wine/server/protocol.def
Alexandre Julliard fec5117e91 server: Merge APC processing into the select request.
This is needed to return the correct value when one of the handles
being waited on is set to signaled state by the APC.
2007-07-16 16:14:45 +02:00

2915 lines
100 KiB
C

/* -*- C -*-
*
* Wine server protocol definition
*
* Copyright (C) 2001 Alexandre Julliard
*
* This file is used by tools/make_requests to build the
* protocol structures in include/wine/server_protocol.h
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
@HEADER /* start of C declarations */
#include <stdarg.h>
#include <stdlib.h>
#include <time.h>
#include <windef.h>
#include <winbase.h>
typedef void *obj_handle_t;
typedef void *user_handle_t;
typedef unsigned short atom_t;
typedef unsigned int process_id_t;
typedef unsigned int thread_id_t;
typedef unsigned int data_size_t;
typedef unsigned int ioctl_code_t;
struct request_header
{
int req; /* request code */
data_size_t request_size; /* request variable part size */
data_size_t reply_size; /* reply variable part maximum size */
};
struct reply_header
{
unsigned int error; /* error result */
data_size_t reply_size; /* reply variable part size */
};
/* placeholder structure for the maximum allowed request size */
/* this is used to construct the generic_request union */
struct request_max_size
{
int pad[16]; /* the max request size is 16 ints */
};
#define FIRST_USER_HANDLE 0x0020 /* first possible value for low word of user handle */
#define LAST_USER_HANDLE 0xffef /* last possible value for low word of user handle */
/* definitions of the event data depending on the event code */
struct debug_event_exception
{
EXCEPTION_RECORD record; /* exception record */
int first; /* first chance exception? */
};
struct debug_event_create_thread
{
obj_handle_t handle; /* handle to the new thread */
void *teb; /* thread teb (in debugged process address space) */
void *start; /* thread startup routine */
};
struct debug_event_create_process
{
obj_handle_t file; /* handle to the process exe file */
obj_handle_t process; /* handle to the new process */
obj_handle_t thread; /* handle to the new thread */
void *base; /* base of executable image */
int dbg_offset; /* offset of debug info in file */
int dbg_size; /* size of debug info */
void *teb; /* thread teb (in debugged process address space) */
void *start; /* thread startup routine */
void *name; /* image name (optional) */
int unicode; /* is it Unicode? */
};
struct debug_event_exit
{
int exit_code; /* thread or process exit code */
};
struct debug_event_load_dll
{
obj_handle_t handle; /* file handle for the dll */
void *base; /* base address of the dll */
int dbg_offset; /* offset of debug info in file */
int dbg_size; /* size of debug info */
void *name; /* image name (optional) */
int unicode; /* is it Unicode? */
};
struct debug_event_unload_dll
{
void *base; /* base address of the dll */
};
struct debug_event_output_string
{
void *string; /* string to display (in debugged process address space) */
int unicode; /* is it Unicode? */
int length; /* string length */
};
struct debug_event_rip_info
{
int error; /* ??? */
int type; /* ??? */
};
union debug_event_data
{
struct debug_event_exception exception;
struct debug_event_create_thread create_thread;
struct debug_event_create_process create_process;
struct debug_event_exit exit;
struct debug_event_load_dll load_dll;
struct debug_event_unload_dll unload_dll;
struct debug_event_output_string output_string;
struct debug_event_rip_info rip_info;
};
/* debug event data */
typedef struct
{
int code; /* event code */
union debug_event_data info; /* event information */
} debug_event_t;
/* structure used in sending an fd from client to server */
struct send_fd
{
thread_id_t tid; /* thread id */
int fd; /* file descriptor on client-side */
};
/* structure sent by the server on the wait fifo */
struct wake_up_reply
{
void *cookie; /* magic cookie that was passed in select_request */
int signaled; /* wait result */
};
/* NT-style timeout, in 100ns units, negative means relative timeout */
typedef __int64 timeout_t;
#define TIMEOUT_INFINITE (((timeout_t)0x7fffffff) << 32 | 0xffffffff)
/* structure returned in the list of window properties */
typedef struct
{
atom_t atom; /* property atom */
short string; /* was atom a string originally? */
obj_handle_t handle; /* handle stored in property */
} property_data_t;
/* structure to specify window rectangles */
typedef struct
{
int left;
int top;
int right;
int bottom;
} rectangle_t;
/* structure for parameters of async I/O calls */
typedef struct
{
void *callback; /* client-side callback to call upon end of async */
void *iosb; /* I/O status block in client addr space */
void *arg; /* opaque user data to pass to callback */
void *apc; /* user apc to call */
obj_handle_t event; /* event to signal when done */
} async_data_t;
/* structures for extra message data */
struct callback_msg_data
{
void *callback; /* callback function */
unsigned long data; /* user data for callback */
unsigned long result; /* message result */
};
struct winevent_msg_data
{
user_handle_t hook; /* hook handle */
thread_id_t tid; /* thread id */
void *hook_proc; /* hook proc address */
/* followed by module name if any */
};
typedef union
{
unsigned char bytes[1]; /* raw data for sent messages */
struct callback_msg_data callback;
struct winevent_msg_data winevent;
} message_data_t;
/* structure for console char/attribute info */
typedef struct
{
WCHAR ch;
unsigned short attr;
} char_info_t;
typedef struct
{
unsigned int low_part;
int high_part;
} luid_t;
#define MAX_ACL_LEN 65535
struct security_descriptor
{
unsigned int control; /* SE_ flags */
data_size_t owner_len;
data_size_t group_len;
data_size_t sacl_len;
data_size_t dacl_len;
/* VARARGS(owner,SID); */
/* VARARGS(group,SID); */
/* VARARGS(sacl,ACL); */
/* VARARGS(dacl,ACL); */
};
struct token_groups
{
unsigned int count;
/* unsigned int attributes[count]; */
/* VARARGS(sids,SID); */
};
enum apc_type
{
APC_NONE,
APC_USER,
APC_TIMER,
APC_ASYNC_IO,
APC_VIRTUAL_ALLOC,
APC_VIRTUAL_FREE,
APC_VIRTUAL_QUERY,
APC_VIRTUAL_PROTECT,
APC_VIRTUAL_FLUSH,
APC_VIRTUAL_LOCK,
APC_VIRTUAL_UNLOCK,
APC_MAP_VIEW,
APC_UNMAP_VIEW,
APC_CREATE_THREAD
};
typedef union
{
enum apc_type type;
struct
{
enum apc_type type; /* APC_USER */
void (__stdcall *func)(unsigned long,unsigned long,unsigned long);
unsigned long args[3]; /* arguments for user function */
} user;
struct
{
enum apc_type type; /* APC_TIMER */
void (__stdcall *func)(void*, unsigned int, unsigned int);
timeout_t time; /* absolute time of expiration */
void *arg; /* user argument */
} timer;
struct
{
enum apc_type type; /* APC_ASYNC_IO */
unsigned int (*func)(void*, void*, unsigned int);
void *user; /* user pointer */
void *sb; /* status block */
unsigned int status; /* I/O status */
} async_io;
struct
{
enum apc_type type; /* APC_VIRTUAL_ALLOC */
void *addr; /* requested address */
unsigned long size; /* allocation size */
unsigned int zero_bits; /* allocation alignment */
unsigned int op_type; /* type of operation */
unsigned int prot; /* memory protection flags */
} virtual_alloc;
struct
{
enum apc_type type; /* APC_VIRTUAL_FREE */
void *addr; /* requested address */
unsigned long size; /* allocation size */
unsigned int op_type; /* type of operation */
} virtual_free;
struct
{
enum apc_type type; /* APC_VIRTUAL_QUERY */
const void *addr; /* requested address */
} virtual_query;
struct
{
enum apc_type type; /* APC_VIRTUAL_PROTECT */
void *addr; /* requested address */
unsigned long size; /* requested address */
unsigned int prot; /* new protection flags */
} virtual_protect;
struct
{
enum apc_type type; /* APC_VIRTUAL_FLUSH */
const void *addr; /* requested address */
unsigned long size; /* requested address */
} virtual_flush;
struct
{
enum apc_type type; /* APC_VIRTUAL_LOCK */
void *addr; /* requested address */
unsigned long size; /* requested address */
} virtual_lock;
struct
{
enum apc_type type; /* APC_VIRTUAL_UNLOCK */
void *addr; /* requested address */
unsigned long size; /* requested address */
} virtual_unlock;
struct
{
enum apc_type type; /* APC_MAP_VIEW */
obj_handle_t handle; /* mapping handle */
void *addr; /* requested address */
unsigned long size; /* allocation size */
unsigned int offset_low;/* file offset */
unsigned int offset_high;
unsigned int zero_bits; /* allocation alignment */
unsigned int alloc_type;/* allocation type */
unsigned int prot; /* memory protection flags */
} map_view;
struct
{
enum apc_type type; /* APC_UNMAP_VIEW */
void *addr; /* view address */
} unmap_view;
struct
{
enum apc_type type; /* APC_CREATE_THREAD */
void (__stdcall *func)(void*); /* start function */
void *arg; /* argument for start function */
unsigned long reserve; /* reserve size for thread stack */
unsigned long commit; /* commit size for thread stack */
int suspend; /* suspended thread? */
} create_thread;
} apc_call_t;
typedef union
{
enum apc_type type;
struct
{
enum apc_type type; /* APC_ASYNC_IO */
unsigned int status; /* new status of async operation */
} async_io;
struct
{
enum apc_type type; /* APC_VIRTUAL_ALLOC */
unsigned int status; /* status returned by call */
void *addr; /* resulting address */
unsigned long size; /* resulting size */
} virtual_alloc;
struct
{
enum apc_type type; /* APC_VIRTUAL_FREE */
unsigned int status; /* status returned by call */
void *addr; /* resulting address */
unsigned long size; /* resulting size */
} virtual_free;
struct
{
enum apc_type type; /* APC_VIRTUAL_QUERY */
unsigned int status; /* status returned by call */
void *base; /* resulting base address */
void *alloc_base;/* resulting allocation base */
unsigned long size; /* resulting region size */
unsigned int state; /* resulting region state */
unsigned int prot; /* resulting region protection */
unsigned int alloc_prot;/* resulting allocation protection */
unsigned int alloc_type;/* resulting region allocation type */
} virtual_query;
struct
{
enum apc_type type; /* APC_VIRTUAL_PROTECT */
unsigned int status; /* status returned by call */
void *addr; /* resulting address */
unsigned long size; /* resulting size */
