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1 /**
2  * \file xf86drm.c
3  * User-level interface to DRM device
4  *
5  * \author Rickard E. (Rik) Faith <faith@valinux.com>
6  * \author Kevin E. Martin <martin@valinux.com>
7  */
8 
9 /*
10  * Copyright 1999 Precision Insight, Inc., Cedar Park, Texas.
11  * Copyright 2000 VA Linux Systems, Inc., Sunnyvale, California.
12  * All Rights Reserved.
13  *
14  * Permission is hereby granted, free of charge, to any person obtaining a
15  * copy of this software and associated documentation files (the "Software"),
16  * to deal in the Software without restriction, including without limitation
17  * the rights to use, copy, modify, merge, publish, distribute, sublicense,
18  * and/or sell copies of the Software, and to permit persons to whom the
19  * Software is furnished to do so, subject to the following conditions:
20  *
21  * The above copyright notice and this permission notice (including the next
22  * paragraph) shall be included in all copies or substantial portions of the
23  * Software.
24  *
25  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
26  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
27  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
28  * PRECISION INSIGHT AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
29  * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
30  * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
31  * DEALINGS IN THE SOFTWARE.
32  */
33 
34 #ifdef HAVE_CONFIG_H
35 # include <config.h>
36 #endif
37 #include <stdio.h>
38 #include <stdlib.h>
39 #include <stdbool.h>
40 #include <unistd.h>
41 #include <string.h>
42 #include <strings.h>
43 #include <ctype.h>
44 #include <dirent.h>
45 #include <stddef.h>
46 #include <fcntl.h>
47 #include <errno.h>
48 #include <limits.h>
49 #include <signal.h>
50 #include <time.h>
51 #include <sys/types.h>
52 #include <sys/stat.h>
53 #define stat_t struct stat
54 #include <sys/ioctl.h>
55 #include <sys/time.h>
56 #include <stdarg.h>
57 #ifdef HAVE_SYS_MKDEV_H
58 # include <sys/mkdev.h> /* defines major(), minor(), and makedev() on Solaris */
59 #endif
60 #include <math.h>
61 
62 /* Not all systems have MAP_FAILED defined */
63 #ifndef MAP_FAILED
64 #define MAP_FAILED ((void *)-1)
65 #endif
66 
67 #include "xf86drm.h"
68 #include "libdrm_macros.h"
69 
70 #include "util_math.h"
71 
72 #ifdef __OpenBSD__
73 #define DRM_PRIMARY_MINOR_NAME	"drm"
74 #define DRM_CONTROL_MINOR_NAME	"drmC"
75 #define DRM_RENDER_MINOR_NAME	"drmR"
76 #else
77 #define DRM_PRIMARY_MINOR_NAME	"card"
78 #define DRM_CONTROL_MINOR_NAME	"controlD"
79 #define DRM_RENDER_MINOR_NAME	"renderD"
80 #endif
81 
82 #if defined(__FreeBSD__) || defined(__FreeBSD_kernel__) || defined(__DragonFly__)
83 #define DRM_MAJOR 145
84 #endif
85 
86 #ifdef __NetBSD__
87 #define DRM_MAJOR 34
88 #endif
89 
90 #ifdef __OpenBSD__
91 #ifdef __i386__
92 #define DRM_MAJOR 88
93 #else
94 #define DRM_MAJOR 87
95 #endif
96 #endif /* __OpenBSD__ */
97 
98 #ifndef DRM_MAJOR
99 #define DRM_MAJOR 226		/* Linux */
100 #endif
101 
102 #define DRM_MSG_VERBOSITY 3
103 
104 #define memclear(s) memset(&s, 0, sizeof(s))
105 
106 static drmServerInfoPtr drm_server_info;
107 
drmSetServerInfo(drmServerInfoPtr info)108 void drmSetServerInfo(drmServerInfoPtr info)
109 {
110     drm_server_info = info;
111 }
112 
113 /**
114  * Output a message to stderr.
115  *
116  * \param format printf() like format string.
117  *
118  * \internal
119  * This function is a wrapper around vfprintf().
120  */
121 
122 static int DRM_PRINTFLIKE(1, 0)
drmDebugPrint(const char * format,va_list ap)123 drmDebugPrint(const char *format, va_list ap)
124 {
125     return vfprintf(stderr, format, ap);
126 }
127 
128 void
drmMsg(const char * format,...)129 drmMsg(const char *format, ...)
130 {
131     va_list	ap;
132     const char *env;
133     if (((env = getenv("LIBGL_DEBUG")) && strstr(env, "verbose")) ||
134         (drm_server_info && drm_server_info->debug_print))
135     {
136 	va_start(ap, format);
137 	if (drm_server_info) {
138 	  drm_server_info->debug_print(format,ap);
139 	} else {
140 	  drmDebugPrint(format, ap);
141 	}
142 	va_end(ap);
143     }
144 }
145 
146 static void *drmHashTable = NULL; /* Context switch callbacks */
147 
drmGetHashTable(void)148 void *drmGetHashTable(void)
149 {
150     return drmHashTable;
151 }
152 
drmMalloc(int size)153 void *drmMalloc(int size)
154 {
155     return calloc(1, size);
156 }
157 
drmFree(void * pt)158 void drmFree(void *pt)
159 {
160     free(pt);
161 }
162 
163 /**
164  * Call ioctl, restarting if it is interupted
165  */
166 int
drmIoctl(int fd,unsigned long request,void * arg)167 drmIoctl(int fd, unsigned long request, void *arg)
168 {
169     int	ret;
170 
171     do {
172 	ret = ioctl(fd, request, arg);
173     } while (ret == -1 && (errno == EINTR || errno == EAGAIN));
174     return ret;
175 }
176 
drmGetKeyFromFd(int fd)177 static unsigned long drmGetKeyFromFd(int fd)
178 {
179     stat_t     st;
180 
181     st.st_rdev = 0;
182     fstat(fd, &st);
183     return st.st_rdev;
184 }
185 
drmGetEntry(int fd)186 drmHashEntry *drmGetEntry(int fd)
187 {
188     unsigned long key = drmGetKeyFromFd(fd);
189     void          *value;
190     drmHashEntry  *entry;
191 
192     if (!drmHashTable)
193 	drmHashTable = drmHashCreate();
194 
195     if (drmHashLookup(drmHashTable, key, &value)) {
196 	entry           = drmMalloc(sizeof(*entry));
197 	entry->fd       = fd;
198 	entry->f        = NULL;
199 	entry->tagTable = drmHashCreate();
200 	drmHashInsert(drmHashTable, key, entry);
201     } else {
202 	entry = value;
203     }
204     return entry;
205 }
206 
207 /**
208  * Compare two busid strings
209  *
210  * \param first
211  * \param second
212  *
213  * \return 1 if matched.
214  *
215  * \internal
216  * This function compares two bus ID strings.  It understands the older
217  * PCI:b:d:f format and the newer pci:oooo:bb:dd.f format.  In the format, o is
218  * domain, b is bus, d is device, f is function.
219  */
drmMatchBusID(const char * id1,const char * id2,int pci_domain_ok)220 static int drmMatchBusID(const char *id1, const char *id2, int pci_domain_ok)
221 {
222     /* First, check if the IDs are exactly the same */
223     if (strcasecmp(id1, id2) == 0)
224 	return 1;
225 
226     /* Try to match old/new-style PCI bus IDs. */
227     if (strncasecmp(id1, "pci", 3) == 0) {
228 	unsigned int o1, b1, d1, f1;
229 	unsigned int o2, b2, d2, f2;
230 	int ret;
231 
232 	ret = sscanf(id1, "pci:%04x:%02x:%02x.%u", &o1, &b1, &d1, &f1);
233 	if (ret != 4) {
234 	    o1 = 0;
235 	    ret = sscanf(id1, "PCI:%u:%u:%u", &b1, &d1, &f1);
236 	    if (ret != 3)
237 		return 0;
238 	}
239 
240 	ret = sscanf(id2, "pci:%04x:%02x:%02x.%u", &o2, &b2, &d2, &f2);
241 	if (ret != 4) {
242 	    o2 = 0;
243 	    ret = sscanf(id2, "PCI:%u:%u:%u", &b2, &d2, &f2);
244 	    if (ret != 3)
245 		return 0;
246 	}
247 
248 	/* If domains aren't properly supported by the kernel interface,
249 	 * just ignore them, which sucks less than picking a totally random
250 	 * card with "open by name"
251 	 */
252 	if (!pci_domain_ok)
253 		o1 = o2 = 0;
254 
255 	if ((o1 != o2) || (b1 != b2) || (d1 != d2) || (f1 != f2))
256 	    return 0;
257 	else
258 	    return 1;
259     }
260     return 0;
261 }
262 
263 /**
264  * Handles error checking for chown call.
265  *
266  * \param path to file.
267  * \param id of the new owner.
268  * \param id of the new group.
269  *
270  * \return zero if success or -1 if failure.
271  *
272  * \internal
273  * Checks for failure. If failure was caused by signal call chown again.
274  * If any other failure happened then it will output error mesage using
275  * drmMsg() call.
276  */
277 #if !defined(UDEV)
chown_check_return(const char * path,uid_t owner,gid_t group)278 static int chown_check_return(const char *path, uid_t owner, gid_t group)
279 {
280 	int rv;
281 
282 	do {
283 		rv = chown(path, owner, group);
284 	} while (rv != 0 && errno == EINTR);
285 
286 	if (rv == 0)
287 		return 0;
288 
289 	drmMsg("Failed to change owner or group for file %s! %d: %s\n",
290 			path, errno, strerror(errno));
291 	return -1;
292 }
293 #endif
294 
295 /**
296  * Open the DRM device, creating it if necessary.
297  *
298  * \param dev major and minor numbers of the device.
299  * \param minor minor number of the device.
300  *
301  * \return a file descriptor on success, or a negative value on error.
302  *
303  * \internal
304  * Assembles the device name from \p minor and opens it, creating the device
305  * special file node with the major and minor numbers specified by \p dev and
306  * parent directory if necessary and was called by root.
307  */
drmOpenDevice(dev_t dev,int minor,int type)308 static int drmOpenDevice(dev_t dev, int minor, int type)
309 {
310     stat_t          st;
311     const char      *dev_name;
312     char            buf[64];
313     int             fd;
314     mode_t          devmode = DRM_DEV_MODE, serv_mode;
315     gid_t           serv_group;
316 #if !defined(UDEV)
317     int             isroot  = !geteuid();
318     uid_t           user    = DRM_DEV_UID;
319     gid_t           group   = DRM_DEV_GID;
320 #endif
321 
322     switch (type) {
323     case DRM_NODE_PRIMARY:
324 	    dev_name = DRM_DEV_NAME;
325 	    break;
326     case DRM_NODE_CONTROL:
327 	    dev_name = DRM_CONTROL_DEV_NAME;
328 	    break;
329     case DRM_NODE_RENDER:
330 	    dev_name = DRM_RENDER_DEV_NAME;
331 	    break;
332     default:
333 	    return -EINVAL;
334     };
335 
336     sprintf(buf, dev_name, DRM_DIR_NAME, minor);
337     drmMsg("drmOpenDevice: node name is %s\n", buf);
338 
339     if (drm_server_info && drm_server_info->get_perms) {
340 	drm_server_info->get_perms(&serv_group, &serv_mode);
341 	devmode  = serv_mode ? serv_mode : DRM_DEV_MODE;
342 	devmode &= ~(S_IXUSR|S_IXGRP|S_IXOTH);
343     }
344 
345 #if !defined(UDEV)
346     if (stat(DRM_DIR_NAME, &st)) {
347 	if (!isroot)
348 	    return DRM_ERR_NOT_ROOT;
349 	mkdir(DRM_DIR_NAME, DRM_DEV_DIRMODE);
350 	chown_check_return(DRM_DIR_NAME, 0, 0); /* root:root */
351 	chmod(DRM_DIR_NAME, DRM_DEV_DIRMODE);
352     }
353 
354     /* Check if the device node exists and create it if necessary. */
355     if (stat(buf, &st)) {
356 	if (!isroot)
357 	    return DRM_ERR_NOT_ROOT;
358 	remove(buf);
359 	mknod(buf, S_IFCHR | devmode, dev);
360     }
361 
362     if (drm_server_info && drm_server_info->get_perms) {
363 	group = ((int)serv_group >= 0) ? serv_group : DRM_DEV_GID;
364 	chown_check_return(buf, user, group);
365 	chmod(buf, devmode);
366     }
367 #else
368     /* if we modprobed then wait for udev */
369     {
370 	int udev_count = 0;
371 wait_for_udev:
372         if (stat(DRM_DIR_NAME, &st)) {
373 		usleep(20);
374 		udev_count++;
375 
376 		if (udev_count == 50)
377 			return -1;
378 		goto wait_for_udev;
379 	}
380 
381     	if (stat(buf, &st)) {
382 		usleep(20);
383 		udev_count++;
384 
385 		if (udev_count == 50)
386 			return -1;
387 		goto wait_for_udev;
388     	}
389     }
390 #endif
391 
392     fd = open(buf, O_RDWR, 0);
393     drmMsg("drmOpenDevice: open result is %d, (%s)\n",
394 		fd, fd < 0 ? strerror(errno) : "OK");
395     if (fd >= 0)
396 	return fd;
397 
398 #if !defined(UDEV)
399     /* Check if the device node is not what we expect it to be, and recreate it
400      * and try again if so.
401      */
402     if (st.st_rdev != dev) {
403 	if (!isroot)
404 	    return DRM_ERR_NOT_ROOT;
405 	remove(buf);
406 	mknod(buf, S_IFCHR | devmode, dev);
407 	if (drm_server_info && drm_server_info->get_perms) {
408 	    chown_check_return(buf, user, group);
409 	    chmod(buf, devmode);
410 	}
411     }
412     fd = open(buf, O_RDWR, 0);
413     drmMsg("drmOpenDevice: open result is %d, (%s)\n",
414 		fd, fd < 0 ? strerror(errno) : "OK");
415     if (fd >= 0)
416 	return fd;
417 
418     drmMsg("drmOpenDevice: Open failed\n");
419     remove(buf);
420 #endif
421     return -errno;
422 }
423 
424 
425 /**
426  * Open the DRM device
427  *
428  * \param minor device minor number.
429  * \param create allow to create the device if set.
430  *
431  * \return a file descriptor on success, or a negative value on error.
432  *
433  * \internal
434  * Calls drmOpenDevice() if \p create is set, otherwise assembles the device
435  * name from \p minor and opens it.
