166d29a5eSTaylor Simpson /*
214edcf11SMatheus Tavares Bernardino * Copyright(c) 2019-2023 Qualcomm Innovation Center, Inc. All Rights Reserved.
366d29a5eSTaylor Simpson *
466d29a5eSTaylor Simpson * This program is free software; you can redistribute it and/or modify
566d29a5eSTaylor Simpson * it under the terms of the GNU General Public License as published by
666d29a5eSTaylor Simpson * the Free Software Foundation; either version 2 of the License, or
766d29a5eSTaylor Simpson * (at your option) any later version.
866d29a5eSTaylor Simpson *
966d29a5eSTaylor Simpson * This program is distributed in the hope that it will be useful,
1066d29a5eSTaylor Simpson * but WITHOUT ANY WARRANTY; without even the implied warranty of
1166d29a5eSTaylor Simpson * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
1266d29a5eSTaylor Simpson * GNU General Public License for more details.
1366d29a5eSTaylor Simpson *
1466d29a5eSTaylor Simpson * You should have received a copy of the GNU General Public License
1566d29a5eSTaylor Simpson * along with this program; if not, see <http://www.gnu.org/licenses/>.
1666d29a5eSTaylor Simpson */
1766d29a5eSTaylor Simpson
1866d29a5eSTaylor Simpson #include "qemu/osdep.h"
1966d29a5eSTaylor Simpson #include "iclass.h"
2066d29a5eSTaylor Simpson #include "attribs.h"
2166d29a5eSTaylor Simpson #include "genptr.h"
2266d29a5eSTaylor Simpson #include "decode.h"
2366d29a5eSTaylor Simpson #include "insn.h"
2466d29a5eSTaylor Simpson #include "printinsn.h"
2560d1180bSTaylor Simpson #include "mmvec/decode_ext_mmvec.h"
2666d29a5eSTaylor Simpson
2766d29a5eSTaylor Simpson #define fZXTN(N, M, VAL) ((VAL) & ((1LL << (N)) - 1))
2866d29a5eSTaylor Simpson
2966d29a5eSTaylor Simpson enum {
3066d29a5eSTaylor Simpson EXT_IDX_noext = 0,
3166d29a5eSTaylor Simpson EXT_IDX_noext_AFTER = 4,
3266d29a5eSTaylor Simpson EXT_IDX_mmvec = 4,
3366d29a5eSTaylor Simpson EXT_IDX_mmvec_AFTER = 8,
3466d29a5eSTaylor Simpson XX_LAST_EXT_IDX
3566d29a5eSTaylor Simpson };
3666d29a5eSTaylor Simpson
3766d29a5eSTaylor Simpson /*
3866d29a5eSTaylor Simpson * Certain operand types represent a non-contiguous set of values.
3966d29a5eSTaylor Simpson * For example, the compound compare-and-jump instruction can only access
4066d29a5eSTaylor Simpson * registers R0-R7 and R16-23.
4166d29a5eSTaylor Simpson * This table represents the mapping from the encoding to the actual values.
4266d29a5eSTaylor Simpson */
4366d29a5eSTaylor Simpson
4466d29a5eSTaylor Simpson #define DEF_REGMAP(NAME, ELEMENTS, ...) \
4566d29a5eSTaylor Simpson static const unsigned int DECODE_REGISTER_##NAME[ELEMENTS] = \
4666d29a5eSTaylor Simpson { __VA_ARGS__ };
4766d29a5eSTaylor Simpson /* Name Num Table */
4866d29a5eSTaylor Simpson DEF_REGMAP(R_16, 16, 0, 1, 2, 3, 4, 5, 6, 7, 16, 17, 18, 19, 20, 21, 22, 23)
4966d29a5eSTaylor Simpson DEF_REGMAP(R__8, 8, 0, 2, 4, 6, 16, 18, 20, 22)
5061c9aab0STaylor Simpson DEF_REGMAP(R_8, 8, 0, 1, 2, 3, 4, 5, 6, 7)
5166d29a5eSTaylor Simpson
521de468b3STaylor Simpson #define DECODE_MAPPED_REG(OPNUM, NAME) \
531de468b3STaylor Simpson insn->regno[OPNUM] = DECODE_REGISTER_##NAME[insn->regno[OPNUM]];
5466d29a5eSTaylor Simpson
551547a2d3STaylor Simpson /* Helper functions for decode_*_generated.c.inc */
561547a2d3STaylor Simpson #define DECODE_MAPPED(NAME) \
571547a2d3STaylor Simpson static int decode_mapped_reg_##NAME(DisasContext *ctx, int x) \
581547a2d3STaylor Simpson { \
591547a2d3STaylor Simpson return DECODE_REGISTER_##NAME[x]; \
601547a2d3STaylor Simpson }
DECODE_MAPPED(R_16)611547a2d3STaylor Simpson DECODE_MAPPED(R_16)
621547a2d3STaylor Simpson DECODE_MAPPED(R_8)
63f6c01009STaylor Simpson DECODE_MAPPED(R__8)
641547a2d3STaylor Simpson
651547a2d3STaylor Simpson /* Helper function for decodetree_trans_funcs_generated.c.inc */
661547a2d3STaylor Simpson static int shift_left(DisasContext *ctx, int x, int n, int immno)
671547a2d3STaylor Simpson {
681547a2d3STaylor Simpson int ret = x;
691547a2d3STaylor Simpson Insn *insn = ctx->insn;
701547a2d3STaylor Simpson if (!insn->extension_valid ||
711547a2d3STaylor Simpson insn->which_extended != immno) {
721547a2d3STaylor Simpson ret <<= n;
731547a2d3STaylor Simpson }
741547a2d3STaylor Simpson return ret;
751547a2d3STaylor Simpson }
761547a2d3STaylor Simpson
771547a2d3STaylor Simpson /* Include the generated decoder for 32 bit insn */
781547a2d3STaylor Simpson #include "decode_normal_generated.c.inc"
791547a2d3STaylor Simpson #include "decode_hvx_generated.c.inc"
801547a2d3STaylor Simpson
81f6c01009STaylor Simpson /* Include the generated decoder for 16 bit insn */
82f6c01009STaylor Simpson #include "decode_subinsn_a_generated.c.inc"
83f6c01009STaylor Simpson #include "decode_subinsn_l1_generated.c.inc"
84f6c01009STaylor Simpson #include "decode_subinsn_l2_generated.c.inc"
