// 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_PROPERTY_H_
#define DBUS_PROPERTY_H_
#include <map>
#include <string>
#include "base/basictypes.h"
#include "base/bind.h"
#include "base/callback.h"
#include "dbus/dbus_export.h"
#include "dbus/message.h"
#include "dbus/object_proxy.h"
// D-Bus objects frequently provide sets of properties accessed via a
// standard interface of method calls and signals to obtain the current value,
// set a new value and be notified of changes to the value. Unfortunately this
// interface makes heavy use of variants and dictionaries of variants. The
// classes defined here make dealing with properties in a type-safe manner
// possible.
//
// Client implementation classes should define a Properties structure, deriving
// from the PropertySet class defined here. This structure should contain a
// member for each property defined as an instance of the Property<> class,
// specifying the type to the template. Finally the structure should chain up
// to the PropertySet constructor, and then call RegisterProperty() for each
// property defined to associate them with their string name.
//
// Example:
// class ExampleClient {
// public:
// struct Properties : public dbus::PropertySet {
// dbus::Property<std::string> name;
// dbus::Property<uint16> version;
// dbus::Property<dbus::ObjectPath> parent;
// dbus::Property<std::vector<std::string> > children;
//
// Properties(dbus::ObjectProxy* object_proxy,
// const PropertyChangedCallback callback)
// : dbus::PropertySet(object_proxy, "com.example.DBus", callback) {
// RegisterProperty("Name", &name);
// RegisterProperty("Version", &version);
// RegisterProperty("Parent", &parent);
// RegisterProperty("Children", &children);
// }
// virtual ~Properties() {}
// };
//
// The Properties structure requires a pointer to the object proxy of the
// actual object to track, and after construction should have signals
// connected to that object and initial values set by calling ConnectSignals()
// and GetAll(). The structure should not outlive the object proxy, so it
// is recommended that the lifecycle of both be managed together.
//
// Example (continued):
//
// typedef std::map<std::pair<dbus::ObjectProxy*, Properties*> > Object;
// typedef std::map<dbus::ObjectPath, Object> ObjectMap;
// ObjectMap object_map_;
//
// dbus::ObjectProxy* GetObjectProxy(const dbus::ObjectPath& object_path) {
// return GetObject(object_path).first;
// }
//
// Properties* GetProperties(const dbus::ObjectPath& object_path) {
// return GetObject(object_path).second;
// }
//
// Object GetObject(const dbus::ObjectPath& object_path) {
// ObjectMap::iterator it = object_map_.find(object_path);
// if (it != object_map_.end())
// return it->second;
//
// dbus::ObjectProxy* object_proxy = bus->GetObjectProxy(...);
// // connect signals, etc.
//
// Properties* properties = new Properties(
// object_proxy,
// base::Bind(&PropertyChanged,
// weak_ptr_factory_.GetWeakPtr(),
// object_path));
// properties->ConnectSignals();
// properties->GetAll();
//
// Object object = std::make_pair(object_proxy, properties);
// object_map_[object_path] = object;
// return object;
// }
// };
//
// This now allows code using the client implementation to access properties
// in a type-safe manner, and assuming the PropertyChanged callback is
// propogated up to observers, be notified of changes. A typical access of
// the current value of the name property would be:
//
// ExampleClient::Properties* p = example_client->GetProperties(object_path);
// std::string name = p->name.value();
//
// Normally these values are updated from signals emitted by the remote object,
// in case an explicit round-trip is needed to obtain the current value, the
// Get() method can be used and indicates whether or not the value update was
// successful. The updated value can be obtained in the callback using the
// value() method.
//
// p->children.Get(base::Bind(&OnGetChildren));
//
// A new value can be set using the Set() method, the callback indicates
// success only; it is up to the remote object when (and indeed if) it updates
// the property value, and whether it emits a signal or a Get() call is
// required to obtain it.
//
// p->version.Set(20, base::Bind(&OnSetVersion))
namespace dbus {
// D-Bus Properties interface constants, declared here rather than
// in property.cc because template methods use them.
const char kPropertiesInterface[] = "org.freedesktop.DBus.Properties";
const char kPropertiesGetAll[] = "GetAll";
const char kPropertiesGet[] = "Get";
const char kPropertiesSet[] = "Set";
const char kPropertiesChanged[] = "PropertiesChanged";
class PropertySet;
// PropertyBase is an abstract base-class consisting of the parts of
// the Property<> template that are not type-specific, such as the
// associated PropertySet, property name, and the type-unsafe parts
// used by PropertySet.
class PropertyBase {
public:
PropertyBase() : property_set_(NULL) {}
// Initializes the |property_set| and property |name| so that method
// calls may be made from this class. This method is called by
// PropertySet::RegisterProperty() passing |this| for |property_set| so
// there should be no need to call it directly. If you do beware that
// no ownership or reference to |property_set| is taken so that object
// must outlive this one.
void Init(PropertySet* property_set, const std::string& name);
// Retrieves the name of this property, this may be useful in observers
// to avoid specifying the name in more than once place, e.g.
