/* * Copyright (c) 2011, 2012, 2013, 2014, 2015, 2016, 2019 Nicira, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #undef NDEBUG #include "util.h" #include #include #include #include #include #include #include "byte-order.h" #include "command-line.h" #include "ovstest.h" #include "random.h" #include "sat-math.h" #include "openvswitch/vlog.h" static void check_log_2_floor(uint32_t x, int n) { if (log_2_floor(x) != n) { fprintf(stderr, "log_2_floor(%"PRIu32") is %d but should be %d\n", x, log_2_floor(x), n); abort(); } } static void test_log_2_floor(struct ovs_cmdl_context *ctx OVS_UNUSED) { for (uint32_t n = 0; n < 32; n++) { /* Check minimum x such that f(x) == n. */ check_log_2_floor(UINT32_C(1) << n, n); /* Check maximum x such that f(x) == n. */ check_log_2_floor((UINT32_C(1) << n) | ((UINT32_C(1) << n) - 1), n); /* Check a random value in the middle. */ check_log_2_floor((random_uint32() & ((UINT32_C(1) << n) - 1)) | (UINT32_C(1) << n), n); } /* log_2_floor(0) is undefined, so don't check it. */ } static void check_ctz32(uint32_t x, int n) { if (ctz32(x) != n) { fprintf(stderr, "ctz32(%"PRIu32") is %d but should be %d\n", x, ctz32(x), n); abort(); } } static void check_ctz64(uint64_t x, int n) { if (ctz64(x) != n) { fprintf(stderr, "ctz64(%"PRIu64") is %d but should be %d\n", x, ctz64(x), n); abort(); } } static void test_ctz(struct ovs_cmdl_context *ctx OVS_UNUSED) { int n; for (n = 0; n < 32; n++) { /* Check minimum x such that f(x) == n. */ check_ctz32(UINT32_C(1) << n, n); /* Check maximum x such that f(x) == n. */ check_ctz32(UINT32_MAX << n, n); /* Check a random value in the middle. */ check_ctz32((random_uint32() | 1) << n, n); } for (n = 0; n < 64; n++) { /* Check minimum x such that f(x) == n. */ check_ctz64(UINT64_C(1) << n, n); /* Check maximum x such that f(x) == n. */ check_ctz64(UINT64_MAX << n, n); /* Check a random value in the middle. */ check_ctz64((random_uint64() | UINT64_C(1)) << n, n); } /* Check ctz(0). */ check_ctz32(0, 32); check_ctz64(0, 64); } static void check_clz32(uint32_t x, int n) { if (clz32(x) != n) { fprintf(stderr, "clz32(%"PRIu32") is %d but should be %d\n", x, clz32(x), n); abort(); } } static void check_clz64(uint64_t x, int n) { if (clz64(x) != n) { fprintf(stderr, "clz64(%"PRIu64") is %d but should be %d\n", x, clz64(x), n); abort(); } } static void test_clz(struct ovs_cmdl_context *ctx OVS_UNUSED) { int n; for (n = 0; n < 32; n++) { /* Check minimum x such that f(x) == n. */ check_clz32((1u << 31) >> n, n); /* Check maximum x such that f(x) == n. */ check_clz32(UINT32_MAX >> n, n); /* Check a random value in the middle. */ check_clz32((random_uint32() | 1u << 31) >> n, n); } for (n = 0; n < 64; n++) { /* Check minimum x such that f(x) == n. */ check_clz64((UINT64_C(1) << 63) >> n, n); /* Check maximum x such that f(x) == n. */ check_clz64(UINT64_MAX >> n, n); /* Check a random value in the middle. */ check_clz64((random_uint64() | UINT64_C(1) << 63) >> n, n); } /* Check clz(0). */ check_clz32(0, 32); check_clz64(0, 64); } /* Returns a random number in the range 'min'...'max' inclusive. */ static uint32_t random_in_range(uint32_t min, uint32_t max) { return min == max ? min : min + random_range(max - min + 1); } static void check_rup2(uint32_t x, int n) { uint32_t rup2 = ROUND_UP_POW2(x); if (rup2 != n) { fprintf(stderr, "ROUND_UP_POW2(%#"PRIx32") is %#"PRIx32" " "but should be %#"PRIx32"\n", x, rup2, n); abort(); } } static void test_round_up_pow2(struct ovs_cmdl_context *ctx OVS_UNUSED) { int n; for (n = 0; n < 32; n++) { /* Min, max value for which ROUND_UP_POW2 should yield (1 << n). */ uint32_t min = ((1u << n) >> 1) + 1; uint32_t max = 1u << n; check_rup2(min, 1u << n); check_rup2(max, 1u << n); check_rup2(random_in_range(min, max), 1u << n); } check_rup2(0, 0); } static void check_rdp2(uint32_t x, int n) { uint32_t rdp2 = ROUND_DOWN_POW2(x); if (rdp2 != n) { fprintf(stderr, "ROUND_DOWN_POW2(%#"PRIx32") is %#"PRIx32" " "but should be %#"PRIx32"\n", x, rdp2, n); abort(); } } static void test_round_down_pow2(struct ovs_cmdl_context *ctx OVS_UNUSED) { int n; for (n = 0; n < 32; n++) { /* Min, max value for which ROUND_DOWN_POW2 should yield (1 << n). */ uint32_t min = 1u << n; uint32_t max = ((1u << n) << 1) - 1; check_rdp2(min, 1u << n); check_rdp2(max, 1u << n); check_rdp2(random_in_range(min, max), 1u << n); } check_rdp2(0, 0); } static void shuffle(uint64_t *p, size_t n) { for (; n > 1; n--, p++) { uint64_t *q = &p[random_range(n)]; uint64_t tmp = *p; *p = *q; *q = tmp; } } static void check_count_1bits(uint64_t x, int n) { if (count_1bits(x) != n) { fprintf(stderr, "count_1bits(%#"PRIx64") is %d but should be %d\n", x, count_1bits(x), n); abort(); } } static void test_count_1bits(struct ovs_cmdl_context *ctx OVS_UNUSED) { uint64_t bits[64]; int i; for (i = 0; i < ARRAY_SIZE(bits); i++) { bits[i] = UINT64_C(1) << i; } check_count_1bits(0, 0); for (i = 0; i < 1000; i++) { uint64_t x = 0; int j; shuffle(bits, ARRAY_SIZE(bits)); for (j = 0; j < 64; j++) { x |= bits[j]; check_count_1bits(x, j + 1); } assert(x == UINT64_MAX); shuffle(bits, ARRAY_SIZE(bits)); for (j = 63; j >= 0; j--) { x &= ~bits[j]; check_count_1bits(x, j); } assert(x == 0); } } /* Returns the sum of the squares of the first 'n' positive integers. */ static unsigned int sum_of_squares(int n) { return n * (n + 1) * (2 * n + 1) / 6; } static void test_bitwise_copy(struct ovs_cmdl_context *ctx OVS_UNUSED) { unsigned int n_loops; int src_ofs; int dst_ofs; int n_bits; n_loops = 0; for (n_bits = 0; n_bits <= 64; n_bits++) { for (src_ofs = 0; src_ofs < 64 - n_bits; src_ofs++) { for (dst_ofs = 0; dst_ofs < 64 - n_bits; dst_ofs++) { ovs_be64 src = htonll(random_uint64()); ovs_be64 dst = htonll(random_uint64()); ovs_be64 orig_dst = dst; ovs_be64 expect; if (n_bits == 64) { expect = dst; } else { uint64_t mask = (UINT64_C(1) << n_bits) - 1; expect = orig_dst & ~htonll(mask << dst_ofs); expect |= htonll(((ntohll(src) >> src_ofs) & mask) << dst_ofs); } bitwise_copy(&src, sizeof src, src_ofs, &dst, sizeof dst, dst_ofs, n_bits); if (expect != dst) { fprintf(stderr,"copy_bits(0x%016"PRIx64",8,%d, " "0x%016"PRIx64",8,%d, %d) yielded 0x%016"PRIx64" " "instead of the expected 0x%016"PRIx64"\n", ntohll(src), src_ofs, ntohll(orig_dst), dst_ofs, n_bits, ntohll(dst), ntohll(expect)); abort(); } n_loops++; } } } if (n_loops != sum_of_squares(64)) { abort(); } } static void test_bitwise_zero(struct ovs_cmdl_context *ctx OVS_UNUSED) { unsigned int n_loops; int dst_ofs; int n_bits; n_loops = 0; for (n_bits = 0; n_bits <= 64; n_bits++) { for (dst_ofs = 0; dst_ofs < 64 - n_bits; dst_ofs++) { ovs_be64 dst = htonll(random_uint64()); ovs_be64 orig_dst = dst; ovs_be64 expect; if (n_bits == 64) { expect = htonll(0); } else { uint64_t mask = (UINT64_C(1) << n_bits) - 1; expect = orig_dst & ~htonll(mask << dst_ofs); } bitwise_zero(&dst, sizeof dst, dst_ofs, n_bits); if (expect != dst) { fprintf(stderr,"bitwise_zero(0x%016"PRIx64",8,%d, %d) " "yielded 0x%016"PRIx64" " "instead of the expected 0x%016"PRIx64"\n", ntohll(orig_dst), dst_ofs, n_bits, ntohll(dst), ntohll(expect)); abort(); } n_loops++; } } if (n_loops != 64 * (64 + 1) / 2) { abort(); } } static void test_bitwise_one(struct ovs_cmdl_context *ctx OVS_UNUSED) { unsigned int n_loops; int dst_ofs; int n_bits; n_loops = 0; for (n_bits = 0; n_bits <= 64; n_bits++) { for (dst_ofs = 0; dst_ofs < 64 - n_bits; dst_ofs++) { ovs_be64 dst = htonll(random_uint64()); ovs_be64 orig_dst = dst; ovs_be64 expect; if (n_bits == 64) { expect = OVS_BE64_MAX; } else { uint64_t mask = (UINT64_C(1) << n_bits) - 1; expect = orig_dst | htonll(mask << dst_ofs); } bitwise_one(&dst, sizeof dst, dst_ofs, n_bits); if (expect != dst) { fprintf(stderr,"bitwise_one(0x%016"PRIx64",8,%d, %d) " "yielded 0x%016"PRIx64" " "instead of the expected 0x%016"PRIx64"\n", ntohll(orig_dst), dst_ofs, n_bits, ntohll(dst), ntohll(expect)); abort(); } n_loops++; } } if (n_loops != 64 * (64 + 1) / 2) { abort(); } } static void test_bitwise_is_all_zeros(struct ovs_cmdl_context *ctx OVS_UNUSED) { int n_loops; for (n_loops = 0; n_loops < 100; n_loops++) { ovs_be64 x = htonll(0); int i; for (i = 0; i < 64; i++) { ovs_be64 bit; int ofs, n; /* Change a random 0-bit into a 1-bit. */ do { bit = htonll(UINT64_C(1) << (random_range(64))); } while (x & bit); x |= bit; for (ofs = 0; ofs < 64; ofs++) { for (n = 0; n <= 64 - ofs; n++) { bool expect; bool answer; expect = (n == 64 ? x == 0 : !