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ntdll: Add RtlDosPathNameToRelativeNtPathName_U.
[wine.git] / server / process.c
blob9bde05dc942f15867537a623f60a1398861f17df
1 /*
2 * Server-side process management
3 *
4 * Copyright (C) 1998 Alexandre Julliard
5 *
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License as published by the Free Software Foundation; either
9 * version 2.1 of the License, or (at your option) any later version.
10 *
11 * This library is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 * Lesser General Public License for more details.
15 *
16 * You should have received a copy of the GNU Lesser General Public
17 * License along with this library; if not, write to the Free Software
18 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
19 */
20
21 #include "config.h"
22
23 #include <assert.h>
24 #include <errno.h>
25 #include <fcntl.h>
26 #include <limits.h>
27 #include <signal.h>
28 #include <string.h>
29 #include <stdarg.h>
30 #include <stdio.h>
31 #include <stdlib.h>
32 #include <sys/types.h>
33 #include <sys/time.h>
34 #include <sys/socket.h>
35 #include <unistd.h>
36 #include <poll.h>
37 #ifdef HAVE_SYS_PARAM_H
38 # include <sys/param.h>
39 #endif
40 #ifdef HAVE_SYS_QUEUE_H
41 # include <sys/queue.h>
42 #endif
43 #ifdef HAVE_SYS_SYSCTL_H
44 # include <sys/sysctl.h>
45 #endif
46 #ifdef HAVE_SYS_USER_H
47 # define thread __unix_thread
48 # include <sys/user.h>
49 # undef thread
50 #endif
51 #ifdef HAVE_LIBPROCSTAT
52 # include <libprocstat.h>
53 #endif
54
55 #include "ntstatus.h"
56 #define WIN32_NO_STATUS
57 #include "winternl.h"
58
59 #include "file.h"
60 #include "handle.h"
61 #include "process.h"
62 #include "thread.h"
63 #include "request.h"
64 #include "user.h"
65 #include "security.h"
66
67 /* process object */
68
69 static struct list process_list = LIST_INIT(process_list);
70 static int running_processes, user_processes;
71 static struct event *shutdown_event; /* signaled when shutdown starts */
72 static struct timeout_user *shutdown_timeout; /* timeout for server shutdown */
73 static int shutdown_stage; /* current stage in the shutdown process */
74
75 static const WCHAR process_name[] = {'P','r','o','c','e','s','s'};
76
77 struct type_descr process_type =
78 {
79 { process_name, sizeof(process_name) }, /* name */
80 PROCESS_ALL_ACCESS, /* valid_access */
81 { /* mapping */
82 STANDARD_RIGHTS_READ | PROCESS_VM_READ | PROCESS_QUERY_INFORMATION,
83 STANDARD_RIGHTS_WRITE | PROCESS_SUSPEND_RESUME | PROCESS_SET_INFORMATION | PROCESS_SET_QUOTA
84 | PROCESS_CREATE_PROCESS | PROCESS_DUP_HANDLE | PROCESS_VM_WRITE | PROCESS_VM_OPERATION
85 | PROCESS_CREATE_THREAD,
86 STANDARD_RIGHTS_EXECUTE | SYNCHRONIZE | PROCESS_QUERY_LIMITED_INFORMATION | PROCESS_TERMINATE,
87 PROCESS_ALL_ACCESS
88 },
89 };
90
91 static void process_dump( struct object *obj, int verbose );
92 static int process_signaled( struct object *obj, struct wait_queue_entry *entry );
93 static unsigned int process_map_access( struct object *obj, unsigned int access );
94 static struct security_descriptor *process_get_sd( struct object *obj );
95 static void process_poll_event( struct fd *fd, int event );
96 static struct list *process_get_kernel_obj_list( struct object *obj );
97 static void process_destroy( struct object *obj );
98 static void terminate_process( struct process *process, struct thread *skip, int exit_code );
99
100 static const struct object_ops process_ops =
101 {
102 sizeof(struct process), /* size */
103 &process_type, /* type */
104 process_dump, /* dump */
105 add_queue, /* add_queue */
106 remove_queue, /* remove_queue */
107 process_signaled, /* signaled */
108 no_satisfied, /* satisfied */
109 no_signal, /* signal */
110 no_get_fd, /* get_fd */
111 process_map_access, /* map_access */
112 process_get_sd, /* get_sd */
113 default_set_sd, /* set_sd */
114 no_get_full_name, /* get_full_name */
115 no_lookup_name, /* lookup_name */
116 no_link_name, /* link_name */
117 NULL, /* unlink_name */
118 no_open_file, /* open_file */
119 process_get_kernel_obj_list, /* get_kernel_obj_list */
120 no_close_handle, /* close_handle */
121 process_destroy /* destroy */
122 };
123
124 static const struct fd_ops process_fd_ops =
125 {
126 NULL, /* get_poll_events */
127 process_poll_event, /* poll_event */
128 NULL, /* flush */
129 NULL, /* get_fd_type */
130 NULL, /* ioctl */
131 NULL, /* queue_async */
132 NULL, /* reselect_async */
133 NULL /* cancel async */
134 };
135
136 /* process startup info */
137
138 struct startup_info
139 {
140 struct object obj; /* object header */
141 struct process *process; /* created process */
142 data_size_t info_size; /* size of startup info */
143 data_size_t data_size; /* size of whole startup data */
144 startup_info_t *data; /* data for startup info */
145 };
146
147 static void startup_info_dump( struct object *obj, int verbose );
148 static int startup_info_signaled( struct object *obj, struct wait_queue_entry *entry );
149 static void startup_info_destroy( struct object *obj );
150
151 static const struct object_ops startup_info_ops =
152 {
153 sizeof(struct startup_info), /* size */
154 &no_type, /* type */
155 startup_info_dump, /* dump */
156 add_queue, /* add_queue */
157 remove_queue, /* remove_queue */
158 startup_info_signaled, /* signaled */
159 no_satisfied, /* satisfied */
160 no_signal, /* signal */
161 no_get_fd, /* get_fd */
162 default_map_access, /* map_access */
163 default_get_sd, /* get_sd */
164 default_set_sd, /* set_sd */
165 no_get_full_name, /* get_full_name */
166 no_lookup_name, /* lookup_name */
167 no_link_name, /* link_name */
168 NULL, /* unlink_name */
169 no_open_file, /* open_file */
170 no_kernel_obj_list, /* get_kernel_obj_list */
171 no_close_handle, /* close_handle */
172 startup_info_destroy /* destroy */
173 };
174
175 /* job object */
176
177 static const WCHAR job_name[] = {'J','o','b'};
178
179 struct type_descr job_type =
180 {
181 { job_name, sizeof(job_name) }, /* name */
182 JOB_OBJECT_ALL_ACCESS, /* valid_access */
183 { /* mapping */
184 STANDARD_RIGHTS_READ | JOB_OBJECT_QUERY,
185 STANDARD_RIGHTS_WRITE | JOB_OBJECT_TERMINATE | JOB_OBJECT_SET_ATTRIBUTES | JOB_OBJECT_ASSIGN_PROCESS,
186 STANDARD_RIGHTS_EXECUTE | SYNCHRONIZE,
187 JOB_OBJECT_ALL_ACCESS
188 },
189 };
190
191 static void job_dump( struct object *obj, int verbose );
192 static int job_signaled( struct object *obj, struct wait_queue_entry *entry );
193 static int job_close_handle( struct object *obj, struct process *process, obj_handle_t handle );
194 static void job_destroy( struct object *obj );
195
196 struct job
197 {
198 struct object obj; /* object header */
199 struct list process_list; /* list of processes */
200 int num_processes; /* count of running processes */
201 int total_processes; /* count of processes which have been assigned */
202 unsigned int limit_flags; /* limit flags */
203 int terminating; /* job is terminating */
204 int signaled; /* job is signaled */
205 struct completion *completion_port; /* associated completion port */
206 apc_param_t completion_key; /* key to send with completion messages */
207 struct job *parent;
208 struct list parent_job_entry; /* list entry for parent job */
209 struct list child_job_list; /* list of child jobs */
210 };
211
212 static const struct object_ops job_ops =
213 {
214 sizeof(struct job), /* size */
215 &job_type, /* type */
216 job_dump, /* dump */
217 add_queue, /* add_queue */
218 remove_queue, /* remove_queue */
219 job_signaled, /* signaled */
220 no_satisfied, /* satisfied */
221 no_signal, /* signal */
222 no_get_fd, /* get_fd */
223 default_map_access, /* map_access */
224 default_get_sd, /* get_sd */
225 default_set_sd, /* set_sd */
226 default_get_full_name, /* get_full_name */
227 no_lookup_name, /* lookup_name */
228 directory_link_name, /* link_name */
229 default_unlink_name, /* unlink_name */
230 no_open_file, /* open_file */
