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dminfo.c
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dminfo.c
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/* dminfo.c - crash extension module for device-mapper analysis
*
* Copyright (C) 2005 NEC Corporation
* Copyright (C) 2005 Red Hat, Inc. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include "defs.h" /* From the crash source top-level directory */
void dminfo_init(void);
void dminfo_fini(void);
/*
* Indices of size-offset array (Used by GET_xxx macros)
*
* DM_<struct name>_<member name>
*/
enum {
DM_hash_cell_name_list = 0,
DM_hash_cell_name,
DM_hash_cell_md,
DM_mapped_device_disk,
DM_mapped_device_map,
DM_gendisk_major,
DM_gendisk_first_minor,
DM_gendisk_disk_name,
DM_dm_table_num_targets,
DM_dm_table_targets,
DM_dm_table_devices,
DM_dm_target_type,
DM_dm_target_begin,
DM_dm_target_len,
DM_dm_target_private,
DM_dm_dev_count,
DM_dm_dev_bdev,
DM_dm_dev_name,
DM_dm_io_md,
DM_dm_io_bio,
DM_target_type_name,
DM_target_io_io,
DM_block_device_bd_disk,
DM_bio_bi_private,
DM_bio_list_head,
DM_linear_c_dev,
DM_linear_c_start,
DM_multipath_hw_handler,
DM_multipath_nr_priority_groups,
DM_multipath_priority_groups,
DM_multipath_nr_valid_paths,
DM_multipath_current_pg,
DM_multipath_queue_if_no_path,
DM_multipath_queue_size,
DM_hw_handler_type,
DM_hw_handler_type_name,
DM_priority_group_ps,
DM_priority_group_pg_num,
DM_priority_group_bypassed,
DM_priority_group_nr_pgpaths,
DM_priority_group_pgpaths,
DM_path_selector_type,
DM_path_selector_type_name,
DM_pgpath_fail_count,
DM_pgpath_path,
DM_path_dev,
DM_path_is_active,
DM_mirror_set_rh,
DM_mirror_set_reads,
DM_mirror_set_writes,
DM_mirror_set_in_sync,
DM_mirror_set_nr_mirrors,
DM_mirror_set_mirror,
DM_region_hash_log,
DM_region_hash_quiesced_regions,
DM_region_hash_recovered_regions,
DM_dirty_log_type,
DM_dirty_log_type_name,
DM_mirror_error_count,
DM_mirror_dev,
DM_mirror_offset,
DM_crypt_config_dev,
DM_crypt_config_iv_mode,
DM_crypt_config_tfm,
DM_crypt_config_key_size,
DM_crypt_config_key,
DM_crypto_tfm_crt_u,
DM_crypto_tfm___crt_alg,
DM_crypto_alg_cra_name,
DM_cipher_tfm_cit_mode,
DM_stripe_c_stripes,
DM_stripe_c_chunk_mask,
DM_stripe_c_stripe,
DM_stripe_dev,
DM_dm_snapshot_origin,
DM_dm_snapshot_cow,
DM_dm_snapshot_chunk_size,
DM_dm_snapshot_valid,
DM_dm_snapshot_type,
NR_DMINFO_MEMBER_TABLE_ENTRY
};
/* Size-offset array for structure's member */
static struct dminfo_member_entry {
unsigned long offset;
unsigned long size;
} mbr_ary[NR_DMINFO_MEMBER_TABLE_ENTRY];
/*
* Macros to retrieve data of given structure's member
*
* Macros except for the MSG assume 'struct s' is at 'addr'
*/
#define MSG(msg, s, m) msg ": " s "." m
/* Initialize the size-offset array */
#define INIT_MBR_TABLE(s, m) \
do { \
if (!mbr_ary[DM_##s##_##m].size) { \
mbr_ary[DM_##s##_##m].offset = MEMBER_OFFSET("struct " #s, #m); \
mbr_ary[DM_##s##_##m].size = MEMBER_SIZE("struct " #s, #m); \
} \
} while (0)
/*
* Store the data of member m in ret.
* Initialize the size-offset array for the member m if needed.
