2 Bacula® - The Network Backup Solution
4 Copyright (C) 2000-2010 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 three of the GNU Affero 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 Affero 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 Kern Sibbald.
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 * Definitions for using the Device functions in Bacula
30 * Tape and File storage access
37 * Some details of how volume and device reservations work
40 * set_in_use() volume being used on current drive
41 * clear_in_use() no longer being used. Can be re-used or moved.
42 * set_swapping() set volume being moved to another drive
43 * is_swapping() volume is being moved to another drive
44 * clear_swapping() volume normal
47 * set_load() set to load volume
48 * needs_load() volume must be loaded (i.e. set_load done)
49 * clear_load() load done.
50 * set_unload() set to unload volume
51 * needs_unload() volume must be unloaded
52 * clear_unload() volume unloaded
54 * reservations are temporary until the drive is acquired
55 * inc_reserved() increments num of reservations
56 * dec_reserved() decrements num of reservations
57 * num_reserved() number of reservations
60 * set_reserved() sets local reserve flag and calls dev->inc_reserved()
61 * clear_reserved() clears local reserve flag and calls dev->dec_reserved()
62 * is_reserved() returns local reserved flag
63 * unreserve_device() much more complete unreservation
71 #undef DCR /* used by Bacula */
73 /* Return values from wait_for_sysop() */
82 /* Arguments to open_dev() */
84 CREATE_READ_WRITE = 1,
96 B_VTAPE_DEV, /* change to B_TAPE_DEV after init */
101 /* Generic status bits returned from status_dev() */
102 #define BMT_TAPE (1<<0) /* is tape device */
103 #define BMT_EOF (1<<1) /* just read EOF */
104 #define BMT_BOT (1<<2) /* at beginning of tape */
105 #define BMT_EOT (1<<3) /* end of tape reached */
106 #define BMT_SM (1<<4) /* DDS setmark */
107 #define BMT_EOD (1<<5) /* DDS at end of data */
108 #define BMT_WR_PROT (1<<6) /* tape write protected */
109 #define BMT_ONLINE (1<<7) /* tape online */
110 #define BMT_DR_OPEN (1<<8) /* tape door open */
111 #define BMT_IM_REP_EN (1<<9) /* immediate report enabled */
114 /* Bits for device capabilities */
115 #define CAP_EOF (1<<0) /* has MTWEOF */
116 #define CAP_BSR (1<<1) /* has MTBSR */
117 #define CAP_BSF (1<<2) /* has MTBSF */
118 #define CAP_FSR (1<<3) /* has MTFSR */
119 #define CAP_FSF (1<<4) /* has MTFSF */
120 #define CAP_EOM (1<<5) /* has MTEOM */
121 #define CAP_REM (1<<6) /* is removable media */
122 #define CAP_RACCESS (1<<7) /* is random access device */
123 #define CAP_AUTOMOUNT (1<<8) /* Read device at start to see what is there */
124 #define CAP_LABEL (1<<9) /* Label blank tapes */
125 #define CAP_ANONVOLS (1<<10) /* Mount without knowing volume name */
126 #define CAP_ALWAYSOPEN (1<<11) /* always keep device open */
127 #define CAP_AUTOCHANGER (1<<12) /* AutoChanger */
128 #define CAP_OFFLINEUNMOUNT (1<<13) /* Offline before unmount */
129 #define CAP_STREAM (1<<14) /* Stream device */
130 #define CAP_BSFATEOM (1<<15) /* Backspace file at EOM */
131 #define CAP_FASTFSF (1<<16) /* Fast forward space file */
132 #define CAP_TWOEOF (1<<17) /* Write two eofs for EOM */
133 #define CAP_CLOSEONPOLL (1<<18) /* Close device on polling */
134 #define CAP_POSITIONBLOCKS (1<<19) /* Use block positioning */
135 #define CAP_MTIOCGET (1<<20) /* Basic support for fileno and blkno */
