From patchwork Sat Aug 12 10:46:03 2023 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Roberto Sassu X-Patchwork-Id: 13351800 Return-Path: X-Spam-Checker-Version: SpamAssassin 3.4.0 (2014-02-07) on aws-us-west-2-korg-lkml-1.web.codeaurora.org Received: from vger.kernel.org (vger.kernel.org [23.128.96.18]) by smtp.lore.kernel.org (Postfix) with ESMTP id 38517C001B0 for ; Sat, 12 Aug 2023 10:47:46 +0000 (UTC) Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S233751AbjHLKrg (ORCPT ); Sat, 12 Aug 2023 06:47:36 -0400 Received: from lindbergh.monkeyblade.net ([23.128.96.19]:59558 "EHLO lindbergh.monkeyblade.net" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S229497AbjHLKrg (ORCPT ); Sat, 12 Aug 2023 06:47:36 -0400 Received: from frasgout11.his.huawei.com (unknown [14.137.139.23]) by lindbergh.monkeyblade.net (Postfix) with ESMTPS id 2E603211B; Sat, 12 Aug 2023 03:47:37 -0700 (PDT) Received: from mail02.huawei.com (unknown [172.18.147.229]) by frasgout11.his.huawei.com (SkyGuard) with ESMTP id 4RNHBK4stjz9yydw; Sat, 12 Aug 2023 18:35:53 +0800 (CST) Received: from huaweicloud.com (unknown [10.204.63.22]) by APP1 (Coremail) with SMTP id LxC2BwBXC7scY9dkThi9AA--.8440S2; Sat, 12 Aug 2023 11:47:05 +0100 (CET) From: Roberto Sassu To: corbet@lwn.net, zohar@linux.ibm.com, dmitry.kasatkin@gmail.com, paul@paul-moore.com, jmorris@namei.org, serge@hallyn.com Cc: linux-kernel@vger.kernel.org, linux-doc@vger.kernel.org, linux-integrity@vger.kernel.org, linux-security-module@vger.kernel.org, bpf@vger.kernel.org, jarkko@kernel.org, pbrobinson@gmail.com, zbyszek@in.waw.pl, hch@lst.de, mjg59@srcf.ucam.org, pmatilai@redhat.com, jannh@google.com, Roberto Sassu Subject: [RFC][PATCH v2 00/13] integrity: Introduce a digest cache Date: Sat, 12 Aug 2023 12:46:03 +0200 Message-Id: <20230812104616.2190095-1-roberto.sassu@huaweicloud.com> X-Mailer: git-send-email 2.34.1 MIME-Version: 1.0 X-CM-TRANSID: LxC2BwBXC7scY9dkThi9AA--.8440S2 X-Coremail-Antispam: 1UD129KBjvAXoWfuF1UGw13ury3Zw1fZFy5Jwb_yoW8KF48Jo ZYva13Cw45try5uF4DCFnrXF47W3ZYgwn7Jr4kKr45WF17XFy5G3WDCa1UWFW3Xr4rGasr A348Jw47JF4ktrn3n29KB7ZKAUJUUUUU529EdanIXcx71UUUUU7v73VFW2AGmfu7bjvjm3 AaLaJ3UjIYCTnIWjp_UUUY07kC6x804xWl14x267AKxVW5JVWrJwAFc2x0x2IEx4CE42xK 8VAvwI8IcIk0rVWrJVCq3wAFIxvE14AKwVWUJVWUGwA2ocxC64kIII0Yj41l84x0c7CEw4 AK67xGY2AK021l84ACjcxK6xIIjxv20xvE14v26r1j6r1xM28EF7xvwVC0I7IYx2IY6xkF 7I0E14v26r4j6F4UM28EF7xvwVC2z280aVAFwI0_Gr0_Cr1l84ACjcxK6I8E87Iv6xkF7I 0E14v26r4UJVWxJr1le2I262IYc4CY6c8Ij28IcVAaY2xG8wAqx4xG64xvF2IEw4CE5I8C rVC2j2WlYx0E2Ix0cI8IcVAFwI0_Jr0_Jr4lYx0Ex4A2jsIE14v26r1j6r4UMcvjeVCFs4 IE7xkEbVWUJVW8JwACjcxG0xvY0x0EwIxGrwACI402YVCY1x02628vn2kIc2xKxwCF04k2 0xvY0x0EwIxGrwCFx2IqxVCFs4IE7xkEbVWUJVW8JwC20s026c02F40E14v26r1j6r18MI 8I3I0E7480Y4vE14v26r106r1rMI8E67AF67kF1VAFwI0_GFv_WrylIxkGc2Ij64vIr41l IxAIcVC0I7IYx2IY67AKxVWUJVWUCwCI42IY6xIIjxv20xvEc7CjxVAFwI0_Gr0_Cr1lIx AIcVCF04k26cxKx2IYs7xG6rW3Jr0E3s1lIxAIcVC2z280aVAFwI0_Gr0_Cr1lIxAIcVC2 z280aVCY1x0267AKxVW8Jr0_Cr1UYxBIdaVFxhVjvjDU0xZFpf9x07UZ18PUUUUU= X-CM-SenderInfo: purev21wro2thvvxqx5xdzvxpfor3voofrz/1tbiAgAHBF1jj46UrgAAsE X-CFilter-Loop: Reflected Precedence: bulk List-ID: X-Mailing-List: linux-integrity@vger.kernel.org From: Roberto Sassu Introduction ============ The main goal of Integrity Measurement Architecture (IMA) is to perform a measurement of the file content and use it for remote attestation, to report a possibly compromised system, using the TPM as a root of trust. It can also prevent a system compromise from happening by checking the calculated file digest against a known-good reference value and by denying the current operation if there is a mismatch. Motivation ========== This patch set aims to address two important shortcomings: predictability of the Platform Configuration Registers (PCRs), and the provisioning of reference values to compare the calculated file digest against. Remote attestation, according to Trusted Computing Group (TCG) specifications, is done by replicating the PCR extend operation in software with the digests in the event log (in this case the IMA measurement list), and by comparing the obtained value with the PCR value signed by the TPM with the quote operation. Due to how the extend operation is performed, if measurements are done in a different order, the final PCR value will