClearMessages();
// Update the IME status and verify if our IME backend sends an IPC message
// to de-activate IMEs.
view_->UpdateInputMethod();
msg = render_thread_.sink().GetMessageAt(0);
EXPECT_TRUE(msg != NULL);
EXPECT_EQ(ViewHostMsg_ImeUpdateTextInputState::ID, msg->type());
ViewHostMsg_ImeUpdateTextInputState::Read(msg, ¶ms);
EXPECT_EQ(params.a, ui::TEXT_INPUT_TYPE_PASSWORD);
}
}
// Test that our IME backend can compose CJK words.
// Our IME front-end sends many platform-independent messages to the IME backend
// while it composes CJK words. This test sends the minimal messages captured
// on my local environment directly to the IME backend to verify if the backend
// can compose CJK words without any problems.
// This test uses an array of command sets because an IME composotion does not
// only depends on IME events, but also depends on window events, e.g. moving
// the window focus while composing a CJK text. To handle such complicated
// cases, this test should not only call IME-related functions in the
// RenderWidget class, but also call some RenderWidget members, e.g.
// ExecuteJavaScript(), RenderWidget::OnSetFocus(), etc.
TEST_F(RenderViewTest, ImeComposition) {
enum ImeCommand {
IME_INITIALIZE,
IME_SETINPUTMODE,
IME_SETFOCUS,
IME_SETCOMPOSITION,
IME_CONFIRMCOMPOSITION,
IME_CANCELCOMPOSITION
};
struct ImeMessage {
ImeCommand command;
bool enable;
int selection_start;
int selection_end;
const wchar_t* ime_string;
const wchar_t* result;
};
static const ImeMessage kImeMessages[] = {
// Scenario 1: input a Chinese word with Microsoft IME (on Vista).
{IME_INITIALIZE, true, 0, 0, NULL, NULL},
{IME_SETINPUTMODE, true, 0, 0, NULL, NULL},
{IME_SETFOCUS, true, 0, 0, NULL, NULL},
{IME_SETCOMPOSITION, false, 1, 1, L"n", L"n"},
{IME_SETCOMPOSITION, false, 2, 2, L"ni", L"ni"},
{IME_SETCOMPOSITION, false, 3, 3, L"nih", L"nih"},
{IME_SETCOMPOSITION, false, 4, 4, L"niha", L"niha"},
{IME_SETCOMPOSITION, false, 5, 5, L"nihao", L"nihao"},
{IME_CONFIRMCOMPOSITION, false, -1, -1, L"\x4F60\x597D", L"\x4F60\x597D"},
// Scenario 2: input a Japanese word with Microsoft IME (on Vista).
{IME_INITIALIZE, true, 0, 0, NULL, NULL},
{IME_SETINPUTMODE, true, 0, 0, NULL, NULL},
{IME_SETFOCUS, true, 0, 0, NULL, NULL},
{IME_SETCOMPOSITION, false, 0, 1, L"\xFF4B", L"\xFF4B"},
{IME_SETCOMPOSITION, false, 0, 1, L"\x304B", L"\x304B"},
{IME_SETCOMPOSITION, false, 0, 2, L"\x304B\xFF4E", L"\x304B\xFF4E"},
{IME_SETCOMPOSITION, false, 0, 3, L"\x304B\x3093\xFF4A",
L"\x304B\x3093\xFF4A"},
{IME_SETCOMPOSITION, false, 0, 3, L"\x304B\x3093\x3058",
L"\x304B\x3093\x3058"},
{IME_SETCOMPOSITION, false, 0, 2, L"\x611F\x3058", L"\x611F\x3058"},
{IME_SETCOMPOSITION, false, 0, 2, L"\x6F22\x5B57", L"\x6F22\x5B57"},
{IME_CONFIRMCOMPOSITION, false, -1, -1, L"", L"\x6F22\x5B57"},
{IME_CANCELCOMPOSITION, false, -1, -1, L"", L"\x6F22\x5B57"},
// Scenario 3: input a Korean word with Microsot IME (on Vista).
