#ifdef _3DS
#include <3ds_utils.h>
#endif
+#ifdef HAVE_LIBNX
+#include <switch.h>
+static Jit g_jit;
+#endif
#include "new_dynarec_config.h"
#include "../psxhle.h"
#include "emu_if.h" // emulator interface
#include "arm_features.h"
+#define unused __attribute__((unused))
+#ifdef __clang__
+#define noinline __attribute__((noinline))
+#else
#define noinline __attribute__((noinline,noclone))
+#endif
#ifndef ARRAY_SIZE
#define ARRAY_SIZE(x) (sizeof(x) / sizeof(x[0]))
#endif
//#define DISASM
//#define ASSEM_PRINT
+//#define INV_DEBUG_W
//#define STAT_PRINT
#ifdef ASSEM_PRINT
#define TC_REDUCE_BYTES 0
#endif
+struct ndrc_tramp
+{
+ struct tramp_insns ops[2048 / sizeof(struct tramp_insns)];
+ const void *f[2048 / sizeof(void *)];
+};
+
struct ndrc_mem
{
u_char translation_cache[(1 << TARGET_SIZE_2) - TC_REDUCE_BYTES];
- struct
- {
- struct tramp_insns ops[2048 / sizeof(struct tramp_insns)];
- const void *f[2048 / sizeof(void *)];
- } tramp;
+ struct ndrc_tramp tramp;
};
#ifdef BASE_ADDR_DYNAMIC
static struct ndrc_mem ndrc_ __attribute__((aligned(4096)));
static struct ndrc_mem *ndrc = &ndrc_;
#endif
+#ifdef TC_WRITE_OFFSET
+# ifdef __GLIBC__
+# include <sys/types.h>
+# include <sys/stat.h>
+# include <fcntl.h>
+# include <unistd.h>
+# endif
+static long ndrc_write_ofs;
+#define NDRC_WRITE_OFFSET(x) (void *)((char *)(x) + ndrc_write_ofs)
+#else
+#define NDRC_WRITE_OFFSET(x) (x)
+#endif
// stubs
enum stub_type {
u_int wasconst; // before; for example 'lw r2, (r2)' wasconst is true
u_int isconst; // ... but isconst is false when r2 is known
u_int loadedconst; // host regs that have constants loaded
- u_int waswritten; // MIPS regs that were used as store base before
-};
-
-// note: asm depends on this layout
-struct ll_entry
-{
- u_int vaddr;
- void *addr;
- struct ll_entry *next;
+ //u_int waswritten; // MIPS regs that were used as store base before
};
struct ht_entry
u_int tc_offs;
//u_int tc_len;
u_int reg_sv_flags;
- u_short is_dirty;
+ u_char is_dirty;
+ u_char inv_near_misses;
u_short jump_in_cnt;
struct {
u_int vaddr;
} jump_in[0];
};
+struct jump_info
+{
+ int alloc;
+ int count;
+ struct {
+ u_int target_vaddr;
+ void *stub;
+ } e[0];
+};
+
static struct decoded_insn
{
u_char itype;
static u_char *out;
static struct ht_entry hash_table[65536];
static struct block_info *blocks[PAGE_COUNT];
- static struct ll_entry *jump_out[PAGE_COUNT];
+ static struct jump_info *jumps[PAGE_COUNT];
static u_int start;
static u_int *source;
static uint64_t gte_rs[MAXBLOCK]; // gte: 32 data and 32 ctl regs
void *ndrc_get_addr_ht_param(u_int vaddr, int can_compile);
void *ndrc_get_addr_ht(u_int vaddr);
-void ndrc_invalidate_addr(u_int addr);
void ndrc_add_jump_out(u_int vaddr, void *src);
+void ndrc_write_invalidate_one(u_int addr);
+static void ndrc_write_invalidate_many(u_int addr, u_int end);
static int new_recompile_block(u_int addr);
static void invalidate_block(struct block_info *block);
sceKernelCloseVMDomain();
else
sceKernelOpenVMDomain();
+ #elif defined(HAVE_LIBNX)
+ Result rc;
+ // check to avoid the full flush in jitTransitionToExecutable()
+ if (g_jit.type != JitType_CodeMemory) {
+ if (is_x)
+ rc = jitTransitionToExecutable(&g_jit);
+ else
+ rc = jitTransitionToWritable(&g_jit);
+ if (R_FAILED(rc))
+ ;//SysPrintf("jitTransition %d %08x\n", is_x, rc);
+ }
+ #elif defined(TC_WRITE_OFFSET)
+ // separated rx and rw areas are always available
#else
u_long mstart = (u_long)start & ~4095ul;
u_long mend = (u_long)end;
sceKernelSyncVMDomain(sceBlock, start, len);
#elif defined(_3DS)
ctr_flush_invalidate_cache();
+ #elif defined(HAVE_LIBNX)
+ if (g_jit.type == JitType_CodeMemory) {
+ armDCacheClean(start, len);
