mirror of
https://github.com/git/git
synced 2024-10-30 14:03:28 +00:00
12192a9db9
The BIDX chunk tells us the offsets at which each commit's Bloom filters can be found in the BDAT chunk. We compute the length of each filter by checking the offsets of neighbors and subtracting them. If the offsets are out of order, then we'll get a negative length, which we then store as a very large unsigned value. This can cause us to read out-of-bounds memory, as we access the hash data modulo "filter->len * BITS_PER_WORD". We can easily detect this case when loading the individual filters. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
362 lines
9.2 KiB
C
362 lines
9.2 KiB
C
#include "git-compat-util.h"
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#include "bloom.h"
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#include "diff.h"
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#include "diffcore.h"
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#include "revision.h"
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#include "hashmap.h"
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#include "commit-graph.h"
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#include "commit.h"
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#include "commit-slab.h"
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define_commit_slab(bloom_filter_slab, struct bloom_filter);
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static struct bloom_filter_slab bloom_filters;
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struct pathmap_hash_entry {
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struct hashmap_entry entry;
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const char path[FLEX_ARRAY];
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};
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static uint32_t rotate_left(uint32_t value, int32_t count)
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{
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uint32_t mask = 8 * sizeof(uint32_t) - 1;
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count &= mask;
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return ((value << count) | (value >> ((-count) & mask)));
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}
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static inline unsigned char get_bitmask(uint32_t pos)
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{
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return ((unsigned char)1) << (pos & (BITS_PER_WORD - 1));
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}
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static int check_bloom_offset(struct commit_graph *g, uint32_t pos,
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uint32_t offset)
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{
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/*
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* Note that we allow offsets equal to the data size, which would set
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* our pointers at one past the end of the chunk memory. This is
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* necessary because the on-disk index points to the end of the
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* entries (so we can compute size by comparing adjacent ones). And
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* naturally the final entry's end is one-past-the-end of the chunk.
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*/
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if (offset <= g->chunk_bloom_data_size - BLOOMDATA_CHUNK_HEADER_SIZE)
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return 0;
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warning("ignoring out-of-range offset (%"PRIuMAX") for changed-path"
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" filter at pos %"PRIuMAX" of %s (chunk size: %"PRIuMAX")",
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(uintmax_t)offset, (uintmax_t)pos,
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g->filename, (uintmax_t)g->chunk_bloom_data_size);
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return -1;
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}
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static int load_bloom_filter_from_graph(struct commit_graph *g,
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struct bloom_filter *filter,
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uint32_t graph_pos)
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{
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uint32_t lex_pos, start_index, end_index;
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while (graph_pos < g->num_commits_in_base)
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g = g->base_graph;
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/* The commit graph commit 'c' lives in doesn't carry Bloom filters. */
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if (!g->chunk_bloom_indexes)
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return 0;
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lex_pos = graph_pos - g->num_commits_in_base;
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end_index = get_be32(g->chunk_bloom_indexes + 4 * lex_pos);
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if (lex_pos > 0)
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start_index = get_be32(g->chunk_bloom_indexes + 4 * (lex_pos - 1));
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else
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start_index = 0;
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if (check_bloom_offset(g, lex_pos, end_index) < 0 ||
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check_bloom_offset(g, lex_pos - 1, start_index) < 0)
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return 0;
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if (end_index < start_index) {
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warning("ignoring decreasing changed-path index offsets"
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" (%"PRIuMAX" > %"PRIuMAX") for positions"
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" %"PRIuMAX" and %"PRIuMAX" of %s",
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(uintmax_t)start_index, (uintmax_t)end_index,
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(uintmax_t)(lex_pos-1), (uintmax_t)lex_pos,
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g->filename);
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return 0;
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}
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filter->len = end_index - start_index;
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filter->data = (unsigned char *)(g->chunk_bloom_data +
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sizeof(unsigned char) * start_index +
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BLOOMDATA_CHUNK_HEADER_SIZE);
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return 1;
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}
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/*
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* Calculate the murmur3 32-bit hash value for the given data
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* using the given seed.
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* Produces a uniformly distributed hash value.
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* Not considered to be cryptographically secure.
