include/server.h - wine - Git at Google

 /*
  * Wine server definitions
  *
  * Copyright (C) 1998 Alexandre Julliard
  */

 #ifndef __WINE_SERVER_H
 #define __WINE_SERVER_H

 /* message header as sent on the wire */
 struct header
 {
     unsigned int  len;     /* total msg length (including this header) */
     unsigned int  type;    /* msg type */
     unsigned int  seq;     /* sequence number */
 };

 /* max msg length (not including the header) */
 #define MAX_MSG_LENGTH (16384 - sizeof(struct header))

 /* data structure used to pass an fd with sendmsg/recvmsg */
 struct cmsg_fd
 {
     int len;   /* sizeof structure */
     int level; /* SOL_SOCKET */
     int type;  /* SCM_RIGHTS */
     int fd;    /* fd to pass */
 };


 /* Request structures */

 /* following are the definitions of all the client<->server  */
 /* communication format; requests are from client to server, */
 /* replies are from server to client. All requests must have */
 /* a corresponding structure; the replies can be empty in    */
 /* which case it isn't necessary to define a structure.      */


 /* Create a new thread from the context of the parent */
 struct new_thread_request
 {
     void*        pid;          /* process id for the new thread (or 0 if none yet) */
 };
 struct new_thread_reply
 {
     void*        tid;          /* thread id */
     int          thandle;      /* thread handle (in the current process) */
     void*        pid;          /* process id (created if necessary) */
     int          phandle;      /* process handle (in the current process) */
 };


 /* Initialize a thread; called from the child after fork()/clone() */
 struct init_thread_request
 {
     int          unix_pid;     /* Unix pid of new thread */
 };


 /* Terminate a process */
 struct terminate_process_request
 {
     int          handle;       /* process handle to terminate */
     int          exit_code;    /* process exit code */
 };


 /* Terminate a thread */
 struct terminate_thread_request
 {
     int          handle;       /* thread handle to terminate */
     int          exit_code;    /* thread exit code */
 };


 /* Retrieve information about a process */
 struct get_process_info_request
 {
     int          handle;       /* process handle */
 };
 struct get_process_info_reply
 {
     void*        pid;          /* server process id */
     int          exit_code;    /* process exit code */
 };


 /* Retrieve information about a thread */
 struct get_thread_info_request
 {
     int          handle;       /* thread handle */
 };
 struct get_thread_info_reply
 {
     void*        pid;          /* server thread id */
     int          exit_code;    /* thread exit code */
 };


 /* Close a handle for the current process */
 struct close_handle_request
 {
     int          handle;       /* handle to close */
 };


 /* Duplicate a handle */
 struct dup_handle_request
 {
     int          src_process;  /* src process handle */
     int          src_handle;   /* src handle to duplicate */
     int          dst_process;  /* dst process handle */
     int          dst_handle;   /* handle to duplicate to (or -1 for any) */
     unsigned int access;       /* wanted access rights */
     int          inherit;      /* inherit flag */
     int          options;      /* duplicate options (see below) */
 };
 struct dup_handle_reply
 {
     int          handle;       /* duplicated handle in dst process */
 };


 /* Open a handle to a process */
 struct open_process_request
 {
     void*        pid;          /* process id to open */
     unsigned int access;       /* wanted access rights */
     int          inherit;      /* inherit flag */
 };
 struct open_process_reply
 {
     int          handle;       /* handle to the process */
 };


 /* Wait for handles */
 struct select_request
 {
     int          count;        /* handles count */
     int          flags;        /* wait flags (see below) */
     int          timeout;      /* timeout in ms */
     /* int handles[] */
 };
 struct select_reply
 {
     int          signaled;     /* signaled handle */
 };
 #define SELECT_ALL       1
 #define SELECT_MSG       2
 #define SELECT_ALERTABLE 4
 #define SELECT_TIMEOUT   8


 /* Create an event */
 struct create_event_request
 {
     int          manual_reset;  /* manual reset event */
     int          initial_state; /* initial state of the event */
     int          inherit;       /* inherit flag */
     /* char name[] */
 };
 struct create_event_reply
 {
     int          handle;        /* handle to the event */
 };

 /* Event operation */
 struct event_op_request
 {
     int           handle;       /* handle to event */
     int           op;           /* event operation (see below) */
 };
 enum event_op { PULSE_EVENT, SET_EVENT, RESET_EVENT };


 /* Create a mutex */
 struct create_mutex_request
 {
     int          owned;         /* initially owned? */
     int          inherit;       /* inherit flag */
     /* char name[] */
 };
 struct create_mutex_reply
 {
     int          handle;        /* handle to the mutex */
 };


 /* Release a mutex */
 struct release_mutex_request
 {
     int          handle;        /* handle to the mutex */
 };


