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-rw-r--r--Documentation/ABI/testing/sysfs-block-dm25
-rw-r--r--Documentation/device-mapper/thin-provisioning.txt65
-rw-r--r--Documentation/device-mapper/verity.txt194
3 files changed, 269 insertions, 15 deletions
diff --git a/Documentation/ABI/testing/sysfs-block-dm b/Documentation/ABI/testing/sysfs-block-dm
new file mode 100644
index 000000000000..87ca5691e29b
--- /dev/null
+++ b/Documentation/ABI/testing/sysfs-block-dm
@@ -0,0 +1,25 @@
+What: /sys/block/dm-<num>/dm/name
+Date: January 2009
+KernelVersion: 2.6.29
+Contact: dm-devel@redhat.com
+Description: Device-mapper device name.
+ Read-only string containing mapped device name.
+Users: util-linux, device-mapper udev rules
+
+What: /sys/block/dm-<num>/dm/uuid
+Date: January 2009
+KernelVersion: 2.6.29
+Contact: dm-devel@redhat.com
+Description: Device-mapper device UUID.
+ Read-only string containing DM-UUID or empty string
+ if DM-UUID is not set.
+Users: util-linux, device-mapper udev rules
+
+What: /sys/block/dm-<num>/dm/suspended
+Date: June 2009
+KernelVersion: 2.6.31
+Contact: dm-devel@redhat.com
+Description: Device-mapper device suspend state.
+ Contains the value 1 while the device is suspended.
+ Otherwise it contains 0. Read-only attribute.
+Users: util-linux, device-mapper udev rules
diff --git a/Documentation/device-mapper/thin-provisioning.txt b/Documentation/device-mapper/thin-provisioning.txt
index 1ff044d87ca4..3370bc4d7b98 100644
--- a/Documentation/device-mapper/thin-provisioning.txt
+++ b/Documentation/device-mapper/thin-provisioning.txt
@@ -75,10 +75,12 @@ less sharing than average you'll need a larger-than-average metadata device.
As a guide, we suggest you calculate the number of bytes to use in the
metadata device as 48 * $data_dev_size / $data_block_size but round it up
-to 2MB if the answer is smaller. The largest size supported is 16GB.
+to 2MB if the answer is smaller. If you're creating large numbers of
+snapshots which are recording large amounts of change, you may find you
+need to increase this.
-If you're creating large numbers of snapshots which are recording large
-amounts of change, you may need find you need to increase this.
+The largest size supported is 16GB: If the device is larger,
+a warning will be issued and the excess space will not be used.
Reloading a pool table
----------------------
@@ -167,6 +169,38 @@ ii) Using an internal snapshot.
dmsetup create snap --table "0 2097152 thin /dev/mapper/pool 1"
+External snapshots
+------------------
+
+You can use an external _read only_ device as an origin for a
+thinly-provisioned volume. Any read to an unprovisioned area of the
+thin device will be passed through to the origin. Writes trigger
+the allocation of new blocks as usual.
+
+One use case for this is VM hosts that want to run guests on
+thinly-provisioned volumes but have the base image on another device
+(possibly shared between many VMs).
+
+You must not write to the origin device if you use this technique!
+Of course, you may write to the thin device and take internal snapshots
+of the thin volume.
+
+i) Creating a snapshot of an external device
+
+ This is the same as creating a thin device.
+ You don't mention the origin at this stage.
+
+ dmsetup message /dev/mapper/pool 0 "create_thin 0"
+
+ii) Using a snapshot of an external device.
+
+ Append an extra parameter to the thin target specifying the origin:
+
+ dmsetup create snap --table "0 2097152 thin /dev/mapper/pool 0 /dev/image"
+
+ N.B. All descendants (internal snapshots) of this snapshot require the
+ same extra origin parameter.
+
Deactivation
------------
@@ -189,7 +223,13 @@ i) Constructor
<low water mark (blocks)> [<number of feature args> [<arg>]*]
Optional feature arguments:
- - 'skip_block_zeroing': skips the zeroing of newly-provisioned blocks.
+
+ skip_block_zeroing: Skip the zeroing of newly-provisioned blocks.
+
+ ignore_discard: Disable discard support.
