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1 | /* | |
2 | * mdadm - manage Linux "md" devices aka RAID arrays. | |
3 | * | |
4 | * Copyright (C) 2006-2007 Neil Brown <neilb@suse.de> | |
5 | * | |
6 | * | |
7 | * This program is free software; you can redistribute it and/or modify | |
8 | * it under the terms of the GNU General Public License as published by | |
9 | * the Free Software Foundation; either version 2 of the License, or | |
10 | * (at your option) any later version. | |
11 | * | |
12 | * This program is distributed in the hope that it will be useful, | |
13 | * but WITHOUT ANY WARRANTY; without even the implied warranty of | |
14 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
15 | * GNU General Public License for more details. | |
16 | * | |
17 | * You should have received a copy of the GNU General Public License | |
18 | * along with this program; if not, write to the Free Software | |
19 | * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA | |
20 | * | |
21 | * Author: Neil Brown | |
22 | * Email: <neil@brown.name> | |
23 | * | |
24 | * Specifications for DDF takes from Common RAID DDF Specification Revision 1.2 | |
25 | * (July 28 2006). Reused by permission of SNIA. | |
26 | */ | |
27 | ||
28 | #define HAVE_STDINT_H 1 | |
29 | #include "mdadm.h" | |
30 | #include "sha1.h" | |
31 | #include <values.h> | |
32 | ||
33 | static inline int ROUND_UP(int a, int base) | |
34 | { | |
35 | return ((a+base-1)/base)*base; | |
36 | } | |
37 | ||
38 | /* a non-official T10 name for creation GUIDs */ | |
39 | static char T10[] = "Linux-MD"; | |
40 | ||
41 | /* DDF timestamps are 1980 based, so we need to add | |
42 | * second-in-decade-of-seventies to convert to linux timestamps. | |
43 | * 10 years with 2 leap years. | |
44 | */ | |
45 | #define DECADE (3600*24*(365*10+2)) | |
46 | unsigned long crc32( | |
47 | unsigned long crc, | |
48 | const unsigned char *buf, | |
49 | unsigned len); | |
50 | ||
51 | /* The DDF metadata handling. | |
52 | * DDF metadata lives at the end of the device. | |
53 | * The last 512 byte block provides an 'anchor' which is used to locate | |
54 | * the rest of the metadata which usually lives immediately behind the anchor. | |
55 | * | |
56 | * Note: | |
57 | * - all multibyte numeric fields are bigendian. | |
58 | * - all strings are space padded. | |
59 | * | |
60 | */ | |
61 | ||
62 | /* Primary Raid Level (PRL) */ | |
63 | #define DDF_RAID0 0x00 | |
64 | #define DDF_RAID1 0x01 | |
65 | #define DDF_RAID3 0x03 | |
66 | #define DDF_RAID4 0x04 | |
67 | #define DDF_RAID5 0x05 | |
68 | #define DDF_RAID1E 0x11 | |
69 | #define DDF_JBOD 0x0f | |
70 | #define DDF_CONCAT 0x1f | |
71 | #define DDF_RAID5E 0x15 | |
72 | #define DDF_RAID5EE 0x25 | |
73 | #define DDF_RAID6 0x16 /* Vendor unique layout */ | |
74 | ||
75 | /* Raid Level Qualifier (RLQ) */ | |
76 | #define DDF_RAID0_SIMPLE 0x00 | |
77 | #define DDF_RAID1_SIMPLE 0x00 /* just 2 devices in this plex */ | |
78 | #define DDF_RAID1_MULTI 0x01 /* exactly 3 devices in this plex */ | |
79 | #define DDF_RAID3_0 0x00 /* parity in first extent */ | |
80 | #define DDF_RAID3_N 0x01 /* parity in last extent */ | |
81 | #define DDF_RAID4_0 0x00 /* parity in first extent */ | |
82 | #define DDF_RAID4_N 0x01 /* parity in last extent */ | |
83 | /* these apply to raid5e and raid5ee as well */ | |
84 | #define DDF_RAID5_0_RESTART 0x00 /* same as 'right asymmetric' - layout 1 */ | |
85 | #define DDF_RAID5_N_RESTART 0x02 /* same as 'left asymmetric' - layout 0 */ | |
86 | #define DDF_RAID5_N_CONTINUE 0x03 /* same as 'left symmetric' - layout 2 */ | |
87 | ||
88 | #define DDF_RAID1E_ADJACENT 0x00 /* raid10 nearcopies==2 */ | |
89 | #define DDF_RAID1E_OFFSET 0x01 /* raid10 offsetcopies==2 */ | |
90 | ||
91 | /* Secondary RAID Level (SRL) */ | |
92 | #define DDF_2STRIPED 0x00 /* This is weirder than RAID0 !! */ | |
93 | #define DDF_2MIRRORED 0x01 | |
94 | #define DDF_2CONCAT 0x02 | |
95 | #define DDF_2SPANNED 0x03 /* This is also weird - be careful */ | |
96 | ||
97 | /* Magic numbers */ | |
98 | #define DDF_HEADER_MAGIC __cpu_to_be32(0xDE11DE11) | |
99 | #define DDF_CONTROLLER_MAGIC __cpu_to_be32(0xAD111111) | |
100 | #define DDF_PHYS_RECORDS_MAGIC __cpu_to_be32(0x22222222) | |
101 | #define DDF_PHYS_DATA_MAGIC __cpu_to_be32(0x33333333) | |
102 | #define DDF_VIRT_RECORDS_MAGIC __cpu_to_be32(0xDDDDDDDD) | |
103 | #define DDF_VD_CONF_MAGIC __cpu_to_be32(0xEEEEEEEE) | |
104 | #define DDF_SPARE_ASSIGN_MAGIC __cpu_to_be32(0x55555555) | |
105 | #define DDF_VU_CONF_MAGIC __cpu_to_be32(0x88888888) | |
106 | #define DDF_VENDOR_LOG_MAGIC __cpu_to_be32(0x01dBEEF0) | |
107 | #define DDF_BBM_LOG_MAGIC __cpu_to_be32(0xABADB10C) | |
108 | ||
109 | #define DDF_GUID_LEN 24 | |
110 | #define DDF_REVISION "01.00.00" | |
111 | ||
112 | struct ddf_header { | |
113 | __u32 magic; | |
114 | __u32 crc; | |
115 | char guid[DDF_GUID_LEN]; | |
116 | char revision[8]; /* 01.00.00 */ | |
117 | __u32 seq; /* starts at '1' */ | |
118 | __u32 timestamp; | |
119 | __u8 openflag; | |
120 | __u8 foreignflag; | |
121 | __u8 enforcegroups; | |
122 | __u8 pad0; /* 0xff */ | |
123 | __u8 pad1[12]; /* 12 * 0xff */ | |
124 | /* 64 bytes so far */ | |
125 | __u8 header_ext[32]; /* reserved: fill with 0xff */ | |
126 | __u64 primary_lba; | |
127 | __u64 secondary_lba; | |
128 | __u8 type; | |
129 | __u8 pad2[3]; /* 0xff */ | |
130 | __u32 workspace_len; /* sectors for vendor space - | |
131 | * at least 32768(sectors) */ | |
132 | __u64 workspace_lba; | |
133 | __u16 max_pd_entries; /* one of 15, 63, 255, 1023, 4095 */ | |
134 | __u16 max_vd_entries; /* 2^(4,6,8,10,12)-1 : i.e. as above */ | |
135 | __u16 max_partitions; /* i.e. max num of configuration | |
136 | record entries per disk */ | |
137 | __u16 config_record_len; /* 1 +ROUNDUP(max_primary_element_entries | |
138 | *12/512) */ | |
139 | __u16 max_primary_element_entries; /* 16, 64, 256, 1024, or 4096 */ | |
140 | __u8 pad3[54]; /* 0xff */ | |
141 | /* 192 bytes so far */ | |
142 | __u32 controller_section_offset; | |
143 | __u32 controller_section_length; | |
144 | __u32 phys_section_offset; | |
145 | __u32 phys_section_length; | |
146 | __u32 virt_section_offset; | |
147 | __u32 virt_section_length; | |
148 | __u32 config_section_offset; | |
149 | __u32 config_section_length; | |
150 | __u32 data_section_offset; | |
151 | __u32 data_section_length; | |
152 | __u32 bbm_section_offset; | |
153 | __u32 bbm_section_length; | |
154 | __u32 diag_space_offset; | |
155 | __u32 diag_space_length; | |
156 | __u32 vendor_offset; | |
157 | __u32 vendor_length; | |
158 | /* 256 bytes so far */ | |
159 | __u8 pad4[256]; /* 0xff */ | |
160 | }; | |
161 | ||
162 | /* type field */ | |
163 | #define DDF_HEADER_ANCHOR 0x00 | |
164 | #define DDF_HEADER_PRIMARY 0x01 | |
165 | #define DDF_HEADER_SECONDARY 0x02 | |
166 | ||
167 | /* The content of the 'controller section' - global scope */ | |
168 | struct ddf_controller_data { | |
169 | __u32 magic; | |
170 | __u32 crc; | |
171 | char guid[DDF_GUID_LEN]; | |
172 | struct controller_type { | |
173 | __u16 vendor_id; | |
174 | __u16 device_id; | |
175 | __u16 sub_vendor_id; | |
176 | __u16 sub_device_id; | |
177 | } type; | |
178 | char product_id[16]; | |
179 | __u8 pad[8]; /* 0xff */ | |
180 | __u8 vendor_data[448]; | |
181 | }; | |
182 | ||
183 | /* The content of phys_section - global scope */ | |
184 | struct phys_disk { | |
185 | __u32 magic; | |
186 | __u32 crc; | |
187 | __u16 used_pdes; | |
188 | __u16 max_pdes; | |
189 | __u8 pad[52]; | |
190 | struct phys_disk_entry { | |
191 | char guid[DDF_GUID_LEN]; | |
192 | __u32 refnum; | |
193 | __u16 type; | |
194 | __u16 state; | |
195 | __u64 config_size; /* DDF structures must be after here */ | |
196 | char path[18]; /* another horrible structure really */ | |
197 | __u8 pad[6]; | |
198 | } entries[0]; | |
199 | }; | |
200 | ||
201 | /* phys_disk_entry.type is a bitmap - bigendian remember */ | |
202 | #define DDF_Forced_PD_GUID 1 | |
203 | #define DDF_Active_in_VD 2 | |
204 | #define DDF_Global_Spare 4 | |
205 | #define DDF_Spare 8 /* overrides Global_spare */ | |
206 | #define DDF_Foreign 16 | |
207 | #define DDF_Legacy 32 /* no DDF on this device */ | |
208 | ||
209 | #define DDF_Interface_mask 0xf00 | |
210 | #define DDF_Interface_SCSI 0x100 | |
211 | #define DDF_Interface_SAS 0x200 | |
212 | #define DDF_Interface_SATA 0x300 | |
213 | #define DDF_Interface_FC 0x400 | |
214 | ||
215 | /* phys_disk_entry.state is a bigendian bitmap */ | |
216 | #define DDF_Online 1 | |
217 | #define DDF_Failed 2 /* overrides 1,4,8 */ | |
218 | #define DDF_Rebuilding 4 | |
219 | #define DDF_Transition 8 | |
220 | #define DDF_SMART 16 | |
221 | #define DDF_ReadErrors 32 | |
222 | #define DDF_Missing 64 | |
223 | ||
224 | /* The content of the virt_section global scope */ | |
225 | struct virtual_disk { | |
226 | __u32 magic; | |
227 | __u32 crc; | |
228 | __u16 populated_vdes; | |
229 | __u16 max_vdes; | |
