ref: 51bcc63cc6bce3f9dab27cf6bd7155512b82c8fa
dir: /os/cerf250/archcerf.c/
/* * Intrinsyc Cerfboard 250 */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #include "io.h" #include "draw.h" #include <memdraw.h> #include "../port/netif.h" #include "etherif.h" #include "../port/flashif.h" enum { /* Cerf250 GPIO assignment */ GPIO_LED0_o = 4, /* active high */ GPIO_nCFD_i= 14, /* compact flash detect, active low: falling edge */ Maxmac= 4, /* number of MAC addresses taken from EEPROM */ }; static uchar macaddrs[Maxmac][Eaddrlen]; void archreset(void) { GpioReg *g = GPIOREG; g->grer[0] = 0; g->grer[1] = 0; g->grer[2] = 0; g->gfer[0] = 0; g->gfer[1] = 0; g->gfer[2] = 0; g->gedr[0] = g->gedr[0]; g->gedr[1] = g->gedr[1]; g->gedr[2] = g->gedr[2]; g->gafr[2] |= GPAF(GPIO_FFRXD_1_i, 1); g->gafr[2] |= GPAF(GPIO_FFTXD_2_o, 2); g->gpdr[0] |= GPB(GPIO_LED0_o); g->gpdr[1] |= GPB(GPIO_FFTXD_2_o); g->gpsr[0] = GPB(GPIO_LED0_o); uartdebuginit(); } void ledset(int n) { if(n) GPIOREG->gpsr[0] = GPB(GPIO_LED0_o); else GPIOREG->gpcr[0] = GPB(GPIO_LED0_o); } void archconfinit(void) { int w; conf.topofmem = PHYSMEM0+64*MB; // w = PMGRREG->ppcr & 0x1f; m->cpuhz = CLOCKFREQ*(27*2*2); } void archuartpower(int, int) { } void kbdinit(void) { } void archreboot(void) { dcflushall(); ledset(1); // GPIOREG->gedr = 1<<0; mmuputctl(mmugetctl() & ~CpCaltivec); /* restore bootstrap's vectors */ // RESETREG->rsrr = 1; /* software reset */ for(;;) spllo(); } void archflashwp(Flash*, int) { } /* * for devflash.c:/^flashreset * retrieve flash type, virtual base and length and return 0; * return -1 on error (no flash) */ int archflashreset(int bank, Flash *f) { if(bank != 0) return -1; f->type = "cfi16"; f->addr = KADDR(FLASHMEM); f->size = 0; f->width = 4; f->interleave = 1; return 0; } /* * set ether parameters: the contents should be derived from EEPROM or NVRAM */ int archether(int ctlno, Ether *ether) { if(ctlno > 0) return -1; sprint(ether->type, "91c111"); ether->mem = PHYSCS1; ether->nopt = 0; ether->port = 0x300; /* there isn't an ether EEPROM; use chip's default */ ether->irq = 21; /* GPIO */ ether->itype = GPIOrising; /* active high */ // gpioreserve(ether->irq); // gpioconfig(ether->irq, Gpio_gpio | Gpio_in); memmove(ether->ea, macaddrs[ctlno], Eaddrlen); return 1; } /* * pcmcia */ int pcmpowered(int slotno) { if(slotno) return 0; return 3; } void pcmpower(int slotno, int on) { USED(slotno, on); } void pcmreset(int slot) { if(slot != 0) return; // GPIOREG->gpsr = CFReset; // delay(100); // GPIOREG->gpcr = CFReset; } int pcmpin(int slot, int type) { if(slot) return -1; return -1; // switch(type){ // case PCMready: // return CFRdypin; // case PCMeject: // return CFnCDxpin; // case PCMstschng: // return -1; // } } void pcmsetvpp(int slot, int vpp) { USED(slot, vpp); } /* * boot environment in eeprom */ enum { EEpromHdr= 8, /* bytes */ Envitemsize= 64, Ekeysize= 48, }; static I2Cdev eedev; static struct { uchar buf[Envitemsize]; int size; } bootenv; static int eepromitem(uchar *buf, int lim, ulong *off) { int l; uchar b; if(i2crecv(&eedev, &b, 1, (*off)++) != 1) return -1; l = b; if(l & 0x80){ if(i2crecv(&eedev, &b, 1, (*off)++) != 1) return -1; l = ((l & 0x7F)<<8) | b; } if(buf == nil) return l; if(l > lim) l = lim; return i2crecv(&eedev, buf, l, *off); } void eepromscan(void) { int n, l; ulong off; uchar buf[2]; char *p; int mac; eedev.addr = 0x56; eedev.salen = 2; i2csetup(1); n = i2crecv(&eedev, buf, sizeof(buf), 0); if(n <= 0){ iprint("eepromscan: %d\n", n); return; } if(buf[0] != 0xEF || buf[1] != 0xBE){ iprint("eeprom invalid\n"); return; } bootenv.size = 0; for(off = EEpromHdr; off < 16384;){ l = eepromitem(bootenv.buf, sizeof(bootenv.buf), &off); /* key */ if(l <= 0) break; off += l; if(memcmp(bootenv.buf, "MACAD", 5) == 0){ /* only look for MAC addresses now */ mac = bootenv.buf[5] - '0'; if(mac >= 0 && mac < Maxmac){ l = eepromitem(bootenv.buf, sizeof(bootenv.buf), &off); if(l < 0) break; if(l == Eaddrlen) memmove(macaddrs[mac], bootenv.buf, Eaddrlen); off += l+2; continue; } } l = eepromitem(nil, 0, &off); /* skip value */ if(l < 0) break; off += l+2; /* 2 byte crc */ } }