Sweden-Number/scheduler/process.c

1549 lines
46 KiB
C

/*
* Win32 processes
*
* Copyright 1996, 1998 Alexandre Julliard
*/
#include <assert.h>
#include <ctype.h>
#include <errno.h>
#include <fcntl.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include "wine/winbase16.h"
#include "wine/exception.h"
#include "wine/library.h"
#include "drive.h"
#include "module.h"
#include "file.h"
#include "thread.h"
#include "winerror.h"
#include "server.h"
#include "options.h"
#include "callback.h"
#include "debugtools.h"
DEFAULT_DEBUG_CHANNEL(process);
DECLARE_DEBUG_CHANNEL(relay);
DECLARE_DEBUG_CHANNEL(win32);
struct _ENVDB;
/* Win32 process database */
typedef struct _PDB
{
LONG header[2]; /* 00 Kernel object header */
HMODULE module; /* 08 Main exe module (NT) */
void *event; /* 0c Pointer to an event object (unused) */
DWORD exit_code; /* 10 Process exit code */
DWORD unknown2; /* 14 Unknown */
HANDLE heap; /* 18 Default process heap */
HANDLE mem_context; /* 1c Process memory context */
DWORD flags; /* 20 Flags */
void *pdb16; /* 24 DOS PSP */
WORD PSP_sel; /* 28 Selector to DOS PSP */
WORD imte; /* 2a IMTE for the process module */
WORD threads; /* 2c Number of threads */
WORD running_threads; /* 2e Number of running threads */
WORD free_lib_count; /* 30 Recursion depth of FreeLibrary calls */
WORD ring0_threads; /* 32 Number of ring 0 threads */
HANDLE system_heap; /* 34 System heap to allocate handles */
HTASK task; /* 38 Win16 task */
void *mem_map_files; /* 3c Pointer to mem-mapped files */
struct _ENVDB *env_db; /* 40 Environment database */
void *handle_table; /* 44 Handle table */
struct _PDB *parent; /* 48 Parent process */
void *modref_list; /* 4c MODREF list */
void *thread_list; /* 50 List of threads */
void *debuggee_CB; /* 54 Debuggee context block */
void *local_heap_free; /* 58 Head of local heap free list */
DWORD unknown4; /* 5c Unknown */
CRITICAL_SECTION crit_section; /* 60 Critical section */
DWORD unknown5[3]; /* 78 Unknown */
void *console; /* 84 Console */
DWORD tls_bits[2]; /* 88 TLS in-use bits */
DWORD process_dword; /* 90 Unknown */
struct _PDB *group; /* 94 Process group */
void *exe_modref; /* 98 MODREF for the process EXE */
void *top_filter; /* 9c Top exception filter */
DWORD priority; /* a0 Priority level */
HANDLE heap_list; /* a4 Head of process heap list */
void *heap_handles; /* a8 Head of heap handles list */
DWORD unknown6; /* ac Unknown */
void *console_provider; /* b0 Console provider (??) */
WORD env_selector; /* b4 Selector to process environment */
WORD error_mode; /* b6 Error mode */
HANDLE load_done_evt; /* b8 Event for process loading done */
void *UTState; /* bc Head of Univeral Thunk list */
DWORD unknown8; /* c0 Unknown (NT) */
LCID locale; /* c4 Locale to be queried by GetThreadLocale (NT) */
} PDB;
PDB current_process;
/* Process flags */
#define PDB32_DEBUGGED 0x0001 /* Process is being debugged */
#define PDB32_WIN16_PROC 0x0008 /* Win16 process */
#define PDB32_DOS_PROC 0x0010 /* Dos process */
#define PDB32_CONSOLE_PROC 0x0020 /* Console process */
#define PDB32_FILE_APIS_OEM 0x0040 /* File APIs are OEM */
#define PDB32_WIN32S_PROC 0x8000 /* Win32s process */
static char **main_exe_argv;
static char main_exe_name[MAX_PATH];
static HANDLE main_exe_file;
unsigned int server_startticks;
/* memory/environ.c */
extern struct _ENVDB *ENV_BuildEnvironment(void);
extern BOOL ENV_BuildCommandLine( char **argv );
extern STARTUPINFOA current_startupinfo;
/* scheduler/pthread.c */
extern void PTHREAD_init_done(void);
extern BOOL MAIN_MainInit(void);
/***********************************************************************
* PROCESS_CallUserSignalProc
*
* FIXME: Some of the signals aren't sent correctly!
*
* The exact meaning of the USER signals is undocumented, but this
* should cover the basic idea:
*
* USIG_DLL_UNLOAD_WIN16
* This is sent when a 16-bit module is unloaded.
*
* USIG_DLL_UNLOAD_WIN32
* This is sent when a 32-bit module is unloaded.
*
* USIG_DLL_UNLOAD_ORPHANS
* This is sent after the last Win3.1 module is unloaded,
* to allow removal of orphaned menus.
*
* USIG_FAULT_DIALOG_PUSH
* USIG_FAULT_DIALOG_POP
* These are called to allow USER to prepare for displaying a
* fault dialog, even though the fault might have happened while
* inside a USER critical section.
*
* USIG_THREAD_INIT
* This is called from the context of a new thread, as soon as it
* has started to run.
*
* USIG_THREAD_EXIT
* This is called, still in its context, just before a thread is
* about to terminate.
*
* USIG_PROCESS_CREATE
* This is called, in the parent process context, after a new process
* has been created.
*
* USIG_PROCESS_INIT
* This is called in the new process context, just after the main thread
* has started execution (after the main thread's USIG_THREAD_INIT has
* been sent).
*
* USIG_PROCESS_LOADED
* This is called after the executable file has been loaded into the
* new process context.
*
* USIG_PROCESS_RUNNING
* This is called immediately before the main entry point is called.
*
* USIG_PROCESS_EXIT
* This is called in the context of a process that is about to
* terminate (but before the last thread's USIG_THREAD_EXIT has
* been sent).
