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path: root/src/libutil/shingles.c
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/*-
 * Copyright 2016 Vsevolod Stakhov
 *
 * 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 "shingles.h"
#include "fstring.h"
#include "cryptobox.h"
#include "images.h"
#include "libstat/stat_api.h"

#define SHINGLES_WINDOW 3
#define SHINGLES_KEY_SIZE rspamd_cryptobox_SIPKEYBYTES

static unsigned int
rspamd_shingles_keys_hash(gconstpointer k)
{
	return rspamd_cryptobox_fast_hash(k, SHINGLES_KEY_SIZE,
									  rspamd_hash_seed());
}

static gboolean
rspamd_shingles_keys_equal(gconstpointer k1, gconstpointer k2)
{
	return (memcmp(k1, k2, SHINGLES_KEY_SIZE) == 0);
}

static void
rspamd_shingles_keys_free(gpointer p)
{
	unsigned char **k = p;
	unsigned int i;

	for (i = 0; i < RSPAMD_SHINGLE_SIZE; i++) {
		g_free(k[i]);
	}

	g_free(k);
}

static unsigned char **
rspamd_shingles_keys_new(void)
{
	unsigned char **k;
	unsigned int i;

	k = g_malloc0(sizeof(unsigned char *) * RSPAMD_SHINGLE_SIZE);

	for (i = 0; i < RSPAMD_SHINGLE_SIZE; i++) {
		k[i] = g_malloc0(sizeof(unsigned char) * SHINGLES_KEY_SIZE);
	}

	return k;
}

static unsigned char **
rspamd_shingles_get_keys_cached(const unsigned char key[SHINGLES_KEY_SIZE])
{
	static GHashTable *ht = NULL;
	unsigned char **keys = NULL, *key_cpy;
	rspamd_cryptobox_hash_state_t bs;
	const unsigned char *cur_key;
	unsigned char shabuf[rspamd_cryptobox_HASHBYTES], *out_key;
	unsigned int i;

	if (ht == NULL) {
		ht = g_hash_table_new_full(rspamd_shingles_keys_hash,
								   rspamd_shingles_keys_equal, g_free, rspamd_shingles_keys_free);
	}
	else {
		keys = g_hash_table_lookup(ht, key);
	}

	if (keys == NULL) {
		keys = rspamd_shingles_keys_new();
		key_cpy = g_malloc(SHINGLES_KEY_SIZE);
		memcpy(key_cpy, key, SHINGLES_KEY_SIZE);

		/* Generate keys */
		rspamd_cryptobox_hash_init(&bs, NULL, 0);
		cur_key = key;

		for (i = 0; i < RSPAMD_SHINGLE_SIZE; i++) {
			/*
			 * To generate a set of hashes we just apply sha256 to the
			 * initial key as many times as many hashes are required and
			 * xor left and right parts of sha256 to get a single 16 bytes SIP key.
			 */
			out_key = keys[i];
			rspamd_cryptobox_hash_update(&bs, cur_key, 16);
			rspamd_cryptobox_hash_final(&bs, shabuf);

			memcpy(out_key, shabuf, 16);
			rspamd_cryptobox_hash_init(&bs, NULL, 0);
			cur_key = out_key;
		}

		g_hash_table_insert(ht, key_cpy, keys);
	}

	return keys;
}

struct rspamd_shingle *RSPAMD_OPTIMIZE("unroll-loops")
	rspamd_shingles_from_text(GArray *input,
							  const unsigned char key[16],
							  rspamd_mempool_t *pool,
							  rspamd_shingles_filter filter,
							  gpointer filterd,
							  enum rspamd_shingle_alg alg)
{
	struct rspamd_shingle *res;
	uint64_t **hashes;
	unsigned char **keys;
	rspamd_fstring_t *row;
	rspamd_stat_token_t *word;
	uint64_t val;
	int i, j, k;
	gsize hlen, ilen = 0, beg = 0, widx = 0;
	enum rspamd_cryptobox_fast_hash_type ht;

	if (pool != NULL) {
		res = rspamd_mempool_alloc(pool, sizeof(*res));
	}
	else {
		res = g_malloc(sizeof(*res));
	}

	row = rspamd_fstring_sized_new(256);

	for (i = 0; i < input->len; i++) {
		word = &g_array_index(input, rspamd_stat_token_t, i);

		if (!((word->flags & RSPAMD_STAT_TOKEN_FLAG_SKIPPED) || word->stemmed.len == 0)) {
			ilen++;
		}
	}

