ref: d39d1a5303541539f61488317b220c1eb724d7d3
dir: /sys/src/cmd/qi/power.h/
/* * power sim.h * * The integer instruction side of this emulator is portable if sizeof(long) >= 4 * Floating point emulation assumes: * sizeof(ulong) == sizeof(float) * sizeof(ulong)*2 == sizeof(double) <= sizeof(vlong) * unions of double & vlong have no padding * vlongs provide at least 64 bits precision */ #include "/power/include/ureg.h" #define USERADDR 0xC0000000 #define UREGADDR (USERADDR+BY2PG-4-0xA0) #define USER_REG(x) (UREGADDR+(ulong)(x)) #define REGOFF(x) (USER_REG(&((struct Ureg *) 0)->x)) typedef struct Registers Registers; typedef struct Segment Segment; typedef struct Memory Memory; typedef struct Inset Inset; typedef struct Inst Inst; typedef struct Icache Icache; typedef struct Breakpoint Breakpoint; enum { Instruction = 1, Read = 2, Write = 4, Access = 2|4, Equal = 4|8, }; struct Breakpoint { int type; /* Instruction/Read/Access/Write/Equal */ ulong addr; /* Place at address */ int count; /* To execute count times or value */ int done; /* How many times passed through */ Breakpoint *next; /* Link to next one */ }; enum { Iload, Istore, Iarith, Ilog, Ibranch, Ireg, Isyscall, Ifloat, Inop, Icontrol, }; struct Icache { int on; /* Turned on */ int linesize; /* Line size in bytes */ int stall; /* Cache stalls */ int *lines; /* Tag array */ int* (*hash)(ulong); /* Hash function */ char *hashtext; /* What the function looks like */ }; struct Inset { Inst *tab; /* indexed by extended opcode */ int nel; }; struct Inst { void (*func)(ulong); char *name; int type; int count; int taken; }; struct Registers { ulong pc; ulong ir; Inst *ip; long r[32]; ulong ctr; ulong cr; ulong xer; ulong lr; ulong fpscr; ulong dec; ulong tbl; ulong tbu; double fd[32]; }; enum { MemRead, MemReadstring, MemWrite, }; enum { Stack, Text, Data, Bss, Nseg, }; struct Segment { short type; ulong base; ulong end; ulong fileoff; ulong fileend; int rss; int refs; uchar **table; }; struct Memory { Segment seg[Nseg]; }; void fatal(int, char*, ...); void fpreginit(void); void run(void); void undef(ulong); void unimp(ulong); void dumpreg(void); void dumpfreg(void); void dumpdreg(void); void* emalloc(ulong); void* erealloc(void*, ulong, ulong); void* vaddr(ulong); void itrace(char *, ...); void segsum(void); void sc(ulong); char* memio(char*, ulong, int, int); ulong getmem_w(ulong); ulong ifetch(ulong); ushort getmem_h(ulong); void putmem_w(ulong, ulong); uchar getmem_b(ulong); void putmem_b(ulong, uchar); uvlong getmem_v(ulong); ulong getmem_4(ulong); ulong getmem_2(ulong); void putmem_v(ulong, uvlong); void putmem_h(ulong, short); void isum(void); void initicache(void); void updateicache(ulong addr); long lnrand(long); void randseed(long, long); void cmd(void); void brkchk(ulong, int); void delbpt(char*); void breakpoint(char*, char*); char* nextc(char*); ulong expr(char*); void initstk(int, char**); void initmap(void); void inithdr(int); void reset(void); void dobplist(void); void procinit(int); void printsource(long); void printparams(Symbol *, ulong); void printlocals(Symbol *, ulong); void stktrace(int); void iprofile(void); /* Globals */ Extern Registers reg; Extern Memory memory; Extern int text; Extern int trace; Extern int sysdbg; Extern int