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|
/*
* mdadm - manage Linux "md" devices aka RAID arrays.
*
* Copyright (C) 2001-2009 Neil Brown <neilb@suse.de>
*
*
* 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.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Author: Neil Brown
* Email: <neilb@suse.de>
*/
#include "mdadm.h"
#include "udev.h"
#include "md_p.h"
#include "md_u.h"
#include <sys/wait.h>
#include <limits.h>
#include <syslog.h>
#define TASK_COMM_LEN 16
#define EVENT_NAME_MAX 32
#define AUTOREBUILD_PID_PATH MDMON_DIR "/autorebuild.pid"
#define FALLBACK_DELAY 5
/**
* struct state - external array or container properties.
* @devname: has length of %DEV_MD_DIR + device name + terminating byte
* @devnm: to sync with mdstat info
* @parent_devnm: or subarray, devnm of parent, for others, ""
* @subarray: for a container it is a link to first subarray, for a subarray it is a link to next
* subarray in the same container
* @parent: for a subarray it is a link to its container
*/
struct state {
char devname[MD_NAME_MAX + sizeof(DEV_MD_DIR)];
char devnm[MD_NAME_MAX];
unsigned int utime;
int err;
char *spare_group;
int active, working, failed, spare, raid;
int from_config;
int from_auto;
int expected_spares;
int devstate[MAX_DISKS];
dev_t devid[MAX_DISKS];
int percent;
char parent_devnm[MD_NAME_MAX];
struct supertype *metadata;
struct state *subarray;
struct state *parent;
struct state *next;
};
struct alert_info {
char hostname[HOST_NAME_MAX];
char *mailaddr;
char *mailfrom;
char *alert_cmd;
int dosyslog;
int test;
} info;
enum event {
EVENT_SPARE_ACTIVE = 0,
EVENT_NEW_ARRAY,
EVENT_MOVE_SPARE,
EVENT_TEST_MESSAGE,
__SYSLOG_PRIORITY_WARNING,
EVENT_REBUILD_STARTED,
EVENT_REBUILD,
EVENT_REBUILD_FINISHED,
EVENT_SPARES_MISSING,
__SYSLOG_PRIORITY_CRITICAL,
EVENT_DEVICE_DISAPPEARED,
EVENT_FAIL,
EVENT_FAIL_SPARE,
EVENT_DEGRADED_ARRAY,
EVENT_UNKNOWN
};
mapping_t events_map[] = {
{"SpareActive", EVENT_SPARE_ACTIVE},
{"NewArray", EVENT_NEW_ARRAY},
{"MoveSpare", EVENT_MOVE_SPARE},
{"TestMessage", EVENT_TEST_MESSAGE},
{"RebuildStarted", EVENT_REBUILD_STARTED},
{"Rebuild", EVENT_REBUILD},
{"RebuildFinished", EVENT_REBUILD_FINISHED},
{"SparesMissing", EVENT_SPARES_MISSING},
{"DeviceDisappeared", EVENT_DEVICE_DISAPPEARED},
{"Fail", EVENT_FAIL},
{"FailSpare", EVENT_FAIL_SPARE},
{"DegradedArray", EVENT_DEGRADED_ARRAY},
{NULL, EVENT_UNKNOWN}
};
struct event_data {
enum event event_enum;
/*
* @event_name: Rebuild event name must be in form "RebuildXX", where XX is rebuild progress.
*/
char event_name[EVENT_NAME_MAX];
char message[BUFSIZ];
const char *description;
const char *dev;
const char *disc;
};
static int add_new_arrays(struct mdstat_ent *mdstat, struct state **statelist);
static void try_spare_migration(struct state *statelist);
static void link_containers_with_subarrays(struct state *list);
static void free_statelist(struct state *statelist);
static int check_array(struct state *st, struct mdstat_ent *mdstat, int increments, char *prefer);
static int check_one_sharer(int scan);
static void link_containers_with_subarrays(struct state *list);
static int make_daemon(char *pidfile);
static void try_spare_migration(struct state *statelist);
static void wait_for_events(int *delay_for_event, int c_delay);
static void wait_for_events_mdstat(int *delay_for_event, int c_delay);
static int write_autorebuild_pid(void);
int Monitor(struct mddev_dev *devlist,
char *mailaddr, char *alert_cmd,
struct context *c,
int daemonise, int oneshot,
int dosyslog, char *pidfile, int increments,
int share)
{
/*
* Every few seconds, scan every md device looking for changes
* When a change is found, log it, possibly run the alert command,
* and possibly send Email
*
* For each array, we record:
* Update time
* active/working/failed/spare drives
* State of each device.
* %rebuilt if rebuilding
*
* If the update time changes, check out all the data again
* It is possible that we cannot get the state of each device
* due to bugs in the md kernel module.
* We also read /proc/mdstat to get rebuild percent,
* and to get state on all active devices incase of kernel bug.