//
// void Client::PropertyChanged(const dbus::ObjectPath& object_path,
// const std::string &property_name) {
// Properties& properties = GetProperties(object_path);
// if (property_name == properties.version.name()) {
// // Handle version property changing
// }
// }
const std::string& name() const { return name_; }
// Method used by PropertySet to retrieve the value from a MessageReader,
// no knowledge of the contained type is required, this method returns
// true if its expected type was found, false if not.
// Implementation provided by specialization.
virtual bool PopValueFromReader(MessageReader*) = 0;
// Method used by PropertySet to append the set value to a MessageWriter,
// no knowledge of the contained type is required.
// Implementation provided by specialization.
virtual void AppendSetValueToWriter(MessageWriter* writer) = 0;
// Method used by test and stub implementations of dbus::PropertySet::Set
// to replace the property value with the set value without using a
// dbus::MessageReader.
virtual void ReplaceValueWithSetValue() = 0;
protected:
// Retrieves the associated property set.
PropertySet* property_set() { return property_set_; }
private:
// Pointer to the PropertySet instance that this instance is a member of,
// no ownership is taken and |property_set_| must outlive this class.
PropertySet* property_set_;
// Name of the property.
std::string name_;
DISALLOW_COPY_AND_ASSIGN(PropertyBase);
};
// PropertySet groups a collection of properties for a remote object
// together into a single structure, fixing their types and name such
// that calls made through it are type-safe.
//
// Clients always sub-class this to add the properties, and should always
// provide a constructor that chains up to this and then calls
// RegisterProperty() for each property defined.
//
// After creation, client code should call ConnectSignals() and most likely
// GetAll() to seed initial values and update as changes occur.
class CHROME_DBUS_EXPORT PropertySet {
public:
// Callback for changes to cached values of properties, either notified
// via signal, or as a result of calls to Get() and GetAll(). The |name|
// argument specifies the name of the property changed.
typedef base::Callback<void(const std::string& name)> PropertyChangedCallback;
// Constructs a property set, where |object_proxy| specifies the proxy for
// the/ remote object that these properties are for, care should be taken to
// ensure that this object does not outlive the lifetime of the proxy;
// |interface| specifies the D-Bus interface of these properties, and
// |property_changed_callback| specifies the callback for when properties
// are changed, this may be a NULL callback.
PropertySet(ObjectProxy* object_proxy, const std::string& interface,
const PropertyChangedCallback& property_changed_callback);
// Destructor; we don't hold on to any references or memory that needs
// explicit clean-up, but clang thinks we might.
virtual ~PropertySet();
// Registers a property, generally called from the subclass constructor;
// pass the |name| of the property as used in method calls and signals,
// and the pointer to the |property| member of the structure. This will
// call the PropertyBase::Init method.
void RegisterProperty(const std::string& name, PropertyBase* property);
// Connects property change notification signals to the object, generally
// called immediately after the object is created and before calls to other
// methods. Sub-classes may override to use different D-Bus signals.
virtual void ConnectSignals();
// Methods connected by ConnectSignals() and called by dbus:: when
// a property is changed. Sub-classes may override if the property
// changed signal provides different arguments.
virtual void ChangedReceived(Signal*);
virtual void ChangedConnected(const std::string& interface_name,
const std::string& signal_name,
bool success);
// Callback for Get() method, |success| indicates whether or not the
// value could be retrived, if true the new value can be obtained by
// calling value() on the property.
typedef base::Callback<void(bool success)> GetCallback;
// Requests an updated value from the remote object for |property|
// incurring a round-trip. |callback| will be called when the new
// value is available. This may not be implemented by some interfaces,
// and may be overriden by sub-classes if interfaces use different
// method calls.
virtual void Get(PropertyBase* property, GetCallback callback);
virtual void OnGet(PropertyBase* property, GetCallback callback,
Response* response);
// Queries the remote object for values of all properties and updates
// initial values. Sub-classes may override to use a different D-Bus
// method, or if the remote object does not support retrieving all
// properties, either ignore or obtain each property value individually.
