case OP_SWL:
case OP_SW:
case OP_SWR:
+ case OP_META_LWU:
+ case OP_META_SWU:
return BIT(op.i.rs) | BIT(op.i.rt);
+ case OP_META:
+ return BIT(op.m.rs);
default:
return BIT(op.i.rs);
}
return flags;
}
-static u64 opcode_write_mask(union code op)
+u64 opcode_write_mask(union code op)
{
switch (op.i.op) {
case OP_META_MULT2:
case OP_META_MULTU2:
return mult_div_write_mask(op);
+ case OP_META:
+ return BIT(op.m.rd);
case OP_SPECIAL:
switch (op.r.op) {
case OP_SPECIAL_JR:
case OP_LBU:
case OP_LHU:
case OP_LWR:
- case OP_META_EXTC:
- case OP_META_EXTS:
+ case OP_META_LWU:
return BIT(op.i.rt);
case OP_JAL:
return BIT(31);
default:
return 0;
}
- case OP_META_MOV:
- return BIT(op.r.rd);
default:
return 0;
}
if (opcode_writes_register(list[i].c, reg))
return true;
+ if (is_syscall(list[i].c))
+ return false;
+
if (has_delay_slot(list[i].c)) {
if (op_flag_no_ds(list[i].flags) ||
opcode_reads_register(list[i + 1].c, reg))
return reg_is_read(list, a, b, reg) || reg_is_written(list, a, b, reg);
}
+static bool opcode_is_mfc(union code op)
+{
+ switch (op.i.op) {
+ case OP_CP0:
+ switch (op.r.rs) {
+ case OP_CP0_MFC0:
+ case OP_CP0_CFC0:
+ return true;
+ default:
+ break;
+ }
+
+ break;
+ case OP_CP2:
+ if (op.r.op == OP_CP2_BASIC) {
+ switch (op.r.rs) {
+ case OP_CP2_BASIC_MFC2:
+ case OP_CP2_BASIC_CFC2:
+ return true;
+ default:
+ break;
+ }
+ }
+
+ break;
+ default:
+ break;
+ }
+
+ return false;
+}
+
static bool opcode_is_load(union code op)
{
switch (op.i.op) {
case OP_LHU:
case OP_LWR:
case OP_LWC2:
+ case OP_META_LWU:
return true;
default:
return false;
case OP_SWL:
case OP_SWR:
case OP_SWC2:
+ case OP_META_SWU:
return true;
default:
return false;
}
}
+bool opcode_has_load_delay(union code op)
+{
+ return (opcode_is_load(op) && op.i.rt && op.i.op != OP_LWC2)
+ || opcode_is_mfc(op);
+}
+
static u8 opcode_get_io_size(union code op)
{
switch (op.i.op) {
case OP_LBU:
case OP_LHU:
case OP_LWR:
+ case OP_META_LWU:
return false;
default:
return true;
}
}
-bool load_in_delay_slot(union code op)
-{
- switch (op.i.op) {
- case OP_CP0:
- switch (op.r.rs) {
- case OP_CP0_MFC0:
- case OP_CP0_CFC0:
- return true;
- default:
- break;
- }
-
- break;
- case OP_CP2:
- if (op.r.op == OP_CP2_BASIC) {
- switch (op.r.rs) {
- case OP_CP2_BASIC_MFC2:
- case OP_CP2_BASIC_CFC2:
- return true;
- default:
- break;
- }
- }
-
- break;
- case OP_LB:
- case OP_LH:
- case OP_LW:
- case OP_LWL:
- case OP_LWR:
- case OP_LBU:
- case OP_LHU:
- return true;
- default:
- break;
- }
-
- return false;
-}
-
static void lightrec_optimize_sll_sra(struct opcode *list, unsigned int offset,
struct constprop_data *v)
{
ldop->i.rt = next->r.rd;
to_change->opcode = 0;
} else {
- to_change->i.op = OP_META_MOV;
- to_change->r.rd = next->r.rd;
- to_change->r.rs = ldop->i.rt;
+ to_change->i.op = OP_META;
