/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Mupen64plus/PCSX - assem_arm.c *
* Copyright (C) 2009-2011 Ari64 *
- * Copyright (C) 2010-2011 Gražvydas "notaz" Ignotas *
+ * Copyright (C) 2010-2021 Gražvydas "notaz" Ignotas *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
-#include "../gte.h"
#define FLAGLESS
#include "../gte.h"
#undef FLAGLESS
#include "pcnt.h"
#include "arm_features.h"
-#if defined(BASE_ADDR_FIXED)
-#elif defined(BASE_ADDR_DYNAMIC)
-u_char *translation_cache;
-#else
-u_char translation_cache[1 << TARGET_SIZE_2] __attribute__((aligned(4096)));
-#endif
-
-#ifndef __MACH__
-#define CALLER_SAVE_REGS 0x100f
-#else
-#define CALLER_SAVE_REGS 0x120f
-#endif
-
#define unused __attribute__((unused))
#ifdef DRC_DBG
#pragma GCC diagnostic ignored "-Wunused-but-set-variable"
#endif
-extern int cycle_count;
-extern int last_count;
-extern int pcaddr;
-extern int pending_exception;
-extern int branch_target;
-extern uint64_t readmem_dword;
-extern void *dynarec_local;
-extern u_int mini_ht[32][2];
-
void indirect_jump_indexed();
void indirect_jump();
void do_interrupt();
0,
0};
-static u_int needs_clear_cache[1<<(TARGET_SIZE_2-17)];
-
/* Linker */
static void set_jump_target(void *addr, void *target_)
{
//printf("get_pointer(%x)\n",(int)stub);
int *i_ptr=find_extjump_insn(stub);
- assert((*i_ptr&0x0f000000)==0x0a000000);
+ assert((*i_ptr&0x0f000000)==0x0a000000); // b
return (u_char *)i_ptr+((*i_ptr<<8)>>6)+8;
}
return ptr;
}
-static int verify_dirty(u_int *ptr)
+static int verify_dirty(const u_int *ptr)
{
#ifndef HAVE_ARMV7
u_int offset;
if((*ptr&0xFF000000)!=0xeb000000) ptr++;
if((*ptr&0xFF000000)!=0xeb000000) return 1; // bl instruction
if((int)ptr+((*ptr<<8)>>6)+8==(int)verify_code) return 0;
- if((int)ptr+((*ptr<<8)>>6)+8==(int)verify_code_vm) return 0;
if((int)ptr+((*ptr<<8)>>6)+8==(int)verify_code_ds) return 0;
return 1;
}
// get source that block at addr was compiled from (host pointers)
-static void get_bounds(void *addr,u_int *start,u_int *end)
+static void get_bounds(void *addr, u_char **start, u_char **end)
{
u_int *ptr = addr;
#ifndef HAVE_ARMV7
#endif
if((*ptr&0xFF000000)!=0xeb000000) ptr++;
assert((*ptr&0xFF000000)==0xeb000000); // bl instruction
- *start=source;
- *end=source+len;
-}
-
-/* Register allocation */
-
-// Note: registers are allocated clean (unmodified state)
-// if you intend to modify the register, you must call dirty_reg().
-static void alloc_reg(struct regstat *cur,int i,signed char reg)
-{
- int r,hr;
- int preferred_reg = (reg&7);
- if(reg==CCREG) preferred_reg=HOST_CCREG;
- if(reg==PTEMP||reg==FTEMP) preferred_reg=12;
-
- // Don't allocate unused registers
- if((cur->u>>reg)&1) return;
-
- // see if it's already allocated
- for(hr=0;hr<HOST_REGS;hr++)
- {
- if(cur->regmap[hr]==reg) return;
- }
-
- // Keep the same mapping if the register was already allocated in a loop
- preferred_reg = loop_reg(i,reg,preferred_reg);
-
- // Try to allocate the preferred register
- if(cur->regmap[preferred_reg]==-1) {
- cur->regmap[preferred_reg]=reg;
- cur->dirty&=~(1<<preferred_reg);
- cur->isconst&=~(1<<preferred_reg);
- return;
- }
- r=cur->regmap[preferred_reg];
- if(r<64&&((cur->u>>r)&1)) {
- cur->regmap[preferred_reg]=reg;
- cur->dirty&=~(1<<preferred_reg);
- cur->isconst&=~(1<<preferred_reg);
- return;
- }
- if(r>=64&&((cur->uu>>(r&63))&1)) {
- cur->regmap[preferred_reg]=reg;
- cur->dirty&=~(1<<preferred_reg);
- cur->isconst&=~(1<<preferred_reg);
- return;
- }
-
- // Clear any unneeded registers
- // We try to keep the mapping consistent, if possible, because it
- // makes branches easier (especially loops). So we try to allocate
- // first (see above) before removing old mappings. If this is not
- // possible then go ahead and clear out the registers that are no
- // longer needed.
- for(hr=0;hr<HOST_REGS;hr++)
- {
- r=cur->regmap[hr];
- if(r>=0) {
- if(r<64) {
- if((cur->u>>r)&1) {cur->regmap[hr]=-1;break;}
- }
- else
- {
- if((cur->uu>>(r&63))&1) {cur->regmap[hr]=-1;break;}
- }
- }
- }
- // Try to allocate any available register, but prefer
- // registers that have not been used recently.
- if(i>0) {
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=EXCLUDE_REG&&cur->regmap[hr]==-1) {
- if(regs[i-1].regmap[hr]!=rs1[i-1]&®s[i-1].regmap[hr]!=rs2[i-1]&®s[i-1].regmap[hr]!=rt1[i-1]&®s[i-1].regmap[hr]!=rt2[i-1]) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- }
- // Try to allocate any available register
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=EXCLUDE_REG&&cur->regmap[hr]==-1) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
-
- // Ok, now we have to evict someone
- // Pick a register we hopefully won't need soon
- u_char hsn[MAXREG+1];
- memset(hsn,10,sizeof(hsn));
- int j;
- lsn(hsn,i,&preferred_reg);
- //printf("eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",cur->regmap[0],cur->regmap[1],cur->regmap[2],cur->regmap[3],cur->regmap[5],cur->regmap[6],cur->regmap[7]);
- //printf("hsn(%x): %d %d %d %d %d %d %d\n",start+i*4,hsn[cur->regmap[0]&63],hsn[cur->regmap[1]&63],hsn[cur->regmap[2]&63],hsn[cur->regmap[3]&63],hsn[cur->regmap[5]&63],hsn[cur->regmap[6]&63],hsn[cur->regmap[7]&63]);
- if(i>0) {
- // Don't evict the cycle count at entry points, otherwise the entry
- // stub will have to write it.
- if(bt[i]&&hsn[CCREG]>2) hsn[CCREG]=2;
- if(i>1&&hsn[CCREG]>2&&(itype[i-2]==RJUMP||itype[i-2]==UJUMP||itype[i-2]==CJUMP||itype[i-2]==SJUMP||itype[i-2]==FJUMP)) hsn[CCREG]=2;
- for(j=10;j>=3;j--)
- {
- // Alloc preferred register if available
- if(hsn[r=cur->regmap[preferred_reg]&63]==j) {
- for(hr=0;hr<HOST_REGS;hr++) {
- // Evict both parts of a 64-bit register
- if((cur->regmap[hr]&63)==r) {
- cur->regmap[hr]=-1;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- }
- }
- cur->regmap[preferred_reg]=reg;
- return;
- }
- for(r=1;r<=MAXREG;r++)
- {
- if(hsn[r]==j&&r!=rs1[i-1]&&r!=rs2[i-1]&&r!=rt1[i-1]&&r!=rt2[i-1]) {
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=HOST_CCREG||j<hsn[CCREG]) {
- if(cur->regmap[hr]==r+64) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=HOST_CCREG||j<hsn[CCREG]) {
- if(cur->regmap[hr]==r) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- }
- }
- }
- }
- for(j=10;j>=0;j--)
- {
- for(r=1;r<=MAXREG;r++)
- {
- if(hsn[r]==j) {
- for(hr=0;hr<HOST_REGS;hr++) {
- if(cur->regmap[hr]==r+64) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- for(hr=0;hr<HOST_REGS;hr++) {
- if(cur->regmap[hr]==r) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- }
- }
- SysPrintf("This shouldn't happen (alloc_reg)");exit(1);
-}
-
-static void alloc_reg64(struct regstat *cur,int i,signed char reg)
-{
- int preferred_reg = 8+(reg&1);
- int r,hr;
-
- // allocate the lower 32 bits
- alloc_reg(cur,i,reg);
-
- // Don't allocate unused registers
- if((cur->uu>>reg)&1) return;
-
- // see if the upper half is already allocated
- for(hr=0;hr<HOST_REGS;hr++)
- {
- if(cur->regmap[hr]==reg+64) return;
- }
-
- // Keep the same mapping if the register was already allocated in a loop
- preferred_reg = loop_reg(i,reg,preferred_reg);
-
- // Try to allocate the preferred register
- if(cur->regmap[preferred_reg]==-1) {
- cur->regmap[preferred_reg]=reg|64;
- cur->dirty&=~(1<<preferred_reg);
- cur->isconst&=~(1<<preferred_reg);
- return;
- }
- r=cur->regmap[preferred_reg];
- if(r<64&&((cur->u>>r)&1)) {
- cur->regmap[preferred_reg]=reg|64;
- cur->dirty&=~(1<<preferred_reg);
- cur->isconst&=~(1<<preferred_reg);
- return;
- }
- if(r>=64&&((cur->uu>>(r&63))&1)) {
- cur->regmap[preferred_reg]=reg|64;
- cur->dirty&=~(1<<preferred_reg);
- cur->isconst&=~(1<<preferred_reg);
- return;
- }
-
- // Clear any unneeded registers
- // We try to keep the mapping consistent, if possible, because it
- // makes branches easier (especially loops). So we try to allocate
- // first (see above) before removing old mappings. If this is not
- // possible then go ahead and clear out the registers that are no
- // longer needed.
- for(hr=HOST_REGS-1;hr>=0;hr--)
- {
- r=cur->regmap[hr];
- if(r>=0) {
- if(r<64) {
- if((cur->u>>r)&1) {cur->regmap[hr]=-1;break;}
- }
- else
- {
- if((cur->uu>>(r&63))&1) {cur->regmap[hr]=-1;break;}
- }
- }
- }
- // Try to allocate any available register, but prefer
- // registers that have not been used recently.
- if(i>0) {
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=EXCLUDE_REG&&cur->regmap[hr]==-1) {
- if(regs[i-1].regmap[hr]!=rs1[i-1]&®s[i-1].regmap[hr]!=rs2[i-1]&®s[i-1].regmap[hr]!=rt1[i-1]&®s[i-1].regmap[hr]!=rt2[i-1]) {
- cur->regmap[hr]=reg|64;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- }
- // Try to allocate any available register
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=EXCLUDE_REG&&cur->regmap[hr]==-1) {
- cur->regmap[hr]=reg|64;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
-
- // Ok, now we have to evict someone
- // Pick a register we hopefully won't need soon
- u_char hsn[MAXREG+1];
- memset(hsn,10,sizeof(hsn));
- int j;
- lsn(hsn,i,&preferred_reg);
- //printf("eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",cur->regmap[0],cur->regmap[1],cur->regmap[2],cur->regmap[3],cur->regmap[5],cur->regmap[6],cur->regmap[7]);
- //printf("hsn(%x): %d %d %d %d %d %d %d\n",start+i*4,hsn[cur->regmap[0]&63],hsn[cur->regmap[1]&63],hsn[cur->regmap[2]&63],hsn[cur->regmap[3]&63],hsn[cur->regmap[5]&63],hsn[cur->regmap[6]&63],hsn[cur->regmap[7]&63]);
- if(i>0) {
- // Don't evict the cycle count at entry points, otherwise the entry
- // stub will have to write it.
- if(bt[i]&&hsn[CCREG]>2) hsn[CCREG]=2;
- if(i>1&&hsn[CCREG]>2&&(itype[i-2]==RJUMP||itype[i-2]==UJUMP||itype[i-2]==CJUMP||itype[i-2]==SJUMP||itype[i-2]==FJUMP)) hsn[CCREG]=2;
- for(j=10;j>=3;j--)
- {
- // Alloc preferred register if available
- if(hsn[r=cur->regmap[preferred_reg]&63]==j) {
- for(hr=0;hr<HOST_REGS;hr++) {
- // Evict both parts of a 64-bit register
- if((cur->regmap[hr]&63)==r) {
- cur->regmap[hr]=-1;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- }
- }
- cur->regmap[preferred_reg]=reg|64;
- return;
- }
- for(r=1;r<=MAXREG;r++)
- {
- if(hsn[r]==j&&r!=rs1[i-1]&&r!=rs2[i-1]&&r!=rt1[i-1]&&r!=rt2[i-1]) {
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=HOST_CCREG||j<hsn[CCREG]) {
- if(cur->regmap[hr]==r+64) {
- cur->regmap[hr]=reg|64;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=HOST_CCREG||j<hsn[CCREG]) {
- if(cur->regmap[hr]==r) {
- cur->regmap[hr]=reg|64;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- }
- }
- }
- }
- for(j=10;j>=0;j--)
- {
- for(r=1;r<=MAXREG;r++)
- {
- if(hsn[r]==j) {
- for(hr=0;hr<HOST_REGS;hr++) {
- if(cur->regmap[hr]==r+64) {
- cur->regmap[hr]=reg|64;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- for(hr=0;hr<HOST_REGS;hr++) {
- if(cur->regmap[hr]==r) {
- cur->regmap[hr]=reg|64;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- }
- }
- SysPrintf("This shouldn't happen");exit(1);
-}
-
-// Allocate a temporary register. This is done without regard to
-// dirty status or whether the register we request is on the unneeded list
-// Note: This will only allocate one register, even if called multiple times
-static void alloc_reg_temp(struct regstat *cur,int i,signed char reg)
-{
- int r,hr;
- int preferred_reg = -1;
-
- // see if it's already allocated
- for(hr=0;hr<HOST_REGS;hr++)
- {
- if(hr!=EXCLUDE_REG&&cur->regmap[hr]==reg) return;
- }
-
- // Try to allocate any available register
- for(hr=HOST_REGS-1;hr>=0;hr--) {
- if(hr!=EXCLUDE_REG&&cur->regmap[hr]==-1) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
-
- // Find an unneeded register
- for(hr=HOST_REGS-1;hr>=0;hr--)
- {
- r=cur->regmap[hr];
- if(r>=0) {
- if(r<64) {
- if((cur->u>>r)&1) {
- if(i==0||((unneeded_reg[i-1]>>r)&1)) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- else
- {
- if((cur->uu>>(r&63))&1) {
- if(i==0||((unneeded_reg_upper[i-1]>>(r&63))&1)) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- }
- }
-
- // Ok, now we have to evict someone
- // Pick a register we hopefully won't need soon
- // TODO: we might want to follow unconditional jumps here
- // TODO: get rid of dupe code and make this into a function
- u_char hsn[MAXREG+1];
- memset(hsn,10,sizeof(hsn));
- int j;
- lsn(hsn,i,&preferred_reg);
- //printf("hsn: %d %d %d %d %d %d %d\n",hsn[cur->regmap[0]&63],hsn[cur->regmap[1]&63],hsn[cur->regmap[2]&63],hsn[cur->regmap[3]&63],hsn[cur->regmap[5]&63],hsn[cur->regmap[6]&63],hsn[cur->regmap[7]&63]);
- if(i>0) {
- // Don't evict the cycle count at entry points, otherwise the entry
- // stub will have to write it.
