// Copyright (c) 2012 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 DBUS_MESSAGE_H_ #define DBUS_MESSAGE_H_ #include #include #include #include #include #include "base/macros.h" #include "base/memory/scoped_ptr.h" #include "dbus/dbus_export.h" #include "dbus/file_descriptor.h" #include "dbus/object_path.h" namespace google { namespace protobuf { class MessageLite; } // namespace protobuf } // namespace google namespace dbus { class MessageWriter; class MessageReader; // DBUS_TYPE_UNIX_FD was added in D-Bus version 1.4 #if !defined(DBUS_TYPE_UNIX_FD) #define DBUS_TYPE_UNIX_FD ((int) 'h') #endif // Returns true if Unix FD passing is supported in libdbus. // The check is done runtime rather than compile time as the libdbus // version used at runtime may be different from the one used at compile time. CHROME_DBUS_EXPORT bool IsDBusTypeUnixFdSupported(); // Message is the base class of D-Bus message types. Client code must use // sub classes such as MethodCall and Response instead. // // The class name Message is very generic, but there should be no problem // as the class is inside 'dbus' namespace. We chose to name this way, as // libdbus defines lots of types starting with DBus, such as // DBusMessage. We should avoid confusion and conflict with these types. class CHROME_DBUS_EXPORT Message { public: // The message type used in D-Bus. Redefined here so client code // doesn't need to use raw D-Bus macros. DBUS_MESSAGE_TYPE_INVALID // etc. are #define macros. Having an enum type here makes code a bit // more type-safe. enum MessageType { MESSAGE_INVALID = DBUS_MESSAGE_TYPE_INVALID, MESSAGE_METHOD_CALL = DBUS_MESSAGE_TYPE_METHOD_CALL, MESSAGE_METHOD_RETURN = DBUS_MESSAGE_TYPE_METHOD_RETURN, MESSAGE_SIGNAL = DBUS_MESSAGE_TYPE_SIGNAL, MESSAGE_ERROR = DBUS_MESSAGE_TYPE_ERROR, }; // The data type used in the D-Bus type system. See the comment at // MessageType for why we are redefining data types here. enum DataType { INVALID_DATA = DBUS_TYPE_INVALID, BYTE = DBUS_TYPE_BYTE, BOOL = DBUS_TYPE_BOOLEAN, INT16 = DBUS_TYPE_INT16, UINT16 = DBUS_TYPE_UINT16, INT32 = DBUS_TYPE_INT32, UINT32 = DBUS_TYPE_UINT32, INT64 = DBUS_TYPE_INT64, UINT64 = DBUS_TYPE_UINT64, DOUBLE = DBUS_TYPE_DOUBLE, STRING = DBUS_TYPE_STRING, OBJECT_PATH = DBUS_TYPE_OBJECT_PATH, ARRAY = DBUS_TYPE_ARRAY, STRUCT = DBUS_TYPE_STRUCT, DICT_ENTRY = DBUS_TYPE_DICT_ENTRY, VARIANT = DBUS_TYPE_VARIANT, UNIX_FD = DBUS_TYPE_UNIX_FD, }; // Returns the type of the message. Returns MESSAGE_INVALID if // raw_message_ is NULL. MessageType GetMessageType(); // Returns the type of the message as string like "MESSAGE_METHOD_CALL" // for instance. std::string GetMessageTypeAsString(); DBusMessage* raw_message() { return raw_message_; } // Sets the destination, the path, the interface, the member, etc. bool SetDestination(const std::string& destination); bool SetPath(const ObjectPath& path); bool SetInterface(const std::string& interface); bool SetMember(const std::string& member); bool SetErrorName(const std::string& error_name); bool SetSender(const std::string& sender); void SetSerial(uint32_t serial); void SetReplySerial(uint32_t reply_serial); // SetSignature() does not exist as we cannot do it. // Gets the destination, the path, the interface, the member, etc. // If not set, an empty string is returned. std::string GetDestination(); ObjectPath GetPath(); std::string GetInterface(); std::string GetMember(); std::string GetErrorName(); std::string GetSender(); std::string GetSignature(); // Gets the serial and reply serial numbers. Returns 0 if not set. uint32_t GetSerial(); uint32_t GetReplySerial(); // Returns the string representation of this message. Useful for // debugging. The output is truncated as needed (ex. strings are truncated // if longer than a certain limit defined in the .cc file). std::string ToString(); protected: // This class cannot be instantiated. Use sub classes instead. Message(); virtual ~Message(); // Initializes the message with the given raw message. void Init(DBusMessage* raw_message); private: // Helper function used in ToString(). std::string ToStringInternal(const std::string& indent, MessageReader* reader); DBusMessage* raw_message_; DISALLOW_COPY_AND_ASSIGN(Message); }; // MessageCall is a type of message used for calling a method via D-Bus. class CHROME_DBUS_EXPORT MethodCall : public Message { public: // Creates a method call