+ to_change->m.op = OP_META_MOV;
+ to_change->m.rd = next->r.rd;
+ to_change->m.rs = ldop->i.rt;
}
if (to_nop->r.imm == 24)
pr_debug("Convert LHU+SLL+SRA to LH\n");
v[ldop->i.rt].known = 0;
- v[ldop->i.rt].sign = 0xffffff80 << 24 - curr->r.imm;
+ v[ldop->i.rt].sign = 0xffffff80 << (24 - curr->r.imm);
}
}
pr_debug("Convert SLL/SRA #%u to EXT%c\n",
curr->r.imm, curr->r.imm == 24 ? 'C' : 'S');
- if (to_change == curr) {
- to_change->i.rs = curr->r.rt;
- to_change->i.rt = next->r.rd;
- } else {
- to_change->i.rt = next->r.rd;
- to_change->i.rs = curr->r.rt;
- }
-
- if (to_nop->r.imm == 24)
- to_change->i.op = OP_META_EXTC;
- else
- to_change->i.op = OP_META_EXTS;
+ to_change->m.rs = curr->r.rt;
+ to_change->m.op = to_nop->r.imm == 24 ? OP_META_EXTC : OP_META_EXTS;
+ to_change->i.op = OP_META;
}
to_nop->opcode = 0;
return;
}
- if (op->i.imm != 0 || op->i.rt == 0 || offset == block->nb_ops - 1)
+ if (op->i.imm != 0 || op->i.rt == 0 || is_delay_slot(list, offset))
return;
reader = find_next_reader(list, offset + 1, op->i.rt);
}
}
+static void lightrec_lui_to_movi(struct block *block, unsigned int offset)
+{
+ struct opcode *ori, *lui = &block->opcode_list[offset];
+ int next;
+
+ if (lui->i.op != OP_LUI)
+ return;
+
+ next = find_next_reader(block->opcode_list, offset + 1, lui->i.rt);
+ if (next > 0) {
+ ori = &block->opcode_list[next];
+
+ switch (ori->i.op) {
+ case OP_ORI:
+ case OP_ADDI:
+ case OP_ADDIU:
+ if (ori->i.rs == ori->i.rt && ori->i.imm) {
+ ori->flags |= LIGHTREC_MOVI;
+ lui->flags |= LIGHTREC_MOVI;
+ }
+ break;
+ }
+ }
+}
+
static void lightrec_modify_lui(struct block *block, unsigned int offset)
{
union code c, *lui = &block->opcode_list[offset].c;
break;
if (opcode_writes_register(c, lui->i.rt)) {
+ if (c.i.op == OP_LWL || c.i.op == OP_LWR) {
+ /* LWL/LWR only partially write their target register;
+ * therefore the LUI should not write a different value. */
+ break;
+ }
+
pr_debug("Convert LUI at offset 0x%x to kuseg\n",
- i - 1 << 2);
+ (i - 1) << 2);
lui->i.imm = kunseg(lui->i.imm << 16) >> 16;
break;
}
case OP_ANDI:
case OP_ORI:
case OP_XORI:
- case OP_META_MOV:
- case OP_META_EXTC:
- case OP_META_EXTS:
case OP_META_MULT2:
case OP_META_MULTU2:
- if (is_known_zero(v, op->i.rs))
- op->i.rs = 0;
+ case OP_META:
+ if (is_known_zero(v, op->m.rs))
+ op->m.rs = 0;
break;
case OP_SB:
case OP_SH:
case OP_SWL:
case OP_SW:
case OP_SWR:
+ case OP_META_SWU:
if (is_known_zero(v, op->i.rt))
op->i.rt = 0;
fallthrough;
case OP_LWR:
case OP_LWC2:
case OP_SWC2:
+ case OP_META_LWU:
if (is_known(v, op->i.rs)
&& kunseg(v[op->i.rs].value) == 0)
op->i.rs = 0;
for (i = 0; i < block->nb_ops; i++) {
op = &list[i];
- if (op_flag_local_branch(op->flags) && has_delay_slot(op->c)) {
- offset = i + 1 + (s16)op->i.imm;
- list[offset].flags |= LIGHTREC_SYNC;
+ if (has_delay_slot(op->c)) {