unsigned int prot; /* old protection flags */
} virtual_protect;
struct
{
enum apc_type type; /* APC_VIRTUAL_FLUSH */
unsigned int status; /* status returned by call */
const void *addr; /* resulting address */
unsigned long size; /* resulting size */
} virtual_flush;
struct
{
enum apc_type type; /* APC_VIRTUAL_LOCK */
unsigned int status; /* status returned by call */
void *addr; /* resulting address */
unsigned long size; /* resulting size */
} virtual_lock;
struct
{
enum apc_type type; /* APC_VIRTUAL_UNLOCK */
unsigned int status; /* status returned by call */
void *addr; /* resulting address */
unsigned long size; /* resulting size */
} virtual_unlock;
struct
{
enum apc_type type; /* APC_MAP_VIEW */
unsigned int status; /* status returned by call */
void *addr; /* resulting address */
unsigned long size; /* resulting size */
} map_view;
struct
{
enum apc_type type; /* APC_MAP_VIEW */
unsigned int status; /* status returned by call */
} unmap_view;
struct
{
enum apc_type type; /* APC_CREATE_THREAD */
unsigned int status; /* status returned by call */
thread_id_t tid; /* thread id */
obj_handle_t handle; /* handle to new thread */
} create_thread;
} apc_result_t;
/****************************************************************/
/* Request declarations */
/* Create a new process from the context of the parent */
@REQ(new_process)
int inherit_all; /* inherit all handles from parent */
unsigned int create_flags; /* creation flags */
int socket_fd; /* file descriptor for process socket */
obj_handle_t exe_file; /* file handle for main exe */
obj_handle_t hstdin; /* handle for stdin */
obj_handle_t hstdout; /* handle for stdout */
obj_handle_t hstderr; /* handle for stderr */
unsigned int process_access; /* access rights for process object */
unsigned int process_attr; /* attributes for process object */
unsigned int thread_access; /* access rights for thread object */
unsigned int thread_attr; /* attributes for thread object */
VARARG(info,startup_info); /* startup information */
VARARG(env,unicode_str); /* environment for new process */
@REPLY
obj_handle_t info; /* new process info handle */
process_id_t pid; /* process id */
obj_handle_t phandle; /* process handle (in the current process) */
thread_id_t tid; /* thread id */
obj_handle_t thandle; /* thread handle (in the current process) */
@END
/* Retrieve information about a newly started process */
@REQ(get_new_process_info)
obj_handle_t info; /* info handle returned from new_process_request */
@REPLY
int success; /* did the process start successfully? */
int exit_code; /* process exit code if failed */
@END
/* Create a new thread from the context of the parent */
@REQ(new_thread)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
int suspend; /* new thread should be suspended on creation */
int request_fd; /* fd for request pipe */
@REPLY
thread_id_t tid; /* thread id */
obj_handle_t handle; /* thread handle (in the current process) */
@END
/* Retrieve the new process startup info */
@REQ(get_startup_info)
@REPLY
obj_handle_t exe_file; /* file handle for main exe */
obj_handle_t hstdin; /* handle for stdin */
obj_handle_t hstdout; /* handle for stdout */
obj_handle_t hstderr; /* handle for stderr */
VARARG(info,startup_info); /* startup information */
VARARG(env,unicode_str); /* environment */
@END
/* Signal the end of the process initialization */
@REQ(init_process_done)
void* module; /* main module base address */
void* entry; /* process entry point */
int gui; /* is it a GUI process? */
@END
/* Initialize a thread; called from the child after fork()/clone() */
@REQ(init_thread)
int unix_pid; /* Unix pid of new thread */
int unix_tid; /* Unix tid of new thread */
int debug_level; /* new debug level */
void* teb; /* TEB of new thread (in thread address space) */
void* peb; /* address of PEB (in thread address space) */
void* entry; /* thread entry point (in thread address space) */
void* ldt_copy; /* address of LDT copy (in thread address space) */
int reply_fd; /* fd for reply pipe */
int wait_fd; /* fd for blocking calls pipe */
@REPLY
process_id_t pid; /* process id of the new thread's process */
thread_id_t tid; /* thread id of the new thread */
data_size_t info_size; /* total size of startup info */
timeout_t server_start; /* server start time */
int version; /* protocol version */
@END
/* Terminate a process */
@REQ(terminate_process)
obj_handle_t handle; /* process handle to terminate */
int exit_code; /* process exit code */
@REPLY
int self; /* suicide? */
@END
/* Terminate a thread */
@REQ(terminate_thread)
obj_handle_t handle; /* thread handle to terminate */
int exit_code; /* thread exit code */
@REPLY
int self; /* suicide? */
int last; /* last thread in this process? */
@END
/* Retrieve information about a process */
@REQ(get_process_info)
obj_handle_t handle; /* process handle */
@REPLY
process_id_t pid; /* server process id */
process_id_t ppid; /* server process id of parent */
int exit_code; /* process exit code */
int priority; /* priority class */
int affinity; /* process affinity mask */
void* peb; /* PEB address in process address space */
timeout_t start_time; /* process start time */
timeout_t end_time; /* process end time */
@END
/* Set a process informations */
@REQ(set_process_info)
obj_handle_t handle; /* process handle */
int mask; /* setting mask (see below) */
int priority; /* priority class */
int affinity; /* affinity mask */
@END
#define SET_PROCESS_INFO_PRIORITY 0x01
#define SET_PROCESS_INFO_AFFINITY 0x02
/* Retrieve information about a thread */
@REQ(get_thread_info)
obj_handle_t handle; /* thread handle */
thread_id_t tid_in; /* thread id (optional) */
@REPLY
process_id_t pid; /* server process id */
thread_id_t tid; /* server thread id */
void* teb; /* thread teb pointer */
int exit_code; /* thread exit code */
int priority; /* thread priority level */
int affinity; /* thread affinity mask */
timeout_t creation_time; /* thread creation time */
timeout_t exit_time; /* thread exit time */
int last; /* last thread in process */
@END
/* Set a thread informations */
@REQ(set_thread_info)
obj_handle_t handle; /* thread handle */
int mask; /* setting mask (see below) */
int priority; /* priority class */
int affinity; /* affinity mask */
obj_handle_t token; /* impersonation token */
@END
#define SET_THREAD_INFO_PRIORITY 0x01
#define SET_THREAD_INFO_AFFINITY 0x02
#define SET_THREAD_INFO_TOKEN 0x04
/* Retrieve information about a module */
@REQ(get_dll_info)
obj_handle_t handle; /* process handle */
void* base_address; /* base address of module */
@REPLY
size_t size; /* module size */
void* entry_point;
VARARG(filename,unicode_str); /* file name of module */
@END
/* Suspend a thread */
@REQ(suspend_thread)
obj_handle_t handle; /* thread handle */
@REPLY
int count; /* new suspend count */
@END
/* Resume a thread */
@REQ(resume_thread)
obj_handle_t handle; /* thread handle */
@REPLY
int count; /* new suspend count */
@END
/* Notify the server that a dll has been loaded */
@REQ(load_dll)
obj_handle_t handle; /* file handle */
void* base; /* base address */
size_t size; /* dll size */
int dbg_offset; /* debug info offset */
int dbg_size; /* debug info size */
void* name; /* ptr to ptr to name (in process addr space) */
VARARG(filename,unicode_str); /* file name of dll */
@END
/* Notify the server that a dll is being unloaded */
@REQ(unload_dll)
void* base; /* base address */
@END
/* Queue an APC for a thread or process */
@REQ(queue_apc)
obj_handle_t thread; /* thread handle */
obj_handle_t process; /* process handle */
apc_call_t call; /* call arguments */
@REPLY
obj_handle_t handle; /* APC handle */
int self; /* run APC in caller itself? */
@END
/* Get the result of an APC call */
@REQ(get_apc_result)
obj_handle_t handle; /* handle to the APC */
@REPLY
apc_result_t result; /* result of the APC */
@END
/* Close a handle for the current process */
@REQ(close_handle)
obj_handle_t handle; /* handle to close */
@END
/* Set a handle information */
@REQ(set_handle_info)
obj_handle_t handle; /* handle we are interested in */
int flags; /* new handle flags */
int mask; /* mask for flags to set */
@REPLY
int old_flags; /* old flag value */
@END
/* Duplicate a handle */
@REQ(dup_handle)
obj_handle_t src_process; /* src process handle */
obj_handle_t src_handle; /* src handle to duplicate */
obj_handle_t dst_process; /* dst process handle */
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
unsigned int options; /* duplicate options (see below) */
@REPLY
obj_handle_t handle; /* duplicated handle in dst process */
int self; /* is the source the current process? */
int closed; /* whether the source handle has been closed */
@END
#define DUP_HANDLE_CLOSE_SOURCE DUPLICATE_CLOSE_SOURCE
#define DUP_HANDLE_SAME_ACCESS DUPLICATE_SAME_ACCESS
#define DUP_HANDLE_MAKE_GLOBAL 0x80000000 /* Not a Windows flag */
/* Open a handle to a process */
@REQ(open_process)
process_id_t pid; /* process id to open */
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
@REPLY
obj_handle_t handle; /* handle to the process */
@END
/* Open a handle to a thread */
@REQ(open_thread)
thread_id_t tid; /* thread id to open */
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
@REPLY
obj_handle_t handle; /* handle to the thread */
@END
/* Wait for handles */
@REQ(select)
int flags; /* wait flags (see below) */
void* cookie; /* magic cookie to return to client */
obj_handle_t signal; /* object to signal (0 if none) */
obj_handle_t prev_apc; /* handle to previous APC */
timeout_t timeout; /* timeout */
VARARG(result,apc_result); /* result of previous APC */
VARARG(handles,handles); /* handles to select on */
@REPLY
obj_handle_t apc_handle; /* handle to next APC */
timeout_t timeout; /* timeout converted to absolute */
apc_call_t call; /* APC call arguments */
@END
#define SELECT_ALL 1
#define SELECT_ALERTABLE 2
#define SELECT_INTERRUPTIBLE 4
/* Create an event */
@REQ(create_event)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
int manual_reset; /* manual reset event */
int initial_state; /* initial state of the event */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the event */
