1
/*-
2
 * Copyright (c) 2000 Benno Rice <[email protected]>
3
 * Copyright (c) 2000 Stephane Potvin <[email protected]>
4
 * Copyright (c) 2007-2008 Semihalf, Rafal Jaworowski <[email protected]>
5
 * All rights reserved.
6
 *
7
 * Redistribution and use in source and binary forms, with or without
8
 * modification, are permitted provided that the following conditions
9
 * are met:
10
 * 1. Redistributions of source code must retain the above copyright
11
 *    notice, this list of conditions and the following disclaimer.
12
 * 2. Redistributions in binary form must reproduce the above copyright
13
 *    notice, this list of conditions and the following disclaimer in the
14
 *    documentation and/or other materials provided with the distribution.
15
 *
16
 * THIS SOFTWARE IS PROVIDED BY THE AUTHORS AND CONTRIBUTORS ``AS IS'' AND
17
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
20
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
22
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
23
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
24
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
25
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
26
 * SUCH DAMAGE.
27
 */
28

29
#include <sys/param.h>
30

31
#include <stand.h>
32

33
#include "api_public.h"
34
#include "bootstrap.h"
35
#include "glue.h"
36
#include "libuboot.h"
37

38
#ifndef HEAP_SIZE
39
#define	HEAP_SIZE	(2 * 1024 * 1024)
40
#endif
41

42
struct uboot_devdesc currdev;
43
struct arch_switch archsw = {		/* MI/MD interface boundary */
44
	.arch_getdev = uboot_getdev,
45
	.arch_copyin = uboot_copyin,
46
	.arch_copyout = uboot_copyout,
47
	.arch_readin = uboot_readin,
48
	.arch_autoload = uboot_autoload,
49
};
50

51
int devs_no;
52

53
uintptr_t uboot_heap_start;
54
uintptr_t uboot_heap_end;
55

56
struct device_type {
57
	const char *name;
58
	int type;
59
} device_types[] = {
60
	{ "disk", DEV_TYP_STOR },
61
	{ "ide",  DEV_TYP_STOR | DT_STOR_IDE },
62
	{ "mmc",  DEV_TYP_STOR | DT_STOR_MMC },
63
	{ "sata", DEV_TYP_STOR | DT_STOR_SATA },
64
	{ "scsi", DEV_TYP_STOR | DT_STOR_SCSI },
65
	{ "usb",  DEV_TYP_STOR | DT_STOR_USB },
66
	{ "net",  DEV_TYP_NET }
67
};
68

69
extern char end[];
70

71
extern unsigned char __bss_start[];
72
extern unsigned char __sbss_start[];
73
extern unsigned char __sbss_end[];
74
extern unsigned char _end[];
75

76
#ifdef LOADER_FDT_SUPPORT
77
extern int command_fdt_internal(int argc, char *argv[]);
78
#endif
79

80
static void
81
dump_sig(struct api_signature *sig)
82
{
83
#ifdef DEBUG
84
	printf("signature:\n");
85
	printf("  version\t= %d\n", sig->version);
86
	printf("  checksum\t= 0x%08x\n", sig->checksum);
87
	printf("  sc entry\t= 0x%08x\n", sig->syscall);
88
#endif
89
}
90

91
static void
92
dump_addr_info(void)
93
{
94
#ifdef DEBUG
95
	printf("\naddresses info:\n");
96
	printf(" _etext (sdata) = 0x%08x\n", (uint32_t)_etext);
97
	printf(" _edata         = 0x%08x\n", (uint32_t)_edata);
98
	printf(" __sbss_start   = 0x%08x\n", (uint32_t)__sbss_start);
99
	printf(" __sbss_end     = 0x%08x\n", (uint32_t)__sbss_end);
100
	printf(" __sbss_start   = 0x%08x\n", (uint32_t)__bss_start);
101
	printf(" _end           = 0x%08x\n", (uint32_t)_end);
102
	printf(" syscall entry  = 0x%08x\n", (uint32_t)syscall_ptr);
103
#endif
104
}
105

106
static uint64_t
107
memsize(struct sys_info *si, int flags)
108
{
109
	uint64_t size;
110
	int i;
111