	/* Init hashes pipes and keys */
	hashes = g_malloc(sizeof(*hashes) * RSPAMD_SHINGLE_SIZE);
	hlen = ilen > SHINGLES_WINDOW ? (ilen - SHINGLES_WINDOW + 1) : 1;
	keys = rspamd_shingles_get_keys_cached(key);

	for (i = 0; i < RSPAMD_SHINGLE_SIZE; i++) {
		hashes[i] = g_malloc(hlen * sizeof(uint64_t));
	}

	/* Now parse input words into a vector of hashes using rolling window */
	if (alg == RSPAMD_SHINGLES_OLD) {
		for (i = 0; i <= (int) ilen; i++) {
			if (i - beg >= SHINGLES_WINDOW || i == (int) ilen) {
				for (j = beg; j < i; j++) {

					word = NULL;
					while (widx < input->len) {
						word = &g_array_index(input, rspamd_stat_token_t, widx);

						if ((word->flags & RSPAMD_STAT_TOKEN_FLAG_SKIPPED) || word->stemmed.len == 0) {
							widx++;
						}
						else {
							break;
						}
					}

					if (word == NULL) {
						/* Nothing but exceptions */
						for (i = 0; i < RSPAMD_SHINGLE_SIZE; i++) {
							g_free(hashes[i]);
						}

						g_free(hashes);

						if (pool == NULL) {
							g_free(res);
						}

						rspamd_fstring_free(row);

						return NULL;
					}

					row = rspamd_fstring_append(row, word->stemmed.begin,
												word->stemmed.len);
				}

				/* Now we need to create a new row here */
				for (j = 0; j < RSPAMD_SHINGLE_SIZE; j++) {
					rspamd_cryptobox_siphash((unsigned char *) &val, row->str, row->len,
											 keys[j]);
					g_assert(hlen > beg);
					hashes[j][beg] = val;
				}

				beg++;
				widx++;

				row = rspamd_fstring_assign(row, "", 0);
			}
		}
	}
	else {
		uint64_t window[SHINGLES_WINDOW * RSPAMD_SHINGLE_SIZE], seed;

		switch (alg) {
		case RSPAMD_SHINGLES_XXHASH:
			ht = RSPAMD_CRYPTOBOX_XXHASH64;
			break;
		case RSPAMD_SHINGLES_MUMHASH:
			ht = RSPAMD_CRYPTOBOX_MUMHASH;
			break;
		default:
			ht = RSPAMD_CRYPTOBOX_HASHFAST_INDEPENDENT;
			break;
		}

		memset(window, 0, sizeof(window));
		for (i = 0; i <= ilen; i++) {
			if (i - beg >= SHINGLES_WINDOW || i == ilen) {

				for (j = 0; j < RSPAMD_SHINGLE_SIZE; j++) {
					/* Shift hashes window to right */
					for (k = 0; k < SHINGLES_WINDOW - 1; k++) {
						window[j * SHINGLES_WINDOW + k] =
							window[j * SHINGLES_WINDOW + k + 1];
					}

					word = NULL;

					while (widx < input->len) {
						word = &g_array_index(input, rspamd_stat_token_t, widx);

						if ((word->flags & RSPAMD_STAT_TOKEN_FLAG_SKIPPED) || word->stemmed.len == 0) {
							widx++;
						}
						else {
							break;
						}
					}

					if (word == NULL) {
						/* Nothing but exceptions */
						for (i = 0; i < RSPAMD_SHINGLE_SIZE; i++) {
							g_free(hashes[i]);
						}

						if (pool == NULL) {
							g_free(res);
						}

						g_free(hashes);
						rspamd_fstring_free(row);

						return NULL;
					}

					/* Insert the last element to the pipe */
					memcpy(&seed, keys[j], sizeof(seed));
					window[j * SHINGLES_WINDOW + SHINGLES_WINDOW - 1] =
						rspamd_cryptobox_fast_hash_specific(ht,
															word->stemmed.begin, word->stemmed.len,
															seed);
					val = 0;
					for (k = 0; k < SHINGLES_WINDOW; k++) {
						val ^= window[j * SHINGLES_WINDOW + k] >>
							   (8 * (SHINGLES_WINDOW - k - 1));
					}

					g_assert(hlen > beg);
					hashes[j][beg] = val;
				}

				beg++;
				widx++;
			}
		}
	}

	/* Now we need to filter all hashes and make a shingles result */
	for (i = 0; i < RSPAMD_SHINGLE_SIZE; i++) {
		res->hashes[i] = filter(hashes[i], hlen,
								i, key, filterd);
		g_free(hashes[i]);
	}