{IME_INITIALIZE, true, 0, 0, NULL, NULL},
{IME_SETINPUTMODE, true, 0, 0, NULL, NULL},
{IME_SETFOCUS, true, 0, 0, NULL, NULL},
{IME_SETCOMPOSITION, false, 0, 1, L"\x3147", L"\x3147"},
{IME_SETCOMPOSITION, false, 0, 1, L"\xC544", L"\xC544"},
{IME_SETCOMPOSITION, false, 0, 1, L"\xC548", L"\xC548"},
{IME_CONFIRMCOMPOSITION, false, -1, -1, L"", L"\xC548"},
{IME_SETCOMPOSITION, false, 0, 1, L"\x3134", L"\xC548\x3134"},
{IME_SETCOMPOSITION, false, 0, 1, L"\xB140", L"\xC548\xB140"},
{IME_SETCOMPOSITION, false, 0, 1, L"\xB155", L"\xC548\xB155"},
{IME_CANCELCOMPOSITION, false, -1, -1, L"", L"\xC548"},
{IME_SETCOMPOSITION, false, 0, 1, L"\xB155", L"\xC548\xB155"},
{IME_CONFIRMCOMPOSITION, false, -1, -1, L"", L"\xC548\xB155"},
};
for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kImeMessages); i++) {
const ImeMessage* ime_message = &kImeMessages[i];
switch (ime_message->command) {
case IME_INITIALIZE:
// Load an HTML page consisting of a content-editable <div> element,
// and move the input focus to the <div> element, where we can use
// IMEs.
view_->OnSetInputMethodActive(ime_message->enable);
view_->set_send_content_state_immediately(true);
LoadHTML("<html>"
"<head>"
"</head>"
"<body>"
"<div id=\"test1\" contenteditable=\"true\"></div>"
"</body>"
"</html>");
ExecuteJavaScript("document.getElementById('test1').focus();");
break;
case IME_SETINPUTMODE:
// Activate (or deactivate) our IME back-end.
view_->OnSetInputMethodActive(ime_message->enable);
break;
case IME_SETFOCUS:
// Update the window focus.
view_->OnSetFocus(ime_message->enable);
break;
case IME_SETCOMPOSITION:
view_->OnImeSetComposition(
WideToUTF16Hack(ime_message->ime_string),
std::vector<WebKit::WebCompositionUnderline>(),
ime_message->selection_start,
ime_message->selection_end);
break;
case IME_CONFIRMCOMPOSITION:
view_->OnImeConfirmComposition(
WideToUTF16Hack(ime_message->ime_string));
break;
case IME_CANCELCOMPOSITION:
view_->OnImeSetComposition(string16(),
std::vector<WebKit::WebCompositionUnderline>(),
0, 0);
break;
}
// Update the status of our IME back-end.
// TODO(hbono): we should verify messages to be sent from the back-end.
view_->UpdateInputMethod();
ProcessPendingMessages();
render_thread_.sink().ClearMessages();
if (ime_message->result) {
// Retrieve the content of this page and compare it with the expected
// result.
const int kMaxOutputCharacters = 128;
std::wstring output = UTF16ToWideHack(
GetMainFrame()->contentAsText(kMaxOutputCharacters));
EXPECT_EQ(output, ime_message->result);
}
}
}
// Test that the RenderView::OnSetTextDirection() function can change the text
// direction of the selected input element.
TEST_F(RenderViewTest, OnSetTextDirection) {
// Load an HTML page consisting of a <textarea> element and a <div> element.
// This test changes the text direction of the <textarea> element, and
// writes the values of its 'dir' attribute and its 'direction' property to
// verify that the text direction is changed.
view_->set_send_content_state_immediately(true);
LoadHTML("<html>"
"<head>"
"</head>"
"<body>"
"<textarea id=\"test\"></textarea>"
"<div id=\"result\" contenteditable=\"true\"></div>"
"</body>"
"</html>");
render_thread_.sink().ClearMessages();
static const struct {
WebTextDirection direction;
const wchar_t* expected_result;
} kTextDirection[] = {
{ WebKit::WebTextDirectionRightToLeft, L"\x000A" L"rtl,rtl" },
{ WebKit::WebTextDirectionLeftToRight, L"\x000A" L"ltr,ltr" },
};
for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kTextDirection); ++i) {
// Set the text direction of the <textarea> element.
ExecuteJavaScript("document.getElementById('test').focus();");
view_->OnSetTextDirection(kTextDirection[i].direction);
// Write the values of its DOM 'dir' attribute and its CSS 'direction'
// property to the <div> element.
ExecuteJavaScript("var result = document.getElementById('result');"
"var node = document.getElementById('test');"
"var style = getComputedStyle(node, null);"
"result.innerText ="
" node.getAttribute('dir') + ',' +"
" style.getPropertyValue('direction');");
// Copy the document content to std::wstring and compare with the
// expected result.
const int kMaxOutputCharacters = 16;
std::wstring output = UTF16ToWideHack(
GetMainFrame()->contentAsText(kMaxOutputCharacters));
EXPECT_EQ(output, kTextDirection[i].expected_result);
}
}
// Test that we can receive correct DOM events when we send input events
// through the RenderWidget::OnHandleInputEvent() function.