436  */
drmOpenMinor(int minor,int create,int type)437 static int drmOpenMinor(int minor, int create, int type)
438 {
439     int  fd;
440     char buf[64];
441     const char *dev_name;
442 
443     if (create)
444 	return drmOpenDevice(makedev(DRM_MAJOR, minor), minor, type);
445 
446     switch (type) {
447     case DRM_NODE_PRIMARY:
448 	    dev_name = DRM_DEV_NAME;
449 	    break;
450     case DRM_NODE_CONTROL:
451 	    dev_name = DRM_CONTROL_DEV_NAME;
452 	    break;
453     case DRM_NODE_RENDER:
454 	    dev_name = DRM_RENDER_DEV_NAME;
455 	    break;
456     default:
457 	    return -EINVAL;
458     };
459 
460     sprintf(buf, dev_name, DRM_DIR_NAME, minor);
461     if ((fd = open(buf, O_RDWR, 0)) >= 0)
462 	return fd;
463     return -errno;
464 }
465 
466 
467 /**
468  * Determine whether the DRM kernel driver has been loaded.
469  *
470  * \return 1 if the DRM driver is loaded, 0 otherwise.
471  *
472  * \internal
473  * Determine the presence of the kernel driver by attempting to open the 0
474  * minor and get version information.  For backward compatibility with older
475  * Linux implementations, /proc/dri is also checked.
476  */
drmAvailable(void)477 int drmAvailable(void)
478 {
479     drmVersionPtr version;
480     int           retval = 0;
481     int           fd;
482 
483     if ((fd = drmOpenMinor(0, 1, DRM_NODE_PRIMARY)) < 0) {
484 #ifdef __linux__
485 	/* Try proc for backward Linux compatibility */
486 	if (!access("/proc/dri/0", R_OK))
487 	    return 1;
488 #endif
489 	return 0;
490     }
491 
492     if ((version = drmGetVersion(fd))) {
493 	retval = 1;
494 	drmFreeVersion(version);
495     }
496     close(fd);
497 
498     return retval;
499 }
500 
drmGetMinorBase(int type)501 static int drmGetMinorBase(int type)
502 {
503     switch (type) {
504     case DRM_NODE_PRIMARY:
505         return 0;
506     case DRM_NODE_CONTROL:
507         return 64;
508     case DRM_NODE_RENDER:
509         return 128;
510     default:
511         return -1;
512     };
513 }
514 
drmGetMinorType(int minor)515 static int drmGetMinorType(int minor)
516 {
517     int type = minor >> 6;
518 
519     if (minor < 0)
520         return -1;
521 
522     switch (type) {
523     case DRM_NODE_PRIMARY:
524     case DRM_NODE_CONTROL:
525     case DRM_NODE_RENDER:
526         return type;
527     default:
528         return -1;
529     }
530 }
531 
drmGetMinorName(int type)532 static const char *drmGetMinorName(int type)
533 {
534     switch (type) {
535     case DRM_NODE_PRIMARY:
536         return DRM_PRIMARY_MINOR_NAME;
537     case DRM_NODE_CONTROL:
538         return DRM_CONTROL_MINOR_NAME;
539     case DRM_NODE_RENDER:
540         return DRM_RENDER_MINOR_NAME;
541     default:
542         return NULL;
543     }
544 }
545 
546 /**
547  * Open the device by bus ID.
548  *
549  * \param busid bus ID.
550  * \param type device node type.
551  *
552  * \return a file descriptor on success, or a negative value on error.
553  *
554  * \internal
555  * This function attempts to open every possible minor (up to DRM_MAX_MINOR),
556  * comparing the device bus ID with the one supplied.
557  *
558  * \sa drmOpenMinor() and drmGetBusid().
559  */
drmOpenByBusid(const char * busid,int type)560 static int drmOpenByBusid(const char *busid, int type)
561 {
562     int        i, pci_domain_ok = 1;
563     int        fd;
564     const char *buf;
565     drmSetVersion sv;
566     int        base = drmGetMinorBase(type);
567 
568     if (base < 0)
569         return -1;
570 
571     drmMsg("drmOpenByBusid: Searching for BusID %s\n", busid);
572     for (i = base; i < base + DRM_MAX_MINOR; i++) {
573 	fd = drmOpenMinor(i, 1, type);
574 	drmMsg("drmOpenByBusid: drmOpenMinor returns %d\n", fd);
575 	if (fd >= 0) {
576 	    /* We need to try for 1.4 first for proper PCI domain support
577 	     * and if that fails, we know the kernel is busted
578 	     */
579 	    sv.drm_di_major = 1;
580 	    sv.drm_di_minor = 4;
581 	    sv.drm_dd_major = -1;	/* Don't care */
582 	    sv.drm_dd_minor = -1;	/* Don't care */
583 	    if (drmSetInterfaceVersion(fd, &sv)) {
584 #ifndef __alpha__
585 		pci_domain_ok = 0;
586 #endif
587 		sv.drm_di_major = 1;
588 		sv.drm_di_minor = 1;
589 		sv.drm_dd_major = -1;       /* Don't care */
590 		sv.drm_dd_minor = -1;       /* Don't care */
591 		drmMsg("drmOpenByBusid: Interface 1.4 failed, trying 1.1\n");
592 		drmSetInterfaceVersion(fd, &sv);
593 	    }
594 	    buf = drmGetBusid(fd);
595 	    drmMsg("drmOpenByBusid: drmGetBusid reports %s\n", buf);
596 	    if (buf && drmMatchBusID(buf, busid, pci_domain_ok)) {
597 		drmFreeBusid(buf);
598 		return fd;
599 	    }
600 	    if (buf)
601 		drmFreeBusid(buf);
602 	    close(fd);
603 	}
604     }
605     return -1;
606 }
607 
608 
609 /**
610  * Open the device by name.
611  *
612  * \param name driver name.
613  * \param type the device node type.
614  *
615  * \return a file descriptor on success, or a negative value on error.
616  *
617  * \internal
618  * This function opens the first minor number that matches the driver name and
619  * isn't already in use.  If it's in use it then it will already have a bus ID
620  * assigned.
621  *
622  * \sa drmOpenMinor(), drmGetVersion() and drmGetBusid().
623  */
drmOpenByName(const char * name,int type)624 static int drmOpenByName(const char *name, int type)
625 {
626     int           i;
627     int           fd;
628     drmVersionPtr version;
629     char *        id;
630     int           base = drmGetMinorBase(type);
631 
632     if (base < 0)
633         return -1;
634 
635     /*
636      * Open the first minor number that matches the driver name and isn't
637      * already in use.  If it's in use it will have a busid assigned already.
638      */
639     for (i = base; i < base + DRM_MAX_MINOR; i++) {
640 	if ((fd = drmOpenMinor(i, 1, type)) >= 0) {
641 	    if ((version = drmGetVersion(fd))) {
642 		if (!strcmp(version->name, name)) {
643 		    drmFreeVersion(version);
644 		    id = drmGetBusid(fd);
645 		    drmMsg("drmGetBusid returned '%s'\n", id ? id : "NULL");
646 		    if (!id || !*id) {
647 			if (id)
648 			    drmFreeBusid(id);
649 			return fd;
650 		    } else {
651 			drmFreeBusid(id);
652 		    }
653 		} else {
654 		    drmFreeVersion(version);
655 		}
656 	    }
657 	    close(fd);
658 	}
659     }
660 
661 #ifdef __linux__
662     /* Backward-compatibility /proc support */
663     for (i = 0; i < 8; i++) {
664 	char proc_name[64], buf[512];
665 	char *driver, *pt, *devstring;
666 	int  retcode;
667 
668 	sprintf(proc_name, "/proc/dri/%d/name", i);
669 	if ((fd = open(proc_name, 0, 0)) >= 0) {
670 	    retcode = read(fd, buf, sizeof(buf)-1);
671 	    close(fd);
672 	    if (retcode) {
673 		buf[retcode-1] = '\0';
674 		for (driver = pt = buf; *pt && *pt != ' '; ++pt)
675 		    ;
676 		if (*pt) { /* Device is next */
677 		    *pt = '\0';
678 		    if (!strcmp(driver, name)) { /* Match */
679 			for (devstring = ++pt; *pt && *pt != ' '; ++pt)
680 			    ;
681 			if (*pt) { /* Found busid */
682 			    return drmOpenByBusid(++pt, type);
683 			} else { /* No busid */
684 			    return drmOpenDevice(strtol(devstring, NULL, 0),i, type);
685 			}
686 		    }
687 		}
688 	    }
689 	}
690     }
691 #endif
692 
693     return -1;
694 }
695 
696 
697 /**
698  * Open the DRM device.
699  *
700  * Looks up the specified name and bus ID, and opens the device found.  The
701  * entry in /dev/dri is created if necessary and if called by root.
702  *
703  * \param name driver name. Not referenced if bus ID is supplied.
704  * \param busid bus ID. Zero if not known.
705  *
706  * \return a file descriptor on success, or a negative value on error.
707  *
708  * \internal
709  * It calls drmOpenByBusid() if \p busid is specified or drmOpenByName()
710  * otherwise.
711  */
drmOpen(const char * name,const char * busid)712 int drmOpen(const char *name, const char *busid)
713 {
714     return drmOpenWithType(name, busid, DRM_NODE_PRIMARY);
715 }
716 
717 /**
718  * Open the DRM device with specified type.
719  *
720  * Looks up the specified name and bus ID, and opens the device found.  The
721  * entry in /dev/dri is created if necessary and if called by root.
722  *
723  * \param name driver name. Not referenced if bus ID is supplied.
724  * \param busid bus ID. Zero if not known.
725  * \param type the device node type to open, PRIMARY, CONTROL or RENDER
726  *
727  * \return a file descriptor on success, or a negative value on error.
728  *
729  * \internal
730  * It calls drmOpenByBusid() if \p busid is specified or drmOpenByName()
731  * otherwise.
732  */
drmOpenWithType(const char * name,const char * busid,int type)733 int drmOpenWithType(const char *name, const char *busid, int type)
734 {
735     if (!drmAvailable() && name != NULL && drm_server_info &&
736         drm_server_info->load_module) {
737 	/* try to load the kernel module */
738 	if (!drm_server_info->load_module(name)) {
739 	    drmMsg("[drm] failed to load kernel module \"%s\"\n", name);
740 	    return -1;
741 	}
742     }
743 
744     if (busid) {
745 	int fd = drmOpenByBusid(busid, type);
746 	if (fd >= 0)
747 	    return fd;
748     }
749 
750     if (name)
751 	return drmOpenByName(name, type);
752 
753     return -1;
754 }
755 
drmOpenControl(int minor)756 int drmOpenControl(int minor)
757 {
758     return drmOpenMinor(minor, 0, DRM_NODE_CONTROL);
759 }
760 
drmOpenRender(int minor)761 int drmOpenRender(int minor)
762 {
763     return drmOpenMinor(minor, 0, DRM_NODE_RENDER);
764 }
765 
766 /**
767  * Free the version information returned by drmGetVersion().
768  *
769  * \param v pointer to the version information.
770  *
771  * \internal
772  * It frees the memory pointed by \p %v as well as all the non-null strings
773  * pointers in it.
774  */
drmFreeVersion(drmVersionPtr v)775 void drmFreeVersion(drmVersionPtr v)
776 {
777     if (!v)
778 	return;
779     drmFree(v->name);
780     drmFree(v->date);
781     drmFree(v->desc);
782     drmFree(v);
783 }
784 
785 
786 /**
787  * Free the non-public version information returned by the kernel.
788  *
789  * \param v pointer to the version information.
790  *
791  * \internal
792  * Used by drmGetVersion() to free the memory pointed by \p %v as well as all
793  * the non-null strings pointers in it.
794  */
drmFreeKernelVersion(drm_version_t * v)795 static void drmFreeKernelVersion(drm_version_t *v)
796 {
797     if (!v)
798 	return;
799     drmFree(v->name);
800     drmFree(v->date);
801     drmFree(v->desc);
802     drmFree(v);
803 }
804 
805 
806 /**
807  * Copy version information.
808  *
809  * \param d destination pointer.
810  * \param s source pointer.
811  *
812  * \internal
813  * Used by drmGetVersion() to translate the information returned by the ioctl
814  * interface in a private structure into the public structure counterpart.
815  */
drmCopyVersion(drmVersionPtr d,const drm_version_t * s)816 static void drmCopyVersion(drmVersionPtr d, const drm_version_t *s)
817 {
818     d->version_major      = s->version_major;
819     d->version_minor      = s->version_minor;
820     d->version_patchlevel = s->version_patchlevel;
821     d->name_len           = s->name_len;
822     d->name               = strdup(s->name);
823     d->date_len           = s->date_len;
824     d->date               = strdup(s->date);
825     d->desc_len           = s->desc_len;
826     d->desc               = strdup(s->desc);
827 }
828 
829 
830 /**
831  * Query the driver version information.
832  *
833  * \param fd file descriptor.
834  *
835  * \return pointer to a drmVersion structure which should be freed with
836  * drmFreeVersion().
837  *
838  * \note Similar information is available via /proc/dri.
839  *
840  * \internal
841  * It gets the version information via successive DRM_IOCTL_VERSION ioctls,
842  * first with zeros to get the string lengths, and then the actually strings.
843  * It also null-terminates them since they might not be already.
844  */
drmGetVersion(int fd)845 drmVersionPtr drmGetVersion(int fd)
846 {
847     drmVersionPtr retval;
848     drm_version_t *version = drmMalloc(sizeof(*version));
849 
850     memclear(*version);
851 
852     if (drmIoctl(fd, DRM_IOCTL_VERSION, version)) {
853 	drmFreeKernelVersion(version);
854 	return NULL;
855     }
856 
857     if (version->name_len)
858 	version->name    = drmMalloc(version->name_len + 1);
859     if (version->date_len)
860 	version->date    = drmMalloc(version->date_len + 1);
861     if (version->desc_len)
862 	version->desc    = drmMalloc(version->desc_len + 1);
863 
864     if (drmIoctl(fd, DRM_IOCTL_VERSION, version)) {
865 	drmMsg("DRM_IOCTL_VERSION: %s\n", strerror(errno));
866 	drmFreeKernelVersion(version);
867 	return NULL;
868     }
869 
870     /* The results might not be null-terminated strings, so terminate them. */
871     if (version->name_len) version->name[version->name_len] = '\0';
872     if (version->date_len) version->date[version->date_len] = '\0';
873     if (version->desc_len) version->desc[version->desc_len] = '\0';
874 
875     retval = drmMalloc(sizeof(*retval));
876     drmCopyVersion(retval, version);
877     drmFreeKernelVersion(version);
878     return retval;
879 }
880 
881 
882 /**
883  * Get version information for the DRM user space library.
