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[213.115.136.2]) by smtp.gmail.com with ESMTPSA id p22sm2920279ejl.90.2021.10.01.06.04.00 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Fri, 01 Oct 2021 06:04:00 -0700 (PDT) From: Johan Almbladh To: ast@kernel.org, daniel@iogearbox.net, andrii@kernel.org Cc: kafai@fb.com, songliubraving@fb.com, yhs@fb.com, john.fastabend@gmail.com, kpsingh@kernel.org, iii@linux.ibm.com, paul@cilium.io, yangtiezhu@loongson.cn, netdev@vger.kernel.org, bpf@vger.kernel.org, Johan Almbladh Subject: [PATCH bpf-next 03/10] bpf/tests: Add exhaustive tests of BPF_ATOMIC magnitudes Date: Fri, 1 Oct 2021 15:03:41 +0200 Message-Id: <20211001130348.3670534-4-johan.almbladh@anyfinetworks.com> X-Mailer: git-send-email 2.30.2 In-Reply-To: <20211001130348.3670534-1-johan.almbladh@anyfinetworks.com> References: <20211001130348.3670534-1-johan.almbladh@anyfinetworks.com> MIME-Version: 1.0 Content-Transfer-Encoding: 8bit Precedence: bulk List-ID: X-Mailing-List: bpf@vger.kernel.org This patch adds a series of test to verify the operation of BPF_ATOMIC with BPF_DW and BPF_W sizes, for all power-of-two magnitudes of the register value operand. Also fixes a confusing typo in the comment for a related test. Signed-off-by: Johan Almbladh --- lib/test_bpf.c | 504 ++++++++++++++++++++++++++++++++++++++++++++++++- 1 file changed, 503 insertions(+), 1 deletion(-) diff --git a/lib/test_bpf.c b/lib/test_bpf.c index f6983ad7b981..84efb23e09d0 100644 --- a/lib/test_bpf.c +++ b/lib/test_bpf.c @@ -796,7 +796,7 @@ static int __bpf_fill_pattern(struct bpf_test *self, void *arg, /* * Exhaustive tests of ALU operations for all combinations of power-of-two * magnitudes of the operands, both for positive and negative values. The - * test is designed to verify e.g. the JMP and JMP32 operations for JITs that + * test is designed to verify e.g. the ALU and ALU64 operations for JITs that * emit different code depending on the magnitude of the immediate value. */ @@ -1137,6 +1137,306 @@ static int bpf_fill_alu32_mod_reg(struct bpf_test *self) return __bpf_fill_alu32_reg(self, BPF_MOD); } +/* + * Exhaustive tests of atomic operations for all power-of-two operand + * magnitudes, both for positive and negative values. + */ + +static int __bpf_emit_atomic64(struct bpf_test *self, void *arg, + struct bpf_insn *insns, s64 dst, s64 src) +{ + int op = *(int *)arg; + u64 keep, fetch, res; + int i = 0; + + if (!insns) + return 21; + + switch (op) { + case BPF_XCHG: + res = src; + break; + default: + __bpf_alu_result(&res, dst, src, BPF_OP(op)); + } + + keep = 0x0123456789abcdefULL; + if (op & BPF_FETCH) + fetch = dst; + else + fetch = src; + + i += __bpf_ld_imm64(&insns[i], R0, keep); + i += __bpf_ld_imm64(&insns[i], R1, dst); + i += __bpf_ld_imm64(&insns[i], R2, src); + i += __bpf_ld_imm64(&insns[i], R3, res); + i += __bpf_ld_imm64(&insns[i], R4, fetch); + i += __bpf_ld_imm64(&insns[i], R5, keep); + + insns[i++] = BPF_STX_MEM(BPF_DW, R10, R1, -8); + insns[i++] = BPF_ATOMIC_OP(BPF_DW, op, R10, R2, -8); + insns[i++] = BPF_LDX_MEM(BPF_DW, R1, R10, -8); + + insns[i++] = BPF_JMP_REG(BPF_JEQ, R1, R3, 1); + insns[i++] = BPF_EXIT_INSN(); + + insns[i++] = BPF_JMP_REG(BPF_JEQ, R2, R4, 