// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (C) 2008 Sun Microsystems, Inc. */ #include #include #include #include "checksum.h" #include "network.h" #include "prng.h" struct event_loop *master; struct acc_vals { int c0; int c1; }; struct csum_vals { struct acc_vals a; int x; int y; }; static struct csum_vals ospfd_vals, isisd_vals; typedef size_t testsz_t; typedef uint16_t testoff_t; /* Fletcher Checksum -- Refer to RFC1008. */ #define MODX 4102U /* The final reduction phase. * This one should be the original ospfd version */ static uint16_t reduce_ospfd(struct csum_vals *vals, testsz_t len, testoff_t off) { #define x vals->x #define y vals->y #define c0 vals->a.c0 #define c1 vals->a.c1 x = ((len - off - 1) * c0 - c1) % 255; if (x <= 0) x += 255; y = 510 - c0 - x; if (y > 255) y -= 255; /* take care endian issue. */ return htons((x << 8) + y); #undef x #undef y #undef c0 #undef c1 } /* slightly different concatenation */ static uint16_t reduce_ospfd1(struct csum_vals *vals, testsz_t len, testoff_t off) { #define x vals->x #define y vals->y #define c0 vals->a.c0 #define c1 vals->a.c1 x = ((len - off - 1) * c0 - c1) % 255; if (x <= 0) x += 255; y = 510 - c0 - x; if (y > 255) y -= 255; /* take care endian issue. */ return htons((x << 8) | (y & 0xff)); #undef x #undef y #undef c0 #undef c1 } /* original isisd version */ static uint16_t reduce_isisd(struct csum_vals *vals, testsz_t len, testoff_t off) { #define x vals->x #define y vals->y #define c0 vals->a.c0 #define c1 vals->a.c1 uint32_t mul; mul = (len - off) * (c0); x = mul - c0 - c1; y = c1 - mul - 1; if (y > 0) y++; if (x < 0) x--; x %= 255; y %= 255; if (x == 0) x = 255; if (y == 0) y = 1; return htons((x << 8) | (y & 0xff)); #undef x #undef y #undef c0 #undef c1 } /* Is the -1 in y wrong perhaps? */ static uint16_t reduce_isisd_yfix(struct csum_vals *vals, testsz_t len, testoff_t off) { #define x vals->x #define y vals->y #define c0 vals->a.c0 #define c1 vals->a.c1 uint32_t mul; mul = (len - off) * (c0); x = mul - c0 - c1; y = c1 - mul; if (y > 0) y++; if (x < 0) x--; x %= 255; y %= 255; if (x == 0) x = 255; if (y == 0) y = 1; return htons((x << 8) | (y & 0xff)); #undef x #undef y #undef c0 #undef c1 } /* Move the mods yp */ static uint16_t reduce_isisd_mod(struct csum_vals *vals, testsz_t len, testoff_t off) { #define x vals->x #define y vals->y #define c0 vals->a.c0 #define c1 vals->a.c1 uint32_t mul; mul = (len - off) * (c0); x = mul - c1 - c0; y = c1 - mul - 1; x %= 255; y %= 255; if (y > 0) y++; if (x < 0) x--; if (x == 0) x = 255; if (y == 0) y = 1; return htons((x << 8) | (y & 0xff)); #undef x #undef y #undef c0 #undef c1 } /* Move the mods up + fix y */ static uint16_t reduce_isisd_mody(struct csum_vals *vals, testsz_t len, testoff_t off) { #define x vals->x #define y vals->y #define c0 vals->a.c0 #define c1 vals->a.c1 uint32_t mul; mul = (len - off) * (c0); x = mul - c0 - c1; y = c1 - mul; x %= 255; y %= 255; if (y > 0) y++; if (x < 0) x--; if (x == 0) x = 255; if (y == 0) y = 1; return htons((x << 8) | (y & 0xff)); #undef x #undef y #undef c0 #undef c1 } struct reductions_t { const char *name; uint16_t (*f)(struct csum_vals *, testsz_t, testoff_t); } reducts[] = { {.name = "ospfd", .f = reduce_ospfd}, {.name = "ospfd-1", .f = reduce_ospfd1}, {.name = "isisd", .f = reduce_isisd}, {.name = "isisd-yfix", .f = reduce_isisd_yfix}, {.name = "isisd-mod", .f = reduce_isisd_mod}, {.name = "isisd-mody", .f = reduce_isisd_mody}, {NULL, NULL}, }; /* The