 /* Create a semaphore */
 struct create_semaphore_request
 {
     unsigned int initial;       /* initial count */
     unsigned int max;           /* maximum count */
     int          inherit;       /* inherit flag */
     /* char name[] */
 };
 struct create_semaphore_reply
 {
     int          handle;        /* handle to the semaphore */
 };


 /* Release a semaphore */
 struct release_semaphore_request
 {
     int          handle;        /* handle to the semaphore */
     unsigned int count;         /* count to add to semaphore */
 };
 struct release_semaphore_reply
 {
     unsigned int prev_count;    /* previous semaphore count */
 };

 /* Open a named object (event, mutex, semaphore) */
 struct open_named_obj_request
 {
     int          type;         /* object type (see below) */
     unsigned int access;       /* wanted access rights */
     int          inherit;      /* inherit flag */
     /* char name[] */
 };
 enum open_named_obj { OPEN_EVENT, OPEN_MUTEX, OPEN_SEMAPHORE };

 struct open_named_obj_reply
 {
     int          handle;        /* handle to the object */
 };


 /* client-side functions */

 #ifndef __WINE_SERVER__

 /* client communication functions */
 enum request;
 #define CHECK_LEN(len,wanted) \
   if ((len) == (wanted)) ; \
   else CLIENT_ProtocolError( __FUNCTION__ ": len %d != %d\n", (len), (wanted) );
 extern void CLIENT_ProtocolError( const char *err, ... );
 extern void CLIENT_SendRequest( enum request req, int pass_fd,
                                 int n, ... /* arg_1, len_1, etc. */ );
 extern unsigned int CLIENT_WaitReply( int *len, int *passed_fd,
                                       int n, ... /* arg_1, len_1, etc. */ );

 struct _THDB;
 extern int CLIENT_NewThread( struct _THDB *thdb, int *thandle, int *phandle );
 extern int CLIENT_InitThread(void);
 extern int CLIENT_TerminateProcess( int handle, int exit_code );
 extern int CLIENT_TerminateThread( int handle, int exit_code );
 extern int CLIENT_CloseHandle( int handle );
 extern int CLIENT_DuplicateHandle( int src_process, int src_handle, int dst_process,
                                    int dst_handle, DWORD access, BOOL32 inherit, DWORD options );
 extern int CLIENT_GetThreadInfo( int handle, struct get_thread_info_reply *reply );
 extern int CLIENT_GetProcessInfo( int handle, struct get_process_info_reply *reply );
 extern int CLIENT_OpenProcess( void *pid, DWORD access, BOOL32 inherit );
 extern int CLIENT_Select( int count, int *handles, int flags, int timeout );
 #endif  /* __WINE_SERVER__ */

 #endif  /* __WINE_SERVER_H */
	/*
	* Wine server definitions
	*
	* Copyright (C) 1998 Alexandre Julliard
	*/

	#ifndef __WINE_SERVER_H
	#define __WINE_SERVER_H

	/* message header as sent on the wire */
	struct header
	{
	unsigned int len; /* total msg length (including this header) */
	unsigned int type; /* msg type */
	unsigned int seq; /* sequence number */
	};

	/* max msg length (not including the header) */
	#define MAX_MSG_LENGTH (16384 - sizeof(struct header))

	/* data structure used to pass an fd with sendmsg/recvmsg */
	struct cmsg_fd
	{
	int len; /* sizeof structure */
	int level; /* SOL_SOCKET */
	int type; /* SCM_RIGHTS */
	int fd; /* fd to pass */
	};


	/* Request structures */

	/* following are the definitions of all the client<->server */
	/* communication format; requests are from client to server, */
	/* replies are from server to client. All requests must have */
	/* a corresponding structure; the replies can be empty in */
	/* which case it isn't necessary to define a structure. */


	/* Create a new thread from the context of the parent */
	struct new_thread_request
	{
	void* pid; /* process id for the new thread (or 0 if none yet) */
	};
	struct new_thread_reply
	{
	void* tid; /* thread id */
	int thandle; /* thread handle (in the current process) */
	void* pid; /* process id (created if necessary) */
	int phandle; /* process handle (in the current process) */
	};


	/* Initialize a thread; called from the child after fork()/clone() */
	struct init_thread_request
	{
	int unix_pid; /* Unix pid of new thread */
	};


	/* Terminate a process */
	struct terminate_process_request
	{
	int handle; /* process handle to terminate */
	int exit_code; /* process exit code */
	};


	/* Terminate a thread */
	struct terminate_thread_request
	{
	int handle; /* thread handle to terminate */
	int exit_code; /* thread exit code */
	};


	/* Retrieve information about a process */
	struct get_process_info_request
	{
	int handle; /* process handle */
	};
	struct get_process_info_reply
	{
	void* pid; /* server process id */
	int exit_code; /* process exit code */
	};


	/* Retrieve information about a thread */
	struct get_thread_info_request
	{
	int handle; /* thread handle */
	};
	struct get_thread_info_reply
	{
	void* pid; /* server thread id */
	int exit_code; /* thread exit code */
	};