1); + insns[i++] = BPF_EXIT_INSN(); + + insns[i++] = BPF_JMP_REG(BPF_JEQ, R0, R5, 1); + insns[i++] = BPF_EXIT_INSN(); + + return i; +} + +static int __bpf_emit_atomic32(struct bpf_test *self, void *arg, + struct bpf_insn *insns, s64 dst, s64 src) +{ + int op = *(int *)arg; + u64 keep, fetch, res; + int i = 0; + + if (!insns) + return 21; + + switch (op) { + case BPF_XCHG: + res = src; + break; + default: + __bpf_alu_result(&res, (u32)dst, (u32)src, BPF_OP(op)); + } + + keep = 0x0123456789abcdefULL; + if (op & BPF_FETCH) + fetch = (u32)dst; + else + fetch = src; + + i += __bpf_ld_imm64(&insns[i], R0, keep); + i += __bpf_ld_imm64(&insns[i], R1, (u32)dst); + i += __bpf_ld_imm64(&insns[i], R2, src); + i += __bpf_ld_imm64(&insns[i], R3, (u32)res); + i += __bpf_ld_imm64(&insns[i], R4, fetch); + i += __bpf_ld_imm64(&insns[i], R5, keep); + + insns[i++] = BPF_STX_MEM(BPF_W, R10, R1, -4); + insns[i++] = BPF_ATOMIC_OP(BPF_W, op, R10, R2, -4); + insns[i++] = BPF_LDX_MEM(BPF_W, R1, R10, -4); + + insns[i++] = BPF_JMP_REG(BPF_JEQ, R1, R3, 1); + insns[i++] = BPF_EXIT_INSN(); + + insns[i++] = BPF_JMP_REG(BPF_JEQ, R2, R4, 1); + insns[i++] = BPF_EXIT_INSN(); + + insns[i++] = BPF_JMP_REG(BPF_JEQ, R0, R5, 1); + insns[i++] = BPF_EXIT_INSN(); + + return i; +} + +static int __bpf_emit_cmpxchg64(struct bpf_test *self, void *arg, + struct bpf_insn *insns, s64 dst, s64 src) +{ + int i = 0; + + if (!insns) + return 23; + + i += __bpf_ld_imm64(&insns[i], R0, ~dst); + i += __bpf_ld_imm64(&insns[i], R1, dst); + i += __bpf_ld_imm64(&insns[i], R2, src); + + /* Result unsuccessful */ + insns[i++] = BPF_STX_MEM(BPF_DW, R10, R1, -8); + insns[i++] = BPF_ATOMIC_OP(BPF_DW, BPF_CMPXCHG, R10, R2, -8); + insns[i++] = BPF_LDX_MEM(BPF_DW, R3, R10, -8); + + insns[i++] = BPF_JMP_REG(BPF_JEQ, R1, R3, 2); + insns[i++] = BPF_MOV64_IMM(R0, __LINE__); + insns[i++] = BPF_EXIT_INSN(); + + insns[i++] = BPF_JMP_REG(BPF_JEQ, R0, R3, 2); + insns[i++] = BPF_MOV64_IMM(R0, __LINE__); + insns[i++] = BPF_EXIT_INSN(); + + /* Result successful */ + insns[i++] = BPF_ATOMIC_OP(BPF_DW, BPF_CMPXCHG, R10, R2, -8); + insns[i++] = BPF_LDX_MEM(BPF_DW, R3, R10, -8); + + insns[i++] = BPF_JMP_REG(BPF_JEQ, R2, R3, 2); + insns[i++] = BPF_MOV64_IMM(R0, __LINE__); + insns[i++] = BPF_EXIT_INSN(); + + insns[i++] = BPF_JMP_REG(BPF_JEQ, R0, R1, 2); + insns[i++] = BPF_MOV64_IMM(R0, __LINE__); + insns[i++] = BPF_EXIT_INSN(); + + return i; +} + +static int __bpf_emit_cmpxchg32(struct bpf_test *self, void *arg, + struct bpf_insn *insns, s64 dst, s64 src) +{ + int i = 0; + + if (!insns) + return 27; + + i += __bpf_ld_imm64(&insns[i], R0, ~dst); + i += __bpf_ld_imm64(&insns[i], R1, (u32)dst); + i += __bpf_ld_imm64(&insns[i], R2, src); + + /* Result unsuccessful */ + insns[i++] = BPF_STX_MEM(BPF_W, R10, R1, -4); + insns[i++] = BPF_ATOMIC_OP(BPF_W, BPF_CMPXCHG, R10, R2, -4); + insns[i++] = BPF_ZEXT_REG(R0), /* Zext always inserted by verifier */ + insns[i++] = BPF_LDX_MEM(BPF_W, R3, R10, -4); + + insns[i++] = BPF_JMP32_REG(BPF_JEQ, R1, R3, 2); + insns[i++] = BPF_MOV32_IMM(R0, __LINE__); + insns[i++] = BPF_EXIT_INSN(); + + insns[i++] = BPF_JMP_REG(BPF_JEQ, R0, R3, 2); + insns[i++] = BPF_MOV32_IMM(R0, __LINE__); + insns[i++] = BPF_EXIT_INSN(); + + /* Result