Adding upstream version 6.6.15.upstream/6.6.15

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>

1 files changed, 385 insertions, 0 deletions

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+==========
+MD Cluster
+==========
+
+The cluster MD is a shared-device RAID for a cluster, it supports
+two levels: raid1 and raid10 (limited support).
+
+
+1. On-disk format
+=================
+
+Separate write-intent-bitmaps are used for each cluster node.
+The bitmaps record all writes that may have been started on that node,
+and may not yet have finished. The on-disk layout is::
+
+  0                    4k                     8k                    12k
+  -------------------------------------------------------------------
+  | idle                | md super            | bm super [0] + bits |
+  | bm bits[0, contd]   | bm super[1] + bits  | bm bits[1, contd]   |
+  | bm super[2] + bits  | bm bits [2, contd]  | bm super[3] + bits  |
+  | bm bits [3, contd]  |                     |                     |
+
+During "normal" functioning we assume the filesystem ensures that only
+one node writes to any given block at a time, so a write request will
+
+ - set the appropriate bit (if not already set)
+ - commit the write to all mirrors
+ - schedule the bit to be cleared after a timeout.
+
+Reads are just handled normally. It is up to the filesystem to ensure
+one node doesn't read from a location where another node (or the same
+node) is writing.
+
+
+2. DLM Locks for management
+===========================
+
+There are three groups of locks for managing the device:
+
+2.1 Bitmap lock resource (bm_lockres)
+-------------------------------------
+
+ The bm_lockres protects individual node bitmaps. They are named in
+ the form bitmap000 for node 1, bitmap001 for node 2 and so on. When a
+ node joins the cluster, it acquires the lock in PW mode and it stays
+ so during the lifetime the node is part of the cluster. The lock
+ resource number is based on the slot number returned by the DLM
+ subsystem. Since DLM starts node count from one and bitmap slots
+ start from zero, one is subtracted from the DLM slot number to arrive
+ at the bitmap slot number.
+
+ The LVB of the bitmap lock for a particular node records the range
+ of sectors that are being re-synced by that node.  No other
+ node may write to those sectors.  This is used when a new nodes
+ joins the cluster.
+
+2.2 Message passing locks
+-------------------------
+
+ Each node has to communicate with other nodes when starting or ending
+ resync, and for metadata superblock updates.  This communication is
+ managed through three locks: "token", "message", and "ack", together
+ with the Lock Value Block (LVB) of one of the "message" lock.
+
+2.3 new-device management
+-------------------------
+
+ A single lock: "no-new-dev" is used to coordinate the addition of
+ new devices - this must be synchronized across the array.
+ Normally all nodes hold a concurrent-read lock on this device.
+
+3. Communication
+================
+
+ Messages can be broadcast to all nodes, and the sender waits for all
+ other nodes to acknowledge the message before proceeding.  Only one
+ message can be processed at a time.
+
+3.1 Message Types
+-----------------
+
+ There are six types of messages which are passed:
+
+3.1.1 METADATA_UPDATED
+^^^^^^^^^^^^^^^^^^^^^^
+
+   informs other nodes that the metadata has
+   been updated, and the node must re-read the md superblock. This is
+   performed synchronously. It is primarily used to signal device
+   failure.
+
+3.1.2 RESYNCING
+^^^^^^^^^^^^^^^
+   informs other nodes that a resync is initiated or
+   ended so that each node may suspend or resume the region.  Each
+   RESYNCING message identifies a range of the devices that the
+   sending node is about to resync. This overrides any previous
+   notification from that node: only one ranged can be resynced at a
+   time per-node.
+
+3.1.3 NEWDISK
+^^^^^^^^^^^^^
+
+   informs other nodes that a device is being added to
+   the array. Message contains an identifier for that device.  See
+   below for further details.
+
+3.1.4 REMOVE
+^^^^^^^^^^^^
+
+   A failed or spare device is being removed from the
+   array. The slot-number of the device is included in the message.
+
+ 3.1.5 RE_ADD:
+
+   A failed device is being re-activated - the assumption
+   is that it has been determined to be working again.
+
+ 3.1.6 BITMAP_NEEDS_SYNC:
+
+   If a node is stopped locally but the bitmap
+   isn't clean, then another node is informed to take the ownership of
+   resync.