*/
#define GET_VALUE(addr, s, m, ret) \
do { \
INIT_MBR_TABLE(s, m); \
if (sizeof(ret) < mbr_ary[DM_##s##_##m].size) \
fprintf(fp, "%s\n", \
MSG("ERROR: GET_VALUE size_check", #s, #m)); \
readmem(addr + mbr_ary[DM_##s##_##m].offset, KVADDR, &ret, \
mbr_ary[DM_##s##_##m].size, MSG("GET_VALUE", #s, #m), \
FAULT_ON_ERROR);\
} while (0)
/*
* Store the address of member m in ret.
* Initialize the size-offset array for the member m if needed.
*/
#define GET_ADDR(addr, s, m, ret) \
do { \
INIT_MBR_TABLE(s, m); \
ret = addr + mbr_ary[DM_##s##_##m].offset; \
} while (0)
/*
* Store the string data of member m in ret.
* Initialize the size-offset array for the member m if needed.
*/
#define GET_STR(addr, s, m, ret, len) \
do { \
INIT_MBR_TABLE(s, m); \
if (!read_string(addr + mbr_ary[DM_##s##_##m].offset, ret, len - 1)) \
fprintf(fp, "%s\n", MSG("ERROR: GET_STR", #s, #m)); \
} while (0)
/*
* Store the string data pointed by member m in ret.
* Initialize the size-offset array for the member m if needed.
*/
#define GET_PTR_STR(addr, s, m, ret, len) \
do { \
unsigned long tmp; \
INIT_MBR_TABLE(s, m); \
readmem(addr + mbr_ary[DM_##s##_##m].offset, KVADDR, &tmp, \
mbr_ary[DM_##s##_##m].size, MSG("GET_PTR_STR", #s, #m),\
FAULT_ON_ERROR);\
if (!read_string(tmp, ret, len - 1)) \
fprintf(fp, "%s\n", MSG("ERROR: GET_PTR_STR", #s, #m));\
} while (0)
/*
* Utility function/macro to walk the list
*/
static unsigned long
get_next_from_list_head(unsigned long addr)
{
unsigned long ret;
readmem(addr + OFFSET(list_head_next), KVADDR, &ret, sizeof(void *),
MSG("get_next_from_list_head", "list_head", "next"),
FAULT_ON_ERROR);
return ret;
}
#define list_for_each(next, head, last) \
for (next = get_next_from_list_head(head), last = 0UL; \
next && next != head && next != last; \
last = next, next = get_next_from_list_head(next))
/*
* device-mapper target analyzer
*
* device-mapper has various target driver: linear, mirror, multipath, etc.
* Information specific to target is stored in its own way.
* Target-specific analyzer is provided for each target driver for this reason.
*/
static struct dminfo_target_analyzer {
struct dminfo_target_analyzer *next;
char *target_name;
int (*ready) (void); /* returns true if analyzer is available */
void (*show_table) (unsigned long); /* display table info */
void (*show_status) (unsigned long); /* display status info */
void (*show_queue) (unsigned long); /* display queued I/O info */
} analyzers_head;
static void
dminfo_register_target_analyzer(struct dminfo_target_analyzer *ta)
{
ta->next = analyzers_head.next;
analyzers_head.next = ta;
}
static struct
dminfo_target_analyzer *find_target_analyzer(char *target_type)
{
struct dminfo_target_analyzer *ta;
for (ta = analyzers_head.next; ta; ta = ta->next)
if (!strcmp(ta->target_name, target_type))
return ta;
return NULL;
}
/*
* zero target
*/
static int
zero_ready(void)
{
return 1;
}
static void
zero_show_table(unsigned long target)
{
unsigned long long start, len;
/* Get target information */
GET_VALUE(target, dm_target, begin, start);
GET_VALUE(target, dm_target, len, len);
fprintf(fp, " begin:%llu len:%llu", start, len);
}
static void
zero_show_status(unsigned long target)
{
/* zero target has no status */
fprintf(fp, " No status info");
}
static void
zero_show_queue(unsigned long target)
{
/* zero target has no queue */
fprintf(fp, " No queue info");
}
static struct dminfo_target_analyzer zero_analyzer = {
.target_name = "zero",
.ready = zero_ready,
.show_table = zero_show_table,
.show_status = zero_show_status,
.show_queue = zero_show_queue
};
/*
* error target
*/
static int
error_ready(void)
{
return 1;
}
static void
error_show_table(unsigned long target)
{
unsigned long long start, len;