231 no_kernel_obj_list, /* get_kernel_obj_list */
232 job_close_handle, /* close_handle */
233 job_destroy /* destroy */
234 };
235
236 static struct job *create_job_object( struct object *root, const struct unicode_str *name,
237 unsigned int attr, const struct security_descriptor *sd )
238 {
239 struct job *job;
240
241 if ((job = create_named_object( root, &job_ops, name, attr, sd )))
242 {
243 if (get_error() != STATUS_OBJECT_NAME_EXISTS)
244 {
245 /* initialize it if it didn't already exist */
246 list_init( &job->process_list );
247 list_init( &job->child_job_list );
248 job->num_processes = 0;
249 job->total_processes = 0;
250 job->limit_flags = 0;
251 job->terminating = 0;
252 job->signaled = 0;
253 job->completion_port = NULL;
254 job->completion_key = 0;
255 job->parent = NULL;
256 }
257 }
258 return job;
259 }
260
261 static struct job *get_job_obj( struct process *process, obj_handle_t handle, unsigned int access )
262 {
263 return (struct job *)get_handle_obj( process, handle, access, &job_ops );
264 }
265
266 static void add_job_completion( struct job *job, apc_param_t msg, apc_param_t pid )
267 {
268 if (job->completion_port)
269 add_completion( job->completion_port, job->completion_key, pid, STATUS_SUCCESS, msg );
270 }
271
272 static void add_job_completion_existing_processes( struct job *job, struct job *completion_job )
273 {
274 struct process *process;
275 struct job *j;
276
277 assert( completion_job->obj.ops == &job_ops );
278
279 LIST_FOR_EACH_ENTRY( j, &job->child_job_list, struct job, parent_job_entry )
280 {
281 add_job_completion_existing_processes( j, completion_job );
282 }
283
284 LIST_FOR_EACH_ENTRY( process, &job->process_list, struct process, job_entry )
285 {
286 if (process->running_threads)
287 add_job_completion( completion_job, JOB_OBJECT_MSG_NEW_PROCESS, get_process_id( process ));
288 }
289 }
290
291 static int process_in_job( struct job *job, struct process *process )
292 {
293 struct job *j;
294
295 LIST_FOR_EACH_ENTRY( j, &job->child_job_list, struct job, parent_job_entry )
296 {
297 assert( j->parent == job );
298 if (process_in_job( j, process )) return 1;
299 }
300 return process->job == job;
301 }
302
303 static process_id_t *get_job_pids( struct job *job, process_id_t *pids, process_id_t *end )
304 {
305 struct process *process;
306 struct job *j;
307
308 LIST_FOR_EACH_ENTRY( j, &job->child_job_list, struct job, parent_job_entry )
309 pids = get_job_pids( j, pids, end );
310
311 LIST_FOR_EACH_ENTRY( process, &job->process_list, struct process, job_entry )
312 {
313 if (pids == end) break;
314 if (process->end_time) continue; /* skip processes that ended */
315 *pids++ = process->id;
316 }
317
318 return pids;
319 }
320
321 static void add_job_process( struct job *job, struct process *process )
322 {
323 struct job *j, *common_parent;
324 process_id_t pid;
325
326 if (job == process->job) return;
327
328 if ((common_parent = process->job))
329 {
330 if (job->parent)
331 {
332 for (j = job->parent; j; j = j->parent)
333 if (j == common_parent) break;
334
335 if (j != common_parent)
336 {
337 /* Job already has parent and the process is not in the job's chain. */
338 set_error( STATUS_ACCESS_DENIED );
339 return;
340 }
341 /* process->job is referenced in the job->parent chain. */
342 release_object( process->job );
343 }
344 else
345 {
346 if (job->total_processes)
347 {
348 set_error( STATUS_ACCESS_DENIED );
349 return;
350 }
351 /* transfer reference. */
352 job->parent = process->job;
353 list_add_tail( &job->parent->child_job_list, &job->parent_job_entry );
354 }
355 list_remove( &process->job_entry );
356 }
357 process->job = (struct job *)grab_object( job );
358 list_add_tail( &job->process_list, &process->job_entry );
359
360 pid = get_process_id( process );
361 for (j = job; j != common_parent; j = j->parent)
362 {
363 j->num_processes++;
364 j->total_processes++;
365 add_job_completion( j, JOB_OBJECT_MSG_NEW_PROCESS, pid );
366 }
367 }
368
369 /* called when a process has terminated, allow one additional process */
370 static void release_job_process( struct process *process )
371 {
372 struct job *job = process->job;
373
374 while (job)
375 {
376 assert( job->num_processes );
377 job->num_processes--;
378
379 if (!job->terminating)
380 add_job_completion( job, JOB_OBJECT_MSG_EXIT_PROCESS, get_process_id(process) );
381
382 if (!job->num_processes)
383 add_job_completion( job, JOB_OBJECT_MSG_ACTIVE_PROCESS_ZERO, 0 );
384
385 job = job->parent;
386 }
387 }
388
389 static void terminate_job( struct job *job, int exit_code )
390 {
391 struct process *process, *next_process;
392 struct job *j, *next_job;
393
394 LIST_FOR_EACH_ENTRY_SAFE( j, next_job, &job->child_job_list, struct job, parent_job_entry )
395 {
396 assert( j->parent == job );
397
398 grab_object( j );
399 terminate_job( j, exit_code );
400 release_object( j );
401 }
402
403 job->terminating = 1;
404 LIST_FOR_EACH_ENTRY_SAFE( process, next_process, &job->process_list, struct process, job_entry )
405 {
406 assert( process->job == job );
407 if (process->running_threads) terminate_process( process, NULL, exit_code );
408 }
409 job->terminating = 0;
410 job->signaled = 1;
411 wake_up( &job->obj, 0 );
412 }
413
414 static int job_close_handle( struct object *obj, struct process *process, obj_handle_t handle )
415 {
416 struct job *job = (struct job *)obj;
417 assert( obj->ops == &job_ops );
418
419 if (obj->handle_count == 1) /* last handle */
420 {
421 if (job->limit_flags & JOB_OBJECT_LIMIT_KILL_ON_JOB_CLOSE)
422 terminate_job( job, 0 );
423 }
424 return 1;
425 }
426
427 static void job_destroy( struct object *obj )
428 {
429 struct job *job = (struct job *)obj;
430 assert( obj->ops == &job_ops );
431
432 assert( !job->num_processes );
433 assert( list_empty( &job->process_list ));
434 assert( list_empty( &job->child_job_list ));
435
436 if (job->completion_port) release_object( job->completion_port );
437 if (job->parent)
438 {
439 list_remove( &job->parent_job_entry );
440 release_object( job->parent );
441 }
442 }
443
444 static void job_dump( struct object *obj, int verbose )
445 {
446 struct job *job = (struct job *)obj;
447 assert( obj->ops == &job_ops );
448 fprintf( stderr, "Job processes=%d child_jobs=%d parent=%p\n",
449 list_count(&job->process_list), list_count(&job->child_job_list), job->parent );
450 }
451
452 static int job_signaled( struct object *obj, struct wait_queue_entry *entry )
453 {
454 struct job *job = (struct job *)obj;
455 return job->signaled;
456 }
457
458 struct ptid_entry
459 {
460 void *ptr; /* entry ptr */
461 unsigned int next; /* next free entry */
462 };
463
464 static struct ptid_entry *ptid_entries; /* array of ptid entries */
465 static unsigned int used_ptid_entries; /* number of entries in use */
466 static unsigned int alloc_ptid_entries; /* number of allocated entries */
467 static unsigned int next_free_ptid; /* next free entry */
468 static unsigned int last_free_ptid; /* last free entry */
469 static unsigned int num_free_ptids; /* number of free ptids */
470
471 static void kill_all_processes(void);
472
473 #define PTID_OFFSET 8 /* offset for first ptid value */
474
475 static unsigned int index_from_ptid(unsigned int id) { return id / 4; }
476 static unsigned int ptid_from_index(unsigned int index) { return index * 4; }
477
478 /* allocate a new process or thread id */
479 unsigned int alloc_ptid( void *ptr )
480 {
481 struct ptid_entry *entry;
482 unsigned int index;
483
484 if (used_ptid_entries < alloc_ptid_entries)
485 {
486 index = used_ptid_entries + PTID_OFFSET;
487 entry = &ptid_entries[used_ptid_entries++];
488 }
489 else if (next_free_ptid && num_free_ptids >= 256)
490 {
491 index = next_free_ptid;
492 entry = &ptid_entries[index - PTID_OFFSET];
493 if (!(next_free_ptid = entry->next)) last_free_ptid = 0;
494 num_free_ptids--;
495 }
496 else /* need to grow the array */
497 {