230 | __u8 pad[52]; | |
231 | struct virtual_entry { | |
232 | char guid[DDF_GUID_LEN]; | |
233 | __u16 unit; | |
234 | __u16 pad0; /* 0xffff */ | |
235 | __u16 guid_crc; | |
236 | __u16 type; | |
237 | __u8 state; | |
238 | __u8 init_state; | |
239 | __u8 pad1[14]; | |
240 | char name[16]; | |
241 | } entries[0]; | |
242 | }; | |
243 | ||
244 | /* virtual_entry.type is a bitmap - bigendian */ | |
245 | #define DDF_Shared 1 | |
246 | #define DDF_Enforce_Groups 2 | |
247 | #define DDF_Unicode 4 | |
248 | #define DDF_Owner_Valid 8 | |
249 | ||
250 | /* virtual_entry.state is a bigendian bitmap */ | |
251 | #define DDF_state_mask 0x7 | |
252 | #define DDF_state_optimal 0x0 | |
253 | #define DDF_state_degraded 0x1 | |
254 | #define DDF_state_deleted 0x2 | |
255 | #define DDF_state_missing 0x3 | |
256 | #define DDF_state_failed 0x4 | |
257 | ||
258 | #define DDF_state_morphing 0x8 | |
259 | #define DDF_state_inconsistent 0x10 | |
260 | ||
261 | /* virtual_entry.init_state is a bigendian bitmap */ | |
262 | #define DDF_initstate_mask 0x03 | |
263 | #define DDF_init_not 0x00 | |
264 | #define DDF_init_quick 0x01 | |
265 | #define DDF_init_full 0x02 | |
266 | ||
267 | #define DDF_access_mask 0xc0 | |
268 | #define DDF_access_rw 0x00 | |
269 | #define DDF_access_ro 0x80 | |
270 | #define DDF_access_blocked 0xc0 | |
271 | ||
272 | /* The content of the config_section - local scope | |
273 | * It has multiple records each config_record_len sectors | |
274 | * They can be vd_config or spare_assign | |
275 | */ | |
276 | ||
277 | struct vd_config { | |
278 | __u32 magic; | |
279 | __u32 crc; | |
280 | char guid[DDF_GUID_LEN]; | |
281 | __u32 timestamp; | |
282 | __u32 seqnum; | |
283 | __u8 pad0[24]; | |
284 | __u16 prim_elmnt_count; | |
285 | __u8 chunk_shift; /* 0 == 512, 1==1024 etc */ | |
286 | __u8 prl; | |
287 | __u8 rlq; | |
288 | __u8 sec_elmnt_count; | |
289 | __u8 sec_elmnt_seq; | |
290 | __u8 srl; | |
291 | __u64 blocks; | |
292 | __u64 array_blocks; | |
293 | __u8 pad1[8]; | |
294 | __u32 spare_refs[8]; | |
295 | __u8 cache_pol[8]; | |
296 | __u8 bg_rate; | |
297 | __u8 pad2[3]; | |
298 | __u8 pad3[52]; | |
299 | __u8 pad4[192]; | |
300 | __u8 v0[32]; /* reserved- 0xff */ | |
301 | __u8 v1[32]; /* reserved- 0xff */ | |
302 | __u8 v2[16]; /* reserved- 0xff */ | |
303 | __u8 v3[16]; /* reserved- 0xff */ | |
304 | __u8 vendor[32]; | |
305 | __u32 phys_refnum[0]; /* refnum of each disk in sequence */ | |
306 | /*__u64 lba_offset[0]; LBA offset in each phys. Note extents in a | |
307 | bvd are always the same size */ | |
308 | }; | |
309 | ||
310 | /* vd_config.cache_pol[7] is a bitmap */ | |
311 | #define DDF_cache_writeback 1 /* else writethrough */ | |
312 | #define DDF_cache_wadaptive 2 /* only applies if writeback */ | |
313 | #define DDF_cache_readahead 4 | |
314 | #define DDF_cache_radaptive 8 /* only if doing read-ahead */ | |
315 | #define DDF_cache_ifnobatt 16 /* even to write cache if battery is poor */ | |
316 | #define DDF_cache_wallowed 32 /* enable write caching */ | |
317 | #define DDF_cache_rallowed 64 /* enable read caching */ | |
318 | ||
319 | struct spare_assign { | |
320 | __u32 magic; | |
321 | __u32 crc; | |
322 | __u32 timestamp; | |
323 | __u8 reserved[7]; | |
324 | __u8 type; | |
325 | __u16 populated; /* SAEs used */ | |
326 | __u16 max; /* max SAEs */ | |
327 | __u8 pad[8]; | |
328 | struct spare_assign_entry { | |
329 | char guid[DDF_GUID_LEN]; | |
330 | __u16 secondary_element; | |
331 | __u8 pad[6]; | |
332 | } spare_ents[0]; | |
333 | }; | |
334 | /* spare_assign.type is a bitmap */ | |
335 | #define DDF_spare_dedicated 0x1 /* else global */ | |
336 | #define DDF_spare_revertible 0x2 /* else committable */ | |
337 | #define DDF_spare_active 0x4 /* else not active */ | |
338 | #define DDF_spare_affinity 0x8 /* enclosure affinity */ | |
339 | ||
340 | /* The data_section contents - local scope */ | |
341 | struct disk_data { | |
342 | __u32 magic; | |
343 | __u32 crc; | |
344 | char guid[DDF_GUID_LEN]; | |
345 | __u32 refnum; /* crc of some magic drive data ... */ | |
346 | __u8 forced_ref; /* set when above was not result of magic */ | |
347 | __u8 forced_guid; /* set if guid was forced rather than magic */ | |
348 | __u8 vendor[32]; | |
349 | __u8 pad[442]; | |
350 | }; | |
351 | ||
352 | /* bbm_section content */ | |
353 | struct bad_block_log { | |
354 | __u32 magic; | |
355 | __u32 crc; | |
356 | __u16 entry_count; | |
357 | __u32 spare_count; | |
358 | __u8 pad[10]; | |
359 | __u64 first_spare; | |
360 | struct mapped_block { | |
361 | __u64 defective_start; | |
362 | __u32 replacement_start; | |
363 | __u16 remap_count; | |
364 | __u8 pad[2]; | |
365 | } entries[0]; | |
366 | }; | |
367 | ||
368 | /* Struct for internally holding ddf structures */ | |
369 | /* The DDF structure stored on each device is potentially | |
370 | * quite different, as some data is global and some is local. | |
371 | * The global data is: | |
372 | * - ddf header | |
373 | * - controller_data | |
374 | * - Physical disk records | |
375 | * - Virtual disk records | |
376 | * The local data is: | |
377 | * - Configuration records | |
378 | * - Physical Disk data section | |
379 | * ( and Bad block and vendor which I don't care about yet). | |
380 | * | |
381 | * The local data is parsed into separate lists as it is read | |
382 | * and reconstructed for writing. This means that we only need | |
383 | * to make config changes once and they are automatically | |
384 | * propagated to all devices. | |
385 | * Note that the ddf_super has space of the conf and disk data | |
386 | * for this disk and also for a list of all such data. | |
387 | * The list is only used for the superblock that is being | |
388 | * built in Create or Assemble to describe the whole array. | |
389 | */ | |
390 | struct ddf_super { | |
391 | struct ddf_header anchor, primary, secondary, *active; | |
392 | struct ddf_controller_data controller; | |
393 | struct phys_disk *phys; | |
394 | struct virtual_disk *virt; | |
395 | int pdsize, vdsize; | |
396 | int max_part; | |
397 | struct vcl { | |
398 | struct vcl *next; | |
399 | __u64 *lba_offset; /* location in 'conf' of | |
400 | * the lba table */ | |
401 | struct vd_config conf; | |
402 | } *conflist, *newconf; | |
403 | struct dl { | |
404 | struct dl *next; | |
405 | struct disk_data disk; | |
406 | int major, minor; | |
407 | char *devname; | |
408 | int fd; | |
409 | struct vcl *vlist[0]; /* max_part+1 in size */ | |
410 | } *dlist; | |
411 | }; | |
412 | ||
413 | #ifndef offsetof | |
414 | #define offsetof(t,f) ((size_t)&(((t*)0)->f)) | |
415 | #endif | |
416 | ||
417 | struct superswitch super_ddf_container, super_ddf_bvd; | |
418 | ||
419 | static int calc_crc(void *buf, int len) | |
420 | { | |
421 | /* crcs are always at the same place as in the ddf_header */ | |
422 | struct ddf_header *ddf = buf; | |
423 | __u32 oldcrc = ddf->crc; | |
424 | __u32 newcrc; | |
425 | ddf->crc = 0xffffffff; | |
426 | ||
427 | newcrc = crc32(0, buf, len); | |
428 | ddf->crc = oldcrc; | |
429 | return newcrc; | |
430 | } | |
431 | ||
432 | static int load_ddf_header(int fd, unsigned long long lba, | |
433 | unsigned long long size, | |
434 | int type, | |
435 | struct ddf_header *hdr, struct ddf_header *anchor) | |
436 | { | |
437 | /* read a ddf header (primary or secondary) from fd/lba | |
438 | * and check that it is consistent with anchor | |
439 | * Need to check: | |
440 | * magic, crc, guid, rev, and LBA's header_type, and | |
441 | * everything after header_type must be the same | |
442 | */ | |
443 | if (lba >= size-1) | |
444 | return 0; | |
445 | ||
446 | if (lseek64(fd, lba<<9, 0) < 0) | |
447 | return 0; | |
448 | ||
449 | if (read(fd, hdr, 512) != 512) | |
450 | return 0; | |
451 | ||
452 | if (hdr->magic != DDF_HEADER_MAGIC) | |
453 | return 0; | |
454 | if (calc_crc(hdr, 512) != hdr->crc) | |
455 | return 0; | |
456 | if (memcmp(anchor->guid, hdr->guid, DDF_GUID_LEN) != 0 || | |
457 | memcmp(anchor->revision, hdr->revision, 8) != 0 || | |
458 | anchor->primary_lba != hdr->primary_lba || | |
459 | anchor->secondary_lba != hdr->secondary_lba || | |
460 | hdr->type != type || | |
461 | memcmp(anchor->pad2, hdr->pad2, 512 - | |
462 | offsetof(struct ddf_header, pad2)) != 0) | |
463 | return 0; | |
464 | ||
465 | /* Looks good enough to me... */ | |
466 | return 1; | |
467 | } | |
468 | ||
469 | static void *load_section(int fd, struct ddf_super *super, void *buf, | |
470 | __u32 offset_be, __u32 len_be, int check) | |
471 | { | |
472 | unsigned long long offset = __be32_to_cpu(offset_be); | |
473 | unsigned long long len = __be32_to_cpu(len_be); | |
474 | int dofree = (buf == NULL); | |
475 | ||
476 | if (check) | |
477 | if (len != 2 && len != 8 && len != 32 | |
478 | && len != 128 && len != 512) | |
479 | return NULL; | |
480 | ||
481 | if (len > 1024) | |
482 | return NULL; | |
483 | if (buf) { | |
484 | /* All pre-allocated sections are a single block */ | |
