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/*
* Copyright (c) 2016, Intel Corporation
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of Intel Corporation nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef STREAM_LONG_LIT_H
#define STREAM_LONG_LIT_H
#include "rose.h"
#include "rose_common.h"
#include "rose_internal.h"
#include "stream_long_lit_hash.h"
#include "util/compare.h"
#include "util/copybytes.h"
static really_inline
const struct RoseLongLitHashEntry *
getHashTableBase(const struct RoseLongLitTable *ll_table,
const struct RoseLongLitSubtable *ll_sub) {
assert(ll_sub->hashOffset);
return (const struct RoseLongLitHashEntry *)((const char *)ll_table +
ll_sub->hashOffset);
}
// Reads from stream state and unpacks values into stream state table.
static really_inline
void loadLongLitStreamState(const struct RoseLongLitTable *ll_table,
const u8 *ll_state, u32 *state_case,
u32 *state_nocase) {
assert(ll_table);
assert(ll_state);
assert(state_case && state_nocase);
u8 ss_bytes = ll_table->streamStateBytes;
u8 ssb = ll_table->caseful.streamStateBits;
UNUSED u8 ssb_nc = ll_table->nocase.streamStateBits;
assert(ss_bytes == (ssb + ssb_nc + 7) / 8);
#if defined(ARCH_32_BIT)
// On 32-bit hosts, we may be able to avoid having to do any u64a
// manipulation at all.
if (ss_bytes <= 4) {
u32 ssb_mask = (1U << ssb) - 1;
u32 streamVal = partial_load_u32(ll_state, ss_bytes);
*state_case = (u32)(streamVal & ssb_mask);
*state_nocase = (u32)(streamVal >> ssb);
return;
}
#endif
u64a ssb_mask = (1ULL << ssb) - 1;
u64a streamVal = partial_load_u64a(ll_state, ss_bytes);
*state_case = (u32)(streamVal & ssb_mask);
*state_nocase = (u32)(streamVal >> ssb);
}
static rose_inline
void loadLongLiteralStateMode(struct hs_scratch *scratch,
const struct RoseLongLitTable *ll_table,
const struct RoseLongLitSubtable *ll_sub,
const u32 state, const char nocase) {
if (!state) {
DEBUG_PRINTF("no state for %s\n", nocase ? "caseless" : "caseful");
return;
}
const struct RoseLongLitHashEntry *tab = getHashTableBase(ll_table, ll_sub);
const struct RoseLongLitHashEntry *ent = tab + state - 1;
assert(ent->str_offset + ent->str_len <= ll_table->size);
const u8 *found_buf = (const u8 *)ll_table + ent->str_offset;
size_t found_sz = ent->str_len;
struct RoseContext *tctxt = &scratch->tctxt;
if (nocase) {
tctxt->ll_buf_nocase = found_buf;
tctxt->ll_len_nocase = found_sz;
} else {
tctxt->ll_buf = found_buf;
tctxt->ll_len = found_sz;
}
}
static rose_inline
void loadLongLiteralState(const struct RoseEngine *t, char *state,
struct hs_scratch *scratch) {
if (!t->longLitTableOffset) {
return;
}
// If we don't have any long literals in play, these values must point to
// the real history buffer so that CHECK_LONG_LIT instructions examine the
// history buffer.