498 unsigned int count = alloc_ptid_entries + (alloc_ptid_entries / 2);
499 if (!count) count = 512;
500 if (!(entry = realloc( ptid_entries, count * sizeof(*entry) )))
501 {
502 set_error( STATUS_NO_MEMORY );
503 return 0;
504 }
505 ptid_entries = entry;
506 alloc_ptid_entries = count;
507 index = used_ptid_entries + PTID_OFFSET;
508 entry = &ptid_entries[used_ptid_entries++];
509 }
510
511 entry->ptr = ptr;
512 return ptid_from_index( index );
513 }
514
515 /* free a process or thread id */
516 void free_ptid( unsigned int id )
517 {
518 unsigned int index = index_from_ptid( id );
519 struct ptid_entry *entry = &ptid_entries[index - PTID_OFFSET];
520
521 entry->ptr = NULL;
522 entry->next = 0;
523
524 /* append to end of free list so that we don't reuse it too early */
525 if (last_free_ptid) ptid_entries[last_free_ptid - PTID_OFFSET].next = index;
526 else next_free_ptid = index;
527 last_free_ptid = index;
528 num_free_ptids++;
529 }
530
531 /* retrieve the pointer corresponding to a process or thread id */
532 void *get_ptid_entry( unsigned int id )
533 {
534 unsigned int index = index_from_ptid( id );
535 if (index < PTID_OFFSET) return NULL;
536 if (index - PTID_OFFSET >= used_ptid_entries) return NULL;
537 return ptid_entries[index - PTID_OFFSET].ptr;
538 }
539
540 /* return the main thread of the process */
541 struct thread *get_process_first_thread( struct process *process )
542 {
543 struct list *ptr = list_head( &process->thread_list );
544 if (!ptr) return NULL;
545 return LIST_ENTRY( ptr, struct thread, proc_entry );
546 }
547
548 /* set the state of the process startup info */
549 static void set_process_startup_state( struct process *process, enum startup_state state )
550 {
551 if (process->startup_state == STARTUP_IN_PROGRESS) process->startup_state = state;
552 if (process->startup_info)
553 {
554 wake_up( &process->startup_info->obj, 0 );
555 release_object( process->startup_info );
556 process->startup_info = NULL;
557 }
558 }
559
560 /* callback for server shutdown */
561 static void server_shutdown_timeout( void *arg )
562 {
563 shutdown_timeout = NULL;
564 if (!running_processes)
565 {
566 close_master_socket( 0 );
567 return;
568 }
569 switch(++shutdown_stage)
570 {
571 case 1: /* signal system processes to exit */
572 if (debug_level) fprintf( stderr, "wineserver: shutting down\n" );
573 if (shutdown_event) set_event( shutdown_event );
574 shutdown_timeout = add_timeout_user( 2 * -TICKS_PER_SEC, server_shutdown_timeout, NULL );
575 close_master_socket( 4 * -TICKS_PER_SEC );
576 break;
577 case 2: /* now forcibly kill all processes (but still wait for SIGKILL timeouts) */
578 kill_all_processes();
579 break;
580 }
581 }
582
583 /* forced shutdown, used for wineserver -k */
584 void shutdown_master_socket(void)
585 {
586 kill_all_processes();
587 shutdown_stage = 2;
588 if (shutdown_timeout)
589 {
590 remove_timeout_user( shutdown_timeout );
591 shutdown_timeout = NULL;
592 }
593 close_master_socket( 2 * -TICKS_PER_SEC ); /* for SIGKILL timeouts */
594 }
595
596 /* final cleanup once we are sure a process is really dead */
597 static void process_died( struct process *process )
598 {
599 if (debug_level) fprintf( stderr, "%04x: *process killed*\n", process->id );
600 if (!process->is_system)
601 {
602 if (!--user_processes && !shutdown_stage && master_socket_timeout != TIMEOUT_INFINITE)
603 shutdown_timeout = add_timeout_user( master_socket_timeout, server_shutdown_timeout, NULL );
604 }
605 release_object( process );
606 if (!--running_processes && shutdown_stage) close_master_socket( 0 );
607 }
608
609 /* callback for process sigkill timeout */
610 static void process_sigkill( void *private )
611 {
612 struct process *process = private;
613 int signal = 0;
614
615 process->sigkill_delay *= 2;
616 if (process->sigkill_delay >= TICKS_PER_SEC / 2)
617 signal = SIGKILL;
618
619 if (!kill( process->unix_pid, signal ) && !signal)
620 process->sigkill_timeout = add_timeout_user( -process->sigkill_delay, process_sigkill, process );
621 else
622 {
623 process->sigkill_delay = TICKS_PER_SEC / 64;
624 process->sigkill_timeout = NULL;
625 process_died( process );
626 }
627 }
628
629 /* start the sigkill timer for a process upon exit */
630 static void start_sigkill_timer( struct process *process )
631 {
632 grab_object( process );
633 if (process->unix_pid != -1)
634 process->sigkill_timeout = add_timeout_user( -process->sigkill_delay, process_sigkill, process );
635 else
636 process_died( process );
637 }
638
639 /* create a new process */
640 /* if the function fails the fd is closed */
641 struct process *create_process( int fd, struct process *parent, unsigned int flags, const startup_info_t *info,
642 const struct security_descriptor *sd, const obj_handle_t *handles,
643 unsigned int handle_count, struct token *token )
644 {
645 struct process *process;
646
647 if (!(process = alloc_object( &process_ops )))
648 {
649 close( fd );
650 goto error;
651 }
652 process->parent_id = 0;
653 process->debug_obj = NULL;
654 process->debug_event = NULL;
655 process->handles = NULL;
656 process->msg_fd = NULL;
657 process->sigkill_timeout = NULL;
658 process->sigkill_delay = TICKS_PER_SEC / 64;
659 process->unix_pid = -1;
660 process->exit_code = STILL_ACTIVE;
661 process->running_threads = 0;
662 process->priority = PROCESS_PRIOCLASS_NORMAL;
663 process->suspend = 0;
664 process->is_system = 0;
665 process->debug_children = 1;
666 process->is_terminating = 0;
667 process->imagelen = 0;
668 process->image = NULL;
669 process->job = NULL;
670 process->console = NULL;
671 process->startup_state = STARTUP_IN_PROGRESS;
672 process->startup_info = NULL;
673 process->idle_event = NULL;
674 process->peb = 0;
675 process->ldt_copy = 0;
676 process->dir_cache = NULL;
677 process->winstation = 0;
678 process->desktop = 0;
679 process->token = NULL;
680 process->trace_data = 0;
681 process->rawinput_devices = NULL;
682 process->rawinput_device_count = 0;
683 process->rawinput_mouse = NULL;
684 process->rawinput_kbd = NULL;
685 memset( &process->image_info, 0, sizeof(process->image_info) );
686 list_init( &process->kernel_object );
687 list_init( &process->thread_list );
688 list_init( &process->locks );
689 list_init( &process->asyncs );
690 list_init( &process->classes );
691 list_init( &process->views );
692
693 process->end_time = 0;
694
695 if (sd && !default_set_sd( &process->obj, sd, OWNER_SECURITY_INFORMATION | GROUP_SECURITY_INFORMATION |
696 DACL_SECURITY_INFORMATION | SACL_SECURITY_INFORMATION ))
697 {
698 close( fd );
699 goto error;
700 }
701 if (!(process->id = process->group_id = alloc_ptid( process )))
702 {
703 close( fd );
704 goto error;
705 }
706 if (!(process->msg_fd = create_anonymous_fd( &process_fd_ops, fd, &process->obj, 0 ))) goto error;
707
708 /* create the handle table */
709 if (!parent)
710 {
711 process->handles = alloc_handle_table( process, 0 );
712 process->token = token_create_admin( TRUE, -1, TokenElevationTypeFull, default_session_id );
713 process->affinity = ~0;
714 }
715 else
716 {
717 obj_handle_t std_handles[3];
718
719 std_handles[0] = info->hstdin;
720 std_handles[1] = info->hstdout;
721 std_handles[2] = info->hstderr;
722
723 process->parent_id = parent->id;
724 if (flags & PROCESS_CREATE_FLAGS_INHERIT_HANDLES)
725 process->handles = copy_handle_table( process, parent, handles, handle_count, std_handles );
726 else
727 process->handles = alloc_handle_table( process, 0 );
728 /* Note: for security reasons, starting a new process does not attempt
729 * to use the current impersonation token for the new process */
730 process->token = token_duplicate( token ? token : parent->token, TRUE, 0, NULL, NULL, 0, NULL, 0 );
731 process->affinity = parent->affinity;
732 }
733 if (!process->handles || !process->token) goto error;
734 process->session_id = token_get_session_id( process->token );
735
736 /* Assign a high security label to the token. The default would be medium
