2 Bacula® - The Network Backup Solution
4 Copyright (C) 2000-2007 Free Software Foundation Europe e.V.
6 The main author of Bacula is Kern Sibbald, with contributions from
7 many others, a complete list can be found in the file AUTHORS.
8 This program is Free Software; you can redistribute it and/or
9 modify it under the terms of version two of the GNU General Public
10 License as published by the Free Software Foundation and included
13 This program is distributed in the hope that it will be useful, but
14 WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
16 General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with this program; if not, write to the Free Software
20 Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
23 Bacula® is a registered trademark of John Walker.
24 The licensor of Bacula is the Free Software Foundation Europe
25 (FSFE), Fiduciary Program, Sumatrastrasse 25, 8006 Zürich,
26 Switzerland, email:ftf@fsfeurope.org.
29 * Bacula File Daemon backup.c send file attributes and data
30 * to the Storage daemon.
32 * Kern Sibbald, March MM
41 /* Forward referenced functions */
42 static int save_file(FF_PKT *ff_pkt, void *pkt, bool top_level);
43 static void strip_path(FF_PKT *ff_pkt);
44 static void unstrip_path(FF_PKT *ff_pkt);
45 static int send_data(JCR *jcr, int stream, FF_PKT *ff_pkt, DIGEST *digest, DIGEST *signature_digest);
46 static bool encode_and_send_attributes(JCR *jcr, FF_PKT *ff_pkt, int &data_stream);
47 static bool read_and_send_acl(JCR *jcr, int acltype, int stream);
50 * Find all the requested files and send them
51 * to the Storage daemon.
53 * Note, we normally carry on a one-way
54 * conversation from this point on with the SD, simply blasting
55 * data to him. To properly know what is going on, we
56 * also run a "heartbeat" monitor which reads the socket and
57 * reacts accordingly (at the moment it has nothing to do
58 * except echo the heartbeat to the Director).
61 bool blast_data_to_storage_daemon(JCR *jcr, char *addr)
65 // TODO landonf: Allow user to specify encryption algorithm
66 crypto_cipher_t cipher = CRYPTO_CIPHER_AES_128_CBC;
69 sd = jcr->store_bsock;
71 set_jcr_job_status(jcr, JS_Running);
73 Dmsg1(300, "bfiled: opened data connection %d to stored\n", sd->m_fd);
76 CLIENT *client = (CLIENT *)GetNextRes(R_CLIENT, NULL);
80 buf_size = client->max_network_buffer_size;
82 buf_size = 0; /* use default */
84 if (!bnet_set_buffer_size(sd, buf_size, BNET_SETBUF_WRITE)) {
85 set_jcr_job_status(jcr, JS_ErrorTerminated);
86 Jmsg(jcr, M_FATAL, 0, _("Cannot set buffer size FD->SD.\n"));
90 jcr->buf_size = sd->msglen;
91 /* Adjust for compression so that output buffer is
92 * 12 bytes + 0.1% larger than input buffer plus 18 bytes.
93 * This gives a bit extra plus room for the sparse addr if any.
94 * Note, we adjust the read size to be smaller so that the
95 * same output buffer can be used without growing it.
97 * The zlib compression workset is initialized here to minimise
98 * the "per file" load. The jcr member is only set, if the init was successful.
100 jcr->compress_buf_size = jcr->buf_size + ((jcr->buf_size+999) / 1000) + 30;
101 jcr->compress_buf = get_memory(jcr->compress_buf_size);
104 z_stream *pZlibStream = (z_stream*)malloc(sizeof(z_stream));
106 pZlibStream->zalloc = Z_NULL;
107 pZlibStream->zfree = Z_NULL;
108 pZlibStream->opaque = Z_NULL;
109 pZlibStream->state = Z_NULL;
111 if (deflateInit(pZlibStream, Z_DEFAULT_COMPRESSION) == Z_OK)
112 jcr->pZLIB_compress_workset = pZlibStream;
118 /* Create encryption session data and a cached, DER-encoded session data
119 * structure. We use a single session key for each backup, so we'll encode
120 * the session data only once. */
121 if (jcr->pki_encrypt) {
124 /* Create per-job session encryption context */
125 jcr->pki_session = crypto_session_new(cipher, jcr->pki_recipients);
127 /* Get the session data size */
128 if (crypto_session_encode(jcr->pki_session, (uint8_t *)0, &size) == false) {
129 Jmsg(jcr, M_FATAL, 0, _("An error occurred while encrypting the stream.\n"));
133 /* Allocate buffer */
134 jcr->pki_session_encoded = (uint8_t *)malloc(size);
136 /* Encode session data */
137 if (crypto_session_encode(jcr->pki_session, jcr->pki_session_encoded, &size) == false) {
138 Jmsg(jcr, M_FATAL, 0, _("An error occurred while encrypting the stream.\n"));
142 /* ... and store the encoded size */
143 jcr->pki_session_encoded_size = size;
145 /* Allocate the encryption/decryption buffer */
146 jcr->crypto_buf = get_memory(CRYPTO_CIPHER_MAX_BLOCK_SIZE);
149 Dmsg1(300, "set_find_options ff=%p\n", jcr->ff);
150 set_find_options((FF_PKT *)jcr->ff, jcr->incremental, jcr->mtime);
151 Dmsg0(300, "start find files\n");
153 start_heartbeat_monitor(jcr);
155 jcr->acl_text = get_pool_memory(PM_MESSAGE);
157 /* Subroutine save_file() is called for each file */
158 if (!find_files(jcr, (FF_PKT *)jcr->ff, save_file, (void *)jcr)) {
159 ok = false; /* error */
160 set_jcr_job_status(jcr, JS_ErrorTerminated);
163 free_pool_memory(jcr->acl_text);
165 stop_heartbeat_monitor(jcr);
167 sd->signal(BNET_EOD); /* end of sending data */
173 if (jcr->compress_buf) {
174 free_pool_memory(jcr->compress_buf);
175 jcr->compress_buf = NULL;
177 if (jcr->pZLIB_compress_workset) {
178 /* Free the zlib stream */
180 deflateEnd((z_stream *)jcr->pZLIB_compress_workset);
182 free (jcr->pZLIB_compress_workset);
183 jcr->pZLIB_compress_workset = NULL;
185 if (jcr->crypto_buf) {
186 free_pool_memory(jcr->crypto_buf);
187 jcr->crypto_buf = NULL;
189 if (jcr->pki_session) {
190 crypto_session_free(jcr->pki_session);
192 if (jcr->pki_session_encoded) {
193 free(jcr->pki_session_encoded);
194 jcr->pki_session_encoded = NULL;
197 Dmsg1(100, "end blast_data ok=%d\n", ok);
202 * Called here by find() for each file included.
