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Writing a Crosswalk Extension

Bob Spencer edited this page Jul 27, 2015 · 6 revisions

Note that a more up-to-date tutorial is available on the main Crosswalk website. This page is retained as it is not Tizen-specific and may be useful to developers on other platforms.

Introduction

Extensions in Crosswalk gives application developers an interface to the world outside the Web Runtime.

They're implemented using a shared object with a very simple interface that allows message passing to and from JavaScript code.

Implementing an Extension

The XW_Extension.h header should be used to define the structures used by the extension system. One recommended practice is copying this header into your project.

The only symbol that should be exported is the function int32_t XW_Initialize(XW_Extension extension, XW_GetInterface get_interface). Be sure to use extern "C" when defining this function to avoid name mangling if using a C++ compiler. This function should be implemented and exported in the shared object. It should return XW_OK if it could be correctly initialized. Its parameters:

  • extension is the identifier for this extension, i.e. from now on the extension will be referenced as this.
  • get_interface is a function with signature const void* XW_GetInterface(const char* interface_name) used for accessing the interfaces provided for integrating native code with the Crosswalk runtime. For each defined interface_name it will return a pointer to a structure with functions that the extension can call. The interfaces provided are described bellow.

Core Interface

interface_name: XW_CORE_INTERFACE

A struct XW_CoreInterface with the following fields:

  • SetExtensionName a function that sets name of the extension identified by extension to name. This is mandatory. It should only be called during the XW_Initialize call.
  • SetJavaScriptAPI exports the JavaScript shim that will be available to all page contexts. The JavaScript code api will be associated with extension. More details on XW_Extension.h header. Only valid to be called during XW_Initialize().
  • RegisterInstanceCallbacks informs the Crosswalk runtime of functions that should be called when new instances of the extension are created or destroyed. Instances have the same lifetime of the web content. This should only be called during XW_Initialize()
  • RegisterShutdownCallback registers a callback that will be called when the extension will be unloaded. This function should be called only during XW_Initialize().
  • SetInstanceData and GetInstanceData are convenience functions that allow for arbitrary data to be associated with each instance, and for that data to be retrieved. These functions may be called at any time during the life of an instance.

Messaging Interface

interface_name: XW_MESSAGING_INTERFACE

A struct XW_MessagingInterface with the following fields:

  • Register when called, this function tells Crosswalk which function should be called in event of a message from the JavaScript side.
  • PostMessage sends a message to the web content, associated with the instance. More details on the XW_Extension.h header.

Sync Messaging Interface [experimental]

Defined in the XW_Extension_SyncMessage.h header. This interface is marked as internal and no guarantee will be made for its compatibility with future versions.

interface_name: XW_INTERNAL_SYNC_MESSAGING_INTERFACE

A struct XW_Internal_SyncMessagingInterface with the following fields:

  • Register when called, this function tells Crosswalk which function should be called in event of a synchronous message from the JavaScript side.
  • SetSyncReply responds a synchronous (blocking) message from JavaScript side, the renderer process will be blocked until this function is called.

Versioning information

The interface names and structures explained here, have a versioning suffix in their names, but extension writers are recommended to use the unversioned macros to get the desired interfaces.

Loading the Extensions

Be sure to build the extension using each platform's standard naming scheme. If an extension answers for foo, then:

  • Under Linux, it should be named libfoo.so.
  • Under MacOS, it should be named foo.dylib.
  • Under Windows, it should be named foo.dll.

All files that match these naming scheme found in the directory pointed to by the --external-extensions-path Crosswalk argument will be loaded. Libraries will only be considered to be included in the extension subsystem if:

  • The shared object loads and links (as it might link to external libraries which might not exist in the user's machine).
  • The extension initialization function exists and returns XW_OK.

Example

To show how this works in practice, this is an example from the Crosswalk tests, to demostrate how these concepts apply. This extension is called echo_extension.c. As it is implied by its name all it does is echo the incoming message as a reply.

#include <stdio.h>
#include <stdlib.h>
#include "xwalk/extensions/public/XW_Extension.h"
#include "xwalk/extensions/public/XW_Extension_SyncMessage.h"

Usually one external extension will have a copy of these headers on its sources.

XW_Extension g_extension = 0;
const XW_CoreInterface* g_core = NULL;
const XW_MessagingInterface* g_messaging = NULL;
const XW_Internal_SyncMessagingInterface* g_sync_messaging = NULL;

Just some global variables to keep some state.

void instance_created(XW_Instance instance) {
  printf("Instance %d created!\n", instance);
}

void instance_destroyed(XW_Instance instance) {
  printf("Instance %d destroyed!\n", instance);
}

So we can be notified when an instance is created (or destroyed).

void handle_message(XW_Instance instance, const char* message) {
  g_messaging->PostMessage(instance, message);
}

void handle_sync_message(XW_Instance instance, const char* message) {
  g_sync_messaging->SetSyncReply(instance, message);
}

void shutdown(XW_Extension extension) {
  printf("Shutdown\n");
}

Most of the logic of the extension will be here, in these functions above.

int32_t XW_Initialize(XW_Extension extension, XW_GetInterface get_interface) {
  static const char* kAPI =
      "var echoListener = null;"
      "extension.setMessageListener(function(msg) {"
      "  if (echoListener instanceof Function) {"
      "    echoListener(msg);"
      "  };"
      "});"
      "exports.echo = function(msg, callback) {"
      "  echoListener = callback;"
      "  extension.postMessage(msg);"
      "};"
      "exports.syncEcho = function(msg) {"
      "  return extension.internal.sendSyncMessage(msg);"
      "};";

  g_extension = extension;
  g_core = get_interface(XW_CORE_INTERFACE);
  g_core->SetExtensionName(extension, "echo");
  g_core->SetJavaScriptAPI(extension, kAPI);
  g_core->RegisterInstanceCallbacks(
      extension, instance_created, instance_destroyed);
  g_core->RegisterShutdownCallback(extension, shutdown);

  g_messaging = get_interface(XW_MESSAGING_INTERFACE);
  g_messaging->Register(extension, handle_message);

  g_sync_messaging = get_interface(XW_INTERNAL_SYNC_MESSAGING_INTERFACE);
  g_sync_messaging->Register(extension, handle_sync_message);

  return XW_OK;
}

Now we can see how these structures and interface names, are meant to be use together.

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