cef/tests/ceftests/scheme_handler_unittest.cc
Marshall Greenblatt 5c79944b31 Update to Chromium revision d483fb77 (#474934)
- CefLifeSpanHandler::OnBeforePopup is now called on the UI thread.
- Remove CefBrowserSettings.javascript_open_windows which is no
  longer supported.
2017-06-02 05:55:23 -07:00

1664 lines
54 KiB
C++

// Copyright (c) 2011 The Chromium Embedded Framework 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 <algorithm>
#include "include/base/cef_bind.h"
#include "include/cef_callback.h"
#include "include/cef_origin_whitelist.h"
#include "include/cef_scheme.h"
#include "include/wrapper/cef_closure_task.h"
#include "tests/ceftests/test_handler.h"
#include "tests/ceftests/test_suite.h"
namespace {
class TestResults {
public:
TestResults() : status_code(0), sub_status_code(0), delay(0) {}
void reset() {
url.clear();
html.clear();
status_code = 0;
response_error_code = ERR_NONE;
expected_error_code = ERR_NONE;
redirect_url.clear();
sub_url.clear();
sub_html.clear();
sub_status_code = 0;
sub_allow_origin.clear();
exit_url.clear();
accept_language.clear();
delay = 0;
got_request.reset();
got_read.reset();
got_output.reset();
got_redirect.reset();
got_error.reset();
got_sub_request.reset();
got_sub_read.reset();
got_sub_success.reset();
}
std::string url;
std::string html;
int status_code;
// Error code set on the response.
cef_errorcode_t response_error_code;
// Error code expected in OnLoadError.
cef_errorcode_t expected_error_code;
// Used for testing redirects
std::string redirect_url;
// Used for testing XHR requests
std::string sub_url;
std::string sub_html;
int sub_status_code;
std::string sub_allow_origin;
std::string sub_redirect_url;
std::string exit_url;
// Used for testing per-browser Accept-Language.
std::string accept_language;
// Delay for returning scheme handler results.
int delay;
TrackCallback got_request, got_read, got_output, got_redirect, got_error,
got_sub_redirect, got_sub_request, got_sub_read, got_sub_success;
};
// Current scheme handler object. Used when destroying the test from
// ClientSchemeHandler::ProcessRequest().
class TestSchemeHandler;
TestSchemeHandler* g_current_handler = NULL;
class TestSchemeHandler : public TestHandler {
public:
explicit TestSchemeHandler(TestResults* tr) : test_results_(tr) {
g_current_handler = this;
}
void PopulateBrowserSettings(CefBrowserSettings* settings) override {
if (!test_results_->accept_language.empty()) {
CefString(&settings->accept_language_list) =
test_results_->accept_language;
}
}
void RunTest() override {
CreateBrowser(test_results_->url);
// Time out the test after a reasonable period of time.
SetTestTimeout();
}
// Necessary to make the method public in order to destroy the test from
// ClientSchemeHandler::ProcessRequest().
void DestroyTest() override { TestHandler::DestroyTest(); }
cef_return_value_t OnBeforeResourceLoad(
CefRefPtr<CefBrowser> browser,
CefRefPtr<CefFrame> frame,
CefRefPtr<CefRequest> request,
CefRefPtr<CefRequestCallback> callback) override {
std::string newUrl = request->GetURL();
if (!test_results_->exit_url.empty() &&
newUrl.find(test_results_->exit_url) != std::string::npos) {
// XHR tests use an exit URL to destroy the test.
if (newUrl.find("SUCCESS") != std::string::npos)
test_results_->got_sub_success.yes();
DestroyTest();
return RV_CANCEL;
}
if (!test_results_->sub_redirect_url.empty() &&
newUrl == test_results_->sub_redirect_url) {
test_results_->got_sub_redirect.yes();
// Redirect to the sub URL.
request->SetURL(test_results_->sub_url);
} else if (newUrl == test_results_->redirect_url) {
test_results_->got_redirect.yes();
// No read should have occurred for the redirect.
EXPECT_TRUE(test_results_->got_request);
EXPECT_FALSE(test_results_->got_read);
// Now loading the redirect URL.
test_results_->url = test_results_->redirect_url;
test_results_->redirect_url.clear();
}
return RV_CONTINUE;
}
void OnLoadEnd(CefRefPtr<CefBrowser> browser,
CefRefPtr<CefFrame> frame,
int httpStatusCode) override {
std::string url = frame->GetURL();
if (url == test_results_->url || (test_results_->status_code != 200 &&
test_results_->status_code != 0)) {
test_results_->got_output.yes();
// Test that the status code is correct.
