src/net/proxy_resolution/proxy_config_service_common_unittest.cc - cobalt - Git at Google

 // Copyright (c) 2009 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 "net/proxy_resolution/proxy_config_service_common_unittest.h"

 #include <string>
 #include <vector>

 #include "net/proxy_resolution/proxy_config.h"

 #include "starboard/common/string.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace net {

 namespace {

 // Helper to verify that |expected_proxy| matches the first proxy conatined in
 // |actual_proxies|, and that |actual_proxies| contains exactly one proxy. If
 // either condition is untrue, then |*did_fail| is set to true, and
 // |*failure_details| is filled with a description of the failure.
 void MatchesProxyServerHelper(const char* failure_message,
                               const char* expected_proxy,
                               const ProxyList& actual_proxies,
                               ::testing::AssertionResult* failure_details,
                               bool* did_fail) {
   // If |expected_proxy| is empty, then we expect |actual_proxies| to be so as
   // well.
   if (SbStringGetLength(expected_proxy) == 0) {
     if (!actual_proxies.IsEmpty()) {
       *did_fail = true;
       *failure_details
           << failure_message << ". Was expecting no proxies but got "
           << actual_proxies.size() << ".";
     }
     return;
   }

   // Otherwise we check that |actual_proxies| holds a single matching proxy.
   if (actual_proxies.size() != 1) {
     *did_fail = true;
     *failure_details
         << failure_message << ". Was expecting exactly one proxy but got "
         << actual_proxies.size() << ".";
     return;
   }

   ProxyServer actual_proxy = actual_proxies.Get();
   std::string actual_proxy_string;
   if (actual_proxy.is_valid())
     actual_proxy_string = actual_proxy.ToURI();

   if (std::string(expected_proxy) != actual_proxy_string) {
     *failure_details
         << failure_message << ". Was expecting: \"" << expected_proxy
         << "\" but got: \"" << actual_proxy_string << "\"";
     *did_fail = true;
   }
 }

 std::string FlattenProxyBypass(const ProxyBypassRules& bypass_rules) {
   std::string flattened_proxy_bypass;
   for (auto it = bypass_rules.rules().begin(); it != bypass_rules.rules().end();
        ++it) {
     if (!flattened_proxy_bypass.empty())
       flattened_proxy_bypass += ",";
     flattened_proxy_bypass += (*it)->ToString();
   }
   return flattened_proxy_bypass;
 }

 }  // namespace

 ProxyRulesExpectation::ProxyRulesExpectation(
     ProxyConfig::ProxyRules::Type type,
     const char* single_proxy,
     const char* proxy_for_http,
     const char* proxy_for_https,
     const char* proxy_for_ftp,
     const char* fallback_proxy,
     const char* flattened_bypass_rules,
     bool reverse_bypass)
     : type(type),
       single_proxy(single_proxy),
       proxy_for_http(proxy_for_http),
       proxy_for_https(proxy_for_https),
       proxy_for_ftp(proxy_for_ftp),
       fallback_proxy(fallback_proxy),
       flattened_bypass_rules(flattened_bypass_rules),
       reverse_bypass(reverse_bypass) {
 }


 ::testing::AssertionResult ProxyRulesExpectation::Matches(
     const ProxyConfig::ProxyRules& rules) const {
   ::testing::AssertionResult failure_details = ::testing::AssertionFailure();
   bool failed = false;

   if (rules.type != type) {
     failure_details << "Type mismatch. Expected: " << static_cast<int>(type)
                     << " but was: " << static_cast<int>(rules.type);
     failed = true;
   }

   MatchesProxyServerHelper("Bad single_proxy", single_proxy,
                            rules.single_proxies, &failure_details, &failed);
   MatchesProxyServerHelper("Bad proxy_for_http", proxy_for_http,
                            rules.proxies_for_http, &failure_details,
                            &failed);
   MatchesProxyServerHelper("Bad proxy_for_https", proxy_for_https,
                            rules.proxies_for_https, &failure_details,
                            &failed);
   MatchesProxyServerHelper("Bad fallback_proxy", fallback_proxy,
                            rules.fallback_proxies, &failure_details, &failed);

   std::string actual_flattened_bypass = FlattenProxyBypass(rules.bypass_rules);
   if (std::string(flattened_bypass_rules) != actual_flattened_bypass) {
     failure_details
         << "Bad bypass rules. Expected: \"" << flattened_bypass_rules
         << "\" but got: \"" << actual_flattened_bypass << "\"";
     failed = true;
   }

   if (rules.reverse_bypass != reverse_bypass) {
     failure_details << "Bad reverse_bypass. Expected: " << reverse_bypass
                     << " but got: " << rules.reverse_bypass;
     failed = true;
   }

   return failed ? failure_details : ::testing::AssertionSuccess();
 }

 // static
 ProxyRulesExpectation ProxyRulesExpectation::Empty() {
   return ProxyRulesExpectation(ProxyConfig::ProxyRules::Type::EMPTY,
                                "", "", "", "", "", "", false);
 }

