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diff --git a/Documentation/filesystems/ext4/journal.rst b/Documentation/filesystems/ext4/journal.rst new file mode 100644 index 000000000..a6bef5293 --- /dev/null +++ b/Documentation/filesystems/ext4/journal.rst @@ -0,0 +1,756 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Journal (jbd2) +-------------- + +Introduced in ext3, the ext4 filesystem employs a journal to protect the +filesystem against metadata inconsistencies in the case of a system crash. Up +to 10,240,000 file system blocks (see man mke2fs(8) for more details on journal +size limits) can be reserved inside the filesystem as a place to land +“important” data writes on-disk as quickly as possible. Once the important +data transaction is fully written to the disk and flushed from the disk write +cache, a record of the data being committed is also written to the journal. At +some later point in time, the journal code writes the transactions to their +final locations on disk (this could involve a lot of seeking or a lot of small +read-write-erases) before erasing the commit record. Should the system +crash during the second slow write, the journal can be replayed all the +way to the latest commit record, guaranteeing the atomicity of whatever +gets written through the journal to the disk. The effect of this is to +guarantee that the filesystem does not become stuck midway through a +metadata update. + +For performance reasons, ext4 by default only writes filesystem metadata +through the journal. This means that file data blocks are /not/ +guaranteed to be in any consistent state after a crash. If this default +guarantee level (``data=ordered``) is not satisfactory, there is a mount +option to control journal behavior. If ``data=journal``, all data and +metadata are written to disk through the journal. This is slower but +safest. If ``data=writeback``, dirty data blocks are not flushed to the +disk before the metadata are written to disk through the journal. + +In case of ``data=ordered`` mode, Ext4 also supports fast commits which +help reduce commit latency significantly. The default ``data=ordered`` +mode works by logging metadata blocks to the journal. In fast commit +mode, Ext4 only stores the minimal delta needed to recreate the +affected metadata in fast commit space that is shared with JBD2. +Once the fast commit area fills in or if fast commit is not possible +or if JBD2 commit timer goes off, Ext4 performs a traditional full commit. +A full commit invalidates all the fast commits that happened before +it and thus it makes the fast commit area empty for further fast +commits. This feature needs to be enabled at mkfs time. + +The journal inode is typically inode 8. The first 68 bytes of the +journal inode are replicated in the ext4 superblock. The journal itself +is normal (but hidden) file within the filesystem. The file usually +consumes an entire block group, though mke2fs tries to put it in the +middle of the disk. + +All fields in jbd2 are written to disk in big-endian order. This is the +opposite of ext4. + +NOTE: Both ext4 and ocfs2 use jbd2. + +The maximum size of a journal embedded in an ext4 filesystem is 2^32 +blocks. jbd2 itself does not seem to care. + +Layout +~~~~~~ + +Generally speaking, the journal has this format: + +.. list-table:: + :widths: 16 48 16 + :header-rows: 1 + + * - Superblock + - descriptor_block (data_blocks or revocation_block) [more data or + revocations] commmit_block + - [more transactions...] + * - + - One transaction + - + +Notice that a transaction begins with either a descriptor and some data, +or a block revocation list. A finished transaction always ends with a +commit. If there is no commit record (or the checksums don't match), the +transaction will be discarded during replay. + +External Journal +~~~~~~~~~~~~~~~~ + +Optionally, an ext4 filesystem can be created with an external journal +device (as opposed to an internal journal, which uses a reserved inode). +In this case, on the filesystem device, ``s_journal_inum`` should be +zero and ``s_journal_uuid`` should be set. On the journal device there +will be an ext4 super block in the usual place, with a matching UUID. +The journal superblock will be in the next full block after the +superblock. + +.. list-table:: + :widths: 12 12 12 32 12 + :header-rows: 1 + + * - 1024 bytes of padding + - ext4 Superblock + - Journal Superblock + - descriptor_block (data_blocks or revocation_block) [more data or + revocations] commmit_block + - [more transactions...] + * - + - + - + - One transaction + - + +Block Header +~~~~~~~~~~~~ + +Every block in the journal