/* Get target information */
GET_VALUE(target, dm_target, begin, start);
GET_VALUE(target, dm_target, len, len);
fprintf(fp, " begin:%llu len:%llu", start, len);
}
static void
error_show_status(unsigned long target)
{
/* error target has no status */
fprintf(fp, " No status info");
}
static void
error_show_queue(unsigned long target)
{
/* error target has no queue */
fprintf(fp, " No queue info");
}
static struct dminfo_target_analyzer error_analyzer = {
.target_name = "error",
.ready = error_ready,
.show_table = error_show_table,
.show_status = error_show_status,
.show_queue = error_show_queue
};
/*
* linear target
*/
static int
linear_ready(void)
{
static int debuginfo = 0;
if (debuginfo)
return 1;
if (STRUCT_EXISTS("struct linear_c")) {
debuginfo = 1;
return 1;
} else
fprintf(fp, "No such struct info: linear_c");
return 0;
}
static void
linear_show_table(unsigned long target)
{
unsigned long lc, dm_dev;
unsigned long long start, len, offset;
char devt[BUFSIZE];
/* Get target information */
GET_VALUE(target, dm_target, begin, start);
GET_VALUE(target, dm_target, len, len);
GET_VALUE(target, dm_target, private, lc);
GET_VALUE(lc, linear_c, dev, dm_dev);
GET_STR(dm_dev, dm_dev, name, devt, BUFSIZE);
GET_VALUE(lc, linear_c, start, offset);
fprintf(fp, " begin:%llu len:%llu dev:%s offset:%llu",
start, len, devt, offset);
}
static void
linear_show_status(unsigned long target)
{
/* linear target has no status */
fprintf(fp, " No status info");
}
static void
linear_show_queue(unsigned long target)
{
/* linear target has no I/O queue */
fprintf(fp, " No queue info");
}
static struct dminfo_target_analyzer linear_analyzer = {
.target_name = "linear",
.ready = linear_ready,
.show_table = linear_show_table,
.show_status = linear_show_status,
.show_queue = linear_show_queue
};
/*
* mirror target
*/
static int
mirror_ready(void)
{
static int debuginfo = 0;
if (debuginfo)
return 1;
if (STRUCT_EXISTS("struct mirror_set")) {
debuginfo = 1;
return 1;
} else
fprintf(fp, "No such struct info: mirror_set");
return 0;
}
static void
mirror_show_table(unsigned long target)
{
unsigned int i, nr_mir;
unsigned long ms, rh, log, log_type, mir_size, mir_head, mir, dm_dev;
unsigned long long offset;
char buf[BUFSIZE];
/* Get the address of struct mirror_set */
GET_VALUE(target, dm_target, private, ms);
/* Get the log-type name of the mirror_set */
GET_ADDR(ms, mirror_set, rh, rh);
GET_VALUE(rh, region_hash, log, log);
GET_VALUE(log, dirty_log, type, log_type);
GET_PTR_STR(log_type, dirty_log_type, name, buf, BUFSIZE);
fprintf(fp, " log:%s", buf);
/*
* Display information for each mirror disks.
*
* mir_head = mirror_set.mirror.
* This is the head of struct mirror array.
*/
fprintf(fp, " dev:");
mir_size = STRUCT_SIZE("struct mirror");
GET_ADDR(ms, mirror_set, mirror, mir_head);
GET_VALUE(ms, mirror_set, nr_mirrors, nr_mir);
for (i = 0; i < nr_mir; i++) {
mir = mir_head + mir_size * i; /* Get next mirror */
/* Get the devt of the mirror disk */
GET_VALUE(mir, mirror, dev, dm_dev);
GET_STR(dm_dev, dm_dev, name, buf, BUFSIZE);
/* Get the offset of the mirror disk */
GET_VALUE(mir, mirror, offset, offset);
fprintf(fp, "%s(%llu)%s", buf, offset,
i == nr_mir - 1 ? "" : ",");
}
if (i != nr_mir)
fprintf(fp, " ERROR: dev are less than nr_mir:%d", nr_mir);
}
static void
mirror_show_status(unsigned long target)
{
unsigned int i, nr_mir, synced, nr_error;
unsigned long ms, mir_size, mir_head, mir, dm_dev;
char buf[BUFSIZE];
/* Get the address of struct mirror_set */
GET_VALUE(target, dm_target, private, ms);
/* Get the status info of the mirror_set */
GET_VALUE(ms, mirror_set, in_sync, synced);
fprintf(fp, " in_sync:%d", synced);
/*
* Display information for each mirror disks.