884  *
885  * This version number is driver independent.
886  *
887  * \param fd file descriptor.
888  *
889  * \return version information.
890  *
891  * \internal
892  * This function allocates and fills a drm_version structure with a hard coded
893  * version number.
894  */
drmGetLibVersion(int fd)895 drmVersionPtr drmGetLibVersion(int fd)
896 {
897     drm_version_t *version = drmMalloc(sizeof(*version));
898 
899     /* Version history:
900      *   NOTE THIS MUST NOT GO ABOVE VERSION 1.X due to drivers needing it
901      *   revision 1.0.x = original DRM interface with no drmGetLibVersion
902      *                    entry point and many drm<Device> extensions
903      *   revision 1.1.x = added drmCommand entry points for device extensions
904      *                    added drmGetLibVersion to identify libdrm.a version
905      *   revision 1.2.x = added drmSetInterfaceVersion
906      *                    modified drmOpen to handle both busid and name
907      *   revision 1.3.x = added server + memory manager
908      */
909     version->version_major      = 1;
910     version->version_minor      = 3;
911     version->version_patchlevel = 0;
912 
913     return (drmVersionPtr)version;
914 }
915 
drmGetCap(int fd,uint64_t capability,uint64_t * value)916 int drmGetCap(int fd, uint64_t capability, uint64_t *value)
917 {
918 	struct drm_get_cap cap;
919 	int ret;
920 
921 	memclear(cap);
922 	cap.capability = capability;
923 
924 	ret = drmIoctl(fd, DRM_IOCTL_GET_CAP, &cap);
925 	if (ret)
926 		return ret;
927 
928 	*value = cap.value;
929 	return 0;
930 }
931 
drmSetClientCap(int fd,uint64_t capability,uint64_t value)932 int drmSetClientCap(int fd, uint64_t capability, uint64_t value)
933 {
934 	struct drm_set_client_cap cap;
935 
936 	memclear(cap);
937 	cap.capability = capability;
938 	cap.value = value;
939 
940 	return drmIoctl(fd, DRM_IOCTL_SET_CLIENT_CAP, &cap);
941 }
942 
943 /**
944  * Free the bus ID information.
945  *
946  * \param busid bus ID information string as given by drmGetBusid().
947  *
948  * \internal
949  * This function is just frees the memory pointed by \p busid.
950  */
drmFreeBusid(const char * busid)951 void drmFreeBusid(const char *busid)
952 {
953     drmFree((void *)busid);
954 }
955 
956 
957 /**
958  * Get the bus ID of the device.
959  *
960  * \param fd file descriptor.
961  *
962  * \return bus ID string.
963  *
964  * \internal
965  * This function gets the bus ID via successive DRM_IOCTL_GET_UNIQUE ioctls to
966  * get the string length and data, passing the arguments in a drm_unique
967  * structure.
968  */
drmGetBusid(int fd)969 char *drmGetBusid(int fd)
970 {
971     drm_unique_t u;
972 
973     memclear(u);
974 
975     if (drmIoctl(fd, DRM_IOCTL_GET_UNIQUE, &u))
976 	return NULL;
977     u.unique = drmMalloc(u.unique_len + 1);
978     if (drmIoctl(fd, DRM_IOCTL_GET_UNIQUE, &u))
979 	return NULL;
980     u.unique[u.unique_len] = '\0';
981 
982     return u.unique;
983 }
984 
985 
986 /**
987  * Set the bus ID of the device.
988  *
989  * \param fd file descriptor.
990  * \param busid bus ID string.
991  *
992  * \return zero on success, negative on failure.
993  *
994  * \internal
995  * This function is a wrapper around the DRM_IOCTL_SET_UNIQUE ioctl, passing
996  * the arguments in a drm_unique structure.
997  */
drmSetBusid(int fd,const char * busid)998 int drmSetBusid(int fd, const char *busid)
999 {
1000     drm_unique_t u;
1001 
1002     memclear(u);
1003     u.unique     = (char *)busid;
1004     u.unique_len = strlen(busid);
1005 
1006     if (drmIoctl(fd, DRM_IOCTL_SET_UNIQUE, &u)) {
1007 	return -errno;
1008     }
1009     return 0;
1010 }
1011 
drmGetMagic(int fd,drm_magic_t * magic)1012 int drmGetMagic(int fd, drm_magic_t * magic)
1013 {
1014     drm_auth_t auth;
1015 
1016     memclear(auth);
1017 
1018     *magic = 0;
1019     if (drmIoctl(fd, DRM_IOCTL_GET_MAGIC, &auth))
1020 	return -errno;
1021     *magic = auth.magic;
1022     return 0;
1023 }
1024 
drmAuthMagic(int fd,drm_magic_t magic)1025 int drmAuthMagic(int fd, drm_magic_t magic)
1026 {
1027     drm_auth_t auth;
1028 
1029     memclear(auth);
1030     auth.magic = magic;
1031     if (drmIoctl(fd, DRM_IOCTL_AUTH_MAGIC, &auth))
1032 	return -errno;
1033     return 0;
1034 }
1035 
1036 /**
1037  * Specifies a range of memory that is available for mapping by a
1038  * non-root process.
1039  *
1040  * \param fd file descriptor.
1041  * \param offset usually the physical address. The actual meaning depends of
1042  * the \p type parameter. See below.
1043  * \param size of the memory in bytes.
1044  * \param type type of the memory to be mapped.
1045  * \param flags combination of several flags to modify the function actions.
1046  * \param handle will be set to a value that may be used as the offset
1047  * parameter for mmap().
1048  *
1049  * \return zero on success or a negative value on error.
1050  *
1051  * \par Mapping the frame buffer
1052  * For the frame buffer
1053  * - \p offset will be the physical address of the start of the frame buffer,
1054  * - \p size will be the size of the frame buffer in bytes, and
1055  * - \p type will be DRM_FRAME_BUFFER.
1056  *
1057  * \par
1058  * The area mapped will be uncached. If MTRR support is available in the
1059  * kernel, the frame buffer area will be set to write combining.
1060  *
1061  * \par Mapping the MMIO register area
1062  * For the MMIO register area,
1063  * - \p offset will be the physical address of the start of the register area,
1064  * - \p size will be the size of the register area bytes, and
1065  * - \p type will be DRM_REGISTERS.
1066  * \par
1067  * The area mapped will be uncached.
1068  *
1069  * \par Mapping the SAREA
1070  * For the SAREA,
1071  * - \p offset will be ignored and should be set to zero,
1072  * - \p size will be the desired size of the SAREA in bytes,
1073  * - \p type will be DRM_SHM.
1074  *
1075  * \par
1076  * A shared memory area of the requested size will be created and locked in
1077  * kernel memory. This area may be mapped into client-space by using the handle
1078  * returned.
1079  *
1080  * \note May only be called by root.
1081  *
1082  * \internal
1083  * This function is a wrapper around the DRM_IOCTL_ADD_MAP ioctl, passing
1084  * the arguments in a drm_map structure.
1085  */
drmAddMap(int fd,drm_handle_t offset,drmSize size,drmMapType type,drmMapFlags flags,drm_handle_t * handle)1086 int drmAddMap(int fd, drm_handle_t offset, drmSize size, drmMapType type,
1087 	      drmMapFlags flags, drm_handle_t *handle)
1088 {
1089     drm_map_t map;
1090 
1091     memclear(map);
1092     map.offset  = offset;
1093     map.size    = size;
1094     map.type    = type;
1095     map.flags   = flags;
1096     if (drmIoctl(fd, DRM_IOCTL_ADD_MAP, &map))
1097 	return -errno;
1098     if (handle)
1099 	*handle = (drm_handle_t)(uintptr_t)map.handle;
1100     return 0;
1101 }
1102 
drmRmMap(int fd,drm_handle_t handle)1103 int drmRmMap(int fd, drm_handle_t handle)
1104 {
1105     drm_map_t map;
1106 
1107     memclear(map);
1108     map.handle = (void *)(uintptr_t)handle;
1109 
1110     if(drmIoctl(fd, DRM_IOCTL_RM_MAP, &map))
1111 	return -errno;
1112     return 0;
1113 }
1114 
1115 /**
1116  * Make buffers available for DMA transfers.
1117  *
1118  * \param fd file descriptor.
1119  * \param count number of buffers.
1120  * \param size size of each buffer.
1121  * \param flags buffer allocation flags.
1122  * \param agp_offset offset in the AGP aperture
1123  *
1124  * \return number of buffers allocated, negative on error.
1125  *
1126  * \internal
1127  * This function is a wrapper around DRM_IOCTL_ADD_BUFS ioctl.
1128  *
1129  * \sa drm_buf_desc.
1130  */
drmAddBufs(int fd,int count,int size,drmBufDescFlags flags,int agp_offset)1131 int drmAddBufs(int fd, int count, int size, drmBufDescFlags flags,
1132 	       int agp_offset)
1133 {
1134     drm_buf_desc_t request;
1135 
1136     memclear(request);
1137     request.count     = count;
1138     request.size      = size;
1139     request.flags     = flags;
1140     request.agp_start = agp_offset;
1141 
1142     if (drmIoctl(fd, DRM_IOCTL_ADD_BUFS, &request))
1143 	return -errno;
1144     return request.count;
1145 }
1146 
drmMarkBufs(int fd,double low,double high)1147 int drmMarkBufs(int fd, double low, double high)
1148 {
1149     drm_buf_info_t info;
1150     int            i;
1151 
1152     memclear(info);
1153 
1154     if (drmIoctl(fd, DRM_IOCTL_INFO_BUFS, &info))
1155 	return -EINVAL;
1156 
1157     if (!info.count)
1158 	return -EINVAL;
1159 
1160     if (!(info.list = drmMalloc(info.count * sizeof(*info.list))))
1161 	return -ENOMEM;
1162 
1163     if (drmIoctl(fd, DRM_IOCTL_INFO_BUFS, &info)) {
1164 	int retval = -errno;
1165 	drmFree(info.list);
1166 	return retval;
1167     }
1168 
1169     for (i = 0; i < info.count; i++) {
1170 	info.list[i].low_mark  = low  * info.list[i].count;
1171 	info.list[i].high_mark = high * info.list[i].count;
1172 	if (drmIoctl(fd, DRM_IOCTL_MARK_BUFS, &info.list[i])) {
1173 	    int retval = -errno;
1174 	    drmFree(info.list);
1175 	    return retval;
1176 	}
1177     }
1178     drmFree(info.list);
1179 
1180     return 0;
1181 }
1182 
1183 /**
1184  * Free buffers.
1185  *
1186  * \param fd file descriptor.
1187  * \param count number of buffers to free.
1188  * \param list list of buffers to be freed.
1189  *
1190  * \return zero on success, or a negative value on failure.
1191  *
1192  * \note This function is primarily used for debugging.
1193  *
1194  * \internal
1195  * This function is a wrapper around the DRM_IOCTL_FREE_BUFS ioctl, passing
1196  * the arguments in a drm_buf_free structure.
1197  */
drmFreeBufs(int fd,int count,int * list)1198 int drmFreeBufs(int fd, int count, int *list)
1199 {
1200     drm_buf_free_t request;
1201 
1202     memclear(request);
1203     request.count = count;
1204     request.list  = list;
1205     if (drmIoctl(fd, DRM_IOCTL_FREE_BUFS, &request))
1206 	return -errno;
1207     return 0;
1208 }
1209 
1210 
1211 /**
1212  * Close the device.
1213  *
1214  * \param fd file descriptor.
1215  *
1216  * \internal
1217  * This function closes the file descriptor.
1218  */
drmClose(int fd)1219 int drmClose(int fd)
1220 {
1221     unsigned long key    = drmGetKeyFromFd(fd);
1222     drmHashEntry  *entry = drmGetEntry(fd);
1223 
1224     drmHashDestroy(entry->tagTable);
1225     entry->fd       = 0;
1226     entry->f        = NULL;
1227     entry->tagTable = NULL;
1228 
1229     drmHashDelete(drmHashTable, key);
1230     drmFree(entry);
1231 
1232     return close(fd);
1233 }
1234 
1235 
1236 /**
1237  * Map a region of memory.
1238  *
1239  * \param fd file descriptor.
1240  * \param handle handle returned by drmAddMap().
1241  * \param size size in bytes. Must match the size used by drmAddMap().
1242  * \param address will contain the user-space virtual address where the mapping
1243  * begins.
1244  *
1245  * \return zero on success, or a negative value on failure.
1246  *
1247  * \internal
1248  * This function is a wrapper for mmap().
1249  */
drmMap(int fd,drm_handle_t handle,drmSize size,drmAddressPtr address)1250 int drmMap(int fd, drm_handle_t handle, drmSize size, drmAddressPtr address)
1251 {
1252     static unsigned long pagesize_mask = 0;
1253 
1254     if (fd < 0)
1255 	return -EINVAL;
1256 
1257     if (!pagesize_mask)
1258 	pagesize_mask = getpagesize() - 1;
1259 
1260     size = (size + pagesize_mask) & ~pagesize_mask;
1261 
1262     *address = drm_mmap(0, size, PROT_READ|PROT_WRITE, MAP_SHARED, fd, handle);
1263     if (*address == MAP_FAILED)
1264 	return -errno;
1265     return 0;
1266 }
1267 
1268 
1269 /**
1270  * Unmap mappings obtained with drmMap().
1271  *
1272  * \param address address as given by drmMap().
1273  * \param size size in bytes. Must match the size used by drmMap().
1274  *
1275  * \return zero on success, or a negative value on failure.
1276  *
1277  * \internal
1278  * This function is a wrapper for munmap().
1279  */
drmUnmap(drmAddress address,drmSize size)1280 int drmUnmap(drmAddress address, drmSize size)
1281 {
1282     return drm_munmap(address, size);
1283 }
1284 
drmGetBufInfo(int fd)1285 drmBufInfoPtr drmGetBufInfo(int fd)
1286 {
1287     drm_buf_info_t info;
1288     drmBufInfoPtr  retval;
1289     int            i;
1290 
1291     memclear(info);
1292 
1293     if (drmIoctl(fd, DRM_IOCTL_INFO_BUFS, &info))
1294 	return NULL;
1295 
1296     if (info.count) {
1297 	if (!(info.list = drmMalloc(info.count * sizeof(*info.list))))
1298 	    return NULL;
1299 
1300 	if (drmIoctl(fd, DRM_IOCTL_INFO_BUFS, &info)) {
1301 	    drmFree(info.list);
1302 	    return NULL;
1303 	}
1304 
1305 	retval = drmMalloc(sizeof(*retval));
1306 	retval->count = info.count;
1307 	retval->list  = drmMalloc(info.count * sizeof(*retval->list));
1308 	for (i = 0; i < info.count; i++) {
1309 	    retval->list[i].count     = info.list[i].count;
1310 	    retval->list[i].size      = info.list[i].size;
1311 	    retval->list[i].low_mark  = info.list[i].low_mark;
1312 	    retval->list[i].high_mark = info.list[i].high_mark;
1313 	}
1314 	drmFree(info.list);
1315 	return retval;
1316     }
1317     return NULL;
1318 }
1319 
1320 /**
1321  * Map all DMA buffers into client-virtual space.