203 * This is a callback. The original is find_files() above.
205 * Send the file and its data to the Storage daemon.
209 * -1 to ignore file/directory (not used here)
211 static int save_file(FF_PKT *ff_pkt, void *vjcr, bool top_level)
213 bool do_read = false;
214 int stat, data_stream;
216 DIGEST *digest = NULL;
217 DIGEST *signing_digest = NULL;
218 int digest_stream = STREAM_NONE;
219 SIGNATURE *sig = NULL;
220 bool has_file_data = false;
221 // TODO landonf: Allow the user to specify the digest algorithm
223 crypto_digest_t signing_algorithm = CRYPTO_DIGEST_SHA256;
225 crypto_digest_t signing_algorithm = CRYPTO_DIGEST_SHA1;
227 JCR *jcr = (JCR *)vjcr;
228 BSOCK *sd = jcr->store_bsock;
230 if (job_canceled(jcr)) {
234 jcr->num_files_examined++; /* bump total file count */
236 switch (ff_pkt->type) {
237 case FT_LNKSAVED: /* Hard linked, file already saved */
238 Dmsg2(130, "FT_LNKSAVED hard link: %s => %s\n", ff_pkt->fname, ff_pkt->link);
241 Dmsg1(130, "FT_REGE saving: %s\n", ff_pkt->fname);
242 has_file_data = true;
245 Dmsg1(130, "FT_REG saving: %s\n", ff_pkt->fname);
246 has_file_data = true;
249 Dmsg2(130, "FT_LNK saving: %s -> %s\n", ff_pkt->fname, ff_pkt->link);
252 jcr->num_files_examined--; /* correct file count */
253 return 1; /* not used */
255 Jmsg(jcr, M_INFO, 1, _(" Recursion turned off. Will not descend from %s into %s\n"),
256 ff_pkt->top_fname, ff_pkt->fname);
257 ff_pkt->type = FT_DIREND; /* Backup only the directory entry */
260 /* Suppress message for /dev filesystems */
261 if (strncmp(ff_pkt->fname, "/dev/", 5) != 0) {
262 Jmsg(jcr, M_INFO, 1, _(" %s is a different filesystem. Will not descend from %s into %s\n"),
263 ff_pkt->fname, ff_pkt->top_fname, ff_pkt->fname);
265 ff_pkt->type = FT_DIREND; /* Backup only the directory entry */
268 Jmsg(jcr, M_INFO, 1, _(" Disallowed filesystem. Will not descend from %s into %s\n"),
269 ff_pkt->top_fname, ff_pkt->fname);
270 ff_pkt->type = FT_DIREND; /* Backup only the directory entry */
273 Jmsg(jcr, M_INFO, 1, _(" Disallowed drive type. Will not descend into %s\n"),
278 Dmsg1(130, "FT_DIREND: %s\n", ff_pkt->link);
281 Dmsg1(130, "FT_SPEC saving: %s\n", ff_pkt->fname);
284 Dmsg1(130, "FT_RAW saving: %s\n", ff_pkt->fname);
285 has_file_data = true;
288 Dmsg1(130, "FT_FIFO saving: %s\n", ff_pkt->fname);
292 Jmsg(jcr, M_NOTSAVED, 0, _(" Could not access %s: ERR=%s\n"), ff_pkt->fname,
293 be.bstrerror(ff_pkt->ff_errno));
299 Jmsg(jcr, M_NOTSAVED, 0, _(" Could not follow link %s: ERR=%s\n"),
300 ff_pkt->fname, be.bstrerror(ff_pkt->ff_errno));
306 Jmsg(jcr, M_NOTSAVED, 0, _(" Could not stat %s: ERR=%s\n"), ff_pkt->fname,
307 be.bstrerror(ff_pkt->ff_errno));
313 Jmsg(jcr, M_SKIPPED, 1, _(" Unchanged file skipped: %s\n"), ff_pkt->fname);
316 Jmsg(jcr, M_NOTSAVED, 0, _(" Archive file not saved: %s\n"), ff_pkt->fname);
320 Jmsg(jcr, M_NOTSAVED, 0, _(" Could not open directory %s: ERR=%s\n"),
321 ff_pkt->fname, be.bstrerror(ff_pkt->ff_errno));
326 Jmsg(jcr, M_NOTSAVED, 0, _(" Unknown file type %d; not saved: %s\n"),
327 ff_pkt->type, ff_pkt->fname);
332 Dmsg1(130, "bfiled: sending %s to stored\n", ff_pkt->fname);
334 /* Digests and encryption are only useful if there's file data */
337 * Setup for digest handling. If this fails, the digest will be set to NULL
338 * and not used. Note, the digest (file hash) can be any one of the four
341 * The signing digest is a single algorithm depending on
342 * whether or not we have SHA2.
