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/*
 * Copyright (c) 2015-2019, 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.
 */

#include "catchup.h"
#include "init.h"
#include "match.h"
#include "program_runtime.h"
#include "rose.h"
#include "rose_common.h"
#include "nfa/nfa_api.h"
#include "nfa/nfa_internal.h"
#include "nfa/nfa_rev_api.h"
#include "nfa/mcclellan.h"
#include "util/fatbit.h"

static rose_inline
void runAnchoredTableBlock(const struct RoseEngine *t, const void *atable,
                           struct hs_scratch *scratch) {
    const u8 *buffer = scratch->core_info.buf;
    size_t length = scratch->core_info.len;
    size_t alen = MIN(length, t->anchoredDistance);
    const struct anchored_matcher_info *curr = atable;

    DEBUG_PRINTF("BEGIN ANCHORED (over %zu/%zu)\n", alen, length);

    do {
        const struct NFA *nfa
            = (const struct NFA *)((const char *)curr + sizeof(*curr));

        assert(t->anchoredDistance > curr->anchoredMinDistance);
        if (length >= curr->anchoredMinDistance) {
            size_t local_alen = alen - curr->anchoredMinDistance;
            const u8 *local_buffer = buffer + curr->anchoredMinDistance;

            DEBUG_PRINTF("--anchored nfa (+%u)\n", curr->anchoredMinDistance);
            assert(isMcClellanType(nfa->type));
            if (nfa->type == MCCLELLAN_NFA_8) {
                nfaExecMcClellan8_B(nfa, curr->anchoredMinDistance,
                                    local_buffer, local_alen,
                                    roseAnchoredCallback, scratch);
            } else {
                nfaExecMcClellan16_B(nfa, curr->anchoredMinDistance,
                                     local_buffer, local_alen,
                                     roseAnchoredCallback, scratch);
            }
        }

        if (!curr->next_offset) {
            break;
        }

        curr = (const void *)((const char *)curr + curr->next_offset);
    } while (1);
}

static really_inline
void init_state_for_block(const struct RoseEngine *t, char *state) {
    assert(t);
    assert(state);

    DEBUG_PRINTF("init for Rose %p with %u state indices\n", t,
                 t->rolesWithStateCount);

    // Rose is guaranteed 8-aligned state
    assert(ISALIGNED_N(state, 8));

    init_state(t, state);
}

static really_inline
void init_outfixes_for_block(const struct RoseEngine *t,
                             struct hs_scratch *scratch, char *state,
                             char is_small_block) {
    /* active leaf array has been cleared by the init scatter */

    if (t->initMpvNfa != MO_INVALID_IDX) {
        assert(t->initMpvNfa == 0);
        const struct NFA *nfa = getNfaByQueue(t, 0);
        DEBUG_PRINTF("testing minwidth %u > len %zu\n", nfa->minWidth,
                      scratch->core_info.len);
        size_t len = nfaRevAccelCheck(nfa, scratch->core_info.buf,
                                      scratch->core_info.len);
        if (len) {
            u8 *activeArray = getActiveLeafArray(t, state);
            const u32 activeArraySize = t->activeArrayCount;
            const u32 qCount = t->queueCount;

            mmbit_set(activeArray, activeArraySize, 0);
            fatbit_set(scratch->aqa, qCount, 0);

            struct mq *q = scratch->queues;
            initQueue(q, 0, t, scratch);
            q->length = len; /* adjust for rev_accel */
            nfaQueueInitState(nfa, q);
            pushQueueAt(q, 0, MQE_START, 0);
            pushQueueAt(q, 1, MQE_TOP, 0);
        }
    }

    if (is_small_block && !t->hasOutfixesInSmallBlock) {
        DEBUG_PRINTF("all outfixes in small block table\n");
        return;
    }

    if (t->outfixBeginQueue != t->outfixEndQueue) {
        blockInitSufPQ(t, state, scratch, is_small_block);
    }
}

static really_inline
void init_for_block(const struct RoseEngine *t, struct hs_scratch *scratch,
                    char *state, char is_small_block) {
    init_state_for_block(t, state);

    struct RoseContext *tctxt = &scratch->tctxt;

    tctxt->groups = t->initialGroups;
    tctxt->lit_offset_adjust = 1; // index after last byte
    tctxt->delayLastEndOffset = 0;
    tctxt->lastEndOffset = 0;
    tctxt->filledDelayedSlots = 0;
    tctxt->lastMatchOffset = 0;
    tctxt->lastCombMatchOffset = 0;
    tctxt->minMatchOffset = 0;
    tctxt->minNonMpvMatchOffset = 0;
    tctxt->next_mpv_offset = 0;

    scratch->al_log_sum = 0;

    fatbit_clear(scratch->aqa);

    scratch->catchup_pq.qm_size = 0;

    init_outfixes_for_block(t, scratch, state, is_small_block);
}

static rose_inline
void roseBlockEodExec(const struct RoseEngine *t, u64a offset,
                      struct hs_scratch *scratch) {
    assert(t->requiresEodCheck);
    assert(t->maxBiAnchoredWidth == ROSE_BOUND_INF
           || offset <= t->maxBiAnchoredWidth);

    assert(!can_stop_matching(scratch));
    assert(t->eodProgramOffset);