+ armICacheInvalidate((char *)start - ndrc_write_ofs, len);
+ // as of v4.2.1 libnx lacks isb
+ __asm__ volatile("isb" ::: "memory");
+ }
#elif defined(__aarch64__)
// as of 2021, __clear_cache() is still broken on arm64
// so here is a custom one :(
u_char *end = out + MAX_OUTPUT_BLOCK_SIZE;
if (end > ndrc->translation_cache + sizeof(ndrc->translation_cache))
end = ndrc->translation_cache + sizeof(ndrc->translation_cache);
- start_tcache_write(out, end);
+ start_tcache_write(NDRC_WRITE_OFFSET(out), NDRC_WRITE_OFFSET(end));
return out;
}
static void end_block(void *start)
{
- end_tcache_write(start, out);
+ end_tcache_write(NDRC_WRITE_OFFSET(start), NDRC_WRITE_OFFSET(out));
}
+#ifdef NDRC_CACHE_FLUSH_ALL
+
+static int needs_clear_cache;
+
+static void mark_clear_cache(void *target)
+{
+ if (!needs_clear_cache) {
+ start_tcache_write(NDRC_WRITE_OFFSET(ndrc), NDRC_WRITE_OFFSET(ndrc + 1));
+ needs_clear_cache = 1;
+ }
+}
+
+static void do_clear_cache(void)
+{
+ if (needs_clear_cache) {
+ end_tcache_write(NDRC_WRITE_OFFSET(ndrc), NDRC_WRITE_OFFSET(ndrc + 1));
+ needs_clear_cache = 0;
+ }
+}
+
+#else
+
// also takes care of w^x mappings when patching code
static u_int needs_clear_cache[1<<(TARGET_SIZE_2-17)];
uintptr_t offset = (u_char *)target - ndrc->translation_cache;
u_int mask = 1u << ((offset >> 12) & 31);
if (!(needs_clear_cache[offset >> 17] & mask)) {
- char *start = (char *)((uintptr_t)target & ~4095l);
+ char *start = (char *)NDRC_WRITE_OFFSET((uintptr_t)target & ~4095l);
start_tcache_write(start, start + 4095);
needs_clear_cache[offset >> 17] |= mask;
}
break;
end += 4096;
}
- end_tcache_write(start, end);
+ end_tcache_write(NDRC_WRITE_OFFSET(start), NDRC_WRITE_OFFSET(end));
}
needs_clear_cache[i] = 0;
}
}
-//#define DEBUG_CYCLE_COUNT 1
+#endif // NDRC_CACHE_FLUSH_ALL
#define NO_CYCLE_PENALTY_THR 12
static void mark_invalid_code(u_int vaddr, u_int len, char invalid)
{
+ u_int vaddr_m = vaddr & 0x1fffffff;
u_int i, j;
- vaddr &= 0x1fffffff;
- for (i = vaddr & ~0xfff; i < vaddr + len; i += 0x1000) {
+ for (i = vaddr_m & ~0xfff; i < vaddr_m + len; i += 0x1000) {
// ram mirrors, but should not hurt bios
for (j = 0; j < 0x800000; j += 0x200000) {
invalid_code[(i|j) >> 12] =
return diff > EXPIRITY_OFFSET + MAX_OUTPUT_BLOCK_SIZE;
}
+static unused void check_for_block_changes(u_int start, u_int end)
+{
+ u_int start_page = get_page_prev(start);
+ u_int end_page = get_page(end - 1);
+ u_int page;
+
+ for (page = start_page; page <= end_page; page++) {
+ struct block_info *block;
+ for (block = blocks[page]; block != NULL; block = block->next) {
+ if (block->is_dirty)
+ continue;
+ if (memcmp(block->source, block->copy, block->len)) {
+ printf("bad block %08x-%08x %016llx %016llx @%08x\n",
+ block->start, block->start + block->len,
+ *(long long *)block->source, *(long long *)block->copy, psxRegs.pc);
+ fflush(stdout);
+ abort();
+ }
+ }
+ }
+}
+
static void *try_restore_block(u_int vaddr, u_int start_page, u_int end_page)
{
void *found_clean = NULL;
if (memcmp(block->source, block->copy, block->len))
continue;
- block->is_dirty = 0;
+ block->is_dirty = block->inv_near_misses = 0;
found_clean = block->jump_in[i].addr;
hash_table_add(vaddr, found_clean);
mark_invalid_code(block->start, block->len, 0);
// Look up address in hash table first
void *ndrc_get_addr_ht_param(u_int vaddr, int can_compile)
{
+ //check_for_block_changes(vaddr, vaddr + MAXBLOCK);
const struct ht_entry *ht_bin = hash_table_get(vaddr);
stat_inc(stat_ht_lookups);
if (ht_bin->vaddr[0] == vaddr) return ht_bin->tcaddr[0];
FUNCNAME(jump_handler_write8),
FUNCNAME(jump_handler_write16),
FUNCNAME(jump_handler_write32),
- FUNCNAME(ndrc_invalidate_addr),