*
* Events are:
* Fail
* An active device had Faulty set or Active/Sync removed
* FailSpare
* A spare device had Faulty set
* SpareActive
* An active device had a reverse transition
* RebuildStarted
* percent went from -1 to +ve
* RebuildNN
* percent went from below to not-below NN%
* DeviceDisappeared
* Couldn't access a device which was previously visible
*
* if we detect an array with active<raid and spare==0
* we look at other arrays that have same spare-group
* If we find one with active==raid and spare>0,
* and if we can get_disk_info and find a name
* Then we hot-remove and hot-add to the other array
*
* If devlist is NULL, then we can monitor everything if --scan
* was given. We get an initial list from config file and add anything
* that appears in /proc/mdstat
*/
struct state *statelist = NULL;
int finished = 0;
struct mdstat_ent *mdstat = NULL;
char *mailfrom;
struct mddev_ident *mdlist;
int delay_for_event = c->delay;
if (devlist && c->scan) {
pr_err("Devices list and --scan option cannot be combined - not monitoring.\n");
return 1;
}
if (!mailaddr)
mailaddr = conf_get_mailaddr();
if (!alert_cmd)
alert_cmd = conf_get_program();
mailfrom = conf_get_mailfrom();
if (c->scan && !mailaddr && !alert_cmd && !dosyslog) {
pr_err("No mail address or alert command - not monitoring.\n");
return 1;
}
if (c->verbose) {
pr_err("Monitor is started with delay %ds\n", c->delay);
if (mailaddr)
pr_err("Monitor using email address %s\n", mailaddr);
if (alert_cmd)
pr_err("Monitor using program %s\n", alert_cmd);
}
info.alert_cmd = alert_cmd;
info.mailaddr = mailaddr;
info.mailfrom = mailfrom;
info.dosyslog = dosyslog;
info.test = c->test;
if (s_gethostname(info.hostname, sizeof(info.hostname)) != 0) {
pr_err("Cannot get hostname.\n");
return 1;
}
if (share){
if (check_one_sharer(c->scan) == 2)
return 1;
}
if (daemonise) {
int rv = make_daemon(pidfile);
if (rv >= 0)
return rv;
}
if (share)
if (write_autorebuild_pid() != 0)
return 1;
if (devlist == NULL) {
mdlist = conf_get_ident(NULL);
for (; mdlist; mdlist = mdlist->next) {
struct state *st;
if (mdlist->devname == NULL)
continue;
if (is_devname_ignore(mdlist->devname) == true)
continue;
if (!is_mddev(mdlist->devname))
continue;
st = xcalloc(1, sizeof *st);
snprintf(st->devname, MD_NAME_MAX + sizeof(DEV_MD_DIR), DEV_MD_DIR "%s",
basename(mdlist->devname));
st->next = statelist;
st->devnm[0] = 0;
st->percent = RESYNC_UNKNOWN;
st->from_config = 1;
st->expected_spares = mdlist->spare_disks;
if (mdlist->spare_group)
st->spare_group = xstrdup(mdlist->spare_group);
statelist = st;
}
} else {
struct mddev_dev *dv;
for (dv = devlist; dv; dv = dv->next) {
struct state *st;
if (!is_mddev(dv->devname))
continue;
st = xcalloc(1, sizeof *st);
mdlist = conf_get_ident(dv->devname);
snprintf(st->devname, MD_NAME_MAX + sizeof(DEV_MD_DIR), "%s", dv->devname);
st->next = statelist;
st->devnm[0] = 0;
st->percent = RESYNC_UNKNOWN;
st->expected_spares = -1;
if (mdlist) {
st->expected_spares = mdlist->spare_disks;
if (mdlist->spare_group)
st->spare_group = xstrdup(mdlist->spare_group);
}
statelist = st;
}
}
while (!finished) {
int new_found = 0;
struct state *st, **stp;
int anydegraded = 0;
int anyredundant = 0;
if (mdstat)
free_mdstat(mdstat);
mdstat = mdstat_read(oneshot ? 0 : 1, 0);
for (st = statelist; st; st = st->next) {
if (check_array(st, mdstat, increments, c->prefer))
anydegraded = 1;
/* for external arrays, metadata is filled for
* containers only
*/
if (st->metadata && st->metadata->ss->external)
continue;
if (st->err == 0 && !anyredundant)
anyredundant = 1;
}
/* now check if there are any new devices found in mdstat */
if (c->scan)
new_found = add_new_arrays(mdstat, &statelist);
/* If an array has active < raid && spare == 0 && spare_group != NULL
* Look for another array with spare > 0 and active == raid and same spare_group
* if found, choose a device and hotremove/hotadd
*/
if (share && anydegraded)
try_spare_migration(statelist);
if (!new_found) {
if (oneshot)
break;
if (!anyredundant) {
pr_err("No array with redundancy detected, stopping\n");
break;
}
wait_for_events(&delay_for_event, c->delay);
}
info.test = 0;
for (stp = &statelist; (st = *stp) != NULL; ) {
if (st->from_auto && st->err > 5) {
*stp = st->next;
if (st->spare_group)
free(st->spare_group);
free(st);
} else
stp = &st->next;
}
}
free_statelist(statelist);
if (pidfile)
unlink(pidfile);
return 0;
}
/*
* wait_for_events() - Waits for events on md devices.