*
* USIG_PROCESS_DESTROY
* This is called after a process has terminated.
*
*
* The meaning of the dwFlags bits is as follows:
*
* USIG_FLAGS_WIN32
* Current process is 32-bit.
*
* USIG_FLAGS_GUI
* Current process is a (Win32) GUI process.
*
* USIG_FLAGS_FEEDBACK
* Current process needs 'feedback' (determined from the STARTUPINFO
* flags STARTF_FORCEONFEEDBACK / STARTF_FORCEOFFFEEDBACK).
*
* USIG_FLAGS_FAULT
* The signal is being sent due to a fault.
*/
void PROCESS_CallUserSignalProc( UINT uCode, HMODULE16 hModule )
{
DWORD flags = current_process.flags;
DWORD startup_flags = current_startupinfo.dwFlags;
DWORD dwFlags = 0;
if (!Callout.UserSignalProc) return;
/* Determine dwFlags */
if ( !(flags & PDB32_WIN16_PROC) ) dwFlags |= USIG_FLAGS_WIN32;
if ( !(flags & PDB32_CONSOLE_PROC) ) dwFlags |= USIG_FLAGS_GUI;
if ( dwFlags & USIG_FLAGS_GUI )
{
/* Feedback defaults to ON */
if ( !(startup_flags & STARTF_FORCEOFFFEEDBACK) )
dwFlags |= USIG_FLAGS_FEEDBACK;
}
else
{
/* Feedback defaults to OFF */
if (startup_flags & STARTF_FORCEONFEEDBACK)
dwFlags |= USIG_FLAGS_FEEDBACK;
}
/* Call USER signal proc */
if ( uCode == USIG_THREAD_INIT || uCode == USIG_THREAD_EXIT )
Callout.UserSignalProc( uCode, GetCurrentThreadId(), dwFlags, hModule );
else
Callout.UserSignalProc( uCode, GetCurrentProcessId(), dwFlags, hModule );
}
/***********************************************************************
* set_console_handles
*
* Set the console handles to use stdin/stdout.
*/
static void set_console_handles( HANDLE console )
{
wine_server_send_fd( 0 );
wine_server_send_fd( 1 );
SERVER_START_REQ( set_console_fd )
{
req->handle = console;
req->fd_in = 0;
req->fd_out = 1;
req->pid = 0;
SERVER_CALL();
}
SERVER_END_REQ;
}
/***********************************************************************
* process_init
*
* Main process initialisation code
*/
static BOOL process_init( char *argv[] )
{
BOOL ret;
int create_flags = 0;
/* store the program name */
argv0 = argv[0];
main_exe_argv = argv;
/* Fill the initial process structure */
current_process.exit_code = STILL_ACTIVE;
current_process.threads = 1;
current_process.running_threads = 1;
current_process.ring0_threads = 1;
current_process.group = &current_process;
current_process.priority = 8; /* Normal */
/* Setup the server connection */
CLIENT_InitServer();
/* Retrieve startup info from the server */
SERVER_START_VAR_REQ( init_process, sizeof(main_exe_name)-1 )
{
req->ldt_copy = &wine_ldt_copy;
req->ppid = getppid();
if ((ret = !SERVER_CALL_ERR()))
{
size_t len = server_data_size( req );
memcpy( main_exe_name, server_data_ptr(req), len );
main_exe_name[len] = 0;
main_exe_file = req->exe_file;
create_flags = req->create_flags;
current_startupinfo.dwFlags = req->start_flags;
server_startticks = req->server_start;
current_startupinfo.wShowWindow = req->cmd_show;
current_startupinfo.hStdInput = req->hstdin;
current_startupinfo.hStdOutput = req->hstdout;
current_startupinfo.hStdError = req->hstderr;
}
}
SERVER_END_VAR_REQ;
if (!ret) return FALSE;
SetStdHandle( STD_INPUT_HANDLE, current_startupinfo.hStdInput );
SetStdHandle( STD_OUTPUT_HANDLE, current_startupinfo.hStdOutput );
SetStdHandle( STD_ERROR_HANDLE, current_startupinfo.hStdError );
if (create_flags & CREATE_NEW_CONSOLE)
set_console_handles( current_startupinfo.hStdOutput );
/* Create the process heap */
current_process.heap = HeapCreate( HEAP_GROWABLE, 0, 0 );
/* Now we can use the pthreads routines */
PTHREAD_init_done();
/* Copy the parent environment */
if (!(current_process.env_db = ENV_BuildEnvironment())) return FALSE;
/* Parse command line arguments */
OPTIONS_ParseOptions( argv );
return MAIN_MainInit();
}
/***********************************************************************
* start_process
*
* Startup routine of a new process. Runs on the new process stack.
*/
static void start_process(void)
{
int debugged, console_app;
LPTHREAD_START_ROUTINE entry;
WINE_MODREF *wm;
/* use original argv[0] as name for the main module */
if (!main_exe_name[0])
{
if (!GetLongPathNameA( full_argv0, main_exe_name, sizeof(main_exe_name) ))
lstrcpynA( main_exe_name, full_argv0, sizeof(main_exe_name) );
}
/* Retrieve entry point address */
entry = (LPTHREAD_START_ROUTINE)((char*)current_process.module +
PE_HEADER(current_process.module)->OptionalHeader.AddressOfEntryPoint);
console_app = (PE_HEADER(current_process.module)->OptionalHeader.Subsystem == IMAGE_SUBSYSTEM_WINDOWS_CUI);
if (console_app) current_process.flags |= PDB32_CONSOLE_PROC;
/* Signal the parent process to continue */
SERVER_START_REQ( init_process_done )
{
req->module = (void *)current_process.module;
req->entry = entry;
req->name = main_exe_name;
req->exe_file = main_exe_file;
req->gui = !console_app;
SERVER_CALL();
debugged = req->debugged;
}
SERVER_END_REQ;
/* Install signal handlers; this cannot be done before, since we cannot
* send exceptions to the debugger before the create process event that
* is sent by REQ_INIT_PROCESS_DONE */
if (!SIGNAL_Init()) goto error;
/* create the main modref and load dependencies */
if (!(wm = PE_CreateModule( current_process.module, main_exe_name, 0, 0, FALSE )))
goto error;
wm->refCount++;
RtlAcquirePebLock();
PE_InitTls();
MODULE_DllProcessAttach( NULL, (LPVOID)1 );
RtlReleasePebLock();
/* Get pointers to USER routines called by KERNEL */
THUNK_InitCallout();
/* Call FinalUserInit routine */
if (Callout.FinalUserInit16) Callout.FinalUserInit16();
/* Note: The USIG_PROCESS_CREATE signal is supposed to be sent in the
* context of the parent process. Actually, the USER signal proc
* doesn't really care about that, but it *does* require that the
* startup parameters are correctly set up, so that GetProcessDword
* works. Furthermore, before calling the USER signal proc the
* 16-bit stack must be set up, which it is only after TASK_Create
* in the case of a 16-bit process. Thus, we send the signal here.
