diff options
Diffstat (limited to 'libpcsxcore/new_dynarec/new_dynarec.c')
-rw-r--r-- | libpcsxcore/new_dynarec/new_dynarec.c | 2080 |
1 files changed, 374 insertions, 1706 deletions
diff --git a/libpcsxcore/new_dynarec/new_dynarec.c b/libpcsxcore/new_dynarec/new_dynarec.c index 65c8f03..1618b0f 100644 --- a/libpcsxcore/new_dynarec/new_dynarec.c +++ b/libpcsxcore/new_dynarec/new_dynarec.c @@ -23,7 +23,18 @@ #include <assert.h> #include <errno.h> #include <sys/mman.h> +#ifdef __MACH__ +#include <libkern/OSCacheControl.h> +#endif +#ifdef _3DS +#include <3ds_utils.h> +#endif +#ifdef VITA +#include <psp2/kernel/sysmem.h> +static int sceBlock; +#endif +#include "new_dynarec_config.h" #include "emu_if.h" //emulator interface //#define DISASM @@ -42,22 +53,6 @@ #include "assem_arm.h" #endif -#ifdef __BLACKBERRY_QNX__ -#undef __clear_cache -#define __clear_cache(start,end) msync(start, (size_t)((void*)end - (void*)start), MS_SYNC | MS_CACHE_ONLY | MS_INVALIDATE_ICACHE); -#elif defined(__MACH__) -#include <libkern/OSCacheControl.h> -#define __clear_cache mach_clear_cache -static void __clear_cache(void *start, void *end) { - size_t len = (char *)end - (char *)start; - sys_dcache_flush(start, len); - sys_icache_invalidate(start, len); -} -#elif defined(_3DS) -#include "3ds_utils.h" -#define __clear_cache(start,end) svcFlushProcessDataCache(0xFFFF8001, start, (u32)(end)-(u32)(start)) -#endif - #define MAXBLOCK 4096 #define MAX_OUTPUT_BLOCK_SIZE 262144 @@ -86,22 +81,29 @@ struct ll_entry struct ll_entry *next; }; - u_int start; - u_int *source; - char insn[MAXBLOCK][10]; - u_char itype[MAXBLOCK]; - u_char opcode[MAXBLOCK]; - u_char opcode2[MAXBLOCK]; - u_char bt[MAXBLOCK]; - u_char rs1[MAXBLOCK]; - u_char rs2[MAXBLOCK]; - u_char rt1[MAXBLOCK]; - u_char rt2[MAXBLOCK]; - u_char us1[MAXBLOCK]; - u_char us2[MAXBLOCK]; - u_char dep1[MAXBLOCK]; - u_char dep2[MAXBLOCK]; - u_char lt1[MAXBLOCK]; + // used by asm: + u_char *out; + u_int hash_table[65536][4] __attribute__((aligned(16))); + struct ll_entry *jump_in[4096] __attribute__((aligned(16))); + struct ll_entry *jump_dirty[4096]; + + static struct ll_entry *jump_out[4096]; + static u_int start; + static u_int *source; + static char insn[MAXBLOCK][10]; + static u_char itype[MAXBLOCK]; + static u_char opcode[MAXBLOCK]; + static u_char opcode2[MAXBLOCK]; + static u_char bt[MAXBLOCK]; + static u_char rs1[MAXBLOCK]; + static u_char rs2[MAXBLOCK]; + static u_char rt1[MAXBLOCK]; + static u_char rt2[MAXBLOCK]; + static u_char us1[MAXBLOCK]; + static u_char us2[MAXBLOCK]; + static u_char dep1[MAXBLOCK]; + static u_char dep2[MAXBLOCK]; + static u_char lt1[MAXBLOCK]; static uint64_t gte_rs[MAXBLOCK]; // gte: 32 data and 32 ctl regs static uint64_t gte_rt[MAXBLOCK]; static uint64_t gte_unneeded[MAXBLOCK]; @@ -110,59 +112,47 @@ struct ll_entry static u_int smrv_weak; // same, but somewhat less likely static u_int smrv_strong_next; // same, but after current insn executes static u_int smrv_weak_next; - int imm[MAXBLOCK]; - u_int ba[MAXBLOCK]; - char likely[MAXBLOCK]; - char is_ds[MAXBLOCK]; - char ooo[MAXBLOCK]; - uint64_t unneeded_reg[MAXBLOCK]; - uint64_t unneeded_reg_upper[MAXBLOCK]; - uint64_t branch_unneeded_reg[MAXBLOCK]; - uint64_t branch_unneeded_reg_upper[MAXBLOCK]; - uint64_t p32[MAXBLOCK]; - uint64_t pr32[MAXBLOCK]; - signed char regmap_pre[MAXBLOCK][HOST_REGS]; + static int imm[MAXBLOCK]; + static u_int ba[MAXBLOCK]; + static char likely[MAXBLOCK]; + static char is_ds[MAXBLOCK]; + static char ooo[MAXBLOCK]; + static uint64_t unneeded_reg[MAXBLOCK]; + static uint64_t unneeded_reg_upper[MAXBLOCK]; + static uint64_t branch_unneeded_reg[MAXBLOCK]; + static uint64_t branch_unneeded_reg_upper[MAXBLOCK]; + static signed char regmap_pre[MAXBLOCK][HOST_REGS]; static uint64_t current_constmap[HOST_REGS]; static uint64_t constmap[MAXBLOCK][HOST_REGS]; static struct regstat regs[MAXBLOCK]; static struct regstat branch_regs[MAXBLOCK]; - signed char minimum_free_regs[MAXBLOCK]; - u_int needed_reg[MAXBLOCK]; - uint64_t requires_32bit[MAXBLOCK]; - u_int wont_dirty[MAXBLOCK]; - u_int will_dirty[MAXBLOCK]; - int ccadj[MAXBLOCK]; - int slen; - u_int instr_addr[MAXBLOCK]; + static signed char minimum_free_regs[MAXBLOCK]; + static u_int needed_reg[MAXBLOCK]; + static u_int wont_dirty[MAXBLOCK]; + static u_int will_dirty[MAXBLOCK]; + static int ccadj[MAXBLOCK]; + static int slen; + static u_int instr_addr[MAXBLOCK]; static u_int link_addr[MAXBLOCK][3]; - int linkcount; - u_int stubs[MAXBLOCK*3][8]; - int stubcount; - u_int literals[1024][2]; - int literalcount; - int is_delayslot; - int cop1_usable; - u_char *out; - struct ll_entry *jump_in[4096] __attribute__((aligned(16))); - struct ll_entry *jump_out[4096]; - struct ll_entry *jump_dirty[4096]; - u_int hash_table[65536][4] __attribute__((aligned(16))); - char shadow[1048576] __attribute__((aligned(16))); - void *copy; - int expirep; -#ifndef PCSX - u_int using_tlb; -#else - static const u_int using_tlb=0; -#endif - int new_dynarec_did_compile; - int new_dynarec_hacks; - u_int stop_after_jal; + static int linkcount; + static u_int stubs[MAXBLOCK*3][8]; + static int stubcount; + static u_int literals[1024][2]; + static int literalcount; + static int is_delayslot; + static int cop1_usable; + static char shadow[1048576] __attribute__((aligned(16))); + static void *copy; + static int expirep; + static u_int stop_after_jal; #ifndef RAM_FIXED static u_int ram_offset; #else static const u_int ram_offset=0; #endif + + int new_dynarec_hacks; + int new_dynarec_did_compile; extern u_char restore_candidate[512]; extern int cycle_count; @@ -174,20 +164,20 @@ struct ll_entry #define CSREG 35 // Coprocessor status #define CCREG 36 // Cycle count #define INVCP 37 // Pointer to invalid_code -#define MMREG 38 // Pointer to memory_map +//#define MMREG 38 // Pointer to memory_map #define ROREG 39 // ram offset (if rdram!=0x80000000) #define TEMPREG 40 #define FTEMP 40 // FPU temporary register #define PTEMP 41 // Prefetch temporary register -#define TLREG 42 // TLB mapping offset +//#define TLREG 42 // TLB mapping offset #define RHASH 43 // Return address hash #define RHTBL 44 // Return address hash table address #define RTEMP 45 // JR/JALR address register #define MAXREG 45 #define AGEN1 46 // Address generation temporary register -#define AGEN2 47 // Address generation temporary register -#define MGEN1 48 // Maptable address generation temporary register -#define MGEN2 49 // Maptable address generation temporary register +//#define AGEN2 47 // Address generation temporary register +//#define MGEN1 48 // Maptable address generation temporary register +//#define MGEN2 49 // Maptable address generation temporary register #define BTREG 50 // Branch target temporary register /* instruction types */ @@ -196,7 +186,7 @@ struct ll_entry #define STORE 2 // Store #define LOADLR 3 // Unaligned load #define STORELR 4 // Unaligned store -#define MOV 5 // Move +#define MOV 5 // Move #define ALU 6 // Arithmetic/logic #define MULTDIV 7 // Multiply/divide #define SHIFT 8 // Shift by register @@ -250,7 +240,6 @@ void *get_addr_ht(u_int vaddr); void invalidate_block(u_int block); void invalidate_addr(u_int addr); void remove_hash(int vaddr); -void jump_vaddr(); void dyna_linker(); void dyna_linker_ds(); void verify_code(); @@ -259,40 +248,86 @@ void verify_code_ds(); void cc_interrupt(); void fp_exception(); void fp_exception_ds(); -void jump_syscall(); void jump_syscall_hle(); -void jump_eret(); void jump_hlecall(); void jump_intcall(); void new_dyna_leave(); -// TLB -void TLBWI_new(); -void TLBWR_new(); -void read_nomem_new(); -void read_nomemb_new(); -void read_nomemh_new(); -void read_nomemd_new(); -void write_nomem_new(); -void write_nomemb_new(); -void write_nomemh_new(); -void write_nomemd_new(); -void write_rdram_new(); -void write_rdramb_new(); -void write_rdramh_new(); -void write_rdramd_new(); -extern u_int memory_map[1048576]; - // Needed by assembler -void wb_register(signed char r,signed char regmap[],uint64_t dirty,uint64_t is32); -void wb_dirtys(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty); -void wb_needed_dirtys(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int addr); -void load_all_regs(signed char i_regmap[]); -void load_needed_regs(signed char i_regmap[],signed char next_regmap[]); -void load_regs_entry(int t); -void load_all_consts(signed char regmap[],int is32,u_int dirty,int i); +static void wb_register(signed char r,signed char regmap[],uint64_t dirty,uint64_t is32); +static void wb_dirtys(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty); +static void wb_needed_dirtys(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int addr); +static void load_all_regs(signed char i_regmap[]); +static void load_needed_regs(signed char i_regmap[],signed char next_regmap[]); +static void load_regs_entry(int t); +static void load_all_consts(signed char regmap[],int is32,u_int dirty,int i); + +static int verify_dirty(u_int *ptr); +static int get_final_value(int hr, int i, int *value); +static void add_stub(int type,int addr,int retaddr,int a,int b,int c,int d,int e); +static void add_to_linker(int addr,int target,int ext); + +static int tracedebug=0; + +static void mprotect_w_x(void *start, void *end, int is_x) +{ +#ifdef NO_WRITE_EXEC + #if defined(VITA) + // *Open* enables write on all memory that was + // allocated by sceKernelAllocMemBlockForVM()? + if (is_x) + sceKernelCloseVMDomain(); + else + sceKernelOpenVMDomain(); + #else + u_long mstart = (u_long)start & ~4095ul; + u_long mend = (u_long)end; + if (mprotect((void *)mstart, mend - mstart, + PROT_READ | (is_x ? PROT_EXEC : PROT_WRITE)) != 0) + SysPrintf("mprotect(%c) failed: %s\n", is_x ? 'x' : 'w', strerror(errno)); + #endif +#endif +} + +static void start_tcache_write(void *start, void *end) +{ + mprotect_w_x(start, end, 0); +} -int tracedebug=0; +static void end_tcache_write(void *start, void *end) +{ +#ifdef __arm__ + size_t len = (char *)end - (char *)start; + #if defined(__BLACKBERRY_QNX__) + msync(start, len, MS_SYNC | MS_CACHE_ONLY | MS_INVALIDATE_ICACHE); + #elif defined(__MACH__) + sys_cache_control(kCacheFunctionPrepareForExecution, start, len); + #elif defined(VITA) + sceKernelSyncVMDomain(sceBlock, start, len); + #elif defined(_3DS) + ctr_flush_invalidate_cache(); + #else + __clear_cache(start, end); + #endif + (void)len; +#endif + + mprotect_w_x(start, end, 1); +} + +static void *start_block(void) +{ + u_char *end = out + MAX_OUTPUT_BLOCK_SIZE; + if (end > (u_char *)BASE_ADDR + (1<<TARGET_SIZE_2)) + end = (u_char *)BASE_ADDR + (1<<TARGET_SIZE_2); + start_tcache_write(out, end); + return out; +} + +static void end_block(void *start) +{ + end_tcache_write(start, out); +} //#define DEBUG_CYCLE_COUNT 1 @@ -306,87 +341,21 @@ static int CLOCK_ADJUST(int x) return (x * cycle_multiplier + s * 50) / 100; } -static void tlb_hacks() -{ -#ifndef DISABLE_TLB - // Goldeneye hack - if (strncmp((char *) ROM_HEADER->nom, "GOLDENEYE",9) == 0) - { - u_int addr; - int n; - switch (ROM_HEADER->Country_code&0xFF) - { - case 0x45: // U - addr=0x34b30; - break; - case 0x4A: // J - addr=0x34b70; - break; - case 0x50: // E - addr=0x329f0; - break; - default: - // Unknown country code - addr=0; - break; - } - u_int rom_addr=(u_int)rom; - #ifdef ROM_COPY - // Since memory_map is 32-bit, on 64-bit systems the rom needs to be - // in the lower 4G of memory to use this hack. Copy it if necessary. - if((void *)rom>(void *)0xffffffff) { - munmap(ROM_COPY, 67108864); - if(mmap(ROM_COPY, 12582912, - PROT_READ | PROT_WRITE, - MAP_FIXED | MAP_PRIVATE | MAP_ANONYMOUS, - -1, 0) <= 0) {printf("mmap() failed\n");} - memcpy(ROM_COPY,rom,12582912); - rom_addr=(u_int)ROM_COPY; - } - #endif - if(addr) { - for(n=0x7F000;n<0x80000;n++) { - memory_map[n]=(((u_int)(rom_addr+addr-0x7F000000))>>2)|0x40000000; - } - } - } -#endif -} - static u_int get_page(u_int vaddr) { -#ifndef PCSX - u_int page=(vaddr^0x80000000)>>12; -#else u_int page=vaddr&~0xe0000000; if (page < 0x1000000) page &= ~0x0e00000; // RAM mirrors page>>=12; -#endif -#ifndef DISABLE_TLB - if(page>262143&&tlb_LUT_r[vaddr>>12]) page=(tlb_LUT_r[vaddr>>12]^0x80000000)>>12; -#endif if(page>2048) page=2048+(page&2047); return page; } -#ifndef PCSX -static u_int get_vpage(u_int vaddr) -{ - u_int vpage=(vaddr^0x80000000)>>12; -#ifndef DISABLE_TLB - if(vpage>262143&&tlb_LUT_r[vaddr>>12]) vpage&=2047; // jump_dirty uses a hash of the virtual address instead -#endif - if(vpage>2048) vpage=2048+(vpage&2047); - return vpage; -} -#else // no virtual mem in PCSX static u_int get_vpage(u_int vaddr) { return get_page(vaddr); } -#endif // Get address from virtual address // This is called from the recompiled JR/JALR instructions @@ -400,10 +369,10 @@ void *get_addr(u_int vaddr) while(head!