136 #define CAP_REQMOUNT (1<<21) /* Require mount/unmount */
137 #define CAP_CHECKLABELS (1<<22) /* Check for ANSI/IBM labels */
138 #define CAP_BLOCKCHECKSUM (1<<23) /* Create/test block checksum */
141 #define dev_state(dev, st_state) ((dev)->state & (st_state))
143 /* Device state bits */
144 #define ST_XXXXXX (1<<0) /* was ST_OPENED */
145 #define ST_XXXXX (1<<1) /* was ST_TAPE */
146 #define ST_XXXX (1<<2) /* was ST_FILE */
147 #define ST_XXX (1<<3) /* was ST_FIFO */
148 #define ST_XX (1<<4) /* was ST_DVD */
149 #define ST_X (1<<5) /* was ST_PROG */
151 #define ST_LABEL (1<<6) /* label found */
152 #define ST_MALLOC (1<<7) /* dev packet malloc'ed in init_dev() */
153 #define ST_APPEND (1<<8) /* ready for Bacula append */
154 #define ST_READ (1<<9) /* ready for Bacula read */
155 #define ST_EOT (1<<10) /* at end of tape */
156 #define ST_WEOT (1<<11) /* Got EOT on write */
157 #define ST_EOF (1<<12) /* Read EOF i.e. zero bytes */
158 #define ST_NEXTVOL (1<<13) /* Start writing on next volume */
159 #define ST_SHORT (1<<14) /* Short block read */
160 #define ST_MOUNTED (1<<15) /* the device is mounted to the mount point */
161 #define ST_MEDIA (1<<16) /* Media found in mounted device */
162 #define ST_OFFLINE (1<<17) /* set offline by operator */
163 #define ST_PART_SPOOLED (1<<18) /* spooling part */
164 #define ST_FREESPACE_OK (1<<19) /* Have valid freespace for DVD */
167 /* Volume Catalog Information structure definition */
168 struct VOLUME_CAT_INFO {
169 /* Media info for the current Volume */
170 uint32_t VolCatJobs; /* number of jobs on this Volume */
171 uint32_t VolCatFiles; /* Number of files */
172 uint32_t VolCatBlocks; /* Number of blocks */
173 uint64_t VolCatBytes; /* Number of bytes written */
174 uint32_t VolCatParts; /* Number of parts written */
175 uint32_t VolCatMounts; /* Number of mounts this volume */
176 uint32_t VolCatErrors; /* Number of errors this volume */
177 uint32_t VolCatWrites; /* Number of writes this volume */
178 uint32_t VolCatReads; /* Number of reads this volume */
179 uint64_t VolCatRBytes; /* Number of bytes read */
180 uint32_t VolCatRecycles; /* Number of recycles this volume */
181 uint32_t EndFile; /* Last file number */
182 uint32_t EndBlock; /* Last block number */
183 int32_t LabelType; /* Bacula/ANSI/IBM */
184 int32_t Slot; /* >0=Slot loaded, 0=nothing, -1=unknown */
185 uint32_t VolCatMaxJobs; /* Maximum Jobs to write to volume */
186 uint32_t VolCatMaxFiles; /* Maximum files to write to volume */
187 uint64_t VolCatMaxBytes; /* Max bytes to write to volume */
188 uint64_t VolCatCapacityBytes; /* capacity estimate */
189 btime_t VolReadTime; /* time spent reading */
190 btime_t VolWriteTime; /* time spent writing this Volume */
191 int64_t VolMediaId; /* MediaId */
192 utime_t VolFirstWritten; /* Time of first write */
193 utime_t VolLastWritten; /* Time of last write */
194 bool InChanger; /* Set if vol in current magazine */
195 bool is_valid; /* set if this data is valid */
196 char VolCatStatus[20]; /* Volume status */
197 char VolCatName[MAX_NAME_LENGTH]; /* Desired volume to mount */
200 class DEVRES; /* Device resource defined in stored_conf.h */
201 class DCR; /* forward reference */
202 class VOLRES; /* forward reference */
205 * Device structure definition. There is one of these for
206 * each physical device. Everything here is "global" to
207 * that device and effects all jobs using the device.