485 | if (len != 1) | |
486 | return NULL; | |
487 | } else | |
488 | buf = malloc(len<<9); | |
489 | if (!buf) | |
490 | return NULL; | |
491 | ||
492 | if (super->active->type == 1) | |
493 | offset += __be64_to_cpu(super->active->primary_lba); | |
494 | else | |
495 | offset += __be64_to_cpu(super->active->secondary_lba); | |
496 | ||
497 | if (lseek64(fd, offset<<9, 0) != (offset<<9)) { | |
498 | if (dofree) | |
499 | free(buf); | |
500 | return NULL; | |
501 | } | |
502 | if (read(fd, buf, len<<9) != (len<<9)) { | |
503 | if (dofree) | |
504 | free(buf); | |
505 | return NULL; | |
506 | } | |
507 | return buf; | |
508 | } | |
509 | ||
510 | static int load_ddf_headers(int fd, struct ddf_super *super, char *devname) | |
511 | { | |
512 | unsigned long long dsize; | |
513 | ||
514 | get_dev_size(fd, NULL, &dsize); | |
515 | ||
516 | if (lseek64(fd, dsize-512, 0) < 0) { | |
517 | if (devname) | |
518 | fprintf(stderr, | |
519 | Name": Cannot seek to anchor block on %s: %s\n", | |
520 | devname, strerror(errno)); | |
521 | return 1; | |
522 | } | |
523 | if (read(fd, &super->anchor, 512) != 512) { | |
524 | if (devname) | |
525 | fprintf(stderr, | |
526 | Name ": Cannot read anchor block on %s: %s\n", | |
527 | devname, strerror(errno)); | |
528 | return 1; | |
529 | } | |
530 | if (super->anchor.magic != DDF_HEADER_MAGIC) { | |
531 | if (devname) | |
532 | fprintf(stderr, Name ": no DDF anchor found on %s\n", | |
533 | devname); | |
534 | return 2; | |
535 | } | |
536 | if (calc_crc(&super->anchor, 512) != super->anchor.crc) { | |
537 | if (devname) | |
538 | fprintf(stderr, Name ": bad CRC on anchor on %s\n", | |
539 | devname); | |
540 | return 2; | |
541 | } | |
542 | if (memcmp(super->anchor.revision, DDF_REVISION, 8) != 0) { | |
543 | if (devname) | |
544 | fprintf(stderr, Name ": can only support super revision" | |
545 | " %.8s, not %.8s on %s\n", | |
546 | DDF_REVISION, super->anchor.revision, devname); | |
547 | return 2; | |
548 | } | |
549 | if (load_ddf_header(fd, __be64_to_cpu(super->anchor.primary_lba), | |
550 | dsize >> 9, 1, | |
551 | &super->primary, &super->anchor) == 0) { | |
552 | if (devname) | |
553 | fprintf(stderr, | |
554 | Name ": Failed to load primary DDF header " | |
555 | "on %s\n", devname); | |
556 | return 2; | |
557 | } | |
558 | super->active = &super->primary; | |
559 | if (load_ddf_header(fd, __be64_to_cpu(super->anchor.secondary_lba), | |
560 | dsize >> 9, 2, | |
561 | &super->secondary, &super->anchor)) { | |
562 | if ((__be32_to_cpu(super->primary.seq) | |
563 | < __be32_to_cpu(super->secondary.seq) && | |
564 | !super->secondary.openflag) | |
565 | || (__be32_to_cpu(super->primary.seq) | |
566 | == __be32_to_cpu(super->secondary.seq) && | |
567 | super->primary.openflag && !super->secondary.openflag) | |
568 | ) | |
569 | super->active = &super->secondary; | |
570 | } | |
571 | return 0; | |
572 | } | |
573 | ||
574 | static int load_ddf_global(int fd, struct ddf_super *super, char *devname) | |
575 | { | |
576 | void *ok; | |
577 | ok = load_section(fd, super, &super->controller, | |
578 | super->active->controller_section_offset, | |
579 | super->active->controller_section_length, | |
580 | 0); | |
581 | super->phys = load_section(fd, super, NULL, | |
582 | super->active->phys_section_offset, | |
583 | super->active->phys_section_length, | |
584 | 1); | |
585 | super->pdsize = __be32_to_cpu(super->active->phys_section_length) * 512; | |
586 | ||
587 | super->virt = load_section(fd, super, NULL, | |
588 | super->active->virt_section_offset, | |
589 | super->active->virt_section_length, | |
590 | 1); | |
591 | super->vdsize = __be32_to_cpu(super->active->virt_section_length) * 512; | |
592 | if (!ok || | |
593 | !super->phys || | |
594 | !super->virt) { | |
595 | free(super->phys); | |
596 | free(super->virt); | |
597 | return 2; | |
598 | } | |
599 | super->conflist = NULL; | |
600 | super->dlist = NULL; | |
601 | return 0; | |
602 | } | |
603 | ||
604 | static int load_ddf_local(int fd, struct ddf_super *super, | |
605 | char *devname, int keep) | |
606 | { | |
607 | struct dl *dl; | |
608 | struct stat stb; | |
609 | char *conf; | |
610 | int i; | |
611 | int conflen; | |
612 | ||
613 | /* First the local disk info */ | |
614 | super->max_part = __be16_to_cpu(super->active->max_partitions); | |
615 | dl = malloc(sizeof(*dl) + | |
616 | (super->max_part+1) * sizeof(dl->vlist[0])); | |
617 | ||
618 | load_section(fd, super, &dl->disk, | |
619 | super->active->data_section_offset, | |
620 | super->active->data_section_length, | |
621 | 0); | |
622 | dl->devname = devname ? strdup(devname) : NULL; | |
623 | fstat(fd, &stb); | |
624 | dl->major = major(stb.st_rdev); | |
625 | dl->minor = minor(stb.st_rdev); | |
626 | dl->next = super->dlist; | |
627 | dl->fd = keep ? fd : -1; | |
628 | for (i=0 ; i < super->max_part + 1 ; i++) | |
629 | dl->vlist[i] = NULL; | |
630 | super->dlist = dl; | |
631 | ||
632 | /* Now the config list. */ | |
633 | /* 'conf' is an array of config entries, some of which are | |
634 | * probably invalid. Those which are good need to be copied into | |
635 | * the conflist | |
636 | */ | |
637 | conflen = __be16_to_cpu(super->active->config_record_len); | |
638 | ||
639 | conf = load_section(fd, super, NULL, | |
640 | super->active->config_section_offset, | |
641 | super->active->config_section_length, | |
642 | 0); | |
643 | ||
644 | for (i = 0; | |
645 | i < __be32_to_cpu(super->active->config_section_length); | |
646 | i += conflen) { | |
647 | struct vd_config *vd = | |
648 | (struct vd_config *)((char*)conf + i*512); | |
649 | struct vcl *vcl; | |
650 | ||
651 | if (vd->magic != DDF_VD_CONF_MAGIC) | |
652 | continue; | |
653 | for (vcl = super->conflist; vcl; vcl = vcl->next) { | |
654 | if (memcmp(vcl->conf.guid, | |
655 | vd->guid, DDF_GUID_LEN) == 0) | |
656 | break; | |
657 | } | |
658 | ||
659 | if (vcl) { | |
660 | dl->vlist[i/conflen] = vcl; | |
661 | if (__be32_to_cpu(vd->seqnum) <= | |
662 | __be32_to_cpu(vcl->conf.seqnum)) | |
663 | continue; | |
664 | } else { | |
665 | vcl = malloc(conflen*512 + offsetof(struct vcl, conf)); | |
666 | vcl->next = super->conflist; | |
667 | super->conflist = vcl; | |
668 | } | |
669 | memcpy(&vcl->conf, vd, conflen*512); | |
670 | vcl->lba_offset = (__u64*) | |
671 | &vcl->conf.phys_refnum[super->max_part+1]; | |
672 | dl->vlist[i/conflen] = vcl; | |
673 | } | |
674 | free(conf); | |
675 | ||
676 | return 0; | |
677 | } | |
678 | ||
679 | #ifndef MDASSEMBLE | |
680 | static int load_super_ddf_all(struct supertype *st, int fd, | |
681 | void **sbp, char *devname, int keep_fd); | |
682 | #endif | |
683 | static int load_super_ddf(struct supertype *st, int fd, | |
684 | char *devname) | |
685 | { | |
686 | unsigned long long dsize; | |
687 | struct ddf_super *super; | |
688 | int rv; | |
689 | ||
690 | #ifndef MDASSEMBLE | |
691 | if (load_super_ddf_all(st, fd, &st->sb, devname, 0) == 0) | |
692 | return 0; | |
693 | #endif | |
694 | ||
695 | if (get_dev_size(fd, devname, &dsize) == 0) | |
696 | return 1; | |
697 | ||
698 | /* 32M is a lower bound */ | |
699 | if (dsize <= 32*1024*1024) { | |
700 | if (devname) { | |
701 | fprintf(stderr, | |
702 | Name ": %s is too small for ddf: " | |
703 | "size is %llu sectors.\n", | |
704 | devname, dsize>>9); | |
705 | return 1; | |
706 | } | |
707 | } | |
708 | if (dsize & 511) { | |
709 | if (devname) { | |
710 | fprintf(stderr, | |
711 | Name ": %s is an odd size for ddf: " | |
712 | "size is %llu bytes.\n", | |
713 | devname, dsize); | |
714 | return 1; | |
715 | } | |
716 | } | |
717 | ||
718 | super = malloc(sizeof(*super)); | |
719 | if (!super) { | |
720 | fprintf(stderr, Name ": malloc of %zu failed.\n", | |
721 | sizeof(*super)); | |
722 | return 1; | |
723 | } | |
724 | ||
725 | rv = load_ddf_headers(fd, super, devname); | |
726 | if (rv) { | |
727 | free(super); | |
728 | return rv; | |
729 | } | |
730 | ||
731 | /* Have valid headers and have chosen the best. Let's read in the rest*/ | |
732 | ||
733 | rv = load_ddf_global(fd, super, devname); | |
734 | ||
735 | if (rv) { | |
736 | if (devname) | |
737 | fprintf(stderr, | |
738 | Name ": Failed to load all information " | |
739 | "sections on %s\n", devname); | |
740 | free(super); | |
741 | return rv; | |
742 | } | |
743 | ||
744 | load_ddf_local(fd, super, devname, 0); | |
745 | ||
746 | /* Should possibly check the sections .... */ | |
747 | ||
748 | st->sb = super; | |
749 | if (st->ss == NULL) { | |
750 | st->ss = &super_ddf; | |
751 | st->minor_version = 0; | |
752 | st->max_devs = 512; | |
753 | } | |
754 | return 0; | |
755 | ||
756 | } | |
757 | ||
758 | static void free_super_ddf(struct supertype *st) | |
759 | { | |
760 | struct ddf_super *ddf = st->sb; | |
761 | if (ddf == NULL) | |
762 | return; | |
763 | free(ddf->phys); | |
764 | free(ddf->virt); | |
765 | while (ddf->conflist) { | |
766 | struct vcl *v = ddf->conflist; | |
767 | ddf->conflist = v->next; | |