=NULL) { if(head->vaddr==vaddr) { //printf("TRACE: count=%d next=%d (get_addr match %x: %x)\n",Count,next_interupt,vaddr,(int)head->addr); - int *ht_bin=hash_table[((vaddr>>16)^vaddr)&0xFFFF]; + u_int *ht_bin=hash_table[((vaddr>>16)^vaddr)&0xFFFF]; ht_bin[3]=ht_bin[1]; ht_bin[2]=ht_bin[0]; - ht_bin[1]=(int)head->addr; + ht_bin[1]=(u_int)head->addr; ht_bin[0]=vaddr; return head->addr; } @@ -419,22 +388,13 @@ void *get_addr(u_int vaddr) //printf("restore candidate: %x (%d) d=%d\n",vaddr,page,invalid_code[vaddr>>12]); invalid_code[vaddr>>12]=0; inv_code_start=inv_code_end=~0; -#ifndef DISABLE_TLB - memory_map[vaddr>>12]|=0x40000000; -#endif if(vpage<2048) { -#ifndef DISABLE_TLB - if(tlb_LUT_r[vaddr>>12]) { - invalid_code[tlb_LUT_r[vaddr>>12]>>12]=0; - memory_map[tlb_LUT_r[vaddr>>12]>>12]|=0x40000000; - } -#endif restore_candidate[vpage>>3]|=1<<(vpage&7); } else restore_candidate[page>>3]|=1<<(page&7); - int *ht_bin=hash_table[((vaddr>>16)^vaddr)&0xFFFF]; + u_int *ht_bin=hash_table[((vaddr>>16)^vaddr)&0xFFFF]; if(ht_bin[0]==vaddr) { - ht_bin[1]=(int)head->addr; // Replace existing entry + ht_bin[1]=(u_int)head->addr; // Replace existing entry } else { @@ -464,7 +424,7 @@ void *get_addr(u_int vaddr) void *get_addr_ht(u_int vaddr) { //printf("TRACE: count=%d next=%d (get_addr_ht %x)\n",Count,next_interupt,vaddr); - int *ht_bin=hash_table[((vaddr>>16)^vaddr)&0xFFFF]; + u_int *ht_bin=hash_table[((vaddr>>16)^vaddr)&0xFFFF]; if(ht_bin[0]==vaddr) return (void *)ht_bin[1]; if(ht_bin[2]==vaddr) return (void *)ht_bin[3]; return get_addr(vaddr); @@ -526,7 +486,7 @@ static void flush_dirty_uppers(struct regstat *cur) for (hr=0;hr<HOST_REGS;hr++) { if((cur->dirty>>hr)&1) { reg=cur->regmap[hr]; - if(reg>=64) + if(reg>=64) if((cur->is32>>(reg&63))&1) cur->regmap[hr]=-1; } } @@ -665,10 +625,6 @@ void lsn(u_char hsn[], int i, int *preferred_reg) if(opcode[i]==0x2a||opcode[i]==0x2e||opcode[i]==0x2c||opcode[i]==0x2d) { hsn[FTEMP]=0; } - // Don't remove the TLB registers either - if(itype[i]==LOAD || itype[i]==LOADLR || itype[i]==STORE || itype[i]==STORELR || itype[i]==C1LS || itype[i]==C2LS) { - hsn[TLREG]=0; - } // Don't remove the miniht registers if(itype[i]==UJUMP||itype[i]==RJUMP) { @@ -683,7 +639,7 @@ int needed_again(int r, int i) int j; int b=-1; int rn=10; - + if(i>0&&(itype[i-1]==UJUMP||itype[i-1]==RJUMP||(source[i-1]>>16)==0x1000)) { if(ba[i-1]<start || ba[i-1]>start+slen*4-4) @@ -736,6 +692,7 @@ int needed_again(int r, int i) } }*/ if(rn<10) return 1; + (void)b; return 0; } @@ -786,7 +743,7 @@ int loop_reg(int i, int r, int hr) void alloc_all(struct regstat *cur,int i) { int hr; - + for(hr=0;hr<HOST_REGS;hr++) { if(hr!=EXCLUDE_REG) { if(((cur->regmap[hr]&63)!=rs1[i])&&((cur->regmap[hr]&63)!=rs2[i])&& @@ -805,119 +762,6 @@ void alloc_all(struct regstat *cur,int i) } } -#ifndef FORCE32 -void div64(int64_t dividend,int64_t divisor) -{ - lo=dividend/divisor; - hi=dividend%divisor; - //printf("TRACE: ddiv %8x%8x %8x%8x\n" ,(int)reg[HIREG],(int)(reg[HIREG]>>32) - // ,(int)reg[LOREG],(int)(reg[LOREG]>>32)); -} -void divu64(uint64_t dividend,uint64_t divisor) -{ - lo=dividend/divisor; - hi=dividend%divisor; - //printf("TRACE: ddivu %8x%8x %8x%8x\n",(int)reg[HIREG],(int)(reg[HIREG]>>32) - // ,(int)reg[LOREG],(int)(reg[LOREG]>>32)); -} - -void mult64(uint64_t m1,uint64_t m2) -{ - unsigned long long int op1, op2, op3, op4; - unsigned long long int result1, result2, result3, result4; - unsigned long long int temp1, temp2, temp3, temp4; - int sign = 0; - - if (m1 < 0) - { - op2 = -m1; - sign = 1 - sign; - } - else op2 = m1; - if (m2 < 0) - { - op4 = -m2; - sign = 1 - sign; - } - else op4 = m2; - - op1 = op2 & 0xFFFFFFFF; - op2 = (op2 >> 32) & 0xFFFFFFFF; - op3 = op4 & 0xFFFFFFFF; - op4 = (op4 >> 32) & 0xFFFFFFFF; - - temp1 = op1 * op3; - temp2 = (temp1 >> 32) + op1 * op4; - temp3 = op2 * op3; - temp4 = (temp3 >> 32) + op2 * op4; - - result1 = temp1 & 0xFFFFFFFF; - result2 = temp2 + (temp3 & 0xFFFFFFFF); - result3 = (result2 >> 32) + temp4; - result4 = (result3 >> 32); - - lo = result1 | (result2 << 32); - hi = (result3 & 0xFFFFFFFF) | (result4 << 32); - if (sign) - { - hi = ~hi; - if (!lo) hi++; - else lo = ~lo + 1; - } -} - -void multu64(uint64_t m1,uint64_t m2) -{ - unsigned long long int op1, op2, op3, op4; - unsigned long long int result1, result2, result3, result4; - unsigned long long int temp1, temp2, temp3, temp4; - - op1 = m1 & 0xFFFFFFFF; - op2 = (m1 >> 32) & 0xFFFFFFFF; - op3 = m2 & 0xFFFFFFFF; - op4 = (m2 >> 32) & 0xFFFFFFFF; - - temp1 = op1 * op3; - temp2 = (temp1 >> 32) + op1 * op4; - temp3 = op2 * op3; - temp4 = (temp3 >> 32) + op2 * op4; - - result1 = temp1 & 0xFFFFFFFF; - result2 = temp2 + (temp3 & 0xFFFFFFFF); - result3 = (result2 >> 32) + temp4; - result4 = (result3 >> 32); - - lo = result1 | (result2 << 32); - hi = (result3 & 0xFFFFFFFF) | (result4 << 32); - - //printf("TRACE: dmultu %8x%8x %8x%8x\n",(int)reg[HIREG],(int)(reg[HIREG]>>32) - // ,(int)reg[LOREG],(int)(reg[LOREG]>>32)); -} - -uint64_t ldl_merge(uint64_t original,uint64_t loaded,u_int bits) -{ - if(bits) { - original<<=64-bits; - original>>=64-bits; - loaded<<=bits; - original|=loaded; - } - else original=loaded; - return original; -} -uint64_t ldr_merge(uint64_t original,uint64_t loaded,u_int bits) -{ - if(bits^56) { - original>>=64-(bits^56); - original<<=64-(bits^56); - loaded>>=bits^56; - original|=loaded; - } - else original=loaded; - return original; -} -#endif - #ifdef __i386__ #include "assem_x86.c" #endif @@ -996,7 +840,7 @@ void *check_addr(u_int vaddr) void remove_hash(int vaddr) { //printf("remove hash: %x\n",vaddr); - int *ht_bin=hash_table[(((vaddr)>>16)^vaddr)&0xFFFF]; + u_int *ht_bin=hash_table[(((vaddr)>>16)^vaddr)&0xFFFF]; if(ht_bin[2]==vaddr) { ht_bin[2]=ht_bin[3]=-1; } @@ -1011,7 +855,7 @@ void ll_remove_matching_addrs(struct ll_entry **head,int addr,int shift) { struct ll_entry *next; while(*head) { - if(((u_int)((*head)->addr)>>shift)==(addr>>shift) || + if(((u_int)((*head)->addr)>>shift)==(addr>>shift) || ((u_int)((*head)->addr-MAX_OUTPUT_BLOCK_SIZE)>>shift)==(addr>>shift)) { inv_debug("EXP: Remove pointer to %x (%x)\n",(int)(*head)->addr,(*head)->vaddr); @@ -1032,7 +876,7 @@ void ll_clear(struct ll_entry **head) { struct ll_entry *cur; struct ll_entry *next; - if(cur=*head) { + if((cur=*head)) { *head=0; while(cur) { next=cur->next; @@ -1043,7 +887,7 @@ void ll_clear(struct ll_entry **head) } // Dereference the pointers and remove if it matches -void ll_kill_pointers(struct ll_entry *head,int addr,int shift) +static void ll_kill_pointers(struct ll_entry *head,int addr,int shift) { while(head) { int ptr=get_pointer(head->addr); @@ -1052,10 +896,11 @@ void ll_kill_pointers(struct ll_entry *head,int addr,int shift) (((ptr-MAX_OUTPUT_BLOCK_SIZE)>>shift)==(addr>>shift))) { inv_debug("EXP: Kill pointer at %x (%x)\n",(int)head->addr,head->vaddr); - u_int host_addr=(u_int)kill_pointer(head->addr); + void *host_addr=find_extjump_insn(head->addr); #ifdef __arm__ - needs_clear_cache[(host_addr-(u_int)BASE_ADDR)>>17]|=1<<(((host_addr-(u_int)BASE_ADDR)>>12)&31); + mark_clear_cache(host_addr); #endif + set_jump_target((int)host_addr,(int)head->addr); } head=head->next; } @@ -1079,10 +924,11 @@ void invalidate_page(u_int page) jump_out[page]=0; while(head!=NULL) { inv_debug("INVALIDATE: kill pointer to %x (%x)\n",head->vaddr,(int)head->addr); - u_int host_addr=(u_int)kill_pointer(head->addr); + void *host_addr=find_extjump_insn(head->addr); #ifdef __arm__ - needs_clear_cache[(host_addr-(u_int)BASE_ADDR)>>17]|=1<<(((host_addr-(u_int)BASE_ADDR)>>12)&31); + mark_clear_cache(host_addr); #endif + set_jump_target((int)host_addr,(int)head->addr); next=head->next; free(head); head=next; @@ -1107,21 +953,9 @@ static void invalidate_block_range(u_int block, u_int first, u_int last) #ifdef __arm__ do_clear_cache(); #endif - + // Don't trap writes invalid_code[block]=1; -#ifndef DISABLE_TLB - // If there is a valid TLB entry for this page, remove write protect - if(tlb_LUT_w[block]) { - assert(tlb_LUT_r[block]==tlb_LUT_w[block]); - // CHECK: Is this right? - memory_map[block]=((tlb_LUT_w[block]&0xFFFFF000)-(block<<12)+(unsigned int)rdram-0x80000000)>>2; - u_int real_block=tlb_LUT_w[block]>>12; - invalid_code[real_block]=1; - if(real_block>=0x80000&&real_block<0x80800) memory_map[real_block]=((u_int)rdram-0x80000000)>>2; - } - else if(block>=0x80000&&block<0x80800) memory_map[block]=((u_int)rdram-0x80000000)>>2; -#endif #ifdef USE_MINI_HT memset(mini_ht,-1,sizeof(mini_ht)); @@ -1150,14 +984,6 @@ void invalidate_block(u_int block) if((((end-1-(u_int)rdram)>>12)&2047)>last) last=((end-1-(u_int)rdram)>>12)&2047; } } -#ifndef DISABLE_TLB - if(page<2048&&(signed int)start>=(signed int)0xC0000000&&(signed int)end>=(signed int)0xC0000000) { - if(((start+memory_map[start>>12]-(u_int)rdram)>>12)<=page&&((end-1+memory_map[(end-1)>>12]-(u_int)rdram)>>12)>=page) { - if((((start+memory_map[start>>12]-(u_int)rdram)>>12)&2047)<first) first=((start+memory_map[start>>12]-(u_int)rdram)>>12)&2047; - if((((end-1+memory_map[(end-1)>>12]-(u_int)rdram)>>12)&2047)>last) last=((end-1+memory_map[(end-1)>>12]-(u_int)rdram)>>12)&2047; - } - } -#endif } head=head->next; } @@ -1166,7 +992,6 @@ void invalidate_block(u_int block) void invalidate_addr(u_int addr) { -#ifdef PCSX //static int rhits; // this check is done by the caller //if (inv_code_start<=addr&&addr<=inv_code_end) { rhits++; return; } @@ -1220,7 +1045,6 @@ void invalidate_addr(u_int addr) return; } } -#endif invalidate_block(addr>>12); } @@ -1228,7 +1052,7 @@ void invalidate_addr(u_int addr) // Anything could have changed, so invalidate everything. void invalidate_all_pages() { - u_int page,n; + u_int page; for(page=0;page<4096;page++) invalidate_page(page); for(page=0;page<1048576;page++) @@ -1236,25 +1060,9 @@ void invalidate_all_pages() restore_candidate[(page&2047)>>3]|=1<<(page&7); restore_candidate[((page&2047)>>3)+256]|=1<<(page&7); } - #ifdef __arm__ - __clear_cache((void *)BASE_ADDR,(void *)BASE_ADDR+(1<<TARGET_SIZE_2)); - #endif #ifdef USE_MINI_HT memset(mini_ht,-1,sizeof(mini_ht)); #endif - #ifndef DISABLE_TLB - // TLB - for(page=0;page<0x100000;page++) { - if(tlb_LUT_r[page]) { - memory_map[page]=((tlb_LUT_r[page]&0xFFFFF000)-(page<<12)+(unsigned int)rdram-0x80000000)>>2; - if(!tlb_LUT_w[page]||!invalid_code[page]) - memory_map[page]|=0x40000000; // Write protect - } - else memory_map[page]=-1; - if(page==0x80000) page=0xC0000; - } - tlb_hacks(); - #endif } // Add an entry to jump_out after making a link @@ -1264,6 +1072,7 @@ void add_link(u_int vaddr,void *src) inv_debug("add_link: %x -> %x (%d)\n",(int)src,vaddr,page); int *ptr=(int *)(src+4); assert((*ptr&0x0fff0000)==0x059f0000); + (void)ptr; ll_add(jump_out+page,vaddr,src); //int ptr=get_pointer(src); //inv_debug("add_link: Pointer is to %x\n",(int)ptr); @@ -1283,7 +1092,7 @@ void clean_blocks(u_int page) // Don't restore blocks which are about to expire from the cache if((((u_int)head->addr-(u_int)out)<<(32-TARGET_SIZE_2))>0x60000000+(MAX_OUTPUT_BLOCK_SIZE<<(32-TARGET_SIZE_2))) { u_int start,end; - if(verify_dirty((int)head->addr)) { + if(verify_dirty(head->addr)) { //printf("Possibly Restore %x (%x)\n",head->vaddr, (int)head->addr); u_int i; u_int inv=0; @@ -1293,13 +1102,6 @@ void clean_blocks(u_int page) inv|=invalid_code[i]; } } -#ifndef DISABLE_TLB - if((signed int)head->vaddr>=(signed int)0xC0000000) { - u_int addr = (head->vaddr+(memory_map[head->vaddr>>12]<<2)); - //printf("addr=%x start=%x end=%x\n",addr,start,end); - if(addr<start||addr>=end) inv=1; - } -#endif else if((signed int)head->vaddr>=(signed int)0x80000000+RAM_SIZE) { inv=1; } @@ -1307,19 +1109,16 @@ void clean_blocks(u_int page) void * clean_addr=(void *)get_clean_addr((int)head->addr); if((((u_int)clean_addr-(u_int)out)<<(32-TARGET_SIZE_2))>0x60000000+(MAX_OUTPUT_BLOCK_SIZE<<(32-TARGET_SIZE_2))) { u_int ppage=page; -#ifndef DISABLE_TLB - if(page<2048&&tlb_LUT_r[head->vaddr>>12]) ppage=(tlb_LUT_r[head->vaddr>>12]^0x80000000)>>12; -#endif inv_debug("INV: Restored %x (%x/%x)\n",head->vaddr, (int)head->addr, (int)clean_addr); //printf("page=%x, addr=%x\n",page,head->vaddr); //assert(head->vaddr>>12==(page|0x80000)); ll_add_flags(jump_in+ppage,head->vaddr,head->reg_sv_flags,clean_addr); - int *ht_bin=hash_table[((head->vaddr>>16)^head->vaddr)&0xFFFF]; + u_int *ht_bin=hash_table[((head->vaddr>>16)^head->vaddr)&0xFFFF]; if(ht_bin[0]==head->vaddr) { - ht_bin[1]=(int)clean_addr; // Replace existing entry + ht_bin[1]=(u_int)clean_addr; // Replace existing entry } if(ht_bin[2]==head->vaddr) { - ht_bin[3]=(int)clean_addr; // Replace