starts with a common 12-byte header +``struct journal_header_s``: + +.. list-table:: + :widths: 8 8 24 40 + :header-rows: 1 + + * - Offset + - Type + - Name + - Description + * - 0x0 + - __be32 + - h_magic + - jbd2 magic number, 0xC03B3998. + * - 0x4 + - __be32 + - h_blocktype + - Description of what this block contains. See the jbd2_blocktype_ table + below. + * - 0x8 + - __be32 + - h_sequence + - The transaction ID that goes with this block. + +.. _jbd2_blocktype: + +The journal block type can be any one of: + +.. list-table:: + :widths: 16 64 + :header-rows: 1 + + * - Value + - Description + * - 1 + - Descriptor. This block precedes a series of data blocks that were + written through the journal during a transaction. + * - 2 + - Block commit record. This block signifies the completion of a + transaction. + * - 3 + - Journal superblock, v1. + * - 4 + - Journal superblock, v2. + * - 5 + - Block revocation records. This speeds up recovery by enabling the + journal to skip writing blocks that were subsequently rewritten. + +Super Block +~~~~~~~~~~~ + +The super block for the journal is much simpler as compared to ext4's. +The key data kept within are size of the journal, and where to find the +start of the log of transactions. + +The journal superblock is recorded as ``struct journal_superblock_s``, +which is 1024 bytes long: + +.. list-table:: + :widths: 8 8 24 40 + :header-rows: 1 + + * - Offset + - Type + - Name + - Description + * - + - + - + - Static information describing the journal. + * - 0x0 + - journal_header_t (12 bytes) + - s_header + - Common header identifying this as a superblock. + * - 0xC + - __be32 + - s_blocksize + - Journal device block size. + * - 0x10 + - __be32 + - s_maxlen + - Total number of blocks in this journal. + * - 0x14 + - __be32 + - s_first + - First block of log information. + * - + - + - + - Dynamic information describing the current state of the log. + * - 0x18 + - __be32 + - s_sequence + - First commit ID expected in log. + * - 0x1C + - __be32 + - s_start + - Block number of the start of log. Contrary to the comments, this field + being zero does not imply that the journal is clean! + * - 0x20 + - __be32 + - s_errno + - Error value, as set by jbd2_journal_abort(). + * - + - + - + - The remaining fields are only valid in a v2 superblock. + * - 0x24 + - __be32 + - s_feature_compat; + - Compatible feature set. See the table jbd2_compat_ below. + * - 0x28 + - __be32 + - s_feature_incompat + - Incompatible feature set. See the table jbd2_incompat_ below. + * - 0x2C + - __be32 + - s_feature_ro_compat + - Read-only compatible feature set. There aren't any of these currently. + * - 0x30 + - __u8 + - s_uuid[16] + - 128-bit uuid for journal. This is compared against the copy in the ext4 + super block at mount time. + * - 0x40 + - __be32 + - s_nr_users + - Number of file systems sharing this journal. + * - 0x44 + - __be32 + - s_dynsuper + - Location of dynamic super block copy. (Not used?) + * - 0x48 + - __be32 + - s_max_transaction + - Limit of journal blocks per transaction. (Not used?) + * - 0x4C + - __be32 + - s_max_trans_data + - Limit of data blocks per transaction. (Not used?) + * - 0x50 + - __u8 + - s_checksum_type + - Checksum algorithm used for the journal. See jbd2_checksum_type_ for + more info. + * - 0x51 + - __u8[3] + - s_padding2 + - + * - 0x54 + - __be32 + - s_num_fc_blocks + - Number of fast commit blocks in the journal. + * - 0x58 + - __u32 + - s_padding[42] + - + * - 0xFC + - __be32 + - s_checksum + - Checksum of the entire superblock, with this field set to zero. + * - 0x100 + - __u8 + - s_users[16*48] + - ids of all file systems sharing the log. e2fsprogs/Linux don't allow + shared external journals, but I imagine Lustre (or ocfs2?), which use + the jbd2 code, might. + +.. _jbd2_compat: + +The journal compat features are any combination of the following: + +.. list-table:: + :widths: 16 64 + :header-rows: 1 + + * - Value + - Description + * - 0x1 + - Journal maintains checksums on the data blocks. + (JBD2_FEATURE_COMPAT_CHECKSUM) + +.. _jbd2_incompat: + +The journal incompat features are any combination of the following: + +.. list-table:: + :widths: 16 64 + :header-rows: 1 + + * - Value + - Description + * - 0x1 + - Journal has block revocation records. (JBD2_FEATURE_INCOMPAT_REVOKE) + * - 0x2 + - Journal can deal with 64-bit block numbers. + (JBD2_FEATURE_INCOMPAT_64BIT) + * - 0x4 + - Journal commits asynchronously. (JBD2_FEATURE_INCOMPAT_ASYNC_COMMIT) + * - 0x8 + - This journal uses v2 of the checksum on-disk format. Each journal + metadata block gets its own checksum, and the block tags in the + descriptor