TEST_F(RenderViewTest, OnHandleKeyboardEvent) {
#if !defined(OS_MACOSX)
// Load an HTML page consisting of one <input> element and three
// contentediable <div> elements.
// The <input> element is used for sending keyboard events, and the <div>
// elements are used for writing DOM events in the following format:
// "<keyCode>,<shiftKey>,<controlKey>,<altKey>".
// TODO(hbono): <http://crbug.com/2215> Our WebKit port set |ev.metaKey| to
// true when pressing an alt key, i.e. the |ev.metaKey| value is not
// trustworthy. We will check the |ev.metaKey| value when this issue is fixed.
view_->set_send_content_state_immediately(true);
LoadHTML("<html>"
"<head>"
"<title></title>"
"<script type='text/javascript' language='javascript'>"
"function OnKeyEvent(ev) {"
" var result = document.getElementById(ev.type);"
" result.innerText ="
" (ev.which || ev.keyCode) + ',' +"
" ev.shiftKey + ',' +"
" ev.ctrlKey + ',' +"
" ev.altKey;"
" return true;"
"}"
"</script>"
"</head>"
"<body>"
"<input id='test' type='text'"
" onkeydown='return OnKeyEvent(event);'"
" onkeypress='return OnKeyEvent(event);'"
" onkeyup='return OnKeyEvent(event);'>"
"</input>"
"<div id='keydown' contenteditable='true'>"
"</div>"
"<div id='keypress' contenteditable='true'>"
"</div>"
"<div id='keyup' contenteditable='true'>"
"</div>"
"</body>"
"</html>");
ExecuteJavaScript("document.getElementById('test').focus();");
render_thread_.sink().ClearMessages();
static const MockKeyboard::Layout kLayouts[] = {
#if defined(OS_WIN)
// Since we ignore the mock keyboard layout on Linux and instead just use
// the screen's keyboard layout, these trivially pass. They are commented
// out to avoid the illusion that they work.
MockKeyboard::LAYOUT_ARABIC,
MockKeyboard::LAYOUT_CANADIAN_FRENCH,
MockKeyboard::LAYOUT_FRENCH,
MockKeyboard::LAYOUT_HEBREW,
MockKeyboard::LAYOUT_RUSSIAN,
#endif
MockKeyboard::LAYOUT_UNITED_STATES,
};
for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kLayouts); ++i) {
// For each key code, we send three keyboard events.
// * we press only the key;
// * we press the key and a left-shift key, and;
// * we press the key and a right-alt (AltGr) key.
// For each modifiers, we need a string used for formatting its expected
// result. (See the above comment for its format.)
static const struct {
MockKeyboard::Modifiers modifiers;
const char* expected_result;
} kModifierData[] = {
{MockKeyboard::NONE, "false,false,false"},
{MockKeyboard::LEFT_SHIFT, "true,false,false"},
#if defined(OS_WIN)
{MockKeyboard::RIGHT_ALT, "false,false,true"},
#endif
};
MockKeyboard::Layout layout = kLayouts[i];
for (size_t j = 0; j < ARRAYSIZE_UNSAFE(kModifierData); ++j) {
// Virtual key codes used for this test.
static const int kKeyCodes[] = {
'0', '1', '2', '3', '4', '5', '6', '7',
'8', '9', 'A', 'B', 'C', 'D', 'E', 'F',
'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N',
'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V',
'W', 'X', 'Y', 'Z',
ui::VKEY_OEM_1,
ui::VKEY_OEM_PLUS,
ui::VKEY_OEM_COMMA,
ui::VKEY_OEM_MINUS,
ui::VKEY_OEM_PERIOD,
ui::VKEY_OEM_2,
ui::VKEY_OEM_3,
ui::VKEY_OEM_4,
ui::VKEY_OEM_5,
ui::VKEY_OEM_6,
ui::VKEY_OEM_7,
#if defined(OS_WIN)
// Not sure how to handle this key on Linux.
ui::VKEY_OEM_8,
#endif
};
MockKeyboard::Modifiers modifiers = kModifierData[j].modifiers;
for (size_t k = 0; k < ARRAYSIZE_UNSAFE(kKeyCodes); ++k) {
// Send a keyboard event to the RenderView object.
// We should test a keyboard event only when the given keyboard-layout
// driver is installed in a PC and the driver can assign a Unicode
// charcter for the given tuple (key-code and modifiers).
int key_code = kKeyCodes[k];
std::wstring char_code;
if (SendKeyEvent(layout, key_code, modifiers, &char_code) < 0)
continue;
// Create an expected result from the virtual-key code, the character
// code, and the modifier-key status.
