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|
/*
* Copyright (c) 2015-2018, 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.
*/
/**
* \file
* \brief Rose runtime: code for catching up output-exposed engines.
*/
#include "catchup.h"
#include "match.h"
#include "program_runtime.h"
#include "rose.h"
#include "nfa/nfa_rev_api.h"
#include "nfa/mpv.h"
#include "som/som_runtime.h"
#include "util/fatbit.h"
#include "report.h"
typedef struct queue_match PQ_T;
#define PQ_COMP(pqc_items, a, b) ((pqc_items)[a].loc < (pqc_items)[b].loc)
#define PQ_COMP_B(pqc_items, a, b_fixed) ((pqc_items)[a].loc < (b_fixed).loc)
#include "util/pqueue.h"
static really_inline
int roseNfaRunProgram(const struct RoseEngine *rose, struct hs_scratch *scratch,
u64a som, u64a offset, ReportID id, const char from_mpv) {
const u32 program = id;
u8 flags = ROSE_PROG_FLAG_IN_CATCHUP;
if (from_mpv) {
flags |= ROSE_PROG_FLAG_FROM_MPV;
}
roseRunProgram(rose, scratch, program, som, offset, flags);
return can_stop_matching(scratch) ? MO_HALT_MATCHING : MO_CONTINUE_MATCHING;
}
static rose_inline
char roseSuffixInfoIsExhausted(const struct RoseEngine *rose,
const struct NfaInfo *info,
const char *exhausted) {
if (!info->ekeyListOffset) {
return 0;
}
DEBUG_PRINTF("check exhaustion -> start at %u\n", info->ekeyListOffset);
/* INVALID_EKEY terminated list */
const u32 *ekeys = getByOffset(rose, info->ekeyListOffset);
while (*ekeys != INVALID_EKEY) {
DEBUG_PRINTF("check %u\n", *ekeys);
if (!isExhausted(rose, exhausted, *ekeys)) {
DEBUG_PRINTF("not exhausted -> alive\n");
return 0;
}
++ekeys;
}
DEBUG_PRINTF("all ekeys exhausted -> dead\n");
return 1;
}
static really_inline
char roseSuffixIsExhausted(const struct RoseEngine *rose, u32 qi,
const char *exhausted) {
DEBUG_PRINTF("check queue %u\n", qi);
const struct NfaInfo *info = getNfaInfoByQueue(rose, qi);
return roseSuffixInfoIsExhausted(rose, info, exhausted);
}
static really_inline
void deactivateQueue(const struct RoseEngine *t, u8 *aa, u32 qi,
struct hs_scratch *scratch) {
u32 aaCount = t->activeArrayCount;
u32 qCount = t->queueCount;
/* this is sailing close to the wind with regards to invalidating an
* iteration. We are saved by the fact that unsetting does not clear the
* summary bits -> the block under the gun remains valid
*/
DEBUG_PRINTF("killing off zombie queue %u\n", qi);
mmbit_unset(aa, aaCount, qi);
fatbit_unset(scratch->aqa, qCount, qi);
}
static really_inline
void ensureQueueActive(const struct RoseEngine *t, u32 qi, u32 qCount,
struct mq *q, struct hs_scratch *scratch) {
if (!fatbit_set(scratch->aqa, qCount, qi)) {
DEBUG_PRINTF("initing %u\n", qi);
initQueue(q, qi, t, scratch);
loadStreamState(q->nfa, q, 0);
pushQueueAt(q, 0, MQE_START, 0);
}
}
static really_inline
void pq_replace_top_with(struct catchup_pq *pq,
UNUSED struct hs_scratch *scratch, u32 queue,
s64a loc) {
DEBUG_PRINTF("inserting q%u in pq at %lld\n", queue, loc);
struct queue_match temp = {
.queue = queue,
.loc = (size_t)loc
};
assert(loc > 0);
assert(pq->qm_size);
assert(loc <= (s64a)scratch->core_info.len);
pq_replace_top(pq->qm, pq->qm_size, temp);
}
static really_inline
void pq_insert_with(struct catchup_pq *pq,
