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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 1557 1558 1559 1560 1561 1562 1563 1564 1565 1566 1567 1568 1569 1570 1571 1572 1573 1574 1575 1576 1577 1578 1579 1580 1581 1582 1583 1584 1585 1586 1587 1588 1589 1590 1591 1592 1593 1594 1595 1596 1597 1598 1599 1600 1601 1602 | // SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (C) 2015, SUSE */ #include <linux/module.h> #include <linux/kthread.h> #include <linux/dlm.h> #include <linux/sched.h> #include <linux/raid/md_p.h> #include "md.h" #include "md-bitmap.h" #include "md-cluster.h" #define LVB_SIZE 64 #define NEW_DEV_TIMEOUT 5000 struct dlm_lock_resource { dlm_lockspace_t *ls; struct dlm_lksb lksb; char *name; /* lock name. */ uint32_t flags; /* flags to pass to dlm_lock() */ wait_queue_head_t sync_locking; /* wait queue for synchronized locking */ bool sync_locking_done; void (*bast)(void *arg, int mode); /* blocking AST function pointer*/ struct mddev *mddev; /* pointing back to mddev. */ int mode; }; struct resync_info { __le64 lo; __le64 hi; }; /* md_cluster_info flags */ #define MD_CLUSTER_WAITING_FOR_NEWDISK 1 #define MD_CLUSTER_SUSPEND_READ_BALANCING 2 #define MD_CLUSTER_BEGIN_JOIN_CLUSTER 3 /* Lock the send communication. This is done through * bit manipulation as opposed to a mutex in order to * accommodate lock and hold. See next comment. */ #define MD_CLUSTER_SEND_LOCK 4 /* If cluster operations (such as adding a disk) must lock the * communication channel, so as to perform extra operations * (update metadata) and no other operation is allowed on the * MD. Token needs to be locked and held until the operation * completes witha md_update_sb(), which would eventually release * the lock. */ #define MD_CLUSTER_SEND_LOCKED_ALREADY 5 /* We should receive message after node joined cluster and * set up all the related infos such as bitmap and personality */ #define MD_CLUSTER_ALREADY_IN_CLUSTER 6 #define MD_CLUSTER_PENDING_RECV_EVENT 7 #define MD_CLUSTER_HOLDING_MUTEX_FOR_RECVD 8 struct md_cluster_info { struct mddev *mddev; /* the md device which md_cluster_info belongs to */ /* dlm lock space and resources for clustered raid. */ dlm_lockspace_t *lockspace; int slot_number; struct completion completion; struct mutex recv_mutex; struct dlm_lock_resource *bitmap_lockres; struct dlm_lock_resource **other_bitmap_lockres; struct dlm_lock_resource *resync_lockres; struct list_head suspend_list; spinlock_t suspend_lock; /* record the region which write should be suspended */ sector_t suspend_lo; sector_t suspend_hi; int suspend_from; /* the slot which broadcast suspend_lo/hi */ struct md_thread *recovery_thread; unsigned long recovery_map; /* communication loc resources */ struct dlm_lock_resource *ack_lockres; struct dlm_lock_resource *message_lockres; struct dlm_lock_resource *token_lockres; struct dlm_lock_resource *no_new_dev_lockres; struct md_thread *recv_thread; struct completion newdisk_completion; wait_queue_head_t wait; unsigned long state; /* record the region in RESYNCING message */ sector_t sync_low; sector_t sync_hi; }; enum msg_type { METADATA_UPDATED = 0, RESYNCING, NEWDISK, REMOVE, RE_ADD, BITMAP_NEEDS_SYNC, CHANGE_CAPACITY, BITMAP_RESIZE, }; struct cluster_msg { __le32 type; __le32 slot; /* TODO: Unionize this for smaller footprint */ __le64 low; __le64 high; char uuid[16]; __le32 raid_slot; }; static void sync_ast(void *arg) { struct dlm_lock_resource *res; res = arg; res->sync_locking_done = true; wake_up(&res->sync_locking); } static int dlm_lock_sync(struct dlm_lock_resource *res, int mode) { int ret = 0; ret = dlm_lock(res->ls, mode, &res->lksb, res->flags, res->name, strlen(res->name), 0, sync_ast, res, res->bast); if (ret) return ret; wait_event(res->sync_locking, res->sync_locking_done); res->sync_locking_done = false; if (res->lksb.sb_status == 0) res->mode = mode; return res->lksb.sb_status; } static int dlm_unlock_sync(struct dlm_lock_resource *res) { return dlm_lock_sync(res, DLM_LOCK_NL); } /* * An variation of dlm_lock_sync, which make lock request could * be interrupted */ static int dlm_lock_sync_interruptible(struct dlm_lock_resource *res, int mode, struct mddev *mddev) { int ret = 0; ret = dlm_lock(res->ls, mode, &res->lksb, res->flags, res->name, strlen(res->name), 0, sync_ast, res, res->bast); if (ret) return ret; wait_event(res->sync_locking, res->sync_locking_done || kthread_should_stop() || test_bit(MD_CLOSING, &mddev->flags)); if (!res->sync_locking_done) { /* * the convert queue contains the lock request when request is * interrupted, and sync_ast could still be run, so need to * cancel the request and reset completion */ ret = dlm_unlock(res->ls, res->lksb.sb_lkid, DLM_LKF_CANCEL, &res->lksb, res); res->sync_locking_done = false; if (unlikely(ret != 0)) pr_info("failed to cancel previous lock request " "%s return %d\n", res->name, ret); return -EPERM; } else res->sync_locking_done = false; if (res->lksb.sb_status == 0) res->mode = mode; return res->lksb.sb_status; } static struct dlm_lock_resource *lockres_init(struct mddev *mddev, char *name, void (*bastfn)(void *arg, int mode), int with_lvb) { struct dlm_lock_resource *res = NULL; int ret, namelen; struct md_cluster_info *cinfo = mddev->cluster_info; res = kzalloc(sizeof(struct dlm_lock_resource), GFP_KERNEL); if (!res) return NULL; init_waitqueue_head(&res->sync_locking); res->sync_locking_done = false; res->ls = cinfo->lockspace; res->mddev = mddev; res->mode = DLM_LOCK_IV; namelen = strlen(name); res->name = kzalloc(namelen + 1, GFP_KERNEL); if (!res->name) { pr_err("md-cluster: Unable to allocate resource name for resource %s\n", name); goto out_err; } strscpy(res->name, name, namelen + 1); if (with_lvb) { res->lksb.sb_lvbptr = kzalloc(LVB_SIZE, GFP_KERNEL); if (!res->lksb.sb_lvbptr) { pr_err("md-cluster: Unable to allocate LVB for resource %s\n", name); goto out_err; } res->flags = DLM_LKF_VALBLK; } if (bastfn) res->bast = bastfn; res->flags |= DLM_LKF_EXPEDITE; ret = dlm_lock_sync(res, DLM_LOCK_NL); if (ret) { pr_err("md-cluster: Unable to lock NL on new lock resource %s\n", name); goto out_err; } res->flags &= ~DLM_LKF_EXPEDITE; res->flags |= DLM_LKF_CONVERT; return res; out_err: kfree(res->lksb.sb_lvbptr); kfree(res->name); kfree(res); return NULL; } static void lockres_free(struct dlm_lock_resource *res) { int ret = 0; if (!res) return; /* * use FORCEUNLOCK flag, so we can unlock even the lock is on the * waiting or convert queue */ ret = dlm_unlock(res->ls, res->lksb.sb_lkid, DLM_LKF_FORCEUNLOCK, &res->lksb, res); if (unlikely(ret != 0)) pr_err("failed to unlock %s return %d\n", res->name, ret); else wait_event(res->sync_locking, res->sync_locking_done); kfree(res->name); kfree(res->lksb.sb_lvbptr); kfree(res); } static void add_resync_info(struct dlm_lock_resource *lockres, sector_t lo, sector_t hi) { struct resync_info *ri; ri = (struct resync_info *)lockres->lksb.sb_lvbptr; ri->lo = cpu_to_le64(lo); ri->hi = cpu_to_le64(hi); } static int read_resync_info(struct mddev *mddev, struct dlm_lock_resource *lockres) { struct resync_info ri; struct md_cluster_info *cinfo = mddev->cluster_info; int ret = 0; dlm_lock_sync(lockres, DLM_LOCK_CR); memcpy(&ri, lockres->lksb.sb_lvbptr, sizeof(struct resync_info)); if (le64_to_cpu(ri.hi) > 0) { cinfo->suspend_hi = le64_to_cpu(ri.hi); cinfo->suspend_lo = le64_to_cpu(ri.lo); ret = 1; } dlm_unlock_sync(lockres); return ret; } static void recover_bitmaps(struct md_thread *thread) { struct mddev *mddev = thread->mddev; struct md_cluster_info *cinfo = mddev->cluster_info; struct dlm_lock_resource *bm_lockres; char str[64]; int slot, ret; sector_t lo, hi; while (cinfo->recovery_map) { slot = fls64((u64)cinfo->recovery_map) - 1; snprintf(str, 64, "bitmap%04d", slot); bm_lockres = lockres_init(mddev, str, NULL, 1); if (!bm_lockres) { pr_err("md-cluster: Cannot initialize bitmaps\n"); goto clear_bit; } ret = dlm_lock_sync_interruptible(bm_lockres, DLM_LOCK_PW, mddev); if (ret) { pr_err("md-cluster: Could not DLM lock %s: %d\n", str, ret); goto clear_bit; } ret = md_bitmap_copy_from_slot(mddev, slot, &lo, &hi, true); if (ret) { pr_err("md-cluster: Could not copy data from bitmap %d\n", slot); goto clear_bit; } /* Clear suspend_area associated with the bitmap */ spin_lock_irq(&cinfo->suspend_lock); cinfo->suspend_hi = 0; cinfo->suspend_lo = 0; cinfo->suspend_from = -1; spin_unlock_irq(&cinfo->suspend_lock); /* Kick off a reshape if needed */ if (test_bit(MD_RESYNCING_REMOTE, &mddev->recovery) && test_bit(MD_RECOVERY_RESHAPE, &mddev->recovery) && mddev->reshape_position != MaxSector) md_wakeup_thread(mddev->sync_thread); if (hi > 0) { if (lo < mddev->recovery_cp) mddev->recovery_cp = lo; /* wake up thread to continue resync in case resync * is not finished */ if (mddev->recovery_cp != MaxSector) { /* * clear the REMOTE flag since we will launch * resync thread in current node. */ clear_bit(MD_RESYNCING_REMOTE, &mddev->recovery); set_bit(MD_RECOVERY_NEEDED, &mddev->recovery); md_wakeup_thread(mddev->thread); } } clear_bit: lockres_free(bm_lockres); clear_bit(slot, &cinfo->recovery_map); } } static void recover_prep(void *arg) { struct mddev *mddev = arg; struct md_cluster_info *cinfo = mddev->cluster_info; set_bit(MD_CLUSTER_SUSPEND_READ_BALANCING, &cinfo->state); } static void __recover_slot(struct mddev *mddev, int slot) { struct md_cluster_info *cinfo = mddev->cluster_info; set_bit(slot, &cinfo->recovery_map); if (!cinfo->recovery_thread) { cinfo->recovery_thread = md_register_thread(recover_bitmaps, mddev, "recover"); if (!cinfo->recovery_thread) { pr_warn("md-cluster: Could not create recovery thread\n"); return; } } md_wakeup_thread(cinfo->recovery_thread); } static void recover_slot(void *arg, struct dlm_slot *slot) { struct mddev *mddev = arg; struct md_cluster_info *cinfo = mddev->cluster_info; pr_info("md-cluster: %s Node %d/%d down. My slot: %d. Initiating recovery.\n", mddev->bitmap_info.cluster_name, slot->nodeid, slot->slot, cinfo->slot_number); /* deduct one since dlm slot starts from one while the num of * cluster-md begins with 0 */ __recover_slot(mddev, slot->slot - 1); } static void recover_done(void *arg, struct dlm_slot *slots, int num_slots, int our_slot, uint32_t generation) { struct mddev *mddev = arg; struct md_cluster_info *cinfo = mddev->cluster_info; cinfo->slot_number = our_slot; /* completion is only need to be complete when node join cluster, * it doesn't need to run during another node's failure */ if (test_bit(MD_CLUSTER_BEGIN_JOIN_CLUSTER, &cinfo->state)) { complete(&cinfo->completion); clear_bit(MD_CLUSTER_BEGIN_JOIN_CLUSTER, &cinfo->state); } clear_bit(MD_CLUSTER_SUSPEND_READ_BALANCING, &cinfo->state); } /* the ops is called when node join the cluster, and do lock recovery * if node failure