+ FUNCNAME(ndrc_write_invalidate_one),
+ FUNCNAME(ndrc_write_invalidate_many),
FUNCNAME(jump_to_new_pc),
FUNCNAME(jump_break),
FUNCNAME(jump_break_ds),
static void *get_trampoline(const void *f)
{
+ struct ndrc_tramp *tramp = NDRC_WRITE_OFFSET(&ndrc->tramp);
size_t i;
- for (i = 0; i < ARRAY_SIZE(ndrc->tramp.f); i++) {
- if (ndrc->tramp.f[i] == f || ndrc->tramp.f[i] == NULL)
+ for (i = 0; i < ARRAY_SIZE(tramp->f); i++) {
+ if (tramp->f[i] == f || tramp->f[i] == NULL)
break;
}
- if (i == ARRAY_SIZE(ndrc->tramp.f)) {
+ if (i == ARRAY_SIZE(tramp->f)) {
SysPrintf("trampoline table is full, last func %p\n", f);
abort();
}
- if (ndrc->tramp.f[i] == NULL) {
- start_tcache_write(&ndrc->tramp.f[i], &ndrc->tramp.f[i + 1]);
- ndrc->tramp.f[i] = f;
- end_tcache_write(&ndrc->tramp.f[i], &ndrc->tramp.f[i + 1]);
+ if (tramp->f[i] == NULL) {
+ start_tcache_write(&tramp->f[i], &tramp->f[i + 1]);
+ tramp->f[i] = f;
+ end_tcache_write(&tramp->f[i], &tramp->f[i + 1]);
+#ifdef HAVE_LIBNX
+ // invalidate the RX mirror (unsure if necessary, but just in case...)
+ armDCacheFlush(&ndrc->tramp.f[i], sizeof(ndrc->tramp.f[i]));
+#endif
}
return &ndrc->tramp.ops[i];
}
emit_call(f);
}
-// Add virtual address mapping to linked list
-static void ll_add(struct ll_entry **head,int vaddr,void *addr)
-{
- struct ll_entry *new_entry;
- new_entry=malloc(sizeof(struct ll_entry));
- assert(new_entry!=NULL);
- new_entry->vaddr=vaddr;
- new_entry->addr=addr;
- new_entry->next=*head;
- *head=new_entry;
-}
-
// Check if an address is already compiled
// but don't return addresses which are about to expire from the cache
static void *check_addr(u_int vaddr)
return NULL;
}
-static void ll_remove_matching_addrs(struct ll_entry **head, u_int base_offs, int shift)
-{
- struct ll_entry *next;
- while (*head) {
- u_int tc_offs = (u_char *)((*head)->addr) - ndrc->translation_cache;
- if (((tc_offs ^ base_offs) >> shift) == 0) {
- inv_debug("EXP: rm link from tc_offs %x)\n", tc_offs);
- next = (*head)->next;
- free(*head);
- *head = next;
- }
- else
- {
- head = &((*head)->next);
- }
- }
-}
-
-// Remove all entries from linked list
-static void ll_clear(struct ll_entry **head)
-{
- struct ll_entry *cur;
- struct ll_entry *next;
- if((cur=*head)) {
- *head=0;
- while(cur) {
- next=cur->next;
- free(cur);
- cur=next;
- }
- }
-}
-
static void blocks_clear(struct block_info **head)
{
struct block_info *cur, *next;
int hit = 0;
while (*head) {
if ((((*head)->tc_offs ^ base_offs) >> shift) == 0) {
- inv_debug("EXP: rm block %08x (tc_offs %zx)\n", (*head)->start, (*head)->tc_offs);
+ inv_debug("EXP: rm block %08x (tc_offs %x)\n", (*head)->start, (*head)->tc_offs);
invalidate_block(*head);
next = (*head)->next;
free(*head);
}
// This is called when we write to a compiled block (see do_invstub)
-static void unlink_jumps_range(u_int start, u_int end)
+static void unlink_jumps_vaddr_range(u_int start, u_int end)
{
u_int page, start_page = get_page(start), end_page = get_page(end - 1);
- struct ll_entry **head, *next;
+ int i;
for (page = start_page; page <= end_page; page++) {
- for (head = &jump_out[page]; *head; ) {
- if ((*head)->vaddr < start || (*head)->vaddr >= end) {
- head = &((*head)->next);
+ struct jump_info *ji = jumps[page];
+ if (ji == NULL)
+ continue;
+ for (i = 0; i < ji->count; ) {
+ if (ji->e[i].target_vaddr < start || ji->e[i].target_vaddr >= end) {
+ i++;
continue;
}
- inv_debug("INV: rm link to %08x (tc_offs %zx)\n",
- (*head)->vaddr, (u_char *)((*head)->addr) - ndrc->translation_cache);
- void *host_addr = find_extjump_insn((*head)->addr);
+
+ inv_debug("INV: rm link to %08x (tc_offs %zx)\n", ji->e[i].target_vaddr,
+ (u_char *)ji->e[i].stub - ndrc->translation_cache);