message for the specified interface name and // the method name. // // For instance, to call "Get" method of DBUS_INTERFACE_INTROSPECTABLE // interface ("org.freedesktop.DBus.Introspectable"), create a method // call like this: // // MethodCall method_call(DBUS_INTERFACE_INTROSPECTABLE, "Get"); // // The constructor creates the internal raw message. MethodCall(const std::string& interface_name, const std::string& method_name); // Returns a newly created MethodCall from the given raw message of the // type DBUS_MESSAGE_TYPE_METHOD_CALL. The caller must delete the // returned object. Takes the ownership of |raw_message|. static MethodCall* FromRawMessage(DBusMessage* raw_message); private: // Creates a method call message. The internal raw message is NULL. // Only used internally. MethodCall(); DISALLOW_COPY_AND_ASSIGN(MethodCall); }; // Signal is a type of message used to send a signal. class CHROME_DBUS_EXPORT Signal : public Message { public: // Creates a signal message for the specified interface name and the // method name. // // For instance, to send "PropertiesChanged" signal of // DBUS_INTERFACE_INTROSPECTABLE interface // ("org.freedesktop.DBus.Introspectable"), create a signal like this: // // Signal signal(DBUS_INTERFACE_INTROSPECTABLE, "PropertiesChanged"); // // The constructor creates the internal raw_message_. Signal(const std::string& interface_name, const std::string& method_name); // Returns a newly created SIGNAL from the given raw message of the type // DBUS_MESSAGE_TYPE_SIGNAL. The caller must delete the returned // object. Takes the ownership of |raw_message|. static Signal* FromRawMessage(DBusMessage* raw_message); private: // Creates a signal message. The internal raw message is NULL. // Only used internally. Signal(); DISALLOW_COPY_AND_ASSIGN(Signal); }; // Response is a type of message used for receiving a response from a // method via D-Bus. class CHROME_DBUS_EXPORT Response : public Message { public: // Returns a newly created Response from the given raw message of the // type DBUS_MESSAGE_TYPE_METHOD_RETURN. Takes the ownership of |raw_message|. static scoped_ptr FromRawMessage(DBusMessage* raw_message); // Returns a newly created Response from the given method call. // Used for implementing exported methods. Does NOT take the ownership of // |method_call|. static scoped_ptr FromMethodCall(MethodCall* method_call); // Returns a newly created Response with an empty payload. // Useful for testing. static scoped_ptr CreateEmpty(); protected: // Creates a Response message. The internal raw message is NULL. Response(); private: DISALLOW_COPY_AND_ASSIGN(Response); }; // ErrorResponse is a type of message used to return an error to the // caller of a method. class CHROME_DBUS_EXPORT ErrorResponse: public Response { public: // Returns a newly created Response from the given raw message of the // type DBUS_MESSAGE_TYPE_METHOD_RETURN. Takes the ownership of |raw_message|. static scoped_ptr FromRawMessage(DBusMessage* raw_message); // Returns a newly created ErrorResponse from the given method call, the // error name, and the error message. The error name looks like // "org.freedesktop.DBus.Error.Failed". Used for returning an error to a // failed method call. Does NOT take the ownership of |method_call|. static scoped_ptr FromMethodCall( MethodCall* method_call, const std::string& error_name, const std::string& error_message); private: // Creates an ErrorResponse message. The internal raw message is NULL. ErrorResponse(); DISALLOW_COPY_AND_ASSIGN(ErrorResponse); }; // MessageWriter is used to write outgoing messages for calling methods // and sending signals. // // The main design goal of MessageReader and MessageWriter classes is to // provide a type safe API. In the past, there was a Chrome OS blocker // bug, that took days to fix, that would have been prevented if the API // was type-safe. // // For instance, instead of doing something like: // // // We shouldn't add '&' to str here, but it compiles with '&' added. // dbus_g_proxy_call(..., G_TYPE_STRING, str, G_TYPE_INVALID, ...) // // We want to do something like: // // writer.AppendString(str); // class CHROME_DBUS_EXPORT MessageWriter { public: // Data added with Append* will be written to |message|, which may be NULL // to create a sub-writer for passing to OpenArray, etc. explicit MessageWriter(Message* message); ~MessageWriter(); // Appends