be different. That means that if measurements are done in parallel, there is no way to predict what the final PCR value will be, making impossible to seal data to a PCR value. If the PCR value was predictable, a system could for example prove its integrity by unsealing and using its private key, without sending every time the full list of measurements. Provisioning reference values for file digests is also a difficult task. The solution so far was to add file signatures to RPM packages, and possibly to DEB packages, so that IMA can verify them. While this undoubtly works, it also requires Linux distribution vendors to support the feature by rebuilding all their packages, and eventually extending their PKI to perform the additional signatures. It could also require developers extra work to deal with the additional data. On the other hand, since often packages carry the file digests themselves, it won't be actually needed to add file signatures. If the kernel was able to extract the file digests by itself, all the tasks mentioned above for the Linux distribution vendors won't be needed too. All current and past Linux distributions can be easily retrofitted to enable IMA appraisal with the file digests from the packages. Narrowing down the scope of a package parser to only extract specific information makes it small enough to accurately verify that it cannot harm the kernel. An additional mitigation consists in verifying the signature of the package first, before attempting to extract the file digests. Solution ======== To avoid a PCR is extended in a non-deterministic way, the proposed solution is to replace individual file measurements with the measurement of a file (the digest list) containing a set of file digests. If the calculated digest of a file being measured/appraised matches one digest in the set, its measurement is skipped. If otherwise there is no match, the file digest is added to the measurement list. The resulting measurement list, which cannot be done on the default IMA PCR to avoid ambiguity with the default-style measurement, has the following meaning: none/some/all files represented with the measurement of the digest lists COULD have been accessed, without knowing IF and WHEN. Any other measurement (other than boot_aggregate) is of a file whose digest was not included in the digest list. File signatures have a coarser granularity, it is per-signing key and not per-package. A measurement list containing just the measurement of the signing keys and the files without/invalid signature (those with valid signature would be skipped) would be even less accurate. To ensure a rapid and smooth deployment of IMA appraisal, the kernel has been provided with the ability to extract file digests from the RPM package headers, and add them to the kernel memory on demand (only when a file from a given package is accessed). This ensures that the memory consumption for this new feature is directly proportional to the usage of the system. Scope ===== The integrity digest cache enables IMA to extend a PCR (not the default one) in a deterministic fashion, and to appraise immutable files with file digests from the packages, when no other appraisal method is available. It does not yet support metadata verification with Extended Verification Module (EVM), for which a separate patch set will be provided. Design ====== The digest cache is a hash table of file digests, attached to the inode of the digest list from which file digests are extracted. It is accessible, when a given file is being measured/appraised, from the new xattr security.digest_list, containing the path of the digest list itself. If the calculated file digest is found in the digest cache, its measurement is avoided, or read-only access is granted if appraisal is in enforcing mode. Read-write access is prevented to avoid updating an unverified HMAC of file metadata. The digest cache can be used only if the following conditions are met: - The 'digest_cache=content' keyword is added to the desired IMA policy rules; - If the rule action is 'measure', a PCR different from the default one is specified; - If the rule action is 'appraise', 'digest_cache=content' and 'appraise_type' don't appear at the same time; - The same action for which the digest cache is used was done