+ void *host_addr = find_extjump_insn(ji->e[i].stub);
mark_clear_cache(host_addr);
- set_jump_target(host_addr, (*head)->addr); // point back to dyna_linker stub
+ set_jump_target(host_addr, ji->e[i].stub); // point back to dyna_linker stub
- next = (*head)->next;
- free(*head);
- *head = next;
stat_dec(stat_links);
+ ji->count--;
+ if (i < ji->count) {
+ ji->e[i] = ji->e[ji->count];
+ continue;
+ }
+ i++;
}
}
}
+static void unlink_jumps_tc_range(struct jump_info *ji, u_int base_offs, int shift)
+{
+ int i;
+ if (ji == NULL)
+ return;
+ for (i = 0; i < ji->count; ) {
+ u_int tc_offs = (u_char *)ji->e[i].stub - ndrc->translation_cache;
+ if (((tc_offs ^ base_offs) >> shift) != 0) {
+ i++;
+ continue;
+ }
+
+ inv_debug("EXP: rm link to %08x (tc_offs %x)\n", ji->e[i].target_vaddr, tc_offs);
+ stat_dec(stat_links);
+ ji->count--;
+ if (i < ji->count) {
+ ji->e[i] = ji->e[ji->count];
+ continue;
+ }
+ i++;
+ }
+}
+
static void invalidate_block(struct block_info *block)
{
u_int i;
block->is_dirty = 1;
- unlink_jumps_range(block->start, block->start + block->len);
+ unlink_jumps_vaddr_range(block->start, block->start + block->len);
for (i = 0; i < block->jump_in_cnt; i++)
hash_table_remove(block->jump_in[i].vaddr);
}
static int invalidate_range(u_int start, u_int end,
u32 *inv_start_ret, u32 *inv_end_ret)
{
+ struct block_info *last_block = NULL;
u_int start_page = get_page_prev(start);
u_int end_page = get_page(end - 1);
u_int start_m = pmmask(start);
- u_int end_m = pmmask(end);
+ u_int end_m = pmmask(end - 1);
u_int inv_start, inv_end;
u_int blk_start_m, blk_end_m;
u_int page;
int hit = 0;
// additional area without code (to supplement invalid_code[]), [start, end)
- // avoids excessive ndrc_invalidate_addr() calls
+ // avoids excessive ndrc_write_invalidate*() calls
inv_start = start_m & ~0xfff;
inv_end = end_m | 0xfff;
for (block = blocks[page]; block != NULL; block = block->next) {
if (block->is_dirty)
continue;
+ last_block = block;
blk_end_m = pmmask(block->start + block->len);
if (blk_end_m <= start_m) {
inv_start = max(inv_start, blk_end_m);
}
}
+ if (!hit && last_block && last_block->source) {
+ // could be some leftover unused block, uselessly trapping writes
+ last_block->inv_near_misses++;
+ if (last_block->inv_near_misses > 128) {
+ invalidate_block(last_block);
+ stat_inc(stat_inv_hits);
+ hit++;
+ }
+ }
if (hit) {
do_clear_cache();
#ifdef USE_MINI_HT
memset(mini_ht, -1, sizeof(mini_ht));
#endif
}
+
if (inv_start <= (start_m & ~0xfff) && inv_end >= (start_m | 0xfff))
// the whole page is empty now
mark_invalid_code(start, 1, 1);
invalidate_range(start, end, NULL, NULL);
}
-void ndrc_invalidate_addr(u_int addr)
+static void ndrc_write_invalidate_many(u_int start, u_int end)
{
// this check is done by the caller
//if (inv_code_start<=addr&&addr<=inv_code_end) { rhits++; return; }
- int ret = invalidate_range(addr, addr + 4, &inv_code_start, &inv_code_end);
+ int ret = invalidate_range(start, end, &inv_code_start, &inv_code_end);
+#ifdef INV_DEBUG_W
+ int invc = invalid_code[start >> 12];
+ u_int len = end - start;
if (ret)
- inv_debug("INV ADDR: %08x hit %d blocks\n", addr, ret);
+ printf("INV ADDR: %08x/%02x hit %d blocks\n", start, len, ret);
else
- inv_debug("INV ADDR: %08x miss, inv %08x-%08x\n", addr, inv_code_start, inv_code_end);
+ printf("INV ADDR: %08x/%02x miss, inv %08x-%08x invc %d->%d\n", start, len,
+ inv_code_start, inv_code_end, invc, invalid_code[start >> 12]);
+ check_for_block_changes(start, end);
+#endif
stat_inc(stat_inv_addr_calls);
+ (void)ret;
+}
+
+void ndrc_write_invalidate_one(u_int addr)
+{
+ ndrc_write_invalidate_many(addr, addr + 4);
}
// This is called when loading a save state.