table contain checksums for each of the data blocks in the + journal. (JBD2_FEATURE_INCOMPAT_CSUM_V2) + * - 0x10 + - This journal uses v3 of the checksum on-disk format. This is the same as + v2, but the journal block tag size is fixed regardless of the size of + block numbers. (JBD2_FEATURE_INCOMPAT_CSUM_V3) + * - 0x20 + - Journal has fast commit blocks. (JBD2_FEATURE_INCOMPAT_FAST_COMMIT) + +.. _jbd2_checksum_type: + +Journal checksum type codes are one of the following. crc32 or crc32c are the +most likely choices. + +.. list-table:: + :widths: 16 64 + :header-rows: 1 + + * - Value + - Description + * - 1 + - CRC32 + * - 2 + - MD5 + * - 3 + - SHA1 + * - 4 + - CRC32C + +Descriptor Block +~~~~~~~~~~~~~~~~ + +The descriptor block contains an array of journal block tags that +describe the final locations of the data blocks that follow in the +journal. Descriptor blocks are open-coded instead of being completely +described by a data structure, but here is the block structure anyway. +Descriptor blocks consume at least 36 bytes, but use a full block: + +.. list-table:: + :widths: 8 8 24 40 + :header-rows: 1 + + * - Offset + - Type + - Name + - Descriptor + * - 0x0 + - journal_header_t + - (open coded) + - Common block header. + * - 0xC + - struct journal_block_tag_s + - open coded array[] + - Enough tags either to fill up the block or to describe all the data + blocks that follow this descriptor block. + +Journal block tags have any of the following formats, depending on which +journal feature and block tag flags are set. + +If JBD2_FEATURE_INCOMPAT_CSUM_V3 is set, the journal block tag is +defined as ``struct journal_block_tag3_s``, which looks like the +following. The size is 16 or 32 bytes. + +.. list-table:: + :widths: 8 8 24 40 + :header-rows: 1 + + * - Offset + - Type + - Name + - Descriptor + * - 0x0 + - __be32 + - t_blocknr + - Lower 32-bits of the location of where the corresponding data block + should end up on disk. + * - 0x4 + - __be32 + - t_flags + - Flags that go with the descriptor. See the table jbd2_tag_flags_ for + more info. + * - 0x8 + - __be32 + - t_blocknr_high + - Upper 32-bits of the location of where the corresponding data block + should end up on disk. This is zero if JBD2_FEATURE_INCOMPAT_64BIT is + not enabled. + * - 0xC + - __be32 + - t_checksum + - Checksum of the journal UUID, the sequence number, and the data block. + * - + - + - + - This field appears to be open coded. It always comes at the end of the + tag, after t_checksum. This field is not present if the "same UUID" flag + is set. + * - 0x8 or 0xC + - char + - uuid[16] + - A UUID to go with this tag. This field appears to be copied from the + ``j_uuid`` field in ``struct journal_s``, but only tune2fs touches that + field. + +.. _jbd2_tag_flags: + +The journal tag flags are any combination of the following: + +.. list-table:: + :widths: 16 64 + :header-rows: 1 + + * - Value + - Description + * - 0x1 + - On-disk block is escaped. The first four bytes of the data block just + happened to match the jbd2 magic number. + * - 0x2 + - This block has the same UUID as previous, therefore the UUID field is + omitted. + * - 0x4 + - The data block was deleted by the transaction. (Not used?) + * - 0x8 + - This is the last tag in this descriptor block. + +If JBD2_FEATURE_INCOMPAT_CSUM_V3 is NOT set, the journal block tag +is defined as ``struct journal_block_tag_s``, which looks like the +following. The size is 8, 12, 24, or 28 bytes: + +.. list-table:: + :widths: 8 8 24 40 + :header-rows: 1 + + * - Offset + - Type + - Name + - Descriptor + * - 0x0 + - __be32 + - t_blocknr + - Lower 32-bits of the location of where the corresponding data block + should end up on disk. + * - 0x4 + - __be16 + - t_checksum + - Checksum of the journal UUID, the sequence number, and the data block. + Note that only the lower 16 bits are stored. + * - 0x6 + - __be16 + - t_flags + - Flags that go with the descriptor. See the table jbd2_tag_flags_ for + more info. + * - + - + - + - This next field is only present if the super block indicates support for + 64-bit block numbers. + * - 0x8 + - __be32 + - t_blocknr_high + - Upper 32-bits of the location of where the corresponding data block + should end up on disk. + * - + - + - + - This field appears to be open coded. It always comes at the end of the + tag, after t_flags or t_blocknr_high. This field is not present if the + "same UUID" flag is set. + * - 0x8 or 0xC + - char + - uuid[16] + - A UUID to go with this tag. This field appears to be copied from the + ``j_uuid`` field in ``struct journal_s``, but only tune2fs touches that + field. + +If JBD2_FEATURE_INCOMPAT_CSUM_V2 