343 * ****FIXME**** the signing algoritm should really be
344 * determined a different way!!!!!! What happens if
345 * sha2 was available during backup but not restore?
347 if (ff_pkt->flags & FO_MD5) {
348 digest = crypto_digest_new(jcr, CRYPTO_DIGEST_MD5);
349 digest_stream = STREAM_MD5_DIGEST;
351 } else if (ff_pkt->flags & FO_SHA1) {
352 digest = crypto_digest_new(jcr, CRYPTO_DIGEST_SHA1);
353 digest_stream = STREAM_SHA1_DIGEST;
355 } else if (ff_pkt->flags & FO_SHA256) {
356 digest = crypto_digest_new(jcr, CRYPTO_DIGEST_SHA256);
357 digest_stream = STREAM_SHA256_DIGEST;
359 } else if (ff_pkt->flags & FO_SHA512) {
360 digest = crypto_digest_new(jcr, CRYPTO_DIGEST_SHA512);
361 digest_stream = STREAM_SHA512_DIGEST;
364 /* Did digest initialization fail? */
365 if (digest_stream != STREAM_NONE && digest == NULL) {
366 Jmsg(jcr, M_WARNING, 0, _("%s digest initialization failed\n"),
367 stream_to_ascii(digest_stream));
371 * Set up signature digest handling. If this fails, the signature digest will be set to
374 // TODO landonf: We should really only calculate the digest once, for both verification and signing.
376 signing_digest = crypto_digest_new(jcr, signing_algorithm);
378 /* Full-stop if a failure occurred initializing the signature digest */
379 if (signing_digest == NULL) {
380 Jmsg(jcr, M_NOTSAVED, 0, _("%s signature digest initialization failed\n"),
381 stream_to_ascii(signing_algorithm));
387 /* Enable encryption */
388 if (jcr->pki_encrypt) {
389 ff_pkt->flags |= FO_ENCRYPT;
393 /* Initialise the file descriptor we use for data and other streams. */
395 if (ff_pkt->flags & FO_PORTABLE) {
396 set_portable_backup(&ff_pkt->bfd); /* disable Win32 BackupRead() */
398 if (ff_pkt->reader) {
399 if (!set_prog(&ff_pkt->bfd, ff_pkt->reader, jcr)) {
400 Jmsg(jcr, M_FATAL, 0, _("Python reader program \"%s\" not found.\n"),
406 /* Send attributes -- must be done after binit() */
407 if (!encode_and_send_attributes(jcr, ff_pkt, data_stream)) {
411 /* Set up the encryption context and send the session data to the SD */
412 if (has_file_data && jcr->pki_encrypt) {
413 /* Send our header */
414 Dmsg2(100, "Send hdr fi=%ld stream=%d\n", jcr->JobFiles, STREAM_ENCRYPTED_SESSION_DATA);
415 sd->fsend("%ld %d 0", jcr->JobFiles, STREAM_ENCRYPTED_SESSION_DATA);
417 /* Grow the bsock buffer to fit our message if necessary */
418 if (sizeof_pool_memory(sd->msg) < jcr->pki_session_encoded_size) {
419 sd->msg = realloc_pool_memory(sd->msg, jcr->pki_session_encoded_size);
422 /* Copy our message over and send it */
423 memcpy(sd->msg, jcr->pki_session_encoded, jcr->pki_session_encoded_size);
424 sd->msglen = jcr->pki_session_encoded_size;
425 jcr->JobBytes += sd->msglen;
427 Dmsg1(100, "Send data len=%d\n", sd->msglen);
429 sd->signal(BNET_EOD);
433 * Open any file with data that we intend to save, then save it.
435 * Note, if is_win32_backup, we must open the Directory so that
436 * the BackupRead will save its permissions and ownership streams.