do_clear_cache();
}
-static void do_invstub(int n)
-{
- literal_pool(20);
- u_int reglist = stubs[n].a;
- set_jump_target(stubs[n].addr, out);
- save_regs(reglist);
- if (stubs[n].b != 0)
- emit_mov(stubs[n].b, 0);
- emit_readword(&inv_code_start, 1);
- emit_readword(&inv_code_end, 2);
- emit_cmp(0, 1);
- emit_cmpcs(2, 0);
- void *jaddr = out;
- emit_jc(0);
- emit_far_call(ndrc_invalidate_addr);
- set_jump_target(jaddr, out);
- restore_regs(reglist);
- emit_jmp(stubs[n].retaddr); // return address
-}
-
// Add an entry to jump_out after making a link
// src should point to code by emit_extjump()
-void ndrc_add_jump_out(u_int vaddr,void *src)
+void ndrc_add_jump_out(u_int vaddr, void *src)
{
- u_int page=get_page(vaddr);
- inv_debug("ndrc_add_jump_out: %p -> %x (%d)\n",src,vaddr,page);
- check_extjump2(src);
- ll_add(jump_out+page,vaddr,src);
- //inv_debug("ndrc_add_jump_out: to %p\n",get_pointer(src));
+ inv_debug("ndrc_add_jump_out: %p -> %x\n", src, vaddr);
+ u_int page = get_page(vaddr);
+ struct jump_info *ji;
+
stat_inc(stat_links);
+ check_extjump2(src);
+ ji = jumps[page];
+ if (ji == NULL) {
+ ji = malloc(sizeof(*ji) + sizeof(ji->e[0]) * 16);
+ ji->alloc = 16;
+ ji->count = 0;
+ }
+ else if (ji->count >= ji->alloc) {
+ ji->alloc += 16;
+ ji = realloc(ji, sizeof(*ji) + sizeof(ji->e[0]) * ji->alloc);
+ }
+ jumps[page] = ji;
+ ji->e[ji->count].target_vaddr = vaddr;
+ ji->e[ji->count].stub = src;
+ ji->count++;
}
/* Register allocation */
}
else
{
- // TLBR/TLBWI/TLBWR/TLBP/ERET
+ // RFE
assert(dops[i].opcode2==0x10);
alloc_all(current,i);
}
}
#endif
+static void do_invstub(int n)
+{
+ literal_pool(20);
+ assem_debug("do_invstub\n");
+ u_int reglist = stubs[n].a;
+ u_int addrr = stubs[n].b;
+ int ofs_start = stubs[n].c;
+ int ofs_end = stubs[n].d;
+ int len = ofs_end - ofs_start;
+ u_int rightr = 0;
+
+ set_jump_target(stubs[n].addr, out);
+ save_regs(reglist);
+ if (addrr != 0 || ofs_start != 0)
+ emit_addimm(addrr, ofs_start, 0);
+ emit_readword(&inv_code_start, 2);
+ emit_readword(&inv_code_end, 3);
+ if (len != 0)
+ emit_addimm(0, len + 4, (rightr = 1));
+ emit_cmp(0, 2);
+ emit_cmpcs(3, rightr);
+ void *jaddr = out;
+ emit_jc(0);
+ void *func = (len != 0)
+ ? (void *)ndrc_write_invalidate_many
+ : (void *)ndrc_write_invalidate_one;
+ emit_far_call(func);
+ set_jump_target(jaddr, out);
+ restore_regs(reglist);
+ emit_jmp(stubs[n].retaddr);
+}
+
+static void do_store_smc_check(int i, const struct regstat *i_regs, u_int reglist, int addr)
+{
+ if (HACK_ENABLED(NDHACK_NO_SMC_CHECK))
+ return;
+ // this can't be used any more since we started to check exact
+ // block boundaries in invalidate_range()
+ //if (i_regs->waswritten & (1<<dops[i].rs1))
+ // return;
+ // (naively) assume nobody will run code from stack
+ if (dops[i].rs1 == 29)
+ return;
+
+ int j, imm_maxdiff = 32, imm_min = imm[i], imm_max = imm[i], count = 1;
+ if (i < slen - 1 && dops[i+1].is_store && dops[i+1].rs1 == dops[i].rs1
+ && abs(imm[i+1] - imm[i]) <= imm_maxdiff)
+ return;
