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sbin/hammer: Add /* not reached */ for usage() variants
[dragonfly.git] / sbin / hammer / cmd_mirror.c
blob88f1a09b85ef4ea4c604966b29fe596636805b81
1 /*
2 * Copyright (c) 2008 The DragonFly Project. All rights reserved.
3 *
4 * This code is derived from software contributed to The DragonFly Project
5 * by Matthew Dillon <dillon@backplane.com>
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 *
11 * 1. Redistributions of source code must retain the above copyright
12 * notice, this list of conditions and the following disclaimer.
13 * 2. Redistributions in binary form must reproduce the above copyright
14 * notice, this list of conditions and the following disclaimer in
15 * the documentation and/or other materials provided with the
16 * distribution.
17 * 3. Neither the name of The DragonFly Project nor the names of its
18 * contributors may be used to endorse or promote products derived
19 * from this software without specific, prior written permission.
20 *
21 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
22 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
23 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
24 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
25 * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
26 * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING,
27 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
28 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
29 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
30 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
31 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
32 * SUCH DAMAGE.
33 */
34
35 #include "hammer.h"
36
37 #define LINE1 0,20
38 #define LINE2 20,78
39 #define LINE3 90,70
40
41 #define SERIALBUF_SIZE (512 * 1024)
42
43 typedef struct histogram {
44 hammer_tid_t tid;
45 uint64_t bytes;
46 } *histogram_t;
47
48 const char *ScoreBoardFile;
49 const char *RestrictTarget;
50
51 static int read_mrecords(int fd, char *buf, u_int size,
52 hammer_ioc_mrecord_head_t pickup);
53 static int generate_histogram(int fd, const char *filesystem,
54 histogram_t *histogram_ary,
55 struct hammer_ioc_mirror_rw *mirror_base,
56 int *repeatp);
57 static hammer_ioc_mrecord_any_t read_mrecord(int fdin, int *errorp,
58 hammer_ioc_mrecord_head_t pickup);
59 static void write_mrecord(int fdout, uint32_t type,
60 hammer_ioc_mrecord_any_t mrec, int bytes);
61 static void generate_mrec_header(int fd, int pfs_id,
62 union hammer_ioc_mrecord_any *mrec_tmp);
63 static int validate_mrec_header(int fd, int fdin, int is_target, int pfs_id,
64 struct hammer_ioc_mrecord_head *pickup,
65 hammer_tid_t *tid_begp, hammer_tid_t *tid_endp);
66 static void update_pfs_snapshot(int fd, hammer_tid_t snapshot_tid, int pfs_id);
67 static ssize_t writebw(int fd, const void *buf, size_t nbytes,
68 uint64_t *bwcount, struct timeval *tv1);
69 static int getyntty(void);
70 static void score_printf(size_t i, size_t w, const char *ctl, ...);
71 static void hammer_check_restrict(const char *filesystem);
72 static void mirror_usage(int code);
73
74 /*
75 * Generate a mirroring data stream from the specific source over the
76 * entire key range, but restricted to the specified transaction range.
77 *
78 * The HAMMER VFS does most of the work, we add a few new mrecord
79 * types to negotiate the TID ranges and verify that the entire
80 * stream made it to the destination.
81 *
82 * streaming will be 0 for mirror-read, 1 for mirror-stream. The code will
83 * set up a fake value of -1 when running the histogram for mirror-read.
84 */
85 void
86 hammer_cmd_mirror_read(char **av, int ac, int streaming)
87 {
88 struct hammer_ioc_mirror_rw mirror;
89 struct hammer_ioc_pseudofs_rw pfs;
90 union hammer_ioc_mrecord_any mrec_tmp;
91 struct hammer_ioc_mrecord_head pickup;
92 hammer_ioc_mrecord_any_t mrec;
93 hammer_tid_t sync_tid;
94 histogram_t histogram_ary;
95 const char *filesystem;
96 char *buf = malloc(SERIALBUF_SIZE);
97 int interrupted = 0;
98 int error;
99 int fd;
100 int n;
101 int didwork;
102 int histogram;
103 int histindex;
104 int histmax;
105 int repeat = 0;
106 int sameline;
107 int64_t total_bytes;
108 time_t base_t = time(NULL);
109 struct timeval bwtv;
110 uint64_t bwcount;
111 uint64_t estbytes;
112
113 if (ac == 0 || ac > 2) {
114 mirror_usage(1);
115 /* not reached */
116 }
117 filesystem = av[0];
118 hammer_check_restrict(filesystem);
119
120 pickup.signature = 0;
121 pickup.type = 0;
122 histogram = 0;
123 histindex = 0;
124 histmax = 0;
125 histogram_ary = NULL;
126 sameline = 0;
127
128 again:
129 bzero(&mirror, sizeof(mirror));
130 hammer_key_beg_init(&mirror.key_beg);
131 hammer_key_end_init(&mirror.key_end);
132
133 fd = getpfs(&pfs, filesystem);
134
135 if (streaming >= 0)
136 score_printf(LINE1, "Running");
137
138 if (streaming >= 0 && VerboseOpt && VerboseOpt < 2) {
139 fprintf(stderr, "%cRunning \b\b", (sameline ? '\r' : '\n'));
140 fflush(stderr);
141 sameline = 1;
142 }
143 sameline = 1;
144 total_bytes = 0;
145 gettimeofday(&bwtv, NULL);
146 bwcount = 0;
147
148 /*
149 * Send initial header for the purpose of determining the
150 * shared-uuid.
151 */
152 generate_mrec_header(fd, pfs.pfs_id, &mrec_tmp);
153 write_mrecord(1, HAMMER_MREC_TYPE_PFSD,
154 &mrec_tmp, sizeof(mrec_tmp.pfs));
155
156 /*
157 * In 2-way mode the target will send us a PFS info packet
158 * first. Use the target's current snapshot TID as our default
159 * begin TID.
160 */
161 if (TwoWayPipeOpt) {
162 mirror.tid_beg = 0;
163 n = validate_mrec_header(fd, 0, 0, pfs.pfs_id, &pickup,
164 NULL, &mirror.tid_beg);
165 if (n < 0) { /* got TERM record */
166 relpfs(fd, &pfs);
167 free(buf);
168 free(histogram_ary);
169 return;
170 }
171 ++mirror.tid_beg;
172 } else if (streaming && histogram) {
173 mirror.tid_beg = histogram_ary[histindex].tid + 1;
174 } else {
175 mirror.tid_beg = 0;
176 }
177
178 /*
179 * Write out the PFS header, tid_beg will be updated if our PFS
180 * has a larger begin sync. tid_end is set to the latest source
181 * TID whos flush cycle has completed.
182 */
183 generate_mrec_header(fd, pfs.pfs_id, &mrec_tmp);
184 if (mirror.tid_beg < mrec_tmp.pfs.pfsd.sync_beg_tid)
185 mirror.tid_beg = mrec_tmp.pfs.pfsd.sync_beg_tid;
186 mirror.tid_end = mrec_tmp.pfs.pfsd.sync_end_tid;
187 mirror.ubuf = buf;
188 mirror.size = SERIALBUF_SIZE;
189 mirror.pfs_id = pfs.pfs_id;
190 mirror.shared_uuid = pfs.ondisk->shared_uuid;
191
192 /*
193 * XXX If the histogram is exhausted and the TID delta is large
194 * the stream might have been offline for a while and is
195 * now picking it up again. Do another histogram.
196 */
197 #if 0
198 if (streaming && histogram && histindex == histend) {
199 if (mirror.tid_end - mirror.tid_beg > BULK_MINIMUM)
200 histogram = 0;
201 }
202 #endif
203
204 /*
205 * Initial bulk startup control, try to do some incremental
206 * mirroring in order to allow the stream to be killed and
207 * restarted without having to start over.
