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linux/security/ipe/Kconfig

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# SPDX-License-Identifier: GPL-2.0-only
#
# Integrity Policy Enforcement (IPE) configuration
#
menuconfig SECURITY_IPE
bool "Integrity Policy Enforcement (IPE)"
audit,ipe: add IPE auditing support Users of IPE require a way to identify when and why an operation fails, allowing them to both respond to violations of policy and be notified of potentially malicious actions on their systems with respect to IPE itself. This patch introduces 3 new audit events. AUDIT_IPE_ACCESS(1420) indicates the result of an IPE policy evaluation of a resource. AUDIT_IPE_CONFIG_CHANGE(1421) indicates the current active IPE policy has been changed to another loaded policy. AUDIT_IPE_POLICY_LOAD(1422) indicates a new IPE policy has been loaded into the kernel. This patch also adds support for success auditing, allowing users to identify why an allow decision was made for a resource. However, it is recommended to use this option with caution, as it is quite noisy. Here are some examples of the new audit record types: AUDIT_IPE_ACCESS(1420): audit: AUDIT1420 ipe_op=EXECUTE ipe_hook=BPRM_CHECK enforcing=1 pid=297 comm="sh" path="/root/vol/bin/hello" dev="tmpfs" ino=3897 rule="op=EXECUTE boot_verified=TRUE action=ALLOW" audit: AUDIT1420 ipe_op=EXECUTE ipe_hook=BPRM_CHECK enforcing=1 pid=299 comm="sh" path="/mnt/ipe/bin/hello" dev="dm-0" ino=2 rule="DEFAULT action=DENY" audit: AUDIT1420 ipe_op=EXECUTE ipe_hook=BPRM_CHECK enforcing=1 pid=300 path="/tmp/tmpdp2h1lub/deny/bin/hello" dev="tmpfs" ino=131 rule="DEFAULT action=DENY" The above three records were generated when the active IPE policy only allows binaries from the initramfs to run. The three identical `hello` binary were placed at different locations, only the first hello from the rootfs(initramfs) was allowed. Field ipe_op followed by the IPE operation name associated with the log. Field ipe_hook followed by the name of the LSM hook that triggered the IPE event. Field enforcing followed by the enforcement state of IPE. (it will be introduced in the next commit) Field pid followed by the pid of the process that triggered the IPE event. Field comm followed by the command line program name of the process that triggered the IPE event. Field path followed by the file's path name. Field dev followed by the device name as found in /dev where the file is from. Note that for device mappers it will use the name `dm-X` instead of the name in /dev/mapper. For a file in a temp file system, which is not from a device, it will use `tmpfs` for the field. The implementation of this part is following another existing use case LSM_AUDIT_DATA_INODE in security/lsm_audit.c Field ino followed by the file's inode number. Field rule followed by the IPE rule made the access decision. The whole rule must be audited because the decision is based on the combination of all property conditions in the rule. Along with the syscall audit event, user can know why a blocked happened. For example: audit: AUDIT1420 ipe_op=EXECUTE ipe_hook=BPRM_CHECK enforcing=1 pid=2138 comm="bash" path="/mnt/ipe/bin/hello" dev="dm-0" ino=2 rule="DEFAULT action=DENY" audit[1956]: SYSCALL arch=c000003e syscall=59 success=no exit=-13 a0=556790138df0 a1=556790135390 a2=5567901338b0 a3=ab2a41a67f4f1f4e items=1 ppid=147 pid=1956 auid=4294967295 uid=0 gid=0 euid=0 suid=0 fsuid=0 egid=0 sgid=0 fsgid=0 tty=pts0 ses=4294967295 comm="bash" exe="/usr/bin/bash" key=(null) The above two records showed bash used execve to run "hello" and got blocked by IPE. Note that the IPE records are always prior to a SYSCALL record. AUDIT_IPE_CONFIG_CHANGE(1421): audit: AUDIT1421 old_active_pol_name="Allow_All" old_active_pol_version=0.0.0 old_policy_digest=sha256:E3B0C44298FC1C149AFBF4C8996FB92427AE41E4649 new_active_pol_name="boot_verified" new_active_pol_version=0.0.0 new_policy_digest=sha256:820EEA5B40CA42B51F68962354BA083122A20BB846F