From patchwork Mon Apr 6 22:14:38 2020 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Deven Bowers X-Patchwork-Id: 11476675 Return-Path: Received: from mail.kernel.org (pdx-korg-mail-1.web.codeaurora.org [172.30.200.123]) by pdx-korg-patchwork-2.web.codeaurora.org (Postfix) with ESMTP id 1A9161744 for ; Mon, 6 Apr 2020 22:15:11 +0000 (UTC) Received: from vger.kernel.org (vger.kernel.org [209.132.180.67]) by mail.kernel.org (Postfix) with ESMTP id E35D1207FF for ; Mon, 6 Apr 2020 22:15:10 +0000 (UTC) Authentication-Results: mail.kernel.org; dkim=pass (1024-bit key) header.d=linux.microsoft.com header.i=@linux.microsoft.com header.b="beu/r9EM" Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S1726332AbgDFWPG (ORCPT ); Mon, 6 Apr 2020 18:15:06 -0400 Received: from linux.microsoft.com ([13.77.154.182]:58668 "EHLO linux.microsoft.com" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S1726534AbgDFWOx (ORCPT ); Mon, 6 Apr 2020 18:14:53 -0400 Received: from dede-linux.corp.microsoft.com (unknown [131.107.147.242]) by linux.microsoft.com (Postfix) with ESMTPSA id 4E312207295F; Mon, 6 Apr 2020 15:14:49 -0700 (PDT) DKIM-Filter: OpenDKIM Filter v2.11.0 linux.microsoft.com 4E312207295F DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=linux.microsoft.com; s=default; t=1586211289; bh=pUlxPOjKC4KTSLx80keIuhKm7Wh1PV8nyWmrGSnsMTQ=; h=From:To:Cc:Subject:Date:In-Reply-To:References:From; b=beu/r9EMCzEkEW3jGP8tfj5Hpo/uUgfDVwiAt75lxMI7b/A6eceJBMoUkejEyckWg /p5NqqEB0DroUQXyYM7FJ5bp1O1KDmUxawnY03cAIjXr28RzJNYyMWSUxTMCHODqyd Kzcr+MtKTXB2uspTutLfZD3DQumkaNv/k+PTHZBQ= From: deven.desai@linux.microsoft.com To: agk@redhat.com, axboe@kernel.dk, snitzer@redhat.com, jmorris@namei.org, serge@hallyn.com, zohar@linux.ibm.com, linux-integrity@vger.kernel.org, linux-security-module@vger.kernel.org, dm-devel@redhat.com, linux-block@vger.kernel.org Cc: tyhicks@linux.microsoft.com, pasha.tatashin@soleen.com, sashal@kernel.org, jaskarankhurana@linux.microsoft.com, nramas@linux.microsoft.com, mdsakib@linux.microsoft.com, linux-kernel@vger.kernel.org Subject: [RFC PATCH v2 11/12] documentation: Add IPE Documentation Date: Mon, 6 Apr 2020 15:14:38 -0700 Message-Id: <20200406221439.1469862-12-deven.desai@linux.microsoft.com> X-Mailer: git-send-email 2.26.0 In-Reply-To: <20200406221439.1469862-1-deven.desai@linux.microsoft.com> References: <20200406221439.1469862-1-deven.desai@linux.microsoft.com> MIME-Version: 1.0 Sender: linux-integrity-owner@vger.kernel.org Precedence: bulk List-ID: X-Mailing-List: linux-integrity@vger.kernel.org From: Deven Bowers Add IPE's documentation to the kernel tree. Signed-off-by: Deven Bowers --- Documentation/admin-guide/LSM/index.rst | 1 + Documentation/admin-guide/LSM/ipe.rst | 487 ++++++++++++++++++ .../admin-guide/kernel-parameters.txt | 20 + MAINTAINERS | 1 + 4 files changed, 509 insertions(+) create mode 100644 Documentation/admin-guide/LSM/ipe.rst diff --git a/Documentation/admin-guide/LSM/index.rst b/Documentation/admin-guide/LSM/index.rst index a6ba95fbaa9f..ce63be6d64ad 100644 --- a/Documentation/admin-guide/LSM/index.rst +++ b/Documentation/admin-guide/LSM/index.rst @@ -47,3 +47,4 @@ subdirectories. tomoyo Yama SafeSetID + ipe diff --git a/Documentation/admin-guide/LSM/ipe.rst b/Documentation/admin-guide/LSM/ipe.rst new file mode 100644 index 000000000000..def353e34288 --- /dev/null +++ b/Documentation/admin-guide/LSM/ipe.rst @@ -0,0 +1,487 @@ +.. SPDX-License-Identifier: GPL-2.0 + +Integrity Policy Enforcement (IPE) +================================== + +Overview +-------- + +IPE is a Linux Security Module, which allows for a configurable policy +to enforce integrity requirements on the whole system. It attempts to +solve the issue of Code Integrity: that any code being executed (or +files being read), are identical to the version that was built by a +trusted source. + +There are multiple implementations within the Linux kernel that solve +some measure of integrity verification. For instance, device-mapper +verity, which ensures integrity for a block device, and fs-verity which +is a system that ensures integrity for a filesystem. What these +implementations lack is a measure of run-time verification that binaries +are sourced from these locations. IPE aims to address this gap. + +IPE is separated between two major components: A configurable policy, +provided by the LSM ("IPE Core"), and deterministic attributes provided +by the kernel to evaluate files against, ("IPE Properties"). + +Use Cases +--------- + +IPE is