    // Ensure that history is correct before we look for EOD matches.
    roseFlushLastByteHistory(t, scratch, offset);
    scratch->tctxt.lastEndOffset = offset;

    DEBUG_PRINTF("running eod program at %u\n", t->eodProgramOffset);

    // There should be no pending delayed literals.
    assert(!scratch->tctxt.filledDelayedSlots);

    const u64a som = 0;
    const u8 flags = ROSE_PROG_FLAG_SKIP_MPV_CATCHUP;

    // Note: we ignore the result, as this is the last thing to ever happen on
    // a scan.
    roseRunProgram(t, scratch, t->eodProgramOffset, som, offset, flags);
}

/**
 * \brief Run the anchored matcher, if any. Returns non-zero if matching should
 * halt.
 */
static rose_inline
int roseBlockAnchored(const struct RoseEngine *t, struct hs_scratch *scratch) {
    const void *atable = getALiteralMatcher(t);
    if (!atable) {
        DEBUG_PRINTF("no anchored table\n");
        return 0;
    }

    const size_t length = scratch->core_info.len;

    if (t->amatcherMaxBiAnchoredWidth != ROSE_BOUND_INF &&
        length > t->amatcherMaxBiAnchoredWidth) {
        return 0;
    }

    if (length < t->amatcherMinWidth) {
        return 0;
    }

    runAnchoredTableBlock(t, atable, scratch);

    return can_stop_matching(scratch);
}

/**
 * \brief Run the floating matcher, if any. Returns non-zero if matching should
 * halt.
 */
static rose_inline
int roseBlockFloating(const struct RoseEngine *t, struct hs_scratch *scratch) {
    const struct HWLM *ftable = getFLiteralMatcher(t);
    if (!ftable) {
        return 0;
    }

    const size_t length = scratch->core_info.len;
    char *state = scratch->core_info.state;
    struct RoseContext *tctxt = &scratch->tctxt;

    DEBUG_PRINTF("ftable fd=%u fmd %u\n", t->floatingDistance,
                 t->floatingMinDistance);
    if (t->noFloatingRoots && !roseHasInFlightMatches(t, state, scratch)) {
        DEBUG_PRINTF("skip FLOATING: no inflight matches\n");
        return 0;
    }

    if (t->fmatcherMaxBiAnchoredWidth != ROSE_BOUND_INF &&
        length > t->fmatcherMaxBiAnchoredWidth) {
        return 0;
    }

    if (length < t->fmatcherMinWidth) {
        return 0;
    }

    const u8 *buffer = scratch->core_info.buf;
    size_t flen = length;
    if (t->floatingDistance != ROSE_BOUND_INF) {
        flen = MIN(t->floatingDistance, length);
    }
    if (flen <= t->floatingMinDistance) {
        return 0;
    }

    DEBUG_PRINTF("BEGIN FLOATING (over %zu/%zu)\n", flen, length);
    DEBUG_PRINTF("-- %016llx\n", tctxt->groups);
    hwlmExec(ftable, buffer, flen, t->floatingMinDistance, roseFloatingCallback,
             scratch, tctxt->groups & t->floating_group_mask);

    return can_stop_matching(scratch);
}

static rose_inline
void runEagerPrefixesBlock(const struct RoseEngine *t,
                           struct hs_scratch *scratch) {
    if (!t->eagerIterOffset) {
        return;
    }

    char *state = scratch->core_info.state;
    u8 *ara = getActiveLeftArray(t, state); /* indexed by offsets into
                                             * left_table */
    const u32 arCount = t->activeLeftCount;
    const u32 qCount = t->queueCount;
    const struct LeftNfaInfo *left_table = getLeftTable(t);
    const struct mmbit_sparse_iter *it = getByOffset(t, t->eagerIterOffset);

    struct mmbit_sparse_state si_state[MAX_SPARSE_ITER_STATES];

    u32 idx = 0;
    u32 ri = mmbit_sparse_iter_begin(ara, arCount, &idx, it, si_state);
    for (; ri != MMB_INVALID;
           ri = mmbit_sparse_iter_next(ara, arCount, ri, &idx, it, si_state)) {
        const struct LeftNfaInfo *left = left_table + ri;
        u32 qi = ri + t->leftfixBeginQueue;
        DEBUG_PRINTF("leftfix %u/%u, maxLag=%u\n", ri, arCount, left->maxLag);

        assert(!fatbit_isset(scratch->aqa, qCount, qi));
        assert(left->eager);
        assert(!left->infix);