737 * but Wine provides admin access to all applications right now so high
738 * makes more sense for the time being. */
739 if (!token_assign_label( process->token, &high_label_sid ))
740 goto error;
741
742 set_fd_events( process->msg_fd, POLLIN ); /* start listening to events */
743 return process;
744
745 error:
746 if (process) release_object( process );
747 /* if we failed to start our first process, close everything down */
748 if (!running_processes && master_socket_timeout != TIMEOUT_INFINITE) close_master_socket( 0 );
749 return NULL;
750 }
751
752 /* get the process data size */
753 data_size_t get_process_startup_info_size( struct process *process )
754 {
755 struct startup_info *info = process->startup_info;
756
757 if (!info) return 0;
758 return info->data_size;
759 }
760
761 /* destroy a process when its refcount is 0 */
762 static void process_destroy( struct object *obj )
763 {
764 struct process *process = (struct process *)obj;
765 assert( obj->ops == &process_ops );
766
767 /* we can't have a thread remaining */
768 assert( list_empty( &process->thread_list ));
769 assert( list_empty( &process->asyncs ));
770
771 assert( !process->sigkill_timeout ); /* timeout should hold a reference to the process */
772
773 close_process_handles( process );
774 set_process_startup_state( process, STARTUP_ABORTED );
775
776 if (process->job)
777 {
778 list_remove( &process->job_entry );
779 release_object( process->job );
780 }
781 if (process->console) release_object( process->console );
782 if (process->msg_fd) release_object( process->msg_fd );
783 if (process->idle_event) release_object( process->idle_event );
784 if (process->id) free_ptid( process->id );
785 if (process->token) release_object( process->token );
786 free( process->rawinput_devices );
787 free( process->dir_cache );
788 free( process->image );
789 }
790
791 /* dump a process on stdout for debugging purposes */
792 static void process_dump( struct object *obj, int verbose )
793 {
794 struct process *process = (struct process *)obj;
795 assert( obj->ops == &process_ops );
796
797 fprintf( stderr, "Process id=%04x handles=%p\n", process->id, process->handles );
798 }
799
800 static int process_signaled( struct object *obj, struct wait_queue_entry *entry )
801 {
802 struct process *process = (struct process *)obj;
803 return !process->running_threads;
804 }
805
806 static unsigned int process_map_access( struct object *obj, unsigned int access )
807 {
808 access = default_map_access( obj, access );
809 if (access & PROCESS_QUERY_INFORMATION) access |= PROCESS_QUERY_LIMITED_INFORMATION;
810 if (access & PROCESS_SET_INFORMATION) access |= PROCESS_SET_LIMITED_INFORMATION;
811 return access;
812 }
813
814 static struct list *process_get_kernel_obj_list( struct object *obj )
815 {
816 struct process *process = (struct process *)obj;
817 return &process->kernel_object;
818 }
819
820 static struct security_descriptor *process_get_sd( struct object *obj )
821 {
822 static struct security_descriptor *process_default_sd;
823
824 if (obj->sd) return obj->sd;
825
826 if (!process_default_sd)
827 {
828 struct ace *ace;
829 struct acl *dacl;
830 struct sid *sid;
831 size_t users_sid_len = sid_len( &domain_users_sid );
832 size_t admins_sid_len = sid_len( &builtin_admins_sid );
833 size_t dacl_len = sizeof(*dacl) + 2 * sizeof(*ace) + users_sid_len + admins_sid_len;
834
835 process_default_sd = mem_alloc( sizeof(*process_default_sd) + admins_sid_len + users_sid_len
836 + dacl_len );
837 process_default_sd->control = SE_DACL_PRESENT;
838 process_default_sd->owner_len = admins_sid_len;
839 process_default_sd->group_len = users_sid_len;
840 process_default_sd->sacl_len = 0;
841 process_default_sd->dacl_len = dacl_len;
842 sid = (struct sid *)(process_default_sd + 1);
843 sid = copy_sid( sid, &builtin_admins_sid );
844 sid = copy_sid( sid, &domain_users_sid );
845
846 dacl = (struct acl *)((char *)(process_default_sd + 1) + admins_sid_len + users_sid_len);
847 dacl->revision = ACL_REVISION;
848 dacl->pad1 = 0;
849 dacl->size = dacl_len;
850 dacl->count = 2;
851 dacl->pad2 = 0;
852 ace = set_ace( ace_first( dacl ), &domain_users_sid, ACCESS_ALLOWED_ACE_TYPE,
853 INHERIT_ONLY_ACE | CONTAINER_INHERIT_ACE, GENERIC_READ );
854 set_ace( ace_next( ace ), &builtin_admins_sid, ACCESS_ALLOWED_ACE_TYPE, 0, PROCESS_ALL_ACCESS );
855 }
856 return process_default_sd;
857 }
858
859 static void process_poll_event( struct fd *fd, int event )
860 {
861 struct process *process = get_fd_user( fd );
862 assert( process->obj.ops == &process_ops );
863
864 if (event & (POLLERR | POLLHUP)) kill_process( process, 0 );
865 else if (event & POLLIN) receive_fd( process );
866 }
867
868 static void startup_info_destroy( struct object *obj )
869 {
870 struct startup_info *info = (struct startup_info *)obj;
871 assert( obj->ops == &startup_info_ops );
872 free( info->data );
873 if (info->process) release_object( info->process );
874 }
875
876 static void startup_info_dump( struct object *obj, int verbose )
877 {
878 struct startup_info *info = (struct startup_info *)obj;
879 assert( obj->ops == &startup_info_ops );
880
881 fputs( "Startup info", stderr );
882 if (info->data)
883 fprintf( stderr, " in=%04x out=%04x err=%04x",
884 info->data->hstdin, info->data->hstdout, info->data->hstderr );
885 fputc( '\n', stderr );
886 }
887
888 static int startup_info_signaled( struct object *obj, struct wait_queue_entry *entry )
889 {
890 struct startup_info *info = (struct startup_info *)obj;
891 return info->process && info->process->startup_state != STARTUP_IN_PROGRESS;
892 }
893
894 /* get a process from an id (and increment the refcount) */
895 struct process *get_process_from_id( process_id_t id )
896 {
897 struct object *obj = get_ptid_entry( id );
898
899 if (obj && obj->ops == &process_ops) return (struct process *)grab_object( obj );
900 set_error( STATUS_INVALID_CID );
901 return NULL;
902 }
903
904 /* get a process from a handle (and increment the refcount) */
905 struct process *get_process_from_handle( obj_handle_t handle, unsigned int access )
906 {
907 return (struct process *)get_handle_obj( current->process, handle,
908 access, &process_ops );
909 }
910
911 /* terminate a process with the given exit code */
912 static void terminate_process( struct process *process, struct thread *skip, int exit_code )
913 {
914 struct thread *thread;
915
916 grab_object( process ); /* make sure it doesn't get freed when threads die */
917 process->is_terminating = 1;
918
919 restart:
920 LIST_FOR_EACH_ENTRY( thread, &process->thread_list, struct thread, proc_entry )
921 {
922 if (exit_code) thread->exit_code = exit_code;
923 if (thread == skip) continue;
924 if (thread->state == TERMINATED) continue;
925 kill_thread( thread, 1 );
926 goto restart;
927 }
928 release_object( process );
929 }
930
931 /* kill all processes */
932 static void kill_all_processes(void)
933 {
934 struct list *ptr;
935
936 while ((ptr = list_head( &process_list )))
937 {
938 struct process *process = LIST_ENTRY( ptr, struct process, entry );
939 terminate_process( process, NULL, 1 );
940 }
941 }
942
943 /* kill all processes being attached to a console renderer */
944 void kill_console_processes( struct thread *renderer, int exit_code )
945 {
946 for (;;) /* restart from the beginning of the list every time */
947 {
948 struct process *process;
949
950 /* find the first process being attached to 'renderer' and still running */
951 LIST_FOR_EACH_ENTRY( process, &process_list, struct process, entry )
952 {
953 if (process == renderer->process) continue;
954 if (process->console && console_get_renderer( process->console ) == renderer) break;
955 }
956 if (&process->entry == &process_list) break; /* no process found */
957 terminate_process( process, NULL, exit_code );
958 }
959 }
960
961 /* a process has been killed (i.e. its last thread died) */
