ref: 766a641d252cf4de21d50b2753dd8c25490b8ba0
dir: /sys/src/9/bcm/coproc.c/
/* * arm co-processors * mainly to cope with arm hard-wiring register numbers into instructions. * * CP15 (system control) is the one that gets used the most in practice. * * these routines must be callable from KZERO. * * on a multiprocessor, process switching to another cpu is assumed * to be inhibited by the caller as these registers are local to the cpu. */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "arm.h" enum { /* alternates: 0xe12fff1e BX (R14); last e is R14 */ /* 0xe28ef000 B 0(R14); second e is R14 (ken) */ Retinst = 0xe1a0f00e, /* MOV R14, R15 */ Opmask = MASK(3), Regmask = MASK(4), }; static void* mkinstr(ulong wd) { static ulong ib[256], *ep[MAXMACH+1]; static Lock lk; ulong *ip, *ie; ie = ep[m->machno]; for(ip = ib; ip < ie; ip += 2) if(*ip == wd) return ip; ilock(&lk); ie = ep[MAXMACH]; for(; ip < ie; ip += 2) if(*ip == wd) goto Found; if(ip >= &ib[nelem(ib)]) panic("mkinstr: out of instrucuction buffer"); ip[0] = wd; ip[1] = Retinst; ep[MAXMACH] = ie = ip + 2; cachedwbse(ip, 2*sizeof(*ip)); Found: iunlock(&lk); cacheiinv(); ep[m->machno] = ie; return ip; } static void* setupcpop(ulong opcode, int cp, int op1, int crn, int crm, int op2) { op1 &= Opmask; op2 &= Opmask; crn &= Regmask; crm &= Regmask; cp &= Regmask; return mkinstr(opcode | op1 << 21 | crn << 16 | cp << 8 | op2 << 5 | crm); } ulong cprd(int cp, int op1, int crn, int crm, int op2) { /* * MRC. return value will be in R0, which is convenient. * Rt will be R0. */ ulong (*fp)(void) = setupcpop(0xee100010, cp, op1, crn, crm, op2); return fp(); } void cpwr(int cp, int op1, int crn, int crm, int op2, ulong val) { /* MCR, Rt is R0 */ void (*fp)(ulong) = setupcpop(0xee000010, cp, op1, crn, crm, op2); fp(val); } ulong cprdsc(int op1, int crn, int crm, int op2) { return cprd(CpSC, op1, crn, crm, op2); } void cpwrsc(int op1, int crn, int crm, int op2, ulong val) { cpwr(CpSC, op1, crn, crm, op2, val); } /* floating point */ /* fp coproc control */ static void* setupfpctlop(int opcode, int fpctlreg) { fpctlreg &= Nfpctlregs - 1; return mkinstr(opcode | fpctlreg << 16 | 0 << 12 | CpFP << 8); } ulong fprd(int fpreg) { /* * VMRS. return value will be in R0, which is convenient. * Rt will be R0. */ ulong (*fp)(void) = setupfpctlop(0xeef00010, fpreg); return fp(); } void fpwr(int fpreg, ulong val) { /* * fpu might be off and this VMSR might enable it * VMSR, Rt is R0 */ void (*fp)(ulong) = setupfpctlop(0xeee00010, fpreg); fp(val); } /* fp register access; don't bother with single precision */ static void* setupfpop(int opcode, int fpreg) { ulong wd = opcode | 0 << 16 | (fpreg & (16 - 1)) << 12; if (fpreg >= 16) wd |= 1 << 22; /* high bit of dfp reg # */ return mkinstr(wd); } ulong fpsavereg(int fpreg, uvlong *fpp) { /* * VSTR. pointer will be in R0, which is convenient. * Rt will be R0. */ ulong (*fp)(uvlong *) = setupfpop(0xed000000 | CpDFP << 8, fpreg); return fp(fpp); } void fprestreg(int fpreg, uvlong val) { /* VLDR, Rt is R0 */ void (*fp)(uvlong *) = setupfpop(0xed100000 | CpDFP << 8, fpreg); fp(&val); }