UNUSED struct hs_scratch *scratch, u32 queue, s64a loc) {
DEBUG_PRINTF("inserting q%u in pq at %lld\n", queue, loc);
struct queue_match temp = {
.queue = queue,
.loc = (size_t)loc
};
assert(loc > 0);
assert(loc <= (s64a)scratch->core_info.len);
pq_insert(pq->qm, pq->qm_size, temp);
++pq->qm_size;
}
static really_inline
void pq_pop_nice(struct catchup_pq *pq) {
pq_pop(pq->qm, pq->qm_size);
pq->qm_size--;
}
static really_inline
s64a pq_top_loc(struct catchup_pq *pq) {
assert(pq->qm_size);
return (s64a)pq_top(pq->qm)->loc;
}
/* requires that we are the top item on the pq */
static really_inline
hwlmcb_rv_t runExistingNfaToNextMatch(const struct RoseEngine *t, u32 qi,
struct mq *q, s64a loc,
struct hs_scratch *scratch, u8 *aa,
char report_curr) {
assert(pq_top(scratch->catchup_pq.qm)->queue == qi);
assert(scratch->catchup_pq.qm_size);
assert(!q->report_current);
if (report_curr) {
DEBUG_PRINTF("need to report matches\n");
q->report_current = 1;
}
DEBUG_PRINTF("running queue from %u:%lld to %lld\n", q->cur, q_cur_loc(q),
loc);
assert(q_cur_loc(q) <= loc);
char alive = nfaQueueExecToMatch(q->nfa, q, loc);
/* exit via gift shop */
if (alive == MO_MATCHES_PENDING) {
/* we have pending matches */
assert(q_cur_loc(q) + scratch->core_info.buf_offset
>= scratch->tctxt.minMatchOffset);
pq_replace_top_with(&scratch->catchup_pq, scratch, qi, q_cur_loc(q));
return HWLM_CONTINUE_MATCHING;
} else if (!alive) {
if (report_curr && can_stop_matching(scratch)) {
DEBUG_PRINTF("bailing\n");
return HWLM_TERMINATE_MATCHING;
}
deactivateQueue(t, aa, qi, scratch);
} else if (q->cur == q->end) {
DEBUG_PRINTF("queue %u finished, nfa lives\n", qi);
q->cur = q->end = 0;
pushQueueAt(q, 0, MQE_START, loc);
} else {
DEBUG_PRINTF("queue %u unfinished, nfa lives\n", qi);
u32 i = 0;
while (q->cur < q->end) {
q->items[i] = q->items[q->cur++];
DEBUG_PRINTF("q[%u] = %u:%lld\n", i, q->items[i].type,
q->items[i].location);
assert(q->items[i].type != MQE_END);
i++;
}
q->cur = 0;
q->end = i;
}
pq_pop_nice(&scratch->catchup_pq);
return HWLM_CONTINUE_MATCHING;
}
static really_inline
hwlmcb_rv_t runNewNfaToNextMatch(const struct RoseEngine *t, u32 qi,
struct mq *q, s64a loc,
struct hs_scratch *scratch, u8 *aa,
s64a report_ok_loc) {
assert(!q->report_current);
DEBUG_PRINTF("running queue from %u:%lld to %lld\n", q->cur, q_cur_loc(q),
loc);
DEBUG_PRINTF("min match offset %llu\n", scratch->tctxt.minMatchOffset);
char alive = 1;
restart:
alive = nfaQueueExecToMatch(q->nfa, q, loc);
if (alive == MO_MATCHES_PENDING) {
DEBUG_PRINTF("we have pending matches at %lld\n", q_cur_loc(q));
s64a qcl = q_cur_loc(q);
if (qcl == report_ok_loc) {
assert(q->cur != q->end); /* the queue shouldn't be empty if there
* are pending matches. */
q->report_current = 1;
DEBUG_PRINTF("restarting...\n");
goto restart;
}
assert(qcl + scratch->core_info.buf_offset
>= scratch->tctxt.minMatchOffset);
pq_insert_with(&scratch->catchup_pq, scratch, qi, qcl);
} else if (!alive) {
if (can_stop_matching(scratch)) {
DEBUG_PRINTF("bailing\n");
return HWLM_TERMINATE_MATCHING;
}
deactivateQueue(t, aa, qi, scratch);
} else if (q->cur == q->end) {
DEBUG_PRINTF("queue %u finished, nfa lives\n", qi);
q->cur = q->end = 0;