EXPECT_EQ(httpStatusCode, test_results_->status_code);
if (test_results_->sub_url.empty())
DestroyTest();
}
}
void OnLoadError(CefRefPtr<CefBrowser> browser,
CefRefPtr<CefFrame> frame,
ErrorCode errorCode,
const CefString& errorText,
const CefString& failedUrl) override {
test_results_->got_error.yes();
#if defined(OS_LINUX)
// CustomStandardXHR* tests are flaky on Linux, sometimes returning
// ERR_ABORTED. Make the tests less flaky by also accepting that value.
if (!(test_results_->expected_error_code == 0 && errorCode == ERR_ABORTED))
EXPECT_EQ(test_results_->expected_error_code, errorCode);
#else
// Check that the error code matches the expectation.
EXPECT_EQ(test_results_->expected_error_code, errorCode);
#endif
DestroyTest();
}
protected:
TestResults* test_results_;
IMPLEMENT_REFCOUNTING(TestSchemeHandler);
};
class ClientSchemeHandler : public CefResourceHandler {
public:
explicit ClientSchemeHandler(TestResults* tr)
: test_results_(tr), offset_(0), is_sub_(false), has_delayed_(false) {}
bool ProcessRequest(CefRefPtr<CefRequest> request,
CefRefPtr<CefCallback> callback) override {
EXPECT_TRUE(CefCurrentlyOn(TID_IO));
bool handled = false;
std::string url = request->GetURL();
is_sub_ =
(!test_results_->sub_url.empty() && test_results_->sub_url == url);
if (is_sub_) {
test_results_->got_sub_request.yes();
if (!test_results_->sub_html.empty())
handled = true;
} else {
EXPECT_EQ(url, test_results_->url);
test_results_->got_request.yes();
if (!test_results_->html.empty())
handled = true;
}
std::string accept_language;
CefRequest::HeaderMap headerMap;
CefRequest::HeaderMap::iterator headerIter;
request->GetHeaderMap(headerMap);
headerIter = headerMap.find("Accept-Language");
if (headerIter != headerMap.end())
accept_language = headerIter->second;
EXPECT_TRUE(!accept_language.empty());
if (!test_results_->accept_language.empty()) {
// Value from CefBrowserSettings.accept_language set in
// PopulateBrowserSettings().
EXPECT_STREQ(test_results_->accept_language.data(),
accept_language.data());
} else {
// Value from CefSettings.accept_language set in
// CefTestSuite::GetSettings().
EXPECT_STREQ(CEF_SETTINGS_ACCEPT_LANGUAGE, accept_language.data());
}
if (handled) {
if (test_results_->delay > 0) {
// Continue after the delay.
CefPostDelayedTask(TID_IO,
base::Bind(&CefCallback::Continue, callback.get()),
test_results_->delay);
} else {
// Continue immediately.
callback->Continue();
}
return true;
} else if (test_results_->response_error_code != ERR_NONE) {
// Propagate the error code.
callback->Continue();
return true;
}
// Response was canceled.
if (g_current_handler)
g_current_handler->DestroyTest();
return false;
}
void GetResponseHeaders(CefRefPtr<CefResponse> response,
int64& response_length,
CefString& redirectUrl) override {
if (is_sub_) {
response->SetStatus(test_results_->sub_status_code);
if (!test_results_->sub_allow_origin.empty()) {
// Set the Access-Control-Allow-Origin header to allow cross-domain
// scripting.
CefResponse::HeaderMap headers;
headers.insert(std::make_pair("Access-Control-Allow-Origin",
test_results_->sub_allow_origin));
response->SetHeaderMap(headers);
}
if (!test_results_->sub_html.empty()) {
response->SetMimeType("text/html");
response_length = test_results_->sub_html.size();
}
} else if (!test_results_->redirect_url.empty()) {
redirectUrl = test_results_->redirect_url;
} else if (test_results_->response_error_code != ERR_NONE) {
response->SetError(test_results_->response_error_code);
} else {
response->SetStatus(test_results_->status_code);
if (!test_results_->html.empty()) {
response->SetMimeType("text/html");
response_length = test_results_->html.size();
}
}
}
void Cancel() override { EXPECT_TRUE(CefCurrentlyOn(TID_IO)); }
bool ReadResponse(void* data_out,
int bytes_to_read,
int& bytes_read,
CefRefPtr<CefCallback> callback) override {
EXPECT_TRUE(CefCurrentlyOn(TID_IO));
if (test_results_->delay > 0) {
if (!has_delayed_) {
// Continue after a delay.