also on the digest list; - The digest cache is not (currently) used for measurement/appraisal of other digest lists. For performance reasons, the digest cache is attached to every inode using it, since multiple hooks can be invoked on it before the measurement/appraisal result is cached. A reference count indicates how many inodes use it, and only when it reaches zero, the digest cache can be freed (for example when inodes are evicted from memory). Two digest cache pointers have been added to the iint to distinguish for which purpose they should be used: dig_owner points to the digest cache created from the same inode the iint refers to, and should be used for measurement/appraisal of other inodes; dig_user points to the digest cache created from a different inode, and requested for measurement/appraisal. One digest cache pointer would be confusing, as for digest lists the digest cache was created from them, but IMA would try to use that digest cache for measurement/appraisal of itself. Finally, at the first digest list measurement, an iterator is executed to sequentially read (not parse) all the digest lists in the same directory, so that the PCR is extended in a deterministic fashion. The other concurrent users of the digest cache have to wait until the iterator finishes. API === digest_cache_alloc(), digest_cache_parse_digest_list() and digest_cache_new() are internal functions used during the creation and initialization of the digest cache. digest_cache_get() and digest_cache_free() are called by the user of the digest cache (e.g. IMA), to obtain and free a digest cache. digest_cache_init_htable(), digest_cache_add() and digest_cache_lookup() are called by the digest list parsers to populate and search in a digest cache. Digest List Formats =================== tlv ~~~ The Type-Length-Value (TLV) format was chosen for its extensibility. Additional fields can be added without breaking compatibility with old versions of the parser. The layout of a tlv digest list is the following: [header: DIGEST_LIST_FILE, num fields, total len] [field: DIGEST_LIST_ALGO, length, value] [field: DIGEST_LIST_ENTRY#1, length, value (below)] |- [header: DIGEST_LIST_FILE, num fields, total len] |- [ENTRY#1_DIGEST, length, file digest] |- [ENTRY#1_PATH, length, file path] [field: DIGEST_LIST_ENTRY#N, length, value (below)] |- [header: DIGEST_LIST_FILE, num fields, total len] |- [ENTRY#N_DIGEST, length, file digest] |- [ENTRY#N_PATH, length, file path] DIGEST_LIST_ALGO is a field to specify the algorithm of the file digest. DIGEST_LIST_ENTRY is a nested TLV structure with the following fields: ENTRY_DIGEST contains the file digest; ENTRY_PATH contains the file path. rpm ~~~ The rpm digest list is basically a subset of the RPM package header. Its format is: [RPM magic number] [RPMTAG_IMMUTABLE] RPMTAG_IMMUTABLE is a section of the full RPM header containing the part of the header that was signed, and whose signature is stored in the RPMTAG_RSAHEADER section. Appended Signature ~~~~~~~~~~~~~~~~~~ Digest lists can have a module-style appended signature, that can be used for appraisal with IMA. The signature type can be PKCS#7, as for kernel modules, or the new user asymmetric key signature. History ======= The original name of this work was IMA Digest Lists, which was somehow considered too invasive. The code was moved to a separate component named DIGLIM (DIGest Lists Integrity Module), with the purpose of removing the complexity away of IMA, and also add the possibility of using it with other kernel components (e.g. Integrity Policy Enforcement, or IPE). Since it was originally proposed, in 2017, this work grew up a lot thanks to various comments/suggestions. It became integrally part of the openEuler distribution since end of 2020. There are significant differences between this and the previous versions. The most important one is moving from a centralized repository of file digests to a per-package repository. This significantly reduces the memory pressure, since digest lists are loaded into kernel memory only when they are actually needed. Also, file digests are automatically unloaded from kernel memory at the same time inodes are evicted from memory during reclamation. Performance =========== The tests have been performed on a Fedora 38 