768 | free(v); | |
769 | } | |
770 | while (ddf->dlist) { | |
771 | struct dl *d = ddf->dlist; | |
772 | ddf->dlist = d->next; | |
773 | if (d->fd >= 0) | |
774 | close(d->fd); | |
775 | free(d); | |
776 | } | |
777 | free(ddf); | |
778 | st->sb = NULL; | |
779 | } | |
780 | ||
781 | static struct supertype *match_metadata_desc_ddf(char *arg) | |
782 | { | |
783 | /* 'ddf' only support containers */ | |
784 | struct supertype *st; | |
785 | if (strcmp(arg, "ddf") != 0 && | |
786 | strcmp(arg, "default") != 0 | |
787 | ) | |
788 | return NULL; | |
789 | ||
790 | st = malloc(sizeof(*st)); | |
791 | st->ss = &super_ddf; | |
792 | st->max_devs = 512; | |
793 | st->minor_version = 0; | |
794 | st->sb = NULL; | |
795 | return st; | |
796 | } | |
797 | ||
798 | static struct supertype *match_metadata_desc_ddf_bvd(char *arg) | |
799 | { | |
800 | struct supertype *st; | |
801 | if (strcmp(arg, "ddf/bvd") != 0 && | |
802 | strcmp(arg, "bvd") != 0 && | |
803 | strcmp(arg, "default") != 0 | |
804 | ) | |
805 | return NULL; | |
806 | ||
807 | st = malloc(sizeof(*st)); | |
808 | st->ss = &super_ddf_bvd; | |
809 | st->max_devs = 512; | |
810 | st->minor_version = 0; | |
811 | st->sb = NULL; | |
812 | return st; | |
813 | } | |
814 | static struct supertype *match_metadata_desc_ddf_svd(char *arg) | |
815 | { | |
816 | struct supertype *st; | |
817 | if (strcmp(arg, "ddf/svd") != 0 && | |
818 | strcmp(arg, "svd") != 0 && | |
819 | strcmp(arg, "default") != 0 | |
820 | ) | |
821 | return NULL; | |
822 | ||
823 | st = malloc(sizeof(*st)); | |
824 | st->ss = &super_ddf_svd; | |
825 | st->max_devs = 512; | |
826 | st->minor_version = 0; | |
827 | st->sb = NULL; | |
828 | return st; | |
829 | } | |
830 | ||
831 | #ifndef MDASSEMBLE | |
832 | ||
833 | static mapping_t ddf_state[] = { | |
834 | { "Optimal", 0}, | |
835 | { "Degraded", 1}, | |
836 | { "Deleted", 2}, | |
837 | { "Missing", 3}, | |
838 | { "Failed", 4}, | |
839 | { "Partially Optimal", 5}, | |
840 | { "-reserved-", 6}, | |
841 | { "-reserved-", 7}, | |
842 | { NULL, 0} | |
843 | }; | |
844 | ||
845 | static mapping_t ddf_init_state[] = { | |
846 | { "Not Initialised", 0}, | |
847 | { "QuickInit in Progress", 1}, | |
848 | { "Fully Initialised", 2}, | |
849 | { "*UNKNOWN*", 3}, | |
850 | { NULL, 0} | |
851 | }; | |
852 | static mapping_t ddf_access[] = { | |
853 | { "Read/Write", 0}, | |
854 | { "Reserved", 1}, | |
855 | { "Read Only", 2}, | |
856 | { "Blocked (no access)", 3}, | |
857 | { NULL ,0} | |
858 | }; | |
859 | ||
860 | static mapping_t ddf_level[] = { | |
861 | { "RAID0", DDF_RAID0}, | |
862 | { "RAID1", DDF_RAID1}, | |
863 | { "RAID3", DDF_RAID3}, | |
864 | { "RAID4", DDF_RAID4}, | |
865 | { "RAID5", DDF_RAID5}, | |
866 | { "RAID1E",DDF_RAID1E}, | |
867 | { "JBOD", DDF_JBOD}, | |
868 | { "CONCAT",DDF_CONCAT}, | |
869 | { "RAID5E",DDF_RAID5E}, | |
870 | { "RAID5EE",DDF_RAID5EE}, | |
871 | { "RAID6", DDF_RAID6}, | |
872 | { NULL, 0} | |
873 | }; | |
874 | static mapping_t ddf_sec_level[] = { | |
875 | { "Striped", DDF_2STRIPED}, | |
876 | { "Mirrored", DDF_2MIRRORED}, | |
877 | { "Concat", DDF_2CONCAT}, | |
878 | { "Spanned", DDF_2SPANNED}, | |
879 | { NULL, 0} | |
880 | }; | |
881 | #endif | |
882 | ||
883 | struct num_mapping { | |
884 | int num1, num2; | |
885 | }; | |
886 | static struct num_mapping ddf_level_num[] = { | |
887 | { DDF_RAID0, 0 }, | |
888 | { DDF_RAID1, 1 }, | |
889 | { DDF_RAID3, LEVEL_UNSUPPORTED }, | |
890 | { DDF_RAID5, 4 }, | |
891 | { DDF_RAID1E, LEVEL_UNSUPPORTED }, | |
892 | { DDF_JBOD, LEVEL_UNSUPPORTED }, | |
893 | { DDF_CONCAT, LEVEL_LINEAR }, | |
894 | { DDF_RAID5E, LEVEL_UNSUPPORTED }, | |
895 | { DDF_RAID5EE, LEVEL_UNSUPPORTED }, | |
896 | { DDF_RAID6, 6}, | |
897 | { MAXINT, MAXINT } | |
898 | }; | |
899 | ||
900 | static int map_num1(struct num_mapping *map, int num) | |
901 | { | |
902 | int i; | |
903 | for (i=0 ; map[i].num1 != MAXINT; i++) | |
904 | if (map[i].num1 == num) | |
905 | break; | |
906 | return map[i].num2; | |
907 | } | |
908 | ||
909 | #ifndef MDASSEMBLE | |
910 | static void print_guid(char *guid, int tstamp) | |
911 | { | |
912 | /* A GUIDs are part (or all) ASCII and part binary. | |
913 | * They tend to be space padded. | |
914 | * We ignore trailing spaces and print numbers | |
915 | * <0x20 and >=0x7f as \xXX | |
916 | * Some GUIDs have a time stamp in bytes 16-19. | |
917 | * We print that if appropriate | |
918 | */ | |
919 | int l = DDF_GUID_LEN; | |
920 | int i; | |
921 | while (l && guid[l-1] == ' ') | |
922 | l--; | |
923 | for (i=0 ; i<l ; i++) { | |
924 | if (guid[i] >= 0x20 && guid[i] < 0x7f) | |
925 | fputc(guid[i], stdout); | |
926 | else | |
927 | fprintf(stdout, "\\x%02x", guid[i]&255); | |
928 | } | |
929 | if (tstamp) { | |
930 | time_t then = __be32_to_cpu(*(__u32*)(guid+16)) + DECADE; | |
931 | char tbuf[100]; | |
932 | struct tm *tm; | |
933 | tm = localtime(&then); | |
934 | strftime(tbuf, 100, " (%D %T)",tm); | |
935 | fputs(tbuf, stdout); | |
936 | } | |
937 | } | |
938 | ||
939 | static void examine_vd(int n, struct ddf_super *sb, char *guid) | |
940 | { | |
941 | int crl = __be16_to_cpu(sb->anchor.config_record_len); | |
942 | struct vcl *vcl; | |
943 | ||
944 | for (vcl = sb->conflist ; vcl ; vcl = vcl->next) { | |
945 | struct vd_config *vc = &vcl->conf; | |
946 | ||
947 | if (calc_crc(vc, crl*512) != vc->crc) | |
948 | continue; | |
949 | if (memcmp(vc->guid, guid, DDF_GUID_LEN) != 0) | |
950 | continue; | |
951 | ||
952 | /* Ok, we know about this VD, let's give more details */ | |
953 | printf(" Raid Devices[%d] : %d\n", n, | |
954 | __be16_to_cpu(vc->prim_elmnt_count)); | |
955 | printf(" Chunk Size[%d] : %d sectors\n", n, | |
956 | 1 << vc->chunk_shift); | |
957 | printf(" Raid Level[%d] : %s\n", n, | |
958 | map_num(ddf_level, vc->prl)?:"-unknown-"); | |
959 | if (vc->sec_elmnt_count != 1) { | |
960 | printf(" Secondary Position[%d] : %d of %d\n", n, | |
961 | vc->sec_elmnt_seq, vc->sec_elmnt_count); | |
962 | printf(" Secondary Level[%d] : %s\n", n, | |
963 | map_num(ddf_sec_level, vc->srl) ?: "-unknown-"); | |
964 | } | |
965 | printf(" Device Size[%d] : %llu\n", n, | |
966 | __be64_to_cpu(vc->blocks)/2); | |
967 | printf(" Array Size[%d] : %llu\n", n, | |
968 | __be64_to_cpu(vc->array_blocks)/2); | |
969 | } | |
970 | } | |
971 | ||
972 | static void examine_vds(struct ddf_super *sb) | |
973 | { | |
974 | int cnt = __be16_to_cpu(sb->virt->populated_vdes); | |
975 | int i; | |
976 | printf(" Virtual Disks : %d\n", cnt); | |
977 | ||
978 | for (i=0; i<cnt; i++) { | |
979 | struct virtual_entry *ve = &sb->virt->entries[i]; | |
980 | printf(" VD GUID[%d] : ", i); print_guid(ve->guid, 1); | |
981 | printf("\n"); | |
982 | printf(" unit[%d] : %d\n", i, __be16_to_cpu(ve->unit)); | |
983 | printf(" state[%d] : %s, %s%s\n", i, | |
984 | map_num(ddf_state, ve->state & 7), | |
985 | (ve->state & 8) ? "Morphing, ": "", | |
986 | (ve->state & 16)? "Not Consistent" : "Consistent"); | |
987 | printf(" init state[%d] : %s\n", i, | |
988 | map_num(ddf_init_state, ve->init_state&3)); | |
989 | printf(" access[%d] : %s\n", i, | |
990 | map_num(ddf_access, (ve->init_state>>6) & 3)); | |
991 | printf(" Name[%d] : %.16s\n", i, ve->name); | |
992 | examine_vd(i, sb, ve->guid); | |
993 | } | |
994 | if (cnt) printf("\n"); | |
995 | } | |
996 | ||
997 | static void examine_pds(struct ddf_super *sb) | |
998 | { | |
999 | int cnt = __be16_to_cpu(sb->phys->used_pdes); | |
1000 | int i; | |
1001 | struct dl *dl; | |
1002 | printf(" Physical Disks : %d\n", cnt); | |
1003 | ||
1004 | for (i=0 ; i<cnt ; i++) { | |
1005 | struct phys_disk_entry *pd = &sb->phys->entries[i]; | |
1006 | int type = __be16_to_cpu(pd->type); | |
1007 | int state = __be16_to_cpu(pd->state); | |
1008 | ||
1009 | printf(" PD GUID[%d] : ", i); print_guid(pd->guid, 0); | |
1010 | printf("\n"); | |
1011 | printf(" ref[%d] : %08x\n", i, | |
1012 | __be32_to_cpu(pd->refnum)); | |
1013 | printf(" mode[%d] : %s%s%s%s%s\n", i, | |
1014 | (type&2) ? "active":"", | |
1015 | (type&4) ? "Global Spare":"", | |
1016 | (type&8) ? "spare" : "", | |
1017 | (type&16)? ", foreign" : "", | |
1018 | (type&32)? "pass-through" : ""); | |
1019 | printf(" state[%d] : %s%s%s%s%s%s%s\n", i, | |
1020 | (state&1)? "Online": "Offline", | |
1021 | (state&2)? ", Failed": "", | |
1022 | (state&4)? ", Rebuilding": "", | |
1023 | (state&8)? ", in-transition": "", | |
1024 | (state&16)? ", SMART errors": "", | |
1025 | (state&32)? ", Unrecovered Read Errors": "", | |
1026 | (state&64)? ", Missing" : ""); | |
1027 | printf(" Avail Size[%d] : %llu K\n", i, | |
1028 | __be64_to_cpu(pd->config_size)>>1); | |
1029 | for (dl = sb->dlist; dl ; dl = dl->next) { | |
1030 | if (dl->disk.refnum == pd->refnum) { | |
1031 | char *dv = map_dev(dl->major, dl->minor, 0); | |
1032 | if (dv) | |
1033 | printf(" Device[%d] : %s\n", | |
1034 | i, dv); | |
1035 | } | |
1036 | } | |
1037 | printf("\n"); | |
1038 | } | |
1039 | } | |
1040 | ||