CefPostDelayedTask(TID_IO,
base::Bind(&ClientSchemeHandler::ContinueAfterDelay,
this, callback),
test_results_->delay);
bytes_read = 0;
return true;
}
has_delayed_ = false;
}
std::string* data;
if (is_sub_) {
test_results_->got_sub_read.yes();
data = &test_results_->sub_html;
} else {
test_results_->got_read.yes();
data = &test_results_->html;
}
bool has_data = false;
bytes_read = 0;
size_t size = data->size();
if (offset_ < size) {
int transfer_size =
std::min(bytes_to_read, static_cast<int>(size - offset_));
memcpy(data_out, data->c_str() + offset_, transfer_size);
offset_ += transfer_size;
bytes_read = transfer_size;
has_data = true;
}
return has_data;
}
private:
void ContinueAfterDelay(CefRefPtr<CefCallback> callback) {
has_delayed_ = true;
callback->Continue();
}
TestResults* test_results_;
size_t offset_;
bool is_sub_;
bool has_delayed_;
IMPLEMENT_REFCOUNTING(ClientSchemeHandler);
};
class ClientSchemeHandlerFactory : public CefSchemeHandlerFactory {
public:
explicit ClientSchemeHandlerFactory(TestResults* tr) : test_results_(tr) {}
CefRefPtr<CefResourceHandler> Create(CefRefPtr<CefBrowser> browser,
CefRefPtr<CefFrame> frame,
const CefString& scheme_name,
CefRefPtr<CefRequest> request) override {
EXPECT_TRUE(CefCurrentlyOn(TID_IO));
return new ClientSchemeHandler(test_results_);
}
TestResults* test_results_;
IMPLEMENT_REFCOUNTING(ClientSchemeHandlerFactory);
};
// Global test results object.
TestResults g_TestResults;
// If |domain| is empty the scheme will be registered as non-standard.
void RegisterTestScheme(const std::string& scheme, const std::string& domain) {
g_TestResults.reset();
EXPECT_TRUE(CefRegisterSchemeHandlerFactory(
scheme, domain, new ClientSchemeHandlerFactory(&g_TestResults)));
WaitForIOThread();
}
void ClearTestSchemes() {
EXPECT_TRUE(CefClearSchemeHandlerFactories());
WaitForIOThread();
}
struct XHRTestSettings {
XHRTestSettings() : synchronous(true) {}
std::string url;
std::string sub_url;
std::string sub_allow_origin;
std::string sub_redirect_url;
bool synchronous;
};
void SetUpXHR(const XHRTestSettings& settings) {
g_TestResults.sub_url = settings.sub_url;
g_TestResults.sub_html = "SUCCESS";
g_TestResults.sub_status_code = 200;
g_TestResults.sub_allow_origin = settings.sub_allow_origin;
g_TestResults.sub_redirect_url = settings.sub_redirect_url;
std::string request_url;
if (!settings.sub_redirect_url.empty())
request_url = settings.sub_redirect_url;
else
request_url = settings.sub_url;
g_TestResults.url = settings.url;
std::stringstream ss;
ss << "<html><head>"
"<script language=\"JavaScript\">"
"function onResult(val) {"
" document.location = \"http://tests/exit?result=\"+val;"
"}"
"function execXMLHttpRequest() {";
if (settings.synchronous) {
ss << "var result = 'FAILURE';"
"try {"
" xhr = new XMLHttpRequest();"
" xhr.open(\"GET\", \""
<< request_url.c_str()
<< "\", false);"
" xhr.send();"
" result = xhr.responseText;"
"} catch(e) {}"
"onResult(result)";
} else {
ss << "xhr = new XMLHttpRequest();"
"xhr.open(\"GET\", \""
<< request_url.c_str()
<< "\", true);"
"xhr.onload = function(e) {"
" if (xhr.readyState === 4) {"
" if (xhr.status === 200) {"
" onResult(xhr.responseText);"
" } else {"
" console.log('XMLHttpRequest failed with status ' + "
"xhr.status);"
" onResult('FAILURE');"
" }"
" }"
"};"
"xhr.onerror = function(e) {"
" console.log('XMLHttpRequest failed with error ' + e);"
" onResult('FAILURE');"
"};"
"xhr.send()";
}
ss << "}"
"</script>"
"</head><body onload=\"execXMLHttpRequest();\">"
"Running execXMLHttpRequest..."
"</body></html>";
g_TestResults.html = ss.str();
g_TestResults.status_code = 200;
g_TestResults.exit_url = "http://tests/exit";
}
void SetUpXSS(const std::string& url,
const std::string& sub_url,
const std::string& domain = std::string()) {
// 1. Load |url| which contains an iframe.
// 2. The iframe loads |xss_url|.
// 3. |xss_url| tries to call a JS function in |url|.