designed for use is an embedded device with a specific purpose +(e.g. network firewall device in a data center), where all software and +configuration is built and provisioned by the owner. + +Ideally, a system which leverages IPE is not intended for general +purpose computing and does not utilize any software or configuration +built by a third party. An ideal system to leverage IPE has both mutable +and immutable components, however, all binary executable code is +immutable. + +For the highest level of security, platform firmware should verify the +the kernel and optionally the root filesystem (e.g. via U-Boot verified +boot). This allows the entire system to be integrity verified. + +Known Gaps +---------- + +IPE cannot verify the integrity of anonymous executable memory, such as +the trampolines created by gcc closures and libffi, or JIT'd code. +Unfortunately, as this is dynamically generated code, there is no way +for IPE to detect that this code has not been tampered with in +transition from where it was built, to where it is running. As a result, +IPE is incapable of tackling this problem for dynamically generated +code. + +IPE cannot verify the integrity of interpreted languages' programs when +these scripts invoked via `` ``. This is because the +way interpreters execute these files, the scripts themselves are not +evaluated as executable code through one of IPE's hooks. Interpreters +can be enlightened to the usage of IPE by trying to mmap a file into +executable memory (+X), after opening the file and responding to the +error code appropriately. This also applies to included files, or high +value files, such as configuration files of critical system components. +This specific gap is planned on being addressed within IPE. + +Threat Model +------------ + +The threat type addressed by IPE is tampering of executable user-land +code beyond the initially booted kernel, and the initial verification of +kernel modules that are loaded in userland through ``modprobe`` or +``insmod``. + +Tampering violates the property of integrity. IPE's role in mitigating +this threat is to verify the integrity (and authenticity) of all +executable code and to deny their use if integrity verification fails. +IPE generates audit logs which may be utilized to detect integrity +verification failures. + +Tampering threat scenarios include modification or replacement of +executable code by a range of actors including: + +- Insiders with physical access to the hardware +- Insiders with local network access to the system +- Insiders with access to the deployment system +- Compromised internal systems under external control +- Malicious end users of the system +- Compromised end users of the system +- Remote (external) compromise of the system + +IPE does not mitigate threats arising from malicious authorized +developers, or compromised developer tools used by authorized +developers. Additionally, IPE draws hard security boundary between user +mode and kernel mode. As a result, IPE does not provide any protections +against a kernel level exploit, and a kernel-level exploit can disable +or tamper with IPE's protections. + +The root of trust for all of IPE's verifications is the +``SYSTEM_TRUSTED_KEYRING``. + +IPE Core +-------- + +IPE Policy +~~~~~~~~~~ + +IPE policy is designed to be both forward compatible and backwards +compatible. There is one required line, at the top of the policy, +indicating the policy name, and the policy version, for instance: + +:: + + policy_name="Ex Policy" policy_version=0.0.0 + +The policy name is a unique key identifying this policy in a human +readable name. This is used to create nodes under securityfs as well as +uniquely identify policies to deploy new policies vs update existing +policies. + +The policy version indicates the current version of the policy (NOT the +policy syntax version). This is used to prevent roll-back of policy to +potentially insecure previous versions of the policy. + +The next portion of IPE policy, are rules. Rules are formed by key=value +pairs, known as properties. IPE rules require two properties: "action", +which determines what IPE does when it encounters a match against the +rule, and "op", which determines when that rule should be evaluated. +Thus, a minimal rule is: + +:: + + op=EXECUTE action=ALLOW + +This example will allow any execution. Additional properties are used to +restrict attributes about the files being evaluated. These properties +are intended to be deterministic attributes