auid=4294967295 ses=4294967295 lsm=ipe res=1 The above record showed the current IPE active policy switch from `Allow_All` to `boot_verified` along with the version and the hash digest of the two policies. Note IPE can only have one policy active at a time, all access decision evaluation is based on the current active policy. The normal procedure to deploy a policy is loading the policy to deploy into the kernel first, then switch the active policy to it. AUDIT_IPE_POLICY_LOAD(1422): audit: AUDIT1422 policy_name="boot_verified" policy_version=0.0.0 policy_digest=sha256:820EEA5B40CA42B51F68962354BA083122A20BB846F2676 auid=4294967295 ses=4294967295 lsm=ipe res=1 The above record showed a new policy has been loaded into the kernel with the policy name, policy version and policy hash. Signed-off-by: Deven Bowers <deven.desai@linux.microsoft.com> Signed-off-by: Fan Wu <wufan@linux.microsoft.com> [PM: subject line tweak] Signed-off-by: Paul Moore <paul@paul-moore.com>
2024-08-02 23:08:23 -07:00
depends on SECURITY && SECURITYFS && AUDIT && AUDITSYSCALL
select PKCS7_MESSAGE_PARSER
select SYSTEM_DATA_VERIFICATION
select IPE_PROP_DM_VERITY if DM_VERITY
select IPE_PROP_DM_VERITY_SIGNATURE if DM_VERITY && DM_VERITY_VERIFY_ROOTHASH_SIG
select IPE_PROP_FS_VERITY if FS_VERITY
select IPE_PROP_FS_VERITY_BUILTIN_SIG if FS_VERITY && FS_VERITY_BUILTIN_SIGNATURES
help
This option enables the Integrity Policy Enforcement LSM
allowing users to define a policy to enforce a trust-based access
control. A key feature of IPE is a customizable policy to allow
admins to reconfigure trust requirements on the fly.
If unsure, answer N.
if SECURITY_IPE
config IPE_BOOT_POLICY
string "Integrity policy to apply on system startup"
help
This option specifies a filepath to an IPE policy that is compiled
into the kernel. This policy will be enforced until a policy update
is deployed via the $securityfs/ipe/policies/$policy_name/active
interface.
If unsure, leave blank.
menu "IPE Trust Providers"
config IPE_PROP_DM_VERITY
bool "Enable support for dm-verity based on root hash"
depends on DM_VERITY
help
This option enables the 'dmverity_roothash' property within IPE
policies. The property evaluates to TRUE when a file from a dm-verity
volume is evaluated, and the volume's root hash matches the value
supplied in the policy.
config IPE_PROP_DM_VERITY_SIGNATURE
bool "Enable support for dm-verity based on root hash signature"
depends on DM_VERITY && DM_VERITY_VERIFY_ROOTHASH_SIG
help
This option enables the 'dmverity_signature' property within IPE
policies. The property evaluates to TRUE when a file from a dm-verity
volume, which has been mounted with a valid signed root hash,
is evaluated.
If unsure, answer Y.
config IPE_PROP_FS_VERITY
bool "Enable support for fs-verity based on file digest"
depends on FS_VERITY
help
This option enables the 'fsverity_digest' property within IPE
policies. The property evaluates to TRUE when a file is fsverity
enabled and its digest matches the supplied digest value in the
policy.
if unsure, answer Y.
config IPE_PROP_FS_VERITY_BUILTIN_SIG
bool "Enable support for fs-verity based on builtin signature"
depends on FS_VERITY && FS_VERITY_BUILTIN_SIGNATURES
help
This option enables the 'fsverity_signature' property within IPE
policies. The property evaluates to TRUE when a file is fsverity
enabled and it has a valid builtin signature whose signing cert
is in the .fs-verity keyring.
if unsure, answer Y.
endmenu
config SECURITY_IPE_KUNIT_TEST
bool "Build KUnit tests for IPE" if !KUNIT_ALL_TESTS
depends on KUNIT=y
default KUNIT_ALL_TESTS
help
This builds the IPE KUnit tests.
KUnit tests run during boot and output the results to the debug log
in TAP format (https://testanything.org/). Only useful for kernel devs
running KUnit test harness and are not for inclusion into a
production build.
For more information on KUnit and unit tests in general please refer
to the KUnit documentation in Documentation/dev-tools/kunit/.
If unsure, say N.
endif