Kees Cook
2020-Mar-03 05:02 UTC
[PATCH v11 00/11] x86: PIE support to extend KASLR randomization
On Thu, Feb 27, 2020 at 04:00:45PM -0800, Thomas Garnier wrote:> Minor changes based on feedback and rebase from v10. > > Splitting the previous serie in two. This part contains assembly code > changes required for PIE but without any direct dependencies with the > rest of the patchset. > > Note: Using objtool to detect non-compliant PIE relocations is not yet > possible as this patchset only includes the simplest PIE changes. > Additional changes are needed in kvm, xen and percpu code. > > Changes: > - patch v11 (assembly); > - Fix comments on x86/entry/64. > - Remove KASLR PIE explanation on all commits. > - Add note on objtool not being possible at this stage of the patchset.This moves us closer to PIE in a clean first step. I think these patches look good to go, and unblock the work in kvm, xen, and percpu code. Can one of the x86 maintainers pick this series up? Thanks! -Kees> - patch v10 (assembly): > - Swap rax for rdx on entry/64 changes based on feedback. > - Addressed feedback from Borislav Petkov on boot, paravirt, alternatives > and globally. > - Rebased the patchset and ensure it works with large kaslr (not included). > - patch v9 (assembly): > - Moved to relative reference for sync_core based on feedback. > - x86/crypto had multiple algorithms deleted, removed PIE changes to them. > - fix typo on comment end line. > - patch v8 (assembly): > - Fix issues in crypto changes (thanks to Eric Biggers). > - Remove unnecessary jump table change. > - Change author and signoff to chromium email address. > - patch v7 (assembly): > - Split patchset and reorder changes. > - patch v6: > - Rebase on latest changes in jump tables and crypto. > - Fix wording on couple commits. > - Revisit checkpatch warnings. > - Moving to @chromium.org. > - patch v5: > - Adapt new crypto modules for PIE. > - Improve per-cpu commit message. > - Fix xen 32-bit build error with .quad. > - Remove extra code for ftrace. > - patch v4: > - Simplify early boot by removing global variables. > - Modify the mcount location script for __mcount_loc intead of the address > read in the ftrace implementation. > - Edit commit description to explain better where the kernel can be located. > - Streamlined the testing done on each patch proposal. Always testing > hibernation, suspend, ftrace and kprobe to ensure no regressions. > - patch v3: > - Update on message to describe longer term PIE goal. > - Minor change on ftrace if condition. > - Changed code using xchgq. > - patch v2: > - Adapt patch to work post KPTI and compiler changes > - Redo all performance testing with latest configs and compilers > - Simplify mov macro on PIE (MOVABS now) > - Reduce GOT footprint > - patch v1: > - Simplify ftrace implementation. > - Use gcc mstack-protector-guard-reg=%gs with PIE when possible. > - rfc v3: > - Use --emit-relocs instead of -pie to reduce dynamic relocation space on > mapped memory. It also simplifies the relocation process. > - Move the start the module section next to the kernel. Remove the need for > -mcmodel=large on modules. Extends module space from 1 to 2G maximum. > - Support for XEN PVH as 32-bit relocations can be ignored with > --emit-relocs. > - Support for GOT relocations previously done automatically with -pie. > - Remove need for dynamic PLT in modules. > - Support dymamic GOT for modules. > - rfc v2: > - Add support for global stack cookie while compiler default to fs without > mcmodel=kernel > - Change patch 7 to correctly jump out of the identity mapping on kexec load > preserve. > > These patches make some of the changes necessary to build the kernel as > Position Independent Executable (PIE) on x86_64. Another patchset will > add the PIE option and larger architecture changes. PIE allows the kernel to be > placed below the 0xffffffff80000000 increasing the range of KASLR. > > The