*/
PROCESS_CallUserSignalProc( USIG_PROCESS_CREATE, 0 );
PROCESS_CallUserSignalProc( USIG_THREAD_INIT, 0 );
PROCESS_CallUserSignalProc( USIG_PROCESS_INIT, 0 );
PROCESS_CallUserSignalProc( USIG_PROCESS_LOADED, 0 );
/* Call UserSignalProc ( USIG_PROCESS_RUNNING ... ) only for non-GUI win32 apps */
if (console_app) PROCESS_CallUserSignalProc( USIG_PROCESS_RUNNING, 0 );
if (TRACE_ON(relay))
DPRINTF( "%08lx:Starting process %s (entryproc=%p)\n",
GetCurrentThreadId(), main_exe_name, entry );
if (debugged) DbgBreakPoint();
/* FIXME: should use _PEB as parameter for NT 3.5 programs !
* Dunno about other OSs */
SetLastError(0); /* clear error code */
ExitThread( entry(NULL) );
error:
ExitProcess( GetLastError() );
}
/***********************************************************************
* open_winelib_app
*
* Try to open the Winelib app .so file based on argv[0] or WINEPRELOAD.
*/
void *open_winelib_app( char *argv[] )
{
void *ret = NULL;
char *tmp;
const char *name;
char errStr[100];
if ((name = getenv( "WINEPRELOAD" )))
{
if (!(ret = wine_dll_load_main_exe( name, 0, errStr, sizeof(errStr) )))
{
MESSAGE( "%s: could not load '%s' as specified in the WINEPRELOAD environment variable: %s\n",
argv[0], name, errStr );
ExitProcess(1);
}
}
else
{
const char *argv0 = main_exe_name;
if (!*argv0)
{
/* if argv[0] is "wine", don't try to load anything */
argv0 = argv[0];
if (!(name = strrchr( argv0, '/' ))) name = argv0;
else name++;
if (!strcmp( name, "wine" )) return NULL;
}
/* now try argv[0] with ".so" appended */
if ((tmp = HeapAlloc( GetProcessHeap(), 0, strlen(argv0) + 4 )))
{
strcpy( tmp, argv0 );
strcat( tmp, ".so" );
/* search in PATH only if there was no '/' in argv[0] */
ret = wine_dll_load_main_exe( tmp, (name == argv0), errStr, sizeof(errStr) );
if (!ret && !argv[1])
{
/* if no argv[1], this will be better than displaying usage */
MESSAGE( "%s: could not load library '%s' as Winelib application: %s\n",
argv[0], tmp, errStr );
ExitProcess(1);
}
HeapFree( GetProcessHeap(), 0, tmp );
}
}
return ret;
}
/***********************************************************************
* PROCESS_InitWine
*
* Wine initialisation: load and start the main exe file.
*/
void PROCESS_InitWine( int argc, char *argv[], LPSTR win16_exe_name, HANDLE *win16_exe_file )
{
DWORD stack_size = 0;
/* Initialize everything */
if (!process_init( argv )) exit(1);
if (open_winelib_app( argv )) goto found; /* try to open argv[0] as a winelib app */
main_exe_argv = ++argv; /* remove argv[0] (wine itself) */
if (!main_exe_name[0])
{
if (!argv[0]) OPTIONS_Usage();
/* open the exe file */
if (!SearchPathA( NULL, argv[0], ".exe", sizeof(main_exe_name), main_exe_name, NULL ) &&
!SearchPathA( NULL, argv[0], NULL, sizeof(main_exe_name), main_exe_name, NULL ))
{
MESSAGE( "%s: cannot find '%s'\n", argv0, argv[0] );
goto error;
}
}
if (!main_exe_file)
{
if ((main_exe_file = CreateFileA( main_exe_name, GENERIC_READ, FILE_SHARE_READ,
NULL, OPEN_EXISTING, 0, 0)) == INVALID_HANDLE_VALUE)
{
MESSAGE( "%s: cannot open '%s'\n", argv0, main_exe_name );
goto error;
}
}
/* first try Win32 format; this will fail if the file is not a PE binary */
if ((current_process.module = PE_LoadImage( main_exe_file, main_exe_name, 0 )))
{
if (PE_HEADER(current_process.module)->FileHeader.Characteristics & IMAGE_FILE_DLL)
ExitProcess( ERROR_BAD_EXE_FORMAT );
goto found;
}
/* it must be 16-bit or DOS format */
NtCurrentTeb()->tibflags &= ~TEBF_WIN32;
current_process.flags |= PDB32_WIN16_PROC;
strcpy( win16_exe_name, main_exe_name );
main_exe_name[0] = 0;
*win16_exe_file = main_exe_file;
main_exe_file = 0;
_EnterWin16Lock();
found:
/* build command line */
if (!ENV_BuildCommandLine( main_exe_argv )) goto error;
/* create 32-bit module for main exe */
if (!(current_process.module = BUILTIN32_LoadExeModule( current_process.module ))) goto error;
stack_size = PE_HEADER(current_process.module)->OptionalHeader.SizeOfStackReserve;
/* allocate main thread stack */
if (!THREAD_InitStack( NtCurrentTeb(), stack_size )) goto error;
/* switch to the new stack */
SYSDEPS_SwitchToThreadStack( start_process );
error:
ExitProcess( GetLastError() );
}
/***********************************************************************
* build_argv
*
* Build an argv array from a command-line.