+ for (j = i - 1; j >= 0; j--) {
+ if (!dops[j].is_store || dops[j].rs1 != dops[i].rs1
+ || abs(imm[j] - imm[j+1]) > imm_maxdiff)
+ break;
+ count++;
+ if (imm_min > imm[j])
+ imm_min = imm[j];
+ if (imm_max < imm[j])
+ imm_max = imm[j];
+ }
+#if defined(HOST_IMM8)
+ int ir = get_reg(i_regs->regmap, INVCP);
+ assert(ir >= 0);
+ host_tempreg_acquire();
+ emit_ldrb_indexedsr12_reg(ir, addr, HOST_TEMPREG);
+#else
+ emit_cmpmem_indexedsr12_imm(invalid_code, addr, 1);
+ #error not handled
+#endif
+#ifdef INVALIDATE_USE_COND_CALL
+ if (count == 1) {
+ emit_cmpimm(HOST_TEMPREG, 1);
+ emit_callne(invalidate_addr_reg[addr]);
+ host_tempreg_release();
+ return;
+ }
+#endif
+ void *jaddr = emit_cbz(HOST_TEMPREG, 0);
+ host_tempreg_release();
+ imm_min -= imm[i];
+ imm_max -= imm[i];
+ add_stub(INVCODE_STUB, jaddr, out, reglist|(1<<HOST_CCREG),
+ addr, imm_min, imm_max, 0);
+}
+
static void store_assemble(int i, const struct regstat *i_regs, int ccadj_)
{
int s,tl;
add_stub_r(type,jaddr,out,i,addr,i_regs,ccadj_,reglist);
jaddr=0;
}
- if(!(i_regs->waswritten&(1<<dops[i].rs1)) && !HACK_ENABLED(NDHACK_NO_SMC_CHECK)) {
+ {
if(!c||memtarget) {
#ifdef DESTRUCTIVE_SHIFT
// The x86 shift operation is 'destructive'; it overwrites the
// source register, so we need to make a copy first and use that.
addr=temp;
#endif
- #if defined(HOST_IMM8)
- int ir=get_reg(i_regs->regmap,INVCP);
- assert(ir>=0);
- emit_cmpmem_indexedsr12_reg(ir,addr,1);
- #else
- emit_cmpmem_indexedsr12_imm(invalid_code,addr,1);
- #endif
- #ifdef INVALIDATE_USE_COND_CALL
- emit_callne(invalidate_addr_reg[addr]);
- #else
- void *jaddr2 = out;
- emit_jne(0);
- add_stub(INVCODE_STUB,jaddr2,out,reglist|(1<<HOST_CCREG),addr,0,0,0);
- #endif
+ do_store_smc_check(i, i_regs, reglist, addr);
}
}
u_int addr_val=constmap[i][s]+offset;
host_tempreg_release();
if(!c||!memtarget)
add_stub_r(STORELR_STUB,jaddr,out,i,temp,i_regs,ccadj_,reglist);
- if(!(i_regs->waswritten&(1<<dops[i].rs1)) && !HACK_ENABLED(NDHACK_NO_SMC_CHECK)) {
- #if defined(HOST_IMM8)
- int ir=get_reg(i_regs->regmap,INVCP);
- assert(ir>=0);
- emit_cmpmem_indexedsr12_reg(ir,temp,1);
- #else
- emit_cmpmem_indexedsr12_imm(invalid_code,temp,1);
- #endif
- #ifdef INVALIDATE_USE_COND_CALL
- emit_callne(invalidate_addr_reg[temp]);
- #else
- void *jaddr2 = out;
- emit_jne(0);
- add_stub(INVCODE_STUB,jaddr2,out,reglist|(1<<HOST_CCREG),temp,0,0,0);
- #endif
- }
+ do_store_smc_check(i, i_regs, reglist, temp);
}
static void cop0_assemble(int i, const struct regstat *i_regs, int ccadj_)
}
if(copr==12||copr==13) {
assert(!is_delayslot);
- emit_readword(&pending_exception,14);
- emit_test(14,14);
+ emit_readword(&pending_exception,HOST_TEMPREG);
+ emit_test(HOST_TEMPREG,HOST_TEMPREG);
void *jaddr = out;
emit_jeq(0);
emit_readword(&pcaddr, 0);
if(jaddr2)
add_stub_r(type,jaddr2,out,i,ar,i_regs,ccadj_,reglist);
if(dops[i].opcode==0x3a) // SWC2
- if(!(i_regs->waswritten&(1<<dops[i].rs1)) && !HACK_ENABLED(NDHACK_NO_SMC_CHECK)) {
-#if defined(HOST_IMM8)
- int ir=get_reg(i_regs->regmap,INVCP);
