// Copyright 2017 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. #ifndef MOJO_CORE_USER_MESSAGE_IMPL_H_ #define MOJO_CORE_USER_MESSAGE_IMPL_H_ #include #include #include #include "base/macros.h" #include "base/optional.h" #include "mojo/core/channel.h" #include "mojo/core/dispatcher.h" #include "mojo/core/ports/event.h" #include "mojo/core/ports/name.h" #include "mojo/core/ports/port_ref.h" #include "mojo/core/ports/user_message.h" #include "mojo/core/system_impl_export.h" #include "mojo/public/c/system/message_pipe.h" #include "mojo/public/c/system/types.h" namespace mojo { namespace core { // UserMessageImpl is the sole implementation of ports::UserMessage used to // attach message data to any ports::UserMessageEvent. // // A UserMessageImpl may be either serialized or unserialized. Unserialized // instances are serialized lazily only when necessary, i.e., if and when // Serialize() is called to obtain a serialized message for wire transfer. class MOJO_SYSTEM_IMPL_EXPORT UserMessageImpl : public ports::UserMessage { public: static const TypeInfo kUserMessageTypeInfo; // Determines how ExtractSerializedHandles should behave when it encounters an // unrecoverable serialized handle. enum ExtractBadHandlePolicy { // Continue extracting handles upon encountering a bad handle. The bad // handle will be extracted with an invalid handle value. kSkip, // Abort the extraction process, leaving any valid serialized handles still // in the message. kAbort, }; ~UserMessageImpl() override; // Creates a new ports::UserMessageEvent with an attached UserMessageImpl. static std::unique_ptr CreateEventForNewMessage(); // Creates a new ports::UserMessageEvent with an attached serialized // UserMessageImpl. May fail iff one or more |dispatchers| fails to serialize // (e.g. due to it being in an invalid state.) // // Upon success, MOJO_RESULT_OK is returned and the new UserMessageEvent is // stored in |*out_event|. static MojoResult CreateEventForNewSerializedMessage( uint32_t num_bytes, const Dispatcher::DispatcherInTransit* dispatchers, uint32_t num_dispatchers, std::unique_ptr* out_event); // Creates a new UserMessageImpl from an existing serialized message buffer // which was read from a Channel. Takes ownership of |channel_message|. // |payload| and |payload_size| represent the range of bytes within // |channel_message| which should be parsed by this call. static std::unique_ptr CreateFromChannelMessage( ports::UserMessageEvent* message_event, Channel::MessagePtr channel_message, void* payload, size_t payload_size); // Extracts the serialized Channel::Message from the UserMessageEvent in // |event|. |event| must have a serialized UserMessageImpl instance attached. // |message_event| is serialized into the front of the message payload before // returning. static Channel::MessagePtr FinalizeEventMessage( std::unique_ptr event); bool HasContext() const { return context_ != 0; } uintptr_t context() const { return context_; } bool IsSerialized() const { if (HasContext()) { DCHECK(!channel_message_); return false; } return !!channel_message_; } bool IsTransmittable() const { return !IsSerialized() || is_committed_; } void* user_payload() { DCHECK(IsSerialized()); return user_payload_; } const void* user_payload() const { DCHECK(IsSerialized()); return user_payload_; } size_t user_payload_size() const { DCHECK(IsSerialized()); return user_payload_size_; } size_t user_payload_capacity() const; size_t num_handles() const; void set_source_node(const ports::NodeName& name) { source_node_ = name; } const ports::NodeName& source_node() const { return source_node_; } MojoResult SetContext(uintptr_t context, MojoMessageContextSerializer serializer, MojoMessageContextDestructor destructor); MojoResult AppendData(uint32_t additional_payload_size, const MojoHandle* handles, uint32_t num_handles); MojoResult CommitSize(); // If this message is not already serialized, this serializes it. MojoResult SerializeIfNecessary(); // Extracts handles from this (serialized) message. // // Returns |MOJO_RESULT_OK| // if sucessful, |MOJO_RESULT_FAILED_PRECONDITION| if this isn't a serialized // message, |MOJO_RESULT_NOT_FOUND| if all serialized handles have already // been extracted, or |MOJO_RESULT_ABORTED| if one or more handles failed // extraction. // // On success, |handles| is populated with |num_handles()| extracted handles, // whose ownership is thereby transferred to the caller. MojoResult ExtractSerializedHandles(ExtractBadHandlePolicy bad_handle_policy, MojoHandle* handles); // Forces all handle serialization to fail. Serialization can fail in // production for a few different reasons (e.g. file descriptor exhaustion // when duping data pipe buffer handles) which may be difficult to control in // testing environments. This forces the common serialization code path to // always behave as if the underlying implementation signaled failure, // allowing tests to exercise those cases. static void FailHandleSerializationForTesting(bool fail); private: // Creates an unserialized UserMessageImpl with an associated |context| and // |thunks|. If the message is ever going to be routed to another node (see // |WillBeRoutedExternally()| below), it will be serialized at that time using // operations provided by |thunks|. UserMessageImpl(ports::UserMessageEvent* message_event); // Creates a serialized UserMessageImpl backed by an existing Channel::Message // object. |header| and |user_payload| must be pointers into // |channel_message|'s own storage, and |user_payload_size| is the number of // bytes comprising the user message contents at |user_payload|. UserMessageImpl(ports::UserMessageEvent* message_event, Channel::MessagePtr channel_message, void* header, size_t header_size, void* user_payload, size_t user_payload_size); // UserMessage: bool WillBeRoutedExternally() override; size_t GetSizeIfSerialized() const override; // The event which owns this serialized message. Not owned. ports::UserMessageEvent* const message_event_; // Unserialized message state. uintptr_t context_ = 0; MojoMessageContextSerializer context_serializer_ = nullptr; MojoMessageContextDestructor context_destructor_ = nullptr; // Serialized message contents. May be null if this is not a serialized // message. Channel::MessagePtr channel_message_; // Indicates whether any handles serialized within |channel_message_| have // yet to be extracted. bool has_serialized_handles_ = false; // Indicates whether the serialized message's contents (if any) have been // committed yet. bool is_committed_ = false; // Only valid if |channel_message_| is non-null. |header_| is the address // of the UserMessageImpl's internal MessageHeader structure within the // serialized message buffer. |user_payload_| is the address of the first byte // after any serialized dispatchers, with the payload comprising the remaining // |user_payload_size_| bytes of the message. void* header_ = nullptr; size_t header_size_ = 0; void* user_payload_ = nullptr; size_t user_payload_size_ = 0; // Handles which have been attached to the serialized message but which have // not yet been serialized. std::vector pending_handle_attachments_; // The node name from which this message was received, iff it came from // out-of-process and the source is known. ports::NodeName source_node_ = ports::kInvalidNodeName; DISALLOW_COPY_AND_ASSIGN(UserMessageImpl); }; } // namespace core } // namespace mojo #endif // MOJO_CORE_USER_MESSAGE_IMPL_H_