112
	size = 0;
113
	for (i = 0; i < si->mr_no; i++)
114
		if (si->mr[i].flags == flags && si->mr[i].size)
115
			size += (si->mr[i].size);
116

117
	return (size);
118
}
119

120
static void
121
meminfo(void)
122
{
123
	uint64_t size;
124
	struct sys_info *si;
125
	int t[3] = { MR_ATTR_DRAM, MR_ATTR_FLASH, MR_ATTR_SRAM };
126
	int i;
127

128
	if ((si = ub_get_sys_info()) == NULL)
129
		panic("could not retrieve system info");
130

131
	for (i = 0; i < 3; i++) {
132
		size = memsize(si, t[i]);
133
		if (size > 0)
134
			printf("%s: %juMB\n", ub_mem_type(t[i]),
135
			    (uintmax_t)(size / 1024 / 1024));
136
	}
137
}
138

139
static const char *
140
get_device_type(const char *devstr, int *devtype)
141
{
142
	int i;
143
	int namelen;
144
	struct device_type *dt;
145

146
	if (devstr) {
147
		for (i = 0; i < nitems(device_types); i++) {
148
			dt = &device_types[i];
149
			namelen = strlen(dt->name);
150
			if (strncmp(dt->name, devstr, namelen) == 0) {
151
				*devtype = dt->type;
152
				return (devstr + namelen);
153
			}
154
		}
155
		printf("Unknown device type '%s'\n", devstr);
156
	}
157

158
	*devtype = DEV_TYP_NONE;
159
	return (NULL);
160
}
161

162
static const char *
163
device_typename(int type)
164
{
165
	int i;
166

167
	for (i = 0; i < nitems(device_types); i++)
168
		if (device_types[i].type == type)
169
			return (device_types[i].name);
170

171
	return ("<unknown>");
172
}
173

174
/*
175
 * Parse a device string into type, unit, slice and partition numbers. A
176
 * returned value of -1 for type indicates a search should be done for the
177
 * first loadable device, otherwise a returned value of -1 for unit
178
 * indicates a search should be done for the first loadable device of the
179
 * given type.
180
 *
181
 * The returned values for slice and partition are interpreted by
182
 * disk_open().
183
 *
184
 * The device string can be a standard loader(8) disk specifier:
185
 *
186
 * disk<unit>s<slice>              disk0s1
187
 * disk<unit>s<slice><partition>   disk1s2a
188
 * disk<unit>p<partition>          disk0p4
189
 *
190
 * or one of the following formats:
191
 *
192
 * Valid device strings:                     For device types:
193
 *
194
 * <type_name>                               DEV_TYP_STOR, DEV_TYP_NET
195
 * <type_name><unit>                         DEV_TYP_STOR, DEV_TYP_NET
196
 * <type_name><unit>:                        DEV_TYP_STOR, DEV_TYP_NET
197
 * <type_name><unit>:<slice>                 DEV_TYP_STOR
198
 * <type_name><unit>:<slice>.                DEV_TYP_STOR
199
 * <type_name><unit>:<slice>.<partition>     DEV_TYP_STOR
200
 *
201
 * For valid type names, see the device_types array, above.
202
 *
203
 * Slice numbers are 1-based.  0 is a wildcard.
204
 */
205
static void
206
get_load_device(int *type, int *unit, int *slice, int *partition)
207
{
208
	struct disk_devdesc *dev;
209
	char *devstr;
210
	const char *p;
211
	char *endp;
212

213
	*type = DEV_TYP_NONE;
214
	*unit = -1;
215
	*slice = D_SLICEWILD;
216
	*partition = D_PARTWILD;
217

218
	devstr = ub_env_get("loaderdev");
219
	if (devstr == NULL) {
220
		printf("U-Boot env: loaderdev not set, will probe all devices.\n");
221
		return;
222
	}
223
	printf("U-Boot env: loaderdev='%s'\n", devstr);
224