	g_free(hashes);

	rspamd_fstring_free(row);

	return res;
}

struct rspamd_shingle *RSPAMD_OPTIMIZE("unroll-loops")
	rspamd_shingles_from_image(unsigned char *dct,
							   const unsigned char key[16],
							   rspamd_mempool_t *pool,
							   rspamd_shingles_filter filter,
							   gpointer filterd,
							   enum rspamd_shingle_alg alg)
{
	struct rspamd_shingle *shingle;
	uint64_t **hashes;
	unsigned char **keys;
	uint64_t d;
	uint64_t val;
	int i, j;
	gsize hlen, beg = 0;
	enum rspamd_cryptobox_fast_hash_type ht;
	uint64_t res[SHINGLES_WINDOW * RSPAMD_SHINGLE_SIZE], seed;

	if (pool != NULL) {
		shingle = rspamd_mempool_alloc(pool, sizeof(*shingle));
	}
	else {
		shingle = g_malloc(sizeof(*shingle));
	}

	/* Init hashes pipes and keys */
	hashes = g_malloc(sizeof(*hashes) * RSPAMD_SHINGLE_SIZE);
	hlen = RSPAMD_DCT_LEN / NBBY + 1;
	keys = rspamd_shingles_get_keys_cached(key);

	for (i = 0; i < RSPAMD_SHINGLE_SIZE; i++) {
		hashes[i] = g_malloc(hlen * sizeof(uint64_t));
	}

	switch (alg) {
	case RSPAMD_SHINGLES_OLD:
		ht = RSPAMD_CRYPTOBOX_MUMHASH;
		break;
	case RSPAMD_SHINGLES_XXHASH:
		ht = RSPAMD_CRYPTOBOX_XXHASH64;
		break;
	case RSPAMD_SHINGLES_MUMHASH:
		ht = RSPAMD_CRYPTOBOX_MUMHASH;
		break;
	default:
		ht = RSPAMD_CRYPTOBOX_HASHFAST_INDEPENDENT;
		break;
	}

	memset(res, 0, sizeof(res));
#define INNER_CYCLE_SHINGLES(s, e)                               \
	for (j = (s); j < (e); j++) {                                \
		d = dct[beg];                                            \
		memcpy(&seed, keys[j], sizeof(seed));                    \
		val = rspamd_cryptobox_fast_hash_specific(ht,            \
												  &d, sizeof(d), \
												  seed);         \
		hashes[j][beg] = val;                                    \
	}
	for (i = 0; i < RSPAMD_DCT_LEN / NBBY; i++) {
		INNER_CYCLE_SHINGLES(0, RSPAMD_SHINGLE_SIZE / 4);
		INNER_CYCLE_SHINGLES(RSPAMD_SHINGLE_SIZE / 4, RSPAMD_SHINGLE_SIZE / 2);
		INNER_CYCLE_SHINGLES(RSPAMD_SHINGLE_SIZE / 2, 3 * RSPAMD_SHINGLE_SIZE / 4);
		INNER_CYCLE_SHINGLES(3 * RSPAMD_SHINGLE_SIZE / 4, RSPAMD_SHINGLE_SIZE);

		beg++;
	}
#undef INNER_CYCLE_SHINGLES
	/* Now we need to filter all hashes and make a shingles result */
	for (i = 0; i < RSPAMD_SHINGLE_SIZE; i++) {
		shingle->hashes[i] = filter(hashes[i], hlen,
									i, key, filterd);
		g_free(hashes[i]);
	}

	g_free(hashes);

	return shingle;
}

uint64_t
rspamd_shingles_default_filter(uint64_t *input, gsize count,
							   int shno, const unsigned char *key, gpointer ud)
{
	uint64_t minimal = G_MAXUINT64;
	gsize i;

	for (i = 0; i < count; i++) {
		if (minimal > input[i]) {
			minimal = input[i];
		}
	}

	return minimal;
}


double rspamd_shingles_compare(const struct rspamd_shingle *a,
							   const struct rspamd_shingle *b)
{
	int i, common = 0;

	for (i = 0; i < RSPAMD_SHINGLE_SIZE; i++) {
		if (a->hashes[i] == b->hashes[i]) {
			common++;
		}
	}

	return (double) common / (double) RSPAMD_SHINGLE_SIZE;
}