occurs */ static const struct dlm_lockspace_ops md_ls_ops = { .recover_prep = recover_prep, .recover_slot = recover_slot, .recover_done = recover_done, }; /* * The BAST function for the ack lock resource * This function wakes up the receive thread in * order to receive and process the message. */ static void ack_bast(void *arg, int mode) { struct dlm_lock_resource *res = arg; struct md_cluster_info *cinfo = res->mddev->cluster_info; if (mode == DLM_LOCK_EX) { if (test_bit(MD_CLUSTER_ALREADY_IN_CLUSTER, &cinfo->state)) md_wakeup_thread(cinfo->recv_thread); else set_bit(MD_CLUSTER_PENDING_RECV_EVENT, &cinfo->state); } } static void remove_suspend_info(struct mddev *mddev, int slot) { struct md_cluster_info *cinfo = mddev->cluster_info; mddev->pers->quiesce(mddev, 1); spin_lock_irq(&cinfo->suspend_lock); cinfo->suspend_hi = 0; cinfo->suspend_lo = 0; spin_unlock_irq(&cinfo->suspend_lock); mddev->pers->quiesce(mddev, 0); } static void process_suspend_info(struct mddev *mddev, int slot, sector_t lo, sector_t hi) { struct md_cluster_info *cinfo = mddev->cluster_info; struct mdp_superblock_1 *sb = NULL; struct md_rdev *rdev; if (!hi) { /* * clear the REMOTE flag since resync or recovery is finished * in remote node. */ clear_bit(MD_RESYNCING_REMOTE, &mddev->recovery); remove_suspend_info(mddev, slot); set_bit(MD_RECOVERY_NEEDED, &mddev->recovery); md_wakeup_thread(mddev->thread); return; } rdev_for_each(rdev, mddev) if (rdev->raid_disk > -1 && !test_bit(Faulty, &rdev->flags)) { sb = page_address(rdev->sb_page); break; } /* * The bitmaps are not same for different nodes * if RESYNCING is happening in one node, then * the node which received the RESYNCING message * probably will perform resync with the region * [lo, hi] again, so we could reduce resync time * a lot if we can ensure that the bitmaps among * different nodes are match up well. * * sync_low/hi is used to record the region which * arrived in the previous RESYNCING message, * * Call md_bitmap_sync_with_cluster to clear NEEDED_MASK * and set RESYNC_MASK since resync thread is running * in another node, so we don't need to do the resync * again with the same section. * * Skip md_bitmap_sync_with_cluster in case reshape * happening, because reshaping region is small and * we don't want to trigger lots of WARN. */ if (sb && !(le32_to_cpu(sb->feature_map) & MD_FEATURE_RESHAPE_ACTIVE)) md_bitmap_sync_with_cluster(mddev, cinfo->sync_low, cinfo->sync_hi, lo, hi); cinfo->sync_low = lo; cinfo->sync_hi = hi; mddev->pers->quiesce(mddev, 1); spin_lock_irq(&cinfo->suspend_lock); cinfo->suspend_from = slot; cinfo->suspend_lo = lo; cinfo->suspend_hi = hi; spin_unlock_irq(&cinfo->suspend_lock); mddev->pers->quiesce(mddev, 0); } static void process_add_new_disk(struct mddev *mddev, struct cluster_msg *cmsg) { char disk_uuid[64]; struct md_cluster_info *cinfo = mddev->cluster_info; char event_name[] = "EVENT=ADD_DEVICE"; char raid_slot[16]; char *envp[] = {event_name, disk_uuid, raid_slot, NULL}; int len; len = snprintf(disk_uuid, 64, "DEVICE_UUID="); sprintf(disk_uuid + len, "%pU", cmsg->uuid); snprintf(raid_slot, 16, "RAID_DISK=%d", le32_to_cpu(cmsg->raid_slot)); pr_info("%s:%d Sending kobject change with %s and %s\n", __func__, __LINE__, disk_uuid, raid_slot); init_completion(&cinfo->newdisk_completion); set_bit(MD_CLUSTER_WAITING_FOR_NEWDISK, &cinfo->state); kobject_uevent_env(&disk_to_dev(mddev->gendisk)->kobj, KOBJ_CHANGE, envp); wait_for_completion_timeout(&cinfo->newdisk_completion, NEW_DEV_TIMEOUT); clear_bit(MD_CLUSTER_WAITING_FOR_NEWDISK, &cinfo->state); } static void process_metadata_update(struct mddev *mddev, struct cluster_msg *msg) { int got_lock = 0; struct md_cluster_info *cinfo = mddev->cluster_info; mddev->good_device_nr = le32_to_cpu(msg->raid_slot); dlm_lock_sync(cinfo->no_new_dev_lockres, DLM_LOCK_CR); wait_event(mddev->thread->wqueue, (got_lock = mddev_trylock(mddev)) || test_bit(MD_CLUSTER_HOLDING_MUTEX_FOR_RECVD, &cinfo->state)); md_reload_sb(mddev, mddev->good_device_nr); if (got_lock) mddev_unlock(mddev); } static void process_remove_disk(struct mddev *mddev, struct cluster_msg *msg) { struct md_rdev *rdev; rcu_read_lock(); rdev = md_find_rdev_nr_rcu(mddev, le32_to_cpu(msg->raid_slot)); if (rdev) { set_bit(ClusterRemove, &rdev->flags); set_bit(MD_RECOVERY_NEEDED, &mddev->recovery); md_wakeup_thread(mddev->thread); } else pr_warn("%s: %d Could not find disk(%d) to REMOVE\n", __func__, __LINE__, le32_to_cpu(msg->raid_slot)); rcu_read_unlock(); } static void process_readd_disk(struct mddev *mddev, struct cluster_msg *msg) { struct md_rdev *rdev; rcu_read_lock(); rdev = md_find_rdev_nr_rcu(mddev, le32_to_cpu(msg->raid_slot)); if (rdev && test_bit(Faulty, &rdev->flags)) clear_bit(Faulty, &rdev->flags); else pr_warn("%s: %d Could not find disk(%d) which is faulty", __func__, __LINE__, le32_to_cpu(msg->raid_slot)); rcu_read_unlock(); } static int process_recvd_msg(struct mddev *mddev, struct cluster_msg *msg) { int ret = 0; if (WARN(mddev->cluster_info->slot_number - 1 == le32_to_cpu(msg->slot), "node %d received its own msg\n", le32_to_cpu(msg->slot))) return -1; switch (le32_to_cpu(msg->type)) { case METADATA_UPDATED: process_metadata_update(mddev, msg); break; case CHANGE_CAPACITY: set_capacity_and_notify(mddev->gendisk, mddev->array_sectors); break; case RESYNCING: set_bit(MD_RESYNCING_REMOTE, &mddev->recovery); process_suspend_info(mddev, le32_to_cpu(msg->slot), le64_to_cpu(msg->low), le64_to_cpu(msg->high)); break; case NEWDISK: process_add_new_disk(mddev, msg); break; case REMOVE: process_remove_disk(mddev, msg); break; case RE_ADD: process_readd_disk(mddev, msg); break; case BITMAP_NEEDS_SYNC: __recover_slot(mddev, le32_to_cpu(msg->slot)); break; case BITMAP_RESIZE: if (le64_to_cpu(msg->high) != mddev->pers->size(mddev, 0, 0)) ret = md_bitmap_resize(mddev->bitmap, le64_to_cpu(msg->high), 0, 0); break; default: ret = -1; pr_warn("%s:%d Received unknown message from %d\n", __func__, __LINE__, msg->slot); } return ret; } /* * thread for receiving message */ static void recv_daemon(struct md_thread *thread) { struct md_cluster_info *cinfo = thread->mddev->cluster_info; struct dlm_lock_resource *ack_lockres = cinfo->ack_lockres; struct dlm_lock_resource *message_lockres = cinfo->message_lockres; struct cluster_msg msg; int ret; mutex_lock(&cinfo->recv_mutex); /*get CR on Message*/ if (dlm_lock_sync(message_lockres, DLM_LOCK_CR)) { pr_err("md/raid1:failed to get CR on MESSAGE\n"); mutex_unlock(&cinfo->recv_mutex); return; } /* read lvb and wake up thread to process this message_lockres */ memcpy(&msg, message_lockres->lksb.sb_lvbptr, sizeof(struct cluster_msg)); ret = process_recvd_msg(thread->mddev, &msg); if (ret) goto out; /*release CR on ack_lockres*/ ret = dlm_unlock_sync(ack_lockres); if (unlikely(ret != 0)) pr_info("unlock ack failed return %d\n", ret); /*up-convert to PR on message_lockres*/ ret = dlm_lock_sync(message_lockres, DLM_LOCK_PR); if (unlikely(ret != 0)) pr_info("lock PR on msg failed return %d\n", ret); /*get CR on ack_lockres again*/ ret = dlm_lock_sync(ack_lockres, DLM_LOCK_CR); if (unlikely(ret != 0)) pr_info("lock CR on ack failed return %d\n", ret); out: /*release CR on message_lockres*/ ret = dlm_unlock_sync(message_lockres); if (unlikely(ret != 0)) pr_info("unlock msg failed return %d\n", ret); mutex_unlock(&cinfo->recv_mutex); } /* lock_token() * Takes the lock on the TOKEN lock resource so no other * node can communicate while the operation is underway. */ static int lock_token(struct md_cluster_info *cinfo) { int error; error = dlm_lock_sync(cinfo->token_lockres, DLM_LOCK_EX); if (error) { pr_err("md-cluster(%s:%d): failed to get EX on TOKEN (%d)\n", __func__, __LINE__, error); } else { /* Lock the receive sequence */ mutex_lock(&cinfo->recv_mutex); } return error; } /* lock_comm() * Sets the MD_CLUSTER_SEND_LOCK bit to lock the send channel. */ static int lock_comm(struct md_cluster_info *cinfo, bool mddev_locked) { int rv, set_bit = 0; struct mddev *mddev = cinfo->mddev; /* * If resync thread run after raid1d thread, then process_metadata_update * could not continue if raid1d held reconfig_mutex (and raid1d is blocked * since another node already got EX on Token and waiting the EX of Ack), * so let resync wake up thread in case flag is set. */ if (mddev_locked && !test_bit(MD_CLUSTER_HOLDING_MUTEX_FOR_RECVD, &cinfo->state)) { rv = test_and_set_bit_lock(MD_CLUSTER_HOLDING_MUTEX_FOR_RECVD, &cinfo->state); WARN_ON_ONCE(rv); md_wakeup_thread(mddev->thread); set_bit = 1; } wait_event(cinfo->wait, !test_and_set_bit(MD_CLUSTER_SEND_LOCK, &cinfo->state)); rv = lock_token(cinfo); if (set_bit) clear_bit_unlock(MD_CLUSTER_HOLDING_MUTEX_FOR_RECVD, &cinfo->state); return rv; } static void unlock_comm(struct md_cluster_info *cinfo) { WARN_ON(cinfo->token_lockres->mode != DLM_LOCK_EX); mutex_unlock(&cinfo->recv_mutex); dlm_unlock_sync(cinfo->token_lockres); clear_bit(MD_CLUSTER_SEND_LOCK, &cinfo->state); wake_up(&cinfo->wait); } /* __sendmsg() * This function performs the actual sending of the message. This function is * usually called after performing the encompassing operation * The function: * 1. Grabs the message lockresource in EX mode * 2. Copies the message to the message LVB * 3. Downconverts message lockresource to CW * 4. Upconverts ack lock resource from CR to EX. This forces the BAST on other nodes * and the other nodes read the message. The thread will wait here until all other * nodes have released ack lock resource. * 5. Downconvert ack lockresource to CR */ static int __sendmsg(struct md_cluster_info *cinfo, struct cluster_msg *cmsg) { int error; int slot = cinfo->slot_number - 1; cmsg->slot = cpu_to_le32(slot); /*get EX on Message*/ error = dlm_lock_sync(cinfo->message_lockres, DLM_LOCK_EX); if (error) { pr_err("md-cluster: failed to get EX on MESSAGE (%d)\n", error); goto failed_message; } memcpy(cinfo->message_lockres->lksb.sb_lvbptr, (void *)cmsg, sizeof(struct cluster_msg)); /*down-convert EX to CW on Message*/ error = dlm_lock_sync(cinfo->message_lockres, DLM_LOCK_CW); if (error) { pr_err("md-cluster: failed to convert EX to CW on MESSAGE(%d)\n", error); goto failed_ack; } /*up-convert CR to EX on Ack*/ error = dlm_lock_sync(cinfo->ack_lockres, DLM_LOCK_EX); if (error) { pr_err("md-cluster: failed to convert CR to EX on ACK(%d)\n", error); goto failed_ack; } /*down-convert EX to CR on Ack*/ error = dlm_lock_sync(cinfo->ack_lockres, DLM_LOCK_CR); if (error) { pr_err("md-cluster: failed to convert EX to CR on ACK(%d)\n", error); goto failed_ack; } failed_ack: error = dlm_unlock_sync(cinfo->message_lockres); if (unlikely(error != 0)) { pr_err("md-cluster: failed convert to NL on MESSAGE(%d)\n", error); /* in case the message can't be released due to some reason */ goto