// Copyright (c) 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "chrome/test/chromedriver/capabilities.h"
#include <map>
#include "base/bind.h"
#include "base/callback.h"
#include "base/json/string_escape.h"
#include "base/logging.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_split.h"
#include "base/strings/string_tokenizer.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/strings/utf_string_conversions.h"
#include "base/values.h"
#include "chrome/test/chromedriver/chrome/mobile_device.h"
#include "chrome/test/chromedriver/chrome/status.h"
#include "chrome/test/chromedriver/logging.h"
#include "net/base/net_util.h"
namespace {
typedef base::Callback<Status(const base::Value&, Capabilities*)> Parser;
Status ParseBoolean(
bool* to_set,
const base::Value& option,
Capabilities* capabilities) {
if (!option.GetAsBoolean(to_set))
return Status(kUnknownError, "must be a boolean");
return Status(kOk);
}
Status ParseString(std::string* to_set,
const base::Value& option,
Capabilities* capabilities) {
std::string str;
if (!option.GetAsString(&str))
return Status(kUnknownError, "must be a string");
if (str.empty())
return Status(kUnknownError, "cannot be empty");
*to_set = str;
return Status(kOk);
}
Status ParseFilePath(base::FilePath* to_set,
const base::Value& option,
Capabilities* capabilities) {
base::FilePath::StringType str;
if (!option.GetAsString(&str))
return Status(kUnknownError, "must be a string");
*to_set = base::FilePath(str);
return Status(kOk);
}
Status ParseDict(scoped_ptr<base::DictionaryValue>* to_set,
const base::Value& option,
Capabilities* capabilities) {
const base::DictionaryValue* dict = NULL;
if (!option.GetAsDictionary(&dict))
return Status(kUnknownError, "must be a dictionary");
to_set->reset(dict->DeepCopy());
return Status(kOk);
}
Status IgnoreDeprecatedOption(
const char* option_name,
const base::Value& option,
Capabilities* capabilities) {
LOG(WARNING) << "Deprecated chrome option is ignored: " << option_name;
return Status(kOk);
}
Status IgnoreCapability(const base::Value& option, Capabilities* capabilities) {
return Status(kOk);
}
Status ParseLogPath(const base::Value& option, Capabilities* capabilities) {
if (!option.GetAsString(&capabilities->log_path))
return Status(kUnknownError, "must be a string");
return Status(kOk);
}
Status ParseDeviceName(std::string device_name, Capabilities* capabilities) {
scoped_ptr<MobileDevice> device;
Status status = FindMobileDevice(device_name, &device);
if (status.IsError()) {
return Status(kUnknownError,
"'" + device_name + "' must be a valid device",
status);
}
capabilities->device_metrics.reset(device->device_metrics.release());
capabilities->switches.SetSwitch("user-agent", device->user_agent);
return Status(kOk);
}
Status ParseMobileEmulation(const base::Value& option,
Capabilities* capabilities) {
const base::DictionaryValue* mobile_emulation;
if (!option.GetAsDictionary(&mobile_emulation))
return Status(kUnknownError, "'mobileEmulation' must be a dictionary");
if (mobile_emulation->HasKey("deviceName")) {
// Cannot use any other options with deviceName.