+ if (op_flag_local_branch(op->flags)) {
+ offset = i + 1 - op_flag_no_ds(op->flags) + (s16)op->i.imm;
+ list[offset].flags |= LIGHTREC_SYNC;
+ }
+
+ if (op_flag_emulate_branch(op->flags) && i + 2 < block->nb_ops)
+ list[i + 2].flags |= LIGHTREC_SYNC;
}
}
}
+static void maybe_remove_load_delay(struct opcode *op)
+{
+ if (op_flag_load_delay(op->flags) && opcode_is_load(op->c))
+ op->flags &= ~LIGHTREC_LOAD_DELAY;
+}
+
static int lightrec_transform_ops(struct lightrec_state *state, struct block *block)
{
struct opcode *op, *list = block->opcode_list;
struct constprop_data v[32] = LIGHTREC_CONSTPROP_INITIALIZER;
unsigned int i;
bool local;
+ int idx;
u8 tmp;
for (i = 0; i < block->nb_ops; i++) {
op = &list[i];
- lightrec_consts_propagate(list, i, v);
+ lightrec_consts_propagate(block, i, v);
lightrec_patch_known_zero(op, v);
/* Transform all opcodes detected as useless to real NOPs
* (0x0: SLL r0, r0, #0) */
if (op->opcode != 0 && is_nop(op->c)) {
- pr_debug("Converting useless opcode 0x%08x to NOP\n",
- op->opcode);
+ pr_debug("Converting useless opcode "X32_FMT" to NOP\n",
+ op->opcode);
op->opcode = 0x0;
}
(v[op->i.rs].value ^ v[op->i.rt].value)) {
pr_debug("Found never-taken BEQ\n");
+ if (!op_flag_no_ds(op->flags))
+ maybe_remove_load_delay(&list[i + 1]);
+
local = op_flag_local_branch(op->flags);
op->opcode = 0;
op->flags = 0;
v[op->i.rs].value == v[op->i.rt].value) {
pr_debug("Found never-taken BNE\n");
+ if (!op_flag_no_ds(op->flags))
+ maybe_remove_load_delay(&list[i + 1]);
+
local = op_flag_local_branch(op->flags);
op->opcode = 0;
op->flags = 0;
v[op->i.rs].value & BIT(31)) {
pr_debug("Found never-taken BGTZ\n");
+ if (!op_flag_no_ds(op->flags))
+ maybe_remove_load_delay(&list[i + 1]);
+
local = op_flag_local_branch(op->flags);
op->opcode = 0;
op->flags = 0;
break;
case OP_LUI:
- if (i == 0 || !has_delay_slot(list[i - 1].c))
+ if (!is_delay_slot(list, i))
lightrec_modify_lui(block, i);
lightrec_remove_useless_lui(block, i, v);
+ if (!is_delay_slot(list, i))
+ lightrec_lui_to_movi(block, i);
break;
/* Transform ORI/ADDI/ADDIU with imm #0 or ORR/ADD/ADDU/SUB/SUBU
case OP_ADDIU:
if (op->i.imm == 0) {
pr_debug("Convert ORI/ADDI/ADDIU #0 to MOV\n");
- op->i.op = OP_META_MOV;
- op->r.rd = op->i.rt;
+ op->m.rd = op->i.rt;
+ op->m.op = OP_META_MOV;
+ op->i.op = OP_META;
}
break;
case OP_ANDI:
if (op->i.rs == op->i.rt) {
op->opcode = 0;
} else {
- op->i.op = OP_META_MOV;
- op->r.rd = op->i.rt;
+ op->m.rd = op->i.rt;
+ op->m.op = OP_META_MOV;
+ op->i.op = OP_META;
+ }
+ }
+ break;
+ case OP_LWL:
+ case OP_LWR:
+ if (i == 0 || !has_delay_slot(list[i - 1].c)) {
+ idx = find_next_reader(list, i + 1, op->i.rt);
+ if (idx > 0 && list[idx].i.op == (op->i.op ^ 0x4)
+ && list[idx].i.rs == op->i.rs
+ && list[idx].i.rt == op->i.rt
+ && abs((s16)op->i.imm - (s16)list[idx].i.imm) == 3) {
