From: Muhammad Usama Anjum Date: Wed, 11 Mar 2026 17:50:50 +0000 (+0000) Subject: arm64: mte: Skip TFSR_EL1 checks and barriers in synchronous tag check mode X-Git-Url: http://git.ipfire.org/gitweb.cgi?a=commitdiff_plain;h=249bf9733198fe0527542ba6acf4bd8f12b7e5fc;p=thirdparty%2Fkernel%2Flinux.git arm64: mte: Skip TFSR_EL1 checks and barriers in synchronous tag check mode With KASAN_HW_TAGS (MTE) in synchronous mode, tag check faults are reported as immediate Data Abort exceptions. The TFSR_EL1.TF1 bit is never set since faults never go through the asynchronous path. Therefore, reading TFSR_EL1 and executing data and instruction barriers on kernel entry, exit, context switch and suspend is unnecessary overhead. As with the check_mte_async_tcf and clear_mte_async_tcf paths for TFSRE0_EL1, extend the same optimisation to kernel entry/exit, context switch and suspend. All mte kselftests pass. The kunit before and after the patch show same results. A selection of test_vmalloc benchmarks running on a arm64 machine. v6.19 is the baseline. (>0 is faster, <0 is slower, (R)/(I) = statistically significant Regression/Improvement). Based on significance and ignoring the noise, the benchmarks improved. * 77 result classes were considered, with 9 wins, 0 losses and 68 ties Results of fastpath [1] on v6.19 vs this patch: +----------------------------+----------------------------------------------------------+------------+ | Benchmark | Result Class | barriers | +============================+==========================================================+============+ | micromm/fork | fork: p:1, d:10 (seconds) | (I) 2.75% | | | fork: p:512, d:10 (seconds) | 0.96% | +----------------------------+----------------------------------------------------------+------------+ | micromm/munmap | munmap: p:1, d:10 (seconds) | -1.78% | | | munmap: p:512, d:10 (seconds) | 5.02% | +----------------------------+----------------------------------------------------------+------------+ | micromm/vmalloc | fix_align_alloc_test: p:1, h:0, l:500000 (usec) | -0.56% | | | fix_size_alloc_test: p:1, h:0, l:500000 (usec) | 0.70% | | | fix_size_alloc_test: p:4, h:0, l:500000 (usec) | 1.18% | | | fix_size_alloc_test: p:16, h:0, l:500000 (usec) | -5.01% | | | fix_size_alloc_test: p:16, h:1, l:500000 (usec) | 13.81% | | | fix_size_alloc_test: p:64, h:0, l:100000 (usec) | 6.51% | | | fix_size_alloc_test: p:64, h:1, l:100000 (usec) | 32.87% | | | fix_size_alloc_test: p:256, h:0, l:100000 (usec) | 4.17% | | | fix_size_alloc_test: p:256, h:1, l:100000 (usec) | 8.40% | | | fix_size_alloc_test: p:512, h:0, l:100000 (usec) | -0.48% | | | fix_size_alloc_test: p:512, h:1, l:100000 (usec) | -0.74% | | | full_fit_alloc_test: p:1, h:0, l:500000 (usec) | 0.53% | | | kvfree_rcu_1_arg_vmalloc_test: p:1, h:0, l:500000 (usec) | -2.81% | | | kvfree_rcu_2_arg_vmalloc_test: p:1, h:0, l:500000 (usec) | -2.06% | | | long_busy_list_alloc_test: p:1, h:0, l:500000 (usec) | -0.56% | | | pcpu_alloc_test: p:1, h:0, l:500000 (usec) | -0.41% | | | random_size_align_alloc_test: p:1, h:0, l:500000 (usec) | 0.89% | | | random_size_alloc_test: p:1, h:0, l:500000 (usec) | 1.71% | | | vm_map_ram_test: p:1, h:0, l:500000 (usec) | 0.83% | +----------------------------+----------------------------------------------------------+------------+ | schbench/thread-contention | -m 16 -t 1 -r 10 -s 1000, avg_rps (req/sec) | 0.05% | | | -m 16 -t 1 -r 10 -s 1000, req_latency_p99 (usec) | 0.60% | | | -m 16 -t 1 -r 10 -s 1000, wakeup_latency_p99 (usec) | 0.00% | | | -m 16 -t 4 -r 10 -s 1000, avg_rps (req/sec) | -0.34% | | | -m 16 -t 4 -r 10 -s 1000, req_latency_p99 (usec) | -0.58% | | | -m 16 -t 4 -r 10 -s 1000, wakeup_latency_p99 (usec) | 9.09% | | | -m 16 -t 16 -r 10 -s 1000, avg_rps (req/sec) | -0.74% | | | -m 16 -t 16 -r 10 -s 1000, req_latency_p99 (usec) | -1.40% | | | -m 16 -t 16 -r 10 -s 1000, wakeup_latency_p99 (usec) | 0.00% | | | -m 16 -t 64 -r 10 -s 1000, avg_rps (req/sec) | -0.78% | | | -m 16 -t 64 -r 10 -s 1000, req_latency_p99 (usec) | -0.11% | | | -m 16 -t 64 -r 10 -s 1000, wakeup_latency_p99 (usec) | 0.11% | | | -m 16 -t 256 -r 10 -s 1000, avg_rps (req/sec) | 2.64% | | | -m 16 -t 256 -r 10 -s 1000, req_latency_p99 (usec) | 3.15% | | | -m 16 -t 256 -r 10 -s 1000, wakeup_latency_p99 (usec) | 17.54% | | | -m 32 -t 1 -r 10 -s 1000, avg_rps (req/sec) | -1.22% | | | -m 32 -t 1 -r 10 -s 1000, req_latency_p99 (usec) | 0.85% | | | -m 32 -t 1 -r 10 -s 1000, wakeup_latency_p99 (usec) | 0.00% | | | -m 32 -t 4 -r 10 -s 1000, avg_rps (req/sec) | -0.34% | | | -m 32 -t 4 -r 10 -s 1000, req_latency_p99 (usec) | 1.05% | | | -m 32 -t 4 -r 10 -s 1000, wakeup_latency_p99 (usec) | 0.00% | | | -m 32 -t 16 -r 10 -s 1000, avg_rps (req/sec) | -0.41% | | | -m 32 -t 16 -r 10 -s 1000, req_latency_p99 (usec) | 0.58% | | | -m 32 -t 16 -r 10 -s 1000, wakeup_latency_p99 (usec) | 2.13% | | | -m 32 -t 64 -r 10 -s 1000, avg_rps (req/sec) | 0.67% | | | -m 32 -t 64 -r 10 -s 1000, req_latency_p99 (usec) | 2.07% | | | -m 32 -t 64 -r 10 -s 1000, wakeup_latency_p99 (usec) | -1.28% | | | -m 32 -t 256 -r 10 -s 1000, avg_rps (req/sec) | 1.01% | | | -m 32 -t 256 -r 10 -s 1000, req_latency_p99 (usec) | 0.69% | | | -m 32 -t 256 -r 10 -s 1000, wakeup_latency_p99 (usec) | 13.12% | | | -m 64 -t 1 -r 10 -s 1000, avg_rps (req/sec) | -0.25% | | | -m 64 -t 1 -r 10 -s 1000, req_latency_p99 (usec) | -0.48% | | | -m 64 -t 1 -r 10 -s 1000, wakeup_latency_p99 (usec) | 10.53% | | | -m 64 -t 4 -r 10 -s 1000, avg_rps (req/sec) | -0.06% | | | -m 64 -t 4 -r 10 -s 1000, req_latency_p99 (usec) | 0.00% | | | -m 64 -t 4 -r 10 -s 1000, wakeup_latency_p99 (usec) | 0.00% | | | -m 64 -t 16 -r 10 -s 1000, avg_rps (req/sec) | -0.36% | | | -m 64 -t 16 -r 10 -s 1000, req_latency_p99 (usec) | 0.52% | | | -m 64 -t 16 -r 10 -s 1000, wakeup_latency_p99 (usec) | 0.11% | | | -m 64 -t 64 -r 10 -s 1000, avg_rps (req/sec) | 0.52% | | | -m 64 -t 64 -r 10 -s 1000, req_latency_p99 (usec) | 3.53% | | | -m 64 -t 64 -r 10 -s 1000, wakeup_latency_p99 (usec) | -0.10% | | | -m 64 -t 256 -r 10 -s 1000, avg_rps (req/sec) | 2.53% | | | -m 64 -t 256 -r 10 -s 1000, req_latency_p99 (usec) | 1.82% | | | -m 64 -t 256 -r 10 -s 1000, wakeup_latency_p99 (usec) | -5.80% | +----------------------------+----------------------------------------------------------+------------+ | syscall/getpid | mean (ns) | (I) 15.98% | | | p99 (ns) | (I) 11.11% | | | p99.9 (ns) | (I) 16.13% | +----------------------------+----------------------------------------------------------+------------+ | syscall/getppid | mean (ns) | (I) 14.82% | | | p99 (ns) | (I) 17.86% | | | p99.9 (ns) | (I) 9.09% | +----------------------------+----------------------------------------------------------+------------+ | syscall/invalid | mean (ns) | (I) 17.78% | | | p99 (ns) | (I) 11.11% | | | p99.9 (ns) | 13.33% | +----------------------------+----------------------------------------------------------+------------+ [1] https://gitlab.arm.com/tooling/fastpath Signed-off-by: Muhammad Usama Anjum Reviewed-by: David Hildenbrand (Arm) Reviewed-by: Yeoreum Yun Signed-off-by: Catalin Marinas --- diff --git a/arch/arm64/include/asm/mte.h b/arch/arm64/include/asm/mte.h index 6d4a78b9dc3e6..7f7b97e099968 100644 --- a/arch/arm64/include/asm/mte.h +++ b/arch/arm64/include/asm/mte.h @@ -252,6 +252,9 @@ static inline void mte_check_tfsr_entry(void) if (!kasan_hw_tags_enabled()) return; + if (!system_uses_mte_async_or_asymm_mode()) + return; + mte_check_tfsr_el1(); } @@ -260,6 +263,9 @@ static inline void mte_check_tfsr_exit(void) if (!kasan_hw_tags_enabled()) return; + if (!system_uses_mte_async_or_asymm_mode()) + return; + /* * The asynchronous faults are sync'ed automatically with * TFSR_EL1 on kernel entry but for exit an explicit dsb() diff --git a/arch/arm64/kernel/mte.c b/arch/arm64/kernel/mte.c index 32148bf09c1dc..66119758561df 100644 --- a/arch/arm64/kernel/mte.c +++ b/arch/arm64/kernel/mte.c @@ -291,6 +291,9 @@ void mte_thread_switch(struct task_struct *next) /* TCO may not have been disabled on exception entry for the current task. */ mte_disable_tco_entry(next); + if (!system_uses_mte_async_or_asymm_mode()) + return; + /* * Check if an async tag exception occurred at EL1. * @@ -350,6 +353,9 @@ void mte_suspend_enter(void) if (!system_supports_mte()) return; + if (!system_uses_mte_async_or_asymm_mode()) + return; + /* * The barriers are required to guarantee that the indirect writes * to TFSR_EL1 are synchronized before we report the state.