* @delay_for_event: pointer to current event delay
* @c_delay: delay from config
*/
static void wait_for_events(int *delay_for_event, int c_delay)
{
#ifndef NO_LIBUDEV
if (udev_is_available()) {
if (udev_wait_for_events(*delay_for_event) == UDEV_STATUS_ERROR)
pr_err("Error while waiting for udev events.\n");
return;
}
#endif
wait_for_events_mdstat(delay_for_event, c_delay);
}
/*
* wait_for_events_mdstat() - Waits for events on mdstat.
* @delay_for_event: pointer to current event delay
* @c_delay: delay from config
*/
static void wait_for_events_mdstat(int *delay_for_event, int c_delay)
{
int wait_result = mdstat_wait(*delay_for_event);
if (wait_result < 0) {
pr_err("Error while waiting for events on mdstat.\n");
return;
}
/*
* Give chance to process new device
*/
if (wait_result != 0) {
if (c_delay > FALLBACK_DELAY)
*delay_for_event = FALLBACK_DELAY;
} else {
*delay_for_event = c_delay;
}
mdstat_close();
}
static int make_daemon(char *pidfile)
{
/* Return:
* -1 in the forked daemon
* 0 in the parent
* 1 on error
* so a none-negative becomes the exit code.
*/
int pid = fork();
if (pid > 0) {
if (!pidfile)
printf("%d\n", pid);
else {
FILE *pid_file = NULL;
int fd = open(pidfile, O_WRONLY | O_CREAT | O_TRUNC,
0644);
if (fd >= 0)
pid_file = fdopen(fd, "w");
if (!pid_file)
perror("cannot create pid file");
else {
fprintf(pid_file,"%d\n", pid);
fclose(pid_file);
}
}
return 0;
}
if (pid < 0) {
perror("daemonise");
return 1;
}
manage_fork_fds(0);
setsid();
return -1;
}
/*
* check_one_sharer() - Checks for other mdmon processes running.
*
* Return:
* 0 - no other processes running,
* 1 - warning,
* 2 - error, or when scan mode is enabled, and one mdmon process already exists
*/
static int check_one_sharer(int scan)
{
int pid;
FILE *fp, *comm_fp;
char comm_path[PATH_MAX];
char comm[TASK_COMM_LEN];
if (!is_directory(MDMON_DIR)) {
pr_err("%s is not a regular directory.\n", MDMON_DIR);
return 2;
}
if (access(AUTOREBUILD_PID_PATH, F_OK) != 0)
return 0;
if (!is_file(AUTOREBUILD_PID_PATH)) {
pr_err("%s is not a regular file.\n", AUTOREBUILD_PID_PATH);
return 2;
}
fp = fopen(AUTOREBUILD_PID_PATH, "r");
if (!fp) {
pr_err("Cannot open %s file.\n", AUTOREBUILD_PID_PATH);
return 2;
}
if (fscanf(fp, "%d", &pid) != 1) {
pr_err("Cannot read pid from %s file.\n", AUTOREBUILD_PID_PATH);
fclose(fp);
return 2;
}
snprintf(comm_path, sizeof(comm_path), "/proc/%d/comm", pid);
comm_fp = fopen(comm_path, "r");
if (!comm_fp) {
dprintf("Warning: Cannot open %s, continuing\n", comm_path);
fclose(fp);
return 1;
}
if (fscanf(comm_fp, "%15s", comm) == 0) {
dprintf("Warning: Cannot read comm from %s, continuing\n", comm_path);
fclose(comm_fp);
fclose(fp);
return 1;
}
if (strncmp(basename(comm), Name, strlen(Name)) == 0) {
if (scan) {
pr_err("Only one autorebuild process allowed in scan mode, aborting\n");
fclose(comm_fp);
fclose(fp);
return 2;
}
pr_err("Warning: One autorebuild process already running.\n");
}
fclose(comm_fp);
fclose(fp);
return 0;
}
/*
* write_autorebuild_pid() - Writes pid to autorebuild.pid file.
*
* Return: 0 on success, 1 on error
*/
static int write_autorebuild_pid(void)
{
FILE *fp;
int fd;
if (mkdir(MDMON_DIR, 0700) < 0 && errno != EEXIST) {
pr_err("%s: %s\n", strerror(errno), MDMON_DIR);
return 1;
}
if (!is_directory(MDMON_DIR)) {
pr_err("%s is not a regular directory.\n", MDMON_DIR);
return 1;
}
fd = open(AUTOREBUILD_PID_PATH, O_WRONLY | O_CREAT | O_TRUNC, 0700);
if (fd < 0) {
pr_err("Error opening %s file.\n", AUTOREBUILD_PID_PATH);
return 1;
}
fp = fdopen(fd, "w");
if (!fp) {
pr_err("Error opening fd for %s file.\n", AUTOREBUILD_PID_PATH);
return 1;
}
fprintf(fp, "%d\n", getpid());
fclose(fp);
return 0;
}
#define BASE_MESSAGE "%s event detected on md device %s"
#define COMPONENT_DEVICE_MESSAGE ", component device %s"
#define DESCRIPTION_MESSAGE ": %s"
/*
* sprint_event_message() - Writes basic message about detected event to destination ptr.