209 class DEVICE: public SMARTALLOC {
211 int m_fd; /* file descriptor */
213 int m_blocked; /* set if we must wait (i.e. change tape) */
214 int m_count; /* Mutex use count -- DEBUG only */
215 int m_num_reserved; /* counter of device reservations */
216 int32_t m_slot; /* slot loaded in drive or -1 if none */
217 pthread_t m_pid; /* Thread that locked -- DEBUG only */
218 bool m_unload; /* set when Volume must be unloaded */
219 bool m_load; /* set when Volume must be loaded */
223 virtual ~DEVICE() {};
224 DEVICE * volatile swap_dev; /* Swap vol from this device */
225 dlist *attached_dcrs; /* attached DCR list */
226 bthread_mutex_t m_mutex; /* access control */
227 bthread_mutex_t spool_mutex; /* mutex for updating spool_size */
228 bthread_mutex_t acquire_mutex; /* mutex for acquire code */
229 pthread_cond_t wait; /* thread wait variable */
230 pthread_cond_t wait_next_vol; /* wait for tape to be mounted */
231 pthread_t no_wait_id; /* this thread must not wait */
232 int dev_prev_blocked; /* previous blocked state */
233 int num_waiting; /* number of threads waiting */
234 int num_writers; /* number of writing threads */
235 int capabilities; /* capabilities mask */
236 int state; /* state mask */
237 int dev_errno; /* Our own errno */
238 int mode; /* read/write modes */
239 int openmode; /* parameter passed to open_dev (useful to reopen the device) */
240 int dev_type; /* device type */
241 bool autoselect; /* Autoselect in autochanger */
242 bool initiated; /* set when init_dev() called */
243 int label_type; /* Bacula/ANSI/IBM label types */
244 uint32_t drive_index; /* Autochanger drive index (base 0) */
245 POOLMEM *dev_name; /* Physical device name */
246 POOLMEM *prt_name; /* Name used for display purposes */
247 char *errmsg; /* nicely edited error message */
248 uint32_t block_num; /* current block number base 0 */
249 uint32_t LastBlock; /* last DEV_BLOCK number written to Volume */
250 uint32_t file; /* current file number base 0 */
251 uint64_t file_addr; /* Current file read/write address */
252 uint64_t file_size; /* Current file size */
253 uint32_t EndBlock; /* last block written */
254 uint32_t EndFile; /* last file written */
255 uint32_t min_block_size; /* min block size */
256 uint32_t max_block_size; /* max block size */
257 uint32_t max_concurrent_jobs; /* maximum simultaneous jobs this drive */
258 uint64_t max_volume_size; /* max bytes to put on one volume */
259 uint64_t max_file_size; /* max file size to put in one file on volume */
260 uint64_t volume_capacity; /* advisory capacity */
261 uint64_t max_spool_size; /* maximum spool file size */
262 uint64_t spool_size; /* current spool size for this device */
263 uint32_t max_rewind_wait; /* max secs to allow for rewind */
264 uint32_t max_open_wait; /* max secs to allow for open */
265 uint32_t max_open_vols; /* max simultaneous open volumes */
267 uint64_t max_part_size; /* max part size */
268 uint64_t part_size; /* current part size */
269 uint32_t part; /* current part number (starts at 0) */
270 uint64_t part_start; /* current part start address (relative to the whole volume) */
271 uint32_t num_dvd_parts; /* number of parts WRITTEN on the DVD */