438 if (ff_pkt->type != FT_LNKSAVED && S_ISREG(ff_pkt->statp.st_mode)) {
440 do_read = !is_portable_backup(&ff_pkt->bfd) || ff_pkt->statp.st_size > 0;
442 do_read = ff_pkt->statp.st_size > 0;
444 } else if (ff_pkt->type == FT_RAW || ff_pkt->type == FT_FIFO ||
445 ff_pkt->type == FT_REPARSE ||
446 (!is_portable_backup(&ff_pkt->bfd) && ff_pkt->type == FT_DIREND)) {
452 if (ff_pkt->type == FT_FIFO) {
453 tid = start_thread_timer(jcr, pthread_self(), 60);
457 int noatime = ff_pkt->flags & FO_NOATIME ? O_NOATIME : 0;
458 ff_pkt->bfd.reparse_point = ff_pkt->type == FT_REPARSE;
459 if (bopen(&ff_pkt->bfd, ff_pkt->fname, O_RDONLY | O_BINARY | noatime, 0) < 0) {
460 ff_pkt->ff_errno = errno;
462 Jmsg(jcr, M_NOTSAVED, 0, _(" Cannot open %s: ERR=%s.\n"), ff_pkt->fname,
466 stop_thread_timer(tid);
472 stop_thread_timer(tid);
476 stat = send_data(jcr, data_stream, ff_pkt, digest, signing_digest);
478 if (ff_pkt->flags & FO_CHKCHANGES) {
479 has_file_changed(jcr, ff_pkt);
482 bclose(&ff_pkt->bfd);
489 #ifdef HAVE_DARWIN_OS
490 /* Regular files can have resource forks and Finder Info */
491 if (ff_pkt->type != FT_LNKSAVED && (S_ISREG(ff_pkt->statp.st_mode) &&
492 ff_pkt->flags & FO_HFSPLUS)) {
493 if (ff_pkt->hfsinfo.rsrclength > 0) {
496 if (!bopen_rsrc(&ff_pkt->bfd, ff_pkt->fname, O_RDONLY | O_BINARY, 0) < 0) {
497 ff_pkt->ff_errno = errno;
499 Jmsg(jcr, M_NOTSAVED, -1, _(" Cannot open resource fork for %s: ERR=%s.\n"),
500 ff_pkt->fname, be.bstrerror());
502 if (is_bopen(&ff_pkt->bfd)) {
503 bclose(&ff_pkt->bfd);
507 flags = ff_pkt->flags;
508 ff_pkt->flags &= ~(FO_GZIP|FO_SPARSE);
509 if (flags & FO_ENCRYPT) {
510 rsrc_stream = STREAM_ENCRYPTED_MACOS_FORK_DATA;
512 rsrc_stream = STREAM_MACOS_FORK_DATA;
514 stat = send_data(jcr, rsrc_stream, ff_pkt, digest, signing_digest);
515 ff_pkt->flags = flags;
516 bclose(&ff_pkt->bfd);
522 Dmsg1(300, "Saving Finder Info for \"%s\"\n", ff_pkt->fname);
523 sd->fsend("%ld %d 0", jcr->JobFiles, STREAM_HFSPLUS_ATTRIBUTES);
524 Dmsg1(300, "bfiled>stored:header %s\n", sd->msg);
525 memcpy(sd->msg, ff_pkt->hfsinfo.fndrinfo, 32);
528 crypto_digest_update(digest, (uint8_t *)sd->msg, sd->msglen);
530 if (signing_digest) {
531 crypto_digest_update(signing_digest, (uint8_t *)sd->msg, sd->msglen);
534 sd->signal(BNET_EOD);
538 if (ff_pkt->flags & FO_ACL) {
539 /* Read access ACLs for files, dirs and links */
540 if (!read_and_send_acl(jcr, BACL_TYPE_ACCESS, STREAM_UNIX_ATTRIBUTES_ACCESS_ACL)) {
543 /* Directories can have default ACLs too */
544 if (ff_pkt->type == FT_DIREND && (BACL_CAP & BACL_CAP_DEFAULTS_DIR)) {
545 if (!read_and_send_acl(jcr, BACL_TYPE_DEFAULT, STREAM_UNIX_ATTRIBUTES_DEFAULT_ACL)) {
551 /* Terminate the signing digest and send it to the Storage daemon */
552 if (signing_digest) {
555 if ((sig = crypto_sign_new(jcr)) == NULL) {
556 Jmsg(jcr, M_FATAL, 0, _("Failed to allocate memory for crypto signature.\n"));
560 if (!crypto_sign_add_signer(sig, signing_digest, jcr->pki_keypair)) {
561 Jmsg(jcr, M_FATAL, 0, _("An error occurred while signing the stream.\n"));
565 /* Get signature size */
566 if (!crypto_sign_encode(sig, NULL, &size)) {
567 Jmsg(jcr, M_FATAL, 0, _("An error occurred while signing the stream.\n"));
571 /* Grow the bsock buffer to fit our message if necessary */
572 if (sizeof_pool_memory(sd->msg) < (int32_t)size) {
573 sd->msg = realloc_pool_memory(sd->msg, size);
576 /* Send our header */
577 sd->fsend("%ld %d 0", jcr->JobFiles, STREAM_SIGNED_DIGEST);
578 Dmsg1(300, "bfiled>stored:header %s\n", sd->msg);
580 /* Encode signature data */
581 if (!crypto_sign_encode(sig, (uint8_t *)sd->msg, &size)) {
582 Jmsg(jcr, M_FATAL, 0, _("An error occurred while signing the stream.\n"));
588 sd->signal(BNET_EOD); /* end of checksum */
591 /* Terminate any digest and send it to Storage daemon and the Director */
595 sd->fsend("%ld %d 0", jcr->JobFiles, digest_stream);
596 Dmsg1(300, "bfiled>stored:header %s\n", sd->msg);
598 size = CRYPTO_DIGEST_MAX_SIZE;
600 /* Grow the bsock buffer to fit our message if necessary */
601 if (sizeof_pool_memory(sd->msg) < (int32_t)size) {
602 sd->msg = realloc_pool_memory(sd->msg, size);
605 if (!crypto_digest_finalize(digest, (uint8_t *)sd->msg, &size)) {
606 Jmsg(jcr, M_FATAL, 0, _("An error occurred finalizing signing the stream.\n"));
612 sd->signal(BNET_EOD); /* end of checksum */
616 rtnstat = 1; /* good return */
620 crypto_digest_free(digest);
622 if (signing_digest) {
623 crypto_digest_free(signing_digest);
626 crypto_sign_free(sig);
632 * Send data read from an already open file descriptor.