pushQueueAt(q, 0, MQE_START, loc);
} else {
DEBUG_PRINTF("queue %u unfinished, nfa lives\n", qi);
u32 i = 0;
while (q->cur < q->end) {
q->items[i] = q->items[q->cur++];
DEBUG_PRINTF("q[%u] = %u:%lld\n", i, q->items[i].type,
q->items[i].location);
assert(q->items[i].type != MQE_END);
i++;
}
q->cur = 0;
q->end = i;
}
return HWLM_CONTINUE_MATCHING;
}
/* for use by mpv (chained) only */
static
int roseNfaFinalBlastAdaptor(u64a start, u64a end, ReportID id, void *context) {
struct hs_scratch *scratch = context;
assert(scratch && scratch->magic == SCRATCH_MAGIC);
const struct RoseEngine *t = scratch->core_info.rose;
DEBUG_PRINTF("id=%u matched at [%llu,%llu]\n", id, start, end);
int cb_rv = roseNfaRunProgram(t, scratch, start, end, id, 1);
if (cb_rv == MO_HALT_MATCHING) {
return MO_HALT_MATCHING;
} else if (cb_rv == ROSE_CONTINUE_MATCHING_NO_EXHAUST) {
return MO_CONTINUE_MATCHING;
} else {
assert(cb_rv == MO_CONTINUE_MATCHING);
return !roseSuffixIsExhausted(t, 0,
scratch->core_info.exhaustionVector);
}
}
static really_inline
void ensureEnd(struct mq *q, UNUSED u32 qi, s64a final_loc) {
DEBUG_PRINTF("ensure MQE_END %lld for queue %u\n", final_loc, qi);
if (final_loc >= q_last_loc(q)) {
/* TODO: ensure situation does not arise */
assert(q_last_type(q) != MQE_END);
pushQueueNoMerge(q, MQE_END, final_loc);
}
}
static really_inline
hwlmcb_rv_t add_to_queue(const struct RoseEngine *t, struct mq *queues,
u32 qCount, u8 *aa, struct hs_scratch *scratch,
s64a loc, u32 qi, s64a report_ok_loc) {
struct mq *q = queues + qi;
const struct NfaInfo *info = getNfaInfoByQueue(t, qi);
if (roseSuffixInfoIsExhausted(t, info,
scratch->core_info.exhaustionVector)) {
deactivateQueue(t, aa, qi, scratch);
return HWLM_CONTINUE_MATCHING;
}
ensureQueueActive(t, qi, qCount, q, scratch);
if (unlikely(loc < q_cur_loc(q))) {
DEBUG_PRINTF("err loc %lld < location %lld\n", loc, q_cur_loc(q));
return HWLM_CONTINUE_MATCHING;
}
ensureEnd(q, qi, loc);
return runNewNfaToNextMatch(t, qi, q, loc, scratch, aa, report_ok_loc);
}
static really_inline
s64a findSecondPlace(struct catchup_pq *pq, s64a loc_limit) {
assert(pq->qm_size); /* we are still on the pq and we are first place */
/* we know (*cough* encapsulation) that second place will either be in
* pq->qm[1] or pq->qm[2] (we are pq->qm[0]) */
switch (pq->qm_size) {
case 0:
case 1:
return (s64a)loc_limit;
case 2:
return MIN((s64a)pq->qm[1].loc, loc_limit);
default:;
size_t best = MIN(pq->qm[1].loc, pq->qm[2].loc);
return MIN((s64a)best, loc_limit);
}
}
hwlmcb_rv_t roseCatchUpMPV_i(const struct RoseEngine *t, s64a loc,
struct hs_scratch *scratch) {
char *state = scratch->core_info.state;
struct mq *queues = scratch->queues;
u8 *aa = getActiveLeafArray(t, state);
UNUSED u32 aaCount = t->activeArrayCount;
u32 qCount = t->queueCount;
/* find first match of each pending nfa */
DEBUG_PRINTF("aa=%p, aaCount=%u\n", aa, aaCount);
assert(t->outfixBeginQueue == 1);
u32 qi = 0;
assert(mmbit_isset(aa, aaCount, 0)); /* caller should have already bailed */
DEBUG_PRINTF("catching up qi=%u to loc %lld\n", qi, loc);
struct mq *q = queues + qi;
const struct NfaInfo *info = getNfaInfoByQueue(t, qi);
u64a mpv_exec_end = scratch->core_info.buf_offset + loc;
