ref: e81c54ba2ecc673a4d5f8aed0e9b52841fe07b0d
dir: /os/mpc/cpmtimer.c/
#include "u.h" #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" enum { Ntimer = 4 /* maximum allowed by hardware */ }; static struct { Lock; int init; int ntimer; /* actual timers on this chip revision */ GTimer t[Ntimer]; } cpmtimers; static uchar timerirq[] = {0x19, 0x12, 0x0C, 0x07}; static void gtimerinit(int, ushort*, ushort*); static void gtimerreset(void) { IMM *io; int i; ilock(&cpmtimers); if(!cpmtimers.init){ if(m->cputype == 0x50 && (getimmr() & 0xFFFF) <= 0x2001) cpmtimers.ntimer = 2; else cpmtimers.ntimer = Ntimer; io = m->iomem; io->tgcr = 0x2222; /* reset timers, low-power stop */ for(i=0; i<cpmtimers.ntimer; i++) gtimerinit(i, &io->tmr1+i, &io->ter1+i); cpmtimers.init = 1; } iunlock(&cpmtimers); } static void gtimerintr(Ureg *ur, void *arg) { GTimer *t; t = arg; t->event = *t->ter; *t->ter = t->event; if(t->inuse && t->interrupt != nil) t->interrupt(ur, t->arg, t); } static void gtimerinit(int i, ushort *tmr, ushort *ter) { GTimer *t; char name[KNAMELEN]; snprint(name, sizeof(name), "timer.%d", i); t = &cpmtimers.t[i]; t->x = i*4; /* field in tgcr */ t->inuse = 0; t->interrupt = nil; t->tmr = tmr; t->trr = tmr+2; t->tcr = tmr+4; t->tcn = tmr+6; t->ter = ter; intrenable(VectorCPIC+timerirq[i], gtimerintr, t, BUSUNKNOWN, name); } GTimer* gtimer(ushort mode, ushort ref, void (*intr)(Ureg*,void*,GTimer*), void *arg) { GTimer *t; int i; t = cpmtimers.t; if(!cpmtimers.init) gtimerreset(); ilock(&cpmtimers); for(i=0; ; i++){ if(i >= cpmtimers.ntimer){ iunlock(&cpmtimers); return nil; } if(t->inuse == 0) break; t++; } t->inuse = 1; t->interrupt = intr; t->arg = arg; m->iomem->tgcr &= ~(0xF<<t->x); /* reset */ *t->tmr = mode; *t->tcn = 0; *t->trr = ref; *t->ter = 0xFFFF; iunlock(&cpmtimers); return t; } void gtimerset(GTimer *t, ushort mode, int usec) { ulong ref, ps; int clk; if(usec <= 0) return; ref = usec*m->speed; clk = mode & (3<<1); if(ref >= 0x1000000 && clk == TimerSclk){ mode = (mode & ~clk) | TimerSclk16; ref >>= 4; } else if(clk == TimerSclk16) ref >>= 4; ps = (ref+(1<<16))/(1<<16); /* round up */ ref /= ps; *t->tmr = ((ps-1)<<8) | (mode&0xFF); *t->trr = ref; } void gtimerstart(GTimer *t) { if(t){ ilock(&cpmtimers); m->iomem->tgcr = (m->iomem->tgcr & ~(0xF<<t->x)) | (1<<t->x); /* enable */ iunlock(&cpmtimers); } } void gtimerstop(GTimer *t) { if(t){ ilock(&cpmtimers); m->iomem->tgcr |= 2<<t->x; /* stop */ iunlock(&cpmtimers); } } void gtimerfree(GTimer *t) { if(t){ ilock(&cpmtimers); t->inuse = 0; *t->tmr = 0; /* disable interrupts */ *t->ter = 0xFFFF; m->iomem->tgcr = (m->iomem->tgcr & ~(0xF<<t->x)) | (2<<t->x); /* reset and stop */ iunlock(&cpmtimers); } } #ifdef GTIMETEST static void gtintr(Ureg*, void*, GTimer*) { m->bcsr[4] ^= DisableVideoLamp; /* toggle an LED */ } void gtimetest(void) { GTimer *g; g = gtimer(0, 0, gtintr, nil); gtimerset(g, TimerORI|TimerRestart|TimerSclk, 64000); gtimerstart(g); delay(1); print("started timer: #%4.4ux #%4.4ux %8.8lux #%4.4ux #%4.4ux\n", *g->tmr, *g->trr, m->iomem->tgcr, *g->tcn, *g->ter); print("ter=#%8.8lux tmr=#%8.8lux trr=#%8.8lux\n", g->ter, g->tmr, g->trr); } #endif