ref: 600bbfe4aaa9ad0f73d8d73eef1b7670e5f7d3a3
dir: /os/mpc/powerbreak.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #include "ureg.h" extern int (*breakhandler)(Ureg *ur, Proc*); /* trap.c */ extern Instr BREAK; /* trap.c */ extern void portbreakinit(void); #define getop(i) ((i>>26)&0x3F) #define getxo(i) ((i>>1)&0x3FF) #define getbobi(i) bo = (i>>21)&0x1f; bi = (i>>16)&0x1f; xx = (i>>11)&0x1f; void machbreakinit(void) { portbreakinit(); breakhandler = breakhit; } Instr machinstr(ulong addr) { if (addr < KTZERO) error(Ebadarg); return *(Instr*)addr; } void machbreakset(ulong addr) { if (addr < KTZERO) error(Ebadarg); *(Instr*)addr = BREAK; segflush((void*)addr, sizeof(Instr)); } void machbreakclear(ulong addr, Instr i) { if (addr < KTZERO) error(Ebadarg); *(Instr*)addr = i; segflush((void*)addr, sizeof(Instr)); } static int condok(Ureg *ur, ulong ir, int ctrok) { int bo, bi, xx; ulong ctrval; ctrval = ur->ctr; getbobi(ir); if(xx) return 0; /* illegal */ if((bo & 0x4) == 0) { if(!ctrok) return 0; /* illegal */ ctrval--; } if(bo & 0x4 || (ctrval!=0)^((bo>>1)&1)) { if(bo & 0x10 || (((ur->cr & (1L<<(31-bi))!=0)==((bo>>3)&1)))) return 1; } return 0; } /* * Return the address of the instruction that will be executed after the * instruction at ur->pc, accounting for current branch conditions. */ ulong machnextaddr(Ureg *ur) { long imm; ulong ir; ir = *(ulong*)ur->pc; switch(getop(ir)) { case 18: /* branch */ imm = ir & 0x03FFFFFC; if(ir & 0x02000000) imm |= 0xFC000000; /* sign extended */ if((ir & 2) == 0) /* relative address */ return ur->pc + imm; return imm; case 16: /* conditional branch */ if(condok(ur, ir&0xFFFF0000, 1)){ imm = ir & 0xFFFC; if(ir & 0x08000) imm |= 0xFFFF0000; /* sign extended */ if((ir & 2) == 0) /* relative address */ return ur->pc + imm; return imm; } break; case 19: /* conditional branch to register */ switch(getxo(ir)){ case 528: /* bcctr */ if(condok(ur, ir, 0)) return ur->ctr & ~3; break; case 16: /* bclr */ if(condok(ur, ir, 1)) return ur->lr & ~3; break; } break; } return ur->pc+4; /* next instruction */ } int isvalid_va(void *v) { return (ulong)v >= KTZERO; }