/* -*- 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 #include #include #include #include #include typedef unsigned int obj_handle_t; typedef unsigned int user_handle_t; typedef unsigned int 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; typedef unsigned __int64 lparam_t; typedef unsigned __int64 apc_param_t; typedef unsigned __int64 mem_size_t; typedef unsigned __int64 file_pos_t; typedef unsigned __int64 client_ptr_t; typedef unsigned __int64 affinity_t; typedef unsigned __int64 object_id_t; typedef client_ptr_t mod_handle_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 */ /* debug event data */ union debug_event_data { int code; /* event code */ struct { int code; /* DbgExceptionStateChange */ int first; /* first chance exception? */ unsigned int exc_code; /* exception code */ unsigned int flags; /* exception flags */ client_ptr_t record; /* exception record */ client_ptr_t address; /* exception address */ int nb_params; /* number of parameters */ int __pad; client_ptr_t params[15]; /* parameters */ } exception; struct { int code; /* DbgCreateThreadStateChange */ obj_handle_t handle; /* handle to the new thread */ client_ptr_t start; /* thread startup routine */ } create_thread; struct { int code; /* DbgCreateProcessStateChange */ 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 */ mod_handle_t base; /* base of executable image */ int dbg_offset; /* offset of debug info in file */ int dbg_size; /* size of debug info */ client_ptr_t start; /* thread startup routine */ } create_process; struct { int code; /* DbgExitThreadStateChange/DbgExitProcessStateChange */ int exit_code; /* thread or process exit code */ } exit; struct { int code; /* DbgLoadDllStateChange */ obj_handle_t handle; /* file handle for the dll */ mod_handle_t base; /* base address of the dll */ int dbg_offset; /* offset of debug info in file */ int dbg_size; /* size of debug info */ client_ptr_t name; /* image name (optional) */ } load_dll; struct { int code; /* DbgUnloadDllStateChange */ int __pad; mod_handle_t base; /* base address of the dll */ } unload_dll; }; enum context_exec_space { EXEC_SPACE_USERMODE, EXEC_SPACE_SYSCALL, EXEC_SPACE_EXCEPTION, }; /* context data */ typedef struct { unsigned int machine; /* machine type */ unsigned int flags; /* SERVER_CTX_* flags */ union { struct { unsigned int eip, ebp, esp, eflags, cs, ss; } i386_regs; struct { unsigned __int64 rip, rbp, rsp; unsigned int cs, ss, flags, __pad; } x86_64_regs; struct { unsigned int sp, lr, pc, cpsr; } arm_regs; struct { unsigned __int64 sp, pc, pstate; } arm64_regs; } ctl; /* selected by SERVER_CTX_CONTROL */ union { struct { unsigned int eax, ebx, ecx, edx, esi, edi; } i386_regs; struct { unsigned __int64 rax,rbx, rcx, rdx, rsi, rdi, r8, r9, r10, r11, r12, r13, r14, r15; } x86_64_regs; struct { unsigned int r[13]; } arm_regs; struct { unsigned __int64 x[31]; } arm64_regs; } integer; /* selected by SERVER_CTX_INTEGER */ union { struct { unsigned int ds, es, fs, gs; } i386_regs; struct { unsigned int ds, es, fs, gs; } x86_64_regs; } seg; /* selected by SERVER_CTX_SEGMENTS */ union { struct { unsigned int ctrl, status, tag, err_off, err_sel, data_off, data_sel, cr0npx; unsigned char regs[80]; } i386_regs; struct { struct { unsigned __int64 low, high; } fpregs[32]; } x86_64_regs; struct { unsigned __int64 d[32]; unsigned int fpscr; } arm_regs; struct { struct { unsigned __int64 low, high; } q[32]; unsigned int fpcr, fpsr; } arm64_regs; } fp; /* selected by SERVER_CTX_FLOATING_POINT */ union { struct { unsigned int dr0, dr1, dr2, dr3, dr6, dr7; } i386_regs; struct { unsigned __int64 dr0, dr1, dr2, dr3, dr6, dr7; } x86_64_regs; struct { unsigned int bvr[8], bcr[8], wvr[1], wcr[1]; } arm_regs; struct { unsigned __int64 bvr[8], wvr[2]; unsigned int bcr[8], wcr[2]; } arm64_regs; } debug; /* selected by SERVER_CTX_DEBUG_REGISTERS */ union { unsigned char i386_regs[512]; } ext; /* selected by SERVER_CTX_EXTENDED_REGISTERS */ union { struct { enum context_exec_space space; int __pad; } space; } exec_space; /* selected by SERVER_CTX_EXEC_SPACE */ union { struct { struct { unsigned __int64 low, high; } ymm_high[16]; } regs; } ymm; /* selected by SERVER_CTX_YMM_REGISTERS */ } context_t; #define SERVER_CTX_CONTROL 0x01 #define SERVER_CTX_INTEGER 0x02 #define SERVER_CTX_SEGMENTS 0x04 #define SERVER_CTX_FLOATING_POINT 0x08 #define SERVER_CTX_DEBUG_REGISTERS 0x10 #define SERVER_CTX_EXTENDED_REGISTERS 0x20 #define SERVER_CTX_YMM_REGISTERS 0x40 #define SERVER_CTX_EXEC_SPACE 0x80 /* 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 { client_ptr_t cookie; /* magic cookie that was passed in select_request */ int signaled; /* wait result */ int __pad; }; /* NT-style timeout, in 100ns units, negative means relative timeout */ typedef __int64 timeout_t; #define TIMEOUT_INFINITE (((timeout_t)0x7fffffff) << 32 | 0xffffffff) /* absolute timeout, negative means that monotonic clock is used */ typedef __int64 abstime_t; /* structure for process startup info */ typedef struct { unsigned int debug_flags; unsigned int console_flags; obj_handle_t console; obj_handle_t hstdin; obj_handle_t hstdout; obj_handle_t hstderr; unsigned int x; unsigned int y; unsigned int xsize; unsigned int ysize; unsigned int xchars; unsigned int ychars; unsigned int attribute; unsigned int flags; unsigned int show; process_id_t process_group_id; data_size_t curdir_len; data_size_t dllpath_len; data_size_t imagepath_len; data_size_t cmdline_len; data_size_t title_len; data_size_t desktop_len; data_size_t shellinfo_len; data_size_t runtime_len; /* VARARG(curdir,unicode_str,curdir_len); */ /* VARARG(dllpath,unicode_str,dllpath_len); */ /* VARARG(imagepath,unicode_str,imagepath_len); */ /* VARARG(cmdline,unicode_str,cmdline_len); */ /* VARARG(title,unicode_str,title_len); */ /* VARARG(desktop,unicode_str,desktop_len); */ /* VARARG(shellinfo,unicode_str,shellinfo_len); */ /* VARARG(runtime,unicode_str,runtime_len); */ } startup_info_t; /* structure returned in the list of window properties */ typedef struct { atom_t atom; /* property atom */ int string; /* was atom a string originally? */ lparam_t data; /* data 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 */ struct async_data { obj_handle_t handle; /* object to perform I/O on */ obj_handle_t event; /* event to signal when done */ client_ptr_t iosb; /* I/O status block in client addr space */ client_ptr_t user; /* opaque user data containing callback pointer and async-specific data */ client_ptr_t apc; /* user APC to call */ apc_param_t apc_context; /* user APC context or completion value */ }; /* structures for extra message data */ struct hw_msg_source { unsigned int device; /* source device (IMDT_* values) */ unsigned int origin; /* source origin (IMO_* values) */ }; struct rawinput { int type; /* rawinput data type (RIM_* values) */ unsigned int device; /* rawinput device pseudo-handle */ unsigned int wparam; /* wparam of the WM_INPUT* message */ unsigned int usage; /* HID device usage */ }; struct hardware_msg_data { lparam_t info; /* extra info */ data_size_t size; /* size of hardware message data */ int __pad; unsigned int hw_id; /* unique id */ unsigned int flags; /* hook flags */ struct hw_msg_source source; /* message source */ struct rawinput rawinput; /* rawinput message data */ }; struct callback_msg_data { client_ptr_t callback; /* callback function */ lparam_t data; /* user data for callback */ lparam_t result; /* message result */ }; struct winevent_msg_data { user_handle_t hook; /* hook handle */ thread_id_t tid; /* thread id */ client_ptr_t hook_proc; /* hook proc address */ /* followed by module name if any */ }; union hw_input { int type; struct { int type; /* INPUT_KEYBOARD */ unsigned short vkey; /* virtual key code */ unsigned short scan; /* scan code */ unsigned int flags; /* event flags */ unsigned int time; /* event time */ lparam_t info; /* extra info */ } kbd; struct { int type; /* INPUT_MOUSE */ int x; /* coordinates */ int y; unsigned int data; /* mouse data */ unsigned int flags; /* event flags */ unsigned int time; /* event time */ lparam_t info; /* extra info */ } mouse; struct { int type; /* INPUT_HARDWARE */ unsigned int msg; /* message code */ lparam_t wparam; /* parameters */ lparam_t lparam; /* parameters */ struct hid_input hid; /* defined in ntuser.h */ } hw; }; union message_data { unsigned char bytes[1]; /* raw data for sent messages */ struct hardware_msg_data hardware; struct callback_msg_data callback; struct winevent_msg_data winevent; }; /* structure returned in filesystem events */ struct filesystem_event { int action; data_size_t len; char name[1]; }; struct luid { unsigned int low_part; int high_part; }; struct luid_attr { struct luid luid; unsigned int attrs; }; struct acl { unsigned char revision; unsigned char pad1; unsigned short size; unsigned short count; unsigned short pad2; }; struct sid { unsigned char revision; unsigned char sub_count; unsigned char id_auth[6]; unsigned int sub_auth[15]; }; typedef struct { unsigned int read; unsigned int write; unsigned int exec; unsigned int all; } generic_map_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; /* VARARG(owner,sid); */ /* VARARG(group,sid); */ /* VARARG(sacl,acl); */ /* VARARG(dacl,acl); */ }; struct object_attributes { obj_handle_t rootdir; /* root directory */ unsigned int attributes; /* object attributes */ data_size_t sd_len; /* length of security_descriptor data. may be 0 */ data_size_t name_len; /* length of the name string. may be 0 */ /* VARARG(sd,security_descriptor); */ /* VARARG(name,unicode_str); */ }; struct object_type_info { data_size_t name_len; /* length of the name string */ unsigned int index; /* type index in global table */ unsigned int obj_count; /* count of objects of this type */ unsigned int handle_count; /* count of handles of this type */ unsigned int obj_max; /* max count of objects of this type */ unsigned int handle_max; /* max count of handles of this type */ unsigned int valid_access; /* mask for valid access bits */ generic_map_t mapping; /* generic access mappings */ /* VARARG(name,unicode_str); */ }; enum select_opcode { SELECT_NONE, SELECT_WAIT, SELECT_WAIT_ALL, SELECT_SIGNAL_AND_WAIT, SELECT_KEYED_EVENT_WAIT, SELECT_KEYED_EVENT_RELEASE }; union select_op { enum select_opcode op; struct { enum select_opcode op; /* SELECT_WAIT or SELECT_WAIT_ALL */ obj_handle_t handles[MAXIMUM_WAIT_OBJECTS]; int __pad; } wait; struct { enum select_opcode