// 4. |url| tries to call a JS function in |xss_url|.
std::stringstream ss;
std::string domain_line;
if (!domain.empty())
domain_line = "document.domain = '" + domain + "';";
g_TestResults.sub_url = sub_url;
ss << "<html><head>"
"<script language=\"JavaScript\">"
<< domain_line
<< "function getResult() {"
" return 'SUCCESS';"
"}"
"function execXSSRequest() {"
" var result = 'FAILURE';"
" try {"
" result = parent.getResult();"
" } catch(e) {}"
" document.location = \"http://tests/exit?result=\"+result;"
"}"
"</script>"
"</head><body onload=\"execXSSRequest();\">"
"Running execXSSRequest..."
"</body></html>";
g_TestResults.sub_html = ss.str();
g_TestResults.sub_status_code = 200;
g_TestResults.url = url;
ss.str("");
ss << "<html><head>"
"<script language=\"JavaScript\">"
<< domain_line
<< ""
"function getResult() {"
" try {"
" return document.getElementById('s').contentWindow.getResult();"
" } catch(e) {}"
" return 'FAILURE';"
"}"
"</script>"
"</head><body>"
"<iframe src=\""
<< sub_url.c_str()
<< "\" id=\"s\">"
"</body></html>";
g_TestResults.html = ss.str();
g_TestResults.status_code = 200;
g_TestResults.exit_url = "http://tests/exit";
}
} // namespace
// Test that scheme registration/unregistration works as expected.
TEST(SchemeHandlerTest, Registration) {
RegisterTestScheme("customstd", "test");
g_TestResults.url = "customstd://test/run.html";
g_TestResults.html =
"<html><head></head><body><h1>Success!</h1></body></html>";
g_TestResults.status_code = 200;
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
// Unregister the handler.
EXPECT_TRUE(CefRegisterSchemeHandlerFactory("customstd", "test", NULL));
WaitForIOThread();
g_TestResults.got_request.reset();
g_TestResults.got_read.reset();
g_TestResults.got_output.reset();
g_TestResults.expected_error_code = ERR_UNKNOWN_URL_SCHEME;
handler->ExecuteTest();
EXPECT_TRUE(g_TestResults.got_error);
EXPECT_FALSE(g_TestResults.got_request);
EXPECT_FALSE(g_TestResults.got_read);
EXPECT_FALSE(g_TestResults.got_output);
// Re-register the handler.
EXPECT_TRUE(CefRegisterSchemeHandlerFactory(
"customstd", "test", new ClientSchemeHandlerFactory(&g_TestResults)));
WaitForIOThread();
g_TestResults.got_error.reset();
g_TestResults.expected_error_code = ERR_NONE;
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_FALSE(g_TestResults.got_error);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
ClearTestSchemes();
}
// Test that a custom standard scheme can return normal results.
TEST(SchemeHandlerTest, CustomStandardNormalResponse) {
RegisterTestScheme("customstd", "test");
g_TestResults.url = "customstd://test/run.html";
g_TestResults.html =
"<html><head></head><body><h1>Success!</h1></body></html>";
g_TestResults.status_code = 200;
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
ClearTestSchemes();
}
// Test that a custom standard scheme can return normal results with delayed
// responses.
TEST(SchemeHandlerTest, CustomStandardNormalResponseDelayed) {
RegisterTestScheme("customstd", "test");
g_TestResults.url = "customstd://test/run.html";
g_TestResults.html =
"<html><head></head><body><h1>Success!</h1></body></html>";
g_TestResults.status_code = 200;
g_TestResults.delay = 100;
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
ClearTestSchemes();
}
// Test that a custom nonstandard scheme can return normal results.
TEST(SchemeHandlerTest, CustomNonStandardNormalResponse) {
RegisterTestScheme("customnonstd", std::string());
g_TestResults.url = "customnonstd:some%20value";
g_TestResults.html =
"<html><head></head><body><h1>Success!</h1></body></html>";
g_TestResults.status_code = 200;
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
ClearTestSchemes();
}
// Test that a custom standard scheme can return an error code.
TEST(SchemeHandlerTest, CustomStandardErrorResponse) {
RegisterTestScheme("customstd", "test");
g_TestResults.url = "customstd://test/run.html";
g_TestResults.html = "<html><head></head><body><h1>404</h1></body></html>";
g_TestResults.status_code = 404;
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
ClearTestSchemes();
}
// Test that a custom standard scheme can return a CEF error code in the
// response.
TEST(SchemeHandlerTest, CustomStandardErrorCodeResponse) {
RegisterTestScheme("customstd", "test");
g_TestResults.url = "customstd://test/run.html";
g_TestResults.response_error_code = ERR_FILE_TOO_BIG;
g_TestResults.expected_error_code = ERR_FILE_TOO_BIG;
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_FALSE(g_TestResults.got_read);
EXPECT_FALSE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_error);
ClearTestSchemes();
}
// Test that a custom nonstandard scheme can return an error code.