- if(bt[i]&&hsn[CCREG]>2) hsn[CCREG]=2;
- if(i>1&&hsn[CCREG]>2&&(itype[i-2]==RJUMP||itype[i-2]==UJUMP||itype[i-2]==CJUMP||itype[i-2]==SJUMP||itype[i-2]==FJUMP)) hsn[CCREG]=2;
- for(j=10;j>=3;j--)
- {
- for(r=1;r<=MAXREG;r++)
- {
- if(hsn[r]==j&&r!=rs1[i-1]&&r!=rs2[i-1]&&r!=rt1[i-1]&&r!=rt2[i-1]) {
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=HOST_CCREG||hsn[CCREG]>2) {
- if(cur->regmap[hr]==r+64) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=HOST_CCREG||hsn[CCREG]>2) {
- if(cur->regmap[hr]==r) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- }
- }
- }
- }
- for(j=10;j>=0;j--)
- {
- for(r=1;r<=MAXREG;r++)
- {
- if(hsn[r]==j) {
- for(hr=0;hr<HOST_REGS;hr++) {
- if(cur->regmap[hr]==r+64) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- for(hr=0;hr<HOST_REGS;hr++) {
- if(cur->regmap[hr]==r) {
- cur->regmap[hr]=reg;
- cur->dirty&=~(1<<hr);
- cur->isconst&=~(1<<hr);
- return;
- }
- }
- }
- }
- }
- SysPrintf("This shouldn't happen");exit(1);
+ *start=(u_char *)source;
+ *end=(u_char *)source+len;
}
// Allocate a specific ARM register.
alloc_arm_reg(cur,i,CCREG,HOST_CCREG);
}
-/* Special alloc */
-
-
/* Assembler */
static unused char regname[16][4] = {
static u_int genjmp(u_int addr)
{
- int offset=addr-(int)out-8;
- if(offset<-33554432||offset>=33554432) {
- if (addr>2) {
- SysPrintf("genjmp: out of range: %08x\n", offset);
- exit(1);
- }
+ if (addr < 3) return 0; // a branch that will be patched later
+ int offset = addr-(int)out-8;
+ if (offset < -33554432 || offset >= 33554432) {
+ SysPrintf("genjmp: out of range: %08x\n", offset);
+ abort();
return 0;
}
return ((u_int)offset>>2)&0xffffff;
}
+static unused void emit_breakpoint(void)
+{
+ assem_debug("bkpt #0\n");
+ //output_w32(0xe1200070);
+ output_w32(0xe7f001f0);
+}
+
static void emit_mov(int rs,int rt)
{
assem_debug("mov %s,%s\n",regname[rt],regname[rs]);
assem_debug("adds %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
output_w32(0xe0900000|rd_rn_rm(rt,rs1,rs2));
}
+#define emit_adds_ptr emit_adds
static void emit_adcs(int rs1,int rs2,int rt)
{
output_w32(0xe0b00000|rd_rn_rm(rt,rs1,rs2));
}
-static void emit_sbc(int rs1,int rs2,int rt)
-{
- assem_debug("sbc %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
- output_w32(0xe0c00000|rd_rn_rm(rt,rs1,rs2));
-}
-
-static void emit_sbcs(int rs1,int rs2,int rt)
-{
- assem_debug("sbcs %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
- output_w32(0xe0d00000|rd_rn_rm(rt,rs1,rs2));
-}
-
static void emit_neg(int rs, int rt)
{
assem_debug("rsb %s,%s,#0\n",regname[rt],regname[rs]);
output_w32(0xe2600000|rd_rn_rm(rt,rs,0));
}
-static void emit_negs(int rs, int rt)
-{
- assem_debug("rsbs %s,%s,#0\n",regname[rt],regname[rs]);
- output_w32(0xe2700000|rd_rn_rm(rt,rs,0));
-}
-
static void emit_sub(int rs1,int rs2,int rt)
{
assem_debug("sub %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
output_w32(0xe0400000|rd_rn_rm(rt,rs1,rs2));
}
-static void emit_subs(int rs1,int rs2,int rt)
-{
- assem_debug("subs %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
- output_w32(0xe0500000|rd_rn_rm(rt,rs1,rs2));
-}
-
static void emit_zeroreg(int rt)
{
assem_debug("mov %s,#0\n",regname[rt]);
output_w32(0xe5900000|rd_rn_rm(rt,15,0));
}
+#ifdef HAVE_ARMV7
static void emit_movw(u_int imm,u_int rt)
{
assert(imm<65536);
assem_debug("movt %s,#%d (0x%x)\n",regname[rt],imm&0xffff0000,imm&0xffff0000);
output_w32(0xe3400000|rd_rn_rm(rt,0,0)|((imm>>16)&0xfff)|((imm>>12)&0xf0000));
}
+#endif
static void emit_movimm(u_int imm,u_int rt)
{
if((r&63)==0)
emit_zeroreg(hr);
else {
- int addr=((int)reg)+((r&63)<<REG_SHIFT)+((r&64)>>4);
- if((r&63)==HIREG) addr=(int)&hi+((r&64)>>4);
- if((r&63)==LOREG) addr=(int)&lo+((r&64)>>4);
- if(r==CCREG) addr=(int)&cycle_count;
- if(r==CSREG) addr=(int)&Status;
- if(r==FSREG) addr=(int)&FCR31;
- if(r==INVCP) addr=(int)&invc_ptr;
- u_int offset = addr-(u_int)&dynarec_local;
+ void *addr;
+ switch (r) {
+ //case HIREG: addr = &hi; break;
+ //case LOREG: addr = &lo; break;
+ case CCREG: addr = &cycle_count; break;
+ case CSREG: addr = &Status; break;
+ case INVCP: addr = &invc_ptr; break;
+ case ROREG: addr = &ram_offset; break;
+ default:
+ assert(r < 34);
+ addr = &psxRegs.GPR.r[r];
+ break;
+ }
+ u_int offset = (u_char *)addr - (u_char *)&dynarec_local;
assert(offset<4096);
- assem_debug("ldr %s,fp+%d\n",regname[hr],offset);
+ assem_debug("ldr %s,fp+%d # r%d\n",regname[hr],offset,r);
output_w32(0xe5900000|rd_rn_rm(hr,FP,0)|offset);
}
}
assert(0);
return;
}
- int addr=((int)reg)+((r&63)<<REG_SHIFT)+((r&64)>>4);
- if((r&63)==HIREG) addr=(int)&hi+((r&64)>>4);
- if((r&63)==LOREG) addr=(int)&lo+((r&64)>>4);
- if(r==CCREG) addr=(int)&cycle_count;
- if(r==FSREG) addr=(int)&FCR31;
+ int addr = (int)&psxRegs.GPR.r[r];
+ switch (r) {
+ //case HIREG: addr = &hi; break;
+ //case LOREG: addr = &lo; break;
+ case CCREG: addr = (int)&cycle_count; break;
+ default: assert(r < 34); break;
+ }
u_int offset = addr-(u_int)&dynarec_local;
assert(offset<4096);
- assem_debug("str %s,fp+%d\n",regname[hr],offset);
+ assem_debug("str %s,fp+%d # r%d\n",regname[hr],offset,r);
output_w32(0xe5800000|rd_rn_rm(hr,FP,0)|offset);
}
output_w32(0xe1e00000|rd_rn_rm(rt,0,rs));
}
-static void emit_mvnmi(int rs,int rt)
-{
- assem_debug("mvnmi %s,%s\n",regname[rt],regname[rs]);
- output_w32(0x41e00000|rd_rn_rm(rt,0,rs));
-}
-
static void emit_and(u_int rs1,u_int rs2,u_int rt)
{
assem_debug("and %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
output_w32(0xe1800000|rd_rn_rm(rt,rs1,rs2));
}
-static void emit_or_and_set_flags(int rs1,int rs2,int rt)
-{
- assem_debug("orrs %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
- output_w32(0xe1900000|rd_rn_rm(rt,rs1,rs2));
-}
-
static void emit_orrshl_imm(u_int rs,u_int imm,u_int rt)
{
assert(rs<16);
output_w32(0xe0200000|rd_rn_rm(rt,rs1,rs2));
}
+static void emit_xorsar_imm(u_int rs1,u_int rs2,u_int imm,u_int rt)
+{
+ assem_debug("eor %s,%s,%s,asr #%d\n",regname[rt],regname[rs1],regname[rs2],imm);
+ output_w32(0xe0200040|rd_rn_rm(rt,rs1,rs2)|(imm<<7));
+}
+
static void emit_addimm(u_int rs,int imm,u_int rt)
{
assert(rs<16);
}
}
-static void emit_addimm_no_flags(u_int imm,u_int rt)
-{
- emit_addimm(rt,imm,rt);
-}
-
static void emit_addnop(u_int r)
{
assert(r<16);
output_w32(0xe2800000|rd_rn_rm(r,r,0));
}
-static void emit_adcimm(u_int rs,int imm,u_int rt)
-{
- u_int armval;
- genimm_checked(imm,&armval);
- assem_debug("adc %s,%s,#%d\n",regname[rt],regname[rs],imm);
- output_w32(0xe2a00000|rd_rn_rm(rt,rs,0)|armval);
-}
-
-static void emit_rscimm(int rs,int imm,u_int rt)
-{
- assert(0);
- u_int armval;
- genimm_checked(imm,&armval);
- assem_debug("rsc %s,%s,#%d\n",regname[rt],regname[rs],imm);
- output_w32(0xe2e00000|rd_rn_rm(rt,rs,0)|armval);
-}
-
-static void emit_addimm64_32(int rsh,int rsl,int imm,int rth,int rtl)
-{
- // TODO: if(genimm(imm,&armval)) ...
- // else
- emit_movimm(imm,HOST_TEMPREG);
- emit_adds(HOST_TEMPREG,rsl,rtl);
- emit_adcimm(rsh,0,rth);
-}
-
static void emit_andimm(int rs,int imm,int rt)
{
u_int armval;
output_w32(0xe1a00000|rd_rn_rm(rt,0,rs)|0x60|(imm<<7));
}
-static void emit_shldimm(int rs,int rs2,u_int imm,int rt)
-{
- assem_debug("shld %%%s,%%%s,%d\n",regname[rt],regname[rs2],imm);
- assert(imm>0);
- assert(imm<32);
- //if(imm==1) ...
- assem_debug("lsl %s,%s,#%d\n",regname[rt],regname[rs],imm);
- output_w32(0xe1a00000|rd_rn_rm(rt,0,rs)|(imm<<7));
- assem_debug("orr %s,%s,%s,lsr #%d\n",regname[rt],regname[rt],regname[rs2],32-imm);
- output_w32(0xe1800020|rd_rn_rm(rt,rt,rs2)|((32-imm)<<7));
-}
-
-static void emit_shrdimm(int rs,int rs2,u_int imm,int rt)
-{
- assem_debug("shrd %%%s,%%%s,%d\n",regname[rt],regname[rs2],imm);
- assert(imm>0);
- assert(imm<32);
- //if(imm==1) ...