calltree; Extern Icache icache; Extern int count; Extern jmp_buf errjmp; Extern Breakpoint *bplist; Extern int atbpt; Extern int membpt; Extern int cmdcount; Extern int nopcount; Extern ulong dot; extern char *file; Extern Biobuf *bioout; Extern Biobuf *bin; Extern Inst *ci; Extern ulong *iprof; Extern ulong iprofsize; Extern ulong loadlock; extern int datasize; extern int printcol; Extern Map *symmap; extern ulong bits[]; extern Inset ops0, ops19, ops31, ops59, ops63a, ops63b; /* Plan9 Kernel constants */ #define BY2PG 4096 #define BY2WD 4 #define UTZERO 0x1000 #define TSTKSIZ 32 #define TSTACKTOP 0x20000000 #define STACKTOP (TSTACKTOP-TSTKSIZ*BY2PG) #define STACKSIZE (4*1024*1024) #define PROFGRAN 4 #define NOP 0x80300000 #define SIGNBIT 0x80000000 enum { CRLT = 1<<31, CRGT = 1<<30, CREQ = 1<<29, CRSO = 1<<28, CRFU = CRSO, CRFX = 1<<27, CRFEX = 1<<26, CRVX = 1<<25, CROX = 1<<24, }; #define getCR(x,w) (((w)>>(28-(x*4)))&0xF) #define mkCR(x,v) (((v)&0xF)<<(28-(x*4))) #define simm(xx, ii) xx = (short)(ii&0xFFFF); #define uimm(xx, ii) xx = ii&0xFFFF; #define imms(xx, ii) xx = ii<<16; #define getairr(i) rd = (i>>21)&0x1f; ra = (i>>16)&0x1f; simm(imm,i) #define getarrr(i) rd = (i>>21)&0x1f; ra = (i>>16)&0x1f; rb = (i>>11)&0x1f; #define getbobi(i) bo = (i>>21)&0x1f; bi = (i>>16)&0x1f; xx = (i>>11)&0x1f; #define getlirr(i) rs = (i>>21)&0x1f; ra = (i>>16)&0x1f; uimm(imm,i) #define getlrrr(i) rs = (i>>21)&0x1f; ra = (i>>16)&0x1f; rb = (i>>11)&0x1f; #define OP(o,xo) ((o<<26)|(xo<<1)) /* build an operation */ #define xop(a,b) ((b<<6)|a) /* compact form for use in a decoding switch on op/xo */ #define getop(i) ((i>>26)&0x3F) #define getxo(i) ((i>>1)&0x3FF) #define FPS_FX (1<<31) /* exception summary (sticky) */ #define FPS_EX (1<<30) /* enabled exception summary */ #define FPS_VX (1<<29) /* invalid operation exception summary */ #define FPS_OX (1<<28) /* overflow exception OX (sticky) */ #define FPS_UX (1<<27) /* underflow exception UX (sticky) */ #define FPS_ZX (1<<26) /* zero divide exception ZX (sticky) */ #define FPS_XX (1<<25) /* inexact exception XX (sticky) */ #define FPS_VXSNAN (1<<24) /* invalid operation exception for SNaN (sticky) */ #define FPS_VXISI (1<<23) /* invalid operation exception for ∞-∞ (sticky) */ #define FPS_VXIDI (1<<22) /* invalid operation exception for ∞/∞ (sticky) */ #define FPS_VXZDZ (1<<21) /* invalid operation exception for 0/0 (sticky) */ #define FPS_VXIMZ (1<<20) /* invalid operation exception for ∞*0 (sticky) */ #define FPS_VXVC (1<<19) /* invalid operation exception for invalid compare (sticky) */ #define FPS_FR (1<<18) /* fraction rounded */ #define FPS_FI (1<<17) /* fraction inexact */ #define FPS_FPRF (1<<16) /* floating point result class */ #define FPS_FPCC (0xF<<12) /* <, >, =, unordered */ #define FPS_VXCVI (1<<8) /* enable exception for invalid integer convert (sticky) */ #define FPS_VE (1<<7) /* invalid operation exception enable */ #define FPS_OE (1<<6) /* enable overflow exceptions */ #define FPS_UE (1<<5) /* enable underflow */ #define FPS_ZE (1<<4) /* enable zero divide */ #define FPS_XE (1<<3) /* enable inexact exceptions */ #define FPS_RN (3<<0) /* rounding mode */ #define XER_SO (1<<31) #define XER_OV (1<<30) #define XER_CA (1<<29) #define Rc 1 #define OE 0x400