272 /* state ST_FREESPACE_OK is set if free_space is valid */
273 uint64_t free_space; /* current free space on medium (without the current part) */
274 int free_space_errno; /* indicates errno getting freespace */
275 bool truncating; /* if set, we are currently truncating the DVD */
276 bool blank_dvd; /* if set, we have a blank DVD in the drive */
279 utime_t vol_poll_interval; /* interval between polling Vol mount */
280 DEVRES *device; /* pointer to Device Resource */
281 VOLRES *vol; /* Pointer to Volume reservation item */
282 btimer_t *tid; /* timer id */
284 VOLUME_CAT_INFO VolCatInfo; /* Volume Catalog Information */
285 VOLUME_LABEL VolHdr; /* Actual volume label */
286 char pool_name[MAX_NAME_LENGTH]; /* pool name */
287 char pool_type[MAX_NAME_LENGTH]; /* pool type */
289 char UnloadVolName[MAX_NAME_LENGTH]; /* Last wrong Volume mounted */
290 bool poll; /* set to poll Volume */
291 /* Device wait times ***FIXME*** look at durations */
299 btime_t last_timer; /* used by read/write/seek to get stats (usec) */
300 btime_t last_tick; /* contains last read/write time (usec) */
303 btime_t DevWriteTime;
304 uint64_t DevWriteBytes;
305 uint64_t DevReadBytes;
308 btime_t get_timer_count(); /* return the last timer interval (ms) */
310 int has_cap(int cap) const { return capabilities & cap; }
311 void clear_cap(int cap) { capabilities &= ~cap; }
312 void set_cap(int cap) { capabilities |= cap; }
313 bool do_checksum() const { return (capabilities & CAP_BLOCKCHECKSUM) != 0; }
314 int is_autochanger() const { return capabilities & CAP_AUTOCHANGER; }
315 int requires_mount() const { return capabilities & CAP_REQMOUNT; }
316 int is_removable() const { return capabilities & CAP_REM; }
317 int is_tape() const { return (dev_type == B_TAPE_DEV ||
318 dev_type == B_VTAPE_DEV); }
319 int is_ftp() const { return dev_type == B_FTP_DEV; }
320 int is_file() const { return dev_type == B_FILE_DEV; }
321 int is_fifo() const { return dev_type == B_FIFO_DEV; }
322 int is_dvd() const { return dev_type == B_DVD_DEV; }
323 int is_vtl() const { return dev_type == B_VTL_DEV; }
324 int is_vtape() const { return dev_type == B_VTAPE_DEV; }
325 int is_open() const { return m_fd >= 0; }
326 int is_offline() const { return state & ST_OFFLINE; }
327 int is_labeled() const { return state & ST_LABEL; }
328 int is_mounted() const { return state & ST_MOUNTED; }
329 int is_unmountable() const { return (is_dvd() || (is_file() && is_removable())); }
330 int num_reserved() const { return m_num_reserved; };
331 int is_part_spooled() const { return state & ST_PART_SPOOLED; }
332 int have_media() const { return state & ST_MEDIA; }
333 int is_short_block() const { return state & ST_SHORT; }
334 int is_busy() const { return (state & ST_READ) || num_writers || num_reserved(); }
335 int at_eof() const { return state & ST_EOF; }
336 int at_eot() const { return state & ST_EOT; }
337 int at_weot() const { return state & ST_WEOT; }
338 int can_append() const { return state & ST_APPEND; }
339 int is_freespace_ok() const { return state & ST_FREESPACE_OK; }
341 * can_write() is meant for checking at the end of a job to see
342 * if we still have a tape (perhaps not if at end of tape
343 * and the job is canceled).