85f6c01009STaylor Simpson #include "decode_subinsn_s1_generated.c.inc"
86f6c01009STaylor Simpson #include "decode_subinsn_s2_generated.c.inc"
87f6c01009STaylor Simpson
881547a2d3STaylor Simpson /* Include the generated helpers for the decoder */
891547a2d3STaylor Simpson #include "decodetree_trans_funcs_generated.c.inc"
901547a2d3STaylor Simpson
decode_send_insn_to(Packet * packet,int start,int newloc)9166d29a5eSTaylor Simpson void decode_send_insn_to(Packet *packet, int start, int newloc)
9266d29a5eSTaylor Simpson {
9366d29a5eSTaylor Simpson Insn tmpinsn;
9466d29a5eSTaylor Simpson int direction;
9566d29a5eSTaylor Simpson int i;
9666d29a5eSTaylor Simpson if (start == newloc) {
9766d29a5eSTaylor Simpson return;
9866d29a5eSTaylor Simpson }
9966d29a5eSTaylor Simpson if (start < newloc) {
10066d29a5eSTaylor Simpson /* Move towards end */
10166d29a5eSTaylor Simpson direction = 1;
10266d29a5eSTaylor Simpson } else {
10366d29a5eSTaylor Simpson /* move towards beginning */
10466d29a5eSTaylor Simpson direction = -1;
10566d29a5eSTaylor Simpson }
10666d29a5eSTaylor Simpson for (i = start; i != newloc; i += direction) {
10766d29a5eSTaylor Simpson tmpinsn = packet->insn[i];
10866d29a5eSTaylor Simpson packet->insn[i] = packet->insn[i + direction];
10966d29a5eSTaylor Simpson packet->insn[i + direction] = tmpinsn;
11066d29a5eSTaylor Simpson }
11166d29a5eSTaylor Simpson }
11266d29a5eSTaylor Simpson
11366d29a5eSTaylor Simpson /* Fill newvalue registers with the correct regno */
11466d29a5eSTaylor Simpson static void
decode_fill_newvalue_regno(Packet * packet)11566d29a5eSTaylor Simpson decode_fill_newvalue_regno(Packet *packet)
11666d29a5eSTaylor Simpson {
11766d29a5eSTaylor Simpson int i, use_regidx, offset, def_idx, dst_idx;
11866d29a5eSTaylor Simpson
11966d29a5eSTaylor Simpson for (i = 1; i < packet->num_insns; i++) {
12066d29a5eSTaylor Simpson if (GET_ATTRIB(packet->insn[i].opcode, A_DOTNEWVALUE) &&
12166d29a5eSTaylor Simpson !GET_ATTRIB(packet->insn[i].opcode, A_EXTENSION)) {
12266d29a5eSTaylor Simpson
12309a7e7dbSTaylor Simpson g_assert(packet->insn[i].new_read_idx != -1);
12409a7e7dbSTaylor Simpson use_regidx = packet->insn[i].new_read_idx;
12566d29a5eSTaylor Simpson
12666d29a5eSTaylor Simpson /*
12766d29a5eSTaylor Simpson * What's encoded at the N-field is the offset to who's producing
12866d29a5eSTaylor Simpson * the value. Shift off the LSB which indicates odd/even register,
12966d29a5eSTaylor Simpson * then walk backwards and skip over the constant extenders.
13066d29a5eSTaylor Simpson */
13166d29a5eSTaylor Simpson offset = packet->insn[i].regno[use_regidx] >> 1;
13266d29a5eSTaylor Simpson def_idx = i - offset;
13366d29a5eSTaylor Simpson for (int j = 0; j < offset; j++) {
13466d29a5eSTaylor Simpson if (GET_ATTRIB(packet->insn[i - j - 1].opcode, A_IT_EXTENDER)) {
13566d29a5eSTaylor Simpson def_idx--;
13666d29a5eSTaylor Simpson }
13766d29a5eSTaylor Simpson }
13866d29a5eSTaylor Simpson
13966d29a5eSTaylor Simpson /*
14066d29a5eSTaylor Simpson * Check for a badly encoded N-field which points to an instruction
14166d29a5eSTaylor Simpson * out-of-range
14266d29a5eSTaylor Simpson */
14366d29a5eSTaylor Simpson g_assert(!((def_idx < 0) || (def_idx > (packet->num_insns - 1))));
14466d29a5eSTaylor Simpson
14566d29a5eSTaylor Simpson /* Now patch up the consumer with the register number */
14609a7e7dbSTaylor Simpson g_assert(packet->insn[def_idx].dest_idx != -1);
14709a7e7dbSTaylor Simpson dst_idx = packet->insn[def_idx].dest_idx;
14866d29a5eSTaylor Simpson packet->insn[i].regno[use_regidx] =
14966d29a5eSTaylor Simpson packet->insn[def_idx].regno[dst_idx];
15066d29a5eSTaylor Simpson /*
15166d29a5eSTaylor Simpson * We need to remember who produces this value to later
15266d29a5eSTaylor Simpson * check if it was dynamically cancelled
15366d29a5eSTaylor Simpson */
15466d29a5eSTaylor Simpson packet->insn[i].new_value_producer_slot =
15566d29a5eSTaylor Simpson packet->insn[def_idx].slot;
15666d29a5eSTaylor Simpson }
15766d29a5eSTaylor Simpson }
15866d29a5eSTaylor Simpson }
15966d29a5eSTaylor Simpson
16066d29a5eSTaylor Simpson /* Split CJ into a compare and a jump */
decode_split_cmpjump(Packet * pkt)16166d29a5eSTaylor Simpson static void decode_split_cmpjump(Packet *pkt)
16266d29a5eSTaylor Simpson {
16366d29a5eSTaylor Simpson int last, i;
16466d29a5eSTaylor Simpson int numinsns = pkt->num_insns;
16566d29a5eSTaylor Simpson
16666d29a5eSTaylor Simpson /*
16766d29a5eSTaylor Simpson * First, split all compare-jumps.
16866d29a5eSTaylor Simpson * The compare is sent to the end as a new instruction.
16966d29a5eSTaylor Simpson * Do it this way so we don't reorder dual jumps. Those need to stay in
17066d29a5eSTaylor Simpson * original order.