@END
/* Event operation */
@REQ(event_op)
obj_handle_t handle; /* handle to event */
int op; /* event operation (see below) */
@END
enum event_op { PULSE_EVENT, SET_EVENT, RESET_EVENT };
/* Open an event */
@REQ(open_event)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the event */
@END
/* Create a mutex */
@REQ(create_mutex)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
int owned; /* initially owned? */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the mutex */
@END
/* Release a mutex */
@REQ(release_mutex)
obj_handle_t handle; /* handle to the mutex */
@REPLY
unsigned int prev_count; /* value of internal counter, before release */
@END
/* Open a mutex */
@REQ(open_mutex)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the mutex */
@END
/* Create a semaphore */
@REQ(create_semaphore)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
unsigned int initial; /* initial count */
unsigned int max; /* maximum count */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the semaphore */
@END
/* Release a semaphore */
@REQ(release_semaphore)
obj_handle_t handle; /* handle to the semaphore */
unsigned int count; /* count to add to semaphore */
@REPLY
unsigned int prev_count; /* previous semaphore count */
@END
/* Open a semaphore */
@REQ(open_semaphore)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the semaphore */
@END
/* Create a file */
@REQ(create_file)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
unsigned int sharing; /* sharing flags */
int create; /* file create action */
unsigned int options; /* file options */
unsigned int attrs; /* file attributes for creation */
VARARG(filename,string); /* file name */
@REPLY
obj_handle_t handle; /* handle to the file */
@END
/* Open a file object */
@REQ(open_file_object)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* open attributes */
obj_handle_t rootdir; /* root directory */
unsigned int sharing; /* sharing flags */
unsigned int options; /* file options */
VARARG(filename,unicode_str); /* file name */
@REPLY
obj_handle_t handle; /* handle to the file */
@END
/* Allocate a file handle for a Unix fd */
@REQ(alloc_file_handle)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
int fd; /* file descriptor on the client side */
@REPLY
obj_handle_t handle; /* handle to the file */
@END
/* Get a Unix fd to access a file */
@REQ(get_handle_fd)
obj_handle_t handle; /* handle to the file */
@REPLY
int type; /* file type (see below) */
int removable; /* is file removable? */
unsigned int access; /* file access rights */
unsigned int options; /* file open options */
@END
enum server_fd_type
{
FD_TYPE_INVALID, /* invalid file (no associated fd) */
FD_TYPE_FILE, /* regular file */
FD_TYPE_DIR, /* directory */
FD_TYPE_SOCKET, /* socket */
FD_TYPE_SERIAL, /* serial port */
FD_TYPE_PIPE, /* named pipe */
FD_TYPE_MAILSLOT, /* mailslot */
FD_TYPE_CHAR, /* unspecified char device */
FD_TYPE_DEVICE, /* Windows device file */
FD_TYPE_NB_TYPES
};
/* Flush a file buffers */
@REQ(flush_file)
obj_handle_t handle; /* handle to the file */
@REPLY
obj_handle_t event; /* event set when finished */
@END
/* Lock a region of a file */
@REQ(lock_file)
obj_handle_t handle; /* handle to the file */
unsigned int offset_low; /* offset of start of lock */
unsigned int offset_high; /* offset of start of lock */
unsigned int count_low; /* count of bytes to lock */
unsigned int count_high; /* count of bytes to lock */
int shared; /* shared or exclusive lock? */
int wait; /* do we want to wait? */
@REPLY
obj_handle_t handle; /* handle to wait on */
int overlapped; /* is it an overlapped I/O handle? */
@END
/* Unlock a region of a file */
@REQ(unlock_file)
obj_handle_t handle; /* handle to the file */
unsigned int offset_low; /* offset of start of unlock */
unsigned int offset_high; /* offset of start of unlock */
unsigned int count_low; /* count of bytes to unlock */
unsigned int count_high; /* count of bytes to unlock */
@END
/* Create a socket */
@REQ(create_socket)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
int family; /* family, see socket manpage */
int type; /* type, see socket manpage */
int protocol; /* protocol, see socket manpage */
unsigned int flags; /* socket flags */
@REPLY
obj_handle_t handle; /* handle to the new socket */
@END
/* Accept a socket */
@REQ(accept_socket)
obj_handle_t lhandle; /* handle to the listening socket */
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
@REPLY
obj_handle_t handle; /* handle to the new socket */
@END
/* Set socket event parameters */
@REQ(set_socket_event)
obj_handle_t handle; /* handle to the socket */
unsigned int mask; /* event mask */
obj_handle_t event; /* event object */
user_handle_t window; /* window to send the message to */
unsigned int msg; /* message to send */
@END
/* Get socket event parameters */
@REQ(get_socket_event)
obj_handle_t handle; /* handle to the socket */
int service; /* clear pending? */
obj_handle_t c_event; /* event to clear */
@REPLY
unsigned int mask; /* event mask */
unsigned int pmask; /* pending events */
unsigned int state; /* status bits */
VARARG(errors,ints); /* event errors */
@END
/* Reenable pending socket events */
@REQ(enable_socket_event)
obj_handle_t handle; /* handle to the socket */
unsigned int mask; /* events to re-enable */
unsigned int sstate; /* status bits to set */
unsigned int cstate; /* status bits to clear */
@END
@REQ(set_socket_deferred)
obj_handle_t handle; /* handle to the socket */
obj_handle_t deferred; /* handle to the socket for which accept() is deferred */
@END
/* Allocate a console (only used by a console renderer) */
@REQ(alloc_console)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
process_id_t pid; /* pid of process which shall be attached to the console */
@REPLY
obj_handle_t handle_in; /* handle to console input */
obj_handle_t event; /* handle to renderer events change notification */
@END
/* Free the console of the current process */
@REQ(free_console)
@END
#define CONSOLE_RENDERER_NONE_EVENT 0x00
#define CONSOLE_RENDERER_TITLE_EVENT 0x01
#define CONSOLE_RENDERER_ACTIVE_SB_EVENT 0x02
#define CONSOLE_RENDERER_SB_RESIZE_EVENT 0x03
#define CONSOLE_RENDERER_UPDATE_EVENT 0x04
#define CONSOLE_RENDERER_CURSOR_POS_EVENT 0x05
#define CONSOLE_RENDERER_CURSOR_GEOM_EVENT 0x06
#define CONSOLE_RENDERER_DISPLAY_EVENT 0x07
#define CONSOLE_RENDERER_EXIT_EVENT 0x08
struct console_renderer_event
{
short event;
union
{
struct update
{
short top;
short bottom;
} update;
struct resize
{
short width;
short height;
} resize;
struct cursor_pos
{
short x;
short y;
} cursor_pos;
struct cursor_geom
{
short visible;
short size;
} cursor_geom;
struct display
{
short left;
short top;
short width;
short height;
} display;
} u;
};
/* retrieve console events for the renderer */
@REQ(get_console_renderer_events)
obj_handle_t handle; /* handle to console input events */
@REPLY
VARARG(data,bytes); /* the various console_renderer_events */
@END
/* Open a handle to the process console */
@REQ(open_console)
obj_handle_t from; /* 0 (resp 1) input (resp output) of current process console */
/* otherwise console_in handle to get active screen buffer? */
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
int share; /* share mask (only for output handles) */
@REPLY
obj_handle_t handle; /* handle to the console */
@END
/* Get the input queue wait event */
@REQ(get_console_wait_event)
@REPLY
obj_handle_t handle;
@END
/* Get a console mode (input or output) */
@REQ(get_console_mode)
obj_handle_t handle; /* handle to the console */
@REPLY
int mode; /* console mode */
@END
/* Set a console mode (input or output) */
@REQ(set_console_mode)
obj_handle_t handle; /* handle to the console */
int mode; /* console mode */
@END
/* Set info about a console (input only) */
@REQ(set_console_input_info)
obj_handle_t handle; /* handle to console input, or 0 for process' console */
int mask; /* setting mask (see below) */
obj_handle_t active_sb; /* active screen buffer */
int history_mode; /* whether we duplicate lines in history */
int history_size; /* number of lines in history */
int edition_mode; /* index to the edition mode flavors */
int input_cp; /* console input codepage */
int output_cp; /* console output codepage */
VARARG(title,unicode_str); /* console title */
@END
#define SET_CONSOLE_INPUT_INFO_ACTIVE_SB 0x01
#define SET_CONSOLE_INPUT_INFO_TITLE 0x02
#define SET_CONSOLE_INPUT_INFO_HISTORY_MODE 0x04
#define SET_CONSOLE_INPUT_INFO_HISTORY_SIZE 0x08
#define SET_CONSOLE_INPUT_INFO_EDITION_MODE 0x10
#define SET_CONSOLE_INPUT_INFO_INPUT_CODEPAGE 0x20
#define SET_CONSOLE_INPUT_INFO_OUTPUT_CODEPAGE 0x40
/* Get info about a console (input only) */
@REQ(get_console_input_info)
obj_handle_t handle; /* handle to console input, or 0 for process' console */
@REPLY
int history_mode; /* whether we duplicate lines in history */
int history_size; /* number of lines in history */
int history_index; /* number of used lines in history */
int edition_mode; /* index to the edition mode flavors */
int input_cp; /* console input codepage */
int output_cp; /* console output codepage */
VARARG(title,unicode_str); /* console title */
@END
/* appends a string to console's history */
@REQ(append_console_input_history)
obj_handle_t handle; /* handle to console input, or 0 for process' console */
VARARG(line,unicode_str); /* line to add */
@END
/* appends a string to console's history */
@REQ(get_console_input_history)
obj_handle_t handle; /* handle to console input, or 0 for process' console */
int index; /* index to get line from */
@REPLY
int total; /* total length of line in Unicode chars */
VARARG(line,unicode_str); /* line to add */
@END
/* creates a new screen buffer on process' console */
@REQ(create_console_output)
obj_handle_t handle_in; /* handle to console input, or 0 for process' console */
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
unsigned int share; /* sharing credentials */
@REPLY
obj_handle_t handle_out; /* handle to the screen buffer */
@END
/* Set info about a console (output only) */
@REQ(set_console_output_info)
obj_handle_t handle; /* handle to the console */