345 int can_write() const { return is_open() && can_append() &&
346 is_labeled() && !at_weot(); }
347 int can_read() const { return state & ST_READ; }
348 bool can_steal_lock() const { return m_blocked &&
349 (m_blocked == BST_UNMOUNTED ||
350 m_blocked == BST_WAITING_FOR_SYSOP ||
351 m_blocked == BST_UNMOUNTED_WAITING_FOR_SYSOP); };
352 bool waiting_for_mount() const { return
353 (m_blocked == BST_UNMOUNTED ||
354 m_blocked == BST_WAITING_FOR_SYSOP ||
355 m_blocked == BST_UNMOUNTED_WAITING_FOR_SYSOP); };
356 bool must_unload() const { return m_unload; };
357 bool must_load() const { return m_load; };
358 const char *strerror() const;
359 const char *archive_name() const;
360 const char *name() const;
361 const char *print_name() const; /* Name for display purposes */
362 void set_ateof(); /* in dev.c */
363 void set_ateot(); /* in dev.c */
364 void set_eot() { state |= ST_EOT; };
365 void set_eof() { state |= ST_EOF; };
366 void set_append() { state |= ST_APPEND; };
367 void set_labeled() { state |= ST_LABEL; };
368 inline void set_read() { state |= ST_READ; };
369 void set_offline() { state |= ST_OFFLINE; };
370 void set_mounted() { state |= ST_MOUNTED; };
371 void set_media() { state |= ST_MEDIA; };
372 void set_short_block() { state |= ST_SHORT; };
373 void set_freespace_ok() { state |= ST_FREESPACE_OK; }
374 void set_part_spooled(int val) { if (val) state |= ST_PART_SPOOLED; \
375 else state &= ~ST_PART_SPOOLED;
377 bool is_volume_to_unload() const { \
378 return m_unload && strcmp(VolHdr.VolumeName, UnloadVolName) == 0; };
379 void set_load() { m_load = true; };
380 void inc_reserved() { m_num_reserved++; }
381 void set_mounted(int val) { if (val) state |= ST_MOUNTED; \
382 else state &= ~ST_MOUNTED; };
383 void dec_reserved() { m_num_reserved--; ASSERT(m_num_reserved>=0); };
384 void clear_append() { state &= ~ST_APPEND; };
385 void clear_read() { state &= ~ST_READ; };
386 void clear_labeled() { state &= ~ST_LABEL; };
387 void clear_offline() { state &= ~ST_OFFLINE; };
388 void clear_eot() { state &= ~ST_EOT; };
389 void clear_eof() { state &= ~ST_EOF; };
390 void clear_opened() { m_fd = -1; };
391 void clear_mounted() { state &= ~ST_MOUNTED; };
392 void clear_media() { state &= ~ST_MEDIA; };
393 void clear_short_block() { state &= ~ST_SHORT; };
394 void clear_freespace_ok() { state &= ~ST_FREESPACE_OK; };
395 void clear_unload() { m_unload = false; UnloadVolName[0] = 0; };
396 void clear_load() { m_load = false; };
397 char *bstrerror(void) { return errmsg; };
398 char *print_errmsg() { return errmsg; };
399 int32_t get_slot() const { return m_slot; };
400 void setVolCatInfo(bool valid) { VolCatInfo.is_valid = valid; };
401 bool haveVolCatInfo() const { return VolCatInfo.is_valid; };
402 void setVolCatName(const char *name) {
403 bstrncpy(VolCatInfo.VolCatName, name, sizeof(VolCatInfo.VolCatName));
404 setVolCatInfo(false);
406 char *getVolCatName() { return VolCatInfo.VolCatName; };
408 void set_unload(); /* in dev.c */
409 void clear_volhdr(); /* in dev.c */
410 void close(); /* in dev.c */
411 void close_part(DCR *dcr); /* in dev.c */
412 int open(DCR *dcr, int mode); /* in dev.c */
413 void term(void); /* in dev.c */
414 ssize_t read(void *buf, size_t len); /* in dev.c */
415 ssize_t write(const void *buf, size_t len); /* in dev.c */
416 bool mount(int timeout); /* in dev.c */
417 bool unmount(int timeout); /* in dev.c */