failed_ack; } failed_message: return error; } static int sendmsg(struct md_cluster_info *cinfo, struct cluster_msg *cmsg, bool mddev_locked) { int ret; ret = lock_comm(cinfo, mddev_locked); if (!ret) { ret = __sendmsg(cinfo, cmsg); unlock_comm(cinfo); } return ret; } static int gather_all_resync_info(struct mddev *mddev, int total_slots) { struct md_cluster_info *cinfo = mddev->cluster_info; int i, ret = 0; struct dlm_lock_resource *bm_lockres; char str[64]; sector_t lo, hi; for (i = 0; i < total_slots; i++) { memset(str, '\0', 64); snprintf(str, 64, "bitmap%04d", i); bm_lockres = lockres_init(mddev, str, NULL, 1); if (!bm_lockres) return -ENOMEM; if (i == (cinfo->slot_number - 1)) { lockres_free(bm_lockres); continue; } bm_lockres->flags |= DLM_LKF_NOQUEUE; ret = dlm_lock_sync(bm_lockres, DLM_LOCK_PW); if (ret == -EAGAIN) { if (read_resync_info(mddev, bm_lockres)) { pr_info("%s:%d Resync[%llu..%llu] in progress on %d\n", __func__, __LINE__, (unsigned long long) cinfo->suspend_lo, (unsigned long long) cinfo->suspend_hi, i); cinfo->suspend_from = i; } ret = 0; lockres_free(bm_lockres); continue; } if (ret) { lockres_free(bm_lockres); goto out; } /* Read the disk bitmap sb and check if it needs recovery */ ret = md_bitmap_copy_from_slot(mddev, i, &lo, &hi, false); if (ret) { pr_warn("md-cluster: Could not gather bitmaps from slot %d", i); lockres_free(bm_lockres); continue; } if ((hi > 0) && (lo < mddev->recovery_cp)) { set_bit(MD_RECOVERY_NEEDED, &mddev->recovery); mddev->recovery_cp = lo; md_check_recovery(mddev); } lockres_free(bm_lockres); } out: return ret; } static int join(struct mddev *mddev, int nodes) { struct md_cluster_info *cinfo; int ret, ops_rv; char str[64]; cinfo = kzalloc(sizeof(struct md_cluster_info), GFP_KERNEL); if (!cinfo) return -ENOMEM; INIT_LIST_HEAD(&cinfo->suspend_list); spin_lock_init(&cinfo->suspend_lock); init_completion(&cinfo->completion); set_bit(MD_CLUSTER_BEGIN_JOIN_CLUSTER, &cinfo->state); init_waitqueue_head(&cinfo->wait); mutex_init(&cinfo->recv_mutex); mddev->cluster_info = cinfo; cinfo->mddev = mddev; memset(str, 0, 64); sprintf(str, "%pU", mddev->uuid); ret = dlm_new_lockspace(str, mddev->bitmap_info.cluster_name, 0, LVB_SIZE, &md_ls_ops, mddev, &ops_rv, &cinfo->lockspace); if (ret) goto err; wait_for_completion(&cinfo->completion); if (nodes < cinfo->slot_number) { pr_err("md-cluster: Slot allotted(%d) is greater than available slots(%d).", cinfo->slot_number, nodes); ret = -ERANGE; goto err; } /* Initiate the communication resources */ ret = -ENOMEM; cinfo->recv_thread = md_register_thread(recv_daemon, mddev, "cluster_recv"); if (!cinfo->recv_thread) { pr_err("md-cluster: cannot allocate memory for recv_thread!\n"); goto err; } cinfo->message_lockres = lockres_init(mddev, "message", NULL, 1); if (!cinfo->message_lockres) goto err; cinfo->token_lockres = lockres_init(mddev, "token", NULL, 0); if (!cinfo->token_lockres) goto err; cinfo->no_new_dev_lockres = lockres_init(mddev, "no-new-dev", NULL, 0); if (!cinfo->no_new_dev_lockres) goto err; ret = dlm_lock_sync(cinfo->token_lockres, DLM_LOCK_EX); if (ret) { ret = -EAGAIN; pr_err("md-cluster: can't join cluster to avoid lock issue\n"); goto err; } cinfo->ack_lockres = lockres_init(mddev, "ack", ack_bast, 0); if (!cinfo->ack_lockres) { ret = -ENOMEM; goto err; } /* get sync CR lock on ACK. */ if (dlm_lock_sync(cinfo->ack_lockres, DLM_LOCK_CR)) pr_err("md-cluster: failed to get a sync CR lock on ACK!(%d)\n", ret); dlm_unlock_sync(cinfo->token_lockres); /* get sync CR lock on no-new-dev. */ if (dlm_lock_sync(cinfo->no_new_dev_lockres, DLM_LOCK_CR)) pr_err("md-cluster: failed to get a sync CR lock on no-new-dev!(%d)\n", ret); pr_info("md-cluster: Joined cluster %s slot %d\n", str, cinfo->slot_number); snprintf(str, 64, "bitmap%04d", cinfo->slot_number - 1); cinfo->bitmap_lockres = lockres_init(mddev, str, NULL, 1); if (!cinfo->bitmap_lockres) { ret = -ENOMEM; goto err; } if (dlm_lock_sync(cinfo->bitmap_lockres, DLM_LOCK_PW)) { pr_err("Failed to get bitmap lock\n"); ret = -EINVAL; goto err; } cinfo->resync_lockres = lockres_init(mddev, "resync", NULL, 0); if (!cinfo->resync_lockres) { ret = -ENOMEM; goto err; } return 0; err: set_bit(MD_CLUSTER_HOLDING_MUTEX_FOR_RECVD, &cinfo->state); md_unregister_thread(&cinfo->recovery_thread); md_unregister_thread(&cinfo->recv_thread); lockres_free(cinfo->message_lockres); lockres_free(cinfo->token_lockres); lockres_free(cinfo->ack_lockres); lockres_free(cinfo->no_new_dev_lockres); lockres_free(cinfo->resync_lockres); lockres_free(cinfo->bitmap_lockres); if (cinfo->lockspace) dlm_release_lockspace(cinfo->lockspace, 2); mddev->cluster_info = NULL; kfree(cinfo); return ret; } static void load_bitmaps(struct mddev *mddev, int total_slots) { struct md_cluster_info *cinfo = mddev->cluster_info; /* load all the node's bitmap info for resync */ if (gather_all_resync_info(mddev, total_slots)) pr_err("md-cluster: failed to gather all resyn infos\n"); set_bit(MD_CLUSTER_ALREADY_IN_CLUSTER, &cinfo->state); /* wake up recv thread in case something need to be handled */ if (test_and_clear_bit(MD_CLUSTER_PENDING_RECV_EVENT, &cinfo->state)) md_wakeup_thread(cinfo->recv_thread); } static void resync_bitmap(struct mddev *mddev) { struct md_cluster_info *cinfo = mddev->cluster_info; struct cluster_msg cmsg = {0}; int err; cmsg.type = cpu_to_le32(BITMAP_NEEDS_SYNC); err = sendmsg(cinfo, &cmsg, 1); if (err) pr_err("%s:%d: failed to send BITMAP_NEEDS_SYNC message (%d)\n", __func__, __LINE__, err); } static void unlock_all_bitmaps(struct mddev *mddev); static int leave(struct mddev *mddev) { struct md_cluster_info *cinfo = mddev->cluster_info; if (!cinfo) return 0; /* * BITMAP_NEEDS_SYNC message should be sent when node * is leaving the cluster with dirty bitmap, also we * can only deliver it when dlm connection is available. * * Also, we should send BITMAP_NEEDS_SYNC message in * case reshaping is interrupted. */ if ((cinfo->slot_number > 0 && mddev->recovery_cp != MaxSector) || (mddev->reshape_position != MaxSector && test_bit(MD_CLOSING, &mddev->flags))) resync_bitmap(mddev); set_bit(MD_CLUSTER_HOLDING_MUTEX_FOR_RECVD, &cinfo->state); md_unregister_thread(&cinfo->recovery_thread); md_unregister_thread(&cinfo->recv_thread); lockres_free(cinfo->message_lockres); lockres_free(cinfo->token_lockres); lockres_free(cinfo->ack_lockres); lockres_free(cinfo->no_new_dev_lockres); lockres_free(cinfo->resync_lockres); lockres_free(cinfo->bitmap_lockres); unlock_all_bitmaps(mddev); dlm_release_lockspace(cinfo->lockspace, 2); kfree(cinfo); return 0; } /* slot_number(): Returns the MD slot number to use * DLM starts the slot numbers from 1, wheras cluster-md * wants the number to be from zero, so we deduct one */ static int slot_number(struct mddev *mddev) { struct md_cluster_info *cinfo = mddev->cluster_info; return cinfo->slot_number - 1; } /* * Check if the communication is already locked, else lock the communication * channel. * If it is already locked, token is in EX mode, and hence lock_token() * should not be called. */ static int metadata_update_start(struct mddev *mddev) { struct md_cluster_info *cinfo = mddev->cluster_info; int ret; /* * metadata_update_start is always called with the protection of * reconfig_mutex, so set WAITING_FOR_TOKEN here. */ ret = test_and_set_bit_lock(MD_CLUSTER_HOLDING_MUTEX_FOR_RECVD, &cinfo->state); WARN_ON_ONCE(ret); md_wakeup_thread(mddev->thread); wait_event(cinfo->wait, !test_and_set_bit(MD_CLUSTER_SEND_LOCK, &cinfo->state) || test_and_clear_bit(MD_CLUSTER_SEND_LOCKED_ALREADY, &cinfo->state)); /* If token is already locked, return 0 */ if (cinfo->token_lockres->mode == DLM_LOCK_EX) { clear_bit_unlock(MD_CLUSTER_HOLDING_MUTEX_FOR_RECVD, &cinfo->state); return 0; } ret = lock_token(cinfo); clear_bit_unlock(MD_CLUSTER_HOLDING_MUTEX_FOR_RECVD, &cinfo->state); return ret; } static int metadata_update_finish(struct mddev *mddev) { struct md_cluster_info *cinfo = mddev->cluster_info; struct cluster_msg cmsg; struct md_rdev *rdev; int ret = 0; int raid_slot = -1; memset(&cmsg, 0, sizeof(cmsg)); cmsg.type = cpu_to_le32(METADATA_UPDATED); /* Pick up a good active device number to send. */ rdev_for_each(rdev, mddev) if (rdev->raid_disk > -1 && !test_bit(Faulty, &rdev->flags)) { raid_slot = rdev->desc_nr; break; } if (raid_slot >= 0) { cmsg.raid_slot = cpu_to_le32(raid_slot); ret = __sendmsg(cinfo, &cmsg); } else pr_warn("md-cluster: No good device id found to send\n"); clear_bit(MD_CLUSTER_SEND_LOCKED_ALREADY, &cinfo->state); unlock_comm(cinfo); return ret; } static void metadata_update_cancel(struct mddev *mddev) { struct md_cluster_info *cinfo = mddev->cluster_info; clear_bit(MD_CLUSTER_SEND_LOCKED_ALREADY, &cinfo->state); unlock_comm(cinfo); } static int update_bitmap_size(struct mddev *mddev, sector_t size) { struct md_cluster_info *cinfo = mddev->cluster_info; struct cluster_msg cmsg = {0}; int ret; cmsg.type = cpu_to_le32(BITMAP_RESIZE); cmsg.high = cpu_to_le64(size); ret = sendmsg(cinfo, &cmsg, 0); if (ret) pr_err("%s:%d: failed to send BITMAP_RESIZE message (%d)\n", __func__, __LINE__, ret); return ret; } static int resize_bitmaps(struct mddev *mddev, sector_t newsize, sector_t oldsize) { struct bitmap_counts *counts; char str[64]; struct dlm_lock_resource *bm_lockres; struct bitmap *bitmap = mddev->bitmap; unsigned long my_pages = bitmap->counts.pages; int i, rv; /* * We need to ensure all the nodes can grow to a larger * bitmap size before make the reshaping. */ rv = update_bitmap_size(mddev, newsize); if (rv) return rv; for (i = 0; i < mddev->bitmap_info.nodes; i++) { if (i == md_cluster_ops->slot_number(mddev)) continue; bitmap = get_bitmap_from_slot(mddev, i); if (IS_ERR(bitmap)) { pr_err("can't get bitmap from slot %d\n", i); bitmap = NULL; goto out; } counts = &bitmap->counts; /* * If we can hold the bitmap lock of one node then * the slot is not occupied, update the pages. */ snprintf(str, 64, "bitmap%04d", i); bm_lockres = lockres_init(mddev, str, NULL, 1); if (!bm_lockres) { pr_err("Cannot initialize %s lock\n", str); goto out; } bm_lockres->flags |= DLM_LKF_NOQUEUE; rv = dlm_lock_sync(bm_lockres, DLM_LOCK_PW); if (!rv) counts->pages = my_pages; lockres_free(bm_lockres); if (my_pages != counts->pages) /* * Let's revert the bitmap size if one node * can't resize bitmap */ goto out; md_bitmap_free(bitmap); } return 0; out: md_bitmap_free(bitmap); update_bitmap_size(mddev, oldsize); return -1; } /* * return 0 if all the bitmaps have the same sync_size */ static int cluster_check_sync_size(struct mddev *mddev) { int i, rv; bitmap_super_t *sb; unsigned long my_sync_size, sync_size = 0; int node_num = mddev->bitmap_info.nodes; int current_slot = md_cluster_ops->slot_number(mddev); struct bitmap *bitmap = mddev->bitmap; char str[64]; struct dlm_lock_resource *bm_lockres; sb = kmap_atomic(bitmap->storage.sb_page); my_sync_size = sb->sync_size; kunmap_atomic(sb); for (i = 0; i < node_num; i++) { if (i == current_slot) continue; bitmap = get_bitmap_from_slot(mddev, i); if (IS_ERR(bitmap)) { pr_err("can't get bitmap from slot %d\n", i); return -1; } /* * If we can hold the bitmap lock of one node then * the slot is not occupied, update the sb. */ snprintf(str, 64, "bitmap%04d", i); bm_lockres = lockres_init(mddev, str, NULL, 1); if (!bm_lockres) { pr_err("md-cluster: Cannot initialize %s\n", str); md_bitmap_free(bitmap); return -1; } bm_lockres->flags |= DLM_LKF_NOQUEUE; rv = dlm_lock_sync(bm_lockres, DLM_LOCK_PW); if (!rv) md_bitmap_update_sb(bitmap); lockres_free(bm_lockres); sb = kmap_atomic(bitmap->storage.sb_page); if (sync_size == 0) sync_size = sb->sync_size; else if (sync_size != sb->sync_size) { kunmap_atomic(sb); md_bitmap_free(bitmap); return -1; } kunmap_atomic(sb); md_bitmap_free(bitmap); } return (my_sync_size == sync_size) ? 0 : -1; } /* * Update the size for cluster raid is a little more complex, we perform it * by the steps: * 1. hold token lock and update superblock in initiator node. * 2. send METADATA_UPDATED msg to other nodes. * 3. The initiator node continues to check each bitmap's sync_size, if all * bitmaps have the same value of sync_size, then we can set capacity and * let other nodes to perform it. If one node can't update sync_size * accordingly, we need to revert to previous value. */ static void update_size(struct mddev *mddev, sector_t old_dev_sectors) { struct md_cluster_info *cinfo = mddev->cluster_info; struct cluster_msg cmsg; struct md_rdev *rdev; int ret = 0; int raid_slot = -1; md_update_sb(mddev, 1); if (lock_comm(cinfo, 1)) { pr_err("%s: lock_comm failed\n", __func__); return; } memset(&cmsg, 0, sizeof(cmsg)); cmsg.type = cpu_to_le32(METADATA_UPDATED); rdev_for_each(rdev, mddev) if (rdev->raid_disk >= 0 && !test_bit(Faulty, &rdev->flags)) { raid_slot = rdev->desc_nr; break; } if (raid_slot >= 0) { cmsg.raid_slot = cpu_to_le32(raid_slot); /* * We can only change capiticy after all the nodes can do it, * so need to wait after other nodes already received the msg * and handled the change */ ret = __sendmsg(cinfo, &cmsg); if (ret) { pr_err("%s:%d: failed to send METADATA_UPDATED msg\n", __func__, __LINE__); unlock_comm(cinfo); return; } } else { pr_err("md-cluster: No good device id found to send\n"); unlock_comm(cinfo); return; } /* * check the sync_size from other node's bitmap, if sync_size * have already updated in other nodes as expected, send an * empty metadata msg to permit the change of capacity */ if (cluster_check_sync_size(mddev) == 0) { memset(&cmsg, 0, sizeof(cmsg)); cmsg.type = cpu_to_le32(CHANGE_CAPACITY); ret = __sendmsg(cinfo, &cmsg); if (ret) pr_err("%s:%d: failed to send CHANGE_CAPACITY msg\n", __func__, __LINE__); set_capacity_and_notify(mddev->gendisk, mddev->array_sectors); } else { /* revert to previous sectors */ ret = mddev->pers->resize(mddev, old_dev_sectors); ret = __sendmsg(cinfo, &cmsg); if (ret) pr_err("%s:%d: failed to send METADATA_UPDATED msg\n", __func__, __LINE__); } unlock_comm(cinfo); } static int resync_start(struct mddev *mddev) { struct md_cluster_info *cinfo = mddev->cluster_info; return dlm_lock_sync_interruptible(cinfo->resync_lockres, DLM_LOCK_EX, mddev); } static void resync_info_get(struct mddev *mddev, sector_t *lo, sector_t *hi) { struct md_cluster_info *cinfo = mddev->cluster_info; spin_lock_irq(&cinfo->suspend_lock); *lo = cinfo->suspend_lo; *hi = cinfo->suspend_hi; spin_unlock_irq(&cinfo->suspend_lock); } static int resync_info_update(struct mddev *mddev, sector_t lo, sector_t hi) { struct md_cluster_info *cinfo = mddev->cluster_info; struct resync_info ri; struct cluster_msg cmsg = {0}; /* do not send zero again, if we have sent before */ if (hi == 0) { memcpy(&ri, cinfo->bitmap_lockres->lksb.sb_lvbptr, sizeof(struct resync_info)); if (le64_to_cpu(ri.hi) == 0) return 0; } add_resync_info(cinfo->bitmap_lockres, lo, hi); /* Re-acquire the lock to refresh LVB */ dlm_lock_sync(cinfo->bitmap_lockres, DLM_LOCK_PW); cmsg.type = cpu_to_le32(RESYNCING); cmsg.low = cpu_to_le64(lo); cmsg.high = cpu_to_le64(hi); /* * mddev_lock is held if resync_info_update is called from * resync_finish (md_reap_sync_thread -> resync_finish) */ if (lo == 0 && hi == 0) return sendmsg(cinfo, &cmsg, 1); else return sendmsg(cinfo, &cmsg, 0); } static int resync_finish(struct mddev *mddev) { struct md_cluster_info *cinfo = mddev->cluster_info; int ret = 0; clear_bit(MD_RESYNCING_REMOTE, &mddev->recovery); /* * If resync thread is interrupted so we can't say resync is finished, * another node will launch resync thread to continue. */ if (!test_bit(MD_CLOSING, &mddev->flags)) ret = resync_info_update(mddev, 0, 0); dlm_unlock_sync(cinfo->resync_lockres); return ret; } static int area_resyncing(struct mddev *mddev, int direction, sector_t lo, sector_t hi) { struct md_cluster_info *cinfo = mddev->cluster_info; int ret = 0; if ((direction == READ) && test_bit(MD_CLUSTER_SUSPEND_READ_BALANCING, &cinfo->state)) return 1; spin_lock_irq(&cinfo->suspend_lock); if (hi > cinfo->suspend_lo && lo < cinfo->suspend_hi) ret = 1; spin_unlock_irq(&cinfo->suspend_lock); return ret; } /* add_new_disk() - initiates a disk add * However, if this fails before writing md_update_sb(), * add_new_disk_cancel() must