/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2015 - ROLI Ltd. Permission is granted to use this software under the terms of either: a) the GPL v2 (or any later version) b) the Affero GPL v3 Details of these licenses can be found at: www.gnu.org/licenses JUCE is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. ------------------------------------------------------------------------------ To release a closed-source product which uses JUCE, commercial licenses are available: visit www.juce.com for more information. ============================================================================== */ #ifndef JUCE_CONNECTEDCHILDPROCESS_H_INCLUDED #define JUCE_CONNECTEDCHILDPROCESS_H_INCLUDED //============================================================================== /** Acts as the slave end of a master/slave pair of connected processes. The ChildProcessSlave and ChildProcessMaster classes make it easy for an app to spawn a child process, and to manage a 2-way messaging connection to control it. To use the system, you need to create subclasses of both ChildProcessSlave and ChildProcessMaster. To instantiate the ChildProcessSlave object, you must add some code to your main() or JUCEApplication::initialise() function that calls the initialiseFromCommandLine() method to check the app's command-line parameters to see whether it's being launched as a child process. If this returns true then the slave process can be allowed to run, and its handleMessageFromMaster() method will be called whenever a message arrives. The juce demo app has a good example of this class in action. @see ChildProcessMaster, InterprocessConnection, ChildProcess */ class JUCE_API ChildProcessSlave { public: /** Creates a non-connected slave process. Use initialiseFromCommandLine to connect to a master process. */ ChildProcessSlave(); /** Destructor. */ virtual ~ChildProcessSlave(); /** This checks some command-line parameters to see whether they were generated by ChildProcessMaster::launchSlaveProcess(), and if so, connects to that master process. In an exe that can be used as a child process, you should add some code to your main() or JUCEApplication::initialise() that calls this method. The commandLineUniqueID should be a short alphanumeric identifier (no spaces!) that matches the string passed to ChildProcessMaster::launchSlaveProcess(). The timeoutMs parameter lets you specify how long the child process is allowed to run without receiving a ping from the master before the master is considered to have died, and handleConnectionLost() will be called. Passing <= 0 for this timeout makes it use a default value. Returns true if the command-line matches and the connection is made successfully. */ bool initialiseFromCommandLine (const String& commandLine, const String& commandLineUniqueID, int timeoutMs = 0); //============================================================================== /** This will be called to deliver messages from the master process. The call will probably be made on a background thread, so be careful with your thread-safety! You may want to respond by sending back a message with sendMessageToMaster() */ virtual void handleMessageFromMaster (const MemoryBlock&) = 0; /** This will be called when the master process finishes connecting to this slave. The call will probably be made on a background thread, so be careful with your thread-safety! */ virtual void handleConnectionMade(); /** This will be called when the connection to the master process is lost. The call may be made from any thread (including the message thread). Typically, if your process only exists to act as a slave, you should probably exit when this happens. */ virtual void handleConnectionLost(); /** Tries to send a message to the master process. This returns true if the message was sent, but doesn't check that it actually gets delivered at the other end. If successful, the data will emerge in a call to your ChildProcessMaster::handleMessageFromSlave(). */ bool sendMessageToMaster (const MemoryBlock&); private: struct Connection; friend struct Connection; friend struct ContainerDeletePolicy; ScopedPointer connection; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (ChildProcessSlave) }; //============================================================================== /** Acts as the master in a master/slave pair of connected processes. The ChildProcessSlave and ChildProcessMaster classes make it easy for an app to spawn a child process, and to manage a 2-way messaging connection to control it. To use the system, you need to create subclasses of both ChildProcessSlave and ChildProcessMaster. When you want your master process to launch the slave, you just call launchSlaveProcess(), and it'll attempt to launch the executable that you specify (which may be the same exe), and assuming it has been set-up to correctly parse the command-line parameters (see ChildProcessSlave) then a two-way connection will be created. The juce demo app has a good example of this class in action. @see ChildProcessSlave, InterprocessConnection, ChildProcess */ class JUCE_API ChildProcessMaster { public: /** Creates an uninitialised master process object. Use launchSlaveProcess to launch and connect to a child process. */ ChildProcessMaster(); /** Destructor. */ virtual ~ChildProcessMaster(); /** Attempts to launch and connect to a slave process. This will start the given executable, passing it a special command-line parameter based around the commandLineUniqueID string, which must be a short alphanumeric string (no spaces!) that identifies your app. The exe that gets launched must respond by calling ChildProcessSlave::initialiseFromCommandLine() in its startup code, and must use a matching ID to commandLineUniqueID. The timeoutMs parameter lets you specify how long the child process is allowed to go without sending a ping before it is considered to have died and handleConnectionLost() will be called. Passing <= 0 for this timeout makes it use a default value. If this all works, the method returns true, and you can begin sending and receiving messages with the slave process. */ bool launchSlaveProcess (const File& executableToLaunch, const String& commandLineUniqueID, int timeoutMs = 0, int streamFlags = ChildProcess::wantStdOut | ChildProcess::wantStdErr); /** This will be called to deliver a message from the slave process. The call will probably be made on a background thread, so be careful with your thread-safety! */ virtual void handleMessageFromSlave (const MemoryBlock&) = 0; /** This will be called when the slave process dies or is somehow disconnected. The call will probably be made on a background thread, so be careful with your thread-safety! */ virtual void handleConnectionLost(); /** Attempts to send a message to the slave process. This returns true if the message was dispatched, but doesn't check that it actually gets delivered at the other end. If successful, the data will emerge in a call to your ChildProcessSlave::handleMessageFromMaster(). */ bool sendMessageToSlave (const MemoryBlock&); private: ChildProcess childProcess; struct Connection; friend struct Connection; friend struct ContainerDeletePolicy; ScopedPointer connection; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (ChildProcessMaster) }; #endif // JUCE_CONNECTEDCHILDPROCESS_H_INCLUDED