// We format a string that emulates a DOM-event string produced hy
// our JavaScript function. (See the above comment for the format.)
static char expected_result[1024];
expected_result[0] = 0;
base::snprintf(&expected_result[0],
sizeof(expected_result),
"\n" // texts in the <input> element
"%d,%s\n" // texts in the first <div> element
"%d,%s\n" // texts in the second <div> element
"%d,%s", // texts in the third <div> element
key_code, kModifierData[j].expected_result,
static_cast<int>(char_code[0]),
kModifierData[j].expected_result,
key_code, kModifierData[j].expected_result);
// Retrieve the text in the test page and compare it with the expected
// text created from a virtual-key code, a character code, and the
// modifier-key status.
const int kMaxOutputCharacters = 1024;
std::string output = UTF16ToUTF8(
GetMainFrame()->contentAsText(kMaxOutputCharacters));
EXPECT_EQ(expected_result, output);
}
}
}
#else
NOTIMPLEMENTED();
#endif
}
// Test that our EditorClientImpl class can insert characters when we send
// keyboard events through the RenderWidget::OnHandleInputEvent() function.
// This test is for preventing regressions caused only when we use non-US
// keyboards, such as Issue 10846.
TEST_F(RenderViewTest, InsertCharacters) {
#if !defined(OS_MACOSX)
static const struct {
MockKeyboard::Layout layout;
const wchar_t* expected_result;
} kLayouts[] = {
#if 0
// Disabled these keyboard layouts because buildbots do not have their
// keyboard-layout drivers installed.
{MockKeyboard::LAYOUT_ARABIC,
L"\x0030\x0031\x0032\x0033\x0034\x0035\x0036\x0037"
L"\x0038\x0039\x0634\x0624\x064a\x062b\x0628\x0644"
L"\x0627\x0647\x062a\x0646\x0645\x0629\x0649\x062e"
L"\x062d\x0636\x0642\x0633\x0641\x0639\x0631\x0635"
L"\x0621\x063a\x0626\x0643\x003d\x0648\x002d\x0632"
L"\x0638\x0630\x062c\x005c\x062f\x0637\x0028\x0021"
L"\x0040\x0023\x0024\x0025\x005e\x0026\x002a\x0029"
L"\x0650\x007d\x005d\x064f\x005b\x0623\x00f7\x0640"
L"\x060c\x002f\x2019\x0622\x00d7\x061b\x064e\x064c"
L"\x064d\x2018\x007b\x064b\x0652\x0625\x007e\x003a"
L"\x002b\x002c\x005f\x002e\x061f\x0651\x003c\x007c"
L"\x003e\x0022\x0030\x0031\x0032\x0033\x0034\x0035"
L"\x0036\x0037\x0038\x0039\x0634\x0624\x064a\x062b"
L"\x0628\x0644\x0627\x0647\x062a\x0646\x0645\x0629"
L"\x0649\x062e\x062d\x0636\x0642\x0633\x0641\x0639"
L"\x0631\x0635\x0621\x063a\x0626\x0643\x003d\x0648"
L"\x002d\x0632\x0638\x0630\x062c\x005c\x062f\x0637"
},
{MockKeyboard::LAYOUT_HEBREW,
L"\x0030\x0031\x0032\x0033\x0034\x0035\x0036\x0037"
L"\x0038\x0039\x05e9\x05e0\x05d1\x05d2\x05e7\x05db"
L"\x05e2\x05d9\x05df\x05d7\x05dc\x05da\x05e6\x05de"
L"\x05dd\x05e4\x002f\x05e8\x05d3\x05d0\x05d5\x05d4"
L"\x0027\x05e1\x05d8\x05d6\x05e3\x003d\x05ea\x002d"
L"\x05e5\x002e\x003b\x005d\x005c\x005b\x002c\x0028"
L"\x0021\x0040\x0023\x0024\x0025\x005e\x0026\x002a"
L"\x0029\x0041\x0042\x0043\x0044\x0045\x0046\x0047"
L"\x0048\x0049\x004a\x004b\x004c\x004d\x004e\x004f"
L"\x0050\x0051\x0052\x0053\x0054\x0055\x0056\x0057"
L"\x0058\x0059\x005a\x003a\x002b\x003e\x005f\x003c"
L"\x003f\x007e\x007d\x007c\x007b\x0022\x0030\x0031"
L"\x0032\x0033\x0034\x0035\x0036\x0037\x0038\x0039"
L"\x05e9\x05e0\x05d1\x05d2\x05e7\x05db\x05e2\x05d9"
L"\x05df\x05d7\x05dc\x05da\x05e6\x05de\x05dd\x05e4"
L"\x002f\x05e8\x05d3\x05d0\x05d5\x05d4\x0027\x05e1"
L"\x05d8\x05d6\x05e3\x003d\x05ea\x002d\x05e5\x002e"
L"\x003b\x005d\x005c\x005b\x002c"
},
#endif
#if defined(OS_WIN)
// On Linux, the only way to test alternate keyboard layouts is to change
// the keyboard layout of the whole screen. I'm worried about the side
// effects this may have on the buildbots.