1041 | static void examine_super_ddf(struct supertype *st, char *homehost) | |
1042 | { | |
1043 | struct ddf_super *sb = st->sb; | |
1044 | ||
1045 | printf(" Magic : %08x\n", __be32_to_cpu(sb->anchor.magic)); | |
1046 | printf(" Version : %.8s\n", sb->anchor.revision); | |
1047 | printf("Controller GUID : "); print_guid(sb->anchor.guid, 1); | |
1048 | printf("\n"); | |
1049 | printf(" Seq : %08x\n", __be32_to_cpu(sb->active->seq)); | |
1050 | printf(" Redundant hdr : %s\n", sb->secondary.magic == DDF_HEADER_MAGIC | |
1051 | ?"yes" : "no"); | |
1052 | examine_vds(sb); | |
1053 | examine_pds(sb); | |
1054 | } | |
1055 | ||
1056 | static void brief_examine_super_ddf(struct supertype *st) | |
1057 | { | |
1058 | /* We just write a generic DDF ARRAY entry | |
1059 | * The uuid is all hex, 6 groups of 4 bytes | |
1060 | */ | |
1061 | struct ddf_super *ddf = st->sb; | |
1062 | int i; | |
1063 | printf("ARRAY /dev/ddf UUID="); | |
1064 | for (i = 0; i < DDF_GUID_LEN; i++) { | |
1065 | printf("%02x", ddf->anchor.guid[i]); | |
1066 | if ((i&3) == 0 && i != 0) | |
1067 | printf(":"); | |
1068 | } | |
1069 | printf("\n"); | |
1070 | } | |
1071 | ||
1072 | static void detail_super_ddf(struct supertype *st, char *homehost) | |
1073 | { | |
1074 | /* FIXME later | |
1075 | * Could print DDF GUID | |
1076 | * Need to find which array | |
1077 | * If whole, briefly list all arrays | |
1078 | * If one, give name | |
1079 | */ | |
1080 | } | |
1081 | ||
1082 | static void brief_detail_super_ddf(struct supertype *st) | |
1083 | { | |
1084 | /* FIXME I really need to know which array we are detailing. | |
1085 | * Can that be stored in ddf_super?? | |
1086 | */ | |
1087 | // struct ddf_super *ddf = st->sb; | |
1088 | } | |
1089 | ||
1090 | ||
1091 | #endif | |
1092 | ||
1093 | static int match_home_ddf(struct supertype *st, char *homehost) | |
1094 | { | |
1095 | /* It matches 'this' host if the controller is a | |
1096 | * Linux-MD controller with vendor_data matching | |
1097 | * the hostname | |
1098 | */ | |
1099 | struct ddf_super *ddf = st->sb; | |
1100 | int len = strlen(homehost); | |
1101 | ||
1102 | return (memcmp(ddf->controller.guid, T10, 8) == 0 && | |
1103 | len < sizeof(ddf->controller.vendor_data) && | |
1104 | memcmp(ddf->controller.vendor_data, homehost,len) == 0 && | |
1105 | ddf->controller.vendor_data[len] == 0); | |
1106 | } | |
1107 | ||
1108 | static struct vd_config *find_vdcr(struct ddf_super *ddf) | |
1109 | { | |
1110 | /* FIXME this just picks off the first one */ | |
1111 | return &ddf->conflist->conf; | |
1112 | } | |
1113 | ||
1114 | static void uuid_from_super_ddf(struct supertype *st, int uuid[4]) | |
1115 | { | |
1116 | /* The uuid returned here is used for: | |
1117 | * uuid to put into bitmap file (Create, Grow) | |
1118 | * uuid for backup header when saving critical section (Grow) | |
1119 | * comparing uuids when re-adding a device into an array | |
1120 | * For each of these we can make do with a truncated | |
1121 | * or hashed uuid rather than the original, as long as | |
1122 | * everyone agrees. | |
1123 | * In each case the uuid required is that of the data-array, | |
1124 | * not the device-set. | |
1125 | * In the case of SVD we assume the BVD is of interest, | |
1126 | * though that might be the case if a bitmap were made for | |
1127 | * a mirrored SVD - worry about that later. | |
1128 | * So we need to find the VD configuration record for the | |
1129 | * relevant BVD and extract the GUID and Secondary_Element_Seq. | |
1130 | * The first 16 bytes of the sha1 of these is used. | |
1131 | */ | |
1132 | struct ddf_super *ddf = st->sb; | |
1133 | struct vd_config *vd = find_vdcr(ddf); | |
1134 | ||
1135 | if (!vd) | |
1136 | memset(uuid, 0, sizeof (uuid)); | |
1137 | else { | |
1138 | char buf[20]; | |
1139 | struct sha1_ctx ctx; | |
1140 | sha1_init_ctx(&ctx); | |
1141 | sha1_process_bytes(&vd->guid, DDF_GUID_LEN, &ctx); | |
1142 | if (vd->sec_elmnt_count > 1) | |
1143 | sha1_process_bytes(&vd->sec_elmnt_seq, 1, &ctx); | |
1144 | sha1_finish_ctx(&ctx, buf); | |
1145 | memcpy(uuid, buf, sizeof(uuid)); | |
1146 | } | |
1147 | } | |
1148 | ||
1149 | static void getinfo_super_ddf(struct supertype *st, struct mdinfo *info) | |
1150 | { | |
1151 | struct ddf_super *ddf = st->sb; | |
1152 | ||
1153 | info->array.major_version = 1000; | |
1154 | info->array.minor_version = 0; /* FIXME use ddf->revision somehow */ | |
1155 | info->array.patch_version = 0; | |
1156 | info->array.raid_disks = __be16_to_cpu(ddf->phys->used_pdes); | |
1157 | info->array.level = LEVEL_CONTAINER; | |
1158 | info->array.layout = 0; | |
1159 | info->array.md_minor = -1; | |
1160 | info->array.ctime = DECADE + __be32_to_cpu(*(__u32*) | |
1161 | (ddf->anchor.guid+16)); | |
1162 | info->array.utime = 0; | |
1163 | info->array.chunk_size = 0; | |
1164 | ||
1165 | // info->data_offset = ???; | |
1166 | // info->component_size = ???; | |
1167 | ||
1168 | info->disk.major = 0; | |
1169 | info->disk.minor = 0; | |
1170 | // info->disk.number = __be32_to_cpu(ddf->disk.refnum); | |
1171 | // info->disk.raid_disk = find refnum in the table and use index; | |
1172 | // info->disk.state = ???; | |
1173 | ||
1174 | // uuid_from_super_ddf(info->uuid, sbv); | |
1175 | ||
1176 | // info->name[] ?? ; | |
1177 | } | |
1178 | ||
1179 | static void getinfo_super_ddf_bvd(struct supertype *st, struct mdinfo *info) | |
1180 | { | |
1181 | struct ddf_super *ddf = st->sb; | |
1182 | struct vd_config *vd = find_vdcr(ddf); | |
1183 | ||
1184 | /* FIXME this returns BVD info - what if we want SVD ?? */ | |
1185 | ||
1186 | info->array.major_version = 1000; | |
1187 | info->array.minor_version = 0; /* FIXME use ddf->revision somehow */ | |
1188 | info->array.patch_version = 0; | |
1189 | info->array.raid_disks = __be16_to_cpu(vd->prim_elmnt_count); | |
1190 | info->array.level = map_num1(ddf_level_num, vd->prl); | |
1191 | info->array.layout = vd->rlq; /* FIXME should this be mapped */ | |
1192 | info->array.md_minor = -1; | |
1193 | info->array.ctime = DECADE + __be32_to_cpu(*(__u32*)(vd->guid+16)); | |
1194 | info->array.utime = DECADE + __be32_to_cpu(vd->timestamp); | |
1195 | info->array.chunk_size = 512 << vd->chunk_shift; | |
1196 | ||
1197 | // info->data_offset = ???; | |
1198 | // info->component_size = ???; | |
1199 | ||
1200 | info->disk.major = 0; | |
1201 | info->disk.minor = 0; | |
1202 | // info->disk.number = __be32_to_cpu(ddf->disk.refnum); | |
1203 | // info->disk.raid_disk = find refnum in the table and use index; | |
1204 | // info->disk.state = ???; | |
1205 | ||
1206 | uuid_from_super_ddf(st, info->uuid); | |
1207 | ||
1208 | // info->name[] ?? ; | |
1209 | } | |
1210 | ||
1211 | static int update_super_ddf(struct supertype *st, struct mdinfo *info, | |
1212 | char *update, | |
1213 | char *devname, int verbose, | |
1214 | int uuid_set, char *homehost) | |
1215 | { | |
1216 | /* For 'assemble' and 'force' we need to return non-zero if any | |
1217 | * change was made. For others, the return value is ignored. | |
1218 | * Update options are: | |
1219 | * force-one : This device looks a bit old but needs to be included, | |
1220 | * update age info appropriately. | |
1221 | * assemble: clear any 'faulty' flag to allow this device to | |
1222 | * be assembled. | |
1223 | * force-array: Array is degraded but being forced, mark it clean | |
1224 | * if that will be needed to assemble it. | |
1225 | * | |
1226 | * newdev: not used ???? | |
1227 | * grow: Array has gained a new device - this is currently for | |
1228 | * linear only | |
1229 | * resync: mark as dirty so a resync will happen. | |
1230 | * uuid: Change the uuid of the array to match watch is given | |
1231 | * homehost: update the recorded homehost | |
1232 | * name: update the name - preserving the homehost | |
1233 | * _reshape_progress: record new reshape_progress position. | |
1234 | * | |
1235 | * Following are not relevant for this version: | |
1236 | * sparc2.2 : update from old dodgey metadata | |
1237 | * super-minor: change the preferred_minor number | |
1238 | * summaries: update redundant counters. | |
1239 | */ | |
1240 | int rv = 0; | |
1241 | // struct ddf_super *ddf = st->sb; | |
1242 | // struct vd_config *vd = find_vdcr(ddf); | |
1243 | // struct virtual_entry *ve = find_ve(ddf); | |
1244 | ||
1245 | ||
1246 | /* we don't need to handle "force-*" or "assemble" as | |
1247 | * there is no need to 'trick' the kernel. We the metadata is | |
1248 | * first updated to activate the array, all the implied modifications | |
1249 | * will just happen. | |
1250 | */ | |
1251 | ||
1252 | if (strcmp(update, "grow") == 0) { | |
1253 | /* FIXME */ | |
1254 | } | |
1255 | if (strcmp(update, "resync") == 0) { | |
1256 | // info->resync_checkpoint = 0; | |
1257 | } | |
1258 | /* We ignore UUID updates as they make even less sense | |
1259 | * with DDF | |
1260 | */ | |
1261 | if (strcmp(update, "homehost") == 0) { | |