(x & htonll(((UINT64_C(1) << n) - 1) << ofs))); answer = bitwise_is_all_zeros(&x, sizeof x, ofs, n); if (expect != answer) { fprintf(stderr, "bitwise_is_all_zeros(0x%016"PRIx64",8,%d,%d " "returned %s instead of %s\n", ntohll(x), ofs, n, answer ? "true" : "false", expect ? "true" : "false"); abort(); } } } } } } static int trivial_bitwise_rscan(const void *p, unsigned int len, bool target, int start, int end) { int ofs; for (ofs = start; ofs > end; ofs--) { if (bitwise_get_bit(p, len, ofs) == target) { break; } } return ofs; } static void test_bitwise_rscan(struct ovs_cmdl_context *ctx OVS_UNUSED) { /* All 1s */ uint8_t s1[3] = {0xff, 0xff, 0xff}; /* Target is the first bit */ ovs_assert(23 == bitwise_rscan(s1, 3, 1, 23, -1)); /* Target is not found, return -1 */ ovs_assert(-1 == bitwise_rscan(s1, 3, 0, 23, -1)); /* Target is not found and end != -1, return end */ ovs_assert(20 == bitwise_rscan(s1, 3, 0, 23, 20)); /* bit 20 - 23 are 0s */ uint8_t s2[3] = {0x0f, 0xff, 0xff}; /* Target is in the first byte but not the first bit */ ovs_assert(19 == bitwise_rscan(s2, 3, 1, 23, -1)); /* Target exists before the start postion */ ovs_assert(18 == bitwise_rscan(s2, 3, 1, 18, -1)); /* Target exists after the end postion, return end */ ovs_assert(20 == bitwise_rscan(s2, 3, 1, 23, 20)); /* Target is at the end postion, return end */ ovs_assert(19 == bitwise_rscan(s2, 3, 1, 23, 19)); /* start == end, target at start */ ovs_assert(19 == bitwise_rscan(s2, 3, 1, 19, 19)); /* start == end, target not at start */ ovs_assert(20 == bitwise_rscan(s2, 3, 1, 20, 20)); /* Target is 0 ... */ ovs_assert(22 == bitwise_rscan(s2, 3, 0, 22, -1)); /* bit 4 - 23 are 0s */ uint8_t s3[3] = {0x00, 0x00, 0x0f}; /* Target is in the end byte */ ovs_assert(3 == bitwise_rscan(s3, 3, 1, 16, -1)); /* Target exists after the end byte, return end */ ovs_assert(15 == bitwise_rscan(s3, 3, 1, 23, 15)); /* Target exists in end byte but after the end bit, return end */ ovs_assert(4 == bitwise_rscan(s3, 3, 1, 23, 4)); /* Target is 0 ... */ ovs_assert(12 == bitwise_rscan(s3, 3, 0, 12, -1)); /* All 0s */ uint8_t s4[3] = {0x00, 0x00, 0x00}; /* Target not found */ ovs_assert(-1 == bitwise_rscan(s4, 3, 1, 23, -1)); /* Target is 0 ..., start is 0 */ ovs_assert(0 == bitwise_rscan(s4, 3, 0, 0, -1)); int n_loops; for (n_loops = 0; n_loops < 100; n_loops++) { ovs_be64 x = htonll(0); int i; for (i = 0; i < 64; i++) { ovs_be64 bit; /* Change a random 0-bit into a 1-bit. */ do { bit = htonll(UINT64_C(1) << (random_range(64))); } while (x & bit); x |= bit; for (int end = -1; end <= 63; end++) { for (int start = end; start <= 63; start++) { for (int target = 0; target < 2; target++) { bool expect = trivial_bitwise_rscan( &x, sizeof x, target, start, end); bool answer = bitwise_rscan( &x, sizeof x, target, start, end); if (expect != answer) { fprintf(stderr, "bitwise_rscan(0x%016"PRIx64",8,%s,%d,%d) " "returned %s instead of %s\n", ntohll(x), target ? "true" : "false", start, end, answer ? "true" : "false", expect ? "true" : "false"); abort(); } } } } } } } static void test_follow_symlinks(struct ovs_cmdl_context *ctx) { int i; for (i = 1; i < ctx->argc; i++) { char *target = follow_symlinks(ctx->argv[i]); puts(target); free(target); } } static void test_assert(struct ovs_cmdl_context *ctx OVS_UNUSED) { ovs_assert(false); } static void test_ovs_scan(struct ovs_cmdl_context *ctx OVS_UNUSED) { char str[16], str2[16], str3[16]; long double ld, ld2; long long ll, ll2; signed char c, c2; ptrdiff_t pd, pd2; intmax_t im, im2; size_t sz, sz2; int n, n2, n3; double d, d2; short s, s2; float f, f2; long l, l2; int i, i2; ovs_assert(ovs_scan("", " ")); ovs_assert(ovs_scan(" ", " ")); ovs_assert(ovs_scan(" ", " ")); ovs_assert(ovs_scan(" \t ", " ")); ovs_assert(ovs_scan("xyzzy", "xyzzy")); ovs_assert(ovs_scan("xy%zzy", "xy%%zzy")); ovs_assert(!ovs_scan(" xy%zzy", "xy%%zzy")); ovs_assert(ovs_scan(" xy%\tzzy", " xy%% zzy")); ovs_assert(ovs_scan("123", "%d", &i)); ovs_assert(i == 123); ovs_assert(ovs_scan("0", "%d", &i)); ovs_assert(i == 0); ovs_assert(!ovs_scan("123", "%d%d", &i, &i2)); ovs_assert(ovs_scan("+123", "%d", &i)); ovs_assert(i == 123); ovs_assert(ovs_scan("-123", "%d", &i)); ovs_assert(i == -123); ovs_assert(ovs_scan("0123", "%d", &i)); ovs_assert(i == 123); ovs_assert(ovs_scan(" 123", "%d", &i)); ovs_assert(i == 123); ovs_assert(ovs_scan("0x123", "%d", &i)); ovs_assert(i == 0); ovs_assert(ovs_scan("123", "%2d %d", &i, &i2)); ovs_assert(i == 12); ovs_assert(i2 == 3); ovs_assert(ovs_scan("+123", "%2d %d", &i, &i2)); ovs_assert(i == 1); ovs_assert(i2 == 23); ovs_assert(ovs_scan("-123", "%2d %d", &i, &i2)); ovs_assert(i == -1); ovs_assert(i2 == 23); ovs_assert(ovs_scan("0123", "%2d %d", &i, &i2)); ovs_assert(i == 1); ovs_assert(i2 == 23); ovs_assert(ovs_scan("123", "%*2d %d", &i)); ovs_assert(i == 3); ovs_assert(ovs_scan("+123", "%2d %*d", &i)); ovs_assert(i == 1); ovs_assert(i2 == 23); ovs_assert(ovs_scan("-123", "%*2d %*d")); ovs_assert(ovs_scan("123", "%u", &i)); ovs_assert(i == 123); ovs_assert(ovs_scan("0", "%u", &i)); ovs_assert(i == 0); ovs_assert(!ovs_scan("123", "%u%u", &i, &i2)); ovs_assert(ovs_scan("+123", "%u", &i)); ovs_assert(i == 123); ovs_assert(ovs_scan("-123", "%u", &i)); ovs_assert(i == -123); ovs_assert(ovs_scan("0123", "%u", &i)); ovs_assert(i == 123); ovs_assert(ovs_scan(" 123", "%u", &i)); ovs_assert(i == 123); ovs_assert(ovs_scan("0x123", "%u", &i)); ovs_assert(i == 0); ovs_assert(ovs_scan("123", "%2u %u", &i, &i2)); ovs_assert(i == 12); ovs_assert(i2 == 3); ovs_assert(ovs_scan("+123", "%2u %u", &i, &i2)); ovs_assert(i == 1); ovs_assert(i2 == 23); ovs_assert(ovs_scan("-123", "%2u %u", &i, &i2)); ovs_assert(i == -1); ovs_assert(i2 == 23); ovs_assert(ovs_scan("0123", "%2u %u", &i, &i2)); ovs_assert(i == 1); ovs_assert(i2 == 23); ovs_assert(ovs_scan("123", "%*2u %u", &i)); ovs_assert(i == 3); ovs_assert(ovs_scan("+123", "%2u %*u", &i)); ovs_assert(i == 1); ovs_assert(i2 == 23); ovs_assert(ovs_scan("-123", "%*2u %*u")); ovs_assert(ovs_scan("123", "%i", &i)); ovs_assert(i == 123); ovs_assert(ovs_scan("0", "%i", &i)); ovs_assert(i == 0); ovs_assert(!ovs_scan("123", "%i%i", &i, &i2)); ovs_assert(ovs_scan("+123", "%i", &i)); ovs_assert(i == 123); ovs_assert(ovs_scan("-123", "%i", &i)); ovs_assert(i == -123); ovs_assert(ovs_scan("0123", "%i", &i)); ovs_assert(i == 0123); ovs_assert(ovs_scan(" 123", "%i", &i)); ovs_assert(i == 123); ovs_assert(ovs_scan("0x123", "%i", &i)); ovs_assert(i == 0x123); ovs_assert(ovs_scan("123", "%2i %i", &i, &i2)); ovs_assert(i == 12); ovs_assert(i2 == 3); ovs_assert(ovs_scan("+123", "%2i %i", &i, &i2)); ovs_assert(i == 1); ovs_assert(i2 == 23); ovs_assert(ovs_scan("-123", "%2i %i", &i, &i2)); ovs_assert(i == -1); ovs_assert(i2 == 23); ovs_assert(ovs_scan("0123", "%2i %i", &i, &i2)); ovs_assert(i == 1); ovs_assert(i2 == 23); ovs_assert(ovs_scan("123", "%*2i %i", &i)); ovs_assert(i == 3); ovs_assert(ovs_scan("+123", "%2i %*i", &i)); ovs_assert(i == 1); ovs_assert(i2 == 23); ovs_assert(ovs_scan("-123", "%*2i %*i")); ovs_assert(ovs_scan("123", "%o", &i)); ovs_assert(i == 0123); ovs_assert(ovs_scan("0", "%o", &i)); ovs_assert(i == 0); ovs_assert(!ovs_scan("123", "%o%o", &i, &i2)); ovs_assert(ovs_scan("+123", "%o", &i)); ovs_assert(i == 0123); ovs_assert(ovs_scan("-123", "%o", &i)); ovs_assert(i == -0123); ovs_assert(ovs_scan("0123", "%o", &i)); ovs_assert(i == 0123); ovs_assert(ovs_scan(" 123", "%o", &i)); ovs_assert(i == 0123); ovs_assert(ovs_scan("0x123", "%o", &i)); ovs_assert(i == 0); ovs_assert(ovs_scan("123", "%2o %o", &i, &i2)); ovs_assert(i == 012); ovs_assert(i2 == 3); ovs_assert(ovs_scan("+123", "%2o %o", &i, &i2)); ovs_assert(i == 1); ovs_assert(i2 == 023); ovs_assert(ovs_scan("-123", "%2o %o", &i, &i2)); ovs_assert(i == -1); ovs_assert(i2 == 023); ovs_assert(ovs_scan("0123", "%2o %o", &i, &i2)); ovs_assert(i == 1); ovs_assert(i2 == 023); ovs_assert(ovs_scan("123", "%*2o %o", &i)); ovs_assert(i == 3); ovs_assert(ovs_scan("+123", "%2o %*o", &i)); ovs_assert(i == 1); ovs_assert(i2 == 023); ovs_assert(ovs_scan("-123", "%*2o %*o")); ovs_assert(ovs_scan("123", "%x", &i)); ovs_assert(i == 0x123); ovs_assert(ovs_scan("0", "%x", &i)); ovs_assert(i == 0); ovs_assert(!ovs_scan("123", "%x%x", &i, &i2)); ovs_assert(ovs_scan("+123", "%x", &i)); ovs_assert(i == 0x123); ovs_assert(ovs_scan("-123", "%x", &i)); ovs_assert(i == -0x123); ovs_assert(ovs_scan("0123", "%x", &i)); ovs_assert(i == 0x123); ovs_assert(ovs_scan(" 123", "%x", &i)); ovs_assert(i == 0x123); ovs_assert(ovs_scan("0x123", "%x", &i)); ovs_assert(i == 0x123); ovs_assert(ovs_scan("123", "%2x %x", &i, &i2)); ovs_assert(i == 0x12); ovs_assert(i2 == 3); ovs_assert(ovs_scan("+123", "%2x %x", &i, &i2)); ovs_assert(i == 1); ovs_assert(i2 == 0x23); ovs_assert(ovs_scan("-123", "%2x %x", &i, &i2)); ovs_assert(i == -1); ovs_assert(i2 == 0x23); ovs_assert(ovs_scan("0123", "%2x %x", &i, &i2)); ovs_assert(i == 1); ovs_assert(i2 == 0x23); ovs_assert(ovs_scan("123", "%*2x %x", &i)); ovs_assert(i == 3); ovs_assert(ovs_scan("+123", "%2x %*x", &i)); ovs_assert(i == 1); ovs_assert(i2 == 0x23); ovs_assert(ovs_scan("-123", "%*2x %*x")); ovs_assert(ovs_scan("123", "%hd", &s)); ovs_assert(s == 123); ovs_assert(!ovs_scan("123", "%hd%hd", &s, &s2)); ovs_assert(ovs_scan("+123", "%hd", &s)); ovs_assert(s == 123); ovs_assert(ovs_scan("-123", "%hd", &s)); ovs_assert(s == -123); ovs_assert(ovs_scan("0123", "%hd", &s)); ovs_assert(s == 123); ovs_assert(ovs_scan(" 123", "%hd", &s)); ovs_assert(s == 123); ovs_assert(ovs_scan("0x123", "%hd", &s)); ovs_assert(s == 0); ovs_assert(ovs_scan("123", "%2hd %hd", &s, &s2)); ovs_assert(s == 12); ovs_assert(s2 == 3); ovs_assert(ovs_scan("+123", "%2hd %hd", &s, &s2)); ovs_assert(s == 1); ovs_assert(s2 == 23); ovs_assert(ovs_scan("-123", "%2hd %hd", &s, &s2)); ovs_assert(s == -1); ovs_assert(s2 == 23); ovs_assert(ovs_scan("0123", "%2hd %hd", &s, &s2)); ovs_assert(s == 1); ovs_assert(s2 == 23); ovs_assert(ovs_scan("123", "%hhd", &c)); ovs_assert(c == 123); ovs_assert(ovs_scan("0", "%hhd", &c)); ovs_assert(c == 0); ovs_assert(!ovs_scan("123", "%hhd%hhd", &c, &c2)); ovs_assert(ovs_scan("+123", "%hhd", &c)); ovs_assert(c == 123); ovs_assert(ovs_scan("-123", "%hhd", &c)); ovs_assert(c == -123); ovs_assert(ovs_scan("0123", "%hhd", &c)); ovs_assert(c == 123); ovs_assert(ovs_scan(" 123", "%hhd", &c)); ovs_assert(c == 123); ovs_assert(ovs_scan("0x123", "%hhd", &c)); ovs_assert(c == 0); ovs_assert(ovs_scan("123", "%2hhd %hhd", &c, &c2)); ovs_assert(c == 12); ovs_assert(c2 == 3); ovs_assert(ovs_scan("+123", "%2hhd %hhd", &c, &c2)); ovs_assert(c == 1); ovs_assert(c2 == 23); ovs_assert(ovs_scan("-123", "%2hhd %hhd", &c, &c2)); ovs_assert(c == -1); ovs_assert(c2 == 23); ovs_assert(ovs_scan("0123", "%2hhd %hhd", &c, &c2)); ovs_assert(c == 1); ovs_assert(c2 == 23); ovs_assert(ovs_scan("123", "%ld", &l)); ovs_assert(l == 123); ovs_assert(ovs_scan("0", "%ld", &l)); ovs_assert(l == 0); ovs_assert(!ovs_scan("123", "%ld%ld", &l, &l2)); ovs_assert(ovs_scan("+123", "%ld", &l)); ovs_assert(l == 123); ovs_assert(ovs_scan("-123", "%ld", &l)); ovs_assert(l == -123); ovs_assert(ovs_scan("0123", "%ld", &l)); ovs_assert(l == 123); ovs_assert(ovs_scan(" 123", "%ld", &l)); ovs_assert(l == 123); ovs_assert(ovs_scan("0x123", "%ld", &l)); ovs_assert(l == 0); ovs_assert(ovs_scan("123", "%2ld %ld", &l, &l2)); ovs_assert(l == 12); ovs_assert(l2 == 3); ovs_assert(ovs_scan("+123", "%2ld %ld", &l, &l2)); ovs_assert(l == 1); ovs_assert(l2 == 23); ovs_assert(ovs_scan("-123", "%2ld %ld", &l, &l2)); ovs_assert(l == -1); ovs_assert(l2 == 23); ovs_assert(ovs_scan("0123", "%2ld %ld", &l, &l2)); ovs_assert(l == 1); ovs_assert(l2 == 23); ovs_assert(ovs_scan("123", "%lld", &ll)); ovs_assert(ll == 123); ovs_assert(ovs_scan("0", "%lld", &ll)); ovs_assert(ll == 0); ovs_assert(!ovs_scan("123", "%lld%lld", &ll, &ll2)); ovs_assert(ovs_scan("+123", "%lld", &ll)); ovs_assert(ll == 123); ovs_assert(ovs_scan("-123", "%lld", &ll)); ovs_assert(ll == -123); ovs_assert(ovs_scan("0123", "%lld", &ll)); ovs_assert(ll == 123); ovs_assert(ovs_scan(" 123", "%lld", &ll)); ovs_assert(ll == 123); ovs_assert(ovs_scan("0x123", "%lld", &ll)); ovs_assert(ll == 0); ovs_assert(ovs_scan("123", "%2lld %lld", &ll, &ll2)); ovs_assert(ll == 12); ovs_assert(ll2 == 3); ovs_assert(ovs_scan("+123", "%2lld %lld", &ll, &ll2)); ovs_assert(ll == 1); ovs_assert(ll2 == 23); ovs_assert(ovs_scan("-123", "%2lld %lld", &ll, &ll2)); ovs_assert(ll == -1); ovs_assert(ll2 == 23); ovs_assert(ovs_scan("0123", "%2lld %lld", &ll, &ll2)); ovs_assert(ll == 1); ovs_assert(ll2 == 23); ovs_assert(ovs_scan("123", "%jd", &im)); ovs_assert(im == 123); ovs_assert(ovs_scan("0", "%jd", &im)); ovs_assert(im == 0); ovs_assert(!ovs_scan("123", "%jd%jd", &im, &im2)); ovs_assert(ovs_scan("+123", "%jd", &im)); ovs_assert(im == 123); ovs_assert(ovs_scan("-123", "%jd", &im)); ovs_assert(im == -123); ovs_assert(ovs_scan("0123", "%jd", &im)); ovs_assert(im == 123); ovs_assert(ovs_scan(" 123", "%jd", &im)); ovs_assert(im == 123); ovs_assert(ovs_scan("0x123", "%jd", &im)); ovs_assert(im == 0); ovs_assert(ovs_scan("123", "%2jd %jd", &im, &im2)); ovs_assert(im == 12); ovs_assert(im2 == 3); ovs_assert(ovs_scan("+123", "%2jd %jd", &im, &im2)); ovs_assert(im == 1); ovs_assert(im2 == 23); ovs_assert(ovs_scan("-123", "%2jd %jd", &im, &im2)); ovs_assert(im == -1); ovs_assert(im2 == 23); ovs_assert(ovs_scan("0123", "%2jd %jd", &im, &im2)); ovs_assert(im == 1); ovs_assert(im2 == 23); ovs_assert(ovs_scan("123", "%td", &pd)); ovs_assert(pd == 123); ovs_assert(ovs_scan("0", "%td", &pd)); ovs_assert(pd == 0); ovs_assert(!ovs_scan("123", "%td%td", &pd, &pd2)); ovs_assert(ovs_scan("+123", "%td", &pd)); ovs_assert(pd == 123); ovs_assert(ovs_scan("-123", "%td", &pd)); ovs_assert(pd == -123); ovs_assert(ovs_scan("0123", "%td", &pd)); ovs_assert(pd == 123); ovs_assert(ovs_scan(" 123", "%td", &pd)); ovs_assert(pd == 123); ovs_assert(ovs_scan("0x123", "%td", &pd)); ovs_assert(pd == 0); ovs_assert(ovs_scan("123", "%2td %td", &pd, &pd2)); ovs_assert(pd == 12); ovs_assert(pd2 == 3); ovs_assert(ovs_scan("+123", "%2td %td", &pd, &pd2)); ovs_assert(pd == 1); ovs_assert(pd2 == 23); ovs_assert(ovs_scan("-123", "%2td %td", &pd, &pd2)); ovs_assert(pd == -1); ovs_assert(pd2 == 23); ovs_assert(ovs_scan("0123", "%2td %td", &pd, &pd2)); ovs_assert(pd == 1); ovs_assert(pd2 == 23); ovs_assert(ovs_scan("123", "%zd", &sz)); ovs_assert(sz == 123); ovs_assert(ovs_scan("0", "%zd", &sz)); ovs_assert(sz == 0); ovs_assert(!ovs_scan("123", "%zd%zd", &sz, &sz2)); ovs_assert(ovs_scan("+123", "%zd", &sz)); ovs_assert(sz == 123); ovs_assert(ovs_scan("-123", "%zd", &sz)); ovs_assert(sz == -123); ovs_assert(ovs_scan("0123", "%zd", &sz)); ovs_assert(sz == 123); ovs_assert(ovs_scan(" 123", "%zd", &sz)); ovs_assert(sz == 123); ovs_assert(ovs_scan("0x123", "%zd", &sz)); ovs_assert(sz == 0); ovs_assert(ovs_scan("123", "%2zd %zd", &sz, &sz2)); ovs_assert(sz == 12); ovs_assert(sz2 == 3); ovs_assert(ovs_scan("+123", "%2zd %zd", &sz, &sz2)); ovs_assert(sz == 1); ovs_assert(sz2 == 23); ovs_assert(ovs_scan("-123", "%2zd %zd", &sz, &sz2)); ovs_assert(sz == -1); ovs_assert(sz2 == 23); ovs_assert(ovs_scan("0123", "%2zd %zd", &sz, &sz2)); ovs_assert(sz == 1); ovs_assert(sz2 == 23); ovs_assert(ovs_scan("0.25", "%f", &f)); ovs_assert(f == 0.25); ovs_assert(ovs_scan("1.0", "%f", &f)); ovs_assert(f == 1.0); ovs_assert(ovs_scan("-5", "%f", &f)); ovs_assert(f == -5.0); ovs_assert(ovs_scan("+6", "%f", &f)); ovs_assert(f == 6.0); ovs_assert(ovs_scan("-1e5", "%f", &f)); ovs_assert(f == -1e5); ovs_assert(ovs_scan("-.25", "%f", &f)); ovs_assert(f == -.25); ovs_assert(ovs_scan("+123.e1", "%f", &f)); ovs_assert(f == 1230.0); ovs_assert(ovs_scan("25e-2", "%f", &f)); ovs_assert(f == 0.25); ovs_assert(ovs_scan("0.25", "%1f %f", &f, &f2)); ovs_assert(f == 0); ovs_assert(f2 == 0.25); ovs_assert(ovs_scan("1.0", "%2f %f", &f, &f2)); ovs_assert(f == 1.0); ovs_assert(f2 == 0.0); ovs_assert(!ovs_scan("-5", "%1f", &f)); ovs_assert(!ovs_scan("+6", "%1f", &f)); ovs_assert(!ovs_scan("-1e5", "%2f %*f", &f)); ovs_assert(f == -1); ovs_assert(!ovs_scan("-.25", "%2f", &f)); ovs_assert(!ovs_scan("+123.e1", "%6f", &f)); ovs_assert(!ovs_scan("25e-2", "%4f", &f)); ovs_assert(ovs_scan("0.25", "%lf", &d)); ovs_assert(d == 0.25); ovs_assert(ovs_scan("1.0", "%lf", &d)); ovs_assert(d == 1.0); ovs_assert(ovs_scan("-5", "%lf", &d)); ovs_assert(d == -5.0); ovs_assert(ovs_scan("+6", "%lf", &d)); ovs_assert(d == 6.0); ovs_assert(ovs_scan("-1e5", "%lf", &d)); ovs_assert(d == -1e5); ovs_assert(ovs_scan("-.25", "%lf", &d)); ovs_assert(d == -.25); ovs_assert(ovs_scan("+123.e1", "%lf", &d)); ovs_assert(d == 1230.0); ovs_assert(ovs_scan("25e-2", "%lf", &d)); ovs_assert(d == 0.25); ovs_assert(ovs_scan("0.25", "%1lf %lf", &d, &d2)); ovs_assert(d == 0); ovs_assert(d2 == 0.25); ovs_assert(ovs_scan("1.0", "%2lf %lf", &d, &d2)); ovs_assert(d == 1.0); ovs_assert(d2 == 0.0); ovs_assert(!ovs_scan("-5", "%1lf", &d)); ovs_assert(!ovs_scan("+6", "%1lf", &d)); ovs_assert(!ovs_scan("-1e5", "%2lf %*f", &d)); ovs_assert(d == -1); ovs_assert(!ovs_scan("-.25", "%2lf", &d)); ovs_assert(!ovs_scan("+123.e1", "%6lf", &d)); ovs_assert(!ovs_scan("25e-2", "%4lf", &d)); ovs_assert(ovs_scan("0.25", "%Lf", &ld)); ovs_assert(ld == 0.25); ovs_assert(ovs_scan("1.0", "%Lf", &ld)); ovs_assert(ld == 1.0); ovs_assert(ovs_scan("-5", "%Lf", &ld)); ovs_assert(ld == -5.0); ovs_assert(ovs_scan("+6", "%Lf", &ld)); ovs_assert(ld == 6.0); ovs_assert(ovs_scan("-1e5", "%Lf", &ld)); ovs_assert(ld == -1e5); ovs_assert(ovs_scan("-.25", "%Lf", &ld)); ovs_assert(ld == -.25); ovs_assert(ovs_scan("+123.e1", "%Lf", &ld)); ovs_assert(ld == 1230.0); ovs_assert(ovs_scan("25e-2", "%Lf", &ld)); ovs_assert(ld == 0.25); ovs_assert(ovs_scan("0.25", "%1Lf %Lf", &ld, &ld2)); ovs_assert(ld == 0); ovs_assert(ld2 == 0.25); ovs_assert(ovs_scan("1.0", "%2Lf %Lf", &ld, &ld2)); ovs_assert(ld == 1.0); ovs_assert(ld2 == 0.0); ovs_assert(!ovs_scan("-5", "%1Lf", &ld)); ovs_assert(!ovs_scan("+6", "%1Lf", &ld)); ovs_assert(!ovs_scan("-1e5", "%2Lf %*f", &ld)); ovs_assert(ld == -1); ovs_assert(!ovs_scan("-.25", "%2Lf", &ld)); ovs_assert(!ovs_scan("+123.e1", "%6Lf", &ld)); ovs_assert(!ovs_scan("25e-2", "%4Lf", &ld)); ovs_assert(ovs_scan(" Hello,\tworld ", "%*s%n%*s%n", &n, &n2)); ovs_assert(n == 7); ovs_assert(n2 == 13); ovs_assert(!ovs_scan(" Hello,\tworld ", "%*s%*s%*s")); ovs_assert(ovs_scan(" Hello,\tworld ", "%6s%n%5s%n", str, &n, str2, &n2)); ovs_assert(!strcmp(str, "Hello,")); ovs_assert(n == 7); ovs_assert(!strcmp(str2, "world")); ovs_assert(n2 == 13); ovs_assert(ovs_scan(" Hello,\tworld ", "%5s%5s%5s", str, str2, str3)); ovs_assert(!strcmp(str, "Hello")); ovs_assert(!strcmp(str2, ",")); ovs_assert(!strcmp(str3, "world")); ovs_assert(!ovs_scan(" ", "%*s")); ovs_assert(ovs_scan(" Hello,\tworld ", "%*c%n%*c%n%c%n", &n, &n2, &c, &n3)); ovs_assert(n == 1); ovs_assert(n2 == 2); ovs_assert(c == 'e'); ovs_assert(n3 == 3); ovs_assert(ovs_scan(" Hello,\tworld ", "%*5c%5c", str)); ovs_assert(!memcmp(str, "o,\two", 5)); ovs_assert(!ovs_scan(" Hello,\tworld ", "%*15c")); ovs_assert(ovs_scan("0x1234xyzzy", "%9[x0-9a-fA-F]%n", str, &n)); ovs_assert(!strcmp(str, "0x1234x")); ovs_assert(n == 7); ovs_assert(ovs_scan("foo:bar=baz", "%5[^:=]%n:%5[^:=]%n=%5[^:=]%n", str, &n, str2, &n2, str3, &n3)); ovs_assert(!strcmp(str, "foo")); ovs_assert(n == 3); ovs_assert(!strcmp(str2, "bar")); ovs_assert(n2 == 7); ovs_assert(!strcmp(str3, "baz")); ovs_assert(n3 == 11); ovs_assert(!ovs_scan(" ", "%*[0-9]")); ovs_assert(ovs_scan("0x123a]4xyzzy-", "%[]x0-9a-fA-F]", str)); ovs_assert(!strcmp(str, "0x123a]4x")); ovs_assert(ovs_scan("abc]xyz","%[^]xyz]", str)); ovs_assert(!strcmp(str, "abc")); ovs_assert(!ovs_scan("0x123a]4xyzzy-", "%[x0-9]a-fA-F]", str)); ovs_assert(ovs_scan("0x12-3]xyz", "%[x0-9a-f-]", str)); ovs_assert(!strcmp(str, "0x12-3")); ovs_assert(ovs_scan("0x12-3]xyz", "%[^a-f-]", str)); ovs_assert(!strcmp(str, "0x12")); ovs_assert(sscanf("0x12-3]xyz", "%[^-a-f]", str)); ovs_assert(!strcmp(str, "0x12")); } static void test_snprintf(struct ovs_cmdl_context *ctx OVS_UNUSED) { char s[16]; #if __GNUC__ >= 7 /* GCC 7+ warns about the following calls that truncate a string using * snprintf(). We're testing that truncation works properly, so * temporarily disable the