Features
* Symmetric—there is no difference between the client and the server—both can serve. The only different aspect is that the client is usually the side that initiates the action. Being symmetric, for example, allows the client to pass callback functions to the server. * Transparent—remote objects look and behave the same as local objects would. * Exceptions propagate like local ones * Allows for synchronous and asynchronous operation: ** Synchronous operations return a ''NetProxy'' (see below) ** Asynchronous operations return an AsyncResult, which is like promise objects ** AsyncResults can be used as events * Threads are supported (though not recommended) * UNIX specific: server integration withArchitecture
RPyC gives the programmer a slave python interpreter at his or her control. In this essence, RPyC is different from other RPCs, that require registration of resources prior to accessing them. As a result, using RPyC is much more straightforward, but this comes at the expense of security (you cannot limit access). RPyC is intended to be used within a trusted network, there are various schemes includingdoc = conn.modules.sys.path or conn.modules xml.dom.minidom"parseString("<some>xml</some>").
* The ''execute'' function, that executes the given code on the server: conn.execute("print 'hello world'")
Remote operations return something called a ''NetProxy'', which is an intermediate object that reflects any operation performed locally on it to the remote object. For example, conn.modules.sys.path is a NetProxy for the sys.path object of the server. Any local changes done to conn.modules.sys.path are reflected immediately on the remote object.
Note: NetProxies are not used for ''simple objects'', such as numbers and strings, which are immutable.
''Async'' is a proxy wrapper, meaning, it takes a NetProxy and returns another that wraps it with asynchronous functionality. Operations done to an AsyncNetProxy return something called AsyncResult. These objects have a '.is_ready' predicate, '.result' property that holds the result (or blocks until it arrives), and '.on_ready' callback, which will be called when the result arrives.
Usage
Originally, RPyC was developed for managing distributed testing of products over a range of different platforms (all capable of running python). However, RPyC has evolved since then, and now its use cases include: * Distributed computing (splitting workload between machines) * Distributed testing (running tests that connect multiple platforms and abstracting hardware resources) * Remote administration (tweaking config files from one central place, etc.) * Tunneling or chaining (crossing over routable network boundaries)Demo
History
RPyC is based on the work of Eyal Lotem (aka Lotex) on PyInvoke, which is no longer maintained. The first public release was 1.20, which allowed for symmetric and transparent RPC, but not for asynchronous operation. Version 1.6, while never publicly released, added the concept of 'events', as a means for the server to inform the client. Version 2.X, the first release of which was 2.2, added thread synchronization and the ''Async'' concept, which can be used as a superset of events. Version 2.40 adds the ''execute'' method, that can be used to execute code on the other side of the connection directly. RPyC 3 is a complete rewrite of the library, adding a capability-based security model, explicit services, and various other improvements.References
External links
* {{DEFAULTSORT:Rpyc Python (programming language) libraries Remote procedure call Software using the MIT license