simple-ipc.h - git - Git at Google

 #ifndef GIT_SIMPLE_IPC_H
 #define GIT_SIMPLE_IPC_H

 /*
  * See Documentation/technical/api-simple-ipc.txt
  */

 #ifdef SUPPORTS_SIMPLE_IPC
 #include "pkt-line.h"

 /*
  * Simple IPC Client Side API.
  */

 enum ipc_active_state {
 	/*
 	 * The pipe/socket exists and the daemon is waiting for connections.
 	 */
 	IPC_STATE__LISTENING = 0,

 	/*
 	 * The pipe/socket exists, but the daemon is not listening.
 	 * Perhaps it is very busy.
 	 * Perhaps the daemon died without deleting the path.
 	 * Perhaps it is shutting down and draining existing clients.
 	 * Perhaps it is dead, but other clients are lingering and
 	 * still holding a reference to the pathname.
 	 */
 	IPC_STATE__NOT_LISTENING,

 	/*
 	 * The requested pathname is bogus and no amount of retries
 	 * will fix that.
 	 */
 	IPC_STATE__INVALID_PATH,

 	/*
 	 * The requested pathname is not found.  This usually means
 	 * that there is no daemon present.
 	 */
 	IPC_STATE__PATH_NOT_FOUND,

 	IPC_STATE__OTHER_ERROR,
 };

 struct ipc_client_connect_options {
 	/*
 	 * Spin under timeout if the server is running but can't
 	 * accept our connection yet.  This should always be set
 	 * unless you just want to poke the server and see if it
 	 * is alive.
 	 */
 	unsigned int wait_if_busy:1;

 	/*
 	 * Spin under timeout if the pipe/socket is not yet present
 	 * on the file system.  This is useful if we just started
 	 * the service and need to wait for it to become ready.
 	 */
 	unsigned int wait_if_not_found:1;

 	/*
 	 * Disallow chdir() when creating a Unix domain socket.
 	 */
 	unsigned int uds_disallow_chdir:1;
 };

 #define IPC_CLIENT_CONNECT_OPTIONS_INIT { \
 	.wait_if_busy = 0, \
 	.wait_if_not_found = 0, \
 	.uds_disallow_chdir = 0, \
 }

 /*
  * Determine if a server is listening on this named pipe or socket using
  * platform-specific logic.  This might just probe the filesystem or it
  * might make a trivial connection to the server using this pathname.
  */
 enum ipc_active_state ipc_get_active_state(const char *path);

 struct ipc_client_connection {
 	int fd;
 };

 /*
  * Try to connect to the daemon on the named pipe or socket.
  *
  * Returns IPC_STATE__LISTENING and a connection handle.
  *
  * Otherwise, returns info to help decide whether to retry or to
  * spawn/respawn the server.
  */
 enum ipc_active_state ipc_client_try_connect(
 	const char *path,
 	const struct ipc_client_connect_options *options,
 	struct ipc_client_connection **p_connection);

 void ipc_client_close_connection(struct ipc_client_connection *connection);

 /*
  * Used by the client to synchronously send and receive a message with
  * the server on the provided client connection.
  *
  * Returns 0 when successful.
  *
  * Calls error() and returns non-zero otherwise.
  */
 int ipc_client_send_command_to_connection(
 	struct ipc_client_connection *connection,
 	const char *message, struct strbuf *answer);

 /*
  * Used by the client to synchronously connect and send and receive a
  * message to the server listening at the given path.
  *
  * Returns 0 when successful.
  *
  * Calls error() and returns non-zero otherwise.
  */
 int ipc_client_send_command(const char *path,
 			    const struct ipc_client_connect_options *options,
 			    const char *message, struct strbuf *answer);

 /*
  * Simple IPC Server Side API.
  */

 struct ipc_server_reply_data;

 typedef int (ipc_server_reply_cb)(struct ipc_server_reply_data *,
 				  const char *response,
 				  size_t response_len);

 /*
  * Prototype for an application-supplied callback to process incoming
  * client IPC messages and compose a reply.  The `application_cb` should
  * use the provided `reply_cb` and `reply_data` to send an IPC response
  * back to the client.  The `reply_cb` callback can be called multiple
  * times for chunking purposes.  A reply message is optional and may be
  * omitted if not necessary for the application.
  *
  * The return value from the application callback is ignored.
  * The value `SIMPLE_IPC_QUIT` can be used to shutdown the server.
  */
 typedef int (ipc_server_application_cb)(void *application_data,
 					const char *request,
 					ipc_server_reply_cb *reply_cb,
 					struct ipc_server_reply_data *reply_data);

 #define SIMPLE_IPC_QUIT -2

 /*
  * Opaque instance data to represent an IPC server instance.
  */
 struct ipc_server_data;