that are resident in the +kernel. + +Order does not matter for the rule's properties - they can be listed in +any order, however it is encouraged to have the "op" property be first, +and the "action" property be last for readability. Rules are evaluated +top-to-bottom. As a result, any revocation rules, or denies should be +placed early in the file to ensure that these rules are evaluated before +as rule with "action=ALLOW" is hit. + +IPE policy is designed to be forward compatible and backwards +compatible, thus any failure to parse a rule will result in the line +being ignored, and a warning being emitted. If backwards compatibility +is not required, the kernel command line parameter and sysctl, +``ipe.strict_parse`` can be enabled, which will cause these warnings to +be fatal. + +IPE policy supports comments. The character '#' will function as a +comment, ignoring all characters to the right of '#' until the newline. + +The default behavior of IPE evaluations can also be expressed in policy, +through the ``DEFAULT`` statement. This can be done at a global level, +or a per-operation level: + +:: + + # Global + DEFAULT action=ALLOW + + # Operation Specific + DEFAULT op=EXECUTE action=ALLOW + +If a global default is unset, and a specific operation default is not +set for an IPE operation, it will assume that the default action should +be ``ALLOW``. This is to preserve compatibility between policies and the +LSM. + +With configurable policy-based LSMs, there's several issues with +enforcing the configurable policies at startup, around reading and +parsing the policy: + +1. The kernel *should* not read files from userland, so directly reading + the policy file is prohibited. +2. The kernel command line has a character limit, and one kernel module + should not reserve the entire character limit for its own + configuration. +3. There are various boot loaders in the kernel ecosystem, so handing + off a memory block would be costly to maintain. + +As a result, IPE has addressed this problem through a concept of a "boot +policy". A boot policy is a minimal policy, compiled into the kernel. +This policy is intended to get the system to a state where userland is +setup and ready to receive commands, at which point a more complex +policy ("user policies") can be deployed via securityfs. The boot policy +can be specified via the Kconfig, ``SECURITY_IPE_BOOT_POLICY``, which +accepts a path to a plain-text version of the IPE policy to apply. This +policy will be compiled into the kernel. If not specified, IPE will be +disabled until a policy is deployed through securityfs, and activated +through sysfs. + +Deploying Policies +^^^^^^^^^^^^^^^^^^ + +User policies as explained above, are policies that are deployed from +userland, through securityfs. These policies are signed to enforce some +level of authorization of the policies (prohibiting an attacker from +gaining root, and deploying an "allow all" policy), through the PKCS#7 +enveloped data format. These policies must be signed by a certificate +that chains to the ``SYSTEM_TRUSTED_KEYRING``. Through openssl, the +signing can be done via: + +:: + + openssl smime -sign -in "$MY_POLICY" -signer "$MY_CERTIFICATE" \ + -inkey "$MY_PRIVATE_KEY" -binary -outform der -noattr -nodetach \ + -out "$MY_POLICY.p7s" + +Deploying the policies is done through securityfs, through the +``new_policy`` node. To deploy a policy, simply cat the file into the +securityfs node: + +:: + + cat "$MY_POLICY.p7s" > /sys/kernel/security/ipe/new_policy + +Upon success, this will create one subdirectory under +``/sys/kernel/security/ipe/policies/``. The subdirectory will be the +``policy_name`` field of the policy deployed, so for the example above, +the directory will be ``/sys/kernel/security/ipe/policies/Ex\ Policy``. +Within this directory, there will be two files: ``raw`` and ``content``. + +The ``raw`` file is rw, reading will provide the raw PKCS#7 data that +was provided to the kernel, representing the policy. Writing, will +deploy an in-place policy update - if this policy is the currently +running policy, the new updated policy will replace it immediately upon +success. + +The ``content`` file is read only. Reading will provide the PKCS#7 inner +content of the policy, which will be the plain text policy. + +Similarly, the ``cat`` command above will result in an error upon +syntactically invalid or untrusted policies. It will also error if a +policy already exists with the same ``policy_name``. The write to the +``raw`` node