* @dest: message destination, should be at least the size of BUFSIZ
* @data: event data
*
* Return: 0 on success, 1 on error
*/
static int sprint_event_message(char *dest, const struct event_data *data)
{
if (!dest || !data)
return 1;
if (data->disc && data->description)
snprintf(dest, BUFSIZ, BASE_MESSAGE COMPONENT_DEVICE_MESSAGE DESCRIPTION_MESSAGE,
data->event_name, data->dev, data->disc, data->description);
else if (data->disc)
snprintf(dest, BUFSIZ, BASE_MESSAGE COMPONENT_DEVICE_MESSAGE,
data->event_name, data->dev, data->disc);
else if (data->description)
snprintf(dest, BUFSIZ, BASE_MESSAGE DESCRIPTION_MESSAGE,
data->event_name, data->dev, data->description);
else
snprintf(dest, BUFSIZ, BASE_MESSAGE, data->event_name, data->dev);
return 0;
}
/*
* get_syslog_event_priority() - Determines event priority.
* @event_enum: event to be checked
*
* Return: LOG_CRIT, LOG_WARNING or LOG_INFO
*/
static int get_syslog_event_priority(const enum event event_enum)
{
if (event_enum > __SYSLOG_PRIORITY_CRITICAL)
return LOG_CRIT;
if (event_enum > __SYSLOG_PRIORITY_WARNING)
return LOG_WARNING;
return LOG_INFO;
}
/*
* is_email_event() - Determines whether email for event should be sent or not.
* @event_enum: event to be checked
*
* Return: true if email should be sent, false otherwise
*/
static bool is_email_event(const enum event event_enum)
{
static const enum event email_events[] = {
EVENT_FAIL,
EVENT_FAIL_SPARE,
EVENT_DEGRADED_ARRAY,
EVENT_SPARES_MISSING,
EVENT_TEST_MESSAGE
};
unsigned int i;
for (i = 0; i < ARRAY_SIZE(email_events); ++i) {
if (event_enum == email_events[i])
return true;
}
return false;
}
/*
* execute_alert_cmd() - Forks and executes command provided as alert_cmd.
* @data: event data
*/
static void execute_alert_cmd(const struct event_data *data)
{
int pid = fork();
switch (pid) {
default:
waitpid(pid, NULL, 0);
break;
case -1:
pr_err("Cannot fork to execute alert command");
break;
case 0:
execl(info.alert_cmd, info.alert_cmd, data->event_name, data->dev, data->disc, NULL);
exit(2);
}
}
/*
* send_event_email() - Sends an email about event detected by monitor.
* @data: event data
*/
static void send_event_email(const struct event_data *data)
{
FILE *mp, *mdstat;
char buf[BUFSIZ];
int n;
mp = popen(Sendmail, "w");
if (!mp) {
pr_err("Cannot open pipe stream for sendmail.\n");
return;
}
signal(SIGPIPE, SIG_IGN);
if (info.mailfrom)
fprintf(mp, "From: %s\n", info.mailfrom);
else
fprintf(mp, "From: %s monitoring <root>\n", Name);
fprintf(mp, "To: %s\n", info.mailaddr);
fprintf(mp, "Subject: %s event on %s:%s\n\n", data->event_name, data->dev, info.hostname);
fprintf(mp, "This is an automatically generated mail message.\n");
fprintf(mp, "%s\n", data->message);
mdstat = fopen("/proc/mdstat", "r");
if (!mdstat) {
pr_err("Cannot open /proc/mdstat\n");
pclose(mp);
return;
}
fprintf(mp, "The /proc/mdstat file currently contains the following:\n\n");
while ((n = fread(buf, 1, sizeof(buf), mdstat)) > 0)
n = fwrite(buf, 1, n, mp);
fclose(mdstat);
pclose(mp);
}
/*
* log_event_to_syslog() - Logs an event into syslog.
* @data: event data
*/
static void log_event_to_syslog(const struct event_data *data)
{
int priority;
priority = get_syslog_event_priority(data->event_enum);
syslog(priority, "%s\n", data->message);
}
/*
* alert() - Alerts about the monitor event.
* @event_enum: event to be sent
* @description: event description
* @progress: rebuild progress
* @dev: md device name
* @disc: component device
*
* If needed function executes alert command, sends an email or logs event to syslog.
*/
static void alert(const enum event event_enum, const char *description, const uint8_t progress,
const char *dev, const char *disc)
{
struct event_data data = {.dev = dev, .disc = disc, .description = description};
if (!dev)
return;
if (event_enum == EVENT_REBUILD) {
snprintf(data.event_name, sizeof(data.event_name), "%s%02d",
map_num_s(events_map, EVENT_REBUILD), progress);
} else {
snprintf(data.event_name, sizeof(data.event_name), "%s", map_num_s(events_map, event_enum));
}
data.event_enum = event_enum;
if (sprint_event_message(data.message, &data) != 0) {
pr_err("Cannot create event message.\n");
return;
}
pr_err("%s\n", data.message);
if (info.alert_cmd)
execute_alert_cmd(&data);
if (info.mailaddr && is_email_event(event_enum))
send_event_email(&data);
if (info.dosyslog)
log_event_to_syslog(&data);
}
static int check_array(struct state *st, struct mdstat_ent *mdstat,
int increments, char *prefer)
{
/* Update the state 'st' to reflect any changes shown in mdstat,
* or found by directly examining the array, and return
* '1' if the array is degraded, or '0' if it is optimal (or dead).