 /*
  * Control parameters for the IPC server instance.
  * Use this to hide platform-specific settings.
  */
 struct ipc_server_opts
 {
 	int nr_threads;

 	/*
 	 * Disallow chdir() when creating a Unix domain socket.
 	 */
 	unsigned int uds_disallow_chdir:1;
 };

 /*
  * Start an IPC server instance in one or more background threads
  * and return a handle to the pool.
  *
  * Returns 0 if the asynchronous server pool was started successfully.
  * Returns -1 if not.
  * Returns -2 if we could not startup because another server is using
  * the socket or named pipe.
  *
  * When a client IPC message is received, the `application_cb` will be
  * called (possibly on a random thread) to handle the message and
  * optionally compose a reply message.
  */
 int ipc_server_run_async(struct ipc_server_data **returned_server_data,
 			 const char *path, const struct ipc_server_opts *opts,
 			 ipc_server_application_cb *application_cb,
 			 void *application_data);

 /*
  * Gently signal the IPC server pool to shutdown.  No new client
  * connections will be accepted, but existing connections will be
  * allowed to complete.
  */
 int ipc_server_stop_async(struct ipc_server_data *server_data);

 /*
  * Block the calling thread until all threads in the IPC server pool
  * have completed and been joined.
  */
 int ipc_server_await(struct ipc_server_data *server_data);

 /*
  * Close and free all resource handles associated with the IPC server
  * pool.
  */
 void ipc_server_free(struct ipc_server_data *server_data);

 /*
  * Run an IPC server instance and block the calling thread of the
  * current process.  It does not return until the IPC server has
  * either shutdown or had an unrecoverable error.
  *
  * The IPC server handles incoming IPC messages from client processes
  * and may use one or more background threads as necessary.
  *
  * Returns 0 after the server has completed successfully.
  * Returns -1 if the server cannot be started.
  * Returns -2 if we could not startup because another server is using
  * the socket or named pipe.
  *
  * When a client IPC message is received, the `application_cb` will be
  * called (possibly on a random thread) to handle the message and
  * optionally compose a reply message.
  *
  * Note that `ipc_server_run()` is a synchronous wrapper around the
  * above asynchronous routines.  It effectively hides all of the
  * server state and thread details from the caller and presents a
  * simple synchronous interface.
  */
 int ipc_server_run(const char *path, const struct ipc_server_opts *opts,
 		   ipc_server_application_cb *application_cb,
 		   void *application_data);

 #endif /* SUPPORTS_SIMPLE_IPC */
 #endif /* GIT_SIMPLE_IPC_H */
	#ifndef GIT_SIMPLE_IPC_H
	#define GIT_SIMPLE_IPC_H

	/*
	* See Documentation/technical/api-simple-ipc.txt
	*/

	#ifdef SUPPORTS_SIMPLE_IPC
	#include "pkt-line.h"

	/*
	* Simple IPC Client Side API.
	*/

	enum ipc_active_state {
	/*
	* The pipe/socket exists and the daemon is waiting for connections.
	*/
	IPC_STATE__LISTENING = 0,

	/*
	* The pipe/socket exists, but the daemon is not listening.
	* Perhaps it is very busy.
	* Perhaps the daemon died without deleting the path.
	* Perhaps it is shutting down and draining existing clients.
	* Perhaps it is dead, but other clients are lingering and
	* still holding a reference to the pathname.
	*/
	IPC_STATE__NOT_LISTENING,

	/*
	* The requested pathname is bogus and no amount of retries
	* will fix that.
	*/
	IPC_STATE__INVALID_PATH,

	/*
	* The requested pathname is not found. This usually means
	* that there is no daemon present.
	*/
	IPC_STATE__PATH_NOT_FOUND,

	IPC_STATE__OTHER_ERROR,
	};

	struct ipc_client_connect_options {
	/*
	* Spin under timeout if the server is running but can't
	* accept our connection yet. This should always be set
	* unless you just want to poke the server and see if it
	* is alive.
	*/
	unsigned int wait_if_busy:1;

	/*
	* Spin under timeout if the pipe/socket is not yet present
	* on the file system. This is useful if we just started
	* the service and need to wait for it to become ready.
	*/
	unsigned int wait_if_not_found:1;

	/*
	* Disallow chdir() when creating a Unix domain socket.
	*/
	unsigned int uds_disallow_chdir:1;
	};

	#define IPC_CLIENT_CONNECT_OPTIONS_INIT { \
	.wait_if_busy = 0, \
	.wait_if_not_found = 0, \
	.uds_disallow_chdir = 0, \
	}

	/*
	* Determine if a server is listening on this named pipe or socket using
	* platform-specific logic. This might just probe the filesystem or it
	* might make a trivial connection to the server using this pathname.
	*/
	enum ipc_active_state ipc_get_active_state(const char *path);

	struct ipc_client_connection {
	int fd;
	};