- assem_debug("lsr %s,%s,#%d\n",regname[rt],regname[rs],imm);
- output_w32(0xe1a00020|rd_rn_rm(rt,0,rs)|(imm<<7));
- assem_debug("orr %s,%s,%s,lsl #%d\n",regname[rt],regname[rt],regname[rs2],32-imm);
- output_w32(0xe1800000|rd_rn_rm(rt,rt,rs2)|((32-imm)<<7));
-}
-
static void emit_signextend16(int rs,int rt)
{
#ifndef HAVE_ARMV6
output_w32(0xe1a00000|rd_rn_rm(rt,0,rs)|0x50|(shift<<8));
}
-static void emit_orrshl(u_int rs,u_int shift,u_int rt)
+static unused void emit_orrshl(u_int rs,u_int shift,u_int rt)
{
assert(rs<16);
assert(rt<16);
output_w32(0xe1800000|rd_rn_rm(rt,rt,rs)|0x10|(shift<<8));
}
-static void emit_orrshr(u_int rs,u_int shift,u_int rt)
+static unused void emit_orrshr(u_int rs,u_int shift,u_int rt)
{
assert(rs<16);
assert(rt<16);
output_w32(0x33a00000|rd_rn_rm(rt,0,0)|armval);
}
-static void emit_cmovs_imm(int imm,int rt)
+static void emit_cmovae_imm(int imm,int rt)
{
- assem_debug("movmi %s,#%d\n",regname[rt],imm);
+ assem_debug("movcs %s,#%d\n",regname[rt],imm);
u_int armval;
genimm_checked(imm,&armval);
- output_w32(0x43a00000|rd_rn_rm(rt,0,0)|armval);
+ output_w32(0x23a00000|rd_rn_rm(rt,0,0)|armval);
}
-static void emit_cmove_reg(int rs,int rt)
+static void emit_cmovs_imm(int imm,int rt)
{
- assem_debug("moveq %s,%s\n",regname[rt],regname[rs]);
- output_w32(0x01a00000|rd_rn_rm(rt,0,rs));
+ assem_debug("movmi %s,#%d\n",regname[rt],imm);
+ u_int armval;
+ genimm_checked(imm,&armval);
+ output_w32(0x43a00000|rd_rn_rm(rt,0,0)|armval);
}
static void emit_cmovne_reg(int rs,int rt)
output_w32(0xb1a00000|rd_rn_rm(rt,0,rs));
}
+static void emit_cmovb_reg(int rs,int rt)
+{
+ assem_debug("movcc %s,%s\n",regname[rt],regname[rs]);
+ output_w32(0x31a00000|rd_rn_rm(rt,0,rs));
+}
+
static void emit_cmovs_reg(int rs,int rt)
{
assem_debug("movmi %s,%s\n",regname[rt],regname[rs]);
emit_cmovb_imm(1,rt);
}
-static void emit_slti64_32(int rsh,int rsl,int imm,int rt)
-{
- assert(rsh!=rt);
- emit_slti32(rsl,imm,rt);
- if(imm>=0)
- {
- emit_test(rsh,rsh);
- emit_cmovne_imm(0,rt);
- emit_cmovs_imm(1,rt);
- }
- else
- {
- emit_cmpimm(rsh,-1);
- emit_cmovne_imm(0,rt);
- emit_cmovl_imm(1,rt);
- }
-}
-
-static void emit_sltiu64_32(int rsh,int rsl,int imm,int rt)
-{
- assert(rsh!=rt);
- emit_sltiu32(rsl,imm,rt);
- if(imm>=0)
- {
- emit_test(rsh,rsh);
- emit_cmovne_imm(0,rt);
- }
- else
- {
- emit_cmpimm(rsh,-1);
- emit_cmovne_imm(1,rt);
- }
-}
-
static void emit_cmp(int rs,int rt)
{
assem_debug("cmp %s,%s\n",regname[rs],regname[rt]);
emit_cmovne_imm(1,rt);
}
-static void emit_set_gz64_32(int rsh, int rsl, int rt)
-{
- //assem_debug("set_gz64\n");
- emit_set_gz32(rsl,rt);
- emit_test(rsh,rsh);
- emit_cmovne_imm(1,rt);
- emit_cmovs_imm(0,rt);
-}
-
-static void emit_set_nz64_32(int rsh, int rsl, int rt)
-{
- //assem_debug("set_nz64\n");
- emit_or_and_set_flags(rsh,rsl,rt);
- emit_cmovne_imm(1,rt);
-}
-
static void emit_set_if_less32(int rs1, int rs2, int rt)
{
//assem_debug("set if less (%%%s,%%%s),%%%s\n",regname[rs1],regname[rs2],regname[rt]);
emit_cmovb_imm(1,rt);
}
-static void emit_set_if_less64_32(int u1, int l1, int u2, int l2, int rt)
-{
- //assem_debug("set if less64 (%%%s,%%%s,%%%s,%%%s),%%%s\n",regname[u1],regname[l1],regname[u2],regname[l2],regname[rt]);
- assert(u1!=rt);
- assert(u2!=rt);
- emit_cmp(l1,l2);
- emit_movimm(0,rt);
- emit_sbcs(u1,u2,HOST_TEMPREG);
- emit_cmovl_imm(1,rt);
-}
-
-static void emit_set_if_carry64_32(int u1, int l1, int u2, int l2, int rt)
-{
- //assem_debug("set if carry64 (%%%s,%%%s,%%%s,%%%s),%%%s\n",regname[u1],regname[l1],regname[u2],regname[l2],regname[rt]);
- assert(u1!=rt);
- assert(u2!=rt);
- emit_cmp(l1,l2);
- emit_movimm(0,rt);
- emit_sbcs(u1,u2,HOST_TEMPREG);
- emit_cmovb_imm(1,rt);
-}
-
-#ifdef DRC_DBG
-extern void gen_interupt();
-extern void do_insn_cmp();
-#define FUNCNAME(f) { (intptr_t)f, " " #f }
-static const struct {
- intptr_t addr;
- const char *name;
-} function_names[] = {
- FUNCNAME(cc_interrupt),
- FUNCNAME(gen_interupt),
- FUNCNAME(get_addr_ht),
- FUNCNAME(get_addr),
- FUNCNAME(jump_handler_read8),
- FUNCNAME(jump_handler_read16),
- FUNCNAME(jump_handler_read32),
- FUNCNAME(jump_handler_write8),
- FUNCNAME(jump_handler_write16),
- FUNCNAME(jump_handler_write32),
- FUNCNAME(invalidate_addr),
- FUNCNAME(verify_code_vm),
- FUNCNAME(verify_code),
- FUNCNAME(jump_hlecall),
- FUNCNAME(jump_syscall_hle),
- FUNCNAME(new_dyna_leave),
- FUNCNAME(pcsx_mtc0),
- FUNCNAME(pcsx_mtc0_ds),
- FUNCNAME(do_insn_cmp),
-};
-
-static const char *func_name(intptr_t a)
+static int can_jump_or_call(const void *a)
{
- int i;
- for (i = 0; i < sizeof(function_names)/sizeof(function_names[0]); i++)
- if (function_names[i].addr == a)
- return function_names[i].name;
- return "";
+ intptr_t offset = (u_char *)a - out - 8;
+ return (-33554432 <= offset && offset < 33554432);
}
-#else
-#define func_name(x) ""
-#endif
static void emit_call(const void *a_)
{
int a = (int)a_;
- assem_debug("bl %x (%x+%x)%s\n",a,(int)out,a-(int)out-8,func_name(a));
+ assem_debug("bl %x (%x+%x)%s\n",a,(int)out,a-(int)out-8,func_name(a_));
u_int offset=genjmp(a);
output_w32(0xeb000000|offset);
}
static void emit_jmp(const void *a_)
{
int a = (int)a_;
- assem_debug("b %x (%x+%x)%s\n",a,(int)out,a-(int)out-8,func_name(a));
+ assem_debug("b %x (%x+%x)%s\n",a,(int)out,a-(int)out-8,func_name(a_));
u_int offset=genjmp(a);
output_w32(0xea000000|offset);
}
output_w32(0x1a000000|offset);
}
-static void emit_jeq(int a)
+static void emit_jeq(const void *a_)
{
+ int a = (int)a_;
assem_debug("beq %x\n",a);
u_int offset=genjmp(a);
output_w32(0x0a000000|offset);
}
-static void emit_js(int a)
+static void emit_js(const void *a_)
{
+ int a = (int)a_;
assem_debug("bmi %x\n",a);
u_int offset=genjmp(a);
output_w32(0x4a000000|offset);
}
-static void emit_jns(int a)
+static void emit_jns(const void *a_)
{
+ int a = (int)a_;
assem_debug("bpl %x\n",a);
u_int offset=genjmp(a);
output_w32(0x5a000000|offset);
}
-static void emit_jl(int a)
+static void emit_jl(const void *a_)
{
+ int a = (int)a_;
assem_debug("blt %x\n",a);
u_int offset=genjmp(a);
output_w32(0xba000000|offset);
}
-static void emit_jge(int a)
+static void emit_jge(const void *a_)
{
+ int a = (int)a_;
assem_debug("bge %x\n",a);
u_int offset=genjmp(a);
output_w32(0xaa000000|offset);
}
-static void emit_jno(int a)
+static void emit_jno(const void *a_)
{
+ int a = (int)a_;
assem_debug("bvc %x\n",a);
u_int offset=genjmp(a);
output_w32(0x7a000000|offset);
}
-static void emit_jc(int a)
+static void emit_jc(const void *a_)
{
+ int a = (int)a_;
assem_debug("bcs %x\n",a);
u_int offset=genjmp(a);
output_w32(0x2a000000|offset);
}
-static void emit_jcc(void *a_)
+static void emit_jcc(const void *a_)
{
int a = (int)a_;
assem_debug("bcc %x\n",a);
output_w32(0x3a000000|offset);
}
-static void emit_callreg(u_int r)
+static unused void emit_callreg(u_int r)
{
assert(r<15);
assem_debug("blx %s\n",regname[r]);
output_w32(0xe1a00000|rd_rn_rm(15,0,r));
}
+static void emit_ret(void)
+{
+ emit_jmpreg(14);
+}
+
static void emit_readword_indexed(int offset, int rs, int rt)
{
assert(offset>-4096&&offset<4096);
assem_debug("ldr %s,%s,%s lsl #2\n",regname[rt],regname[rs1],regname[rs2]);
output_w32(0xe7900000|rd_rn_rm(rt,rs1,rs2)|0x100);
}
+#define emit_readptr_dualindexedx_ptrlen emit_readword_dualindexedx4
+
+static void emit_ldr_dualindexed(int rs1, int rs2, int rt)
+{
+ assem_debug("ldr %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
+ output_w32(0xe7900000|rd_rn_rm(rt,rs1,rs2));
+}
static void emit_ldrcc_dualindexed(int rs1, int rs2, int rt)
{
output_w32(0x37900000|rd_rn_rm(rt,rs1,rs2));
}
+static void emit_ldrb_dualindexed(int rs1, int rs2, int rt)
+{
+ assem_debug("ldrb %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
+ output_w32(0xe7d00000|rd_rn_rm(rt,rs1,rs2));
+}
+
static void emit_ldrccb_dualindexed(int rs1, int rs2, int rt)
{
assem_debug("ldrccb %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
output_w32(0x37d00000|rd_rn_rm(rt,rs1,rs2));
}
+static void emit_ldrsb_dualindexed(int rs1, int rs2, int rt)
+{
+ assem_debug("ldrsb %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
+ output_w32(0xe19000d0|rd_rn_rm(rt,rs1,rs2));
+}
+
static void emit_ldrccsb_dualindexed(int rs1, int rs2, int rt)
{
assem_debug("ldrccsb %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
output_w32(0x319000d0|rd_rn_rm(rt,rs1,rs2));
}
+static void emit_ldrh_dualindexed(int rs1, int rs2, int rt)
+{
+ assem_debug("ldrh %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
+ output_w32(0xe19000b0|rd_rn_rm(rt,rs1,rs2));
+}
+
static void emit_ldrcch_dualindexed(int rs1, int rs2, int rt)
{
assem_debug("ldrcch %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
output_w32(0x319000b0|rd_rn_rm(rt,rs1,rs2));
}
+static void emit_ldrsh_dualindexed(int rs1, int rs2, int rt)
+{
+ assem_debug("ldrsh %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
+ output_w32(0xe19000f0|rd_rn_rm(rt,rs1,rs2));
+}
+
static void emit_ldrccsh_dualindexed(int rs1, int rs2, int rt)
{
assem_debug("ldrccsh %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
output_w32(0x319000f0|rd_rn_rm(rt,rs1,rs2));
}
-static void emit_readword_indexed_tlb(int addr, int rs, int map, int rt)
+static void emit_str_dualindexed(int rs1, int rs2, int rt)
{
- if(map<0) emit_readword_indexed(addr, rs, rt);
- else {
- assert(addr==0);
- emit_readword_dualindexedx4(rs, map, rt);
- }
+ assem_debug("str %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
+ output_w32(0xe7800000|rd_rn_rm(rt,rs1,rs2));
}
-static void emit_readdword_indexed_tlb(int addr, int rs, int map, int rh, int rl)
+static void emit_strb_dualindexed(int rs1, int rs2, int rt)
{
- if(map<0) {
- if(rh>=0) emit_readword_indexed(addr, rs, rh);
- emit_readword_indexed(addr+4, rs, rl);
- }else{
- assert(rh!=rs);
- if(rh>=0) emit_readword_indexed_tlb(addr, rs, map, rh);
- emit_addimm(map,1,map);
- emit_readword_indexed_tlb(addr, rs, map, rl);
- }
+ assem_debug("strb %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
+ output_w32(0xe7c00000|rd_rn_rm(rt,rs1,rs2));
+}
+
+static void emit_strh_dualindexed(int rs1, int rs2, int rt)
+{
+ assem_debug("strh %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
+ output_w32(0xe18000b0|rd_rn_rm(rt,rs1,rs2));
}
static void emit_movsbl_indexed(int offset, int rs, int rt)
}
}
-static void emit_movsbl_indexed_tlb(int addr, int rs, int map, int rt)
-{
- if(map<0) emit_movsbl_indexed(addr, rs, rt);
- else {
- if(addr==0) {
- emit_shlimm(map,2,map);
- assem_debug("ldrsb %s,%s+%s\n",regname[rt],regname[rs],regname[map]);
- output_w32(0xe19000d0|rd_rn_rm(rt,rs,map));
- }else{
- assert(addr>-256&&addr<256);
- assem_debug("add %s,%s,%s,lsl #2\n",regname[rt],regname[rs],regname[map]);
- output_w32(0xe0800000|rd_rn_rm(rt,rs,map)|(2<<7));
- emit_movsbl_indexed(addr, rt, rt);
- }
- }
-}
-
static void emit_movswl_indexed(int offset, int rs, int rt)
{
assert(offset>-256&&offset<256);
}
}
-static void emit_movzbl_dualindexedx4(int rs1, int rs2, int rt)
-{
- assert(rs2>=0);
- assem_debug("ldrb %s,%s,%s lsl #2\n",regname[rt],regname[rs1],regname[rs2]);
- output_w32(0xe7d00000|rd_rn_rm(rt,rs1,rs2)|0x100);
-}
-
-static void emit_movzbl_indexed_tlb(int addr, int rs, int map, int rt)
-{
- if(map<0) emit_movzbl_indexed(addr, rs, rt);
- else {
- if(addr==0) {
- emit_movzbl_dualindexedx4(rs, map, rt);
- }else{
- emit_addimm(rs,addr,rt);