208 */
209 if (histogram == 0 && BulkOpt == 0) {
210 if (VerboseOpt && repeat == 0) {
211 fprintf(stderr, "\n");
212 sameline = 0;
213 }
214 histmax = generate_histogram(fd, filesystem,
215 &histogram_ary, &mirror,
216 &repeat);
217 histindex = 0;
218 histogram = 1;
219
220 /*
221 * Just stream the histogram, then stop
222 */
223 if (streaming == 0)
224 streaming = -1;
225 }
226
227 if (streaming && histogram) {
228 ++histindex;
229 mirror.tid_end = histogram_ary[histindex].tid;
230 estbytes = histogram_ary[histindex-1].bytes;
231 mrec_tmp.pfs.pfsd.sync_end_tid = mirror.tid_end;
232 } else {
233 estbytes = 0;
234 }
235
236 write_mrecord(1, HAMMER_MREC_TYPE_PFSD,
237 &mrec_tmp, sizeof(mrec_tmp.pfs));
238
239 /*
240 * A cycle file overrides the beginning TID only if we are
241 * not operating in two-way or histogram mode.
242 */
243 if (TwoWayPipeOpt == 0 && histogram == 0)
244 hammer_get_cycle(&mirror.key_beg, &mirror.tid_beg);
245
246 /*
247 * An additional argument overrides the beginning TID regardless
248 * of what mode we are in. This is not recommending if operating
249 * in two-way mode.
250 */
251 if (ac == 2)
252 mirror.tid_beg = strtoull(av[1], NULL, 0);
253
254 if (streaming == 0 || VerboseOpt >= 2) {
255 fprintf(stderr,
256 "Mirror-read: Mirror %016jx to %016jx",
257 (uintmax_t)mirror.tid_beg, (uintmax_t)mirror.tid_end);
258 if (histogram)
259 fprintf(stderr, " (bulk= %ju)", (uintmax_t)estbytes);
260 fprintf(stderr, "\n");
261 fflush(stderr);
262 }
263 if (mirror.key_beg.obj_id != (int64_t)HAMMER_MIN_OBJID) {
264 fprintf(stderr, "Mirror-read: Resuming at object %016jx\n",
265 (uintmax_t)mirror.key_beg.obj_id);
266 }
267
268 /*
269 * Nothing to do if begin equals end.
270 */
271 if (mirror.tid_beg >= mirror.tid_end) {
272 if (streaming == 0 || VerboseOpt >= 2)
273 fprintf(stderr, "Mirror-read: No work to do\n");
274 sleep(DelayOpt);
275 didwork = 0;
276 histogram = 0;
277 goto done;
278 }
279 didwork = 1;
280
281 /*
282 * Write out bulk records
283 */
284 mirror.ubuf = buf;
285 mirror.size = SERIALBUF_SIZE;
286
287 do {
288 mirror.count = 0;
289 mirror.pfs_id = pfs.pfs_id;
290 mirror.shared_uuid = pfs.ondisk->shared_uuid;
291 if (ioctl(fd, HAMMERIOC_MIRROR_READ, &mirror) < 0) {
292 score_printf(LINE3, "Mirror-read %s failed: %s",
293 filesystem, strerror(errno));
294 err(1, "Mirror-read %s failed", filesystem);
295 /* not reached */
296 }
297 if (mirror.head.flags & HAMMER_IOC_HEAD_ERROR) {
298 score_printf(LINE3, "Mirror-read %s fatal error %d",
299 filesystem, mirror.head.error);
300 errx(1, "Mirror-read %s fatal error %d",
301 filesystem, mirror.head.error);
302 /* not reached */
303 }
304 if (mirror.count) {
305 if (BandwidthOpt) {
306 n = writebw(1, mirror.ubuf, mirror.count,
307 &bwcount, &bwtv);
308 } else {
309 n = write(1, mirror.ubuf, mirror.count);
310 }
311 if (n != mirror.count) {
312 score_printf(LINE3,
313 "Mirror-read %s failed: "
314 "short write",
315 filesystem);
316 errx(1, "Mirror-read %s failed: short write",
317 filesystem);
318 /* not reached */
319 }
320 }
321 total_bytes += mirror.count;
322 if (streaming && VerboseOpt) {
323 fprintf(stderr,
324 "\rscan obj=%016jx tids=%016jx:%016jx %11jd",
325 (uintmax_t)mirror.key_cur.obj_id,
326 (uintmax_t)mirror.tid_beg,
327 (uintmax_t)mirror.tid_end,
328 (intmax_t)total_bytes);
329 fflush(stderr);
330 sameline = 0;
331 } else if (streaming) {
332 score_printf(LINE2,
333 "obj=%016jx tids=%016jx:%016jx %11jd",
334 (uintmax_t)mirror.key_cur.obj_id,
335 (uintmax_t)mirror.tid_beg,
336 (uintmax_t)mirror.tid_end,
337 (intmax_t)total_bytes);
338 }
339 mirror.key_beg = mirror.key_cur;
340
341 /*
342 * Deal with time limit option
343 */
344 if (TimeoutOpt &&
345 (unsigned)(time(NULL) - base_t) > (unsigned)TimeoutOpt) {
346 score_printf(LINE3,
347 "Mirror-read %s interrupted by timer at"
348 " %016jx",
349 filesystem,
350 (uintmax_t)mirror.key_cur.obj_id);
351 fprintf(stderr,
352 "Mirror-read %s interrupted by timer at"
353 " %016jx\n",
354 filesystem,
355 (uintmax_t)mirror.key_cur.obj_id);
356 interrupted = 1;
357 break;
358 }
359 } while (mirror.count != 0);
360
361 done:
362 if (streaming && VerboseOpt && sameline == 0) {
363 fprintf(stderr, "\n");
364 fflush(stderr);
365 sameline = 1;
366 }
367
368 /*
369 * Write out the termination sync record - only if not interrupted
370 */
371 if (interrupted == 0) {
372 if (didwork) {
373 write_mrecord(1, HAMMER_MREC_TYPE_SYNC,
374 &mrec_tmp, sizeof(mrec_tmp.sync));
375 } else {
376 write_mrecord(1, HAMMER_MREC_TYPE_IDLE,
377 &mrec_tmp, sizeof(mrec_tmp.sync));
378 }
379 }
380
381 /*
382 * If the -2 option was given (automatic when doing mirror-copy),
383 * a two-way pipe is assumed and we expect a response mrec from
384 * the target.
385 */
386 if (TwoWayPipeOpt) {
387 mrec = read_mrecord(0, &error, &pickup);
388 if (mrec == NULL ||
389 mrec->head.type != HAMMER_MREC_TYPE_UPDATE ||
390 mrec->head.rec_size != sizeof(mrec->update)) {
391 errx(1, "mirror_read: Did not get final "
392 "acknowledgement packet from target");
393 /* not reached */
394 }
395 if (interrupted) {
396 if (CyclePath) {
397 hammer_set_cycle(&mirror.key_cur,
398 mirror.tid_beg);
399 fprintf(stderr, "Cyclefile %s updated for "
400 "continuation\n", CyclePath);
401 }
402 } else {
403 sync_tid = mrec->update.tid;
404 if (CyclePath) {
405 hammer_key_beg_init(&mirror.key_beg);
406 hammer_set_cycle(&mirror.key_beg, sync_tid);
407 fprintf(stderr,
408 "Cyclefile %s updated to 0x%016jx\n",
409 CyclePath, (uintmax_t)sync_tid);
410 }
411 }
412 free(mrec);
413 } else if (CyclePath) {
414 /* NOTE! mirror.tid_beg cannot be updated */
415 fprintf(stderr, "Warning: cycle file (-c option) cannot be "
416 "fully updated unless you use mirror-copy\n");
417 hammer_set_cycle(&mirror.key_beg, mirror.tid_beg);
418 }
419 if (streaming && interrupted == 0) {
420 time_t t1 = time(NULL);
421 time_t t2;
422
423 /*
424 * Try to break down large bulk transfers into smaller ones
425 * so it can sync the transaction id on the slave. This
426 * way if we get interrupted a restart doesn't have to
427 * start from scratch.