418 void edit_mount_codes(POOL_MEM &omsg, const char *imsg); /* in dev.c */
419 bool offline_or_rewind(); /* in dev.c */
420 bool offline(); /* in dev.c */
421 bool bsf(int count); /* in dev.c */
422 bool eod(DCR *dcr); /* in dev.c */
423 bool fsr(int num); /* in dev.c */
424 bool fsf(int num); /* in dev.c */
425 bool bsr(int num); /* in dev.c */
426 bool weof(int num); /* in dev.c */
427 void lock_door(); /* in dev.c */
428 void unlock_door(); /* in dev.c */
429 int32_t get_os_tape_file(); /* in dev.c */
430 bool scan_dir_for_volume(DCR *dcr); /* in scan.c */
431 bool reposition(DCR *dcr, uint32_t rfile, uint32_t rblock); /* in dev.c */
432 void clrerror(int func); /* in dev.c */
433 void set_slot(int32_t slot); /* in dev.c */
434 void clear_slot(); /* in dev.c */
437 bool update_freespace(); /* in dvd.c */
439 uint32_t get_file() const { return file; };
440 uint32_t get_block_num() const { return block_num; };
441 int fd() const { return m_fd; };
443 /* low level operations */
444 virtual int d_ioctl(int fd, ioctl_req_t request, char *mt_com);
445 virtual int d_open(const char *pathname, int flags);
446 virtual int d_close(int fd);
447 virtual ssize_t d_read(int fd, void *buffer, size_t count);
448 virtual ssize_t d_write(int fd, const void *buffer, size_t count);
449 virtual boffset_t lseek(DCR *dcr, boffset_t offset, int whence);
450 virtual bool update_pos(DCR *dcr);
451 virtual bool rewind(DCR *dcr);
452 virtual bool truncate(DCR *dcr);
453 virtual void open_device(DCR *dcr, int omode);
455 * Locking and blocking calls
458 void _r_dlock(const char *, int, bool locked=false); /* in lock.c */
459 void _r_dunlock(const char *, int); /* in lock.c */
460 void _dlock(const char *, int); /* in lock.c */
461 void _dunlock(const char *, int); /* in lock.c */
463 void r_dlock(bool locked=false); /* in lock.c */
464 void r_dunlock() { dunlock(); }
465 void dlock() { P(m_mutex); }
466 void dunlock() { V(m_mutex); }
468 void dblock(int why); /* in lock.c */
469 void dunblock(bool locked=false); /* in lock.c */
470 bool is_device_unmounted(); /* in lock.c */
471 void set_blocked(int block) { m_blocked = block; };
472 int blocked() const { return m_blocked; };
473 bool is_blocked() const { return m_blocked != BST_NOT_BLOCKED; };
474 const char *print_blocked() const; /* in dev.c */
477 bool do_tape_mount(int mount, int dotimeout); /* in dev.c */
478 bool do_file_mount(int mount, int dotimeout); /* in dev.c */
479 void set_mode(int omode); /* in dev.c */
480 void open_tape_device(DCR *dcr, int omode); /* in dev.c */
481 void open_file_device(DCR *dcr, int omode); /* in dev.c */
484 inline const char *DEVICE::strerror() const { return errmsg; }
485 inline const char *DEVICE::archive_name() const { return dev_name; }
486 inline const char *DEVICE::print_name() const { return prt_name; }
489 * Device Context (or Control) Record.
490 * There is one of these records for each Job that is using
491 * the device. Items in this record are "local" to the Job and
492 * do not affect other Jobs. Note, a job can have multiple
493 * DCRs open, each pointing to a different device.
494 * Normally, there is only one JCR thread per DCR. However, the
495 * big and important exception to this is when a Job is being
496 * canceled. At that time, there may be two threads using the
497 * same DCR. Consequently, when creating/attaching/detaching
498 * and freeing the DCR we must lock it (m_mutex).