17166d29a5eSTaylor Simpson */
17266d29a5eSTaylor Simpson for (i = 0; i < numinsns; i++) {
17366d29a5eSTaylor Simpson /* It's a cmp-jump */
17466d29a5eSTaylor Simpson if (GET_ATTRIB(pkt->insn[i].opcode, A_NEWCMPJUMP)) {
17566d29a5eSTaylor Simpson last = pkt->num_insns;
17666d29a5eSTaylor Simpson pkt->insn[last] = pkt->insn[i]; /* copy the instruction */
17792cfa25fSTaylor Simpson pkt->insn[last].part1 = true; /* last insn does the CMP */
17892cfa25fSTaylor Simpson pkt->insn[i].part1 = false; /* existing insn does the JUMP */
17966d29a5eSTaylor Simpson pkt->num_insns++;
18066d29a5eSTaylor Simpson }
18166d29a5eSTaylor Simpson }
18266d29a5eSTaylor Simpson
18366d29a5eSTaylor Simpson /* Now re-shuffle all the compares back to the beginning */
18466d29a5eSTaylor Simpson for (i = 0; i < pkt->num_insns; i++) {
18566d29a5eSTaylor Simpson if (pkt->insn[i].part1) {
18666d29a5eSTaylor Simpson decode_send_insn_to(pkt, i, 0);
18766d29a5eSTaylor Simpson }
18866d29a5eSTaylor Simpson }
18966d29a5eSTaylor Simpson }
19066d29a5eSTaylor Simpson
decode_opcode_can_jump(int opcode)19192cfa25fSTaylor Simpson static bool decode_opcode_can_jump(int opcode)
19266d29a5eSTaylor Simpson {
19366d29a5eSTaylor Simpson if ((GET_ATTRIB(opcode, A_JUMP)) ||
19466d29a5eSTaylor Simpson (GET_ATTRIB(opcode, A_CALL)) ||
19566d29a5eSTaylor Simpson (opcode == J2_trap0) ||
19666d29a5eSTaylor Simpson (opcode == J2_pause)) {
19766d29a5eSTaylor Simpson /* Exception to A_JUMP attribute */
19866d29a5eSTaylor Simpson if (opcode == J4_hintjumpr) {
19992cfa25fSTaylor Simpson return false;
20066d29a5eSTaylor Simpson }
20192cfa25fSTaylor Simpson return true;
20266d29a5eSTaylor Simpson }
20366d29a5eSTaylor Simpson
20492cfa25fSTaylor Simpson return false;
20566d29a5eSTaylor Simpson }
20666d29a5eSTaylor Simpson
decode_opcode_ends_loop(int opcode)20792cfa25fSTaylor Simpson static bool decode_opcode_ends_loop(int opcode)
20866d29a5eSTaylor Simpson {
20966d29a5eSTaylor Simpson return GET_ATTRIB(opcode, A_HWLOOP0_END) ||
21066d29a5eSTaylor Simpson GET_ATTRIB(opcode, A_HWLOOP1_END);
21166d29a5eSTaylor Simpson }
21266d29a5eSTaylor Simpson
21366d29a5eSTaylor Simpson /* Set the is_* fields in each instruction */
decode_set_insn_attr_fields(Packet * pkt)21466d29a5eSTaylor Simpson static void decode_set_insn_attr_fields(Packet *pkt)
21566d29a5eSTaylor Simpson {
21666d29a5eSTaylor Simpson int i;
21766d29a5eSTaylor Simpson int numinsns = pkt->num_insns;
21866d29a5eSTaylor Simpson uint16_t opcode;
21966d29a5eSTaylor Simpson
22092cfa25fSTaylor Simpson pkt->pkt_has_cof = false;
221fb67c2bfSTaylor Simpson pkt->pkt_has_multi_cof = false;
22292cfa25fSTaylor Simpson pkt->pkt_has_endloop = false;
22392cfa25fSTaylor Simpson pkt->pkt_has_dczeroa = false;
22466d29a5eSTaylor Simpson
22566d29a5eSTaylor Simpson for (i = 0; i < numinsns; i++) {
22666d29a5eSTaylor Simpson opcode = pkt->insn[i].opcode;
22766d29a5eSTaylor Simpson if (pkt->insn[i].part1) {
22866d29a5eSTaylor Simpson continue; /* Skip compare of cmp-jumps */
22966d29a5eSTaylor Simpson }
23066d29a5eSTaylor Simpson
23166d29a5eSTaylor Simpson if (GET_ATTRIB(opcode, A_DCZEROA)) {
23292cfa25fSTaylor Simpson pkt->pkt_has_dczeroa = true;
23366d29a5eSTaylor Simpson }
23466d29a5eSTaylor Simpson
23566d29a5eSTaylor Simpson if (GET_ATTRIB(opcode, A_STORE)) {
236e2be9a5cSTaylor Simpson if (GET_ATTRIB(opcode, A_SCALAR_STORE) &&
237e2be9a5cSTaylor Simpson !GET_ATTRIB(opcode, A_MEMSIZE_0B)) {
23866d29a5eSTaylor Simpson if (pkt->insn[i].slot == 0) {
23992cfa25fSTaylor Simpson pkt->pkt_has_store_s0 = true;
24066d29a5eSTaylor Simpson } else {
24192cfa25fSTaylor Simpson pkt->pkt_has_store_s1 = true;
24266d29a5eSTaylor Simpson }
24366d29a5eSTaylor Simpson }
244e2be9a5cSTaylor Simpson }
24566d29a5eSTaylor Simpson
246fb67c2bfSTaylor Simpson if (decode_opcode_can_jump(opcode)) {
247fb67c2bfSTaylor Simpson if (pkt->pkt_has_cof) {
248fb67c2bfSTaylor Simpson pkt->pkt_has_multi_cof = true;
249fb67c2bfSTaylor Simpson }
250fb67c2bfSTaylor Simpson pkt->pkt_has_cof = true;
251fb67c2bfSTaylor Simpson }
25266d29a5eSTaylor Simpson
25366d29a5eSTaylor Simpson pkt->insn[i].is_endloop = decode_opcode_ends_loop(opcode);
25466d29a5eSTaylor Simpson
25566d29a5eSTaylor Simpson pkt->pkt_has_endloop |= pkt->insn[i].is_endloop;
25666d29a5eSTaylor Simpson
257fb67c2bfSTaylor Simpson if (pkt->pkt_has_endloop) {
258fb67c2bfSTaylor Simpson if (pkt->pkt_has_cof) {
259fb67c2bfSTaylor Simpson pkt->pkt_has_multi_cof = true;
260fb67c2bfSTaylor Simpson }
261fb67c2bfSTaylor Simpson pkt->pkt_has_cof = true;
262fb67c2bfSTaylor Simpson }
26366d29a5eSTaylor Simpson }
26466d29a5eSTaylor Simpson }
26566d29a5eSTaylor Simpson
26666d29a5eSTaylor Simpson /*
26766d29a5eSTaylor Simpson * Shuffle for execution
26866d29a5eSTaylor Simpson * Move stores to end (in same order as encoding)
26966d29a5eSTaylor Simpson * Move compares to beginning (for use by .new insns)
27066d29a5eSTaylor Simpson */
decode_shuffle_for_execution(Packet * packet)27166d29a5eSTaylor Simpson static void decode_shuffle_for_execution(Packet *packet)
27266d29a5eSTaylor Simpson {
27392cfa25fSTaylor Simpson bool changed = false;
27466d29a5eSTaylor Simpson int i;
27592cfa25fSTaylor Simpson bool flag; /* flag means we've seen a non-memory instruction */
27666d29a5eSTaylor Simpson int n_mems;
27766d29a5eSTaylor Simpson int last_insn = packet->num_insns - 1;
27866d29a5eSTaylor Simpson
27966d29a5eSTaylor Simpson /*
28066d29a5eSTaylor Simpson * Skip end loops, somehow an end loop is getting in and messing
28166d29a5eSTaylor Simpson * up the order
28266d29a5eSTaylor Simpson */
28366d29a5eSTaylor Simpson if (decode_opcode_ends_loop(packet->insn[last_insn].opcode)) {
28466d29a5eSTaylor Simpson last_insn--;
28566d29a5eSTaylor Simpson }
28666d29a5eSTaylor Simpson
28766d29a5eSTaylor Simpson do {
28892cfa25fSTaylor Simpson changed = false;
28966d29a5eSTaylor Simpson /*
29066d29a5eSTaylor Simpson * Stores go last, must not reorder.
