/* * Copyright (c) 2015-2016, 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. */ #include "gough.h" #include "accel.h" #include "gough_internal.h" #include "mcclellan.h" #include "nfa_api.h" #include "nfa_api_queue.h" #include "nfa_internal.h" #include "util/bitutils.h" #include "util/compare.h" #include "util/simd_utils.h" #include "util/unaligned.h" #include "ue2common.h" #include #include "mcclellan_common_impl.h" #define GOUGH_SOM_EARLY (~0ULL) static really_inline void compressSomValue(u32 comp_slot_width, u64a curr_offset, void *dest_som_base, u32 i, u64a val) { void *dest_som = (u8 *)dest_som_base + i * comp_slot_width; /* gough does not initialise all slots, so may contain garbage */ u64a delta = curr_offset - val; switch (comp_slot_width) { case 2: if (delta >= (u16)~0U) { delta = GOUGH_SOM_EARLY; } unaligned_store_u16(dest_som, delta); break; case 4: if (delta >= (u32)~0U) { delta = GOUGH_SOM_EARLY; } unaligned_store_u32(dest_som, delta); break; case 8: if (delta >= ~0ULL) { delta = GOUGH_SOM_EARLY; } unaligned_store_u64a(dest_som, delta); break; default: assert(0); } } static really_inline u64a expandSomValue(u32 comp_slot_width, u64a curr_offset, const void *src_som_base, u32 i) { /* Note: gough does not initialise all slots, so we may end up decompressing * garbage */ const void *src_som = (const u8 *)src_som_base + i * comp_slot_width; u64a val = 0; switch (comp_slot_width) { case 2: val = unaligned_load_u16(src_som); if (val == (u16)~0U) { return GOUGH_SOM_EARLY; } break; case 4: val = unaligned_load_u32(src_som); if (val == (u32)~0U) { return GOUGH_SOM_EARLY; } break; case 8: val = unaligned_load_u64a(src_som); if (val == ~0ULL) { return GOUGH_SOM_EARLY; } break; default: assert(0); } return curr_offset - val; } static really_inline char doReports(NfaCallback cb, void *ctxt, const struct mcclellan *m, const struct gough_som_info *som, u16 s, u64a loc, char eod, u16 * const cached_accept_state, u32 * const cached_accept_id, u32 * const cached_accept_som) { DEBUG_PRINTF("reporting state = %hu, loc=%llu, eod %hhu\n", (u16)(s & STATE_MASK), loc, eod); if (!eod && s == *cached_accept_state) { u64a from = *cached_accept_som == INVALID_SLOT ? loc : som->slots[*cached_accept_som]; if (cb(from, loc, *cached_accept_id, ctxt) == MO_HALT_MATCHING) { return MO_HALT_MATCHING; /* termination requested */ } return MO_CONTINUE_MATCHING; /* continue execution */ } const struct mstate_aux *aux = get_aux(m, s); size_t offset = eod ? aux->accept_eod : aux->accept; assert(offset); const struct gough_report_list *rl = (const void *)((const char *)m + offset - sizeof(struct NFA)); assert(ISALIGNED(rl)); DEBUG_PRINTF("report list size %u\n", rl->count); u32 count = rl->count; if (!eod && count == 1) { *cached_accept_state = s; *cached_accept_id = rl->report[0].r; *cached_accept_som = rl->report[0].som; u64a from = *cached_accept_som == INVALID_SLOT ? loc : som->slots[*cached_accept_som]; DEBUG_PRINTF("reporting %u, using som[%u]=%llu\n", rl->report[0].r, *cached_accept_som, from); if (cb(from, loc, *cached_accept_id, ctxt) == MO_HALT_MATCHING) { return MO_HALT_MATCHING; /* termination requested */ } return MO_CONTINUE_MATCHING; /* continue execution */ } for (u32 i = 0; i < count; i++) { u32 slot = rl->report[i].som; u64a from = slot == INVALID_SLOT ? loc : som->slots[slot]; DEBUG_PRINTF("reporting %u, using som[%u] = %llu\n", rl->report[i].r, slot, from); if (cb(from, loc, rl->report[i].r, ctxt) == MO_HALT_MATCHING) { return MO_HALT_MATCHING; /* termination