+
+3.2 Communication mechanism
+---------------------------
+
+ The DLM LVB is used to communicate within nodes of the cluster. There
+ are three resources used for the purpose:
+
+3.2.1 token
+^^^^^^^^^^^
+   The resource which protects the entire communication
+   system. The node having the token resource is allowed to
+   communicate.
+
+3.2.2 message
+^^^^^^^^^^^^^
+   The lock resource which carries the data to communicate.
+
+3.2.3 ack
+^^^^^^^^^
+
+   The resource, acquiring which means the message has been
+   acknowledged by all nodes in the cluster. The BAST of the resource
+   is used to inform the receiving node that a node wants to
+   communicate.
+
+The algorithm is:
+
+ 1. receive status - all nodes have concurrent-reader lock on "ack"::
+
+	sender                         receiver                 receiver
+	"ack":CR                       "ack":CR                 "ack":CR
+
+ 2. sender get EX on "token",
+    sender get EX on "message"::
+
+	sender                        receiver                 receiver
+	"token":EX                    "ack":CR                 "ack":CR
+	"message":EX
+	"ack":CR
+
+    Sender checks that it still needs to send a message. Messages
+    received or other events that happened while waiting for the
+    "token" may have made this message inappropriate or redundant.
+
+ 3. sender writes LVB
+
+    sender down-convert "message" from EX to CW
+
+    sender try to get EX of "ack"
+
+    ::
+
+      [ wait until all receivers have *processed* the "message" ]
+
+                                       [ triggered by bast of "ack" ]
+                                       receiver get CR on "message"
+                                       receiver read LVB
+                                       receiver processes the message
+                                       [ wait finish ]
+                                       receiver releases "ack"
+                                       receiver tries to get PR on "message"
+
+     sender                         receiver                  receiver
+     "token":EX                     "message":CR              "message":CR
+     "message":CW
+     "ack":EX
+
+ 4. triggered by grant of EX on "ack" (indicating all receivers
+    have processed message)
+
+    sender down-converts "ack" from EX to CR
+
+    sender releases "message"
+
+    sender releases "token"
+
+    ::
+
+                                 receiver upconvert to PR on "message"
+                                 receiver get CR of "ack"
+                                 receiver release "message"
+
+     sender                      receiver                   receiver
+     "ack":CR                    "ack":CR                   "ack":CR
+
+
+4. Handling Failures
+====================
+
+4.1 Node Failure
+----------------
+
+ When a node fails, the DLM informs the cluster with the slot
+ number. The node starts a cluster recovery thread. The cluster
+ recovery thread:
+
+	- acquires the bitmap<number> lock of the failed node
+	- opens the bitmap
+	- reads the bitmap of the failed node
+	- copies the set bitmap to local node
+	- cleans the bitmap of the failed node
+	- releases bitmap<number> lock of the failed node
+	- initiates resync of the bitmap on the current node
+	  md_check_recovery is invoked within recover_bitmaps,
+	  then md_check_recovery -> metadata_update_start/finish,
+	  it will lock the communication by lock_comm.
+	  Which means when one node is resyncing it blocks all
+	  other nodes from writing anywhere on the array.
+
+ The resync process is the regular md resync. However, in a clustered
+ environment when a resync is performed, it needs to tell other nodes
+ of the areas which are suspended. Before a resync starts, the node
+ send out RESYNCING with the (lo,hi) range of the area which needs to
+ be suspended. Each node maintains a suspend_list, which contains the
+ list of ranges which are currently suspended. On receiving RESYNCING,
+ the node adds the range to the suspend_list. Similarly, when the node
+ performing resync finishes, it sends RESYNCING with an empty range to
+ other nodes and other nodes remove the corresponding entry from the
+ suspend_list.
+
+ A helper function, ->area_resyncing() can be used to check if a
+ particular I/O range should be suspended or not.
+
+4.2 Device Failure
+==================
+
+ Device failures are handled and communicated with the metadata update
+ routine.  When a node detects a device failure it does not allow
+ any further writes to that device until the failure has been
+ acknowledged by all other nodes.