        struct mq *q = scratch->queues + qi;
        const struct NFA *nfa = getNfaByQueue(t, qi);

        if (scratch->core_info.len < nfa->minWidth) {
            /* we know that there is not enough data for this to ever match, so
             * we can immediately squash/ */
            mmbit_unset(ara, arCount, ri);
            scratch->tctxt.groups &= left->squash_mask;
        }

        s64a loc = MIN(scratch->core_info.len, EAGER_STOP_OFFSET);

        fatbit_set(scratch->aqa, qCount, qi);
        initRoseQueue(t, qi, left, scratch);

        pushQueueAt(q, 0, MQE_START, 0);
        pushQueueAt(q, 1, MQE_TOP, 0);
        pushQueueAt(q, 2, MQE_END, loc);
        nfaQueueInitState(nfa, q);

        char alive = nfaQueueExecToMatch(q->nfa, q, loc);

        if (!alive) {
            DEBUG_PRINTF("queue %u dead, squashing\n", qi);
            mmbit_unset(ara, arCount, ri);
            fatbit_unset(scratch->aqa, qCount, qi);
            scratch->tctxt.groups &= left->squash_mask;
        } else if (q->cur == q->end) {
            assert(alive != MO_MATCHES_PENDING);
            if (loc == (s64a)scratch->core_info.len) {
                /* We know that the prefix does not match in the block so we
                 * can squash the groups anyway even though it did not die */
                /* TODO: if we knew the minimum lag the leftfix is checked at we
                 * could make this check tighter */
                DEBUG_PRINTF("queue %u has no match in block, squashing\n", qi);
                mmbit_unset(ara, arCount, ri);
                fatbit_unset(scratch->aqa, qCount, qi);
                scratch->tctxt.groups &= left->squash_mask;
            } else {
                DEBUG_PRINTF("queue %u finished, nfa lives\n", qi);
                q->cur = q->end = 0;
                pushQueueAt(q, 0, MQE_START, loc);
            }
        } else {
            assert(alive == MO_MATCHES_PENDING);
            DEBUG_PRINTF("queue %u unfinished, nfa lives\n", qi);
            q->end--; /* remove end item */
        }
    }
}

void roseBlockExec(const struct RoseEngine *t, struct hs_scratch *scratch) {
    assert(t);
    assert(scratch);
    assert(scratch->core_info.buf);
    assert(mmbit_sparse_iter_state_size(t->rolesWithStateCount)
           < MAX_SPARSE_ITER_STATES);

    // We should not have been called if we've already been told to terminate
    // matching.
    assert(!told_to_stop_matching(scratch));

    // If this block is shorter than our minimum width, then no pattern in this
    // RoseEngine could match.
    /* minWidth checks should have already been performed by the caller */
    assert(scratch->core_info.len >= t->minWidth);

    // Similarly, we may have a maximum width (for engines constructed entirely
    // of bi-anchored patterns).
    /* This check is now handled by the interpreter */
    assert(t->maxBiAnchoredWidth == ROSE_BOUND_INF
           || scratch->core_info.len <= t->maxBiAnchoredWidth);

    const size_t length = scratch->core_info.len;

    // We have optimizations for small block scans: we run a single coalesced
    // HWLM scan instead of running the anchored and floating matchers. Some
    // outfixes are disabled as well (for SEP scans of single-byte literals,
    // which are also run in the HWLM scan).
    const char is_small_block =
        (length < ROSE_SMALL_BLOCK_LEN && t->sbmatcherOffset);

    char *state = scratch->core_info.state;

    init_for_block(t, scratch, state, is_small_block);

    struct RoseContext *tctxt = &scratch->tctxt;

    if (is_small_block) {
        const void *sbtable = getSBLiteralMatcher(t);
        assert(sbtable);

        size_t sblen = MIN(length, t->smallBlockDistance);

        DEBUG_PRINTF("BEGIN SMALL BLOCK (over %zu/%zu)\n", sblen, length);
        DEBUG_PRINTF("-- %016llx\n", tctxt->groups);
        hwlmExec(sbtable, scratch->core_info.buf, sblen, 0, roseCallback,
                 scratch, tctxt->groups);
    } else {
        runEagerPrefixesBlock(t, scratch);

        if (roseBlockAnchored(t, scratch)) {
            return;
        }
        if (roseBlockFloating(t, scratch)) {
            return;
        }
    }

    if (cleanUpDelayed(t, scratch, length, 0) == HWLM_TERMINATE_MATCHING) {
        return;
    }

    assert(!can_stop_matching(scratch));

    roseCatchUpTo(t, scratch, length);

    if (!t->requiresEodCheck || !t->eodProgramOffset) {
        DEBUG_PRINTF("no eod check required\n");
        return;
    }

    if (can_stop_matching(scratch)) {
        DEBUG_PRINTF("bailing, already halted\n");
        return;
    }

    roseBlockEodExec(t, length, scratch);
}