- assert(ir>=0);
- emit_cmpmem_indexedsr12_reg(ir,ar,1);
-#else
- emit_cmpmem_indexedsr12_imm(invalid_code,ar,1);
-#endif
- #ifdef INVALIDATE_USE_COND_CALL
- emit_callne(invalidate_addr_reg[ar]);
- #else
- void *jaddr3 = out;
- emit_jne(0);
- add_stub(INVCODE_STUB,jaddr3,out,reglist|(1<<HOST_CCREG),ar,0,0,0);
- #endif
- }
+ do_store_smc_check(i, i_regs, reglist, ar);
if (dops[i].opcode==0x32) { // LWC2
host_tempreg_acquire();
cop2_put_dreg(copr,tl,HOST_TEMPREG);
static void hlecall_assemble(int i, const struct regstat *i_regs, int ccadj_)
{
- void *hlefunc = psxNULL;
+ void *hlefunc = gteNULL;
uint32_t hleCode = source[i] & 0x03ffffff;
if (hleCode < ARRAY_SIZE(psxHLEt))
hlefunc = psxHLEt[hleCode];
//assert(adj==0);
emit_addimm_and_set_flags(ccadj[i] + CLOCK_ADJUST(2), HOST_CCREG);
add_stub(CC_STUB,out,NULL,0,i,-1,TAKEN,rs);
- if(dops[i+1].itype==COP0&&(source[i+1]&0x3f)==0x10)
+ if(dops[i+1].itype==COP0 && dops[i+1].opcode2==0x10)
// special case for RFE
emit_jmp(0);
else
#define DRC_TEST_VAL 0x74657374
-static void new_dynarec_test(void)
+static noinline void new_dynarec_test(void)
{
int (*testfunc)(void);
void *beginning;
SysPrintf("linkage_arm* miscompilation/breakage detected.\n");
}
- SysPrintf("testing if we can run recompiled code @%p...\n", out);
- ((volatile u_int *)out)[0]++; // make cache dirty
+ SysPrintf("(%p) testing if we can run recompiled code @%p...\n",
+ new_dynarec_test, out);
+ ((volatile u_int *)NDRC_WRITE_OFFSET(out))[0]++; // make the cache dirty
for (i = 0; i < ARRAY_SIZE(ret); i++) {
out = ndrc->translation_cache;
f1_hack=0;
for (n = 0; n < ARRAY_SIZE(blocks); n++)
blocks_clear(&blocks[n]);
- for (n = 0; n < ARRAY_SIZE(jump_out); n++)
- ll_clear(&jump_out[n]);
+ for (n = 0; n < ARRAY_SIZE(jumps); n++) {
+ free(jumps[n]);
+ jumps[n] = NULL;
+ }
stat_clear(stat_blocks);
stat_clear(stat_links);
#elif defined(_MSC_VER)
ndrc = VirtualAlloc(NULL, sizeof(*ndrc), MEM_COMMIT | MEM_RESERVE,
PAGE_EXECUTE_READWRITE);
+ #elif defined(HAVE_LIBNX)
+ Result rc = jitCreate(&g_jit, sizeof(*ndrc));
+ if (R_FAILED(rc))
+ SysPrintf("jitCreate failed: %08x\n", rc);
+ SysPrintf("jitCreate: RX: %p RW: %p type: %d\n", g_jit.rx_addr, g_jit.rw_addr, g_jit.type);
+ jitTransitionToWritable(&g_jit);
+ ndrc = g_jit.rx_addr;
+ ndrc_write_ofs = (char *)g_jit.rw_addr - (char *)ndrc;
+ memset(NDRC_WRITE_OFFSET(&ndrc->tramp), 0, sizeof(ndrc->tramp));
#else
uintptr_t desired_addr = 0;
+ int prot = PROT_READ | PROT_WRITE | PROT_EXEC;
+ int flags = MAP_PRIVATE | MAP_ANONYMOUS;
+ int fd = -1;
#ifdef __ELF__
extern char _end;
desired_addr = ((uintptr_t)&_end + 0xffffff) & ~0xffffffl;
#endif
- ndrc = mmap((void *)desired_addr, sizeof(*ndrc),
- PROT_READ | PROT_WRITE | PROT_EXEC,
- MAP_PRIVATE | MAP_ANONYMOUS, -1, 0);
+ #ifdef TC_WRITE_OFFSET
+ // mostly for testing
+ fd = open("/dev/shm/pcsxr", O_CREAT | O_RDWR, 0600);
+ ftruncate(fd, sizeof(*ndrc));
+ void *mw = mmap(NULL, sizeof(*ndrc), PROT_READ | PROT_WRITE,
+ (flags = MAP_SHARED), fd, 0);
+ assert(mw != MAP_FAILED);