* The command-line is modified to insert nulls.
* 'reserved' is the number of args to reserve before the first one.
*/
static char **build_argv( char *cmdline, int reserved )
{
char **argv;
int count = reserved + 1;
char *p = cmdline;
/* if first word is quoted store it as a single arg */
if (*cmdline == '\"')
{
if ((p = strchr( cmdline + 1, '\"' )))
{
p++;
count++;
}
else p = cmdline;
}
while (*p)
{
while (*p && isspace(*p)) p++;
if (!*p) break;
count++;
while (*p && !isspace(*p)) p++;
}
if ((argv = malloc( count * sizeof(*argv) )))
{
char **argvptr = argv + reserved;
p = cmdline;
if (*cmdline == '\"')
{
if ((p = strchr( cmdline + 1, '\"' )))
{
*argvptr++ = cmdline + 1;
*p++ = 0;
}
else p = cmdline;
}
while (*p)
{
while (*p && isspace(*p)) *p++ = 0;
if (!*p) break;
*argvptr++ = p;
while (*p && !isspace(*p)) p++;
}
*argvptr = 0;
}
return argv;
}
/***********************************************************************
* build_envp
*
* Build the environment of a new child process.
*/
static char **build_envp( const char *env, const char *extra_env )
{
const char *p;
char **envp;
int count = 0;
if (extra_env) for (p = extra_env; *p; count++) p += strlen(p) + 1;
for (p = env; *p; count++) p += strlen(p) + 1;
count += 3;
if ((envp = malloc( count * sizeof(*envp) )))
{
extern char **environ;
char **envptr = envp;
char **unixptr = environ;
/* first the extra strings */
if (extra_env) for (p = extra_env; *p; p += strlen(p) + 1) *envptr++ = (char *)p;
/* then put PATH, HOME and WINEPREFIX from the unix env */
for (unixptr = environ; unixptr && *unixptr; unixptr++)
if (!memcmp( *unixptr, "PATH=", 5 ) ||
!memcmp( *unixptr, "HOME=", 5 ) ||
!memcmp( *unixptr, "WINEPREFIX=", 11 )) *envptr++ = *unixptr;
/* now put the Windows environment strings */
for (p = env; *p; p += strlen(p) + 1)
{
if (memcmp( p, "PATH=", 5 ) &&
memcmp( p, "HOME=", 5 ) &&
memcmp( p, "WINEPRELOAD=", 12 ) &&
memcmp( p, "WINEPREFIX=", 11 )) *envptr++ = (char *)p;
}
*envptr = 0;
}
return envp;
}
/***********************************************************************
* exec_wine_binary
*
* Locate the Wine binary to exec for a new Win32 process.
*/
static void exec_wine_binary( char **argv, char **envp )
{
const char *path, *pos, *ptr;
/* first, try for a WINELOADER environment variable */
argv[0] = getenv("WINELOADER");
if (argv[0])
execve( argv[0], argv, envp );
/* next, try bin directory */
argv[0] = BINDIR "/wine";
execve( argv[0], argv, envp );
/* now try the path of argv0 of the current binary */
if (!(argv[0] = malloc( strlen(full_argv0) + 6 ))) return;
if ((ptr = strrchr( full_argv0, '/' )))
{
memcpy( argv[0], full_argv0, ptr - full_argv0 );
strcpy( argv[0] + (ptr - full_argv0), "/wine" );
execve( argv[0], argv, envp );
}
free( argv[0] );
/* now search in the Unix path */
if ((path = getenv( "PATH" )))
{
if (!(argv[0] = malloc( strlen(path) + 6 ))) return;
pos = path;
for (;;)
{
while (*pos == ':') pos++;
if (!*pos) break;
if (!(ptr = strchr( pos, ':' ))) ptr = pos + strlen(pos);
memcpy( argv[0], pos, ptr - pos );
strcpy( argv[0] + (ptr - pos), "/wine" );
execve( argv[0], argv, envp );
pos = ptr;
}
}
free( argv[0] );
/* finally try the current directory */
argv[0] = "./wine";
execve( argv[0], argv, envp );
}
/***********************************************************************
* fork_and_exec
*
* Fork and exec a new Unix process, checking for errors.
*/
static int fork_and_exec( const char *filename, char *cmdline,
const char *env, const char *newdir )
{
int fd[2];
int pid, err;
char *extra_env = NULL;
if (!env)
{
env = GetEnvironmentStringsA();
extra_env = DRIVE_BuildEnv();
}
if (pipe(fd) == -1)
{
FILE_SetDosError();
return -1;
}
fcntl( fd[1], F_SETFD, 1 ); /* set close on exec */
if (!(pid = fork())) /* child */
{
char **argv = build_argv( cmdline, filename ? 0 : 2 );
char **envp = build_envp( env, extra_env );
close( fd[0] );
if (newdir) chdir(newdir);
if (argv && envp)
{
if (!filename)
{
argv[1] = "--";
exec_wine_binary( argv, envp );
}
else execve( filename, argv, envp );
}
err = errno;
write( fd[1], &err, sizeof(err) );
_exit(1);
}
close( fd[1] );
if ((pid != -1) && (read( fd[0], &err, sizeof(err) ) > 0)) /* exec failed */
{
errno = err;
pid = -1;
}
if (pid == -1) FILE_SetDosError();
close( fd[0] );
if (extra_env) HeapFree( GetProcessHeap(), 0, extra_env );
return pid;
}
/***********************************************************************
* PROCESS_Create
*
* Create a new process. If hFile is a valid handle we have an exe
* file, and we exec a new copy of wine to load it; otherwise we
* simply exec the specified filename as a Unix process.