962 static void process_killed( struct process *process )
963 {
964 assert( list_empty( &process->thread_list ));
965 process->end_time = current_time;
966 close_process_desktop( process );
967 process->winstation = 0;
968 process->desktop = 0;
969 cancel_process_asyncs( process );
970 close_process_handles( process );
971 if (process->idle_event) release_object( process->idle_event );
972 process->idle_event = NULL;
973 assert( !process->console );
974
975 destroy_process_classes( process );
976 free_mapped_views( process );
977 free_process_user_handles( process );
978 remove_process_locks( process );
979 set_process_startup_state( process, STARTUP_ABORTED );
980 finish_process_tracing( process );
981 release_job_process( process );
982 start_sigkill_timer( process );
983 wake_up( &process->obj, 0 );
984 }
985
986 /* add a thread to a process running threads list */
987 void add_process_thread( struct process *process, struct thread *thread )
988 {
989 list_add_tail( &process->thread_list, &thread->proc_entry );
990 if (!process->running_threads++)
991 {
992 list_add_tail( &process_list, &process->entry );
993 running_processes++;
994 if (!process->is_system)
995 {
996 if (!user_processes++ && shutdown_timeout)
997 {
998 remove_timeout_user( shutdown_timeout );
999 shutdown_timeout = NULL;
1000 }
1001 }
1002 }
1003 grab_object( thread );
1004 }
1005
1006 /* remove a thread from a process running threads list */
1007 void remove_process_thread( struct process *process, struct thread *thread )
1008 {
1009 assert( process->running_threads > 0 );
1010 assert( !list_empty( &process->thread_list ));
1011
1012 list_remove( &thread->proc_entry );
1013
1014 if (!--process->running_threads)
1015 {
1016 /* we have removed the last running thread, exit the process */
1017 process->exit_code = thread->exit_code;
1018 generate_debug_event( thread, DbgExitProcessStateChange, process );
1019 list_remove( &process->entry );
1020 process_killed( process );
1021 }
1022 else generate_debug_event( thread, DbgExitThreadStateChange, thread );
1023 release_object( thread );
1024 }
1025
1026 /* suspend all the threads of a process */
1027 void suspend_process( struct process *process )
1028 {
1029 if (!process->suspend++)
1030 {
1031 struct list *ptr, *next;
1032
1033 LIST_FOR_EACH_SAFE( ptr, next, &process->thread_list )
1034 {
1035 struct thread *thread = LIST_ENTRY( ptr, struct thread, proc_entry );
1036 if (!thread->suspend) stop_thread( thread );
1037 }
1038 }
1039 }
1040
1041 /* resume all the threads of a process */
1042 void resume_process( struct process *process )
1043 {
1044 assert (process->suspend > 0);
1045 if (!--process->suspend)
1046 {
1047 struct list *ptr, *next;
1048
1049 LIST_FOR_EACH_SAFE( ptr, next, &process->thread_list )
1050 {
1051 struct thread *thread = LIST_ENTRY( ptr, struct thread, proc_entry );
1052 if (!thread->suspend) wake_thread( thread );
1053 }
1054 }
1055 }
1056
1057 /* kill a process on the spot */
1058 void kill_process( struct process *process, int violent_death )
1059 {
1060 if (!violent_death && process->msg_fd) /* normal termination on pipe close */
1061 {
1062 release_object( process->msg_fd );
1063 process->msg_fd = NULL;
1064 }
1065
1066 if (process->sigkill_timeout) return; /* already waiting for it to die */
1067
1068 if (violent_death) terminate_process( process, NULL, 1 );
1069 else
1070 {
1071 struct list *ptr;
1072
1073 grab_object( process ); /* make sure it doesn't get freed when threads die */
1074 while ((ptr = list_head( &process->thread_list )))
1075 {
1076 struct thread *thread = LIST_ENTRY( ptr, struct thread, proc_entry );
1077 kill_thread( thread, 0 );
1078 }
1079 release_object( process );
1080 }
1081 }
1082
1083 /* detach all processes being debugged by a given thread */
1084 void detach_debugged_processes( struct debug_obj *debug_obj, int exit_code )
1085 {
1086 for (;;) /* restart from the beginning of the list every time */
1087 {
1088 struct process *process;
1089
1090 /* find the first process being debugged by 'debugger' and still running */
1091 LIST_FOR_EACH_ENTRY( process, &process_list, struct process, entry )
1092 if (process->debug_obj == debug_obj) break;
1093
1094 if (&process->entry == &process_list) break; /* no process found */
1095 if (exit_code)
1096 {
1097 process->debug_obj = NULL;
1098 terminate_process( process, NULL, exit_code );
1099 }
1100 else debugger_detach( process, debug_obj );
1101 }
1102 }
1103
1104
1105 void enum_processes( int (*cb)(struct process*, void*), void *user )
1106 {
1107 struct list *ptr, *next;
1108
1109 LIST_FOR_EACH_SAFE( ptr, next, &process_list )
1110 {
1111 struct process *process = LIST_ENTRY( ptr, struct process, entry );
1112 if ((cb)(process, user)) break;
1113 }
1114 }
1115
1116 /* set the debugged flag in the process PEB */
1117 int set_process_debug_flag( struct process *process, int flag )
1118 {
1119 char data = (flag != 0);
1120 client_ptr_t peb32 = 0;
1121
1122 if (!is_machine_64bit( process->machine ) && is_machine_64bit( native_machine ))
1123 peb32 = process->peb + 0x1000;
1124
1125 /* BeingDebugged flag is the byte at offset 2 in the PEB */
1126 if (peb32 && !write_process_memory( process, peb32 + 2, 1, &data )) return 0;
1127 return write_process_memory( process, process->peb + 2, 1, &data );
1128 }
1129
1130 /* create a new process */
1131 DECL_HANDLER(new_process)
1132 {
1133 struct startup_info *info;
1134 const void *info_ptr;
1135 struct unicode_str name;
1136 const struct security_descriptor *sd;
1137 const struct object_attributes *objattr = get_req_object_attributes( &sd, &name, NULL );
1138 struct process *process = NULL;
1139 struct token *token = NULL;
1140 struct debug_obj *debug_obj = NULL;
1141 struct process *parent;
1142 struct thread *parent_thread = current;
1143 int socket_fd = thread_get_inflight_fd( current, req->socket_fd );
1144 const obj_handle_t *handles = NULL;
1145 const obj_handle_t *job_handles = NULL;
1146 unsigned int i, job_handle_count;
1147 struct job *job;
1148
1149 if (socket_fd == -1)
1150 {
1151 set_error( STATUS_INVALID_PARAMETER );
1152 return;
1153 }
1154 if (!objattr)
1155 {
1156 set_error( STATUS_INVALID_PARAMETER );
1157 close( socket_fd );
1158 return;
1159 }
1160 if (fcntl( socket_fd, F_SETFL, O_NONBLOCK ) == -1)
1161 {
1162 set_error( STATUS_INVALID_HANDLE );
1163 close( socket_fd );
1164 return;
1165 }
1166 if (shutdown_stage)
1167 {
1168 set_error( STATUS_SHUTDOWN_IN_PROGRESS );
1169 close( socket_fd );
1170 return;
1171 }
1172
1173 if (req->parent_process)
1174 {
1175 if (!(parent = get_process_from_handle( req->parent_process, PROCESS_CREATE_PROCESS)))
1176 {
1177 close( socket_fd );
1178 return;
1179 }
1180 parent_thread = NULL;
1181 }
1182 else parent = (struct process *)grab_object( current->process );
1183
1184 /* If a job further in the job chain does not permit breakaway process creation
1185 * succeeds and the process which is trying to breakaway is assigned to that job. */
1186 if (parent->job && (req->flags & PROCESS_CREATE_FLAGS_BREAKAWAY) &&
1187 !(parent->job->limit_flags & (JOB_OBJECT_LIMIT_BREAKAWAY_OK | JOB_OBJECT_LIMIT_SILENT_BREAKAWAY_OK)))
1188 {
1189 set_error( STATUS_ACCESS_DENIED );
1190 close( socket_fd );
1191 release_object( parent );
1192 return;
1193 }
1194
1195 /* build the startup info for a new process */
1196 if (!(info = alloc_object( &startup_info_ops )))
1197 {
1198 close( socket_fd );
1199 release_object( parent );
1200 return;
1201 }
1202 info->process = NULL;
1203 info->data = NULL;
1204
1205 info_ptr = get_req_data_after_objattr( objattr, &info->data_size );
1206
1207 if ((req->handles_size & 3) || req->handles_size > info->data_size)
1208 {
1209 set_error( STATUS_INVALID_PARAMETER );
1210 close( socket_fd );
1211 goto done;
1212 }
1213 if (req->handles_size)
1214 {
1215 handles = info_ptr;
1216 info_ptr = (const char *)info_ptr + req->handles_size;