29166d29a5eSTaylor Simpson * Cannot shuffle stores past loads, either.
29266d29a5eSTaylor Simpson * Iterate backwards. If we see a non-memory instruction,
29366d29a5eSTaylor Simpson * then a store, shuffle the store to the front. Don't shuffle
29466d29a5eSTaylor Simpson * stores wrt each other or a load.
29566d29a5eSTaylor Simpson */
29692cfa25fSTaylor Simpson for (flag = false, n_mems = 0, i = last_insn; i >= 0; i--) {
29766d29a5eSTaylor Simpson int opcode = packet->insn[i].opcode;
29866d29a5eSTaylor Simpson
29966d29a5eSTaylor Simpson if (flag && GET_ATTRIB(opcode, A_STORE)) {
30066d29a5eSTaylor Simpson decode_send_insn_to(packet, i, last_insn - n_mems);
30166d29a5eSTaylor Simpson n_mems++;
30292cfa25fSTaylor Simpson changed = true;
30366d29a5eSTaylor Simpson } else if (GET_ATTRIB(opcode, A_STORE)) {
30466d29a5eSTaylor Simpson n_mems++;
30566d29a5eSTaylor Simpson } else if (GET_ATTRIB(opcode, A_LOAD)) {
30666d29a5eSTaylor Simpson /*
30766d29a5eSTaylor Simpson * Don't set flag, since we don't want to shuffle a
30866d29a5eSTaylor Simpson * store past a load
30966d29a5eSTaylor Simpson */
31066d29a5eSTaylor Simpson n_mems++;
31166d29a5eSTaylor Simpson } else if (GET_ATTRIB(opcode, A_DOTNEWVALUE)) {
31266d29a5eSTaylor Simpson /*
31366d29a5eSTaylor Simpson * Don't set flag, since we don't want to shuffle past
31466d29a5eSTaylor Simpson * a .new value
31566d29a5eSTaylor Simpson */
31666d29a5eSTaylor Simpson } else {
31792cfa25fSTaylor Simpson flag = true;
31866d29a5eSTaylor Simpson }
31966d29a5eSTaylor Simpson }
32066d29a5eSTaylor Simpson
32166d29a5eSTaylor Simpson if (changed) {
32266d29a5eSTaylor Simpson continue;
32366d29a5eSTaylor Simpson }
32466d29a5eSTaylor Simpson /* Compares go first, may be reordered wrt each other */
32592cfa25fSTaylor Simpson for (flag = false, i = 0; i < last_insn + 1; i++) {
32666d29a5eSTaylor Simpson int opcode = packet->insn[i].opcode;
32766d29a5eSTaylor Simpson
32809a7e7dbSTaylor Simpson if (packet->insn[i].has_pred_dest &&
32966d29a5eSTaylor Simpson GET_ATTRIB(opcode, A_STORE) == 0) {
33066d29a5eSTaylor Simpson /* This should be a compare (not a store conditional) */
33166d29a5eSTaylor Simpson if (flag) {
33266d29a5eSTaylor Simpson decode_send_insn_to(packet, i, 0);
33392cfa25fSTaylor Simpson changed = true;
33466d29a5eSTaylor Simpson continue;
33566d29a5eSTaylor Simpson }
33666d29a5eSTaylor Simpson } else if (GET_ATTRIB(opcode, A_IMPLICIT_WRITES_P3) &&
33766d29a5eSTaylor Simpson !decode_opcode_ends_loop(packet->insn[i].opcode)) {
33866d29a5eSTaylor Simpson /*
33966d29a5eSTaylor Simpson * spNloop instruction
34066d29a5eSTaylor Simpson * Don't reorder endloops; they are not valid for .new uses,
34166d29a5eSTaylor Simpson * and we want to match HW
34266d29a5eSTaylor Simpson */
34366d29a5eSTaylor Simpson if (flag) {
34466d29a5eSTaylor Simpson decode_send_insn_to(packet, i, 0);
34592cfa25fSTaylor Simpson changed = true;
34666d29a5eSTaylor Simpson continue;
34766d29a5eSTaylor Simpson }
34866d29a5eSTaylor Simpson } else if (GET_ATTRIB(opcode, A_IMPLICIT_WRITES_P0) &&
34966d29a5eSTaylor Simpson !GET_ATTRIB(opcode, A_NEWCMPJUMP)) {
35066d29a5eSTaylor Simpson if (flag) {
35166d29a5eSTaylor Simpson decode_send_insn_to(packet, i, 0);
35292cfa25fSTaylor Simpson changed = true;
35366d29a5eSTaylor Simpson continue;
35466d29a5eSTaylor Simpson }
35566d29a5eSTaylor Simpson } else {
35692cfa25fSTaylor Simpson flag = true;
35766d29a5eSTaylor Simpson }
35866d29a5eSTaylor Simpson }
35966d29a5eSTaylor Simpson if (changed) {
36066d29a5eSTaylor Simpson continue;
36166d29a5eSTaylor Simpson }
36266d29a5eSTaylor Simpson } while (changed);
36366d29a5eSTaylor Simpson
36466d29a5eSTaylor Simpson /*
36566d29a5eSTaylor Simpson * If we have a .new register compare/branch, move that to the very
36666d29a5eSTaylor Simpson * very end, past stores
36766d29a5eSTaylor Simpson */
36866d29a5eSTaylor Simpson for (i = 0; i < last_insn; i++) {
36966d29a5eSTaylor Simpson if (GET_ATTRIB(packet->insn[i].opcode, A_DOTNEWVALUE)) {
37066d29a5eSTaylor Simpson decode_send_insn_to(packet, i, last_insn);
37166d29a5eSTaylor Simpson break;
37266d29a5eSTaylor Simpson }
37366d29a5eSTaylor Simpson }
37466d29a5eSTaylor Simpson }
37566d29a5eSTaylor Simpson
37666d29a5eSTaylor Simpson static void
apply_extender(Packet * pkt,int i,uint32_t extender)37766d29a5eSTaylor Simpson apply_extender(Packet *pkt, int i, uint32_t extender)
37866d29a5eSTaylor Simpson {
37966d29a5eSTaylor Simpson int immed_num;
38066d29a5eSTaylor Simpson uint32_t base_immed;
38166d29a5eSTaylor Simpson
3821547a2d3STaylor Simpson immed_num = pkt->insn[i].which_extended;
38366d29a5eSTaylor Simpson base_immed = pkt->insn[i].immed[immed_num];
38466d29a5eSTaylor Simpson
38566d29a5eSTaylor Simpson pkt->insn[i].immed[immed_num] = extender | fZXTN(6, 32, base_immed);
38666d29a5eSTaylor Simpson }
38766d29a5eSTaylor Simpson
decode_apply_extenders(Packet * packet)38866d29a5eSTaylor Simpson static void decode_apply_extenders(Packet *packet)
38966d29a5eSTaylor Simpson {
39066d29a5eSTaylor Simpson int i;
39166d29a5eSTaylor Simpson for (i = 0; i < packet->num_insns; i++) {
