forked from Minki/linux
2d60d96b6f
- Consolidate memory initialization Kconfigs (Kees) - Implement support for Clang's stack variable auto-init (Alexander) -----BEGIN PGP SIGNATURE----- Comment: Kees Cook <kees@outflux.net> iQJKBAABCgA0FiEEpcP2jyKd1g9yPm4TiXL039xtwCYFAlzQafUWHGtlZXNjb29r QGNocm9taXVtLm9yZwAKCRCJcvTf3G3AJrTfEAChweGM23u8i0vOgGM4fYAXr9di THoKkgEGgQJJaArgElEuZgwos8uhH2rGhQ2zcY38ZFA20byBZ/G8jFNXNuzFgUyQ 6p5DUU2P2qam+v/cXvFqBqbXg4VzmlwR6Lzi9DHZ3XC41kz5YUWqHTq3md1uCU82 V2Z0V3xF7Zvjx14V42UzEqW66l3dUrYPOFSJVTCMC5vaJvov3gFjStRkYuSzYg+N 1ns7SdT8sQvXeAoj1VSeunNuv8iCVytFWC6f0cIs3iCt9nD/IYk1d9Zl6MAqive2 5sKDhUKBzg03xB1rztDmxZKAyN3YYoZFfJr3PruSvUiMxYYtX3IMvKFI257RQl8J WYP5qa0kHHM1uel5kS4fckzAv+oqNnnXgdSy5ajc1YFcdBxwiy6DfvBjk843DyU/ +OLb1wh5Uz6ICg6GILgVoL5nZinnj73zgj78bfRemiy1j7LZVtkX0EDAwIJxE2U9 SYYeEvUu91jNbkE9ugu8RXmXv1QctOuiBr70VLupVu/a7AJij6Cq8Ox9uge25DRF XnuVjXCpMdx6p6i1kaNXZtxREK4at0J2CCIqGyzFpRgym2OpyJBIgVEWDMsfof0w HOKUpbp7TytVdRoEWcwU32oGBa/e0PbJ2KSNK0t+5bKeIOTxFJf1qeWwaWXu3JQE DRYx7/sVHjGUXsSNeg== =i0Gi -----END PGP SIGNATURE----- Merge tag 'meminit-v5.2-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/kees/linux Pull compiler-based variable initialization updates from Kees Cook: "This is effectively part of my gcc-plugins tree, but as this adds some Clang support, it felt weird to still call it "gcc-plugins". :) This consolidates Kconfig for the existing stack variable initialization (via structleak and stackleak gcc plugins) and adds Alexander Potapenko's support for Clang's new similar functionality. Summary: - Consolidate memory initialization Kconfigs (Kees) - Implement support for Clang's stack variable auto-init (Alexander)" * tag 'meminit-v5.2-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/kees/linux: security: Implement Clang's stack initialization security: Move stackleak config to Kconfig.hardening security: Create "kernel hardening" config area
294 lines
11 KiB
Plaintext
294 lines
11 KiB
Plaintext
#
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# Security configuration
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#
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menu "Security options"
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source "security/keys/Kconfig"
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config SECURITY_DMESG_RESTRICT
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bool "Restrict unprivileged access to the kernel syslog"
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default n
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help
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This enforces restrictions on unprivileged users reading the kernel
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syslog via dmesg(8).
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If this option is not selected, no restrictions will be enforced
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unless the dmesg_restrict sysctl is explicitly set to (1).
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If you are unsure how to answer this question, answer N.
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config SECURITY
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bool "Enable different security models"
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depends on SYSFS
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depends on MULTIUSER
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help
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This allows you to choose different security modules to be
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configured into your kernel.
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If this option is not selected, the default Linux security
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model will be used.
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If you are unsure how to answer this question, answer N.
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config SECURITY_WRITABLE_HOOKS
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depends on SECURITY
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bool
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default n
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config SECURITYFS
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bool "Enable the securityfs filesystem"
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help
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This will build the securityfs filesystem. It is currently used by
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various security modules (AppArmor, IMA, SafeSetID, TOMOYO, TPM).
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If you are unsure how to answer this question, answer N.
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config SECURITY_NETWORK
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bool "Socket and Networking Security Hooks"
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depends on SECURITY
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help
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This enables the socket and networking security hooks.
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If enabled, a security module can use these hooks to
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implement socket and networking access controls.
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If you are unsure how to answer this question, answer N.
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config PAGE_TABLE_ISOLATION
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bool "Remove the kernel mapping in user mode"
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default y
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depends on (X86_64 || X86_PAE) && !UML
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help
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This feature reduces the number of hardware side channels by
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ensuring that the majority of kernel addresses are not mapped
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into userspace.