a byte to the message. void AppendByte(uint8_t value); void AppendBool(bool value); void AppendInt16(int16_t value); void AppendUint16(uint16_t value); void AppendInt32(int32_t value); void AppendUint32(uint32_t value); void AppendInt64(int64_t value); void AppendUint64(uint64_t value); void AppendDouble(double value); void AppendString(const std::string& value); void AppendObjectPath(const ObjectPath& value); void AppendFileDescriptor(const FileDescriptor& value); // Opens an array. The array contents can be added to the array with // |sub_writer|. The client code must close the array with // CloseContainer(), once all contents are added. // // |signature| parameter is used to supply the D-Bus type signature of // the array contents. For instance, if you want an array of strings, // then you pass "s" as the signature. // // See the spec for details about the type signatures. // http://dbus.freedesktop.org/doc/dbus-specification.html // #message-protocol-signatures // void OpenArray(const std::string& signature, MessageWriter* sub_writer); // Do the same for a variant. void OpenVariant(const std::string& signature, MessageWriter* sub_writer); // Do the same for Struct and dict entry. They don't need the signature. void OpenStruct(MessageWriter* sub_writer); void OpenDictEntry(MessageWriter* sub_writer); // Close the container for a array/variant/struct/dict entry. void CloseContainer(MessageWriter* sub_writer); // Appends the array of bytes. Arrays of bytes are often used for // exchanging binary blobs hence it's worth having a specialized // function. void AppendArrayOfBytes(const uint8_t* values, size_t length); // Appends the array of strings. Arrays of strings are often used for // exchanging lists of names hence it's worth having a specialized // function. void AppendArrayOfStrings(const std::vector& strings); // Appends the array of object paths. Arrays of object paths are often // used when exchanging object paths, hence it's worth having a // specialized function. void AppendArrayOfObjectPaths(const std::vector& object_paths); // Appends the protocol buffer as an array of bytes. The buffer is serialized // into an array of bytes before communication, since protocol buffers are not // a native dbus type. On the receiving size the array of bytes needs to be // read and deserialized into a protocol buffer of the correct type. There are // methods in MessageReader to assist in this. Return true on succes and fail // when serialization is not successful. bool AppendProtoAsArrayOfBytes(const google::protobuf::MessageLite& protobuf); // Appends the byte wrapped in a variant data container. Variants are // widely used in D-Bus services so it's worth having a specialized // function. For instance, The third parameter of // "org.freedesktop.DBus.Properties.Set" is a variant. void AppendVariantOfByte(uint8_t value); void AppendVariantOfBool(bool value); void AppendVariantOfInt16(int16_t value); void AppendVariantOfUint16(uint16_t value); void AppendVariantOfInt32(int32_t value); void AppendVariantOfUint32(uint32_t value); void AppendVariantOfInt64(int64_t value); void AppendVariantOfUint64(uint64_t value); void AppendVariantOfDouble(double value); void AppendVariantOfString(const std::string& value); void AppendVariantOfObjectPath(const ObjectPath& value); private: // Helper function used to implement AppendByte etc. void AppendBasic(int dbus_type, const void* value); // Helper function used to implement AppendVariantOfByte() etc. void AppendVariantOfBasic(int dbus_type, const void* value); Message* message_; DBusMessageIter raw_message_iter_; bool container_is_open_; DISALLOW_COPY_AND_ASSIGN(MessageWriter); }; // MessageReader is used to read incoming messages such as responses for // method calls. // // MessageReader manages an internal iterator to read data. All functions // starting with Pop advance the iterator on success. class CHROME_DBUS_EXPORT MessageReader { public: // The data will be read from the given |message|, which may be NULL to // create a sub-reader for passing to PopArray, etc. explicit MessageReader(Message* message); ~MessageReader(); // Returns true if the reader has more data to read. The function is // used to iterate contents in a container like: // // while (reader.HasMoreData()) // reader.PopString(&value); bool HasMoreData(); // Gets the byte at the current iterator