428 */
429 if (streaming && histogram) {
430 if (histindex != histmax) {
431 if (VerboseOpt && VerboseOpt < 2 &&
432 streaming >= 0) {
433 fprintf(stderr, " (bulk incremental)");
434 }
435 relpfs(fd, &pfs);
436 goto again;
437 }
438 }
439
440 if (VerboseOpt && streaming >= 0) {
441 fprintf(stderr, " W");
442 fflush(stderr);
443 } else if (streaming >= 0) {
444 score_printf(LINE1, "Waiting");
445 }
446 pfs.ondisk->sync_end_tid = mirror.tid_end;
447 if (streaming < 0) {
448 /*
449 * Fake streaming mode when using a histogram to
450 * break up a mirror-read, do not wait on source.
451 */
452 streaming = 0;
453 } else if (ioctl(fd, HAMMERIOC_WAI_PSEUDOFS, &pfs) < 0) {
454 score_printf(LINE3,
455 "Mirror-read %s: cannot stream: %s\n",
456 filesystem, strerror(errno));
457 fprintf(stderr,
458 "Mirror-read %s: cannot stream: %s\n",
459 filesystem, strerror(errno));
460 } else {
461 t2 = time(NULL) - t1;
462 if (t2 >= 0 && t2 < DelayOpt) {
463 if (VerboseOpt) {
464 fprintf(stderr, "\bD");
465 fflush(stderr);
466 }
467 sleep(DelayOpt - t2);
468 }
469 if (VerboseOpt) {
470 fprintf(stderr, "\b ");
471 fflush(stderr);
472 }
473 relpfs(fd, &pfs);
474 goto again;
475 }
476 }
477 write_mrecord(1, HAMMER_MREC_TYPE_TERM,
478 &mrec_tmp, sizeof(mrec_tmp.sync));
479 relpfs(fd, &pfs);
480 free(buf);
481 free(histogram_ary);
482 fprintf(stderr, "Mirror-read %s succeeded\n", filesystem);
483 }
484
485 /*
486 * What we are trying to do here is figure out how much data is
487 * going to be sent for the TID range and to break the TID range
488 * down into reasonably-sized slices (from the point of view of
489 * data sent) so a lost connection can restart at a reasonable
490 * place and not all the way back at the beginning.
491 *
492 * An entry's TID serves as the end_tid for the prior entry
493 * So we have to offset the calculation by 1 so that TID falls into
494 * the previous entry when populating entries.
495 *
496 * Because the transaction id space is bursty we need a relatively
497 * large number of buckets (like a million) to do a reasonable job
498 * for things like an initial bulk mirrors on a very large filesystem.
499 */
500 #define HIST_COUNT (1024 * 1024)
501
502 static int
503 generate_histogram(int fd, const char *filesystem,
504 histogram_t *histogram_ary,
505 struct hammer_ioc_mirror_rw *mirror_base,
506 int *repeatp)
507 {
508 struct hammer_ioc_mirror_rw mirror;
509 union hammer_ioc_mrecord_any *mrec;
510 hammer_tid_t tid_beg;
511 hammer_tid_t tid_end;
512 hammer_tid_t tid;
513 hammer_tid_t tidx;
514 uint64_t *tid_bytes;
515 uint64_t total;
516 uint64_t accum;
517 int chunkno;
518 int i;
519 int res;
520 int off;
521 int len;
522
523 mirror = *mirror_base;
524 tid_beg = mirror.tid_beg;
525 tid_end = mirror.tid_end;
526 mirror.head.flags |= HAMMER_IOC_MIRROR_NODATA;
527
528 if (*histogram_ary == NULL) {
529 *histogram_ary = malloc(sizeof(struct histogram) *
530 (HIST_COUNT + 2));
531 }
532 if (tid_beg >= tid_end)
533 return(0);
534
535 /* needs 2 extra */
536 tid_bytes = malloc(sizeof(*tid_bytes) * (HIST_COUNT + 2));
537 bzero(tid_bytes, sizeof(*tid_bytes) * (HIST_COUNT + 2));
538
539 if (*repeatp == 0) {
540 fprintf(stderr, "Prescan to break up bulk transfer");
541 if (VerboseOpt > 1)
542 fprintf(stderr, " (%juMB chunks)",
543 (uintmax_t)(SplitupOpt / (1024 * 1024)));
544 fprintf(stderr, "\n");
545 }
546
547 /*
548 * Note: (tid_beg,tid_end), range is inclusive of both beg & end.
549 *
550 * Note: Estimates can be off when the mirror is way behind due
551 * to skips.
552 */
553 total = 0;
554 accum = 0;
555 chunkno = 0;
556 for (;;) {
557 mirror.count = 0;
558 if (ioctl(fd, HAMMERIOC_MIRROR_READ, &mirror) < 0) {
559 err(1, "Mirror-read %s failed", filesystem);
560 /* not reached */
561 }
562 if (mirror.head.flags & HAMMER_IOC_HEAD_ERROR) {
563 errx(1, "Mirror-read %s fatal error %d",
564 filesystem, mirror.head.error);
565 /* not reached */
566 }
567 for (off = 0;
568 off < mirror.count;
569 off += HAMMER_HEAD_DOALIGN(mrec->head.rec_size)) {
570 mrec = (void *)((char *)mirror.ubuf + off);
571
572 /*
573 * We only care about general RECs and PASS
574 * records. We ignore SKIPs.
575 */
576 switch (mrec->head.type & HAMMER_MRECF_TYPE_LOMASK) {
577 case HAMMER_MREC_TYPE_REC:
578 case HAMMER_MREC_TYPE_PASS:
579 break;
580 default:
581 continue;
582 }
583
584 /*
585 * Calculate for two indices, create_tid and
586 * delete_tid. Record data only applies to
587 * the create_tid.
588 *
589 * When tid is exactly on the boundary it really
590 * belongs to the previous entry because scans
591 * are inclusive of the ending entry.
592 */
593 tid = mrec->rec.leaf.base.delete_tid;
594 if (tid && tid >= tid_beg && tid <= tid_end) {
595 len = HAMMER_HEAD_DOALIGN(mrec->head.rec_size);
596 if (mrec->head.type ==
597 HAMMER_MREC_TYPE_REC) {
598 len -= HAMMER_HEAD_DOALIGN(
599 mrec->rec.leaf.data_len);
600 assert(len > 0);
601 }
602 i = (tid - tid_beg) * HIST_COUNT /
603 (tid_end - tid_beg);
604 tidx = tid_beg + i * (tid_end - tid_beg) /
605 HIST_COUNT;
606 if (tid == tidx && i)
607 --i;
608 assert(i >= 0 && i < HIST_COUNT);
609 tid_bytes[i] += len;
610 total += len;
611 accum += len;
612 }
613
614 tid = mrec->rec.leaf.base.create_tid;
615 if (tid && tid >= tid_beg && tid <= tid_end) {
616 len = HAMMER_HEAD_DOALIGN(mrec->head.rec_size);
617 if (mrec->head.type ==
618 HAMMER_MREC_TYPE_REC_NODATA) {
619 len += HAMMER_HEAD_DOALIGN(
620 mrec->rec.leaf.data_len);
621 }
622 i = (tid - tid_beg) * HIST_COUNT /
623 (tid_end - tid_beg);
624 tidx = tid_beg + i * (tid_end - tid_beg) /
625 HIST_COUNT;
626 if (tid == tidx && i)
627 --i;
628 assert(i >= 0 && i < HIST_COUNT);
629 tid_bytes[i] += len;
630 total += len;
631 accum += len;
632 }
633 }
634 if (*repeatp == 0 && accum > SplitupOpt) {
635 if (VerboseOpt > 1) {
636 fprintf(stderr, ".");
637 fflush(stderr);
638 }
639 ++chunkno;
640 score_printf(LINE2, "Prescan chunk %d", chunkno);
641 accum = 0;
642 }
643 if (mirror.count == 0)
644 break;
645 mirror.key_beg = mirror.key_cur;
646 }
647
648 /*
649 * Reduce to SplitupOpt (default 4GB) chunks. This code may
650 * use up to two additional elements. Do the array in-place.
651 *
652 * Inefficient degenerate cases can occur if we do not accumulate
653 * at least the requested split amount, so error on the side of
654 * going over a bit.