*
* mir_head = mirror_set.mirror.
* This is the head of struct mirror array.
*/
fprintf(fp, " dev:");
mir_size = STRUCT_SIZE("struct mirror");
GET_ADDR(ms, mirror_set, mirror, mir_head);
GET_VALUE(ms, mirror_set, nr_mirrors, nr_mir);
for (i = 0; i < nr_mir; i++) {
mir = mir_head + mir_size * i; /* Get next mirror */
/* Get the devt of the mirror disk */
GET_VALUE(mir, mirror, dev, dm_dev);
GET_STR(dm_dev, dm_dev, name, buf, BUFSIZE);
/* Get the offset of the mirror disk */
GET_VALUE(mir, mirror, error_count, nr_error);
fprintf(fp, "%s(%c,%d)%s", buf, nr_error ? 'D' : 'A', nr_error,
i == nr_mir - 1 ? "" : ",");
}
if (i != nr_mir)
fprintf(fp, " ERROR: dev are less than nr_mir:%d", nr_mir);
}
static void
mirror_show_queue(unsigned long target)
{
unsigned long ms, rlist, wlist, rhead, whead;
unsigned long rh, quis_head, rcov_head, quis_next, rcov_next;
/* Get the address of struct mirror_set */
GET_VALUE(target, dm_target, private, ms);
/* Get the address of queued I/O lists in struct mirror_set */
GET_ADDR(ms, mirror_set, reads, rlist);
GET_ADDR(ms, mirror_set, writes, wlist);
/* Get the head of queued I/O lists */
GET_VALUE(rlist, bio_list, head, rhead);
GET_VALUE(wlist, bio_list, head, whead);
fprintf(fp, " %s", rhead ? "reads" : "(reads)");
fprintf(fp, " %s", whead ? "writes" : "(writes)");
/* Get the address of the struct region_hash */
GET_ADDR(ms, mirror_set, rh, rh);
/* Get the address of recover region lists in struct region_hash */
GET_ADDR(rh, region_hash, quiesced_regions, quis_head);
GET_ADDR(rh, region_hash, recovered_regions, rcov_head);
/* Get the head of recover region lists */
quis_next = get_next_from_list_head(quis_head);
rcov_next = get_next_from_list_head(rcov_head);
fprintf(fp, " %s", quis_next != quis_head ? "quiesced" : "(quiesced)");
fprintf(fp, " %s", rcov_next != rcov_head ? "recovered" : "(recovered)");
}
static struct dminfo_target_analyzer mirror_analyzer = {
.target_name = "mirror",
.ready = mirror_ready,
.show_table = mirror_show_table,
.show_status = mirror_show_status,
.show_queue = mirror_show_queue
};
/*
* multipath target
*/
static int
multipath_ready(void)
{
static int debuginfo = 0;
if (debuginfo)
return 1;
if (STRUCT_EXISTS("struct multipath")) {
debuginfo = 1;
return 1;
} else
fprintf(fp, "No such struct info: multipath");
return 0;
}
static void
multipath_show_table(unsigned long target)
{
int i, j;
unsigned int queue_if_no_path, nr_pgs, pg_id, nr_paths;
unsigned long mp, hwh, hwh_type, ps, ps_type, path, dm_dev;
unsigned long pg_head, pg_next, pg_last;
unsigned long path_head, path_next, path_last;
char name[BUFSIZE];
/* Get the address of struct multipath */
GET_VALUE(target, dm_target, private, mp);
/* Get features information */
GET_VALUE(mp, multipath, queue_if_no_path, queue_if_no_path);
/* Get the hardware-handler information */
GET_ADDR(mp, multipath, hw_handler, hwh);
GET_VALUE(hwh, hw_handler, type, hwh_type);
if (hwh_type)
GET_PTR_STR(hwh_type, hw_handler_type, name, name, BUFSIZE);
else
strcpy(name, "none");
/* Get the number of priority groups */
GET_VALUE(mp, multipath, nr_priority_groups, nr_pgs);