position. // Returns true and advances the iterator on success. // Returns false if the data type is not a byte. bool PopByte(uint8_t* value); bool PopBool(bool* value); bool PopInt16(int16_t* value); bool PopUint16(uint16_t* value); bool PopInt32(int32_t* value); bool PopUint32(uint32_t* value); bool PopInt64(int64_t* value); bool PopUint64(uint64_t* value); bool PopDouble(double* value); bool PopString(std::string* value); bool PopObjectPath(ObjectPath* value); bool PopFileDescriptor(FileDescriptor* value); // Sets up the given message reader to read an array at the current // iterator position. // Returns true and advances the iterator on success. // Returns false if the data type is not an array bool PopArray(MessageReader* sub_reader); bool PopStruct(MessageReader* sub_reader); bool PopDictEntry(MessageReader* sub_reader); bool PopVariant(MessageReader* sub_reader); // Gets the array of bytes at the current iterator position. // Returns true and advances the iterator on success. // // Arrays of bytes are often used for exchanging binary blobs hence it's // worth having a specialized function. // // Ownership of the memory pointed to by |bytes| remains with the // MessageReader; |bytes| must be copied if the contents will be referenced // after the MessageReader is destroyed. bool PopArrayOfBytes(const uint8_t** bytes, size_t* length); // Gets the array of strings at the current iterator position. |strings| is // cleared before being modified. Returns true and advances the iterator on // success. // // Arrays of strings are often used to communicate with D-Bus // services like KWallet, hence it's worth having a specialized // function. bool PopArrayOfStrings(std::vector* strings); // Gets the array of object paths at the current iterator position. // |object_paths| is cleared before being modified. Returns true and advances // the iterator on success. // // Arrays of object paths are often used to communicate with D-Bus // services like NetworkManager, hence it's worth having a specialized // function. bool PopArrayOfObjectPaths(std::vector* object_paths); // Gets the array of bytes at the current iterator position. It then parses // this binary blob into the protocol buffer supplied. // Returns true and advances the iterator on success. On failure returns false // and emits an error message on the source of the failure. The two most // common errors come from the iterator not currently being at a byte array or // the wrong type of protocol buffer is passed in and the parse fails. bool PopArrayOfBytesAsProto(google::protobuf::MessageLite* protobuf); // Gets the byte from the variant data container at the current iterator // position. // Returns true and advances the iterator on success. // // Variants are widely used in D-Bus services so it's worth having a // specialized function. For instance, The return value type of // "org.freedesktop.DBus.Properties.Get" is a variant. bool PopVariantOfByte(uint8_t* value); bool PopVariantOfBool(bool* value); bool PopVariantOfInt16(int16_t* value); bool PopVariantOfUint16(uint16_t* value); bool PopVariantOfInt32(int32_t* value); bool PopVariantOfUint32(uint32_t* value); bool PopVariantOfInt64(int64_t* value); bool PopVariantOfUint64(uint64_t* value); bool PopVariantOfDouble(double* value); bool PopVariantOfString(std::string* value); bool PopVariantOfObjectPath(ObjectPath* value); // Get the data type of the value at the current iterator // position. INVALID_DATA will be returned if the iterator points to the // end of the message. Message::DataType GetDataType(); // Get the DBus signature of the value at the current iterator position. // An empty string will be returned if the iterator points to the end of // the message. std::string GetDataSignature(); private: // Returns true if the data type at the current iterator position // matches the given D-Bus type, such as DBUS_TYPE_BYTE. bool CheckDataType(int dbus_type); // Helper function used to implement PopByte() etc. bool PopBasic(int dbus_type, void *value); // Helper function used to implement PopArray() etc. bool PopContainer(int dbus_type, MessageReader* sub_reader); // Helper function used to implement PopVariantOfByte() etc. bool PopVariantOfBasic(int dbus_type, void* value); Message* message_; DBusMessageIter raw_message_iter_; DISALLOW_COPY_AND_ASSIGN(MessageReader); }; } // namespace dbus #endif // DBUS_MESSAGE_H_