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* Implemented as described in https://en.wikipedia.org/wiki/MurmurHash#Algorithm
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*/
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uint32_t murmur3_seeded(uint32_t seed, const char *data, size_t len)
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{
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const uint32_t c1 = 0xcc9e2d51;
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const uint32_t c2 = 0x1b873593;
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const uint32_t r1 = 15;
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const uint32_t r2 = 13;
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const uint32_t m = 5;
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const uint32_t n = 0xe6546b64;
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int i;
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uint32_t k1 = 0;
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const char *tail;
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int len4 = len / sizeof(uint32_t);
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uint32_t k;
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for (i = 0; i < len4; i++) {
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uint32_t byte1 = (uint32_t)data[4*i];
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uint32_t byte2 = ((uint32_t)data[4*i + 1]) << 8;
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uint32_t byte3 = ((uint32_t)data[4*i + 2]) << 16;
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uint32_t byte4 = ((uint32_t)data[4*i + 3]) << 24;
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k = byte1 | byte2 | byte3 | byte4;
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k *= c1;
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k = rotate_left(k, r1);
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k *= c2;
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seed ^= k;
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seed = rotate_left(seed, r2) * m + n;
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}
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tail = (data + len4 * sizeof(uint32_t));
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switch (len & (sizeof(uint32_t) - 1)) {
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case 3:
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k1 ^= ((uint32_t)tail[2]) << 16;
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/*-fallthrough*/
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case 2:
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k1 ^= ((uint32_t)tail[1]) << 8;
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/*-fallthrough*/
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case 1:
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k1 ^= ((uint32_t)tail[0]) << 0;
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k1 *= c1;
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k1 = rotate_left(k1, r1);
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k1 *= c2;
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seed ^= k1;
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break;
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}
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seed ^= (uint32_t)len;
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seed ^= (seed >> 16);
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seed *= 0x85ebca6b;
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seed ^= (seed >> 13);
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seed *= 0xc2b2ae35;
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seed ^= (seed >> 16);
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return seed;
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}
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void fill_bloom_key(const char *data,
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size_t len,
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struct bloom_key *key,
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const struct bloom_filter_settings *settings)
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{
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int i;
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const uint32_t seed0 = 0x293ae76f;
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const uint32_t seed1 = 0x7e646e2c;
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const uint32_t hash0 = murmur3_seeded(seed0, data, len);
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const uint32_t hash1 = murmur3_seeded(seed1, data, len);
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key->hashes = (uint32_t *)xcalloc(settings->num_hashes, sizeof(uint32_t));
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for (i = 0; i < settings->num_hashes; i++)
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key->hashes[i] = hash0 + i * hash1;
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}
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void clear_bloom_key(struct bloom_key *key)
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{
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FREE_AND_NULL(key->hashes);
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}
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void add_key_to_filter(const struct bloom_key *key,
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struct bloom_filter *filter,
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const struct bloom_filter_settings *settings)
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{
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int i;
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uint64_t mod = filter->len * BITS_PER_WORD;
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for (i = 0; i < settings->num_hashes; i++) {
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uint64_t hash_mod = key->hashes[i] % mod;
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uint64_t block_pos = hash_mod / BITS_PER_WORD;
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filter->data[block_pos] |= get_bitmask(hash_mod);
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}
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}
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void init_bloom_filters(void)
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{
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init_bloom_filter_slab(&bloom_filters);
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}
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static int pathmap_cmp(const void *hashmap_cmp_fn_data UNUSED,
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const struct hashmap_entry *eptr,
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const struct hashmap_entry *entry_or_key,
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const void *keydata UNUSED)
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{
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const struct pathmap_hash_entry *e1, *e2;
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e1 = container_of(eptr, const struct pathmap_hash_entry, entry);
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e2 = container_of(entry_or_key, const struct pathmap_hash_entry, entry);
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return strcmp(e1->path, e2->path);
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}
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static void init_truncated_large_filter(struct bloom_filter *filter)
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{
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filter->data = xmalloc(1);
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filter->data[0] = 0xFF;
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filter->len = 1;
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}
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struct bloom_filter *get_or_compute_bloom_filter(struct repository *r,
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struct commit *c,
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int compute_if_not_present,
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const struct bloom_filter_settings *settings,
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enum bloom_filter_computed *computed)
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{
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struct bloom_filter *filter;
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int i;
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struct diff_options diffopt;