634 * We return 1 on sucess and 0 on errors.
637 * We use ff_pkt->statp.st_size when FO_SPARSE to know when to stop
639 * Currently this is not a problem as the only other stream, resource forks,
640 * are not handled as sparse files.
642 int send_data(JCR *jcr, int stream, FF_PKT *ff_pkt, DIGEST *digest,
643 DIGEST *signing_digest)
645 BSOCK *sd = jcr->store_bsock;
646 uint64_t fileAddr = 0; /* file address */
648 int32_t rsize = jcr->buf_size; /* read buffer size */
650 CIPHER_CONTEXT *cipher_ctx = NULL; /* Quell bogus uninitialized warnings */
651 const uint8_t *cipher_input;
652 uint32_t cipher_input_len;
653 uint32_t cipher_block_size;
654 uint32_t encrypted_len;
655 #ifdef FD_NO_SEND_TEST
660 rbuf = sd->msg; /* read buffer */
661 wbuf = sd->msg; /* write buffer */
662 cipher_input = (uint8_t *)rbuf; /* encrypt uncompressed data */
664 Dmsg1(300, "Saving data, type=%d\n", ff_pkt->type);
667 uLong compress_len = 0;
668 uLong max_compress_len = 0;
669 const Bytef *cbuf = NULL;
672 if (ff_pkt->flags & FO_GZIP) {
673 if (ff_pkt->flags & FO_SPARSE) {
674 cbuf = (Bytef *)jcr->compress_buf + SPARSE_FADDR_SIZE;
675 max_compress_len = jcr->compress_buf_size - SPARSE_FADDR_SIZE;
677 cbuf = (Bytef *)jcr->compress_buf;
678 max_compress_len = jcr->compress_buf_size; /* set max length */
680 wbuf = jcr->compress_buf; /* compressed output here */
681 cipher_input = (uint8_t *)jcr->compress_buf; /* encrypt compressed data */
684 * Only change zlib parameters if there is no pending operation.
685 * This should never happen as deflatereset is called after each
689 if (((z_stream*)jcr->pZLIB_compress_workset)->total_in == 0) {
690 /* set gzip compression level - must be done per file */
691 if ((zstat=deflateParams((z_stream*)jcr->pZLIB_compress_workset,
692 ff_pkt->GZIP_level, Z_DEFAULT_STRATEGY)) != Z_OK) {
693 Jmsg(jcr, M_FATAL, 0, _("Compression deflateParams error: %d\n"), zstat);
694 set_jcr_job_status(jcr, JS_ErrorTerminated);
700 const uint32_t max_compress_len = 0;
703 if (ff_pkt->flags & FO_ENCRYPT) {
704 if (ff_pkt->flags & FO_SPARSE) {
705 Jmsg0(jcr, M_FATAL, 0, _("Encrypting sparse data not supported.\n"));
708 /* Allocate the cipher context */
709 if ((cipher_ctx = crypto_cipher_new(jcr->pki_session, true,
710 &cipher_block_size)) == NULL) {
711 /* Shouldn't happen! */
712 Jmsg0(jcr, M_FATAL, 0, _("Failed to initialize encryption context.\n"));
717 * Grow the crypto buffer, if necessary.
718 * crypto_cipher_update() will buffer up to (cipher_block_size - 1).
719 * We grow crypto_buf to the maximum number of blocks that
720 * could be returned for the given read buffer size.
721 * (Using the larger of either rsize or max_compress_len)
723 jcr->crypto_buf = check_pool_memory_size(jcr->crypto_buf,
724 (MAX(rsize + (int)sizeof(uint32_t), (int32_t)max_compress_len) +
725 cipher_block_size - 1) / cipher_block_size * cipher_block_size);
727 wbuf = jcr->crypto_buf; /* Encrypted, possibly compressed output here. */
731 * Send Data header to Storage daemon
732 * <file-index> <stream> <info>
734 if (!sd->fsend("%ld %d 0", jcr->JobFiles, stream)) {
735 Jmsg1(jcr, M_FATAL, 0, _("Network send error to SD. ERR=%s\n"),
739 Dmsg1(300, ">stored: datahdr %s\n", sd->msg);
742 * Make space at beginning of buffer for fileAddr because this
743 * same buffer will be used for writing if compression is off.