1217 info->data_size -= req->handles_size;
1218 }
1219
1220 if ((req->jobs_size & 3) || req->jobs_size > info->data_size)
1221 {
1222 set_error( STATUS_INVALID_PARAMETER );
1223 close( socket_fd );
1224 goto done;
1225 }
1226 if (req->jobs_size)
1227 {
1228 job_handles = info_ptr;
1229 info_ptr = (const char *)info_ptr + req->jobs_size;
1230 info->data_size -= req->jobs_size;
1231 }
1232
1233 job_handle_count = req->jobs_size / sizeof(*handles);
1234 for (i = 0; i < job_handle_count; ++i)
1235 {
1236 if (!(job = get_job_obj( current->process, job_handles[i], JOB_OBJECT_ASSIGN_PROCESS )))
1237 {
1238 close( socket_fd );
1239 goto done;
1240 }
1241 release_object( job );
1242 }
1243
1244 info->info_size = min( req->info_size, info->data_size );
1245
1246 if (req->info_size < sizeof(*info->data))
1247 {
1248 /* make sure we have a full startup_info_t structure */
1249 data_size_t env_size = info->data_size - info->info_size;
1250 data_size_t info_size = min( req->info_size, FIELD_OFFSET( startup_info_t, curdir_len ));
1251
1252 if (!(info->data = mem_alloc( sizeof(*info->data) + env_size )))
1253 {
1254 close( socket_fd );
1255 goto done;
1256 }
1257 memcpy( info->data, info_ptr, info_size );
1258 memset( (char *)info->data + info_size, 0, sizeof(*info->data) - info_size );
1259 memcpy( info->data + 1, (const char *)info_ptr + req->info_size, env_size );
1260 info->info_size = sizeof(startup_info_t);
1261 info->data_size = info->info_size + env_size;
1262 }
1263 else
1264 {
1265 data_size_t pos = sizeof(*info->data);
1266
1267 if (!(info->data = memdup( info_ptr, info->data_size )))
1268 {
1269 close( socket_fd );
1270 goto done;
1271 }
1272 #define FIXUP_LEN(len) do { (len) = min( (len), info->info_size - pos ); pos += (len); } while(0)
1273 FIXUP_LEN( info->data->curdir_len );
1274 FIXUP_LEN( info->data->dllpath_len );
1275 FIXUP_LEN( info->data->imagepath_len );
1276 FIXUP_LEN( info->data->cmdline_len );
1277 FIXUP_LEN( info->data->title_len );
1278 FIXUP_LEN( info->data->desktop_len );
1279 FIXUP_LEN( info->data->shellinfo_len );
1280 FIXUP_LEN( info->data->runtime_len );
1281 #undef FIXUP_LEN
1282 }
1283
1284 if (req->token && !(token = get_token_obj( current->process, req->token, TOKEN_QUERY | TOKEN_ASSIGN_PRIMARY )))
1285 {
1286 close( socket_fd );
1287 goto done;
1288 }
1289 if (req->debug && !(debug_obj = get_debug_obj( current->process, req->debug, DEBUG_PROCESS_ASSIGN )))
1290 {
1291 close( socket_fd );
1292 goto done;
1293 }
1294
1295 if (!(process = create_process( socket_fd, parent, req->flags, info->data, sd,
1296 handles, req->handles_size / sizeof(*handles), token )))
1297 goto done;
1298
1299 process->startup_info = (struct startup_info *)grab_object( info );
1300
1301 job = parent->job;
1302 while (job)
1303 {
1304 if (!(job->limit_flags & JOB_OBJECT_LIMIT_SILENT_BREAKAWAY_OK)
1305 && !(req->flags & PROCESS_CREATE_FLAGS_BREAKAWAY
1306 && job->limit_flags & JOB_OBJECT_LIMIT_BREAKAWAY_OK))
1307 {
1308 add_job_process( job, process );
1309 assert( !get_error() );
1310 break;
1311 }
1312 job = job->parent;
1313 }
1314
1315 for (i = 0; i < job_handle_count; ++i)
1316 {
1317 job = get_job_obj( current->process, job_handles[i], JOB_OBJECT_ASSIGN_PROCESS );
1318 add_job_process( job, process );
1319 release_object( job );
1320 if (get_error())
1321 {
1322 release_job_process( process );
1323 goto done;
1324 }
1325 }
1326
1327 /* connect to the window station */
1328 connect_process_winstation( process, parent_thread, parent );
1329
1330 /* inherit the process console, but keep pseudo handles (< 0), and 0 (= not attached to a console) as is */
1331 if ((int)info->data->console > 0)
1332 info->data->console = duplicate_handle( parent, info->data->console, process,
1333 0, 0, DUPLICATE_SAME_ACCESS );
1334
1335 if (!(req->flags & PROCESS_CREATE_FLAGS_INHERIT_HANDLES) && info->data->console != 1)
1336 {
1337 info->data->hstdin = duplicate_handle( parent, info->data->hstdin, process,
1338 0, OBJ_INHERIT, DUPLICATE_SAME_ACCESS );
1339 info->data->hstdout = duplicate_handle( parent, info->data->hstdout, process,
1340 0, OBJ_INHERIT, DUPLICATE_SAME_ACCESS );
1341 info->data->hstderr = duplicate_handle( parent, info->data->hstderr, process,
1342 0, OBJ_INHERIT, DUPLICATE_SAME_ACCESS );
1343 /* some handles above may have been invalid; this is not an error */
1344 if (get_error() == STATUS_INVALID_HANDLE ||
1345 get_error() == STATUS_OBJECT_TYPE_MISMATCH) clear_error();
1346 }
1347
1348 /* attach to the debugger */
1349 if (debug_obj)
1350 {
1351 process->debug_obj = debug_obj;
1352 process->debug_children = !(req->flags & PROCESS_CREATE_FLAGS_NO_DEBUG_INHERIT);
1353 }
1354 else if (parent->debug_children)
1355 {
1356 process->debug_obj = parent->debug_obj;
1357 /* debug_children is set to 1 by default */
1358 }
1359
1360 if (!info->data->console_flags) process->group_id = parent->group_id;
1361
1362 info->process = (struct process *)grab_object( process );
1363 reply->info = alloc_handle( current->process, info, SYNCHRONIZE, 0 );
1364 reply->pid = get_process_id( process );
1365 reply->handle = alloc_handle_no_access_check( current->process, process, req->access, objattr->attributes );
1366
1367 done:
1368 if (process) release_object( process );
1369 if (debug_obj) release_object( debug_obj );
1370 if (token) release_object( token );
1371 release_object( parent );
1372 release_object( info );
1373 }
1374
1375 /* Retrieve information about a newly started process */
1376 DECL_HANDLER(get_new_process_info)
1377 {
1378 struct startup_info *info;
1379
1380 if ((info = (struct startup_info *)get_handle_obj( current->process, req->info,
1381 0, &startup_info_ops )))
1382 {
1383 reply->success = is_process_init_done( info->process );
1384 reply->exit_code = info->process->exit_code;
1385 release_object( info );
1386 }
1387 }
1388
1389 /* Retrieve the new process startup info */
1390 DECL_HANDLER(get_startup_info)
1391 {
1392 struct process *process = current->process;
1393 struct startup_info *info = process->startup_info;
1394 data_size_t size;
1395
1396 if (!info) return;
1397
1398 /* we return the data directly without making a copy so this can only be called once */
1399 reply->info_size = info->info_size;
1400 size = info->data_size;
1401 if (size > get_reply_max_size()) size = get_reply_max_size();
1402 set_reply_data_ptr( info->data, size );
1403 info->data = NULL;
1404 info->data_size = 0;
1405 }
1406
1407 /* signal the end of the process initialization */
1408 DECL_HANDLER(init_process_done)
1409 {
1410 struct process *process = current->process;
1411 struct memory_view *view;
1412 client_ptr_t base;
1413 const pe_image_info_t *image_info;
1414
1415 if (is_process_init_done(process))
1416 {
1417 set_error( STATUS_INVALID_PARAMETER );
1418 return;
1419 }
1420 if (!(view = get_exe_view( process )))
1421 {
1422 set_error( STATUS_DLL_NOT_FOUND );
1423 return;
1424 }
1425 if (!(image_info = get_view_image_info( view, &base ))) return;
1426
1427 current->teb = req->teb;
1428 process->peb = req->peb;
1429 process->ldt_copy = req->ldt_copy;
1430
1431 process->start_time = current_time;
1432 current->entry_point = base + image_info->entry_point;
1433
1434 init_process_tracing( process );
1435 generate_startup_debug_events( process );
1436 set_process_startup_state( process, STARTUP_DONE );
1437
1438 if (image_info->subsystem != IMAGE_SUBSYSTEM_WINDOWS_CUI)
1439 process->idle_event = create_event( NULL, NULL, 0, 1, 0, NULL );
1440 if (process->debug_obj) set_process_debug_flag( process, 1 );
1441 reply->entry = current->entry_point;
1442 reply->suspend = (current->suspend || process->suspend);
1443 }
1444
1445 /* open a handle to a process */
1446 DECL_HANDLER(open_process)
1447 {
1448 struct process *process = get_process_from_id( req->pid );
1449 reply->handle = 0;
1450 if (process)
1451 {
1452 reply->handle = alloc_handle( current->process, process, req->access, req->attributes );