*/
BOOL PROCESS_Create( HANDLE hFile, LPCSTR filename, LPSTR cmd_line, LPCSTR env,
LPSECURITY_ATTRIBUTES psa, LPSECURITY_ATTRIBUTES tsa,
BOOL inherit, DWORD flags, LPSTARTUPINFOA startup,
LPPROCESS_INFORMATION info, LPCSTR lpCurrentDirectory )
{
BOOL ret;
int pid;
const char *unixfilename = NULL;
const char *unixdir = NULL;
DOS_FULL_NAME full_dir, full_name;
HANDLE load_done_evt = 0;
HANDLE process_info;
info->hThread = info->hProcess = 0;
if (lpCurrentDirectory)
{
if (DOSFS_GetFullName( lpCurrentDirectory, TRUE, &full_dir ))
unixdir = full_dir.long_name;
}
else
{
char buf[MAX_PATH];
if (GetCurrentDirectoryA(sizeof(buf),buf))
{
if (DOSFS_GetFullName( buf, TRUE, &full_dir ))
unixdir = full_dir.long_name;
}
}
/* create the process on the server side */
SERVER_START_VAR_REQ( new_process, MAX_PATH )
{
req->inherit_all = inherit;
req->create_flags = flags;
req->start_flags = startup->dwFlags;
req->exe_file = hFile;
if (startup->dwFlags & STARTF_USESTDHANDLES)
{
req->hstdin = startup->hStdInput;
req->hstdout = startup->hStdOutput;
req->hstderr = startup->hStdError;
}
else
{
req->hstdin = GetStdHandle( STD_INPUT_HANDLE );
req->hstdout = GetStdHandle( STD_OUTPUT_HANDLE );
req->hstderr = GetStdHandle( STD_ERROR_HANDLE );
}
req->cmd_show = startup->wShowWindow;
if (!hFile) /* unix process */
{
unixfilename = filename;
if (DOSFS_GetFullName( filename, TRUE, &full_name ))
unixfilename = full_name.long_name;
lstrcpynA( server_data_ptr(req), unixfilename, MAX_PATH );
}
else /* new wine process */
{
if (!GetLongPathNameA( filename, server_data_ptr(req), MAX_PATH ))
lstrcpynA( server_data_ptr(req), filename, MAX_PATH );
}
ret = !SERVER_CALL_ERR();
process_info = req->info;
}
SERVER_END_VAR_REQ;
if (!ret) return FALSE;
/* fork and execute */
pid = fork_and_exec( unixfilename, cmd_line, env, unixdir );
/* wait for the new process info to be ready */
ret = FALSE;
if ((pid != -1) && (WaitForSingleObject( process_info, 2000 ) == STATUS_WAIT_0))
{
SERVER_START_REQ( get_new_process_info )
{
req->info = process_info;
req->pinherit = (psa && (psa->nLength >= sizeof(*psa)) && psa->bInheritHandle);
req->tinherit = (tsa && (tsa->nLength >= sizeof(*tsa)) && tsa->bInheritHandle);
if ((ret = !SERVER_CALL_ERR()))
{
info->dwProcessId = (DWORD)req->pid;
info->dwThreadId = (DWORD)req->tid;
info->hProcess = req->phandle;
info->hThread = req->thandle;
load_done_evt = req->event;
}
}
SERVER_END_REQ;
}
CloseHandle( process_info );
if (!ret) goto error;
/* Wait until process is initialized (or initialization failed) */
if (load_done_evt)
{
DWORD res;
HANDLE handles[2];
handles[0] = info->hProcess;
handles[1] = load_done_evt;
res = WaitForMultipleObjects( 2, handles, FALSE, INFINITE );
CloseHandle( load_done_evt );
if (res == STATUS_WAIT_0) /* the process died */
{
DWORD exitcode;
if (GetExitCodeProcess( info->hProcess, &exitcode )) SetLastError( exitcode );
CloseHandle( info->hThread );
CloseHandle( info->hProcess );
return FALSE;
}
}
return TRUE;
error:
if (load_done_evt) CloseHandle( load_done_evt );
if (info->hThread) CloseHandle( info->hThread );
if (info->hProcess) CloseHandle( info->hProcess );
return FALSE;
}
/***********************************************************************
* ExitProcess (KERNEL32.@)
*/
void WINAPI ExitProcess( DWORD status )
{
MODULE_DllProcessDetach( TRUE, (LPVOID)1 );
SERVER_START_REQ( terminate_process )
{
/* send the exit code to the server */
req->handle = GetCurrentProcess();
req->exit_code = status;
SERVER_CALL();
}
SERVER_END_REQ;
exit( status );
}
/***********************************************************************
* ExitProcess (KERNEL.466)
*/
void WINAPI ExitProcess16( WORD status )
{
DWORD count;
ReleaseThunkLock( &count );
ExitProcess( status );
}
/******************************************************************************
* TerminateProcess (KERNEL32.684)
*/
BOOL WINAPI TerminateProcess( HANDLE handle, DWORD exit_code )
{
NTSTATUS status = NtTerminateProcess( handle, exit_code );
if (status) SetLastError( RtlNtStatusToDosError(status) );
return !status;
}
/***********************************************************************
* GetProcessDword (KERNEL.485)
* GetProcessDword (KERNEL32.18)
* 'Of course you cannot directly access Windows internal structures'
*/
DWORD WINAPI GetProcessDword( DWORD dwProcessID, INT offset )
{
DWORD x, y;
TRACE_(win32)("(%ld, %d)\n", dwProcessID, offset );
if (dwProcessID && dwProcessID != GetCurrentProcessId())
{
ERR("%d: process %lx not accessible\n", offset, dwProcessID);
return 0;
}
switch ( offset )
{
case GPD_APP_COMPAT_FLAGS:
return GetAppCompatFlags16(0);
case GPD_LOAD_DONE_EVENT:
return current_process.load_done_evt;
case GPD_HINSTANCE16:
return GetTaskDS16();
case GPD_WINDOWS_VERSION:
return GetExeVersion16();
case GPD_THDB:
return (DWORD)NtCurrentTeb() - 0x10 /* FIXME */;
case GPD_PDB:
return (DWORD)&current_process;
case GPD_STARTF_SHELLDATA: /* return stdoutput handle from startupinfo ??? */
return current_startupinfo.hStdOutput;