or +JBD2_FEATURE_INCOMPAT_CSUM_V3 are set, the end of the block is a +``struct jbd2_journal_block_tail``, which looks like this: + +.. list-table:: + :widths: 8 8 24 40 + :header-rows: 1 + + * - Offset + - Type + - Name + - Descriptor + * - 0x0 + - __be32 + - t_checksum + - Checksum of the journal UUID + the descriptor block, with this field set + to zero. + +Data Block +~~~~~~~~~~ + +In general, the data blocks being written to disk through the journal +are written verbatim into the journal file after the descriptor block. +However, if the first four bytes of the block match the jbd2 magic +number then those four bytes are replaced with zeroes and the “escaped” +flag is set in the descriptor block tag. + +Revocation Block +~~~~~~~~~~~~~~~~ + +A revocation block is used to prevent replay of a block in an earlier +transaction. This is used to mark blocks that were journalled at one +time but are no longer journalled. Typically this happens if a metadata +block is freed and re-allocated as a file data block; in this case, a +journal replay after the file block was written to disk will cause +corruption. + +**NOTE**: This mechanism is NOT used to express “this journal block is +superseded by this other journal block”, as the author (djwong) +mistakenly thought. Any block being added to a transaction will cause +the removal of all existing revocation records for that block. + +Revocation blocks are described in +``struct jbd2_journal_revoke_header_s``, are at least 16 bytes in +length, but use a full block: + +.. list-table:: + :widths: 8 8 24 40 + :header-rows: 1 + + * - Offset + - Type + - Name + - Description + * - 0x0 + - journal_header_t + - r_header + - Common block header. + * - 0xC + - __be32 + - r_count + - Number of bytes used in this block. + * - 0x10 + - __be32 or __be64 + - blocks[0] + - Blocks to revoke. + +After r_count is a linear array of block numbers that are effectively +revoked by this transaction. The size of each block number is 8 bytes if +the superblock advertises 64-bit block number support, or 4 bytes +otherwise. + +If JBD2_FEATURE_INCOMPAT_CSUM_V2 or +JBD2_FEATURE_INCOMPAT_CSUM_V3 are set, the end of the revocation +block is a ``struct jbd2_journal_revoke_tail``, which has this format: + +.. list-table:: + :widths: 8 8 24 40 + :header-rows: 1 + + * - Offset + - Type + - Name + - Description + * - 0x0 + - __be32 + - r_checksum + - Checksum of the journal UUID + revocation block + +Commit Block +~~~~~~~~~~~~ + +The commit block is a sentry that indicates that a transaction has been +completely written to the journal. Once this commit block reaches the +journal, the data stored with this transaction can be written to their +final locations on disk. + +The commit block is described by ``struct commit_header``, which is 32 +bytes long (but uses a full block): + +.. list-table:: + :widths: 8 8 24 40 + :header-rows: 1 + + * - Offset + - Type + - Name + - Descriptor + * - 0x0 + - journal_header_s + - (open coded) + - Common block header. + * - 0xC + - unsigned char + - h_chksum_type + - The type of checksum to use to verify the integrity of the data blocks + in the transaction. See jbd2_checksum_type_ for more info. + * - 0xD + - unsigned char + - h_chksum_size + - The number of bytes used by the checksum. Most likely 4. + * - 0xE + - unsigned char + - h_padding[2] + - + * - 0x10 + - __be32 + - h_chksum[JBD2_CHECKSUM_BYTES] + - 32 bytes of space to store checksums. If + JBD2_FEATURE_INCOMPAT_CSUM_V2 or JBD2_FEATURE_INCOMPAT_CSUM_V3 + are set, the first ``__be32`` is the checksum of the journal UUID and + the entire commit block, with this field zeroed. If + JBD2_FEATURE_COMPAT_CHECKSUM is set, the first ``__be32`` is the + crc32 of all the blocks already written to the transaction. + * - 0x30 + - __be64 + - h_commit_sec + - The time that the transaction was committed, in seconds since the epoch. + * - 0x38 + - __be32 + - h_commit_nsec + - Nanoseconds component of the above timestamp. + +Fast commits +~~~~~~~~~~~~ + +Fast commit area is organized as a log of tag length values. Each TLV has +a ``struct ext4_fc_tl`` in the beginning which stores the tag and the length +of the entire field. It is followed by variable length tag specific value. +Here is the list of supported tags and their meanings: + +.. list-table:: + :widths: 8 20 20 32 + :header-rows: 1 + + * - Tag + - Meaning + - Value struct + - Description + * - EXT4_FC_TAG_HEAD + - Fast commit area header + - ``struct ext4_fc_head`` + - Stores the TID of the transaction after which these fast commits should + be applied. + * - EXT4_FC_TAG_ADD_RANGE + - Add extent to inode + - ``struct