requested */ } } return MO_CONTINUE_MATCHING; /* continue execution */ } #ifdef DUMP_SUPPORT static UNUSED const char *dump_op(u8 op) { switch (op) { case GOUGH_INS_END: return "END"; case GOUGH_INS_MOV: return "MOV"; case GOUGH_INS_NEW: return "NEW"; case GOUGH_INS_MIN: return "MIN"; default: return "???"; } } #endif static really_inline void run_prog_i(UNUSED const struct NFA *nfa, const struct gough_ins *pc, u64a som_offset, struct gough_som_info *som) { DEBUG_PRINTF("run prog at som_offset of %llu\n", som_offset); while (1) { assert((const u8 *)pc >= (const u8 *)nfa); assert((const u8 *)pc < (const u8 *)nfa + nfa->length); u32 dest = pc->dest; u32 src = pc->src; assert(pc->op == GOUGH_INS_END || dest < (nfa->scratchStateSize - 16) / 8); DEBUG_PRINTF("%s %u %u\n", dump_op(pc->op), dest, src); switch (pc->op) { case GOUGH_INS_END: return; case GOUGH_INS_MOV: som->slots[dest] = som->slots[src]; break; case GOUGH_INS_NEW: /* note: c has already been advanced */ DEBUG_PRINTF("current offset %llu; adjust %u\n", som_offset, pc->src); assert(som_offset >= pc->src); som->slots[dest] = som_offset - pc->src; break; case GOUGH_INS_MIN: /* TODO: shift all values along by one so that a normal min works */ if (som->slots[src] == GOUGH_SOM_EARLY) { som->slots[dest] = som->slots[src]; } else if (som->slots[dest] != GOUGH_SOM_EARLY) { LIMIT_TO_AT_MOST(&som->slots[dest], som->slots[src]); } break; default: assert(0); return; } DEBUG_PRINTF("dest slot[%u] = %llu\n", dest, som->slots[dest]); ++pc; } } static really_inline void run_prog(const struct NFA *nfa, const u32 *edge_prog_table, const u8 *buf, u64a offAdj, const u8 *c, u32 edge_num, struct gough_som_info *som) { DEBUG_PRINTF("taking edge %u\n", edge_num); u32 prog_offset = edge_prog_table[edge_num]; if (!prog_offset) { DEBUG_PRINTF("no prog on edge\n"); return; } const struct gough_ins *pc = (const void *)((const u8 *)nfa + prog_offset); u64a curr_offset = (u64a)(c - buf) + offAdj - 1; run_prog_i(nfa, pc, curr_offset, som); } static never_inline void run_accel_prog(const struct NFA *nfa, const struct gough_accel *gacc, const u8 *buf, u64a offAdj, const u8 *c, const u8 *c2, struct gough_som_info *som) { assert(gacc->prog_offset); assert(c2 > c); const struct gough_ins *pc = (const void *)((const u8 *)nfa + gacc->prog_offset); s64a margin_dist = gacc->margin_dist; DEBUG_PRINTF("run accel after skip %lld margin; advanced %zd\n", margin_dist, c2 - c); if (c2 - c <= 2 * margin_dist) { while (c < c2) { u64a curr_offset = (u64a)(c - buf) + offAdj; run_prog_i(nfa, pc, curr_offset, som); c++; } } else { u64a curr_offset = (u64a)(c - buf) + offAdj; for (s64a i = 0; i < margin_dist; i++) { run_prog_i(nfa, pc, curr_offset + i, som); } curr_offset = (u64a)(c2 - buf) + offAdj - margin_dist; for (s64a i = 0; i < margin_dist; i++) { run_prog_i(nfa, pc, curr_offset + i, som); } } } static never_inline u16 goughEnableStarts(const struct mcclellan *m, u16 s, u64a som_offset, struct gough_som_info *som) { DEBUG_PRINTF("top triggered while at %hu\n", s); const struct mstate_aux *aux = get_aux(m, s); DEBUG_PRINTF("now going to state %hu\n", aux->top); const u32 *top_offsets = get_gough_top_offsets(m); if (!top_offsets) { return aux->top; } u32 prog_offset = top_offsets[s]; if (!prog_offset) { return aux->top; } DEBUG_PRINTF("doing som for top\n"); const struct NFA *nfa = (const struct NFA *)((const char *)m - sizeof(struct NFA)); const struct gough_ins *pc = (const void *)((const u8 *)nfa + prog_offset); run_prog_i(nfa, pc, som_offset, som); return