+
+ no_discard_passdown: Don't pass discards down to the underlying
+ data device, but just remove the mapping.
Data block size must be between 64KB (128 sectors) and 1GB
(2097152 sectors) inclusive.
@@ -237,16 +277,6 @@ iii) Messages
Deletes a thin device. Irreversible.
- trim <dev id> <new size in sectors>
-
- Delete mappings from the end of a thin device. Irreversible.
- You might want to use this if you're reducing the size of
- your thinly-provisioned device. In many cases, due to the
- sharing of blocks between devices, it is not possible to
- determine in advance how much space 'trim' will release. (In
- future a userspace tool might be able to perform this
- calculation.)
-
set_transaction_id <current id> <new id>
Userland volume managers, such as LVM, need a way to
@@ -262,7 +292,7 @@ iii) Messages
i) Constructor
- thin <pool dev> <dev id>
+ thin <pool dev> <dev id> [<external origin dev>]
pool dev:
the thin-pool device, e.g. /dev/mapper/my_pool or 253:0
@@ -271,6 +301,11 @@ i) Constructor
the internal device identifier of the device to be
activated.
+ external origin dev:
+ an optional block device outside the pool to be treated as a
+ read-only snapshot origin: reads to unprovisioned areas of the
+ thin target will be mapped to this device.
+
The pool doesn't store any size against the thin devices. If you
load a thin target that is smaller than you've been using previously,
then you'll have no access to blocks mapped beyond the end. If you
diff --git a/Documentation/device-mapper/verity.txt b/Documentation/device-mapper/verity.txt
new file mode 100644
index 000000000000..32e48797a14f
--- /dev/null
+++ b/Documentation/device-mapper/verity.txt
@@ -0,0 +1,194 @@
+dm-verity
+==========
+
+Device-Mapper's "verity" target provides transparent integrity checking of
+block devices using a cryptographic digest provided by the kernel crypto API.
+This target is read-only.
+
+Construction Parameters
+=======================
+ <version> <dev> <hash_dev> <hash_start>
+ <data_block_size> <hash_block_size>
+ <num_data_blocks> <hash_start_block>
+ <algorithm> <digest> <salt>
+
+<version>
+ This is the version number of the on-disk format.
+
+ 0 is the original format used in the Chromium OS.
+ The salt is appended when hashing, digests are stored continuously and
+ the rest of the block is padded with zeros.
+
+ 1 is the current format that should be used for new devices.
+ The salt is prepended when hashing and each digest is
+ padded with zeros to the power of two.
+
+<dev>
+ This is the device containing the data the integrity of which needs to be
+ checked. It may be specified as a path, like /dev/sdaX, or a device number,
+ <major>:<minor>.
+
+<hash_dev>
+ This is the device that that supplies the hash tree data. It may be
+ specified similarly to the device path and may be the same device. If the
+ same device is used, the hash_start should be outside of the dm-verity
+ configured device size.
+
+<data_block_size>
+ The block size on a data device. Each block corresponds to one digest on
+ the hash device.
+
+<hash_block_size>
+ The size of a hash block.
+
+<num_data_blocks>
+ The number of data blocks on the data device. Additional blocks are
+ inaccessible. You can place hashes to the same partition as data, in this
+ case hashes are placed after <num_data_blocks>.
+
+<hash_start_block>
+ This is the offset, in <hash_block_size>-blocks, from the start of hash_dev
+ to the root block of the hash tree.
+
+<algorithm>
+ The cryptographic hash algorithm used for this device. This should
+ be the name of the algorithm, like "sha1".
+
+<digest>
+ The hexadecimal encoding of the cryptographic hash of the root hash block
+ and the salt. This hash should be trusted as there is no other authenticity
+ beyond this point.
+
+<salt>
+ The hexadecimal encoding of the salt value.
+
+Theory of operation
+===================
+
+dm-verity is meant to be setup as part of a verified boot path. This
+may be anything ranging from a boot using tboot or trustedgrub to just
+booting from a known-good device (like a USB drive or CD).
+
+When a dm-verity device is configured, it is expected that the caller
+has been authenticated in some way (cryptographic signatures, etc).
+After instantiation, all hashes will be verified on-demand during
+disk access. If they cannot be verified up to the root node of the
+tree, the root hash, then the I/O will fail. This should identify
+tampering with any data on the device and the hash data.