op; /* SELECT_SIGNAL_AND_WAIT */ obj_handle_t wait; obj_handle_t signal; /* must be last in the structure so we can remove it on retries */ } signal_and_wait; struct { enum select_opcode op; /* SELECT_KEYED_EVENT_WAIT or SELECT_KEYED_EVENT_RELEASE */ obj_handle_t handle; client_ptr_t key; } keyed_event; }; enum apc_type { APC_NONE, APC_USER, APC_ASYNC_IO, APC_VIRTUAL_ALLOC, APC_VIRTUAL_ALLOC_EX, APC_VIRTUAL_FREE, APC_VIRTUAL_QUERY, APC_VIRTUAL_PROTECT, APC_VIRTUAL_FLUSH, APC_VIRTUAL_LOCK, APC_VIRTUAL_UNLOCK, APC_MAP_VIEW, APC_MAP_VIEW_EX, APC_UNMAP_VIEW, APC_CREATE_THREAD, APC_DUP_HANDLE }; struct user_apc { enum apc_type type; /* APC_USER */ int __pad; client_ptr_t func; /* void (__stdcall *func)(ULONG_PTR,ULONG_PTR,ULONG_PTR); */ apc_param_t args[3]; /* arguments for user function */ }; union apc_call { enum apc_type type; struct user_apc user; struct { enum apc_type type; /* APC_ASYNC_IO */ unsigned int status; /* I/O status */ client_ptr_t user; /* user pointer */ client_ptr_t sb; /* status block */ data_size_t result; /* result size */ } async_io; struct { enum apc_type type; /* APC_VIRTUAL_ALLOC */ unsigned int op_type; /* type of operation */ client_ptr_t addr; /* requested address */ mem_size_t size; /* allocation size */ mem_size_t zero_bits; /* number of zero high bits */ unsigned int prot; /* memory protection flags */ } virtual_alloc; struct { enum apc_type type; /* APC_VIRTUAL_ALLOC */ unsigned int op_type; /* type of operation */ client_ptr_t addr; /* requested address */ mem_size_t size; /* allocation size */ mem_size_t limit_low; /* allocation address limits */ mem_size_t limit_high; mem_size_t align; /* allocation alignment */ unsigned int prot; /* memory protection flags */ unsigned int attributes; /* memory extended attributes */ } virtual_alloc_ex; struct { enum apc_type type; /* APC_VIRTUAL_FREE */ unsigned int op_type; /* type of operation */ client_ptr_t addr; /* requested address */ mem_size_t size; /* allocation size */ } virtual_free; struct { enum apc_type type; /* APC_VIRTUAL_QUERY */ int __pad; client_ptr_t addr; /* requested address */ } virtual_query; struct { enum apc_type type; /* APC_VIRTUAL_PROTECT */ unsigned int prot; /* new protection flags */ client_ptr_t addr; /* requested address */ mem_size_t size; /* requested size */ } virtual_protect; struct { enum apc_type type; /* APC_VIRTUAL_FLUSH */ int __pad; client_ptr_t addr; /* requested address */ mem_size_t size; /* requested size */ } virtual_flush; struct { enum apc_type type; /* APC_VIRTUAL_LOCK */ int __pad; client_ptr_t addr; /* requested address */ mem_size_t size; /* requested size */ } virtual_lock; struct { enum apc_type type; /* APC_VIRTUAL_UNLOCK */ int __pad; client_ptr_t addr; /* requested address */ mem_size_t size; /* requested size */ } virtual_unlock; struct { enum apc_type type; /* APC_MAP_VIEW */ obj_handle_t handle; /* mapping handle */ client_ptr_t addr; /* requested address */ mem_size_t size; /* allocation size */ file_pos_t offset; /* file offset */ mem_size_t zero_bits; /* number of zero high bits */ unsigned int alloc_type; /* allocation type */ unsigned int prot; /* memory protection flags */ } map_view; struct { enum apc_type type; /* APC_MAP_VIEW_EX */ obj_handle_t handle; /* mapping handle */ client_ptr_t addr; /* requested address */ mem_size_t size; /* allocation size */ file_pos_t offset; /* file offset */ mem_size_t limit_low; /* allocation address limits */ mem_size_t limit_high; unsigned int alloc_type; /* allocation type */ unsigned int prot; /* memory protection flags */ unsigned short machine; /* requested machine for image mappings */ unsigned short __pad[3]; } map_view_ex; struct { enum apc_type type; /* APC_UNMAP_VIEW */ unsigned int flags; /* unmap flags */ client_ptr_t addr; /* view address */ } unmap_view; struct { enum apc_type type; /* APC_CREATE_THREAD */ unsigned int flags; /* creation flags */ client_ptr_t func; /* void (__stdcall *func)(void*); start function */ client_ptr_t arg; /* argument for start function */ mem_size_t zero_bits; /* number of zero high bits for thread stack */ mem_size_t reserve; /* reserve size for thread stack */ mem_size_t commit; /* commit size for thread stack */ } create_thread; struct { enum apc_type type; /* APC_DUP_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 */ } dup_handle; }; union apc_result { enum apc_type type; struct { enum apc_type type; /* APC_ASYNC_IO */ unsigned int status; /* new status of async operation */ unsigned int total; /* bytes transferred */ } async_io; struct { enum apc_type type; /* APC_VIRTUAL_ALLOC */ unsigned int status; /* status returned by call */ client_ptr_t addr; /* resulting address */ mem_size_t size; /* resulting size */ } virtual_alloc; struct { enum apc_type type; /* APC_VIRTUAL_ALLOC_EX */ unsigned int status; /* status returned by call */ client_ptr_t addr; /* resulting address */ mem_size_t size; /* resulting size */ } virtual_alloc_ex; struct { enum apc_type type; /* APC_VIRTUAL_FREE */ unsigned int status; /* status returned by call */ client_ptr_t addr; /* resulting address */ mem_size_t size; /* resulting size */ } virtual_free; struct { enum apc_type type; /* APC_VIRTUAL_QUERY */ unsigned int status; /* status returned by call */ client_ptr_t base; /* resulting base address */ client_ptr_t alloc_base;/* resulting allocation base */ mem_size_t size; /* resulting region size */ unsigned short state; /* resulting region state */ unsigned short prot; /* resulting region protection */ unsigned short alloc_prot;/* resulting allocation protection */ unsigned short alloc_type;/* resulting region allocation type */ } virtual_query; struct { enum apc_type type; /* APC_VIRTUAL_PROTECT */ unsigned int status; /* status returned by call */ client_ptr_t addr; /* resulting address */ mem_size_t 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 */ client_ptr_t addr; /* resulting address */ mem_size_t size; /* resulting size */ } virtual_flush; struct { enum apc_type type; /* APC_VIRTUAL_LOCK */ unsigned int status; /* status returned by call */ client_ptr_t addr; /* resulting address */ mem_size_t size; /* resulting size */ } virtual_lock; struct { enum apc_type type; /* APC_VIRTUAL_UNLOCK */ unsigned int status; /* status returned by call */ client_ptr_t addr; /* resulting address */ mem_size_t size; /* resulting size */ } virtual_unlock; struct { enum apc_type type; /* APC_MAP_VIEW */ unsigned int status; /* status returned by call */ client_ptr_t addr; /* resulting address */ mem_size_t size; /* resulting size */ } map_view; struct { enum apc_type type; /* APC_MAP_VIEW_EX */ unsigned int status; /* status returned by call */ client_ptr_t addr; /* resulting address */ mem_size_t size; /* resulting size */ } map_view_ex; struct { enum apc_type type; /* APC_UNMAP_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 */ process_id_t pid; /* process id */ thread_id_t tid; /* thread id */ client_ptr_t teb; /* thread teb (in process address space) */ obj_handle_t handle; /* handle to new thread */ } create_thread; struct { enum apc_type type; /* APC_DUP_HANDLE */ unsigned int status; /* status returned by call */ obj_handle_t handle; /* duplicated handle in dst process */ } dup_handle; struct { enum apc_type type; /* APC_BREAK_PROCESS */ unsigned int status; /* status returned by call */ } break_process; }; enum irp_type { IRP_CALL_NONE, IRP_CALL_CREATE, IRP_CALL_CLOSE, IRP_CALL_READ, IRP_CALL_WRITE, IRP_CALL_FLUSH, IRP_CALL_IOCTL, IRP_CALL_VOLUME, IRP_CALL_FREE, IRP_CALL_CANCEL }; union irp_params { enum irp_type type; /* irp call type */ struct { enum irp_type type; /* IRP_CALL_CREATE */ unsigned int access; /* access rights */ unsigned int sharing; /* sharing flags */ unsigned int options; /* file options */ client_ptr_t device; /* opaque ptr for the device */ obj_handle_t file; /* file handle */ } create; struct { enum irp_type type; /* IRP_CALL_CLOSE */ int __pad; client_ptr_t file; /* opaque ptr for the file object */ } close; struct { enum irp_type type; /* IRP_CALL_READ */ unsigned int key; /* driver key */ data_size_t out_size; /* needed output size */ int __pad; client_ptr_t file; /* opaque ptr for the file object */ file_pos_t pos; /* file position */ } read; struct { enum irp_type type; /* IRP_CALL_WRITE */ unsigned int key; /* driver key */ client_ptr_t file; /* opaque ptr for the file object */ file_pos_t pos; /* file position */ } write; struct { enum irp_type type; /* IRP_CALL_FLUSH */ int __pad; client_ptr_t file; /* opaque ptr for the file object */ } flush; struct { enum irp_type type; /* IRP_CALL_IOCTL */ ioctl_code_t code; /* ioctl code */ data_size_t out_size; /* needed output size */ int __pad; client_ptr_t file; /* opaque ptr for the file object */ } ioctl; struct { enum irp_type type; /* IRP_CALL_VOLUME */ unsigned int info_class;/* information class */ data_size_t out_size; /* needed output size */ int __pad; client_ptr_t file; /* opaque ptr for the file object */ } volume; struct { enum irp_type type; /* IRP_CALL_FREE */ int __pad; client_ptr_t obj; /* opaque ptr for the freed object */ } free; struct { enum irp_type type; /* IRP_CALL_CANCEL */ int __pad; client_ptr_t irp; /* opaque ptr for canceled irp */ } cancel; }; /* information about a PE image mapping, roughly equivalent to SECTION_IMAGE_INFORMATION */ typedef struct { client_ptr_t base; client_ptr_t map_addr; mem_size_t stack_size; mem_size_t stack_commit; unsigned int entry_point; unsigned int map_size; unsigned int zerobits; unsigned int subsystem; unsigned short subsystem_minor; unsigned short subsystem_major; unsigned short osversion_major; unsigned short osversion_minor; unsigned short image_charact; unsigned short dll_charact; unsigned short machine; unsigned char contains_code : 1; unsigned char wine_builtin : 1; unsigned char wine_fakedll : 1; unsigned char is_hybrid : 1; unsigned char padding : 4; unsigned char image_flags; unsigned int loader_flags; unsigned int header_size; unsigned int file_size; unsigned int checksum; unsigned int dbg_offset; unsigned int dbg_size; } pe_image_info_t; #define IMAGE_FLAGS_ComPlusNativeReady 0x01 #define IMAGE_FLAGS_ComPlusILOnly 0x02 #define IMAGE_FLAGS_ImageDynamicallyRelocated 0x04 #define IMAGE_FLAGS_ImageMappedFlat 0x08 #define IMAGE_FLAGS_BaseBelow4gb 0x10 #define IMAGE_FLAGS_ComPlusPrefer32bit 0x20 struct rawinput_device { unsigned int usage; unsigned int flags; user_handle_t target; }; typedef struct { int x; int y; unsigned int