virtual void GetAll();
virtual void OnGetAll(Response* response);
// Callback for Set() method, |success| indicates whether or not the
// new property value was accepted by the remote object.
typedef base::Callback<void(bool success)> SetCallback;
// Requests that the remote object for |property| change the property to
// its new value. |callback| will be called to indicate the success or
// failure of the request, however the new value may not be available
// depending on the remote object. This method may be overridden by
// sub-classes if interfaces use different method calls.
virtual void Set(PropertyBase* property, SetCallback callback);
virtual void OnSet(PropertyBase* property, SetCallback callback,
Response* response);
// Update properties by reading an array of dictionary entries, each
// containing a string with the name and a variant with the value, from
// |message_reader|. Returns false if message is in incorrect format.
bool UpdatePropertiesFromReader(MessageReader* reader);
// Updates a single property by reading a string with the name and a
// variant with the value from |message_reader|. Returns false if message
// is in incorrect format, or property type doesn't match.
bool UpdatePropertyFromReader(MessageReader* reader);
// Calls the property changed callback passed to the constructor, used
// by sub-classes that do not call UpdatePropertiesFromReader() or
// UpdatePropertyFromReader(). Takes the |name| of the changed property.
void NotifyPropertyChanged(const std::string& name);
// Retrieves the object proxy this property set was initialized with,
// provided for sub-classes overriding methods that make D-Bus calls
// and for Property<>. Not permitted with const references to this class.
ObjectProxy* object_proxy() { return object_proxy_; }
// Retrieves the interface of this property set.
const std::string& interface() const { return interface_; }
protected:
// Get a weak pointer to this property set, provided so that sub-classes
// overriding methods that make D-Bus calls may use the existing (or
// override) callbacks without providing their own weak pointer factory.
base::WeakPtr<PropertySet> GetWeakPtr() {
return weak_ptr_factory_.GetWeakPtr();
}
private:
// Pointer to object proxy for making method calls, no ownership is taken
// so this must outlive this class.
ObjectProxy* object_proxy_;
// Interface of property, e.g. "org.chromium.ExampleService", this is
// distinct from the interface of the method call itself which is the
// general D-Bus Properties interface "org.freedesktop.DBus.Properties".
std::string interface_;
// Callback for property changes.
PropertyChangedCallback property_changed_callback_;
// Map of properties (as PropertyBase*) defined in the structure to
// names as used in D-Bus method calls and signals. The base pointer
// restricts property access via this map to type-unsafe and non-specific
// actions only.
typedef std::map<const std::string, PropertyBase*> PropertiesMap;
PropertiesMap properties_map_;
// Weak pointer factory as D-Bus callbacks may last longer than these
// objects.
base::WeakPtrFactory<PropertySet> weak_ptr_factory_;
DISALLOW_COPY_AND_ASSIGN(PropertySet);
};
// Property template, this defines the type-specific and type-safe methods
// of properties that can be accessed as members of a PropertySet structure.
//
// Properties provide a cached value that has an initial sensible default
// until the reply to PropertySet::GetAll() is retrieved and is updated by
// all calls to that method, PropertySet::Get() and property changed signals
// also handled by PropertySet. It can be obtained by calling value() on the
// property.
//
// It is recommended that this cached value be used where necessary, with
// code using PropertySet::PropertyChangedCallback to be notified of changes,
// rather than incurring a round-trip to the remote object for each property
// access.
//
// Where a round-trip is necessary, the Get() method is provided. And to
// update the remote object value, the Set() method is also provided; these
// both simply call methods on PropertySet.
//
// Handling of particular D-Bus types is performed via specialization,
// typically the PopValueFromReader() and AppendSetValueToWriter() methods
// will need to be provided, and in rare cases a constructor to provide a
// default value. Specializations for basic D-Bus types, strings, object
// paths and arrays are provided for you.
template <class T>
class CHROME_DBUS_EXPORT Property : public PropertyBase {
public:
Property() {}
// Retrieves the cached value.
const T& value() const { return value_; }
// Requests an updated value from the remote object incurring a
// round-trip. |callback| will be called when the new value is available.