745 if (ff_pkt->flags & FO_SPARSE) {
746 rbuf += SPARSE_FADDR_SIZE;
747 rsize -= SPARSE_FADDR_SIZE;
748 #ifdef HAVE_FREEBSD_OS
750 * To read FreeBSD partitions, the read size must be
753 rsize = (rsize/512) * 512;
757 /* a RAW device read on win32 only works if the buffer is a multiple of 512 */
759 if (S_ISBLK(ff_pkt->statp.st_mode))
760 rsize = (rsize/512) * 512;
766 while ((sd->msglen=(uint32_t)bread(&ff_pkt->bfd, rbuf, rsize)) > 0) {
768 /* Check for sparse blocks */
769 if (ff_pkt->flags & FO_SPARSE) {
771 bool haveBlock = true;
772 if (sd->msglen == rsize &&
773 fileAddr+sd->msglen < (uint64_t)ff_pkt->statp.st_size ||
774 ((ff_pkt->type == FT_RAW || ff_pkt->type == FT_FIFO) &&
775 (uint64_t)ff_pkt->statp.st_size == 0)) {
776 haveBlock = !is_buf_zero(rbuf, rsize);
779 ser_begin(wbuf, SPARSE_FADDR_SIZE);
780 ser_uint64(fileAddr); /* store fileAddr in begin of buffer */
782 fileAddr += sd->msglen; /* update file address */
784 continue; /* skip block of zeros */
788 jcr->ReadBytes += sd->msglen; /* count bytes read */
790 /* Uncompressed cipher input length */
791 cipher_input_len = sd->msglen;
793 /* Update checksum if requested */
795 crypto_digest_update(digest, (uint8_t *)rbuf, sd->msglen);
798 /* Update signing digest if requested */
799 if (signing_digest) {
800 crypto_digest_update(signing_digest, (uint8_t *)rbuf, sd->msglen);
804 /* Do compression if turned on */
805 if (ff_pkt->flags & FO_GZIP && jcr->pZLIB_compress_workset) {
806 Dmsg3(400, "cbuf=0x%x rbuf=0x%x len=%u\n", cbuf, rbuf, sd->msglen);
808 ((z_stream*)jcr->pZLIB_compress_workset)->next_in = (Bytef *)rbuf;
809 ((z_stream*)jcr->pZLIB_compress_workset)->avail_in = sd->msglen;
810 ((z_stream*)jcr->pZLIB_compress_workset)->next_out = (Bytef *)cbuf;
811 ((z_stream*)jcr->pZLIB_compress_workset)->avail_out = max_compress_len;
813 if ((zstat=deflate((z_stream*)jcr->pZLIB_compress_workset, Z_FINISH)) != Z_STREAM_END) {
814 Jmsg(jcr, M_FATAL, 0, _("Compression deflate error: %d\n"), zstat);
815 set_jcr_job_status(jcr, JS_ErrorTerminated);
818 compress_len = ((z_stream*)jcr->pZLIB_compress_workset)->total_out;
819 /* reset zlib stream to be able to begin from scratch again */
820 if ((zstat=deflateReset((z_stream*)jcr->pZLIB_compress_workset)) != Z_OK) {
821 Jmsg(jcr, M_FATAL, 0, _("Compression deflateReset error: %d\n"), zstat);
822 set_jcr_job_status(jcr, JS_ErrorTerminated);
826 Dmsg2(400, "compressed len=%d uncompressed len=%d\n", compress_len,
829 sd->msglen = compress_len; /* set compressed length */
830 cipher_input_len = compress_len;
834 * Note, here we prepend the current record length to the beginning
835 * of the encrypted data. This is because both sparse and compression
836 * restore handling want records returned to them with exactly the
837 * same number of bytes that were processed in the backup handling.
838 * That is, both are block filters rather than a stream. When doing
839 * compression, the compression routines may buffer data, so that for
840 * any one record compressed, when it is decompressed the same size
841 * will not be obtained. Of course, the buffered data eventually comes
842 * out in subsequent crypto_cipher_update() calls or at least
843 * when crypto_cipher_finalize() is called. Unfortunately, this
844 * "feature" of encryption enormously complicates the restore code.