successful */ + i += __bpf_ld_imm64(&insns[i], R0, dst); + insns[i++] = BPF_ATOMIC_OP(BPF_W, BPF_CMPXCHG, R10, R2, -4); + insns[i++] = BPF_ZEXT_REG(R0), /* Zext always inserted by verifier */ + insns[i++] = BPF_LDX_MEM(BPF_W, R3, R10, -4); + + insns[i++] = BPF_JMP32_REG(BPF_JEQ, R2, R3, 2); + insns[i++] = BPF_MOV32_IMM(R0, __LINE__); + insns[i++] = BPF_EXIT_INSN(); + + insns[i++] = BPF_JMP_REG(BPF_JEQ, R0, R1, 2); + insns[i++] = BPF_MOV32_IMM(R0, __LINE__); + insns[i++] = BPF_EXIT_INSN(); + + return i; +} + +static int __bpf_fill_atomic64(struct bpf_test *self, int op) +{ + return __bpf_fill_pattern(self, &op, 64, 64, + 0, PATTERN_BLOCK2, + &__bpf_emit_atomic64); +} + +static int __bpf_fill_atomic32(struct bpf_test *self, int op) +{ + return __bpf_fill_pattern(self, &op, 64, 64, + 0, PATTERN_BLOCK2, + &__bpf_emit_atomic32); +} + +/* 64-bit atomic operations */ +static int bpf_fill_atomic64_add(struct bpf_test *self) +{ + return __bpf_fill_atomic64(self, BPF_ADD); +} + +static int bpf_fill_atomic64_and(struct bpf_test *self) +{ + return __bpf_fill_atomic64(self, BPF_AND); +} + +static int bpf_fill_atomic64_or(struct bpf_test *self) +{ + return __bpf_fill_atomic64(self, BPF_OR); +} + +static int bpf_fill_atomic64_xor(struct bpf_test *self) +{ + return __bpf_fill_atomic64(self, BPF_XOR); +} + +static int bpf_fill_atomic64_add_fetch(struct bpf_test *self) +{ + return __bpf_fill_atomic64(self, BPF_ADD | BPF_FETCH); +} + +static int bpf_fill_atomic64_and_fetch(struct bpf_test *self) +{ + return __bpf_fill_atomic64(self, BPF_AND | BPF_FETCH); +} + +static int bpf_fill_atomic64_or_fetch(struct bpf_test *self) +{ + return __bpf_fill_atomic64(self, BPF_OR | BPF_FETCH); +} + +static int bpf_fill_atomic64_xor_fetch(struct bpf_test *self) +{ + return __bpf_fill_atomic64(self, BPF_XOR | BPF_FETCH); +} + +static int bpf_fill_atomic64_xchg(struct bpf_test *self) +{ + return __bpf_fill_atomic64(self, BPF_XCHG); +} + +static int bpf_fill_cmpxchg64(struct bpf_test *self) +{ + return __bpf_fill_pattern(self, NULL, 64, 64, 0, PATTERN_BLOCK2, + &__bpf_emit_cmpxchg64); +} + +/* 32-bit atomic operations */ +static int bpf_fill_atomic32_add(struct bpf_test *self) +{ + return __bpf_fill_atomic32(self, BPF_ADD); +} + +static int bpf_fill_atomic32_and(struct bpf_test *self) +{ + return __bpf_fill_atomic32(self, BPF_AND); +} + +static int bpf_fill_atomic32_or(struct bpf_test *self) +{ + return __bpf_fill_atomic32(self, BPF_OR); +} + +static int bpf_fill_atomic32_xor(struct bpf_test *self) +{ + return __bpf_fill_atomic32(self, BPF_XOR); +} + +static int bpf_fill_atomic32_add_fetch(struct bpf_test *self) +{ + return __bpf_fill_atomic32(self, BPF_ADD | BPF_FETCH); +} + +static int bpf_fill_atomic32_and_fetch(struct bpf_test *self) +{ + return __bpf_fill_atomic32(self, BPF_AND | BPF_FETCH); +} + +static int bpf_fill_atomic32_or_fetch(struct bpf_test *self) +{ + return __bpf_fill_atomic32(self, BPF_OR | BPF_FETCH); +} + +static int bpf_fill_atomic32_xor_fetch(struct bpf_test *self) +{ + return __bpf_fill_atomic32(self, BPF_XOR | BPF_FETCH); +} + +static int bpf_fill_atomic32_xchg(struct bpf_test *self) +{ + return __bpf_fill_atomic32(self, BPF_XCHG); +} + +static int