	/*
	* Try to connect to the daemon on the named pipe or socket.
	*
	* Returns IPC_STATE__LISTENING and a connection handle.
	*
	* Otherwise, returns info to help decide whether to retry or to
	* spawn/respawn the server.
	*/
	enum ipc_active_state ipc_client_try_connect(
	const char *path,
	const struct ipc_client_connect_options *options,
	struct ipc_client_connection **p_connection);

	void ipc_client_close_connection(struct ipc_client_connection *connection);

	/*
	* Used by the client to synchronously send and receive a message with
	* the server on the provided client connection.
	*
	* Returns 0 when successful.
	*
	* Calls error() and returns non-zero otherwise.
	*/
	int ipc_client_send_command_to_connection(
	struct ipc_client_connection *connection,
	const char message, struct strbuf answer);

	/*
	* Used by the client to synchronously connect and send and receive a
	* message to the server listening at the given path.
	*
	* Returns 0 when successful.
	*
	* Calls error() and returns non-zero otherwise.
	*/
	int ipc_client_send_command(const char *path,
	const struct ipc_client_connect_options *options,
	const char message, struct strbuf answer);

	/*
	* Simple IPC Server Side API.
	*/

	struct ipc_server_reply_data;

	typedef int (ipc_server_reply_cb)(struct ipc_server_reply_data *,
	const char *response,
	size_t response_len);

	/*
	* Prototype for an application-supplied callback to process incoming
	* client IPC messages and compose a reply. The `application_cb` should
	* use the provided `reply_cb` and `reply_data` to send an IPC response
	* back to the client. The `reply_cb` callback can be called multiple
	* times for chunking purposes. A reply message is optional and may be
	* omitted if not necessary for the application.
	*
	* The return value from the application callback is ignored.
	* The value `SIMPLE_IPC_QUIT` can be used to shutdown the server.
	*/
	typedef int (ipc_server_application_cb)(void *application_data,
	const char *request,
	ipc_server_reply_cb *reply_cb,
	struct ipc_server_reply_data *reply_data);

	#define SIMPLE_IPC_QUIT -2

	/*
	* Opaque instance data to represent an IPC server instance.
	*/
	struct ipc_server_data;

	/*
	* Control parameters for the IPC server instance.
	* Use this to hide platform-specific settings.
	*/
	struct ipc_server_opts
	{
	int nr_threads;

	/*
	* Disallow chdir() when creating a Unix domain socket.
	*/
	unsigned int uds_disallow_chdir:1;
	};

	/*
	* Start an IPC server instance in one or more background threads
	* and return a handle to the pool.
	*
	* Returns 0 if the asynchronous server pool was started successfully.
	* Returns -1 if not.
	* Returns -2 if we could not startup because another server is using
	* the socket or named pipe.
	*
	* When a client IPC message is received, the `application_cb` will be
	* called (possibly on a random thread) to handle the message and
	* optionally compose a reply message.
	*/
	int ipc_server_run_async(struct ipc_server_data **returned_server_data,
	const char path, const struct ipc_server_opts opts,
	ipc_server_application_cb *application_cb,
	void *application_data);

	/*
	* Gently signal the IPC server pool to shutdown. No new client
	* connections will be accepted, but existing connections will be
	* allowed to complete.
	*/
	int ipc_server_stop_async(struct ipc_server_data *server_data);

	/*
	* Block the calling thread until all threads in the IPC server pool
	* have completed and been joined.
	*/
	int ipc_server_await(struct ipc_server_data *server_data);

	/*
	* Close and free all resource handles associated with the IPC server
	* pool.
	*/
	void ipc_server_free(struct ipc_server_data *server_data);

	/*
	* Run an IPC server instance and block the calling thread of the
	* current process. It does not return until the IPC server has
	* either shutdown or had an unrecoverable error.
	*
	* The IPC server handles incoming IPC messages from client processes
	* and may use one or more background threads as necessary.
	*
	* Returns 0 after the server has completed successfully.
	* Returns -1 if the server cannot be started.
	* Returns -2 if we could not startup because another server is using
	* the socket or named pipe.
	*
	* When a client IPC message is received, the `application_cb` will be
	* called (possibly on a random thread) to handle the message and
	* optionally compose a reply message.
	*
	* Note that `ipc_server_run()` is a synchronous wrapper around the
	* above asynchronous routines. It effectively hides all of the
	* server state and thread details from the caller and presents a
	* simple synchronous interface.
	*/
	int ipc_server_run(const char path, const struct ipc_server_opts opts,
	ipc_server_application_cb *application_cb,
	void *application_data);

	#endif /* SUPPORTS_SIMPLE_IPC */
	#endif /* GIT_SIMPLE_IPC_H */