if (mobile_emulation->size() > 1)
return Status(kUnknownError, "'deviceName' must be used alone");
std::string device_name;
if (!mobile_emulation->GetString("deviceName", &device_name))
return Status(kUnknownError, "'deviceName' must be a string");
return ParseDeviceName(device_name, capabilities);
}
if (mobile_emulation->HasKey("deviceMetrics")) {
const base::DictionaryValue* metrics;
if (!mobile_emulation->GetDictionary("deviceMetrics", &metrics))
return Status(kUnknownError, "'deviceMetrics' must be a dictionary");
int width;
int height;
double device_scale_factor;
if (!metrics->GetInteger("width", &width) ||
!metrics->GetInteger("height", &height) ||
!metrics->GetDouble("pixelRatio", &device_scale_factor))
return Status(kUnknownError, "invalid 'deviceMetrics'");
DeviceMetrics* device_metrics =
new DeviceMetrics(width, height, device_scale_factor);
capabilities->device_metrics =
scoped_ptr<DeviceMetrics>(device_metrics);
}
if (mobile_emulation->HasKey("userAgent")) {
std::string user_agent;
if (!mobile_emulation->GetString("userAgent", &user_agent))
return Status(kUnknownError, "'userAgent' must be a string");
capabilities->switches.SetSwitch("user-agent", user_agent);
}
return Status(kOk);
}
Status ParseSwitches(const base::Value& option,
Capabilities* capabilities) {
const base::ListValue* switches_list = NULL;
if (!option.GetAsList(&switches_list))
return Status(kUnknownError, "must be a list");
for (size_t i = 0; i < switches_list->GetSize(); ++i) {
std::string arg_string;
if (!switches_list->GetString(i, &arg_string))
return Status(kUnknownError, "each argument must be a string");
capabilities->switches.SetUnparsedSwitch(arg_string);
}
return Status(kOk);
}
Status ParseExtensions(const base::Value& option, Capabilities* capabilities) {
const base::ListValue* extensions = NULL;
if (!option.GetAsList(&extensions))
return Status(kUnknownError, "must be a list");
for (size_t i = 0; i < extensions->GetSize(); ++i) {
std::string extension;
if (!extensions->GetString(i, &extension)) {
return Status(kUnknownError,
"each extension must be a base64 encoded string");
}
capabilities->extensions.push_back(extension);
}
return Status(kOk);
}
Status ParseProxy(const base::Value& option, Capabilities* capabilities) {
const base::DictionaryValue* proxy_dict;
if (!option.GetAsDictionary(&proxy_dict))
return Status(kUnknownError, "must be a dictionary");
std::string proxy_type;
if (!proxy_dict->GetString("proxyType", &proxy_type))
return Status(kUnknownError, "'proxyType' must be a string");
proxy_type = StringToLowerASCII(proxy_type);
if (proxy_type == "direct") {
capabilities->switches.SetSwitch("no-proxy-server");
} else if (proxy_type == "system") {
// Chrome default.
} else if (proxy_type == "pac") {
CommandLine::StringType proxy_pac_url;
if (!proxy_dict->GetString("proxyAutoconfigUrl", &proxy_pac_url))
return Status(kUnknownError, "'proxyAutoconfigUrl' must be a string");
capabilities->switches.SetSwitch("proxy-pac-url", proxy_pac_url);
} else if (proxy_type == "autodetect") {
capabilities->switches.SetSwitch("proxy-auto-detect");
} else if (proxy_type == "manual") {
const char* proxy_servers_options[][2] = {
{"ftpProxy", "ftp"}, {"httpProxy", "http"}, {"sslProxy", "https"}};
const base::Value* option_value = NULL;
std::string proxy_servers;
for (size_t i = 0; i < arraysize(proxy_servers_options); ++i) {
if (!proxy_dict->Get(proxy_servers_options[i][0], &option_value) ||
option_value->IsType(base::Value::TYPE_NULL)) {
continue;
}
std::string value;
if (!option_value->GetAsString(&value)) {
return Status(
kUnknownError,
base::StringPrintf("'%s' must be a string",
proxy_servers_options[i][0]));
}
// Converts into Chrome proxy scheme.
// Example: "http=localhost:9000;ftp=localhost:8000".