virtual machine, with 8 cores (AMD EPYC-Rome), 4GB of RAM, TPM passthrough. The signing key is an ECDSA NIST P-384. IMA measurement policy: no cache ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ dont_measure fsmagic=0x01021994 measure func=BPRM_CHECK measure func=MMAP_CHECK IMA measurement policy: cache ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ dont_measure fsmagic=0x01021994 measure func=DIGEST_LIST_CHECK template=ima-modsig pcr=11 measure func=BPRM_CHECK digest_cache=content pcr=11 measure func=MMAP_CHECK digest_cache=content pcr=11 IMA Measurement Results ~~~~~~~~~~~~~~~~~~~~~~~ +-----------+-----------+-----------+ | # measur. | boot time | slab | +-----------------------------+-----------+-----------+-----------+ | measure (no cache) | 389 | 12.682s | 231453 KB | +-----------------------------+-----------+-----------+-----------+ | measure (cache, no iter) | 175 | 12.283s | 234224 KB | +-----------------------------+-----------+-----------+-----------+ | measure (cache, iter) | 853 | 16.430s | 238491 KB | +-----------------------------+-----------+-----------+-----------+ With the iterator enabled, all 852 packages are measured. Consequently, the boot time is longer. One possible optimization would be to exclude the packages that don't include measured files. By disabling the iterator, it can be seen that the packages actually used are 174 (one measurement is for boot_aggregate). IMA appraisal policy: no cache ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ dont_appraise fsmagic=0x01021994 appraise func=BPRM_CHECK appraise_type=imasig appraise func=MMAP_CHECK appraise_type=imasig IMA appraisal policy: cache ~~~~~~~~~~~~~~~~~~~~~~~~~~~ dont_appraise fsmagic=0x01021994 appraise func=DIGEST_LIST_CHECK appraise_type=imasig|modsig appraise func=BPRM_CHECK digest_cache=content appraise func=MMAP_CHECK digest_cache=content IMA Appraisal Results ~~~~~~~~~~~~~~~~~~~~~ +-----------+-----------+ | boot time | slab | +-----------------------------+-----------+-----------+ | appraise (no cache) | 11.995s | 231145 KB | +-----------------------------+-----------+-----------+ | appraise (cache) | 11.879s | 233091 KB | +-----------------------------+-----------+-----------+ In this test, it can be seen that the performance of the two solutions are comparable, with the digest cache slightly ahead. The difference could be more substantial with more file appraised. How to Test =========== First, it is necessary to copy the new kernel headers (tlv_parser.h, uasym_parser.h, tlv_digest_list.h) from usr/include/linux in the kernel source directory to /usr/include/linux. Then, gpg must be rebuilt with the additional patches to convert the PGP keys of the Linux distribution to the new user asymmetric key format: $ gpg --conv-kernel >> certs/uasym_keys.bin This embeds the converted keys in the kernel image. Then, the following kernel options must be enabled: CONFIG_INTEGRITY_DIGEST_CACHE=y CONFIG_UASYM_KEYS_SIGS=y CONFIG_UASYM_PRELOAD_PUBLIC_KEYS=y and the kernel must be rebuilt with the patches applied. After boot, it is necessary to build and install the digest list tool in tools/digest-lists, and to execute (as root): # manage_digest_lists -o gen -d /etc/digest_lists -i rpmdb -f rpm The new gpg must also be installed in the system, as it will be used to convert the PGP signatures of the RPM headers to the user asymmetric key format. It is recommended to create an additional digest list with the following files, by creating a file named 'list' with the content: /usr/bin/manage_digest_lists /usr/lib64/libgen-tlv-list.so /usr/lib64/libgen-rpm-list.so /usr/lib64/libparse-rpm-list.so /usr/lib64/libparse-tlv-list.so Then, to create the digest list, it is sufficient to execute: # manage_digest_lists -i list -L -d /etc/digest_lists -o gen -f tlv If appraisal is enabled and in enforcing mode, it is necessary to sign the new digest list, with the sign-file tool in the scripts/ directory of the kernel sources: # scripts/sign-file sha256 certs/signing_key.pem certs/signing_key.pem /etc/digest_lists/tlv-list The final step is to add security.digest_list to each file with: # manage_digest_lists -i /etc/digest_lists -o add-xattr After that, it is possible to test the integrity digest cache with the following policy written to /etc/ima/ima-policy: dont_measure fsmagic=0x01021994 measure func=DIGEST_LIST_CHECK template=ima-modsig pcr=11 measure func=BPRM_CHECK digest_cache=content pcr=11 measure func=MMAP_CHECK digest_cache=content pcr=11 dont_appraise fsmagic=0x01021994 appraise func=BPRM_CHECK digest_cache=content appraise func=MMAP_CHECK digest_cache=content appraise func=DIGEST_LIST_CHECK appraise_type=imasig|modsig Tmpfs is excluded for now, until memfd is properly handled. Before loading the policy, it is possible to enable dynamic debug to see which operations are done by the integrity digest cache: # echo "file tlv* +p" > /sys/kernel/debug/dynamic_debug/control # echo "file rpm* +p" > /sys/kernel/debug/dynamic_debug/control # echo "file digest* +p" > /sys/kernel/debug/dynamic_debug/control Alternatively, the same strings can be set as value of the dyndbg= option in the kernel command line. A preliminary test, before booting the system with the new policy, is to supply the policy to IMA in the current system with: # cat /etc/ima/ima-policy > /sys/kernel/security/ima/policy If that worked, the system can be rebooted. Systemd will take care of loading the IMA policy at boot. The instructions have been tested on a Fedora 38 OS. After boot, it is possible to check the content of the measurement list: # cat /sys/kernel/security/ima/ascii_runtime_measurements If only the files shipped with Fedora 38 have been executed, the measurement list will contain only the digest lists, and not the individual files. Another test is to ensure that IMA prevents the execution of unknown files: # cp -a /bin/cat . # ./cat That will work. But not on the modified binary: # echo 1 >> cat # cat -bash: ./cat: Permission denied Execution will be denied, and a new entry in the measurement list will appear (it would be probably ok to not add that entry, as access to the file was denied): 11 50b5a68bea0776a84eef6725f17ce474756e51c0 ima-ng sha256:15e1efee080fe54f5d7404af7e913de01671e745ce55215d89f3d6521d3884f0 /root/cat Finally, it is possible to test the shrinking of the digest cache, by forcing the kernel to evict inodes from memory: # echo 3 > /proc/sys/vm/drop_caches The kernel log should have messages like: [ 313.032536] DIGEST CACHE: Remove digest sha256:102900208eef27b766380135906d431dba87edaa7ec6aa72e6ebd3dd67f3a97b from digest list /etc/digest_lists/rpm-libseccomp-2.5.3-4.fc38.x86_64 Patch set dependencies ====================== This patch set depends on: https://lore.kernel.org/linux-integrity/20230720153247.3755856-2-roberto.sassu@huaweicloud.com/ which allows to appraise RPM package headers with the PGP keys of Linux distribution vendors. Patch set content ================= Patch 1 introduces a new hook to identify the loading of digest lists and consequently appraise them. Patches 2-4 implement the digest cache, and an iterator to prefetch the digest lists to measure them in a deterministic way. Patches 5-6 implement the currently supported digest list formats: tlv and rpm. The tlv format relies on the TLV parser defined in the patch set mentioned above. Patches 7-9 enable the usage of the digest cache in IMA for measurement and appraisal. Patches 10-12 add a tool to manage digest lists. Patch 13 adds the documentation of the integrity digest cache. Changelog ========= v1: - Add documentation in Documentation/security/integrity-digest-cache.rst - Pass the mask of IMA actions to digest_cache_alloc() - Add a reference count to the digest cache - Remove the path parameter from digest_cache_get(), and rely on the reference count to avoid the digest cache disappearing while being used - Rename the dentry_to_check parameter of digest_cache_get() to dentry - Rename digest_cache_get() to digest_cache_new() and add digest_cache_get() to set the digest cache in the iint of the inode for which the digest cache was requested - Add dig_owner and dig_user to the iint, to distinguish from which inode the digest cache was created from, and which is using it; consequently it makes the digest cache usable to measure/appraise other digest caches (support not yet enabled) - Add dig_owner_mutex and dig_user_mutex to serialize accesses to dig_owner and dig_user until they are initialized - Enforce strong synchronization and make the contenders wait until dig_owner and dig_user are