502 bool m_dev_locked; /* set if dev already locked */
503 bool m_reserved; /* set if reserved device */
504 bool m_found_in_use; /* set if a volume found in use */
507 dlink dev_link; /* link to attach to dev */
508 JCR *jcr; /* pointer to JCR */
509 bthread_mutex_t m_mutex; /* access control */
510 DEVICE * volatile dev; /* pointer to device */
511 DEVRES *device; /* pointer to device resource */
512 DEV_BLOCK *block; /* pointer to block */
513 DEV_RECORD *rec; /* pointer to record */
514 pthread_t tid; /* Thread running this dcr */
515 int spool_fd; /* fd if spooling */
516 bool spool_data; /* set to spool data */
517 bool spooling; /* set when actually spooling */
518 bool despooling; /* set when despooling */
519 bool despool_wait; /* waiting for despooling */
520 bool NewVol; /* set if new Volume mounted */
521 bool WroteVol; /* set if Volume written */
522 bool NewFile; /* set when EOF written */
523 bool reserved_volume; /* set if we reserved a volume */
524 bool any_volume; /* Any OK for dir_find_next... */
525 bool attached_to_dev; /* set when attached to dev */
526 bool keep_dcr; /* do not free dcr in release_dcr */
527 uint32_t VolFirstIndex; /* First file index this Volume */
528 uint32_t VolLastIndex; /* Last file index this Volume */
529 uint32_t FileIndex; /* Current File Index */
530 uint32_t EndFile; /* End file written */
531 uint32_t StartFile; /* Start write file */
532 uint32_t StartBlock; /* Start write block */
533 uint32_t EndBlock; /* Ending block written */
534 int64_t VolMediaId; /* MediaId */
535 int64_t job_spool_size; /* Current job spool size */
536 int64_t max_job_spool_size; /* Max job spool size */
537 char VolumeName[MAX_NAME_LENGTH]; /* Volume name */
538 char pool_name[MAX_NAME_LENGTH]; /* pool name */
539 char pool_type[MAX_NAME_LENGTH]; /* pool type */
540 char media_type[MAX_NAME_LENGTH]; /* media type */
541 char dev_name[MAX_NAME_LENGTH]; /* dev name */
542 int Copy; /* identical copy number */
543 int Stripe; /* RAIT stripe */
544 VOLUME_CAT_INFO VolCatInfo; /* Catalog info for desired volume */
547 bool found_in_use() const { return m_found_in_use; };
548 void set_found_in_use() { m_found_in_use = true; };
549 void clear_found_in_use() { m_found_in_use = false; };
550 bool is_reserved() const { return m_reserved; };
551 bool is_dev_locked() { return m_dev_locked; }
553 void _dlock(const char *, int); /* in lock.c */
554 void _dunlock(const char *, int); /* in lock.c */
556 void dlock() { dev->dlock(); m_dev_locked = true; }
557 void dunlock() { m_dev_locked = false; dev->dunlock(); }
559 void dblock(int why) { dev->dblock(why); }
560 void setVolCatInfo(bool valid) { VolCatInfo.is_valid = valid; };
561 bool haveVolCatInfo() const { return VolCatInfo.is_valid; };
562 void setVolCatName(const char *name) {
563 bstrncpy(VolCatInfo.VolCatName, name, sizeof(VolCatInfo.VolCatName));
564 setVolCatInfo(false);
566 char *getVolCatName() { return VolCatInfo.VolCatName; };
569 /* Methods in reserve.c */
570 void clear_reserved();
572 void unreserve_device();
574 /* Methods in vol_mgr.c */
575 bool can_i_use_volume();
576 bool can_i_write_volume();
578 /* Methods in mount.c */
579 bool mount_next_write_volume();
580 bool mount_next_read_volume();
581 void mark_volume_in_error();
582 void mark_volume_not_inchanger();
583 int try_autolabel(bool opened);
584 bool find_a_volume();
585 bool is_suitable_volume_mounted();
587 int check_volume_label(bool &ask, bool &autochanger);
588 void release_volume();
589 void do_swapping(bool is_writing);
591 bool do_load(bool is_writing);
592 bool is_tape_position_ok();
596 * Volume reservation class -- see reserve.c
599 bool m_swapping; /* set when swapping to another drive */
600 bool m_in_use; /* set when volume reserved or in use */
601 int32_t m_slot; /* slot of swapping volume */
602 uint32_t m_JobId; /* JobId for read volumes */
605 char *vol_name; /* Volume name */
606 DEVICE *dev; /* Pointer to device to which we are attached */
608 bool is_swapping() const { return m_swapping; };
609 void set_swapping() { m_swapping = true; };
610 void clear_swapping() { m_swapping = false; };
611 bool is_in_use() const { return m_in_use; };
612 void set_in_use() { m_in_use = true; };
613 void clear_in_use() { m_in_use = false; };
614 void set_slot(int32_t slot) { m_slot = slot; };
615 void clear_slot() { m_slot = -1; };
616 int32_t get_slot() const { return m_slot; };
617 uint32_t get_jobid() const { return m_JobId; };
618 void set_jobid(uint32_t JobId) { m_JobId = JobId; };
622 /* Get some definition of function to position
623 * to the end of the medium in MTEOM. System
624 * dependent. Arrgggg!