*/
struct { int state, major, minor; } disks_info[MAX_DISKS];
struct mdinfo *sra = NULL;
mdu_array_info_t array;
struct mdstat_ent *mse = NULL, *mse2;
char *dev = st->devname;
int fd;
int i;
int remaining_disks;
int last_disk;
int new_array = 0;
int retval;
int is_container = 0;
unsigned long redundancy_only_flags = 0;
if (info.test)
alert(EVENT_TEST_MESSAGE, NULL, 0, dev, NULL);
retval = 0;
fd = open(dev, O_RDONLY);
if (fd < 0)
goto disappeared;
if (st->devnm[0] == 0)
snprintf(st->devnm, MD_NAME_MAX, "%s", fd2devnm(fd));
for (mse2 = mdstat; mse2; mse2 = mse2->next)
if (strcmp(mse2->devnm, st->devnm) == 0) {
mse2->devnm[0] = 0; /* flag it as "used" */
mse = mse2;
}
if (!mse) {
/* duplicated array in statelist
* or re-created after reading mdstat
*/
st->err++;
goto out;
}
if (mse->level == NULL)
is_container = 1;
if (!is_container && !md_array_active(fd))
goto disappeared;
fcntl(fd, F_SETFD, FD_CLOEXEC);
if (md_get_array_info(fd, &array) < 0)
goto disappeared;
if (!is_container && map_name(pers, mse->level) > 0)
redundancy_only_flags |= GET_MISMATCH;
sra = sysfs_read(-1, st->devnm, GET_LEVEL | GET_DISKS | GET_DEVS |
GET_STATE | redundancy_only_flags);
if (!sra)
goto disappeared;
/* It's much easier to list what array levels can't
* have a device disappear than all of them that can
*/
if (sra->array.level == 0 || sra->array.level == -1) {
if (!st->err && !st->from_config)
alert(EVENT_DEVICE_DISAPPEARED, "Wrong-Level", 0, dev, NULL);
st->err++;
goto out;
}
/* this array is in /proc/mdstat */
if (array.utime == 0)
/* external arrays don't update utime, so
* just make sure it is always different. */
array.utime = st->utime + 1;;
if (st->err) {
/* New array appeared where previously had an error */
st->err = 0;
st->percent = RESYNC_NONE;
new_array = 1;
if (!is_container)
alert(EVENT_NEW_ARRAY, NULL, 0, st->devname, NULL);
}
if (st->utime == array.utime && st->failed == sra->array.failed_disks &&
st->working == sra->array.working_disks &&
st->spare == sra->array.spare_disks &&
(mse == NULL || (mse->percent == st->percent))) {
if ((st->active < st->raid) && st->spare == 0)
retval = 1;
goto out;
}
if (st->utime == 0 && /* new array */
mse->pattern && strchr(mse->pattern, '_') /* degraded */)
alert(EVENT_DEGRADED_ARRAY, NULL, 0, dev, NULL);
if (st->utime == 0 && /* new array */ st->expected_spares > 0 &&
sra->array.spare_disks < st->expected_spares)
alert(EVENT_SPARES_MISSING, NULL, 0, dev, NULL);
if (st->percent < 0 && st->percent != RESYNC_UNKNOWN &&
mse->percent >= 0)
alert(EVENT_REBUILD_STARTED, NULL, 0, dev, NULL);
if (st->percent >= 0 && mse->percent >= 0 &&
(mse->percent / increments) > (st->percent / increments)) {
if((mse->percent / increments) == 0)
alert(EVENT_REBUILD_STARTED, NULL, 0, dev, NULL);
else
alert(EVENT_REBUILD, NULL, mse->percent, dev, NULL);
}
if (mse->percent == RESYNC_NONE && st->percent >= 0) {
/* Rebuild/sync/whatever just finished.
* If there is a number in /mismatch_cnt,
* we should report that.