655 */
656 res = 0;
657 (*histogram_ary)[res].tid = tid_beg;
658 (*histogram_ary)[res].bytes = tid_bytes[0];
659 for (i = 1; i < HIST_COUNT; ++i) {
660 if ((*histogram_ary)[res].bytes >= SplitupOpt) {
661 ++res;
662 (*histogram_ary)[res].tid = tid_beg +
663 i * (tid_end - tid_beg) /
664 HIST_COUNT;
665 (*histogram_ary)[res].bytes = 0;
666
667 }
668 (*histogram_ary)[res].bytes += tid_bytes[i];
669 }
670 ++res;
671 (*histogram_ary)[res].tid = tid_end;
672 (*histogram_ary)[res].bytes = -1;
673
674 if (*repeatp == 0) {
675 if (VerboseOpt > 1)
676 fprintf(stderr, "\n"); /* newline after ... */
677 score_printf(LINE3, "Prescan %d chunks, total %ju MBytes",
678 res, (uintmax_t)total / (1024 * 1024));
679 fprintf(stderr, "Prescan %d chunks, total %ju MBytes (",
680 res, (uintmax_t)total / (1024 * 1024));
681 for (i = 0; i < res && i < 3; ++i) {
682 if (i)
683 fprintf(stderr, ", ");
684 fprintf(stderr, "%ju",
685 (uintmax_t)(*histogram_ary)[i].bytes);
686 }
687 if (i < res)
688 fprintf(stderr, ", ...");
689 fprintf(stderr, ")\n");
690 }
691 assert(res <= HIST_COUNT);
692 *repeatp = 1;
693
694 free(tid_bytes);
695 return(res);
696 }
697
698 static void
699 create_pfs(const char *filesystem, uuid_t *s_uuid)
700 {
701 if (ForceYesOpt == 1) {
702 fprintf(stderr, "PFS slave %s does not exist. "
703 "Auto create new slave PFS!\n", filesystem);
704
705 } else {
706 fprintf(stderr, "PFS slave %s does not exist.\n"
707 "Do you want to create a new slave PFS? [y/n] ",
708 filesystem);
709 fflush(stderr);
710 if (getyntty() != 1) {
711 errx(1, "Aborting operation");
712 /* not reached */
713 }
714 }
715
716 uint32_t status;
717 char *shared_uuid = NULL;
718 uuid_to_string(s_uuid, &shared_uuid, &status);
719
720 char *cmd = NULL;
721 asprintf(&cmd, "/sbin/hammer pfs-slave '%s' shared-uuid=%s 1>&2",
722 filesystem, shared_uuid);
723 free(shared_uuid);
724
725 if (cmd == NULL) {
726 errx(1, "Failed to alloc memory");
727 /* not reached */
728 }
729 if (system(cmd) != 0)
730 fprintf(stderr, "Failed to create PFS\n");
731 free(cmd);
732 }
733
734 /*
735 * Pipe the mirroring data stream on stdin to the HAMMER VFS, adding
736 * some additional packet types to negotiate TID ranges and to verify
737 * completion. The HAMMER VFS does most of the work.
738 *
739 * It is important to note that the mirror.key_{beg,end} range must
740 * match the ranged used by the original. For now both sides use
741 * range the entire key space.
742 *
743 * It is even more important that the records in the stream conform
744 * to the TID range also supplied in the stream. The HAMMER VFS will
745 * use the REC, PASS, and SKIP record types to track the portions of
746 * the B-Tree being scanned in order to be able to proactively delete
747 * records on the target within those active areas that are not mentioned
748 * by the source.
749 *
750 * The mirror.key_cur field is used by the VFS to do this tracking. It
751 * must be initialized to key_beg but then is persistently updated by
752 * the HAMMER VFS on each successive ioctl() call. If you blow up this
753 * field you will blow up the mirror target, possibly to the point of
754 * deleting everything. As a safety measure the HAMMER VFS simply marks
755 * the records that the source has destroyed as deleted on the target,
756 * and normal pruning operations will deal with their final disposition
757 * at some later time.
758 */
759 void
760 hammer_cmd_mirror_write(char **av, int ac)
761 {
762 struct hammer_ioc_mirror_rw mirror;
763 const char *filesystem;
764 char *buf = malloc(SERIALBUF_SIZE);
765 struct hammer_ioc_pseudofs_rw pfs;
766 struct hammer_ioc_mrecord_head pickup;
767 struct hammer_ioc_synctid synctid;
768 union hammer_ioc_mrecord_any mrec_tmp;
769 hammer_ioc_mrecord_any_t mrec;
770 struct stat st;
771 int error;
772 int fd;
773 int n;
774
775 if (ac != 1) {
776 mirror_usage(1);
777 /* not reached */
778 }
779 filesystem = av[0];
780 hammer_check_restrict(filesystem);
781
782 pickup.signature = 0;
783 pickup.type = 0;
784
785 again:
786 bzero(&mirror, sizeof(mirror));
787 hammer_key_beg_init(&mirror.key_beg);
788 hammer_key_end_init(&mirror.key_end);
789 mirror.key_end = mirror.key_beg;
790
791 /*
792 * Read initial packet
793 */
794 mrec = read_mrecord(0, &error, &pickup);
795 if (mrec == NULL) {
796 if (error == 0) {
797 errx(1, "validate_mrec_header: short read");
798 /* not reached */
799 }
800 exit(1);
801 }
802 /*
803 * Validate packet
804 */
805 if (mrec->head.type == HAMMER_MREC_TYPE_TERM) {
806 free(buf);
807 return;
808 }
809 if (mrec->head.type != HAMMER_MREC_TYPE_PFSD) {
810 errx(1, "validate_mrec_header: did not get expected "
811 "PFSD record type");
812 /* not reached */
813 }
814 if (mrec->head.rec_size != sizeof(mrec->pfs)) {
815 errx(1, "validate_mrec_header: unexpected payload size");
816 /* not reached */
817 }
818
819 /*
820 * Create slave PFS if it doesn't yet exist
821 */
822 if (lstat(filesystem, &st) != 0)
823 create_pfs(filesystem, &mrec->pfs.pfsd.shared_uuid);
824 free(mrec);
825 mrec = NULL;
826
827 fd = getpfs(&pfs, filesystem);
828
829 /*
830 * In two-way mode the target writes out a PFS packet first.
831 * The source uses our tid_end as its tid_beg by default,
832 * picking up where it left off.
833 */
834 mirror.tid_beg = 0;
835 if (TwoWayPipeOpt) {
836 generate_mrec_header(fd, pfs.pfs_id, &mrec_tmp);
837 if (mirror.tid_beg < mrec_tmp.pfs.pfsd.sync_beg_tid)
838 mirror.tid_beg = mrec_tmp.pfs.pfsd.sync_beg_tid;
839 mirror.tid_end = mrec_tmp.pfs.pfsd.sync_end_tid;
840 write_mrecord(1, HAMMER_MREC_TYPE_PFSD,
841 &mrec_tmp, sizeof(mrec_tmp.pfs));
842 }
843
844 /*
845 * Read and process the PFS header. The source informs us of
846 * the TID range the stream represents.
847 */
848 n = validate_mrec_header(fd, 0, 1, pfs.pfs_id, &pickup,
849 &mirror.tid_beg, &mirror.tid_end);
850 if (n < 0) { /* got TERM record */
851 relpfs(fd, &pfs);
852 free(buf);
853 return;
854 }
855
856 mirror.ubuf = buf;
857 mirror.size = SERIALBUF_SIZE;
858
859 /*
860 * Read and process bulk records (REC, PASS, and SKIP types).
861 *
862 * On your life, do NOT mess with mirror.key_cur or your mirror
863 * target may become history.
864 */
865 for (;;) {
866 mirror.count = 0;
867 mirror.pfs_id = pfs.pfs_id;
868 mirror.shared_uuid = pfs.ondisk->shared_uuid;
869 mirror.size = read_mrecords(0, buf, SERIALBUF_SIZE, &pickup);
870 if (mirror.size <= 0)
871 break;
872 if (ioctl(fd, HAMMERIOC_MIRROR_WRITE, &mirror) < 0) {
873 err(1, "Mirror-write %s failed", filesystem);
874 /* not reached */
875 }
876 if (mirror.head.flags & HAMMER_IOC_HEAD_ERROR) {
877 errx(1, "Mirror-write %s fatal error %d",
878 filesystem, mirror.head.error);
879 /* not reached */
880 }
881 #if 0
882 if (mirror.head.flags & HAMMER_IOC_HEAD_INTR) {
883 errx(1, "Mirror-write %s interrupted by timer at"
884 " %016llx",
885 filesystem,
886 mirror.key_cur.obj_id);
887 /* not reached */
888 }
889 #endif
890 }
891
892 /*
893 * Read and process the termination sync record.