original ospfd checksum */ static uint16_t ospfd_checksum(uint8_t *buffer, testsz_t len, testoff_t off) { uint8_t *sp, *ep, *p, *q; int c0 = 0, c1 = 0; int x, y; uint16_t checksum, *csum; csum = (uint16_t *)(buffer + off); *(csum) = 0; sp = buffer; for (ep = sp + len; sp < ep; sp = q) { q = sp + MODX; if (q > ep) q = ep; for (p = sp; p < q; p++) { c0 += *p; c1 += c0; } c0 %= 255; c1 %= 255; } ospfd_vals.a.c0 = c0; ospfd_vals.a.c1 = c1; // printf ("%s: len %u, off %u, c0 %d, c1 %d\n", // __func__, len, off, c0, c1); x = ((int)(len - off - 1) * (int)c0 - (int)c1) % 255; if (x <= 0) x += 255; y = 510 - c0 - x; if (y > 255) y -= 255; ospfd_vals.x = x; ospfd_vals.y = y; buffer[off] = x; buffer[off + 1] = y; /* take care endian issue. */ checksum = htons((x << 8) | (y & 0xff)); return (checksum); } /* the original, broken isisd checksum */ static uint16_t iso_csum_create(uint8_t *buffer, testsz_t len, testoff_t off) { uint8_t *p; int x; int y; uint32_t mul; uint32_t c0; uint32_t c1; uint16_t checksum, *csum; int i, init_len, partial_len; checksum = 0; csum = (uint16_t *)(buffer + off); *(csum) = checksum; p = buffer; c0 = 0; c1 = 0; init_len = len; while (len != 0) { partial_len = MIN(len, MODX); for (i = 0; i < partial_len; i++) { c0 = c0 + *(p++); c1 += c0; } c0 = c0 % 255; c1 = c1 % 255; len -= partial_len; } isisd_vals.a.c0 = c0; isisd_vals.a.c1 = c1; mul = (init_len - off) * c0; x = mul - c1 - c0; y = c1 - mul - 1; if (y > 0) y++; if (x < 0) x--; x %= 255; y %= 255; if (x == 0) x = 255; if (y == 0) y = 1; isisd_vals.x = x; isisd_vals.y = y; checksum = htons((x << 8) | (y & 0xFF)); *(csum) = checksum; /* return the checksum for user usage */ return checksum; } static int verify(uint8_t *buffer, testsz_t len) { uint8_t *p; uint32_t c0; uint32_t c1; int i, partial_len; p = buffer; c0 = 0; c1 = 0; while (len) { partial_len = MIN(len, 5803U); for (i = 0; i < partial_len; i++) { c0 = c0 + *(p++); c1 += c0; } c0 = c0 % 255; c1 = c1 % 255; len -= partial_len; } if (c0 == 0 && c1 == 0) return 0; return 1; } static int /* return checksum in low-order 16 bits */ in_cksum_optimized(void *parg, int nbytes) { unsigned short *ptr = parg; register long sum; /* assumes long == 32 bits */ register unsigned short answer; /* assumes unsigned short == 16 bits */ register int count; /* * Our algorithm is simple, using a 32-bit accumulator (sum), * we add sequential 16-bit words to it, and at the end, fold back * all the carry bits from the top 16 bits into the lower 16 bits. */ sum = 0; count = nbytes >> 1; /* div by 2 */ for (ptr--; count; --count) sum += *++ptr; if (nbytes & 1) /* Odd */ sum += *(uint8_t *)(++ptr); /* one byte only */ /* * Add back carry outs from top 16 bits to low 16 bits. */ sum = (sum >> 16) + (sum & 0xffff); /* add high-16 to low-16 */ sum += (sum >> 16); /* add carry */ answer = ~sum; /* ones-complement, then truncate to 16 bits */ return (answer); } static int /* return checksum in low-order 16 bits */ in_cksum_rfc(void *parg, int count) /* from RFC 1071 */ { unsigned short *addr = parg; /* Compute Internet Checksum for "count" bytes * beginning at location "addr". */ register long sum = 0; while (count > 1) { /* This is the inner loop */ sum += *addr++; count -= 2; } /* Add left-over byte, if any */ if (count > 0) { sum += *(uint8_t *)addr; } /* Fold 32-bit sum to 16 bits */ while (sum >> 16) sum = (sum & 0xffff) + (sum >> 16); return ~sum; } int main(int argc, char **argv) { /* 60017 