patches: > - 1, 3-11: Change in assembly code to be PIE compliant. > - 2: Add a new _ASM_MOVABS macro to fetch a symbol address generically. > > diffstat: > crypto/aegis128-aesni-asm.S | 6 +- > crypto/aesni-intel_asm.S | 8 +-- > crypto/aesni-intel_avx-x86_64.S | 3 - > crypto/camellia-aesni-avx-asm_64.S | 42 +++++++-------- > crypto/camellia-aesni-avx2-asm_64.S | 44 ++++++++-------- > crypto/camellia-x86_64-asm_64.S | 8 +-- > crypto/cast5-avx-x86_64-asm_64.S | 50 ++++++++++-------- > crypto/cast6-avx-x86_64-asm_64.S | 44 +++++++++------- > crypto/des3_ede-asm_64.S | 96 ++++++++++++++++++++++++------------ > crypto/ghash-clmulni-intel_asm.S | 4 - > crypto/glue_helper-asm-avx.S | 4 - > crypto/glue_helper-asm-avx2.S | 6 +- > crypto/sha256-avx2-asm.S | 18 ++++-- > entry/entry_64.S | 16 ++++-- > include/asm/alternative.h | 6 +- > include/asm/asm.h | 1 > include/asm/bug.h | 2 > include/asm/paravirt_types.h | 32 ++++++++++-- > include/asm/pm-trace.h | 2 > include/asm/processor.h | 6 +- > kernel/acpi/wakeup_64.S | 31 ++++++----- > kernel/head_64.S | 15 +++-- > kernel/relocate_kernel_64.S | 2 > power/hibernate_asm_64.S | 4 - > 24 files changed, 268 insertions(+), 182 deletions(-) > > Patchset is based on next-20200227. > >-- Kees Cook
Peter Zijlstra
2020-Mar-03 09:55 UTC
[PATCH v11 00/11] x86: PIE support to extend KASLR randomization
On Mon, Mar 02, 2020 at 09:02:15PM -0800, Kees Cook wrote:> On Thu, Feb 27, 2020 at 04:00:45PM -0800, Thomas Garnier wrote: > > Minor changes based on feedback and rebase from v10. > > > > Splitting the previous serie in two. This part contains assembly code > > changes required for PIE but without any direct dependencies with the > > rest of the patchset. > > > > Note: Using objtool to detect non-compliant PIE relocations is not yet > > possible as this patchset only includes the simplest PIE changes. > > Additional changes are needed in kvm, xen and percpu code. > > > > Changes: > > - patch v11 (assembly); > > - Fix comments on x86/entry/64. > > - Remove KASLR PIE explanation on all commits. > > - Add note on objtool not being possible at this stage of the patchset. > > This moves us closer to PIE in a clean first step. I think these patches > look good to go, and unblock the work in kvm, xen, and percpu code. Can > one of the x86 maintainers pick this series up?But,... do we still need this in the light of that fine-grained kaslr stuff? What is the actual value of this PIE crud in the face of that?
Thomas Garnier
2020-Mar-03 15:43 UTC
[PATCH v11 00/11] x86: PIE support to extend KASLR randomization
On Tue, Mar 3, 2020 at 1:55 AM Peter Zijlstra <peterz at infradead.org> wrote:> > On Mon, Mar 02, 2020 at 09:02:15PM -0800, Kees Cook wrote: > > On Thu, Feb 27, 2020 at 04:00:45PM -0800, Thomas Garnier wrote: > > > Minor changes based on feedback and rebase from v10. > > > > > > Splitting the previous serie in two. This part contains assembly code > > > changes required for PIE but without any direct dependencies with the > > > rest of the patchset. > > > > > > Note: Using objtool to detect non-compliant PIE relocations is not yet > > > possible as this patchset only includes the simplest PIE changes. > > > Additional changes are needed in kvm, xen and percpu code. > > > > > > Changes: > > > - patch v11 (assembly); > > > - Fix comments on x86/entry/64. > > > - Remove KASLR PIE explanation on all commits. > > > - Add note on objtool not being possible at this stage of the patchset. > > > > This moves us closer to PIE in a clean first step. I think these patches > > look good to go, and unblock the work in kvm, xen, and percpu code. Can > > one of the x86 maintainers pick this series up? > > But,... do we still need this in the light of that fine-grained kaslr > stuff? > > What is the actual value of this PIE crud in the face of that?If I remember well, it makes it easier/better but I haven't seen a recent update on that. Is that accurate Kees?