- emit_movzbl_dualindexedx4(rt, map, rt);
- }
- }
-}
-
static void emit_movzwl_indexed(int offset, int rs, int rt)
{
assert(offset>-256&&offset<256);
assem_debug("ldr %s,fp+%d\n",regname[rt],offset);
output_w32(0xe5900000|rd_rn_rm(rt,FP,0)|offset);
}
-
-static unused void emit_movsbl(int addr, int rt)
-{
- u_int offset = addr-(u_int)&dynarec_local;
- assert(offset<256);
- assem_debug("ldrsb %s,fp+%d\n",regname[rt],offset);
- output_w32(0xe1d000d0|rd_rn_rm(rt,FP,0)|((offset<<4)&0xf00)|(offset&0xf));
-}
-
-static unused void emit_movswl(int addr, int rt)
-{
- u_int offset = addr-(u_int)&dynarec_local;
- assert(offset<256);
- assem_debug("ldrsh %s,fp+%d\n",regname[rt],offset);
- output_w32(0xe1d000f0|rd_rn_rm(rt,FP,0)|((offset<<4)&0xf00)|(offset&0xf));
-}
-
-static unused void emit_movzbl(int addr, int rt)
-{
- u_int offset = addr-(u_int)&dynarec_local;
- assert(offset<4096);
- assem_debug("ldrb %s,fp+%d\n",regname[rt],offset);
- output_w32(0xe5d00000|rd_rn_rm(rt,FP,0)|offset);
-}
-
-static unused void emit_movzwl(int addr, int rt)
-{
- u_int offset = addr-(u_int)&dynarec_local;
- assert(offset<256);
- assem_debug("ldrh %s,fp+%d\n",regname[rt],offset);
- output_w32(0xe1d000b0|rd_rn_rm(rt,FP,0)|((offset<<4)&0xf00)|(offset&0xf));
-}
+#define emit_readptr emit_readword
static void emit_writeword_indexed(int rt, int offset, int rs)
{
}
}
-static void emit_writeword_dualindexedx4(int rt, int rs1, int rs2)
-{
- assem_debug("str %s,%s,%s lsl #2\n",regname[rt],regname[rs1],regname[rs2]);
- output_w32(0xe7800000|rd_rn_rm(rt,rs1,rs2)|0x100);
-}
-
-static void emit_writeword_indexed_tlb(int rt, int addr, int rs, int map, int temp)
-{
- if(map<0) emit_writeword_indexed(rt, addr, rs);
- else {
- assert(addr==0);
- emit_writeword_dualindexedx4(rt, rs, map);
- }
-}
-
-static void emit_writedword_indexed_tlb(int rh, int rl, int addr, int rs, int map, int temp)
-{
- if(map<0) {
- if(rh>=0) emit_writeword_indexed(rh, addr, rs);
- emit_writeword_indexed(rl, addr+4, rs);
- }else{
- assert(rh>=0);
- if(temp!=rs) emit_addimm(map,1,temp);
- emit_writeword_indexed_tlb(rh, addr, rs, map, temp);
- if(temp!=rs) emit_writeword_indexed_tlb(rl, addr, rs, temp, temp);
- else {
- emit_addimm(rs,4,rs);
- emit_writeword_indexed_tlb(rl, addr, rs, map, temp);
- }
- }
-}
-
static void emit_writehword_indexed(int rt, int offset, int rs)
{
assert(offset>-256&&offset<256);
}
}
-static void emit_writebyte_dualindexedx4(int rt, int rs1, int rs2)
-{
- assert(rs2>=0);
- assem_debug("strb %s,%s,%s lsl #2\n",regname[rt],regname[rs1],regname[rs2]);
- output_w32(0xe7c00000|rd_rn_rm(rt,rs1,rs2)|0x100);
-}
-
-static void emit_writebyte_indexed_tlb(int rt, int addr, int rs, int map, int temp)
-{
- if(map<0) emit_writebyte_indexed(rt, addr, rs);
- else {
- if(addr==0) {
- emit_writebyte_dualindexedx4(rt, rs, map);
- }else{
- emit_addimm(rs,addr,temp);
- emit_writebyte_dualindexedx4(rt, temp, map);
- }
- }
-}
-
static void emit_strcc_dualindexed(int rs1, int rs2, int rt)
{
assem_debug("strcc %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
output_w32(0xe5800000|rd_rn_rm(rt,FP,0)|offset);
}
-static unused void emit_writehword(int rt, void *addr)
-{
- uintptr_t offset = (u_char *)addr - (u_char *)&dynarec_local;
- assert(offset<256);
- assem_debug("strh %s,fp+%d\n",regname[rt],offset);
- output_w32(0xe1c000b0|rd_rn_rm(rt,FP,0)|((offset<<4)&0xf00)|(offset&0xf));
-}
-
-static unused void emit_writebyte(int rt, void *addr)
-{
- uintptr_t offset = (u_char *)addr - (u_char *)&dynarec_local;
- assert(offset<4096);
- assem_debug("strb %s,fp+%d\n",regname[rt],offset);
- output_w32(0xe5c00000|rd_rn_rm(rt,FP,0)|offset);
-}
-
static void emit_umull(u_int rs1, u_int rs2, u_int hi, u_int lo)
{
assem_debug("umull %s, %s, %s, %s\n",regname[lo],regname[hi],regname[rs1],regname[rs2]);
output_w32(0x42700000|rd_rn_rm(rt,rs,0));
}
-static void emit_orreq(u_int rs1,u_int rs2,u_int rt)
-{
- assem_debug("orreq %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
- output_w32(0x01800000|rd_rn_rm(rt,rs1,rs2));
-}
-
-static void emit_orrne(u_int rs1,u_int rs2,u_int rt)
-{
- assem_debug("orrne %s,%s,%s\n",regname[rt],regname[rs1],regname[rs2]);
- output_w32(0x11800000|rd_rn_rm(rt,rs1,rs2));
-}
-
static void emit_bic_lsl(u_int rs1,u_int rs2,u_int shift,u_int rt)
{
assem_debug("bic %s,%s,%s lsl %s\n",regname[rt],regname[rs1],regname[rs2],regname[shift]);
output_w32(0xe1C00000|rd_rn_rm(rt,rs1,rs2)|0x10|(shift<<8));
}
-static void emit_biceq_lsl(u_int rs1,u_int rs2,u_int shift,u_int rt)
-{
- assem_debug("biceq %s,%s,%s lsl %s\n",regname[rt],regname[rs1],regname[rs2],regname[shift]);
- output_w32(0x01C00000|rd_rn_rm(rt,rs1,rs2)|0x10|(shift<<8));
-}
-
-static void emit_bicne_lsl(u_int rs1,u_int rs2,u_int shift,u_int rt)
-{
- assem_debug("bicne %s,%s,%s lsl %s\n",regname[rt],regname[rs1],regname[rs2],regname[shift]);
- output_w32(0x11C00000|rd_rn_rm(rt,rs1,rs2)|0x10|(shift<<8));
-}
-
static void emit_bic_lsr(u_int rs1,u_int rs2,u_int shift,u_int rt)
{
assem_debug("bic %s,%s,%s lsr %s\n",regname[rt],regname[rs1],regname[rs2],regname[shift]);
output_w32(0xe1C00000|rd_rn_rm(rt,rs1,rs2)|0x30|(shift<<8));
}
-static void emit_biceq_lsr(u_int rs1,u_int rs2,u_int shift,u_int rt)
-{
- assem_debug("biceq %s,%s,%s lsr %s\n",regname[rt],regname[rs1],regname[rs2],regname[shift]);
- output_w32(0x01C00000|rd_rn_rm(rt,rs1,rs2)|0x30|(shift<<8));
-}
-
-static void emit_bicne_lsr(u_int rs1,u_int rs2,u_int shift,u_int rt)
-{
- assem_debug("bicne %s,%s,%s lsr %s\n",regname[rt],regname[rs1],regname[rs2],regname[shift]);
- output_w32(0x11C00000|rd_rn_rm(rt,rs1,rs2)|0x30|(shift<<8));
-}
-
static void emit_teq(int rs, int rt)
{
assem_debug("teq %s,%s\n",regname[rs],regname[rt]);
output_w32(0xe1300000|rd_rn_rm(0,rs,rt));
}
-static void emit_rsbimm(int rs, int imm, int rt)
+static unused void emit_rsbimm(int rs, int imm, int rt)
{
u_int armval;
genimm_checked(imm,&armval);
output_w32(0xe2600000|rd_rn_rm(rt,rs,0)|armval);
}
-// Load 2 immediates optimizing for small code size
-static void emit_mov2imm_compact(int imm1,u_int rt1,int imm2,u_int rt2)
-{
- emit_movimm(imm1,rt1);
- u_int armval;
- if(genimm(imm2-imm1,&armval)) {
- assem_debug("add %s,%s,#%d\n",regname[rt2],regname[rt1],imm2-imm1);
- output_w32(0xe2800000|rd_rn_rm(rt2,rt1,0)|armval);
- }else if(genimm(imm1-imm2,&armval)) {
- assem_debug("sub %s,%s,#%d\n",regname[rt2],regname[rt1],imm1-imm2);
- output_w32(0xe2400000|rd_rn_rm(rt2,rt1,0)|armval);
- }
- else emit_movimm(imm2,rt2);
-}
-
// Conditionally select one of two immediates, optimizing for small code size
// This will only be called if HAVE_CMOV_IMM is defined
static void emit_cmov2imm_e_ne_compact(int imm1,int imm2,u_int rt)
output_w32(0x05900000|rd_rn_rm(rt,rs,0)|offset);
}
-static unused void emit_bicne_imm(int rs,int imm,int rt)
-{
- u_int armval;
- genimm_checked(imm,&armval);
- assem_debug("bicne %s,%s,#%d\n",regname[rt],regname[rs],imm);
- output_w32(0x13c00000|rd_rn_rm(rt,rs,0)|armval);
-}
-
-static unused void emit_biccs_imm(int rs,int imm,int rt)
-{
- u_int armval;
- genimm_checked(imm,&armval);
- assem_debug("biccs %s,%s,#%d\n",regname[rt],regname[rs],imm);
- output_w32(0x23c00000|rd_rn_rm(rt,rs,0)|armval);
-}
-
-static unused void emit_bicvc_imm(int rs,int imm,int rt)
-{
- u_int armval;
- genimm_checked(imm,&armval);
- assem_debug("bicvc %s,%s,#%d\n",regname[rt],regname[rs],imm);
- output_w32(0x73c00000|rd_rn_rm(rt,rs,0)|armval);
-}
-
-static unused void emit_bichi_imm(int rs,int imm,int rt)
-{
- u_int armval;
- genimm_checked(imm,&armval);
- assem_debug("bichi %s,%s,#%d\n",regname[rt],regname[rs],imm);
- output_w32(0x83c00000|rd_rn_rm(rt,rs,0)|armval);
-}
-
-static unused void emit_orrvs_imm(int rs,int imm,int rt)
-{
- u_int armval;
- genimm_checked(imm,&armval);
- assem_debug("orrvs %s,%s,#%d\n",regname[rt],regname[rs],imm);
- output_w32(0x63800000|rd_rn_rm(rt,rs,0)|armval);
-}
-
static void emit_orrne_imm(int rs,int imm,int rt)
{
u_int armval;
output_w32(0x13800000|rd_rn_rm(rt,rs,0)|armval);
}
-static void emit_andne_imm(int rs,int imm,int rt)
-{
- u_int armval;
- genimm_checked(imm,&armval);
- assem_debug("andne %s,%s,#%d\n",regname[rt],regname[rs],imm);
- output_w32(0x12000000|rd_rn_rm(rt,rs,0)|armval);
-}
-
static unused void emit_addpl_imm(int rs,int imm,int rt)
{
u_int armval;
set_jump_target(jaddr, out);
}
-static void emit_extjump2(u_char *addr, int target, void *linker)
+// parsed by get_pointer, find_extjump_insn
+static void emit_extjump2(u_char *addr, u_int target, void *linker)
{
u_char *ptr=(u_char *)addr;
assert((ptr[3]&0x0e)==0xa);
emit_loadlp(target,0);
emit_loadlp((u_int)addr,1);
- assert(addr>=translation_cache&&addr<(translation_cache+(1<<TARGET_SIZE_2)));
+ assert(ndrc->translation_cache <= addr &&
+ addr < ndrc->translation_cache + sizeof(ndrc->translation_cache));
//assert((target>=0x80000000&&target<0x80800000)||(target>0xA4000000&&target<0xA4001000));
//DEBUG >
#ifdef DEBUG_CYCLE_COUNT
emit_writeword(ECX,&last_count);
#endif
//DEBUG <
- emit_jmp(linker);
-}
-
-static void emit_extjump(void *addr, int target)
-{
- emit_extjump2(addr, target, dyna_linker);
+ emit_far_jump(linker);
}
-static void emit_extjump_ds(void *addr, int target)
+static void check_extjump2(void *src)
{
- emit_extjump2(addr, target, dyna_linker_ds);
+ u_int *ptr = src;
+ assert((ptr[1] & 0x0fff0000) == 0x059f0000); // ldr rx, [pc, #ofs]
+ (void)ptr;
}
// put rt_val into rt, potentially making use of rs with value rs_val
return 0;
}
-// trashes r2
-static void pass_args(int a0, int a1)
-{
- if(a0==1&&a1==0) {
- // must swap
- emit_mov(a0,2); emit_mov(a1,1); emit_mov(2,0);
- }
- else if(a0!=0&&a1==0) {
- emit_mov(a1,1);
- if (a0>=0) emit_mov(a0,0);
- }
- else {
- if(a0>=0&&a0!=0) emit_mov(a0,0);
- if(a1>=0&&a1!=1) emit_mov(a1,1);
- }
-}
-
static void mov_loadtype_adj(enum stub_type type,int rs,int rt)
{
switch(type) {
enum stub_type type=stubs[n].type;
int i=stubs[n].a;
int rs=stubs[n].b;
- struct regstat *i_regs=(struct regstat *)stubs[n].c;
+ const struct regstat *i_regs=(struct regstat *)stubs[n].c;
u_int reglist=stubs[n].e;
- signed char *i_regmap=i_regs->regmap;
+ const signed char *i_regmap=i_regs->regmap;
int rt;
- if(itype[i]==C1LS||itype[i]==C2LS||itype[i]==LOADLR) {
+ if(dops[i].itype==C1LS||dops[i].itype==C2LS||dops[i].itype==LOADLR) {
rt=get_reg(i_regmap,FTEMP);
}else{
- rt=get_reg(i_regmap,rt1[i]);
+ rt=get_reg(i_regmap,dops[i].rt1);
}
assert(rs>=0);
int r,temp=-1,temp2=HOST_TEMPREG,regs_saved=0;
temp=r; break;
}
}
- if(rt>=0&&rt1[i]!=0)
+ if(rt>=0&&dops[i].rt1!=0)
reglist&=~(1<<rt);
if(temp==-1) {
save_regs(reglist);
emit_shrimm(rs,12,temp2);
emit_readword_dualindexedx4(temp,temp2,temp2);
emit_lsls_imm(temp2,1,temp2);
- if(itype[i]==C1LS||itype[i]==C2LS||(rt>=0&&rt1[i]!=0)) {
+ if(dops[i].itype==C1LS||dops[i].itype==C2LS||(rt>=0&&dops[i].rt1!=0)) {
switch(type) {
case LOADB_STUB: emit_ldrccsb_dualindexed(temp2,rs,rt); break;
case LOADBU_STUB: emit_ldrccb_dualindexed(temp2,rs,rt); break;
int cc=get_reg(i_regmap,CCREG);
if(cc<0)
emit_loadreg(CCREG,2);
- emit_addimm(cc<0?2:cc,CLOCK_ADJUST((int)stubs[n].d+1),2);
- emit_call(handler);
- if(itype[i]==C1LS||itype[i]==C2LS||(rt>=0&&rt1[i]!=0)) {
+ emit_addimm(cc<0?2:cc,(int)stubs[n].d,2);
+ emit_far_call(handler);
+ if(dops[i].itype==C1LS||dops[i].itype==C2LS||(rt>=0&&dops[i].rt1!=0)) {