u64a next_pos_match_loc = 0;
if (roseSuffixInfoIsExhausted(t, info,
scratch->core_info.exhaustionVector)) {
deactivateQueue(t, aa, qi, scratch);
goto done;
}
ensureQueueActive(t, qi, qCount, q, scratch);
if (unlikely(loc < q_cur_loc(q))) {
DEBUG_PRINTF("err loc %lld < location %lld\n", loc, q_cur_loc(q));
goto done;
}
ensureEnd(q, qi, loc);
assert(!q->report_current);
q->cb = roseNfaFinalBlastAdaptor;
DEBUG_PRINTF("queue %u blasting, %u/%u [%lld/%lld]\n",
qi, q->cur, q->end, q->items[q->cur].location, loc);
scratch->tctxt.mpv_inactive = 0;
/* we know it is going to be an mpv, skip the indirection */
next_pos_match_loc = nfaExecMpv_QueueExecRaw(q->nfa, q, loc);
assert(!q->report_current);
if (!next_pos_match_loc) { /* 0 means dead */
DEBUG_PRINTF("mpv is pining for the fjords\n");
if (can_stop_matching(scratch)) {
deactivateQueue(t, aa, qi, scratch);
return HWLM_TERMINATE_MATCHING;
}
next_pos_match_loc = scratch->core_info.len;
scratch->tctxt.mpv_inactive = 1;
}
if (q->cur == q->end) {
DEBUG_PRINTF("queue %u finished, nfa lives [%lld]\n", qi, loc);
q->cur = 0;
q->end = 0;
pushQueueAt(q, 0, MQE_START, loc);
} else {
DEBUG_PRINTF("queue %u not finished, nfa lives [%lld]\n", qi, loc);
}
done:
if (t->flushCombProgramOffset) {
if (roseRunFlushCombProgram(t, scratch, mpv_exec_end)
== HWLM_TERMINATE_MATCHING) {
return HWLM_TERMINATE_MATCHING;
}
}
updateMinMatchOffsetFromMpv(&scratch->tctxt, mpv_exec_end);
scratch->tctxt.next_mpv_offset
= MAX(next_pos_match_loc + scratch->core_info.buf_offset,
mpv_exec_end + 1);
DEBUG_PRINTF("next match loc %lld (off %llu)\n", next_pos_match_loc,
scratch->tctxt.next_mpv_offset);
return can_stop_matching(scratch) ? HWLM_TERMINATE_MATCHING
: HWLM_CONTINUE_MATCHING;
}
static really_inline
char in_mpv(const struct RoseEngine *rose, const struct hs_scratch *scratch) {
const struct RoseContext *tctxt = &scratch->tctxt;
assert(tctxt->curr_qi < rose->queueCount);
if (tctxt->curr_qi < rose->outfixBeginQueue) {
assert(getNfaByQueue(rose, tctxt->curr_qi)->type == MPV_NFA);
return 1;
}
return 0;
}
static
int roseNfaBlastAdaptor(u64a start, u64a end, ReportID id, void *context) {
struct hs_scratch *scratch = context;
assert(scratch && scratch->magic == SCRATCH_MAGIC);
const struct RoseEngine *t = scratch->core_info.rose;
DEBUG_PRINTF("id=%u matched at [%llu,%llu]\n", id, start, end);
const char from_mpv = in_mpv(t, scratch);
int cb_rv = roseNfaRunProgram(t, scratch, start, end, id, from_mpv);
if (cb_rv == MO_HALT_MATCHING) {
return MO_HALT_MATCHING;
} else if (cb_rv == ROSE_CONTINUE_MATCHING_NO_EXHAUST) {
return MO_CONTINUE_MATCHING;
} else {
assert(cb_rv == MO_CONTINUE_MATCHING);
return !roseSuffixIsExhausted(t, scratch->tctxt.curr_qi,
scratch->core_info.exhaustionVector);
}
}
int roseNfaAdaptor(u64a start, u64a end, ReportID id, void *context) {
struct hs_scratch *scratch = context;
assert(scratch && scratch->magic == SCRATCH_MAGIC);
DEBUG_PRINTF("id=%u matched at [%llu,%llu]\n", id, start, end);
/* must be a external report as haig cannot directly participate in chain */
return roseNfaRunProgram(scratch->core_info.rose, scratch, start, end, id,
0);
}
static really_inline