fprintf(fp, " queue_if_no_path:%d hwh:%s nr_pgs:%d\n",
queue_if_no_path, name, nr_pgs);
/* Display information for each priority group */
fprintf(fp, " %-2s %-13s %-8s %s",
"PG", "PATH_SELECTOR", "NR_PATHS", "PATHS");
GET_ADDR(mp, multipath, priority_groups, pg_head);
i = 0;
list_for_each (pg_next, pg_head, pg_last) {
/* pg_next == struct priority_group */
/* Get the index of the priority group */
GET_VALUE(pg_next, priority_group, pg_num, pg_id);
/* Get the name of path selector */
GET_ADDR(pg_next, priority_group, ps, ps);
GET_VALUE(ps, path_selector, type, ps_type);
GET_PTR_STR(ps_type, path_selector_type, name, name, BUFSIZE);
/* Get the number of paths in the priority group */
GET_VALUE(pg_next, priority_group, nr_pgpaths, nr_paths);
fprintf(fp, "\n %-2d %-13s %-8d ", pg_id, name, nr_paths);
/* Display information for each path */
GET_ADDR(pg_next, priority_group, pgpaths, path_head);
j = 0;
list_for_each (path_next, path_head, path_last) {
/* path_next == struct pgpath */
/* Get the devt of the pgpath */
GET_ADDR(path_next, pgpath, path, path);
GET_VALUE(path, path, dev, dm_dev);
GET_STR(dm_dev, dm_dev, name, name, BUFSIZE);
fprintf(fp, " %s", name);
j++;
}
if (j != nr_paths)
fprintf(fp, " ERROR: paths are less than nr_paths:%d",
nr_paths);
i++;
}
if (i != nr_pgs)
fprintf(fp, " ERROR: pgs are less than nr_pgs:%d", nr_pgs);
}
static void
multipath_show_status(unsigned long target)
{
int i, j;
unsigned int queue_if_no_path, nr_pgs, pg_id, nr_paths;
unsigned int bypassed_pg, path_active, nr_fails;
unsigned long mp, hwh, hwh_type, cur_pg, path, dm_dev;
unsigned long pg_head, pg_next, pg_last;
unsigned long path_head, path_next, path_last;
char buf[BUFSIZE], path_status;
/* Get the address of struct multipath */
GET_VALUE(target, dm_target, private, mp);
/* Get features information */
GET_VALUE(mp, multipath, queue_if_no_path, queue_if_no_path);
/* Get the hardware-handler information */
GET_ADDR(mp, multipath, hw_handler, hwh);
GET_VALUE(hwh, hw_handler, type, hwh_type);
if (hwh_type)
GET_PTR_STR(hwh_type, hw_handler_type, name, buf, BUFSIZE);
else
strcpy(buf, "none");
/* Get the number of priority groups */
GET_VALUE(mp, multipath, nr_priority_groups, nr_pgs);
fprintf(fp, " queue_if_no_path:%d hwh:%s nr_pgs:%d\n",
queue_if_no_path, buf, nr_pgs);
/* Display information for each priority group */
fprintf(fp, " %-2s %-9s %-8s %s",
"PG", "PG_STATUS", "NR_PATHS", "PATHS");
GET_ADDR(mp, multipath, priority_groups, pg_head);
i = 0;
list_for_each (pg_next, pg_head, pg_last) {
/* pg_next == struct priority_group */
/* Get the index of the priority group */
GET_VALUE(pg_next, priority_group, pg_num, pg_id);
/* Get the status of the priority group */
GET_VALUE(pg_next, priority_group, bypassed, bypassed_pg);
if (bypassed_pg)
strcpy(buf, "disabled");
else {
GET_VALUE(mp, multipath, current_pg, cur_pg);
if (pg_next == cur_pg)
strcpy(buf, "active");
else
strcpy(buf, "enabled");
}
/* Get the number of paths in the priority group */
GET_VALUE(pg_next, priority_group, nr_pgpaths, nr_paths);
fprintf(fp, "\n %-2d %-9s %-8d ", pg_id, buf, nr_paths);
/* Display information for each path */