65629 702179 */ #define MAXDATALEN 60017 #define BUFSIZE MAXDATALEN + sizeof(uint16_t) uint8_t buffer[BUFSIZE]; int exercise = 0; #define EXERCISESTEP 257 struct prng *prng = prng_new(0); while (1) { uint16_t ospfd, isisd, lib, in_csum, in_csum_res, in_csum_rfc; int i; exercise += EXERCISESTEP; exercise %= MAXDATALEN; printf("\rexercising length %d\033[K", exercise); for (i = 0; i < exercise; i++) buffer[i] = prng_rand(prng); in_csum = in_cksum(buffer, exercise); in_csum_res = in_cksum_optimized(buffer, exercise); in_csum_rfc = in_cksum_rfc(buffer, exercise); if (in_csum_res != in_csum || in_csum != in_csum_rfc) printf("\nverify: in_chksum failed in_csum:%x, in_csum_res:%x,in_csum_rfc %x, len:%d\n", in_csum, in_csum_res, in_csum_rfc, exercise); struct iovec iov[3]; uint16_t in_csum_iov; iov[0].iov_base = buffer; iov[0].iov_len = exercise / 2; iov[1].iov_base = buffer + iov[0].iov_len; iov[1].iov_len = exercise - iov[0].iov_len; in_csum_iov = in_cksumv(iov, 2); if (in_csum_iov != in_csum) printf("\nverify: in_cksumv failed, lens: %zu+%zu\n", iov[0].iov_len, iov[1].iov_len); if (exercise >= 6) { /* force split with byte leftover */ iov[0].iov_base = buffer; iov[0].iov_len = (exercise / 2) | 1; iov[1].iov_base = buffer + iov[0].iov_len; iov[1].iov_len = 2; iov[2].iov_base = buffer + iov[0].iov_len + 2; iov[2].iov_len = exercise - iov[0].iov_len - 2; in_csum_iov = in_cksumv(iov, 3); if (in_csum_iov != in_csum) printf("\nverify: in_cksumv failed, lens: %zu+%zu+%zu, got %04x, expected %04x\n", iov[0].iov_len, iov[1].iov_len, iov[2].iov_len, in_csum_iov, in_csum); /* force split without byte leftover */ iov[0].iov_base = buffer; iov[0].iov_len = (exercise / 2) & ~1UL; iov[1].iov_base = buffer + iov[0].iov_len; iov[1].iov_len = 2; iov[2].iov_base = buffer + iov[0].iov_len + 2; iov[2].iov_len = exercise - iov[0].iov_len - 2; in_csum_iov = in_cksumv(iov, 3); if (in_csum_iov != in_csum) printf("\nverify: in_cksumv failed, lens: %zu+%zu+%zu, got %04x, expected %04x\n", iov[0].iov_len, iov[1].iov_len, iov[2].iov_len, in_csum_iov, in_csum); } if (exercise >= FLETCHER_CHECKSUM_VALIDATE) continue; ospfd = ospfd_checksum(buffer, exercise + sizeof(uint16_t), exercise); if (verify(buffer, exercise + sizeof(uint16_t))) printf("\nverify: ospfd failed\n"); isisd = iso_csum_create(buffer, exercise + sizeof(uint16_t), exercise); if (verify(buffer, exercise + sizeof(uint16_t))) printf("\nverify: isisd failed\n"); lib = fletcher_checksum(buffer, exercise + sizeof(uint16_t), exercise); if (verify(buffer, exercise + sizeof(uint16_t))) printf("\nverify: lib failed\n"); if (ospfd != lib) { printf("\nMismatch in values at size %d\n" "ospfd: 0x%04x\tc0: %d\tc1: %d\tx: %d\ty: %d\n" "isisd: 0x%04x\tc0: %d\tc1: %d\tx: %d\ty: %d\n" "lib: 0x%04x\n", exercise, ospfd, ospfd_vals.a.c0, ospfd_vals.a.c1, ospfd_vals.x, ospfd_vals.y, isisd, isisd_vals.a.c0, isisd_vals.a.c1, isisd_vals.x, isisd_vals.y, lib); /* Investigate reduction phase discrepencies */ if (ospfd_vals.a.c0 == isisd_vals.a.c0 && ospfd_vals.a.c1 == isisd_vals.a.c1) { printf("\n"); for (i = 0; reducts[i].name != NULL; i++) { ospfd = reducts[i].f( &ospfd_vals, exercise + sizeof(uint16_t), exercise); printf("%20s: x: %02x, y %02x, checksum 0x%04x\n", reducts[i].name, ospfd_vals.x & 0xff, ospfd_vals.y & 0xff, ospfd); } } printf("\n uint8_t testdata [] = {\n "); for (i = 0; i < exercise; i++) { printf("0x%02x,%s", buffer[i], (i + 1) % 8 ? " " : "\n "); } printf("\n}\n"); exit(1); } } }