846 if (ff_pkt->flags & FO_ENCRYPT) {
847 uint32_t initial_len = 0;
850 if (ff_pkt->flags & FO_SPARSE) {
851 cipher_input_len += SPARSE_FADDR_SIZE;
854 /* Encrypt the length of the input block */
855 uint8_t packet_len[sizeof(uint32_t)];
857 ser_begin(packet_len, sizeof(uint32_t));
858 ser_uint32(cipher_input_len); /* store data len in begin of buffer */
859 Dmsg1(20, "Encrypt len=%d\n", cipher_input_len);
861 if (!crypto_cipher_update(cipher_ctx, packet_len, sizeof(packet_len),
862 (u_int8_t *)jcr->crypto_buf, &initial_len)) {
863 /* Encryption failed. Shouldn't happen. */
864 Jmsg(jcr, M_FATAL, 0, _("Encryption error\n"));
868 /* Encrypt the input block */
869 if (crypto_cipher_update(cipher_ctx, cipher_input, cipher_input_len,
870 (u_int8_t *)&jcr->crypto_buf[initial_len], &encrypted_len)) {
871 if ((initial_len + encrypted_len) == 0) {
872 /* No full block of data available, read more data */
875 Dmsg2(400, "encrypted len=%d unencrypted len=%d\n", encrypted_len,
877 sd->msglen = initial_len + encrypted_len; /* set encrypted length */
879 /* Encryption failed. Shouldn't happen. */
880 Jmsg(jcr, M_FATAL, 0, _("Encryption error\n"));
885 /* Send the buffer to the Storage daemon */
886 if (ff_pkt->flags & FO_SPARSE) {
887 sd->msglen += SPARSE_FADDR_SIZE; /* include fileAddr in size */
889 sd->msg = wbuf; /* set correct write buffer */
891 Jmsg1(jcr, M_FATAL, 0, _("Network send error to SD. ERR=%s\n"),
895 Dmsg1(130, "Send data to SD len=%d\n", sd->msglen);
897 jcr->JobBytes += sd->msglen; /* count bytes saved possibly compressed/encrypted */
898 sd->msg = msgsave; /* restore read buffer */
900 } /* end while read file data */
902 if (sd->msglen < 0) { /* error */
904 Jmsg(jcr, M_ERROR, 0, _("Read error on file %s. ERR=%s\n"),
905 ff_pkt->fname, be.bstrerror(ff_pkt->bfd.berrno));
906 if (jcr->Errors++ > 1000) { /* insanity check */
907 Jmsg(jcr, M_FATAL, 0, _("Too many errors.\n"));
909 } else if (ff_pkt->flags & FO_ENCRYPT) {
911 * For encryption, we must call finalize to push out any
914 if (!crypto_cipher_finalize(cipher_ctx, (uint8_t *)jcr->crypto_buf,
916 /* Padding failed. Shouldn't happen. */
917 Jmsg(jcr, M_FATAL, 0, _("Encryption padding error\n"));
921 /* Note, on SSL pre-0.9.7, there is always some output */
922 if (encrypted_len > 0) {
923 sd->msglen = encrypted_len; /* set encrypted length */
924 sd->msg = jcr->crypto_buf; /* set correct write buffer */
926 Jmsg1(jcr, M_FATAL, 0, _("Network send error to SD. ERR=%s\n"),
930 Dmsg1(130, "Send data to SD len=%d\n", sd->msglen);
931 jcr->JobBytes += sd->msglen; /* count bytes saved possibly compressed/encrypted */
932 sd->msg = msgsave; /* restore bnet buffer */
936 if (!sd->signal(BNET_EOD)) { /* indicate end of file data */
937 Jmsg1(jcr, M_FATAL, 0, _("Network send error to SD. ERR=%s\n"),
942 /* Free the cipher context */
944 crypto_cipher_free(cipher_ctx);
949 /* Free the cipher context */
951 crypto_cipher_free(cipher_ctx);
954 sd->msg = msgsave; /* restore bnet buffer */
960 * Read and send an ACL for the last encountered file.
962 static bool read_and_send_acl(JCR *jcr, int acltype, int stream)
965 BSOCK *sd = jcr->store_bsock;
968 #ifdef FD_NO_SEND_TEST
972 len = bacl_get(jcr, acltype);
974 Jmsg1(jcr, M_WARNING, 0, _("Error reading ACL of %s\n"), jcr->last_fname);
978 return true; /* no ACL */
982 if (!sd->fsend("%ld %d 0", jcr->JobFiles, stream)) {
983 Jmsg1(jcr, M_FATAL, 0, _("Network send error to SD. ERR=%s\n"),
988 /* Send the buffer to the storage deamon */
989 Dmsg2(400, "Backing up ACL type 0x%2x <%s>\n", acltype, jcr->acl_text);
991 sd->msg = jcr->acl_text;
992 sd->msglen = len + 1;
996 Jmsg1(jcr, M_FATAL, 0, _("Network send error to SD. ERR=%s\n"),
1001 jcr->JobBytes += sd->msglen;
1003 if (!sd->signal(BNET_EOD)) {
1004 Jmsg1(jcr, M_FATAL, 0, _("Network send error to SD. ERR=%s\n"),
1009 Dmsg1(200, "ACL of file: %s successfully backed up!\n", jcr->last_fname);
1014 static bool encode_and_send_attributes(JCR *jcr, FF_PKT *ff_pkt, int &data_stream)
1016 BSOCK *sd = jcr->store_bsock;
1017 char attribs[MAXSTRING];
1018 char attribsEx[MAXSTRING];
1021 #ifdef FD_NO_SEND_TEST
1025 Dmsg1(300, "encode_and_send_attrs fname=%s\n", ff_pkt->fname);
1026 /* Find what data stream we will use, then encode the attributes */
1027 if ((data_stream = select_data_stream(ff_pkt)) == STREAM_NONE) {
1028 /* This should not happen */
1029 Jmsg0(jcr, M_FATAL, 0, _("Invalid file flags, no supported data stream type.\n"));
1032 encode_stat(attribs, ff_pkt, data_stream);
1034 /* Now possibly extend the attributes */
1035 attr_stream = encode_attribsEx(jcr, attribsEx, ff_pkt);
1037 Dmsg3(300, "File %s\nattribs=%s\nattribsEx=%s\n", ff_pkt->fname, attribs, attribsEx);
1040 jcr->JobFiles++; /* increment number of files sent */
1041 ff_pkt->FileIndex = jcr->JobFiles; /* return FileIndex */
1042 pm_strcpy(jcr->last_fname, ff_pkt->fname);
1046 * Send Attributes header to Storage daemon
1047 * <file-index> <stream> <info>
1049 if (!sd->fsend("%ld %d 0", jcr->JobFiles, attr_stream)) {
1050 Jmsg1(jcr, M_FATAL, 0, _("Network send error to SD. ERR=%s\n"),
1054 Dmsg1(300, ">stored: attrhdr %s\n", sd->msg);
1057 * Send file attributes to Storage daemon
1060 * Filename (full path)
1061 * Encoded attributes
1062 * Link name (if type==FT_LNK or FT_LNKSAVED)
1063 * Encoded extended-attributes (for Win32)
1065 * For a directory, link is the same as fname, but with trailing
1066 * slash. For a linked file, link is the link.