time; int __pad; lparam_t info; } cursor_pos_t; struct directory_entry { data_size_t name_len; data_size_t type_len; /* VARARG(name,unicode_str,name_len); */ /* VARARG(type,unicode_str,type_len); */ }; struct monitor_info { rectangle_t raw; /* host / physical position of the monitor rect */ rectangle_t virt; /* client / virtual position of the monitor rect */ unsigned int flags; /* MONITOR_FLAG_* flags for the monitor */ unsigned int dpi; /* physical DPI for the monitor */ }; #define MONITOR_FLAG_PRIMARY 0x01 #define MONITOR_FLAG_CLONE 0x02 #define MONITOR_FLAG_INACTIVE 0x04 /****************************************************************/ /* shared session mapping structures */ struct shared_cursor { int x; /* cursor position */ int y; unsigned int last_change; /* time of last position change */ rectangle_t clip; /* cursor clip rectangle */ }; typedef volatile struct { unsigned int flags; /* desktop flags */ struct shared_cursor cursor; /* global cursor information */ unsigned char keystate[256]; /* asynchronous key state */ } desktop_shm_t; typedef volatile struct { int hooks_count[WH_MAX - WH_MIN + 2]; /* active hooks count */ unsigned int wake_mask; /* wakeup mask */ unsigned int wake_bits; /* wakeup bits */ unsigned int changed_mask; /* changed wakeup mask */ unsigned int changed_bits; /* changed wakeup bits */ } queue_shm_t; typedef volatile struct { int foreground; /* is desktop foreground thread input */ user_handle_t active; /* handle to the active window */ user_handle_t focus; /* handle to the focus window */ user_handle_t capture; /* handle to the capture 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 caret_rect; /* caret rectangle */ user_handle_t cursor; /* handle to the cursor */ int cursor_count; /* cursor show count */ unsigned char keystate[256]; /* key state */ int keystate_lock; /* keystate is locked */ } input_shm_t; typedef volatile union { desktop_shm_t desktop; queue_shm_t queue; input_shm_t input; } object_shm_t; typedef volatile struct { LONG64 seq; /* sequence number - server updating if (seq & 1) != 0 */ object_id_t id; /* object unique id, object data is valid if != 0 */ object_shm_t shm; /* object shared data */ } shared_object_t; typedef struct { object_id_t id; /* object unique id, object data is valid if != 0 */ mem_size_t offset; /* offset of the object in session shared memory */ } obj_locator_t; /****************************************************************/ /* Request declarations */ /* Create a new process from the context of the parent */ @REQ(new_process) obj_handle_t token; /* process token */ obj_handle_t debug; /* process debug object */ obj_handle_t parent_process; /* parent process */ unsigned int flags; /* process creation flags */ int socket_fd; /* file descriptor for process socket */ unsigned int access; /* access rights for process object */ unsigned short machine; /* architecture that the new process will use */ data_size_t info_size; /* size of startup info */ data_size_t handles_size; /* length of explicit handles list */ data_size_t jobs_size; /* length of jobs list */ VARARG(objattr,object_attributes); /* object attributes */ VARARG(handles,uints,handles_size); /* handles list */ VARARG(jobs,uints,jobs_size); /* jobs list */ VARARG(info,startup_info,info_size); /* 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 handle; /* process 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 */ @REQ(new_thread) obj_handle_t process; /* process in which to create thread */ unsigned int access; /* wanted access rights */ unsigned int flags; /* thread creation flags */ int request_fd; /* fd for request pipe */ VARARG(objattr,object_attributes); /* object attributes */ @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 data_size_t info_size; /* size of startup info */ unsigned short machine; /* architecture for the new process */ VARARG(info,startup_info,info_size); /* startup information */ VARARG(env,unicode_str); /* environment */ @END /* Signal the end of the process initialization */ @REQ(init_process_done) client_ptr_t teb; /* TEB of new thread (in process address space) */ client_ptr_t peb; /* PEB of new process (in process address space) */ client_ptr_t ldt_copy; /* address of LDT copy (in process address space) */ @REPLY int suspend; /* is process suspended? */ @END /* Initialize the first thread of a new process */ @REQ(init_first_thread) int unix_pid; /* Unix pid of new process */ int unix_tid; /* Unix tid of new thread */ int debug_level; /* new debug level */ 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 */ timeout_t server_start; /* server start time */ unsigned int session_id; /* process session id */ data_size_t info_size; /* total size of startup info */ VARARG(machines,ushorts); /* array of supported machines */ @END /* Initialize a new thread; called from the child after pthread_create() */ @REQ(init_thread) int unix_tid; /* Unix tid of new thread */ int reply_fd; /* fd for reply pipe */ int wait_fd; /* fd for blocking calls pipe */ client_ptr_t teb; /* TEB of new thread (in thread address space) */ client_ptr_t entry; /* entry point (in thread address space) */ @REPLY int suspend; /* is thread suspended? */ @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? */ @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 */ affinity_t affinity; /* process affinity mask */ client_ptr_t peb; /* PEB address in process address space */ timeout_t start_time; /* process start time */ timeout_t end_time; /* process end time */ unsigned int session_id; /* process session id */ int exit_code; /* process exit code */ int priority; /* priority class */ unsigned short machine; /* process architecture */ VARARG(image,pe_image_info); /* image info for main exe */ @END /* Retrieve debug information about a process */ @REQ(get_process_debug_info) obj_handle_t handle; /* process handle */ @REPLY obj_handle_t debug; /* handle to debug port */ int debug_children; /* inherit debugger to child processes */ VARARG(image,pe_image_info); /* image info for main exe */ @END /* Fetch the name of the process image */ @REQ(get_process_image_name) obj_handle_t handle; /* process handle */ process_id_t pid; /* process id */ int win32; /* return a win32 filename? */ @REPLY data_size_t len; /* len in bytes required to store filename */ VARARG(name,unicode_str); /* image name for main exe */ @END /* Retrieve information about a process memory usage */ @REQ(get_process_vm_counters) obj_handle_t handle; /* process handle */ @REPLY mem_size_t peak_virtual_size; /* peak virtual memory in bytes */ mem_size_t virtual_size; /* virtual memory in bytes */ mem_size_t peak_working_set_size; /* peak real memory in bytes */ mem_size_t working_set_size; /* real memory in bytes */ mem_size_t pagefile_usage; /* commit charge in bytes */ mem_size_t peak_pagefile_usage; /* peak commit charge in bytes */ @END /* Set a process information */ @REQ(set_process_info) obj_handle_t handle; /* process handle */ int mask; /* setting mask (see below) */ int priority; /* priority class */ affinity_t affinity; /* affinity mask */ obj_handle_t token; /* primary token */ @END #define SET_PROCESS_INFO_PRIORITY 0x01 #define SET_PROCESS_INFO_AFFINITY 0x02 #define SET_PROCESS_INFO_TOKEN 0x04 /* Retrieve information about a thread */ @REQ(get_thread_info) obj_handle_t handle; /* thread handle */ unsigned int access; /* required access rights */ @REPLY process_id_t pid; /* server process id */ thread_id_t tid; /* server thread id */ client_ptr_t teb; /* thread teb pointer */ client_ptr_t entry_point; /* thread entry point */ affinity_t affinity; /* thread affinity mask */ int exit_code; /* thread exit code */ int priority; /* thread priority level */ int last; /* last thread in process */ int suspend_count; /* thread suspend count */ unsigned int flags; /* GET_THREAD_INFO_FLAG_ flags */ data_size_t desc_len; /* description length in bytes */ VARARG(desc,unicode_str); /* description string */ @END #define GET_THREAD_INFO_FLAG_DBG_HIDDEN 0x01 #define GET_THREAD_INFO_FLAG_TERMINATED 0x02 /* Retrieve information about thread times */ @REQ(get_thread_times) obj_handle_t handle; /* thread handle */ @REPLY timeout_t creation_time; /* thread creation time */ timeout_t exit_time; /* thread exit time */ int unix_pid; /* thread native pid */ int unix_tid; /* thread native pid */ @END /* Set a thread information */ @REQ(set_thread_info) obj_handle_t handle; /* thread handle */ int mask; /* setting mask (see below) */ int priority; /* priority class */ affinity_t affinity; /* affinity mask */ client_ptr_t entry_point; /* thread entry point */ obj_handle_t token; /* impersonation token */ VARARG(desc,unicode_str); /* description string */ @END #define SET_THREAD_INFO_PRIORITY 0x01 #define SET_THREAD_INFO_AFFINITY 0x02 #define SET_THREAD_INFO_TOKEN 0x04 #define SET_THREAD_INFO_ENTRYPOINT 0x08 #define SET_THREAD_INFO_DESCRIPTION 0x10 #define SET_THREAD_INFO_DBG_HIDDEN 0x20 /* 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 /* Queue an APC for a thread or process */ @REQ(queue_apc) obj_handle_t handle; /* thread or process handle */ VARARG(call,apc_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 union apc_result 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 */ @REPLY obj_handle_t handle; /* duplicated handle in dst process */ @END /* Allocate a reserve object for pre-allocating memory for object types */ @REQ(allocate_reserve_object) int type; /* reserve object type. See MEMORY_RESERVE_OBJECT_TYPE */ VARARG(objattr,object_attributes); /* object attributes */ @REPLY obj_handle_t handle; /* reserve object handle */ @END /* Test if two handles refer to the same object */ @REQ(compare_objects) obj_handle_t first; /* first object handle */ obj_handle_t second; /* second object handle */ @END /* Make an object permanent or temporary */ @REQ(set_object_permanence) obj_handle_t handle; /* handle to the object */ int permanent; /* 1 to make permanent, 0 to make temporary */ @END /* 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) */ client_ptr_t cookie; /* magic cookie to return to client */ abstime_t timeout; /* timeout */ data_size_t size; /* size of select_op */ obj_handle_t prev_apc; /* handle to previous APC */ VARARG(result,apc_result); /* result of previous APC */ VARARG(data,select_op,size); /* operation-specific data */ VARARG(contexts,contexts); /* suspend context(s) */ @REPLY obj_handle_t apc_handle; /* handle to next APC */ int