1322  *
1323  * \param fd file descriptor.
1324  *
1325  * \return a pointer to a ::drmBufMap structure.
1326  *
1327  * \note The client may not use these buffers until obtaining buffer indices
1328  * with drmDMA().
1329  *
1330  * \internal
1331  * This function calls the DRM_IOCTL_MAP_BUFS ioctl and copies the returned
1332  * information about the buffers in a drm_buf_map structure into the
1333  * client-visible data structures.
1334  */
drmMapBufs(int fd)1335 drmBufMapPtr drmMapBufs(int fd)
1336 {
1337     drm_buf_map_t bufs;
1338     drmBufMapPtr  retval;
1339     int           i;
1340 
1341     memclear(bufs);
1342     if (drmIoctl(fd, DRM_IOCTL_MAP_BUFS, &bufs))
1343 	return NULL;
1344 
1345     if (!bufs.count)
1346 	return NULL;
1347 
1348 	if (!(bufs.list = drmMalloc(bufs.count * sizeof(*bufs.list))))
1349 	    return NULL;
1350 
1351 	if (drmIoctl(fd, DRM_IOCTL_MAP_BUFS, &bufs)) {
1352 	    drmFree(bufs.list);
1353 	    return NULL;
1354 	}
1355 
1356 	retval = drmMalloc(sizeof(*retval));
1357 	retval->count = bufs.count;
1358 	retval->list  = drmMalloc(bufs.count * sizeof(*retval->list));
1359 	for (i = 0; i < bufs.count; i++) {
1360 	    retval->list[i].idx     = bufs.list[i].idx;
1361 	    retval->list[i].total   = bufs.list[i].total;
1362 	    retval->list[i].used    = 0;
1363 	    retval->list[i].address = bufs.list[i].address;
1364 	}
1365 
1366 	drmFree(bufs.list);
1367 
1368 	return retval;
1369 }
1370 
1371 
1372 /**
1373  * Unmap buffers allocated with drmMapBufs().
1374  *
1375  * \return zero on success, or negative value on failure.
1376  *
1377  * \internal
1378  * Calls munmap() for every buffer stored in \p bufs and frees the
1379  * memory allocated by drmMapBufs().
1380  */
drmUnmapBufs(drmBufMapPtr bufs)1381 int drmUnmapBufs(drmBufMapPtr bufs)
1382 {
1383     int i;
1384 
1385     for (i = 0; i < bufs->count; i++) {
1386 	drm_munmap(bufs->list[i].address, bufs->list[i].total);
1387     }
1388 
1389     drmFree(bufs->list);
1390     drmFree(bufs);
1391 
1392     return 0;
1393 }
1394 
1395 
1396 #define DRM_DMA_RETRY		16
1397 
1398 /**
1399  * Reserve DMA buffers.
1400  *
1401  * \param fd file descriptor.
1402  * \param request
1403  *
1404  * \return zero on success, or a negative value on failure.
1405  *
1406  * \internal
1407  * Assemble the arguments into a drm_dma structure and keeps issuing the
1408  * DRM_IOCTL_DMA ioctl until success or until maximum number of retries.
1409  */
drmDMA(int fd,drmDMAReqPtr request)1410 int drmDMA(int fd, drmDMAReqPtr request)
1411 {
1412     drm_dma_t dma;
1413     int ret, i = 0;
1414 
1415     dma.context         = request->context;
1416     dma.send_count      = request->send_count;
1417     dma.send_indices    = request->send_list;
1418     dma.send_sizes      = request->send_sizes;
1419     dma.flags           = request->flags;
1420     dma.request_count   = request->request_count;
1421     dma.request_size    = request->request_size;
1422     dma.request_indices = request->request_list;
1423     dma.request_sizes   = request->request_sizes;
1424     dma.granted_count   = 0;
1425 
1426     do {
1427 	ret = ioctl( fd, DRM_IOCTL_DMA, &dma );
1428     } while ( ret && errno == EAGAIN && i++ < DRM_DMA_RETRY );
1429 
1430     if ( ret == 0 ) {
1431 	request->granted_count = dma.granted_count;
1432 	return 0;
1433     } else {
1434 	return -errno;
1435     }
1436 }
1437 
1438 
1439 /**
1440  * Obtain heavyweight hardware lock.
1441  *
1442  * \param fd file descriptor.
1443  * \param context context.
1444  * \param flags flags that determine the sate of the hardware when the function
1445  * returns.
1446  *
1447  * \return always zero.
1448  *
1449  * \internal
1450  * This function translates the arguments into a drm_lock structure and issue
1451  * the DRM_IOCTL_LOCK ioctl until the lock is successfully acquired.
1452  */
drmGetLock(int fd,drm_context_t context,drmLockFlags flags)1453 int drmGetLock(int fd, drm_context_t context, drmLockFlags flags)
1454 {
1455     drm_lock_t lock;
1456 
1457     memclear(lock);
1458     lock.context = context;
1459     lock.flags   = 0;
1460     if (flags & DRM_LOCK_READY)      lock.flags |= _DRM_LOCK_READY;
1461     if (flags & DRM_LOCK_QUIESCENT)  lock.flags |= _DRM_LOCK_QUIESCENT;
1462     if (flags & DRM_LOCK_FLUSH)      lock.flags |= _DRM_LOCK_FLUSH;
1463     if (flags & DRM_LOCK_FLUSH_ALL)  lock.flags |= _DRM_LOCK_FLUSH_ALL;
1464     if (flags & DRM_HALT_ALL_QUEUES) lock.flags |= _DRM_HALT_ALL_QUEUES;
1465     if (flags & DRM_HALT_CUR_QUEUES) lock.flags |= _DRM_HALT_CUR_QUEUES;
1466 
1467     while (drmIoctl(fd, DRM_IOCTL_LOCK, &lock))
1468 	;
1469     return 0;
1470 }
1471 
1472 /**
1473  * Release the hardware lock.
1474  *
1475  * \param fd file descriptor.
1476  * \param context context.
1477  *
1478  * \return zero on success, or a negative value on failure.
1479  *
1480  * \internal
1481  * This function is a wrapper around the DRM_IOCTL_UNLOCK ioctl, passing the
1482  * argument in a drm_lock structure.
1483  */
drmUnlock(int fd,drm_context_t context)1484 int drmUnlock(int fd, drm_context_t context)
1485 {
1486     drm_lock_t lock;
1487 
1488     memclear(lock);
1489     lock.context = context;
1490     return drmIoctl(fd, DRM_IOCTL_UNLOCK, &lock);
1491 }
1492 
drmGetReservedContextList(int fd,int * count)1493 drm_context_t *drmGetReservedContextList(int fd, int *count)
1494 {
1495     drm_ctx_res_t res;
1496     drm_ctx_t     *list;
1497     drm_context_t * retval;
1498     int           i;
1499 
1500     memclear(res);
1501     if (drmIoctl(fd, DRM_IOCTL_RES_CTX, &res))
1502 	return NULL;
1503 
1504     if (!res.count)
1505 	return NULL;
1506 
1507     if (!(list   = drmMalloc(res.count * sizeof(*list))))
1508 	return NULL;
1509     if (!(retval = drmMalloc(res.count * sizeof(*retval)))) {
1510 	drmFree(list);
1511 	return NULL;
1512     }
1513 
1514     res.contexts = list;
1515     if (drmIoctl(fd, DRM_IOCTL_RES_CTX, &res))
1516 	return NULL;
1517 
1518     for (i = 0; i < res.count; i++)
1519 	retval[i] = list[i].handle;
1520     drmFree(list);
1521 
1522     *count = res.count;
1523     return retval;
1524 }
1525 
drmFreeReservedContextList(drm_context_t * pt)1526 void drmFreeReservedContextList(drm_context_t *pt)
1527 {
1528     drmFree(pt);
1529 }
1530 
1531 /**
1532  * Create context.
1533  *
1534  * Used by the X server during GLXContext initialization. This causes
1535  * per-context kernel-level resources to be allocated.
1536  *
1537  * \param fd file descriptor.
1538  * \param handle is set on success. To be used by the client when requesting DMA
1539  * dispatch with drmDMA().
1540  *
1541  * \return zero on success, or a negative value on failure.
1542  *
1543  * \note May only be called by root.
1544  *
1545  * \internal
1546  * This function is a wrapper around the DRM_IOCTL_ADD_CTX ioctl, passing the
1547  * argument in a drm_ctx structure.
1548  */
drmCreateContext(int fd,drm_context_t * handle)1549 int drmCreateContext(int fd, drm_context_t *handle)
1550 {
1551     drm_ctx_t ctx;
1552 
1553     memclear(ctx);
1554     if (drmIoctl(fd, DRM_IOCTL_ADD_CTX, &ctx))
1555 	return -errno;
1556     *handle = ctx.handle;
1557     return 0;
1558 }
1559 
drmSwitchToContext(int fd,drm_context_t context)1560 int drmSwitchToContext(int fd, drm_context_t context)
1561 {
1562     drm_ctx_t ctx;
1563 
1564     memclear(ctx);
1565     ctx.handle = context;
1566     if (drmIoctl(fd, DRM_IOCTL_SWITCH_CTX, &ctx))
1567 	return -errno;
1568     return 0;
1569 }
1570 
drmSetContextFlags(int fd,drm_context_t context,drm_context_tFlags flags)1571 int drmSetContextFlags(int fd, drm_context_t context, drm_context_tFlags flags)
1572 {
1573     drm_ctx_t ctx;
1574 
1575     /*
1576      * Context preserving means that no context switches are done between DMA
1577      * buffers from one context and the next.  This is suitable for use in the
1578      * X server (which promises to maintain hardware context), or in the
1579      * client-side library when buffers are swapped on behalf of two threads.
1580      */
1581     memclear(ctx);
1582     ctx.handle = context;
1583     if (flags & DRM_CONTEXT_PRESERVED)
1584 	ctx.flags |= _DRM_CONTEXT_PRESERVED;
1585     if (flags & DRM_CONTEXT_2DONLY)
1586 	ctx.flags |= _DRM_CONTEXT_2DONLY;
1587     if (drmIoctl(fd, DRM_IOCTL_MOD_CTX, &ctx))
1588 	return -errno;
1589     return 0;
1590 }
1591 
drmGetContextFlags(int fd,drm_context_t context,drm_context_tFlagsPtr flags)1592 int drmGetContextFlags(int fd, drm_context_t context,
1593                        drm_context_tFlagsPtr flags)
1594 {
1595     drm_ctx_t ctx;
1596 
1597     memclear(ctx);
1598     ctx.handle = context;
1599     if (drmIoctl(fd, DRM_IOCTL_GET_CTX, &ctx))
1600 	return -errno;
1601     *flags = 0;
1602     if (ctx.flags & _DRM_CONTEXT_PRESERVED)
1603 	*flags |= DRM_CONTEXT_PRESERVED;
1604     if (ctx.flags & _DRM_CONTEXT_2DONLY)
1605 	*flags |= DRM_CONTEXT_2DONLY;
1606     return 0;
1607 }
1608 
1609 /**
1610  * Destroy context.
1611  *
1612  * Free any kernel-level resources allocated with drmCreateContext() associated
1613  * with the context.
1614  *
1615  * \param fd file descriptor.
1616  * \param handle handle given by drmCreateContext().
1617  *
1618  * \return zero on success, or a negative value on failure.
1619  *
1620  * \note May only be called by root.
1621  *
1622  * \internal
1623  * This function is a wrapper around the DRM_IOCTL_RM_CTX ioctl, passing the
1624  * argument in a drm_ctx structure.
1625  */
drmDestroyContext(int fd,drm_context_t handle)1626 int drmDestroyContext(int fd, drm_context_t handle)
1627 {
1628     drm_ctx_t ctx;
1629 
1630     memclear(ctx);
1631     ctx.handle = handle;
1632     if (drmIoctl(fd, DRM_IOCTL_RM_CTX, &ctx))
1633 	return -errno;
1634     return 0;
1635 }
1636 
drmCreateDrawable(int fd,drm_drawable_t * handle)1637 int drmCreateDrawable(int fd, drm_drawable_t *handle)
1638 {
1639     drm_draw_t draw;
1640 
1641     memclear(draw);
1642     if (drmIoctl(fd, DRM_IOCTL_ADD_DRAW, &draw))
1643 	return -errno;
1644     *handle = draw.handle;
1645     return 0;
1646 }
1647 
drmDestroyDrawable(int fd,drm_drawable_t handle)1648 int drmDestroyDrawable(int fd, drm_drawable_t handle)
1649 {
1650     drm_draw_t draw;
1651 
1652     memclear(draw);
1653     draw.handle = handle;
1654     if (drmIoctl(fd, DRM_IOCTL_RM_DRAW, &draw))
1655 	return -errno;
1656     return 0;
1657 }
1658 
drmUpdateDrawableInfo(int fd,drm_drawable_t handle,drm_drawable_info_type_t type,unsigned int num,void * data)1659 int drmUpdateDrawableInfo(int fd, drm_drawable_t handle,
1660 			   drm_drawable_info_type_t type, unsigned int num,
1661 			   void *data)
1662 {
1663     drm_update_draw_t update;
1664 
1665     memclear(update);
1666     update.handle = handle;
1667     update.type = type;
1668     update.num = num;
1669     update.data = (unsigned long long)(unsigned long)data;
1670 
1671     if (drmIoctl(fd, DRM_IOCTL_UPDATE_DRAW, &update))
1672 	return -errno;
1673 
1674     return 0;
1675 }
1676 
1677 /**
1678  * Acquire the AGP device.
1679  *
1680  * Must be called before any of the other AGP related calls.
1681  *
1682  * \param fd file descriptor.
1683  *
1684  * \return zero on success, or a negative value on failure.
1685  *
1686  * \internal
1687  * This function is a wrapper around the DRM_IOCTL_AGP_ACQUIRE ioctl.
1688  */
drmAgpAcquire(int fd)1689 int drmAgpAcquire(int fd)
1690 {
1691     if (drmIoctl(fd, DRM_IOCTL_AGP_ACQUIRE, NULL))
1692 	return -errno;
1693     return 0;
1694 }
1695 
1696 
1697 /**
1698  * Release the AGP device.