894 */
895 mrec = read_mrecord(0, &error, &pickup);
896
897 if (mrec && mrec->head.type == HAMMER_MREC_TYPE_TERM) {
898 fprintf(stderr, "Mirror-write: received termination request\n");
899 relpfs(fd, &pfs);
900 free(mrec);
901 free(buf);
902 return;
903 }
904
905 if (mrec == NULL ||
906 (mrec->head.type != HAMMER_MREC_TYPE_SYNC &&
907 mrec->head.type != HAMMER_MREC_TYPE_IDLE) ||
908 mrec->head.rec_size != sizeof(mrec->sync)) {
909 errx(1, "Mirror-write %s: Did not get termination "
910 "sync record, or rec_size is wrong rt=%d",
911 filesystem, (mrec ? (int)mrec->head.type : -1));
912 /* not reached */
913 }
914
915 /*
916 * Update the PFS info on the target so the user has visibility
917 * into the new snapshot, and sync the target filesystem.
918 */
919 if (mrec->head.type == HAMMER_MREC_TYPE_SYNC) {
920 update_pfs_snapshot(fd, mirror.tid_end, pfs.pfs_id);
921
922 bzero(&synctid, sizeof(synctid));
923 synctid.op = HAMMER_SYNCTID_SYNC2;
924 ioctl(fd, HAMMERIOC_SYNCTID, &synctid);
925
926 if (VerboseOpt >= 2) {
927 fprintf(stderr, "Mirror-write %s: succeeded\n",
928 filesystem);
929 }
930 }
931
932 free(mrec);
933 mrec = NULL;
934
935 /*
936 * Report back to the originator.
937 */
938 if (TwoWayPipeOpt) {
939 mrec_tmp.update.tid = mirror.tid_end;
940 write_mrecord(1, HAMMER_MREC_TYPE_UPDATE,
941 &mrec_tmp, sizeof(mrec_tmp.update));
942 } else {
943 printf("Source can update synctid to 0x%016jx\n",
944 (uintmax_t)mirror.tid_end);
945 }
946 relpfs(fd, &pfs);
947 goto again;
948 }
949
950 void
951 hammer_cmd_mirror_dump(char **av, int ac)
952 {
953 char *buf = malloc(SERIALBUF_SIZE);
954 struct hammer_ioc_mrecord_head pickup;
955 hammer_ioc_mrecord_any_t mrec;
956 int error;
957 int size;
958 int offset;
959 int bytes;
960 int header_only = 0;
961
962 if (ac == 1 && strcmp(*av, "header") == 0) {
963 header_only = 1;
964 } else if (ac != 0) {
965 mirror_usage(1);
966 /* not reached */
967 }
968
969 /*
970 * Read and process the PFS header
971 */
972 pickup.signature = 0;
973 pickup.type = 0;
974
975 mrec = read_mrecord(0, &error, &pickup);
976
977 /*
978 * Dump the PFS header. mirror-dump takes its input from the output
979 * of a mirror-read so getpfs() can't be used to get a fd to be passed
980 * to dump_pfsd().
981 */
982 if (header_only && mrec != NULL) {
983 dump_pfsd(&mrec->pfs.pfsd, -1);
984 free(mrec);
985 free(buf);
986 return;
987 }
988 free(mrec);
989
990 again:
991 /*
992 * Read and process bulk records
993 */
994 for (;;) {
995 size = read_mrecords(0, buf, SERIALBUF_SIZE, &pickup);
996 if (size <= 0)
997 break;
998 offset = 0;
999 while (offset < size) {
1000 mrec = (void *)((char *)buf + offset);
1001 bytes = HAMMER_HEAD_DOALIGN(mrec->head.rec_size);
1002 if (offset + bytes > size) {
1003 errx(1, "Misaligned record");
1004 /* not reached */
1005 }
1006
1007 switch(mrec->head.type & HAMMER_MRECF_TYPE_MASK) {
1008 case HAMMER_MREC_TYPE_REC_BADCRC:
1009 case HAMMER_MREC_TYPE_REC:
1010 printf("Record lo=%08x obj=%016jx key=%016jx "
1011 "rt=%02x ot=%02x",
1012 mrec->rec.leaf.base.localization,
1013 (uintmax_t)mrec->rec.leaf.base.obj_id,
1014 (uintmax_t)mrec->rec.leaf.base.key,
1015 mrec->rec.leaf.base.rec_type,
1016 mrec->rec.leaf.base.obj_type);
1017 if (mrec->head.type ==
1018 HAMMER_MREC_TYPE_REC_BADCRC) {
1019 printf(" (BAD CRC)");
1020 }
1021 printf("\n");
1022 printf(" tids %016jx:%016jx data=%d\n",
1023 (uintmax_t)mrec->rec.leaf.base.create_tid,
1024 (uintmax_t)mrec->rec.leaf.base.delete_tid,
1025 mrec->rec.leaf.data_len);
1026 break;
1027 case HAMMER_MREC_TYPE_PASS:
1028 printf("Pass lo=%08x obj=%016jx key=%016jx "
1029 "rt=%02x ot=%02x\n",
1030 mrec->rec.leaf.base.localization,
1031 (uintmax_t)mrec->rec.leaf.base.obj_id,
1032 (uintmax_t)mrec->rec.leaf.base.key,
1033 mrec->rec.leaf.base.rec_type,
1034 mrec->rec.leaf.base.obj_type);
1035 printf(" tids %016jx:%016jx data=%d\n",
1036 (uintmax_t)mrec->rec.leaf.base.create_tid,
1037 (uintmax_t)mrec->rec.leaf.base.delete_tid,
1038 mrec->rec.leaf.data_len);
1039 break;
1040 case HAMMER_MREC_TYPE_SKIP:
1041 printf("Skip lo=%08x obj=%016jx key=%016jx rt=%02x to\n"
1042 " lo=%08x obj=%016jx key=%016jx rt=%02x\n",
1043 mrec->skip.skip_beg.localization,
1044 (uintmax_t)mrec->skip.skip_beg.obj_id,
1045 (uintmax_t)mrec->skip.skip_beg.key,
1046 mrec->skip.skip_beg.rec_type,
1047 mrec->skip.skip_end.localization,
1048 (uintmax_t)mrec->skip.skip_end.obj_id,
1049 (uintmax_t)mrec->skip.skip_end.key,
1050 mrec->skip.skip_end.rec_type);
1051 default:
1052 break;
1053 }
1054 offset += bytes;
1055 }
1056 }
1057
1058 /*
1059 * Read and process the termination sync record.
1060 */
1061 mrec = read_mrecord(0, &error, &pickup);
1062 if (mrec == NULL ||
1063 (mrec->head.type != HAMMER_MREC_TYPE_SYNC &&
1064 mrec->head.type != HAMMER_MREC_TYPE_IDLE)) {
1065 fprintf(stderr, "Mirror-dump: Did not get termination "
1066 "sync record\n");
1067 }
1068 free(mrec);
1069
1070 /*
1071 * Continue with more batches until EOF.