1262 | /* homehost is stored in controller->vendor_data, | |
1263 | * or it is when we are the vendor | |
1264 | */ | |
1265 | // if (info->vendor_is_local) | |
1266 | // strcpy(ddf->controller.vendor_data, homehost); | |
1267 | } | |
1268 | if (strcmp(update, "name") == 0) { | |
1269 | /* name is stored in virtual_entry->name */ | |
1270 | // memset(ve->name, ' ', 16); | |
1271 | // strncpy(ve->name, info->name, 16); | |
1272 | } | |
1273 | if (strcmp(update, "_reshape_progress") == 0) { | |
1274 | /* We don't support reshape yet */ | |
1275 | } | |
1276 | ||
1277 | // update_all_csum(ddf); | |
1278 | ||
1279 | return rv; | |
1280 | } | |
1281 | ||
1282 | static int init_super_ddf(struct supertype *st, | |
1283 | mdu_array_info_t *info, | |
1284 | unsigned long long size, char *name, char *homehost, | |
1285 | int *uuid) | |
1286 | { | |
1287 | /* This is primarily called by Create when creating a new array. | |
1288 | * We will then get add_to_super called for each component, and then | |
1289 | * write_init_super called to write it out to each device. | |
1290 | * For DDF, Create can create on fresh devices or on a pre-existing | |
1291 | * array. | |
1292 | * To create on a pre-existing array a different method will be called. | |
1293 | * This one is just for fresh drives. | |
1294 | * | |
1295 | * We need to create the entire 'ddf' structure which includes: | |
1296 | * DDF headers - these are easy. | |
1297 | * Controller data - a Sector describing this controller .. not that | |
1298 | * this is a controller exactly. | |
1299 | * Physical Disk Record - one entry per device, so | |
1300 | * leave plenty of space. | |
1301 | * Virtual Disk Records - again, just leave plenty of space. | |
1302 | * This just lists VDs, doesn't give details | |
1303 | * Config records - describes the VDs that use this disk | |
1304 | * DiskData - describes 'this' device. | |
1305 | * BadBlockManagement - empty | |
1306 | * Diag Space - empty | |
1307 | * Vendor Logs - Could we put bitmaps here? | |
1308 | * | |
1309 | */ | |
1310 | struct ddf_super *ddf; | |
1311 | char hostname[17]; | |
1312 | int hostlen; | |
1313 | __u32 stamp; | |
1314 | int rfd; | |
1315 | int max_phys_disks, max_virt_disks; | |
1316 | unsigned long long sector; | |
1317 | int clen; | |
1318 | int i; | |
1319 | int pdsize, vdsize; | |
1320 | struct phys_disk *pd; | |
1321 | struct virtual_disk *vd; | |
1322 | ||
1323 | ddf = malloc(sizeof(*ddf)); | |
1324 | ddf->dlist = NULL; /* no physical disks yet */ | |
1325 | ddf->conflist = NULL; /* No virtual disks yet */ | |
1326 | ||
1327 | /* At least 32MB *must* be reserved for the ddf. So let's just | |
1328 | * start 32MB from the end, and put the primary header there. | |
1329 | * Don't do secondary for now. | |
1330 | * We don't know exactly where that will be yet as it could be | |
1331 | * different on each device. To just set up the lengths. | |
1332 | * | |
1333 | */ | |
1334 | ||
1335 | ddf->anchor.magic = DDF_HEADER_MAGIC; | |
1336 | /* 24 bytes of fiction required. | |
1337 | * first 8 are a 'vendor-id' - "Linux-MD" | |
1338 | * next 8 are controller type.. how about 0X DEAD BEEF 0000 0000 | |
1339 | * Remaining 16 are serial number.... maybe a hostname would do? | |
1340 | */ | |
1341 | memcpy(ddf->anchor.guid, T10, sizeof(T10)); | |
1342 | stamp = __cpu_to_be32(0xdeadbeef); | |
1343 | memcpy(ddf->anchor.guid+8, &stamp, 4); | |
1344 | stamp = __cpu_to_be32(0); | |
1345 | memcpy(ddf->anchor.guid+12, &stamp, 4); | |
1346 | stamp = __cpu_to_be32(time(0) - DECADE); | |
1347 | memcpy(ddf->anchor.guid+16, &stamp, 4); | |
1348 | rfd = open("/dev/urandom", O_RDONLY); | |
1349 | if (rfd < 0 || read(rfd, &stamp, 4) != 4) | |
1350 | stamp = random(); | |
1351 | memcpy(ddf->anchor.guid+20, &stamp, 4); | |
1352 | if (rfd >= 0) close(rfd); | |
1353 | ||
1354 | memcpy(ddf->anchor.revision, DDF_REVISION, 8); | |
1355 | ddf->anchor.seq = __cpu_to_be32(1); | |
1356 | ddf->anchor.timestamp = __cpu_to_be32(time(0) - DECADE); | |
1357 | ddf->anchor.openflag = 0xFF; | |
1358 | ddf->anchor.foreignflag = 0; | |
1359 | ddf->anchor.enforcegroups = 0; /* Is this best?? */ | |
1360 | ddf->anchor.pad0 = 0xff; | |
1361 | memset(ddf->anchor.pad1, 0xff, 12); | |
1362 | memset(ddf->anchor.header_ext, 0xff, 32); | |
1363 | ddf->anchor.primary_lba = ~(__u64)0; | |
1364 | ddf->anchor.secondary_lba = ~(__u64)0; | |
1365 | ddf->anchor.type = DDF_HEADER_ANCHOR; | |
1366 | memset(ddf->anchor.pad2, 0xff, 3); | |
1367 | ddf->anchor.workspace_len = __cpu_to_be32(32768); /* Must be reserved */ | |
1368 | ddf->anchor.workspace_lba = ~(__u64)0; /* Put this at bottom | |
1369 | of 32M reserved.. */ | |
1370 | max_phys_disks = 1023; /* Should be enough */ | |
1371 | ddf->anchor.max_pd_entries = __cpu_to_be16(max_phys_disks); | |
1372 | max_virt_disks = 255; | |
1373 | ddf->anchor.max_vd_entries = __cpu_to_be16(max_virt_disks); /* ?? */ | |
1374 | ddf->anchor.max_partitions = __cpu_to_be16(64); /* ?? */ | |
1375 | ddf->max_part = 64; | |
1376 | ddf->anchor.config_record_len = __cpu_to_be16(1 + 256*12/512); | |
1377 | ddf->anchor.max_primary_element_entries = __cpu_to_be16(256); | |
1378 | memset(ddf->anchor.pad3, 0xff, 54); | |
1379 | ||
1380 | /* controller sections is one sector long immediately | |
1381 | * after the ddf header */ | |
1382 | sector = 1; | |
1383 | ddf->anchor.controller_section_offset = __cpu_to_be32(sector); | |
1384 | ddf->anchor.controller_section_length = __cpu_to_be32(1); | |
1385 | sector += 1; | |
1386 | ||
1387 | /* phys is 8 sectors after that */ | |
1388 | pdsize = ROUND_UP(sizeof(struct phys_disk) + | |
1389 | sizeof(struct phys_disk_entry)*max_phys_disks, | |
1390 | 512); | |
1391 | switch(pdsize/512) { | |
1392 | case 2: case 8: case 32: case 128: case 512: break; | |
1393 | default: abort(); | |
1394 | } | |
1395 | ddf->anchor.phys_section_offset = __cpu_to_be32(sector); | |
1396 | ddf->anchor.phys_section_length = | |
1397 | __cpu_to_be32(pdsize/512); /* max_primary_element_entries/8 */ | |
1398 | sector += pdsize/512; | |
1399 | ||
1400 | /* virt is another 32 sectors */ | |
1401 | vdsize = ROUND_UP(sizeof(struct virtual_disk) + | |
1402 | sizeof(struct virtual_entry) * max_virt_disks, | |
1403 | 512); | |
1404 | switch(vdsize/512) { | |
1405 | case 2: case 8: case 32: case 128: case 512: break; | |
1406 | default: abort(); | |
1407 | } | |
1408 | ddf->anchor.virt_section_offset = __cpu_to_be32(sector); | |
1409 | ddf->anchor.virt_section_length = | |
1410 | __cpu_to_be32(vdsize/512); /* max_vd_entries/8 */ | |
1411 | sector += vdsize/512; | |
1412 | ||
1413 | clen = (1 + 256*12/512) * (64+1); | |
1414 | ddf->anchor.config_section_offset = __cpu_to_be32(sector); | |
1415 | ddf->anchor.config_section_length = __cpu_to_be32(clen); | |
1416 | sector += clen; | |
1417 | ||
1418 | ddf->anchor.data_section_offset = __cpu_to_be32(sector); | |
1419 | ddf->anchor.data_section_length = __cpu_to_be32(1); | |
1420 | sector += 1; | |
1421 | ||
1422 | ddf->anchor.bbm_section_length = __cpu_to_be32(0); | |
1423 | ddf->anchor.bbm_section_offset = __cpu_to_be32(0xFFFFFFFF); | |
1424 | ddf->anchor.diag_space_length = __cpu_to_be32(0); | |
1425 | ddf->anchor.diag_space_offset = __cpu_to_be32(0xFFFFFFFF); | |
1426 | ddf->anchor.vendor_length = __cpu_to_be32(0); | |
1427 | ddf->anchor.vendor_offset = __cpu_to_be32(0xFFFFFFFF); | |
1428 | ||
1429 | memset(ddf->anchor.pad4, 0xff, 256); | |
1430 | ||
1431 | memcpy(&ddf->primary, &ddf->anchor, 512); | |
1432 | memcpy(&ddf->secondary, &ddf->anchor, 512); | |
1433 | ||
1434 | ddf->primary.openflag = 1; /* I guess.. */ | |
1435 | ddf->primary.type = DDF_HEADER_PRIMARY; | |
1436 | ||
1437 | ddf->secondary.openflag = 1; /* I guess.. */ | |
1438 | ddf->secondary.type = DDF_HEADER_SECONDARY; | |
1439 | ||
1440 | ddf->active = &ddf->primary; | |
1441 | ||
1442 | ddf->controller.magic = DDF_CONTROLLER_MAGIC; | |
1443 | ||
1444 | /* 24 more bytes of fiction required. | |
1445 | * first 8 are a 'vendor-id' - "Linux-MD" | |
1446 | * Remaining 16 are serial number.... maybe a hostname would do? | |
1447 | */ | |
1448 | memcpy(ddf->controller.guid, T10, sizeof(T10)); | |
1449 | gethostname(hostname, 17); | |
1450 | hostname[17] = 0; | |
1451 | hostlen = strlen(hostname); | |
1452 | memcpy(ddf->controller.guid + 24 - hostlen, hostname, hostlen); | |
1453 | for (i = strlen(T10) ; i+hostlen < 24; i++) | |
1454 | ddf->controller.guid[i] = ' '; | |
1455 | ||
1456 | ddf->controller.type.vendor_id = __cpu_to_be16(0xDEAD); | |
1457 | ddf->controller.type.device_id = __cpu_to_be16(0xBEEF); | |
1458 | ddf->controller.type.sub_vendor_id = 0; | |
1459 | ddf->controller.type.sub_device_id = 0; | |
1460 | memcpy(ddf->controller.product_id, "What Is My PID??", 16); | |
1461 | memset(ddf->controller.pad, 0xff, 8); | |
1462 | memset(ddf->controller.vendor_data, 0xff, 448); | |
1463 | ||
1464 | pd = ddf->phys = malloc(pdsize); | |
1465 | ddf->pdsize = pdsize; | |
1466 | ||
1467 | memset(pd, 0xff, pdsize); | |