int mask; /* setting mask (see below) */
short int cursor_size; /* size of cursor (percentage filled) */
short int cursor_visible;/* cursor visibility flag */
short int cursor_x; /* position of cursor (x, y) */
short int cursor_y;
short int width; /* width of the screen buffer */
short int height; /* height of the screen buffer */
short int attr; /* default attribute */
short int win_left; /* window actually displayed by renderer */
short int win_top; /* the rect area is expressed withing the */
short int win_right; /* boundaries of the screen buffer */
short int win_bottom;
short int max_width; /* maximum size (width x height) for the window */
short int max_height;
@END
#define SET_CONSOLE_OUTPUT_INFO_CURSOR_GEOM 0x01
#define SET_CONSOLE_OUTPUT_INFO_CURSOR_POS 0x02
#define SET_CONSOLE_OUTPUT_INFO_SIZE 0x04
#define SET_CONSOLE_OUTPUT_INFO_ATTR 0x08
#define SET_CONSOLE_OUTPUT_INFO_DISPLAY_WINDOW 0x10
#define SET_CONSOLE_OUTPUT_INFO_MAX_SIZE 0x20
/* Get info about a console (output only) */
@REQ(get_console_output_info)
obj_handle_t handle; /* handle to the console */
@REPLY
short int cursor_size; /* size of cursor (percentage filled) */
short int cursor_visible;/* cursor visibility flag */
short int cursor_x; /* position of cursor (x, y) */
short int cursor_y;
short int width; /* width of the screen buffer */
short int height; /* height of the screen buffer */
short int attr; /* default attribute */
short int win_left; /* window actually displayed by renderer */
short int win_top; /* the rect area is expressed withing the */
short int win_right; /* boundaries of the screen buffer */
short int win_bottom;
short int max_width; /* maximum size (width x height) for the window */
short int max_height;
@END
/* Add input records to a console input queue */
@REQ(write_console_input)
obj_handle_t handle; /* handle to the console input */
VARARG(rec,input_records); /* input records */
@REPLY
int written; /* number of records written */
@END
/* Fetch input records from a console input queue */
@REQ(read_console_input)
obj_handle_t handle; /* handle to the console input */
int flush; /* flush the retrieved records from the queue? */
@REPLY
int read; /* number of records read */
VARARG(rec,input_records); /* input records */
@END
/* write data (chars and/or attributes) in a screen buffer */
@REQ(write_console_output)
obj_handle_t handle; /* handle to the console output */
int x; /* position where to start writing */
int y;
int mode; /* char info (see below) */
int wrap; /* wrap around at end of line? */
VARARG(data,bytes); /* info to write */
@REPLY
int written; /* number of char infos actually written */
int width; /* width of screen buffer */
int height; /* height of screen buffer */
@END
enum char_info_mode
{
CHAR_INFO_MODE_TEXT, /* characters only */
CHAR_INFO_MODE_ATTR, /* attributes only */
CHAR_INFO_MODE_TEXTATTR, /* both characters and attributes */
CHAR_INFO_MODE_TEXTSTDATTR /* characters but use standard attributes */
};
/* fill a screen buffer with constant data (chars and/or attributes) */
@REQ(fill_console_output)
obj_handle_t handle; /* handle to the console output */
int x; /* position where to start writing */
int y;
int mode; /* char info mode */
int count; /* number to write */
int wrap; /* wrap around at end of line? */
char_info_t data; /* data to write */
@REPLY
int written; /* number of char infos actually written */
@END
/* read data (chars and/or attributes) from a screen buffer */
@REQ(read_console_output)
obj_handle_t handle; /* handle to the console output */
int x; /* position (x,y) where to start reading */
int y;
int mode; /* char info mode */
int wrap; /* wrap around at end of line? */
@REPLY
int width; /* width of screen buffer */
int height; /* height of screen buffer */
VARARG(data,bytes);
@END
/* move a rect (of data) in screen buffer content */
@REQ(move_console_output)
obj_handle_t handle; /* handle to the console output */
short int x_src; /* position (x, y) of rect to start moving from */
short int y_src;
short int x_dst; /* position (x, y) of rect to move to */
short int y_dst;
short int w; /* size of the rect (width, height) to move */
short int h;
@END
/* Sends a signal to a process group */
@REQ(send_console_signal)
int signal; /* the signal to send */
process_id_t group_id; /* the group to send the signal to */
@END
/* enable directory change notifications */
@REQ(read_directory_changes)
unsigned int filter; /* notification filter */
obj_handle_t handle; /* handle to the directory */
int subtree; /* watch the subtree? */
int want_data; /* flag indicating whether change data should be collected */
async_data_t async; /* async I/O parameters */
@END
@REQ(read_change)
obj_handle_t handle;
@REPLY
int action; /* type of change */
VARARG(name,string); /* name of directory entry that changed */
@END
/* Create a file mapping */
@REQ(create_mapping)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
int size_high; /* mapping size */
int size_low; /* mapping size */
int protect; /* protection flags (see below) */
obj_handle_t file_handle; /* file handle */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the mapping */
@END
/* protection flags */
#define VPROT_READ 0x01
#define VPROT_WRITE 0x02
#define VPROT_EXEC 0x04
#define VPROT_WRITECOPY 0x08
#define VPROT_GUARD 0x10
#define VPROT_NOCACHE 0x20
#define VPROT_COMMITTED 0x40
#define VPROT_IMAGE 0x80
/* Open a mapping */
@REQ(open_mapping)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the mapping */
@END
/* Get information about a file mapping */
@REQ(get_mapping_info)
obj_handle_t handle; /* handle to the mapping */
@REPLY
int size_high; /* mapping size */
int size_low; /* mapping size */
int protect; /* protection flags */
int header_size; /* header size (for VPROT_IMAGE mapping) */
void* base; /* default base addr (for VPROT_IMAGE mapping) */
obj_handle_t mapping; /* duplicate mapping handle unless removable */
obj_handle_t shared_file; /* shared mapping file handle */
int shared_size; /* shared mapping size */
@END
#define SNAP_HEAPLIST 0x00000001
#define SNAP_PROCESS 0x00000002
#define SNAP_THREAD 0x00000004
#define SNAP_MODULE 0x00000008
/* Create a snapshot */
@REQ(create_snapshot)
unsigned int attributes; /* object attributes */
int flags; /* snapshot flags (SNAP_*) */
process_id_t pid; /* process id */
@REPLY
obj_handle_t handle; /* handle to the snapshot */
@END
/* Get the next process from a snapshot */
@REQ(next_process)
obj_handle_t handle; /* handle to the snapshot */
int reset; /* reset snapshot position? */
@REPLY
int count; /* process usage count */
process_id_t pid; /* process id */
process_id_t ppid; /* parent process id */
void* heap; /* heap base */
void* module; /* main module */
int threads; /* number of threads */
int priority; /* process priority */
int handles; /* number of handles */
VARARG(filename,unicode_str); /* file name of main exe */
@END
/* Get the next thread from a snapshot */
@REQ(next_thread)
obj_handle_t handle; /* handle to the snapshot */
int reset; /* reset snapshot position? */
@REPLY
int count; /* thread usage count */
process_id_t pid; /* process id */
thread_id_t tid; /* thread id */
int base_pri; /* base priority */
int delta_pri; /* delta priority */
@END
/* Get the next module from a snapshot */
@REQ(next_module)
obj_handle_t handle; /* handle to the snapshot */
int reset; /* reset snapshot position? */
@REPLY
process_id_t pid; /* process id */
void* base; /* module base address */
size_t size; /* module size */
VARARG(filename,unicode_str); /* file name of module */
@END
/* Wait for a debug event */
@REQ(wait_debug_event)
int get_handle; /* should we alloc a handle for waiting? */
@REPLY
process_id_t pid; /* process id */
thread_id_t tid; /* thread id */
obj_handle_t wait; /* wait handle if no event ready */
VARARG(event,debug_event); /* debug event data */
@END
/* Queue an exception event */
@REQ(queue_exception_event)
int first; /* first chance exception? */
VARARG(record,exc_event); /* thread context followed by exception record */
@REPLY
obj_handle_t handle; /* handle to the queued event */
@END
/* Retrieve the status of an exception event */
@REQ(get_exception_status)
obj_handle_t handle; /* handle to the queued event */
@REPLY
VARARG(context,context); /* modified thread context */
@END
/* Send an output string to the debugger */
@REQ(output_debug_string)
void* string; /* string to display (in debugged process address space) */
int unicode; /* is it Unicode? */
int length; /* string length */
@END
/* Continue a debug event */
@REQ(continue_debug_event)
process_id_t pid; /* process id to continue */
thread_id_t tid; /* thread id to continue */
int status; /* continuation status */
@END
/* Start/stop debugging an existing process */
@REQ(debug_process)
process_id_t pid; /* id of the process to debug */
int attach; /* 1=attaching / 0=detaching from the process */
@END
/* Simulate a breakpoint in a process */
@REQ(debug_break)
obj_handle_t handle; /* process handle */
@REPLY
int self; /* was it the caller itself? */
@END
/* Set debugger kill on exit flag */
@REQ(set_debugger_kill_on_exit)
int kill_on_exit; /* 0=detach/1=kill debuggee when debugger dies */
@END
/* Read data from a process address space */
@REQ(read_process_memory)
obj_handle_t handle; /* process handle */
void* addr; /* addr to read from */
@REPLY
VARARG(data,bytes); /* result data */
@END
/* Write data to a process address space */
@REQ(write_process_memory)
obj_handle_t handle; /* process handle */
void* addr; /* addr to write to */
VARARG(data,bytes); /* data to write */
@END
/* Create a registry key */
@REQ(create_key)
obj_handle_t parent; /* handle to the parent key */
unsigned int access; /* desired access rights */
unsigned int attributes; /* object attributes */
unsigned int options; /* creation options */
time_t modif; /* last modification time */
data_size_t namelen; /* length of key name in bytes */
VARARG(name,unicode_str,namelen); /* key name */
VARARG(class,unicode_str); /* class name */
@REPLY
obj_handle_t hkey; /* handle to the created key */
int created; /* has it been newly created? */
@END
/* Open a registry key */
@REQ(open_key)