225
	p = get_device_type(devstr, type);
226

227
	/*
228
	 * If type is DEV_TYP_STOR we have a disk-like device.  If the remainder
229
	 * of the string contains spaces, dots, or a colon in any location other
230
	 * than the last char, it's legacy format.  Otherwise it might be
231
	 * standard loader(8) format (e.g., disk0s2a or mmc1p12), so try to
232
	 * parse the remainder of the string as such, and if it works, return
233
	 * those results. Otherwise we'll fall through to the code that parses
234
	 * the legacy format.
235
	 *
236
	 * disk_parsedev now assumes that it points to the start of the device
237
	 * name, but since it doesn't know about uboot's usage, just subtract 4
238
	 * since it always adds 4. This is the least-bad solution since it makes
239
	 * all the other loader code easier (might be better to create a fake
240
	 * 'disk...' string, but that's more work than uboot is worth).
241
	 */
242
	if (*type & DEV_TYP_STOR) {
243
		size_t len = strlen(p);
244
		if (strcspn(p, " .") == len && strcspn(p, ":") >= len - 1 &&
245
		    disk_parsedev((struct devdesc **)&dev, p - 4, NULL) == 0) { /* Hack */
246
			*unit = dev->dd.d_unit;
247
			*slice = dev->d_slice;
248
			*partition = dev->d_partition;
249
			free(dev);
250
			return;
251
		}
252
	}
253

254
	/* Ignore optional spaces after the device name. */
255
	while (*p == ' ')
256
		p++;
257

258
	/* Unknown device name, or a known name without unit number.  */
259
	if ((*type == DEV_TYP_NONE) || (*p == '\0')) {
260
		return;
261
	}
262

263
	/* Malformed unit number. */
264
	if (!isdigit(*p)) {
265
		*type = DEV_TYP_NONE;
266
		return;
267
	}
268

269
	/* Guaranteed to extract a number from the string, as *p is a digit. */
270
	*unit = strtol(p, &endp, 10);
271
	p = endp;
272

273
	/* Known device name with unit number and nothing else. */
274
	if (*p == '\0') {
275
		return;
276
	}
277

278
	/* Device string is malformed beyond unit number. */
279
	if (*p != ':') {
280
		*type = DEV_TYP_NONE;
281
		*unit = -1;
282
		return;
283
	}
284

285
	p++;
286

287
	/* No slice and partition specification. */
288
	if ('\0' == *p )
289
		return;
290

291
	/* Only DEV_TYP_STOR devices can have a slice specification. */
292
	if (!(*type & DEV_TYP_STOR)) {
293
		*type = DEV_TYP_NONE;
294
		*unit = -1;
295
		return;
296
	}
297

298
	*slice = strtoul(p, &endp, 10);
299

300
	/* Malformed slice number. */
301
	if (p == endp) {
302
		*type = DEV_TYP_NONE;
303
		*unit = -1;
304
		*slice = D_SLICEWILD;
305
		return;
306
	}
307

308
	p = endp;
309
	
310
	/* No partition specification. */
311
	if (*p == '\0')
312
		return;
313

314
	/* Device string is malformed beyond slice number. */
315
	if (*p != '.') {
316
		*type = DEV_TYP_NONE;
317
		*unit = -1;
318
		*slice = D_SLICEWILD;
319
		return;
320
	}
321

322
	p++;
323

324
	/* No partition specification. */
325
	if (*p == '\0')
326
		return;
327

328
	*partition = strtol(p, &endp, 10);
329
	p = endp;
330

331
	/*  Full, valid device string. */
332
	if (*endp == '\0')
333
		return;
334

335
	/* Junk beyond partition number. */
336
	*type = DEV_TYP_NONE;
337
	*unit = -1;
338
	*slice = D_SLICEWILD;
339
	*partition = D_PARTWILD;
340
}
341

342
static void
343
print_disk_probe_info(void)
344
{
345
	char slice[32];
346
	char partition[32];
347

348
	if (currdev.d_disk.d_slice == D_SLICENONE)
349
		strlcpy(slice, "<none>", sizeof(slice));
350
	else if (currdev.d_disk.d_slice == D_SLICEWILD)
351
		strlcpy(slice, "<auto>", sizeof(slice));
352
	else
353
		snprintf(slice, sizeof(slice), "%d", currdev.d_disk.d_slice);
354

355
	if (currdev.d_disk.d_partition == D_PARTNONE)
356
		strlcpy(partition, "<none>", sizeof(partition));
357
	else if (currdev.d_disk.d_partition == D_PARTWILD)
358
		strlcpy(partition, "<auto>", sizeof(partition));
359
	else
360
		snprintf(partition, sizeof(partition), "%d",
361
		    currdev.d_disk.d_partition);
362