39266d29a5eSTaylor Simpson if (GET_ATTRIB(packet->insn[i].opcode, A_IT_EXTENDER)) {
39392cfa25fSTaylor Simpson packet->insn[i + 1].extension_valid = true;
39466d29a5eSTaylor Simpson apply_extender(packet, i + 1, packet->insn[i].immed[0]);
39566d29a5eSTaylor Simpson }
39666d29a5eSTaylor Simpson }
39766d29a5eSTaylor Simpson }
39866d29a5eSTaylor Simpson
decode_remove_extenders(Packet * packet)39966d29a5eSTaylor Simpson static void decode_remove_extenders(Packet *packet)
40066d29a5eSTaylor Simpson {
40166d29a5eSTaylor Simpson int i, j;
40266d29a5eSTaylor Simpson for (i = 0; i < packet->num_insns; i++) {
40366d29a5eSTaylor Simpson if (GET_ATTRIB(packet->insn[i].opcode, A_IT_EXTENDER)) {
40466d29a5eSTaylor Simpson /* Remove this one by moving the remaining instructions down */
40566d29a5eSTaylor Simpson for (j = i;
40666d29a5eSTaylor Simpson (j < packet->num_insns - 1) && (j < INSTRUCTIONS_MAX - 1);
40766d29a5eSTaylor Simpson j++) {
40866d29a5eSTaylor Simpson packet->insn[j] = packet->insn[j + 1];
40966d29a5eSTaylor Simpson }
41066d29a5eSTaylor Simpson packet->num_insns--;
41166d29a5eSTaylor Simpson }
41266d29a5eSTaylor Simpson }
41366d29a5eSTaylor Simpson }
41466d29a5eSTaylor Simpson
get_valid_slots(const Packet * pkt,unsigned int slot)41566d29a5eSTaylor Simpson static SlotMask get_valid_slots(const Packet *pkt, unsigned int slot)
41666d29a5eSTaylor Simpson {
41760d1180bSTaylor Simpson if (GET_ATTRIB(pkt->insn[slot].opcode, A_EXTENSION)) {
41860d1180bSTaylor Simpson return mmvec_ext_decode_find_iclass_slots(pkt->insn[slot].opcode);
41960d1180bSTaylor Simpson } else {
42066d29a5eSTaylor Simpson return find_iclass_slots(pkt->insn[slot].opcode,
42166d29a5eSTaylor Simpson pkt->insn[slot].iclass);
42266d29a5eSTaylor Simpson }
42360d1180bSTaylor Simpson }
42466d29a5eSTaylor Simpson
425f6c01009STaylor Simpson /*
426f6c01009STaylor Simpson * Section 10.3 of the Hexagon V73 Programmer's Reference Manual
427f6c01009STaylor Simpson *
428f6c01009STaylor Simpson * A duplex is encoded as a 32-bit instruction with bits [15:14] set to 00.
429f6c01009STaylor Simpson * The sub-instructions that comprise a duplex are encoded as 13-bit fields
430f6c01009STaylor Simpson * in the duplex.
431f6c01009STaylor Simpson *
432f6c01009STaylor Simpson * Per table 10-4, the 4-bit duplex iclass is encoded in bits 31:29, 13
433f6c01009STaylor Simpson */
get_duplex_iclass(uint32_t encoding)434f6c01009STaylor Simpson static uint32_t get_duplex_iclass(uint32_t encoding)
435f6c01009STaylor Simpson {
436f6c01009STaylor Simpson uint32_t iclass = extract32(encoding, 13, 1);
437f6c01009STaylor Simpson iclass = deposit32(iclass, 1, 3, extract32(encoding, 29, 3));
438f6c01009STaylor Simpson return iclass;
439f6c01009STaylor Simpson }
440f6c01009STaylor Simpson
441f6c01009STaylor Simpson /*
442f6c01009STaylor Simpson * Per table 10-5, the duplex ICLASS field values that specify the group of
443f6c01009STaylor Simpson * each sub-instruction in a duplex
444f6c01009STaylor Simpson *
445f6c01009STaylor Simpson * This table points to the decode instruction for each entry in the table
446f6c01009STaylor Simpson */
447f6c01009STaylor Simpson typedef bool (*subinsn_decode_func)(DisasContext *ctx, uint16_t insn);
448f6c01009STaylor Simpson typedef struct {
449f6c01009STaylor Simpson subinsn_decode_func decode_slot0_subinsn;
450f6c01009STaylor Simpson subinsn_decode_func decode_slot1_subinsn;
451f6c01009STaylor Simpson } subinsn_decode_groups;
452f6c01009STaylor Simpson
453f6c01009STaylor Simpson static const subinsn_decode_groups decode_groups[16] = {
454f6c01009STaylor Simpson [0x0] = { decode_subinsn_l1, decode_subinsn_l1 },
455f6c01009STaylor Simpson [0x1] = { decode_subinsn_l2, decode_subinsn_l1 },
456f6c01009STaylor Simpson [0x2] = { decode_subinsn_l2, decode_subinsn_l2 },
457f6c01009STaylor Simpson [0x3] = { decode_subinsn_a, decode_subinsn_a },
458f6c01009STaylor Simpson [0x4] = { decode_subinsn_l1, decode_subinsn_a },
459f6c01009STaylor Simpson [0x5] = { decode_subinsn_l2, decode_subinsn_a },
460f6c01009STaylor Simpson [0x6] = { decode_subinsn_s1, decode_subinsn_a },
461f6c01009STaylor Simpson [0x7] = { decode_subinsn_s2, decode_subinsn_a },
462f6c01009STaylor Simpson [0x8] = { decode_subinsn_s1, decode_subinsn_l1 },
463f6c01009STaylor Simpson [0x9] = { decode_subinsn_s1, decode_subinsn_l2 },
464f6c01009STaylor Simpson [0xa] = { decode_subinsn_s1, decode_subinsn_s1 },
465f6c01009STaylor Simpson [0xb] = { decode_subinsn_s2, decode_subinsn_s1 },
466f6c01009STaylor Simpson [0xc] = { decode_subinsn_s2, decode_subinsn_l1 },
467f6c01009STaylor Simpson [0xd] = { decode_subinsn_s2, decode_subinsn_l2 },
468f6c01009STaylor Simpson [0xe] = { decode_subinsn_s2, decode_subinsn_s2 },
469f6c01009STaylor Simpson [0xf] = { NULL, NULL }, /* Reserved */
470f6c01009STaylor Simpson };
471f6c01009STaylor Simpson
get_slot0_subinsn(uint32_t encoding)472f6c01009STaylor Simpson static uint16_t get_slot0_subinsn(uint32_t encoding)
473f6c01009STaylor Simpson {
474f6c01009STaylor Simpson return extract32(encoding, 0, 13);
475f6c01009STaylor Simpson }
476f6c01009STaylor Simpson
get_slot1_subinsn(uint32_t encoding)477f6c01009STaylor Simpson static uint16_t get_slot1_subinsn(uint32_t encoding)
