// Copyright 2016 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 "extensions/renderer/bindings/api_binding.h" #include #include "base/bind.h" #include "base/logging.h" #include "base/strings/string_util.h" #include "base/strings/stringprintf.h" #include "base/values.h" #include "extensions/renderer/bindings/api_binding_hooks.h" #include "extensions/renderer/bindings/api_binding_types.h" #include "extensions/renderer/bindings/api_binding_util.h" #include "extensions/renderer/bindings/api_event_handler.h" #include "extensions/renderer/bindings/api_invocation_errors.h" #include "extensions/renderer/bindings/api_request_handler.h" #include "extensions/renderer/bindings/api_signature.h" #include "extensions/renderer/bindings/api_type_reference_map.h" #include "extensions/renderer/bindings/binding_access_checker.h" #include "extensions/renderer/bindings/declarative_event.h" #include "gin/arguments.h" #include "gin/handle.h" #include "gin/per_context_data.h" #include "third_party/blink/public/web/web_user_gesture_indicator.h" namespace extensions { namespace { // Returns the name of the enum value for use in JavaScript; JS enum entries use // SCREAMING_STYLE. std::string GetJSEnumEntryName(const std::string& original) { // The webstorePrivate API has an empty enum value for a result. // TODO(devlin): Work with the webstore team to see if we can move them off // this - they also already have a "success" result that they can use. // See crbug.com/709120. if (original.empty()) return original; std::string result; // If the original starts with a digit, prefix it with an underscore. if (base::IsAsciiDigit(original[0])) result.push_back('_'); // Given 'myEnum-Foo': for (size_t i = 0; i < original.size(); ++i) { // Add an underscore between camelcased items: // 'myEnum-Foo' -> 'mY_Enum-Foo' if (i > 0 && base::IsAsciiLower(original[i - 1]) && base::IsAsciiUpper(original[i])) { result.push_back('_'); result.push_back(original[i]); } else if (original[i] == '-') { // 'mY_Enum-Foo' -> 'mY_Enum_Foo' result.push_back('_'); } else { // 'mY_Enum_Foo' -> 'MY_ENUM_FOO' result.push_back(base::ToUpperASCII(original[i])); } } return result; } struct SignaturePair { std::unique_ptr method_signature; std::unique_ptr callback_signature; }; SignaturePair GetAPISignatureFromDictionary(const base::DictionaryValue* dict) { const base::ListValue* params = nullptr; CHECK(dict->GetList("parameters", ¶ms)); SignaturePair result; result.method_signature = std::make_unique(*params); // If response validation is enabled, parse the callback signature. Otherwise, // there's no reason to, so don't bother. if (result.method_signature->has_callback() && binding::IsResponseValidationEnabled()) { const base::Value* callback_params = params->GetList().back().FindKeyOfType( "parameters", base::Value::Type::LIST); if (callback_params) { const base::ListValue* params_as_list = nullptr; callback_params->GetAsList(¶ms_as_list); result.callback_signature = std::make_unique(*params_as_list); } } return result; } void RunAPIBindingHandlerCallback( const v8::FunctionCallbackInfo& info) { gin::Arguments args(info); if (!binding::IsContextValidOrThrowError(args.isolate()->GetCurrentContext())) return; v8::Local external; CHECK(args.GetData(&external)); auto* callback = static_cast(external->Value()); callback->Run(&args); } } // namespace struct APIBinding::MethodData { MethodData(std::string full_name, const APISignature* signature, binding::RequestThread thread) : full_name(std::move(full_name)), signature(signature), thread(thread) {} // The fully-qualified name of this api (e.g. runtime.sendMessage instead of // sendMessage). const std::string full_name; // The expected API signature. const APISignature* signature; // Thread to invoke the method on. const binding::RequestThread thread; // The callback used by the v8 function. APIBinding::HandlerCallback callback; }; // TODO(devlin): Maybe separate EventData into two classes? Rules, actions, and // conditions should never be present on vanilla events. struct APIBinding::EventData { EventData(std::string exposed_name, std::string full_name, bool supports_filters, bool supports_rules, bool supports_lazy_listeners, int max_listeners, bool notify_on_change, std::vector actions, std::vector conditions, APIBinding* binding) : exposed_name(std::move(exposed_name)), full_name(std::move(full_name)), supports_filters(supports_filters), supports_rules(supports_rules), supports_lazy_listeners(supports_lazy_listeners), max_listeners(max_listeners), notify_on_change(notify_on_change), actions(std::move(actions)), conditions(std::move(conditions)), binding(binding) {} // The name of the event on the API object (e.g. onCreated). std::string