+ /* Replace a LWL/LWR combo with a META_LWU */
+ if (op->i.op == OP_LWL)
+ op->i.imm -= 3;
+ op->i.op = OP_META_LWU;
+ list[idx].opcode = 0;
+ pr_debug("Convert LWL/LWR to LWU\n");
+ }
+ }
+ break;
+ case OP_SWL:
+ case OP_SWR:
+ if (i == 0 || !has_delay_slot(list[i - 1].c)) {
+ idx = find_next_reader(list, i + 1, op->i.rt);
+ if (idx > 0 && list[idx].i.op == (op->i.op ^ 0x4)
+ && list[idx].i.rs == op->i.rs
+ && list[idx].i.rt == op->i.rt
+ && abs((s16)op->i.imm - (s16)list[idx].i.imm) == 3) {
+ /* Replace a SWL/SWR combo with a META_SWU */
+ if (op->i.op == OP_SWL)
+ op->i.imm -= 3;
+ op->i.op = OP_META_SWU;
+ list[idx].opcode = 0;
+ pr_debug("Convert SWL/SWR to SWU\n");
}
}
break;
} else {
pr_debug("Found never-taken BLTZ/BGEZ\n");
+ if (!op_flag_no_ds(op->flags))
+ maybe_remove_load_delay(&list[i + 1]);
+
local = op_flag_local_branch(op->flags);
op->opcode = 0;
op->flags = 0;
case OP_SPECIAL_SRA:
if (op->r.imm == 0) {
pr_debug("Convert SRA #0 to MOV\n");
- op->i.op = OP_META_MOV;
- op->r.rs = op->r.rt;
+ op->m.rs = op->r.rt;
+ op->m.op = OP_META_MOV;
+ op->i.op = OP_META;
break;
}
break;
case OP_SPECIAL_SLL:
if (op->r.imm == 0) {
pr_debug("Convert SLL #0 to MOV\n");
- op->i.op = OP_META_MOV;
- op->r.rs = op->r.rt;
+ op->m.rs = op->r.rt;
+ op->m.op = OP_META_MOV;
+ op->i.op = OP_META;
}
lightrec_optimize_sll_sra(block->opcode_list, i, v);
case OP_SPECIAL_SRL:
if (op->r.imm == 0) {
pr_debug("Convert SRL #0 to MOV\n");
- op->i.op = OP_META_MOV;
- op->r.rs = op->r.rt;
+ op->m.rs = op->r.rt;
+ op->m.op = OP_META_MOV;
+ op->i.op = OP_META;
}
break;
break;
}
- pr_debug("Multiply by power-of-two: %u\n",
+ pr_debug("Multiply by power-of-two: %"PRIu32"\n",
v[op->r.rt].value);
if (op->r.op == OP_SPECIAL_MULT)
op->r.op = ctz32(v[op->r.rt].value);
break;
+ case OP_SPECIAL_NOR:
+ if (op->r.rs == 0 || op->r.rt == 0) {
+ pr_debug("Convert NOR $zero to COM\n");
+ op->i.op = OP_META;
+ op->m.op = OP_META_COM;
+ if (!op->m.rs)
+ op->m.rs = op->r.rt;
+ }
+ break;
case OP_SPECIAL_OR:
case OP_SPECIAL_ADD:
case OP_SPECIAL_ADDU:
if (op->r.rs == 0) {
pr_debug("Convert OR/ADD $zero to MOV\n");
- op->i.op = OP_META_MOV;
- op->r.rs = op->r.rt;
+ op->m.rs = op->r.rt;
+ op->m.op = OP_META_MOV;
+ op->i.op = OP_META;
}
fallthrough;
case OP_SPECIAL_SUB:
case OP_SPECIAL_SUBU:
if (op->r.rt == 0) {
pr_debug("Convert OR/ADD/SUB $zero to MOV\n");
- op->i.op = OP_META_MOV;
+ op->m.op = OP_META_MOV;
+ op->i.op = OP_META;
}
fallthrough;
default:
if (op_flag_sync(next->flags))
continue;
+ if (op_flag_load_delay(next->flags) && opcode_is_load(next_op))
+ continue;
+
if (!lightrec_can_switch_delay_slot(list->c, next_op))
continue;
return 0;
}
-static int shrink_opcode_list(struct lightrec_state *state, struct block *block, u16 new_size)
-{
- struct opcode_list *list, *old_list;
-