signaled; /* were the handles immediately signaled? */ VARARG(call,apc_call); /* APC call arguments */ VARARG(contexts,contexts); /* suspend context(s) */ @END #define SELECT_ALERTABLE 1 #define SELECT_INTERRUPTIBLE 2 /* Create an event */ @REQ(create_event) unsigned int access; /* wanted access rights */ int manual_reset; /* manual reset event */ int initial_state; /* initial state of the event */ VARARG(objattr,object_attributes); /* object attributes */ @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) */ @REPLY int state; /* previous state */ @END enum event_op { PULSE_EVENT, SET_EVENT, RESET_EVENT }; @REQ(query_event) obj_handle_t handle; /* handle to event */ @REPLY int manual_reset; /* manual reset event */ int state; /* current state of the event */ @END /* 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 keyed event */ @REQ(create_keyed_event) unsigned int access; /* wanted access rights */ VARARG(objattr,object_attributes); /* object attributes */ @REPLY obj_handle_t handle; /* handle to the event */ @END /* Open a keyed event */ @REQ(open_keyed_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 */ int owned; /* initially owned? */ VARARG(objattr,object_attributes); /* object attributes */ @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 /* Query a mutex */ @REQ(query_mutex) obj_handle_t handle; /* handle to mutex */ @REPLY unsigned int count; /* current count of mutex */ int owned; /* true if owned by current thread */ int abandoned; /* true if abandoned */ @END /* Create a semaphore */ @REQ(create_semaphore) unsigned int access; /* wanted access rights */ unsigned int initial; /* initial count */ unsigned int max; /* maximum count */ VARARG(objattr,object_attributes); /* object attributes */ @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 @REQ(query_semaphore) obj_handle_t handle; /* handle to the semaphore */ @REPLY unsigned int current; /* current count */ unsigned int max; /* maximum 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 sharing; /* sharing flags */ int create; /* file create action */ unsigned int options; /* file options */ unsigned int attrs; /* file attributes for creation */ VARARG(objattr,object_attributes); /* object attributes */ 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 the Unix name from a file handle */ @REQ(get_handle_unix_name) obj_handle_t handle; /* file handle */ @REPLY data_size_t name_len; /* unix name length */ VARARG(name,string); /* unix name */ @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 cacheable; /* can fd be cached in the client? */ 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_CHAR, /* unspecified char device */ FD_TYPE_DEVICE, /* Windows device file */ FD_TYPE_NB_TYPES }; /* Retrieve (or allocate) the client-side directory cache entry */ @REQ(get_directory_cache_entry) obj_handle_t handle; /* handle to the directory */ @REPLY int entry; /* cache entry on the client side */ VARARG(free,ints); /* entries that can be freed */ @END /* Flush a file buffers */ @REQ(flush) struct async_data async; /* async I/O parameters */ @REPLY obj_handle_t event; /* event set when finished */ @END /* Query file information */ @REQ(get_file_info) obj_handle_t handle; /* handle to the file */ unsigned int info_class; /* queried information class */ @REPLY VARARG(data,bytes); /* file info data */ @END /* Query volume information */ @REQ(get_volume_info) obj_handle_t handle; /* handle to the file */ struct async_data async; /* async I/O parameters */ unsigned int info_class; /* queried information class */ @REPLY obj_handle_t wait; /* handle to wait on for blocking read */ VARARG(data,bytes); /* volume info data */ @END /* Lock a region of a file */ @REQ(lock_file) obj_handle_t handle; /* handle to the file */ file_pos_t offset; /* offset of start of lock */ file_pos_t count; /* 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 */ file_pos_t offset; /* offset of start of unlock */ file_pos_t count; /* count of bytes to unlock */ @END /* Perform a recv on a socket */ @REQ(recv_socket) int oob; /* are we receiving OOB data? */ struct async_data async; /* async I/O parameters */ int force_async; /* Force asynchronous mode? */ @REPLY obj_handle_t wait; /* handle to wait on for blocking recv */ unsigned int options; /* device open options */ int nonblocking; /* is socket non-blocking? */ @END /* Perform a send on a socket */ @REQ(send_socket) unsigned int flags; /* SERVER_SOCKET_IO_* flags */ struct async_data async; /* async I/O parameters */ @REPLY obj_handle_t wait; /* handle to wait on for blocking send */ unsigned int options; /* device open options */ int nonblocking; /* is socket non-blocking? */ @END #define SERVER_SOCKET_IO_FORCE_ASYNC 0x01 #define SERVER_SOCKET_IO_SYSTEM 0x02 /* Get socket event flags */ @REQ(socket_get_events) obj_handle_t handle; /* socket handle */ obj_handle_t event; /* event to reset */ @REPLY unsigned int flags; /* event mask */ VARARG(status,uints); /* array of status codes */ @END /* Store ICMP id for ICMP over datagram fixup */ @REQ(socket_send_icmp_id) obj_handle_t handle; /* socket handle */ unsigned short icmp_id; /* ICMP packet id */ unsigned short icmp_seq; /* ICMP packed sequence */ @REPLY @END /* Get ICMP id for ICMP over datagram fixup */ @REQ(socket_get_icmp_id) obj_handle_t handle; /* socket handle */ unsigned short icmp_seq; /* ICMP packed sequence */ @REPLY unsigned short icmp_id; /* ICMP packet id */ @END /* Retrieve the next pending console ioctl request */ @REQ(get_next_console_request) obj_handle_t handle; /* console server handle */ int signal; /* server signal state */ int read; /* 1 if reporting result of blocked read ioctl */ unsigned int status; /* status of previous ioctl */ VARARG(out_data,bytes); /* out_data of previous ioctl */ @REPLY unsigned int code; /* ioctl code */ unsigned int output; /* output id or 0 for input */ data_size_t out_size; /* ioctl output size */ VARARG(in_data,bytes); /* ioctl in_data */ @END /* enable directory change notifications */ @REQ(read_directory_changes) unsigned int filter; /* notification filter */ int subtree; /* watch the subtree? */ int want_data; /* flag indicating whether change data should be collected */ struct async_data async; /* async I/O parameters */ @END @REQ(read_change) obj_handle_t handle; @REPLY VARARG(events,filesystem_event); /* collected filesystem events */ @END /* Create a file mapping */ @REQ(create_mapping) unsigned int access; /* wanted access rights */ unsigned int flags; /* SEC_* flags */ unsigned int file_access; /* file access rights */ mem_size_t size; /* mapping size */ obj_handle_t file_handle; /* file handle */ VARARG(objattr,object_attributes); /* object attributes */ @REPLY obj_handle_t handle; /* handle to the mapping */ @END /* 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 */ unsigned int access; /* wanted access rights */ @REPLY mem_size_t size; /* mapping size */ unsigned int flags; /* SEC_* flags */ obj_handle_t shared_file; /* shared mapping file handle */ data_size_t total; /* total required buffer size in bytes */ VARARG(image,pe_image_info);/* image info for SEC_IMAGE mappings */ VARARG(name,unicode_str); /* filename for SEC_IMAGE mappings */ @END /* Get the address to use to map an image mapping */ @REQ(get_image_map_address) obj_handle_t handle; /* handle to the mapping */ @REPLY client_ptr_t addr; /* map address */ @END /* Add a memory view in the current process */ @REQ(map_view) obj_handle_t mapping; /* file mapping handle */ unsigned int access; /* wanted access rights */ client_ptr_t base; /* view base address (page-aligned) */ mem_size_t size; /* view size */ file_pos_t start; /* start offset in mapping */ @END /* Add a memory view for an image mapping in the current process */ @REQ(map_image_view) obj_handle_t mapping; /* file mapping handle */ client_ptr_t base; /* view base address (page-aligned) */ mem_size_t size; /* view size */ unsigned int entry; /* entry point in mapped view */ unsigned short machine; /* machine in the mapped view */ @END /* Add a memory view for a builtin dll in the current process */ @REQ(map_builtin_view) VARARG(image,pe_image_info);/* image info */ VARARG(name,unicode_str); /* image filename */ @END /* Get information about a mapped image view */ @REQ(get_image_view_info) obj_handle_t process; /* process handle */ client_ptr_t addr; /* address inside mapped view (in process address space) */ @REPLY client_ptr_t base; /* view base address */ mem_size_t size; /* view size */ @END /* Unmap a memory view from the current process */ @REQ(unmap_view) client_ptr_t base; /* view base address */ @END /* Get a range of committed pages in a file mapping */ @REQ(get_mapping_committed_range) client_ptr_t base; /* view base address */ file_pos_t offset; /* starting offset (page-aligned, in bytes) */ @REPLY mem_size_t size; /* size of range starting at offset (page-aligned, in bytes) */ int committed; /* whether it is a committed range */ @END /* Add a range to the committed pages in a file mapping */ @REQ(add_mapping_committed_range) client_ptr_t base; /* view base address */ file_pos_t offset; /* starting offset (page-aligned, in bytes) */ mem_size_t size; /* size to set (page-aligned, in bytes) or 0 if only retrieving */ @END /* Check if two memory maps are for the same file */ @REQ(is_same_mapping) client_ptr_t base1; /* first view base address */ client_ptr_t base2; /* second view base address */ @END /* Get the filename of a mapping */ @REQ(get_mapping_filename) obj_handle_t process; /* process handle */ client_ptr_t addr; /* address inside mapped view (in process address space) */ @REPLY data_size_t len; /* total filename length in bytes */ VARARG(filename,unicode_str); /* filename in NT format */ @END struct thread_info { timeout_t start_time; thread_id_t tid; int base_priority; int current_priority; int unix_tid; client_ptr_t teb; client_ptr_t entry_point; }; struct process_info { timeout_t start_time; data_size_t name_len; int thread_count; int priority; process_id_t pid; process_id_t parent_pid; unsigned int session_id; int handle_count; int unix_pid; /* VARARG(name,unicode_str,name_len); */ /* VARARG(threads,struct thread_info,thread_count); */ }; /* Get a list of processes and threads currently running */ @REQ(list_processes) @REPLY data_size_t info_size; int process_count; int total_thread_count; data_size_t total_name_len; VARARG(data,process_info,info_size); @END /* Create a debug object */ @REQ(create_debug_obj) unsigned int access; /* wanted access rights */ unsigned int flags; /* object flags */ VARARG(objattr,object_attributes); /* object attributes */ @REPLY obj_handle_t handle; /* handle to the debug object */ @END /* Wait for a debug event */ @REQ(wait_debug_event) obj_handle_t debug; /* debug object */ @REPLY process_id_t pid; /* process id */ thread_id_t tid; /* thread id */ VARARG(event,debug_event); /* debug event data */ @END /* Queue an exception event */ @REQ(queue_exception_event) int first; /* first chance exception? */ unsigned int code; /* exception code */ unsigned int flags; /* exception flags */ client_ptr_t record; /* exception record */ client_ptr_t address; /* exception address */ data_size_t len; /* size of parameters */ VARARG(params,uints64,len);/* exception parameters */ @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 */ @END /* Continue a debug event */ @REQ(continue_debug_event) obj_handle_t debug; /* debug object */ process_id_t pid; /* process id to continue */ thread_id_t tid; /* thread id to continue */ unsigned int status; /* continuation status */ @END /* Start or stop debugging an existing process */ @REQ(debug_process) obj_handle_t handle; /* process handle */ obj_handle_t debug; /* debug object to attach to the process */ int attach; /* 1=attaching / 0=detaching from the process */ @END /* Set debug object information */ @REQ(set_debug_obj_info) obj_handle_t debug; /* debug object */ unsigned int flags; /* object flags */ @END /* Read data from a process address space */ @REQ(read_process_memory) obj_handle_t handle; /* process handle */ client_ptr_t 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 */ client_ptr_t addr; /* addr to write to */ VARARG(data,bytes); /* data to write */ @END /* Create a registry key */ @REQ(create_key) unsigned int access; /* desired access rights */ unsigned int options; /* creation options */ VARARG(objattr,object_attributes); /* object attributes */ VARARG(class,unicode_str); /* class name */ @REPLY obj_handle_t hkey; /* handle to the created key */ @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 */ timeout_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 file; /* file to load from */ VARARG(objattr,object_attributes); /* object attributes */ @END /* UnLoad a registry branch from a file */ @REQ(unload_registry) obj_handle_t parent; /* handle to the parent key */ unsigned int attributes; /* object attributes */ VARARG(name,unicode_str); /* key name */ @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 /* Rename a registry key */ @REQ(rename_key) obj_handle_t hkey; /* handle to the key to be renamed */ VARARG(name,unicode_str); /* new name */ @END /* Create a waitable timer */ @REQ(create_timer) unsigned int access; /* wanted access rights */ int manual; /* manual reset */ VARARG(objattr,object_attributes); /* object attributes */ @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 */ client_ptr_t callback; /* callback function */ client_ptr_t arg; /* callback argument */ int period; /* timer period in ms */ @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 */ obj_handle_t context; /* context handle */ unsigned int flags; /* context flags */ unsigned int native_flags; /* flags for native context if WoW present */ unsigned short machine; /* context architecture */ @REPLY int self; /* was it a handle to the current thread? */ obj_handle_t handle; /* pending context handle */ VARARG(contexts,contexts); /* thread context(s) */ @END /* Set the current context of a thread */ @REQ(set_thread_context) obj_handle_t handle; /* thread handle */ unsigned int native_flags; /* flags for native context if WoW present */ VARARG(contexts,contexts); /* thread context(s) */ @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) VARARG(name,unicode_str); /* atom name */ @REPLY atom_t atom; /* resulting atom */ @END /* Delete an atom */ @REQ(delete_atom) atom_t atom; /* atom handle */ @END /* Find an atom */ @REQ(find_atom) VARARG(name,unicode_str); /* atom name */ @REPLY atom_t atom; /* atom handle */ @END /* Get information about an atom */ @REQ(get_atom_information) 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 /* Get a handle for the current thread message queue */ @REQ(get_msg_queue_handle) @REPLY obj_handle_t handle; /* handle to the queue */ @END /* Get the message queue of the current thread */ @REQ(get_msg_queue) @REPLY obj_locator_t locator; /* locator for the shared session object */ @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) unsigned int clear_bits; /* 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 */ lparam_t wparam; /* parameters */ lparam_t 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 */ MSG_HOOK_LL /* low-level hardware hook */ }; #define SEND_MSG_ABORT_IF_HUNG 0x01 /* Send a hardware message to a thread queue */ @REQ(send_hardware_message) user_handle_t win; /* window handle */ union hw_input input; /* input data */ unsigned int flags; /* flags (see below) */ VARARG(report,bytes); /* HID report data */ @REPLY int wait; /* do we need to wait for a reply? */ int prev_x; /* previous cursor position */ int prev_y; int new_x; /* new cursor position */ int new_y; @END #define SEND_HWMSG_INJECTED 0x01 /* 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) */ unsigned int wake_mask; /* wakeup bits mask */ unsigned int changed_mask; /* changed bits mask */ unsigned int internal; /* get internal messages only */ @REPLY user_handle_t win; /* window handle */ unsigned int msg; /* message code */ lparam_t wparam; /* parameters */ lparam_t lparam; /* parameters */ int type; /* message type */ int x; /* message x position */ int y; /* message y position */ unsigned int time; /* message time */ 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) int remove; /* should we remove the message? */ lparam_t result; /* message result */ VARARG(data,bytes); /* message data for sent messages */ @END /* Accept and remove the current hardware message */ @REQ(accept_hardware_message) unsigned int hw_id; /* id of the hardware message */ @END /* Retrieve the reply for the last message sent */ @REQ(get_message_reply) int cancel; /* cancel message if not ready? */ @REPLY lparam_t 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 */ lparam_t id; /* timer id */ lparam_t lparam; /* message lparam (callback proc) */ @REPLY lparam_t id; /* timer id */ @END /* Kill a window timer */ @REQ(kill_win_timer) user_handle_t win; /* window handle */ lparam_t id; /* timer id */ unsigned int msg; /* message to post */ @END /* check if the thread owning the window is hung */ @REQ(is_window_hung) user_handle_t win; /* window handle */ @REPLY int is_hung; @END /* Retrieve info about a serial port */ @REQ(get_serial_info) obj_handle_t handle; /* handle to comm port */ int flags; @REPLY unsigned int eventmask; unsigned int pending_write; @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) */ @END #define SERIALINFO_PENDING_WRITE 0x04 /* Cancel all sync io on a thread */ @REQ(cancel_sync) obj_handle_t handle; /* thread handle on which to cancel io */ client_ptr_t iosb; /* I/O status block (NULL=all) */ @END /* Create an async I/O */ @REQ(register_async) int type; /* type of queue to look after */ struct async_data async; /* async I/O parameters */ int count; /* count - usually # of bytes to be read/written */ @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 */ client_ptr_t iosb; /* I/O status block (NULL=all) */ int only_thread; /* cancel matching this thread */ @END /* Retrieve results of an async */ @REQ(get_async_result) client_ptr_t user_arg; /* user arg used to identify async */ @REPLY VARARG(out_data,bytes); /* iosb output data */ @END /* Notify direct completion of async and close the wait handle if not blocking */ @REQ(set_async_direct_result) obj_handle_t handle; /* wait handle */ apc_param_t information; /* IO_STATUS_BLOCK Information */ unsigned int status; /* completion status */ int mark_pending; /* set async to pending before completion? */ @REPLY obj_handle_t handle; /* wait handle, or NULL if closed */ @END /* Perform a read on a file object */ @REQ(read) struct async_data async; /* async I/O parameters */ file_pos_t pos; /* read position */ @REPLY obj_handle_t wait; /* handle to wait on for blocking read */ unsigned int options; /* device open options */ VARARG(data,bytes); /* read data */ @END /* Perform a write on a file object */ @REQ(write) struct async_data async; /* async I/O parameters */ file_pos_t pos; /* write position */ VARARG(data,bytes); /* write data */ @REPLY obj_handle_t wait; /* handle to wait on for blocking write */ unsigned int options; /* device open options */ data_size_t size; /* size written */ @END /* Perform an ioctl on a file */ @REQ(ioctl) ioctl_code_t code; /* ioctl code */ struct async_data 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 /* Store results of an async irp */ @REQ(set_irp_result) obj_handle_t handle; /* handle to the irp */ unsigned int status; /* status of the irp */ data_size_t size; /* result size (input or output depending on the operation) */ VARARG(data,bytes); /* output data of the irp */ @END /* Create a named pipe */ @REQ(create_named_pipe) unsigned int access; unsigned int options; unsigned int sharing; unsigned int disposition; unsigned int maxinstances; unsigned int outsize; unsigned int insize; timeout_t timeout; unsigned int flags; VARARG(objattr,object_attributes); /* object attributes */ @REPLY obj_handle_t handle; /* handle to the pipe */ int created; @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 /* Set named pipe information by handle */ @REQ(set_named_pipe_info) obj_handle_t handle; unsigned int flags; @END /* Create a window */ @REQ(create_window) user_handle_t parent; /* parent window */ user_handle_t owner; /* owner window */ atom_t atom; /* class atom */ mod_handle_t instance; /* module instance */ unsigned int dpi_context; /* thread DPI context */ unsigned int style; /* window style */ unsigned int ex_style; /* window extended style */ VARARG(class,unicode_str); /* class name */ @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 */ client_ptr_t class_ptr; /* pointer to class in client address space */ unsigned int dpi_context; /* window DPI context */ @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 top_window; /* handle to the desktop window */ user_handle_t msg_window; /* handle to the top-level HWND_MESSAGE parent */ @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 */ unsigned int dpi_context; /* window DPI context */ @END /* Set some information in a window */ @REQ(set_window_info) unsigned short flags; /* flags for fields to set (see below) */ short int is_unicode; /* ANSI or unicode */ user_handle_t handle; /* handle to the window */ unsigned int style; /* window style */ unsigned int ex_style; /* window extended style */ data_size_t extra_size; /* size to set in extra bytes */ mod_handle_t instance; /* creator instance */ lparam_t user_data; /* user-specific data */ lparam_t extra_value; /* value to set in extra bytes or window id */ int extra_offset; /* offset to set in extra bytes */ @REPLY unsigned int old_style; /* old window style */ unsigned int old_ex_style; /* old window extended style */ mod_handle_t old_instance; /* old creator instance */ lparam_t old_user_data; /* old user-specific data */ lparam_t old_extra_value; /* old value in extra bytes */ lparam_t old_id; /* old window id */ @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 */ unsigned int dpi_context; /* new DPI context */ @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) obj_handle_t desktop; /* handle to desktop */ user_handle_t parent; /* parent window */ atom_t atom; /* class atom for the listed children */ thread_id_t tid; /* thread owning the listed children */ VARARG(class,unicode_str); /* class name */ @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; int dpi; /* dpi for the point coordinates */ @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 short swp_flags; /* SWP_* flags */ unsigned short paint_flags; /* paint flags (see below) */ unsigned int monitor_dpi; /* DPI of the window's monitor */ user_handle_t handle; /* handle to the window */ user_handle_t previous; /* previous window in Z order */ rectangle_t window; /* window rectangle (in parent coords) */ rectangle_t client; /* client rectangle (in parent coords) */ VARARG(valid,rectangles); /* valid rectangles from WM_NCCALCSIZE (in parent coords) */ @REPLY unsigned int new_style; /* new window style */ unsigned int new_ex_style; /* new window extended style */ user_handle_t surface_win; /* parent window that holds the surface */ int needs_update; /* whether the surface region needs an update */ @END #define SET_WINPOS_PAINT_SURFACE 0x01 /* window has a paintable surface */ #define SET_WINPOS_PIXEL_FORMAT 0x02 /* window has a custom pixel format */ #define SET_WINPOS_LAYERED_WINDOW 0x04 /* window is drawn with UpdateLayeredWindow */ /* Get the window and client rectangles of a window */ @REQ(get_window_rectangles) user_handle_t handle; /* handle to the window */ int relative; /* coords relative to (see below) */ int dpi; /* DPI to map to, or zero for per-monitor DPI */ @REPLY rectangle_t window; /* window rectangle */ rectangle_t client; /* client rectangle */ @END enum coords_relative { COORDS_CLIENT, /* relative to client area */ COORDS_WINDOW, /* relative to whole window area */ COORDS_PARENT, /* relative to parent's client area */ COORDS_SCREEN /* relative to screen origin */ }; /* Get the window text */ @REQ(get_window_text) user_handle_t handle; /* handle to the window */ @REPLY data_size_t length; /* total length in WCHARs */ 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 */ int dpi; /* DPI to map to, or zero for per-monitor DPI */ @REPLY int x; /* x coordinate offset */ int y; /* y coordinate offset */ int mirror; /* whether to mirror the x coordinate */ @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 */ unsigned int paint_flags; /* paint flags (from SET_WINPOS_* flags) */ 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 */ int surface; /* get the visible surface region */ @REPLY rectangle_t visible_rect; /* window visible 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 window coords) */ @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 (in window coords) */ @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 (in screen coords) */ @END #define UPDATE_NONCLIENT 0x001 /* get region for repainting non-client area */ #define UPDATE_ERASE 0x002 /* get region for erasing client area */ #define UPDATE_PAINT 0x004 /* get region for painting client area */ #define UPDATE_INTERNALPAINT 0x008 /* get region if internal paint is pending */ #define UPDATE_ALLCHILDREN 0x010 /* force repaint of all children */ #define UPDATE_NOCHILDREN 0x020 /* don't try to repaint any children */ #define UPDATE_NOREGION 0x040 /* don't return a region, only the flags */ #define UPDATE_DELAYED_ERASE 0x080 /* still needs erase after BeginPaint */ #define UPDATE_CLIPCHILDREN 0x100 /* remove clipped children from the update region */ /* 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 (in client coords) */ @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 (in window coords) */ @END /* Set a window property */ @REQ(set_window_property) user_handle_t window; /* handle to the window */ lparam_t data; /* data to store */ atom_t atom; /* property atom (if no name specified) */ 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 lparam_t data; /* data 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 lparam_t data; /* data 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 */ obj_handle_t rootdir; /* root directory */ 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 */ obj_handle_t rootdir; /* root directory */ 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 /* Update the process current window station monitors */ @REQ(set_winstation_monitors) VARARG(infos,monitor_infos); /* window station monitors */ @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 /* Enumerate window stations and desktops */ @REQ(enum_winstation) obj_handle_t handle; /* handle to the window station */ @REPLY data_size_t count; /* number of names */ data_size_t total; /* total needed buffer size */ VARARG(names,unicode_strings);/* window station names */ @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) obj_handle_t winsta; /* window station to open (null allowed) */ 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 current input desktop */ @REQ(open_input_desktop) unsigned int flags; /* desktop flags */ unsigned int access; /* wanted access rights */ unsigned int attributes; /* object attributes */ @REPLY obj_handle_t handle; /* handle to the desktop */ @END /* Changes the current input desktop */ @REQ(set_input_desktop) 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_locator_t locator; /* locator for the shared session object */ 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 */ @REPLY obj_locator_t locator; /* locator for the shared session object */ @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/get */ 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_SET_FLAGS 1 #define SET_USER_OBJECT_GET_FULL_NAME 2 /* Register a hotkey */ @REQ(register_hotkey) user_handle_t window; /* handle to the window */ int id; /* hotkey identifier */ unsigned int flags; /* modifier keys */ unsigned int vkey; /* virtual key code */ @REPLY int replaced; /* did we replace an existing hotkey? */ unsigned int flags; /* flags of replaced hotkey */ unsigned int vkey; /* virtual key code of replaced hotkey */ @END /* Unregister a hotkey */ @REQ(unregister_hotkey) user_handle_t window; /* handle to the window */ int id; /* hotkey identifier */ @REPLY unsigned int flags; /* flags of removed hotkey */ unsigned int vkey; /* virtual key code of removed hotkey */ @END /* 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 the thread input of the given thread */ @REQ(get_thread_input) thread_id_t tid; /* id of thread */ @REPLY obj_locator_t locator; /* locator for the shared session object */ @END /* Get the time of the last input event */ @REQ(get_last_input_time) @REPLY unsigned int time; @END /* Retrieve queue keyboard state for current thread or global async state */ @REQ(get_key_state) int async; /* whether to query the async state */ int key; /* key code */ @REPLY unsigned char state; /* state of specified key */ @END /* Set queue keyboard state for current thread */ @REQ(set_key_state) int async; /* whether to change the async state too */ 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 (see below) */ @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 */ enum caret_state { CARET_STATE_OFF, /* off */ CARET_STATE_ON, /* on */ CARET_STATE_TOGGLE, /* toggle current state */ CARET_STATE_ON_IF_MOVED /* on if the position differs, unchanged otherwise */ }; /* 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; client_ptr_t proc; /* hook procedure */ int flags; int unicode; /* is it a unicode hook? */ VARARG(module,unicode_str); /* module name */ @REPLY user_handle_t handle; /* handle to the hook */ @END /* Remove a window hook */ @REQ(remove_hook) user_handle_t handle; /* handle to the hook */ client_ptr_t proc; /* hook procedure if handle is 0 */ int id; /* id of the hook if handle is 0 */ @REPLY @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 */ int unicode; /* is it a unicode hook? */ client_ptr_t proc; /* hook procedure */ 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 */ client_ptr_t 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 */ mod_handle_t instance; /* module instance */ int extra; /* number of extra class bytes */ int win_extra; /* number of window extra bytes */ client_ptr_t client_ptr; /* pointer to class in client address space */ data_size_t name_offset; /* base class name offset for specified atom */ VARARG(name,unicode_str); /* class name */ @REPLY atom_t atom; /* resulting class atom */ @END /* Destroy a window class */ @REQ(destroy_class) atom_t atom; /* class atom */ mod_handle_t instance; /* module instance */ VARARG(name,unicode_str); /* class name */ @REPLY client_ptr_t 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 */ mod_handle_t instance; /* module instance */ int extra_offset; /* offset to set in extra bytes */ data_size_t extra_size; /* size to set in extra bytes */ lparam_t extra_value; /* value to set in extra bytes */ @REPLY atom_t old_atom; /* previous class atom */ atom_t base_atom; /* base class atom */ mod_handle_t old_instance; /* previous module instance */ lparam_t old_extra_value; /* old value in extra bytes */ 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 */ @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 /* Open the clipboard */ @REQ(open_clipboard) user_handle_t window; /* clipboard window */ @REPLY user_handle_t owner; /* current clipboard