1699  *
1700  * \param fd file descriptor.
1701  *
1702  * \return zero on success, or a negative value on failure.
1703  *
1704  * \internal
1705  * This function is a wrapper around the DRM_IOCTL_AGP_RELEASE ioctl.
1706  */
drmAgpRelease(int fd)1707 int drmAgpRelease(int fd)
1708 {
1709     if (drmIoctl(fd, DRM_IOCTL_AGP_RELEASE, NULL))
1710 	return -errno;
1711     return 0;
1712 }
1713 
1714 
1715 /**
1716  * Set the AGP mode.
1717  *
1718  * \param fd file descriptor.
1719  * \param mode AGP mode.
1720  *
1721  * \return zero on success, or a negative value on failure.
1722  *
1723  * \internal
1724  * This function is a wrapper around the DRM_IOCTL_AGP_ENABLE ioctl, passing the
1725  * argument in a drm_agp_mode structure.
1726  */
drmAgpEnable(int fd,unsigned long mode)1727 int drmAgpEnable(int fd, unsigned long mode)
1728 {
1729     drm_agp_mode_t m;
1730 
1731     memclear(m);
1732     m.mode = mode;
1733     if (drmIoctl(fd, DRM_IOCTL_AGP_ENABLE, &m))
1734 	return -errno;
1735     return 0;
1736 }
1737 
1738 
1739 /**
1740  * Allocate a chunk of AGP memory.
1741  *
1742  * \param fd file descriptor.
1743  * \param size requested memory size in bytes. Will be rounded to page boundary.
1744  * \param type type of memory to allocate.
1745  * \param address if not zero, will be set to the physical address of the
1746  * allocated memory.
1747  * \param handle on success will be set to a handle of the allocated memory.
1748  *
1749  * \return zero on success, or a negative value on failure.
1750  *
1751  * \internal
1752  * This function is a wrapper around the DRM_IOCTL_AGP_ALLOC ioctl, passing the
1753  * arguments in a drm_agp_buffer structure.
1754  */
drmAgpAlloc(int fd,unsigned long size,unsigned long type,unsigned long * address,drm_handle_t * handle)1755 int drmAgpAlloc(int fd, unsigned long size, unsigned long type,
1756 		unsigned long *address, drm_handle_t *handle)
1757 {
1758     drm_agp_buffer_t b;
1759 
1760     memclear(b);
1761     *handle = DRM_AGP_NO_HANDLE;
1762     b.size   = size;
1763     b.type   = type;
1764     if (drmIoctl(fd, DRM_IOCTL_AGP_ALLOC, &b))
1765 	return -errno;
1766     if (address != 0UL)
1767 	*address = b.physical;
1768     *handle = b.handle;
1769     return 0;
1770 }
1771 
1772 
1773 /**
1774  * Free a chunk of AGP memory.
1775  *
1776  * \param fd file descriptor.
1777  * \param handle handle to the allocated memory, as given by drmAgpAllocate().
1778  *
1779  * \return zero on success, or a negative value on failure.
1780  *
1781  * \internal
1782  * This function is a wrapper around the DRM_IOCTL_AGP_FREE ioctl, passing the
1783  * argument in a drm_agp_buffer structure.
1784  */
drmAgpFree(int fd,drm_handle_t handle)1785 int drmAgpFree(int fd, drm_handle_t handle)
1786 {
1787     drm_agp_buffer_t b;
1788 
1789     memclear(b);
1790     b.handle = handle;
1791     if (drmIoctl(fd, DRM_IOCTL_AGP_FREE, &b))
1792 	return -errno;
1793     return 0;
1794 }
1795 
1796 
1797 /**
1798  * Bind a chunk of AGP memory.
1799  *
1800  * \param fd file descriptor.
1801  * \param handle handle to the allocated memory, as given by drmAgpAllocate().
1802  * \param offset offset in bytes. It will round to page boundary.
1803  *
1804  * \return zero on success, or a negative value on failure.
1805  *
1806  * \internal
1807  * This function is a wrapper around the DRM_IOCTL_AGP_BIND ioctl, passing the
1808  * argument in a drm_agp_binding structure.
1809  */
drmAgpBind(int fd,drm_handle_t handle,unsigned long offset)1810 int drmAgpBind(int fd, drm_handle_t handle, unsigned long offset)
1811 {
1812     drm_agp_binding_t b;
1813 
1814     memclear(b);
1815     b.handle = handle;
1816     b.offset = offset;
1817     if (drmIoctl(fd, DRM_IOCTL_AGP_BIND, &b))
1818 	return -errno;
1819     return 0;
1820 }
1821 
1822 
1823 /**
1824  * Unbind a chunk of AGP memory.
1825  *
1826  * \param fd file descriptor.
1827  * \param handle handle to the allocated memory, as given by drmAgpAllocate().
1828  *
1829  * \return zero on success, or a negative value on failure.
1830  *
1831  * \internal
1832  * This function is a wrapper around the DRM_IOCTL_AGP_UNBIND ioctl, passing
1833  * the argument in a drm_agp_binding structure.
1834  */
drmAgpUnbind(int fd,drm_handle_t handle)1835 int drmAgpUnbind(int fd, drm_handle_t handle)
1836 {
1837     drm_agp_binding_t b;
1838 
1839     memclear(b);
1840     b.handle = handle;
1841     if (drmIoctl(fd, DRM_IOCTL_AGP_UNBIND, &b))
1842 	return -errno;
1843     return 0;
1844 }
1845 
1846 
1847 /**
1848  * Get AGP driver major version number.
1849  *
1850  * \param fd file descriptor.
1851  *
1852  * \return major version number on success, or a negative value on failure..
1853  *
1854  * \internal
1855  * This function is a wrapper around the DRM_IOCTL_AGP_INFO ioctl, getting the
1856  * necessary information in a drm_agp_info structure.
1857  */
drmAgpVersionMajor(int fd)1858 int drmAgpVersionMajor(int fd)
1859 {
1860     drm_agp_info_t i;
1861 
1862     memclear(i);
1863 
1864     if (drmIoctl(fd, DRM_IOCTL_AGP_INFO, &i))
1865 	return -errno;
1866     return i.agp_version_major;
1867 }
1868 
1869 
1870 /**
1871  * Get AGP driver minor version number.
1872  *
1873  * \param fd file descriptor.
1874  *
1875  * \return minor version number on success, or a negative value on failure.
1876  *
1877  * \internal
1878  * This function is a wrapper around the DRM_IOCTL_AGP_INFO ioctl, getting the
1879  * necessary information in a drm_agp_info structure.
1880  */
drmAgpVersionMinor(int fd)1881 int drmAgpVersionMinor(int fd)
1882 {
1883     drm_agp_info_t i;
1884 
1885     memclear(i);
1886 
1887     if (drmIoctl(fd, DRM_IOCTL_AGP_INFO, &i))
1888 	return -errno;
1889     return i.agp_version_minor;
1890 }
1891 
1892 
1893 /**
1894  * Get AGP mode.
1895  *
1896  * \param fd file descriptor.
1897  *
1898  * \return mode on success, or zero on failure.
1899  *
1900  * \internal
1901  * This function is a wrapper around the DRM_IOCTL_AGP_INFO ioctl, getting the
1902  * necessary information in a drm_agp_info structure.
1903  */
drmAgpGetMode(int fd)1904 unsigned long drmAgpGetMode(int fd)
1905 {
1906     drm_agp_info_t i;
1907 
1908     memclear(i);
1909 
1910     if (drmIoctl(fd, DRM_IOCTL_AGP_INFO, &i))
1911 	return 0;
1912     return i.mode;
1913 }
1914 
1915 
1916 /**
1917  * Get AGP aperture base.
1918  *
1919  * \param fd file descriptor.
1920  *
1921  * \return aperture base on success, zero on failure.
1922  *
1923  * \internal
1924  * This function is a wrapper around the DRM_IOCTL_AGP_INFO ioctl, getting the
1925  * necessary information in a drm_agp_info structure.
1926  */
drmAgpBase(int fd)1927 unsigned long drmAgpBase(int fd)
1928 {
1929     drm_agp_info_t i;
1930 
1931     memclear(i);
1932 
1933     if (drmIoctl(fd, DRM_IOCTL_AGP_INFO, &i))
1934 	return 0;
1935     return i.aperture_base;
1936 }
1937 
1938 
1939 /**
1940  * Get AGP aperture size.
1941  *
1942  * \param fd file descriptor.
1943  *
1944  * \return aperture size on success, zero on failure.
1945  *
1946  * \internal
1947  * This function is a wrapper around the DRM_IOCTL_AGP_INFO ioctl, getting the
1948  * necessary information in a drm_agp_info structure.
1949  */
drmAgpSize(int fd)1950 unsigned long drmAgpSize(int fd)
1951 {
1952     drm_agp_info_t i;
1953 
1954     memclear(i);
1955 
1956     if (drmIoctl(fd, DRM_IOCTL_AGP_INFO, &i))
1957 	return 0;
1958     return i.aperture_size;
1959 }
1960 
1961 
1962 /**
1963  * Get used AGP memory.
1964  *
1965  * \param fd file descriptor.
1966  *
1967  * \return memory used on success, or zero on failure.
1968  *
1969  * \internal
1970  * This function is a wrapper around the DRM_IOCTL_AGP_INFO ioctl, getting the
1971  * necessary information in a drm_agp_info structure.
1972  */
drmAgpMemoryUsed(int fd)1973 unsigned long drmAgpMemoryUsed(int fd)
1974 {
1975     drm_agp_info_t i;
1976 
1977     memclear(i);
1978 
1979     if (drmIoctl(fd, DRM_IOCTL_AGP_INFO, &i))
1980 	return 0;
1981     return i.memory_used;
1982 }
1983 
1984 
1985 /**
1986  * Get available AGP memory.
1987  *
1988  * \param fd file descriptor.
1989  *
1990  * \return memory available on success, or zero on failure.
1991  *
1992  * \internal
1993  * This function is a wrapper around the DRM_IOCTL_AGP_INFO ioctl, getting the
1994  * necessary information in a drm_agp_info structure.
1995  */
drmAgpMemoryAvail(int fd)1996 unsigned long drmAgpMemoryAvail(int fd)
1997 {
1998     drm_agp_info_t i;
1999 
2000     memclear(i);
2001 
2002     if (drmIoctl(fd, DRM_IOCTL_AGP_INFO, &i))
2003 	return 0;
2004     return i.memory_allowed;
2005 }
2006 
2007 
2008 /**
2009  * Get hardware vendor ID.
2010  *
2011  * \param fd file descriptor.
2012  *
2013  * \return vendor ID on success, or zero on failure.
2014  *
2015  * \internal
2016  * This function is a wrapper around the DRM_IOCTL_AGP_INFO ioctl, getting the
2017  * necessary information in a drm_agp_info structure.
2018  */
drmAgpVendorId(int fd)2019 unsigned int drmAgpVendorId(int fd)
2020 {
2021     drm_agp_info_t i;
2022 
2023     memclear(i);
2024 
2025     if (drmIoctl(fd, DRM_IOCTL_AGP_INFO, &i))
2026 	return 0;
2027     return i.id_vendor;
2028 }
2029 
2030 
2031 /**
2032  * Get hardware device ID.
2033  *
2034  * \param fd file descriptor.
2035  *
2036  * \return zero on success, or zero on failure.
2037  *
2038  * \internal
2039  * This function is a wrapper around the DRM_IOCTL_AGP_INFO ioctl, getting the
2040  * necessary information in a drm_agp_info structure.
2041  */
drmAgpDeviceId(int fd)2042 unsigned int drmAgpDeviceId(int fd)
2043 {
2044     drm_agp_info_t i;
2045 
2046     memclear(i);
2047 
2048     if (drmIoctl(fd, DRM_IOCTL_AGP_INFO, &i))
2049 	return 0;
2050     return i.id_device;
2051 }
2052 
drmScatterGatherAlloc(int fd,unsigned long size,drm_handle_t * handle)2053 int drmScatterGatherAlloc(int fd, unsigned long size, drm_handle_t *handle)
2054 {
2055     drm_scatter_gather_t sg;
2056 
2057     memclear(sg);
2058 
2059     *handle = 0;
2060     sg.size   = size;
2061     if (drmIoctl(fd, DRM_IOCTL_SG_ALLOC, &sg))
2062 	return -errno;
2063     *handle = sg.handle;
2064     return 0;
2065 }
2066 
drmScatterGatherFree(int fd,drm_handle_t handle)2067 int drmScatterGatherFree(int fd, drm_handle_t handle)
2068 {
2069     drm_scatter_gather_t sg;
2070 
2071     memclear(sg);
2072     sg.handle = handle;
2073     if (drmIoctl(fd, DRM_IOCTL_SG_FREE, &sg))
2074 	return -errno;
2075     return 0;
2076 }
2077 
2078 /**
2079  * Wait for VBLANK.
2080  *
2081  * \param fd file descriptor.
2082  * \param vbl pointer to a drmVBlank structure.
2083  *
2084  * \return zero on success, or a negative value on failure.
2085  *
2086  * \internal
2087  * This function is a wrapper around the DRM_IOCTL_WAIT_VBLANK ioctl.
2088  */
drmWaitVBlank(int fd,drmVBlankPtr vbl)2089 int drmWaitVBlank(int fd, drmVBlankPtr vbl)
2090 {
2091     struct timespec timeout, cur;
2092     int ret;
2093 
2094     ret = clock_gettime(CLOCK_MONOTONIC, &timeout);
2095     if (ret < 0) {
2096 	fprintf(stderr, "clock_gettime failed: %s\n", strerror(errno));
2097 	goto out;
2098     }
2099     timeout.tv_sec++;
2100 
2101     do {
2102        ret = ioctl(fd, DRM_IOCTL_WAIT_VBLANK, vbl);
2103        vbl->request.type &= ~DRM_VBLANK_RELATIVE;
2104        if (ret && errno == EINTR) {
2105 	       clock_gettime(CLOCK_MONOTONIC, &cur);
2106 	       /* Timeout after 1s */
2107 	       if (cur.tv_sec > timeout.tv_sec + 1 ||
2108 		   (cur.tv_sec == timeout.tv_sec && cur.tv_nsec >=
2109 		    timeout.tv_nsec)) {
2110 		       errno = EBUSY;
2111 		       ret = -1;
2112 		       break;
2113 	       }
2114        }
2115     } while (ret && errno == EINTR);
2116 
2117 out:
2118     return ret;
2119 }
2120 
drmError(int err,const char * label)2121 int drmError(int err, const char *label)
2122 {
2123     switch (err) {
2124     case DRM_ERR_NO_DEVICE:
2125 	fprintf(stderr, "%s: no device\n", label);
2126 	break;
2127     case DRM_ERR_NO_ACCESS:
2128 	fprintf(stderr, "%s: no access\n", label);
2129 	break;
2130     case DRM_ERR_NOT_ROOT:
2131 	fprintf(stderr, "%s: not root\n", label);
2132 	break;
2133     case DRM_ERR_INVALID:
2134 	fprintf(stderr, "%s: invalid args\n", label);
2135 	break;
2136     default:
2137 	if (err < 0)
2138 	    err = -err;
2139 	fprintf( stderr, "%s: error %d (%s)\n", label, err, strerror(err) );
2140 	break;
2141     }
2142 
2143     return 1;
2144 }
2145 
2146 /**
2147  * Install IRQ handler.