TEST(SchemeHandlerTest, CustomNonStandardErrorResponse) {
RegisterTestScheme("customnonstd", std::string());
g_TestResults.url = "customnonstd:some%20value";
g_TestResults.html = "<html><head></head><body><h1>404</h1></body></html>";
g_TestResults.status_code = 404;
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
ClearTestSchemes();
}
// Test that custom standard scheme handling fails when the scheme name is
// incorrect.
TEST(SchemeHandlerTest, CustomStandardNameNotHandled) {
RegisterTestScheme("customstd", "test");
g_TestResults.url = "customstd2://test/run.html";
g_TestResults.expected_error_code = ERR_UNKNOWN_URL_SCHEME;
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_FALSE(g_TestResults.got_request);
EXPECT_FALSE(g_TestResults.got_read);
EXPECT_FALSE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_error);
ClearTestSchemes();
}
// Test that custom nonstandard scheme handling fails when the scheme name is
// incorrect.
TEST(SchemeHandlerTest, CustomNonStandardNameNotHandled) {
RegisterTestScheme("customnonstd", std::string());
g_TestResults.url = "customnonstd2:some%20value";
g_TestResults.expected_error_code = ERR_UNKNOWN_URL_SCHEME;
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_FALSE(g_TestResults.got_request);
EXPECT_FALSE(g_TestResults.got_read);
EXPECT_FALSE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_error);
ClearTestSchemes();
}
// Test that custom standard scheme handling fails when the domain name is
// incorrect.
TEST(SchemeHandlerTest, CustomStandardDomainNotHandled) {
RegisterTestScheme("customstd", "test");
g_TestResults.url = "customstd://noexist/run.html";
g_TestResults.expected_error_code = ERR_FAILED;
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_FALSE(g_TestResults.got_request);
EXPECT_FALSE(g_TestResults.got_read);
EXPECT_FALSE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_error);
ClearTestSchemes();
}
// Test that a custom standard scheme can return no response.
TEST(SchemeHandlerTest, CustomStandardNoResponse) {
RegisterTestScheme("customstd", "test");
g_TestResults.url = "customstd://test/run.html";
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_FALSE(g_TestResults.got_read);
EXPECT_FALSE(g_TestResults.got_output);
ClearTestSchemes();
}
// Test that a custom nonstandard scheme can return no response.
TEST(SchemeHandlerTest, CustomNonStandardNoResponse) {
RegisterTestScheme("customnonstd", std::string());
g_TestResults.url = "customnonstd:some%20value";
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_FALSE(g_TestResults.got_read);
EXPECT_FALSE(g_TestResults.got_output);
ClearTestSchemes();
}
// Test that a custom standard scheme can generate redirects.
TEST(SchemeHandlerTest, CustomStandardRedirect) {
RegisterTestScheme("customstd", "test");
g_TestResults.url = "customstd://test/run.html";
g_TestResults.redirect_url = "customstd://test/redirect.html";
g_TestResults.html =
"<html><head></head><body><h1>Redirected</h1></body></html>";
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_redirect);
ClearTestSchemes();
}
// Test that a custom nonstandard scheme can generate redirects.
TEST(SchemeHandlerTest, CustomNonStandardRedirect) {
RegisterTestScheme("customnonstd", std::string());
g_TestResults.url = "customnonstd:some%20value";
g_TestResults.redirect_url = "customnonstd:some%20other%20value";
g_TestResults.html =
"<html><head></head><body><h1>Redirected</h1></body></html>";
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_redirect);
ClearTestSchemes();
}
// Test that a custom standard scheme can generate same origin XHR requests.
TEST(SchemeHandlerTest, CustomStandardXHRSameOriginSync) {
RegisterTestScheme("customstd", "test");
XHRTestSettings settings;
settings.url = "customstd://test/run.html";
settings.sub_url = "customstd://test/xhr.html";
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom standard scheme can generate same origin XHR requests.
TEST(SchemeHandlerTest, CustomStandardXHRSameOriginAsync) {
RegisterTestScheme("customstd", "test");
XHRTestSettings settings;
settings.url = "customstd://test/run.html";
settings.sub_url = "customstd://test/xhr.html";
settings.synchronous = false;
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom nonstandard scheme can generate same origin XHR requests.
TEST(SchemeHandlerTest, CustomNonStandardXHRSameOriginSync) {
RegisterTestScheme("customnonstd", std::string());
XHRTestSettings settings;
settings.url = "customnonstd:some%20value";
settings.sub_url = "customnonstd:xhr%20value";
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom nonstandard scheme can generate same origin XHR requests.