1468 | memset(pd, 0, sizeof(*pd)); | |
1469 | pd->magic = DDF_PHYS_DATA_MAGIC; | |
1470 | pd->used_pdes = __cpu_to_be16(0); | |
1471 | pd->max_pdes = __cpu_to_be16(max_phys_disks); | |
1472 | memset(pd->pad, 0xff, 52); | |
1473 | ||
1474 | vd = ddf->virt = malloc(vdsize); | |
1475 | ddf->vdsize = vdsize; | |
1476 | memset(vd, 0, vdsize); | |
1477 | vd->magic = DDF_VIRT_RECORDS_MAGIC; | |
1478 | vd->populated_vdes = __cpu_to_be16(0); | |
1479 | vd->max_vdes = __cpu_to_be16(max_virt_disks); | |
1480 | memset(vd->pad, 0xff, 52); | |
1481 | ||
1482 | st->sb = ddf; | |
1483 | return 1; | |
1484 | } | |
1485 | ||
1486 | /* add a device to a container, either while creating it or while | |
1487 | * expanding a pre-existing container | |
1488 | */ | |
1489 | static void add_to_super_ddf(struct supertype *st, | |
1490 | mdu_disk_info_t *dk, int fd, char *devname) | |
1491 | { | |
1492 | struct ddf_super *ddf = st->sb; | |
1493 | struct dl *dd; | |
1494 | time_t now; | |
1495 | struct tm *tm; | |
1496 | unsigned long long size; | |
1497 | struct phys_disk_entry *pde; | |
1498 | int n, i; | |
1499 | struct stat stb; | |
1500 | ||
1501 | /* This is device numbered dk->number. We need to create | |
1502 | * a phys_disk entry and a more detailed disk_data entry. | |
1503 | */ | |
1504 | fstat(fd, &stb); | |
1505 | dd = malloc(sizeof(*dd) + sizeof(dd->vlist[0]) * (ddf->max_part+1)); | |
1506 | dd->major = major(stb.st_rdev); | |
1507 | dd->minor = minor(stb.st_rdev); | |
1508 | dd->devname = devname; | |
1509 | dd->next = ddf->dlist; | |
1510 | dd->fd = fd; | |
1511 | ||
1512 | dd->disk.magic = DDF_PHYS_DATA_MAGIC; | |
1513 | now = time(0); | |
1514 | tm = localtime(&now); | |
1515 | sprintf(dd->disk.guid, "%8s%04d%02d%02d", | |
1516 | T10, tm->tm_year+1900, tm->tm_mon+1, tm->tm_mday); | |
1517 | *(__u32*)(dd->disk.guid + 16) = random(); | |
1518 | *(__u32*)(dd->disk.guid + 20) = random(); | |
1519 | ||
1520 | dd->disk.refnum = random(); /* and hope for the best */ | |
1521 | dd->disk.forced_ref = 1; | |
1522 | dd->disk.forced_guid = 1; | |
1523 | memset(dd->disk.vendor, ' ', 32); | |
1524 | memcpy(dd->disk.vendor, "Linux", 5); | |
1525 | memset(dd->disk.pad, 0xff, 442); | |
1526 | for (i = 0; i < ddf->max_part+1 ; i++) | |
1527 | dd->vlist[i] = NULL; | |
1528 | ||
1529 | n = __be16_to_cpu(ddf->phys->used_pdes); | |
1530 | pde = &ddf->phys->entries[n]; | |
1531 | n++; | |
1532 | ddf->phys->used_pdes = __cpu_to_be16(n); | |
1533 | ||
1534 | memcpy(pde->guid, dd->disk.guid, DDF_GUID_LEN); | |
1535 | pde->refnum = dd->disk.refnum; | |
1536 | pde->type = __cpu_to_be16(DDF_Forced_PD_GUID |DDF_Global_Spare); | |
1537 | pde->state = __cpu_to_be16(DDF_Online); | |
1538 | get_dev_size(fd, NULL, &size); | |
1539 | /* We are required to reserve 32Meg, and record the size in sectors */ | |
1540 | pde->config_size = __cpu_to_be64( (size - 32*1024*1024) / 512); | |
1541 | sprintf(pde->path, "%17.17s","Information: nil") ; | |
1542 | memset(pde->pad, 0xff, 6); | |
1543 | ||
1544 | ddf->dlist = dd; | |
1545 | } | |
1546 | ||
1547 | /* | |
1548 | * This is the write_init_super method for a ddf container. It is | |
1549 | * called when creating a container or adding another device to a | |
1550 | * container. | |
1551 | */ | |
1552 | ||
1553 | #ifndef MDASSEMBLE | |
1554 | static int write_init_super_ddf(struct supertype *st) | |
1555 | { | |
1556 | ||
1557 | struct ddf_super *ddf = st->sb; | |
1558 | int i; | |
1559 | struct dl *d; | |
1560 | int n_config; | |
1561 | int conf_size; | |
1562 | ||
1563 | unsigned long long size, sector; | |
1564 | ||
1565 | for (d = ddf->dlist; d; d=d->next) { | |
1566 | int fd = d->fd; | |
1567 | ||
1568 | if (fd < 0) | |
1569 | continue; | |
1570 | ||
1571 | /* We need to fill in the primary, (secondary) and workspace | |
1572 | * lba's in the headers, set their checksums, | |
1573 | * Also checksum phys, virt.... | |
1574 | * | |
1575 | * Then write everything out, finally the anchor is written. | |
1576 | */ | |
1577 | get_dev_size(fd, NULL, &size); | |
1578 | size /= 512; | |
1579 | ddf->anchor.workspace_lba = __cpu_to_be64(size - 32*1024*2); | |
1580 | ddf->anchor.primary_lba = __cpu_to_be64(size - 16*1024*2); | |
1581 | ddf->anchor.seq = __cpu_to_be32(1); | |
1582 | memcpy(&ddf->primary, &ddf->anchor, 512); | |
1583 | memcpy(&ddf->secondary, &ddf->anchor, 512); | |
1584 | ||
1585 | ddf->anchor.openflag = 0xFF; /* 'open' means nothing */ | |
1586 | ddf->anchor.seq = 0xFFFFFFFF; /* no sequencing in anchor */ | |
1587 | ddf->anchor.crc = calc_crc(&ddf->anchor, 512); | |
1588 | ||
1589 | ddf->primary.openflag = 0; | |
1590 | ddf->primary.type = DDF_HEADER_PRIMARY; | |
1591 | ||
1592 | ddf->secondary.openflag = 0; | |
1593 | ddf->secondary.type = DDF_HEADER_SECONDARY; | |
1594 | ||
1595 | ddf->primary.crc = calc_crc(&ddf->primary, 512); | |
1596 | ddf->secondary.crc = calc_crc(&ddf->secondary, 512); | |
1597 | ||
1598 | sector = size - 16*1024*2; | |
1599 | lseek64(fd, sector<<9, 0); | |
1600 | write(fd, &ddf->primary, 512); | |
1601 | ||
1602 | ddf->controller.crc = calc_crc(&ddf->controller, 512); | |
1603 | write(fd, &ddf->controller, 512); | |
1604 | ||
1605 | ddf->phys->crc = calc_crc(ddf->phys, ddf->pdsize); | |
1606 | ||
1607 | write(fd, ddf->phys, ddf->pdsize); | |
1608 | ||
1609 | ddf->virt->crc = calc_crc(ddf->virt, ddf->vdsize); | |
1610 | write(fd, ddf->virt, ddf->vdsize); | |
1611 | ||
1612 | /* Now write lots of config records. */ | |
1613 | n_config = __be16_to_cpu(ddf->active->max_partitions); | |
1614 | conf_size = __be16_to_cpu(ddf->active->config_record_len) * 512; | |
1615 | for (i = 0 ; i <= n_config ; i++) { | |
1616 | struct vcl *c = d->vlist[i]; | |
1617 | ||
1618 | if (c) { | |
1619 | c->conf.crc = calc_crc(&c->conf, conf_size); | |
1620 | write(fd, &c->conf, conf_size); | |
1621 | } else { | |
1622 | __u32 sig = 0xffffffff; | |
1623 | write(fd, &sig, 4); | |
1624 | lseek64(fd, conf_size-4, SEEK_CUR); | |
1625 | } | |
1626 | } | |
1627 | d->disk.crc = calc_crc(&d->disk, 512); | |
1628 | write(fd, &d->disk, 512); | |
1629 | ||
1630 | /* Maybe do the same for secondary */ | |
1631 | ||
1632 | lseek64(fd, (size-1)*512, SEEK_SET); | |
1633 | write(fd, &ddf->anchor, 512); | |
1634 | close(fd); | |
1635 | } | |
1636 | return 1; | |
1637 | } | |
1638 | #endif | |
1639 | ||
1640 | static __u64 avail_size_ddf(struct supertype *st, __u64 devsize) | |
1641 | { | |
1642 | /* We must reserve the last 32Meg */ | |
1643 | if (devsize <= 32*1024*2) | |
1644 | return 0; | |
1645 | return devsize - 32*1024*2; | |
1646 | } | |
1647 | ||
1648 | #ifndef MDASSEMBLE | |
1649 | int validate_geometry_ddf(struct supertype *st, | |
1650 | int level, int layout, int raiddisks, | |
1651 | int chunk, unsigned long long size, | |
1652 | char *dev, unsigned long long *freesize) | |
1653 | { | |
1654 | int fd; | |
1655 | struct mdinfo *sra; | |
1656 | int cfd; | |
1657 | ||
1658 | /* ddf potentially supports lots of things, but it depends on | |
1659 | * what devices are offered (and maybe kernel version?) | |
1660 | * If given unused devices, we will make a container. | |
1661 | * If given devices in a container, we will make a BVD. | |
1662 | * If given BVDs, we make an SVD, changing all the GUIDs in the process. | |
1663 | */ | |
1664 | ||
1665 | if (level == LEVEL_CONTAINER) { | |
1666 | st->ss = &super_ddf_container; | |
1667 | return st->ss->validate_geometry(st, level, layout, raiddisks, | |
1668 | chunk, size, dev, freesize); | |
1669 | } | |
1670 | if (!dev) | |
1671 | return 1; | |
1672 | ||
1673 | /* This device needs to be either a device in a 'ddf' container, | |
1674 | * or it needs to be a 'ddf-bvd' array. Test the first first. | |
1675 | */ | |
1676 | ||
1677 | fd = open(dev, O_RDONLY|O_EXCL, 0); | |
1678 | if (fd >= 0) { | |
1679 | sra = sysfs_read(fd, 0, GET_VERSION); | |
1680 | close(fd); | |
1681 | if (sra && sra->array.major_version == -1 && | |
1682 | strcmp(sra->text_version, "ddf-bvd") == 0) { | |
1683 | st->ss = &super_ddf_svd; | |
1684 | return st->ss->validate_geometry(st, level, layout, | |
1685 | raiddisks, chunk, size, | |
1686 | dev, freesize); | |
1687 | } | |
1688 | ||
1689 | fprintf(stderr, | |
1690 | Name ": Cannot create this array on device %s\n", | |
1691 | dev); | |
1692 | return 0; | |
1693 | } | |
1694 | if (errno != EBUSY || (fd = open(dev, O_RDONLY, 0)) < 0) { | |
1695 | fprintf(stderr, Name ": Cannot open %s: %s\n", | |
1696 | dev, strerror(errno)); | |
1697 | return 0; | |
1698 | } | |
1699 | /* Well, it is in use by someone, maybe a 'ddf' container. */ | |
1700 | cfd = open_container(fd); | |
1701 | if (cfd < 0) { | |
1702 | close(fd); | |
1703 | fprintf(stderr, Name ": Cannot use %s: It is busy\n", | |
1704 | dev); | |
1705 | return 0; | |
1706 | } | |
1707 | sra = sysfs_read(cfd, 0, GET_VERSION); | |
1708 | close(fd); | |
1709 | if (sra && sra->array.major_version == -1 && | |
1710 | strcmp(sra->text_version, "ddf") == 0) { | |