aux->top; } static really_inline char goughExec16_i(const struct mcclellan *m, struct gough_som_info *som, u16 *state, const u8 *buf, size_t len, u64a offAdj, NfaCallback cb, void *ctxt, const u8 **c_final, enum MatchMode mode) { assert(ISALIGNED_N(state, 2)); u16 s = *state; const struct NFA *nfa = (const struct NFA *)((const char *)m - sizeof(struct NFA)); const u8 *c = buf, *c_end = buf + len; const u16 *succ_table = (const u16 *)((const char *)m + sizeof(struct mcclellan)); assert(ISALIGNED_N(succ_table, 2)); const u16 sherman_base = m->sherman_limit; const char *sherman_base_offset = (const char *)nfa + m->sherman_offset; const u32 as = m->alphaShift; s &= STATE_MASK; u32 cached_accept_id = 0; u16 cached_accept_state = 0; u32 cached_accept_som = 0; const u32 *edge_prog_table = (const u32 *)(get_gough(m) + 1); DEBUG_PRINTF("s: %hu, len %zu\n", s, len); const u8 *min_accel_offset = c; if (!m->has_accel || len < ACCEL_MIN_LEN) { min_accel_offset = c_end; goto without_accel; } goto with_accel; without_accel: while (c < min_accel_offset && s) { u8 cprime = m->remap[*(c++)]; DEBUG_PRINTF("c: %02hhx cp:%02hhx (s=%hu)\n", *(c-1), cprime, s); u32 edge_num = ((u32)s << as) + cprime; run_prog(nfa, edge_prog_table, buf, offAdj, c, edge_num, som); if (s < sherman_base) { DEBUG_PRINTF("doing normal\n"); assert(s < m->state_count); s = succ_table[edge_num]; } else { const char *sherman_state = findShermanState(m, sherman_base_offset, sherman_base, s); DEBUG_PRINTF("doing sherman\n"); s = doSherman16(sherman_state, cprime, succ_table, as); } DEBUG_PRINTF("s: %hu (%hu)\n", s, (u16)(s & STATE_MASK)); if (mode != NO_MATCHES && (s & ACCEPT_FLAG)) { if (mode == STOP_AT_MATCH) { *state = s & STATE_MASK; *c_final = c - 1; return MO_CONTINUE_MATCHING; } u64a loc = (c - 1) - buf + offAdj + 1; if (doReports(cb, ctxt, m, som, s & STATE_MASK, loc, 0, &cached_accept_state, &cached_accept_id, &cached_accept_som) == MO_HALT_MATCHING) { return MO_HALT_MATCHING; } } s &= STATE_MASK; } with_accel: while (c < c_end && s) { u8 cprime = m->remap[*(c++)]; DEBUG_PRINTF("c: %02hhx cp:%02hhx (s=%hu)\n", *(c-1), cprime, s); u32 edge_num = ((u32)s << as) + cprime; run_prog(nfa, edge_prog_table, buf, offAdj, c, edge_num, som); if (s < sherman_base) { DEBUG_PRINTF("doing normal\n"); assert(s < m->state_count); s = succ_table[edge_num]; } else { const char *sherman_state = findShermanState(m, sherman_base_offset, sherman_base, s); DEBUG_PRINTF("doing sherman\n"); s = doSherman16(sherman_state, cprime, succ_table, as); } DEBUG_PRINTF("s: %hu (%hu)\n", s, (u16)(s & STATE_MASK)); if (mode != NO_MATCHES && (s & ACCEPT_FLAG)) { if (mode == STOP_AT_MATCH) { *state = s & STATE_MASK; *c_final = c - 1; return MO_CONTINUE_MATCHING; } u64a loc = (c - 1) - buf + offAdj + 1; if (doReports(cb, ctxt, m, som, s & STATE_MASK, loc, 0, &cached_accept_state, &cached_accept_id, &cached_accept_som) == MO_HALT_MATCHING) { return MO_HALT_MATCHING; } } else if (s & ACCEL_FLAG) { DEBUG_PRINTF("skipping\n"); const struct mstate_aux *this_aux = get_aux(m, s & STATE_MASK); u32 accel_offset = this_aux->accel_offset; assert(accel_offset >= m->aux_offset); assert(accel_offset < m->sherman_offset); const struct gough_accel *gacc = (const void *)((const char *)m + accel_offset); assert(!gacc->prog_offset == !gacc->margin_dist); const u8 *c2 = run_accel(&gacc->accel, c, c_end); if (c2 != c && gacc->prog_offset) { run_accel_prog(nfa, gacc, buf, offAdj, c, c2, som); } if (c2 < min_accel_offset + BAD_ACCEL_DIST) { min_accel_offset = c2 + BIG_ACCEL_PENALTY; } else { min_accel_offset = c2 + SMALL_ACCEL_PENALTY; } if (min_accel_offset >= c_end - ACCEL_MIN_LEN) { min_accel_offset = c_end; } DEBUG_PRINTF("advanced %zd, next accel chance in %zd/%zd\n", c2 - c, min_accel_offset - c2, c_end - c2); c = c2; s &= STATE_MASK; goto without_accel; } s &= STATE_MASK; } if (mode == STOP_AT_MATCH) { *c_final = c_end; } *state = s; return MO_CONTINUE_MATCHING; } static really_inline char goughExec8_i(const struct mcclellan *m, struct gough_som_info *som, u8 *state, const u8 *buf, size_t len, u64a offAdj, NfaCallback cb, void *ctxt, const u8 **c_final, enum MatchMode mode) { u8 s = *state; const u8 *c = buf, *c_end = buf + len; const u8 *succ_table = (const u8 *)((const char *)m + sizeof(struct mcclellan)); const u32 as = m->alphaShift; const struct mstate_aux *aux; const struct NFA *nfa = (const struct NFA *)((const char *)m - sizeof(struct NFA)); aux = (const struct mstate_aux *)((const char *)nfa + m->aux_offset); const u32 *edge_prog_table = (const u32 *)(get_gough(m) + 1); u16 accel_limit = m->accel_limit_8; u16 accept_limit = m->accept_limit_8; u32 cached_accept_id = 0; u16 cached_accept_state = 0; u32 cached_accept_som = 0; DEBUG_PRINTF("accel %hu, accept %hu\n", accel_limit, accept_limit); DEBUG_PRINTF("s: %hhu, len %zu\n", s, len); const u8 *min_accel_offset = c; if (!m->has_accel || len < ACCEL_MIN_LEN) { min_accel_offset = c_end; goto without_accel; } goto with_accel; without_accel: while (c < min_accel_offset && s) { u8 cprime = m->remap[*(c++)]; DEBUG_PRINTF("c: %02hhx '%c' cp:%02hhx\n", *(c-1), ourisprint(*(c-1)) ? *(c-1) : '?', cprime); u32 edge_num = ((u32)s << as) + cprime; run_prog(nfa, edge_prog_table, buf, offAdj, c, edge_num, som); s = succ_table[edge_num]; DEBUG_PRINTF("s: %hhu\n", s); if (mode != NO_MATCHES && s >= accept_limit) { if (mode == STOP_AT_MATCH) { DEBUG_PRINTF("match - pausing\n"); *state = s; *c_final = c - 1; return MO_CONTINUE_MATCHING; } u64a loc = (c - 1) - buf + offAdj + 1; if (doReports(cb, ctxt, m, som, s, loc, 0, &cached_accept_state, &cached_accept_id, &cached_accept_som) == MO_HALT_MATCHING) { return MO_HALT_MATCHING; } } } with_accel: while (c < c_end && s) { u8 cprime = m->remap[*(c++)]; DEBUG_PRINTF("c: %02hhx '%c' cp:%02hhx\n", *(c-1), ourisprint(*(c-1)) ? *(c-1) : '?', cprime); u32 edge_num = ((u32)s << as) + cprime; run_prog(nfa, edge_prog_table, buf, offAdj, c, edge_num, som); s = succ_table[edge_num]; DEBUG_PRINTF("s: %hhu\n", s); if (s >= accel_limit) { /* accept_limit >= accel_limit */ if (mode != NO_MATCHES && s >= accept_limit) { if (mode == STOP_AT_MATCH) { DEBUG_PRINTF("match - pausing\n"); *state = s; *c_final = c - 1; return MO_CONTINUE_MATCHING; } u64a loc = (c - 1) - buf + offAdj + 1; if (doReports(cb, ctxt, m, som, s, loc, 0, &cached_accept_state, &cached_accept_id, &cached_accept_som) == MO_HALT_MATCHING) { return MO_HALT_MATCHING; } } else if (aux[s].accel_offset) { DEBUG_PRINTF("skipping\n"); const struct gough_accel *gacc = (const void *)((const char *)m + aux[s].accel_offset); const u8 *c2 = run_accel(&gacc->accel, c, c_end); if (c2 != c && gacc->prog_offset) { run_accel_prog(nfa, gacc, buf, offAdj, c, c2, som); } if (c2 < min_accel_offset + BAD_ACCEL_DIST) { min_accel_offset = c2 + BIG_ACCEL_PENALTY; } else { min_accel_offset = c2 + SMALL_ACCEL_PENALTY; } if (min_accel_offset >= c_end - ACCEL_MIN_LEN) { min_accel_offset = c_end; } DEBUG_PRINTF("advanced %zd, next accel chance in %zd/%zd\n", c2 - c, min_accel_offset - c2, c_end - c2); c = c2; goto without_accel; } } } *state = s; if (mode == STOP_AT_MATCH) { *c_final = c_end; } return MO_CONTINUE_MATCHING; } static never_inline char goughExec8_i_ni(const struct mcclellan *m, struct gough_som_info *som, u8 *state, const u8 *buf, size_t len, u64a offAdj, NfaCallback cb, void *ctxt, const u8 **final_point, enum MatchMode mode) { return goughExec8_i(m, som, state, buf, len, offAdj, cb, ctxt, final_point, mode); } static never_inline char goughExec16_i_ni(const struct mcclellan *m, struct gough_som_info *som, u16 *state, const u8 *buf, size_t len, u64a offAdj, NfaCallback cb, void *ctxt, const u8 **final_point, enum MatchMode mode) { return goughExec16_i(m, som, state, buf, len, offAdj, cb, ctxt, final_point, mode); } static really_inline struct gough_som_info *getSomInfo(char *state_base) { return (struct gough_som_info *)(state_base + 16); } static really_inline const struct gough_som_info *getSomInfoConst(const char *state_base) { return (const struct gough_som_info *)(state_base + 16); } static really_inline char nfaExecGough8_Q2i(const struct NFA *n, u64a offset, const u8 *buffer, const u8 *hend, NfaCallback cb, void *context, struct mq *q, s64a end, enum MatchMode mode) { DEBUG_PRINTF("enter\n"); struct gough_som_info *som = getSomInfo(q->state); assert(n->type == GOUGH_NFA_8); const struct mcclellan *m = (const struct mcclellan *)getImplNfa(n); s64a sp; u8 s = *(u8 *)q->state; if (q->report_current) { assert(s); assert(s >= m->accept_limit_8); u32 cached_accept_id = 0; u16 cached_accept_state = 0; u32 cached_accept_som = 0; int rv = doReports(cb, context, m, som, s, q_cur_offset(q), 0, &cached_accept_state, &cached_accept_id, &cached_accept_som); q->report_current = 0; if (rv == MO_HALT_MATCHING) { return MO_HALT_MATCHING; } } sp = q_cur_loc(q); q->cur++; const u8 *cur_buf = sp < 0 ? hend : buffer; if (mode != NO_MATCHES && q->items[q->cur - 1].location > end) { /* this is as far as we go */ q->cur--; q->items[q->cur].type = MQE_START; q->items[q->cur].location = end; *(u8 *)q->state = s; return MO_ALIVE; } while (1) { DEBUG_PRINTF("%s @ %llu [som %llu]\n", q->items[q->cur].type == MQE_TOP ? "TOP" : q->items[q->cur].type == MQE_END ? "END" : "???", q->items[q->cur].location + offset, q->items[q->cur].som); assert(q->cur < q->end); s64a ep = q->items[q->cur].location; if (mode != NO_MATCHES) { ep = MIN(ep, end); } assert(ep >= sp); DEBUG_PRINTF("run to %lld from %lld\n", ep, sp); s64a local_ep = ep; if (sp < 0) { local_ep = MIN(0, ep); } const u8 *final_look; if (goughExec8_i_ni(m, som, &s, cur_buf + sp, local_ep - sp, offset + sp, cb, context, &final_look, mode) == MO_HALT_MATCHING) { *(u8 *)q->state = 0; return 0; } if (mode == STOP_AT_MATCH && final_look != cur_buf + local_ep) { /* found a match */ DEBUG_PRINTF("found a match\n"); assert(q->cur); q->cur--; q->items[q->cur].type = MQE_START; q->items[q->cur].location = final_look - cur_buf + 1; /* due to * early -1 */ *(u8 *)q->state = s; return MO_MATCHES_PENDING; } assert(q->cur); if (mode != NO_MATCHES && q->items[q->cur].location > end) { /* this is as far as we go */ assert(q->cur); q->cur--; q->items[q->cur].type = MQE_START; q->items[q->cur].location = end; *(u8 *)q->state = s; return MO_ALIVE; } sp = local_ep; if (sp == 0) { cur_buf = buffer; } if (sp != ep) { continue; } switch (q->items[q->cur].type) { case MQE_TOP: assert(!s || sp + offset > 0); if (sp + offset == 0) { s = (u8)m->start_anchored; break; } s = goughEnableStarts(m, s, q->items[q->cur].som, som); break; case MQE_END: *(u8 *)q->state = s; q->cur++; return s ? MO_ALIVE : 0; default: assert(!"invalid queue event"); } q->cur++; } } static really_inline char nfaExecGough16_Q2i(const struct NFA *n, u64a offset, const u8 *buffer, const u8 *hend, NfaCallback cb, void *context, struct mq *q, s64a end, enum MatchMode mode) { struct gough_som_info *som = getSomInfo(q->state); assert(n->type == GOUGH_NFA_16); const struct mcclellan *m = (const struct mcclellan *)getImplNfa(n); s64a sp; assert(ISALIGNED_N(q->state, 2)); u16 s = *(u16 *)q->state; if (q->report_current) { assert(s); assert(get_aux(m, s)->accept); u32 cached_accept_id = 0; u16 cached_accept_state = 0; u32 cached_accept_som = 0; int rv = doReports(cb, context, m, som, s, q_cur_offset(q), 0, &cached_accept_state, &cached_accept_id, &cached_accept_som); q->report_current = 0; if (rv == MO_HALT_MATCHING) { return MO_HALT_MATCHING; } } sp = q_cur_loc(q); q->cur++; const u8 *cur_buf = sp < 0 ? hend : buffer; assert(q->cur); if (mode != NO_MATCHES && q->items[q->cur - 1].location > end) { /* this is as far as we go */ q->cur--; q->items[q->cur].type = MQE_START; q->items[q->cur].location = end; *(u16 *)q->state = s; return MO_ALIVE; } while (1) { assert(q->cur < q->end); s64a ep = q->items[q->cur].location; if (mode != NO_MATCHES) { ep = MIN(ep, end); } assert(ep >= sp); s64a local_ep = ep; if (sp < 0) { local_ep = MIN(0, ep); } /* do main buffer region */ const u8 *final_look; if (goughExec16_i_ni(m, som, &s, cur_buf + sp, local_ep - sp, offset + sp, cb, context, &final_look, mode) == MO_HALT_MATCHING) { *(u16 *)q->state = 0; return 0; } if (mode == STOP_AT_MATCH && final_look != cur_buf + local_ep) { /* this is as far as we go */ assert(q->cur); DEBUG_PRINTF("state %hu final_look %zd\n", s, final_look - cur_buf); q->cur--; q->items[q->cur].type = MQE_START; q->items[q->cur].location = final_look - cur_buf + 1; /* due to * early -1 */ *(u16 *)q->state = s; return MO_MATCHES_PENDING; } assert(q->cur); if (mode != NO_MATCHES && q->items[q->cur].location > end) { /* this is as far as we go */ q->cur--; q->items[q->cur].type = MQE_START; q->items[q->cur].location = end; *(u16 *)q->state = s; return MO_ALIVE; } sp = local_ep; if (sp == 0) { cur_buf = buffer; } if (sp != ep) { continue; } switch (q->items[q->cur].type) { case MQE_TOP: assert(!s || sp + offset > 0); if (sp + offset == 0) { s = m->start_anchored; break; } s = goughEnableStarts(m, s, q->items[q->cur].som, som); break; case MQE_END: *(u16 *)q->state = s; q->cur++; return s ? MO_ALIVE : 0; default: assert(!"invalid queue event"); } q->cur++; } } char nfaExecGough8_Q(const struct NFA *n, struct mq *q, s64a end) { u64a offset = q->offset; const u8 *buffer = q->buffer; NfaCallback cb = q->cb; void *context = q->context; assert(n->type == GOUGH_NFA_8); const u8 *hend = q->history + q->hlength; return nfaExecGough8_Q2i(n, offset, buffer, hend, cb, context, q, end, CALLBACK_OUTPUT); } char nfaExecGough16_Q(const struct NFA *n, struct mq *q, s64a end) { u64a offset = q->offset; const u8 *buffer = q->buffer; NfaCallback cb = q->cb; void *context = q->context; assert(n->type == GOUGH_NFA_16); const u8 *hend = q->history + q->hlength; return nfaExecGough16_Q2i(n, offset, buffer, hend, cb, context, q, end, CALLBACK_OUTPUT); } char nfaExecGough8_Q2(const struct NFA *n, struct mq *q, s64a end) { u64a offset = q->offset; const u8 *buffer = q->buffer; NfaCallback cb = q->cb; void *context = q->context; assert(n->type == GOUGH_NFA_8); const u8 *hend = q->history + q->hlength; return nfaExecGough8_Q2i(n, offset, buffer, hend, cb, context, q, end, STOP_AT_MATCH); } char nfaExecGough16_Q2(const struct NFA *n, struct mq *q, s64a end) { u64a offset = q->offset; const u8 *buffer = q->buffer; NfaCallback cb = q->cb; void *context = q->context; assert(n->type == GOUGH_NFA_16); const u8 *hend = q->history + q->hlength; return nfaExecGough16_Q2i(n, offset, buffer, hend, cb, context, q, end, STOP_AT_MATCH); } char nfaExecGough8_QR(const struct NFA *n, struct mq *q, ReportID report) { u64a offset = q->offset; const u8 *buffer = q->buffer; NfaCallback cb = q->cb; void *context = q->context; assert(n->type == GOUGH_NFA_8); const u8 *hend = q->history + q->hlength; char rv = nfaExecGough8_Q2i(n, offset, buffer, hend, cb, context, q, 0 /* end */, NO_MATCHES); if (rv && nfaExecMcClellan8_inAccept(n, report, q)) { return MO_MATCHES_PENDING; } else { return rv; } } char nfaExecGough16_QR(const struct NFA *n, struct mq *q, ReportID report) { u64a offset = q->offset; const u8 *buffer = q->buffer; NfaCallback cb = q->cb; void *context = q->context; assert(n->type == GOUGH_NFA_16); const u8 *hend = q->history + q->hlength; char rv = nfaExecGough16_Q2i(n, offset, buffer, hend, cb, context, q, 0 /* end */, NO_MATCHES); if (rv && nfaExecMcClellan16_inAccept(n, report, q)) { return MO_MATCHES_PENDING; } else { return rv; } } char nfaExecGough8_initCompressedState(const struct NFA *nfa, u64a offset, void *state, UNUSED u8 key) { const struct mcclellan *m = (const struct mcclellan *)getImplNfa(nfa); memset(state, 0, nfa->streamStateSize); u8 s = offset ? m->start_floating : m->start_anchored; if (s) { *(u8 *)state = s; return 1; } return 0; } char nfaExecGough16_initCompressedState(const struct NFA *nfa, u64a offset, void *state, UNUSED u8 key) { const struct mcclellan *m = (const struct mcclellan *)getImplNfa(nfa); memset(state, 0, nfa->streamStateSize); u16 s = offset ? m->start_floating : m->start_anchored; if (s) { unaligned_store_u16(state, s); return 1; } return 0; } char nfaExecGough8_reportCurrent(const struct NFA *n, struct mq *q) { const struct mcclellan *m = (const struct mcclellan *)getImplNfa(n); NfaCallback cb = q->cb; u8 s = *(u8 *)q->state; u64a offset = q_cur_offset(q); const struct gough_som_info *som = getSomInfo(q->state); assert(q_cur_type(q) == MQE_START); assert(s); if (s >= m->accept_limit_8) { void *ctxt = q->context; u32 cached_accept_id = 0; u16 cached_accept_state = 0; u32 cached_accept_som = 0; doReports(cb, ctxt, m, som, s, offset, 0, &cached_accept_state, &cached_accept_id, &cached_accept_som); } return 0; } char nfaExecGough16_reportCurrent(const struct NFA *n, struct mq *q) { const struct mcclellan *m = (const struct mcclellan *)getImplNfa(n); NfaCallback cb = q->cb; u16 s = *(u16 *)q->state; const struct mstate_aux *aux = get_aux(m, s); u64a offset = q_cur_offset(q); const struct gough_som_info *som = getSomInfo(q->state); assert(q_cur_type(q) == MQE_START); DEBUG_PRINTF("state %hu\n", s); assert(s); if (aux->accept) { void *ctxt = q->context; u32 cached_accept_id = 0; u16 cached_accept_state = 0; u32 cached_accept_som = 0; doReports(cb, ctxt, m, som, s, offset, 0, &cached_accept_state, &cached_accept_id, &cached_accept_som); } return 0; } char nfaExecGough8_inAccept(const struct NFA *n, ReportID report, struct mq *q) { return nfaExecMcClellan8_inAccept(n, report, q); } char nfaExecGough16_inAccept(const struct NFA *n, ReportID report, struct mq *q) { return