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Andrew Geissler2daf84b2023-03-31 09:57:23 -05001dm-verity and Yocto/OE
2----------------------
3The dm-verity feature provides a level of data integrity and resistance to
4data tampering. It does this by creating a hash for each data block of
5the underlying device as the base of a hash tree. There are many
6documents out there to further explain the implementaion, such as the
7in-kernel one itself:
8
9https://docs.kernel.org/admin-guide/device-mapper/verity.html
10
11The goal of this document is not to reproduce that content, but instead to
12capture the Yocto/OE specifics of the dm-verity infrastructure used here.
13
14Ideally this should enable a person to build and deploy an image on one of
15the supported reference platforms, and then further adapt to their own
16platform and specific storage requirements.
17
18Basic Settings
19--------------
20Largely everything is driven off of a dm-verity image class; a typical
21block of non MACHINE specific settings are shown below:
22
23INITRAMFS_IMAGE = "dm-verity-image-initramfs"
24DM_VERITY_IMAGE = "core-image-minimal"
25DM_VERITY_IMAGE_TYPE = "ext4"
26IMAGE_CLASSES += "dm-verity-img"
27INITRAMFS_IMAGE_BUNDLE = "1"
28
29Kernel Configuration
30--------------------
31Kernel configuration for dm-verity happens automatically via IMAGE_CLASSES
32which will source features/device-mapper/dm-verity.scc when dm-verity-img
33is used. [See commit d9feafe991c]
34
35Supported Platforms
36-------------------
37In theory, you can use dm-verity anywhere - there is nothing arch/BSP
38specific in the core kernel support. However, at the BSP level, one
39eventually has to decide what device(s) are to be hashed, and where the
40hash tables are stored.
41
42To that end, the BSP storage specifics live in meta-security/wic dir and
43represent the current set of example configurations that have been tested
44and submitted at some point.
45
46Getting Started
47---------------
48This document assumes you are starting from the basic auto-created
49conf/local.conf and conf/bblayers.conf from the oe-init-build-env
50
51Firstly, you need the meta-security layer to conf/bblayers.conf along with
52the dependencies it has -- see the top level meta-security README for that.
53
54Next, assuming you'll be using dm-verity for validation of your rootfs,
55you'll need to enable read-only rootfs support in your local.conf with:
56
57EXTRA_IMAGE_FEATURES = "read-only-rootfs"
58
59For more details, see the associated documentation:
60
61https://docs.yoctoproject.org/dev/dev-manual/read-only-rootfs.html
62
63Also add the basic block of dm-verity settings shown above, and select
64your MACHINE from one of the supported platforms.
65
66If there is a dm-verity-<MACHINE>.txt file for your BSP, check that for
67any additional platform specific recommended settings, such as the
68WKS_FILES which can specify board specific storage layout discussed below.
69
70Then you should be able to do a "bitbake core-image-minimal" just like any
71other normal build. What you will notice, is the content in
72tmp/deploy/images/<MACHINE>/ now have suffixes like "rootfs.ext4.verity"
73
74While you can manually work with these images just like any other build,
75this is where the BSP specific recipes in meta-security/wic can simplify
76things and remove a bunch of manual steps that might be error prone.
77
78Consider for example, the beaglebone black WIC file, which contains:
79
80part /boot --source bootimg-partition --ondisk mmcblk0 --fstype=vfat
81--label boot --active --align 4 --fixed-size 32 --sourceparams="loader=u-boot" --use-uuid
82part / --source rawcopy --ondisk mmcblk0 --sourceparams="file=${IMGDEPLOYDIR}/${DM_VERITY_IMAGE}-${MACHINE}.${DM_VERITY_IMAGE_TYPE}.verity"
83bootloader --append="console=ttyS0,115200"
84
85As can be seen, it maps out the partitions, including the bootloader, and
86saves doing a whole bunch of manual partitioning and dd steps.
87
88This file is copied into tmp/deploy/images/<MACHINE>/ with bitbake
89variables expanded with their corresponding values for wic to make use of.
90
91Continuing with the beaglebone example, we'll see output similar to:
92
93 ----------------------
94$ wic create -e core-image-minimal beaglebone-yocto-verity
95
96[...]
97
98INFO: Creating image(s)...
99
100INFO: The new image(s) can be found here:
101 ./beaglebone-yocto-verity.wks-202303070223-mmcblk0.direct
102
103The following build artifacts were used to create the image(s):
104 BOOTIMG_DIR: /home/paul/poky/build-bbb-verity/tmp/work/beaglebone_yocto-poky-linux-gnueabi/core-image-minimal/1.0-r0/recipe-sysroot/usr/share
105 KERNEL_DIR: /home/paul/poky/build-bbb-verity/tmp/deploy/images/beaglebone-yocto
106 NATIVE_SYSROOT: /home/paul/poky/build-bbb-verity/tmp/work/cortexa8hf-neon-poky-linux-gnueabi/wic-tools/1.0-r0/recipe-sysroot-native
107
108INFO: The image(s) were created using OE kickstart file:
109 /home/paul/poky/meta-security/wic/beaglebone-yocto-verity.wks.in
110 ----------------------
111
112The "direct" image contains the partition table, bootloader, and dm-verity
113enabled ext4 image all in one -- ready to write to a raw device, such as a
114u-SD card in the case of the beaglebone.