2148  *
2149  * \param fd file descriptor.
2150  * \param irq IRQ number.
2151  *
2152  * \return zero on success, or a negative value on failure.
2153  *
2154  * \internal
2155  * This function is a wrapper around the DRM_IOCTL_CONTROL ioctl, passing the
2156  * argument in a drm_control structure.
2157  */
drmCtlInstHandler(int fd,int irq)2158 int drmCtlInstHandler(int fd, int irq)
2159 {
2160     drm_control_t ctl;
2161 
2162     memclear(ctl);
2163     ctl.func  = DRM_INST_HANDLER;
2164     ctl.irq   = irq;
2165     if (drmIoctl(fd, DRM_IOCTL_CONTROL, &ctl))
2166 	return -errno;
2167     return 0;
2168 }
2169 
2170 
2171 /**
2172  * Uninstall IRQ handler.
2173  *
2174  * \param fd file descriptor.
2175  *
2176  * \return zero on success, or a negative value on failure.
2177  *
2178  * \internal
2179  * This function is a wrapper around the DRM_IOCTL_CONTROL ioctl, passing the
2180  * argument in a drm_control structure.
2181  */
drmCtlUninstHandler(int fd)2182 int drmCtlUninstHandler(int fd)
2183 {
2184     drm_control_t ctl;
2185 
2186     memclear(ctl);
2187     ctl.func  = DRM_UNINST_HANDLER;
2188     ctl.irq   = 0;
2189     if (drmIoctl(fd, DRM_IOCTL_CONTROL, &ctl))
2190 	return -errno;
2191     return 0;
2192 }
2193 
drmFinish(int fd,int context,drmLockFlags flags)2194 int drmFinish(int fd, int context, drmLockFlags flags)
2195 {
2196     drm_lock_t lock;
2197 
2198     memclear(lock);
2199     lock.context = context;
2200     if (flags & DRM_LOCK_READY)      lock.flags |= _DRM_LOCK_READY;
2201     if (flags & DRM_LOCK_QUIESCENT)  lock.flags |= _DRM_LOCK_QUIESCENT;
2202     if (flags & DRM_LOCK_FLUSH)      lock.flags |= _DRM_LOCK_FLUSH;
2203     if (flags & DRM_LOCK_FLUSH_ALL)  lock.flags |= _DRM_LOCK_FLUSH_ALL;
2204     if (flags & DRM_HALT_ALL_QUEUES) lock.flags |= _DRM_HALT_ALL_QUEUES;
2205     if (flags & DRM_HALT_CUR_QUEUES) lock.flags |= _DRM_HALT_CUR_QUEUES;
2206     if (drmIoctl(fd, DRM_IOCTL_FINISH, &lock))
2207 	return -errno;
2208     return 0;
2209 }
2210 
2211 /**
2212  * Get IRQ from bus ID.
2213  *
2214  * \param fd file descriptor.
2215  * \param busnum bus number.
2216  * \param devnum device number.
2217  * \param funcnum function number.
2218  *
2219  * \return IRQ number on success, or a negative value on failure.
2220  *
2221  * \internal
2222  * This function is a wrapper around the DRM_IOCTL_IRQ_BUSID ioctl, passing the
2223  * arguments in a drm_irq_busid structure.
2224  */
drmGetInterruptFromBusID(int fd,int busnum,int devnum,int funcnum)2225 int drmGetInterruptFromBusID(int fd, int busnum, int devnum, int funcnum)
2226 {
2227     drm_irq_busid_t p;
2228 
2229     memclear(p);
2230     p.busnum  = busnum;
2231     p.devnum  = devnum;
2232     p.funcnum = funcnum;
2233     if (drmIoctl(fd, DRM_IOCTL_IRQ_BUSID, &p))
2234 	return -errno;
2235     return p.irq;
2236 }
2237 
drmAddContextTag(int fd,drm_context_t context,void * tag)2238 int drmAddContextTag(int fd, drm_context_t context, void *tag)
2239 {
2240     drmHashEntry  *entry = drmGetEntry(fd);
2241 
2242     if (drmHashInsert(entry->tagTable, context, tag)) {
2243 	drmHashDelete(entry->tagTable, context);
2244 	drmHashInsert(entry->tagTable, context, tag);
2245     }
2246     return 0;
2247 }
2248 
drmDelContextTag(int fd,drm_context_t context)2249 int drmDelContextTag(int fd, drm_context_t context)
2250 {
2251     drmHashEntry  *entry = drmGetEntry(fd);
2252 
2253     return drmHashDelete(entry->tagTable, context);
2254 }
2255 
drmGetContextTag(int fd,drm_context_t context)2256 void *drmGetContextTag(int fd, drm_context_t context)
2257 {
2258     drmHashEntry  *entry = drmGetEntry(fd);
2259     void          *value;
2260 
2261     if (drmHashLookup(entry->tagTable, context, &value))
2262 	return NULL;
2263 
2264     return value;
2265 }
2266 
drmAddContextPrivateMapping(int fd,drm_context_t ctx_id,drm_handle_t handle)2267 int drmAddContextPrivateMapping(int fd, drm_context_t ctx_id,
2268                                 drm_handle_t handle)
2269 {
2270     drm_ctx_priv_map_t map;
2271 
2272     memclear(map);
2273     map.ctx_id = ctx_id;
2274     map.handle = (void *)(uintptr_t)handle;
2275 
2276     if (drmIoctl(fd, DRM_IOCTL_SET_SAREA_CTX, &map))
2277 	return -errno;
2278     return 0;
2279 }
2280 
drmGetContextPrivateMapping(int fd,drm_context_t ctx_id,drm_handle_t * handle)2281 int drmGetContextPrivateMapping(int fd, drm_context_t ctx_id,
2282                                 drm_handle_t *handle)
2283 {
2284     drm_ctx_priv_map_t map;
2285 
2286     memclear(map);
2287     map.ctx_id = ctx_id;
2288 
2289     if (drmIoctl(fd, DRM_IOCTL_GET_SAREA_CTX, &map))
2290 	return -errno;
2291     if (handle)
2292 	*handle = (drm_handle_t)(uintptr_t)map.handle;
2293 
2294     return 0;
2295 }
2296 
drmGetMap(int fd,int idx,drm_handle_t * offset,drmSize * size,drmMapType * type,drmMapFlags * flags,drm_handle_t * handle,int * mtrr)2297 int drmGetMap(int fd, int idx, drm_handle_t *offset, drmSize *size,
2298 	      drmMapType *type, drmMapFlags *flags, drm_handle_t *handle,
2299 	      int *mtrr)
2300 {
2301     drm_map_t map;
2302 
2303     memclear(map);
2304     map.offset = idx;
2305     if (drmIoctl(fd, DRM_IOCTL_GET_MAP, &map))
2306 	return -errno;
2307     *offset = map.offset;
2308     *size   = map.size;
2309     *type   = map.type;
2310     *flags  = map.flags;
2311     *handle = (unsigned long)map.handle;
2312     *mtrr   = map.mtrr;
2313     return 0;
2314 }
2315 
drmGetClient(int fd,int idx,int * auth,int * pid,int * uid,unsigned long * magic,unsigned long * iocs)2316 int drmGetClient(int fd, int idx, int *auth, int *pid, int *uid,
2317 		 unsigned long *magic, unsigned long *iocs)
2318 {
2319     drm_client_t client;
2320 
2321     memclear(client);
2322     client.idx = idx;
2323     if (drmIoctl(fd, DRM_IOCTL_GET_CLIENT, &client))
2324 	return -errno;
2325     *auth      = client.auth;
2326     *pid       = client.pid;
2327     *uid       = client.uid;
2328     *magic     = client.magic;
2329     *iocs      = client.iocs;
2330     return 0;
2331 }
2332 
drmGetStats(int fd,drmStatsT * stats)2333 int drmGetStats(int fd, drmStatsT *stats)
2334 {
2335     drm_stats_t s;
2336     unsigned    i;
2337 
2338     memclear(s);
2339     if (drmIoctl(fd, DRM_IOCTL_GET_STATS, &s))
2340 	return -errno;
2341 
2342     stats->count = 0;
2343     memset(stats, 0, sizeof(*stats));
2344     if (s.count > sizeof(stats->data)/sizeof(stats->data[0]))
2345 	return -1;
2346 
2347 #define SET_VALUE                              \
2348     stats->data[i].long_format = "%-20.20s";   \
2349     stats->data[i].rate_format = "%8.8s";      \
2350     stats->data[i].isvalue     = 1;            \
2351     stats->data[i].verbose     = 0
2352 
2353 #define SET_COUNT                              \
2354     stats->data[i].long_format = "%-20.20s";   \
2355     stats->data[i].rate_format = "%5.5s";      \
2356     stats->data[i].isvalue     = 0;            \
2357     stats->data[i].mult_names  = "kgm";        \
2358     stats->data[i].mult        = 1000;         \
2359     stats->data[i].verbose     = 0
2360 
2361 #define SET_BYTE                               \
2362     stats->data[i].long_format = "%-20.20s";   \
2363     stats->data[i].rate_format = "%5.5s";      \
2364     stats->data[i].isvalue     = 0;            \
2365     stats->data[i].mult_names  = "KGM";        \
2366     stats->data[i].mult        = 1024;         \
2367     stats->data[i].verbose     = 0
2368 
2369 
2370     stats->count = s.count;
2371     for (i = 0; i < s.count; i++) {
2372 	stats->data[i].value = s.data[i].value;
2373 	switch (s.data[i].type) {
2374 	case _DRM_STAT_LOCK:
2375 	    stats->data[i].long_name = "Lock";
2376 	    stats->data[i].rate_name = "Lock";
2377 	    SET_VALUE;
2378 	    break;
2379 	case _DRM_STAT_OPENS:
2380 	    stats->data[i].long_name = "Opens";
2381 	    stats->data[i].rate_name = "O";
2382 	    SET_COUNT;
2383 	    stats->data[i].verbose   = 1;
2384 	    break;
2385 	case _DRM_STAT_CLOSES:
2386 	    stats->data[i].long_name = "Closes";
2387 	    stats->data[i].rate_name = "Lock";
2388 	    SET_COUNT;
2389 	    stats->data[i].verbose   = 1;
2390 	    break;
2391 	case _DRM_STAT_IOCTLS:
2392 	    stats->data[i].long_name = "Ioctls";
2393 	    stats->data[i].rate_name = "Ioc/s";
2394 	    SET_COUNT;
2395 	    break;
2396 	case _DRM_STAT_LOCKS:
2397 	    stats->data[i].long_name = "Locks";
2398 	    stats->data[i].rate_name = "Lck/s";
2399 	    SET_COUNT;
2400 	    break;
2401 	case _DRM_STAT_UNLOCKS:
2402 	    stats->data[i].long_name = "Unlocks";
2403 	    stats->data[i].rate_name = "Unl/s";
2404 	    SET_COUNT;
2405 	    break;
2406 	case _DRM_STAT_IRQ:
2407 	    stats->data[i].long_name = "IRQs";
2408 	    stats->data[i].rate_name = "IRQ/s";
2409 	    SET_COUNT;
2410 	    break;
2411 	case _DRM_STAT_PRIMARY:
2412 	    stats->data[i].long_name = "Primary Bytes";
2413 	    stats->data[i].rate_name = "PB/s";
2414 	    SET_BYTE;
2415 	    break;
2416 	case _DRM_STAT_SECONDARY:
2417 	    stats->data[i].long_name = "Secondary Bytes";
2418 	    stats->data[i].rate_name = "SB/s";
2419 	    SET_BYTE;
2420 	    break;
2421 	case _DRM_STAT_DMA:
2422 	    stats->data[i].long_name = "DMA";
2423 	    stats->data[i].rate_name = "DMA/s";
2424 	    SET_COUNT;
2425 	    break;
2426 	case _DRM_STAT_SPECIAL:
2427 	    stats->data[i].long_name = "Special DMA";
2428 	    stats->data[i].rate_name = "dma/s";
2429 	    SET_COUNT;
2430 	    break;
2431 	case _DRM_STAT_MISSED:
2432 	    stats->data[i].long_name = "Miss";
2433 	    stats->data[i].rate_name = "Ms/s";
2434 	    SET_COUNT;
2435 	    break;
2436 	case _DRM_STAT_VALUE:
2437 	    stats->data[i].long_name = "Value";
2438 	    stats->data[i].rate_name = "Value";
2439 	    SET_VALUE;
2440 	    break;
2441 	case _DRM_STAT_BYTE:
2442 	    stats->data[i].long_name = "Bytes";
2443 	    stats->data[i].rate_name = "B/s";
2444 	    SET_BYTE;
2445 	    break;
2446 	case _DRM_STAT_COUNT:
2447 	default:
2448 	    stats->data[i].long_name = "Count";
2449 	    stats->data[i].rate_name = "Cnt/s";
2450 	    SET_COUNT;
2451 	    break;
2452 	}
2453     }
2454     return 0;
2455 }
2456 
2457 /**
2458  * Issue a set-version ioctl.
2459  *
2460  * \param fd file descriptor.
2461  * \param drmCommandIndex command index
2462  * \param data source pointer of the data to be read and written.
2463  * \param size size of the data to be read and written.
2464  *
2465  * \return zero on success, or a negative value on failure.
2466  *
2467  * \internal
2468  * It issues a read-write ioctl given by
2469  * \code DRM_COMMAND_BASE + drmCommandIndex \endcode.