*/
if (sra && sra->mismatch_cnt > 0) {
char cnt[80];
snprintf(cnt, sizeof(cnt),
" mismatches found: %d (on raid level %d)",
sra->mismatch_cnt, sra->array.level);
alert(EVENT_REBUILD_FINISHED, NULL, 0, dev, cnt);
} else
alert(EVENT_REBUILD_FINISHED, NULL, 0, dev, NULL);
}
st->percent = mse->percent;
remaining_disks = sra->array.nr_disks;
for (i = 0; i < MAX_DISKS && remaining_disks > 0; i++) {
mdu_disk_info_t disc;
disc.number = i;
if (md_get_disk_info(fd, &disc) >= 0) {
disks_info[i].state = disc.state;
disks_info[i].major = disc.major;
disks_info[i].minor = disc.minor;
if (disc.major || disc.minor)
remaining_disks --;
} else
disks_info[i].major = disks_info[i].minor = 0;
}
last_disk = i;
if (mse->metadata_version &&
strncmp(mse->metadata_version, "external:", 9) == 0 &&
is_subarray(mse->metadata_version+9)) {
char *sl;
snprintf(st->parent_devnm, MD_NAME_MAX, "%s", mse->metadata_version + 10);
sl = strchr(st->parent_devnm, '/');
if (sl)
*sl = 0;
} else
st->parent_devnm[0] = 0;
if (st->metadata == NULL && st->parent_devnm[0] == 0)
st->metadata = super_by_fd(fd, NULL);
for (i = 0; i < MAX_DISKS; i++) {
mdu_disk_info_t disc = {0, 0, 0, 0, 0};
int newstate = 0;
int change;
char *dv = NULL;
disc.number = i;
if (i < last_disk && (disks_info[i].major || disks_info[i].minor)) {
newstate = disks_info[i].state;
dv = map_dev_preferred(disks_info[i].major, disks_info[i].minor, 1,
prefer);
disc.state = newstate;
disc.major = disks_info[i].major;
disc.minor = disks_info[i].minor;
} else
newstate = (1 << MD_DISK_REMOVED);
if (dv == NULL && st->devid[i])
dv = map_dev_preferred(major(st->devid[i]),
minor(st->devid[i]), 1, prefer);
change = newstate ^ st->devstate[i];
if (st->utime && change && !st->err && !new_array) {
if ((st->devstate[i]&change) & (1 << MD_DISK_SYNC))
alert(EVENT_FAIL, NULL, 0, dev, dv);
else if ((newstate & (1 << MD_DISK_FAULTY)) &&
(disc.major || disc.minor) &&
st->devid[i] == makedev(disc.major,
disc.minor))
alert(EVENT_FAIL_SPARE, NULL, 0, dev, dv);
else if ((newstate&change) & (1 << MD_DISK_SYNC))
alert(EVENT_SPARE_ACTIVE, NULL, 0, dev, dv);
}
st->devstate[i] = newstate;
st->devid[i] = makedev(disc.major, disc.minor);
}
st->active = sra->array.active_disks;
st->working = sra->array.working_disks;
st->spare = sra->array.spare_disks;
st->failed = sra->array.failed_disks;
st->utime = array.utime;
st->raid = sra->array.raid_disks;
st->err = 0;
if ((st->active < st->raid) && st->spare == 0)
retval = 1;
out:
if (sra)
sysfs_free(sra);
if (fd >= 0)
close(fd);
return retval;
disappeared:
if (!st->err && !is_container)
alert(EVENT_DEVICE_DISAPPEARED, NULL, 0, dev, NULL);
st->err++;
goto out;
}
static int add_new_arrays(struct mdstat_ent *mdstat, struct state **statelist)
{
struct mdstat_ent *mse;
int new_found = 0;
char *name;
for (mse = mdstat; mse; mse = mse->next)
if (mse->devnm[0] && (!mse->level || /* retrieve containers */
(strcmp(mse->level, "raid0") != 0 &&
strcmp(mse->level, "linear") != 0))) {
struct state *st = xcalloc(1, sizeof *st);
mdu_array_info_t array;
int fd;
name = get_md_name(mse->devnm);
if (!name) {
free(st);
continue;
}
snprintf(st->devname, MD_NAME_MAX + sizeof(DEV_MD_DIR), "%s", name);
if ((fd = open(st->devname, O_RDONLY)) < 0 ||
md_get_array_info(fd, &array) < 0) {
/* no such array */
if (fd >= 0)
close(fd);
put_md_name(st->devname);
if (st->metadata) {
st->metadata->ss->free_super(st->metadata);
free(st->metadata);
}
free(st);
continue;
}
close(fd);
st->next = *statelist;
st->err = 1;
st->from_auto = 1;
snprintf(st->devnm, MD_NAME_MAX, "%s", mse->devnm);
st->percent = RESYNC_UNKNOWN;
st->expected_spares = -1;
if (mse->metadata_version &&
strncmp(mse->metadata_version,
"external:", 9) == 0 &&
is_subarray(mse->metadata_version+9)) {
char *sl;
snprintf(st->parent_devnm, MD_NAME_MAX,
"%s", mse->metadata_version + 10);
sl = strchr(st->parent_devnm, '/');
*sl = 0;
} else
st->parent_devnm[0] = 0;
*statelist = st;
if (info.test)
alert(EVENT_TEST_MESSAGE, NULL, 0, st->devname, NULL);
new_found = 1;
}
return new_found;
}
static int get_required_spare_criteria(struct state *st,
struct spare_criteria *sc)
{
int fd;
if (!st->metadata || !st->metadata->ss->get_spare_criteria) {
sc->min_size = 0;
sc->sector_size = 0;
return 0;
}
fd = open(st->devname, O_RDONLY);
if (fd < 0)
return 1;
if (st->metadata->ss->external)
st->metadata->ss->load_container(st->metadata, fd, st->devname);
else
st->metadata->ss->load_super(st->metadata, fd, st->devname);
close(fd);
if (!st->metadata->sb)
return 1;
st->metadata->ss->get_spare_criteria(st->metadata, sc);
st->metadata->ss->free_super(st->metadata);