mov_loadtype_adj(type,0,rt);
}
if(restore_jump)
emit_jmp(stubs[n].retaddr); // return address
}
-// return memhandler, or get directly accessable address and return 0
-static void *get_direct_memhandler(void *table,u_int addr,enum stub_type type,u_int *addr_host)
-{
- u_int l1,l2=0;
- l1=((u_int *)table)[addr>>12];
- if((l1&(1<<31))==0) {
- u_int v=l1<<1;
- *addr_host=v+addr;
- return NULL;
- }
- else {
- l1<<=1;
- if(type==LOADB_STUB||type==LOADBU_STUB||type==STOREB_STUB)
- l2=((u_int *)l1)[0x1000/4 + 0x1000/2 + (addr&0xfff)];
- else if(type==LOADH_STUB||type==LOADHU_STUB||type==STOREH_STUB)
- l2=((u_int *)l1)[0x1000/4 + (addr&0xfff)/2];
- else
- l2=((u_int *)l1)[(addr&0xfff)/4];
- if((l2&(1<<31))==0) {
- u_int v=l2<<1;
- *addr_host=v+(addr&0xfff);
- return NULL;
- }
- return (void *)(l2<<1);
- }
-}
-
-static void inline_readstub(enum stub_type type, int i, u_int addr, signed char regmap[], int target, int adj, u_int reglist)
+static void inline_readstub(enum stub_type type, int i, u_int addr,
+ const signed char regmap[], int target, int adj, u_int reglist)
{
int rs=get_reg(regmap,target);
int rt=get_reg(regmap,target);
- if(rs<0) rs=get_reg(regmap,-1);
+ if(rs<0) rs=get_reg_temp(regmap);
assert(rs>=0);
- u_int host_addr=0,is_dynamic,far_call=0;
+ u_int is_dynamic;
+ uintptr_t host_addr = 0;
void *handler;
int cc=get_reg(regmap,CCREG);
- if(pcsx_direct_read(type,addr,CLOCK_ADJUST(adj+1),cc,target?rs:-1,rt))
+ if(pcsx_direct_read(type,addr,adj,cc,target?rs:-1,rt))
return;
handler = get_direct_memhandler(mem_rtab, addr, type, &host_addr);
if (handler == NULL) {
- if(rt<0||rt1[i]==0)
+ if(rt<0||dops[i].rt1==0)
return;
if(addr!=host_addr)
emit_movimm_from(addr,rs,host_addr,rs);
}
// call a memhandler
- if(rt>=0&&rt1[i]!=0)
+ if(rt>=0&&dops[i].rt1!=0)
reglist&=~(1<<rt);
save_regs(reglist);
if(target==0)
emit_movimm(addr,0);
else if(rs!=0)
emit_mov(rs,0);
- int offset=(u_char *)handler-out-8;
- if(offset<-33554432||offset>=33554432) {
- // unreachable memhandler, a plugin func perhaps
- emit_movimm((u_int)handler,12);
- far_call=1;
- }
if(cc<0)
emit_loadreg(CCREG,2);
if(is_dynamic) {
emit_movimm(((u_int *)mem_rtab)[addr>>12]<<1,1);
- emit_addimm(cc<0?2:cc,CLOCK_ADJUST(adj+1),2);
+ emit_addimm(cc<0?2:cc,adj,2);
}
else {
emit_readword(&last_count,3);
- emit_addimm(cc<0?2:cc,CLOCK_ADJUST(adj+1),2);
+ emit_addimm(cc<0?2:cc,adj,2);
emit_add(2,3,2);
emit_writeword(2,&Count);
}
- if(far_call)
- emit_callreg(12);
- else
- emit_call(handler);
+ emit_far_call(handler);
- if(rt>=0&&rt1[i]!=0) {
+ if(rt>=0&&dops[i].rt1!=0) {
switch(type) {
case LOADB_STUB: emit_signextend8(0,rt); break;
case LOADBU_STUB: emit_andimm(0,0xff,rt); break;
enum stub_type type=stubs[n].type;
int i=stubs[n].a;
int rs=stubs[n].b;
- struct regstat *i_regs=(struct regstat *)stubs[n].c;
+ const struct regstat *i_regs=(struct regstat *)stubs[n].c;
u_int reglist=stubs[n].e;
- signed char *i_regmap=i_regs->regmap;
+ const signed char *i_regmap=i_regs->regmap;
int rt,r;
- if(itype[i]==C1LS||itype[i]==C2LS) {
+ if(dops[i].itype==C1LS||dops[i].itype==C2LS) {
rt=get_reg(i_regmap,r=FTEMP);
}else{
- rt=get_reg(i_regmap,r=rs2[i]);
+ rt=get_reg(i_regmap,r=dops[i].rs2);
}
assert(rs>=0);
assert(rt>=0);
int cc=get_reg(i_regmap,CCREG);
if(cc<0)
emit_loadreg(CCREG,2);
- emit_addimm(cc<0?2:cc,CLOCK_ADJUST((int)stubs[n].d+1),2);
+ emit_addimm(cc<0?2:cc,(int)stubs[n].d,2);
// returns new cycle_count
- emit_call(handler);
- emit_addimm(0,-CLOCK_ADJUST((int)stubs[n].d+1),cc<0?2:cc);
+ emit_far_call(handler);
+ emit_addimm(0,-(int)stubs[n].d,cc<0?2:cc);
if(cc<0)
emit_storereg(CCREG,2);
if(restore_jump)
emit_jmp(stubs[n].retaddr);
}
-static void inline_writestub(enum stub_type type, int i, u_int addr, signed char regmap[], int target, int adj, u_int reglist)
+static void inline_writestub(enum stub_type type, int i, u_int addr,
+ const signed char regmap[], int target, int adj, u_int reglist)
{
- int rs=get_reg(regmap,-1);
+ int rs=get_reg_temp(regmap);
int rt=get_reg(regmap,target);
assert(rs>=0);
assert(rt>=0);
- u_int host_addr=0;
+ uintptr_t host_addr = 0;
void *handler = get_direct_memhandler(mem_wtab, addr, type, &host_addr);
if (handler == NULL) {
if(addr!=host_addr)
int cc=get_reg(regmap,CCREG);
if(cc<0)
emit_loadreg(CCREG,2);
- emit_addimm(cc<0?2:cc,CLOCK_ADJUST(adj+1),2);
+ emit_addimm(cc<0?2:cc,adj,2);
emit_movimm((u_int)handler,3);
// returns new cycle_count
- emit_call(jump_handler_write_h);
- emit_addimm(0,-CLOCK_ADJUST(adj+1),cc<0?2:cc);
- if(cc<0)
- emit_storereg(CCREG,2);
- restore_regs(reglist);
-}
-
-static void do_unalignedwritestub(int n)
-{
- assem_debug("do_unalignedwritestub %x\n",start+stubs[n].a*4);
- literal_pool(256);
- set_jump_target(stubs[n].addr, out);
-
- int i=stubs[n].a;
- struct regstat *i_regs=(struct regstat *)stubs[n].c;
- int addr=stubs[n].b;
- u_int reglist=stubs[n].e;
- signed char *i_regmap=i_regs->regmap;
- int temp2=get_reg(i_regmap,FTEMP);
- int rt;
- rt=get_reg(i_regmap,rs2[i]);
- assert(rt>=0);
- assert(addr>=0);
- assert(opcode[i]==0x2a||opcode[i]==0x2e); // SWL/SWR only implemented
- reglist|=(1<<addr);
- reglist&=~(1<<temp2);
-
-#if 1
- // don't bother with it and call write handler
- save_regs(reglist);
- pass_args(addr,rt);
- int cc=get_reg(i_regmap,CCREG);
- if(cc<0)
- emit_loadreg(CCREG,2);
- emit_addimm(cc<0?2:cc,CLOCK_ADJUST((int)stubs[n].d+1),2);
- emit_call((opcode[i]==0x2a?jump_handle_swl:jump_handle_swr));
- emit_addimm(0,-CLOCK_ADJUST((int)stubs[n].d+1),cc<0?2:cc);
+ emit_far_call(jump_handler_write_h);
+ emit_addimm(0,-adj,cc<0?2:cc);
if(cc<0)
emit_storereg(CCREG,2);
restore_regs(reglist);
- emit_jmp(stubs[n].retaddr); // return address
-#else
- emit_andimm(addr,0xfffffffc,temp2);
- emit_writeword(temp2,&address);
-
- save_regs(reglist);
- emit_shrimm(addr,16,1);
- int cc=get_reg(i_regmap,CCREG);
- if(cc<0) {
- emit_loadreg(CCREG,2);
- }
- emit_movimm((u_int)readmem,0);
- emit_addimm(cc<0?2:cc,2*stubs[n].d+2,2);
- emit_call((int)&indirect_jump_indexed);
- restore_regs(reglist);
-
- emit_readword(&readmem_dword,temp2);
- int temp=addr; //hmh
- emit_shlimm(addr,3,temp);
- emit_andimm(temp,24,temp);
-#ifdef BIG_ENDIAN_MIPS
- if (opcode[i]==0x2e) // SWR
-#else
- if (opcode[i]==0x2a) // SWL
-#endif
- emit_xorimm(temp,24,temp);
- emit_movimm(-1,HOST_TEMPREG);
- if (opcode[i]==0x2a) { // SWL
- emit_bic_lsr(temp2,HOST_TEMPREG,temp,temp2);
- emit_orrshr(rt,temp,temp2);
- }else{
- emit_bic_lsl(temp2,HOST_TEMPREG,temp,temp2);
- emit_orrshl(rt,temp,temp2);
- }
- emit_readword(&address,addr);
- emit_writeword(temp2,&word);
- //save_regs(reglist); // don't need to, no state changes
- emit_shrimm(addr,16,1);
- emit_movimm((u_int)writemem,0);
- //emit_call((int)&indirect_jump_indexed);
- emit_mov(15,14);
- emit_readword_dualindexedx4(0,1,15);
- emit_readword(&Count,HOST_TEMPREG);
- emit_readword(&next_interupt,2);
- emit_addimm(HOST_TEMPREG,-2*stubs[n].d-2,HOST_TEMPREG);
- emit_writeword(2,&last_count);
- emit_sub(HOST_TEMPREG,2,cc<0?HOST_TEMPREG:cc);
- if(cc<0) {
- emit_storereg(CCREG,HOST_TEMPREG);
- }
- restore_regs(reglist);
- emit_jmp(stubs[n].retaddr); // return address
-#endif
}
-static void do_invstub(int n)
+// this output is parsed by verify_dirty, get_bounds, isclean, get_clean_addr
+static void do_dirty_stub_emit_args(u_int arg0, u_int source_len)
{
- 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_call(&invalidate_addr);
- restore_regs(reglist);
- emit_jmp(stubs[n].retaddr); // return address
+ #ifndef HAVE_ARMV7
+ emit_loadlp((int)source, 1);
+ emit_loadlp((int)copy, 2);
+ emit_loadlp(source_len, 3);
+ #else
+ emit_movw(((u_int)source)&0x0000FFFF, 1);
+ emit_movw(((u_int)copy)&0x0000FFFF, 2);
+ emit_movt(((u_int)source)&0xFFFF0000, 1);
+ emit_movt(((u_int)copy)&0xFFFF0000, 2);
+ emit_movw(source_len, 3);
+ #endif
+ emit_movimm(arg0, 0);
}
-void *do_dirty_stub(int i)
+static void *do_dirty_stub(int i, u_int source_len)
{
assem_debug("do_dirty_stub %x\n",start+i*4);
- u_int addr=(u_int)source;
- // Careful about the code output here, verify_dirty needs to parse it.
- #ifndef HAVE_ARMV7
- emit_loadlp(addr,1);
- emit_loadlp((int)copy,2);
- emit_loadlp(slen*4,3);
- #else
- emit_movw(addr&0x0000FFFF,1);
- emit_movw(((u_int)copy)&0x0000FFFF,2);
- emit_movt(addr&0xFFFF0000,1);
- emit_movt(((u_int)copy)&0xFFFF0000,2);
- emit_movw(slen*4,3);
- #endif
- emit_movimm(start+i*4,0);
- emit_call((int)start<(int)0xC0000000?&verify_code:&verify_code_vm);
+ do_dirty_stub_emit_args(start + i*4, source_len);
+ emit_far_call(verify_code);
void *entry = out;
load_regs_entry(i);
if (entry == out)
return entry;
}
-static void do_dirty_stub_ds()
+static void do_dirty_stub_ds(u_int source_len)
{
- // Careful about the code output here, verify_dirty needs to parse it.
- #ifndef HAVE_ARMV7
- emit_loadlp((int)start<(int)0xC0000000?(int)source:(int)start,1);
- emit_loadlp((int)copy,2);
- emit_loadlp(slen*4,3);
- #else
- emit_movw(((int)start<(int)0xC0000000?(u_int)source:(u_int)start)&0x0000FFFF,1);
- emit_movw(((u_int)copy)&0x0000FFFF,2);
- emit_movt(((int)start<(int)0xC0000000?(u_int)source:(u_int)start)&0xFFFF0000,1);
- emit_movt(((u_int)copy)&0xFFFF0000,2);
- emit_movw(slen*4,3);
- #endif
- emit_movimm(start+1,0);
- emit_call(&verify_code_ds);
-}
-
-static void do_cop1stub(int n)
-{
- literal_pool(256);
- assem_debug("do_cop1stub %x\n",start+stubs[n].a*4);
- set_jump_target(stubs[n].addr, out);
- int i=stubs[n].a;
-// int rs=stubs[n].b;
- struct regstat *i_regs=(struct regstat *)stubs[n].c;
- int ds=stubs[n].d;
- if(!ds) {
- load_all_consts(regs[i].regmap_entry,regs[i].was32,regs[i].wasdirty,i);
- //if(i_regs!=®s[i]) printf("oops: regs[i]=%x i_regs=%x",(int)®s[i],(int)i_regs);
- }
- //else {printf("fp exception in delay slot\n");}
- wb_dirtys(i_regs->regmap_entry,i_regs->was32,i_regs->wasdirty);
- if(regs[i].regmap_entry[HOST_CCREG]!=CCREG) emit_loadreg(CCREG,HOST_CCREG);
- emit_movimm(start+(i-ds)*4,EAX); // Get PC
- emit_addimm(HOST_CCREG,CLOCK_ADJUST(ccadj[i]),HOST_CCREG); // CHECK: is this right? There should probably be an extra cycle...
- emit_jmp(ds?fp_exception_ds:fp_exception);
+ do_dirty_stub_emit_args(start + 1, source_len);
+ emit_far_call(verify_code_ds);
}
/* Special assem */
-static void shift_assemble_arm(int i,struct regstat *i_regs)
-{
- if(rt1[i]) {
- if(opcode2[i]<=0x07) // SLLV/SRLV/SRAV
- {
- signed char s,t,shift;
- t=get_reg(i_regs->regmap,rt1[i]);
- s=get_reg(i_regs->regmap,rs1[i]);
- shift=get_reg(i_regs->regmap,rs2[i]);
- if(t>=0){
- if(rs1[i]==0)
- {
- emit_zeroreg(t);
- }
- else if(rs2[i]==0)
- {
- assert(s>=0);
- if(s!=t) emit_mov(s,t);
- }
- else
- {
- emit_andimm(shift,31,HOST_TEMPREG);
- if(opcode2[i]==4) // SLLV
- {
- emit_shl(s,HOST_TEMPREG,t);
- }
- if(opcode2[i]==6) // SRLV
- {
- emit_shr(s,HOST_TEMPREG,t);
- }
- if(opcode2[i]==7) // SRAV
- {
- emit_sar(s,HOST_TEMPREG,t);
- }
- }
- }
- } else { // DSLLV/DSRLV/DSRAV
- signed char sh,sl,th,tl,shift;
- th=get_reg(i_regs->regmap,rt1[i]|64);
- tl=get_reg(i_regs->regmap,rt1[i]);
- sh=get_reg(i_regs->regmap,rs1[i]|64);
- sl=get_reg(i_regs->regmap,rs1[i]);
- shift=get_reg(i_regs->regmap,rs2[i]);
- if(tl>=0){
- if(rs1[i]==0)
- {
- emit_zeroreg(tl);
- if(th>=0) emit_zeroreg(th);
- }
- else if(rs2[i]==0)
- {
- assert(sl>=0);
- if(sl!=tl) emit_mov(sl,tl);
- if(th>=0&&sh!=th) emit_mov(sh,th);
- }
- else
- {
- // FIXME: What if shift==tl ?