+
+Cryptographic hashes are used to assert the integrity of the device on a
+per-block basis. This allows for a lightweight hash computation on first read
+into the page cache. Block hashes are stored linearly-aligned to the nearest
+block the size of a page.
+
+Hash Tree
+---------
+
+Each node in the tree is a cryptographic hash. If it is a leaf node, the hash
+is of some block data on disk. If it is an intermediary node, then the hash is
+of a number of child nodes.
+
+Each entry in the tree is a collection of neighboring nodes that fit in one
+block. The number is determined based on block_size and the size of the
+selected cryptographic digest algorithm. The hashes are linearly-ordered in
+this entry and any unaligned trailing space is ignored but included when
+calculating the parent node.
+
+The tree looks something like:
+
+alg = sha256, num_blocks = 32768, block_size = 4096
+
+ [ root ]
+ / . . . \
+ [entry_0] [entry_1]
+ / . . . \ . . . \
+ [entry_0_0] . . . [entry_0_127] . . . . [entry_1_127]
+ / ... \ / . . . \ / \
+ blk_0 ... blk_127 blk_16256 blk_16383 blk_32640 . . . blk_32767
+
+
+On-disk format
+==============
+
+Below is the recommended on-disk format. The verity kernel code does not
+read the on-disk header. It only reads the hash blocks which directly
+follow the header. It is expected that a user-space tool will verify the
+integrity of the verity_header and then call dmsetup with the correct
+parameters. Alternatively, the header can be omitted and the dmsetup
+parameters can be passed via the kernel command-line in a rooted chain
+of trust where the command-line is verified.
+
+The on-disk format is especially useful in cases where the hash blocks
+are on a separate partition. The magic number allows easy identification
+of the partition contents. Alternatively, the hash blocks can be stored
+in the same partition as the data to be verified. In such a configuration
+the filesystem on the partition would be sized a little smaller than
+the full-partition, leaving room for the hash blocks.
+
+struct superblock {
+ uint8_t signature[8]
+ "verity\0\0";
+
+ uint8_t version;
+ 1 - current format
+
+ uint8_t data_block_bits;
+ log2(data block size)
+
+ uint8_t hash_block_bits;
+ log2(hash block size)
+
+ uint8_t pad1[1];
+ zero padding
+
+ uint16_t salt_size;
+ big-endian salt size
+
+ uint8_t pad2[2];
+ zero padding
+
+ uint32_t data_blocks_hi;
+ big-endian high 32 bits of the 64-bit number of data blocks
+
+ uint32_t data_blocks_lo;
+ big-endian low 32 bits of the 64-bit number of data blocks
+
+ uint8_t algorithm[16];
+ cryptographic algorithm
+
+ uint8_t salt[384];
+ salt (the salt size is specified above)
+
+ uint8_t pad3[88];
+ zero padding to 512-byte boundary
+}
+
+Directly following the header (and with sector number padded to the next hash
+block boundary) are the hash blocks which are stored a depth at a time
+(starting from the root), sorted in order of increasing index.
+
+Status
+======
+V (for Valid) is returned if every check performed so far was valid.
+If any check failed, C (for Corruption) is returned.
+
+Example
+=======
+
+Setup a device:
+ dmsetup create vroot --table \
+ "0 2097152 "\
+ "verity 1 /dev/sda1 /dev/sda2 4096 4096 2097152 1 "\
+ "4392712ba01368efdf14b05c76f9e4df0d53664630b5d48632ed17a137f39076 "\
+ "1234000000000000000000000000000000000000000000000000000000000000"
+
+A command line tool veritysetup is available to compute or verify
+the hash tree or activate the kernel driver. This is available from
+the LVM2 upstream repository and may be supplied as a package called
+device-mapper-verity-tools:
+ git://sources.redhat.com/git/lvm2
+ http://sourceware.org/git/?p=lvm2.git
+ http://sourceware.org/cgi-bin/cvsweb.cgi/LVM2/verity?cvsroot=lvm2
+
+veritysetup -a vroot /dev/sda1 /dev/sda2 \
+ 4392712ba01368efdf14b05c76f9e4df0d53664630b5d48632ed17a137f39076