 // static
 ProxyRulesExpectation ProxyRulesExpectation::EmptyWithBypass(
     const char* flattened_bypass_rules) {
   return ProxyRulesExpectation(ProxyConfig::ProxyRules::Type::EMPTY,
                                "", "", "", "", "", flattened_bypass_rules,
                                false);
 }

 // static
 ProxyRulesExpectation ProxyRulesExpectation::Single(
     const char* single_proxy,
     const char* flattened_bypass_rules) {
   return ProxyRulesExpectation(ProxyConfig::ProxyRules::Type::PROXY_LIST,
                                single_proxy, "", "", "", "",
                                flattened_bypass_rules, false);
 }

 // static
 ProxyRulesExpectation ProxyRulesExpectation::PerScheme(
     const char* proxy_http,
     const char* proxy_https,
     const char* proxy_ftp,
     const char* flattened_bypass_rules) {
   return ProxyRulesExpectation(ProxyConfig::ProxyRules::Type::PROXY_LIST_PER_SCHEME,
                                "", proxy_http, proxy_https, proxy_ftp, "",
                                flattened_bypass_rules, false);
 }

 // static
 ProxyRulesExpectation ProxyRulesExpectation::PerSchemeWithSocks(
     const char* proxy_http,
     const char* proxy_https,
     const char* proxy_ftp,
     const char* socks_proxy,
     const char* flattened_bypass_rules) {
   return ProxyRulesExpectation(ProxyConfig::ProxyRules::Type::PROXY_LIST_PER_SCHEME,
                                "", proxy_http, proxy_https, proxy_ftp,
                                socks_proxy, flattened_bypass_rules, false);
 }

 // static
 ProxyRulesExpectation ProxyRulesExpectation::PerSchemeWithBypassReversed(
     const char* proxy_http,
     const char* proxy_https,
     const char* proxy_ftp,
     const char* flattened_bypass_rules) {
   return ProxyRulesExpectation(ProxyConfig::ProxyRules::Type::PROXY_LIST_PER_SCHEME,
                                "", proxy_http, proxy_https, proxy_ftp, "",
                                flattened_bypass_rules, true);
 }

 }  // namespace net
	// Copyright (c) 2009 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 "net/proxy_resolution/proxy_config_service_common_unittest.h"

	#include <string>
	#include <vector>

	#include "net/proxy_resolution/proxy_config.h"

	#include "starboard/common/string.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace net {

	namespace {

	// Helper to verify that \|expected_proxy\| matches the first proxy conatined in
	// \|actual_proxies\|, and that \|actual_proxies\| contains exactly one proxy. If
	// either condition is untrue, then \|*did_fail\| is set to true, and
	// \|*failure_details\| is filled with a description of the failure.
	void MatchesProxyServerHelper(const char* failure_message,
	const char* expected_proxy,
	const ProxyList& actual_proxies,
	::testing::AssertionResult* failure_details,
	bool* did_fail) {
	// If \|expected_proxy\| is empty, then we expect \|actual_proxies\| to be so as
	// well.
	if (SbStringGetLength(expected_proxy) == 0) {
	if (!actual_proxies.IsEmpty()) {
	*did_fail = true;
	*failure_details
	<< failure_message << ". Was expecting no proxies but got "
	<< actual_proxies.size() << ".";
	}
	return;
	}

	// Otherwise we check that \|actual_proxies\| holds a single matching proxy.
	if (actual_proxies.size() != 1) {
	*did_fail = true;
	*failure_details
	<< failure_message << ". Was expecting exactly one proxy but got "
	<< actual_proxies.size() << ".";
	return;
	}

	ProxyServer actual_proxy = actual_proxies.Get();
	std::string actual_proxy_string;
	if (actual_proxy.is_valid())
	actual_proxy_string = actual_proxy.ToURI();

	if (std::string(expected_proxy) != actual_proxy_string) {
	*failure_details
	<< failure_message << ". Was expecting: \"" << expected_proxy
	<< "\" but got: \"" << actual_proxy_string << "\"";
	*did_fail = true;
	}
	}

	std::string FlattenProxyBypass(const ProxyBypassRules& bypass_rules) {
	std::string flattened_proxy_bypass;
	for (auto it = bypass_rules.rules().begin(); it != bypass_rules.rules().end();
	++it) {
	if (!flattened_proxy_bypass.empty())
	flattened_proxy_bypass += ",";
	flattened_proxy_bypass += (*it)->ToString();
	}
	return flattened_proxy_bypass;
	}