char blast_queue(struct hs_scratch *scratch, struct mq *q, u32 qi, s64a to_loc,
char report_current) {
scratch->tctxt.curr_qi = qi;
q->cb = roseNfaBlastAdaptor;
q->report_current = report_current;
DEBUG_PRINTF("queue %u blasting, %u/%u [%lld/%lld]\n", qi, q->cur, q->end,
q_cur_loc(q), to_loc);
char alive = nfaQueueExec(q->nfa, q, to_loc);
q->cb = roseNfaAdaptor;
assert(!q->report_current);
return alive;
}
static really_inline
hwlmcb_rv_t buildSufPQ_final(const struct RoseEngine *t, s64a report_ok_loc,
s64a second_place_loc, s64a final_loc,
struct hs_scratch *scratch, u8 *aa, u32 a_qi) {
struct mq *q = scratch->queues + a_qi;
const struct NfaInfo *info = getNfaInfoByQueue(t, a_qi);
DEBUG_PRINTF("blasting qi=%u to %lld [final %lld]\n", a_qi, second_place_loc,
final_loc);
if (roseSuffixInfoIsExhausted(t, info,
scratch->core_info.exhaustionVector)) {
deactivateQueue(t, aa, a_qi, scratch);
return HWLM_CONTINUE_MATCHING;
}
ensureQueueActive(t, a_qi, t->queueCount, q, scratch);
if (unlikely(final_loc < q_cur_loc(q))) {
DEBUG_PRINTF("err loc %lld < location %lld\n", final_loc, q_cur_loc(q));
return HWLM_CONTINUE_MATCHING;
}
ensureEnd(q, a_qi, final_loc);
char alive = blast_queue(scratch, q, a_qi, second_place_loc, 0);
/* We have three possible outcomes:
* (1) the nfa died
* (2) we completed the queue (implies that second_place_loc == final_loc)
* (3) the queue ran to second_place_loc and stopped. In this case we need
* to find the next match location.
*/
if (!alive) {
if (can_stop_matching(scratch)) {
DEBUG_PRINTF("roseCatchUpNfas done as bailing\n");
return HWLM_TERMINATE_MATCHING;
}
deactivateQueue(t, aa, a_qi, scratch);
} else if (q->cur == q->end) {
DEBUG_PRINTF("queue %u finished, nfa lives [%lld]\n", a_qi, final_loc);
assert(second_place_loc == final_loc);
q->cur = q->end = 0;
pushQueueAt(q, 0, MQE_START, final_loc);
} else {
DEBUG_PRINTF("queue %u not finished, %u/%u [%lld/%lld]\n", a_qi, q->cur,
q->end, q_cur_loc(q), final_loc);
DEBUG_PRINTF("finding next match location\n");
assert(second_place_loc < final_loc);
assert(q_cur_loc(q) >= second_place_loc);
if (runNewNfaToNextMatch(t, a_qi, q, final_loc, scratch, aa,
report_ok_loc) == HWLM_TERMINATE_MATCHING) {
DEBUG_PRINTF("roseCatchUpNfas done\n");
return HWLM_TERMINATE_MATCHING;
}
}
return HWLM_CONTINUE_MATCHING;
}
void streamInitSufPQ(const struct RoseEngine *t, char *state,
struct hs_scratch *scratch) {
assert(scratch->catchup_pq.qm_size == 0);
assert(t->outfixBeginQueue != t->outfixEndQueue);
DEBUG_PRINTF("initSufPQ: outfixes [%u,%u)\n", t->outfixBeginQueue,
t->outfixEndQueue);
u32 qCount = t->queueCount;
u8 *aa = getActiveLeafArray(t, state);
u32 aaCount = t->activeArrayCount;
struct mq *queues = scratch->queues;
size_t length = scratch->core_info.len;
u32 qi = mmbit_iterate_bounded(aa, aaCount, t->outfixBeginQueue,
t->outfixEndQueue);
for (; qi < t->outfixEndQueue;) {
DEBUG_PRINTF("adding qi=%u\n", qi);
struct mq *q = queues + qi;
ensureQueueActive(t, qi, qCount, q, scratch);
ensureEnd(q, qi, length);
char alive = nfaQueueExecToMatch(q->nfa, q, length);
if (alive == MO_MATCHES_PENDING) {
DEBUG_PRINTF("we have pending matches at %lld\n", q_cur_loc(q));
s64a qcl = q_cur_loc(q);