GET_ADDR(pg_next, priority_group, pgpaths, path_head);
j = 0;
list_for_each (path_next, path_head, path_last) {
/* path_next == struct pgpath */
/* Get the devt of the pgpath */
GET_ADDR(path_next, pgpath, path, path);
GET_VALUE(path, path, dev, dm_dev);
GET_STR(dm_dev, dm_dev, name, buf, BUFSIZE);
/* Get the status of the path */
GET_VALUE(path, path, is_active, path_active);
GET_VALUE(path_next, pgpath, fail_count, nr_fails);
path_status = path_active ? 'A' : 'F';
fprintf(fp, " %s(%c,%u)", buf, path_status, nr_fails);
j++;
}
if (j != nr_paths)
fprintf(fp, " ERROR: paths are less than nr_paths:%d",
nr_paths);
i++;
}
if (i != nr_pgs)
fprintf(fp, " ERROR: pgs are less than nr_pgs:%d", nr_pgs);
}
static void
multipath_show_queue(unsigned long target)
{
unsigned int queue_size;
unsigned long mp;
/* Get the address of struct multipath */
GET_VALUE(target, dm_target, private, mp);
/* Get the size of queued I/Os in this 'target' */
GET_VALUE(mp, multipath, queue_size, queue_size);
fprintf(fp, " queue_size:%d", queue_size);
}
static struct dminfo_target_analyzer multipath_analyzer = {
.target_name = "multipath",
.ready = multipath_ready,
.show_table = multipath_show_table,
.show_status = multipath_show_status,
.show_queue = multipath_show_queue
};
/*
* crypt target
*/
static int
crypt_ready(void)
{
static int debuginfo = 0;
if (debuginfo)
return 1;
if (STRUCT_EXISTS("struct crypt_config")) {
debuginfo = 1;
return 1;
} else
fprintf(fp, "No such struct info: crypt_config");
return 0;
}
#define DMINFO_CRYPTO_TFM_MODE_ECB 0x00000001
#define DMINFO_CRYPTO_TFM_MODE_CBC 0x00000002
static void
crypt_show_table(unsigned long target)
{
int i, cit_mode, key_size;
unsigned long cc, tfm, crt_alg, cipher, iv_mode, dm_dev;
char buf[BUFSIZE], *chainmode;
/* Get the address of struct crypt_config */
GET_VALUE(target, dm_target, private, cc);
/* Get the cipher name of the crypt_tfm */
GET_VALUE(cc, crypt_config, tfm, tfm);
GET_VALUE(tfm, crypto_tfm, __crt_alg, crt_alg);
GET_STR(crt_alg, crypto_alg, cra_name, buf, BUFSIZE);
fprintf(fp, " type:%s", buf);
/* Get the cit_mode of the crypt_tfm */
GET_ADDR(tfm, crypto_tfm, crt_u, cipher);
GET_VALUE(cipher, cipher_tfm, cit_mode, cit_mode);
if (MEMBER_EXISTS("struct crypt_config", "iv_mode")) {
if (cit_mode == DMINFO_CRYPTO_TFM_MODE_CBC)
chainmode = "cbc";
else if (cit_mode == DMINFO_CRYPTO_TFM_MODE_ECB)
chainmode = "ecb";
else
chainmode = "unknown";
/* Get the iv_mode of the crypt_config */
GET_VALUE(cc, crypt_config, iv_mode, iv_mode);
if (iv_mode) {
GET_PTR_STR(cc, crypt_config, iv_mode, buf, BUFSIZE);
fprintf(fp, "-%s-%s", chainmode, buf);
} else
fprintf(fp, "-%s", chainmode);
} else {
/* Compatibility mode for old dm-crypt cipher strings */
if (cit_mode == DMINFO_CRYPTO_TFM_MODE_CBC)
chainmode = "plain";
else if (cit_mode == DMINFO_CRYPTO_TFM_MODE_ECB)
chainmode = "ecb";
else
chainmode = "unknown";
fprintf(fp, "-%s", chainmode);
}
/* Get the devt of the crypt_config */
GET_VALUE(cc, crypt_config, dev, dm_dev);
GET_STR(dm_dev, dm_dev, name, buf, BUFSIZE);
fprintf(fp, " dev:%s", buf);
/*
* Get the key of the crypt_config.