1072 */
1073 mrec = read_mrecord(0, &error, &pickup);
1074 if (mrec) {
1075 free(mrec);
1076 goto again;
1077 }
1078 free(buf);
1079 }
1080
1081 void
1082 hammer_cmd_mirror_copy(char **av, int ac, int streaming)
1083 {
1084 pid_t pid1;
1085 pid_t pid2;
1086 int fds[2];
1087 const char *xav[32];
1088 char tbuf[16];
1089 char *sh, *user, *host, *rfs;
1090 int xac;
1091
1092 if (ac != 2) {
1093 mirror_usage(1);
1094 /* not reached */
1095 }
1096
1097 TwoWayPipeOpt = 1;
1098 signal(SIGPIPE, SIG_IGN);
1099
1100 again:
1101 if (pipe(fds) < 0) {
1102 err(1, "pipe");
1103 /* not reached */
1104 }
1105
1106 /*
1107 * Source
1108 */
1109 if ((pid1 = fork()) == 0) {
1110 signal(SIGPIPE, SIG_DFL);
1111 dup2(fds[0], 0);
1112 dup2(fds[0], 1);
1113 close(fds[0]);
1114 close(fds[1]);
1115 if ((rfs = strchr(av[0], ':')) != NULL) {
1116 xac = 0;
1117
1118 if((sh = getenv("HAMMER_RSH")) == NULL)
1119 xav[xac++] = "ssh";
1120 else
1121 xav[xac++] = sh;
1122
1123 if (CompressOpt)
1124 xav[xac++] = "-C";
1125
1126 if ((host = strchr(av[0], '@')) != NULL) {
1127 user = strndup( av[0], (host++ - av[0]));
1128 host = strndup( host, (rfs++ - host));
1129 xav[xac++] = "-l";
1130 xav[xac++] = user;
1131 xav[xac++] = host;
1132 } else {
1133 host = strndup( av[0], (rfs++ - av[0]));
1134 user = NULL;
1135 xav[xac++] = host;
1136 }
1137
1138
1139 if (SshPort) {
1140 xav[xac++] = "-p";
1141 xav[xac++] = SshPort;
1142 }
1143
1144 xav[xac++] = "hammer";
1145
1146 switch(VerboseOpt) {
1147 case 0:
1148 break;
1149 case 1:
1150 xav[xac++] = "-v";
1151 break;
1152 case 2:
1153 xav[xac++] = "-vv";
1154 break;
1155 default:
1156 xav[xac++] = "-vvv";
1157 break;
1158 }
1159 if (ForceYesOpt)
1160 xav[xac++] = "-y";
1161 xav[xac++] = "-2";
1162 if (TimeoutOpt) {
1163 snprintf(tbuf, sizeof(tbuf), "%d", TimeoutOpt);
1164 xav[xac++] = "-t";
1165 xav[xac++] = tbuf;
1166 }
1167 if (SplitupOptStr) {
1168 xav[xac++] = "-S";
1169 xav[xac++] = SplitupOptStr;
1170 }
1171 if (streaming)
1172 xav[xac++] = "mirror-read-stream";
1173 else
1174 xav[xac++] = "mirror-read";
1175 xav[xac++] = rfs;
1176 xav[xac++] = NULL;
1177 execvp(*xav, (void *)xav);
1178 } else {
1179 hammer_cmd_mirror_read(av, 1, streaming);
1180 fflush(stdout);
1181 fflush(stderr);
1182 }
1183 _exit(1);
1184 }
1185
1186 /*
1187 * Target
1188 */
1189 if ((pid2 = fork()) == 0) {
1190 signal(SIGPIPE, SIG_DFL);
1191 dup2(fds[1], 0);
1192 dup2(fds[1], 1);
1193 close(fds[0]);
1194 close(fds[1]);
1195 if ((rfs = strchr(av[1], ':')) != NULL) {
1196 xac = 0;
1197
1198 if((sh = getenv("HAMMER_RSH")) == NULL)
1199 xav[xac++] = "ssh";
1200 else
1201 xav[xac++] = sh;
1202
1203 if (CompressOpt)
1204 xav[xac++] = "-C";
1205
1206 if ((host = strchr(av[1], '@')) != NULL) {
1207 user = strndup( av[1], (host++ - av[1]));
1208 host = strndup( host, (rfs++ - host));
1209 xav[xac++] = "-l";
1210 xav[xac++] = user;
1211 xav[xac++] = host;
1212 } else {
1213 host = strndup( av[1], (rfs++ - av[1]));
1214 user = NULL;
1215 xav[xac++] = host;
1216 }
1217
1218 if (SshPort) {
1219 xav[xac++] = "-p";
1220 xav[xac++] = SshPort;
1221 }
1222
1223 xav[xac++] = "hammer";
1224
1225 switch(VerboseOpt) {
1226 case 0:
1227 break;
1228 case 1:
1229 xav[xac++] = "-v";
1230 break;
1231 case 2:
1232 xav[xac++] = "-vv";
1233 break;
1234 default:
1235 xav[xac++] = "-vvv";
1236 break;
1237 }
1238 if (ForceYesOpt)
1239 xav[xac++] = "-y";
1240 xav[xac++] = "-2";
1241 xav[xac++] = "mirror-write";
1242 xav[xac++] = rfs;
1243 xav[xac++] = NULL;
1244 execvp(*xav, (void *)xav);
1245 } else {
1246 hammer_cmd_mirror_write(av + 1, 1);
1247 fflush(stdout);
1248 fflush(stderr);
1249 }
1250 _exit(1);
1251 }
1252 close(fds[0]);
1253 close(fds[1]);
1254
1255 while (waitpid(pid1, NULL, 0) <= 0)
1256 ;
1257 while (waitpid(pid2, NULL, 0) <= 0)
1258 ;
1259
1260 /*
1261 * If the link is lost restart
1262 */
1263 if (streaming) {
1264 if (VerboseOpt) {
1265 fprintf(stderr, "\nLost Link\n");
1266 fflush(stderr);
1267 }
1268 sleep(15 + DelayOpt);
1269 goto again;
1270 }
1271
1272 }
1273
1274 /*
1275 * Read and return multiple mrecords
1276 */
1277 static int
1278 read_mrecords(int fd, char *buf, u_int size, hammer_ioc_mrecord_head_t pickup)
1279 {
1280 hammer_ioc_mrecord_any_t mrec;
1281 u_int count;
1282 size_t n;
1283 size_t i;
1284 size_t bytes;
1285 int type;
1286
1287 count = 0;
1288 while (size - count >= HAMMER_MREC_HEADSIZE) {
1289 /*
1290 * Cached the record header in case we run out of buffer
1291 * space.
1292 */
1293 fflush(stdout);
1294 if (pickup->signature == 0) {
1295 for (n = 0; n < HAMMER_MREC_HEADSIZE; n += i) {
1296 i = read(fd, (char *)pickup + n,
1297 HAMMER_MREC_HEADSIZE - n);
1298 if (i <= 0)
1299 break;
1300 }
1301 if (n == 0)
1302 break;
1303 if (n != HAMMER_MREC_HEADSIZE) {
1304 errx(1, "read_mrecords: short read on pipe");
1305 /* not reached */
1306 }
1307 if (pickup->signature != HAMMER_IOC_MIRROR_SIGNATURE) {
1308 errx(1, "read_mrecords: malformed record on pipe, "
1309 "bad signature");
1310 /* not reached */
1311 }
1312 }
1313 if (pickup->rec_size < HAMMER_MREC_HEADSIZE ||
1314 pickup->rec_size > sizeof(*mrec) + HAMMER_XBUFSIZE) {
1315 errx(1, "read_mrecords: malformed record on pipe, "
1316 "illegal rec_size");
1317 /* not reached */
1318 }
1319
1320 /*
1321 * Stop if we have insufficient space for the record and data.
1322 */
1323 bytes = HAMMER_HEAD_DOALIGN(pickup->rec_size);
1324 if (size - count < bytes)
1325 break;
1326
1327 /*
1328 * Stop if the record type is not a REC, SKIP, or PASS,
1329 * which are the only types the ioctl supports. Other types
1330 * are used only by the userland protocol.
1331 *
1332 * Ignore all flags.
1333 */
1334 type = pickup->type & HAMMER_MRECF_TYPE_LOMASK;
1335 if (type != HAMMER_MREC_TYPE_PFSD &&
1336 type != HAMMER_MREC_TYPE_REC &&
1337 type != HAMMER_MREC_TYPE_SKIP &&
1338 type != HAMMER_MREC_TYPE_PASS) {
1339 break;
1340 }
1341
1342 /*
1343 * Read the remainder and clear the pickup signature.