existing entry + ht_bin[3]=(u_int)clean_addr; // Replace existing entry } } } @@ -1646,8 +1445,6 @@ void load_alloc(struct regstat *current,int i) } else current->is32|=1LL<<rt1[i]; dirty_reg(current,rt1[i]); - // If using TLB, need a register for pointer to the mapping table - if(using_tlb) alloc_reg(current,i,TLREG); // LWL/LWR need a temporary register for the old value if(opcode[i]==0x22||opcode[i]==0x26) { @@ -1664,8 +1461,6 @@ void load_alloc(struct regstat *current,int i) { alloc_reg(current,i,FTEMP); // LWL/LWR need another temporary } - // If using TLB, need a register for pointer to the mapping table - if(using_tlb) alloc_reg(current,i,TLREG); alloc_reg_temp(current,i,-1); minimum_free_regs[i]=1; if(opcode[i]==0x1A||opcode[i]==0x1B) // LDL/LDR @@ -1687,8 +1482,6 @@ void store_alloc(struct regstat *current,int i) alloc_reg64(current,i,rs2[i]); if(rs2[i]) alloc_reg(current,i,FTEMP); } - // If using TLB, need a register for pointer to the mapping table - if(using_tlb) alloc_reg(current,i,TLREG); #if defined(HOST_IMM8) // On CPUs without 32-bit immediates we need a pointer to invalid_code else alloc_reg(current,i,INVCP); @@ -1711,8 +1504,6 @@ void c1ls_alloc(struct regstat *current,int i) if(opcode[i]==0x35||opcode[i]==0x3d) { // 64-bit LDC1/SDC1 alloc_reg64(current,i,FTEMP); } - // If using TLB, need a register for pointer to the mapping table - if(using_tlb) alloc_reg(current,i,TLREG); #if defined(HOST_IMM8) // On CPUs without 32-bit immediates we need a pointer to invalid_code else if((opcode[i]&0x3b)==0x39) // SWC1/SDC1 @@ -1727,11 +1518,9 @@ void c2ls_alloc(struct regstat *current,int i) clear_const(current,rt1[i]); if(needed_again(rs1[i],i)) alloc_reg(current,i,rs1[i]); alloc_reg(current,i,FTEMP); - // If using TLB, need a register for pointer to the mapping table - if(using_tlb) alloc_reg(current,i,TLREG); #if defined(HOST_IMM8) // On CPUs without 32-bit immediates we need a pointer to invalid_code - else if((opcode[i]&0x3b)==0x3a) // SWC2/SDC2 + if((opcode[i]&0x3b)==0x3a) // SWC2/SDC2 alloc_reg(current,i,INVCP); #endif // We need a temporary register for address generation @@ -2024,7 +1813,7 @@ static void pagespan_alloc(struct regstat *current,int i) //else ... } -add_stub(int type,int addr,int retaddr,int a,int b,int c,int d,int e) +static void add_stub(int type,int addr,int retaddr,int a,int b,int c,int d,int e) { stubs[stubcount][0]=type; stubs[stubcount][1]=addr; @@ -2047,12 +1836,6 @@ void wb_register(signed char r,signed char regmap[],uint64_t dirty,uint64_t is32 if((dirty>>hr)&1) { if(regmap[hr]<64) { emit_storereg(r,hr); -#ifndef FORCE32 - if((is32>>regmap[hr])&1) { - emit_sarimm(hr,31,hr); - emit_storereg(r|64,hr); - } -#endif }else{ emit_storereg(r|64,hr); } @@ -2090,12 +1873,6 @@ void rlist() for(i=0;i<32;i++) printf("r%d:%8x%8x ",i,((int *)(reg+i))[1],((int *)(reg+i))[0]); printf("\n"); -#ifndef DISABLE_COP1 - printf("TRACE: "); - for(i=0;i<32;i++) - printf("f%d:%8x%8x ",i,((int*)reg_cop1_simple[i])[1],*((int*)reg_cop1_simple[i])); - printf("\n"); -#endif } void enabletrace() @@ -2129,11 +1906,6 @@ void memdebug(int i) //printf("TRACE: %x\n",(&i)[-1]); } -void tlb_debug(u_int cause, u_int addr, u_int iaddr) -{ - printf("TLB Exception: instruction=%x addr=%x cause=%x\n",iaddr, addr, cause); -} - void alu_assemble(int i,struct regstat *i_regs) { if(opcode2[i]>=0x20&&opcode2[i]<=0x23) { // ADD/ADDU/SUB/SUBU @@ -2620,23 +2392,25 @@ void imm16_assemble(int i,struct regstat *i_regs) emit_mov(sh,th); } } - if(opcode[i]==0x0d) //ORI - if(sl<0) { - emit_orimm(tl,imm[i],tl); - }else{ - if(!((i_regs->wasconst>>sl)&1)) - emit_orimm(sl,imm[i],tl); - else - emit_movimm(constmap[i][sl]|imm[i],tl); + if(opcode[i]==0x0d) { // ORI + if(sl<0) { + emit_orimm(tl,imm[i],tl); + }else{ + if(!((i_regs->wasconst>>sl)&1)) + emit_orimm(sl,imm[i],tl); + else + emit_movimm(constmap[i][sl]|imm[i],tl); + } } - if(opcode[i]==0x0e) //XORI - if(sl<0) { - emit_xorimm(tl,imm[i],tl); - }else{ - if(!((i_regs->wasconst>>sl)&1)) - emit_xorimm(sl,imm[i],tl); - else - emit_movimm(constmap[i][sl]^imm[i],tl); + if(opcode[i]==0x0e) { // XORI + if(sl<0) { + emit_xorimm(tl,imm[i],tl); + }else{ + if(!((i_regs->wasconst>>sl)&1)) + emit_xorimm(sl,imm[i],tl); + else + emit_movimm(constmap[i][sl]^imm[i],tl); + } } } else { @@ -2815,14 +2589,12 @@ void load_assemble(int i,struct regstat *i_regs) c=(i_regs->wasconst>>s)&1; if (c) { memtarget=((signed int)(constmap[i][s]+offset))<(signed int)0x80000000+RAM_SIZE; - if(using_tlb&&((signed int)(constmap[i][s]+offset))>=(signed int)0xC0000000) memtarget=1; } } //printf("load_assemble: c=%d\n",c); //if(c) printf("load_assemble: const=%x\n",(int)constmap[i][s]+offset); // FIXME: Even if the load is a NOP, we should check for pagefaults... -#ifdef PCSX - if(tl<0&&(!c||(((u_int)constmap[i][s]+offset)>>16)==0x1f80) + if((tl<0&&(!c||(((u_int)constmap[i][s]+offset)>>16)==0x1f80)) ||rt1[i]==0) { // could be FIFO, must perform the read // ||dummy read @@ -2830,7 +2602,6 @@ void load_assemble(int i,struct regstat *i_regs) tl=get_reg(i_regs->regmap,-1); assert(tl>=0); } -#endif if(offset||s<0||c) addr=tl; else addr=s; //if(tl<0) tl=get_reg(i_regs->regmap,-1); @@ -2840,34 +2611,22 @@ void load_assemble(int i,struct regstat *i_regs) assert(tl>=0); // Even if the load is a NOP, we must check for pagefaults and I/O reglist&=~(1<<tl); if(th>=0) reglist&=~(1<<th); - if(!using_tlb) { - if(!c) { - #ifdef RAM_OFFSET - map=get_reg(i_regs->regmap,ROREG); - if(map<0) emit_loadreg(ROREG,map=HOST_TEMPREG); - #endif -//#define R29_HACK 1 - #ifdef R29_HACK - // Strmnnrmn's speed hack - if(rs1[i]!=29||start<0x80001000||start>=0x80000000+RAM_SIZE) - #endif - { - jaddr=emit_fastpath_cmp_jump(i,addr,&fastload_reg_override); - } + if(!c) { + #ifdef RAM_OFFSET + map=get_reg(i_regs->regmap,ROREG); + if(map<0) emit_loadreg(ROREG,map=HOST_TEMPREG); + #endif + #ifdef R29_HACK + // Strmnnrmn's speed hack + if(rs1[i]!=29||start<0x80001000||start>=0x80000000+RAM_SIZE) + #endif + { + jaddr=emit_fastpath_cmp_jump(i,addr,&fastload_reg_override); } - else if(ram_offset&&memtarget) { - emit_addimm(addr,ram_offset,HOST_TEMPREG); - fastload_reg_override=HOST_TEMPREG; - } - }else{ // using tlb - int x=0; - if (opcode[i]==0x20||opcode[i]==0x24) x=3; // LB/LBU - if (opcode[i]==0x21||opcode[i]==0x25) x=2; // LH/LHU - map=get_reg(i_regs->regmap,TLREG); - assert(map>=0); - reglist&=~(1<<map); - map=do_tlb_r(addr,tl,map,x,-1,-1,c,constmap[i][s]+offset); - do_tlb_r_branch(map,c,constmap[i][s]+offset,&jaddr); + } + else if(ram_offset&&memtarget) { + emit_addimm(addr,ram_offset,HOST_TEMPREG); + fastload_reg_override=HOST_TEMPREG; } int dummy=(rt1[i]==0)||(tl!=get_reg(i_regs->regmap,rt1[i])); // ignore loads to r0 and unneeded reg if (opcode[i]==0x20) { // LB @@ -2880,7 +2639,6 @@ void load_assemble(int i,struct regstat *i_regs) #endif { //emit_xorimm(addr,3,tl); - //gen_tlb_addr_r(tl,map); //emit_movsbl_indexed((int)rdram-0x80000000,tl,tl); int x=0,a=tl; #ifdef BIG_ENDIAN_MIPS @@ -2921,7 +2679,6 @@ void load_assemble(int i,struct regstat *i_regs) //emit_movswl_indexed_tlb(x,tl,map,tl); //else if(map>=0) { - gen_tlb_addr_r(a,map); emit_movswl_indexed(x,a,tl); }else{ #if 1 //def RAM_OFFSET @@ -2967,7 +2724,6 @@ void load_assemble(int i,struct regstat *i_regs) #endif { //emit_xorimm(addr,3,tl); - //gen_tlb_addr_r(tl,map); //emit_movzbl_indexed((int)rdram-0x80000000,tl,tl); int x=0,a=tl; #ifdef BIG_ENDIAN_MIPS @@ -3008,7 +2764,6 @@ void load_assemble(int i,struct regstat *i_regs) //emit_movzwl_indexed_tlb(x,tl,map,tl); //#else if(map>=0) { - gen_tlb_addr_r(a,map); emit_movzwl_indexed(x,a,tl); }else{ #if 1 //def RAM_OFFSET @@ -3052,7 +2807,6 @@ void load_assemble(int i,struct regstat *i_regs) if(!dummy) { int a=addr; if(fastload_reg_override) a=fastload_reg_override; - //gen_tlb_addr_r(tl,map); //if(th>=0) emit_readword_indexed((int)rdram-0x80000000,addr,th); //emit_readword_indexed((int)rdram-0x7FFFFFFC,addr,tl); #ifdef HOST_IMM_ADDR32 @@ -3097,7 +2851,7 @@ void load_assemble(int i,struct regstat *i_regs) emit_call((int)memdebug); //emit_popa(); restore_regs(0x100f); - }/**/ + }*/ } #ifndef loadlr_assemble @@ -3113,7 +2867,7 @@ void store_assemble(int i,struct regstat *i_regs) int s,th,tl,map=-1; int addr,temp; int offset; - int jaddr=0,jaddr2,type; + int jaddr=0,type; int memtarget=0,c=0; int agr=AGEN1+(i&1); int faststore_reg_override=0; @@ -3128,7 +2882,6 @@ void store_assemble(int i,struct regstat *i_regs) c=(i_regs->wasconst>>s)&1; if(c) { memtarget=((signed int)(constmap[i][s]+offset))<(signed int)0x80000000+RAM_SIZE; - if(using_tlb&&((signed int)(constmap[i][s]+offset))>=(signed int)0xC0000000) memtarget=1; } } assert(tl>=0); @@ -3139,48 +2892,12 @@ void store_assemble(int i,struct regstat *i_regs) if(i_regs->regmap[HOST_CCREG]==CCREG) reglist&=~(1<<HOST_CCREG); if(offset||s<0||c) addr=temp; else addr=s; - if(!using_tlb) { - if(!c) { - #ifndef PCSX - #ifdef R29_HACK - // Strmnnrmn's speed hack - if(rs1[i]!=29||start<0x80001000||start>=0x80000000+RAM_SIZE) - #endif - emit_cmpimm(addr,RAM_SIZE); - #ifdef DESTRUCTIVE_SHIFT - if(s==addr) emit_mov(s,temp); - #endif - #ifdef R29_HACK - memtarget=1; - if(rs1[i]!=29||start<0x80001000||start>=0x80000000+RAM_SIZE) - #endif - { - jaddr=(int)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); - } - #else - jaddr=emit_fastpath_cmp_jump(i,addr,&faststore_reg_override); - #endif - } - else if(ram_offset&&memtarget) { - emit_addimm(addr,ram_offset,HOST_TEMPREG); - faststore_reg_override=HOST_TEMPREG; - } - }else{ // using tlb - int x=0; - if (opcode[i]==0x28) x=3; // SB - if (opcode[i]==0x29) x=2; // SH - map=get_reg(i_regs->regmap,TLREG); - assert(map>=0); - reglist&=~(1<<map); - map=do_tlb_w(addr,temp,map,x,c,constmap[i][s]+offset); - do_tlb_w_branch(map,c,constmap[i][s]+offset,&jaddr); + if(!c) { + jaddr=emit_fastpath_cmp_jump(i,addr,&faststore_reg_override); + } + else if(ram_offset&&memtarget) { + emit_addimm(addr,ram_offset,HOST_TEMPREG); + faststore_reg_override=HOST_TEMPREG; } if (opcode[i]==0x28) { // SB @@ -3193,7 +2910,6 @@ void store_assemble(int i,struct regstat *i_regs) if(!c) a=addr; #endif if(faststore_reg_override) a=faststore_reg_override; - //gen_tlb_addr_w(temp,map); //emit_writebyte_indexed(tl,(int)rdram-0x80000000,temp); emit_writebyte_indexed_tlb(tl,x,a,map,a); } @@ -3213,7 +2929,6 @@ void store_assemble(int i,struct regstat *i_regs) //emit_writehword_indexed_tlb(tl,x,temp,map,temp); //#else if(map>=0) { - gen_tlb_addr_w(a,map); emit_writehword_indexed(tl,x,a); }else //emit_writehword_indexed(tl,(int)rdram-0x80000000+x,a); @@ -3248,15 +2963,13 @@ void store_assemble(int i,struct regstat *i_regs) } type=STORED_STUB; } -#ifdef PCSX if(jaddr) { // PCSX store handlers don't check invcode again reglist|=1<<addr; add_stub(type,jaddr,(int)out,i,addr,(int)i_regs,ccadj[i],reglist); jaddr=0; } -#endif - if(!using_tlb&&!(i_regs->waswritten&(1<<rs1[i]))&&!(new_dynarec_hacks&NDHACK_NO_SMC_CHECK)) { + if(!(i_regs->waswritten&(1<<rs1[i]))&&!(new_dynarec_hacks&NDHACK_NO_SMC_CHECK)) { if(!c||memtarget) { #ifdef DESTRUCTIVE_SHIFT // The x86 shift operation is 'destructive'; it overwrites the @@ -3273,7 +2986,7 @@ void store_assemble(int i,struct regstat *i_regs) #if defined(HAVE_CONDITIONAL_CALL) && !defined(DESTRUCTIVE_SHIFT) emit_callne(invalidate_addr_reg[addr]); #else - jaddr2=(int)out; + int jaddr2=(int)out; emit_jne(0); add_stub(INVCODE_STUB,jaddr2,(int)out,reglist|(1<<HOST_CCREG),addr,0,0,0); #endif @@ -3334,16 +3047,16 @@ void store_assemble(int i,struct regstat *i_regs) #ifdef __arm__ restore_regs(0x100f); #endif - }/**/ + }*/ } void storelr_assemble(int i,struct regstat *i_regs) { int s,th,tl; int temp; - int temp2; + int temp2=-1; int offset; - int jaddr=0,jaddr2; + int jaddr=0; int case1,case2,case3; int done0,done1,done2; int memtarget=0,c=0; @@ -3359,7 +3072,6 @@ void storelr_assemble(int i,struct regstat *i_regs) c=(i_regs->isconst>>s)&1; if(c) { memtarget=((signed int)(constmap[i][s]+offset))<(signed int)0x80000000+RAM_SIZE; - if(using_tlb&&((signed int)(constmap[i][s]+offset))>=(signed int)0xC0000000) memtarget=1; } } assert(tl>=0); @@ -3367,41 +3079,26 @@ void storelr_assemble(int i,struct regstat *i_regs) if(i_regs->regmap[hr]>=0) reglist|=1<<hr; } assert(temp>=0); - if(!using_tlb) { - if(!c) { - emit_cmpimm(s<0||offset?temp:s,RAM_SIZE); - if(!offset&&s!=temp) emit_mov(s,temp); - jaddr=(int)out; - emit_jno(0); - } - else - { - if(!memtarget||!rs1[i]) { - jaddr=(int)out; - emit_jmp(0); - } - } - #ifdef RAM_OFFSET - int map=get_reg(i_regs->regmap,ROREG); - if(map<0) emit_loadreg(ROREG,map=HOST_TEMPREG); - gen_tlb_addr_w(temp,map); - #else - if((u_int)rdram!