478f6c01009STaylor Simpson {
479f6c01009STaylor Simpson return extract32(encoding, 16, 13);
480f6c01009STaylor Simpson }
481f6c01009STaylor Simpson
48266d29a5eSTaylor Simpson static unsigned int
decode_insns(DisasContext * ctx,Insn * insn,uint32_t encoding)4831547a2d3STaylor Simpson decode_insns(DisasContext *ctx, Insn *insn, uint32_t encoding)
48466d29a5eSTaylor Simpson {
48566d29a5eSTaylor Simpson if (parse_bits(encoding) != 0) {
4861547a2d3STaylor Simpson if (decode_normal(ctx, encoding) ||
4871547a2d3STaylor Simpson decode_hvx(ctx, encoding)) {
4881547a2d3STaylor Simpson insn->generate = opcode_genptr[insn->opcode];
4891547a2d3STaylor Simpson insn->iclass = iclass_bits(encoding);
4901547a2d3STaylor Simpson return 1;
4911547a2d3STaylor Simpson }
4921547a2d3STaylor Simpson g_assert_not_reached();
49366d29a5eSTaylor Simpson } else {
494f6c01009STaylor Simpson uint32_t iclass = get_duplex_iclass(encoding);
495f6c01009STaylor Simpson unsigned int slot0_subinsn = get_slot0_subinsn(encoding);
496f6c01009STaylor Simpson unsigned int slot1_subinsn = get_slot1_subinsn(encoding);
497f6c01009STaylor Simpson subinsn_decode_func decode_slot0_subinsn =
498f6c01009STaylor Simpson decode_groups[iclass].decode_slot0_subinsn;
499f6c01009STaylor Simpson subinsn_decode_func decode_slot1_subinsn =
500f6c01009STaylor Simpson decode_groups[iclass].decode_slot1_subinsn;
501f6c01009STaylor Simpson
502f6c01009STaylor Simpson /* The slot1 subinsn needs to be in the packet first */
503f6c01009STaylor Simpson if (decode_slot1_subinsn(ctx, slot1_subinsn)) {
504f6c01009STaylor Simpson insn->generate = opcode_genptr[insn->opcode];
505f6c01009STaylor Simpson insn->iclass = iclass_bits(encoding);
506f6c01009STaylor Simpson ctx->insn = ++insn;
507f6c01009STaylor Simpson if (decode_slot0_subinsn(ctx, slot0_subinsn)) {
508f6c01009STaylor Simpson insn->generate = opcode_genptr[insn->opcode];
509f6c01009STaylor Simpson insn->iclass = iclass_bits(encoding);
510f6c01009STaylor Simpson return 2;
511f6c01009STaylor Simpson }
512f6c01009STaylor Simpson }
513f6c01009STaylor Simpson g_assert_not_reached();
51466d29a5eSTaylor Simpson }
51566d29a5eSTaylor Simpson }
51666d29a5eSTaylor Simpson
decode_add_endloop_insn(Insn * insn,int loopnum)51766d29a5eSTaylor Simpson static void decode_add_endloop_insn(Insn *insn, int loopnum)
51866d29a5eSTaylor Simpson {
51966d29a5eSTaylor Simpson if (loopnum == 10) {
52066d29a5eSTaylor Simpson insn->opcode = J2_endloop01;
52166d29a5eSTaylor Simpson insn->generate = opcode_genptr[J2_endloop01];
52266d29a5eSTaylor Simpson } else if (loopnum == 1) {
52366d29a5eSTaylor Simpson insn->opcode = J2_endloop1;
52466d29a5eSTaylor Simpson insn->generate = opcode_genptr[J2_endloop1];
52566d29a5eSTaylor Simpson } else if (loopnum == 0) {
52666d29a5eSTaylor Simpson insn->opcode = J2_endloop0;
52766d29a5eSTaylor Simpson insn->generate = opcode_genptr[J2_endloop0];
52866d29a5eSTaylor Simpson } else {
52966d29a5eSTaylor Simpson g_assert_not_reached();
53066d29a5eSTaylor Simpson }
53166d29a5eSTaylor Simpson }
53266d29a5eSTaylor Simpson
decode_parsebits_is_loopend(uint32_t encoding32)53392cfa25fSTaylor Simpson static bool decode_parsebits_is_loopend(uint32_t encoding32)
53466d29a5eSTaylor Simpson {
53566d29a5eSTaylor Simpson uint32_t bits = parse_bits(encoding32);
53666d29a5eSTaylor Simpson return bits == 0x2;
53766d29a5eSTaylor Simpson }
53866d29a5eSTaylor Simpson
has_valid_slot_assignment(Packet * pkt)53914edcf11SMatheus Tavares Bernardino static bool has_valid_slot_assignment(Packet *pkt)
54014edcf11SMatheus Tavares Bernardino {
54114edcf11SMatheus Tavares Bernardino int used_slots = 0;
54214edcf11SMatheus Tavares Bernardino for (int i = 0; i < pkt->num_insns; i++) {
54314edcf11SMatheus Tavares Bernardino int slot_mask;
54414edcf11SMatheus Tavares Bernardino Insn *insn = &pkt->insn[i];
54514edcf11SMatheus Tavares Bernardino if (decode_opcode_ends_loop(insn->opcode)) {
54614edcf11SMatheus Tavares Bernardino /* We overload slot 0 for endloop. */
54714edcf11SMatheus Tavares Bernardino continue;
54814edcf11SMatheus Tavares Bernardino }
54914edcf11SMatheus Tavares Bernardino slot_mask = 1 << insn->slot;
55014edcf11SMatheus Tavares Bernardino if (used_slots & slot_mask) {
55114edcf11SMatheus Tavares Bernardino return false;
55214edcf11SMatheus Tavares Bernardino }
55314edcf11SMatheus Tavares Bernardino used_slots |= slot_mask;
55414edcf11SMatheus Tavares Bernardino }
55514edcf11SMatheus Tavares Bernardino return true;
55614edcf11SMatheus Tavares Bernardino }
55714edcf11SMatheus Tavares Bernardino
55814edcf11SMatheus Tavares Bernardino static bool
decode_set_slot_number(Packet * pkt)55966d29a5eSTaylor Simpson decode_set_slot_number(Packet *pkt)
56066d29a5eSTaylor Simpson {
56166d29a5eSTaylor Simpson int slot;
56266d29a5eSTaylor Simpson int i;
56392cfa25fSTaylor Simpson bool hit_mem_insn = false;
56492cfa25fSTaylor Simpson bool hit_duplex = false;
56592cfa25fSTaylor Simpson bool slot0_found = false;
56692cfa25fSTaylor Simpson bool slot1_found = false;
56792cfa25fSTaylor Simpson int slot1_iidx = 0;
