// SPDX-License-Identifier: GPL-2.0 #include #include #include #include #ifdef ENABLE_ATOMICS_TESTS bool skip_tests __attribute((__section__(".data"))) = false; #else bool skip_tests = true; #endif __u32 pid = 0; __u64 add64_value = 1; __u64 add64_result = 0; __u32 add32_value = 1; __u32 add32_result = 0; __u64 add_stack_value_copy = 0; __u64 add_stack_result = 0; __u64 add_noreturn_value = 1; SEC("raw_tp/sys_enter") int add(const void *ctx) { if (pid != (bpf_get_current_pid_tgid() >> 32)) return 0; #ifdef ENABLE_ATOMICS_TESTS __u64 add_stack_value = 1; add64_result = __sync_fetch_and_add(&add64_value, 2); add32_result = __sync_fetch_and_add(&add32_value, 2); add_stack_result = __sync_fetch_and_add(&add_stack_value, 2); add_stack_value_copy = add_stack_value; __sync_fetch_and_add(&add_noreturn_value, 2); #endif return 0; } __s64 sub64_value = 1; __s64 sub64_result = 0; __s32 sub32_value = 1; __s32 sub32_result = 0; __s64 sub_stack_value_copy = 0; __s64 sub_stack_result = 0; __s64 sub_noreturn_value = 1; SEC("raw_tp/sys_enter") int sub(const void *ctx) { if (pid != (bpf_get_current_pid_tgid() >> 32)) return 0; #ifdef ENABLE_ATOMICS_TESTS __u64 sub_stack_value = 1; sub64_result = __sync_fetch_and_sub(&sub64_value, 2); sub32_result = __sync_fetch_and_sub(&sub32_value, 2); sub_stack_result = __sync_fetch_and_sub(&sub_stack_value, 2); sub_stack_value_copy = sub_stack_value; __sync_fetch_and_sub(&sub_noreturn_value, 2); #endif return 0; } __u64 and64_value = (0x110ull << 32); __u64 and64_result = 0; __u32 and32_value = 0x110; __u32 and32_result = 0; __u64 and_noreturn_value = (0x110ull << 32); SEC("raw_tp/sys_enter") int and(const void *ctx) { if (pid != (bpf_get_current_pid_tgid() >> 32)) return 0; #ifdef ENABLE_ATOMICS_TESTS and64_result = __sync_fetch_and_and(&and64_value, 0x011ull << 32); and32_result = __sync_fetch_and_and(&and32_value, 0x011); __sync_fetch_and_and(&and_noreturn_value, 0x011ull << 32); #endif return 0; } __u64 or64_value = (0x110ull << 32); __u64 or64_result = 0; __u32 or32_value = 0x110; __u32 or32_result = 0; __u64 or_noreturn_value = (0x110ull << 32); SEC("raw_tp/sys_enter") int or(const void *ctx) { if (pid != (bpf_get_current_pid_tgid() >> 32)) return 0; #ifdef ENABLE_ATOMICS_TESTS or64_result = __sync_fetch_and_or(&or64_value, 0x011ull << 32); or32_result = __sync_fetch_and_or(&or32_value, 0x011); __sync_fetch_and_or(&or_noreturn_value, 0x011ull << 32); #endif return 0; } __u64 xor64_value = (0x110ull << 32); __u64 xor64_result = 0; __u32 xor32_value = 0x110; __u32 xor32_result = 0; __u64 xor_noreturn_value = (0x110ull << 32); SEC("raw_tp/sys_enter") int xor(const void *ctx) { if (pid != (bpf_get_current_pid_tgid() >> 32)) return 0; #ifdef ENABLE_ATOMICS_TESTS xor64_result = __sync_fetch_and_xor(&xor64_value, 0x011ull << 32); xor32_result = __sync_fetch_and_xor(&xor32_value, 0x011); __sync_fetch_and_xor(&xor_noreturn_value, 0x011ull << 32); #endif return 0; } __u64 cmpxchg64_value = 1; __u64 cmpxchg64_result_fail = 0; __u64 cmpxchg64_result_succeed = 0; __u32 cmpxchg32_value = 1; __u32 cmpxchg32_result_fail = 0; __u32 cmpxchg32_result_succeed = 0; SEC("raw_tp/sys_enter") int cmpxchg(const void *ctx) { if (pid != (bpf_get_current_pid_tgid() >> 32)) return 0; #ifdef ENABLE_ATOMICS_TESTS cmpxchg64_result_fail = __sync_val_compare_and_swap(&cmpxchg64_value, 0, 3); cmpxchg64_result_succeed = __sync_val_compare_and_swap(&cmpxchg64_value, 1, 2); cmpxchg32_result_fail = __sync_val_compare_and_swap(&cmpxchg32_value, 0, 3); cmpxchg32_result_succeed = __sync_val_compare_and_swap(&cmpxchg32_value, 1, 2); #endif return 0; } __u64 xchg64_value = 1; __u64 xchg64_result = 0; __u32 xchg32_value = 1; __u32 xchg32_result = 0; SEC("raw_tp/sys_enter") int xchg(const void *ctx) { if (pid != (bpf_get_current_pid_tgid() >> 32)) return 0; #ifdef ENABLE_ATOMICS_TESTS __u64 val64 = 2; __u32 val32 = 2; xchg64_result = __sync_lock_test_and_set(&xchg64_value, val64); xchg32_result = __sync_lock_test_and_set(&xchg32_value, val32); #endif return 0; }