- if (new_size >= block->nb_ops) {
- pr_err("Invalid shrink size (%u vs %u)\n",
- new_size, block->nb_ops);
- return -EINVAL;
- }
-
- list = lightrec_malloc(state, MEM_FOR_IR,
- sizeof(*list) + sizeof(struct opcode) * new_size);
- if (!list) {
- pr_err("Unable to allocate memory\n");
- return -ENOMEM;
- }
-
- old_list = container_of(block->opcode_list, struct opcode_list, ops);
- memcpy(list->ops, old_list->ops, sizeof(struct opcode) * new_size);
-
- lightrec_free_opcode_list(state, block->opcode_list);
- list->nb_ops = new_size;
- block->nb_ops = new_size;
- block->opcode_list = list->ops;
-
- pr_debug("Shrunk opcode list of block PC 0x%08x to %u opcodes\n",
- block->pc, new_size);
-
- return 0;
-}
-
static int lightrec_detect_impossible_branches(struct lightrec_state *state,
struct block *block)
{
struct opcode *op, *list = block->opcode_list, *next = &list[0];
unsigned int i;
int ret = 0;
- s16 offset;
for (i = 0; i < block->nb_ops - 1; i++) {
op = next;
next = &list[i + 1];
if (!has_delay_slot(op->c) ||
- (!load_in_delay_slot(next->c) &&
- !has_delay_slot(next->c) &&
+ (!has_delay_slot(next->c) &&
+ !opcode_is_mfc(next->c) &&
!(next->i.op == OP_CP0 && next->r.rs == OP_CP0_RFE)))
continue;
continue;
}
- offset = i + 1 + (s16)op->i.imm;
- if (load_in_delay_slot(next->c) &&
- (offset >= 0 && offset < block->nb_ops) &&
- !opcode_reads_register(list[offset].c, next->c.i.rt)) {
- /* The 'impossible' branch is a local branch - we can
- * verify here that the first opcode of the target does
- * not use the target register of the delay slot */
-
- pr_debug("Branch at offset 0x%x has load delay slot, "
- "but is local and dest opcode does not read "
- "dest register\n", i << 2);
+ op->flags |= LIGHTREC_EMULATE_BRANCH;
+
+ if (OPT_LOCAL_BRANCHES && i + 2 < block->nb_ops) {
+ /* The interpreter will only emulate the branch, then
+ * return to the compiled code. Add a SYNC after the
+ * branch + delay slot in the case where the branch
+ * was not taken. */
+ list[i + 2].flags |= LIGHTREC_SYNC;
+ }
+ }
+
+ return ret;
+}
+
+static bool is_local_branch(const struct block *block, unsigned int idx)
+{
+ const struct opcode *op = &block->opcode_list[idx];
+ s32 offset;
+
+ switch (op->c.i.op) {
+ case OP_BEQ:
+ case OP_BNE:
+ case OP_BLEZ:
+ case OP_BGTZ:
+ case OP_REGIMM:
+ offset = idx + 1 + (s16)op->c.i.imm;
+ if (offset >= 0 && offset < block->nb_ops)
+ return true;
+ fallthrough;
+ default:
+ return false;
+ }
+}
+
+static int lightrec_handle_load_delays(struct lightrec_state *state,
+ struct block *block)
+{
+ struct opcode *op, *list = block->opcode_list;
+ unsigned int i;
+ s16 imm;
+
+ for (i = 0; i < block->nb_ops; i++) {
+ op = &list[i];
+
+ if (!opcode_has_load_delay(op->c))
+ continue;
+
+ if (!is_delay_slot(list, i)) {
+ /* Only handle load delays in delay slots.