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if (computed)
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*computed = BLOOM_NOT_COMPUTED;
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if (!bloom_filters.slab_size)
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return NULL;
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filter = bloom_filter_slab_at(&bloom_filters, c);
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if (!filter->data) {
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uint32_t graph_pos;
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if (repo_find_commit_pos_in_graph(r, c, &graph_pos))
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load_bloom_filter_from_graph(r->objects->commit_graph,
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filter, graph_pos);
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}
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if (filter->data && filter->len)
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return filter;
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if (!compute_if_not_present)
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return NULL;
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repo_diff_setup(r, &diffopt);
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diffopt.flags.recursive = 1;
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diffopt.detect_rename = 0;
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diffopt.max_changes = settings->max_changed_paths;
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diff_setup_done(&diffopt);
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/* ensure commit is parsed so we have parent information */
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repo_parse_commit(r, c);
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if (c->parents)
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diff_tree_oid(&c->parents->item->object.oid, &c->object.oid, "", &diffopt);
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else
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diff_tree_oid(NULL, &c->object.oid, "", &diffopt);
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diffcore_std(&diffopt);
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if (diff_queued_diff.nr <= settings->max_changed_paths) {
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struct hashmap pathmap = HASHMAP_INIT(pathmap_cmp, NULL);
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struct pathmap_hash_entry *e;
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struct hashmap_iter iter;
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for (i = 0; i < diff_queued_diff.nr; i++) {
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const char *path = diff_queued_diff.queue[i]->two->path;
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/*
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* Add each leading directory of the changed file, i.e. for
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* 'dir/subdir/file' add 'dir' and 'dir/subdir' as well, so
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* the Bloom filter could be used to speed up commands like
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* 'git log dir/subdir', too.
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*
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* Note that directories are added without the trailing '/'.
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*/
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do {
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char *last_slash = strrchr(path, '/');
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FLEX_ALLOC_STR(e, path, path);
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hashmap_entry_init(&e->entry, strhash(path));
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if (!hashmap_get(&pathmap, &e->entry, NULL))
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hashmap_add(&pathmap, &e->entry);
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else
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free(e);
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if (!last_slash)
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last_slash = (char*)path;
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*last_slash = '\0';
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} while (*path);
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diff_free_filepair(diff_queued_diff.queue[i]);
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}
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if (hashmap_get_size(&pathmap) > settings->max_changed_paths) {
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init_truncated_large_filter(filter);
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if (computed)
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*computed |= BLOOM_TRUNC_LARGE;
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goto cleanup;
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}
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filter->len = (hashmap_get_size(&pathmap) * settings->bits_per_entry + BITS_PER_WORD - 1) / BITS_PER_WORD;
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if (!filter->len) {
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if (computed)
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*computed |= BLOOM_TRUNC_EMPTY;
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filter->len = 1;
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}
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CALLOC_ARRAY(filter->data, filter->len);
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hashmap_for_each_entry(&pathmap, &iter, e, entry) {
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struct bloom_key key;
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fill_bloom_key(e->path, strlen(e->path), &key, settings);
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add_key_to_filter(&key, filter, settings);
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clear_bloom_key(&key);
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}
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cleanup:
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hashmap_clear_and_free(&pathmap, struct pathmap_hash_entry, entry);
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} else {
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for (i = 0; i < diff_queued_diff.nr; i++)
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diff_free_filepair(diff_queued_diff.queue[i]);
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init_truncated_large_filter(filter);
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if (computed)
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*computed |= BLOOM_TRUNC_LARGE;
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}
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if (computed)
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*computed |= BLOOM_COMPUTED;
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free(diff_queued_diff.queue);
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DIFF_QUEUE_CLEAR(&diff_queued_diff);
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return filter;
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}
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int bloom_filter_contains(const struct bloom_filter *filter,
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const struct bloom_key *key,
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const struct bloom_filter_settings *settings)
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{
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int i;
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uint64_t mod = filter->len * BITS_PER_WORD;
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if (!mod)
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return -1;
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for (i = 0; i < settings->num_hashes; i++) {
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uint64_t hash_mod = key->hashes[i] % mod;
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uint64_t block_pos = hash_mod / BITS_PER_WORD;
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if (!(filter->data[block_pos] & get_bitmask(hash_mod)))
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return 0;
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}
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return 1;
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}
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