- assert(shift!=tl);
- int temp=get_reg(i_regs->regmap,-1);
- int real_th=th;
- if(th<0&&opcode2[i]!=0x14) {th=temp;} // DSLLV doesn't need a temporary register
- assert(sl>=0);
- assert(sh>=0);
- emit_andimm(shift,31,HOST_TEMPREG);
- if(opcode2[i]==0x14) // DSLLV
- {
- if(th>=0) emit_shl(sh,HOST_TEMPREG,th);
- emit_rsbimm(HOST_TEMPREG,32,HOST_TEMPREG);
- emit_orrshr(sl,HOST_TEMPREG,th);
- emit_andimm(shift,31,HOST_TEMPREG);
- emit_testimm(shift,32);
- emit_shl(sl,HOST_TEMPREG,tl);
- if(th>=0) emit_cmovne_reg(tl,th);
- emit_cmovne_imm(0,tl);
- }
- if(opcode2[i]==0x16) // DSRLV
- {
- assert(th>=0);
- emit_shr(sl,HOST_TEMPREG,tl);
- emit_rsbimm(HOST_TEMPREG,32,HOST_TEMPREG);
- emit_orrshl(sh,HOST_TEMPREG,tl);
- emit_andimm(shift,31,HOST_TEMPREG);
- emit_testimm(shift,32);
- emit_shr(sh,HOST_TEMPREG,th);
- emit_cmovne_reg(th,tl);
- if(real_th>=0) emit_cmovne_imm(0,th);
- }
- if(opcode2[i]==0x17) // DSRAV
- {
- assert(th>=0);
- emit_shr(sl,HOST_TEMPREG,tl);
- emit_rsbimm(HOST_TEMPREG,32,HOST_TEMPREG);
- if(real_th>=0) {
- assert(temp>=0);
- emit_sarimm(th,31,temp);
- }
- emit_orrshl(sh,HOST_TEMPREG,tl);
- emit_andimm(shift,31,HOST_TEMPREG);
- emit_testimm(shift,32);
- emit_sar(sh,HOST_TEMPREG,th);
- emit_cmovne_reg(th,tl);
- if(real_th>=0) emit_cmovne_reg(temp,th);
- }
- }
- }
- }
- }
-}
-
-static void speculate_mov(int rs,int rt)
-{
- if(rt!=0) {
- smrv_strong_next|=1<<rt;
- smrv[rt]=smrv[rs];
- }
-}
-
-static void speculate_mov_weak(int rs,int rt)
-{
- if(rt!=0) {
- smrv_weak_next|=1<<rt;
- smrv[rt]=smrv[rs];
- }
-}
-
-static void speculate_register_values(int i)
-{
- if(i==0) {
- memcpy(smrv,psxRegs.GPR.r,sizeof(smrv));
- // gp,sp are likely to stay the same throughout the block
- smrv_strong_next=(1<<28)|(1<<29)|(1<<30);
- smrv_weak_next=~smrv_strong_next;
- //printf(" llr %08x\n", smrv[4]);
- }
- smrv_strong=smrv_strong_next;
- smrv_weak=smrv_weak_next;
- switch(itype[i]) {
- case ALU:
- if ((smrv_strong>>rs1[i])&1) speculate_mov(rs1[i],rt1[i]);
- else if((smrv_strong>>rs2[i])&1) speculate_mov(rs2[i],rt1[i]);
- else if((smrv_weak>>rs1[i])&1) speculate_mov_weak(rs1[i],rt1[i]);
- else if((smrv_weak>>rs2[i])&1) speculate_mov_weak(rs2[i],rt1[i]);
- else {
- smrv_strong_next&=~(1<<rt1[i]);
- smrv_weak_next&=~(1<<rt1[i]);
- }
- break;
- case SHIFTIMM:
- smrv_strong_next&=~(1<<rt1[i]);
- smrv_weak_next&=~(1<<rt1[i]);
- // fallthrough
- case IMM16:
- if(rt1[i]&&is_const(®s[i],rt1[i])) {
- int value,hr=get_reg(regs[i].regmap,rt1[i]);
- if(hr>=0) {
- if(get_final_value(hr,i,&value))
- smrv[rt1[i]]=value;
- else smrv[rt1[i]]=constmap[i][hr];
- smrv_strong_next|=1<<rt1[i];
- }
- }
- else {
- if ((smrv_strong>>rs1[i])&1) speculate_mov(rs1[i],rt1[i]);
- else if((smrv_weak>>rs1[i])&1) speculate_mov_weak(rs1[i],rt1[i]);
- }
- break;
- case LOAD:
- if(start<0x2000&&(rt1[i]==26||(smrv[rt1[i]]>>24)==0xa0)) {
- // special case for BIOS
- smrv[rt1[i]]=0xa0000000;
- smrv_strong_next|=1<<rt1[i];
- break;
- }
- // fallthrough
- case SHIFT:
- case LOADLR:
- case MOV:
- smrv_strong_next&=~(1<<rt1[i]);
- smrv_weak_next&=~(1<<rt1[i]);
- break;
- case COP0:
- case COP2:
- if(opcode2[i]==0||opcode2[i]==2) { // MFC/CFC
- smrv_strong_next&=~(1<<rt1[i]);
- smrv_weak_next&=~(1<<rt1[i]);
- }
- break;
- case C2LS:
- if (opcode[i]==0x32) { // LWC2
- smrv_strong_next&=~(1<<rt1[i]);
- smrv_weak_next&=~(1<<rt1[i]);
- }
- break;
- }
-#if 0
- int r=4;
- printf("x %08x %08x %d %d c %08x %08x\n",smrv[r],start+i*4,
- ((smrv_strong>>r)&1),(smrv_weak>>r)&1,regs[i].isconst,regs[i].wasconst);
-#endif
-}
-
-enum {
- MTYPE_8000 = 0,
- MTYPE_8020,
- MTYPE_0000,
- MTYPE_A000,
- MTYPE_1F80,
-};
-
-static int get_ptr_mem_type(u_int a)
-{
- if(a < 0x00200000) {
- if(a<0x1000&&((start>>20)==0xbfc||(start>>24)==0xa0))
- // return wrong, must use memhandler for BIOS self-test to pass
- // 007 does similar stuff from a00 mirror, weird stuff
- return MTYPE_8000;
- return MTYPE_0000;
- }
- if(0x1f800000 <= a && a < 0x1f801000)
- return MTYPE_1F80;
- if(0x80200000 <= a && a < 0x80800000)
- return MTYPE_8020;
- if(0xa0000000 <= a && a < 0xa0200000)
- return MTYPE_A000;
- return MTYPE_8000;
-}
-
-static void *emit_fastpath_cmp_jump(int i,int addr,int *addr_reg_override)
-{
- void *jaddr = NULL;
- int type=0;
- int mr=rs1[i];
- if(((smrv_strong|smrv_weak)>>mr)&1) {
- type=get_ptr_mem_type(smrv[mr]);
- //printf("set %08x @%08x r%d %d\n", smrv[mr], start+i*4, mr, type);
- }
- else {
- // use the mirror we are running on
- type=get_ptr_mem_type(start);
- //printf("set nospec @%08x r%d %d\n", start+i*4, mr, type);
- }
-
- if(type==MTYPE_8020) { // RAM 80200000+ mirror
- emit_andimm(addr,~0x00e00000,HOST_TEMPREG);
- addr=*addr_reg_override=HOST_TEMPREG;
- type=0;
- }
- else if(type==MTYPE_0000) { // RAM 0 mirror
- emit_orimm(addr,0x80000000,HOST_TEMPREG);
- addr=*addr_reg_override=HOST_TEMPREG;
- type=0;
- }
- else if(type==MTYPE_A000) { // RAM A mirror
- emit_andimm(addr,~0x20000000,HOST_TEMPREG);
- addr=*addr_reg_override=HOST_TEMPREG;
- type=0;
- }
- else if(type==MTYPE_1F80) { // scratchpad
- if (psxH == (void *)0x1f800000) {
- emit_addimm(addr,-0x1f800000,HOST_TEMPREG);
- emit_cmpimm(HOST_TEMPREG,0x1000);
- jaddr=out;
- emit_jc(0);
- }
- else {
- // do usual RAM check, jump will go to the right handler
- type=0;
- }
- }
-
- if(type==0)
- {
- emit_cmpimm(addr,RAM_SIZE);
- jaddr=out;
- #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK
- // Hint to branch predictor that the branch is unlikely to be taken
- if(rs1[i]>=28)
- emit_jno_unlikely(0);
- else
- #endif
- emit_jno(0);
- if(ram_offset!=0) {
- emit_addimm(addr,ram_offset,HOST_TEMPREG);
- addr=*addr_reg_override=HOST_TEMPREG;
- }
- }
-
- return jaddr;
-}
-
-#define shift_assemble shift_assemble_arm
-
-static void loadlr_assemble_arm(int i,struct regstat *i_regs)
-{
- int s,th,tl,temp,temp2,addr,map=-1;
- int offset;
- void *jaddr=0;
- int memtarget=0,c=0;
- int fastload_reg_override=0;
- u_int hr,reglist=0;
- th=get_reg(i_regs->regmap,rt1[i]|64);
- tl=get_reg(i_regs->regmap,rt1[i]);
- s=get_reg(i_regs->regmap,rs1[i]);
- temp=get_reg(i_regs->regmap,-1);
- temp2=get_reg(i_regs->regmap,FTEMP);
- addr=get_reg(i_regs->regmap,AGEN1+(i&1));
- assert(addr<0);
- offset=imm[i];
- for(hr=0;hr<HOST_REGS;hr++) {
- if(i_regs->regmap[hr]>=0) reglist|=1<<hr;
- }
- reglist|=1<<temp;
- if(offset||s<0||c) addr=temp2;
- else addr=s;
- if(s>=0) {
- c=(i_regs->wasconst>>s)&1;
- if(c) {
- memtarget=((signed int)(constmap[i][s]+offset))<(signed int)0x80000000+RAM_SIZE;
- }
- }
- if(!c) {
- #ifdef RAM_OFFSET
- map=get_reg(i_regs->regmap,ROREG);
- if(map<0) emit_loadreg(ROREG,map=HOST_TEMPREG);
- #endif
- emit_shlimm(addr,3,temp);
- if (opcode[i]==0x22||opcode[i]==0x26) {
- emit_andimm(addr,0xFFFFFFFC,temp2); // LWL/LWR
- }else{
- emit_andimm(addr,0xFFFFFFF8,temp2); // LDL/LDR
- }
- jaddr=emit_fastpath_cmp_jump(i,temp2,&fastload_reg_override);
- }
- else {
- if(ram_offset&&memtarget) {
- emit_addimm(temp2,ram_offset,HOST_TEMPREG);
- fastload_reg_override=HOST_TEMPREG;
- }
- if (opcode[i]==0x22||opcode[i]==0x26) {
- emit_movimm(((constmap[i][s]+offset)<<3)&24,temp); // LWL/LWR
- }else{
- emit_movimm(((constmap[i][s]+offset)<<3)&56,temp); // LDL/LDR
- }
- }
- if (opcode[i]==0x22||opcode[i]==0x26) { // LWL/LWR
- if(!c||memtarget) {
- int a=temp2;
- if(fastload_reg_override) a=fastload_reg_override;
- //emit_readword_indexed((int)rdram-0x80000000,temp2,temp2);
- emit_readword_indexed_tlb(0,a,map,temp2);
- if(jaddr) add_stub_r(LOADW_STUB,jaddr,out,i,temp2,i_regs,ccadj[i],reglist);
- }
- else
- inline_readstub(LOADW_STUB,i,(constmap[i][s]+offset)&0xFFFFFFFC,i_regs->regmap,FTEMP,ccadj[i],reglist);
- if(rt1[i]) {
- assert(tl>=0);
- emit_andimm(temp,24,temp);
-#ifdef BIG_ENDIAN_MIPS
- if (opcode[i]==0x26) // LWR
-#else
- if (opcode[i]==0x22) // LWL
-#endif
- emit_xorimm(temp,24,temp);
- emit_movimm(-1,HOST_TEMPREG);
- if (opcode[i]==0x26) {
- emit_shr(temp2,temp,temp2);
- emit_bic_lsr(tl,HOST_TEMPREG,temp,tl);
- }else{
- emit_shl(temp2,temp,temp2);
- emit_bic_lsl(tl,HOST_TEMPREG,temp,tl);
- }
- emit_or(temp2,tl,tl);
- }
- //emit_storereg(rt1[i],tl); // DEBUG
- }
- if (opcode[i]==0x1A||opcode[i]==0x1B) { // LDL/LDR
- // FIXME: little endian, fastload_reg_override
- int temp2h=get_reg(i_regs->regmap,FTEMP|64);
- if(!c||memtarget) {
- //if(th>=0) emit_readword_indexed((int)rdram-0x80000000,temp2,temp2h);
- //emit_readword_indexed((int)rdram-0x7FFFFFFC,temp2,temp2);
- emit_readdword_indexed_tlb(0,temp2,map,temp2h,temp2);
- if(jaddr) add_stub_r(LOADD_STUB,jaddr,out,i,temp2,i_regs,ccadj[i],reglist);
- }
- else
- inline_readstub(LOADD_STUB,i,(constmap[i][s]+offset)&0xFFFFFFF8,i_regs->regmap,FTEMP,ccadj[i],reglist);
- if(rt1[i]) {
- assert(th>=0);
- assert(tl>=0);
- emit_testimm(temp,32);
- emit_andimm(temp,24,temp);
- if (opcode[i]==0x1A) { // LDL
- emit_rsbimm(temp,32,HOST_TEMPREG);
- emit_shl(temp2h,temp,temp2h);
- emit_orrshr(temp2,HOST_TEMPREG,temp2h);
- emit_movimm(-1,HOST_TEMPREG);
- emit_shl(temp2,temp,temp2);
- emit_cmove_reg(temp2h,th);
- emit_biceq_lsl(tl,HOST_TEMPREG,temp,tl);
- emit_bicne_lsl(th,HOST_TEMPREG,temp,th);
- emit_orreq(temp2,tl,tl);
- emit_orrne(temp2,th,th);
- }
- if (opcode[i]==0x1B) { // LDR
- emit_xorimm(temp,24,temp);
- emit_rsbimm(temp,32,HOST_TEMPREG);
- emit_shr(temp2,temp,temp2);
- emit_orrshl(temp2h,HOST_TEMPREG,temp2);
- emit_movimm(-1,HOST_TEMPREG);
- emit_shr(temp2h,temp,temp2h);
- emit_cmovne_reg(temp2,tl);
- emit_bicne_lsr(th,HOST_TEMPREG,temp,th);
- emit_biceq_lsr(tl,HOST_TEMPREG,temp,tl);
- emit_orrne(temp2h,th,th);
- emit_orreq(temp2h,tl,tl);
- }
- }
- }
-}
-#define loadlr_assemble loadlr_assemble_arm
-
-static void cop0_assemble(int i,struct regstat *i_regs)
-{
- if(opcode2[i]==0) // MFC0
- {
- signed char t=get_reg(i_regs->regmap,rt1[i]);
- u_int copr=(source[i]>>11)&0x1f;
- //assert(t>=0); // Why does this happen? OOT is weird
- if(t>=0&&rt1[i]!=0) {
- emit_readword(®_cop0[copr],t);
- }
- }
- else if(opcode2[i]==4) // MTC0
- {
- signed char s=get_reg(i_regs->regmap,rs1[i]);
- char copr=(source[i]>>11)&0x1f;
- assert(s>=0);
- wb_register(rs1[i],i_regs->regmap,i_regs->dirty,i_regs->is32);
- if(copr==9||copr==11||copr==12||copr==13) {
- emit_readword(&last_count,HOST_TEMPREG);
- emit_loadreg(CCREG,HOST_CCREG); // TODO: do proper reg alloc
- emit_add(HOST_CCREG,HOST_TEMPREG,HOST_CCREG);
- emit_addimm(HOST_CCREG,CLOCK_ADJUST(ccadj[i]),HOST_CCREG);
- emit_writeword(HOST_CCREG,&Count);
- }
- // What a mess. The status register (12) can enable interrupts,
- // so needs a special case to handle a pending interrupt.