	} // namespace

	ProxyRulesExpectation::ProxyRulesExpectation(
	ProxyConfig::ProxyRules::Type type,
	const char* single_proxy,
	const char* proxy_for_http,
	const char* proxy_for_https,
	const char* proxy_for_ftp,
	const char* fallback_proxy,
	const char* flattened_bypass_rules,
	bool reverse_bypass)
	: type(type),
	single_proxy(single_proxy),
	proxy_for_http(proxy_for_http),
	proxy_for_https(proxy_for_https),
	proxy_for_ftp(proxy_for_ftp),
	fallback_proxy(fallback_proxy),
	flattened_bypass_rules(flattened_bypass_rules),
	reverse_bypass(reverse_bypass) {
	}


	::testing::AssertionResult ProxyRulesExpectation::Matches(
	const ProxyConfig::ProxyRules& rules) const {
	::testing::AssertionResult failure_details = ::testing::AssertionFailure();
	bool failed = false;

	if (rules.type != type) {
	failure_details << "Type mismatch. Expected: " << static_cast<int>(type)
	<< " but was: " << static_cast<int>(rules.type);
	failed = true;
	}

	MatchesProxyServerHelper("Bad single_proxy", single_proxy,
	rules.single_proxies, &failure_details, &failed);
	MatchesProxyServerHelper("Bad proxy_for_http", proxy_for_http,
	rules.proxies_for_http, &failure_details,
	&failed);
	MatchesProxyServerHelper("Bad proxy_for_https", proxy_for_https,
	rules.proxies_for_https, &failure_details,
	&failed);
	MatchesProxyServerHelper("Bad fallback_proxy", fallback_proxy,
	rules.fallback_proxies, &failure_details, &failed);

	std::string actual_flattened_bypass = FlattenProxyBypass(rules.bypass_rules);
	if (std::string(flattened_bypass_rules) != actual_flattened_bypass) {
	failure_details
	<< "Bad bypass rules. Expected: \"" << flattened_bypass_rules
	<< "\" but got: \"" << actual_flattened_bypass << "\"";
	failed = true;
	}

	if (rules.reverse_bypass != reverse_bypass) {
	failure_details << "Bad reverse_bypass. Expected: " << reverse_bypass
	<< " but got: " << rules.reverse_bypass;
	failed = true;
	}

	return failed ? failure_details : ::testing::AssertionSuccess();
	}

	// static
	ProxyRulesExpectation ProxyRulesExpectation::Empty() {
	return ProxyRulesExpectation(ProxyConfig::ProxyRules::Type::EMPTY,
	"", "", "", "", "", "", false);
	}

	// static
	ProxyRulesExpectation ProxyRulesExpectation::EmptyWithBypass(
	const char* flattened_bypass_rules) {
	return ProxyRulesExpectation(ProxyConfig::ProxyRules::Type::EMPTY,
	"", "", "", "", "", flattened_bypass_rules,
	false);
	}

	// static
	ProxyRulesExpectation ProxyRulesExpectation::Single(
	const char* single_proxy,
	const char* flattened_bypass_rules) {
	return ProxyRulesExpectation(ProxyConfig::ProxyRules::Type::PROXY_LIST,
	single_proxy, "", "", "", "",
	flattened_bypass_rules, false);
	}

	// static
	ProxyRulesExpectation ProxyRulesExpectation::PerScheme(
	const char* proxy_http,
	const char* proxy_https,
	const char* proxy_ftp,
	const char* flattened_bypass_rules) {
	return ProxyRulesExpectation(ProxyConfig::ProxyRules::Type::PROXY_LIST_PER_SCHEME,
	"", proxy_http, proxy_https, proxy_ftp, "",
	flattened_bypass_rules, false);
	}

	// static
	ProxyRulesExpectation ProxyRulesExpectation::PerSchemeWithSocks(
	const char* proxy_http,
	const char* proxy_https,
	const char* proxy_ftp,
	const char* socks_proxy,
	const char* flattened_bypass_rules) {
	return ProxyRulesExpectation(ProxyConfig::ProxyRules::Type::PROXY_LIST_PER_SCHEME,
	"", proxy_http, proxy_https, proxy_ftp,
	socks_proxy, flattened_bypass_rules, false);
	}

	// static
	ProxyRulesExpectation ProxyRulesExpectation::PerSchemeWithBypassReversed(
	const char* proxy_http,
	const char* proxy_https,
	const char* proxy_ftp,
	const char* flattened_bypass_rules) {
	return ProxyRulesExpectation(ProxyConfig::ProxyRules::Type::PROXY_LIST_PER_SCHEME,
	"", proxy_http, proxy_https, proxy_ftp, "",
	flattened_bypass_rules, true);
	}

	} // namespace net