363
	printf("  Checking unit=%d slice=%s partition=%s...",
364
	    currdev.dd.d_unit, slice, partition);
365

366
}
367

368
static int
369
probe_disks(int devidx, int load_type, int load_unit, int load_slice,
370
    int load_partition)
371
{
372
	int open_result, unit;
373
	struct open_file f;
374

375
	currdev.d_disk.d_slice = load_slice;
376
	currdev.d_disk.d_partition = load_partition;
377

378
	f.f_devdata = &currdev;
379
	open_result = -1;
380

381
	if (load_type == -1) {
382
		printf("  Probing all disk devices...\n");
383
		/* Try each disk in succession until one works.  */
384
		for (currdev.dd.d_unit = 0; currdev.dd.d_unit < UB_MAX_DEV;
385
		     currdev.dd.d_unit++) {
386
			print_disk_probe_info();
387
			open_result = devsw[devidx]->dv_open(&f, &currdev);
388
			if (open_result == 0) {
389
				printf(" good.\n");
390
				return (0);
391
			}
392
			printf("\n");
393
		}
394
		return (-1);
395
	}
396

397
	if (load_unit == -1) {
398
		printf("  Probing all %s devices...\n", device_typename(load_type));
399
		/* Try each disk of given type in succession until one works. */
400
		for (unit = 0; unit < UB_MAX_DEV; unit++) {
401
			currdev.dd.d_unit = uboot_diskgetunit(load_type, unit);
402
			if (currdev.dd.d_unit == -1)
403
				break;
404
			print_disk_probe_info();
405
			open_result = devsw[devidx]->dv_open(&f, &currdev);
406
			if (open_result == 0) {
407
				printf(" good.\n");
408
				return (0);
409
			}
410
			printf("\n");
411
		}
412
		return (-1);
413
	}
414

415
	if ((currdev.dd.d_unit = uboot_diskgetunit(load_type, load_unit)) != -1) {
416
		print_disk_probe_info();
417
		open_result = devsw[devidx]->dv_open(&f,&currdev);
418
		if (open_result == 0) {
419
			printf(" good.\n");
420
			return (0);
421
		}
422
		printf("\n");
423
	}
424

425
	printf("  Requested disk type/unit/slice/partition not found\n");
426
	return (-1);
427
}
428

429
int
430
main(int argc, char **argv)
431
{
432
	struct api_signature *sig = NULL;
433
	int load_type, load_unit, load_slice, load_partition;
434
	int i;
435
	const char *ldev;
436

437
	/*
438
	 * We first check if a command line argument was passed to us containing
439
	 * API's signature address. If it wasn't then we try to search for the
440
	 * API signature via the usual hinted address.
441
	 * If we can't find the magic signature and related info, exit with a
442
	 * unique error code that U-Boot reports as "## Application terminated,
443
	 * rc = 0xnnbadab1". Hopefully 'badab1' looks enough like "bad api" to
444
	 * provide a clue. It's better than 0xffffffff anyway.
445
	 */
446
	if (!api_parse_cmdline_sig(argc, argv, &sig) && !api_search_sig(&sig))
447
		return (0x01badab1);
448

449
	syscall_ptr = sig->syscall;
450
	if (syscall_ptr == NULL)
451
		return (0x02badab1);
452

453
	if (sig->version > API_SIG_VERSION)
454
		return (0x03badab1);
455

456
        /* Clear BSS sections */
457
	bzero(__sbss_start, __sbss_end - __sbss_start);
458
	bzero(__bss_start, _end - __bss_start);
459

460
	/*
461
	 * Initialise the heap as early as possible.  Once this is done,
462
	 * alloc() is usable.  We are using the stack u-boot set up near the top
463
	 * of physical ram; hopefully there is sufficient space between the end
464
	 * of our bss and the bottom of the u-boot stack to avoid overlap.
465
	 */
466
	uboot_heap_start = round_page((uintptr_t)end);
467
	uboot_heap_end   = uboot_heap_start + HEAP_SIZE;
468
	setheap((void *)uboot_heap_start, (void *)uboot_heap_end);
469