TEST(SchemeHandlerTest, CustomNonStandardXHRSameOriginAsync) {
RegisterTestScheme("customnonstd", std::string());
XHRTestSettings settings;
settings.url = "customnonstd:some%20value";
settings.sub_url = "customnonstd:xhr%20value";
settings.synchronous = false;
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom standard scheme can generate same origin XSS requests.
TEST(SchemeHandlerTest, CustomStandardXSSSameOrigin) {
RegisterTestScheme("customstd", "test");
SetUpXSS("customstd://test/run.html", "customstd://test/iframe.html");
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom nonstandard scheme can generate same origin XSS requests.
TEST(SchemeHandlerTest, CustomNonStandardXSSSameOrigin) {
RegisterTestScheme("customnonstd", std::string());
SetUpXSS("customnonstd:some%20value", "customnonstd:xhr%20value");
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom standard scheme cannot generate cross-domain XHR requests
// by default. Behavior should be the same as with HTTP.
TEST(SchemeHandlerTest, CustomStandardXHRDifferentOriginSync) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_FALSE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom standard scheme cannot generate cross-domain XHR requests
// by default. Behavior should be the same as with HTTP.
TEST(SchemeHandlerTest, CustomStandardXHRDifferentOriginAsync) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
settings.synchronous = false;
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_FALSE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom standard scheme cannot generate cross-domain XSS requests
// by default.
TEST(SchemeHandlerTest, CustomStandardXSSDifferentOrigin) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
SetUpXSS("customstd://test1/run.html", "customstd://test2/iframe.html");
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_FALSE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that an HTTP scheme cannot generate cross-domain XHR requests by
// default.
TEST(SchemeHandlerTest, HttpXHRDifferentOriginSync) {
RegisterTestScheme("http", "test1");
RegisterTestScheme("http", "test2");
XHRTestSettings settings;
settings.url = "http://test1/run.html";
settings.sub_url = "http://test2/xhr.html";
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_FALSE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that an HTTP scheme cannot generate cross-domain XHR requests by
// default.
TEST(SchemeHandlerTest, HttpXHRDifferentOriginAsync) {
RegisterTestScheme("http", "test1");
RegisterTestScheme("http", "test2");
XHRTestSettings settings;
settings.url = "http://test1/run.html";
settings.sub_url = "http://test2/xhr.html";
settings.synchronous = false;
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_FALSE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that an HTTP scheme cannot generate cross-domain XSS requests by
// default.
TEST(SchemeHandlerTest, HttpXSSDifferentOrigin) {
RegisterTestScheme("http", "test1");
RegisterTestScheme("http", "test2");
SetUpXSS("http://test1/run.html", "http://test2/xss.html");
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_FALSE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom standard scheme can generate cross-domain XHR requests
// when setting the Access-Control-Allow-Origin header. Should behave the same
// as HTTP.
TEST(SchemeHandlerTest, CustomStandardXHRDifferentOriginWithHeaderSync) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
settings.sub_allow_origin = "customstd://test1";
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom standard scheme can generate cross-domain XHR requests
// when setting the Access-Control-Allow-Origin header. Should behave the same
// as HTTP.
TEST(SchemeHandlerTest, CustomStandardXHRDifferentOriginWithHeaderAsync) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
settings.sub_allow_origin = "customstd://test1";
settings.synchronous = false;
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom standard scheme can generate cross-domain XHR requests
// when using the cross-origin whitelist.
TEST(SchemeHandlerTest, CustomStandardXHRDifferentOriginWithWhitelistSync1) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
SetUpXHR(settings);
EXPECT_TRUE(CefAddCrossOriginWhitelistEntry("customstd://test1", "customstd",
"test2", false));
WaitForUIThread();
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
EXPECT_TRUE(CefClearCrossOriginWhitelist());
WaitForUIThread();
ClearTestSchemes();
}
// Same as above but origin whitelist matches any domain.
TEST(SchemeHandlerTest, CustomStandardXHRDifferentOriginWithWhitelistSync2) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
SetUpXHR(settings);
EXPECT_TRUE(CefAddCrossOriginWhitelistEntry("customstd://test1", "customstd",
CefString(), true));
WaitForUIThread();
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
EXPECT_TRUE(CefClearCrossOriginWhitelist());
WaitForUIThread();
ClearTestSchemes();
}
// Same as above but origin whitelist matches sub-domains.
