----- On Jun 25, 2019, at 5:15 AM, Will Deacon will.deacon@arm.com wrote:
On Mon, Jun 24, 2019 at 02:20:26PM -0400, Mathieu Desnoyers wrote:
----- On Jun 24, 2019, at 1:24 PM, Will Deacon will.deacon@arm.com wrote:
On Mon, Jun 17, 2019 at 05:23:04PM +0200, Mathieu Desnoyers wrote:
This reverts commit 2b845d4b4acd9422bbb668989db8dc36dfc8f438.
That commit introduces build issues for programs compiled in Thumb mode. Rather than try to be clever and emit a valid trap instruction on arm32, which requires special care about big/little endian handling on that architecture, just emit plain data. Data in the instruction stream is technically expected on arm32: this is how literal pools are implemented. Reverting to the prior behavior does exactly that.
Signed-off-by: Mathieu Desnoyers mathieu.desnoyers@efficios.com CC: Peter Zijlstra peterz@infradead.org CC: Thomas Gleixner tglx@linutronix.de CC: Joel Fernandes joelaf@google.com CC: Catalin Marinas catalin.marinas@arm.com CC: Dave Watson davejwatson@fb.com CC: Will Deacon will.deacon@arm.com CC: Shuah Khan shuah@kernel.org CC: Andi Kleen andi@firstfloor.org CC: linux-kselftest@vger.kernel.org CC: "H . Peter Anvin" hpa@zytor.com CC: Chris Lameter cl@linux.com CC: Russell King linux@arm.linux.org.uk CC: Michael Kerrisk mtk.manpages@gmail.com CC: "Paul E . McKenney" paulmck@linux.vnet.ibm.com CC: Paul Turner pjt@google.com CC: Boqun Feng boqun.feng@gmail.com CC: Josh Triplett josh@joshtriplett.org CC: Steven Rostedt rostedt@goodmis.org CC: Ben Maurer bmaurer@fb.com CC: linux-api@vger.kernel.org CC: Andy Lutomirski luto@amacapital.net CC: Andrew Morton akpm@linux-foundation.org CC: Linus Torvalds torvalds@linux-foundation.org CC: Carlos O'Donell carlos@redhat.com CC: Florian Weimer fweimer@redhat.com
tools/testing/selftests/rseq/rseq-arm.h | 52 ++------------------------------- 1 file changed, 2 insertions(+), 50 deletions(-)
diff --git a/tools/testing/selftests/rseq/rseq-arm.h b/tools/testing/selftests/rseq/rseq-arm.h index 84f28f147fb6..5f262c54364f 100644 --- a/tools/testing/selftests/rseq/rseq-arm.h +++ b/tools/testing/selftests/rseq/rseq-arm.h @@ -5,54 +5,7 @@
- (C) Copyright 2016-2018 - Mathieu Desnoyers mathieu.desnoyers@efficios.com
*/ -/*
- RSEQ_SIG uses the udf A32 instruction with an uncommon immediate operand
- value 0x5de3. This traps if user-space reaches this instruction by mistake,
- and the uncommon operand ensures the kernel does not move the instruction
- pointer to attacker-controlled code on rseq abort.
- The instruction pattern in the A32 instruction set is:
- e7f5def3 udf #24035 ; 0x5de3
- This translates to the following instruction pattern in the T16 instruction
- set:
- little endian:
- def3 udf #243 ; 0xf3
- e7f5 b.n <7f5>
- pre-ARMv6 big endian code:
- e7f5 b.n <7f5>
- def3 udf #243 ; 0xf3
- ARMv6+ -mbig-endian generates mixed endianness code vs data: little-endian
- code and big-endian data. Ensure the RSEQ_SIG data signature matches code
- endianness. Prior to ARMv6, -mbig-endian generates big-endian code and data
- (which match), so there is no need to reverse the endianness of the data
- representation of the signature. However, the choice between BE32 and BE8
- is done by the linker, so we cannot know whether code and data endianness
- will be mixed before the linker is invoked.