{MockKeyboard::LAYOUT_CANADIAN_FRENCH,
L"\x0030\x0031\x0032\x0033\x0034\x0035\x0036\x0037"
L"\x0038\x0039\x0061\x0062\x0063\x0064\x0065\x0066"
L"\x0067\x0068\x0069\x006a\x006b\x006c\x006d\x006e"
L"\x006f\x0070\x0071\x0072\x0073\x0074\x0075\x0076"
L"\x0077\x0078\x0079\x007a\x003b\x003d\x002c\x002d"
L"\x002e\x00e9\x003c\x0029\x0021\x0022\x002f\x0024"
L"\x0025\x003f\x0026\x002a\x0028\x0041\x0042\x0043"
L"\x0044\x0045\x0046\x0047\x0048\x0049\x004a\x004b"
L"\x004c\x004d\x004e\x004f\x0050\x0051\x0052\x0053"
L"\x0054\x0055\x0056\x0057\x0058\x0059\x005a\x003a"
L"\x002b\x0027\x005f\x002e\x00c9\x003e\x0030\x0031"
L"\x0032\x0033\x0034\x0035\x0036\x0037\x0038\x0039"
L"\x0061\x0062\x0063\x0064\x0065\x0066\x0067\x0068"
L"\x0069\x006a\x006b\x006c\x006d\x006e\x006f\x0070"
L"\x0071\x0072\x0073\x0074\x0075\x0076\x0077\x0078"
L"\x0079\x007a\x003b\x003d\x002c\x002d\x002e\x00e9"
L"\x003c"
},
{MockKeyboard::LAYOUT_FRENCH,
L"\x00e0\x0026\x00e9\x0022\x0027\x0028\x002d\x00e8"
L"\x005f\x00e7\x0061\x0062\x0063\x0064\x0065\x0066"
L"\x0067\x0068\x0069\x006a\x006b\x006c\x006d\x006e"
L"\x006f\x0070\x0071\x0072\x0073\x0074\x0075\x0076"
L"\x0077\x0078\x0079\x007a\x0024\x003d\x002c\x003b"
L"\x003a\x00f9\x0029\x002a\x0021\x0030\x0031\x0032"
L"\x0033\x0034\x0035\x0036\x0037\x0038\x0039\x0041"
L"\x0042\x0043\x0044\x0045\x0046\x0047\x0048\x0049"
L"\x004a\x004b\x004c\x004d\x004e\x004f\x0050\x0051"
L"\x0052\x0053\x0054\x0055\x0056\x0057\x0058\x0059"
L"\x005a\x00a3\x002b\x003f\x002e\x002f\x0025\x00b0"
L"\x00b5\x00e0\x0026\x00e9\x0022\x0027\x0028\x002d"
L"\x00e8\x005f\x00e7\x0061\x0062\x0063\x0064\x0065"
L"\x0066\x0067\x0068\x0069\x006a\x006b\x006c\x006d"
L"\x006e\x006f\x0070\x0071\x0072\x0073\x0074\x0075"
L"\x0076\x0077\x0078\x0079\x007a\x0024\x003d\x002c"
L"\x003b\x003a\x00f9\x0029\x002a\x0021"
},
{MockKeyboard::LAYOUT_RUSSIAN,
L"\x0030\x0031\x0032\x0033\x0034\x0035\x0036\x0037"
L"\x0038\x0039\x0444\x0438\x0441\x0432\x0443\x0430"
L"\x043f\x0440\x0448\x043e\x043b\x0434\x044c\x0442"
L"\x0449\x0437\x0439\x043a\x044b\x0435\x0433\x043c"
L"\x0446\x0447\x043d\x044f\x0436\x003d\x0431\x002d"
L"\x044e\x002e\x0451\x0445\x005c\x044a\x044d\x0029"
L"\x0021\x0022\x2116\x003b\x0025\x003a\x003f\x002a"
L"\x0028\x0424\x0418\x0421\x0412\x0423\x0410\x041f"
L"\x0420\x0428\x041e\x041b\x0414\x042c\x0422\x0429"
L"\x0417\x0419\x041a\x042b\x0415\x0413\x041c\x0426"
L"\x0427\x041d\x042f\x0416\x002b\x0411\x005f\x042e"
L"\x002c\x0401\x0425\x002f\x042a\x042d\x0030\x0031"
L"\x0032\x0033\x0034\x0035\x0036\x0037\x0038\x0039"
L"\x0444\x0438\x0441\x0432\x0443\x0430\x043f\x0440"
L"\x0448\x043e\x043b\x0434\x044c\x0442\x0449\x0437"
L"\x0439\x043a\x044b\x0435\x0433\x043c\x0446\x0447"
L"\x043d\x044f\x0436\x003d\x0431\x002d\x044e\x002e"
L"\x0451\x0445\x005c\x044a\x044d"
},
#endif // defined(OS_WIN)
{MockKeyboard::LAYOUT_UNITED_STATES,