pq_insert_with(&scratch->catchup_pq, scratch, qi, qcl);
} else if (!alive) {
deactivateQueue(t, aa, qi, scratch);
} else {
assert(q->cur == q->end);
/* TODO: can this be simplified? the nfa will never produce any
* matches for this block. */
DEBUG_PRINTF("queue %u finished, nfa lives\n", qi);
q->cur = q->end = 0;
pushQueueAt(q, 0, MQE_START, length);
}
qi = mmbit_iterate_bounded(aa, aaCount, qi + 1, t->outfixEndQueue);
}
}
void blockInitSufPQ(const struct RoseEngine *t, char *state,
struct hs_scratch *scratch, char is_small_block) {
DEBUG_PRINTF("initSufPQ: outfixes [%u,%u)\n", t->outfixBeginQueue,
t->outfixEndQueue);
assert(scratch->catchup_pq.qm_size == 0);
assert(t->outfixBeginQueue != t->outfixEndQueue);
struct mq *queues = scratch->queues;
u8 *aa = getActiveLeafArray(t, state);
struct fatbit *aqa = scratch->aqa;
u32 aaCount = t->activeArrayCount;
u32 qCount = t->queueCount;
size_t length = scratch->core_info.len;
for (u32 qi = t->outfixBeginQueue; qi < t->outfixEndQueue; qi++) {
const struct NfaInfo *info = getNfaInfoByQueue(t, qi);
if (is_small_block && info->in_sbmatcher) {
DEBUG_PRINTF("skip outfix %u as it's in the SB matcher\n", qi);
continue;
}
const struct NFA *nfa = getNfaByInfo(t, info);
DEBUG_PRINTF("testing minwidth %u > len %zu\n", nfa->minWidth,
length);
size_t len = nfaRevAccelCheck(nfa, scratch->core_info.buf, length);
if (!len) {
continue;
}
mmbit_set(aa, aaCount, qi);
fatbit_set(aqa, qCount, qi);
struct mq *q = queues + qi;
initQueue(q, qi, t, scratch);
q->length = len; /* adjust for rev_accel */
nfaQueueInitState(nfa, q);
pushQueueAt(q, 0, MQE_START, 0);
pushQueueAt(q, 1, MQE_TOP, 0);
pushQueueAt(q, 2, MQE_END, length);
DEBUG_PRINTF("adding qi=%u to pq\n", qi);
char alive = nfaQueueExecToMatch(q->nfa, q, length);
if (alive == MO_MATCHES_PENDING) {
DEBUG_PRINTF("we have pending matches at %lld\n", q_cur_loc(q));
s64a qcl = q_cur_loc(q);
pq_insert_with(&scratch->catchup_pq, scratch, qi, qcl);
} else if (!alive) {
deactivateQueue(t, aa, qi, scratch);
} else {
assert(q->cur == q->end);
/* TODO: can this be simplified? the nfa will never produce any
* matches for this block. */
DEBUG_PRINTF("queue %u finished, nfa lives\n", qi);
q->cur = q->end = 0;
pushQueueAt(q, 0, MQE_START, length);
}
}
}
/**
* safe_loc is ???
*/
static rose_inline
hwlmcb_rv_t buildSufPQ(const struct RoseEngine *t, char *state, s64a safe_loc,
s64a final_loc, struct hs_scratch *scratch) {
assert(scratch->catchup_pq.qm_size <= t->outfixEndQueue);
struct RoseContext *tctxt = &scratch->tctxt;
assert(t->activeArrayCount);
assert(scratch->core_info.buf_offset + final_loc
> tctxt->minNonMpvMatchOffset);
DEBUG_PRINTF("buildSufPQ final loc %lld (safe %lld)\n", final_loc,
safe_loc);
assert(safe_loc <= final_loc);
u8 *aa = getActiveLeafArray(t, state);
u32 aaCount = t->activeArrayCount;
/* find first match of each pending nfa */
DEBUG_PRINTF("aa=%p, aaCount=%u\n", aa, aaCount);
/* Note: mpv MUST not participate in the main priority queue as
* they may have events pushed on during this process which may be before
* the catch up point. Outfixes are remain in the pq between catchup events
* as they never have any incoming events to worry about.