return 0;
}
static int check_donor(struct state *from, struct state *to)
{
struct state *sub;
if (from == to)
return 0;
if (from->parent)
/* Cannot move from a member */
return 0;
if (from->err)
return 0;
for (sub = from->subarray; sub; sub = sub->subarray)
/* If source array has degraded subarrays, don't
* remove anything
*/
if (sub->active < sub->raid)
return 0;
if (from->metadata->ss->external == 0)
if (from->active < from->raid)
return 0;
if (from->spare <= 0)
return 0;
return 1;
}
static dev_t choose_spare(struct state *from, struct state *to,
struct domainlist *domlist, struct spare_criteria *sc)
{
int d;
dev_t dev = 0;
for (d = from->raid; !dev && d < MAX_DISKS; d++) {
if (from->devid[d] > 0 && from->devstate[d] == 0) {
struct dev_policy *pol;
unsigned long long dev_size;
unsigned int dev_sector_size;
if (to->metadata->ss->external &&
test_partition_from_id(from->devid[d]))
continue;
if (sc->min_size &&
dev_size_from_id(from->devid[d], &dev_size) &&
dev_size < sc->min_size)
continue;
if (sc->sector_size &&
dev_sector_size_from_id(from->devid[d],
&dev_sector_size) &&
sc->sector_size != dev_sector_size)
continue;
pol = devid_policy(from->devid[d]);
if (from->spare_group)
pol_add(&pol, pol_domain,
from->spare_group, NULL);
if (domain_test(domlist, pol,
to->metadata->ss->name) == 1)
dev = from->devid[d];
dev_policy_free(pol);
}
}
return dev;
}
static dev_t container_choose_spare(struct state *from, struct state *to,
struct domainlist *domlist,
struct spare_criteria *sc, int active)
{
/* This is similar to choose_spare, but we cannot trust devstate,
* so we need to read the metadata instead
*/
struct mdinfo *list;
struct supertype *st = from->metadata;
int fd = open(from->devname, O_RDONLY);
int err;
dev_t dev = 0;
if (fd < 0)
return 0;
if (!st->ss->getinfo_super_disks) {
close(fd);
return 0;
}
err = st->ss->load_container(st, fd, NULL);
close(fd);
if (err)
return 0;
if (from == to) {
/* We must check if number of active disks has not increased
* since ioctl in main loop. mdmon may have added spare
* to subarray. If so we do not need to look for more spares
* so return non zero value */
int active_cnt = 0;
struct mdinfo *dp;
list = st->ss->getinfo_super_disks(st);
if (!list) {
st->ss->free_super(st);
return 1;
}
dp = list->devs;
while (dp) {
if (dp->disk.state & (1 << MD_DISK_SYNC) &&
!(dp->disk.state & (1 << MD_DISK_FAULTY)))
active_cnt++;
dp = dp->next;
}
sysfs_free(list);
if (active < active_cnt) {
/* Spare just activated.*/
st->ss->free_super(st);
return 1;
}
}
/* We only need one spare so full list not needed */
list = container_choose_spares(st, sc, domlist, from->spare_group,
to->metadata->ss->name, 1);
if (list) {
struct mdinfo *disks = list->devs;
if (disks)
dev = makedev(disks->disk.major, disks->disk.minor);
sysfs_free(list);
}
st->ss->free_super(st);
return dev;
}
static void try_spare_migration(struct state *statelist)
{
struct state *from;
struct state *st;
struct spare_criteria sc;
link_containers_with_subarrays(statelist);
for (st = statelist; st; st = st->next)
if (st->active < st->raid && st->spare == 0 && !st->err) {
struct domainlist *domlist = NULL;
int d;
struct state *to = st;
if (to->parent_devnm[0] && !to->parent)
/* subarray monitored without parent container
* we can't move spares here */
continue;
if (to->parent)
/* member of a container */
to = to->parent;
if (get_required_spare_criteria(to, &sc))
continue;
if (to->metadata->ss->external) {
/* We must make sure there is
* no suitable spare in container already.
* If there is we don't add more */
dev_t devid = container_choose_spare(
to, to, NULL, &sc, st->active);
if (devid > 0)
continue;
}
for (d = 0; d < MAX_DISKS; d++)
if (to->devid[d])
domainlist_add_dev(&domlist,
to->devid[d],
to->metadata->ss->name);
if (to->spare_group)
domain_add(&domlist, to->spare_group);
/*
* No spare migration if the destination
* has no domain. Skip this array.
*/
if (!domlist)
continue;
for (from=statelist ; from ; from=from->next) {
dev_t devid;
if (!check_donor(from, to))
continue;
if (from->metadata->ss->external)
devid = container_choose_spare(
from, to, domlist, &sc, 0);
else
devid = choose_spare(from, to, domlist,
&sc);
if (devid > 0 &&
move_spare(from->devname, to->devname,
devid)) {
alert(EVENT_MOVE_SPARE, NULL, 0, to->devname, from->devname);
break;
}
}
domain_free(domlist);
}
}
/* search the statelist to connect external
* metadata subarrays with their containers
* We always completely rebuild the tree from scratch as
* that is safest considering the possibility of entries
* disappearing or changing.