1344 */
1345 for (n = HAMMER_MREC_HEADSIZE; n < bytes; n += i) {
1346 i = read(fd, buf + count + n, bytes - n);
1347 if (i <= 0)
1348 break;
1349 }
1350 if (n != bytes) {
1351 errx(1, "read_mrecords: short read on pipe");
1352 /* not reached */
1353 }
1354
1355 bcopy(pickup, buf + count, HAMMER_MREC_HEADSIZE);
1356 pickup->signature = 0;
1357 pickup->type = 0;
1358 mrec = (void *)(buf + count);
1359
1360 /*
1361 * Validate the completed record
1362 */
1363 if (!hammer_crc_test_mrec_head(&mrec->head, mrec->head.rec_size)) {
1364 errx(1, "read_mrecords: malformed record on pipe, bad crc");
1365 /* not reached */
1366 }
1367
1368 /*
1369 * If its a B-Tree record validate the data crc.
1370 *
1371 * NOTE: If the VFS passes us an explicitly errorde mrec
1372 * we just pass it through.
1373 */
1374 type = mrec->head.type & HAMMER_MRECF_TYPE_MASK;
1375
1376 if (type == HAMMER_MREC_TYPE_REC) {
1377 if (mrec->head.rec_size <
1378 sizeof(mrec->rec) + mrec->rec.leaf.data_len) {
1379 errx(1, "read_mrecords: malformed record on "
1380 "pipe, illegal element data_len");
1381 /* not reached */
1382 }
1383 if (mrec->rec.leaf.data_len &&
1384 mrec->rec.leaf.data_offset &&
1385 hammer_crc_test_leaf(HammerVersion, &mrec->rec + 1, &mrec->rec.leaf) == 0) {
1386 fprintf(stderr,
1387 "read_mrecords: data_crc did not "
1388 "match data! obj=%016jx key=%016jx\n",
1389 (uintmax_t)mrec->rec.leaf.base.obj_id,
1390 (uintmax_t)mrec->rec.leaf.base.key);
1391 fprintf(stderr,
1392 "continuing, but there are problems\n");
1393 }
1394 }
1395 count += bytes;
1396 }
1397 return(count);
1398 }
1399
1400 /*
1401 * Read and return a single mrecord.
1402 */
1403 static
1404 hammer_ioc_mrecord_any_t
1405 read_mrecord(int fdin, int *errorp, hammer_ioc_mrecord_head_t pickup)
1406 {
1407 hammer_ioc_mrecord_any_t mrec;
1408 struct hammer_ioc_mrecord_head mrechd;
1409 size_t bytes;
1410 size_t n;
1411 size_t i;
1412
1413 if (pickup && pickup->type != 0) {
1414 mrechd = *pickup;
1415 pickup->signature = 0;
1416 pickup->type = 0;
1417 n = HAMMER_MREC_HEADSIZE;
1418 } else {
1419 /*
1420 * Read in the PFSD header from the sender.
1421 */
1422 for (n = 0; n < HAMMER_MREC_HEADSIZE; n += i) {
1423 i = read(fdin, (char *)&mrechd + n, HAMMER_MREC_HEADSIZE - n);
1424 if (i <= 0)
1425 break;
1426 }
1427 if (n == 0) {
1428 *errorp = 0; /* EOF */
1429 return(NULL);
1430 }
1431 if (n != HAMMER_MREC_HEADSIZE) {
1432 fprintf(stderr, "short read of mrecord header\n");
1433 *errorp = EPIPE;
1434 return(NULL);
1435 }
1436 }
1437 if (mrechd.signature != HAMMER_IOC_MIRROR_SIGNATURE) {
1438 fprintf(stderr, "read_mrecord: bad signature\n");
1439 *errorp = EINVAL;
1440 return(NULL);
1441 }
1442 bytes = HAMMER_HEAD_DOALIGN(mrechd.rec_size);
1443 assert(bytes >= sizeof(mrechd));
1444 mrec = malloc(bytes);
1445 mrec->head = mrechd;
1446
1447 while (n < bytes) {
1448 i = read(fdin, (char *)mrec + n, bytes - n);
1449 if (i <= 0)
1450 break;
1451 n += i;
1452 }
1453 if (n != bytes) {
1454 fprintf(stderr, "read_mrecord: short read on payload\n");
1455 *errorp = EPIPE;
1456 return(NULL);
1457 }
1458 if (!hammer_crc_test_mrec_head(&mrec->head, mrec->head.rec_size)) {
1459 fprintf(stderr, "read_mrecord: bad CRC\n");
1460 *errorp = EINVAL;
1461 return(NULL);
1462 }
1463 *errorp = 0;
1464 return(mrec);
1465 }
1466
1467 static
1468 void
1469 write_mrecord(int fdout, uint32_t type, hammer_ioc_mrecord_any_t mrec,
1470 int bytes)
1471 {
1472 char zbuf[HAMMER_HEAD_ALIGN];
1473 int pad;
1474
1475 pad = HAMMER_HEAD_DOALIGN(bytes) - bytes;
1476
1477 assert(bytes >= (int)sizeof(mrec->head));
1478 bzero(&mrec->head, sizeof(mrec->head));
1479 mrec->head.signature = HAMMER_IOC_MIRROR_SIGNATURE;
1480 mrec->head.type = type;
1481 mrec->head.rec_size = bytes;
1482 hammer_crc_set_mrec_head(&mrec->head, bytes);
1483 if (write(fdout, mrec, bytes) != bytes) {
1484 err(1, "write_mrecord");
1485 /* not reached */
1486 }
1487 if (pad) {
1488 bzero(zbuf, pad);
1489 if (write(fdout, zbuf, pad) != pad) {
1490 err(1, "write_mrecord");
1491 /* not reached */
1492 }
1493 }
1494 }
1495
1496 /*
1497 * Generate a mirroring header with the pfs information of the
1498 * originating filesytem.
1499 */
1500 static void
1501 generate_mrec_header(int fd, int pfs_id,
1502 union hammer_ioc_mrecord_any *mrec_tmp)
1503 {
1504 struct hammer_ioc_pseudofs_rw pfs;
1505
1506 bzero(mrec_tmp, sizeof(*mrec_tmp));
1507 clrpfs(&pfs, &mrec_tmp->pfs.pfsd, pfs_id);
1508
1509 if (ioctl(fd, HAMMERIOC_GET_PSEUDOFS, &pfs) != 0) {
1510 err(1, "Mirror-read: not a HAMMER fs/pseudofs!");
1511 /* not reached */
1512 }
1513 if (pfs.version != HAMMER_IOC_PSEUDOFS_VERSION) {
1514 errx(1, "Mirror-read: HAMMER PFS version mismatch!");
1515 /* not reached */
1516 }
1517 mrec_tmp->pfs.version = pfs.version;
1518 }
1519
1520 /*
1521 * Validate the pfs information from the originating filesystem
1522 * against the target filesystem. shared_uuid must match.
1523 *
1524 * return -1 if we got a TERM record
1525 */
1526 static int
1527 validate_mrec_header(int fd, int fdin, int is_target, int pfs_id,
1528 struct hammer_ioc_mrecord_head *pickup,
1529 hammer_tid_t *tid_begp, hammer_tid_t *tid_endp)
1530 {
1531 struct hammer_ioc_pseudofs_rw pfs;
1532 struct hammer_pseudofs_data pfsd;
1533 hammer_ioc_mrecord_any_t mrec;
1534 int error;
1535
1536 /*
1537 * Get the PFSD info from the target filesystem.