	/* Close a handle for the current process */
	struct close_handle_request
	{
	int handle; /* handle to close */
	};


	/* Duplicate a handle */
	struct dup_handle_request
	{
	int src_process; /* src process handle */
	int src_handle; /* src handle to duplicate */
	int dst_process; /* dst process handle */
	int dst_handle; /* handle to duplicate to (or -1 for any) */
	unsigned int access; /* wanted access rights */
	int inherit; /* inherit flag */
	int options; /* duplicate options (see below) */
	};
	struct dup_handle_reply
	{
	int handle; /* duplicated handle in dst process */
	};


	/* Open a handle to a process */
	struct open_process_request
	{
	void* pid; /* process id to open */
	unsigned int access; /* wanted access rights */
	int inherit; /* inherit flag */
	};
	struct open_process_reply
	{
	int handle; /* handle to the process */
	};


	/* Wait for handles */
	struct select_request
	{
	int count; /* handles count */
	int flags; /* wait flags (see below) */
	int timeout; /* timeout in ms */
	/* int handles[] */
	};
	struct select_reply
	{
	int signaled; /* signaled handle */
	};
	#define SELECT_ALL 1
	#define SELECT_MSG 2
	#define SELECT_ALERTABLE 4
	#define SELECT_TIMEOUT 8


	/* Create an event */
	struct create_event_request
	{
	int manual_reset; /* manual reset event */
	int initial_state; /* initial state of the event */
	int inherit; /* inherit flag */
	/* char name[] */
	};
	struct create_event_reply
	{
	int handle; /* handle to the event */
	};

	/* Event operation */
	struct event_op_request
	{
	int handle; /* handle to event */
	int op; /* event operation (see below) */
	};
	enum event_op { PULSE_EVENT, SET_EVENT, RESET_EVENT };


	/* Create a mutex */
	struct create_mutex_request
	{
	int owned; /* initially owned? */
	int inherit; /* inherit flag */
	/* char name[] */
	};
	struct create_mutex_reply
	{
	int handle; /* handle to the mutex */
	};


	/* Release a mutex */
	struct release_mutex_request
	{
	int handle; /* handle to the mutex */
	};


	/* Create a semaphore */
	struct create_semaphore_request
	{
	unsigned int initial; /* initial count */
	unsigned int max; /* maximum count */
	int inherit; /* inherit flag */
	/* char name[] */
	};
	struct create_semaphore_reply
	{
	int handle; /* handle to the semaphore */
	};


	/* Release a semaphore */
	struct release_semaphore_request
	{
	int handle; /* handle to the semaphore */
	unsigned int count; /* count to add to semaphore */
	};
	struct release_semaphore_reply
	{
	unsigned int prev_count; /* previous semaphore count */
	};

	/* Open a named object (event, mutex, semaphore) */
	struct open_named_obj_request
	{
	int type; /* object type (see below) */
	unsigned int access; /* wanted access rights */
	int inherit; /* inherit flag */
	/* char name[] */
	};
	enum open_named_obj { OPEN_EVENT, OPEN_MUTEX, OPEN_SEMAPHORE };

	struct open_named_obj_reply
	{
	int handle; /* handle to the object */
	};


	/* client-side functions */

	#ifndef __WINE_SERVER__

	/* client communication functions */
	enum request;
	#define CHECK_LEN(len,wanted) \
	if ((len) == (wanted)) ; \
	else CLIENT_ProtocolError( __FUNCTION__ ": len %d != %d\n", (len), (wanted) );
	extern void CLIENT_ProtocolError( const char *err, ... );
	extern void CLIENT_SendRequest( enum request req, int pass_fd,
	int n, ... /* arg_1, len_1, etc. */ );
	extern unsigned int CLIENT_WaitReply( int len, int passed_fd,
	int n, ... /* arg_1, len_1, etc. */ );

	struct _THDB;
	extern int CLIENT_NewThread( struct _THDB thdb, int thandle, int *phandle );
	extern int CLIENT_InitThread(void);
	extern int CLIENT_TerminateProcess( int handle, int exit_code );
	extern int CLIENT_TerminateThread( int handle, int exit_code );
	extern int CLIENT_CloseHandle( int handle );
	extern int CLIENT_DuplicateHandle( int src_process, int src_handle, int dst_process,
	int dst_handle, DWORD access, BOOL32 inherit, DWORD options );
	extern int CLIENT_GetThreadInfo( int handle, struct get_thread_info_reply *reply );
	extern int CLIENT_GetProcessInfo( int handle, struct get_process_info_reply *reply );
	extern int CLIENT_OpenProcess( void *pid, DWORD access, BOOL32 inherit );
	extern int CLIENT_Select( int count, int *handles, int flags, int timeout );
	#endif /* __WINE_SERVER__ */

	#endif /* __WINE_SERVER_H */