scratch->tctxt.ll_buf = scratch->core_info.hbuf;
scratch->tctxt.ll_len = scratch->core_info.hlen;
scratch->tctxt.ll_buf_nocase = scratch->core_info.hbuf;
scratch->tctxt.ll_len_nocase = scratch->core_info.hlen;
if (!scratch->core_info.hlen) {
return;
}
const struct RoseLongLitTable *ll_table =
getByOffset(t, t->longLitTableOffset);
const u8 *ll_state = getLongLitState(t, state);
u32 state_case;
u32 state_nocase;
loadLongLitStreamState(ll_table, ll_state, &state_case, &state_nocase);
DEBUG_PRINTF("loaded {%u, %u}\n", state_case, state_nocase);
loadLongLiteralStateMode(scratch, ll_table, &ll_table->caseful,
state_case, 0);
loadLongLiteralStateMode(scratch, ll_table, &ll_table->nocase,
state_nocase, 1);
}
static rose_inline
char confirmLongLiteral(const struct RoseLongLitTable *ll_table,
const struct hs_scratch *scratch,
const struct RoseLongLitHashEntry *ent,
const char nocase) {
assert(ent->str_offset + ent->str_len <= ll_table->size);
const u8 *s = (const u8 *)ll_table + ent->str_offset;
size_t len = ent->str_len;
const u8 *buf = scratch->core_info.buf;
const size_t buf_len = scratch->core_info.len;
if (len > buf_len) {
const struct RoseContext *tctxt = &scratch->tctxt;
const u8 *hist = nocase ? tctxt->ll_buf_nocase : tctxt->ll_buf;
size_t hist_len = nocase ? tctxt->ll_len_nocase : tctxt->ll_len;
if (len > buf_len + hist_len) {
return 0; // Break out - not enough total history
}
size_t overhang = len - buf_len;
assert(overhang <= hist_len);
if (cmpForward(hist + hist_len - overhang, s, overhang, nocase)) {
return 0;
}
s += overhang;
len -= overhang;
}
// if we got here, we don't need history or we compared ok out of history
assert(len <= buf_len);
if (cmpForward(buf + buf_len - len, s, len, nocase)) {
return 0;
}
return 1;
}
static rose_inline
const u8 *prepScanBuffer(const struct core_info *ci,
const struct RoseLongLitTable *ll_table, u8 *tempbuf) {
const u8 hash_len = ll_table->maxLen;
assert(hash_len >= LONG_LIT_HASH_LEN);
// Our hash function operates over LONG_LIT_HASH_LEN bytes, starting from
// location (end of buffer - hash_len). If this block can be satisfied
// entirely from either the current buffer or the history buffer, we pass
// in the pointer directly; otherwise we must make a copy.
const u8 *base;
if (hash_len > ci->len) {
size_t overhang = hash_len - ci->len;
if (overhang >= LONG_LIT_HASH_LEN) {
// Can read enough to hash from inside the history buffer.
assert(overhang <= ci->hlen);
base = ci->hbuf + ci->hlen - overhang;
} else {
// Copy: first chunk from history buffer.
assert(overhang <= ci->hlen);
copy_upto_64_bytes(tempbuf, ci->hbuf + ci->hlen - overhang,
overhang);
// Copy: second chunk from current buffer.
size_t copy_buf_len = LONG_LIT_HASH_LEN - overhang;
assert(copy_buf_len <= ci->len);
copy_upto_64_bytes(tempbuf + overhang, ci->buf, copy_buf_len);
// Read from our temporary buffer for the hash.
base = tempbuf;
}
} else {
// Can read enough to hash from inside the current buffer.
base = ci->buf + ci->len - hash_len;
}
return base;
}
#ifndef NDEBUG
// Defensive checking (used in assert) that these table values don't overflow
// the range available.
static really_inline
char streamingTableOverflow(u32 state_case, u32 state_nocase, u8 ssb,
u8 ssb_nc) {
u32 ssb_mask = (1ULL << (ssb)) - 1;
if (state_case & ~ssb_mask) {
return 1;
}
u32 ssb_nc_mask = (1ULL << (ssb_nc)) - 1;
if (state_nocase & ~ssb_nc_mask) {
return 1;
}
return 0;
}
#endif
// Reads from stream state table and packs values into stream state.
static rose_inline
void storeLongLitStreamState(const struct RoseLongLitTable *ll_table,
u8 *ll_state, u32 state_case, u32 state_nocase) {
assert(ll_table);
assert(ll_state);
u8 ss_bytes = ll_table->streamStateBytes;
u8 ssb = ll_table->caseful.streamStateBits;
UNUSED u8 ssb_nc = ll_table->nocase.streamStateBits;
assert(ss_bytes == ROUNDUP_N(ssb + ssb_nc, 8) / 8);
assert(!streamingTableOverflow(state_case, state_nocase, ssb, ssb_nc));
#if defined(ARCH_32_BIT)
// On 32-bit hosts, we may be able to avoid having to do any u64a
// manipulation at all.