470
	/*
471
	 * Set up console.
472
	 */
473
	cons_probe();
474
	printf("Compatible U-Boot API signature found @%p\n", sig);
475

476
	printf("\n%s", bootprog_info);
477
	printf("\n");
478

479
	dump_sig(sig);
480
	dump_addr_info();
481

482
	meminfo();
483

484
	/* Set up currdev variable to have hooks in place. */
485
	env_setenv("currdev", EV_VOLATILE, "", uboot_setcurrdev, env_nounset);
486

487
	/*
488
	 * Enumerate U-Boot devices
489
	 */
490
	if ((devs_no = ub_dev_enum()) == 0) {
491
		printf("no U-Boot devices found");
492
		goto do_interact;
493
	}
494
	printf("Number of U-Boot devices: %d\n", devs_no);
495

496
	get_load_device(&load_type, &load_unit, &load_slice, &load_partition);
497

498
	/*
499
	 * March through the device switch probing for things.
500
	 */
501
	for (i = 0; devsw[i] != NULL; i++) {
502

503
		if (devsw[i]->dv_init == NULL)
504
			continue;
505
		if ((devsw[i]->dv_init)() != 0)
506
			continue;
507

508
		printf("Found U-Boot device: %s\n", devsw[i]->dv_name);
509

510
		currdev.dd.d_dev = devsw[i];
511
		currdev.dd.d_unit = 0;
512

513
		if ((load_type == DEV_TYP_NONE || (load_type & DEV_TYP_STOR)) &&
514
		    strcmp(devsw[i]->dv_name, "disk") == 0) {
515
			if (probe_disks(i, load_type, load_unit, load_slice,
516
			    load_partition) == 0)
517
				break;
518
		}
519

520
		if ((load_type == DEV_TYP_NONE || (load_type & DEV_TYP_NET)) &&
521
		    strcmp(devsw[i]->dv_name, "net") == 0)
522
			break;
523
	}
524

525
	/*
526
	 * If we couldn't find a boot device, return an error to u-boot.
527
	 * U-boot may be running a boot script that can try something different
528
	 * so returning an error is better than forcing a reboot.
529
	 */
530
	if (devsw[i] == NULL) {
531
		printf("No boot device found!\n");
532
		return (0xbadef1ce);
533
	}
534

535
	ldev = devformat(&currdev.dd);
536
	env_setenv("currdev", EV_VOLATILE, ldev, uboot_setcurrdev, env_nounset);
537
	env_setenv("loaddev", EV_VOLATILE, ldev, env_noset, env_nounset);
538
	printf("Booting from %s\n", ldev);
539

540
do_interact:
541
	setenv("LINES", "24", 1);		/* optional */
542
	setenv("prompt", "loader>", 1);
543
#ifdef __powerpc__
544
	setenv("usefdt", "1", 1);
545
#endif
546

547
	interact();				/* doesn't return */
548

549
	return (0);
550
}
551

552

553
COMMAND_SET(heap, "heap", "show heap usage", command_heap);
554
static int
555
command_heap(int argc, char *argv[])
556
{
557

558
	printf("heap base at %p, top at %p, used %td\n", end, sbrk(0),
559
	    sbrk(0) - end);
560

561
	return (CMD_OK);
562
}
563

564
COMMAND_SET(reboot, "reboot", "reboot the system", command_reboot);
565
static int
566
command_reboot(int argc, char *argv[])
567
{
568

569
	printf("Resetting...\n");
570
	ub_reset();
571

572
	printf("Reset failed!\n");
573
	while (1);
574
	__unreachable();
575
}
576

577
COMMAND_SET(devinfo, "devinfo", "show U-Boot devices", command_devinfo);
578
static int
579
command_devinfo(int argc, char *argv[])
580
{
581
	int i;
582

583
	if ((devs_no = ub_dev_enum()) == 0) {
584
		command_errmsg = "no U-Boot devices found!?";
585
		return (CMD_ERROR);
586
	}
587
	
588
	printf("U-Boot devices:\n");
589
	for (i = 0; i < devs_no; i++) {
590
		ub_dump_di(i);
591
		printf("\n");
592
	}
593
	return (CMD_OK);
594
}
595