+ * PSX games never abused load delay slots otherwise. */
continue;
}
- op->flags |= LIGHTREC_EMULATE_BRANCH;
+ if (is_local_branch(block, i - 1)) {
+ imm = (s16)list[i - 1].c.i.imm;
- if (op == list) {
- pr_debug("First opcode of block PC 0x%08x is an impossible branch\n",
- block->pc);
+ if (!opcode_reads_register(list[i + imm].c, op->c.i.rt)) {
+ /* The target opcode of the branch is inside
+ * the block, and it does not read the register
+ * written to by the load opcode; we can ignore
+ * the load delay. */
+ continue;
+ }
+ }
- /* If the first opcode is an 'impossible' branch, we
- * only keep the first two opcodes of the block (the
- * branch itself + its delay slot) */
- if (block->nb_ops > 2)
- ret = shrink_opcode_list(state, block, 2);
- break;
+ op->flags |= LIGHTREC_LOAD_DELAY;
+ }
+
+ return 0;
+}
+
+static int lightrec_swap_load_delays(struct lightrec_state *state,
+ struct block *block)
+{
+ unsigned int i;
+ union code c, next;
+ bool in_ds = false, skip_next = false;
+ struct opcode op;
+
+ if (block->nb_ops < 2)
+ return 0;
+
+ for (i = 0; i < block->nb_ops - 2; i++) {
+ c = block->opcode_list[i].c;
+
+ if (skip_next) {
+ skip_next = false;
+ } else if (!in_ds && opcode_is_load(c) && c.i.op != OP_LWC2) {
+ next = block->opcode_list[i + 1].c;
+
+ switch (next.i.op) {
+ case OP_LWL:
+ case OP_LWR:
+ continue;
+ }
+
+ if (has_delay_slot(next))
+ continue;
+
+ if (opcode_reads_register(next, c.i.rt)
+ && !opcode_writes_register(next, c.i.rs)) {
+ pr_debug("Swapping opcodes at offset 0x%x to "
+ "respect load delay\n", i << 2);
+
+ op = block->opcode_list[i];
+ block->opcode_list[i] = block->opcode_list[i + 1];
+ block->opcode_list[i + 1] = op;
+ skip_next = true;
+ }
}
+
+ in_ds = has_delay_slot(c);
}
- return ret;
+ return 0;
}
static int lightrec_local_branches(struct lightrec_state *state, struct block *block)
{
+ const struct opcode *ds;
struct opcode *list;
unsigned int i;
s32 offset;
for (i = 0; i < block->nb_ops; i++) {
list = &block->opcode_list[i];
- if (should_emulate(list))
+ if (should_emulate(list) || !is_local_branch(block, i))
continue;
- switch (list->i.op) {
- case OP_BEQ:
- case OP_BNE:
- case OP_BLEZ:
- case OP_BGTZ:
- case OP_REGIMM:
- offset = i + 1 + (s16)list->i.imm;
- if (offset >= 0 && offset < block->nb_ops)
- break;
- fallthrough;
- default:
+ offset = i + 1 + (s16)list->c.i.imm;
+
+ pr_debug("Found local branch to offset 0x%"PRIx32"\n", offset << 2);
+
+ ds = get_delay_slot(block->opcode_list, i);
+ if (op_flag_load_delay(ds->flags) && opcode_is_load(ds->c)) {
+ pr_debug("Branch delay slot has a load delay - skip\n");
continue;
}
- pr_debug("Found local branch to offset 0x%x\n", offset << 2);
-
if (should_emulate(&block->opcode_list[offset])) {
pr_debug("Branch target must be emulated - skip\n");
continue;
{
switch (c.i.op) {
case OP_SPECIAL:
- case OP_META_MOV:
+ case OP_META:
return true;
default:
return false;
struct opcode *op;
s16 last_r[34], last_w[34], last_sync = 0, next_sync = 0;
u64 mask_r, mask_w, dirty = 0, loaded = 0;
- u8 reg;
+ u8 reg, load_delay_reg = 0;
memset(last_r, 0xff, sizeof(last_r));
memset(last_w, 0xff, sizeof(last_w));
for (i = 0; i < block->nb_ops; i++) {
op = &block->opcode_list[i];
+ if (OPT_HANDLE_LOAD_DELAYS && load_delay_reg) {
+ /* Handle delayed register write from load opcodes in