Kees Cook
2020-Mar-03 21:19 UTC
[PATCH v11 00/11] x86: PIE support to extend KASLR randomization
On Tue, Mar 03, 2020 at 01:01:26PM -0800, Kristen Carlson Accardi wrote:> On Tue, 2020-03-03 at 07:43 -0800, Thomas Garnier wrote: > > On Tue, Mar 3, 2020 at 1:55 AM Peter Zijlstra <peterz at infradead.org> > > wrote: > > > On Mon, Mar 02, 2020 at 09:02:15PM -0800, Kees Cook wrote: > > > > On Thu, Feb 27, 2020 at 04:00:45PM -0800, Thomas Garnier wrote: > > > > > Minor changes based on feedback and rebase from v10. > > > > > > > > > > Splitting the previous serie in two. This part contains > > > > > assembly code > > > > > changes required for PIE but without any direct dependencies > > > > > with the > > > > > rest of the patchset. > > > > > > > > > > Note: Using objtool to detect non-compliant PIE relocations is > > > > > not yet > > > > > possible as this patchset only includes the simplest PIE > > > > > changes. > > > > > Additional changes are needed in kvm, xen and percpu code. > > > > > > > > > > Changes: > > > > > - patch v11 (assembly); > > > > > - Fix comments on x86/entry/64. > > > > > - Remove KASLR PIE explanation on all commits. > > > > > - Add note on objtool not being possible at this stage of > > > > > the patchset. > > > > > > > > This moves us closer to PIE in a clean first step. I think these > > > > patches > > > > look good to go, and unblock the work in kvm, xen, and percpu > > > > code. Can > > > > one of the x86 maintainers pick this series up? > > > > > > But,... do we still need this in the light of that fine-grained > > > kaslr > > > stuff? > > > > > > What is the actual value of this PIE crud in the face of that? > > > > If I remember well, it makes it easier/better but I haven't seen a > > recent update on that. Is that accurate Kees? > > I believe this patchset is valuable if people are trying to brute force > guess the kernel location, but not so awesome in the event of > infoleaks. In the case of the current fgkaslr implementation, we only > randomize within the existing text segment memory area - so with PIE > the text segment base can move around more, but within that it wouldn't > strengthen anything. So, if you have an infoleak, you learn the base > instantly, and are just left with the same extra protection you get > without PIE.Right -- PIE improves both non- and fg- KASLR similarly, in the sense that the possible entropy for base offset is expanded. It also opens the door to doing even more crazy things. (e.g. why keep the kernel text all in one contiguous chunk?) And generally speaking, it seems a nice improvement to me, as it gives the kernel greater addressing flexibility. -- Kees Cook
Peter Zijlstra
2020-Mar-04 09:21 UTC
[PATCH v11 00/11] x86: PIE support to extend KASLR randomization
On Tue, Mar 03, 2020 at 01:19:22PM -0800, Kees Cook wrote:> On Tue, Mar 03, 2020 at 01:01:26PM -0800, Kristen Carlson Accardi wrote: > > On Tue, 2020-03-03 at 07:43 -0800, Thomas Garnier wrote: > > > On Tue, Mar 3, 2020 at 1:55 AM Peter Zijlstra <peterz at infradead.org>> > > > But,... do we still need this in the light of that fine-grained > > > > kaslr > > > > stuff? > > > > > > > > What is the actual value of this PIE crud in the face of that? > > > > > > If I remember well, it makes it easier/better but I haven't seen a > > > recent update on that. Is that accurate Kees? > > > > I believe this patchset is valuable if people are trying to brute force > > guess the kernel location, but not so awesome in the event of > > infoleaks. In the case of the current fgkaslr implementation, we only > > randomize within the existing text segment memory area - so with PIE > > the text segment base can move around more, but within that it wouldn't > > strengthen anything. So, if you have an infoleak, you learn the base > > instantly, and are just left with the same extra protection you get > > without PIE. > > Right -- PIE improves both non- and fg- KASLR similarly, in the sense > that the possible entropy for base offset is expanded. It also opens the > door to doing even more crazy things.So I'm really confused. I see it increases the aslr range, but I'm still not sure why we care in the face of fgkaslr. Current kaslr is completely broken because the hardware leaks more bits than we currently have, even without the kernel itself leaking an address. But leaking a single address is not a problem with fgkaslr.> (e.g. why keep the kernel text all > in one contiguous chunk?)Dear gawd, please no. Also, we're limited to 2G text, that's just not a lot of room. I'm really going to object when people propose we introduce direct PLT for x86.> And generally speaking, it seems a nice improvement to me, as it gives > the kernel greater addressing flexibility.But at what cost; it does unspeakable ugly to the asm. And didn't a kernel compiled with the extended PIE range produce a measurably slower kernel due to all the ugly? So maybe I'm slow, but please spell out the benefit, because I'm not seeing it.
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