+ prot = PROT_READ | PROT_EXEC;
+ #endif
+ ndrc = mmap((void *)desired_addr, sizeof(*ndrc), prot, flags, fd, 0);
if (ndrc == MAP_FAILED) {
SysPrintf("mmap() failed: %s\n", strerror(errno));
abort();
}
+ #ifdef TC_WRITE_OFFSET
+ ndrc_write_ofs = (char *)mw - (char *)ndrc;
+ #endif
#endif
#else
#ifndef NO_WRITE_EXEC
// sceBlock is managed by retroarch's bootstrap code
//sceKernelFreeMemBlock(sceBlock);
//sceBlock = -1;
+ #elif defined(HAVE_LIBNX)
+ jitClose(&g_jit);
+ ndrc = NULL;
#else
if (munmap(ndrc, sizeof(*ndrc)) < 0)
SysPrintf("munmap() failed\n");
+ ndrc = NULL;
#endif
#endif
for (n = 0; n < ARRAY_SIZE(blocks); n++)
blocks_clear(&blocks[n]);
- for (n = 0; n < ARRAY_SIZE(jump_out); n++)
- ll_clear(&jump_out[n]);
+ for (n = 0; n < ARRAY_SIZE(jumps); n++) {
+ free(jumps[n]);
+ jumps[n] = NULL;
+ }
stat_clear(stat_blocks);
stat_clear(stat_links);
- #ifdef ROM_COPY
- if (munmap (ROM_COPY, 67108864) < 0) {SysPrintf("munmap() failed\n");}
- #endif
new_dynarec_print_stats();
}
// SYSCALL instruction (software interrupt)
u=1;
}
- else if(dops[i].itype==COP0 && (source[i]&0x3f)==0x18)
+ else if(dops[i].itype==COP0 && dops[i].opcode2==0x10)
{
- // ERET instruction (return from interrupt)
+ // RFE
u=1;
}
//u=1; // DEBUG
current.wasconst = 0;
current.isconst = 0;
current.loadedconst = 0;
- current.waswritten = 0;
+ //current.waswritten = 0;
int ds=0;
int cc=0;
int hr;
if(current.regmap[hr]==0) current.regmap[hr]=-1;
}
current.isconst=0;
- current.waswritten=0;
+ //current.waswritten=0;
}
memcpy(regmap_pre[i],current.regmap,sizeof(current.regmap));
memcpy(regs[i].regmap,current.regmap,sizeof(current.regmap));
}
+#if 0 // see do_store_smc_check()
if(i>0&&(dops[i-1].itype==STORE||dops[i-1].itype==STORELR||(dops[i-1].itype==C2LS&&dops[i-1].opcode==0x3a))&&(u_int)imm[i-1]<0x800)
current.waswritten|=1<<dops[i-1].rs1;
current.waswritten&=~(1<<dops[i].rt1);
current.waswritten&=~(1<<dops[i].rt2);
if((dops[i].itype==STORE||dops[i].itype==STORELR||(dops[i].itype==C2LS&&dops[i].opcode==0x3a))&&(u_int)imm[i]>=0x800)
current.waswritten&=~(1<<dops[i].rs1);
+#endif
/* Branch post-alloc */
if(i>0)
}
}
if(current.regmap[HOST_BTREG]==BTREG) current.regmap[HOST_BTREG]=-1;
- regs[i].waswritten=current.waswritten;
+ //regs[i].waswritten=current.waswritten;
}
}
u_int block_i = expirep / step & (PAGE_COUNT - 1);
u_int phase = (expirep >> (base_shift - 1)) & 1u;
if (!(expirep & (MAX_OUTPUT_BLOCK_SIZE / 2 - 1))) {
- inv_debug("EXP: base_offs %x/%x phase %u\n", base_offs,
- out - ndrc->translation_cache phase);
+ inv_debug("EXP: base_offs %x/%lx phase %u\n", base_offs,
+ (long)(out - ndrc->translation_cache), phase);
}
if (!phase) {
}
}
else
- ll_remove_matching_addrs(&jump_out[block_i], base_offs, base_shift);
+ unlink_jumps_tc_range(jumps[block_i], base_offs, base_shift);
}
}
block->tc_offs = beginning - ndrc->translation_cache;
//block->tc_len = out - beginning;
block->is_dirty = 0;
+ block->inv_near_misses = 0;
block->jump_in_cnt = jump_in_count;
// insert sorted by start mirror-unmasked vaddr