obj_handle_t parent; /* handle to the parent key */
unsigned int access; /* desired access rights */
unsigned int attributes; /* object attributes */
VARARG(name,unicode_str); /* key name */
@REPLY
obj_handle_t hkey; /* handle to the open key */
@END
/* Delete a registry key */
@REQ(delete_key)
obj_handle_t hkey; /* handle to the key */
@END
/* Flush a registry key */
@REQ(flush_key)
obj_handle_t hkey; /* handle to the key */
@END
/* Enumerate registry subkeys */
@REQ(enum_key)
obj_handle_t hkey; /* handle to registry key */
int index; /* index of subkey (or -1 for current key) */
int info_class; /* requested information class */
@REPLY
int subkeys; /* number of subkeys */
int max_subkey; /* longest subkey name */
int max_class; /* longest class name */
int values; /* number of values */
int max_value; /* longest value name */
int max_data; /* longest value data */
time_t modif; /* last modification time */
data_size_t total; /* total length needed for full name and class */
data_size_t namelen; /* length of key name in bytes */
VARARG(name,unicode_str,namelen); /* key name */
VARARG(class,unicode_str); /* class name */
@END
/* Set a value of a registry key */
@REQ(set_key_value)
obj_handle_t hkey; /* handle to registry key */
int type; /* value type */
data_size_t namelen; /* length of value name in bytes */
VARARG(name,unicode_str,namelen); /* value name */
VARARG(data,bytes); /* value data */
@END
/* Retrieve the value of a registry key */
@REQ(get_key_value)
obj_handle_t hkey; /* handle to registry key */
VARARG(name,unicode_str); /* value name */
@REPLY
int type; /* value type */
data_size_t total; /* total length needed for data */
VARARG(data,bytes); /* value data */
@END
/* Enumerate a value of a registry key */
@REQ(enum_key_value)
obj_handle_t hkey; /* handle to registry key */
int index; /* value index */
int info_class; /* requested information class */
@REPLY
int type; /* value type */
data_size_t total; /* total length needed for full name and data */
data_size_t namelen; /* length of value name in bytes */
VARARG(name,unicode_str,namelen); /* value name */
VARARG(data,bytes); /* value data */
@END
/* Delete a value of a registry key */
@REQ(delete_key_value)
obj_handle_t hkey; /* handle to registry key */
VARARG(name,unicode_str); /* value name */
@END
/* Load a registry branch from a file */
@REQ(load_registry)
obj_handle_t hkey; /* root key to load to */
obj_handle_t file; /* file to load from */
VARARG(name,unicode_str); /* subkey name */
@END
/* UnLoad a registry branch from a file */
@REQ(unload_registry)
obj_handle_t hkey; /* root key to unload to */
@END
/* Save a registry branch to a file */
@REQ(save_registry)
obj_handle_t hkey; /* key to save */
obj_handle_t file; /* file to save to */
@END
/* Add a registry key change notification */
@REQ(set_registry_notification)
obj_handle_t hkey; /* key to watch for changes */
obj_handle_t event; /* event to set */
int subtree; /* should we watch the whole subtree? */
unsigned int filter; /* things to watch */
@END
/* Create a waitable timer */
@REQ(create_timer)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
int manual; /* manual reset */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the timer */
@END
/* Open a waitable timer */
@REQ(open_timer)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the timer */
@END
/* Set a waitable timer */
@REQ(set_timer)
obj_handle_t handle; /* handle to the timer */
timeout_t expire; /* next expiration absolute time */
int period; /* timer period in ms */
void* callback; /* callback function */
void* arg; /* callback argument */
@REPLY
int signaled; /* was the timer signaled before this call ? */
@END
/* Cancel a waitable timer */
@REQ(cancel_timer)
obj_handle_t handle; /* handle to the timer */
@REPLY
int signaled; /* was the timer signaled before this calltime ? */
@END
/* Get information on a waitable timer */
@REQ(get_timer_info)
obj_handle_t handle; /* handle to the timer */
@REPLY
timeout_t when; /* absolute time when the timer next expires */
int signaled; /* is the timer signaled? */
@END
/* Retrieve the current context of a thread */
@REQ(get_thread_context)
obj_handle_t handle; /* thread handle */
unsigned int flags; /* context flags */
int suspend; /* if getting context during suspend */
@REPLY
int self; /* was it a handle to the current thread? */
VARARG(context,context); /* thread context */
@END
/* Set the current context of a thread */
@REQ(set_thread_context)
obj_handle_t handle; /* thread handle */
unsigned int flags; /* context flags */
int suspend; /* if setting context during suspend */
VARARG(context,context); /* thread context */
@REPLY
int self; /* was it a handle to the current thread? */
@END
/* Fetch a selector entry for a thread */
@REQ(get_selector_entry)
obj_handle_t handle; /* thread handle */
int entry; /* LDT entry */
@REPLY
unsigned int base; /* selector base */
unsigned int limit; /* selector limit */
unsigned char flags; /* selector flags */
@END
/* Add an atom */
@REQ(add_atom)
obj_handle_t table; /* which table to add atom to */
VARARG(name,unicode_str); /* atom name */
@REPLY
atom_t atom; /* resulting atom */
@END
/* Delete an atom */
@REQ(delete_atom)
obj_handle_t table; /* which table to delete atom from */
atom_t atom; /* atom handle */
@END
/* Find an atom */
@REQ(find_atom)
obj_handle_t table; /* which table to find atom from */
VARARG(name,unicode_str); /* atom name */
@REPLY
atom_t atom; /* atom handle */
@END
/* Get information about an atom */
@REQ(get_atom_information)
obj_handle_t table; /* which table to find atom from */
atom_t atom; /* atom handle */
@REPLY
int count; /* atom lock count */
int pinned; /* whether the atom has been pinned */
data_size_t total; /* actual length of atom name */
VARARG(name,unicode_str); /* atom name */
@END
/* Set information about an atom */
@REQ(set_atom_information)
obj_handle_t table; /* which table to find atom from */
atom_t atom; /* atom handle */
int pinned; /* whether to bump atom information */
@END
/* Empty an atom table */
@REQ(empty_atom_table)
obj_handle_t table; /* which table to find atom from */
int if_pinned; /* whether to delete pinned atoms */
@END
/* Init an atom table */
@REQ(init_atom_table)
int entries; /* number of entries (only for local) */
@REPLY
obj_handle_t table; /* handle to the atom table */
@END
/* Get the message queue of the current thread */
@REQ(get_msg_queue)
@REPLY
obj_handle_t handle; /* handle to the queue */
@END
/* Set the file descriptor associated to the current thread queue */
@REQ(set_queue_fd)
obj_handle_t handle; /* handle to the file descriptor */
@END
/* Set the current message queue wakeup mask */
@REQ(set_queue_mask)
unsigned int wake_mask; /* wakeup bits mask */
unsigned int changed_mask; /* changed bits mask */
int skip_wait; /* will we skip waiting if signaled? */
@REPLY
unsigned int wake_bits; /* current wake bits */
unsigned int changed_bits; /* current changed bits */
@END
/* Get the current message queue status */
@REQ(get_queue_status)
int clear; /* should we clear the change bits? */
@REPLY
unsigned int wake_bits; /* wake bits */
unsigned int changed_bits; /* changed bits since last time */
@END
/* Retrieve the process idle event */
@REQ(get_process_idle_event)
obj_handle_t handle; /* process handle */
@REPLY
obj_handle_t event; /* handle to idle event */
@END
/* Send a message to a thread queue */
@REQ(send_message)
thread_id_t id; /* thread id */
int type; /* message type (see below) */
int flags; /* message flags (see below) */
user_handle_t win; /* window handle */
unsigned int msg; /* message code */
unsigned long wparam; /* parameters */
unsigned long lparam; /* parameters */
timeout_t timeout; /* timeout for reply */
VARARG(data,message_data); /* message data for sent messages */
@END
@REQ(post_quit_message)
int exit_code; /* exit code to return */
@END
enum message_type
{
MSG_ASCII, /* Ascii message (from SendMessageA) */
MSG_UNICODE, /* Unicode message (from SendMessageW) */
MSG_NOTIFY, /* notify message (from SendNotifyMessageW), always Unicode */
MSG_CALLBACK, /* callback message (from SendMessageCallbackW), always Unicode */
MSG_CALLBACK_RESULT,/* result of a callback message */
MSG_OTHER_PROCESS, /* sent from other process, may include vararg data, always Unicode */
MSG_POSTED, /* posted message (from PostMessageW), always Unicode */
MSG_HARDWARE, /* hardware message */
MSG_WINEVENT /* winevent message */
};
#define SEND_MSG_ABORT_IF_HUNG 0x01
/* Send a hardware message to a thread queue */
@REQ(send_hardware_message)
thread_id_t id; /* thread id */
user_handle_t win; /* window handle */
unsigned int msg; /* message code */
unsigned int time; /* message time */
unsigned long wparam; /* parameters */
unsigned long lparam; /* parameters */
unsigned long info; /* extra info */
int x; /* x position */
int y; /* y position */
@END
/* Get a message from the current queue */
@REQ(get_message)
unsigned int flags; /* PM_* flags */
user_handle_t get_win; /* window handle to get */
unsigned int get_first; /* first message code to get */
unsigned int get_last; /* last message code to get */
unsigned int hw_id; /* id of the previous hardware message (or 0) */
@REPLY
user_handle_t win; /* window handle */
int type; /* message type */
unsigned int msg; /* message code */
unsigned long wparam; /* parameters */
unsigned long lparam; /* parameters */
unsigned long info; /* extra info */
int x; /* x position */
int y; /* y position */
unsigned int time; /* message time */
unsigned int hw_id; /* id if hardware message */
unsigned int active_hooks; /* active hooks bitmap */
data_size_t total; /* total size of extra data */
VARARG(data,message_data); /* message data for sent messages */
@END
/* Reply to a sent message */
@REQ(reply_message)
unsigned int result; /* message result */
int remove; /* should we remove the message? */
VARARG(data,bytes); /* message data for sent messages */
@END
/* Accept the current hardware message */
@REQ(accept_hardware_message)
unsigned int hw_id; /* id of the hardware message */
int remove; /* should we remove the message? */