TEST(SchemeHandlerTest, CustomStandardXHRDifferentOriginWithWhitelistSync3) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "a.test2.foo");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://a.test2.foo/xhr.html";
SetUpXHR(settings);
EXPECT_TRUE(CefAddCrossOriginWhitelistEntry("customstd://test1", "customstd",
"test2.foo", true));
WaitForUIThread();
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
EXPECT_TRUE(CefClearCrossOriginWhitelist());
WaitForUIThread();
ClearTestSchemes();
}
// Test that a custom standard scheme can generate cross-domain XHR requests
// when using the cross-origin whitelist.
TEST(SchemeHandlerTest, CustomStandardXHRDifferentOriginWithWhitelistAsync1) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
settings.synchronous = false;
SetUpXHR(settings);
EXPECT_TRUE(CefAddCrossOriginWhitelistEntry("customstd://test1", "customstd",
"test2", false));
WaitForUIThread();
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
EXPECT_TRUE(CefClearCrossOriginWhitelist());
WaitForUIThread();
ClearTestSchemes();
}
// Same as above but origin whitelist matches any domain.
TEST(SchemeHandlerTest, CustomStandardXHRDifferentOriginWithWhitelistAsync2) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
settings.synchronous = false;
SetUpXHR(settings);
EXPECT_TRUE(CefAddCrossOriginWhitelistEntry("customstd://test1", "customstd",
CefString(), true));
WaitForUIThread();
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
EXPECT_TRUE(CefClearCrossOriginWhitelist());
WaitForUIThread();
ClearTestSchemes();
}
// Same as above but origin whitelist matches sub-domains.
TEST(SchemeHandlerTest, CustomStandardXHRDifferentOriginWithWhitelistAsync3) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "a.test2.foo");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://a.test2.foo/xhr.html";
settings.synchronous = false;
SetUpXHR(settings);
EXPECT_TRUE(CefAddCrossOriginWhitelistEntry("customstd://test1", "customstd",
"test2.foo", true));
WaitForUIThread();
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
EXPECT_TRUE(CefClearCrossOriginWhitelist());
WaitForUIThread();
ClearTestSchemes();
}
// Test that an HTTP scheme can generate cross-domain XHR requests when setting
// the Access-Control-Allow-Origin header.
TEST(SchemeHandlerTest, HttpXHRDifferentOriginWithHeaderSync) {
RegisterTestScheme("http", "test1");
RegisterTestScheme("http", "test2");
XHRTestSettings settings;
settings.url = "http://test1/run.html";
settings.sub_url = "http://test2/xhr.html";
settings.sub_allow_origin = "http://test1";
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that an HTTP scheme can generate cross-domain XHR requests when setting
// the Access-Control-Allow-Origin header.
TEST(SchemeHandlerTest, HttpXHRDifferentOriginWithHeaderAsync) {
RegisterTestScheme("http", "test1");
RegisterTestScheme("http", "test2");
XHRTestSettings settings;
settings.url = "http://test1/run.html";
settings.sub_url = "http://test2/xhr.html";
settings.sub_allow_origin = "http://test1";
settings.synchronous = false;
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom standard scheme can generate cross-domain XSS requests
// when using document.domain.
TEST(SchemeHandlerTest, CustomStandardXSSDifferentOriginWithDomain) {
RegisterTestScheme("customstd", "a.test.com");
RegisterTestScheme("customstd", "b.test.com");
SetUpXSS("customstd://a.test.com/run.html",
"customstd://b.test.com/iframe.html", "test.com");
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that an HTTP scheme can generate cross-domain XSS requests when using
// document.domain.
TEST(SchemeHandlerTest, HttpXSSDifferentOriginWithDomain) {
RegisterTestScheme("http", "a.test.com");
RegisterTestScheme("http", "b.test.com");
SetUpXSS("http://a.test.com/run.html", "http://b.test.com/iframe.html",
"test.com");
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom standard scheme cannot generate cross-domain XHR requests
// that perform redirects.
TEST(SchemeHandlerTest, CustomStandardXHRDifferentOriginRedirectSync) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
settings.sub_redirect_url = "customstd://test1/xhr.html";
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_redirect);
EXPECT_FALSE(g_TestResults.got_sub_request);
EXPECT_FALSE(g_TestResults.got_sub_read);
EXPECT_FALSE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom standard scheme cannot generate cross-domain XHR requests
// that perform redirects.
TEST(SchemeHandlerTest, CustomStandardXHRDifferentOriginRedirectAsync) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
settings.sub_redirect_url = "customstd://test1/xhr.html";
settings.synchronous = false;
SetUpXHR(settings);
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_redirect);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_FALSE(g_TestResults.got_sub_success);
ClearTestSchemes();
}
// Test that a custom standard scheme cannot generate cross-domain XHR requests
// that perform redirects when using the cross-origin whitelist. This is due to
// an explicit check in SyncResourceHandler::OnRequestRedirected() and does not
// represent ideal behavior.