if (!proxy_servers.empty())
proxy_servers += ";";
proxy_servers += base::StringPrintf(
"%s=%s", proxy_servers_options[i][1], value.c_str());
}
std::string proxy_bypass_list;
if (proxy_dict->Get("noProxy", &option_value) &&
!option_value->IsType(base::Value::TYPE_NULL)) {
if (!option_value->GetAsString(&proxy_bypass_list))
return Status(kUnknownError, "'noProxy' must be a string");
}
if (proxy_servers.empty() && proxy_bypass_list.empty()) {
return Status(kUnknownError,
"proxyType is 'manual' but no manual "
"proxy capabilities were found");
}
if (!proxy_servers.empty())
capabilities->switches.SetSwitch("proxy-server", proxy_servers);
if (!proxy_bypass_list.empty()) {
capabilities->switches.SetSwitch("proxy-bypass-list",
proxy_bypass_list);
}
} else {
return Status(kUnknownError, "unrecognized proxy type:" + proxy_type);
}
return Status(kOk);
}
Status ParseExcludeSwitches(const base::Value& option,
Capabilities* capabilities) {
const base::ListValue* switches = NULL;
if (!option.GetAsList(&switches))
return Status(kUnknownError, "must be a list");
for (size_t i = 0; i < switches->GetSize(); ++i) {
std::string switch_name;
if (!switches->GetString(i, &switch_name)) {
return Status(kUnknownError,
"each switch to be removed must be a string");
}
capabilities->exclude_switches.insert(switch_name);
}
return Status(kOk);
}
Status ParseUseRemoteBrowser(const base::Value& option,
Capabilities* capabilities) {
std::string server_addr;
if (!option.GetAsString(&server_addr))
return Status(kUnknownError, "must be 'host:port'");
std::vector<std::string> values;
base::SplitString(server_addr, ':', &values);
if (values.size() != 2)
return Status(kUnknownError, "must be 'host:port'");
int port = 0;
base::StringToInt(values[1], &port);
if (port <= 0)
return Status(kUnknownError, "port must be > 0");
capabilities->debugger_address = NetAddress(values[0], port);
return Status(kOk);
}
Status ParseLoggingPrefs(const base::Value& option,
Capabilities* capabilities) {
const base::DictionaryValue* logging_prefs = NULL;
if (!option.GetAsDictionary(&logging_prefs))
return Status(kUnknownError, "must be a dictionary");
for (base::DictionaryValue::Iterator pref(*logging_prefs);
!pref.IsAtEnd(); pref.Advance()) {
std::string type = pref.key();
Log::Level level;
std::string level_name;
if (!pref.value().GetAsString(&level_name) ||
!WebDriverLog::NameToLevel(level_name, &level)) {
return Status(kUnknownError, "invalid log level for '" + type + "' log");
}
capabilities->logging_prefs.insert(std::make_pair(type, level));
}
return Status(kOk);
}
Status ParseChromeOptions(
const base::Value& capability,
Capabilities* capabilities) {
const base::DictionaryValue* chrome_options = NULL;
if (!capability.GetAsDictionary(&chrome_options))
return Status(kUnknownError, "must be a dictionary");
bool is_android = chrome_options->HasKey("androidPackage");
bool is_remote = chrome_options->HasKey("debuggerAddress");
std::map<std::string, Parser> parser_map;
// Ignore 'args', 'binary' and 'extensions' capabilities by default, since the
// Java client always passes them.
parser_map["args"] = base::Bind(&IgnoreCapability);
parser_map["binary"] = base::Bind(&IgnoreCapability);
parser_map["extensions"] = base::Bind(&IgnoreCapability);
if (is_android) {
parser_map["androidActivity"] =
base::Bind(&ParseString, &capabilities->android_activity);
parser_map["androidDeviceSerial"] =
base::Bind(&ParseString, &capabilities->android_device_serial);
parser_map["androidPackage"] =
base::Bind(&ParseString, &capabilities->android_package);
parser_map["androidProcess"] =
base::Bind(&ParseString, &capabilities->android_process);
parser_map["androidUseRunningApp"] =
base::Bind(&ParseBoolean, &capabilities->android_use_running_app);
parser_map["args"] = base::Bind(&ParseSwitches);
parser_map["loadAsync"] = base::Bind(&IgnoreDeprecatedOption, "loadAsync");
} else if (is_remote) {
parser_map["debuggerAddress"] = base::Bind(&ParseUseRemoteBrowser);
} else {
parser_map["args"] = base::Bind(&ParseSwitches);
parser_map["binary"] = base::Bind(&ParseFilePath, &capabilities->binary);
parser_map["detach"] = base::Bind(&ParseBoolean, &capabilities->detach);
parser_map["mobileEmulation"] = base::Bind(&ParseMobileEmulation);
parser_map["excludeSwitches"] = base::Bind(&ParseExcludeSwitches);
parser_map["extensions"] = base::Bind(&ParseExtensions);
parser_map["forceDevToolsScreenshot"] = base::Bind(