1069 if (ff_pkt->type == FT_LNK || ff_pkt->type == FT_LNKSAVED) {
1070 Dmsg2(300, "Link %s to %s\n", ff_pkt->fname, ff_pkt->link);
1071 stat = sd->fsend("%ld %d %s%c%s%c%s%c%s%c", jcr->JobFiles,
1072 ff_pkt->type, ff_pkt->fname, 0, attribs, 0, ff_pkt->link, 0,
1074 } else if (ff_pkt->type == FT_DIREND || ff_pkt->type == FT_REPARSE) {
1075 /* Here link is the canonical filename (i.e. with trailing slash) */
1076 stat = sd->fsend("%ld %d %s%c%s%c%c%s%c", jcr->JobFiles,
1077 ff_pkt->type, ff_pkt->link, 0, attribs, 0, 0, attribsEx, 0);
1079 stat = sd->fsend("%ld %d %s%c%s%c%c%s%c", jcr->JobFiles,
1080 ff_pkt->type, ff_pkt->fname, 0, attribs, 0, 0, attribsEx, 0);
1082 unstrip_path(ff_pkt);
1084 Dmsg2(300, ">stored: attr len=%d: %s\n", sd->msglen, sd->msg);
1086 Jmsg1(jcr, M_FATAL, 0, _("Network send error to SD. ERR=%s\n"),
1090 sd->signal(BNET_EOD); /* indicate end of attributes data */
1095 * Do in place strip of path
1097 static bool do_strip(int count, char *in)
1103 /* Copy to first path separator -- Win32 might have c: ... */
1104 while (*in && !IsPathSeparator(*in)) {
1108 numsep++; /* one separator seen */
1109 for (stripped=0; stripped<count && *in; stripped++) {
1110 while (*in && !IsPathSeparator(*in)) {
1111 in++; /* skip chars */
1114 numsep++; /* count separators seen */
1115 in++; /* skip separator */
1119 while (*in) { /* copy to end */
1120 if (IsPathSeparator(*in)) {
1126 Dmsg4(500, "stripped=%d count=%d numsep=%d sep>count=%d\n",
1127 stripped, count, numsep, numsep>count);
1128 return stripped==count && numsep>count;
1132 * If requested strip leading components of the path
1134 static void strip_path(FF_PKT *ff_pkt)
1136 if (!(ff_pkt->flags & FO_STRIPPATH) || ff_pkt->strip_path <= 0) {
1137 Dmsg1(200, "No strip for %s\n", ff_pkt->fname);
1140 if (!ff_pkt->fname_save) {
1141 ff_pkt->fname_save = get_pool_memory(PM_FNAME);
1142 ff_pkt->link_save = get_pool_memory(PM_FNAME);
1144 pm_strcpy(ff_pkt->fname_save, ff_pkt->fname);
1147 * Strip path. If it doesn't succeed put it back. If
1148 * it does, and there is a different link string,
1149 * attempt to strip the link. If it fails, but them
1151 * I.e. if either stripping fails don't strip anything.
1153 if (do_strip(ff_pkt->strip_path, ff_pkt->fname)) {
1154 if (ff_pkt->fname != ff_pkt->link) {
1155 pm_strcpy(ff_pkt->link_save, ff_pkt->link);
1156 if (!do_strip(ff_pkt->strip_path, ff_pkt->link)) {
1157 strcpy(ff_pkt->link, ff_pkt->link_save);
1158 strcpy(ff_pkt->fname, ff_pkt->fname_save);
1162 strcpy(ff_pkt->fname, ff_pkt->fname_save);
1164 Dmsg2(200, "fname=%s stripped=%s\n", ff_pkt->fname_save, ff_pkt->fname);
1167 static void unstrip_path(FF_PKT *ff_pkt)
1169 if (!(ff_pkt->flags & FO_STRIPPATH) || ff_pkt->strip_path <= 0) {
1172 strcpy(ff_pkt->fname, ff_pkt->fname_save);
1173 if (ff_pkt->fname != ff_pkt->link) {
1174 strcpy(ff_pkt->link, ff_pkt->link_save);