=0x80000000) - emit_addimm_no_flags((u_int)rdram-(u_int)0x80000000,temp); - #endif - }else{ // using tlb - int map=get_reg(i_regs->regmap,TLREG); - assert(map>=0); - reglist&=~(1<<map); - map=do_tlb_w(c||s<0||offset?temp:s,temp,map,0,c,constmap[i][s]+offset); - if(!c&&!offset&&s>=0) emit_mov(s,temp); - do_tlb_w_branch(map,c,constmap[i][s]+offset,&jaddr); - if(!jaddr&&!memtarget) { + if(!c) { + emit_cmpimm(s<0||offset?temp:s,RAM_SIZE); + if(!offset&&s!=temp) emit_mov(s,temp); + jaddr=(int)out; + emit_jno(0); + } + else + { + if(!memtarget||!rs1[i]) { jaddr=(int)out; emit_jmp(0); } - gen_tlb_addr_w(temp,map); } + #ifdef RAM_OFFSET + int map=get_reg(i_regs->regmap,ROREG); + if(map<0) emit_loadreg(ROREG,map=HOST_TEMPREG); + #else + if((u_int)rdram!=0x80000000) + emit_addimm_no_flags((u_int)rdram-(u_int)0x80000000,temp); + #endif if (opcode[i]==0x2C||opcode[i]==0x2D) { // SDL/SDR temp2=get_reg(i_regs->regmap,FTEMP); @@ -3544,7 +3241,7 @@ void storelr_assemble(int i,struct regstat *i_regs) } if(!c||!memtarget) add_stub(STORELR_STUB,jaddr,(int)out,i,(int)i_regs,temp,ccadj[i],reglist); - if(!using_tlb&&!(i_regs->waswritten&(1<<rs1[i]))&&!(new_dynarec_hacks&NDHACK_NO_SMC_CHECK)) { + if(!(i_regs->waswritten&(1<<rs1[i]))&&!(new_dynarec_hacks&NDHACK_NO_SMC_CHECK)) { #ifdef RAM_OFFSET int map=get_reg(i_regs->regmap,ROREG); if(map<0) map=HOST_TEMPREG; @@ -3562,7 +3259,7 @@ void storelr_assemble(int i,struct regstat *i_regs) #if defined(HAVE_CONDITIONAL_CALL) && !defined(DESTRUCTIVE_SHIFT) emit_callne(invalidate_addr_reg[temp]); #else - jaddr2=(int)out; + int jaddr2=(int)out; emit_jne(0); add_stub(INVCODE_STUB,jaddr2,(int)out,reglist|(1<<HOST_CCREG),temp,0,0,0); #endif @@ -3579,194 +3276,12 @@ void storelr_assemble(int i,struct regstat *i_regs) emit_call((int)memdebug); emit_popa(); //restore_regs(0x100f); - /**/ + */ } void c1ls_assemble(int i,struct regstat *i_regs) { -#ifndef DISABLE_COP1 - int s,th,tl; - int temp,ar; - int map=-1; - int offset; - int c=0; - int jaddr,jaddr2=0,jaddr3,type; - int agr=AGEN1+(i&1); - u_int hr,reglist=0; - th=get_reg(i_regs->regmap,FTEMP|64); - tl=get_reg(i_regs->regmap,FTEMP); - s=get_reg(i_regs->regmap,rs1[i]); - temp=get_reg(i_regs->regmap,agr); - if(temp<0) temp=get_reg(i_regs->regmap,-1); - offset=imm[i]; - assert(tl>=0); - assert(rs1[i]>0); - assert(temp>=0); - for(hr=0;hr<HOST_REGS;hr++) { - if(i_regs->regmap[hr]>=0) reglist|=1<<hr; - } - if(i_regs->regmap[HOST_CCREG]==CCREG) reglist&=~(1<<HOST_CCREG); - if (opcode[i]==0x31||opcode[i]==0x35) // LWC1/LDC1 - { - // Loads use a temporary register which we need to save - reglist|=1<<temp; - } - if (opcode[i]==0x39||opcode[i]==0x3D) // SWC1/SDC1 - ar=temp; - else // LWC1/LDC1 - ar=tl; - //if(s<0) emit_loadreg(rs1[i],ar); //address_generation does this now - //else c=(i_regs->wasconst>>s)&1; - if(s>=0) c=(i_regs->wasconst>>s)&1; - // Check cop1 unusable - if(!cop1_usable) { - signed char rs=get_reg(i_regs->regmap,CSREG); - assert(rs>=0); - emit_testimm(rs,0x20000000); - jaddr=(int)out; - emit_jeq(0); - add_stub(FP_STUB,jaddr,(int)out,i,rs,(int)i_regs,is_delayslot,0); - cop1_usable=1; - } - if (opcode[i]==0x39) { // SWC1 (get float address) - emit_readword((int)®_cop1_simple[(source[i]>>16)&0x1f],tl); - } - if (opcode[i]==0x3D) { // SDC1 (get double address) - emit_readword((int)®_cop1_double[(source[i]>>16)&0x1f],tl); - } - // Generate address + offset - if(!using_tlb) { - if(!c) - emit_cmpimm(offset||c||s<0?ar:s,RAM_SIZE); - } - else - { - map=get_reg(i_regs->regmap,TLREG); - assert(map>=0); - reglist&=~(1<<map); - if (opcode[i]==0x31||opcode[i]==0x35) { // LWC1/LDC1 - map=do_tlb_r(offset||c||s<0?ar:s,ar,map,0,-1,-1,c,constmap[i][s]+offset); - } - if (opcode[i]==0x39||opcode[i]==0x3D) { // SWC1/SDC1 - map=do_tlb_w(offset||c||s<0?ar:s,ar,map,0,c,constmap[i][s]+offset); - } - } - if (opcode[i]==0x39) { // SWC1 (read float) - emit_readword_indexed(0,tl,tl); - } - if (opcode[i]==0x3D) { // SDC1 (read double) - emit_readword_indexed(4,tl,th); - emit_readword_indexed(0,tl,tl); - } - if (opcode[i]==0x31) { // LWC1 (get target address) - emit_readword((int)®_cop1_simple[(source[i]>>16)&0x1f],temp); - } - if (opcode[i]==0x35) { // LDC1 (get target address) - emit_readword((int)®_cop1_double[(source[i]>>16)&0x1f],temp); - } - if(!using_tlb) { - if(!c) { - jaddr2=(int)out; - emit_jno(0); - } - else if(((signed int)(constmap[i][s]+offset))>=(signed int)0x80000000+RAM_SIZE) { - jaddr2=(int)out; - emit_jmp(0); // inline_readstub/inline_writestub? Very rare case - } - #ifdef DESTRUCTIVE_SHIFT - if (opcode[i]==0x39||opcode[i]==0x3D) { // SWC1/SDC1 - if(!offset&&!c&&s>=0) emit_mov(s,ar); - } - #endif - }else{ - if (opcode[i]==0x31||opcode[i]==0x35) { // LWC1/LDC1 - do_tlb_r_branch(map,c,constmap[i][s]+offset,&jaddr2); - } - if (opcode[i]==0x39||opcode[i]==0x3D) { // SWC1/SDC1 - do_tlb_w_branch(map,c,constmap[i][s]+offset,&jaddr2); - } - } - if (opcode[i]==0x31) { // LWC1 - //if(s>=0&&!c&&!offset) emit_mov(s,tl); - //gen_tlb_addr_r(ar,map); - //emit_readword_indexed((int)rdram-0x80000000,tl,tl); - #ifdef HOST_IMM_ADDR32 - if(c) emit_readword_tlb(constmap[i][s]+offset,map,tl); - else - #endif - emit_readword_indexed_tlb(0,offset||c||s<0?tl:s,map,tl); - type=LOADW_STUB; - } - if (opcode[i]==0x35) { // LDC1 - assert(th>=0); - //if(s>=0&&!c&&!offset) emit_mov(s,tl); - //gen_tlb_addr_r(ar,map); - //emit_readword_indexed((int)rdram-0x80000000,tl,th); - //emit_readword_indexed((int)rdram-0x7FFFFFFC,tl,tl); - #ifdef HOST_IMM_ADDR32 - if(c) emit_readdword_tlb(constmap[i][s]+offset,map,th,tl); - else - #endif - emit_readdword_indexed_tlb(0,offset||c||s<0?tl:s,map,th,tl); - type=LOADD_STUB; - } - if (opcode[i]==0x39) { // SWC1 - //emit_writeword_indexed(tl,(int)rdram-0x80000000,temp); - emit_writeword_indexed_tlb(tl,0,offset||c||s<0?temp:s,map,temp); - type=STOREW_STUB; - } - if (opcode[i]==0x3D) { // SDC1 - assert(th>=0); - //emit_writeword_indexed(th,(int)rdram-0x80000000,temp); - //emit_writeword_indexed(tl,(int)rdram-0x7FFFFFFC,temp); - emit_writedword_indexed_tlb(th,tl,0,offset||c||s<0?temp:s,map,temp); - type=STORED_STUB; - } - if(!using_tlb&&!(i_regs->waswritten&(1<<rs1[i]))&&!(new_dynarec_hacks&NDHACK_NO_SMC_CHECK)) { - if (opcode[i]==0x39||opcode[i]==0x3D) { // SWC1/SDC1 - #ifndef DESTRUCTIVE_SHIFT - temp=offset||c||s<0?ar:s; - #endif - #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((int)invalid_code,temp,1); - #endif - #if defined(HAVE_CONDITIONAL_CALL) && !defined(DESTRUCTIVE_SHIFT) - emit_callne(invalidate_addr_reg[temp]); - #else - jaddr3=(int)out; - emit_jne(0); - add_stub(INVCODE_STUB,jaddr3,(int)out,reglist|(1<<HOST_CCREG),temp,0,0,0); - #endif - } - } - if(jaddr2) add_stub(type,jaddr2,(int)out,i,offset||c||s<0?ar:s,(int)i_regs,ccadj[i],reglist); - if (opcode[i]==0x31) { // LWC1 (write float) - emit_writeword_indexed(tl,0,temp); - } - if (opcode[i]==0x35) { // LDC1 (write double) - emit_writeword_indexed(th,4,temp); - emit_writeword_indexed(tl,0,temp); - } - //if(opcode[i]==0x39) - /*if(opcode[i]==0x39||opcode[i]==0x31) - { - emit_pusha(); - emit_readword((int)&last_count,ECX); - if(get_reg(i_regs->regmap,CCREG)<0) - emit_loadreg(CCREG,HOST_CCREG); - emit_add(HOST_CCREG,ECX,HOST_CCREG); - emit_addimm(HOST_CCREG,2*ccadj[i],HOST_CCREG); - emit_writeword(HOST_CCREG,(int)&Count); - emit_call((int)memdebug); - emit_popa(); - }/**/ -#else cop1_unusable(i, i_regs); -#endif } void c2ls_assemble(int i,struct regstat *i_regs) @@ -3775,7 +3290,7 @@ void c2ls_assemble(int i,struct regstat *i_regs) int ar; int offset; int memtarget=0,c=0; - int jaddr2=0,jaddr3,type; + int jaddr2=0,type; int agr=AGEN1+(i&1); int fastio_reg_override=0; u_int hr,reglist=0; @@ -3785,7 +3300,6 @@ void c2ls_assemble(int i,struct regstat *i_regs) offset=imm[i]; assert(rs1[i]>0); assert(tl>=0); - assert(!using_tlb); for(hr=0;hr<HOST_REGS;hr++) { if(i_regs->regmap[hr]>=0) reglist|=1<<hr; @@ -3857,7 +3371,7 @@ void c2ls_assemble(int i,struct regstat *i_regs) #if defined(HAVE_CONDITIONAL_CALL) && !defined(DESTRUCTIVE_SHIFT) emit_callne(invalidate_addr_reg[ar]); #else - jaddr3=(int)out; + int jaddr3=(int)out; emit_jne(0); add_stub(INVCODE_STUB,jaddr3,(int)out,reglist|(1<<HOST_CCREG),ar,0,0,0); #endif @@ -3918,6 +3432,7 @@ void syscall_assemble(int i,struct regstat *i_regs) signed char ccreg=get_reg(i_regs->regmap,CCREG); assert(ccreg==HOST_CCREG); assert(!is_delayslot); + (void)ccreg; emit_movimm(start+i*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((int)jump_syscall_hle); // XXX @@ -3928,6 +3443,7 @@ void hlecall_assemble(int i,struct regstat *i_regs) signed char ccreg=get_reg(i_regs->regmap,CCREG); assert(ccreg==HOST_CCREG); assert(!is_delayslot); + (void)ccreg; emit_movimm(start+i*4+4,0); // Get PC emit_movimm((int)psxHLEt[source[i]&7],1); emit_addimm(HOST_CCREG,CLOCK_ADJUST(ccadj[i]),HOST_CCREG); // XXX @@ -3939,6 +3455,7 @@ void intcall_assemble(int i,struct regstat *i_regs) signed char ccreg=get_reg(i_regs->regmap,CCREG); assert(ccreg==HOST_CCREG); assert(!is_delayslot); + (void)ccreg; emit_movimm(start+i*4,0); // Get PC emit_addimm(HOST_CCREG,CLOCK_ADJUST(ccadj[i]),HOST_CCREG); emit_jmp((int)jump_intcall); @@ -4007,7 +3524,7 @@ int internal_branch(uint64_t i_is32,int addr) if(addr&1) return 0; // Indirect (register) jump if(addr>=start && addr<start+slen*4-4) { - int t=(addr-start)>>2; + //int t=(addr-start)>>2; // Delay slots are not valid branch targets //if(t>0&&(itype[t-1]==RJUMP||itype[t-1]==UJUMP||itype[t-1]==CJUMP||itype[t-1]==SJUMP||itype[t-1]==FJUMP)) return 0; // 64 -> 32 bit transition requires a recompile @@ -4017,11 +3534,7 @@ int internal_branch(uint64_t i_is32,int addr) else printf("optimizable: yes\n"); }*/ //if(is32[t]&~unneeded_reg_upper[t]&~i_is32) return 0; -#ifndef FORCE32 - if(requires_32bit[t]&~i_is32) return 0; - else -#endif - return 1; + return 1; } return 0; } @@ -4156,10 +3669,9 @@ void address_generation(int i,struct regstat *i_regs,signed char entry[]) if(itype[i]==LOAD||itype[i]==LOADLR||itype[i]==STORE||itype[i]==STORELR||itype[i]==C1LS||itype[i]==C2LS) { int ra=-1; int agr=AGEN1+(i&1); - int mgr=MGEN1+(i&1); if(itype[i]==LOAD) { ra=get_reg(i_regs->regmap,rt1[i]); - if(ra<0) ra=get_reg(i_regs->regmap,-1); + if(ra<0) ra=get_reg(i_regs->regmap,-1); assert(ra>=0); } if(itype[i]==LOADLR) { @@ -4178,17 +3690,11 @@ void address_generation(int i,struct regstat *i_regs,signed char entry[]) } } int rs=get_reg(i_regs->regmap,rs1[i]); - int rm=get_reg(i_regs->regmap,TLREG); if(ra>=0) { int offset=imm[i]; int c=(i_regs->wasconst>>rs)&1; if(rs1[i]==0) { // Using r0 as a base address - /*if(rm>=0) { - if(!entry||entry[rm]!=mgr) { - generate_map_const(offset,rm); - } // else did it in the previous cycle - }*/ if(!entry||entry[ra]!=agr) { if (opcode[i]==0x22||opcode[i]==0x26) { emit_movimm(offset&0xFFFFFFFC,ra); // LWL/LWR @@ -4206,22 +3712,6 @@ void address_generation(int i,struct regstat *i_regs,signed char entry[]) // printf("poor load scheduling!\n"); } else if(c) { -#ifndef DISABLE_TLB - if(rm>=0) { - if(!entry||entry[rm]!=mgr) { - if(itype[i]==STORE||itype[i]==STORELR||(opcode[i]&0x3b)==0x39||(opcode[i]&0x3b)==0x3a) { - // Stores to memory go thru the mapper to detect self-modifying - // code, loads don't. - if((unsigned int)(constmap[i][rs]+offset)>=0xC0000000 || - (unsigned int)(constmap[i][rs]+offset)<0x80000000+RAM_SIZE ) - generate_map_const(constmap[i][rs]+offset,rm); - }else{ - if((signed int)(constmap[i][rs]+offset)>=(signed int)0xC0000000) - generate_map_const(constmap[i][rs]+offset,rm); - } - } - } -#endif if(rs1[i]!=rt1[i]||itype[i]!=LOAD) { if(!entry||entry[ra]!=agr) { if (opcode[i]==0x22||opcode[i]==0x26) { @@ -4230,8 +3720,7 @@ void address_generation(int i,struct regstat *i_regs,signed char entry[]) emit_movimm((constmap[i][rs]+offset)&0xFFFFFFF8,ra); // LDL/LDR }else{ #ifdef HOST_IMM_ADDR32 - if((itype[i]!=LOAD&&(opcode[i]&0x3b)!=0x31&&(opcode[i]&0x3b)!=0x32) || // LWC1/LDC1/LWC2/LDC2 - (using_tlb&&((signed int)constmap[i][rs]+offset)>=(signed int)0xC0000000)) + if((itype[i]!=LOAD&&(opcode[i]&0x3b)!=0x31&&(opcode[i]&0x3b)!