*/
if (aaCount == t->outfixEndQueue) {
return HWLM_CONTINUE_MATCHING;
}
DEBUG_PRINTF("mib %u/%u\n", t->outfixBeginQueue, aaCount);
u32 a_qi = mmbit_iterate_bounded(aa, aaCount, t->outfixEndQueue, aaCount);
if (a_qi == MMB_INVALID) {
return HWLM_CONTINUE_MATCHING;
}
s64a report_ok_loc = tctxt->minNonMpvMatchOffset + 1
- scratch->core_info.buf_offset;
hwlmcb_rv_t rv = roseCatchUpMPV(t, report_ok_loc, scratch);
if (rv != HWLM_CONTINUE_MATCHING) {
DEBUG_PRINTF("terminating...\n");
return rv;
}
while (a_qi != MMB_INVALID) {
DEBUG_PRINTF("catching up qi=%u to %lld\n", a_qi, final_loc);
u32 n_qi = mmbit_iterate(aa, aaCount, a_qi);
s64a second_place_loc
= scratch->catchup_pq.qm_size ? pq_top_loc(&scratch->catchup_pq)
: safe_loc;
second_place_loc = MIN(second_place_loc, safe_loc);
if (n_qi == MMB_INVALID && report_ok_loc <= second_place_loc) {
if (buildSufPQ_final(t, report_ok_loc, second_place_loc, final_loc,
scratch, aa, a_qi)
== HWLM_TERMINATE_MATCHING) {
return HWLM_TERMINATE_MATCHING;
}
break;
}
if (add_to_queue(t, scratch->queues, t->queueCount, aa, scratch,
final_loc, a_qi, report_ok_loc)
== HWLM_TERMINATE_MATCHING) {
DEBUG_PRINTF("roseCatchUpNfas done\n");
return HWLM_TERMINATE_MATCHING;
}
a_qi = n_qi;
}
DEBUG_PRINTF("PQ BUILD %u items\n", scratch->catchup_pq.qm_size);
return HWLM_CONTINUE_MATCHING;
}
static never_inline
hwlmcb_rv_t roseCatchUpNfas(const struct RoseEngine *t, s64a loc,
s64a final_loc, struct hs_scratch *scratch) {
assert(t->activeArrayCount);
DEBUG_PRINTF("roseCatchUpNfas offset=%llu + %lld/%lld\n",
scratch->core_info.buf_offset, loc, final_loc);
DEBUG_PRINTF("min non mpv match offset %llu\n",
scratch->tctxt.minNonMpvMatchOffset);
struct RoseContext *tctxt = &scratch->tctxt;
assert(scratch->core_info.buf_offset + loc >= tctxt->minNonMpvMatchOffset);
char *state = scratch->core_info.state;
struct mq *queues = scratch->queues;
u8 *aa = getActiveLeafArray(t, state);
/* fire off earliest nfa match and catchup anchored matches to that point */
while (scratch->catchup_pq.qm_size) {
s64a match_loc = pq_top_loc(&scratch->catchup_pq);
u32 qi = pq_top(scratch->catchup_pq.qm)->queue;
DEBUG_PRINTF("winrar q%u@%lld loc %lld\n", qi, match_loc, loc);
assert(match_loc + scratch->core_info.buf_offset
>= scratch->tctxt.minNonMpvMatchOffset);
if (match_loc > loc) {
/* we have processed all the matches at or before rose's current
* location; only things remaining on the pq should be outfixes. */
DEBUG_PRINTF("saving for later\n");
goto exit;
}
/* catch up char matches to this point */
if (roseCatchUpMPV(t, match_loc, scratch)
== HWLM_TERMINATE_MATCHING) {
DEBUG_PRINTF("roseCatchUpNfas done\n");
return HWLM_TERMINATE_MATCHING;
}
assert(match_loc + scratch->core_info.buf_offset
>= scratch->tctxt.minNonMpvMatchOffset);
struct mq *q = queues + qi;
/* outfixes must be advanced all the way as they persist in the pq
* between catchup events */
s64a q_final_loc = qi >= t->outfixEndQueue ? final_loc
: (s64a)scratch->core_info.len;
/* fire nfa matches, and find next place this nfa match */
