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SUSE:SLE-12-SP2:Update
mdadm.5365
0093-raid6check-various-cleanup-fixes.patch
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File 0093-raid6check-various-cleanup-fixes.patch of Package mdadm.5365
From 50786d4731bd1768f02348435c6f654f566c581b Mon Sep 17 00:00:00 2001 From: NeilBrown <neilb@suse.de> Date: Mon, 20 Jul 2015 14:11:33 +1000 Subject: [PATCH 136/359] raid6check: various cleanup/fixes References: bsc#1081910 - document meaning of various arrays. In particular: stripes[] blocks[] blocks_page[] block_index_for_slot[] It needs to be clear if these are indexed by raid_disk number or syndrome number. - changed meaning of block_index_for_slot[]. It didn't seem to be used consistently. It also made use of the block numbers in array data ordering, which is not directly relevant for syndrome calculations. - reduced number of args to autorepair and manual_repair There don't need both stripes[] and blocks[]. And they don't need diskP or diskQ. blocks[-1] is the P chunk, blocks[-2] is the Q chunk. block_index_for_slot[] can be used to find the target device for a particular syndrome block. - remove stripe locking from within manual_repair, and instead use the global stripe locking used for check and autorepair. - this necessitated changes to raid6_datap_recov and raid5_2data_reov so the P and Q blocks could be before or after the data blocks. Signed-off-by: NeilBrown <neilb@suse.de> Signed-off-by: Coly Li <colyli@suse.de> --- raid6check.c | 269 ++++++++++++++++++++++++++++++++--------------------------- restripe.c | 28 +++++-- 2 files changed, 168 insertions(+), 129 deletions(-) diff --git a/raid6check.c b/raid6check.c index 6909b50..f019440 100644 --- a/raid6check.c +++ b/raid6check.c @@ -44,9 +44,10 @@ int is_ddf(int layout); void qsyndrome(uint8_t *p, uint8_t *q, uint8_t **sources, int disks, int size); void make_tables(void); void ensure_zero_has_size(int chunk_size); -void raid6_datap_recov(int disks, size_t bytes, int faila, uint8_t **ptrs); +void raid6_datap_recov(int disks, size_t bytes, int faila, uint8_t **ptrs, + int neg_offset); void raid6_2data_recov(int disks, size_t bytes, int faila, int failb, - uint8_t **ptrs); + uint8_t **ptrs, int neg_offset); void xor_blocks(char *target, char **sources, int disks, int size); /* Collect per stripe consistency information */ @@ -160,38 +161,39 @@ int unlock_all_stripes(struct mdinfo *info, sighandler_t *sig) { } /* Autorepair */ -int autorepair(int *disk, int diskP, int diskQ, unsigned long long start, int chunk_size, - char *name[], int raid_disks, int data_disks, char **blocks_page, - char **blocks, uint8_t *p, char **stripes, int *block_index_for_slot, +int autorepair(int *disk, unsigned long long start, int chunk_size, + char *name[], int raid_disks, int syndrome_disks, char **blocks_page, + char **blocks, uint8_t *p, int *block_index_for_slot, int *source, unsigned long long *offsets) { int i, j; int pages_to_write_count = 0; int page_to_write[chunk_size >> CHECK_PAGE_BITS]; for(j = 0; j < (chunk_size >> CHECK_PAGE_BITS); j++) { - if (disk[j] >= 0) { - printf("Auto-repairing slot %d (%s)\n", disk[j], name[disk[j]]); + if (disk[j] >= -2 && block_index_for_slot[disk[j]] >= 0) { + int slot = block_index_for_slot[disk[j]]; + printf("Auto-repairing slot %d (%s)\n", slot, name[slot]); pages_to_write_count++; page_to_write[j] = 1; - for(i = 0; i < raid_disks; i++) { + for(i = -2; i < syndrome_disks; i++) { blocks_page[i] = blocks[i] + j * CHECK_PAGE_SIZE; } - if (disk[j] == diskQ) { - qsyndrome(p, (uint8_t*)stripes[diskQ] + j * CHECK_PAGE_SIZE, (uint8_t**)blocks_page, data_disks, CHECK_PAGE_SIZE); + if (disk[j] == -2) { + qsyndrome(p, (uint8_t*)blocks_page[-2], + (uint8_t**)blocks_page, + syndrome_disks, CHECK_PAGE_SIZE); } else { - char *all_but_failed_blocks[data_disks]; - int failed_block_index = block_index_for_slot[disk[j]]; - for(i = 0; i < data_disks; i++) { - if (failed_block_index == i) { - all_but_failed_blocks[i] = stripes[diskP] + j * CHECK_PAGE_SIZE; - } - else { + char *all_but_failed_blocks[syndrome_disks]; + for(i = 0; i < syndrome_disks; i++) { + if (i == disk[j]) + all_but_failed_blocks[i] = blocks_page[-1]; + else all_but_failed_blocks[i] = blocks_page[i]; - } } - xor_blocks(stripes[disk[j]] + j * CHECK_PAGE_SIZE, - all_but_failed_blocks, data_disks, CHECK_PAGE_SIZE); + xor_blocks(blocks_page[disk[j]], + all_but_failed_blocks, syndrome_disks, + CHECK_PAGE_SIZE); } } else { @@ -203,8 +205,11 @@ int autorepair(int *disk, int diskP, int diskQ, unsigned long long start, int ch int write_res = 0; for(j = 0; j < (chunk_size >> CHECK_PAGE_BITS); j++) { if(page_to_write[j] == 1) { - lseek64(source[disk[j]], offsets[disk[j]] + start * chunk_size + j * CHECK_PAGE_SIZE, SEEK_SET); - write_res += write(source[disk[j]], stripes[disk[j]] + j * CHECK_PAGE_SIZE, CHECK_PAGE_SIZE); + int slot = block_index_for_slot[disk[j]]; + lseek64(source[slot], offsets[slot] + start * chunk_size + j * CHECK_PAGE_SIZE, SEEK_SET); + write_res += write(source[slot], + blocks[disk[j]] + j * CHECK_PAGE_SIZE, + CHECK_PAGE_SIZE); } } @@ -218,101 +223,83 @@ int autorepair(int *disk, int diskP, int diskQ, unsigned long long start, int ch } /* Manual repair */ -int manual_repair(int diskP, int diskQ, int chunk_size, int raid_disks, int data_disks, - int failed_disk1, int failed_disk2, unsigned long long start, int *block_index_for_slot, - char *name[], char **stripes, char **blocks, uint8_t *p, struct mdinfo *info, sighandler_t *sig, +int manual_repair(int chunk_size, int syndrome_disks, + int failed_slot1, int failed_slot2, + unsigned long long start, int *block_index_for_slot, + char *name[], char **stripes, char **blocks, uint8_t *p, int *source, unsigned long long *offsets) { - int err = 0; int i; + int fd1 = block_index_for_slot[failed_slot1]; + int fd2 = block_index_for_slot[failed_slot2]; printf("Repairing stripe %llu\n", start); printf("Assuming slots %d (%s) and %d (%s) are incorrect\n", - failed_disk1, name[failed_disk1], - failed_disk2, name[failed_disk2]); + fd1, name[fd1], + fd2, name[fd2]); - if (failed_disk1 == diskQ || failed_disk2 == diskQ) { - char *all_but_failed_blocks[data_disks]; + if (failed_slot1 == -2 || failed_slot2 == -2) { + char *all_but_failed_blocks[syndrome_disks]; int failed_data_or_p; - int failed_block_index; - if (failed_disk1 == diskQ) { - failed_data_or_p = failed_disk2; - } - else { - failed_data_or_p = failed_disk1; - } + if (failed_slot1 == -2) + failed_data_or_p = failed_slot2; + else + failed_data_or_p = failed_slot1; + printf("Repairing D/P(%d) and Q\n", failed_data_or_p); - failed_block_index = block_index_for_slot[failed_data_or_p]; - for (i = 0; i < data_disks; i++) { - if (failed_block_index == i) { - all_but_failed_blocks[i] = stripes[diskP]; - } - else { + + for (i = 0; i < syndrome_disks; i++) { + if (i == failed_data_or_p) + all_but_failed_blocks[i] = blocks[-1]; + else all_but_failed_blocks[i] = blocks[i]; - } } - xor_blocks(stripes[failed_data_or_p], - all_but_failed_blocks, data_disks, chunk_size); - qsyndrome(p, (uint8_t*)stripes[diskQ], (uint8_t**)blocks, data_disks, chunk_size); - } - else { + xor_blocks(blocks[failed_data_or_p], + all_but_failed_blocks, syndrome_disks, chunk_size); + qsyndrome(p, (uint8_t*)blocks[-2], (uint8_t**)blocks, + syndrome_disks, chunk_size); + } else { ensure_zero_has_size(chunk_size); - if (failed_disk1 == diskP || failed_disk2 == diskP) { - int failed_data, failed_block_index; - if (failed_disk1 == diskP) { - failed_data = failed_disk2; - } - else { - failed_data = failed_disk1; - } - failed_block_index = block_index_for_slot[failed_data]; - printf("Repairing D(%d) and P\n", failed_data); - raid6_datap_recov(raid_disks, chunk_size, failed_block_index, (uint8_t**)blocks); - } - else { + if (failed_slot1 == -1 || failed_slot2 == -1) { + int failed_data; + if (failed_slot1 == -1) + failed_data = failed_slot2; + else + failed_data = failed_slot1; + printf("Repairing D(%d) and P\n", failed_data); + raid6_datap_recov(syndrome_disks+2, chunk_size, + failed_data, (uint8_t**)blocks, 1); + } else { printf("Repairing D and D\n"); - int failed_block_index1 = block_index_for_slot[failed_disk1]; - int failed_block_index2 = block_index_for_slot[failed_disk2]; - if (failed_block_index1 > failed_block_index2) { - int t = failed_block_index1; - failed_block_index1 = failed_block_index2; - failed_block_index2 = t; + if (failed_slot1 > failed_slot2) { + int t = failed_slot1; + failed_slot1 = failed_slot2; + failed_slot2 = t; } - raid6_2data_recov(raid_disks, chunk_size, failed_block_index1, failed_block_index2, (uint8_t**)blocks); + raid6_2data_recov(syndrome_disks+2, chunk_size, + failed_slot1, failed_slot2, + (uint8_t**)blocks, 1); } } - err = lock_stripe(info, start, chunk_size, data_disks, sig); - if(err != 0) { - if (err != 2) { - return -1; - } - return -2;; - } - int write_res1, write_res2; off64_t seek_res; - seek_res = lseek64(source[failed_disk1], - offsets[failed_disk1] + start * chunk_size, SEEK_SET); + seek_res = lseek64(source[fd1], + offsets[fd1] + start * chunk_size, SEEK_SET); if (seek_res < 0) { fprintf(stderr, "lseek failed for failed_disk1\n"); return -1; } - write_res1 = write(source[failed_disk1], stripes[failed_disk1], chunk_size); + write_res1 = write(source[fd1], blocks[failed_slot1], chunk_size); - seek_res = lseek64(source[failed_disk2], - offsets[failed_disk2] + start * chunk_size, SEEK_SET); + seek_res = lseek64(source[fd2], + offsets[fd2] + start * chunk_size, SEEK_SET); if (seek_res < 0) { - fprintf(stderr, "lseek failed for failed_disk1\n"); + fprintf(stderr, "lseek failed for failed_disk2\n"); return -1; } - write_res2 = write(source[failed_disk2], stripes[failed_disk2], chunk_size); - - err = unlock_all_stripes(info, sig); - if(err != 0) { - return -2; - } + write_res2 = write(source[fd2], blocks[failed_slot2], chunk_size); if (write_res1 != chunk_size || write_res2 != chunk_size) { fprintf(stderr, "Failed to write a complete chunk.\n"); @@ -331,10 +318,27 @@ int check_stripes(struct mdinfo *info, int *source, unsigned long long *offsets, int data_disks = raid_disks - 2; int syndrome_disks = data_disks + is_ddf(layout) * 2; char *stripe_buf = xmalloc(raid_disks * chunk_size); + + /* stripes[] is indexed by raid_disk and holds chunks from each device */ char **stripes = xmalloc(raid_disks * sizeof(char*)); + + /* blocks[] is indexed by syndrome number and points to either one of the + * chunks from 'stripes[]', or to a chunk of zeros. -1 and -2 are + * P and Q */ char **blocks = xmalloc((syndrome_disks + 2) * sizeof(char*)); - char **blocks_page = xmalloc(raid_disks * sizeof(char*)); + + /* blocks_page[] is a temporary index to just one page of the chunks + * that blocks[] points to. */ + char **blocks_page = xmalloc((syndrome_disks + 2) * sizeof(char*)); + + /* block_index_for_slot[] provides the reverse mapping from blocks to stripes. + * The index is a syndrome position, the content is a raid_disk number. + * indicies -1 and -2 work, and are P and Q disks */ int *block_index_for_slot = xmalloc((syndrome_disks+2) * sizeof(int)); + + /* 'p' and 'q' contain calcualted P and Q, to be compared with + * blocks[-1] and blocks[-2]; + */ uint8_t *p = xmalloc(chunk_size); uint8_t *q = xmalloc(chunk_size); char *zero = xmalloc(chunk_size); @@ -350,11 +354,19 @@ int check_stripes(struct mdinfo *info, int *source, unsigned long long *offsets, if (!tables_ready) make_tables(); + block_index_for_slot += 2; + blocks += 2; + blocks_page += 2; + memset(zero, 0, chunk_size); for ( i = 0 ; i < raid_disks ; i++) stripes[i] = stripe_buf + i * chunk_size; while (length > 0) { + /* The syndrome number of the broken disk is recorded + * in 'disk[]' which allows a different broken disk for + * each page. + */ int disk[chunk_size >> CHECK_PAGE_BITS]; err = lock_stripe(info, start, chunk_size, data_disks, sig); @@ -382,7 +394,13 @@ int check_stripes(struct mdinfo *info, int *source, unsigned long long *offsets, } diskP = geo_map(-1, start, raid_disks, level, layout); + block_index_for_slot[-1] = diskP; + blocks[-1] = stripes[diskP]; + diskQ = geo_map(-2, start, raid_disks, level, layout); + block_index_for_slot[-2] = diskQ; + blocks[-2] = stripes[diskQ]; + if (!is_ddf(layout)) { /* The syndrome-order of disks starts immediately after 'Q', * but skips P */ @@ -396,46 +414,47 @@ int check_stripes(struct mdinfo *info, int *source, unsigned long long *offsets, if (diskD >= raid_disks) diskD = 0; blocks[i] = stripes[diskD]; - block_index_for_slot[diskD] = i; + block_index_for_slot[i] = diskD; } } else { /* The syndrome-order exactly follows raid-disk * numbers, with ZERO in place of P and Q */ - for (i = 0 ; i < raid_disks; i++) - if (i == diskP || i == diskQ) + for (i = 0 ; i < raid_disks; i++) { + if (i == diskP || i == diskQ) { blocks[i] = zero; - else + block_index_for_slot[i] = -1; + } else { blocks[i] = stripes[i]; + block_index_for_slot[i] = i; + } + } } qsyndrome(p, q, (uint8_t**)blocks, syndrome_disks, chunk_size); - blocks[syndrome_disks] = stripes[diskP]; - block_index_for_slot[diskP] = data_disks; - blocks[syndrome_disks+1] = stripes[diskQ]; - block_index_for_slot[diskQ] = data_disks+1; raid6_collect(chunk_size, p, q, stripes[diskP], stripes[diskQ], results); raid6_stats(disk, results, raid_disks, chunk_size); for(j = 0; j < (chunk_size >> CHECK_PAGE_BITS); j++) { int role = disk[j]; - if(disk[j] >= -2) { - disk[j] = geo_map(disk[j], start, raid_disks, level, layout); - } - if(disk[j] >= 0) { - printf("Error detected at stripe %llu, page %d: possible failed disk slot %d: %d --> %s\n", - start, j, role, disk[j], name[disk[j]]); - } - if(disk[j] == -65535) { + if (role >= -2) { + int slot = block_index_for_slot[role]; + if (slot >= 0) + printf("Error detected at stripe %llu, page %d: possible failed disk slot %d: %d --> %s\n", + start, j, role, slot, name[slot]); + else + printf("Error detected at stripe %llu, page %d: failed slot %d should be zeros\n", + start, j, role); + } else if(disk[j] == -65535) { printf("Error detected at stripe %llu, page %d: disk slot unknown\n", start, j); } } if(repair == AUTO_REPAIR) { - err = autorepair(disk, diskP, diskQ, start, chunk_size, - name, raid_disks, data_disks, blocks_page, - blocks, p, stripes, block_index_for_slot, + err = autorepair(disk, start, chunk_size, + name, raid_disks, syndrome_disks, blocks_page, + blocks, p, block_index_for_slot, source, offsets); if(err != 0) { unlock_all_stripes(info, sig); @@ -443,22 +462,30 @@ int check_stripes(struct mdinfo *info, int *source, unsigned long long *offsets, } } - err = unlock_all_stripes(info, sig); - if(err != 0) { - goto exitCheck; - } - if(repair == MANUAL_REPAIR) { - err = manual_repair(diskP, diskQ, chunk_size, raid_disks, data_disks, - failed_disk1, failed_disk2, start, block_index_for_slot, - name, stripes, blocks, p, info, sig, - source, offsets); + int failed_slot1 = -1, failed_slot2 = -1; + for (i = -2; i < syndrome_disks; i++) { + if (block_index_for_slot[i] == failed_disk1) + failed_slot1 = i; + if (block_index_for_slot[i] == failed_disk2) + failed_slot2 = i; + } + err = manual_repair(chunk_size, syndrome_disks, + failed_slot1, failed_slot2, + start, block_index_for_slot, + name, stripes, blocks, p, + source, offsets); if(err == -1) { unlock_all_stripes(info, sig); goto exitCheck; } } + err = unlock_all_stripes(info, sig); + if(err != 0) { + goto exitCheck; + } + length--; start++; } @@ -467,9 +494,9 @@ exitCheck: free(stripe_buf); free(stripes); - free(blocks); - free(blocks_page); - free(block_index_for_slot); + free(blocks-2); + free(blocks_page-2); + free(block_index_for_slot-2); free(p); free(q); free(results); diff --git a/restripe.c b/restripe.c index 40d6061..1c859a3 100644 --- a/restripe.c +++ b/restripe.c @@ -345,16 +345,22 @@ void ensure_zero_has_size(int chunk_size) /* Following was taken from linux/drivers/md/raid6recov.c */ /* Recover two failed data blocks. */ + void raid6_2data_recov(int disks, size_t bytes, int faila, int failb, - uint8_t **ptrs) + uint8_t **ptrs, int neg_offset) { uint8_t *p, *q, *dp, *dq; uint8_t px, qx, db; const uint8_t *pbmul; /* P multiplier table for B data */ const uint8_t *qmul; /* Q multiplier table (for both) */ - p = ptrs[disks-2]; - q = ptrs[disks-1]; + if (neg_offset) { + p = ptrs[-1]; + q = ptrs[-2]; + } else { + p = ptrs[disks-2]; + q = ptrs[disks-1]; + } /* Compute syndrome with zero for the missing data pages Use the dead data pages as temporary storage for @@ -385,13 +391,19 @@ void raid6_2data_recov(int disks, size_t bytes, int faila, int failb, } /* Recover failure of one data block plus the P block */ -void raid6_datap_recov(int disks, size_t bytes, int faila, uint8_t **ptrs) +void raid6_datap_recov(int disks, size_t bytes, int faila, uint8_t **ptrs, + int neg_offset) { uint8_t *p, *q, *dq; const uint8_t *qmul; /* Q multiplier table */ - p = ptrs[disks-2]; - q = ptrs[disks-1]; + if (neg_offset) { + p = ptrs[-1]; + q = ptrs[-2]; + } else { + p = ptrs[disks-2]; + q = ptrs[disks-1]; + } /* Compute syndrome with zero for the missing data page Use the dead data page as temporary storage for delta q */ @@ -637,7 +649,7 @@ int save_stripes(int *source, unsigned long long *offsets, if (fblock[1] == data_disks) /* One data failed, and parity failed */ raid6_datap_recov(syndrome_disks+2, chunk_size, - fdisk[0], bufs); + fdisk[0], bufs, 0); else { if (fdisk[0] > fdisk[1]) { int t = fdisk[0]; @@ -646,7 +658,7 @@ int save_stripes(int *source, unsigned long long *offsets, } /* Two data blocks failed, P,Q OK */ raid6_2data_recov(syndrome_disks+2, chunk_size, - fdisk[0], fdisk[1], bufs); + fdisk[0], fdisk[1], bufs, 0); } } if (dest) { -- 2.16.1
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