=0x32)) // LWC1/LDC1/LWC2/LDC2 #endif emit_movimm(constmap[i][rs]+offset,ra); regs[i].loadedconst|=1<<ra; @@ -4251,32 +3740,6 @@ void address_generation(int i,struct regstat *i_regs,signed char entry[]) // Preload constants for next instruction if(itype[i+1]==LOAD||itype[i+1]==LOADLR||itype[i+1]==STORE||itype[i+1]==STORELR||itype[i+1]==C1LS||itype[i+1]==C2LS) { int agr,ra; - #if !defined(HOST_IMM_ADDR32) && !defined(DISABLE_TLB) - // Mapper entry - agr=MGEN1+((i+1)&1); - ra=get_reg(i_regs->regmap,agr); - if(ra>=0) { - int rs=get_reg(regs[i+1].regmap,rs1[i+1]); - int offset=imm[i+1]; - int c=(regs[i+1].wasconst>>rs)&1; - if(c) { - if(itype[i+1]==STORE||itype[i+1]==STORELR - ||(opcode[i+1]&0x3b)==0x39||(opcode[i+1]&0x3b)==0x3a) { // SWC1/SDC1, SWC2/SDC2 - // Stores to memory go thru the mapper to detect self-modifying - // code, loads don't. - if((unsigned int)(constmap[i+1][rs]+offset)>=0xC0000000 || - (unsigned int)(constmap[i+1][rs]+offset)<0x80000000+RAM_SIZE ) - generate_map_const(constmap[i+1][rs]+offset,ra); - }else{ - if((signed int)(constmap[i+1][rs]+offset)>=(signed int)0xC0000000) - generate_map_const(constmap[i+1][rs]+offset,ra); - } - } - /*else if(rs1[i]==0) { - generate_map_const(offset,ra); - }*/ - } - #endif // Actual address agr=AGEN1+((i+1)&1); ra=get_reg(i_regs->regmap,agr); @@ -4291,8 +3754,7 @@ void address_generation(int i,struct regstat *i_regs,signed char entry[]) emit_movimm((constmap[i+1][rs]+offset)&0xFFFFFFF8,ra); // LDL/LDR }else{ #ifdef HOST_IMM_ADDR32 - if((itype[i+1]!=LOAD&&(opcode[i+1]&0x3b)!=0x31&&(opcode[i+1]&0x3b)!=0x32) || // LWC1/LDC1/LWC2/LDC2 - (using_tlb&&((signed int)constmap[i+1][rs]+offset)>=(signed int)0xC0000000)) + if((itype[i+1]!=LOAD&&(opcode[i+1]&0x3b)!=0x31&&(opcode[i+1]&0x3b)!=0x32)) // LWC1/LDC1/LWC2/LDC2 #endif emit_movimm(constmap[i+1][rs]+offset,ra); regs[i+1].loadedconst|=1<<ra; @@ -4312,7 +3774,7 @@ void address_generation(int i,struct regstat *i_regs,signed char entry[]) } } -int get_final_value(int hr, int i, int *value) +static int get_final_value(int hr, int i, int *value) { int reg=regs[i].regmap[hr]; while(i<slen-1) { @@ -4331,9 +3793,6 @@ int get_final_value(int hr, int i, int *value) // Load in delay slot, out-of-order execution if(itype[i+2]==LOAD&&rs1[i+2]==reg&&rt1[i+2]==reg&&((regs[i+1].wasconst>>hr)&1)) { - #ifdef HOST_IMM_ADDR32 - if(!using_tlb||((signed int)constmap[i][hr]+imm[i+2])<(signed int)0xC0000000) return 0; - #endif // Precompute load address *value=constmap[i][hr]+imm[i+2]; return 1; @@ -4341,9 +3800,6 @@ int get_final_value(int hr, int i, int *value) } if(itype[i+1]==LOAD&&rs1[i+1]==reg&&rt1[i+1]==reg) { - #ifdef HOST_IMM_ADDR32 - if(!using_tlb||((signed int)constmap[i][hr]+imm[i+1])<(signed int)0xC0000000) return 0; - #endif // Precompute load address *value=constmap[i][hr]+imm[i+1]; //printf("c=%x imm=%x\n",(int)constmap[i][hr],imm[i+1]); @@ -4493,17 +3949,6 @@ void wb_dirtys(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty) if((i_dirty>>hr)&1) { if(i_regmap[hr]<64) { emit_storereg(i_regmap[hr],hr); -#ifndef FORCE32 - if( ((i_is32>>i_regmap[hr])&1) ) { - #ifdef DESTRUCTIVE_WRITEBACK - emit_sarimm(hr,31,hr); - emit_storereg(i_regmap[hr]|64,hr); - #else - emit_sarimm(hr,31,HOST_TEMPREG); - emit_storereg(i_regmap[hr]|64,HOST_TEMPREG); - #endif - } -#endif }else{ if( !((i_is32>>(i_regmap[hr]&63))&1) ) { emit_storereg(i_regmap[hr],hr); @@ -4529,17 +3974,6 @@ void wb_needed_dirtys(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,in if((i_dirty>>hr)&1) { if(i_regmap[hr]<64) { emit_storereg(i_regmap[hr],hr); -#ifndef FORCE32 - if( ((i_is32>>i_regmap[hr])&1) ) { - #ifdef DESTRUCTIVE_WRITEBACK - emit_sarimm(hr,31,hr); - emit_storereg(i_regmap[hr]|64,hr); - #else - emit_sarimm(hr,31,HOST_TEMPREG); - emit_storereg(i_regmap[hr]|64,HOST_TEMPREG); - #endif - } -#endif }else{ if( !((i_is32>>(i_regmap[hr]&63))&1) ) { emit_storereg(i_regmap[hr],hr); @@ -4757,7 +4191,7 @@ int match_bt(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int addr) { return 0; } - else + else if((i_dirty>>hr)&1) { if(i_regmap[hr]<TEMPREG) @@ -4795,9 +4229,6 @@ int match_bt(signed char i_regmap[],uint64_t i_is32,uint64_t i_dirty,int addr) } } //if(is32[t]&~unneeded_reg_upper[t]&~i_is32) return 0; -#ifndef FORCE32 - if(requires_32bit[t]&~i_is32) return 0; -#endif // Delay slots are not valid branch targets //if(t>0&&(itype[t-1]==RJUMP||itype[t-1]==UJUMP||itype[t-1]==CJUMP||itype[t-1]==SJUMP||itype[t-1]==FJUMP)) return 0; // Delay slots require additional processing, so do not match @@ -5003,7 +4434,7 @@ void do_ccstub(int n) if(rs1[i]) { if((branch_regs[i].dirty>>s1l)&(branch_regs[i].is32>>rs1[i])&1) emit_loadreg(rs1[i],s1l); - } + } else { if((branch_regs[i].dirty>>s1l)&(branch_regs[i].is32>>rs2[i])&1) emit_loadreg(rs2[i],s1l); @@ -5194,7 +4625,7 @@ void do_ccstub(int n) load_all_regs(branch_regs[i].regmap); } emit_jmp(stubs[n][2]); // return address - + /* This works but uses a lot of memory... emit_readword((int)&last_count,ECX); emit_add(HOST_CCREG,ECX,EAX); @@ -5224,11 +4655,11 @@ void do_ccstub(int n) emit_jmpreg(EAX);*/ } -add_to_linker(int addr,int target,int ext) +static void add_to_linker(int addr,int target,int ext) { link_addr[linkcount][0]=addr; link_addr[linkcount][1]=target; - link_addr[linkcount][2]=ext; + link_addr[linkcount][2]=ext; linkcount++; } @@ -5254,7 +4685,7 @@ static void ujump_assemble_write_ra(int i) #endif { #ifdef REG_PREFETCH - if(temp>=0) + if(temp>=0) { if(i_regmap[temp]!=PTEMP) emit_movimm((int)hash_table[((return_address>>16)^return_address)&0xFFFF],temp); } @@ -5269,16 +4700,16 @@ static void ujump_assemble_write_ra(int i) void ujump_assemble(int i,struct regstat *i_regs) { - signed char *i_regmap=i_regs->regmap; int ra_done=0; if(i==(ba[i]-start)>>2) assem_debug("idle loop\n"); address_generation(i+1,i_regs,regs[i].regmap_entry); #ifdef REG_PREFETCH int temp=get_reg(branch_regs[i].regmap,PTEMP); - if(rt1[i]==31&&temp>=0) + if(rt1[i]==31&&temp>=0) { + signed char *i_regmap=i_regs->regmap; int return_address=start+i*4+8; - if(get_reg(branch_regs[i].regmap,31)>0) + if(get_reg(branch_regs[i].regmap,31)>0) if(i_regmap[temp]==PTEMP) emit_movimm((int)hash_table[((return_address>>16)^return_address)&0xFFFF],temp); } #endif @@ -5329,7 +4760,7 @@ static void rjump_assemble_write_ra(int i) assert(rt>=0); return_address=start+i*4+8; #ifdef REG_PREFETCH - if(temp>=0) + if(temp>=0) { if(i_regmap[temp]!=PTEMP) emit_movimm((int)hash_table[((return_address>>16)^return_address)&0xFFFF],temp); } @@ -5342,9 +4773,8 @@ static void rjump_assemble_write_ra(int i) void rjump_assemble(int i,struct regstat *i_regs) { - signed char *i_regmap=i_regs->regmap; int temp; - int rs,cc,adj; + int rs,cc; int ra_done=0; rs=get_reg(branch_regs[i].regmap,rs1[i]); assert(rs>=0); @@ -5358,9 +4788,10 @@ void rjump_assemble(int i,struct regstat *i_regs) } address_generation(i+1,i_regs,regs[i].regmap_entry); #ifdef REG_PREFETCH - if(rt1[i]==31) + if(rt1[i]==31) { if((temp=get_reg(branch_regs[i].regmap,PTEMP))>=0) { + signed char *i_regmap=i_regs->regmap; int return_address=start+i*4+8; if(i_regmap[temp]==PTEMP) emit_movimm((int)hash_table[((return_address>>16)^return_address)&0xFFFF],temp); } @@ -5389,6 +4820,7 @@ void rjump_assemble(int i,struct regstat *i_regs) rjump_assemble_write_ra(i); cc=get_reg(branch_regs[i].regmap,CCREG); assert(cc==HOST_CCREG); + (void)cc; #ifdef USE_MINI_HT int rh=get_reg(branch_regs[i].regmap,RHASH); int ht=get_reg(branch_regs[i].regmap,RHTBL); @@ -5419,13 +4851,11 @@ void rjump_assemble(int i,struct regstat *i_regs) //assert(adj==0); emit_addimm_and_set_flags(CLOCK_ADJUST(ccadj[i]+2),HOST_CCREG); add_stub(CC_STUB,(int)out,jump_vaddr_reg[rs],0,i,-1,TAKEN,0); -#ifdef PCSX if(itype[i+1]==COP0&&(source[i+1]&0x3f)==0x10) // special case for RFE emit_jmp(0); else -#endif - emit_jns(0); + emit_jns(0); //load_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,-1); #ifdef USE_MINI_HT if(rs1[i]==31) { @@ -5492,7 +4922,7 @@ void cjump_assemble(int i,struct regstat *i_regs) #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK if(i>(ba[i]-start)>>2) invert=1; #endif - + if(ooo[i]) { s1l=get_reg(branch_regs[i].regmap,rs1[i]); s1h=get_reg(branch_regs[i].regmap,rs1[i]|64); @@ -5547,7 +4977,7 @@ void cjump_assemble(int i,struct regstat *i_regs) load_regs(regs[i].regmap,branch_regs[i].regmap,regs[i].was32,CCREG,CCREG); cc=get_reg(branch_regs[i].regmap,CCREG); assert(cc==HOST_CCREG); - if(unconditional) + if(unconditional) store_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); //do_cc(i,branch_regs[i].regmap,&adj,unconditional?ba[i]:-1,unconditional); //assem_debug("cycle count (adj)\n"); @@ -5619,7 +5049,7 @@ void cjump_assemble(int i,struct regstat *i_regs) emit_jne(0); } } // if(!only32) - + //printf("branch(%d): eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",i,branch_regs[i].regmap[0],branch_regs[i].regmap[1],branch_regs[i].regmap[2],branch_regs[i].regmap[3],branch_regs[i].regmap[5],branch_regs[i].regmap[6],branch_regs[i].regmap[7]); assert(s1l>=0); if(opcode[i]==4) // BEQ @@ -5749,7 +5179,7 @@ void cjump_assemble(int i,struct regstat *i_regs) emit_jne(1); } } // if(!only32) - + //printf("branch(%d): eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",i,branch_regs[i].regmap[0],branch_regs[i].regmap[1],branch_regs[i].regmap[2],branch_regs[i].regmap[3],branch_regs[i].regmap[5],branch_regs[i].regmap[6],branch_regs[i].regmap[7]); assert(s1l>=0); if((opcode[i]&0x2f)==4) // BEQ @@ -5932,7 +5362,7 @@ void sjump_assemble(int i,struct regstat *i_regs) } cc=get_reg(branch_regs[i].regmap,CCREG); assert(cc==HOST_CCREG); - if(unconditional) + if(unconditional) store_regs_bt(branch_regs[i].regmap,branch_regs[i].is32,branch_regs[i].dirty,ba[i]); //do_cc(i,branch_regs[i].regmap,&adj,unconditional?ba[i]:-1,unconditional); assem_debug("cycle count (adj)\n"); @@ -6019,7 +5449,7 @@ void sjump_assemble(int i,struct regstat *i_regs) } } } // if(!only32) - + if(invert) { #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK if(match&&(!internal||!is_ds[(ba[i]-start)>>2])) { @@ -6267,7 +5697,7 @@ void fjump_assemble(int i,struct regstat *i_regs) { } } // if(!only32) - + if(invert) { if(adj) emit_addimm(cc,-CLOCK_ADJUST(adj),cc); #ifdef CORTEX_A8_BRANCH_PREDICTION_HACK @@ -6396,7 +5826,6 @@ static void pagespan_assemble(int i,struct regstat *i_regs) int s1h=get_reg(i_regs->regmap,rs1[i]|64); int s2l=get_reg(i_regs->regmap,rs2[i]); int s2h=get_reg(i_regs->regmap,rs2[i]|64); - void *nt_branch=NULL; int taken=0; int nottaken=0; int unconditional=0; @@ -6413,7 +5842,7 @@ static void pagespan_assemble(int i,struct regstat *i_regs) s1h=s2h=-1; } int hr=0; - int addr,alt,ntaddr; + int addr=-1,alt=-1,ntaddr=-1; if(i_regs->regmap[HOST_BTREG]<0) {addr=HOST_BTREG;} else { while(hr<HOST_REGS) @@ -6775,14 +6204,14 @@ void unneeded_registers(int istart,int iend,int r) { // If subroutine call, flag return address as a possible branch target if(rt1[i]==31 && i<slen-2) bt[i+2]=1; - + if(ba[i]<start || ba[i]>=(start+slen*4)) { // Branch out of this block, flush all regs u=1; uu=1; gte_u=gte_u_unknown; - /* Hexagon hack + /* Hexagon hack if(itype[i]==UJUMP&&rt1[i]==31) { uu=u=0x300C00F; // Discard at, v0-v1, t6-t9 @@ -7029,364 +6458,10 @@ void unneeded_registers(int istart,int iend,int r) } printf("\n");*/ } -#ifdef FORCE32 for (i=iend;i>=istart;i--) { unneeded_reg_upper[i]=branch_unneeded_reg_upper[i]=-1LL; } -#endif -} - -// Identify registers which are likely to contain 32-bit values -// This is used to predict whether any branches will jump to a -// location with 64-bit values in registers. -static void provisional_32bit() -{ - int i,j; - uint64_t is32=1; - uint64_t lastbranch=1; - - for(i=0;i<slen;i++) - { - if(i>0) { - if(itype[i-1]==CJUMP||itype[i-1]==SJUMP||itype[i-1]==FJUMP) { - if(i>1) is32=lastbranch; - else is32=1; - } - } - if(i>1) - { - if(itype[i-2]==CJUMP||itype[i-2]==SJUMP||itype[i-2]==FJUMP) { - if(likely[i-2]) { - if(i>2) is32=lastbranch; - else is32=1; - } - } - if((opcode[i-2]&0x2f)==0x05) // BNE/BNEL - { - if(rs1[i-2]==0||rs2[i-2]==0) - { - if(rs1[i-2]) { - is32|=1LL<<rs1[i-2]; - } - if(rs2[i-2]) { - is32|=1LL<<rs2[i-2]; - } - } - } - } - // If something jumps here with 64-bit values - // then promote those registers to 64 bits - if(bt[i]) - { - uint64_t temp_is32=is32; - for(j=i-1;j>=0;j--) - { - if(ba[j]==start+i*4) - //temp_is32&=branch_regs[j].is32; - temp_is32&=p32[j]; - } - for(j=i;j<slen;j++) - { - if(ba[j]==start+i*4) - temp_is32=1; - } - is32=temp_is32; - } - int type=itype[i]; - int op=opcode[i]; - int op2=opcode2[i]; - int rt=rt1[i]; - int s1=rs1[i]; - int s2=rs2[i]; - if(type==UJUMP||type==RJUMP||type==CJUMP||type==SJUMP||type==FJUMP) { - // Branches don't write registers, consider the delay slot instead. - type=itype[i+1]; - op=opcode[i+1]; - op2=opcode2[i+1]; - rt=rt1[i+1]; - s1=rs1[i+1]; - s2=rs2[i+1]; - lastbranch=is32; - } - switch(type) { - case LOAD: - if(opcode[i]==0x27||opcode[i]==0x37|| // LWU/LD - opcode[i]==0x1A||opcode[i]==0x1B) // LDL/LDR - is32&=~(1LL<<rt); - else - is32|=1LL<<rt; - break; - case STORE: - case STORELR: - break; - case LOADLR: - if(op==0x1a||op==0x1b) is32&=~(1LL<<rt); // LDR/LDL - if(op==0x22) is32|=1LL<<rt; // LWL - break; - case IMM16: - if (op==0x08||op==0x09|| // ADDI/ADDIU - op==0x0a||op==0x0b|| // SLTI/SLTIU - op==0x0c|| // ANDI - op==0x0f) // LUI - { - is32|=1LL<<rt; - } - if(op==0x18||op==0x19) { // DADDI/DADDIU - is32&=~(1LL<<rt); - //if(imm[i]==0) - // is32|=((is32>>s1)&1LL)<<rt; - } - if(op==0x0d||op==0x0e) { // ORI/XORI - uint64_t sr=((is32>>s1)&1LL); - is32&=~(1LL<<rt); - is32|=sr<<rt; - } - break; - case UJUMP: - break; - case RJUMP: - break; - case CJUMP: - break; - case SJUMP: - break; - case FJUMP: - break; - case ALU: - if(op2>=0x20&&op2<=0x23) { // ADD/ADDU/SUB/SUBU - is32|=1LL<<rt; - } - if(op2==0x2a||op2==0x2b) { // SLT/SLTU - is32|=1LL<<rt; - } - else if(op2>=0x24&&op2<=0x27) { // AND/OR/XOR/NOR - uint64_t sr=((is32>>s1)&(is32>>s2)&1LL); - is32&=~(1LL<<rt); - is32|=sr<<rt; - } - else if(op2>=0x2c&&op2<=0x2d) { // DADD/DADDU - if(s1==0&&s2==0) { - is32|=1LL<<rt; - } - else if(s2==0) { - uint64_t sr=((is32>>s1)&1LL); - is32&=~(1LL<<rt); - is32|=sr<<rt; - } - else if(s1==0) { - uint64_t sr=((is32>>s2)&1LL); - is32&=~(1LL<<rt); - is32|=sr<<rt; - } - else { - is32&=~(1LL<<rt); - } - } - else if(op2>=0x2e&&op2<=0x2f) { // DSUB/DSUBU - if(s1==0&&s2==0) { - is32|=1LL<<rt; - } - else if(s2==0) { - uint64_t sr=((is32>>s1)&1LL); - is32&=~(1LL<<rt); - is32|=sr<<rt; - } - else { - is32&=~(1LL<<rt); - } - } - break; - case MULTDIV: - if (op2>=0x1c&&op2<=0x1f) { // DMULT/DMULTU/DDIV/DDIVU - is32&=~((1LL<<HIREG)|(1LL<<LOREG)); - } - else { - is32|=(1LL<<HIREG)|(1LL<<LOREG); - } - break; - case MOV: - { - uint64_t sr=((is32>>s1)&1LL); - is32&=~(1LL<<rt); - is32|=sr<<rt; - } - break; - case SHIFT: - if(op2>=0x14&&op2<=0x17) is32&=~(1LL<<rt); // DSLLV/DSRLV/DSRAV - else is32|=1LL<<rt; // SLLV/SRLV/SRAV - break; - case SHIFTIMM: - is32|=1LL<<rt; - // DSLL/DSRL/DSRA/DSLL32/DSRL32 but not DSRA32 have 64-bit result - if(op2>=0x38&&op2<0x3f) is32&=~(1LL<<rt); - break; - case COP0: - if(op2==0) is32|=1LL<<rt; // MFC0 - break; - case COP1: - case COP2: - if(op2==0) is32|=1LL<<rt; // MFC1 - if(op2==1) is32&=~(1LL<<rt); // DMFC1 - if(op2==2) is32|=1LL<<rt; // CFC1 - break; - case C1LS: - case C2LS: - break; - case FLOAT: - case FCONV: - break; - case FCOMP: - break; - case C2OP: - case SYSCALL: - case HLECALL: - break; - default: - break; - } - is32|=1; - p32[i]=is32; - - if(i>0) - { - if(itype[i-1]==UJUMP||itype[i-1]==RJUMP||(source[i-1]>>16)==0x1000) - { - if(rt1[i-1]==31) // JAL/JALR - { - // Subroutine call will return here, don't alloc any registers - is32=1; - } - else if(i+1<slen) - { - // Internal branch will jump here, match registers to caller - is32=0x3FFFFFFFFLL; - } - } - } - } -} - -// Identify registers which may be assumed to contain 32-bit values -// and where optimizations will rely on this. -// This is used to determine whether backward branches can safely -// jump to a location with 64-bit values in registers. -static void provisional_r32() -{ - u_int r32=0; - int i; - - for (i=slen-1;i>=0;i--) - { - int hr; - if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) - { - if(ba[i]<start || ba[i]>=(start+slen*4)) - { - // Branch out of this block, don't need anything - r32=0; - } - else - { - // Internal branch - // Need whatever matches the target - // (and doesn't get overwritten by the delay slot instruction) - r32=0; - int t=(ba[i]-start)>>2; - if(ba[i]>start+i*4) { - // Forward branch - //if(!(requires_32bit[t]&~regs[i].was32)) - // r32|=requires_32bit[t]&(~(1LL<<rt1[i+1]))&(~(1LL<<rt2[i+1])); - if(!(pr32[t]&~regs[i].was32)) - r32|=pr32[t]&(~(1LL<<rt1[i+1]))&(~(1LL<<rt2[i+1])); - }else{ - // Backward branch - if(!(regs[t].was32&~unneeded_reg_upper[t]&~regs[i].was32)) - r32|=regs[t].was32&~unneeded_reg_upper[t]&(~(1LL<<rt1[i+1]))&(~(1LL<<rt2[i+1])); - } - } - // Conditional branch may need registers for following instructions - if(itype[i]!=RJUMP&&itype[i]!=UJUMP&&(source[i]>>16)!=0x1000) - { - if(i<slen-2) { - //r32|=requires_32bit[i+2]; - r32|=pr32[i+2]; - r32&=regs[i].was32; - // Mark this address as a branch target since it may be called - // upon return from interrupt - //bt[i+2]=1; - } - } - // Merge in delay slot - if(!likely[i]) { - // These are overwritten unless the branch is "likely" - // and the delay slot is nullified if not taken - r32&=~(1LL<<rt1[i+1]); - r32&=~(1LL<<rt2[i+1]); - } - // Assume these are needed (delay slot) - if(us1[i+1]>0) - { - if((regs[i].was32>>us1[i+1])&1) r32|=1LL<<us1[i+1]; - } - if(us2[i+1]>0) - { - if((regs[i].was32>>us2[i+1])&1) r32|=1LL<<us2[i+1]; - } - if(dep1[i+1]&&!((unneeded_reg_upper[i]>>dep1[i+1])&1)) - { - if((regs[i].was32>>dep1[i+1])&1) r32|=1LL<<dep1[i+1]; - } - if(dep2[i+1]&&!((unneeded_reg_upper[i]>>dep2[i+1])&1)) - { - if((regs[i].was32>>dep2[i+1])&1) r32|=1LL<<dep2[i+1]; - } - } - else if(itype[i]==SYSCALL||itype[i]==HLECALL||itype[i]==INTCALL) - { - // SYSCALL instruction (software interrupt) - r32=0; - } - else if(itype[i]==COP0 && (source[i]&0x3f)==0x18) - { - // ERET instruction (return from interrupt) - r32=0; - } - // Check 32 bits - r32&=~(1LL<<rt1[i]); - r32&=~(1LL<<rt2[i]); - if(us1[i]>0) - { - if((regs[i].was32>>us1[i])&1) r32|=1LL<<us1[i]; - } - if(us2[i]>0) - { - if((regs[i].was32>>us2[i])&1) r32|=1LL<<us2[i]; - } - if(dep1[i]&&!((unneeded_reg_upper[i]>>dep1[i])&1)) - { - if((regs[i].was32>>dep1[i])&1) r32|=1LL<<dep1[i]; - } - if(dep2[i]&&!((unneeded_reg_upper[i]>>dep2[i])&1)) - { - if((regs[i].was32>>dep2[i])&1) r32|=1LL<<dep2[i]; - } - //requires_32bit[i]=r32; - pr32[i]=r32; - - // Dirty registers which are 32-bit, require 32-bit input - // as they will be written as 32-bit values - for(hr=0;hr<HOST_REGS;hr++) - { - if(regs[i].regmap_entry[hr]>0&®s[i].regmap_entry[hr]<64) { - if((regs[i].was32>>regs[i].regmap_entry[hr])&(regs[i].wasdirty>>hr)&1) { - if(!((unneeded_reg_upper[i]>>regs[i].regmap_entry[hr])&1)) - pr32[i]|=1LL<<regs[i].regmap_entry[hr]; - //requires_32bit[i]|=1LL<<regs[i].regmap_entry[hr]; - } - } - } - } } // Write back dirty registers as soon as we will no longer modify them, @@ -7726,7 +6801,7 @@ void clean_registers(int istart,int iend,int wr) if((regs[i].regmap[r]&63)==rt2[i]) wont_dirty_i|=1<<r; if(regs[i].regmap[r]==CCREG) wont_dirty_i|=1<<r; if(i>istart) { - if(itype[i]!=RJUMP&&itype[i]!=UJUMP&&itype[i]!=CJUMP&&itype[i]!=SJUMP&&itype[i]!=FJUMP) + if(itype[i]!=RJUMP&&itype[i]!=UJUMP&&itype[i]!=CJUMP&&itype[i]!=SJUMP&&itype[i]!=FJUMP) { // Don't store a register immediately after writing it, // may prevent dual-issue. @@ -7760,7 +6835,7 @@ void clean_registers(int istart,int iend,int wr) if(r!=EXCLUDE_REG) { if(regs[i].regmap[r]==regmap_pre[i+2][r]) { regs[i+2].wasdirty&=wont_dirty_i|~(1<<r); - }else {/*printf("i: %x (%d) mismatch(+2): %d\n",start+i*4,i,r);/*assert(!((wont_dirty_i>>r)&1));*/} + }else {/*printf("i: %x (%d) mismatch(+2): %d\n",start+i*4,i,r);assert(!((wont_dirty_i>>r)&1));*/} } } } @@ -7772,7 +6847,7 @@ void clean_registers(int istart,int iend,int wr) if(r!=EXCLUDE_REG) { if(regs[i].regmap[r]==regmap_pre[i+1][r]) { regs[i+1].wasdirty&=wont_dirty_i|~(1<<r); - }else {/*printf("i: %x (%d) mismatch(+1): %d\n",start+i*4,i,r);/*assert(!((wont_dirty_i>>r)&1));*/} + }else {/*printf("i: %x (%d) mismatch(+1): %d\n",start+i*4,i,r);assert(!((wont_dirty_i>>r)&1));*/} } } } @@ -7815,7 +6890,7 @@ void clean_registers(int istart,int iend,int wr) wont_dirty_i|=((unneeded_reg[i]>>(regmap_pre[i][r]&63))&1)<<r; } else { wont_dirty_i|=1<<r; - /*printf("i: %x (%d) mismatch: %d\n",start+i*4,i,r);/*assert(!((will_dirty>>r)&1));*/ + /*printf("i: %x (%d) mismatch: %d\n",start+i*4,i,r);assert(!((will_dirty>>r)&1));*/ } } } @@ -7921,13 +6996,14 @@ static void disassemble_inst(int i) {} static int new_dynarec_test(void) { int (*testfunc)(void) = (void *)out; + void *beginning; int ret; + + beginning = start_block(); emit_movimm(DRC_TEST_VAL,0); // test emit_jmpreg(14); literal_pool(0); -#ifdef __arm__ - __clear_cache((void *)testfunc, out); -#endif + end_block(beginning); SysPrintf("testing if we can run recompiled code..\n"); ret = testfunc(); if (ret == DRC_TEST_VAL) @@ -7956,15 +7032,6 @@ void new_dynarec_clear_full() stop_after_jal=0; inv_code_start=inv_code_end=~0; // TLB -#ifndef DISABLE_TLB - using_tlb=0; - for(n=0;n<524288;n++) // 0 .. 0x7FFFFFFF - memory_map[n]=-1; - for(n=524288;n<526336;n++) // 0x80000000 .. 0x807FFFFF - memory_map[n]=((u_int)rdram-0x80000000)>>2; - for(n=526336;n<1048576;n++) // 0x80800000 .. 0xFFFFFFFF - memory_map[n]=-1; -#endif for(n=0;n<4096;n++) ll_clear(jump_in+n); for(n=0;n<4096;n++) ll_clear(jump_out+n); for(n=0;n<4096;n++) ll_clear(jump_dirty+n); @@ -7973,71 +7040,49 @@ void new_dynarec_clear_full() void new_dynarec_init() { SysPrintf("Init new dynarec\n"); - out=(u_char *)BASE_ADDR; -#if BASE_ADDR_FIXED - if (mmap (out, 1<<TARGET_SIZE_2, + + // allocate/prepare a buffer for translation cache + // see assem_arm.h for some explanation +#if defined(BASE_ADDR_FIXED) + if (mmap (translation_cache, 1 << TARGET_SIZE_2, PROT_READ | PROT_WRITE | PROT_EXEC, - MAP_FIXED | MAP_PRIVATE | MAP_ANONYMOUS, - -1, 0) <= 0) { + MAP_PRIVATE | MAP_ANONYMOUS, + -1, 0) != translation_cache) { SysPrintf("mmap() failed: %s\n", strerror(errno)); + SysPrintf("disable BASE_ADDR_FIXED and recompile\n"); + abort(); + } +#elif defined(BASE_ADDR_DYNAMIC) + #ifdef VITA + sceBlock = sceKernelAllocMemBlockForVM("code", 1 << TARGET_SIZE_2); + if (sceBlock < 0) + SysPrintf("sceKernelAllocMemBlockForVM failed\n"); + int ret = sceKernelGetMemBlockBase(sceBlock, (void **)&translation_cache); + if (ret < 0) + SysPrintf("sceKernelGetMemBlockBase failed\n"); + #else + translation_cache = mmap (NULL, 1 << TARGET_SIZE_2, + PROT_READ | PROT_WRITE | PROT_EXEC, + MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); + if (translation_cache == MAP_FAILED) { + SysPrintf("mmap() failed: %s\n", strerror(errno)); + abort(); } + #endif #else + #ifndef NO_WRITE_EXEC // not all systems allow execute in data segment by default if (mprotect(out, 1<<TARGET_SIZE_2, PROT_READ | PROT_WRITE | PROT_EXEC) != 0) SysPrintf("mprotect() failed: %s\n", strerror(errno)); + #endif #endif -#ifdef MUPEN64 - rdword=&readmem_dword; - fake_pc.f.r.rs=&readmem_dword; - fake_pc.f.r.rt=&readmem_dword; - fake_pc.f.r.rd=&readmem_dword; -#endif - int n; + out=(u_char *)BASE_ADDR; cycle_multiplier=200; new_dynarec_clear_full(); #ifdef HOST_IMM8 // Copy this into local area so we don't have to put it in every literal pool invc_ptr=invalid_code; #endif -#ifdef MUPEN64 - for(n=0;n<0x8000;n++) { // 0 .. 0x7FFFFFFF - writemem[n] = write_nomem_new; - writememb[n] = write_nomemb_new; - writememh[n] = write_nomemh_new; -#ifndef FORCE32 - writememd[n] = write_nomemd_new; -#endif - readmem[n] = read_nomem_new; - readmemb[n] = read_nomemb_new; - readmemh[n] = read_nomemh_new; -#ifndef FORCE32 - readmemd[n] = read_nomemd_new; -#endif - } - for(n=0x8000;n<0x8080;n++) { // 0x80000000 .. 0x807FFFFF - writemem[n] = write_rdram_new; - writememb[n] = write_rdramb_new; - writememh[n] = write_rdramh_new; -#ifndef FORCE32 - writememd[n] = write_rdramd_new; -#endif - } - for(n=0xC000;n<0x10000;n++) { // 0xC0000000 .. 