1538 */
1539 clrpfs(&pfs, &pfsd, pfs_id);
1540 if (ioctl(fd, HAMMERIOC_GET_PSEUDOFS, &pfs) != 0) {
1541 err(1, "mirror-write: not a HAMMER fs/pseudofs!");
1542 /* not reached */
1543 }
1544 if (pfs.version != HAMMER_IOC_PSEUDOFS_VERSION) {
1545 errx(1, "mirror-write: HAMMER PFS version mismatch!");
1546 /* not reached */
1547 }
1548
1549 mrec = read_mrecord(fdin, &error, pickup);
1550 if (mrec == NULL) {
1551 if (error == 0) {
1552 errx(1, "validate_mrec_header: short read");
1553 /* not reached */
1554 }
1555 exit(1);
1556 }
1557 if (mrec->head.type == HAMMER_MREC_TYPE_TERM) {
1558 free(mrec);
1559 return(-1);
1560 }
1561
1562 if (mrec->head.type != HAMMER_MREC_TYPE_PFSD) {
1563 errx(1, "validate_mrec_header: did not get expected "
1564 "PFSD record type");
1565 /* not reached */
1566 }
1567 if (mrec->head.rec_size != sizeof(mrec->pfs)) {
1568 errx(1, "validate_mrec_header: unexpected payload size");
1569 /* not reached */
1570 }
1571 if (mrec->pfs.version != pfs.version) {
1572 errx(1, "validate_mrec_header: Version mismatch");
1573 /* not reached */
1574 }
1575
1576 /*
1577 * Whew. Ok, is the read PFS info compatible with the target?
1578 */
1579 if (bcmp(&mrec->pfs.pfsd.shared_uuid, &pfsd.shared_uuid,
1580 sizeof(pfsd.shared_uuid)) != 0) {
1581 errx(1, "mirror-write: source and target have "
1582 "different shared-uuid's!");
1583 /* not reached */
1584 }
1585 if (is_target && hammer_is_pfs_master(&pfsd)) {
1586 errx(1, "mirror-write: target must be in slave mode");
1587 /* not reached */
1588 }
1589 if (tid_begp)
1590 *tid_begp = mrec->pfs.pfsd.sync_beg_tid;
1591 if (tid_endp)
1592 *tid_endp = mrec->pfs.pfsd.sync_end_tid;
1593 free(mrec);
1594 return(0);
1595 }
1596
1597 static void
1598 update_pfs_snapshot(int fd, hammer_tid_t snapshot_tid, int pfs_id)
1599 {
1600 struct hammer_ioc_pseudofs_rw pfs;
1601 struct hammer_pseudofs_data pfsd;
1602
1603 clrpfs(&pfs, &pfsd, pfs_id);
1604 if (ioctl(fd, HAMMERIOC_GET_PSEUDOFS, &pfs) != 0) {
1605 err(1, "update_pfs_snapshot (read)");
1606 /* not reached */
1607 }
1608
1609 if (pfsd.sync_end_tid != snapshot_tid) {
1610 pfsd.sync_end_tid = snapshot_tid;
1611 if (ioctl(fd, HAMMERIOC_SET_PSEUDOFS, &pfs) != 0) {
1612 err(1, "update_pfs_snapshot (rewrite)");
1613 /* not reached */
1614 }
1615 if (VerboseOpt >= 2) {
1616 fprintf(stderr,
1617 "Mirror-write: Completed, updated snapshot "
1618 "to %016jx\n",
1619 (uintmax_t)snapshot_tid);
1620 fflush(stderr);
1621 }
1622 }
1623 }
1624
1625 /*
1626 * Bandwidth-limited write in chunks
1627 */
1628 static
1629 ssize_t
1630 writebw(int fd, const void *buf, size_t nbytes,
1631 uint64_t *bwcount, struct timeval *tv1)
1632 {
1633 struct timeval tv2;
1634 size_t n;
1635 ssize_t r;
1636 ssize_t a;
1637 int usec;
1638
1639 a = 0;
1640 r = 0;
1641 while (nbytes) {
1642 if (*bwcount + nbytes > BandwidthOpt)
1643 n = BandwidthOpt - *bwcount;
1644 else
1645 n = nbytes;
1646 if (n)
1647 r = write(fd, buf, n);
1648 if (r >= 0) {
1649 a += r;
1650 nbytes -= r;
1651 buf = (const char *)buf + r;
1652 }
1653 if ((size_t)r != n)
1654 break;
1655 *bwcount += n;
1656 if (*bwcount >= BandwidthOpt) {
1657 gettimeofday(&tv2, NULL);
1658 usec = (int)(tv2.tv_sec - tv1->tv_sec) * 1000000 +
1659 (int)(tv2.tv_usec - tv1->tv_usec);
1660 if (usec >= 0 && usec < 1000000)
1661 usleep(1000000 - usec);
1662 gettimeofday(tv1, NULL);
1663 *bwcount -= BandwidthOpt;
1664 }
1665 }
1666 return(a ? a : r);
1667 }
1668
1669 /*
1670 * Get a yes or no answer from the terminal. The program may be run as
1671 * part of a two-way pipe so we cannot use stdin for this operation.
1672 */
1673 static int
1674 getyntty(void)
1675 {
1676 char buf[256];
1677 FILE *fp;
1678 int result;
1679
1680 fp = fopen("/dev/tty", "r");
1681 if (fp == NULL) {
1682 fprintf(stderr, "No terminal for response\n");
1683 return(-1);
1684 }
1685 result = -1;
1686 while (fgets(buf, sizeof(buf), fp) != NULL) {
1687 if (buf[0] == 'y' || buf[0] == 'Y') {
1688 result = 1;
1689 break;
1690 }
1691 if (buf[0] == 'n' || buf[0] == 'N') {
1692 result = 0;
1693 break;
1694 }
1695 fprintf(stderr, "Response not understood\n");
1696 break;
1697 }
1698 fclose(fp);
1699 return(result);
1700 }
1701
1702 static void
1703 score_printf(size_t i, size_t w, const char *ctl, ...)
1704 {
1705 va_list va;
1706 size_t n;
1707 static size_t SSize;
1708 static int SFd = -1;
1709 static char ScoreBuf[1024];
1710
1711 if (ScoreBoardFile == NULL)
1712 return;
1713 assert(i + w < sizeof(ScoreBuf));
1714 if (SFd < 0) {
1715 SFd = open(ScoreBoardFile, O_RDWR|O_CREAT|O_TRUNC, 0644);
1716 if (SFd < 0)
1717 return;
1718 SSize = 0;
1719 }
1720 for (n = 0; n < i; ++n) {
1721 if (ScoreBuf[n] == 0)
1722 ScoreBuf[n] = ' ';
1723 }
1724 va_start(va, ctl);
1725 vsnprintf(ScoreBuf + i, w - 1, ctl, va);
1726 va_end(va);
1727 n = strlen(ScoreBuf + i);
1728 while (n < w - 1) {
1729 ScoreBuf[i + n] = ' ';
1730 ++n;
1731 }
1732 ScoreBuf[i + n] = '\n';
1733 if (SSize < i + w)
1734 SSize = i + w;
1735 pwrite(SFd, ScoreBuf, SSize, 0);
1736 }
1737
1738 static void
1739 hammer_check_restrict(const char *filesystem)
1740 {
1741 size_t rlen;
1742 int atslash;
1743
1744 if (RestrictTarget == NULL)
1745 return;
1746 rlen = strlen(RestrictTarget);
1747 if (strncmp(filesystem, RestrictTarget, rlen) != 0) {
1748 errx(1, "hammer-remote: restricted target");
1749 /* not reached */
1750 }
1751
1752 atslash = 1;
1753 while (filesystem[rlen]) {
1754 if (atslash &&
1755 filesystem[rlen] == '.' &&
1756 filesystem[rlen+1] == '.') {
1757 errx(1, "hammer-remote: '..' not allowed");
1758 /* not reached */
1759 }
1760 if (filesystem[rlen] == '/')
1761 atslash = 1;
1762 else
1763 atslash = 0;
1764 ++rlen;
1765 }
1766 }
1767
1768 static void
1769 mirror_usage(int code)
1770 {
1771 fprintf(stderr,
1772 "hammer mirror-read <filesystem> [begin-tid]\n"
1773 "hammer mirror-read-stream <filesystem> [begin-tid]\n"
1774 "hammer mirror-write <filesystem>\n"
1775 "hammer mirror-dump [header]\n"
1776 "hammer mirror-copy [[user@]host:]<filesystem>"
1777 " [[user@]host:]<filesystem>\n"
1778 "hammer mirror-stream [[user@]host:]<filesystem>"
1779 " [[user@]host:]<filesystem>\n"
1780 );
1781 exit(code);
1782 }
1783
DragonFly BSD