56866d29a5eSTaylor Simpson
56966d29a5eSTaylor Simpson /*
57066d29a5eSTaylor Simpson * The slots are encoded in reverse order
57166d29a5eSTaylor Simpson * For each instruction, count down until you find a suitable slot
57266d29a5eSTaylor Simpson */
57366d29a5eSTaylor Simpson for (i = 0, slot = 3; i < pkt->num_insns; i++) {
57466d29a5eSTaylor Simpson SlotMask valid_slots = get_valid_slots(pkt, i);
57566d29a5eSTaylor Simpson
57666d29a5eSTaylor Simpson while (!(valid_slots & (1 << slot))) {
57766d29a5eSTaylor Simpson slot--;
57866d29a5eSTaylor Simpson }
57966d29a5eSTaylor Simpson pkt->insn[i].slot = slot;
58066d29a5eSTaylor Simpson if (slot) {
58166d29a5eSTaylor Simpson /* I've assigned the slot, now decrement it for the next insn */
58266d29a5eSTaylor Simpson slot--;
58366d29a5eSTaylor Simpson }
58466d29a5eSTaylor Simpson }
58566d29a5eSTaylor Simpson
58666d29a5eSTaylor Simpson /* Fix the exceptions - mem insns to slot 0,1 */
58766d29a5eSTaylor Simpson for (i = pkt->num_insns - 1; i >= 0; i--) {
58866d29a5eSTaylor Simpson /* First memory instruction always goes to slot 0 */
58966d29a5eSTaylor Simpson if ((GET_ATTRIB(pkt->insn[i].opcode, A_MEMLIKE) ||
59066d29a5eSTaylor Simpson GET_ATTRIB(pkt->insn[i].opcode, A_MEMLIKE_PACKET_RULES)) &&
59166d29a5eSTaylor Simpson !hit_mem_insn) {
59292cfa25fSTaylor Simpson hit_mem_insn = true;
59366d29a5eSTaylor Simpson pkt->insn[i].slot = 0;
59466d29a5eSTaylor Simpson continue;
59566d29a5eSTaylor Simpson }
59666d29a5eSTaylor Simpson
59766d29a5eSTaylor Simpson /* Next memory instruction always goes to slot 1 */
59866d29a5eSTaylor Simpson if ((GET_ATTRIB(pkt->insn[i].opcode, A_MEMLIKE) ||
59966d29a5eSTaylor Simpson GET_ATTRIB(pkt->insn[i].opcode, A_MEMLIKE_PACKET_RULES)) &&
60066d29a5eSTaylor Simpson hit_mem_insn) {
60166d29a5eSTaylor Simpson pkt->insn[i].slot = 1;
60266d29a5eSTaylor Simpson }
60366d29a5eSTaylor Simpson }
60466d29a5eSTaylor Simpson
60566d29a5eSTaylor Simpson /* Fix the exceptions - duplex always slot 0,1 */
60666d29a5eSTaylor Simpson for (i = pkt->num_insns - 1; i >= 0; i--) {
60766d29a5eSTaylor Simpson /* First subinsn always goes to slot 0 */
60866d29a5eSTaylor Simpson if (GET_ATTRIB(pkt->insn[i].opcode, A_SUBINSN) && !hit_duplex) {
60992cfa25fSTaylor Simpson hit_duplex = true;
61066d29a5eSTaylor Simpson pkt->insn[i].slot = 0;
61166d29a5eSTaylor Simpson continue;
61266d29a5eSTaylor Simpson }
61366d29a5eSTaylor Simpson
61466d29a5eSTaylor Simpson /* Next subinsn always goes to slot 1 */
61566d29a5eSTaylor Simpson if (GET_ATTRIB(pkt->insn[i].opcode, A_SUBINSN) && hit_duplex) {
61666d29a5eSTaylor Simpson pkt->insn[i].slot = 1;
61766d29a5eSTaylor Simpson }
61866d29a5eSTaylor Simpson }
61966d29a5eSTaylor Simpson
62066d29a5eSTaylor Simpson /* Fix the exceptions - slot 1 is never empty, always aligns to slot 0 */
62166d29a5eSTaylor Simpson for (i = pkt->num_insns - 1; i >= 0; i--) {
62266d29a5eSTaylor Simpson /* Is slot0 used? */
62366d29a5eSTaylor Simpson if (pkt->insn[i].slot == 0) {
62492cfa25fSTaylor Simpson bool is_endloop = (pkt->insn[i].opcode == J2_endloop01);
62566d29a5eSTaylor Simpson is_endloop |= (pkt->insn[i].opcode == J2_endloop0);
62666d29a5eSTaylor Simpson is_endloop |= (pkt->insn[i].opcode == J2_endloop1);
62766d29a5eSTaylor Simpson
62866d29a5eSTaylor Simpson /*
62966d29a5eSTaylor Simpson * Make sure it's not endloop since, we're overloading
63066d29a5eSTaylor Simpson * slot0 for endloop
63166d29a5eSTaylor Simpson */
63266d29a5eSTaylor Simpson if (!is_endloop) {
63392cfa25fSTaylor Simpson slot0_found = true;
63466d29a5eSTaylor Simpson }
63566d29a5eSTaylor Simpson }
63666d29a5eSTaylor Simpson /* Is slot1 used? */
63766d29a5eSTaylor Simpson if (pkt->insn[i].slot == 1) {
63892cfa25fSTaylor Simpson slot1_found = true;
63966d29a5eSTaylor Simpson slot1_iidx = i;
64066d29a5eSTaylor Simpson }
64166d29a5eSTaylor Simpson }
64266d29a5eSTaylor Simpson /* Is slot0 empty and slot1 used? */
64392cfa25fSTaylor Simpson if ((!slot0_found) && slot1_found) {
64466d29a5eSTaylor Simpson /* Then push it to slot0 */
64566d29a5eSTaylor Simpson pkt->insn[slot1_iidx].slot = 0;
64666d29a5eSTaylor Simpson }
64714edcf11SMatheus Tavares Bernardino
64814edcf11SMatheus Tavares Bernardino return has_valid_slot_assignment(pkt);
64966d29a5eSTaylor Simpson }
65066d29a5eSTaylor Simpson
65166d29a5eSTaylor Simpson /*
65266d29a5eSTaylor Simpson * decode_packet
65366d29a5eSTaylor Simpson * Decodes packet with given words
65466d29a5eSTaylor Simpson * Returns 0 on insufficient words,
65566d29a5eSTaylor Simpson * or number of words used on success
65666d29a5eSTaylor Simpson */
65766d29a5eSTaylor Simpson
decode_packet(DisasContext * ctx,int max_words,const uint32_t * words,Packet * pkt,bool disas_only)6581547a2d3STaylor Simpson int decode_packet(DisasContext *ctx, int max_words, const uint32_t *words,
6591547a2d3STaylor Simpson Packet *pkt, bool disas_only)
66066d29a5eSTaylor Simpson {
66166d29a5eSTaylor Simpson int num_insns = 0;
66266d29a5eSTaylor Simpson int words_read = 0;
66392cfa25fSTaylor Simpson bool end_of_packet = false;
66466d29a5eSTaylor Simpson int new_insns = 0;
66560d1180bSTaylor Simpson int i;
