ref: f24038d601ebe23a213ca1eaf2cf2faa47c22873
dir: /sys/src/9/pc/fpu.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" enum { CR4Osfxsr = 1 << 9, CR4Oxmmex = 1 << 10, CR4Oxsave = 1 << 18, }; /* from l.s */ extern void fpsserestore(FPsave*); extern void fpssesave(FPsave*); extern void fpx87restore0(FPsave*); extern void fpx87save0(FPsave*); extern void ldmxcsr(ulong); void putxcr0(ulong) { } /* * we keep FPsave structure in SSE format emulating FXSAVE / FXRSTOR * instructions for legacy x87 fpu. */ static void fpx87save(FPsave *fps) { ushort tag; fpx87save0(fps); /* * convert x87 tag word to fxsave tag byte: * 00, 01, 10 -> 1, 11 -> 0 */ tag = ~fps->tag; tag = (tag | (tag >> 1)) & 0x5555; tag = (tag | (tag >> 1)) & 0x3333; tag = (tag | (tag >> 2)) & 0x0F0F; tag = (tag | (tag >> 4)) & 0x00FF; /* NOP fps->fcw = fps->control; */ fps->fsw = fps->status; fps->ftw = tag; fps->fop = fps->opcode; fps->fpuip = fps->pc; fps->cs = fps->selector; fps->fpudp = fps->operand; fps->ds = fps->oselector; #define MOVA(d,s) \ *((ushort*)(d+8)) = *((ushort*)(s+8)), \ *((ulong*)(d+4)) = *((ulong*)(s+4)), \ *((ulong*)(d)) = *((ulong*)(s)) MOVA(fps->xregs+0x70, fps->regs+70); MOVA(fps->xregs+0x60, fps->regs+60); MOVA(fps->xregs+0x50, fps->regs+50); MOVA(fps->xregs+0x40, fps->regs+40); MOVA(fps->xregs+0x30, fps->regs+30); MOVA(fps->xregs+0x20, fps->regs+20); MOVA(fps->xregs+0x10, fps->regs+10); MOVA(fps->xregs+0x00, fps->regs+00); #undef MOVA #define CLR6(d) \ *((ulong*)(d)) = 0, \ *((ushort*)(d+4)) = 0 CLR6(fps->xregs+0x70+10); CLR6(fps->xregs+0x60+10); CLR6(fps->xregs+0x50+10); CLR6(fps->xregs+0x40+10); CLR6(fps->xregs+0x30+10); CLR6(fps->xregs+0x20+10); CLR6(fps->xregs+0x10+10); CLR6(fps->xregs+0x00+10); #undef CLR6 fps->rsrvd1 = fps->rsrvd2 = fps->mxcsr = fps->mxcsr_mask = 0; } static void fpx87restore(FPsave *fps) { ushort msk, tos, tag, *reg; /* convert fxsave tag byte to x87 tag word */ tag = 0; tos = 7 - ((fps->fsw >> 11) & 7); for(msk = 0x80; msk != 0; tos--, msk >>= 1){ tag <<= 2; if((fps->ftw & msk) != 0){ reg = (ushort*)&fps->xregs[(tos & 7) << 4]; switch(reg[4] & 0x7fff){ case 0x0000: if((reg[0] | reg[1] | reg[2] | reg[3]) == 0){ tag |= 1; /* 01 zero */ break; } /* no break */ case 0x7fff: tag |= 2; /* 10 special */ break; default: if((reg[3] & 0x8000) == 0) break; /* 00 valid */ tag |= 2; /* 10 special */ break; } }else{ tag |= 3; /* 11 empty */ } } #define MOVA(d,s) \ *((ulong*)(d)) = *((ulong*)(s)), \ *((ulong*)(d+4)) = *((ulong*)(s+4)), \ *((ushort*)(d+8)) = *((ushort*)(s+8)) MOVA(fps->regs+00, fps->xregs+0x00); MOVA(fps->regs+10, fps->xregs+0x10); MOVA(fps->regs+20, fps->xregs+0x20); MOVA(fps->regs+30, fps->xregs+0x30); MOVA(fps->regs+40, fps->xregs+0x40); MOVA(fps->regs+50, fps->xregs+0x50); MOVA(fps->regs+60, fps->xregs+0x60); MOVA(fps->regs+70, fps->xregs+0x70); #undef MOVA fps->oselector = fps->ds; fps->operand = fps->fpudp; fps->opcode = fps->fop & 0x7ff; fps->selector = fps->cs; fps->pc = fps->fpuip; fps->tag = tag; fps->status = fps->fsw; /* NOP fps->control = fps->fcw; */ fps->r1 = fps->r2 = fps->r3 = fps->r4 = 0; fpx87restore0(fps); } static char* mathmsg[] = { nil, /* handled below */ "denormalized operand", "division by zero", "numeric overflow", "numeric underflow", "precision loss", }; static void mathnote(ulong status, ulong pc) { char *msg, note[ERRMAX]; int i; /* * Some attention should probably be paid here to the * exception masks and error summary. */ msg = "unknown exception"; for(i = 1; i <= 5; i++){ if(!