DEBUG_PRINTF("reporting matches %u@%llu [q->cur %u/%u]\n", qi,
match_loc, q->cur, q->end);
/* we then need to catch this nfa up to next earliest nfa match. These
* matches can be fired directly from the callback. The callback needs
* to ensure that the anchored matches remain in sync though */
s64a second_place_loc = findSecondPlace(&scratch->catchup_pq, loc);
DEBUG_PRINTF("second place %lld loc %lld\n", second_place_loc, loc);
if (second_place_loc == q_cur_loc(q)) {
if (runExistingNfaToNextMatch(t, qi, q, q_final_loc, scratch, aa, 1)
== HWLM_TERMINATE_MATCHING) {
return HWLM_TERMINATE_MATCHING;
}
continue;
}
char alive = blast_queue(scratch, q, qi, second_place_loc, 1);
if (!alive) {
if (can_stop_matching(scratch)) {
DEBUG_PRINTF("roseCatchUpNfas done as bailing\n");
return HWLM_TERMINATE_MATCHING;
}
deactivateQueue(t, aa, qi, scratch);
pq_pop_nice(&scratch->catchup_pq);
} else if (q->cur == q->end) {
DEBUG_PRINTF("queue %u finished, nfa lives [%lld]\n", qi, loc);
q->cur = q->end = 0;
pushQueueAt(q, 0, MQE_START, loc);
pq_pop_nice(&scratch->catchup_pq);
} else if (second_place_loc == q_final_loc) {
DEBUG_PRINTF("queue %u on hold\n", qi);
pq_pop_nice(&scratch->catchup_pq);
break;
} else {
DEBUG_PRINTF("queue %u not finished, %u/%u [%lld/%lld]\n",
qi, q->cur, q->end, q->items[q->cur].location, loc);
runExistingNfaToNextMatch(t, qi, q, q_final_loc, scratch, aa, 0);
}
}
exit:;
tctxt->minNonMpvMatchOffset = scratch->core_info.buf_offset + loc;
DEBUG_PRINTF("roseCatchUpNfas done\n");
return HWLM_CONTINUE_MATCHING;
}
hwlmcb_rv_t roseCatchUpAll(s64a loc, struct hs_scratch *scratch) {
/* just need suf/outfixes and mpv */
DEBUG_PRINTF("loc %lld mnmmo %llu mmo %llu\n", loc,
scratch->tctxt.minNonMpvMatchOffset,
scratch->tctxt.minMatchOffset);
assert(scratch->core_info.buf_offset + loc
> scratch->tctxt.minNonMpvMatchOffset);
const struct RoseEngine *t = scratch->core_info.rose;
char *state = scratch->core_info.state;
hwlmcb_rv_t rv = buildSufPQ(t, state, loc, loc, scratch);
if (rv != HWLM_CONTINUE_MATCHING) {
return rv;
}
rv = roseCatchUpNfas(t, loc, loc, scratch);
if (rv != HWLM_CONTINUE_MATCHING) {
return rv;
}
rv = roseCatchUpMPV(t, loc, scratch);
assert(rv != HWLM_CONTINUE_MATCHING
|| scratch->catchup_pq.qm_size <= t->outfixEndQueue);
assert(!can_stop_matching(scratch) || rv == HWLM_TERMINATE_MATCHING);
return rv;
}
hwlmcb_rv_t roseCatchUpSuf(s64a loc, struct hs_scratch *scratch) {
/* just need suf/outfixes. mpv will be caught up only to last reported
* external match */
assert(scratch->core_info.buf_offset + loc
> scratch->tctxt.minNonMpvMatchOffset);
const struct RoseEngine *t = scratch->core_info.rose;
char *state = scratch->core_info.state;
hwlmcb_rv_t rv = buildSufPQ(t, state, loc, loc, scratch);
if (rv != HWLM_CONTINUE_MATCHING) {
return rv;
}
rv = roseCatchUpNfas(t, loc, loc, scratch);
assert(rv != HWLM_CONTINUE_MATCHING ||
scratch->catchup_pq.qm_size <= t->outfixEndQueue);
return rv;
}
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