diff options
author | Damjan Marion <damarion@cisco.com> | 2022-03-26 00:57:50 +0100 |
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committer | Beno�t Ganne <bganne@cisco.com> | 2022-03-28 10:04:31 +0000 |
commit | 87997686ee9a6c7aecec423f05bec21a938ec9bb (patch) | |
tree | 9772c2abf6befda27715951e852d88eb5380f564 /src/vppinfra/hash.c | |
parent | a5bfe6cd0e0b1e413bbb2decfcdb97c65b79cbce (diff) |
vppinfra: avoid mem overflow in hash_memory()
Change-Id: Ic81aafd5f378de06e5ea8cdd6a59e07ff1a7afca
Type: improvement
Signed-off-by: Damjan Marion <damarion@cisco.com>
Diffstat (limited to 'src/vppinfra/hash.c')
-rw-r--r-- | src/vppinfra/hash.c | 230 |
1 files changed, 21 insertions, 209 deletions
diff --git a/src/vppinfra/hash.c b/src/vppinfra/hash.c index 7b8869254e1..7c1dcd4c57b 100644 --- a/src/vppinfra/hash.c +++ b/src/vppinfra/hash.c @@ -77,241 +77,53 @@ set_is_user (void *v, uword i, uword is_user) static u8 *hash_format_pair_default (u8 * s, va_list * args); -#if uword_bits == 64 - -static inline u64 -zap64 (u64 x, word n) -{ -#define _(n) (((u64) 1 << (u64) (8*(n))) - (u64) 1) - static u64 masks_little_endian[] = { - 0, _(1), _(2), _(3), _(4), _(5), _(6), _(7), - }; - static u64 masks_big_endian[] = { - 0, ~_(7), ~_(6), ~_(5), ~_(4), ~_(3), ~_(2), ~_(1), - }; -#undef _ - if (clib_arch_is_big_endian) - return x & masks_big_endian[n]; - else - return x & masks_little_endian[n]; -} - -/** - * make address-sanitizer skip this: - * clib_mem_unaligned + zap64 casts its input as u64, computes a mask - * according to the input length, and returns the casted maked value. - * Therefore all the 8 Bytes of the u64 are systematically read, which - * rightfully causes address-sanitizer to raise an error on smaller inputs. - * - * However the invalid Bytes are discarded within zap64(), which is why - * this can be silenced safely. - * - * The above is true *unless* the extra bytes cross a page boundary - * into unmapped or no-access space, hence the boundary crossing check. - */ -static inline u64 -hash_memory64 (void *p, word n_bytes, u64 state) +__clib_export uword +hash_memory (void *p, word n_bytes, uword state) { - u64 *q = p; + uword last[3] = {}; + uwordu *q = p; u64 a, b, c, n; - int page_boundary_crossing; - u64 start_addr, end_addr; - union - { - u8 as_u8[8]; - u64 as_u64; - } tmp; - - /* - * If the request crosses a 4k boundary, it's not OK to assume - * that the zap64 game is safe. 4k is the minimum known page size. - */ - start_addr = (u64) p; - end_addr = start_addr + n_bytes + 7; - page_boundary_crossing = (start_addr >> 12) != (end_addr >> 12); - - a = b = 0x9e3779b97f4a7c13LL; - c = state; - n = n_bytes; - - while (n >= 3 * sizeof (u64)) - { - a += clib_mem_unaligned (q + 0, u64); - b += clib_mem_unaligned (q + 1, u64); - c += clib_mem_unaligned (q + 2, u64); - hash_mix64 (a, b, c); - n -= 3 * sizeof (u64); - q += 3; - } - - c += n_bytes; - switch (n / sizeof (u64)) - { - case 2: - a += clib_mem_unaligned (q + 0, u64); - b += clib_mem_unaligned (q + 1, u64); - if (n % sizeof (u64)) - { - if (PREDICT_TRUE (page_boundary_crossing == 0)) - { - CLIB_MEM_OVERFLOW_PUSH (q + 2, sizeof (u64)); - c += zap64 (clib_mem_unaligned (q + 2, u64), n % sizeof (u64)) - << 8; - CLIB_MEM_OVERFLOW_POP (); - } - else - { - clib_memcpy_fast (tmp.as_u8, q + 2, n % sizeof (u64)); - c += zap64 (tmp.as_u64, n % sizeof (u64)) << 8; - } - } - break; - - case 1: - a += clib_mem_unaligned (q + 0, u64); - if (n % sizeof (u64)) - { - if (PREDICT_TRUE (page_boundary_crossing == 0)) - { - CLIB_MEM_OVERFLOW_PUSH (q + 1, sizeof (u64)); - b += zap64 (clib_mem_unaligned (q + 1, u64), n % sizeof (u64)); - CLIB_MEM_OVERFLOW_POP (); - } - else - { - clib_memcpy_fast (tmp.as_u8, q + 1, n % sizeof (u64)); - b += zap64 (tmp.as_u64, n % sizeof (u64)); - } - } - break; - - case 0: - if (n % sizeof (u64)) - { - if (PREDICT_TRUE (page_boundary_crossing == 0)) - { - CLIB_MEM_OVERFLOW_PUSH (q + 0, sizeof (u64)); - a += zap64 (clib_mem_unaligned (q + 0, u64), n % sizeof (u64)); - CLIB_MEM_OVERFLOW_POP (); - } - else - { - clib_memcpy_fast (tmp.as_u8, q, n % sizeof (u64)); - a += zap64 (tmp.as_u64, n % sizeof (u64)); - } - } - break; - } - - hash_mix64 (a, b, c); - return c; -} - -#else /* if uword_bits == 64 */ - -static inline u32 -zap32 (u32 x, word n) -{ -#define _(n) (((u32) 1 << (u32) (8*(n))) - (u32) 1) - static u32 masks_little_endian[] = { - 0, _(1), _(2), _(3), - }; - static u32 masks_big_endian[] = { - 0, ~_(3), ~_(2), ~_(1), - }; -#undef _ - if (clib_arch_is_big_endian) - return x & masks_big_endian[n]; - else - return x & masks_little_endian[n]; -} - -static inline u32 -hash_memory32 (void *p, word n_bytes, u32 state) -{ - u32 *q = p; - u32 a, b, c, n; - - a = b = 0x9e3779b9; + a = b = (uword_bits == 64) ? 0x9e3779b97f4a7c13LL : 0x9e3779b9; c = state; n = n_bytes; - while (n >= 3 * sizeof (u32)) + while (n >= 3 * sizeof (uword)) { - a += clib_mem_unaligned (q + 0, u32); - b += clib_mem_unaligned (q + 1, u32); - c += clib_mem_unaligned (q + 2, u32); - hash_mix32 (a, b, c); - n -= 3 * sizeof (u32); + a += q[0]; + b += q[1]; + c += q[2]; + hash_mix (a, b, c); + n -= 3 * sizeof (uword); q += 3; } c += n_bytes; - switch (n / sizeof (u32)) - { - case 2: - a += clib_mem_unaligned (q + 0, u32); - b += clib_mem_unaligned (q + 1, u32); - if (n % sizeof (u32)) - c += zap32 (clib_mem_unaligned (q + 2, u32), n % sizeof (u32)) << 8; - break; - case 1: - a += clib_mem_unaligned (q + 0, u32); - if (n % sizeof (u32)) - b += zap32 (clib_mem_unaligned (q + 1, u32), n % sizeof (u32)); - break; - - case 0: - if (n % sizeof (u32)) - a += zap32 (clib_mem_unaligned (q + 0, u32), n % sizeof (u32)); - break; + if (n > 0) + { + clib_memcpy_fast (&last, q, n); + a += last[0]; + b += last[1]; + c += last[2]; } - hash_mix32 (a, b, c); + hash_mix (a, b, c); return c; } -#endif - -__clib_export uword -hash_memory (void *p, word n_bytes, uword state) -{ - uword *q = p; - -#if uword_bits == 64 - return hash_memory64 (q, n_bytes, state); -#else - return hash_memory32 (q, n_bytes, state); -#endif -} - -#if uword_bits == 64 -always_inline uword -hash_uword (uword x) -{ - u64 a, b, c; - a = b = 0x9e3779b97f4a7c13LL; - c = 0; - a += x; - hash_mix64 (a, b, c); - return c; -} -#else always_inline uword hash_uword (uword x) { - u32 a, b, c; + uword a, b, c; - a = b = 0x9e3779b9; + a = b = (uword_bits == 64) ? 0x9e3779b97f4a7c13LL : 0x9e3779b9; c = 0; a += x; - hash_mix32 (a, b, c); + hash_mix (a, b, c); return c; } -#endif /* Call sum function. Hash code will be sum function value modulo the prime length of the hash table. */ |