exposed_name; // The fully-specified name of the event (e.g. tabs.onCreated). std::string full_name; // Whether the event supports filters. bool supports_filters; // Whether the event supports rules. bool supports_rules; // Whether the event supports lazy listeners. bool supports_lazy_listeners; // The maximum number of listeners this event supports. int max_listeners; // Whether to notify the browser of listener changes. bool notify_on_change; // The associated actions and conditions for declarative events. std::vector actions; std::vector conditions; // The associated APIBinding. This raw pointer is safe because the // EventData is only accessed from the callbacks associated with the // APIBinding, and both the APIBinding and APIEventHandler are owned by the // same object (the APIBindingsSystem). APIBinding* binding; }; struct APIBinding::CustomPropertyData { CustomPropertyData(const std::string& type_name, const std::string& property_name, const base::ListValue* property_values, const CreateCustomType& create_custom_type) : type_name(type_name), property_name(property_name), property_values(property_values), create_custom_type(create_custom_type) {} // The type of the property, e.g. 'storage.StorageArea'. std::string type_name; // The name of the property on the object, e.g. 'local' for // chrome.storage.local. std::string property_name; // Values curried into this particular type from the schema. const base::ListValue* property_values; CreateCustomType create_custom_type; }; APIBinding::APIBinding(const std::string& api_name, const base::ListValue* function_definitions, const base::ListValue* type_definitions, const base::ListValue* event_definitions, const base::DictionaryValue* property_definitions, const CreateCustomType& create_custom_type, const OnSilentRequest& on_silent_request, std::unique_ptr binding_hooks, APITypeReferenceMap* type_refs, APIRequestHandler* request_handler, APIEventHandler* event_handler, BindingAccessChecker* access_checker) : api_name_(api_name), property_definitions_(property_definitions), create_custom_type_(create_custom_type), on_silent_request_(on_silent_request), binding_hooks_(std::move(binding_hooks)), type_refs_(type_refs), request_handler_(request_handler), event_handler_(event_handler), access_checker_(access_checker), weak_factory_(this) { // TODO(devlin): It might make sense to instantiate the object_template_ // directly here, which would avoid the need to hold on to // |property_definitions_| and |enums_|. However, there are *some* cases where // we don't immediately stamp out an API from the template following // construction. if (function_definitions) { for (const auto& func : *function_definitions) { const base::DictionaryValue* func_dict = nullptr; CHECK(func.GetAsDictionary(&func_dict)); std::string name; CHECK(func_dict->GetString("name", &name)); SignaturePair signatures = GetAPISignatureFromDictionary(func_dict); bool for_io_thread = false; func_dict->GetBoolean("forIOThread", &for_io_thread); std::string full_name = base::StringPrintf("%s.%s", api_name_.c_str(), name.c_str()); methods_[name] = std::make_unique( full_name, signatures.method_signature.get(), for_io_thread ? binding::RequestThread::IO : binding::RequestThread::UI); type_refs->AddAPIMethodSignature(full_name, std::move(signatures.method_signature)); if (signatures.callback_signature) { type_refs->AddCallbackSignature( full_name, std::move(signatures.callback_signature)); } } } if (type_definitions) { for (const auto& type : *type_definitions) { const base::DictionaryValue* type_dict = nullptr; CHECK(type.GetAsDictionary(&type_dict)); std::string id; CHECK(type_dict->GetString("id", &id)); auto argument_spec = std::make_unique(*type_dict); const std::set& enum_values = argument_spec->enum_values(); if (!enum_values.empty()) { // Type names may be prefixed by the api name. If so, remove the prefix. base::Optional stripped_id; if (base::StartsWith(id, api_name_, base::CompareCase::SENSITIVE)) stripped_id = id.substr(api_name_.size() + 1); // +1 for trailing '.' std::vector& entries = enums_[stripped_id ? *stripped_id : id]; entries.reserve(enum_values.size()); for (const auto& enum_value : enum_values) { entries.push_back( std::make_pair(enum_value, GetJSEnumEntryName(enum_value))); } } type_refs->AddSpec(id, std::move(argument_spec)); // Some types, like storage.StorageArea, have functions associated with // them. Cache the function signatures in the type map. const base::ListValue* type_functions = nullptr; if (type_dict->GetList("functions", &type_functions)) { for (const auto& func : *type_functions) { const base::DictionaryValue* func_dict = nullptr; CHECK(func.GetAsDictionary(&func_dict)); std::string function_name; CHECK(func_dict->GetString("name", &function_name)); SignaturePair signatures = GetAPISignatureFromDictionary(func_dict); std::string full_name = base::StringPrintf("%s.