bpf_fill_cmpxchg32(struct bpf_test *self) +{ + return __bpf_fill_pattern(self, NULL, 64, 64, 0, PATTERN_BLOCK2, + &__bpf_emit_cmpxchg32); +} + /* * Test the two-instruction 64-bit immediate load operation for all * power-of-two magnitudes of the immediate operand. For each MSB, a block @@ -10721,6 +11021,208 @@ static struct bpf_test tests[] = { { { 0, 1 } }, .fill_helper = bpf_fill_ld_imm64, }, + /* 64-bit ATOMIC magnitudes */ + { + "ATOMIC_DW_ADD: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic64_add, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_DW_AND: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic64_and, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_DW_OR: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic64_or, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_DW_XOR: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic64_xor, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_DW_ADD_FETCH: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic64_add_fetch, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_DW_AND_FETCH: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic64_and_fetch, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_DW_OR_FETCH: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic64_or_fetch, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_DW_XOR_FETCH: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic64_xor_fetch, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_DW_XCHG: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic64_xchg, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_DW_CMPXCHG: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_cmpxchg64, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + /* 64-bit atomic magnitudes */ + { + "ATOMIC_W_ADD: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic32_add, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_W_AND: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic32_and, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_W_OR: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic32_or, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_W_XOR: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic32_xor, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_W_ADD_FETCH: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic32_add_fetch, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_W_AND_FETCH: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic32_and_fetch, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_W_OR_FETCH: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic32_or_fetch, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_W_XOR_FETCH: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic32_xor_fetch, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_W_XCHG: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_atomic32_xchg, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, + { + "ATOMIC_W_CMPXCHG: all operand magnitudes", + { }, + INTERNAL | FLAG_NO_DATA, + { }, + { { 0, 1 } }, + .fill_helper = bpf_fill_cmpxchg32, + .stack_depth = 8, + .nr_testruns = NR_PATTERN_RUNS, + }, /* JMP immediate magnitudes */ { "JMP_JSET_K: all immediate value magnitudes", -- 2.30.2