*/
static void link_containers_with_subarrays(struct state *list)
{
struct state *st;
struct state *cont;
for (st = list; st; st = st->next) {
st->parent = NULL;
st->subarray = NULL;
}
for (st = list; st; st = st->next)
if (st->parent_devnm[0])
for (cont = list; cont; cont = cont->next)
if (!cont->err && cont->parent_devnm[0] == 0 &&
strcmp(cont->devnm, st->parent_devnm) == 0) {
st->parent = cont;
st->subarray = cont->subarray;
cont->subarray = st;
break;
}
}
/**
* free_statelist() - Frees statelist.
* @statelist: statelist to free
*/
static void free_statelist(struct state *statelist)
{
struct state *tmp = NULL;
while (statelist) {
if (statelist->spare_group)
free(statelist->spare_group);
tmp = statelist;
statelist = statelist->next;
free(tmp);
}
}
/* Not really Monitor but ... */
int Wait(char *dev)
{
char devnm[32];
dev_t rdev;
char *tmp;
int rv = 1;
int frozen_remaining = 3;
if (!stat_is_blkdev(dev, &rdev))
return 2;
tmp = devid2devnm(rdev);
if (!tmp) {
pr_err("Cannot get md device name.\n");
return 2;
}
strcpy(devnm, tmp);
while(1) {
struct mdstat_ent *ms = mdstat_read(1, 0);
struct mdstat_ent *e;
for (e = ms; e; e = e->next)
if (strcmp(e->devnm, devnm) == 0)
break;
if (e && e->percent == RESYNC_NONE) {
/* We could be in the brief pause before something
* starts. /proc/mdstat doesn't show that, but
* sync_action does.
*/
struct mdinfo mdi;
char buf[SYSFS_MAX_BUF_SIZE];
if (sysfs_init(&mdi, -1, devnm))
return 2;
if (sysfs_get_str(&mdi, NULL, "sync_action",
buf, sizeof(buf)) > 0 &&
strcmp(buf,"idle\n") != 0) {
e->percent = RESYNC_UNKNOWN;
if (strcmp(buf, "frozen\n") == 0) {
if (frozen_remaining == 0)
e->percent = RESYNC_NONE;
else
frozen_remaining -= 1;
}
}
}
if (!e || e->percent == RESYNC_NONE) {
if (e && e->metadata_version &&
strncmp(e->metadata_version, "external:", 9) == 0) {
if (is_subarray(&e->metadata_version[9]))
ping_monitor(&e->metadata_version[9]);
else
ping_monitor(devnm);
}
free_mdstat(ms);
return rv;
}
free_mdstat(ms);
rv = 0;
mdstat_wait(5);
}
}
/* The state "broken" is used only for RAID0/LINEAR - it's the same as
* "clean", but used in case the array has one or more members missing.
*/
static char *clean_states[] = {
"clear", "inactive", "readonly", "read-auto", "clean", "broken", NULL };
int WaitClean(char *dev, int verbose)
{
int fd;
struct mdinfo *mdi;
int rv = 1;
char devnm[32];
if (!stat_is_blkdev(dev, NULL))
return 2;
fd = open(dev, O_RDONLY);
if (fd < 0) {
if (verbose)
pr_err("Couldn't open %s: %s\n", dev, strerror(errno));
return 1;
}
strcpy(devnm, fd2devnm(fd));
mdi = sysfs_read(fd, devnm, GET_VERSION|GET_LEVEL|GET_SAFEMODE);
if (!mdi) {
if (verbose)
pr_err("Failed to read sysfs attributes for %s\n", dev);
close(fd);
return 0;
}
switch(mdi->array.level) {
case LEVEL_LINEAR:
case LEVEL_MULTIPATH:
case 0:
/* safemode delay is irrelevant for these levels */
rv = 0;
}
/* for internal metadata the kernel handles the final clean
* transition, containers can never be dirty
*/
if (!is_subarray(mdi->text_version))
rv = 0;
/* safemode disabled ? */
if (mdi->safe_mode_delay == 0)
rv = 0;
if (rv) {
int state_fd = sysfs_open(fd2devnm(fd), NULL, "array_state");
char buf[SYSFS_MAX_BUF_SIZE];
int delay = 5000;
/* minimize the safe_mode_delay and prepare to wait up to 5s
* for writes to quiesce
*/
sysfs_set_safemode(mdi, 1);
/* wait for array_state to be clean */
while (1) {
rv = read(state_fd, buf, sizeof(buf));
if (rv < 0)
break;
if (sysfs_match_word(buf, clean_states) <
(int)ARRAY_SIZE(clean_states) - 1)
break;
rv = sysfs_wait(state_fd, &delay);
if (rv < 0 && errno != EINTR)
break;
lseek(state_fd, 0, SEEK_SET);
}
if (rv < 0)
rv = 1;
else if (ping_monitor(mdi->text_version) == 0) {
/* we need to ping to close the window between array
* state transitioning to clean and the metadata being
* marked clean
*/
rv = 0;
} else {
rv = 1;
pr_err("Error connecting monitor with %s\n", dev);
}
if (rv && verbose)
pr_err("Error waiting for %s to be clean\n", dev);
/* restore the original safe_mode_delay */
sysfs_set_safemode(mdi, mdi->safe_mode_delay);
close(state_fd);
}
sysfs_free(mdi);
close(fd);
return rv;
}
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