case GPD_STARTF_HOTKEY: /* return stdinput handle from startupinfo ??? */
return current_startupinfo.hStdInput;
case GPD_STARTF_SHOWWINDOW:
return current_startupinfo.wShowWindow;
case GPD_STARTF_SIZE:
x = current_startupinfo.dwXSize;
if ( (INT)x == CW_USEDEFAULT ) x = CW_USEDEFAULT16;
y = current_startupinfo.dwYSize;
if ( (INT)y == CW_USEDEFAULT ) y = CW_USEDEFAULT16;
return MAKELONG( x, y );
case GPD_STARTF_POSITION:
x = current_startupinfo.dwX;
if ( (INT)x == CW_USEDEFAULT ) x = CW_USEDEFAULT16;
y = current_startupinfo.dwY;
if ( (INT)y == CW_USEDEFAULT ) y = CW_USEDEFAULT16;
return MAKELONG( x, y );
case GPD_STARTF_FLAGS:
return current_startupinfo.dwFlags;
case GPD_PARENT:
return 0;
case GPD_FLAGS:
return current_process.flags;
case GPD_USERDATA:
return current_process.process_dword;
default:
ERR_(win32)("Unknown offset %d\n", offset );
return 0;
}
}
/***********************************************************************
* SetProcessDword (KERNEL.484)
* 'Of course you cannot directly access Windows internal structures'
*/
void WINAPI SetProcessDword( DWORD dwProcessID, INT offset, DWORD value )
{
TRACE_(win32)("(%ld, %d)\n", dwProcessID, offset );
if (dwProcessID && dwProcessID != GetCurrentProcessId())
{
ERR("%d: process %lx not accessible\n", offset, dwProcessID);
return;
}
switch ( offset )
{
case GPD_APP_COMPAT_FLAGS:
case GPD_LOAD_DONE_EVENT:
case GPD_HINSTANCE16:
case GPD_WINDOWS_VERSION:
case GPD_THDB:
case GPD_PDB:
case GPD_STARTF_SHELLDATA:
case GPD_STARTF_HOTKEY:
case GPD_STARTF_SHOWWINDOW:
case GPD_STARTF_SIZE:
case GPD_STARTF_POSITION:
case GPD_STARTF_FLAGS:
case GPD_PARENT:
case GPD_FLAGS:
ERR_(win32)("Not allowed to modify offset %d\n", offset );
break;
case GPD_USERDATA:
current_process.process_dword = value;
break;
default:
ERR_(win32)("Unknown offset %d\n", offset );
break;
}
}
/*********************************************************************
* OpenProcess (KERNEL32.543)
*/
HANDLE WINAPI OpenProcess( DWORD access, BOOL inherit, DWORD id )
{
HANDLE ret = 0;
SERVER_START_REQ( open_process )
{
req->pid = (void *)id;
req->access = access;
req->inherit = inherit;
if (!SERVER_CALL_ERR()) ret = req->handle;
}
SERVER_END_REQ;
return ret;
}
/*********************************************************************
* MapProcessHandle (KERNEL.483)
*/
DWORD WINAPI MapProcessHandle( HANDLE handle )
{
DWORD ret = 0;
SERVER_START_REQ( get_process_info )
{
req->handle = handle;
if (!SERVER_CALL_ERR()) ret = (DWORD)req->pid;
}
SERVER_END_REQ;
return ret;
}
/***********************************************************************
* SetPriorityClass (KERNEL32.@)
*/
BOOL WINAPI SetPriorityClass( HANDLE hprocess, DWORD priorityclass )
{
BOOL ret;
SERVER_START_REQ( set_process_info )
{
req->handle = hprocess;
req->priority = priorityclass;
req->mask = SET_PROCESS_INFO_PRIORITY;
ret = !SERVER_CALL_ERR();
}
SERVER_END_REQ;
return ret;
}
/***********************************************************************
* GetPriorityClass (KERNEL32.@)
*/
DWORD WINAPI GetPriorityClass(HANDLE hprocess)
{
DWORD ret = 0;
SERVER_START_REQ( get_process_info )
{
req->handle = hprocess;
if (!SERVER_CALL_ERR()) ret = req->priority;
}
SERVER_END_REQ;
return ret;
}
/***********************************************************************
* SetProcessAffinityMask (KERNEL32.@)
*/
BOOL WINAPI SetProcessAffinityMask( HANDLE hProcess, DWORD affmask )
{
BOOL ret;
SERVER_START_REQ( set_process_info )
{
req->handle = hProcess;
req->affinity = affmask;
req->mask = SET_PROCESS_INFO_AFFINITY;
ret = !SERVER_CALL_ERR();
}
SERVER_END_REQ;
return ret;
}
/**********************************************************************
* GetProcessAffinityMask (KERNEL32.373)
*/
BOOL WINAPI GetProcessAffinityMask( HANDLE hProcess,
LPDWORD lpProcessAffinityMask,
LPDWORD lpSystemAffinityMask )
{
BOOL ret = FALSE;
SERVER_START_REQ( get_process_info )
{
req->handle = hProcess;
if (!SERVER_CALL_ERR())
{
if (lpProcessAffinityMask) *lpProcessAffinityMask = req->process_affinity;
if (lpSystemAffinityMask) *lpSystemAffinityMask = req->system_affinity;
ret = TRUE;
}
}
SERVER_END_REQ;
return ret;
}
/***********************************************************************
* GetProcessVersion (KERNEL32.@)
*/
DWORD WINAPI GetProcessVersion( DWORD processid )
{
IMAGE_NT_HEADERS *nt;
if (processid && processid != GetCurrentProcessId())
{
FIXME("should use ReadProcessMemory\n");
return 0;
}
if ((nt = RtlImageNtHeader( current_process.module )))
return ((nt->OptionalHeader.MajorSubsystemVersion << 16) |
nt->OptionalHeader.MinorSubsystemVersion);
return 0;
}
/***********************************************************************
* GetProcessFlags (KERNEL32.@)
*/
DWORD WINAPI GetProcessFlags( DWORD processid )
{
if (processid && processid != GetCurrentProcessId()) return 0;
return current_process.flags;
}
/***********************************************************************
* SetProcessWorkingSetSize [KERNEL32.662]
* Sets the min/max working set sizes for a specified process.