%s", id.c_str(), function_name.c_str()); type_refs->AddTypeMethodSignature( full_name, std::move(signatures.method_signature)); if (signatures.callback_signature) { type_refs->AddCallbackSignature( full_name, std::move(signatures.callback_signature)); } } } } } if (event_definitions) { events_.reserve(event_definitions->GetSize()); for (const auto& event : *event_definitions) { const base::DictionaryValue* event_dict = nullptr; CHECK(event.GetAsDictionary(&event_dict)); std::string name; CHECK(event_dict->GetString("name", &name)); std::string full_name = base::StringPrintf("%s.%s", api_name_.c_str(), name.c_str()); const base::ListValue* filters = nullptr; bool supports_filters = event_dict->GetList("filters", &filters) && !filters->empty(); std::vector rule_actions; std::vector rule_conditions; const base::DictionaryValue* options = nullptr; bool supports_rules = false; bool notify_on_change = true; bool supports_lazy_listeners = true; int max_listeners = binding::kNoListenerMax; if (event_dict->GetDictionary("options", &options)) { bool temp_supports_filters = false; // TODO(devlin): For some reason, schemas indicate supporting filters // either through having a 'filters' property *or* through having // a 'supportsFilters' property. We should clean that up. supports_filters |= (options->GetBoolean("supportsFilters", &temp_supports_filters) && temp_supports_filters); if (options->GetBoolean("supportsRules", &supports_rules) && supports_rules) { bool supports_listeners = false; DCHECK(options->GetBoolean("supportsListeners", &supports_listeners)); DCHECK(!supports_listeners) << "Events cannot support rules and listeners."; auto get_values = [options](base::StringPiece name, std::vector* out_value) { const base::ListValue* list = nullptr; CHECK(options->GetList(name, &list)); for (const auto& entry : *list) { DCHECK(entry.is_string()); out_value->push_back(entry.GetString()); } }; get_values("actions", &rule_actions); get_values("conditions", &rule_conditions); } options->GetInteger("maxListeners", &max_listeners); bool unmanaged = false; if (options->GetBoolean("unmanaged", &unmanaged)) notify_on_change = !unmanaged; if (options->GetBoolean("supportsLazyListeners", &supports_lazy_listeners)) { DCHECK(!supports_lazy_listeners) << "Don't specify supportsLazyListeners: true; it's the default."; } } events_.push_back(std::make_unique( std::move(name), std::move(full_name), supports_filters, supports_rules, supports_lazy_listeners, max_listeners, notify_on_change, std::move(rule_actions), std::move(rule_conditions), this)); } } } APIBinding::~APIBinding() {} v8::Local APIBinding::CreateInstance( v8::Local context) { DCHECK(binding::IsContextValid(context)); v8::Isolate* isolate = context->GetIsolate(); if (object_template_.IsEmpty()) InitializeTemplate(isolate); DCHECK(!object_template_.IsEmpty()); v8::Local object = object_template_.Get(isolate)->NewInstance(context).ToLocalChecked(); // The object created from the template includes all methods, but some may // be unavailable in this context. Iterate over them and delete any that // aren't available. // TODO(devlin): Ideally, we'd only do this check on the methods that are // conditionally exposed. Or, we could have multiple templates for different // configurations, assuming there are a small number of possibilities. for (const auto& key_value : methods_) { if (!access_checker_->HasAccess(context, key_value.second->full_name)) { v8::Maybe success = object->Delete( context, gin::StringToSymbol(isolate, key_value.first)); CHECK(success.IsJust()); CHECK(success.FromJust()); } } for (const auto& event : events_) { if (!access_checker_->HasAccess(context, event->full_name)) { v8::Maybe success = object->Delete( context, gin::StringToSymbol(isolate, event->exposed_name)); CHECK(success.IsJust()); CHECK(success.FromJust()); } } binding_hooks_->InitializeInstance(context, object); return object; } void APIBinding::InitializeTemplate(v8::Isolate* isolate) { DCHECK(object_template_.IsEmpty()); v8::Local object_template = v8::ObjectTemplate::New(isolate); for (const auto& key_value : methods_) { MethodData& method = *key_value.second; DCHECK(method.callback.is_null()); method.callback = base::Bind(&APIBinding::HandleCall, weak_factory_.GetWeakPtr(), method.full_name, method.signature, method.thread); object_template->Set( gin::StringToSymbol(isolate, key_value.first), v8::FunctionTemplate::New(isolate, &RunAPIBindingHandlerCallback, v8::External::New(isolate, &method.callback), v8::Local(), 