0xFFFFFFFF - writemem[n] = write_nomem_new; - writememb[n] = write_nomemb_new; - writememh[n] = write_nomemh_new; -#ifndef FORCE32 - writememd[n] = write_nomemd_new; -#endif - readmem[n] = read_nomem_new; - readmemb[n] = read_nomemb_new; - readmemh[n] = read_nomemh_new; -#ifndef FORCE32 - readmemd[n] = read_nomemd_new; -#endif - } -#endif - tlb_hacks(); arch_init(); new_dynarec_test(); #ifndef RAM_FIXED @@ -8050,9 +7095,15 @@ void new_dynarec_init() void new_dynarec_cleanup() { int n; - #if BASE_ADDR_FIXED - if (munmap ((void *)BASE_ADDR, 1<<TARGET_SIZE_2) < 0) {SysPrintf("munmap() failed\n");} +#if defined(BASE_ADDR_FIXED) || defined(BASE_ADDR_DYNAMIC) + #ifdef VITA + sceKernelFreeMemBlock(sceBlock); + sceBlock = -1; + #else + if (munmap ((void *)BASE_ADDR, 1<<TARGET_SIZE_2) < 0) + SysPrintf("munmap() failed\n"); #endif +#endif for(n=0;n<4096;n++) ll_clear(jump_in+n); for(n=0;n<4096;n++) ll_clear(jump_out+n); for(n=0;n<4096;n++) ll_clear(jump_dirty+n); @@ -8080,6 +7131,7 @@ static u_int *get_source_start(u_int addr, u_int *limit) *limit = (addr & 0x80600000) + 0x00200000; return (u_int *)((u_int)rdram + (addr&0x1fffff)); } + return NULL; } static u_int scan_for_ret(u_int addr) @@ -8097,6 +7149,7 @@ static u_int scan_for_ret(u_int addr) if (*mem == 0x03e00008) // jr $ra return addr + 8; } + return addr; } struct savestate_block { @@ -8190,7 +7243,7 @@ int new_recompile_block(int addr) assem_debug("NOTCOMPILED: addr = %x -> %x\n", (int)addr, (int)out); //printf("NOTCOMPILED: addr = %x -> %x\n", (int)addr, (int)out); //printf("TRACE: count=%d next=%d (compile %x)\n",Count,next_interupt,addr); - //if(debug) + //if(debug) //printf("TRACE: count=%d next=%d (checksum %x)\n",Count,next_interupt,mchecksum()); //printf("fpu mapping=%x enabled=%x\n",(Status & 0x04000000)>>26,(Status & 0x20000000)>>29); /*if(Count>=312978186) { @@ -8210,16 +7263,15 @@ int new_recompile_block(int addr) if (Config.HLE && start == 0x80001000) // hlecall { // XXX: is this enough? Maybe check hleSoftCall? - u_int beginning=(u_int)out; + void *beginning=start_block(); u_int page=get_page(start); + invalid_code[start>>12]=0; emit_movimm(start,0); emit_writeword(0,(int)&pcaddr); emit_jmp((int)new_dyna_leave); literal_pool(0); -#ifdef __arm__ - __clear_cache((void *)beginning,out); -#endif + end_block(beginning); ll_add_flags(jump_in+page,start,state_rflags,(void *)beginning); return 0; } @@ -8246,7 +7298,7 @@ int new_recompile_block(int addr) unsigned int type,op,op2; //printf("addr = %x source = %x %x\n", addr,source,source[0]); - + /* Pass 1 disassembly */ for(i=0;!done;i++) { @@ -8294,7 +7346,7 @@ int new_recompile_block(int addr) case 0x33: strcpy(insn[i],"TLTU"); type=NI; break; case 0x34: strcpy(insn[i],"TEQ"); type=NI; break; case 0x36: strcpy(insn[i],"TNE"); type=NI; break; -#ifndef FORCE32 +#if 0 case 0x14: strcpy(insn[i],"DSLLV"); type=SHIFT; break; case 0x16: strcpy(insn[i],"DSRLV"); type=SHIFT; break; case 0x17: strcpy(insn[i],"DSRAV"); type=SHIFT; break; @@ -8362,11 +7414,8 @@ int new_recompile_block(int addr) case 0x02: strcpy(insn[i],"TLBWI"); type=COP0; break; case 0x06: strcpy(insn[i],"TLBWR"); type=COP0; break; case 0x08: strcpy(insn[i],"TLBP"); type=COP0; break; -#ifdef PCSX case 0x10: strcpy(insn[i],"RFE"); type=COP0; break; -#else - case 0x18: strcpy(insn[i],"ERET"); type=COP0; break; -#endif + //case 0x18: strcpy(insn[i],"ERET"); type=COP0; break; } } break; @@ -8485,7 +7534,7 @@ int new_recompile_block(int addr) break; } break; -#ifndef FORCE32 +#if 0 case 0x14: strcpy(insn[i],"BEQL"); type=CJUMP; break; case 0x15: strcpy(insn[i],"BNEL"); type=CJUMP; break; case 0x16: strcpy(insn[i],"BLEZL"); type=CJUMP; break; @@ -8502,14 +7551,14 @@ int new_recompile_block(int addr) case 0x24: strcpy(insn[i],"LBU"); type=LOAD; break; case 0x25: strcpy(insn[i],"LHU"); type=LOAD; break; case 0x26: strcpy(insn[i],"LWR"); type=LOADLR; break; -#ifndef FORCE32 +#if 0 case 0x27: strcpy(insn[i],"LWU"); type=LOAD; break; #endif case 0x28: strcpy(insn[i],"SB"); type=STORE; break; case 0x29: strcpy(insn[i],"SH"); type=STORE; break; case 0x2A: strcpy(insn[i],"SWL"); type=STORELR; break; case 0x2B: strcpy(insn[i],"SW"); type=STORE; break; -#ifndef FORCE32 +#if 0 case 0x2C: strcpy(insn[i],"SDL"); type=STORELR; break; case 0x2D: strcpy(insn[i],"SDR"); type=STORELR; break; #endif @@ -8517,19 +7566,18 @@ int new_recompile_block(int addr) case 0x2F: strcpy(insn[i],"CACHE"); type=NOP; break; case 0x30: strcpy(insn[i],"LL"); type=NI; break; case 0x31: strcpy(insn[i],"LWC1"); type=C1LS; break; -#ifndef FORCE32 +#if 0 case 0x34: strcpy(insn[i],"LLD"); type=NI; break; case 0x35: strcpy(insn[i],"LDC1"); type=C1LS; break; case 0x37: strcpy(insn[i],"LD"); type=LOAD; break; #endif case 0x38: strcpy(insn[i],"SC"); type=NI; break; case 0x39: strcpy(insn[i],"SWC1"); type=C1LS; break; -#ifndef FORCE32 +#if 0 case 0x3C: strcpy(insn[i],"SCD"); type=NI; break; case 0x3D: strcpy(insn[i],"SDC1"); type=C1LS; break; case 0x3F: strcpy(insn[i],"SD"); type=STORE; break; #endif -#ifdef PCSX case 0x12: strcpy(insn[i],"COP2"); type=NI; op2=(source[i]>>21)&0x1f; //if (op2 & 0x10) { @@ -8553,7 +7601,6 @@ int new_recompile_block(int addr) case 0x32: strcpy(insn[i],"LWC2"); type=C2LS; break; case 0x3A: strcpy(insn[i],"SWC2"); type=C2LS; break; case 0x3B: strcpy(insn[i],"HLECALL"); type=HLECALL; break; -#endif default: strcpy(insn[i],"???"); type=NI; SysPrintf("NI %08x @%08x (%08x)\n", source[i], addr + i*4, addr); break; @@ -8824,7 +7871,6 @@ int new_recompile_block(int addr) else if(type==CJUMP||type==SJUMP||type==FJUMP) ba[i]=start+i*4+4+((signed int)((unsigned int)source[i]<<16)>>14); else ba[i]=-1; -#ifdef PCSX if(i>0&&(itype[i-1]==RJUMP||itype[i-1]==UJUMP||itype[i-1]==CJUMP||itype[i-1]==SJUMP||itype[i-1]==FJUMP)) { int do_in_intrp=0; // branch in delay slot? @@ -8858,7 +7904,6 @@ int new_recompile_block(int addr) i--; // don't compile the DS } } -#endif /* Is this the end of the block? */ if(i>0&&(itype[i-1]==UJUMP||itype[i-1]==RJUMP||(source[i-1]>>16)==0x1000)) { if(rt1[i-1]==0) { // Continue past subroutine call (JAL) @@ -8906,7 +7951,7 @@ int new_recompile_block(int addr) /* Pass 2 - Register dependencies and branch targets */ unneeded_registers(0,slen-1,0); - + /* Pass 3 - Register allocation */ struct regstat current; // Current register allocations/status @@ -8924,9 +7969,6 @@ int new_recompile_block(int addr) int cc=0; int hr=-1; -#ifndef FORCE32 - provisional_32bit(); -#endif if((u_int)addr&1) { // First instruction is delay slot cc=-1; @@ -8936,7 +7978,7 @@ int new_recompile_block(int addr) unneeded_reg_upper[0]=1; current.regmap[HOST_BTREG]=BTREG; } - + for(i=0;i<slen;i++) { if(bt[i]) @@ -8969,126 +8011,13 @@ int new_recompile_block(int addr) } } } -#ifndef FORCE32 - // If something jumps here with 64-bit values - // then promote those registers to 64 bits - if(bt[i]) - { - uint64_t temp_is32=current.is32; - for(j=i-1;j>=0;j--) - { - if(ba[j]==start+i*4) - temp_is32&=branch_regs[j].is32; - } - for(j=i;j<slen;j++) - { - if(ba[j]==start+i*4) - //temp_is32=1; - temp_is32&=p32[j]; - } - if(temp_is32!=current.is32) { - //printf("dumping 32-bit regs (%x)\n",start+i*4); - #ifndef DESTRUCTIVE_WRITEBACK - if(ds) - #endif - for(hr=0;hr<HOST_REGS;hr++) - { - int r=current.regmap[hr]; - if(r>0&&r<64) - { - if((current.dirty>>hr)&((current.is32&~temp_is32)>>r)&1) { - temp_is32|=1LL<<r; - //printf("restore %d\n",r); - } - } - } - current.is32=temp_is32; - } - } -#else current.is32=-1LL; -#endif memcpy(regmap_pre[i],current.regmap,sizeof(current.regmap)); regs[i].wasconst=current.isconst; regs[i].was32=current.is32; regs[i].wasdirty=current.dirty; regs[i].loadedconst=0; - #if defined(DESTRUCTIVE_WRITEBACK) && !defined(FORCE32) - // To change a dirty register from 32 to 64 bits, we must write - // it out during the previous cycle (for branches, 2 cycles) - if(i<slen-1&&bt[i+1]&&itype[i-1]!=UJUMP&&itype[i-1]!=CJUMP&&itype[i-1]!=SJUMP&&itype[i-1]!=RJUMP&&itype[i-1]!=FJUMP) - { - uint64_t temp_is32=current.is32; - for(j=i-1;j>=0;j--) - { - if(ba[j]==start+i*4+4) - temp_is32&=branch_regs[j].is32; - } - for(j=i;j<slen;j++) - { - if(ba[j]==start+i*4+4) - //temp_is32=1; - temp_is32&=p32[j]; - } - if(temp_is32!=current.is32) { - //printf("pre-dumping 32-bit regs (%x)\n",start+i*4); - for(hr=0;hr<HOST_REGS;hr++) - { - int r=current.regmap[hr]; - if(r>0) - { - if((current.dirty>>hr)&((current.is32&~temp_is32)>>(r&63))&1) { - if(itype[i]!=UJUMP&&itype[i]!=CJUMP&&itype[i]!=SJUMP&&itype[i]!=RJUMP&&itype[i]!=FJUMP) - { - if(rs1[i]!=(r&63)&&rs2[i]!=(r&63)) - { - //printf("dump %d/r%d\n",hr,r); - current.regmap[hr]=-1; - if(get_reg(current.regmap,r|64)>=0) - current.regmap[get_reg(current.regmap,r|64)]=-1; - } - } - } - } - } - } - } - else if(i<slen-2&&bt[i+2]&&(source[i-1]>>16)!=0x1000&&(itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP)) - { - uint64_t temp_is32=current.is32; - for(j=i-1;j>=0;j--) - { - if(ba[j]==start+i*4+8) - temp_is32&=branch_regs[j].is32; - } - for(j=i;j<slen;j++) - { - if(ba[j]==start+i*4+8) - //temp_is32=1; - temp_is32&=p32[j]; - } - if(temp_is32!=current.is32) { - //printf("pre-dumping 32-bit regs (%x)\n",start+i*4); - for(hr=0;hr<HOST_REGS;hr++) - { - int r=current.regmap[hr]; - if(r>0) - { - if((current.dirty>>hr)&((current.is32&~temp_is32)>>(r&63))&1) { - if(rs1[i]!=(r&63)&&rs2[i]!=(r&63)&&rs1[i+1]!=(r&63)&&rs2[i+1]!=(r&63)) - { - //printf("dump %d/r%d\n",hr,r); - current.regmap[hr]=-1; - if(get_reg(current.regmap,r|64)>=0) - current.regmap[get_reg(current.regmap,r|64)]=-1; - } - } - } - } - } - } - #endif if(itype[i]!=UJUMP&&itype[i]!=CJUMP&&itype[i]!=SJUMP&&itype[i]!=RJUMP&&itype[i]!=FJUMP) { if(i+1<slen) { current.u=unneeded_reg[i+1]&~((1LL<<rs1[i])|(1LL<<rs2[i])); @@ -9172,7 +8101,7 @@ int new_recompile_block(int addr) } } else { // First instruction expects CCREG to be allocated - if(i==0&&hr==HOST_CCREG) + if(i==0&&hr==HOST_CCREG) regs[i].regmap_entry[hr]=CCREG; else regs[i].regmap_entry[hr]=-1; @@ -9507,7 +8436,7 @@ int new_recompile_block(int addr) pagespan_alloc(¤t,i); break; } - + // Drop the upper half of registers that have become 32-bit current.uu|=current.is32&((1LL<<rt1[i])|(1LL<<rt2[i])); if(itype[i]!=UJUMP&&itype[i]!=CJUMP&&itype[i]!=SJUMP&&itype[i]!=RJUMP&&itype[i]!=FJUMP) { @@ -9525,7 +8454,7 @@ int new_recompile_block(int addr) // Create entry (branch target) regmap for(hr=0;hr<HOST_REGS;hr++) { - int r,or,er; + int r,or; r=current.regmap[hr]; if(r>=0) { if(r!=regmap_pre[i][hr]) { @@ -9568,7 +8497,7 @@ int new_recompile_block(int addr) } } else { // Branches expect CCREG to be allocated at the target - if(regmap_pre[i][hr]==CCREG) + if(regmap_pre[i][hr]==CCREG) regs[i].regmap_entry[hr]=CCREG; else regs[i].regmap_entry[hr]=-1; @@ -9878,7 +8807,7 @@ int new_recompile_block(int addr) { cc=0; } -#if defined(PCSX) && !defined(DRC_DBG) +#if !defined(DRC_DBG) else if(itype[i]==C2OP&>e_cycletab[source[i]&0x3f]>2) { // GTE runs in parallel until accessed, divide by 2 for a rough guess @@ -9919,11 +8848,11 @@ int new_recompile_block(int addr) if(current.regmap[HOST_BTREG]==BTREG) current.regmap[HOST_BTREG]=-1; regs[i].waswritten=current.waswritten; } - + /* Pass 4 - Cull unused host registers */ - + uint64_t nr=0; - + for (i=slen-1;i>=0;i--) { int hr; @@ -10065,7 +8994,7 @@ int new_recompile_block(int addr) } // Save it needed_reg[i]=nr; - + // Deallocate unneeded registers for(hr=0;hr<HOST_REGS;hr++) { @@ -10095,12 +9024,6 @@ int new_recompile_block(int addr) d1=dep1[i+1]; d2=dep2[i+1]; } - if(using_tlb) { - if(itype[i+1]==LOAD || itype[i+1]==LOADLR || - itype[i+1]==STORE || itype[i+1]==STORELR || - itype[i+1]==C1LS || itype[i+1]==C2LS) - map=TLREG; - } else if(itype[i+1]==STORE || itype[i+1]==STORELR || (opcode[i+1]&0x3b)==0x39 || (opcode[i+1]&0x3b)==0x3a) { // SWC1/SDC1 || SWC2/SDC2 map=INVCP; @@ -10155,12 +9078,7 @@ int new_recompile_block(int addr) d1=dep1[i]; d2=dep2[i]; } - if(using_tlb) { - if(itype[i]==LOAD || itype[i]==LOADLR || - itype[i]==STORE || itype[i]==STORELR || - itype[i]==C1LS || itype[i]==C2LS) - map=TLREG; - } else if(itype[i]==STORE || itype[i]==STORELR || + if(itype[i]==STORE || itype[i]==STORELR || (opcode[i]&0x3b)==0x39 || (opcode[i]&0x3b)==0x3a) { // SWC1/SDC1 || SWC2/SDC2 map=INVCP; } @@ -10194,20 +9112,20 @@ int new_recompile_block(int addr) } } } - + /* Pass 5 - Pre-allocate registers */ - + // If a register is allocated during a loop, try to allocate it for the // entire loop, if possible. This avoids loading/storing registers // inside of the loop. - + signed char f_regmap[HOST_REGS]; clear_all_regs(f_regmap); for(i=0;i<slen-1;i++) { if(itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) { - if(ba[i]>=start && ba[i]<(start+i*4)) + if(ba[i]>=start && ba[i]<(start+i*4)) if(itype[i+1]==NOP||itype[i+1]==MOV||itype[i+1]==ALU ||itype[i+1]==SHIFTIMM||itype[i+1]==IMM16||itype[i+1]==LOAD ||itype[i+1]==STORE||itype[i+1]==STORELR||itype[i+1]==C1LS @@ -10255,10 +9173,10 @@ int new_recompile_block(int addr) } } if(ooo[i]) { - if(count_free_regs(regs[i].regmap)<=minimum_free_regs[i+1]) + if(count_free_regs(regs[i].regmap)<=minimum_free_regs[i+1]) f_regmap[hr]=branch_regs[i].regmap[hr]; }else{ - if(count_free_regs(branch_regs[i].regmap)<=minimum_free_regs[i+1]) + if(count_free_regs(branch_regs[i].regmap)<=minimum_free_regs[i+1]) f_regmap[hr]=branch_regs[i].regmap[hr]; } // Avoid dirty->clean transition @@ -10428,10 +9346,10 @@ int new_recompile_block(int addr) if(itype[j]==CJUMP||itype[j]==SJUMP||itype[j]==FJUMP) { if(ooo[j]) { - if(count_free_regs(regs[j].regmap)<=minimum_free_regs[j+1]) + if(count_free_regs(regs[j].regmap)<=minimum_free_regs[j+1]) break; }else{ - if(count_free_regs(branch_regs[j].regmap)<=minimum_free_regs[j+1]) + if(count_free_regs(branch_regs[j].regmap)<=minimum_free_regs[j+1]) break; } if(get_reg(branch_regs[j].regmap,f_regmap[hr])>=0) { @@ -10504,7 +9422,7 @@ int new_recompile_block(int addr) regs[k].isconst&=~(1<<HOST_CCREG); k++; } - regs[j].regmap_entry[HOST_CCREG]=CCREG; + regs[j].regmap_entry[HOST_CCREG]=CCREG; } // Work backwards from the branch target if(j>i&&f_regmap[HOST_CCREG]==CCREG) @@ -10546,18 +9464,18 @@ int new_recompile_block(int addr) } } } - + // Cache memory offset or tlb map pointer if a register is available #ifndef HOST_IMM_ADDR32 #ifndef RAM_OFFSET - if(using_tlb) + if(0) #endif { int earliest_available[HOST_REGS]; int loop_start[HOST_REGS]; int score[HOST_REGS]; int end[HOST_REGS]; - int reg=using_tlb?MMREG:ROREG; + int reg=ROREG; // Init