1453 release_object( process );
1454 }
1455 }
1456
1457 /* terminate a process */
1458 DECL_HANDLER(terminate_process)
1459 {
1460 struct process *process;
1461
1462 if (req->handle)
1463 {
1464 process = get_process_from_handle( req->handle, PROCESS_TERMINATE );
1465 if (!process) return;
1466 }
1467 else process = (struct process *)grab_object( current->process );
1468
1469 reply->self = (current->process == process);
1470 terminate_process( process, current, req->exit_code );
1471 release_object( process );
1472 }
1473
1474 /* fetch information about a process */
1475 DECL_HANDLER(get_process_info)
1476 {
1477 struct process *process;
1478
1479 if ((process = get_process_from_handle( req->handle, PROCESS_QUERY_LIMITED_INFORMATION )))
1480 {
1481 reply->pid = get_process_id( process );
1482 reply->ppid = process->parent_id;
1483 reply->exit_code = process->exit_code;
1484 reply->priority = process->priority;
1485 reply->affinity = process->affinity;
1486 reply->peb = process->peb;
1487 reply->start_time = process->start_time;
1488 reply->end_time = process->end_time;
1489 reply->session_id = process->session_id;
1490 reply->machine = process->machine;
1491 if (get_reply_max_size())
1492 {
1493 if (!process->running_threads) set_error( STATUS_PROCESS_IS_TERMINATING );
1494 else set_reply_data( &process->image_info, min( sizeof(process->image_info), get_reply_max_size() ));
1495 }
1496 release_object( process );
1497 }
1498 }
1499
1500 /* retrieve debug information about a process */
1501 DECL_HANDLER(get_process_debug_info)
1502 {
1503 struct process *process;
1504
1505 if (!(process = get_process_from_handle( req->handle, PROCESS_QUERY_LIMITED_INFORMATION ))) return;
1506
1507 reply->debug_children = process->debug_children;
1508 if (!process->debug_obj) set_error( STATUS_PORT_NOT_SET );
1509 else reply->debug = alloc_handle( current->process, process->debug_obj, MAXIMUM_ALLOWED, 0 );
1510 release_object( process );
1511 }
1512
1513 /* fetch the name of the process image */
1514 DECL_HANDLER(get_process_image_name)
1515 {
1516 struct process *process = get_process_from_handle( req->handle, PROCESS_QUERY_LIMITED_INFORMATION );
1517
1518 if (!process) return;
1519 if (process->image)
1520 {
1521 struct unicode_str name = { process->image, process->imagelen };
1522 /* skip the \??\ prefix */
1523 if (req->win32 && name.len > 6 * sizeof(WCHAR) && name.str[5] == ':')
1524 {
1525 name.str += 4;
1526 name.len -= 4 * sizeof(WCHAR);
1527 }
1528 /* FIXME: else resolve symlinks in NT path */
1529
1530 reply->len = name.len;
1531 if (name.len <= get_reply_max_size())
1532 {
1533 WCHAR *ptr = set_reply_data( name.str, name.len );
1534 /* change \??\ to \\?\ */
1535 if (req->win32 && name.len > sizeof(WCHAR) && ptr[1] == '?') ptr[1] = '\\';
1536 }
1537 else set_error( STATUS_BUFFER_TOO_SMALL );
1538 }
1539 release_object( process );
1540 }
1541
1542 /* retrieve information about a process memory usage */
1543 DECL_HANDLER(get_process_vm_counters)
1544 {
1545 struct process *process = get_process_from_handle( req->handle, PROCESS_QUERY_LIMITED_INFORMATION );
1546
1547 if (!process) return;
1548 if (process->unix_pid != -1)
1549 {
1550 #ifdef linux
1551 FILE *f;
1552 char proc_path[32], line[256];
1553 unsigned long value;
1554
1555 sprintf( proc_path, "/proc/%u/status", process->unix_pid );
1556 if ((f = fopen( proc_path, "r" )))
1557 {
1558 while (fgets( line, sizeof(line), f ))
1559 {
1560 if (sscanf( line, "VmPeak: %lu", &value ))
1561 reply->peak_virtual_size = (mem_size_t)value * 1024;
1562 else if (sscanf( line, "VmSize: %lu", &value ))
1563 reply->virtual_size = (mem_size_t)value * 1024;
1564 else if (sscanf( line, "VmHWM: %lu", &value ))
1565 reply->peak_working_set_size = (mem_size_t)value * 1024;
1566 else if (sscanf( line, "VmRSS: %lu", &value ))
1567 reply->working_set_size = (mem_size_t)value * 1024;
1568 else if (sscanf( line, "RssAnon: %lu", &value ))
1569 reply->pagefile_usage += (mem_size_t)value * 1024;
1570 else if (sscanf( line, "VmSwap: %lu", &value ))
1571 reply->pagefile_usage += (mem_size_t)value * 1024;
1572 }
1573 reply->peak_pagefile_usage = reply->pagefile_usage;
1574 fclose( f );
1575 }
1576 else set_error( STATUS_ACCESS_DENIED );
1577 #elif defined(HAVE_LIBPROCSTAT)
1578 struct procstat *procstat;
1579 unsigned int count;
1580
1581 if ((procstat = procstat_open_sysctl()))
1582 {
1583 struct kinfo_proc *kp = procstat_getprocs( procstat, KERN_PROC_PID, process->unix_pid, &count );
1584 if (kp)
1585 {
1586 reply->virtual_size = kp->ki_size;
1587 reply->peak_virtual_size = reply->virtual_size;
1588 reply->working_set_size = kp->ki_rssize << PAGE_SHIFT;
1589 reply->peak_working_set_size = kp->ki_rusage.ru_maxrss * 1024;
1590 procstat_freeprocs( procstat, kp );
1591 }
1592 else set_error( STATUS_ACCESS_DENIED );
1593 procstat_close( procstat );
1594 }
1595 else set_error( STATUS_ACCESS_DENIED );
1596 #endif
1597 }
1598 else set_error( STATUS_ACCESS_DENIED );
1599 release_object( process );
1600 }
1601
1602 static void set_process_affinity( struct process *process, affinity_t affinity )
1603 {
1604 struct thread *thread;
1605
1606 if (!process->running_threads)
1607 {
1608 set_error( STATUS_PROCESS_IS_TERMINATING );
1609 return;
1610 }
1611
1612 process->affinity = affinity;
1613
1614 LIST_FOR_EACH_ENTRY( thread, &process->thread_list, struct thread, proc_entry )
1615 {
1616 set_thread_affinity( thread, affinity );
1617 }
1618 }
1619
1620 /* set information about a process */
1621 DECL_HANDLER(set_process_info)
1622 {
1623 struct process *process;
1624
1625 if ((process = get_process_from_handle( req->handle, PROCESS_SET_INFORMATION )))
1626 {
1627 if (req->mask & SET_PROCESS_INFO_PRIORITY) process->priority = req->priority;
1628 if (req->mask & SET_PROCESS_INFO_AFFINITY) set_process_affinity( process, req->affinity );
1629 release_object( process );
1630 }
1631 }
1632
1633 /* read data from a process address space */
1634 DECL_HANDLER(read_process_memory)
1635 {
1636 struct process *process;
1637 data_size_t len = get_reply_max_size();
1638
1639 if (!(process = get_process_from_handle( req->handle, PROCESS_VM_READ ))) return;
1640
1641 if (len)
1642 {
1643 char *buffer = mem_alloc( len );
1644 if (buffer)
1645 {
1646 if (read_process_memory( process, req->addr, len, buffer ))
1647 set_reply_data_ptr( buffer, len );
1648 else
1649 free( buffer );
1650 }
1651 }
1652 release_object( process );
1653 }
1654
1655 /* write data to a process address space */
1656 DECL_HANDLER(write_process_memory)
1657 {
1658 struct process *process;
1659
1660 if ((process = get_process_from_handle( req->handle, PROCESS_VM_WRITE )))
1661 {
1662 data_size_t len = get_req_data_size();
1663 if (len) write_process_memory( process, req->addr, len, get_req_data() );
1664 else set_error( STATUS_INVALID_PARAMETER );
1665 release_object( process );
1666 }
1667 }
1668
1669 /* retrieve the process idle event */
1670 DECL_HANDLER(get_process_idle_event)
1671 {
1672 struct process *process;
1673
1674 reply->event = 0;
1675 if ((process = get_process_from_handle( req->handle, PROCESS_QUERY_INFORMATION )))
1676 {
1677 if (process->idle_event && process != current->process)
1678 reply->event = alloc_handle( current->process, process->idle_event,
1679 EVENT_ALL_ACCESS, 0 );
1680 release_object( process );
1681 }
1682 }
1683
1684 /* make the current process a system process */
1685 DECL_HANDLER(make_process_system)
1686 {
1687 struct process *process;
1688 struct thread *thread;
1689
1690 if (!shutdown_event)
1691 {
1692 if (!(shutdown_event = create_event( NULL, NULL, OBJ_PERMANENT, 1, 0, NULL ))) return;
1693 release_object( shutdown_event );
1694 }
1695
1696 if (!(process = get_process_from_handle( req->handle, PROCESS_SET_INFORMATION ))) return;
1697
1698 if (!(reply->event = alloc_handle( current->process, shutdown_event, SYNCHRONIZE, 0 )))
1699 {
1700 release_object( process );