0, v8::ConstructorBehavior::kThrow)); } for (const auto& event : events_) { object_template->SetLazyDataProperty( gin::StringToSymbol(isolate, event->exposed_name), &APIBinding::GetEventObject, v8::External::New(isolate, event.get())); } for (const auto& entry : enums_) { v8::Local enum_object = v8::ObjectTemplate::New(isolate); for (const auto& enum_entry : entry.second) { enum_object->Set(gin::StringToSymbol(isolate, enum_entry.second), gin::StringToSymbol(isolate, enum_entry.first)); } object_template->Set(isolate, entry.first.c_str(), enum_object); } if (property_definitions_) { DecorateTemplateWithProperties(isolate, object_template, *property_definitions_); } // Allow custom bindings a chance to tweak the template, such as to add // additional properties or types. binding_hooks_->InitializeTemplate(isolate, object_template, *type_refs_); object_template_.Set(isolate, object_template); } void APIBinding::DecorateTemplateWithProperties( v8::Isolate* isolate, v8::Local object_template, const base::DictionaryValue& properties) { static const char kValueKey[] = "value"; for (base::DictionaryValue::Iterator iter(properties); !iter.IsAtEnd(); iter.Advance()) { const base::DictionaryValue* dict = nullptr; CHECK(iter.value().GetAsDictionary(&dict)); bool optional = false; if (dict->GetBoolean("optional", &optional)) { // TODO(devlin): What does optional even mean here? It's only used, it // seems, for lastError and inIncognitoContext, which are both handled // with custom bindings. Investigate, and remove. continue; } const base::ListValue* platforms = nullptr; // TODO(devlin): This isn't great. It's bad to have availability primarily // defined in the features files, and then partially defined within the // API specification itself. Additionally, they aren't equivalent // definitions. But given the rarity of property restrictions, and the fact // that they are all limited by platform, it makes more sense to isolate // this check here. If this becomes more common, we should really find a // way of moving these checks to the features files. if (dict->GetList("platforms", &platforms)) { std::string this_platform = binding::GetPlatformString(); auto is_this_platform = [&this_platform](const base::Value& platform) { return platform.is_string() && platform.GetString() == this_platform; }; if (std::none_of(platforms->begin(), platforms->end(), is_this_platform)) continue; } v8::Local v8_key = gin::StringToSymbol(isolate, iter.key()); std::string ref; if (dict->GetString("$ref", &ref)) { const base::ListValue* property_values = nullptr; CHECK(dict->GetList("value", &property_values)); auto property_data = std::make_unique( ref, iter.key(), property_values, create_custom_type_); object_template->SetLazyDataProperty( v8_key, &APIBinding::GetCustomPropertyObject, v8::External::New(isolate, property_data.get())); custom_properties_.push_back(std::move(property_data)); continue; } std::string type; CHECK(dict->GetString("type", &type)); if (type != "object" && !dict->HasKey(kValueKey)) { // TODO(devlin): What does a fundamental property not having a value mean? // It doesn't seem useful, and looks like it's only used by runtime.id, // which is set by custom bindings. Investigate, and remove. continue; } if (type == "integer") { int val = 0; CHECK(dict->GetInteger(kValueKey, &val)); object_template->Set(v8_key, v8::Integer::New(isolate, val)); } else if (type == "boolean") { bool val = false; CHECK(dict->GetBoolean(kValueKey, &val)); object_template->Set(v8_key, v8::Boolean::New(isolate, val)); } else if (type == "string") { std::string val; CHECK(dict->GetString(kValueKey, &val)) << iter.key(); object_template->Set(v8_key, gin::StringToSymbol(isolate, val)); } else if (type == "object" || !ref.empty()) { v8::Local property_template = v8::ObjectTemplate::New(isolate); const base::DictionaryValue* property_dict = nullptr; CHECK(dict->GetDictionary("properties", &property_dict)); DecorateTemplateWithProperties(isolate, property_template, *property_dict); object_template->Set(v8_key, property_template); } } } // static void APIBinding::GetEventObject( v8::Local property, const v8::PropertyCallbackInfo& info) { v8::Isolate* isolate = info.GetIsolate(); v8::HandleScope handle_scope(isolate); v8::Local context = info.Holder()->CreationContext(); if (!binding::IsContextValidOrThrowError(context)) return; CHECK(info.Data()->IsExternal()); auto* event_data = static_cast(info.Data().As()->Value()); v8::Local retval; if (event_data->binding->binding_hooks_->CreateCustomEvent( context, event_data->full_name, &retval)) { // A custom event was created; our work is done. } else if (event_data->supports_rules) { gin::Handle event = gin::CreateHandle( isolate, new DeclarativeEvent( event_data->full_name, event_data->binding->type_refs_, event_data->binding->request_handler_, event_data->actions, event_data->conditions, 0)); retval = event.ToV8(); } else { retval = event_data->binding->event_handler_->CreateEventInstance( event_data->full_name, event_data->supports_filters, event_data->supports_lazy_listeners, event_data->max_listeners, event_data->notify_on_change, context); } info.GetReturnValue().Set(retval); } void APIBinding::GetCustomPropertyObject( v8::Local property_name, const v8::PropertyCallbackInfo& info) { v8::Isolate* isolate = info.GetIsolate(); v8::HandleScope handle_scope(isolate); v8::Local context = info.Holder()->CreationContext(); if (!binding::IsContextValid(context)) return; v8::Context::Scope context_scope(context); CHECK(info.Data()->IsExternal()); auto* property_data = static_cast(info.Data().As()->Value()); v8::Local property = property_data->create_custom_type.Run( isolate, property_data->type_name, property_data->property_name, property_data->property_values); if (property.IsEmpty()) return; info.GetReturnValue().Set(property); } void APIBinding::HandleCall(const std::string& name, const APISignature* signature, const binding::RequestThread thread, gin::Arguments* arguments) { std::string error; v8::Isolate* isolate = arguments->isolate(); v8::HandleScope handle_scope(isolate); // Since this is called synchronously from the JS entry point, // GetCurrentContext() should always be correct. v8::Local context = isolate->GetCurrentContext(); if (!access_checker_->HasAccessOrThrowError(context, name)) { // TODO(devlin): Do we need handle this for events as well? I'm not sure the // currrent system does (though perhaps it should). Investigate. return; } std::vector> argument_list = arguments->GetAll(); bool invalid_invocation = false; v8::Local custom_callback; bool updated_args = false; int old_request_id = request_handler_->last_sent_request_id(); { v8::TryCatch try_catch(isolate); APIBindingHooks::RequestResult hooks_result = binding_hooks_->RunHooks( name, context, signature, &argument_list, *type_refs_); switch (hooks_result.code) { case APIBindingHooks::RequestResult::INVALID_INVOCATION: invalid_invocation = true; error = std::move(hooks_result.error); // Throw a type error below so that it's not caught by our try-catch. break; case APIBindingHooks::RequestResult::THROWN: DCHECK(try_catch.HasCaught()); try_catch.ReThrow(); return; case APIBindingHooks::RequestResult::HANDLED: if (!hooks_result.return_value.IsEmpty()) arguments->Return(hooks_result.return_value); // TODO(devlin): This is a pretty simplistic implementation of this, // but it's similar to the current JS logic. If we wanted to be more // correct, we could create a RequestScope object that watches outgoing // requests. if (old_request_id == request_handler_->last_sent_request_id()) on_silent_request_.Run(context, name, argument_list); return; // Our work here is done. case APIBindingHooks::RequestResult::ARGUMENTS_UPDATED: updated_args = true; FALLTHROUGH; case APIBindingHooks::RequestResult::NOT_HANDLED: break; // Handle in the default manner. } custom_callback = hooks_result.custom_callback; } if (invalid_invocation) { arguments->ThrowTypeError(api_errors::InvocationError( name, signature->GetExpectedSignature(), error)); return; } std::unique_ptr converted_arguments; v8::Local callback; { v8::TryCatch try_catch(isolate); // If custom hooks updated the arguments post-validation, we just trust the // values the hooks provide and convert them directly. This is because some // APIs have one set of values they use for validation, and a second they // use in the implementation of the function (see, e.g. // fileSystem.getDisplayPath). // TODO(devlin): That's unfortunate. Not only does it require special casing // here, but it also means we can't auto-generate the params for the // function on the browser side. if (updated_args) { bool success = signature->ConvertArgumentsIgnoringSchema( context, argument_list, &converted_arguments, &callback); if (!success) { // Converted arguments passed to us by our bindings should never fail. NOTREACHED(); return; } } else { invalid_invocation = !signature->ParseArgumentsToJSON( context, argument_list, *type_refs_, &converted_arguments, &callback, &error); } if (try_catch.HasCaught()) { DCHECK(!converted_arguments); try_catch.ReThrow(); return; } } if (invalid_invocation) { arguments->ThrowTypeError(api_errors::InvocationError( name, signature->GetExpectedSignature(), error)); return; } request_handler_->StartRequest(context, name, std::move(converted_arguments), callback, custom_callback, thread); } } // namespace extensions