*/
GET_VALUE(cc, crypt_config, key_size, key_size);
GET_STR(cc, crypt_config, key, buf, MIN(key_size + 1, BUFSIZE));
fprintf(fp, " key:");
for (i = 0; i < key_size; i++)
fprintf(fp, "%02x", (unsigned char)buf[i]);
}
static void
crypt_show_status(unsigned long target)
{
/* crypt target has no status */
fprintf(fp, " No status info");
}
static void
crypt_show_queue(unsigned long target)
{
/* crypt target has no queue */
fprintf(fp, " No queue info");
}
static struct dminfo_target_analyzer crypt_analyzer = {
.target_name = "crypt",
.ready = crypt_ready,
.show_table = crypt_show_table,
.show_status = crypt_show_status,
.show_queue = crypt_show_queue
};
/*
* stripe target
*/
static int
stripe_ready(void)
{
static int debuginfo = 0;
if (debuginfo)
return 1;
if (STRUCT_EXISTS("struct stripe_c")) {
debuginfo = 1;
return 1;
} else
fprintf(fp, "No such struct info: stripe_c");
return 0;
}
static void
stripe_show_table(unsigned long target)
{
unsigned int i, n_stripe;
unsigned long sc, stripe_size, s, head, dm_dev;
unsigned long long mask;
char buf[BUFSIZE];
/* Get the address of struct stripe_c */
GET_VALUE(target, dm_target, private, sc);
/* Get the chunk_size of the stripe_c */
GET_VALUE(sc, stripe_c, chunk_mask, mask);
fprintf(fp, " chunk_size:%llu", mask + 1);
/*
* Display the information of each stripe disks.
*
* head = stripe_c.stripe.
* This is the head of struct stripe array.
*/
stripe_size = STRUCT_SIZE("struct stripe");
GET_ADDR(sc, stripe_c, stripe, head);
GET_VALUE(sc, stripe_c, stripes, n_stripe);
fprintf(fp, " dev:");
for (i = 0; i < n_stripe; i++) {
s = head + stripe_size * i; /* Get next stripe */
/* Get the devt of the stripe disk */
GET_VALUE(s, stripe, dev, dm_dev);
GET_STR(dm_dev, dm_dev, name, buf, BUFSIZE);
fprintf(fp, "%s%s", buf, i == n_stripe - 1 ? "" : ",");
}
if (i != n_stripe)
fprintf(fp, " ERROR: dev are less than n_stripe:%d", n_stripe);
}
static void
stripe_show_status(unsigned long target)
{
/* stripe target has no status */
fprintf(fp, " No status info");
}
static void
stripe_show_queue(unsigned long target)
{
/* stripe target has no queue */
fprintf(fp, " No queue info");
}
static struct dminfo_target_analyzer stripe_analyzer = {
.target_name = "striped",
.ready = stripe_ready,
.show_table = stripe_show_table,
.show_status = stripe_show_status,
.show_queue = stripe_show_queue
};
/*
* snapshot target
*/
static int
snapshot_ready(void)
{
static int debuginfo = 0;
if (debuginfo)
return 1;
if (STRUCT_EXISTS("struct dm_snapshot")) {
debuginfo = 1;
return 1;
} else
fprintf(fp, "No such struct info: dm_snapshot");
return 0;
}
static void
snapshot_show_table(unsigned long target)
{
unsigned long snap, orig_dev, cow_dev;
unsigned long long chunk_size;
char orig_name[BUFSIZE], cow_name[BUFSIZE], type;
/* Get the address of struct dm_snapshot */
GET_VALUE(target, dm_target, private, snap);
/* Get snapshot parameters of the dm_snapshot */
GET_VALUE(snap, dm_snapshot, origin, orig_dev);
GET_STR(orig_dev, dm_dev, name, orig_name, BUFSIZE);
GET_VALUE(snap, dm_snapshot, cow, cow_dev);
GET_STR(cow_dev, dm_dev, name, cow_name, BUFSIZE);
GET_VALUE(snap, dm_snapshot, type, type);
GET_VALUE(snap, dm_snapshot, chunk_size, chunk_size);
fprintf(fp, " orig:%s cow:%s type:%c chunk_size:%llu",
orig_name, cow_name, type, chunk_size);
}
static void
snapshot_show_status(unsigned long target)
{
int valid;