+ * delay slots */
+ last_w[load_delay_reg] = i;
+ load_delay_reg = 0;
+ }
+
if (op_flag_sync(op->flags) || should_emulate(op)) {
/* The next opcode has the SYNC flag set, or is a branch
* that should be emulated: unload all registers. */
mask_r = opcode_read_mask(op->c);
mask_w = opcode_write_mask(op->c);
+ if (op_flag_load_delay(op->flags) && opcode_is_load(op->c)) {
+ /* If we have a load opcode in a delay slot, its target
+ * register is actually not written there but at a
+ * later point, in the dispatcher. Prevent the algorithm
+ * from discarding its previous value. */
+ load_delay_reg = op->c.i.rt;
+ mask_w &= ~BIT(op->c.i.rt);
+ }
+
for (reg = 0; reg < 34; reg++) {
if (mask_r & BIT(reg)) {
if (dirty & BIT(reg) && last_w[reg] < last_sync) {
for (i = 0; i < block->nb_ops; i++) {
list = &block->opcode_list[i];
- lightrec_consts_propagate(block->opcode_list, i, v);
+ lightrec_consts_propagate(block, i, v);
switch (list->i.op) {
case OP_SB:
case OP_SH:
case OP_SW:
- if (OPT_FLAG_STORES) {
- /* Mark all store operations that target $sp or $gp
- * as not requiring code invalidation. This is based
- * on the heuristic that stores using one of these
- * registers as address will never hit a code page. */
- if (list->i.rs >= 28 && list->i.rs <= 29 &&
- !state->maps[PSX_MAP_KERNEL_USER_RAM].ops) {
- pr_debug("Flaging opcode 0x%08x as not "
- "requiring invalidation\n",
- list->opcode);
- list->flags |= LIGHTREC_NO_INVALIDATE;
- list->flags |= LIGHTREC_IO_MODE(LIGHTREC_IO_DIRECT);
- }
+ /* Mark all store operations that target $sp or $gp
+ * as not requiring code invalidation. This is based
+ * on the heuristic that stores using one of these
+ * registers as address will never hit a code page. */
+ if (list->i.rs >= 28 && list->i.rs <= 29 &&
+ !state->maps[PSX_MAP_KERNEL_USER_RAM].ops) {
+ pr_debug("Flaging opcode "X32_FMT" as not requiring invalidation\n",
+ list->opcode);
+ list->flags |= LIGHTREC_NO_INVALIDATE;
+ }
- /* Detect writes whose destination address is inside the
- * current block, using constant propagation. When these
- * occur, we mark the blocks as not compilable. */
- if (is_known(v, list->i.rs) &&
- kunseg(v[list->i.rs].value) >= kunseg(block->pc) &&
- kunseg(v[list->i.rs].value) < (kunseg(block->pc) +
- block->nb_ops * 4)) {
- pr_debug("Self-modifying block detected\n");
- block_set_flags(block, BLOCK_NEVER_COMPILE);
- list->flags |= LIGHTREC_SMC;
- }
+ /* Detect writes whose destination address is inside the
+ * current block, using constant propagation. When these
+ * occur, we mark the blocks as not compilable. */
+ if (is_known(v, list->i.rs) &&
+ kunseg(v[list->i.rs].value) >= kunseg(block->pc) &&
+ kunseg(v[list->i.rs].value) < (kunseg(block->pc) + block->nb_ops * 4)) {
+ pr_debug("Self-modifying block detected\n");
+ block_set_flags(block, BLOCK_NEVER_COMPILE);
+ list->flags |= LIGHTREC_SMC;
}
fallthrough;
case OP_SWL:
case OP_LWL:
case OP_LWR:
case OP_LWC2:
- if (OPT_FLAG_IO &&
- (v[list->i.rs].known | v[list->i.rs].sign)) {
+ if (v[list->i.rs].known | v[list->i.rs].sign) {
psx_map = lightrec_get_constprop_map(state, v,
list->i.rs,
(s16) list->i.imm);
break;
}
}
+
+ if (!LIGHTREC_FLAGS_GET_IO_MODE(list->flags)
+ && list->i.rs >= 28 && list->i.rs <= 29
+ && !state->maps[PSX_MAP_KERNEL_USER_RAM].ops) {