for(hr=0;hr<HOST_REGS;hr++) { @@ -10726,7 +9644,7 @@ int new_recompile_block(int addr) } } #endif - + // This allocates registers (if possible) one instruction prior // to use, which can avoid a load-use penalty on certain CPUs. for(i=0;i<slen-1;i++) @@ -10787,7 +9705,7 @@ int new_recompile_block(int addr) } } } - // Load source into target register + // Load source into target register if(lt1[i+1]&&get_reg(regs[i+1].regmap,rs1[i+1])<0) { if((hr=get_reg(regs[i+1].regmap,rt1[i+1]))>=0) { @@ -10804,46 +9722,6 @@ int new_recompile_block(int addr) } } } - // Preload map address - #ifndef HOST_IMM_ADDR32 - if(itype[i+1]==LOAD||itype[i+1]==LOADLR||itype[i+1]==STORE||itype[i+1]==STORELR||itype[i+1]==C1LS||itype[i+1]==C2LS) { - hr=get_reg(regs[i+1].regmap,TLREG); - if(hr>=0) { - int sr=get_reg(regs[i+1].regmap,rs1[i+1]); - if(sr>=0&&((regs[i+1].wasconst>>sr)&1)) { - int nr; - if(regs[i].regmap[hr]<0&®s[i+1].regmap_entry[hr]<0) - { - regs[i].regmap[hr]=MGEN1+((i+1)&1); - regmap_pre[i+1][hr]=MGEN1+((i+1)&1); - regs[i+1].regmap_entry[hr]=MGEN1+((i+1)&1); - regs[i].isconst&=~(1<<hr); - regs[i].isconst|=regs[i+1].isconst&(1<<hr); - constmap[i][hr]=constmap[i+1][hr]; - regs[i+1].wasdirty&=~(1<<hr); - regs[i].dirty&=~(1<<hr); - } - else if((nr=get_reg2(regs[i].regmap,regs[i+1].regmap,-1))>=0) - { - // move it to another register - regs[i+1].regmap[hr]=-1; - regmap_pre[i+2][hr]=-1; - regs[i+1].regmap[nr]=TLREG; - regmap_pre[i+2][nr]=TLREG; - regs[i].regmap[nr]=MGEN1+((i+1)&1); - regmap_pre[i+1][nr]=MGEN1+((i+1)&1); - regs[i+1].regmap_entry[nr]=MGEN1+((i+1)&1); - regs[i].isconst&=~(1<<nr); - regs[i+1].isconst&=~(1<<nr); - regs[i].dirty&=~(1<<nr); - regs[i+1].wasdirty&=~(1<<nr); - regs[i+1].dirty&=~(1<<nr); - regs[i+2].wasdirty&=~(1<<nr); - } - } - } - } - #endif // Address for store instruction (non-constant) if(itype[i+1]==STORE||itype[i+1]==STORELR ||(opcode[i+1]&0x3b)==0x39||(opcode[i+1]&0x3b)==0x3a) { // SB/SH/SW/SD/SWC1/SDC1/SWC2/SDC2 @@ -10901,7 +9779,7 @@ int new_recompile_block(int addr) } } if(itype[i+1]==LOAD||itype[i+1]==LOADLR||itype[i+1]==STORE||itype[i+1]==STORELR/*||itype[i+1]==C1LS||||itype[i+1]==C2LS*/) { - if(itype[i+1]==LOAD) + if(itype[i+1]==LOAD) hr=get_reg(regs[i+1].regmap,rt1[i+1]); if(itype[i+1]==LOADLR||(opcode[i+1]&0x3b)==0x31||(opcode[i+1]&0x3b)==0x32) // LWC1/LDC1, LWC2/LDC2 hr=get_reg(regs[i+1].regmap,FTEMP); @@ -10925,126 +9803,11 @@ int new_recompile_block(int addr) } } } - + /* Pass 6 - Optimize clean/dirty state */ clean_registers(0,slen-1,1); - - /* Pass 7 - Identify 32-bit registers */ -#ifndef FORCE32 - provisional_r32(); - u_int r32=0; - - for (i=slen-1;i>=0;i--) - { - int hr; - if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) - { - if(ba[i]<start || ba[i]>=(start+slen*4)) - { - // Branch out of this block, don't need anything - r32=0; - } - else - { - // Internal branch - // Need whatever matches the target - // (and doesn't get overwritten by the delay slot instruction) - r32=0; - int t=(ba[i]-start)>>2; - if(ba[i]>start+i*4) { - // Forward branch - if(!(requires_32bit[t]&~regs[i].was32)) - r32|=requires_32bit[t]&(~(1LL<<rt1[i+1]))&(~(1LL<<rt2[i+1])); - }else{ - // Backward branch - //if(!(regs[t].was32&~unneeded_reg_upper[t]&~regs[i].was32)) - // r32|=regs[t].was32&~unneeded_reg_upper[t]&(~(1LL<<rt1[i+1]))&(~(1LL<<rt2[i+1])); - if(!(pr32[t]&~regs[i].was32)) - r32|=pr32[t]&(~(1LL<<rt1[i+1]))&(~(1LL<<rt2[i+1])); - } - } - // Conditional branch may need registers for following instructions - if(itype[i]!=RJUMP&&itype[i]!=UJUMP&&(source[i]>>16)!=0x1000) - { - if(i<slen-2) { - r32|=requires_32bit[i+2]; - r32&=regs[i].was32; - // Mark this address as a branch target since it may be called - // upon return from interrupt - bt[i+2]=1; - } - } - // Merge in delay slot - if(!likely[i]) { - // These are overwritten unless the branch is "likely" - // and the delay slot is nullified if not taken - r32&=~(1LL<<rt1[i+1]); - r32&=~(1LL<<rt2[i+1]); - } - // Assume these are needed (delay slot) - if(us1[i+1]>0) - { - if((regs[i].was32>>us1[i+1])&1) r32|=1LL<<us1[i+1]; - } - if(us2[i+1]>0) - { - if((regs[i].was32>>us2[i+1])&1) r32|=1LL<<us2[i+1]; - } - if(dep1[i+1]&&!((unneeded_reg_upper[i]>>dep1[i+1])&1)) - { - if((regs[i].was32>>dep1[i+1])&1) r32|=1LL<<dep1[i+1]; - } - if(dep2[i+1]&&!((unneeded_reg_upper[i]>>dep2[i+1])&1)) - { - if((regs[i].was32>>dep2[i+1])&1) r32|=1LL<<dep2[i+1]; - } - } - else if(itype[i]==SYSCALL||itype[i]==HLECALL||itype[i]==INTCALL) - { - // SYSCALL instruction (software interrupt) - r32=0; - } - else if(itype[i]==COP0 && (source[i]&0x3f)==0x18) - { - // ERET instruction (return from interrupt) - r32=0; - } - // Check 32 bits - r32&=~(1LL<<rt1[i]); - r32&=~(1LL<<rt2[i]); - if(us1[i]>0) - { - if((regs[i].was32>>us1[i])&1) r32|=1LL<<us1[i]; - } - if(us2[i]>0) - { - if((regs[i].was32>>us2[i])&1) r32|=1LL<<us2[i]; - } - if(dep1[i]&&!((unneeded_reg_upper[i]>>dep1[i])&1)) - { - if((regs[i].was32>>dep1[i])&1) r32|=1LL<<dep1[i]; - } - if(dep2[i]&&!((unneeded_reg_upper[i]>>dep2[i])&1)) - { - if((regs[i].was32>>dep2[i])&1) r32|=1LL<<dep2[i]; - } - requires_32bit[i]=r32; - - // Dirty registers which are 32-bit, require 32-bit input - // as they will be written as 32-bit values - for(hr=0;hr<HOST_REGS;hr++) - { - if(regs[i].regmap_entry[hr]>0&®s[i].regmap_entry[hr]<64) { - if((regs[i].was32>>regs[i].regmap_entry[hr])&(regs[i].wasdirty>>hr)&1) { - if(!((unneeded_reg_upper[i]>>regs[i].regmap_entry[hr])&1)) - requires_32bit[i]|=1LL<<regs[i].regmap_entry[hr]; - } - } - } - //requires_32bit[i]=is32[i]&~unneeded_reg_upper[i]; // DEBUG - } -#else + /* Pass 7 - Identify 32-bit registers */ for (i=slen-1;i>=0;i--) { if(itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) @@ -11057,7 +9820,6 @@ int new_recompile_block(int addr) } } } -#endif if(itype[slen-1]==SPAN) { bt[slen-1]=1; // Mark as a branch target so instruction can restart after exception @@ -11076,26 +9838,6 @@ int new_recompile_block(int addr) else printf(" r%d",r); } } -#ifndef FORCE32 - printf(" UU:"); - for(r=1;r<=CCREG;r++) { - if(((unneeded_reg_upper[i]&~unneeded_reg[i])>>r)&1) { - if(r==HIREG) printf(" HI"); - else if(r==LOREG) printf(" LO"); - else printf(" r%d",r); - } - } - printf(" 32:"); - for(r=0;r<=CCREG;r++) { - //if(((is32[i]>>r)&(~unneeded_reg[i]>>r))&1) { - if((regs[i].was32>>r)&1) { - if(r==CCREG) printf(" CC"); - else if(r==HIREG) printf(" HI"); - else if(r==LOREG) printf(" LO"); - else printf(" r%d",r); - } - } -#endif printf("\n"); #if defined(__i386__) || defined(__x86_64__) printf("pre: eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",regmap_pre[i][0],regmap_pre[i][1],regmap_pre[i][2],regmap_pre[i][3],regmap_pre[i][5],regmap_pre[i][6],regmap_pre[i][7]); @@ -11111,29 +9853,7 @@ int new_recompile_block(int addr) if((needed_reg[i]>>5)&1) printf("ebp "); if((needed_reg[i]>>6)&1) printf("esi "); if((needed_reg[i]>>7)&1) printf("edi "); - printf("r:"); - for(r=0;r<=CCREG;r++) { - //if(((requires_32bit[i]>>r)&(~unneeded_reg[i]>>r))&1) { - if((requires_32bit[i]>>r)&1) { - if(r==CCREG) printf(" CC"); - else if(r==HIREG) printf(" HI"); - else if(r==LOREG) printf(" LO"); - else printf(" r%d",r); - } - } printf("\n"); - /*printf("pr:"); - for(r=0;r<=CCREG;r++) { - //if(((requires_32bit[i]>>r)&(~unneeded_reg[i]>>r))&1) { - if((pr32[i]>>r)&1) { - if(r==CCREG) printf(" CC"); - else if(r==HIREG) printf(" HI"); - else if(r==LOREG) printf(" LO"); - else printf(" r%d",r); - } - } - if(pr32[i]!=requires_32bit[i]) printf(" OOPS"); - printf("\n");*/ #if defined(__i386__) || defined(__x86_64__) printf("entry: eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d\n",regs[i].regmap_entry[0],regs[i].regmap_entry[1],regs[i].regmap_entry[2],regs[i].regmap_entry[3],regs[i].regmap_entry[5],regs[i].regmap_entry[6],regs[i].regmap_entry[7]); printf("dirty: "); @@ -11217,29 +9937,6 @@ int new_recompile_block(int addr) #endif printf("\n"); } -#ifndef FORCE32 - printf(" 32:"); - for(r=0;r<=CCREG;r++) { - if((regs[i].is32>>r)&1) { - if(r==CCREG) printf(" CC"); - else if(r==HIREG) printf(" HI"); - else if(r==LOREG) printf(" LO"); - else printf(" r%d",r); - } - } - printf("\n"); -#endif - /*printf(" p32:"); - for(r=0;r<=CCREG;r++) { - if((p32[i]>>r)&1) { - if(r==CCREG) printf(" CC"); - else if(r==HIREG) printf(" HI"); - else if(r==LOREG) printf(" LO"); - else printf(" r%d",r); - } - } - if(p32[i]!=regs[i].is32) printf(" NO MATCH\n"); - else printf("\n");*/ if(itype[i]==RJUMP||itype[i]==UJUMP||itype[i]==CJUMP||itype[i]==SJUMP||itype[i]==FJUMP) { #if defined(__i386__) || defined(__x86_64__) printf("branch(%d): eax=%d ecx=%d edx=%d ebx=%d ebp=%d esi=%d edi=%d dirty: ",i,branch_regs[i].regmap[0],branch_regs[i].regmap[1],branch_regs[i].regmap[2],branch_regs[i].regmap[3],branch_regs[i].regmap[5],branch_regs[i].regmap[6],branch_regs[i].regmap[7]); @@ -11266,18 +9963,6 @@ int new_recompile_block(int addr) if((branch_regs[i].dirty>>10)&1) printf("r10 "); if((branch_regs[i].dirty>>12)&1) printf("r12 "); #endif -#ifndef FORCE32 - printf(" 32:"); - for(r=0;r<=CCREG;r++) { - if((branch_regs[i].is32>>r)&1) { - if(r==CCREG) printf(" CC"); - else if(r==HIREG) printf(" HI"); - else if(r==LOREG) printf(" LO"); - else printf(" r%d",r); - } - } - printf("\n"); -#endif } } #endif // DISASM @@ -11288,14 +9973,13 @@ int new_recompile_block(int addr) cop1_usable=0; uint64_t is32_pre=0; u_int dirty_pre=0; - u_int beginning=(u_int)out; + void *beginning=start_block(); if((u_int)addr&1) { ds=1; pagespan_ds(); } u_int instr_addr0_override=0; -#ifdef PCSX if (start == 0x80030000) { // nasty hack for fastbios thing // override block entry to this code @@ -11309,7 +9993,6 @@ int new_recompile_block(int addr) emit_cmp(0,1); emit_jne((int)new_dyna_leave); } -#endif for(i=0;i<slen;i++) { //if(ds) printf("ds: "); @@ -11323,8 +10006,6 @@ int new_recompile_block(int addr) #ifndef DESTRUCTIVE_WRITEBACK if(i<2||(itype[i-2]!=UJUMP&&itype[i-2]!=RJUMP&&(source[i-2]>>16)!=0x1000)) { - wb_sx(regmap_pre[i],regs[i].regmap_entry,regs[i].wasdirty,is32_pre,regs[i].was32, - unneeded_reg[i],unneeded_reg_upper[i]); wb_valid(regmap_pre[i],regs[i].regmap_entry,dirty_pre,regs[i].wasdirty,is32_pre, unneeded_reg[i],unneeded_reg_upper[i]); } @@ -11565,7 +10246,7 @@ int new_recompile_block(int addr) // replace it with the new address. // Don't add new entries. We'll insert the // ones that actually get used in check_addr(). - int *ht_bin=hash_table[((vaddr>>16)^vaddr)&0xFFFF]; + u_int *ht_bin=hash_table[((vaddr>>16)^vaddr)&0xFFFF]; if(ht_bin[0]==vaddr) { ht_bin[1]=entry_point; } @@ -11582,45 +10263,32 @@ int new_recompile_block(int addr) // Align code if(((u_int)out)&7) emit_addnop(13); #endif - assert((u_int)out-beginning<MAX_OUTPUT_BLOCK_SIZE); + assert((u_int)out-(u_int)beginning<MAX_OUTPUT_BLOCK_SIZE); //printf("shadow buffer: %x-%x\n",(int)copy,(int)copy+slen*4); memcpy(copy,source,slen*4); copy+=slen*4; - - #ifdef __arm__ - __clear_cache((void *)beginning,out); - #endif - + + end_block(beginning); + // If we're within 256K of the end of the buffer, // start over from the beginning. (Is 256K enough?) if((u_int)out>(u_int)BASE_ADDR+(1<<TARGET_SIZE_2)-MAX_OUTPUT_BLOCK_SIZE) out=(u_char *)BASE_ADDR; - + // Trap writes to any of the pages we compiled for(i=start>>12;i<=(start+slen*4)>>12;i++) { invalid_code[i]=0; -#ifndef DISABLE_TLB - memory_map[i]|=0x40000000; - if((signed int)start>=(signed int)0xC0000000) { - assert(using_tlb); - j=(((u_int)i<<12)+(memory_map[i]<<2)-(u_int)rdram+(u_int)0x80000000)>>12; - invalid_code[j]=0; - memory_map[j]|=0x40000000; - //printf("write protect physical page: %x (virtual %x)\n",j<<12,start); - } -#endif } inv_code_start=inv_code_end=~0; -#ifdef PCSX + // for PCSX we need to mark all mirrors too if(get_page(start)<(RAM_SIZE>>12)) for(i=start>>12;i<=(start+slen*4)>>12;i++) invalid_code[((u_int)0x00000000>>12)|(i&0x1ff)]= invalid_code[((u_int)0x80000000>>12)|(i&0x1ff)]= invalid_code[((u_int)0xa0000000>>12)|(i&0x1ff)]=0; -#endif - + /* Pass 10 - Free memory by expiring oldest blocks */ - + int end=((((int)out-(int)BASE_ADDR)>>(TARGET_SIZE_2-16))+16384)&65535; while(expirep!=end) { @@ -11644,7 +10312,7 @@ int new_recompile_block(int addr) case 2: // Clear hash table for(i=0;i<32;i++) { - int *ht_bin=hash_table[((expirep&2047)<<5)+i]; + u_int *ht_bin=hash_table[((expirep&2047)<<5)+i]; if((ht_bin[3]>>shift)==(base>>shift) || ((ht_bin[3]-MAX_OUTPUT_BLOCK_SIZE)>>shift)==(base>>shift)) { inv_debug("EXP: Remove hash %x -> %x\n",ht_bin[2],ht_bin[3]); @@ -11662,7 +10330,7 @@ int new_recompile_block(int addr) case 3: // Clear jump_out #ifdef __arm__ - if((expirep&2047)==0) + if((expirep&2047)==0) do_clear_cache(); #endif ll_remove_matching_addrs(jump_out+(expirep&2047),base,shift); |