1711 | /* This is a member of a ddf container. Load the container | |
1712 | * and try to create a bvd | |
1713 | */ | |
1714 | struct ddf_super *ddf; | |
1715 | st->ss = &super_ddf_bvd; | |
1716 | if (load_super_ddf_all(st, cfd, (void **)&ddf, NULL, 1) == 0) { | |
1717 | st->info = ddf; | |
1718 | close(cfd); | |
1719 | return st->ss->validate_geometry(st, level, layout, | |
1720 | raiddisks, chunk, size, | |
1721 | dev, freesize); | |
1722 | } | |
1723 | close(cfd); | |
1724 | } | |
1725 | fprintf(stderr, Name ": Cannot use %s: Already in use\n", | |
1726 | dev); | |
1727 | return 1; | |
1728 | } | |
1729 | ||
1730 | int validate_geometry_ddf_container(struct supertype *st, | |
1731 | int level, int layout, int raiddisks, | |
1732 | int chunk, unsigned long long size, | |
1733 | char *dev, unsigned long long *freesize) | |
1734 | { | |
1735 | int fd; | |
1736 | unsigned long long ldsize; | |
1737 | ||
1738 | if (level != LEVEL_CONTAINER) | |
1739 | return 0; | |
1740 | if (!dev) | |
1741 | return 1; | |
1742 | ||
1743 | fd = open(dev, O_RDONLY|O_EXCL, 0); | |
1744 | if (fd < 0) { | |
1745 | fprintf(stderr, Name ": Cannot open %s: %s\n", | |
1746 | dev, strerror(errno)); | |
1747 | return 0; | |
1748 | } | |
1749 | if (!get_dev_size(fd, dev, &ldsize)) { | |
1750 | close(fd); | |
1751 | return 0; | |
1752 | } | |
1753 | close(fd); | |
1754 | ||
1755 | *freesize = avail_size_ddf(st, ldsize); | |
1756 | ||
1757 | return 1; | |
1758 | } | |
1759 | ||
1760 | int validate_geometry_ddf_bvd(struct supertype *st, | |
1761 | int level, int layout, int raiddisks, | |
1762 | int chunk, unsigned long long size, | |
1763 | char *dev, unsigned long long *freesize) | |
1764 | { | |
1765 | struct stat stb; | |
1766 | struct ddf_super *ddf = st->sb; | |
1767 | struct dl *dl; | |
1768 | /* ddf/bvd supports lots of things, but not containers */ | |
1769 | if (level == LEVEL_CONTAINER) | |
1770 | return 0; | |
1771 | /* We must have the container info already read in. */ | |
1772 | if (!ddf) | |
1773 | return 0; | |
1774 | ||
1775 | /* This device must be a member of the set */ | |
1776 | if (stat(dev, &stb) < 0) | |
1777 | return 0; | |
1778 | if ((S_IFMT & stb.st_mode) != S_IFBLK) | |
1779 | return 0; | |
1780 | for (dl = ddf->dlist ; dl ; dl = dl->next) { | |
1781 | if (dl->major == major(stb.st_rdev) && | |
1782 | dl->minor == minor(stb.st_rdev)) | |
1783 | break; | |
1784 | } | |
1785 | // FIXME here I am | |
1786 | ||
1787 | return 1; | |
1788 | } | |
1789 | int validate_geometry_ddf_svd(struct supertype *st, | |
1790 | int level, int layout, int raiddisks, | |
1791 | int chunk, unsigned long long size, | |
1792 | char *dev, unsigned long long *freesize) | |
1793 | { | |
1794 | /* dd/svd only supports striped, mirrored, concat, spanned... */ | |
1795 | if (level != LEVEL_LINEAR && | |
1796 | level != 0 && | |
1797 | level != 1) | |
1798 | return 0; | |
1799 | return 1; | |
1800 | } | |
1801 | ||
1802 | ||
1803 | static int load_super_ddf_all(struct supertype *st, int fd, | |
1804 | void **sbp, char *devname, int keep_fd) | |
1805 | { | |
1806 | struct mdinfo *sra; | |
1807 | struct ddf_super *super; | |
1808 | struct mdinfo *sd, *best = NULL; | |
1809 | int bestseq = 0; | |
1810 | int seq; | |
1811 | char nm[20]; | |
1812 | int dfd; | |
1813 | ||
1814 | sra = sysfs_read(fd, 0, GET_LEVEL|GET_VERSION|GET_DEVS|GET_STATE); | |
1815 | if (!sra) | |
1816 | return 1; | |
1817 | if (sra->array.major_version != -1 || | |
1818 | sra->array.minor_version != -2 || | |
1819 | strcmp(sra->text_version, "ddf") != 0) | |
1820 | return 1; | |
1821 | ||
1822 | super = malloc(sizeof(*super)); | |
1823 | if (!super) | |
1824 | return 1; | |
1825 | ||
1826 | /* first, try each device, and choose the best ddf */ | |
1827 | for (sd = sra->devs ; sd ; sd = sd->next) { | |
1828 | int rv; | |
1829 | sprintf(nm, "%d:%d", sd->disk.major, sd->disk.minor); | |
1830 | dfd = dev_open(nm, keep_fd? O_RDWR : O_RDONLY); | |
1831 | if (!dfd) | |
1832 | return 2; | |
1833 | rv = load_ddf_headers(dfd, super, NULL); | |
1834 | if (!keep_fd) close(dfd); | |
1835 | if (rv == 0) { | |
1836 | seq = __be32_to_cpu(super->active->seq); | |
1837 | if (super->active->openflag) | |
1838 | seq--; | |
1839 | if (!best || seq > bestseq) { | |
1840 | bestseq = seq; | |
1841 | best = sd; | |
1842 | } | |
1843 | } | |
1844 | } | |
1845 | if (!best) | |
1846 | return 1; | |
1847 | /* OK, load this ddf */ | |
1848 | sprintf(nm, "%d:%d", best->disk.major, best->disk.minor); | |
1849 | dfd = dev_open(nm, O_RDONLY); | |
1850 | if (!dfd) | |
1851 | return 1; | |
1852 | load_ddf_headers(dfd, super, NULL); | |
1853 | load_ddf_global(dfd, super, NULL); | |
1854 | close(dfd); | |
1855 | /* Now we need the device-local bits */ | |
1856 | for (sd = sra->devs ; sd ; sd = sd->next) { | |
1857 | sprintf(nm, "%d:%d", sd->disk.major, sd->disk.minor); | |
1858 | dfd = dev_open(nm, O_RDONLY); | |
1859 | if (!dfd) | |
1860 | return 2; | |
1861 | seq = load_ddf_local(dfd, super, NULL, keep_fd); | |
1862 | close(dfd); | |
1863 | } | |
1864 | *sbp = super; | |
1865 | if (st->ss == NULL) { | |
1866 | st->ss = &super_ddf; | |
1867 | st->minor_version = 0; | |
1868 | st->max_devs = 512; | |
1869 | } | |
1870 | return 0; | |
1871 | } | |
1872 | #endif | |
1873 | ||
1874 | ||
1875 | ||
1876 | static int init_zero_ddf(struct supertype *st, | |
1877 | mdu_array_info_t *info, | |
1878 | unsigned long long size, char *name, | |
1879 | char *homehost, int *uuid) | |
1880 | { | |
1881 | st->sb = NULL; | |
1882 | return 0; | |
1883 | } | |
1884 | ||
1885 | static int store_zero_ddf(struct supertype *st, int fd) | |
1886 | { | |
1887 | unsigned long long dsize; | |
1888 | char buf[512]; | |
1889 | memset(buf, 0, 512); | |
1890 | ||
1891 | ||
1892 | if (!get_dev_size(fd, NULL, &dsize)) | |
1893 | return 1; | |
1894 | ||
1895 | lseek64(fd, dsize-512, 0); | |
1896 | write(fd, buf, 512); | |
1897 | return 0; | |
1898 | } | |
1899 | ||
1900 | struct superswitch super_ddf = { | |
1901 | #ifndef MDASSEMBLE | |
1902 | .examine_super = examine_super_ddf, | |
1903 | .brief_examine_super = brief_examine_super_ddf, | |
1904 | .detail_super = detail_super_ddf, | |
1905 | .brief_detail_super = brief_detail_super_ddf, | |
1906 | .validate_geometry = validate_geometry_ddf, | |
1907 | #endif | |
1908 | .match_home = match_home_ddf, | |
1909 | .uuid_from_super= uuid_from_super_ddf, | |
1910 | .getinfo_super = getinfo_super_ddf, | |
1911 | .update_super = update_super_ddf, | |
1912 | ||
1913 | .avail_size = avail_size_ddf, | |
1914 | ||
1915 | .load_super = load_super_ddf, | |
1916 | .init_super = init_zero_ddf, | |
1917 | .store_super = store_zero_ddf, | |
1918 | .free_super = free_super_ddf, | |
1919 | .match_metadata_desc = match_metadata_desc_ddf, | |
1920 | ||
1921 | ||
1922 | .major = 1000, | |
1923 | .swapuuid = 0, | |
1924 | .external = 1, | |
1925 | .text_version = "ddf", | |
1926 | }; | |
1927 | ||
1928 | /* Super_ddf_container is set by validate_geometry_ddf when given a | |
1929 | * device that is not part of any array | |
1930 | */ | |
1931 | struct superswitch super_ddf_container = { | |
1932 | #ifndef MDASSEMBLE | |
1933 | .validate_geometry = validate_geometry_ddf_container, | |
1934 | .write_init_super = write_init_super_ddf, | |
1935 | #endif | |
1936 | ||
1937 | .init_super = init_super_ddf, | |
1938 | .add_to_super = add_to_super_ddf, | |
1939 | ||
1940 | .free_super = free_super_ddf, | |
1941 | ||
1942 | .major = 1000, | |
1943 | .swapuuid = 0, | |
1944 | .external = 1, | |
1945 | .text_version = "ddf", | |
1946 | }; | |
1947 | ||
1948 | struct superswitch super_ddf_bvd = { | |
1949 | #ifndef MDASSEMBLE | |
1950 | // .detail_super = detail_super_ddf_bvd, | |
1951 | // .brief_detail_super = brief_detail_super_ddf_bvd, | |
1952 | .validate_geometry = validate_geometry_ddf_bvd, | |
1953 | #endif | |
1954 | .update_super = update_super_ddf, | |
1955 | .init_super = init_super_ddf, | |
1956 | .getinfo_super = getinfo_super_ddf_bvd, | |
1957 | ||
1958 | .load_super = load_super_ddf, | |
1959 | .free_super = free_super_ddf, | |
1960 | .match_metadata_desc = match_metadata_desc_ddf_bvd, | |
1961 | ||
1962 | ||
1963 | .major = 1001, | |
1964 | .swapuuid = 0, | |
1965 | .external = 1, | |
1966 | .text_version = "ddf", | |
1967 | }; | |
1968 | ||
1969 | struct superswitch super_ddf_svd = { | |
1970 | #ifndef MDASSEMBLE | |
1971 | // .detail_super = detail_super_ddf_svd, | |
1972 | // .brief_detail_super = brief_detail_super_ddf_svd, | |
1973 | .validate_geometry = validate_geometry_ddf_bvd, | |
1974 | #endif | |
1975 | .update_super = update_super_ddf, | |
1976 | .init_super = init_super_ddf, | |
1977 | ||
1978 | .load_super = load_super_ddf, | |
1979 | .free_super = free_super_ddf, | |
1980 | .match_metadata_desc = match_metadata_desc_ddf_svd, | |
1981 | ||
1982 | ||
1983 | .major = 1002, | |
1984 | .swapuuid = 0, | |
1985 | .external = 1, | |
1986 | .text_version = "ddf", | |
1987 | }; |