&ParseBoolean, &capabilities->force_devtools_screenshot);
parser_map["loadAsync"] = base::Bind(&IgnoreDeprecatedOption, "loadAsync");
parser_map["localState"] =
base::Bind(&ParseDict, &capabilities->local_state);
parser_map["logPath"] = base::Bind(&ParseLogPath);
parser_map["minidumpPath"] =
base::Bind(&ParseString, &capabilities->minidump_path);
parser_map["prefs"] = base::Bind(&ParseDict, &capabilities->prefs);
}
for (base::DictionaryValue::Iterator it(*chrome_options); !it.IsAtEnd();
it.Advance()) {
if (parser_map.find(it.key()) == parser_map.end()) {
return Status(kUnknownError,
"unrecognized chrome option: " + it.key());
}
Status status = parser_map[it.key()].Run(it.value(), capabilities);
if (status.IsError())
return Status(kUnknownError, "cannot parse " + it.key(), status);
}
return Status(kOk);
}
} // namespace
Switches::Switches() {}
Switches::~Switches() {}
void Switches::SetSwitch(const std::string& name) {
SetSwitch(name, NativeString());
}
void Switches::SetSwitch(const std::string& name, const std::string& value) {
#if defined(OS_WIN)
SetSwitch(name, base::UTF8ToUTF16(value));
#else
switch_map_[name] = value;
#endif
}
void Switches::SetSwitch(const std::string& name, const base::string16& value) {
#if defined(OS_WIN)
switch_map_[name] = value;
#else
SetSwitch(name, base::UTF16ToUTF8(value));
#endif
}
void Switches::SetSwitch(const std::string& name, const base::FilePath& value) {
SetSwitch(name, value.value());
}
void Switches::SetFromSwitches(const Switches& switches) {
for (SwitchMap::const_iterator iter = switches.switch_map_.begin();
iter != switches.switch_map_.end();
++iter) {
switch_map_[iter->first] = iter->second;
}
}
void Switches::SetUnparsedSwitch(const std::string& unparsed_switch) {
std::string value;
size_t equals_index = unparsed_switch.find('=');
if (equals_index != std::string::npos)
value = unparsed_switch.substr(equals_index + 1);
std::string name;
size_t start_index = 0;
if (unparsed_switch.substr(0, 2) == "--")
start_index = 2;
name = unparsed_switch.substr(start_index, equals_index - start_index);
SetSwitch(name, value);
}
void Switches::RemoveSwitch(const std::string& name) {
switch_map_.erase(name);
}
bool Switches::HasSwitch(const std::string& name) const {
return switch_map_.count(name) > 0;
}
std::string Switches::GetSwitchValue(const std::string& name) const {
NativeString value = GetSwitchValueNative(name);
#if defined(OS_WIN)
return base::UTF16ToUTF8(value);
#else
return value;
#endif
}
Switches::NativeString Switches::GetSwitchValueNative(
const std::string& name) const {
SwitchMap::const_iterator iter = switch_map_.find(name);
if (iter == switch_map_.end())
return NativeString();
return iter->second;
}
size_t Switches::GetSize() const {
return switch_map_.size();
}
void Switches::AppendToCommandLine(CommandLine* command) const {
for (SwitchMap::const_iterator iter = switch_map_.begin();
iter != switch_map_.end();
++iter) {
command->AppendSwitchNative(iter->first, iter->second);
}
}
std::string Switches::ToString() const {
std::string str;
SwitchMap::const_iterator iter = switch_map_.begin();
while (iter != switch_map_.end()) {
str += "--" + iter->first;
std::string value = GetSwitchValue(iter->first);
if (value.length()) {
if (value.find(' ') != std::string::npos)
value = base::GetQuotedJSONString(value);
str += "=" + value;
}
++iter;
if (iter == switch_map_.end())
break;
str += " ";
}
return str;
}
Capabilities::Capabilities()
: android_use_running_app(false),
detach(false),
force_devtools_screenshot(false) {}
Capabilities::~Capabilities() {}
bool Capabilities::IsAndroid() const {
return !android_package.empty();
}
bool Capabilities::IsRemoteBrowser() const {
return debugger_address.IsValid();
}
Status Capabilities::Parse(const base::DictionaryValue& desired_caps) {
std::map<std::string, Parser> parser_map;
parser_map["chromeOptions"] = base::Bind(&ParseChromeOptions);
parser_map["loggingPrefs"] = base::Bind(&ParseLoggingPrefs);
parser_map["proxy"] = base::Bind(&ParseProxy);
for (std::map<std::string, Parser>::iterator it = parser_map.begin();
it != parser_map.end(); ++it) {
const base::Value* capability = NULL;
if (desired_caps.Get(it->first, &capability)) {
Status status = it->second.Run(*capability, this);
if (status.IsError()) {
return Status(
kUnknownError, "cannot parse capability: " + it->first, status);
}
}
}
return Status(kOk);
}