TEST(SchemeHandlerTest,
CustomStandardXHRDifferentOriginRedirectWithWhitelistSync) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
settings.sub_redirect_url = "customstd://test1/xhr.html";
SetUpXHR(settings);
EXPECT_TRUE(CefAddCrossOriginWhitelistEntry("customstd://test1", "customstd",
"test2", false));
WaitForUIThread();
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_redirect);
EXPECT_FALSE(g_TestResults.got_sub_request);
EXPECT_FALSE(g_TestResults.got_sub_read);
EXPECT_FALSE(g_TestResults.got_sub_success);
EXPECT_TRUE(CefClearCrossOriginWhitelist());
WaitForUIThread();
ClearTestSchemes();
}
// Test that a custom standard scheme can generate cross-domain XHR requests
// that perform redirects when using the cross-origin whitelist. This is
// because we add an "Access-Control-Allow-Origin" header internally in
// CefResourceDispatcherHostDelegate::OnRequestRedirected() for the redirect
// request.
TEST(SchemeHandlerTest,
CustomStandardXHRDifferentOriginRedirectWithWhitelistAsync1) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
settings.sub_redirect_url = "customstd://test1/xhr.html";
settings.synchronous = false;
SetUpXHR(settings);
EXPECT_TRUE(CefAddCrossOriginWhitelistEntry("customstd://test1", "customstd",
"test2", false));
WaitForUIThread();
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_redirect);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
EXPECT_TRUE(CefClearCrossOriginWhitelist());
WaitForUIThread();
ClearTestSchemes();
}
// Same as above but origin whitelist matches any domain.
TEST(SchemeHandlerTest,
CustomStandardXHRDifferentOriginRedirectWithWhitelistAsync2) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "test2");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://test2/xhr.html";
settings.sub_redirect_url = "customstd://test1/xhr.html";
settings.synchronous = false;
SetUpXHR(settings);
EXPECT_TRUE(CefAddCrossOriginWhitelistEntry("customstd://test1", "customstd",
CefString(), true));
WaitForUIThread();
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_redirect);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
EXPECT_TRUE(CefClearCrossOriginWhitelist());
WaitForUIThread();
ClearTestSchemes();
}
// Same as above but origin whitelist matches sub-domains.
TEST(SchemeHandlerTest,
CustomStandardXHRDifferentOriginRedirectWithWhitelistAsync3) {
RegisterTestScheme("customstd", "test1");
RegisterTestScheme("customstd", "a.test2.foo");
XHRTestSettings settings;
settings.url = "customstd://test1/run.html";
settings.sub_url = "customstd://a.test2.foo/xhr.html";
settings.sub_redirect_url = "customstd://test1/xhr.html";
settings.synchronous = false;
SetUpXHR(settings);
EXPECT_TRUE(CefAddCrossOriginWhitelistEntry("customstd://test1", "customstd",
"test2.foo", true));
WaitForUIThread();
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
EXPECT_TRUE(g_TestResults.got_sub_redirect);
EXPECT_TRUE(g_TestResults.got_sub_request);
EXPECT_TRUE(g_TestResults.got_sub_read);
EXPECT_TRUE(g_TestResults.got_sub_success);
EXPECT_TRUE(CefClearCrossOriginWhitelist());
WaitForUIThread();
ClearTestSchemes();
}
// Test per-browser setting of Accept-Language.
TEST(SchemeHandlerTest, AcceptLanguage) {
RegisterTestScheme("customstd", "test");
g_TestResults.url = "customstd://test/run.html";
g_TestResults.html =
"<html><head></head><body><h1>Success!</h1></body></html>";
g_TestResults.status_code = 200;
// Value that will be set via CefBrowserSettings.accept_language in
// PopulateBrowserSettings().
g_TestResults.accept_language = "uk";
CefRefPtr<TestSchemeHandler> handler = new TestSchemeHandler(&g_TestResults);
handler->ExecuteTest();
ReleaseAndWaitForDestructor(handler);
EXPECT_TRUE(g_TestResults.got_request);
EXPECT_TRUE(g_TestResults.got_read);
EXPECT_TRUE(g_TestResults.got_output);
ClearTestSchemes();
}
// Entry point for registering custom schemes.
// Called from client_app_delegates.cc.
void RegisterSchemeHandlerCustomSchemes(
CefRawPtr<CefSchemeRegistrar> registrar,
std::vector<CefString>& cookiable_schemes) {
// Add a custom standard scheme.
registrar->AddCustomScheme("customstd", true, false, false, false, true,
false);
// Ad a custom non-standard scheme.
registrar->AddCustomScheme("customnonstd", false, false, false, false, false,
false);
}