if (ss_bytes <= 4) {
u32 stagingStreamState = state_case;
stagingStreamState |= (state_nocase << ssb);
partial_store_u32(ll_state, stagingStreamState, ss_bytes);
return;
}
#endif
u64a stagingStreamState = (u64a)state_case;
stagingStreamState |= (u64a)state_nocase << ssb;
partial_store_u64a(ll_state, stagingStreamState, ss_bytes);
}
static really_inline
char has_bit(const u8 *data, u32 bit) {
return (data[bit / 8] >> (bit % 8)) & 1;
}
static rose_inline
char bloomHasKey(const u8 *bloom, u32 bloom_mask, u32 hash) {
return has_bit(bloom, hash & bloom_mask);
}
static rose_inline
char checkBloomFilter(const struct RoseLongLitTable *ll_table,
const struct RoseLongLitSubtable *ll_sub,
const u8 *scan_buf, char nocase) {
assert(ll_sub->bloomBits);
const u8 *bloom = (const u8 *)ll_table + ll_sub->bloomOffset;
const u32 bloom_mask = (1U << ll_sub->bloomBits) - 1;
char v = 1;
v &= bloomHasKey(bloom, bloom_mask, bloomHash_1(scan_buf, nocase));
v &= bloomHasKey(bloom, bloom_mask, bloomHash_2(scan_buf, nocase));
v &= bloomHasKey(bloom, bloom_mask, bloomHash_3(scan_buf, nocase));
return v;
}
/**
* \brief Look for a hit in the hash table.
*
* Returns zero if not found, otherwise returns (bucket + 1).
*/
static rose_inline
u32 checkHashTable(const struct RoseLongLitTable *ll_table,
const struct RoseLongLitSubtable *ll_sub, const u8 *scan_buf,
const struct hs_scratch *scratch, char nocase) {
const u32 nbits = ll_sub->hashBits;
assert(nbits && nbits < 32);
const u32 num_entries = 1U << nbits;
const struct RoseLongLitHashEntry *tab = getHashTableBase(ll_table, ll_sub);
u32 hash = hashLongLiteral(scan_buf, LONG_LIT_HASH_LEN, nocase);
u32 bucket = hash & ((1U << nbits) - 1);
while (tab[bucket].str_offset != 0) {
DEBUG_PRINTF("checking bucket %u\n", bucket);
if (confirmLongLiteral(ll_table, scratch, &tab[bucket], nocase)) {
DEBUG_PRINTF("found hit for bucket %u\n", bucket);
return bucket + 1;
}
if (++bucket == num_entries) {
bucket = 0;
}
}
return 0;
}
static rose_inline
void storeLongLiteralState(const struct RoseEngine *t, char *state,
struct hs_scratch *scratch) {
if (!t->longLitTableOffset) {
DEBUG_PRINTF("no table\n");
return;
}
struct core_info *ci = &scratch->core_info;
const struct RoseLongLitTable *ll_table =
getByOffset(t, t->longLitTableOffset);
assert(ll_table->maxLen);
DEBUG_PRINTF("maxLen=%u, len=%zu, hlen=%zu\n", ll_table->maxLen, ci->len,
ci->hlen);
u32 state_case = 0;
u32 state_nocase = 0;
// If we don't have enough history, we don't need to do anything.
if (ll_table->maxLen <= ci->len + ci->hlen) {
u8 tempbuf[LONG_LIT_HASH_LEN];
const u8 *scan_buf = prepScanBuffer(ci, ll_table, tempbuf);
if (ll_table->caseful.hashBits &&
checkBloomFilter(ll_table, &ll_table->caseful, scan_buf, 0)) {
state_case = checkHashTable(ll_table, &ll_table->caseful, scan_buf,
scratch, 0);
}
if (ll_table->nocase.hashBits &&
checkBloomFilter(ll_table, &ll_table->nocase, scan_buf, 1)) {
state_nocase = checkHashTable(ll_table, &ll_table->nocase, scan_buf,
scratch, 1);
}
} else {
DEBUG_PRINTF("not enough history (%zu bytes)\n", ci->len + ci->hlen);
}
DEBUG_PRINTF("store {%u, %u}\n", state_case, state_nocase);
u8 *ll_state = getLongLitState(t, state);
storeLongLitStreamState(ll_table, ll_state, state_case, state_nocase);
}
#endif // STREAM_LONG_LIT_H
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