owner */ @END /* Close the clipboard */ @REQ(close_clipboard) @REPLY user_handle_t viewer; /* first clipboard viewer */ user_handle_t owner; /* current clipboard owner */ @END /* Empty the clipboard and grab ownership */ @REQ(empty_clipboard) @END /* Add a data format to the clipboard */ @REQ(set_clipboard_data) unsigned int format; /* clipboard format of the data */ unsigned int lcid; /* locale id to use for synthesizing text formats */ VARARG(data,bytes); /* data contents */ @REPLY unsigned int seqno; /* sequence number for the set data */ @END /* Fetch a data format from the clipboard */ @REQ(get_clipboard_data) unsigned int format; /* clipboard format of the data */ int render; /* will we try to render it if missing? */ int cached; /* do we already have it in the client-side cache? */ unsigned int seqno; /* sequence number for the data in the cache */ @REPLY unsigned int from; /* for synthesized data, format to generate it from */ user_handle_t owner; /* clipboard owner for delayed-rendered formats */ unsigned int seqno; /* sequence number for the originally set data */ data_size_t total; /* total data size */ VARARG(data,bytes); /* data contents */ @END /* Retrieve a list of available formats */ @REQ(get_clipboard_formats) unsigned int format; /* specific format to query, return all if 0 */ @REPLY unsigned int count; /* count of available formats */ VARARG(formats,uints); /* array of available formats */ @END /* Retrieve the next available format */ @REQ(enum_clipboard_formats) unsigned int previous; /* previous format, or first if 0 */ @REPLY unsigned int format; /* next format */ @END /* Release ownership of the clipboard */ @REQ(release_clipboard) user_handle_t owner; /* clipboard owner to release */ @REPLY user_handle_t viewer; /* first clipboard viewer */ user_handle_t owner; /* current clipboard owner */ @END /* Get clipboard information */ @REQ(get_clipboard_info) @REPLY user_handle_t window; /* clipboard window */ user_handle_t owner; /* clipboard owner */ user_handle_t viewer; /* clipboard viewer */ unsigned int seqno; /* current sequence number */ @END /* Set the clipboard viewer window */ @REQ(set_clipboard_viewer) user_handle_t viewer; /* clipboard viewer */ user_handle_t previous; /* if non-zero, check that this was the previous viewer */ @REPLY user_handle_t old_viewer; /* previous clipboard viewer */ user_handle_t owner; /* clipboard owner */ @END /* Add a clipboard listener window */ @REQ(add_clipboard_listener) user_handle_t window; /* clipboard listener window */ @END /* Remove a clipboard listener window */ @REQ(remove_clipboard_listener) user_handle_t window; /* clipboard listener window */ @END /* Create a security token */ @REQ(create_token) struct luid token_id; unsigned int access; /* access rights to the new token */ int primary; /* is the new token to be a primary one? */ int impersonation_level; /* impersonation level of the new token */ abstime_t expire; /* expiration time */ int group_count; int primary_group; int priv_count; /* VARARG(objattr,object_attributes); */ /* VARARG(user,sid); */ /* VARARG(groups,sid); */ /* VARARG(privs,luid_attr); */ /* VARARG(dacl,acl); */ @REPLY obj_handle_t token; /* handle to the token */ @END /* 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 desktop shell windows */ @REQ(set_desktop_shell_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_DESKTOP_SHELL_WINDOWS 0x01 /* set both main shell and listview windows */ #define SET_DESKTOP_PROGMAN_WINDOW 0x02 #define SET_DESKTOP_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_attr); /* privileges to enable/disable/remove */ @REPLY unsigned int len; /* total length in bytes required to store token privileges */ VARARG(privileges,luid_attr); /* 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_attr); /* 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_attr); /* privileges to check */ @REPLY int has_privileges; /* does the token have the required privileges? */ VARARG(privileges,luid_attr); /* 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 */ int primary; /* is the new token to be a primary one? */ int impersonation_level; /* impersonation level of the new token */ VARARG(objattr,object_attributes); /* object attributes */ @REPLY obj_handle_t new_handle; /* duplicated handle */ @END @REQ(filter_token) obj_handle_t handle; /* handle to the token to duplicate */ unsigned int flags; /* flags */ data_size_t privileges_size; /* size of privileges */ VARARG(privileges,luid_attr,privileges_size); /* privileges to remove from new token */ VARARG(disable_sids,sid); /* array of groups to remove from new token */ @REPLY obj_handle_t new_handle; /* filtered handle */ @END @REQ(access_check) obj_handle_t handle; /* handle to the token */ unsigned int desired_access; /* desired access to the object */ generic_map_t mapping; /* mapping 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_attr); /* privileges used during access check */ @END @REQ(get_token_sid) obj_handle_t handle; /* handle to the token */ unsigned int which_sid; /* which SID to retrieve from the token */ @REPLY data_size_t sid_len; /* length needed to store sid */ VARARG(sid,sid); /* the sid specified by which_sid from the token */ @END @REQ(get_token_groups) obj_handle_t handle; /* handle to the token */ unsigned int attr_mask; /* mask for wanted attributes */ @REPLY data_size_t attr_len; /* length needed to store attrs */ data_size_t sid_len; /* length needed to store sids */ VARARG(attrs,uints,attr_len); /* group attributes */ VARARG(sids,sids); /* group sids */ @END @REQ(get_token_default_dacl) obj_handle_t handle; /* handle to the token */ @REPLY data_size_t acl_len; /* length needed to store access control list */ VARARG(acl,acl); /* access control list */ @END @REQ(set_token_default_dacl) obj_handle_t handle; /* handle to the token */ VARARG(acl,acl); /* default dacl to set */ @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 @REQ(get_security_object) obj_handle_t handle; /* handle to the object */ unsigned int security_info; /* which parts of security descriptor to get */ @REPLY unsigned int sd_len; /* buffer size needed for sd */ VARARG(sd,security_descriptor); /* retrieved security descriptor */ @END struct handle_info { process_id_t owner; obj_handle_t handle; unsigned int access; unsigned int attributes; unsigned int type; }; /* Return a list of all opened handles */ @REQ(get_system_handles) @REPLY unsigned int count; /* number of handles */ VARARG(data,handle_infos); /* array of handle_infos */ @END typedef union { struct { unsigned int family; process_id_t owner; unsigned int state; } common; struct { unsigned int family; process_id_t owner; unsigned int state; unsigned int local_addr; unsigned int local_port; unsigned int remote_addr; unsigned int remote_port; } ipv4; struct { unsigned int family; process_id_t owner; unsigned int state; unsigned char local_addr[16]; unsigned int local_scope_id; unsigned int local_port; unsigned char remote_addr[16]; unsigned int remote_scope_id; unsigned int remote_port; } ipv6; } tcp_connection; /* Retrieve a list of all processes' TCP connections. */ @REQ(get_tcp_connections) unsigned int state_filter; /* MIB_TCP_STATE_* or 0 for no filter */ @REPLY unsigned int count; VARARG(connections,tcp_connections); @END typedef union { struct { unsigned int family; process_id_t owner; } common; struct { unsigned int family; process_id_t owner; unsigned int addr; unsigned int port; } ipv4; struct { unsigned int family; process_id_t owner; unsigned char addr[16]; unsigned int scope_id; unsigned int port; } ipv6; } udp_endpoint; /* Retrieve a list of all processes' UDP endpoints. */ @REQ(get_udp_endpoints) @REPLY unsigned int count; VARARG(endpoints,udp_endpoints); @END /* Create a mailslot */ @REQ(create_mailslot) unsigned int access; /* wanted access rights */ unsigned int options; timeout_t read_timeout; unsigned int max_msgsize; VARARG(objattr,object_attributes); /* object attributes */ @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 */ timeout_t read_timeout; unsigned int flags; @REPLY timeout_t read_timeout; unsigned int max_msgsize; @END #define MAILSLOT_SET_READ_TIMEOUT 1 /* Create a directory object */ @REQ(create_directory) unsigned int access; /* access flags */ VARARG(objattr,object_attributes); /* object attributes */ @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 /* Get directory entries */ @REQ(get_directory_entries) obj_handle_t handle; /* handle to the directory */ unsigned int index; /* index of first entry */ unsigned int max_count; /* maximum number of entries to return */ @REPLY data_size_t total_len; /* total length needed for strings */ unsigned int count; /* number of entries returned */ VARARG(entries,directory_entries); @END /* Create a symbolic link object */ @REQ(create_symlink) unsigned int access; /* access flags */ VARARG(objattr,object_attributes); /* object attributes */ 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 data_size_t total; /* total needed size for name */ 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 */ unsigned int handle_count; /* object handle count */ @END /* Query the full name of an object */ @REQ(get_object_name) obj_handle_t handle; /* handle to the object */ @REPLY data_size_t total; /* total needed size for name */ VARARG(name,unicode_str); /* object name */ @END /* Query object type name information */ @REQ(get_object_type) obj_handle_t handle; /* handle to the object */ @REPLY VARARG(info,object_type_info); /* type information */ @END /* Query type information for all types */ @REQ(get_object_types) @REPLY int count; /* total count of object types */ VARARG(info,object_types_info); /* type information */ @END /* Allocate a locally-unique identifier */ @REQ(allocate_locally_unique_id) @REPLY struct luid 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) obj_handle_t rootdir; /* root directory */ client_ptr_t user_ptr; /* opaque ptr for use by client */ obj_handle_t manager; /* device manager */ VARARG(name,unicode_str); /* object name */ @END /* Delete a device */ @REQ(delete_device) obj_handle_t manager; /* handle to the device manager */ client_ptr_t device; /* pointer to the device */ @END /* Retrieve the next pending device irp request */ @REQ(get_next_device_request) obj_handle_t manager; /* handle to the device manager */ obj_handle_t prev; /* handle to the previous irp */ unsigned int status; /* status of the previous irp */ client_ptr_t