user_handle_t new_win; /* new destination window for current message */
@END
/* Retrieve the reply for the last message sent */
@REQ(get_message_reply)
int cancel; /* cancel message if not ready? */
@REPLY
unsigned int result; /* message result */
VARARG(data,bytes); /* message data for sent messages */
@END
/* Set a window timer */
@REQ(set_win_timer)
user_handle_t win; /* window handle */
unsigned int msg; /* message to post */
unsigned int rate; /* timer rate in ms */
unsigned long id; /* timer id */
unsigned long lparam; /* message lparam (callback proc) */
@REPLY
unsigned long id; /* timer id */
@END
/* Kill a window timer */
@REQ(kill_win_timer)
user_handle_t win; /* window handle */
unsigned int msg; /* message to post */
unsigned long id; /* timer id */
@END
/* Retrieve info about a serial port */
@REQ(get_serial_info)
obj_handle_t handle; /* handle to comm port */
@REPLY
unsigned int readinterval;
unsigned int readconst;
unsigned int readmult;
unsigned int writeconst;
unsigned int writemult;
unsigned int eventmask;
@END
/* Set info about a serial port */
@REQ(set_serial_info)
obj_handle_t handle; /* handle to comm port */
int flags; /* bitmask to set values (see below) */
unsigned int readinterval;
unsigned int readconst;
unsigned int readmult;
unsigned int writeconst;
unsigned int writemult;
unsigned int eventmask;
@END
#define SERIALINFO_SET_TIMEOUTS 0x01
#define SERIALINFO_SET_MASK 0x02
/* Create an async I/O */
@REQ(register_async)
obj_handle_t handle; /* handle to comm port, socket or file */
int type; /* type of queue to look after */
int count; /* count - usually # of bytes to be read/written */
async_data_t async; /* async I/O parameters */
@END
#define ASYNC_TYPE_READ 0x01
#define ASYNC_TYPE_WRITE 0x02
#define ASYNC_TYPE_WAIT 0x03
/* Cancel all async op on a fd */
@REQ(cancel_async)
obj_handle_t handle; /* handle to comm port, socket or file */
@END
/* Perform an ioctl on a file */
@REQ(ioctl)
obj_handle_t handle; /* handle to the device */
ioctl_code_t code; /* ioctl code */
async_data_t async; /* async I/O parameters */
VARARG(in_data,bytes); /* ioctl input data */
@REPLY
obj_handle_t wait; /* handle to wait on for blocking ioctl */
unsigned int options; /* device open options */
VARARG(out_data,bytes); /* ioctl output data */
@END
/* Retrieve results of an async ioctl */
@REQ(get_ioctl_result)
obj_handle_t handle; /* handle to the device */
void* user_arg; /* user arg used to identify the request */
@REPLY
VARARG(out_data,bytes); /* ioctl output data */
@END
/* Create a named pipe */
@REQ(create_named_pipe)
unsigned int access;
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
unsigned int options;
unsigned int flags;
unsigned int maxinstances;
unsigned int outsize;
unsigned int insize;
timeout_t timeout;
VARARG(name,unicode_str); /* pipe name */
@REPLY
obj_handle_t handle; /* handle to the pipe */
@END
/* flags in create_named_pipe and get_named_pipe_info */
#define NAMED_PIPE_MESSAGE_STREAM_WRITE 0x0001
#define NAMED_PIPE_MESSAGE_STREAM_READ 0x0002
#define NAMED_PIPE_NONBLOCKING_MODE 0x0004
#define NAMED_PIPE_SERVER_END 0x8000
@REQ(get_named_pipe_info)
obj_handle_t handle;
@REPLY
unsigned int flags;
unsigned int maxinstances;
unsigned int instances;
unsigned int outsize;
unsigned int insize;
@END
/* Create a window */
@REQ(create_window)
user_handle_t parent; /* parent window */
user_handle_t owner; /* owner window */
atom_t atom; /* class atom */
void* instance; /* module instance */
@REPLY
user_handle_t handle; /* created window */
user_handle_t parent; /* full handle of parent */
user_handle_t owner; /* full handle of owner */
int extra; /* number of extra bytes */
void* class_ptr; /* pointer to class in client address space */
@END
/* Destroy a window */
@REQ(destroy_window)
user_handle_t handle; /* handle to the window */
@END
/* Retrieve the desktop window for the current thread */
@REQ(get_desktop_window)
int force; /* force creation if it doesn't exist */
@REPLY
user_handle_t handle; /* handle to the desktop window */
@END
/* Set a window owner */
@REQ(set_window_owner)
user_handle_t handle; /* handle to the window */
user_handle_t owner; /* new owner */
@REPLY
user_handle_t full_owner; /* full handle of new owner */
user_handle_t prev_owner; /* full handle of previous owner */
@END
/* Get information from a window handle */
@REQ(get_window_info)
user_handle_t handle; /* handle to the window */
@REPLY
user_handle_t full_handle; /* full 32-bit handle */
user_handle_t last_active; /* last active popup */
process_id_t pid; /* process owning the window */
thread_id_t tid; /* thread owning the window */
atom_t atom; /* class atom */
int is_unicode; /* ANSI or unicode */
@END
/* Set some information in a window */
@REQ(set_window_info)
unsigned int flags; /* flags for fields to set (see below) */
user_handle_t handle; /* handle to the window */
unsigned int style; /* window style */
unsigned int ex_style; /* window extended style */
unsigned int id; /* window id */
int is_unicode; /* ANSI or unicode */
void* instance; /* creator instance */
unsigned long user_data; /* user-specific data */
int extra_offset; /* offset to set in extra bytes */
data_size_t extra_size; /* size to set in extra bytes */
unsigned long extra_value; /* value to set in extra bytes */
@REPLY
unsigned int old_style; /* old window style */
unsigned int old_ex_style; /* old window extended style */
unsigned int old_id; /* old window id */
void* old_instance; /* old creator instance */
unsigned long old_user_data; /* old user-specific data */
unsigned long old_extra_value; /* old value in extra bytes */
@END
#define SET_WIN_STYLE 0x01
#define SET_WIN_EXSTYLE 0x02
#define SET_WIN_ID 0x04
#define SET_WIN_INSTANCE 0x08
#define SET_WIN_USERDATA 0x10
#define SET_WIN_EXTRA 0x20
#define SET_WIN_UNICODE 0x40
/* Set the parent of a window */
@REQ(set_parent)
user_handle_t handle; /* handle to the window */
user_handle_t parent; /* handle to the parent */
@REPLY
user_handle_t old_parent; /* old parent window */
user_handle_t full_parent; /* full handle of new parent */
@END
/* Get a list of the window parents, up to the root of the tree */
@REQ(get_window_parents)
user_handle_t handle; /* handle to the window */
@REPLY
int count; /* total count of parents */
VARARG(parents,user_handles); /* parent handles */
@END
/* Get a list of the window children */
@REQ(get_window_children)
user_handle_t parent; /* parent window */
atom_t atom; /* class atom for the listed children */
thread_id_t tid; /* thread owning the listed children */
@REPLY
int count; /* total count of children */
VARARG(children,user_handles); /* children handles */
@END
/* Get a list of the window children that contain a given point */
@REQ(get_window_children_from_point)
user_handle_t parent; /* parent window */
int x; /* point in parent coordinates */
int y;
@REPLY
int count; /* total count of children */
VARARG(children,user_handles); /* children handles */
@END
/* Get window tree information from a window handle */
@REQ(get_window_tree)
user_handle_t handle; /* handle to the window */
@REPLY
user_handle_t parent; /* parent window */
user_handle_t owner; /* owner window */
user_handle_t next_sibling; /* next sibling in Z-order */
user_handle_t prev_sibling; /* prev sibling in Z-order */
user_handle_t first_sibling; /* first sibling in Z-order */
user_handle_t last_sibling; /* last sibling in Z-order */
user_handle_t first_child; /* first child */
user_handle_t last_child; /* last child */
@END
/* Set the position and Z order of a window */
@REQ(set_window_pos)
unsigned int flags; /* SWP_* flags */
user_handle_t handle; /* handle to the window */
user_handle_t previous; /* previous window in Z order */
rectangle_t window; /* window rectangle */
rectangle_t client; /* client rectangle */
VARARG(valid,rectangles); /* valid rectangles from WM_NCCALCSIZE */
@REPLY
unsigned int new_style; /* new window style */
@END
/* Get the window and client rectangles of a window */
@REQ(get_window_rectangles)
user_handle_t handle; /* handle to the window */
@REPLY
rectangle_t window; /* window rectangle */
rectangle_t visible; /* visible part of the window rectangle */
rectangle_t client; /* client rectangle */
@END
/* Get the window text */
@REQ(get_window_text)
user_handle_t handle; /* handle to the window */
@REPLY
VARARG(text,unicode_str); /* window text */
@END
/* Set the window text */
@REQ(set_window_text)
user_handle_t handle; /* handle to the window */
VARARG(text,unicode_str); /* window text */
@END
/* Get the coordinates offset between two windows */
@REQ(get_windows_offset)
user_handle_t from; /* handle to the first window */
user_handle_t to; /* handle to the second window */
@REPLY
int x; /* x coordinate offset */
int y; /* y coordinate offset */
@END
/* Get the visible region of a window */
@REQ(get_visible_region)
user_handle_t window; /* handle to the window */
unsigned int flags; /* DCX flags */
@REPLY
user_handle_t top_win; /* top window to clip against */
rectangle_t top_rect; /* top window visible rect with screen coords */
rectangle_t win_rect; /* window rect in screen coords */
data_size_t total_size; /* total size of the resulting region */
VARARG(region,rectangles); /* list of rectangles for the region (in screen coords) */
@END
/* Get the window region */
@REQ(get_window_region)
user_handle_t window; /* handle to the window */
@REPLY
data_size_t total_size; /* total size of the resulting region */
VARARG(region,rectangles); /* list of rectangles for the region */
@END
/* Set the window region */
@REQ(set_window_region)
user_handle_t window; /* handle to the window */
int redraw; /* redraw the window? */
VARARG(region,rectangles); /* list of rectangles for the region */
@END
/* Get the window update region */
@REQ(get_update_region)
user_handle_t window; /* handle to the window */
user_handle_t from_child; /* child to start searching from */
unsigned int flags; /* update flags (see below) */
@REPLY
user_handle_t child; /* child to repaint (or window itself) */
unsigned int flags; /* resulting update flags (see below) */
data_size_t total_size; /* total size of the resulting region */