warning. */ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wformat-truncation" #endif ovs_assert(snprintf(s, 4, "abcde") == 5); ovs_assert(!strcmp(s, "abc")); ovs_assert(snprintf(s, 5, "abcde") == 5); ovs_assert(!strcmp(s, "abcd")); #if __GNUC__ >= 7 #pragma GCC diagnostic pop #endif ovs_assert(snprintf(s, 6, "abcde") == 5); ovs_assert(!strcmp(s, "abcde")); ovs_assert(snprintf(NULL, 0, "abcde") == 5); } static void check_sat(long long int x, long long int y, const char *op, long long int r_a, long long int r_b) { if (r_a != r_b) { fprintf(stderr, "%lld %s %lld saturates differently: %lld vs %lld\n", x, op, y, r_a, r_b); abort(); } } static void test_sat_math(struct ovs_cmdl_context *ctx OVS_UNUSED) { long long int values[] = { LLONG_MIN, LLONG_MIN + 1, LLONG_MIN + 2, LLONG_MIN + 3, LLONG_MIN + 4, LLONG_MIN + 5, LLONG_MIN + 6, LLONG_MIN + 7, LLONG_MIN / 2, LLONG_MIN / 3, LLONG_MIN / 4, LLONG_MIN / 5, -1000, -50, -10, -9, -8, -7, -6, -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 50, 1000, LLONG_MAX / 5, LLONG_MAX / 4, LLONG_MAX / 3, LLONG_MAX / 2, LLONG_MAX - 7, LLONG_MAX - 6, LLONG_MAX - 5, LLONG_MAX - 4, LLONG_MAX - 3, LLONG_MAX - 2, LLONG_MAX - 1, LLONG_MAX, }; /* Compare the behavior of our local implementation of these functions * against the compiler implementation or its fallback. (If the fallback * is in use then this is comparing the fallback to itself, so this test is * only really useful if the compiler has an implementation.) */ for (long long int *x = values; x < values + ARRAY_SIZE(values); x++) { for (long long int *y = values; y < values + ARRAY_SIZE(values); y++) { check_sat(*x, *y, "+", llsat_add(*x, *y), llsat_add__(*x, *y)); check_sat(*x, *y, "-", llsat_sub(*x, *y), llsat_sub__(*x, *y)); check_sat(*x, *y, "*", llsat_mul(*x, *y), llsat_mul__(*x, *y)); } } } #ifndef _WIN32 static void test_file_name(struct ovs_cmdl_context *ctx) { int i; for (i = 1; i < ctx->argc; i++) { char *dir, *base; dir = dir_name(ctx->argv[i]); puts(dir); free(dir); base = base_name(ctx->argv[i]); puts(base); free(base); } } #endif /* _WIN32 */ static const struct ovs_cmdl_command commands[] = { {"ctz", NULL, 0, 0, test_ctz, OVS_RO}, {"clz", NULL, 0, 0, test_clz, OVS_RO}, {"round_up_pow2", NULL, 0, 0, test_round_up_pow2, OVS_RO}, {"round_down_pow2", NULL, 0, 0, test_round_down_pow2, OVS_RO}, {"count_1bits", NULL, 0, 0, test_count_1bits, OVS_RO}, {"log_2_floor", NULL, 0, 0, test_log_2_floor, OVS_RO}, {"bitwise_copy", NULL, 0, 0, test_bitwise_copy, OVS_RO}, {"bitwise_zero", NULL, 0, 0, test_bitwise_zero, OVS_RO}, {"bitwise_one", NULL, 0, 0, test_bitwise_one, OVS_RO}, {"bitwise_is_all_zeros", NULL, 0, 0, test_bitwise_is_all_zeros, OVS_RO}, {"bitwise_rscan", NULL, 0, 0, test_bitwise_rscan, OVS_RO}, {"follow-symlinks", NULL, 1, INT_MAX, test_follow_symlinks, OVS_RO}, {"assert", NULL, 0, 0, test_assert, OVS_RO}, {"ovs_scan", NULL, 0, 0, test_ovs_scan, OVS_RO}, {"snprintf", NULL, 0, 0, test_snprintf, OVS_RO}, {"sat_math", NULL, 0, 0, test_sat_math, OVS_RO}, #ifndef _WIN32 {"file_name", NULL, 1, INT_MAX, test_file_name, OVS_RO}, #endif {NULL, NULL, 0, 0, NULL, OVS_RO}, }; static void parse_options(int argc, char *argv[]) { enum { VLOG_OPTION_ENUMS }; static const struct option long_options[] = { VLOG_LONG_OPTIONS, {NULL, 0, NULL, 0}, }; char *short_options = ovs_cmdl_long_options_to_short_options(long_options); for (;;) { int c = getopt_long(argc, argv, short_options, long_options, NULL); if (c == -1) { break; } switch (c) { VLOG_OPTION_HANDLERS case '?': exit(EXIT_FAILURE); default: abort(); } } free(short_options); } static void test_util_main(int argc, char *argv[]) { struct ovs_cmdl_context ctx = { .argc = 0, }; set_program_name(argv[0]); parse_options(argc, argv); /* On Windows, stderr is fully buffered if connected to a pipe. * Make it _IONBF so that an abort does not miss log contents. * POSIX doesn't define the circumstances in which stderr is * fully buffered either. */ setvbuf(stderr, NULL, _IONBF, 0); ctx.argc = argc - optind; ctx.argv = argv + optind; ovs_cmdl_run_command(&ctx, commands); } OVSTEST_REGISTER("test-util", test_util_main);