will error upon syntactically invalid, untrusted policies, +or if the payload fails the version check. The write will also fail if +the ``policy_name`` in the payload does not match the existing policy. + +Deploying these policies will *not* cause IPE to start enforcing this +policy. Once deployment is successful, a policy can be marked as active, +via the sysctl, ``ipe.active_policy``. IPE will enforce whatever policy +is marked as active. For our example, we can activate the ``Ex Policy`` +via: + +:: + + sysctl ipe.active_policy="Ex Policy" + +At which point, ``Ex Policy`` will now be the enforced policy on the +system. + +IPE also provides a way to delete policies. This can be done via the +``del_policy`` securityfs node, ``/sys/kernel/security/ipe/del_policy``. +Writing the ``policy_name`` of the policy to be deleted will delete that +node: + +:: + + echo -n "$MY_POLICY_NAME" > /sys/kernel/security/ipe/del_policy + +There are two requirements to delete policies: + +1. The policy being deleted must not be the active policy. +2. The policy being deleted must not be the boot policy. + +NOTE: It's important to know above that the "echo" command will add a +newline to the end of the input, and this will be considered as part of +the filename. You can remove the newline via the -n parameter. + +Modes +~~~~~ + +IPE supports two modes of operation: permissive (similar to SELinux's +permissive mode) and enforce. Permissive mode performs the same checks +as enforce mode, and logs policy violations, but will not enforce the +policy. This allows users to test policies before enforcing them. + +The default mode is enforce, and can be changed via the kernel command +line parameter ``ipe.enforce=(0|1)``, or the sysctl +``ipe.enforce=(0|1)``. The ability to switch modes can be compiled out +of the LSM via setting the Kconfig +``CONFIG_SECURITY_IPE_PERMISSIVE_SWITCH`` to N. + +Audit Events +~~~~~~~~~~~~ + +Success Auditing +^^^^^^^^^^^^^^^^ + +IPE supports success auditing. When enabled, all events that pass IPE +policy and are not blocked will emit an audit event. This is disabled by +default, and can be enabled via the kernel command line +``ipe.success_audit=(0|1)`` or the sysctl ``ipe.success_audit=(0|1)``. + +This is very noisy, as IPE will check every user-mode binary on the +system, but is useful for debugging policies. + +IPE Properties +-------------- + +As explained above, IPE properties are ``key=value`` pairs expressed in +IPE policy. Two properties are built-into the policy parser: 'op' and +'action'. The other properties are determinstic attributes to express +across files. Currently those properties are: 'boot_verified', +'dmverity_signature', 'dmverity_roothash'. A description of all +properties supported by IPE are listed below: + +op +~~ + +Indicates the operation for a rule to apply to. Must be in every rule. +IPE supports the following operations: + +``EXECUTE`` + + Pertains to any file attempting to be executed, or loaded as an + executable. + +``FIRMWARE``: + + Pertains to firmware being loaded via the firmware_class interface. + This covers both the preallocated buffer and the firmware file + itself. + +``KMODULE``: + + Pertains to loading kernel modules via ``modprobe`` or ``insmod``. + +``KEXEC_IMAGE``: + + Pertains to kernel images loading via ``kexec``. + +``KEXEC_INITRAMFS`` + + Pertains to initrd images loading via ``kexec --initrd``. + +``POLICY``: + + Controls loading IMA policies through the + ``/sys/kernel/security/ima/policy`` securityfs entry. + +``X509_CERT``: + + Controls loading IMA certificates through the Kconfigs, + ``CONFIG_IMA_X509_PATH`` and ``CONFIG_EVM_X509_PATH``. + +action +~~~~~~ + +Determines what IPE should do when a rule matches. Must be in every +rule. Can be one of: + +``ALLOW``: + + If the rule matches, explicitly allow the call to proceed without + executing any more rules. + +``DENY``: + + If the rule matches, explicitly prohibit the call from proceeding + without executing any more rules. + +boot_verified +~~~~~~~~~~~~~ + +This property can be utilized for authorization of the first super-block +that is mounted on the system, where IPE attempts to evaluate a file. +Typically this is used for systems with an initramfs or other initial +disk, where this is unmounted before the system becomes available, and +is not covered by any other property. This property is controlled by the +Kconfig, ``CONFIG_IPE_BOOT_PROP``. The format of this property is: + +:: + + boot_verified=(TRUE|FALSE) + + +.. WARNING:: + + This