((1<<i) & status)) continue; msg = mathmsg[i]; break; } if(status & 0x01){ if(status & 0x40){ if(status & 0x200) msg = "stack overflow"; else msg = "stack underflow"; }else msg = "invalid operation"; } snprint(note, sizeof note, "sys: fp: %s fppc=0x%lux status=0x%lux", msg, pc, status); postnote(up, 1, note, NDebug); } /* * math coprocessor error */ static void matherror(Ureg*, void*) { /* * a write cycle to port 0xF0 clears the interrupt latch attached * to the error# line from the 387 */ if(!(m->cpuiddx & Fpuonchip)) outb(0xF0, 0xFF); /* * get floating point state to check out error */ fpsave(up->fpsave); up->fpstate = FPinactive; mathnote(up->fpsave->fsw, up->fpsave->fpuip); } /* * SIMD error */ static void simderror(Ureg *ureg, void*) { fpsave(up->fpsave); up->fpstate = FPinactive; mathnote(up->fpsave->mxcsr & 0x3f, ureg->pc); } /* * math coprocessor emulation fault */ static void mathemu(Ureg *ureg, void*) { ulong status, control; if(up->fpstate & FPillegal){ /* someone did floating point in a note handler */ postnote(up, 1, "sys: floating point in note handler", NDebug); return; } switch(up->fpstate){ case FPinit: fpinit(); if(fpsave == fpssesave) ldmxcsr(0x1f80); /* no simd exceptions on 386 */ while(up->fpsave == nil) up->fpsave = mallocalign(sizeof(FPsave), FPalign, 0, 0); up->fpstate = FPactive; break; case FPinactive: /* * Before restoring the state, check for any pending * exceptions, there's no way to restore the state without * generating an unmasked exception. * More attention should probably be paid here to the * exception masks and error summary. */ status = up->fpsave->fsw; control = up->fpsave->fcw; if((status & ~control) & 0x07F){ mathnote(status, up->fpsave->fpuip); break; } fprestore(up->fpsave); up->fpstate = FPactive; break; case FPactive: panic("math emu pid %ld %s pc 0x%lux", up->pid, up->text, ureg->pc); break; } } /* * math coprocessor segment overrun */ static void mathover(Ureg*, void*) { pexit("math overrun", 0); } void mathinit(void) { trapenable(VectorCERR, matherror, 0, "matherror"); if(m->cpuidfamily == 3) intrenable(IrqIRQ13, matherror, 0, BUSUNKNOWN, "matherror"); trapenable(VectorCNA, mathemu, 0, "mathemu"); trapenable(VectorCSO, mathover, 0, "mathover"); trapenable(VectorSIMD, simderror, 0, "simderror"); } /* * fpuinit(), called from cpuidentify() for each cpu. */ void fpuinit(void) { uintptr cr4; m->xcr0 = 0; cr4 = getcr4(); cr4 &= ~CR4Oxsave; if((m->cpuiddx & (Sse|Fxsr)) == (Sse|Fxsr)){ /* have sse fp? */ cr4 |= CR4Osfxsr|CR4Oxmmex; putcr4(cr4); fpsave = fpssesave; fprestore = fpsserestore; } else { cr4 &= ~(CR4Osfxsr|CR4Oxmmex); putcr4(cr4); fpsave = fpx87save; fprestore = fpx87restore; } fpoff(); } void fpuprocsetup(Proc *p) { p->fpstate = FPinit; fpoff(); } void fpuprocfork(Proc *p) { int s; s = splhi(); switch(up->fpstate & ~FPillegal){ case FPactive: fpsave(up->fpsave); up->fpstate = FPinactive; case FPinactive: while(p->fpsave == nil) p->fpsave = mallocalign(sizeof(FPsave), FPalign, 0, 0); memmove(p->fpsave, up->fpsave, sizeof(FPsave)); p->fpstate = FPinactive; } splx(s); } void fpuprocsave(Proc *p) { if(p->fpstate == FPactive){ if(p->state == Moribund) fpclear(); else{ /* * Fpsave() stores without handling pending * unmasked exeptions. Postnote() can't be called * so the handling of pending exceptions is delayed * until the process runs again and generates an * emulation fault to activate the FPU. */ fpsave(p->fpsave); } p->fpstate = FPinactive; } } void fpuprocrestore(Proc*) { }