VARARG(region,rectangles); /* list of rectangles for the region */
@END
#define UPDATE_NONCLIENT 0x01 /* get region for repainting non-client area */
#define UPDATE_ERASE 0x02 /* get region for erasing client area */
#define UPDATE_PAINT 0x04 /* get region for painting client area */
#define UPDATE_INTERNALPAINT 0x08 /* get region if internal paint is pending */
#define UPDATE_ALLCHILDREN 0x10 /* force repaint of all children */
#define UPDATE_NOCHILDREN 0x20 /* don't try to repaint any children */
#define UPDATE_NOREGION 0x40 /* don't return a region, only the flags */
/* Update the z order of a window so that a given rectangle is fully visible */
@REQ(update_window_zorder)
user_handle_t window; /* handle to the window */
rectangle_t rect; /* rectangle that must be visible */
@END
/* Mark parts of a window as needing a redraw */
@REQ(redraw_window)
user_handle_t window; /* handle to the window */
unsigned int flags; /* RDW_* flags */
VARARG(region,rectangles); /* list of rectangles for the region */
@END
/* Set a window property */
@REQ(set_window_property)
user_handle_t window; /* handle to the window */
atom_t atom; /* property atom (if no name specified) */
obj_handle_t handle; /* handle to store */
VARARG(name,unicode_str); /* property name */
@END
/* Remove a window property */
@REQ(remove_window_property)
user_handle_t window; /* handle to the window */
atom_t atom; /* property atom (if no name specified) */
VARARG(name,unicode_str); /* property name */
@REPLY
obj_handle_t handle; /* handle stored in property */
@END
/* Get a window property */
@REQ(get_window_property)
user_handle_t window; /* handle to the window */
atom_t atom; /* property atom (if no name specified) */
VARARG(name,unicode_str); /* property name */
@REPLY
obj_handle_t handle; /* handle stored in property */
@END
/* Get the list of properties of a window */
@REQ(get_window_properties)
user_handle_t window; /* handle to the window */
@REPLY
int total; /* total number of properties */
VARARG(props,properties); /* list of properties */
@END
/* Create a window station */
@REQ(create_winstation)
unsigned int flags; /* window station flags */
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the window station */
@END
/* Open a handle to a window station */
@REQ(open_winstation)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the window station */
@END
/* Close a window station */
@REQ(close_winstation)
obj_handle_t handle; /* handle to the window station */
@END
/* Get the process current window station */
@REQ(get_process_winstation)
@REPLY
obj_handle_t handle; /* handle to the window station */
@END
/* Set the process current window station */
@REQ(set_process_winstation)
obj_handle_t handle; /* handle to the window station */
@END
/* Create a desktop */
@REQ(create_desktop)
unsigned int flags; /* desktop flags */
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the desktop */
@END
/* Open a handle to a desktop */
@REQ(open_desktop)
unsigned int flags; /* desktop flags */
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the desktop */
@END
/* Close a desktop */
@REQ(close_desktop)
obj_handle_t handle; /* handle to the desktop */
@END
/* Get the thread current desktop */
@REQ(get_thread_desktop)
thread_id_t tid; /* thread id */
@REPLY
obj_handle_t handle; /* handle to the desktop */
@END
/* Set the thread current desktop */
@REQ(set_thread_desktop)
obj_handle_t handle; /* handle to the desktop */
@END
/* Get/set information about a user object (window station or desktop) */
@REQ(set_user_object_info)
obj_handle_t handle; /* handle to the object */
unsigned int flags; /* information to set */
unsigned int obj_flags; /* new object flags */
@REPLY
int is_desktop; /* is object a desktop? */
unsigned int old_obj_flags; /* old object flags */
VARARG(name,unicode_str); /* object name */
@END
#define SET_USER_OBJECT_FLAGS 1
/* Attach (or detach) thread inputs */
@REQ(attach_thread_input)
thread_id_t tid_from; /* thread to be attached */
thread_id_t tid_to; /* thread to which tid_from should be attached */
int attach; /* is it an attach? */
@END
/* Get input data for a given thread */
@REQ(get_thread_input)
thread_id_t tid; /* id of thread */
@REPLY
user_handle_t focus; /* handle to the focus window */
user_handle_t capture; /* handle to the capture window */
user_handle_t active; /* handle to the active window */
user_handle_t foreground; /* handle to the global foreground window */
user_handle_t menu_owner; /* handle to the menu owner */
user_handle_t move_size; /* handle to the moving/resizing window */
user_handle_t caret; /* handle to the caret window */
rectangle_t rect; /* caret rectangle */
@END
/* Get the time of the last input event */
@REQ(get_last_input_time)
@REPLY
unsigned int time;
@END
/* Retrieve queue keyboard state for a given thread */
@REQ(get_key_state)
thread_id_t tid; /* id of thread */
int key; /* optional key code or -1 */
@REPLY
unsigned char state; /* state of specified key */
VARARG(keystate,bytes); /* state array for all the keys */
@END
/* Set queue keyboard state for a given thread */
@REQ(set_key_state)
thread_id_t tid; /* id of thread */
VARARG(keystate,bytes); /* state array for all the keys */
@END
/* Set the system foreground window */
@REQ(set_foreground_window)
user_handle_t handle; /* handle to the foreground window */
@REPLY
user_handle_t previous; /* handle to the previous foreground window */
int send_msg_old; /* whether we have to send a msg to the old window */
int send_msg_new; /* whether we have to send a msg to the new window */
@END
/* Set the current thread focus window */
@REQ(set_focus_window)
user_handle_t handle; /* handle to the focus window */
@REPLY
user_handle_t previous; /* handle to the previous focus window */
@END
/* Set the current thread active window */
@REQ(set_active_window)
user_handle_t handle; /* handle to the active window */
@REPLY
user_handle_t previous; /* handle to the previous active window */
@END
/* Set the current thread capture window */
@REQ(set_capture_window)
user_handle_t handle; /* handle to the capture window */
unsigned int flags; /* capture flags (see below) */
@REPLY
user_handle_t previous; /* handle to the previous capture window */
user_handle_t full_handle; /* full 32-bit handle of new capture window */
@END
#define CAPTURE_MENU 0x01 /* capture is for a menu */
#define CAPTURE_MOVESIZE 0x02 /* capture is for moving/resizing */
/* Set the current thread caret window */
@REQ(set_caret_window)
user_handle_t handle; /* handle to the caret window */
int width; /* caret width */
int height; /* caret height */
@REPLY
user_handle_t previous; /* handle to the previous caret window */
rectangle_t old_rect; /* previous caret rectangle */
int old_hide; /* previous hide count */
int old_state; /* previous caret state (1=on, 0=off) */
@END
/* Set the current thread caret information */
@REQ(set_caret_info)
unsigned int flags; /* caret flags (see below) */
user_handle_t handle; /* handle to the caret window */
int x; /* caret x position */
int y; /* caret y position */
int hide; /* increment for hide count (can be negative to show it) */
int state; /* caret state (1=on, 0=off, -1=toggle current state) */
@REPLY
user_handle_t full_handle; /* handle to the current caret window */
rectangle_t old_rect; /* previous caret rectangle */
int old_hide; /* previous hide count */
int old_state; /* previous caret state (1=on, 0=off) */
@END
#define SET_CARET_POS 0x01 /* set the caret position from x,y */
#define SET_CARET_HIDE 0x02 /* increment the caret hide count */
#define SET_CARET_STATE 0x04 /* set the caret on/off state */
/* Set a window hook */
@REQ(set_hook)
int id; /* id of the hook */
process_id_t pid; /* id of process to set the hook into */
thread_id_t tid; /* id of thread to set the hook into */
int event_min;
int event_max;
int flags;
void* proc; /* hook procedure */
int unicode; /* is it a unicode hook? */
VARARG(module,unicode_str); /* module name */
@REPLY
user_handle_t handle; /* handle to the hook */
unsigned int active_hooks; /* active hooks bitmap */
@END
/* Remove a window hook */
@REQ(remove_hook)
user_handle_t handle; /* handle to the hook */
int id; /* id of the hook if handle is 0 */
void* proc; /* hook procedure if handle is 0 */
@REPLY
unsigned int active_hooks; /* active hooks bitmap */
@END
/* Start calling a hook chain */
@REQ(start_hook_chain)
int id; /* id of the hook */
int event; /* signalled event */
user_handle_t window; /* handle to the event window */
int object_id; /* object id for out of context winevent */
int child_id; /* child id for out of context winevent */
@REPLY
user_handle_t handle; /* handle to the next hook */
process_id_t pid; /* process id for low-level keyboard/mouse hooks */
thread_id_t tid; /* thread id for low-level keyboard/mouse hooks */
void* proc; /* hook procedure */
int unicode; /* is it a unicode hook? */
unsigned int active_hooks; /* active hooks bitmap */
VARARG(module,unicode_str); /* module name */
@END
/* Finished calling a hook chain */
@REQ(finish_hook_chain)
int id; /* id of the hook */
@END
/* Get the hook information */
@REQ(get_hook_info)
user_handle_t handle; /* handle to the current hook */
int get_next; /* do we want info about current or next hook? */
int event; /* signalled event */
user_handle_t window; /* handle to the event window */
int object_id; /* object id for out of context winevent */
int child_id; /* child id for out of context winevent */
@REPLY
user_handle_t handle; /* handle to the hook */
int id; /* id of the hook */
process_id_t pid; /* process id for low-level keyboard/mouse hooks */
thread_id_t tid; /* thread id for low-level keyboard/mouse hooks */
void* proc; /* hook procedure */
int unicode; /* is it a unicode hook? */
VARARG(module,unicode_str); /* module name */
@END
/* Create a window class */
@REQ(create_class)
int local; /* is it a local class? */
atom_t atom; /* class atom */
unsigned int style; /* class style */
void* instance; /* module instance */
int extra; /* number of extra class bytes */
int win_extra; /* number of window extra bytes */
void* client_ptr; /* pointer to class in client address space */