2470  */
drmSetInterfaceVersion(int fd,drmSetVersion * version)2471 int drmSetInterfaceVersion(int fd, drmSetVersion *version)
2472 {
2473     int retcode = 0;
2474     drm_set_version_t sv;
2475 
2476     memclear(sv);
2477     sv.drm_di_major = version->drm_di_major;
2478     sv.drm_di_minor = version->drm_di_minor;
2479     sv.drm_dd_major = version->drm_dd_major;
2480     sv.drm_dd_minor = version->drm_dd_minor;
2481 
2482     if (drmIoctl(fd, DRM_IOCTL_SET_VERSION, &sv)) {
2483 	retcode = -errno;
2484     }
2485 
2486     version->drm_di_major = sv.drm_di_major;
2487     version->drm_di_minor = sv.drm_di_minor;
2488     version->drm_dd_major = sv.drm_dd_major;
2489     version->drm_dd_minor = sv.drm_dd_minor;
2490 
2491     return retcode;
2492 }
2493 
2494 /**
2495  * Send a device-specific command.
2496  *
2497  * \param fd file descriptor.
2498  * \param drmCommandIndex command index
2499  *
2500  * \return zero on success, or a negative value on failure.
2501  *
2502  * \internal
2503  * It issues a ioctl given by
2504  * \code DRM_COMMAND_BASE + drmCommandIndex \endcode.
2505  */
drmCommandNone(int fd,unsigned long drmCommandIndex)2506 int drmCommandNone(int fd, unsigned long drmCommandIndex)
2507 {
2508     unsigned long request;
2509 
2510     request = DRM_IO( DRM_COMMAND_BASE + drmCommandIndex);
2511 
2512     if (drmIoctl(fd, request, NULL)) {
2513 	return -errno;
2514     }
2515     return 0;
2516 }
2517 
2518 
2519 /**
2520  * Send a device-specific read command.
2521  *
2522  * \param fd file descriptor.
2523  * \param drmCommandIndex command index
2524  * \param data destination pointer of the data to be read.
2525  * \param size size of the data to be read.
2526  *
2527  * \return zero on success, or a negative value on failure.
2528  *
2529  * \internal
2530  * It issues a read ioctl given by
2531  * \code DRM_COMMAND_BASE + drmCommandIndex \endcode.
2532  */
drmCommandRead(int fd,unsigned long drmCommandIndex,void * data,unsigned long size)2533 int drmCommandRead(int fd, unsigned long drmCommandIndex, void *data,
2534                    unsigned long size)
2535 {
2536     unsigned long request;
2537 
2538     request = DRM_IOC( DRM_IOC_READ, DRM_IOCTL_BASE,
2539 	DRM_COMMAND_BASE + drmCommandIndex, size);
2540 
2541     if (drmIoctl(fd, request, data)) {
2542 	return -errno;
2543     }
2544     return 0;
2545 }
2546 
2547 
2548 /**
2549  * Send a device-specific write command.
2550  *
2551  * \param fd file descriptor.
2552  * \param drmCommandIndex command index
2553  * \param data source pointer of the data to be written.
2554  * \param size size of the data to be written.
2555  *
2556  * \return zero on success, or a negative value on failure.
2557  *
2558  * \internal
2559  * It issues a write ioctl given by
2560  * \code DRM_COMMAND_BASE + drmCommandIndex \endcode.
2561  */
drmCommandWrite(int fd,unsigned long drmCommandIndex,void * data,unsigned long size)2562 int drmCommandWrite(int fd, unsigned long drmCommandIndex, void *data,
2563                     unsigned long size)
2564 {
2565     unsigned long request;
2566 
2567     request = DRM_IOC( DRM_IOC_WRITE, DRM_IOCTL_BASE,
2568 	DRM_COMMAND_BASE + drmCommandIndex, size);
2569 
2570     if (drmIoctl(fd, request, data)) {
2571 	return -errno;
2572     }
2573     return 0;
2574 }
2575 
2576 
2577 /**
2578  * Send a device-specific read-write command.
2579  *
2580  * \param fd file descriptor.
2581  * \param drmCommandIndex command index
2582  * \param data source pointer of the data to be read and written.
2583  * \param size size of the data to be read and written.
2584  *
2585  * \return zero on success, or a negative value on failure.
2586  *
2587  * \internal
2588  * It issues a read-write ioctl given by
2589  * \code DRM_COMMAND_BASE + drmCommandIndex \endcode.
2590  */
drmCommandWriteRead(int fd,unsigned long drmCommandIndex,void * data,unsigned long size)2591 int drmCommandWriteRead(int fd, unsigned long drmCommandIndex, void *data,
2592                         unsigned long size)
2593 {
2594     unsigned long request;
2595 
2596     request = DRM_IOC( DRM_IOC_READ|DRM_IOC_WRITE, DRM_IOCTL_BASE,
2597 	DRM_COMMAND_BASE + drmCommandIndex, size);
2598 
2599     if (drmIoctl(fd, request, data))
2600 	return -errno;
2601     return 0;
2602 }
2603 
2604 #define DRM_MAX_FDS 16
2605 static struct {
2606     char *BusID;
2607     int fd;
2608     int refcount;
2609     int type;
2610 } connection[DRM_MAX_FDS];
2611 
2612 static int nr_fds = 0;
2613 
drmOpenOnce(void * unused,const char * BusID,int * newlyopened)2614 int drmOpenOnce(void *unused,
2615 		const char *BusID,
2616 		int *newlyopened)
2617 {
2618     return drmOpenOnceWithType(BusID, newlyopened, DRM_NODE_PRIMARY);
2619 }
2620 
drmOpenOnceWithType(const char * BusID,int * newlyopened,int type)2621 int drmOpenOnceWithType(const char *BusID, int *newlyopened, int type)
2622 {
2623     int i;
2624     int fd;
2625 
2626     for (i = 0; i < nr_fds; i++)
2627 	if ((strcmp(BusID, connection[i].BusID) == 0) &&
2628 	    (connection[i].type == type)) {
2629 	    connection[i].refcount++;
2630 	    *newlyopened = 0;
2631 	    return connection[i].fd;
2632 	}
2633 
2634     fd = drmOpenWithType(NULL, BusID, type);
2635     if (fd < 0 || nr_fds == DRM_MAX_FDS)
2636 	return fd;
2637 
2638     connection[nr_fds].BusID = strdup(BusID);
2639     connection[nr_fds].fd = fd;
2640     connection[nr_fds].refcount = 1;
2641     connection[nr_fds].type = type;
2642     *newlyopened = 1;
2643 
2644     if (0)
2645 	fprintf(stderr, "saved connection %d for %s %d\n",
2646 		nr_fds, connection[nr_fds].BusID,
2647 		strcmp(BusID, connection[nr_fds].BusID));
2648 
2649     nr_fds++;
2650 
2651     return fd;
2652 }
2653 
drmCloseOnce(int fd)2654 void drmCloseOnce(int fd)
2655 {
2656     int i;
2657 
2658     for (i = 0; i < nr_fds; i++) {
2659 	if (fd == connection[i].fd) {
2660 	    if (--connection[i].refcount == 0) {
2661 		drmClose(connection[i].fd);
2662 		free(connection[i].BusID);
2663 
2664 		if (i < --nr_fds)
2665 		    connection[i] = connection[nr_fds];
2666 
2667 		return;
2668 	    }
2669 	}
2670     }
2671 }
2672 
drmSetMaster(int fd)2673 int drmSetMaster(int fd)
2674 {
2675 	return drmIoctl(fd, DRM_IOCTL_SET_MASTER, NULL);
2676 }
2677 
drmDropMaster(int fd)2678 int drmDropMaster(int fd)
2679 {
2680 	return drmIoctl(fd, DRM_IOCTL_DROP_MASTER, NULL);
2681 }
2682 
drmGetDeviceNameFromFd(int fd)2683 char *drmGetDeviceNameFromFd(int fd)
2684 {
2685 	char name[128];
2686 	struct stat sbuf;
2687 	dev_t d;
2688 	int i;
2689 
2690 	/* The whole drmOpen thing is a fiasco and we need to find a way
2691 	 * back to just using open(2).  For now, however, lets just make
2692 	 * things worse with even more ad hoc directory walking code to
2693 	 * discover the device file name. */
2694 
2695 	fstat(fd, &sbuf);
2696 	d = sbuf.st_rdev;
2697 
2698 	for (i = 0; i < DRM_MAX_MINOR; i++) {
2699 		snprintf(name, sizeof name, DRM_DEV_NAME, DRM_DIR_NAME, i);
2700 		if (stat(name, &sbuf) == 0 && sbuf.st_rdev == d)
2701 			break;
2702 	}
2703 	if (i == DRM_MAX_MINOR)
2704 		return NULL;
2705 
2706 	return strdup(name);
2707 }
2708 
drmGetNodeTypeFromFd(int fd)2709 int drmGetNodeTypeFromFd(int fd)
2710 {
2711 	struct stat sbuf;
2712 	int maj, min, type;
2713 
2714 	if (fstat(fd, &sbuf))
2715 		return -1;
2716 
2717 	maj = major(sbuf.st_rdev);
2718 	min = minor(sbuf.st_rdev);
2719 
2720 	if (maj != DRM_MAJOR || !S_ISCHR(sbuf.st_mode)) {
2721 		errno = EINVAL;
2722 		return -1;
2723 	}
2724 
2725 	type = drmGetMinorType(min);
2726 	if (type == -1)
2727 		errno = ENODEV;
2728 	return type;
2729 }
2730 
drmPrimeHandleToFD(int fd,uint32_t handle,uint32_t flags,int * prime_fd)2731 int drmPrimeHandleToFD(int fd, uint32_t handle, uint32_t flags, int *prime_fd)
2732 {
2733 	struct drm_prime_handle args;
2734 	int ret;
2735 
2736 	memclear(args);
2737 	args.fd = -1;
2738 	args.handle = handle;
2739 	args.flags = flags;
2740 	ret = drmIoctl(fd, DRM_IOCTL_PRIME_HANDLE_TO_FD, &args);
2741 	if (ret)
2742 		return ret;
2743 
2744 	*prime_fd = args.fd;
2745 	return 0;
2746 }
2747 
drmPrimeFDToHandle(int fd,int prime_fd,uint32_t * handle)2748 int drmPrimeFDToHandle(int fd, int prime_fd, uint32_t *handle)
2749 {
2750 	struct drm_prime_handle args;
2751 	int ret;
2752 
2753 	memclear(args);
2754 	args.fd = prime_fd;
2755 	ret = drmIoctl(fd, DRM_IOCTL_PRIME_FD_TO_HANDLE, &args);
2756 	if (ret)
2757 		return ret;
2758 
2759 	*handle = args.handle;
2760 	return 0;
2761 }
2762 
drmGetMinorNameForFD(int fd,int type)2763 static char *drmGetMinorNameForFD(int fd, int type)
2764 {
2765 #ifdef __linux__
2766 	DIR *sysdir;
2767 	struct dirent *pent, *ent;
2768 	struct stat sbuf;
2769 	const char *name = drmGetMinorName(type);
2770 	int len;
2771 	char dev_name[64], buf[64];
2772 	long name_max;
2773 	int maj, min;
2774 
2775 	if (!name)
2776 		return NULL;
2777 
2778 	len = strlen(name);
2779 
2780 	if (fstat(fd, &sbuf))
2781 		return NULL;
2782 
2783 	maj = major(sbuf.st_rdev);
2784 	min = minor(sbuf.st_rdev);
2785 
2786 	if (maj != DRM_MAJOR || !S_ISCHR(sbuf.st_mode))
2787 		return NULL;
2788 
2789 	snprintf(buf, sizeof(buf), "/sys/dev/char/%d:%d/device/drm", maj, min);
2790 
2791 	sysdir = opendir(buf);
2792 	if (!sysdir)
2793 		return NULL;
2794 
2795 	name_max = fpathconf(dirfd(sysdir), _PC_NAME_MAX);
2796 	if (name_max == -1)
2797 		goto out_close_dir;
2798 
2799 	pent = malloc(offsetof(struct dirent, d_name) + name_max + 1);
2800 	if (pent == NULL)
2801 		 goto out_close_dir;
2802 
2803 	while (readdir_r(sysdir, pent, &ent) == 0 && ent != NULL) {
2804 		if (strncmp(ent->d_name, name, len) == 0) {
2805 			snprintf(dev_name, sizeof(dev_name), DRM_DIR_NAME "/%s",
2806 				 ent->d_name);
2807 
2808 			free(pent);
2809 			closedir(sysdir);
2810 
2811 			return strdup(dev_name);
2812 		}
2813 	}
2814 
2815 	free(pent);
2816 
2817 out_close_dir:
2818 	closedir(sysdir);
2819 #else
2820 #warning "Missing implementation of drmGetMinorNameForFD"
2821 #endif
2822 	return NULL;
2823 }
2824 
drmGetPrimaryDeviceNameFromFd(int fd)2825 char *drmGetPrimaryDeviceNameFromFd(int fd)
2826 {
2827 	return drmGetMinorNameForFD(fd, DRM_NODE_PRIMARY);
2828 }
2829 
drmGetRenderDeviceNameFromFd(int fd)2830 char *drmGetRenderDeviceNameFromFd(int fd)
2831 {
2832 	return drmGetMinorNameForFD(fd, DRM_NODE_RENDER);
2833 }
2834 
drmParseSubsystemType(int maj,int min)2835 static int drmParseSubsystemType(int maj, int min)
2836 {
2837 #ifdef __linux__
2838     char path[PATH_MAX + 1];
2839     char link[PATH_MAX + 1] = "";
2840     char *name;
2841 
2842     snprintf(path, PATH_MAX, "/sys/dev/char/%d:%d/device/subsystem",
2843              maj, min);
2844 
2845     if (readlink(path, link, PATH_MAX) < 0)
2846         return -errno;
2847 
2848     name = strrchr(link, '/');
2849     if (!name)
2850         return -EINVAL;
2851 
2852     if (strncmp(name, "/pci", 4) == 0)
2853         return DRM_BUS_PCI;
2854 
2855     return -EINVAL;
2856 #else
2857 #warning "Missing implementation of drmParseSubsystemType"
2858     return -EINVAL;
2859 #endif
2860 }
2861 
drmParsePciBusInfo(int maj,int min,drmPciBusInfoPtr info)2862 static int drmParsePciBusInfo(int maj, int min, drmPciBusInfoPtr info)
2863 {
2864 #ifdef __linux__
2865     char path[PATH_MAX + 1];
2866     char data[128];
2867     char *str;
2868     int domain, bus, dev, func;
2869     int fd, ret;
2870 
2871     snprintf(path, PATH_MAX, "/sys/dev/char/%d:%d/device/uevent", maj, min);
2872     fd = open(path, O_RDONLY);
2873     if (fd < 0)
2874         return -errno;
2875 
2876     ret = read(fd, data, sizeof(data));
2877     close(fd);
2878     if (ret < 0)
2879         return -errno;
2880 
2881 #define TAG "PCI_SLOT_NAME="
2882     str = strstr(data, TAG);
2883     if (str == NULL)
2884         return -EINVAL;
2885 
2886     if (sscanf(str, TAG "%04x:%02x:%02x.%1u",
2887                &domain, &bus, &dev, &func) != 4)
2888         return -EINVAL;
2889 #undef TAG
2890 
2891     info->domain = domain;
2892     info->bus = bus;
2893     info->dev = dev;
2894     info->func = func;
2895 
2896     return 0;
2897 #else
2898 #warning "Missing implementation of drmParsePciBusInfo"
2899     return -EINVAL;
2900 #endif
2901 }
2902 
drmCompareBusInfo(drmDevicePtr a,drmDevicePtr b)2903 static int drmCompareBusInfo(drmDevicePtr a, drmDevicePtr b)
2904 {
2905     if (a == NULL || b == NULL)