- */
-#define RSEQ_SIG_CODE 0xe7f5def3
-#ifndef __ASSEMBLER__
-#define RSEQ_SIG_DATA \
- ({ \
int sig; \
asm volatile ("b 2f\n\t" \
"1: .inst " __rseq_str(RSEQ_SIG_CODE) "\n\t" \
"2:\n\t" \
"ldr %[sig], 1b\n\t" \
: [sig] "=r" (sig)); \
sig; \
- })
-#define RSEQ_SIG RSEQ_SIG_DATA
-#endif +#define RSEQ_SIG 0x53053053
I don't get why you're reverting back to this old signature value, when the one we came up with will work well when interpreted as an instruction in the *vast* majority of scenarios that people care about (A32/T32 little-endian). I think you might be under-estimating just how dead things like BE32 really are.
My issue is that the current .instr approach is broken for programs or functions built in Thumb mode, and I received no feedback on the solutions I proposed for those issues, which led me to propose a patch reverting to a simple .word.
I understand why you're moving from .inst to .word, but I don't understand why that necessitates a change in the value. Why not .word 0xe7f5def3 ? You could also flip the bytes around in case of big-endian, which would keep the instruction coding clean for BE8.
As long as we state and document that this should not be expected to generate valid instructions on big endian prior to ARMv6, I'm OK with that approach, e.g.:
/* * - ARM little endian * * RSEQ_SIG uses the udf A32 instruction with an uncommon immediate operand * value 0x5de3. This traps if user-space reaches this instruction by mistake, * and the uncommon operand ensures the kernel does not move the instruction * pointer to attacker-controlled code on rseq abort. * * The instruction pattern in the A32 instruction set is: * * e7f5def3 udf #24035 ; 0x5de3 * * This translates to the following instruction pattern in the T16 instruction * set: * * little endian: * def3 udf #243 ; 0xf3 * e7f5 b.n <7f5> * * - ARMv6+ big endian: * * ARMv6+ -mbig-endian generates mixed endianness code vs data: little-endian * code and big-endian data. The data value of the signature needs to have its * byte order reversed to generate the trap instruction: * * Data: 0xf3def5e7 * * Translates to this A32 instruction pattern: * * e7f5def3 udf #24035 ; 0x5de3 * * Translates to this T16 instruction pattern: * * def3 udf #243 ; 0xf3 * e7f5 b.n <7f5> * * - Prior to ARMv6 big endian: * * Prior to ARMv6, -mbig-endian generates big-endian code and data (which match), * so the endianness of the data representation of the signature should not be * reversed. However, the choice between BE32 and BE8 is done by the linker, * so we cannot know whether code and data endianness will be mixed before the * linker is invoked. So rather than try to play tricks with the linker, the rseq * signature is simply data (not a trap instruction) prior to ARMv6 on big endian. * This is why the signature is expressed as data (.word) rather than as instruction * (.inst) in assembler. */
#ifdef __ARMEB__ #define RSEQ_SIG 0xf3def5e7 /* udf #24035 ; 0x5de3 (ARMv6+) */ #else #define RSEQ_SIG 0xe7f5def3 /* udf #24035 ; 0x5de3 */ #endif
That said, when you ran into .inst.n/.inst.w issues, did you try something along the lines of the WASM() macro we use in arch/arm/, which adds the ".w" suffix when targetting Thumb?
AFAIU, the WASM macros depend on CONFIG_THUMB2_KERNEL, which may be fine within the kernel, but for user-space things are a bit more complex.
A compile-unit can be compiled as thumb, which will set a compiler define which we could use to detect thumb mode. However, unfortunately, a single function can also be compiled with an attribute selecting thumb mode, which AFAIU does not influence the preprocessor defines.
Thanks, I hadn't considered that case. I don't know the right way to handle that in the toolchain, so using .word is probably the best bet in the absence of any better suggestions from the tools folks.
Emitting a no-op within an excluded section, and using the size of that no-op to restore the original mode is the best way I found, but I find it rather tricky and bug-prone, so I would rather prefer the .word approach.
Thoughts ?
Thanks,
Mathieu