1701 return;
1702 }
1703
1704 if (!process->is_system)
1705 {
1706 LIST_FOR_EACH_ENTRY( thread, &process->thread_list, struct thread, proc_entry )
1707 release_thread_desktop( thread, 0 );
1708 process->is_system = 1;
1709 if (!--user_processes && !shutdown_stage && master_socket_timeout != TIMEOUT_INFINITE)
1710 shutdown_timeout = add_timeout_user( master_socket_timeout, server_shutdown_timeout, NULL );
1711 }
1712 release_object( process );
1713 }
1714
1715 /* create a new job object */
1716 DECL_HANDLER(create_job)
1717 {
1718 struct job *job;
1719 struct unicode_str name;
1720 struct object *root;
1721 const struct security_descriptor *sd;
1722 const struct object_attributes *objattr = get_req_object_attributes( &sd, &name, &root );
1723
1724 if (!objattr) return;
1725
1726 if ((job = create_job_object( root, &name, objattr->attributes, sd )))
1727 {
1728 if (get_error() == STATUS_OBJECT_NAME_EXISTS)
1729 reply->handle = alloc_handle( current->process, job, req->access, objattr->attributes );
1730 else
1731 reply->handle = alloc_handle_no_access_check( current->process, job,
1732 req->access, objattr->attributes );
1733 release_object( job );
1734 }
1735 if (root) release_object( root );
1736 }
1737
1738 /* open a job object */
1739 DECL_HANDLER(open_job)
1740 {
1741 struct unicode_str name = get_req_unicode_str();
1742
1743 reply->handle = open_object( current->process, req->rootdir, req->access,
1744 &job_ops, &name, req->attributes );
1745 }
1746
1747 /* assign a job object to a process */
1748 DECL_HANDLER(assign_job)
1749 {
1750 struct process *process;
1751 struct job *job = get_job_obj( current->process, req->job, JOB_OBJECT_ASSIGN_PROCESS );
1752
1753 if (!job) return;
1754
1755 if ((process = get_process_from_handle( req->process, PROCESS_SET_QUOTA | PROCESS_TERMINATE )))
1756 {
1757 if (!process->running_threads) set_error( STATUS_PROCESS_IS_TERMINATING );
1758 else add_job_process( job, process );
1759 release_object( process );
1760 }
1761 release_object( job );
1762 }
1763
1764
1765 /* check if a process is associated with a job */
1766 DECL_HANDLER(process_in_job)
1767 {
1768 struct process *process;
1769 struct job *job;
1770
1771 if (!(process = get_process_from_handle( req->process, PROCESS_QUERY_INFORMATION )))
1772 return;
1773
1774 if (!req->job)
1775 {
1776 set_error( process->job ? STATUS_PROCESS_IN_JOB : STATUS_PROCESS_NOT_IN_JOB );
1777 }
1778 else if ((job = get_job_obj( current->process, req->job, JOB_OBJECT_QUERY )))
1779 {
1780 set_error( process_in_job( job, process ) ? STATUS_PROCESS_IN_JOB : STATUS_PROCESS_NOT_IN_JOB );
1781 release_object( job );
1782 }
1783 release_object( process );
1784 }
1785
1786 /* retrieve information about a job */
1787 DECL_HANDLER(get_job_info)
1788 {
1789 struct job *job = get_job_obj( current->process, req->handle, JOB_OBJECT_QUERY );
1790 process_id_t *pids;
1791 data_size_t len;
1792
1793 if (!job) return;
1794
1795 reply->total_processes = job->total_processes;
1796 reply->active_processes = job->num_processes;
1797
1798 len = min( get_reply_max_size(), reply->active_processes * sizeof(*pids) );
1799 if (len && ((pids = set_reply_data_size( len ))))
1800 get_job_pids( job, pids, pids + len / sizeof(*pids) );
1801
1802 release_object( job );
1803 }
1804
1805 /* terminate all processes associated with the job */
1806 DECL_HANDLER(terminate_job)
1807 {
1808 struct job *job = get_job_obj( current->process, req->handle, JOB_OBJECT_TERMINATE );
1809
1810 if (!job) return;
1811
1812 terminate_job( job, req->status );
1813 release_object( job );
1814 }
1815
1816 /* update limits of the job object */
1817 DECL_HANDLER(set_job_limits)
1818 {
1819 struct job *job = get_job_obj( current->process, req->handle, JOB_OBJECT_SET_ATTRIBUTES );
1820
1821 if (!job) return;
1822
1823 job->limit_flags = req->limit_flags;
1824 release_object( job );
1825 }
1826
1827 /* set the jobs completion port */
1828 DECL_HANDLER(set_job_completion_port)
1829 {
1830 struct job *job = get_job_obj( current->process, req->job, JOB_OBJECT_SET_ATTRIBUTES );
1831
1832 if (!job) return;
1833
1834 if (!job->completion_port)
1835 {
1836 job->completion_port = get_completion_obj( current->process, req->port, IO_COMPLETION_MODIFY_STATE );
1837 job->completion_key = req->key;
1838
1839 add_job_completion_existing_processes( job, job );
1840 }
1841 else
1842 set_error( STATUS_INVALID_PARAMETER );
1843
1844 release_object( job );
1845 }
1846
1847 /* Suspend a process */
1848 DECL_HANDLER(suspend_process)
1849 {
1850 struct process *process;
1851
1852 if ((process = get_process_from_handle( req->handle, PROCESS_SUSPEND_RESUME )))
1853 {
1854 struct list *ptr, *next;
1855
1856 LIST_FOR_EACH_SAFE( ptr, next, &process->thread_list )
1857 {
1858 struct thread *thread = LIST_ENTRY( ptr, struct thread, proc_entry );
1859 suspend_thread( thread );
1860 }
1861
1862 release_object( process );
1863 }
1864 }
1865
1866 /* Resume a process */
1867 DECL_HANDLER(resume_process)
1868 {
1869 struct process *process;
1870
1871 if ((process = get_process_from_handle( req->handle, PROCESS_SUSPEND_RESUME )))
1872 {
1873 struct list *ptr, *next;
1874
1875 LIST_FOR_EACH_SAFE( ptr, next, &process->thread_list )
1876 {
1877 struct thread *thread = LIST_ENTRY( ptr, struct thread, proc_entry );
1878 resume_thread( thread );
1879 }
1880
1881 release_object( process );
1882 }
1883 }
1884
1885 /* Get a list of processes and threads currently running */
1886 DECL_HANDLER(list_processes)
1887 {
1888 struct process *process;
1889 struct thread *thread;
1890 unsigned int pos = 0;
1891 char *buffer;
1892
1893 reply->process_count = 0;
1894 reply->total_thread_count = 0;
1895 reply->total_name_len = 0;
1896 reply->info_size = 0;
1897
1898 LIST_FOR_EACH_ENTRY( process, &process_list, struct process, entry )
1899 {
1900 reply->info_size = (reply->info_size + 7) & ~7;
1901 reply->info_size += sizeof(struct process_info) + process->imagelen;
1902 reply->info_size = (reply->info_size + 7) & ~7;
1903 reply->info_size += process->running_threads * sizeof(struct thread_info);
1904 reply->process_count++;
1905 reply->total_thread_count += process->running_threads;
1906 reply->total_name_len += process->imagelen;
1907 }
1908
1909 if (reply->info_size > get_reply_max_size())
1910 {
1911 set_error( STATUS_INFO_LENGTH_MISMATCH );
1912 return;
1913 }
1914
1915 if (!(buffer = set_reply_data_size( reply->info_size ))) return;
1916
1917 memset( buffer, 0, reply->info_size );
1918 LIST_FOR_EACH_ENTRY( process, &process_list, struct process, entry )
1919 {
1920 struct process_info *process_info;
1921
1922 pos = (pos + 7) & ~7;
1923 process_info = (struct process_info *)(buffer + pos);
1924 process_info->start_time = process->start_time;
1925 process_info->name_len = process->imagelen;
1926 process_info->thread_count = process->running_threads;
1927 process_info->priority = process->priority;
1928 process_info->pid = process->id;
1929 process_info->parent_pid = process->parent_id;
1930 process_info->session_id = process->session_id;
1931 process_info->handle_count = get_handle_table_count(process);
1932 process_info->unix_pid = process->unix_pid;
1933 pos += sizeof(*process_info);
1934 memcpy( buffer + pos, process->image, process->imagelen );
1935 pos += process->imagelen;
1936 pos = (pos + 7) & ~7;
1937 LIST_FOR_EACH_ENTRY( thread, &process->thread_list, struct thread, proc_entry )
1938 {
1939 struct thread_info *thread_info = (struct thread_info *)(buffer + pos);
1940
1941 thread_info->start_time = thread->creation_time;
1942 thread_info->tid = thread->id;
1943 thread_info->base_priority = thread->priority;
1944 thread_info->current_priority = thread->priority; /* FIXME */
1945 thread_info->unix_tid = thread->unix_tid;
1946 thread_info->entry_point = thread->entry_point;
1947 thread_info->teb = thread->teb;
1948 pos += sizeof(*thread_info);
1949 }
1950 }
1951 }
Windows API implementation