L"\x0030\x0031\x0032\x0033\x0034\x0035\x0036\x0037"
L"\x0038\x0039\x0061\x0062\x0063\x0064\x0065\x0066"
L"\x0067\x0068\x0069\x006a\x006b\x006c\x006d\x006e"
L"\x006f\x0070\x0071\x0072\x0073\x0074\x0075\x0076"
L"\x0077\x0078\x0079\x007a\x003b\x003d\x002c\x002d"
L"\x002e\x002f\x0060\x005b\x005c\x005d\x0027\x0029"
L"\x0021\x0040\x0023\x0024\x0025\x005e\x0026\x002a"
L"\x0028\x0041\x0042\x0043\x0044\x0045\x0046\x0047"
L"\x0048\x0049\x004a\x004b\x004c\x004d\x004e\x004f"
L"\x0050\x0051\x0052\x0053\x0054\x0055\x0056\x0057"
L"\x0058\x0059\x005a\x003a\x002b\x003c\x005f\x003e"
L"\x003f\x007e\x007b\x007c\x007d\x0022"
#if defined(OS_WIN)
// This is ifdefed out for Linux to correspond to the fact that we don't
// test alt+keystroke for now.
L"\x0030\x0031\x0032\x0033\x0034\x0035\x0036\x0037"
L"\x0038\x0039\x0061\x0062\x0063\x0064\x0065\x0066"
L"\x0067\x0068\x0069\x006a\x006b\x006c\x006d\x006e"
L"\x006f\x0070\x0071\x0072\x0073\x0074\x0075\x0076"
L"\x0077\x0078\x0079\x007a\x003b\x003d\x002c\x002d"
L"\x002e\x002f\x0060\x005b\x005c\x005d\x0027"
#endif
},
};
for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kLayouts); ++i) {
// Load an HTML page consisting of one <div> element.
// This <div> element is used by the EditorClientImpl class to insert
// characters received through the RenderWidget::OnHandleInputEvent()
// function.
view_->set_send_content_state_immediately(true);
LoadHTML("<html>"
"<head>"
"<title></title>"
"</head>"
"<body>"
"<div id='test' contenteditable='true'>"
"</div>"
"</body>"
"</html>");
ExecuteJavaScript("document.getElementById('test').focus();");
render_thread_.sink().ClearMessages();
// For each key code, we send three keyboard events.
// * Pressing only the key;
// * Pressing the key and a left-shift key, and;
// * Pressing the key and a right-alt (AltGr) key.
static const MockKeyboard::Modifiers kModifiers[] = {
MockKeyboard::NONE,
MockKeyboard::LEFT_SHIFT,
#if defined(OS_WIN)
MockKeyboard::RIGHT_ALT,
#endif
};
MockKeyboard::Layout layout = kLayouts[i].layout;
for (size_t j = 0; j < ARRAYSIZE_UNSAFE(kModifiers); ++j) {
// Virtual key codes used for this test.
static const int kKeyCodes[] = {
'0', '1', '2', '3', '4', '5', '6', '7',
'8', '9', 'A', 'B', 'C', 'D', 'E', 'F',
'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N',
'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V',
'W', 'X', 'Y', 'Z',
ui::VKEY_OEM_1,
ui::VKEY_OEM_PLUS,
ui::VKEY_OEM_COMMA,
ui::VKEY_OEM_MINUS,
ui::VKEY_OEM_PERIOD,
ui::VKEY_OEM_2,
ui::VKEY_OEM_3,
ui::VKEY_OEM_4,
ui::VKEY_OEM_5,
ui::VKEY_OEM_6,
ui::VKEY_OEM_7,
#if defined(OS_WIN)
// Unclear how to handle this on Linux.
ui::VKEY_OEM_8,
#endif
};
MockKeyboard::Modifiers modifiers = kModifiers[j];
for (size_t k = 0; k < ARRAYSIZE_UNSAFE(kKeyCodes); ++k) {
// Send a keyboard event to the RenderView object.