nfaExecMcClellan16_inAccept(n, report, q); } char nfaExecGough8_inAnyAccept(const struct NFA *n, struct mq *q) { return nfaExecMcClellan8_inAnyAccept(n, q); } char nfaExecGough16_inAnyAccept(const struct NFA *n, struct mq *q) { return nfaExecMcClellan16_inAnyAccept(n, q); } static char goughCheckEOD(const struct NFA *nfa, u16 s, const struct gough_som_info *som, u64a offset, NfaCallback cb, void *ctxt) { const struct mcclellan *m = (const struct mcclellan *)getImplNfa(nfa); const struct mstate_aux *aux = get_aux(m, s); if (!aux->accept_eod) { return MO_CONTINUE_MATCHING; } return doReports(cb, ctxt, m, som, s, offset, 1, NULL, NULL, NULL); } char nfaExecGough8_testEOD(const struct NFA *nfa, const char *state, UNUSED const char *streamState, u64a offset, NfaCallback callback, void *context) { const struct gough_som_info *som = getSomInfoConst(state); return goughCheckEOD(nfa, *(const u8 *)state, som, offset, callback, context); } char nfaExecGough16_testEOD(const struct NFA *nfa, const char *state, UNUSED const char *streamState, u64a offset, NfaCallback callback, void *context) { assert(ISALIGNED_N(state, 8)); const struct gough_som_info *som = getSomInfoConst(state); return goughCheckEOD(nfa, *(const u16 *)state, som, offset, callback, context); } char nfaExecGough8_queueInitState(UNUSED const struct NFA *nfa, struct mq *q) { memset(q->state, 0, nfa->scratchStateSize); return 0; } char nfaExecGough16_queueInitState(UNUSED const struct NFA *nfa, struct mq *q) { memset(q->state, 0, nfa->scratchStateSize); assert(ISALIGNED_N(q->state, 2)); return 0; } static really_inline void compSomSpace(const struct NFA *nfa, u8 *dest_som_base, const struct gough_som_info *src, u64a curr_offset) { const struct mcclellan *m = (const struct mcclellan *)getImplNfa(nfa); const struct gough_info *gi = get_gough(m); u32 count = gi->stream_som_loc_count; u32 width = gi->stream_som_loc_width; for (u32 i = 0; i < count; i++) { compressSomValue(width, curr_offset, dest_som_base, i, src->slots[i]); } } static really_inline void expandSomSpace(const struct NFA *nfa, struct gough_som_info *som, const u8 *src_som_base, u64a curr_offset) { const struct mcclellan *m = (const struct mcclellan *)getImplNfa(nfa); const struct gough_info *gi = get_gough(m); u32 count = gi->stream_som_loc_count; u32 width = gi->stream_som_loc_width; for (u32 i = 0; i < count; i++) { som->slots[i] = expandSomValue(width, curr_offset, src_som_base, i); } } char nfaExecGough8_queueCompressState(const struct NFA *nfa, const struct mq *q, s64a loc) { void *dest = q->streamState; const void *src = q->state; *(u8 *)dest = *(const u8 *)src; compSomSpace(nfa, (u8 *)dest + 1, getSomInfoConst(src), q->offset + loc); return 0; } char nfaExecGough8_expandState(const struct NFA *nfa, void *dest, const void *src, u64a offset, UNUSED u8 key) { *(u8 *)dest = *(const u8 *)src; expandSomSpace(nfa, getSomInfo(dest), (const u8 *)src + 1, offset); return 0; } char nfaExecGough16_queueCompressState(const struct NFA *nfa, const struct mq *q, s64a loc) { void *dest = q->streamState; const void *src = q->state; assert(ISALIGNED_N(src, 2)); unaligned_store_u16(dest, *(const u16 *)(src)); compSomSpace(nfa, (u8 *)dest + 2, getSomInfoConst(src), q->offset + loc); return 0; } char nfaExecGough16_expandState(const struct NFA *nfa, void *dest, const void *src, u64a offset, UNUSED u8 key) { assert(ISALIGNED_N(dest, 2)); *(u16 *)dest = unaligned_load_u16(src); expandSomSpace(nfa, getSomInfo(dest), (const u8 *)src + 2, offset); return 0; }