*
* PARAMS
* hProcess [I] Handle to the process of interest
* minset [I] Specifies minimum working set size
* maxset [I] Specifies maximum working set size
*
* RETURNS STD
*/
BOOL WINAPI SetProcessWorkingSetSize(HANDLE hProcess,DWORD minset,
DWORD maxset)
{
FIXME("(0x%08x,%ld,%ld): stub - harmless\n",hProcess,minset,maxset);
if(( minset == (DWORD)-1) && (maxset == (DWORD)-1)) {
/* Trim the working set to zero */
/* Swap the process out of physical RAM */
}
return TRUE;
}
/***********************************************************************
* GetProcessWorkingSetSize (KERNEL32.@)
*/
BOOL WINAPI GetProcessWorkingSetSize(HANDLE hProcess,LPDWORD minset,
LPDWORD maxset)
{
FIXME("(0x%08x,%p,%p): stub\n",hProcess,minset,maxset);
/* 32 MB working set size */
if (minset) *minset = 32*1024*1024;
if (maxset) *maxset = 32*1024*1024;
return TRUE;
}
/***********************************************************************
* SetProcessShutdownParameters (KERNEL32.@)
*
* CHANGED - James Sutherland (JamesSutherland@gmx.de)
* Now tracks changes made (but does not act on these changes)
*/
static DWORD shutdown_flags = 0;
static DWORD shutdown_priority = 0x280;
BOOL WINAPI SetProcessShutdownParameters(DWORD level, DWORD flags)
{
FIXME("(%08lx, %08lx): partial stub.\n", level, flags);
shutdown_flags = flags;
shutdown_priority = level;
return TRUE;
}
/***********************************************************************
* GetProcessShutdownParameters (KERNEL32.@)
*
*/
BOOL WINAPI GetProcessShutdownParameters( LPDWORD lpdwLevel, LPDWORD lpdwFlags )
{
*lpdwLevel = shutdown_priority;
*lpdwFlags = shutdown_flags;
return TRUE;
}
/***********************************************************************
* SetProcessPriorityBoost (KERNEL32.@)
*/
BOOL WINAPI SetProcessPriorityBoost(HANDLE hprocess,BOOL disableboost)
{
FIXME("(%d,%d): stub\n",hprocess,disableboost);
/* Say we can do it. I doubt the program will notice that we don't. */
return TRUE;
}
/***********************************************************************
* ReadProcessMemory (KERNEL32.@)
* ReadProcessMemory (WIN32S16.6)
*/
BOOL WINAPI ReadProcessMemory( HANDLE process, LPCVOID addr, LPVOID buffer, DWORD size,
LPDWORD bytes_read )
{
unsigned int offset = (unsigned int)addr % sizeof(int);
unsigned int pos = 0, len, max;
int res;
if (bytes_read) *bytes_read = size;
/* first time, read total length to check for permissions */
len = (size + offset + sizeof(int) - 1) / sizeof(int);
max = min( REQUEST_MAX_VAR_SIZE, len * sizeof(int) );
for (;;)
{
SERVER_START_VAR_REQ( read_process_memory, max )
{
req->handle = process;
req->addr = (char *)addr + pos - offset;
req->len = len;
if (!(res = SERVER_CALL_ERR()))
{
size_t result = server_data_size( req );
if (result > size + offset) result = size + offset;
memcpy( (char *)buffer + pos, server_data_ptr(req) + offset, result - offset );
size -= result - offset;
pos += result - offset;
}
}
SERVER_END_VAR_REQ;
if (res)
{
if (bytes_read) *bytes_read = 0;
return FALSE;
}
if (!size) return TRUE;
max = min( REQUEST_MAX_VAR_SIZE, size );
len = (max + sizeof(int) - 1) / sizeof(int);
offset = 0;
}
}
/***********************************************************************
* WriteProcessMemory (KERNEL32.@)
*/
BOOL WINAPI WriteProcessMemory( HANDLE process, LPVOID addr, LPVOID buffer, DWORD size,
LPDWORD bytes_written )
{
unsigned int first_offset, last_offset;
unsigned int pos = 0, len, max, first_mask, last_mask;
int res;
if (!size)
{
SetLastError( ERROR_INVALID_PARAMETER );
return FALSE;
}
if (bytes_written) *bytes_written = size;
/* compute the mask for the first int */
first_mask = ~0;
first_offset = (unsigned int)addr % sizeof(int);
memset( &first_mask, 0, first_offset );
/* compute the mask for the last int */
last_offset = (size + first_offset) % sizeof(int);
last_mask = 0;
memset( &last_mask, 0xff, last_offset ? last_offset : sizeof(int) );
/* for the first request, use the total length */
len = (size + first_offset + sizeof(int) - 1) / sizeof(int);
max = min( REQUEST_MAX_VAR_SIZE, len * sizeof(int) );
for (;;)
{
SERVER_START_VAR_REQ( write_process_memory, max )
{
req->handle = process;
req->addr = (char *)addr - first_offset + pos;
req->len = len;
req->first_mask = (!pos) ? first_mask : ~0;
if (size + first_offset <= max) /* last round */
{
req->last_mask = last_mask;
max = size + first_offset;
}
else req->last_mask = ~0;
memcpy( (char *)server_data_ptr(req) + first_offset, (char *)buffer + pos,
max - first_offset );
if (!(res = SERVER_CALL_ERR()))
{
pos += max - first_offset;
size -= max - first_offset;
}
}
SERVER_END_VAR_REQ;
if (res)
{
if (bytes_written) *bytes_written = 0;
return FALSE;
}
if (!size) return TRUE;
first_offset = 0;
len = min( size + sizeof(int) - 1, REQUEST_MAX_VAR_SIZE ) / sizeof(int);
max = len * sizeof(int);
}
}
/***********************************************************************
* RegisterServiceProcess (KERNEL.491)
* RegisterServiceProcess (KERNEL32.@)
*
* A service process calls this function to ensure that it continues to run
* even after a user logged off.