// We should test a keyboard event only when the given keyboard-layout
// driver is installed in a PC and the driver can assign a Unicode
// charcter for the given tuple (layout, key-code, and modifiers).
int key_code = kKeyCodes[k];
std::wstring char_code;
if (SendKeyEvent(layout, key_code, modifiers, &char_code) < 0)
continue;
}
}
// Retrieve the text in the test page and compare it with the expected
// text created from a virtual-key code, a character code, and the
// modifier-key status.
const int kMaxOutputCharacters = 4096;
std::wstring output = UTF16ToWideHack(
GetMainFrame()->contentAsText(kMaxOutputCharacters));
EXPECT_EQ(kLayouts[i].expected_result, output);
}
#else
NOTIMPLEMENTED();
#endif
}
// Crashy, http://crbug.com/53247.
TEST_F(RenderViewTest, DISABLED_DidFailProvisionalLoadWithErrorForError) {
GetMainFrame()->enableViewSourceMode(true);
WebURLError error;
error.domain.fromUTF8("test_domain");
error.reason = net::ERR_FILE_NOT_FOUND;
error.unreachableURL = GURL("http://foo");
WebFrame* web_frame = GetMainFrame();
// An error occurred.
view_->didFailProvisionalLoad(web_frame, error);
// Frame should exit view-source mode.
EXPECT_FALSE(web_frame->isViewSourceModeEnabled());
}
TEST_F(RenderViewTest, DidFailProvisionalLoadWithErrorForCancellation) {
GetMainFrame()->enableViewSourceMode(true);
WebURLError error;
error.domain.fromUTF8("test_domain");
error.reason = net::ERR_ABORTED;
error.unreachableURL = GURL("http://foo");
WebFrame* web_frame = GetMainFrame();
// A cancellation occurred.
view_->didFailProvisionalLoad(web_frame, error);
// Frame should stay in view-source mode.
EXPECT_TRUE(web_frame->isViewSourceModeEnabled());
}
// Regression test for http://crbug.com/41562
TEST_F(RenderViewTest, UpdateTargetURLWithInvalidURL) {
const GURL invalid_gurl("http://");
view_->setMouseOverURL(WebKit::WebURL(invalid_gurl));
EXPECT_EQ(invalid_gurl, view_->target_url_);
}
TEST_F(RenderViewTest, SetHistoryLengthAndPrune) {
int expected_page_id = -1;
// No history to merge and no committed pages.
view_->OnSetHistoryLengthAndPrune(0, -1);
EXPECT_EQ(0, view_->history_list_length_);
EXPECT_EQ(-1, view_->history_list_offset_);
// History to merge and no committed pages.
view_->OnSetHistoryLengthAndPrune(2, -1);
EXPECT_EQ(2, view_->history_list_length_);
EXPECT_EQ(1, view_->history_list_offset_);
EXPECT_EQ(-1, view_->history_page_ids_[0]);
EXPECT_EQ(-1, view_->history_page_ids_[1]);
ClearHistory();
// No history to merge and a committed page to be kept.
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id = view_->page_id_;
view_->OnSetHistoryLengthAndPrune(0, expected_page_id);
EXPECT_EQ(1, view_->history_list_length_);
EXPECT_EQ(0, view_->history_list_offset_);
EXPECT_EQ(expected_page_id, view_->history_page_ids_[0]);
ClearHistory();
// No history to merge and a committed page to be pruned.
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id = view_->page_id_;
view_->OnSetHistoryLengthAndPrune(0, expected_page_id + 1);
EXPECT_EQ(0, view_->history_list_length_);
EXPECT_EQ(-1, view_->history_list_offset_);
ClearHistory();
// No history to merge and a committed page that the browser was unaware of.
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id = view_->page_id_;
view_->OnSetHistoryLengthAndPrune(0, -1);
EXPECT_EQ(1, view_->history_list_length_);
EXPECT_EQ(0, view_->history_list_offset_);
EXPECT_EQ(expected_page_id, view_->history_page_ids_[0]);
ClearHistory();
// History to merge and a committed page to be kept.
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id = view_->page_id_;
view_->OnSetHistoryLengthAndPrune(2, expected_page_id);
EXPECT_EQ(3, view_->history_list_length_);
EXPECT_EQ(2, view_->history_list_offset_);
EXPECT_EQ(-1, view_->history_page_ids_[0]);
EXPECT_EQ(-1, view_->history_page_ids_[1]);
EXPECT_EQ(expected_page_id, view_->history_page_ids_[2]);
ClearHistory();
// History to merge and a committed page to be pruned.