@END
/* Destroy a window class */
@REQ(destroy_class)
atom_t atom; /* class atom */
void* instance; /* module instance */
@REPLY
void* client_ptr; /* pointer to class in client address space */
@END
/* Set some information in a class */
@REQ(set_class_info)
user_handle_t window; /* handle to the window */
unsigned int flags; /* flags for info to set (see below) */
atom_t atom; /* class atom */
unsigned int style; /* class style */
int win_extra; /* number of window extra bytes */
void* instance; /* module instance */
int extra_offset; /* offset to set in extra bytes */
data_size_t extra_size; /* size to set in extra bytes */
unsigned long extra_value; /* value to set in extra bytes */
@REPLY
atom_t old_atom; /* previous class atom */
unsigned int old_style; /* previous class style */
int old_extra; /* previous number of class extra bytes */
int old_win_extra; /* previous number of window extra bytes */
void* old_instance; /* previous module instance */
unsigned long old_extra_value; /* old value in extra bytes */
@END
#define SET_CLASS_ATOM 0x0001
#define SET_CLASS_STYLE 0x0002
#define SET_CLASS_WINEXTRA 0x0004
#define SET_CLASS_INSTANCE 0x0008
#define SET_CLASS_EXTRA 0x0010
/* Set/get clipboard information */
@REQ(set_clipboard_info)
unsigned int flags; /* flags for fields to set (see below) */
user_handle_t clipboard; /* clipboard window */
user_handle_t owner; /* clipboard owner */
user_handle_t viewer; /* first clipboard viewer */
unsigned int seqno; /* change sequence number */
@REPLY
unsigned int flags; /* status flags (see below) */
user_handle_t old_clipboard; /* old clipboard window */
user_handle_t old_owner; /* old clipboard owner */
user_handle_t old_viewer; /* old clipboard viewer */
unsigned int seqno; /* current sequence number */
@END
#define SET_CB_OPEN 0x001
#define SET_CB_OWNER 0x002
#define SET_CB_VIEWER 0x004
#define SET_CB_SEQNO 0x008
#define SET_CB_RELOWNER 0x010
#define SET_CB_CLOSE 0x020
#define CB_OPEN 0x040
#define CB_OWNER 0x080
#define CB_PROCESS 0x100
/* Open a security token */
@REQ(open_token)
obj_handle_t handle; /* handle to the thread or process */
unsigned int access; /* access rights to the new token */
unsigned int attributes;/* object attributes */
unsigned int flags; /* flags (see below) */
@REPLY
obj_handle_t token; /* handle to the token */
@END
#define OPEN_TOKEN_THREAD 1
#define OPEN_TOKEN_AS_SELF 2
/* Set/get the global windows */
@REQ(set_global_windows)
unsigned int flags; /* flags for fields to set (see below) */
user_handle_t shell_window; /* handle to the new shell window */
user_handle_t shell_listview; /* handle to the new shell listview window */
user_handle_t progman_window; /* handle to the new program manager window */
user_handle_t taskman_window; /* handle to the new task manager window */
@REPLY
user_handle_t old_shell_window; /* handle to the shell window */
user_handle_t old_shell_listview; /* handle to the shell listview window */
user_handle_t old_progman_window; /* handle to the new program manager window */
user_handle_t old_taskman_window; /* handle to the new task manager window */
@END
#define SET_GLOBAL_SHELL_WINDOWS 0x01 /* set both main shell and listview windows */
#define SET_GLOBAL_PROGMAN_WINDOW 0x02
#define SET_GLOBAL_TASKMAN_WINDOW 0x04
/* Adjust the privileges held by a token */
@REQ(adjust_token_privileges)
obj_handle_t handle; /* handle to the token */
int disable_all; /* disable all privileges? */
int get_modified_state; /* get modified privileges? */
VARARG(privileges,LUID_AND_ATTRIBUTES); /* privileges to enable/disable/remove */
@REPLY
unsigned int len; /* total length in bytes required to store token privileges */
VARARG(privileges,LUID_AND_ATTRIBUTES); /* modified privileges */
@END
/* Retrieves the set of privileges held by or available to a token */
@REQ(get_token_privileges)
obj_handle_t handle; /* handle to the token */
@REPLY
unsigned int len; /* total length in bytes required to store token privileges */
VARARG(privileges,LUID_AND_ATTRIBUTES); /* privileges held by or available to a token */
@END
/* Check the token has the required privileges */
@REQ(check_token_privileges)
obj_handle_t handle; /* handle to the token */
int all_required; /* are all the privileges required for the check to succeed? */
VARARG(privileges,LUID_AND_ATTRIBUTES); /* privileges to check */
@REPLY
int has_privileges; /* does the token have the required privileges? */
VARARG(privileges,LUID_AND_ATTRIBUTES); /* privileges held by or available to a token */
@END
@REQ(duplicate_token)
obj_handle_t handle; /* handle to the token to duplicate */
unsigned int access; /* access rights to the new token */
unsigned int attributes; /* object attributes */
int primary; /* is the new token to be a primary one? */
int impersonation_level; /* impersonation level of the new token */
@REPLY
obj_handle_t new_handle; /* duplicated handle */
@END
@REQ(access_check)
obj_handle_t handle; /* handle to the token */
unsigned int desired_access; /* desired access to the object */
unsigned int mapping_read; /* mapping from generic read to specific rights */
unsigned int mapping_write; /* mapping from generic write to specific rights */
unsigned int mapping_execute; /* mapping from generic execute to specific rights */
unsigned int mapping_all; /* mapping from generic all to specific rights */
VARARG(sd,security_descriptor); /* security descriptor to check */
@REPLY
unsigned int access_granted; /* access rights actually granted */
unsigned int access_status; /* was access granted? */
unsigned int privileges_len; /* length needed to store privileges */
VARARG(privileges,LUID_AND_ATTRIBUTES); /* privileges used during access check */
@END
@REQ(get_token_user)
obj_handle_t handle; /* handle to the token */
@REPLY
data_size_t user_len; /* length needed to store user */
VARARG(user,SID); /* sid of the user the token represents */
@END
@REQ(get_token_groups)
obj_handle_t handle; /* handle to the token */
@REPLY
data_size_t user_len; /* length needed to store user */
VARARG(user,token_groups); /* groups the token's user belongs to */
@END
@REQ(set_security_object)
obj_handle_t handle; /* handle to the object */
unsigned int security_info; /* which parts of security descriptor to set */
VARARG(sd,security_descriptor); /* security descriptor to set */
@END
/* Create a mailslot */
@REQ(create_mailslot)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
unsigned int max_msgsize;
timeout_t read_timeout;
VARARG(name,unicode_str); /* mailslot name */
@REPLY
obj_handle_t handle; /* handle to the mailslot */
@END
/* Set mailslot information */
@REQ(set_mailslot_info)
obj_handle_t handle; /* handle to the mailslot */
unsigned int flags;
timeout_t read_timeout;
@REPLY
unsigned int max_msgsize;
timeout_t read_timeout;
@END
#define MAILSLOT_SET_READ_TIMEOUT 1
/* Create a directory object */
@REQ(create_directory)
unsigned int access; /* access flags */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
VARARG(directory_name,unicode_str); /* Directory name */
@REPLY
obj_handle_t handle; /* handle to the directory */
@END
/* Open a directory object */
@REQ(open_directory)
unsigned int access; /* access flags */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
VARARG(directory_name,unicode_str); /* Directory name */
@REPLY
obj_handle_t handle; /* handle to the directory */
@END
/* Create a symbolic link object */
@REQ(create_symlink)
unsigned int access; /* access flags */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
data_size_t name_len; /* length of the symlink name in bytes */
VARARG(name,unicode_str,name_len); /* symlink name */
VARARG(target_name,unicode_str); /* target name */
@REPLY
obj_handle_t handle; /* handle to the symlink */
@END
/* Open a symbolic link object */
@REQ(open_symlink)
unsigned int access; /* access flags */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
VARARG(name,unicode_str); /* symlink name */
@REPLY
obj_handle_t handle; /* handle to the symlink */
@END
/* Query a symbolic link object */
@REQ(query_symlink)
obj_handle_t handle; /* handle to the symlink */
@REPLY
VARARG(target_name,unicode_str); /* target name */
@END
/* Query basic object information */
@REQ(get_object_info)
obj_handle_t handle; /* handle to the object */
@REPLY
unsigned int access; /* granted access mask */
unsigned int ref_count; /* object ref count */
@END
/* Query the impersonation level of an impersonation token */
@REQ(get_token_impersonation_level)
obj_handle_t handle; /* handle to the object */
@REPLY
int impersonation_level; /* impersonation level of the impersonation token */
@END
/* Allocate a locally-unique identifier */
@REQ(allocate_locally_unique_id)
@REPLY
luid_t luid;
@END
/* Create a device manager */
@REQ(create_device_manager)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
@REPLY
obj_handle_t handle; /* handle to the device */
@END
/* Create a device */
@REQ(create_device)
unsigned int access; /* wanted access rights */
unsigned int attributes; /* object attributes */
obj_handle_t rootdir; /* root directory */
obj_handle_t manager; /* device manager */
void* user_ptr; /* opaque ptr for use by client */
VARARG(name,unicode_str); /* object name */
@REPLY
obj_handle_t handle; /* handle to the device */
@END
/* Delete a device */
@REQ(delete_device)
obj_handle_t handle; /* handle to the device */
@END
/* Retrieve the next pending device ioctl request */
@REQ(get_next_device_request)
obj_handle_t manager; /* handle to the device manager */
obj_handle_t prev; /* handle to the previous ioctl */
unsigned int status; /* status of the previous ioctl */
VARARG(prev_data,bytes); /* output data of the previous ioctl */
@REPLY
obj_handle_t next; /* handle to the next ioctl */
ioctl_code_t code; /* ioctl code */
void* user_ptr; /* opaque ptr for the device */
data_size_t in_size; /* total needed input size */
data_size_t out_size; /* needed output size */
VARARG(next_data,bytes); /* input data of the next ioctl */
@END
/* Make the current process a system process */
@REQ(make_process_system)
@REPLY
obj_handle_t event; /* event signaled when all user processes have exited */
@END