user_ptr; /* user pointer of the previous irp */ int pending; /* was the previous irp marked pending? */ unsigned int iosb_status; /* IOSB status of the previous irp */ data_size_t result; /* IOSB result of the previous irp */ VARARG(data,bytes); /* output data of the previous irp */ @REPLY union irp_params params; /* irp parameters */ obj_handle_t next; /* handle to the next irp */ thread_id_t client_tid; /* tid of thread calling irp */ client_ptr_t client_thread; /* pointer to thread object of calling irp */ data_size_t in_size; /* total needed input size */ VARARG(next_data,bytes); /* input data of the next irp */ @END /* Get kernel pointer from server object */ @REQ(get_kernel_object_ptr) obj_handle_t manager; /* handle to the device manager */ obj_handle_t handle; /* object handle */ @REPLY client_ptr_t user_ptr; /* kernel object pointer */ @END /* Associate kernel pointer with server object */ @REQ(set_kernel_object_ptr) obj_handle_t manager; /* handle to the device manager */ obj_handle_t handle; /* object handle */ client_ptr_t user_ptr; /* kernel object pointer */ @END /* Grab server object reference from kernel object pointer */ @REQ(grab_kernel_object) obj_handle_t manager; /* handle to the device manager */ client_ptr_t user_ptr; /* kernel object pointer */ @END /* Release server object reference from kernel object pointer */ @REQ(release_kernel_object) obj_handle_t manager; /* handle to the device manager */ client_ptr_t user_ptr; /* kernel object pointer */ @END /* Get handle from kernel object pointer */ @REQ(get_kernel_object_handle) obj_handle_t manager; /* handle to the device manager */ client_ptr_t user_ptr; /* kernel object pointer */ unsigned int access; /* wanted access rights */ @REPLY obj_handle_t handle; /* kernel object handle */ @END /* Make the current process a system process */ @REQ(make_process_system) obj_handle_t handle; /* handle to the process */ @REPLY obj_handle_t event; /* event signaled when all user processes have exited */ @END /* Get detailed fixed-size information about a token */ @REQ(get_token_info) obj_handle_t handle; /* handle to the object */ @REPLY struct luid token_id; /* locally-unique identifier of the token */ struct luid modified_id; /* locally-unique identifier of the modified version of the token */ unsigned int session_id; /* token session id */ int primary; /* is the token primary or impersonation? */ int impersonation_level; /* level of impersonation */ int elevation; /* elevation type */ int group_count; /* the number of groups the token is a member of */ int privilege_count; /* the number of privileges the token has */ @END /* Create a token which is an elevation counterpart to this token */ @REQ(create_linked_token) obj_handle_t handle; /* handle to the token */ @REPLY obj_handle_t linked; /* handle to the linked token */ @END /* Create I/O completion port */ @REQ(create_completion) unsigned int access; /* desired access to a port */ unsigned int concurrent; /* max number of concurrent active threads */ VARARG(objattr,object_attributes); /* object attributes */ @REPLY obj_handle_t handle; /* port handle */ @END /* Open I/O completion port */ @REQ(open_completion) unsigned int access; /* desired access to a port */ unsigned int attributes; /* object attributes */ obj_handle_t rootdir; /* root directory */ VARARG(filename,unicode_str); /* port name */ @REPLY obj_handle_t handle; /* port handle */ @END /* add completion to completion port */ @REQ(add_completion) obj_handle_t handle; /* port handle */ apc_param_t ckey; /* completion key */ apc_param_t cvalue; /* completion value */ apc_param_t information; /* IO_STATUS_BLOCK Information */ obj_handle_t reserve_handle; /* completion reserve object handle */ unsigned int status; /* completion result */ @END /* get completion from completion port queue */ @REQ(remove_completion) obj_handle_t handle; /* port handle */ int alertable; /* completion wait is alertable */ @REPLY apc_param_t ckey; /* completion key */ apc_param_t cvalue; /* completion value */ apc_param_t information; /* IO_STATUS_BLOCK Information */ unsigned int status; /* completion result */ obj_handle_t wait_handle; /* handle to completion wait internal object */ @END /* get completion after successful wait */ @REQ(get_thread_completion) @REPLY apc_param_t ckey; /* completion key */ apc_param_t cvalue; /* completion value */ apc_param_t information; /* IO_STATUS_BLOCK Information */ unsigned int status; /* completion result */ @END /* get completion queue depth */ @REQ(query_completion) obj_handle_t handle; /* port handle */ @REPLY unsigned int depth; /* completion queue depth */ @END /* associate object with completion port */ @REQ(set_completion_info) obj_handle_t handle; /* object handle */ apc_param_t ckey; /* completion key */ obj_handle_t chandle; /* port handle */ @END /* check for associated completion and push msg */ @REQ(add_fd_completion) obj_handle_t handle; /* async' object */ apc_param_t cvalue; /* completion value */ apc_param_t information; /* IO_STATUS_BLOCK Information */ unsigned int status; /* completion status */ int async; /* completion is an async result */ @END /* set fd completion information */ @REQ(set_fd_completion_mode) obj_handle_t handle; /* handle to a file or directory */ unsigned int flags; /* completion notification flags */ @END /* set fd disposition information */ @REQ(set_fd_disp_info) obj_handle_t handle; /* handle to a file or directory */ unsigned int flags; /* what actions should be taken when deleting a file */ @END /* set fd name information */ @REQ(set_fd_name_info) obj_handle_t handle; /* handle to a file or directory */ obj_handle_t rootdir; /* root directory */ data_size_t namelen; /* length of NT name in bytes */ int link; /* link instead of renaming */ unsigned int flags; /* FILE_RENAME_* flags */ VARARG(name,unicode_str,namelen); /* NT name */ VARARG(filename,string); /* new file name */ @END /* set fd eof information */ @REQ(set_fd_eof_info) obj_handle_t handle; /* handle to a file or directory */ file_pos_t eof; /* offset of eof of file */ @END /* Retrieve layered info for a window */ @REQ(get_window_layered_info) user_handle_t handle; /* handle to the window */ @REPLY unsigned int color_key; /* color key */ unsigned int alpha; /* alpha (0..255) */ unsigned int flags; /* LWA_* flags */ @END /* Set layered info for a window */ @REQ(set_window_layered_info) user_handle_t handle; /* handle to the window */ unsigned int color_key; /* color key */ unsigned int alpha; /* alpha (0..255) */ unsigned int flags; /* LWA_* flags */ @END /* Allocate an arbitrary user handle */ @REQ(alloc_user_handle) @REPLY user_handle_t handle; /* allocated handle */ @END /* Free an arbitrary user handle */ @REQ(free_user_handle) user_handle_t handle; /* handle to free*/ @END /* Set/get the current cursor */ @REQ(set_cursor) unsigned int flags; /* flags for fields to set (see below) */ user_handle_t handle; /* handle to the cursor */ int show_count; /* show count increment/decrement */ int x; /* cursor position */ int y; rectangle_t clip; /* cursor clip rectangle */ @REPLY user_handle_t prev_handle; /* previous handle */ int prev_count; /* previous show count */ int prev_x; /* previous position */ int prev_y; int new_x; /* new position */ int new_y; rectangle_t new_clip; /* new clip rectangle */ unsigned int last_change; /* time of last position change */ @END #define SET_CURSOR_HANDLE 0x01 #define SET_CURSOR_COUNT 0x02 #define SET_CURSOR_POS 0x04 #define SET_CURSOR_CLIP 0x08 #define SET_CURSOR_NOCLIP 0x10 #define SET_CURSOR_FSCLIP 0x20 /* Get the history of the 64 last cursor positions */ @REQ(get_cursor_history) @REPLY VARARG(history,cursor_positions); @END /* Batch read rawinput message data */ @REQ(get_rawinput_buffer) data_size_t header_size; /* size of RAWINPUTHEADER structure */ int read_data; /* read the rawinput buffer data */ @REPLY data_size_t next_size; /* minimum size to get next message data */ unsigned int time; /* time of the last removed message */ unsigned int count; VARARG(data,bytes); @END /* Modify the list of registered rawinput devices */ @REQ(update_rawinput_devices) VARARG(devices,rawinput_devices); @END /* Create a new job object */ @REQ(create_job) unsigned int access; /* wanted access rights */ VARARG(objattr,object_attributes); /* object attributes */ @REPLY obj_handle_t handle; /* handle to the job */ @END /* Open a job object */ @REQ(open_job) 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 job */ @END /* Assign a job object to a process */ @REQ(assign_job) obj_handle_t job; /* handle to the job */ obj_handle_t process; /* handle to the process */ @END /* Check if a process is associated with a job */ @REQ(process_in_job) obj_handle_t job; /* handle to the job */ obj_handle_t process; /* handle to the process */ @END /* Set limit flags on a job */ @REQ(set_job_limits) obj_handle_t handle; /* handle to the job */ unsigned int limit_flags; /* new limit flags */ @END /* Set new completion port for a job */ @REQ(set_job_completion_port) obj_handle_t job; /* handle to the job */ obj_handle_t port; /* handle to the completion port */ client_ptr_t key; /* key to send with completion messages */ @END /* Retrieve information about a job */ @REQ(get_job_info) obj_handle_t handle; /* handle to the job */ @REPLY int total_processes; /* total count of processes */ int active_processes; /* count of running processes */ VARARG(pids,uints); /* list of active pids */ @END /* Terminate all processes associated with the job */ @REQ(terminate_job) obj_handle_t handle; /* handle to the job */ int status; /* process exit code */ @END /* Suspend a process */ @REQ(suspend_process) obj_handle_t handle; /* process handle */ @END /* Resume a process */ @REQ(resume_process) obj_handle_t handle; /* process handle */ @END /* Iterate thread list for process */ @REQ(get_next_thread) obj_handle_t process; /* process handle */ obj_handle_t last; /* thread handle to start with */ unsigned int access; /* desired access for returned handle */ unsigned int attributes; /* returned handle attributes */ unsigned int flags; /* controls iteration direction */ @REPLY obj_handle_t handle; /* next thread handle */ @END /* Setup keyboard auto-repeat */ @REQ(set_keyboard_repeat) int enable; /* whether to enable auto-repeat */ int delay; /* auto-repeat delay in ms */ int period; /* auto-repeat period in ms */ @REPLY int enable; /* previous state of auto-repeat enable */ @END