66666d29a5eSTaylor Simpson uint32_t encoding32;
66766d29a5eSTaylor Simpson
66866d29a5eSTaylor Simpson /* Initialize */
66966d29a5eSTaylor Simpson memset(pkt, 0, sizeof(*pkt));
67066d29a5eSTaylor Simpson /* Try to build packet */
67166d29a5eSTaylor Simpson while (!end_of_packet && (words_read < max_words)) {
6721547a2d3STaylor Simpson Insn *insn = &pkt->insn[num_insns];
6731547a2d3STaylor Simpson ctx->insn = insn;
67466d29a5eSTaylor Simpson encoding32 = words[words_read];
67566d29a5eSTaylor Simpson end_of_packet = is_packet_end(encoding32);
6761547a2d3STaylor Simpson new_insns = decode_insns(ctx, insn, encoding32);
67766d29a5eSTaylor Simpson g_assert(new_insns > 0);
67866d29a5eSTaylor Simpson /*
67966d29a5eSTaylor Simpson * If we saw an extender, mark next word extended so immediate
68066d29a5eSTaylor Simpson * decode works
68166d29a5eSTaylor Simpson */
68266d29a5eSTaylor Simpson if (pkt->insn[num_insns].opcode == A4_ext) {
68392cfa25fSTaylor Simpson pkt->insn[num_insns + 1].extension_valid = true;
68466d29a5eSTaylor Simpson }
68566d29a5eSTaylor Simpson num_insns += new_insns;
68666d29a5eSTaylor Simpson words_read++;
68766d29a5eSTaylor Simpson }
68866d29a5eSTaylor Simpson
68966d29a5eSTaylor Simpson pkt->num_insns = num_insns;
69066d29a5eSTaylor Simpson if (!end_of_packet) {
69166d29a5eSTaylor Simpson /* Ran out of words! */
69266d29a5eSTaylor Simpson return 0;
69366d29a5eSTaylor Simpson }
69466d29a5eSTaylor Simpson pkt->encod_pkt_size_in_bytes = words_read * 4;
69560d1180bSTaylor Simpson pkt->pkt_has_hvx = false;
69660d1180bSTaylor Simpson for (i = 0; i < num_insns; i++) {
69760d1180bSTaylor Simpson pkt->pkt_has_hvx |=
69860d1180bSTaylor Simpson GET_ATTRIB(pkt->insn[i].opcode, A_CVI);
69960d1180bSTaylor Simpson }
70066d29a5eSTaylor Simpson
70166d29a5eSTaylor Simpson /*
70266d29a5eSTaylor Simpson * Check for :endloop in the parse bits
70366d29a5eSTaylor Simpson * Section 10.6 of the Programmer's Reference describes the encoding
70466d29a5eSTaylor Simpson * The end of hardware loop 0 can be encoded with 2 words
70566d29a5eSTaylor Simpson * The end of hardware loop 1 needs 3 words
70666d29a5eSTaylor Simpson */
70766d29a5eSTaylor Simpson if ((words_read == 2) && (decode_parsebits_is_loopend(words[0]))) {
70866d29a5eSTaylor Simpson decode_add_endloop_insn(&pkt->insn[pkt->num_insns++], 0);
70966d29a5eSTaylor Simpson }
71066d29a5eSTaylor Simpson if (words_read >= 3) {
71192cfa25fSTaylor Simpson bool has_loop0, has_loop1;
71266d29a5eSTaylor Simpson has_loop0 = decode_parsebits_is_loopend(words[0]);
71366d29a5eSTaylor Simpson has_loop1 = decode_parsebits_is_loopend(words[1]);
71466d29a5eSTaylor Simpson if (has_loop0 && has_loop1) {
71566d29a5eSTaylor Simpson decode_add_endloop_insn(&pkt->insn[pkt->num_insns++], 10);
71666d29a5eSTaylor Simpson } else if (has_loop1) {
71766d29a5eSTaylor Simpson decode_add_endloop_insn(&pkt->insn[pkt->num_insns++], 1);
71866d29a5eSTaylor Simpson } else if (has_loop0) {
71966d29a5eSTaylor Simpson decode_add_endloop_insn(&pkt->insn[pkt->num_insns++], 0);
72066d29a5eSTaylor Simpson }
72166d29a5eSTaylor Simpson }
72266d29a5eSTaylor Simpson
72366d29a5eSTaylor Simpson decode_apply_extenders(pkt);
72466d29a5eSTaylor Simpson if (!disas_only) {
72566d29a5eSTaylor Simpson decode_remove_extenders(pkt);
72614edcf11SMatheus Tavares Bernardino if (!decode_set_slot_number(pkt)) {
72714edcf11SMatheus Tavares Bernardino /* Invalid packet */
72814edcf11SMatheus Tavares Bernardino return 0;
72966d29a5eSTaylor Simpson }
73014edcf11SMatheus Tavares Bernardino }
73166d29a5eSTaylor Simpson decode_fill_newvalue_regno(pkt);
73266d29a5eSTaylor Simpson
73360d1180bSTaylor Simpson if (pkt->pkt_has_hvx) {
73460d1180bSTaylor Simpson mmvec_ext_decode_checks(pkt, disas_only);
73560d1180bSTaylor Simpson }
73660d1180bSTaylor Simpson
73766d29a5eSTaylor Simpson if (!disas_only) {
73866d29a5eSTaylor Simpson decode_shuffle_for_execution(pkt);
73966d29a5eSTaylor Simpson decode_split_cmpjump(pkt);
74066d29a5eSTaylor Simpson decode_set_insn_attr_fields(pkt);
74166d29a5eSTaylor Simpson }
74266d29a5eSTaylor Simpson
74366d29a5eSTaylor Simpson return words_read;
74466d29a5eSTaylor Simpson }
74566d29a5eSTaylor Simpson
74666d29a5eSTaylor Simpson /* Used for "-d in_asm" logging */
disassemble_hexagon(uint32_t * words,int nwords,bfd_vma pc,GString * buf)74766d29a5eSTaylor Simpson int disassemble_hexagon(uint32_t *words, int nwords, bfd_vma pc,
74866d29a5eSTaylor Simpson GString *buf)
74966d29a5eSTaylor Simpson {
7501547a2d3STaylor Simpson DisasContext ctx;
75166d29a5eSTaylor Simpson Packet pkt;
75266d29a5eSTaylor Simpson
7531547a2d3STaylor Simpson memset(&ctx, 0, sizeof(DisasContext));
7541547a2d3STaylor Simpson ctx.pkt = &pkt;
7551547a2d3STaylor Simpson
7561547a2d3STaylor Simpson if (decode_packet(&ctx, nwords, words, &pkt, true) > 0) {
75766d29a5eSTaylor Simpson snprint_a_pkt_disas(buf, &pkt, words, pc);
75866d29a5eSTaylor Simpson return pkt.encod_pkt_size_in_bytes;
75966d29a5eSTaylor Simpson } else {
76066d29a5eSTaylor Simpson g_string_assign(buf, "<invalid>");
76166d29a5eSTaylor Simpson return 0;
76266d29a5eSTaylor Simpson }
76366d29a5eSTaylor Simpson }
764