+
+5. Adding a new Device
+----------------------
+
+ For adding a new device, it is necessary that all nodes "see" the new
+ device to be added. For this, the following algorithm is used:
+
+   1.  Node 1 issues mdadm --manage /dev/mdX --add /dev/sdYY which issues
+       ioctl(ADD_NEW_DISK with disc.state set to MD_DISK_CLUSTER_ADD)
+   2.  Node 1 sends a NEWDISK message with uuid and slot number
+   3.  Other nodes issue kobject_uevent_env with uuid and slot number
+       (Steps 4,5 could be a udev rule)
+   4.  In userspace, the node searches for the disk, perhaps
+       using blkid -t SUB_UUID=""
+   5.  Other nodes issue either of the following depending on whether
+       the disk was found:
+       ioctl(ADD_NEW_DISK with disc.state set to MD_DISK_CANDIDATE and
+       disc.number set to slot number)
+       ioctl(CLUSTERED_DISK_NACK)
+   6.  Other nodes drop lock on "no-new-devs" (CR) if device is found
+   7.  Node 1 attempts EX lock on "no-new-dev"
+   8.  If node 1 gets the lock, it sends METADATA_UPDATED after
+       unmarking the disk as SpareLocal
+   9.  If not (get "no-new-dev" lock), it fails the operation and sends
+       METADATA_UPDATED.
+   10. Other nodes get the information whether a disk is added or not
+       by the following METADATA_UPDATED.
+
+6. Module interface
+===================
+
+ There are 17 call-backs which the md core can make to the cluster
+ module.  Understanding these can give a good overview of the whole
+ process.
+
+6.1 join(nodes) and leave()
+---------------------------
+
+ These are called when an array is started with a clustered bitmap,
+ and when the array is stopped.  join() ensures the cluster is
+ available and initializes the various resources.
+ Only the first 'nodes' nodes in the cluster can use the array.
+
+6.2 slot_number()
+-----------------
+
+ Reports the slot number advised by the cluster infrastructure.
+ Range is from 0 to nodes-1.
+
+6.3 resync_info_update()
+------------------------
+
+ This updates the resync range that is stored in the bitmap lock.
+ The starting point is updated as the resync progresses.  The
+ end point is always the end of the array.
+ It does *not* send a RESYNCING message.
+
+6.4 resync_start(), resync_finish()
+-----------------------------------
+
+ These are called when resync/recovery/reshape starts or stops.
+ They update the resyncing range in the bitmap lock and also
+ send a RESYNCING message.  resync_start reports the whole
+ array as resyncing, resync_finish reports none of it.
+
+ resync_finish() also sends a BITMAP_NEEDS_SYNC message which
+ allows some other node to take over.
+
+6.5 metadata_update_start(), metadata_update_finish(), metadata_update_cancel()
+-------------------------------------------------------------------------------
+
+ metadata_update_start is used to get exclusive access to
+ the metadata.  If a change is still needed once that access is
+ gained, metadata_update_finish() will send a METADATA_UPDATE
+ message to all other nodes, otherwise metadata_update_cancel()
+ can be used to release the lock.
+
+6.6 area_resyncing()
+--------------------
+
+ This combines two elements of functionality.
+
+ Firstly, it will check if any node is currently resyncing
+ anything in a given range of sectors.  If any resync is found,
+ then the caller will avoid writing or read-balancing in that
+ range.
+
+ Secondly, while node recovery is happening it reports that
+ all areas are resyncing for READ requests.  This avoids races
+ between the cluster-filesystem and the cluster-RAID handling
+ a node failure.
+
+6.7 add_new_disk_start(), add_new_disk_finish(), new_disk_ack()
+---------------------------------------------------------------
+
+ These are used to manage the new-disk protocol described above.
+ When a new device is added, add_new_disk_start() is called before
+ it is bound to the array and, if that succeeds, add_new_disk_finish()
+ is called the device is fully added.
+
+ When a device is added in acknowledgement to a previous
+ request, or when the device is declared "unavailable",
+ new_disk_ack() is called.
+
+6.8 remove_disk()
+-----------------
+
+ This is called when a spare or failed device is removed from
+ the array.  It causes a REMOVE message to be send to other nodes.
+
+6.9 gather_bitmaps()
+--------------------
+
+ This sends a RE_ADD message to all other nodes and then
+ gathers bitmap information from all bitmaps.  This combined
+ bitmap is then used to recovery the re-added device.
+
+6.10 lock_all_bitmaps() and unlock_all_bitmaps()
+------------------------------------------------
+
+ These are called when change bitmap to none. If a node plans
+ to clear the cluster raid's bitmap, it need to make sure no other
+ nodes are using the raid which is achieved by lock all bitmap
+ locks within the cluster, and also those locks are unlocked
+ accordingly.
+
+7. Unsupported features
+=======================
+
+There are somethings which are not supported by cluster MD yet.
+
+- change array_sectors.