assigned to the iint the first time - Move checking IMA actions on the digest list earlier, and fail if no action were performed (digest cache not usable) - Remove digest_cache_put(), not needed anymore with the introduction of the reference count - Fail immediately in digest_cache_lookup() if the digest algorithm is not set in the digest cache - Use 64 bit mask for IMA actions on the digest list instead of 8 bit - Return NULL in the inline version of digest_cache_get() - Use list_add_tail() instead of list_add() in the iterator - Copy the digest list path to a separate buffer in digest_cache_iter_dir() - Use digest list parsers verified with Frama-C - Explicitly disable (for now) the possibility in the IMA policy to use the digest cache to measure/appraise other digest lists - Replace exit() with return in manage_digest_lists.c Roberto Sassu (13): ima: Introduce hook DIGEST_LIST_CHECK integrity: Introduce a digest cache integrity/digest_cache: Add functions to populate and search integrity/digest_cache: Prefetch digest lists in a directory integrity/digest_cache: Parse tlv digest lists integrity/digest_cache: Parse rpm digest lists ima: Add digest_cache policy keyword ima: Use digest cache for measurement ima: Use digest cache for appraisal tools: Add tool to manage digest lists tools/digest-lists: Add tlv digest list generator and parser tools/digest-lists: Add rpm digest list generator and parser docs: Add documentation of the integrity digest cache Documentation/ABI/testing/ima_policy | 6 +- Documentation/security/index.rst | 1 + .../security/integrity-digest-cache.rst | 484 ++++++++++++++++++ MAINTAINERS | 2 + include/linux/kernel_read_file.h | 1 + include/uapi/linux/tlv_digest_list.h | 59 +++ include/uapi/linux/xattr.h | 3 + security/integrity/Kconfig | 12 + security/integrity/Makefile | 4 + security/integrity/digest_cache.c | 454 ++++++++++++++++ security/integrity/digest_cache.h | 110 ++++ security/integrity/digest_cache_iter.c | 160 ++++++ .../integrity/digest_list_parsers/parsers.h | 15 + security/integrity/digest_list_parsers/rpm.c | 215 ++++++++ security/integrity/digest_list_parsers/tlv.c | 188 +++++++ security/integrity/iint.c | 12 + security/integrity/ima/ima.h | 16 +- security/integrity/ima/ima_api.c | 22 +- security/integrity/ima/ima_appraise.c | 16 +- security/integrity/ima/ima_main.c | 40 +- security/integrity/ima/ima_policy.c | 59 ++- security/integrity/integrity.h | 8 + tools/Makefile | 16 +- tools/digest-lists/.gitignore | 7 + tools/digest-lists/Makefile | 72 +++ tools/digest-lists/common.c | 163 ++++++ tools/digest-lists/common.h | 90 ++++ tools/digest-lists/generators/generators.h | 18 + tools/digest-lists/generators/rpm.c | 257 ++++++++++ tools/digest-lists/generators/tlv.c | 168 ++++++ tools/digest-lists/manage_digest_lists.c | 349 +++++++++++++ tools/digest-lists/manage_digest_lists.txt | 82 +++ tools/digest-lists/parsers/parsers.h | 16 + tools/digest-lists/parsers/rpm.c | 169 ++++++ tools/digest-lists/parsers/tlv.c | 195 +++++++ tools/digest-lists/parsers/tlv_parser.h | 38 ++ 36 files changed, 3501 insertions(+), 26 deletions(-) create mode 100644 Documentation/security/integrity-digest-cache.rst create mode 100644 include/uapi/linux/tlv_digest_list.h create mode 100644 security/integrity/digest_cache.c create mode 100644 security/integrity/digest_cache.h create mode 100644 security/integrity/digest_cache_iter.c create mode 100644 security/integrity/digest_list_parsers/parsers.h create mode 100644 security/integrity/digest_list_parsers/rpm.c create mode 100644 security/integrity/digest_list_parsers/tlv.c create mode 100644 tools/digest-lists/.gitignore create mode 100644 tools/digest-lists/Makefile create mode 100644 tools/digest-lists/common.c create mode 100644 tools/digest-lists/common.h create mode 100644 tools/digest-lists/generators/generators.h create mode 100644 tools/digest-lists/generators/rpm.c create mode 100644 tools/digest-lists/generators/tlv.c create mode 100644 tools/digest-lists/manage_digest_lists.c create mode 100644 tools/digest-lists/manage_digest_lists.txt create mode 100644 tools/digest-lists/parsers/parsers.h create mode 100644 tools/digest-lists/parsers/rpm.c create mode 100644 tools/digest-lists/parsers/tlv.c create mode 100644 tools/digest-lists/parsers/tlv_parser.h