*/
DWORD WINAPI RegisterServiceProcess(DWORD dwProcessId, DWORD dwType)
{
/* I don't think that Wine needs to do anything in that function */
return 1; /* success */
}
/***********************************************************************
* GetExitCodeProcess [KERNEL32.325]
*
* Gets termination status of specified process
*
* RETURNS
* Success: TRUE
* Failure: FALSE
*/
BOOL WINAPI GetExitCodeProcess(
HANDLE hProcess, /* [in] handle to the process */
LPDWORD lpExitCode) /* [out] address to receive termination status */
{
BOOL ret;
SERVER_START_REQ( get_process_info )
{
req->handle = hProcess;
ret = !SERVER_CALL_ERR();
if (ret && lpExitCode) *lpExitCode = req->exit_code;
}
SERVER_END_REQ;
return ret;
}
/***********************************************************************
* SetErrorMode (KERNEL32.@)
*/
UINT WINAPI SetErrorMode( UINT mode )
{
UINT old = current_process.error_mode;
current_process.error_mode = mode;
return old;
}
/**************************************************************************
* SetFileApisToOEM (KERNEL32.@)
*/
VOID WINAPI SetFileApisToOEM(void)
{
current_process.flags |= PDB32_FILE_APIS_OEM;
}
/**************************************************************************
* SetFileApisToANSI (KERNEL32.@)
*/
VOID WINAPI SetFileApisToANSI(void)
{
current_process.flags &= ~PDB32_FILE_APIS_OEM;
}
/******************************************************************************
* AreFileApisANSI [KERNEL32.@] Determines if file functions are using ANSI
*
* RETURNS
* TRUE: Set of file functions is using ANSI code page
* FALSE: Set of file functions is using OEM code page
*/
BOOL WINAPI AreFileApisANSI(void)
{
return !(current_process.flags & PDB32_FILE_APIS_OEM);
}
/**********************************************************************
* TlsAlloc [KERNEL32.@] Allocates a TLS index.
*
* Allocates a thread local storage index
*
* RETURNS
* Success: TLS Index
* Failure: 0xFFFFFFFF
*/
DWORD WINAPI TlsAlloc( void )
{
DWORD i, mask, ret = 0;
DWORD *bits = current_process.tls_bits;
RtlAcquirePebLock();
if (*bits == 0xffffffff)
{
bits++;
ret = 32;
if (*bits == 0xffffffff)
{
RtlReleasePebLock();
SetLastError( ERROR_NO_MORE_ITEMS );
return 0xffffffff;
}
}
for (i = 0, mask = 1; i < 32; i++, mask <<= 1) if (!(*bits & mask)) break;
*bits |= mask;
RtlReleasePebLock();
return ret + i;
}
/**********************************************************************
* TlsFree [KERNEL32.@] Releases a TLS index.
*
* Releases a thread local storage index, making it available for reuse
*
* RETURNS
* Success: TRUE
* Failure: FALSE
*/
BOOL WINAPI TlsFree(
DWORD index) /* [in] TLS Index to free */
{
DWORD mask = (1 << (index & 31));
DWORD *bits = current_process.tls_bits;
if (index >= 64)
{
SetLastError( ERROR_INVALID_PARAMETER );
return FALSE;
}
if (index >= 32) bits++;
RtlAcquirePebLock();
if (!(*bits & mask)) /* already free? */
{
RtlReleasePebLock();
SetLastError( ERROR_INVALID_PARAMETER );
return FALSE;
}
*bits &= ~mask;
NtCurrentTeb()->tls_array[index] = 0;
/* FIXME: should zero all other thread values */
RtlReleasePebLock();
return TRUE;
}
/**********************************************************************
* TlsGetValue [KERNEL32.@] Gets value in a thread's TLS slot
*
* RETURNS
* Success: Value stored in calling thread's TLS slot for index
* Failure: 0 and GetLastError returns NO_ERROR
*/
LPVOID WINAPI TlsGetValue(
DWORD index) /* [in] TLS index to retrieve value for */
{
if (index >= 64)
{
SetLastError( ERROR_INVALID_PARAMETER );
return NULL;
}
SetLastError( ERROR_SUCCESS );
return NtCurrentTeb()->tls_array[index];
}
/**********************************************************************
* TlsSetValue [KERNEL32.@] Stores a value in the thread's TLS slot.
*
* RETURNS
* Success: TRUE
* Failure: FALSE
*/
BOOL WINAPI TlsSetValue(
DWORD index, /* [in] TLS index to set value for */
LPVOID value) /* [in] Value to be stored */
{
if (index >= 64)
{
SetLastError( ERROR_INVALID_PARAMETER );
return FALSE;
}
NtCurrentTeb()->tls_array[index] = value;
return TRUE;
}
/***********************************************************************
* GetCurrentProcess (KERNEL32.@)
*/
#undef GetCurrentProcess
HANDLE WINAPI GetCurrentProcess(void)
{
return 0xffffffff;
}