- // The interrupt must be taken immediately, because a subsequent
- // instruction might disable interrupts again.
- if(copr==12||copr==13) {
- if (is_delayslot) {
- // burn cycles to cause cc_interrupt, which will
- // reschedule next_interupt. Relies on CCREG from above.
- assem_debug("MTC0 DS %d\n", copr);
- emit_writeword(HOST_CCREG,&last_count);
- emit_movimm(0,HOST_CCREG);
- emit_storereg(CCREG,HOST_CCREG);
- emit_loadreg(rs1[i],1);
- emit_movimm(copr,0);
- emit_call(pcsx_mtc0_ds);
- emit_loadreg(rs1[i],s);
- return;
- }
- emit_movimm(start+i*4+4,HOST_TEMPREG);
- emit_writeword(HOST_TEMPREG,&pcaddr);
- emit_movimm(0,HOST_TEMPREG);
- emit_writeword(HOST_TEMPREG,&pending_exception);
- }
- //else if(copr==12&&is_delayslot) emit_call((int)MTC0_R12);
- //else
- if(s==HOST_CCREG)
- emit_loadreg(rs1[i],1);
- else if(s!=1)
- emit_mov(s,1);
- emit_movimm(copr,0);
- emit_call(pcsx_mtc0);
- if(copr==9||copr==11||copr==12||copr==13) {
- emit_readword(&Count,HOST_CCREG);
- emit_readword(&next_interupt,HOST_TEMPREG);
- emit_addimm(HOST_CCREG,-CLOCK_ADJUST(ccadj[i]),HOST_CCREG);
- emit_sub(HOST_CCREG,HOST_TEMPREG,HOST_CCREG);
- emit_writeword(HOST_TEMPREG,&last_count);
- emit_storereg(CCREG,HOST_CCREG);
- }
- if(copr==12||copr==13) {
- assert(!is_delayslot);
- emit_readword(&pending_exception,14);
- emit_test(14,14);
- emit_jne(&do_interrupt);
- }
- emit_loadreg(rs1[i],s);
- if(get_reg(i_regs->regmap,rs1[i]|64)>=0)
- emit_loadreg(rs1[i]|64,get_reg(i_regs->regmap,rs1[i]|64));
- cop1_usable=0;
- }
- else
- {
- assert(opcode2[i]==0x10);
- if((source[i]&0x3f)==0x10) // RFE
- {
- emit_readword(&Status,0);
- emit_andimm(0,0x3c,1);
- emit_andimm(0,~0xf,0);
- emit_orrshr_imm(1,2,0);
- emit_writeword(0,&Status);
- }
- }
-}
-
-static void cop2_get_dreg(u_int copr,signed char tl,signed char temp)
-{
- switch (copr) {
- case 1:
- case 3:
- case 5:
- case 8:
- case 9:
- case 10:
- case 11:
- emit_readword(®_cop2d[copr],tl);
- emit_signextend16(tl,tl);
- emit_writeword(tl,®_cop2d[copr]); // hmh
- break;
- case 7:
- case 16:
- case 17:
- case 18:
- case 19:
- emit_readword(®_cop2d[copr],tl);
- emit_andimm(tl,0xffff,tl);
- emit_writeword(tl,®_cop2d[copr]);
- break;
- case 15:
- emit_readword(®_cop2d[14],tl); // SXY2
- emit_writeword(tl,®_cop2d[copr]);
- break;
- case 28:
- case 29:
- emit_readword(®_cop2d[9],temp);
- emit_testimm(temp,0x8000); // do we need this?
- emit_andimm(temp,0xf80,temp);
- emit_andne_imm(temp,0,temp);
- emit_shrimm(temp,7,tl);
- emit_readword(®_cop2d[10],temp);
- emit_testimm(temp,0x8000);
- emit_andimm(temp,0xf80,temp);
- emit_andne_imm(temp,0,temp);
- emit_orrshr_imm(temp,2,tl);
- emit_readword(®_cop2d[11],temp);
- emit_testimm(temp,0x8000);
- emit_andimm(temp,0xf80,temp);
- emit_andne_imm(temp,0,temp);
- emit_orrshl_imm(temp,3,tl);
- emit_writeword(tl,®_cop2d[copr]);
- break;
- default:
- emit_readword(®_cop2d[copr],tl);
- break;
- }
-}
-
-static void cop2_put_dreg(u_int copr,signed char sl,signed char temp)
-{
- switch (copr) {
- case 15:
- emit_readword(®_cop2d[13],temp); // SXY1
- emit_writeword(sl,®_cop2d[copr]);
- emit_writeword(temp,®_cop2d[12]); // SXY0
- emit_readword(®_cop2d[14],temp); // SXY2
- emit_writeword(sl,®_cop2d[14]);
- emit_writeword(temp,®_cop2d[13]); // SXY1
- break;
- case 28:
- emit_andimm(sl,0x001f,temp);
- emit_shlimm(temp,7,temp);
- emit_writeword(temp,®_cop2d[9]);
- emit_andimm(sl,0x03e0,temp);
- emit_shlimm(temp,2,temp);
- emit_writeword(temp,®_cop2d[10]);
- emit_andimm(sl,0x7c00,temp);
- emit_shrimm(temp,3,temp);
- emit_writeword(temp,®_cop2d[11]);
- emit_writeword(sl,®_cop2d[28]);
- break;
- case 30:
- emit_movs(sl,temp);
- emit_mvnmi(temp,temp);
-#ifdef HAVE_ARMV5
- emit_clz(temp,temp);
-#else
- emit_movs(temp,HOST_TEMPREG);
- emit_movimm(0,temp);
- emit_jeq((int)out+4*4);
- emit_addpl_imm(temp,1,temp);
- emit_lslpls_imm(HOST_TEMPREG,1,HOST_TEMPREG);
- emit_jns((int)out-2*4);
-#endif
- emit_writeword(sl,®_cop2d[30]);
- emit_writeword(temp,®_cop2d[31]);
- break;
- case 31:
- break;
- default:
- emit_writeword(sl,®_cop2d[copr]);
- break;
- }
-}
-
-static void cop2_assemble(int i,struct regstat *i_regs)
-{
- u_int copr=(source[i]>>11)&0x1f;
- signed char temp=get_reg(i_regs->regmap,-1);
- if (opcode2[i]==0) { // MFC2
- signed char tl=get_reg(i_regs->regmap,rt1[i]);
- if(tl>=0&&rt1[i]!=0)
- cop2_get_dreg(copr,tl,temp);
- }
- else if (opcode2[i]==4) { // MTC2
- signed char sl=get_reg(i_regs->regmap,rs1[i]);
- cop2_put_dreg(copr,sl,temp);
- }
- else if (opcode2[i]==2) // CFC2
- {
- signed char tl=get_reg(i_regs->regmap,rt1[i]);
- if(tl>=0&&rt1[i]!=0)
- emit_readword(®_cop2c[copr],tl);
- }
- else if (opcode2[i]==6) // CTC2
- {
- signed char sl=get_reg(i_regs->regmap,rs1[i]);
- switch(copr) {
- case 4:
- case 12:
- case 20:
- case 26:
- case 27:
- case 29:
- case 30:
- emit_signextend16(sl,temp);
- break;
- case 31:
- //value = value & 0x7ffff000;
- //if (value & 0x7f87e000) value |= 0x80000000;
- emit_shrimm(sl,12,temp);
- emit_shlimm(temp,12,temp);
- emit_testimm(temp,0x7f000000);
- emit_testeqimm(temp,0x00870000);
- emit_testeqimm(temp,0x0000e000);
- emit_orrne_imm(temp,0x80000000,temp);
- break;
- default:
- temp=sl;
- break;
- }
- emit_writeword(temp,®_cop2c[copr]);
- assert(sl>=0);
- }
-}
-
-static void c2op_prologue(u_int op,u_int reglist)
+static void c2op_prologue(u_int op, int i, const struct regstat *i_regs, u_int reglist)
{
save_regs_all(reglist);
+ cop2_do_stall_check(op, i, i_regs, 0);
#ifdef PCNT
- emit_movimm(op,0);
- emit_call((int)pcnt_gte_start);
+ emit_movimm(op, 0);
+ emit_far_call(pcnt_gte_start);
#endif
- emit_addimm(FP,(int)&psxRegs.CP2D.r[0]-(int)&dynarec_local,0); // cop2 regs
+ emit_addimm(FP, (u_char *)&psxRegs.CP2D.r[0] - (u_char *)&dynarec_local, 0); // cop2 regs
}
static void c2op_epilogue(u_int op,u_int reglist)
{
#ifdef PCNT
emit_movimm(op,0);
- emit_call((int)pcnt_gte_end);
+ emit_far_call(pcnt_gte_end);
#endif
restore_regs_all(reglist);
}
static void c2op_call_MACtoIR(int lm,int need_flags)
{
if(need_flags)
- emit_call(lm?gteMACtoIR_lm1:gteMACtoIR_lm0);
+ emit_far_call(lm?gteMACtoIR_lm1:gteMACtoIR_lm0);
else
- emit_call(lm?gteMACtoIR_lm1_nf:gteMACtoIR_lm0_nf);
+ emit_far_call(lm?gteMACtoIR_lm1_nf:gteMACtoIR_lm0_nf);
}
static void c2op_call_rgb_func(void *func,int lm,int need_ir,int need_flags)
{
- emit_call(func);
+ emit_far_call(func);
// func is C code and trashes r0
emit_addimm(FP,(int)&psxRegs.CP2D.r[0]-(int)&dynarec_local,0);
if(need_flags||need_ir)
c2op_call_MACtoIR(lm,need_flags);
- emit_call(need_flags?gteMACtoRGB:gteMACtoRGB_nf);
+ emit_far_call(need_flags?gteMACtoRGB:gteMACtoRGB_nf);
}
-static void c2op_assemble(int i,struct regstat *i_regs)
+static void c2op_assemble(int i, const struct regstat *i_regs)
{
- u_int c2op=source[i]&0x3f;
- u_int hr,reglist_full=0,reglist;
- int need_flags,need_ir;
- for(hr=0;hr<HOST_REGS;hr++) {
- if(i_regs->regmap[hr]>=0) reglist_full|=1<<hr;
- }
- reglist=reglist_full&CALLER_SAVE_REGS;
+ u_int c2op = source[i] & 0x3f;
+ u_int reglist_full = get_host_reglist(i_regs->regmap);
+ u_int reglist = reglist_full & CALLER_SAVE_REGS;
+ int need_flags, need_ir;
if (gte_handlers[c2op]!=NULL) {
need_flags=!(gte_unneeded[i+1]>>63); // +1 because of how liveness detection works
need_ir=(gte_unneeded[i+1]&0xe00)!=0xe00;
assem_debug("gte op %08x, unneeded %016llx, need_flags %d, need_ir %d\n",
source[i],gte_unneeded[i+1],need_flags,need_ir);
- if(new_dynarec_hacks&NDHACK_GTE_NO_FLAGS)
+ if(HACK_ENABLED(NDHACK_GTE_NO_FLAGS))
need_flags=0;
int shift = (source[i] >> 19) & 1;
int lm = (source[i] >> 10) & 1;
int cv = (source[i] >> 13) & 3;
int mx = (source[i] >> 17) & 3;
reglist=reglist_full&(CALLER_SAVE_REGS|0xf0); // +{r4-r7}
- c2op_prologue(c2op,reglist);
+ c2op_prologue(c2op,i,i_regs,reglist);
/* r4,r5 = VXYZ(v) packed; r6 = &MX11(mx); r7 = &CV1(cv) */
if(v<3)
emit_ldrd(v*8,0,4);
emit_readword(&zeromem_ptr,7);
#ifdef __ARM_NEON__
emit_movimm(source[i],1); // opcode
- emit_call(gteMVMVA_part_neon);
+ emit_far_call(gteMVMVA_part_neon);
if(need_flags) {
emit_movimm(lm,1);
- emit_call(gteMACtoIR_flags_neon);
+ emit_far_call(gteMACtoIR_flags_neon);
}
#else
if(cv==3&&shift)
- emit_call((int)gteMVMVA_part_cv3sh12_arm);
+ emit_far_call(gteMVMVA_part_cv3sh12_arm);
else {
emit_movimm(shift,1);
- emit_call((int)(need_flags?gteMVMVA_part_arm:gteMVMVA_part_nf_arm));
+ emit_far_call(need_flags?gteMVMVA_part_arm:gteMVMVA_part_nf_arm);
}
if(need_flags||need_ir)
c2op_call_MACtoIR(lm,need_flags);
#endif
#else /* if not HAVE_ARMV5 */
- c2op_prologue(c2op,reglist);
+ c2op_prologue(c2op,i,i_regs,reglist);
emit_movimm(source[i],1); // opcode
emit_writeword(1,&psxRegs.code);
- emit_call((int)(need_flags?gte_handlers[c2op]:gte_handlers_nf[c2op]));
+ emit_far_call(need_flags?gte_handlers[c2op]:gte_handlers_nf[c2op]);
#endif
break;
}
case GTE_OP:
- c2op_prologue(c2op,reglist);
- emit_call(shift?gteOP_part_shift:gteOP_part_noshift);
+ c2op_prologue(c2op,i,i_regs,reglist);
+ emit_far_call(shift?gteOP_part_shift:gteOP_part_noshift);
if(need_flags||need_ir) {
emit_addimm(FP,(int)&psxRegs.CP2D.r[0]-(int)&dynarec_local,0);
c2op_call_MACtoIR(lm,need_flags);
}
break;
case GTE_DPCS:
- c2op_prologue(c2op,reglist);
+ c2op_prologue(c2op,i,i_regs,reglist);
c2op_call_rgb_func(shift?gteDPCS_part_shift:gteDPCS_part_noshift,lm,need_ir,need_flags);
break;
case GTE_INTPL:
- c2op_prologue(c2op,reglist);
+ c2op_prologue(c2op,i,i_regs,reglist);
c2op_call_rgb_func(shift?gteINTPL_part_shift:gteINTPL_part_noshift,lm,need_ir,need_flags);
break;
case GTE_SQR:
- c2op_prologue(c2op,reglist);
- emit_call(shift?gteSQR_part_shift:gteSQR_part_noshift);
+ c2op_prologue(c2op,i,i_regs,reglist);
+ emit_far_call(shift?gteSQR_part_shift:gteSQR_part_noshift);