596
COMMAND_SET(sysinfo, "sysinfo", "show U-Boot system info", command_sysinfo);
597
static int
598
command_sysinfo(int argc, char *argv[])
599
{
600
	struct sys_info *si;
601

602
	if ((si = ub_get_sys_info()) == NULL) {
603
		command_errmsg = "could not retrieve U-Boot sys info!?";
604
		return (CMD_ERROR);
605
	}
606

607
	printf("U-Boot system info:\n");
608
	ub_dump_si(si);
609
	return (CMD_OK);
610
}
611

612
enum ubenv_action {
613
	UBENV_UNKNOWN,
614
	UBENV_SHOW,
615
	UBENV_IMPORT
616
};
617

618
static void
619
handle_uboot_env_var(enum ubenv_action action, const char * var)
620
{
621
	char ldvar[128];
622
	const char *val;
623
	char *wrk;
624
	int len;
625

626
	/*
627
	 * On an import with the variable name formatted as ldname=ubname,
628
	 * import the uboot variable ubname into the loader variable ldname,
629
	 * otherwise the historical behavior is to import to uboot.ubname.
630
	 */
631
	if (action == UBENV_IMPORT) {
632
		len = strcspn(var, "=");
633
		if (len == 0) {
634
			printf("name cannot start with '=': '%s'\n", var);
635
			return;
636
		}
637
		if (var[len] == 0) {
638
			strcpy(ldvar, "uboot.");
639
			strncat(ldvar, var, sizeof(ldvar) - 7);
640
		} else {
641
			len = MIN(len, sizeof(ldvar) - 1);
642
			strncpy(ldvar, var, len);
643
			ldvar[len] = 0;
644
			var = &var[len + 1];
645
		}
646
	}
647

648
	/*
649
	 * If the user prepended "uboot." (which is how they usually see these
650
	 * names) strip it off as a convenience.
651
	 */
652
	if (strncmp(var, "uboot.", 6) == 0) {
653
		var = &var[6];
654
	}
655

656
	/* If there is no variable name left, punt. */
657
	if (var[0] == 0) {
658
		printf("empty variable name\n");
659
		return;
660
	}
661

662
	val = ub_env_get(var);
663
	if (action == UBENV_SHOW) {
664
		if (val == NULL)
665
			printf("uboot.%s is not set\n", var);
666
		else
667
			printf("uboot.%s=%s\n", var, val);
668
	} else if (action == UBENV_IMPORT) {
669
		if (val != NULL) {
670
			setenv(ldvar, val, 1);
671
		}
672
	}
673
}
674

675
static int
676
command_ubenv(int argc, char *argv[])
677
{
678
	enum ubenv_action action;
679
	const char *var;
680
	int i;
681

682
	action = UBENV_UNKNOWN;
683
	if (argc > 1) {
684
		if (strcasecmp(argv[1], "import") == 0)
685
			action = UBENV_IMPORT;
686
		else if (strcasecmp(argv[1], "show") == 0)
687
			action = UBENV_SHOW;
688
	}
689
	if (action == UBENV_UNKNOWN) {
690
		command_errmsg = "usage: 'ubenv <import|show> [var ...]";
691
		return (CMD_ERROR);
692
	}
693

694
	if (argc > 2) {
695
		for (i = 2; i < argc; i++)
696
			handle_uboot_env_var(action, argv[i]);
697
	} else {
698
		var = NULL;
699
		for (;;) {
700
			if ((var = ub_env_enum(var)) == NULL)
701
				break;
702
			handle_uboot_env_var(action, var);
703
		}
704
	}
705

706
	return (CMD_OK);
707
}
708
COMMAND_SET(ubenv, "ubenv", "show or import U-Boot env vars", command_ubenv);
709

710
#ifdef LOADER_FDT_SUPPORT
711
/*
712
 * Since proper fdt command handling function is defined in fdt_loader_cmd.c,
713
 * and declaring it as extern is in contradiction with COMMAND_SET() macro
714
 * (which uses static pointer), we're defining wrapper function, which
715
 * calls the proper fdt handling routine.
716
 */
717
static int
718
command_fdt(int argc, char *argv[])
719
{
720

721
	return (command_fdt_internal(argc, argv));
722
}
723

724
COMMAND_SET(fdt, "fdt", "flattened device tree handling", command_fdt);
725
#endif
726

727