property will trust any disk where the first IPE + evaluation occurs. If you do not have a startup disk that is + unpacked and unmounted (like initramfs), then it will automatically + trust the root filesystem and potentially overauthorize the entire + disk. + +dmverity_roothash +~~~~~~~~~~~~~~~~~ + +This property can be utilized for authorization or revocation of +specific dm-verity volumes, identified via root hash. It has a +dependency on the DM_VERITY module. This property is controlled by the +property: ``CONFIG_IPE_DM_VERITY_ROOTHASH``. The format of this property +is: + +:: + + dmverity_roothash=HashHexDigest + +dmverity_signature +~~~~~~~~~~~~~~~~~~ + +This property can be utilized for authorization of all dm-verity volumes +that have a signed roothash that chains to the system trusted keyring. +It has a dependency on the ``DM_VERITY_VERIFY_ROOTHASH_SIG`` Kconfig. +This property is controlled by the Kconfig: +``CONFIG_IPE_DM_VERITY_SIGNATURE``. The format of this property is: + +:: + + dmverity_signature=(TRUE|FALSE) + +Policy Examples +--------------- + +Allow all +~~~~~~~~~ + +:: + + policy_name="Allow All" policy_version=0.0.0 + DEFAULT action=ALLOW + +Allow only initial superblock +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +:: + + policy_name="Allow All Initial SB" policy_version=0.0.0 + DEFAULT action=DENY + + op=EXECUTE boot_verified=TRUE action=ALLOW + +Allow any signed dm-verity volume and the initial superblock +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +:: + + policy_name="AllowSignedAndInitial" policy_version=0.0.0 + DEFAULT action=DENY + + op=EXECUTE boot_verified=TRUE action=ALLOW + op=EXECUTE dmverity_signature=TRUE action=ALLOW + +Prohibit execution from a specific dm-verity volume +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +:: + + policy_name="AllowSignedAndInitial" policy_version=0.0.0 + DEFAULT action=DENY + + op=EXECUTE dmverity_roothash=401fcec5944823ae12f62726e8184407a5fa9599783f030dec146938 action=DENY + op=EXECUTE boot_verified=TRUE action=ALLOW + op=EXECUTE dmverity_signature=TRUE action=ALLOW + +Allow only a specific dm-verity volume +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +:: + + policy_name="AllowSignedAndInitial" policy_version=0.0.0 + DEFAULT action=DENY + + op=EXECUTE dmverity_roothash=401fcec5944823ae12f62726e8184407a5fa9599783f030dec146938 action=ALLOW + +External Information +-------------------- + +Please see the github repository at: https://github.com/microsoft/Integrity-Policy-Enforcement-LSM + +FAQ +--- + +Q: What's the difference between other LSMs which provide integrity +verification (i.e. IMA)? + +A: IPE differs from other LSMs which provide integrity checking, as it +has no dependency on the filesystem metadata itself. The attributes that +IPE checks are deterministic properties that exist solely in the kernel. +Additionally, IPE provides no additional mechanisms of verifying these +files (e.g. IMA Signatures) - all of the attributes of verifying files +are existing features within the kernel. + +Additionally, IPE is completely restricted to integrity. It offers no +measurement or attestation features, which IMA addresses. diff --git a/Documentation/admin-guide/kernel-parameters.txt b/Documentation/admin-guide/kernel-parameters.txt index 4d5a4fe22703..9eb8b19fe9db 100644 --- a/Documentation/admin-guide/kernel-parameters.txt +++ b/Documentation/admin-guide/kernel-parameters.txt @@ -1913,6 +1913,26 @@ ip= [IP_PNP] See Documentation/admin-guide/nfs/nfsroot.rst. + ipe.enforce= [IPE] + Format: { "0" | "1" } + 0 - Start IPE in audit mode + 1 - Start IPE in enforce mode (default). + See Documentation/security/ipe.rst + + ipe.success_audit= + [IPE] Start IPE with success auditing + Format: { "0" | "1" } + 0 - Disable success auditing (default) + 1 - Enable success auditing + See Documentation/security/ipe.rst + + ipe.strict_parse= + [IPE] Start IPE with strict policy parsing enabled + Format: { "0" | "1" } + 0 - Disable strict parsing (default) + 1 - Enable strict parsing + See Documentation/security/ipe.rst + ipcmni_extend [KNL] Extend the maximum number of unique System V IPC identifiers from 32,768 to 16,777,216. diff --git a/MAINTAINERS b/MAINTAINERS index ab9adcd37a0c..897da80af3f8 100644 --- a/MAINTAINERS +++ b/MAINTAINERS @@ -8441,6 +8441,7 @@ INTEGRITY POLICY ENFORCEMENT (IPE) M: Deven Bowers L: linux-integrity@vger.kernel.org S: Supported +F: Documentation/admin-guide/LSM/ipe.rst F: scripts/ipe/ F: security/ipe/