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id = view_->page_id_;
view_->OnSetHistoryLengthAndPrune(2, expected_page_id + 1);
EXPECT_EQ(2, view_->history_list_length_);
EXPECT_EQ(1, view_->history_list_offset_);
EXPECT_EQ(-1, view_->history_page_ids_[0]);
EXPECT_EQ(-1, view_->history_page_ids_[1]);
ClearHistory();
// History to merge and a committed page that the browser was unaware of.
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id = view_->page_id_;
view_->OnSetHistoryLengthAndPrune(2, -1);
EXPECT_EQ(3, view_->history_list_length_);
EXPECT_EQ(2, view_->history_list_offset_);
EXPECT_EQ(-1, view_->history_page_ids_[0]);
EXPECT_EQ(-1, view_->history_page_ids_[1]);
EXPECT_EQ(expected_page_id, view_->history_page_ids_[2]);
ClearHistory();
int expected_page_id_2 = -1;
// No history to merge and two committed pages, both to be kept.
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id = view_->page_id_;
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id_2 = view_->page_id_;
EXPECT_GT(expected_page_id_2, expected_page_id);
view_->OnSetHistoryLengthAndPrune(0, expected_page_id);
EXPECT_EQ(2, view_->history_list_length_);
EXPECT_EQ(1, view_->history_list_offset_);
EXPECT_EQ(expected_page_id, view_->history_page_ids_[0]);
EXPECT_EQ(expected_page_id_2, view_->history_page_ids_[1]);
ClearHistory();
// No history to merge and two committed pages, and only the second is kept.
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id = view_->page_id_;
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id_2 = view_->page_id_;
EXPECT_GT(expected_page_id_2, expected_page_id);
view_->OnSetHistoryLengthAndPrune(0, expected_page_id_2);
EXPECT_EQ(1, view_->history_list_length_);
EXPECT_EQ(0, view_->history_list_offset_);
EXPECT_EQ(expected_page_id_2, view_->history_page_ids_[0]);
ClearHistory();
// No history to merge and two committed pages, both of which the browser was
// unaware of.
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id = view_->page_id_;
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id_2 = view_->page_id_;
EXPECT_GT(expected_page_id_2, expected_page_id);
view_->OnSetHistoryLengthAndPrune(0, -1);
EXPECT_EQ(2, view_->history_list_length_);
EXPECT_EQ(1, view_->history_list_offset_);
EXPECT_EQ(expected_page_id, view_->history_page_ids_[0]);
EXPECT_EQ(expected_page_id_2, view_->history_page_ids_[1]);
ClearHistory();
// History to merge and two committed pages, both to be kept.
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id = view_->page_id_;
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id_2 = view_->page_id_;
EXPECT_GT(expected_page_id_2, expected_page_id);
view_->OnSetHistoryLengthAndPrune(2, expected_page_id);
EXPECT_EQ(4, view_->history_list_length_);
EXPECT_EQ(3, view_->history_list_offset_);
EXPECT_EQ(-1, view_->history_page_ids_[0]);
EXPECT_EQ(-1, view_->history_page_ids_[1]);
EXPECT_EQ(expected_page_id, view_->history_page_ids_[2]);
EXPECT_EQ(expected_page_id_2, view_->history_page_ids_[3]);
ClearHistory();
// History to merge and two committed pages, and only the second is kept.
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id = view_->page_id_;
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id_2 = view_->page_id_;
EXPECT_GT(expected_page_id_2, expected_page_id);
view_->OnSetHistoryLengthAndPrune(2, expected_page_id_2);
EXPECT_EQ(3, view_->history_list_length_);
EXPECT_EQ(2, view_->history_list_offset_);
EXPECT_EQ(-1, view_->history_page_ids_[0]);
EXPECT_EQ(-1, view_->history_page_ids_[1]);
EXPECT_EQ(expected_page_id_2, view_->history_page_ids_[2]);
ClearHistory();
// History to merge and two committed pages, both of which the browser was
// unaware of.
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id = view_->page_id_;
view_->didCommitProvisionalLoad(GetMainFrame(), true);
expected_page_id_2 = view_->page_id_;
EXPECT_GT(expected_page_id_2, expected_page_id);
view_->OnSetHistoryLengthAndPrune(2, -1);
EXPECT_EQ(4, view_->history_list_length_);
EXPECT_EQ(3, view_->history_list_offset_);
EXPECT_EQ(-1, view_->history_page_ids_[0]);
EXPECT_EQ(-1, view_->history_page_ids_[1]);
EXPECT_EQ(expected_page_id, view_->history_page_ids_[2]);
EXPECT_EQ(expected_page_id_2, view_->history_page_ids_[3]);
}