ext4_fc_add_range`` + - Stores the inode number and extent to be added in this inode + * - EXT4_FC_TAG_DEL_RANGE + - Remove logical offsets to inode + - ``struct ext4_fc_del_range`` + - Stores the inode number and the logical offset range that needs to be + removed + * - EXT4_FC_TAG_CREAT + - Create directory entry for a newly created file + - ``struct ext4_fc_dentry_info`` + - Stores the parent inode number, inode number and directory entry of the + newly created file + * - EXT4_FC_TAG_LINK + - Link a directory entry to an inode + - ``struct ext4_fc_dentry_info`` + - Stores the parent inode number, inode number and directory entry + * - EXT4_FC_TAG_UNLINK + - Unlink a directory entry of an inode + - ``struct ext4_fc_dentry_info`` + - Stores the parent inode number, inode number and directory entry + + * - EXT4_FC_TAG_PAD + - Padding (unused area) + - None + - Unused bytes in the fast commit area. + + * - EXT4_FC_TAG_TAIL + - Mark the end of a fast commit + - ``struct ext4_fc_tail`` + - Stores the TID of the commit, CRC of the fast commit of which this tag + represents the end of + +Fast Commit Replay Idempotence +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +Fast commits tags are idempotent in nature provided the recovery code follows +certain rules. The guiding principle that the commit path follows while +committing is that it stores the result of a particular operation instead of +storing the procedure. + +Let's consider this rename operation: 'mv /a /b'. Let's assume dirent '/a' +was associated with inode 10. During fast commit, instead of storing this +operation as a procedure "rename a to b", we store the resulting file system +state as a "series" of outcomes: + +- Link dirent b to inode 10 +- Unlink dirent a +- Inode 10 with valid refcount + +Now when recovery code runs, it needs "enforce" this state on the file +system. This is what guarantees idempotence of fast commit replay. + +Let's take an example of a procedure that is not idempotent and see how fast +commits make it idempotent. Consider following sequence of operations: + +1) rm A +2) mv B A +3) read A + +If we store this sequence of operations as is then the replay is not idempotent. +Let's say while in replay, we crash after (2). During the second replay, +file A (which was actually created as a result of "mv B A" operation) would get +deleted. Thus, file named A would be absent when we try to read A. So, this +sequence of operations is not idempotent. However, as mentioned above, instead +of storing the procedure fast commits store the outcome of each procedure. Thus +the fast commit log for above procedure would be as follows: + +(Let's assume dirent A was linked to inode 10 and dirent B was linked to +inode 11 before the replay) + +1) Unlink A +2) Link A to inode 11 +3) Unlink B +4) Inode 11 + +If we crash after (3) we will have file A linked to inode 11. During the second +replay, we will remove file A (inode 11). But we will create it back and make +it point to inode 11. We won't find B, so we'll just skip that step. At this +point, the refcount for inode 11 is not reliable, but that gets fixed by the +replay of last inode 11 tag. Thus, by converting a non-idempotent procedure +into a series of idempotent outcomes, fast commits ensured idempotence during +the replay. + +Journal Checkpoint +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +Checkpointing the journal ensures all transactions and their associated buffers +are submitted to the disk. In-progress transactions are waited upon and included +in the checkpoint. Checkpointing is used internally during critical updates to +the filesystem including journal recovery, filesystem resizing, and freeing of +the journal_t structure. + +A journal checkpoint can be triggered from userspace via the ioctl +EXT4_IOC_CHECKPOINT. This ioctl takes a single, u64 argument for flags. +Currently, three flags are supported. First, EXT4_IOC_CHECKPOINT_FLAG_DRY_RUN +can be used to verify input to the ioctl. It returns error if there is any +invalid input, otherwise it returns success without performing +any checkpointing. This can be used to check whether the ioctl exists on a +system and to verify there are no issues with arguments or flags. The +other two flags are EXT4_IOC_CHECKPOINT_FLAG_DISCARD and +EXT4_IOC_CHECKPOINT_FLAG_ZEROOUT. These flags cause the journal blocks to be +discarded or zero-filled, respectively, after the journal checkpoint is +complete. EXT4_IOC_CHECKPOINT_FLAG_DISCARD and EXT4_IOC_CHECKPOINT_FLAG_ZEROOUT +cannot both be set. The ioctl may be useful when snapshotting a system or for +complying with content deletion SLOs. |