// This may not be implemented by some interfaces.
virtual void Get(dbus::PropertySet::GetCallback callback) {
property_set()->Get(this, callback);
}
// Requests that the remote object change the property value to |value|,
// |callback| will be called to indicate the success or failure of the
// request, however the new value may not be available depending on the
// remote object.
virtual void Set(const T& value, dbus::PropertySet::SetCallback callback) {
set_value_ = value;
property_set()->Set(this, callback);
}
// Method used by PropertySet to retrieve the value from a MessageReader,
// no knowledge of the contained type is required, this method returns
// true if its expected type was found, false if not.
virtual bool PopValueFromReader(MessageReader*);
// Method used by PropertySet to append the set value to a MessageWriter,
// no knowledge of the contained type is required.
// Implementation provided by specialization.
virtual void AppendSetValueToWriter(MessageWriter* writer);
// Method used by test and stub implementations of dbus::PropertySet::Set
// to replace the property value with the set value without using a
// dbus::MessageReader.
virtual void ReplaceValueWithSetValue() {
value_ = set_value_;
property_set()->NotifyPropertyChanged(name());
}
// Method used by test and stub implementations to directly set the
// value of a property.
void ReplaceValue(const T& value) {
value_ = value;
property_set()->NotifyPropertyChanged(name());
}
private:
// Current cached value of the property.
T value_;
// Replacement value of the property.
T set_value_;
};
template <> Property<uint8>::Property();
template <> bool Property<uint8>::PopValueFromReader(MessageReader* reader);
template <> void Property<uint8>::AppendSetValueToWriter(MessageWriter* writer);
extern template class Property<uint8>;
template <> Property<bool>::Property();
template <> bool Property<bool>::PopValueFromReader(MessageReader* reader);
template <> void Property<bool>::AppendSetValueToWriter(MessageWriter* writer);
extern template class Property<bool>;
template <> Property<int16>::Property();
template <> bool Property<int16>::PopValueFromReader(MessageReader* reader);
template <> void Property<int16>::AppendSetValueToWriter(MessageWriter* writer);
extern template class Property<int16>;
template <> Property<uint16>::Property();
template <> bool Property<uint16>::PopValueFromReader(MessageReader* reader);
template <> void Property<uint16>::AppendSetValueToWriter(
MessageWriter* writer);
extern template class Property<uint16>;
template <> Property<int32>::Property();
template <> bool Property<int32>::PopValueFromReader(MessageReader* reader);
template <> void Property<int32>::AppendSetValueToWriter(MessageWriter* writer);
extern template class Property<int32>;
template <> Property<uint32>::Property();
template <> bool Property<uint32>::PopValueFromReader(MessageReader* reader);
template <> void Property<uint32>::AppendSetValueToWriter(
MessageWriter* writer);
extern template class Property<uint32>;
template <> Property<int64>::Property();
template <> bool Property<int64>::PopValueFromReader(MessageReader* reader);
template <> void Property<int64>::AppendSetValueToWriter(MessageWriter* writer);
extern template class Property<int64>;
template <> Property<uint64>::Property();
template <> bool Property<uint64>::PopValueFromReader(MessageReader* reader);
template <> void Property<uint64>::AppendSetValueToWriter(
MessageWriter* writer);
extern template class Property<uint64>;
template <> Property<double>::Property();
template <> bool Property<double>::PopValueFromReader(MessageReader* reader);
template <> void Property<double>::AppendSetValueToWriter(
MessageWriter* writer);
extern template class Property<double>;
template <> bool Property<std::string>::PopValueFromReader(
MessageReader* reader);
template <> void Property<std::string>::AppendSetValueToWriter(
MessageWriter* writer);
extern template class Property<std::string>;
template <> bool Property<ObjectPath>::PopValueFromReader(
MessageReader* reader);
template <> void Property<ObjectPath>::AppendSetValueToWriter(
MessageWriter* writer);
extern template class Property<ObjectPath>;
template <> bool Property<std::vector<std::string> >::PopValueFromReader(
MessageReader* reader);
template <> void Property<std::vector<std::string> >::AppendSetValueToWriter(
MessageWriter* writer);
extern template class Property<std::vector<std::string> >;
template <> bool Property<std::vector<ObjectPath> >::PopValueFromReader(
MessageReader* reader);
template <> void Property<std::vector<ObjectPath> >::AppendSetValueToWriter(
MessageWriter* writer);
extern template class Property<std::vector<ObjectPath> >;
template <> bool Property<std::vector<uint8> >::PopValueFromReader(
MessageReader* reader);
template <> void Property<std::vector<uint8> >::AppendSetValueToWriter(
MessageWriter* writer);
extern template class Property<std::vector<uint8> >;
} // namespace dbus
#endif // DBUS_PROPERTY_H_