be called to release token lock */ static int add_new_disk(struct mddev *mddev, struct md_rdev *rdev) { struct md_cluster_info *cinfo = mddev->cluster_info; struct cluster_msg cmsg; int ret = 0; struct mdp_superblock_1 *sb = page_address(rdev->sb_page); char *uuid = sb->device_uuid; memset(&cmsg, 0, sizeof(cmsg)); cmsg.type = cpu_to_le32(NEWDISK); memcpy(cmsg.uuid, uuid, 16); cmsg.raid_slot = cpu_to_le32(rdev->desc_nr); if (lock_comm(cinfo, 1)) return -EAGAIN; ret = __sendmsg(cinfo, &cmsg); if (ret) { unlock_comm(cinfo); return ret; } cinfo->no_new_dev_lockres->flags |= DLM_LKF_NOQUEUE; ret = dlm_lock_sync(cinfo->no_new_dev_lockres, DLM_LOCK_EX); cinfo->no_new_dev_lockres->flags &= ~DLM_LKF_NOQUEUE; /* Some node does not "see" the device */ if (ret == -EAGAIN) ret = -ENOENT; if (ret) unlock_comm(cinfo); else { dlm_lock_sync(cinfo->no_new_dev_lockres, DLM_LOCK_CR); /* Since MD_CHANGE_DEVS will be set in add_bound_rdev which * will run soon after add_new_disk, the below path will be * invoked: * md_wakeup_thread(mddev->thread) * -> conf->thread (raid1d) * -> md_check_recovery -> md_update_sb * -> metadata_update_start/finish * MD_CLUSTER_SEND_LOCKED_ALREADY will be cleared eventually. * * For other failure cases, metadata_update_cancel and * add_new_disk_cancel also clear below bit as well. * */ set_bit(MD_CLUSTER_SEND_LOCKED_ALREADY, &cinfo->state); wake_up(&cinfo->wait); } return ret; } static void add_new_disk_cancel(struct mddev *mddev) { struct md_cluster_info *cinfo = mddev->cluster_info; clear_bit(MD_CLUSTER_SEND_LOCKED_ALREADY, &cinfo->state); unlock_comm(cinfo); } static int new_disk_ack(struct mddev *mddev, bool ack) { struct md_cluster_info *cinfo = mddev->cluster_info; if (!test_bit(MD_CLUSTER_WAITING_FOR_NEWDISK, &cinfo->state)) { pr_warn("md-cluster(%s): Spurious cluster confirmation\n", mdname(mddev)); return -EINVAL; } if (ack) dlm_unlock_sync(cinfo->no_new_dev_lockres); complete(&cinfo->newdisk_completion); return 0; } static int remove_disk(struct mddev *mddev, struct md_rdev *rdev) { struct cluster_msg cmsg = {0}; struct md_cluster_info *cinfo = mddev->cluster_info; cmsg.type = cpu_to_le32(REMOVE); cmsg.raid_slot = cpu_to_le32(rdev->desc_nr); return sendmsg(cinfo, &cmsg, 1); } static int lock_all_bitmaps(struct mddev *mddev) { int slot, my_slot, ret, held = 1, i = 0; char str[64]; struct md_cluster_info *cinfo = mddev->cluster_info; cinfo->other_bitmap_lockres = kcalloc(mddev->bitmap_info.nodes - 1, sizeof(struct dlm_lock_resource *), GFP_KERNEL); if (!cinfo->other_bitmap_lockres) { pr_err("md: can't alloc mem for other bitmap locks\n"); return 0; } my_slot = slot_number(mddev); for (slot = 0; slot < mddev->bitmap_info.nodes; slot++) { if (slot == my_slot) continue; memset(str, '\0', 64); snprintf(str, 64, "bitmap%04d", slot); cinfo->other_bitmap_lockres[i] = lockres_init(mddev, str, NULL, 1); if (!cinfo->other_bitmap_lockres[i]) return -ENOMEM; cinfo->other_bitmap_lockres[i]->flags |= DLM_LKF_NOQUEUE; ret = dlm_lock_sync(cinfo->other_bitmap_lockres[i], DLM_LOCK_PW); if (ret) held = -1; i++; } return held; } static void unlock_all_bitmaps(struct mddev *mddev) { struct md_cluster_info *cinfo = mddev->cluster_info; int i; /* release other node's bitmap lock if they are existed */ if (cinfo->other_bitmap_lockres) { for (i = 0; i < mddev->bitmap_info.nodes - 1; i++) { if (cinfo->other_bitmap_lockres[i]) { lockres_free(cinfo->other_bitmap_lockres[i]); } } kfree(cinfo->other_bitmap_lockres); cinfo->other_bitmap_lockres = NULL; } } static int gather_bitmaps(struct md_rdev *rdev) { int sn, err; sector_t lo, hi; struct cluster_msg cmsg = {0}; struct mddev *mddev = rdev->mddev; struct md_cluster_info *cinfo = mddev->cluster_info; cmsg.type = cpu_to_le32(RE_ADD); cmsg.raid_slot = cpu_to_le32(rdev->desc_nr); err = sendmsg(cinfo, &cmsg, 1); if (err) goto out; for (sn = 0; sn < mddev->bitmap_info.nodes; sn++) { if (sn == (cinfo->slot_number - 1)) continue; err = md_bitmap_copy_from_slot(mddev, sn, &lo, &hi, false); if (err) { pr_warn("md-cluster: Could not gather bitmaps from slot %d", sn); goto out; } if ((hi > 0) && (lo < mddev->recovery_cp)) mddev->recovery_cp = lo; } out: return err; } static struct md_cluster_operations cluster_ops = { .join = join, .leave = leave, .slot_number = slot_number, .resync_start = resync_start, .resync_finish = resync_finish, .resync_info_update = resync_info_update, .resync_info_get = resync_info_get, .metadata_update_start = metadata_update_start, .metadata_update_finish = metadata_update_finish, .metadata_update_cancel = metadata_update_cancel, .area_resyncing = area_resyncing, .add_new_disk = add_new_disk, .add_new_disk_cancel = add_new_disk_cancel, .new_disk_ack = new_disk_ack, .remove_disk = remove_disk, .load_bitmaps = load_bitmaps, .gather_bitmaps = gather_bitmaps, .resize_bitmaps = resize_bitmaps, .lock_all_bitmaps = lock_all_bitmaps, .unlock_all_bitmaps = unlock_all_bitmaps, .update_size = update_size, }; static int __init cluster_init(void) { pr_warn("md-cluster: support raid1 and raid10 (limited support)\n"); pr_info("Registering Cluster MD functions\n"); register_md_cluster_operations(&cluster_ops, THIS_MODULE); return 0; } static void cluster_exit(void) { unregister_md_cluster_operations(); } module_init(cluster_init); module_exit(cluster_exit); MODULE_AUTHOR("SUSE"); MODULE_LICENSE("GPL"); MODULE_DESCRIPTION("Clustering support for MD"); |