+ /* Assume that all I/O operations that target
+ * $sp or $gp will always only target a mapped
+ * memory (RAM, BIOS, scratchpad). */
+ if (state->opt_flags & LIGHTREC_OPT_SP_GP_HIT_RAM)
+ list->flags |= LIGHTREC_IO_MODE(LIGHTREC_IO_RAM);
+ else
+ list->flags |= LIGHTREC_IO_MODE(LIGHTREC_IO_DIRECT);
+ }
+
fallthrough;
default:
break;
for (i = 0; i < block->nb_ops - 1; i++) {
list = &block->opcode_list[i];
- lightrec_consts_propagate(block->opcode_list, i, v);
+ lightrec_consts_propagate(block, i, v);
switch (list->i.op) {
case OP_SPECIAL:
list->flags &= ~(LIGHTREC_NO_LO | LIGHTREC_NO_HI);
}
- if (reg_lo > 0 && reg_lo != REG_LO) {
+ if (0/* Broken */ && reg_lo > 0 && reg_lo != REG_LO) {
pr_debug("Found register %s to hold LO (rs = %u, rt = %u)\n",
lightrec_reg_name(reg_lo), list->r.rs, list->r.rt);
list->r.rd = 0;
}
- if (reg_hi > 0 && reg_hi != REG_HI) {
+ if (0/* Broken */ && reg_hi > 0 && reg_hi != REG_HI) {
pr_debug("Found register %s to hold HI (rs = %u, rt = %u)\n",
lightrec_reg_name(reg_hi), list->r.rs, list->r.rt);
if (i == ARRAY_SIZE(memset_code) - 1) {
/* success! */
- pr_debug("Block at PC 0x%x is a memset\n", block->pc);
+ pr_debug("Block at "PC_FMT" is a memset\n", block->pc);
block_set_flags(block,
BLOCK_IS_MEMSET | BLOCK_NEVER_COMPILE);
return 0;
}
+static int lightrec_test_preload_pc(struct lightrec_state *state, struct block *block)
+{
+ unsigned int i;
+ union code c;
+ u32 flags;
+
+ for (i = 0; i < block->nb_ops; i++) {
+ c = block->opcode_list[i].c;
+ flags = block->opcode_list[i].flags;
+
+ if (op_flag_sync(flags))
+ break;
+
+ switch (c.i.op) {
+ case OP_J:
+ case OP_JAL:
+ block->flags |= BLOCK_PRELOAD_PC;
+ return 0;
+
+ case OP_REGIMM:
+ switch (c.r.rt) {
+ case OP_REGIMM_BLTZAL:
+ case OP_REGIMM_BGEZAL:
+ block->flags |= BLOCK_PRELOAD_PC;
+ return 0;
+ default:
+ break;
+ }
+ fallthrough;
+ case OP_BEQ:
+ case OP_BNE:
+ case OP_BLEZ:
+ case OP_BGTZ:
+ if (!op_flag_local_branch(flags)) {
+ block->flags |= BLOCK_PRELOAD_PC;
+ return 0;
+ }
+
+ case OP_SPECIAL:
+ switch (c.r.op) {
+ case OP_SPECIAL_JALR:
+ if (c.r.rd) {
+ block->flags |= BLOCK_PRELOAD_PC;
+ return 0;
+ }
+ break;
+ case OP_SPECIAL_SYSCALL:
+ case OP_SPECIAL_BREAK:
+ block->flags |= BLOCK_PRELOAD_PC;
+ return 0;
+ default:
+ break;
+ }
+ break;
+ }
+ }
+
+ return 0;
+}
+
static int (*lightrec_optimizers[])(struct lightrec_state *state, struct block *) = {
IF_OPT(OPT_REMOVE_DIV_BY_ZERO_SEQ, &lightrec_remove_div_by_zero_check_sequence),
IF_OPT(OPT_REPLACE_MEMSET, &lightrec_replace_memset),
IF_OPT(OPT_DETECT_IMPOSSIBLE_BRANCHES, &lightrec_detect_impossible_branches),
+ IF_OPT(OPT_HANDLE_LOAD_DELAYS, &lightrec_handle_load_delays),
+ IF_OPT(OPT_HANDLE_LOAD_DELAYS, &lightrec_swap_load_delays),
IF_OPT(OPT_TRANSFORM_OPS, &lightrec_transform_branches),
IF_OPT(OPT_LOCAL_BRANCHES, &lightrec_local_branches),
IF_OPT(OPT_TRANSFORM_OPS, &lightrec_transform_ops),
IF_OPT(OPT_SWITCH_DELAY_SLOTS, &lightrec_switch_delay_slots),
- IF_OPT(OPT_FLAG_IO || OPT_FLAG_STORES, &lightrec_flag_io),
+ IF_OPT(OPT_FLAG_IO, &lightrec_flag_io),
IF_OPT(OPT_FLAG_MULT_DIV, &lightrec_flag_mults_divs),
IF_OPT(OPT_EARLY_UNLOAD, &lightrec_early_unload),
+ IF_OPT(OPT_PRELOAD_PC, &lightrec_test_preload_pc),
};
int lightrec_optimize(struct lightrec_state *state, struct block *block)