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See Documentation/x86/pti.txt for more details.
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config SECURITY_INFINIBAND
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bool "Infiniband Security Hooks"
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depends on SECURITY && INFINIBAND
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help
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This enables the Infiniband security hooks.
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If enabled, a security module can use these hooks to
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implement Infiniband access controls.
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If you are unsure how to answer this question, answer N.
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config SECURITY_NETWORK_XFRM
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bool "XFRM (IPSec) Networking Security Hooks"
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depends on XFRM && SECURITY_NETWORK
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help
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This enables the XFRM (IPSec) networking security hooks.
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If enabled, a security module can use these hooks to
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implement per-packet access controls based on labels
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derived from IPSec policy. Non-IPSec communications are
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designated as unlabelled, and only sockets authorized
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to communicate unlabelled data can send without using
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IPSec.
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If you are unsure how to answer this question, answer N.
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config SECURITY_PATH
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bool "Security hooks for pathname based access control"
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depends on SECURITY
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help
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This enables the security hooks for pathname based access control.
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If enabled, a security module can use these hooks to
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implement pathname based access controls.
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If you are unsure how to answer this question, answer N.
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config INTEL_TXT
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bool "Enable Intel(R) Trusted Execution Technology (Intel(R) TXT)"
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depends on HAVE_INTEL_TXT
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help
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This option enables support for booting the kernel with the
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Trusted Boot (tboot) module. This will utilize
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Intel(R) Trusted Execution Technology to perform a measured launch
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of the kernel. If the system does not support Intel(R) TXT, this
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will have no effect.
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Intel TXT will provide higher assurance of system configuration and
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initial state as well as data reset protection. This is used to
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create a robust initial kernel measurement and verification, which
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helps to ensure that kernel security mechanisms are functioning
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correctly. This level of protection requires a root of trust outside
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of the kernel itself.
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Intel TXT also helps solve real end user concerns about having
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confidence that their hardware is running the VMM or kernel that
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it was configured with, especially since they may be responsible for
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providing such assurances to VMs and services running on it.
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See <http://www.intel.com/technology/security/> for more information
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about Intel(R) TXT.
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See <http://tboot.sourceforge.net> for more information about tboot.
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See Documentation/intel_txt.txt for a description of how to enable
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Intel TXT support in a kernel boot.
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If you are unsure as to whether this is required, answer N.
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config LSM_MMAP_MIN_ADDR
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int "Low address space for LSM to protect from user allocation"
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depends on SECURITY && SECURITY_SELINUX
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default 32768 if ARM || (ARM64 && COMPAT)
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default 65536
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help
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This is the portion of low virtual memory which should be protected
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from userspace allocation. Keeping a user from writing to low pages
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can help reduce the impact of kernel NULL pointer bugs.
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For most ia64, ppc64 and x86 users with lots of address space
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a value of 65536 is reasonable and should cause no problems.
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On arm and other archs it should not be higher than 32768.
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Programs which use vm86 functionality or have some need to map
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this low address space will need the permission specific to the
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systems running LSM.
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config HAVE_HARDENED_USERCOPY_ALLOCATOR
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bool
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help
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The heap allocator implements __check_heap_object() for
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validating memory ranges against heap object sizes in
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support of CONFIG_HARDENED_USERCOPY.
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config HARDENED_USERCOPY
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bool "Harden memory copies between kernel and userspace"
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depends on HAVE_HARDENED_USERCOPY_ALLOCATOR
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imply STRICT_DEVMEM
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help
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This option checks for obviously wrong memory regions when
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copying memory to/from the kernel (via copy_to_user() and
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copy_from_user() functions) by rejecting memory ranges that
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are larger than the specified heap object, span multiple
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separately allocated pages, are not on the process stack,
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or are part of the kernel text. This kills entire classes
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of heap overflow exploits and similar kernel memory exposures.
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config HARDENED_USERCOPY_FALLBACK
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bool "Allow usercopy whitelist violations to fallback to object size"
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depends on HARDENED_USERCOPY
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default y
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help
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This is a temporary option that allows missing usercopy whitelists
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to be discovered via a WARN() to the kernel log, instead of
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rejecting the copy, falling back to non-whitelisted hardened
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usercopy that checks the slab allocation size instead of the
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whitelist size. This option will be removed once it seems like
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all missing usercopy whitelists have been identified and fixed.
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Booting with "slab_common.usercopy_fallback=Y/N" can change
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this setting.