if(need_flags||need_ir) {
emit_addimm(FP,(int)&psxRegs.CP2D.r[0]-(int)&dynarec_local,0);
c2op_call_MACtoIR(lm,need_flags);
}
break;
case GTE_DCPL:
- c2op_prologue(c2op,reglist);
+ c2op_prologue(c2op,i,i_regs,reglist);
c2op_call_rgb_func(gteDCPL_part,lm,need_ir,need_flags);
break;
case GTE_GPF:
- c2op_prologue(c2op,reglist);
+ c2op_prologue(c2op,i,i_regs,reglist);
c2op_call_rgb_func(shift?gteGPF_part_shift:gteGPF_part_noshift,lm,need_ir,need_flags);
break;
case GTE_GPL:
- c2op_prologue(c2op,reglist);
+ c2op_prologue(c2op,i,i_regs,reglist);
c2op_call_rgb_func(shift?gteGPL_part_shift:gteGPL_part_noshift,lm,need_ir,need_flags);
break;
#endif
default:
- c2op_prologue(c2op,reglist);
+ c2op_prologue(c2op,i,i_regs,reglist);
#ifdef DRC_DBG
emit_movimm(source[i],1); // opcode
emit_writeword(1,&psxRegs.code);
#endif
- emit_call(need_flags?gte_handlers[c2op]:gte_handlers_nf[c2op]);
+ emit_far_call(need_flags?gte_handlers[c2op]:gte_handlers_nf[c2op]);
break;
}
c2op_epilogue(c2op,reglist);
}
}
-static void cop1_unusable(int i,struct regstat *i_regs)
-{
- // XXX: should just just do the exception instead
- if(!cop1_usable) {
- void *jaddr=out;
- emit_jmp(0);
- add_stub_r(FP_STUB,jaddr,out,i,0,i_regs,is_delayslot,0);
- cop1_usable=1;
- }
-}
-
-static void cop1_assemble(int i,struct regstat *i_regs)
+static void c2op_ctc2_31_assemble(signed char sl, signed char temp)
{
- cop1_unusable(i, i_regs);
+ //value = value & 0x7ffff000;
+ //if (value & 0x7f87e000) value |= 0x80000000;
+ emit_shrimm(sl,12,temp);
+ emit_shlimm(temp,12,temp);
+ emit_testimm(temp,0x7f000000);
+ emit_testeqimm(temp,0x00870000);
+ emit_testeqimm(temp,0x0000e000);
+ emit_orrne_imm(temp,0x80000000,temp);
}
-static void fconv_assemble_arm(int i,struct regstat *i_regs)
+static void do_mfc2_31_one(u_int copr,signed char temp)
{
- cop1_unusable(i, i_regs);
+ emit_readword(®_cop2d[copr],temp);
+ emit_lsls_imm(temp,16,temp);
+ emit_cmovs_imm(0,temp);
+ emit_cmpimm(temp,0xf80<<16);
+ emit_andimm(temp,0xf80<<16,temp);
+ emit_cmovae_imm(0xf80<<16,temp);
}
-#define fconv_assemble fconv_assemble_arm
-static void fcomp_assemble(int i,struct regstat *i_regs)
+static void c2op_mfc2_29_assemble(signed char tl, signed char temp)
{
- cop1_unusable(i, i_regs);
-}
-
-static void float_assemble(int i,struct regstat *i_regs)
-{
- cop1_unusable(i, i_regs);
+ if (temp < 0) {
+ host_tempreg_acquire();
+ temp = HOST_TEMPREG;
+ }
+ do_mfc2_31_one(9,temp);
+ emit_shrimm(temp,7+16,tl);
+ do_mfc2_31_one(10,temp);
+ emit_orrshr_imm(temp,2+16,tl);
+ do_mfc2_31_one(11,temp);
+ emit_orrshr_imm(temp,-3+16,tl);
+ emit_writeword(tl,®_cop2d[29]);
+ if (temp == HOST_TEMPREG)
+ host_tempreg_release();
}
-static void multdiv_assemble_arm(int i,struct regstat *i_regs)
+static void multdiv_assemble_arm(int i, const struct regstat *i_regs)
{
// case 0x18: MULT
// case 0x19: MULTU
// case 0x1D: DMULTU
// case 0x1E: DDIV
// case 0x1F: DDIVU
- if(rs1[i]&&rs2[i])
+ if(dops[i].rs1&&dops[i].rs2)
{
- if((opcode2[i]&4)==0) // 32-bit
+ if((dops[i].opcode2&4)==0) // 32-bit
{
- if(opcode2[i]==0x18) // MULT
+ if(dops[i].opcode2==0x18) // MULT
{
- signed char m1=get_reg(i_regs->regmap,rs1[i]);
- signed char m2=get_reg(i_regs->regmap,rs2[i]);
+ signed char m1=get_reg(i_regs->regmap,dops[i].rs1);
+ signed char m2=get_reg(i_regs->regmap,dops[i].rs2);
signed char hi=get_reg(i_regs->regmap,HIREG);
signed char lo=get_reg(i_regs->regmap,LOREG);
assert(m1>=0);
assert(lo>=0);
emit_smull(m1,m2,hi,lo);
}
- if(opcode2[i]==0x19) // MULTU
+ if(dops[i].opcode2==0x19) // MULTU
{
- signed char m1=get_reg(i_regs->regmap,rs1[i]);
- signed char m2=get_reg(i_regs->regmap,rs2[i]);
+ signed char m1=get_reg(i_regs->regmap,dops[i].rs1);
+ signed char m2=get_reg(i_regs->regmap,dops[i].rs2);
signed char hi=get_reg(i_regs->regmap,HIREG);
signed char lo=get_reg(i_regs->regmap,LOREG);
assert(m1>=0);
assert(lo>=0);
emit_umull(m1,m2,hi,lo);
}
- if(opcode2[i]==0x1A) // DIV
+ if(dops[i].opcode2==0x1A) // DIV
{
- signed char d1=get_reg(i_regs->regmap,rs1[i]);
- signed char d2=get_reg(i_regs->regmap,rs2[i]);
+ signed char d1=get_reg(i_regs->regmap,dops[i].rs1);
+ signed char d2=get_reg(i_regs->regmap,dops[i].rs2);
assert(d1>=0);
assert(d2>=0);
signed char quotient=get_reg(i_regs->regmap,LOREG);
emit_negmi(quotient,quotient); // .. quotient and ..
emit_negmi(remainder,remainder); // .. remainder for div0 case (will be negated back after jump)
emit_movs(d2,HOST_TEMPREG);
- emit_jeq((int)out+52); // Division by zero
+ emit_jeq(out+52); // Division by zero
emit_negsmi(HOST_TEMPREG,HOST_TEMPREG);
#ifdef HAVE_ARMV5
emit_clz(HOST_TEMPREG,quotient);
emit_movimm(0,quotient);
emit_addpl_imm(quotient,1,quotient);
emit_lslpls_imm(HOST_TEMPREG,1,HOST_TEMPREG);
- emit_jns((int)out-2*4);
+ emit_jns(out-2*4);
#endif
emit_orimm(quotient,1<<31,quotient);
emit_shr(quotient,quotient,quotient);
emit_test(d1,d1);
emit_negmi(remainder,remainder);
}
- if(opcode2[i]==0x1B) // DIVU
+ if(dops[i].opcode2==0x1B) // DIVU
{
- signed char d1=get_reg(i_regs->regmap,rs1[i]); // dividend
- signed char d2=get_reg(i_regs->regmap,rs2[i]); // divisor
+ signed char d1=get_reg(i_regs->regmap,dops[i].rs1); // dividend
+ signed char d2=get_reg(i_regs->regmap,dops[i].rs2); // divisor
assert(d1>=0);
assert(d2>=0);
signed char quotient=get_reg(i_regs->regmap,LOREG);
emit_mov(d1,remainder);
emit_movimm(0xffffffff,quotient); // div0 case
emit_test(d2,d2);
- emit_jeq((int)out+40); // Division by zero
+ emit_jeq(out+40); // Division by zero
#ifdef HAVE_ARMV5
emit_clz(d2,HOST_TEMPREG);
emit_movimm(1<<31,quotient);
emit_movimm(0,HOST_TEMPREG);
emit_addpl_imm(HOST_TEMPREG,1,HOST_TEMPREG);
emit_lslpls_imm(d2,1,d2);
- emit_jns((int)out-2*4);
+ emit_jns(out-2*4);
emit_movimm(1<<31,quotient);
#endif
emit_shr(quotient,HOST_TEMPREG,quotient);
}
#define multdiv_assemble multdiv_assemble_arm
+static void do_jump_vaddr(int rs)
+{
+ emit_far_jump(jump_vaddr_reg[rs]);
+}
+
static void do_preload_rhash(int r) {
// Don't need this for ARM. On x86, this puts the value 0xf8 into the
// register. On ARM the hash can be done with a single instruction (below)
emit_cmp(rh,rs);
emit_ldreq_indexed(ht,4,15);
#ifdef CORTEX_A8_BRANCH_PREDICTION_HACK
- emit_mov(rs,7);
- emit_jmp(jump_vaddr_reg[7]);
- #else
- emit_jmp(jump_vaddr_reg[rs]);
+ if(rs!=7)
+ emit_mov(rs,7);
+ rs=7;
#endif
+ do_jump_vaddr(rs);
}
static void do_miniht_insert(u_int return_address,int rt,int temp) {
#endif
}
-static void wb_valid(signed char pre[],signed char entry[],u_int dirty_pre,u_int dirty,uint64_t is32_pre,uint64_t u,uint64_t uu)
-{
- //if(dirty_pre==dirty) return;
- int hr,reg;
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=EXCLUDE_REG) {
- reg=pre[hr];
- if(((~u)>>(reg&63))&1) {
- if(reg>0) {
- if(((dirty_pre&~dirty)>>hr)&1) {
- if(reg>0&®<34) {
- emit_storereg(reg,hr);
- if( ((is32_pre&~uu)>>reg)&1 ) {
- emit_sarimm(hr,31,HOST_TEMPREG);
- emit_storereg(reg|64,HOST_TEMPREG);
- }
- }
- else if(reg>=64) {
- emit_storereg(reg,hr);
- }
- }
- }
- }
- }
- }
-}
-
-
-/* using strd could possibly help but you'd have to allocate registers in pairs
-static void wb_invalidate_arm(signed char pre[],signed char entry[],uint64_t dirty,uint64_t is32,uint64_t u,uint64_t uu)
-{
- int hr;
- int wrote=-1;
- for(hr=HOST_REGS-1;hr>=0;hr--) {
- if(hr!=EXCLUDE_REG) {
- if(pre[hr]!=entry[hr]) {
- if(pre[hr]>=0) {
- if((dirty>>hr)&1) {
- if(get_reg(entry,pre[hr])<0) {
- if(pre[hr]<64) {
- if(!((u>>pre[hr])&1)) {
- if(hr<10&&(~hr&1)&&(pre[hr+1]<0||wrote==hr+1)) {
- if( ((is32>>pre[hr])&1) && !((uu>>pre[hr])&1) ) {
- emit_sarimm(hr,31,hr+1);
- emit_strdreg(pre[hr],hr);
- }
- else
- emit_storereg(pre[hr],hr);
- }else{
- emit_storereg(pre[hr],hr);
- if( ((is32>>pre[hr])&1) && !((uu>>pre[hr])&1) ) {
- emit_sarimm(hr,31,hr);
- emit_storereg(pre[hr]|64,hr);
- }
- }
- }
- }else{
- if(!((uu>>(pre[hr]&63))&1) && !((is32>>(pre[hr]&63))&1)) {
- emit_storereg(pre[hr],hr);
- }
- }
- wrote=hr;
- }
- }
- }
- }
- }
- }
- for(hr=0;hr<HOST_REGS;hr++) {
- if(hr!=EXCLUDE_REG) {
- if(pre[hr]!=entry[hr]) {
- if(pre[hr]>=0) {
- int nr;
- if((nr=get_reg(entry,pre[hr]))>=0) {
- emit_mov(hr,nr);
- }
- }
- }
- }
- }
-}
-#define wb_invalidate wb_invalidate_arm
-*/
-
-static void mark_clear_cache(void *target)
-{
- u_long offset = (u_char *)target - translation_cache;
- u_int mask = 1u << ((offset >> 12) & 31);
- if (!(needs_clear_cache[offset >> 17] & mask)) {
- char *start = (char *)((u_long)target & ~4095ul);
- start_tcache_write(start, start + 4096);
- needs_clear_cache[offset >> 17] |= mask;
- }
-}
-
-// Clearing the cache is rather slow on ARM Linux, so mark the areas
-// that need to be cleared, and then only clear these areas once.
-static void do_clear_cache()
-{
- int i,j;
- for (i=0;i<(1<<(TARGET_SIZE_2-17));i++)
- {
- u_int bitmap=needs_clear_cache[i];
- if(bitmap) {
- u_char *start, *end;
- for(j=0;j<32;j++)
- {
- if(bitmap&(1<<j)) {
- start=translation_cache+i*131072+j*4096;
- end=start+4095;
- j++;
- while(j<32) {
- if(bitmap&(1<<j)) {
- end+=4096;
- j++;
- }else{
- end_tcache_write(start, end);
- break;
- }
- }
- }
- }
- needs_clear_cache[i]=0;
- }
- }
-}
-
// CPU-architecture-specific initialization
-static void arch_init() {
+static void arch_init(void)
+{
+ uintptr_t diff = (u_char *)&ndrc->tramp.f - (u_char *)&ndrc->tramp.ops - 8;
+ struct tramp_insns *ops = ndrc->tramp.ops;
+ size_t i;
+ assert(!(diff & 3));
+ assert(diff < 0x1000);
+ start_tcache_write(ops, (u_char *)ops + sizeof(ndrc->tramp.ops));
+ for (i = 0; i < ARRAY_SIZE(ndrc->tramp.ops); i++)
+ ops[i].ldrpc = 0xe5900000 | rd_rn_rm(15,15,0) | diff; // ldr pc, [=val]
+ end_tcache_write(ops, (u_char *)ops + sizeof(ndrc->tramp.ops));
}
// vim:shiftwidth=2:expandtab