2906         return -1;
2907 
2908     if (a->bustype != b->bustype)
2909         return -1;
2910 
2911     switch (a->bustype) {
2912     case DRM_BUS_PCI:
2913         return memcmp(a->businfo.pci, b->businfo.pci, sizeof(drmPciBusInfo));
2914     default:
2915         break;
2916     }
2917 
2918     return -1;
2919 }
2920 
drmGetNodeType(const char * name)2921 static int drmGetNodeType(const char *name)
2922 {
2923     if (strncmp(name, DRM_PRIMARY_MINOR_NAME,
2924         sizeof(DRM_PRIMARY_MINOR_NAME) - 1) == 0)
2925         return DRM_NODE_PRIMARY;
2926 
2927     if (strncmp(name, DRM_CONTROL_MINOR_NAME,
2928         sizeof(DRM_CONTROL_MINOR_NAME ) - 1) == 0)
2929         return DRM_NODE_CONTROL;
2930 
2931     if (strncmp(name, DRM_RENDER_MINOR_NAME,
2932         sizeof(DRM_RENDER_MINOR_NAME) - 1) == 0)
2933         return DRM_NODE_RENDER;
2934 
2935     return -EINVAL;
2936 }
2937 
drmGetMaxNodeName(void)2938 static int drmGetMaxNodeName(void)
2939 {
2940     return sizeof(DRM_DIR_NAME) +
2941            MAX3(sizeof(DRM_PRIMARY_MINOR_NAME),
2942                 sizeof(DRM_CONTROL_MINOR_NAME),
2943                 sizeof(DRM_RENDER_MINOR_NAME)) +
2944            3 /* lenght of the node number */;
2945 }
2946 
drmParsePciDeviceInfo(const char * d_name,drmPciDeviceInfoPtr device)2947 static int drmParsePciDeviceInfo(const char *d_name,
2948                                  drmPciDeviceInfoPtr device)
2949 {
2950 #ifdef __linux__
2951     char path[PATH_MAX + 1];
2952     unsigned char config[64];
2953     int fd, ret;
2954 
2955     snprintf(path, PATH_MAX, "/sys/class/drm/%s/device/config", d_name);
2956     fd = open(path, O_RDONLY);
2957     if (fd < 0)
2958         return -errno;
2959 
2960     ret = read(fd, config, sizeof(config));
2961     close(fd);
2962     if (ret < 0)
2963         return -errno;
2964 
2965     device->vendor_id = config[0] | (config[1] << 8);
2966     device->device_id = config[2] | (config[3] << 8);
2967     device->revision_id = config[8];
2968     device->subvendor_id = config[44] | (config[45] << 8);
2969     device->subdevice_id = config[46] | (config[47] << 8);
2970 
2971     return 0;
2972 #else
2973 #warning "Missing implementation of drmParsePciDeviceInfo"
2974     return -EINVAL;
2975 #endif
2976 }
2977 
drmFreeDevice(drmDevicePtr * device)2978 void drmFreeDevice(drmDevicePtr *device)
2979 {
2980     if (device == NULL)
2981         return;
2982 
2983     free(*device);
2984     *device = NULL;
2985 }
2986 
drmFreeDevices(drmDevicePtr devices[],int count)2987 void drmFreeDevices(drmDevicePtr devices[], int count)
2988 {
2989     int i;
2990 
2991     if (devices == NULL)
2992         return;
2993 
2994     for (i = 0; i < count && devices[i] != NULL; i++)
2995         drmFreeDevice(&devices[i]);
2996 }
2997 
drmProcessPciDevice(drmDevicePtr * device,const char * d_name,const char * node,int node_type,int maj,int min,bool fetch_deviceinfo)2998 static int drmProcessPciDevice(drmDevicePtr *device, const char *d_name,
2999                                const char *node, int node_type,
3000                                int maj, int min, bool fetch_deviceinfo)
3001 {
3002     const int max_node_str = drmGetMaxNodeName();
3003     int ret, i;
3004     char *addr;
3005 
3006     *device = calloc(1, sizeof(drmDevice) +
3007 		     (DRM_NODE_MAX * (sizeof(void *) + max_node_str)) +
3008 		     sizeof(drmPciBusInfo) +
3009 		     sizeof(drmPciDeviceInfo));
3010     if (!*device)
3011         return -ENOMEM;
3012 
3013     addr = (char*)*device;
3014 
3015     (*device)->bustype = DRM_BUS_PCI;
3016     (*device)->available_nodes = 1 << node_type;
3017 
3018     addr += sizeof(drmDevice);
3019     (*device)->nodes = (char**)addr;
3020 
3021     addr += DRM_NODE_MAX * sizeof(void *);
3022     for (i = 0; i < DRM_NODE_MAX; i++) {
3023         (*device)->nodes[i] = addr;
3024         addr += max_node_str;
3025     }
3026     memcpy((*device)->nodes[node_type], node, max_node_str);
3027 
3028     (*device)->businfo.pci = (drmPciBusInfoPtr)addr;
3029 
3030     ret = drmParsePciBusInfo(maj, min, (*device)->businfo.pci);
3031     if (ret)
3032         goto free_device;
3033 
3034     // Fetch the device info if the user has requested it
3035     if (fetch_deviceinfo) {
3036         addr += sizeof(drmPciBusInfo);
3037         (*device)->deviceinfo.pci = (drmPciDeviceInfoPtr)addr;
3038 
3039         ret = drmParsePciDeviceInfo(d_name, (*device)->deviceinfo.pci);
3040         if (ret)
3041             goto free_device;
3042     }
3043     return 0;
3044 
3045 free_device:
3046     free(*device);
3047     *device = NULL;
3048     return ret;
3049 }
3050 
drmFoldDuplicatedDevices(drmDevicePtr local_devices[],int count)3051 static void drmFoldDuplicatedDevices(drmDevicePtr local_devices[], int count)
3052 {
3053     int node_type, i, j;
3054 
3055     for (i = 0; i < count; i++) {
3056         for (j = i + 1; j < count; j++) {
3057             if (drmCompareBusInfo(local_devices[i], local_devices[j]) == 0) {
3058                 local_devices[i]->available_nodes |= local_devices[j]->available_nodes;
3059                 node_type = log2(local_devices[j]->available_nodes);
3060                 memcpy(local_devices[i]->nodes[node_type],
3061                        local_devices[j]->nodes[node_type], drmGetMaxNodeName());
3062                 drmFreeDevice(&local_devices[j]);
3063             }
3064         }
3065     }
3066 }
3067 
3068 /**
3069  * Get information about the opened drm device
3070  *
3071  * \param fd file descriptor of the drm device
3072  * \param device the address of a drmDevicePtr where the information
3073  *               will be allocated in stored
3074  *
3075  * \return zero on success, negative error code otherwise.
3076  */
drmGetDevice(int fd,drmDevicePtr * device)3077 int drmGetDevice(int fd, drmDevicePtr *device)
3078 {
3079     drmDevicePtr *local_devices;
3080     drmDevicePtr d;
3081     DIR *sysdir;
3082     struct dirent *dent;
3083     struct stat sbuf;
3084     char node[PATH_MAX + 1];
3085     int node_type, subsystem_type;
3086     int maj, min;
3087     int ret, i, node_count;
3088     int max_count = 16;
3089 
3090     if (fd == -1 || device == NULL)
3091         return -EINVAL;
3092 
3093     if (fstat(fd, &sbuf))
3094         return -errno;
3095 
3096     maj = major(sbuf.st_rdev);
3097     min = minor(sbuf.st_rdev);
3098 
3099     if (maj != DRM_MAJOR || !S_ISCHR(sbuf.st_mode))
3100         return -EINVAL;
3101 
3102     subsystem_type = drmParseSubsystemType(maj, min);
3103 
3104     local_devices = calloc(max_count, sizeof(drmDevicePtr));
3105     if (local_devices == NULL)
3106         return -ENOMEM;
3107 
3108     sysdir = opendir(DRM_DIR_NAME);
3109     if (!sysdir) {
3110         ret = -errno;
3111         goto free_locals;
3112     }
3113 
3114     i = 0;
3115     while ((dent = readdir(sysdir))) {
3116         node_type = drmGetNodeType(dent->d_name);
3117         if (node_type < 0)
3118             continue;
3119 
3120         snprintf(node, PATH_MAX, "%s/%s", DRM_DIR_NAME, dent->d_name);
3121         if (stat(node, &sbuf))
3122             continue;
3123 
3124         maj = major(sbuf.st_rdev);
3125         min = minor(sbuf.st_rdev);
3126 
3127         if (maj != DRM_MAJOR || !S_ISCHR(sbuf.st_mode))
3128             continue;
3129 
3130         if (drmParseSubsystemType(maj, min) != subsystem_type)
3131             continue;
3132 
3133         switch (subsystem_type) {
3134         case DRM_BUS_PCI:
3135             ret = drmProcessPciDevice(&d, dent->d_name, node, node_type,
3136                                       maj, min, true);
3137             if (ret)
3138                 goto free_devices;
3139 
3140             break;
3141         default:
3142             fprintf(stderr, "The subsystem type is not supported yet\n");
3143             continue;
3144         }
3145 
3146         if (i >= max_count) {
3147             drmDevicePtr *temp;
3148 
3149             max_count += 16;
3150             temp = realloc(local_devices, max_count * sizeof(drmDevicePtr));
3151             if (!temp)
3152                 goto free_devices;
3153             local_devices = temp;
3154         }
3155 
3156         local_devices[i] = d;
3157         i++;
3158     }
3159     node_count = i;
3160 
3161     /* Fold nodes into a single device if they share the same bus info */
3162     drmFoldDuplicatedDevices(local_devices, node_count);
3163 
3164     *device = local_devices[0];
3165     for (i = 1; i < node_count && local_devices[i]; i++)
3166             drmFreeDevice(&local_devices[i]);
3167 
3168     closedir(sysdir);
3169     free(local_devices);
3170     return 0;
3171 
3172 free_devices:
3173     drmFreeDevices(local_devices, i);
3174     closedir(sysdir);
3175 
3176 free_locals:
3177     free(local_devices);
3178     return ret;
3179 }
3180 
3181 /**
3182  * Get drm devices on the system
3183  *
3184  * \param devices the array of devices with drmDevicePtr elements
3185  *                can be NULL to get the device number first
3186  * \param max_devices the maximum number of devices for the array
3187  *
3188  * \return on error - negative error code,
3189  *         if devices is NULL - total number of devices available on the system,
3190  *         alternatively the number of devices stored in devices[], which is
3191  *         capped by the max_devices.
3192  */
drmGetDevices(drmDevicePtr devices[],int max_devices)3193 int drmGetDevices(drmDevicePtr devices[], int max_devices)
3194 {
3195     drmDevicePtr *local_devices;
3196     drmDevicePtr device;
3197     DIR *sysdir;
3198     struct dirent *dent;
3199     struct stat sbuf;
3200     char node[PATH_MAX + 1];
3201     int node_type, subsystem_type;
3202     int maj, min;
3203     int ret, i, node_count, device_count;
3204     int max_count = 16;
3205 
3206     local_devices = calloc(max_count, sizeof(drmDevicePtr));
3207     if (local_devices == NULL)
3208         return -ENOMEM;
3209 
3210     sysdir = opendir(DRM_DIR_NAME);
3211     if (!sysdir) {
3212         ret = -errno;
3213         goto free_locals;
3214     }
3215 
3216     i = 0;
3217     while ((dent = readdir(sysdir))) {
3218         node_type = drmGetNodeType(dent->d_name);
3219         if (node_type < 0)
3220             continue;
3221 
3222         snprintf(node, PATH_MAX, "%s/%s", DRM_DIR_NAME, dent->d_name);
3223         if (stat(node, &sbuf))
3224             continue;
3225 
3226         maj = major(sbuf.st_rdev);
3227         min = minor(sbuf.st_rdev);
3228 
3229         if (maj != DRM_MAJOR || !S_ISCHR(sbuf.st_mode))
3230             continue;
3231 
3232         subsystem_type = drmParseSubsystemType(maj, min);
3233 
3234         if (subsystem_type < 0)
3235             continue;
3236 
3237         switch (subsystem_type) {
3238         case DRM_BUS_PCI:
3239             ret = drmProcessPciDevice(&device, dent->d_name, node, node_type,
3240                                       maj, min, devices != NULL);
3241             if (ret)
3242                 goto free_devices;
3243 
3244             break;
3245         default:
3246             fprintf(stderr, "The subsystem type is not supported yet\n");
3247             continue;
3248         }
3249 
3250         if (i >= max_count) {
3251             drmDevicePtr *temp;
3252 
3253             max_count += 16;
3254             temp = realloc(local_devices, max_count * sizeof(drmDevicePtr));
3255             if (!temp)
3256                 goto free_devices;
3257             local_devices = temp;
3258         }
3259 
3260         local_devices[i] = device;
3261         i++;
3262     }
3263     node_count = i;
3264 
3265     /* Fold nodes into a single device if they share the same bus info */
3266     drmFoldDuplicatedDevices(local_devices, node_count);
3267 
3268     device_count = 0;
3269     for (i = 0; i < node_count && local_devices[i]; i++) {
3270         if ((devices != NULL) && (device_count < max_devices))
3271             devices[device_count] = local_devices[i];
3272         else
3273             drmFreeDevice(&local_devices[i]);
3274 
3275         device_count++;
3276     }
3277 
3278     closedir(sysdir);
3279     free(local_devices);
3280     return device_count;
3281 
3282 free_devices:
3283     drmFreeDevices(local_devices, i);
3284     closedir(sysdir);
3285 
3286 free_locals:
3287     free(local_devices);
3288     return ret;
3289 }
3290