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config HARDENED_USERCOPY_PAGESPAN
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bool "Refuse to copy allocations that span multiple pages"
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depends on HARDENED_USERCOPY
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depends on EXPERT
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help
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When a multi-page allocation is done without __GFP_COMP,
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hardened usercopy will reject attempts to copy it. There are,
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however, several cases of this in the kernel that have not all
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been removed. This config is intended to be used only while
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trying to find such users.
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config FORTIFY_SOURCE
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bool "Harden common str/mem functions against buffer overflows"
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depends on ARCH_HAS_FORTIFY_SOURCE
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help
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Detect overflows of buffers in common string and memory functions
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where the compiler can determine and validate the buffer sizes.
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config STATIC_USERMODEHELPER
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bool "Force all usermode helper calls through a single binary"
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help
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By default, the kernel can call many different userspace
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binary programs through the "usermode helper" kernel
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interface. Some of these binaries are statically defined
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either in the kernel code itself, or as a kernel configuration
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option. However, some of these are dynamically created at
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runtime, or can be modified after the kernel has started up.
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To provide an additional layer of security, route all of these
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calls through a single executable that can not have its name
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changed.
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Note, it is up to this single binary to then call the relevant
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"real" usermode helper binary, based on the first argument
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passed to it. If desired, this program can filter and pick
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and choose what real programs are called.
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If you wish for all usermode helper programs are to be
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disabled, choose this option and then set
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STATIC_USERMODEHELPER_PATH to an empty string.
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config STATIC_USERMODEHELPER_PATH
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string "Path to the static usermode helper binary"
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depends on STATIC_USERMODEHELPER
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default "/sbin/usermode-helper"
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help
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The binary called by the kernel when any usermode helper
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program is wish to be run. The "real" application's name will
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be in the first argument passed to this program on the command
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line.
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If you wish for all usermode helper programs to be disabled,
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specify an empty string here (i.e. "").
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source "security/selinux/Kconfig"
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source "security/smack/Kconfig"
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source "security/tomoyo/Kconfig"
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source "security/apparmor/Kconfig"
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source "security/loadpin/Kconfig"
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source "security/yama/Kconfig"
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source "security/safesetid/Kconfig"
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source "security/integrity/Kconfig"
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choice
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prompt "First legacy 'major LSM' to be initialized"
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default DEFAULT_SECURITY_SELINUX if SECURITY_SELINUX
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default DEFAULT_SECURITY_SMACK if SECURITY_SMACK
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default DEFAULT_SECURITY_TOMOYO if SECURITY_TOMOYO
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default DEFAULT_SECURITY_APPARMOR if SECURITY_APPARMOR
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default DEFAULT_SECURITY_DAC
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help
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This choice is there only for converting CONFIG_DEFAULT_SECURITY
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in old kernel configs to CONFIG_LSM in new kernel configs. Don't
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change this choice unless you are creating a fresh kernel config,
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for this choice will be ignored after CONFIG_LSM has been set.
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Selects the legacy "major security module" that will be
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initialized first. Overridden by non-default CONFIG_LSM.
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config DEFAULT_SECURITY_SELINUX
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bool "SELinux" if SECURITY_SELINUX=y
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config DEFAULT_SECURITY_SMACK
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bool "Simplified Mandatory Access Control" if SECURITY_SMACK=y
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config DEFAULT_SECURITY_TOMOYO
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bool "TOMOYO" if SECURITY_TOMOYO=y
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config DEFAULT_SECURITY_APPARMOR
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bool "AppArmor" if SECURITY_APPARMOR=y
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config DEFAULT_SECURITY_DAC
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bool "Unix Discretionary Access Controls"
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endchoice
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config LSM
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string "Ordered list of enabled LSMs"
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default "yama,loadpin,safesetid,integrity,smack,selinux,tomoyo,apparmor" if DEFAULT_SECURITY_SMACK
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default "yama,loadpin,safesetid,integrity,apparmor,selinux,smack,tomoyo" if DEFAULT_SECURITY_APPARMOR
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default "yama,loadpin,safesetid,integrity,tomoyo" if DEFAULT_SECURITY_TOMOYO
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default "yama,loadpin,safesetid,integrity" if DEFAULT_SECURITY_DAC
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default "yama,loadpin,safesetid,integrity,selinux,smack,tomoyo,apparmor"
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help
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A comma-separated list of LSMs, in initialization order.
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Any LSMs left off this list will be ignored. This can be
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controlled at boot with the "lsm=" parameter.
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If unsure, leave this as the default.
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source "security/Kconfig.hardening"
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endmenu
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