ref: 5171a0ac52a02cbeca41608ab1824c1250a087a4
dir: /sys/src/9/omap/archomap.c/
/* * omap3530 SoC (e.g. beagleboard) architecture-specific stuff * * errata: usb port 3 cannot operate in ulpi mode, only serial or * ulpi tll mode */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #include "io.h" #include "arm.h" #include "../port/netif.h" #include "etherif.h" #include "../port/flashif.h" #include "../port/usb.h" #include "../port/portusbehci.h" #include "usbehci.h" #define FREQSEL(x) ((x) << 4) typedef struct Cm Cm; typedef struct Cntrl Cntrl; typedef struct Gen Gen; typedef struct Gpio Gpio; typedef struct L3agent L3agent; typedef struct L3protreg L3protreg; typedef struct L3regs L3regs; typedef struct Prm Prm; typedef struct Usbotg Usbotg; typedef struct Usbtll Usbtll; /* omap3 non-standard usb stuff */ struct Usbotg { uchar faddr; uchar power; ushort intrtx; ushort intrrx; ushort intrtxe; ushort intrrxe; uchar intrusb; uchar intrusbe; ushort frame; uchar index; uchar testmode; /* indexed registers follow; ignore for now */ uchar _pad0[0x400 - 0x10]; ulong otgrev; ulong otgsyscfg; ulong otgsyssts; ulong otgifcsel; /* interface selection */ uchar _pad1[0x414 - 0x410]; ulong otgforcestdby; }; enum { /* power bits */ Hsen = 1<<5, /* high-speed enable */ /* testmode bits */ Forcehost = 1<<7, /* force host (vs peripheral) mode */ Forcehs = 1<<4, /* force high-speed at reset */ /* otgsyscfg bits */ Midle = 1<<12, /* no standby mode */ Sidle = 1<<3, /* no idle mode */ // Softreset = 1<<1, /* otgsyssts bits, per sysstatus */ }; struct Usbtll { ulong revision; /* ro */ uchar _pad0[0x10-0x4]; ulong sysconfig; ulong sysstatus; /* ro */ ulong irqstatus; ulong irqenable; }; enum { /* sysconfig bits */ Softreset = 1<<1, /* sysstatus bits */ Resetdone = 1<<0, /* only in uhh->sysstatus */ Ehci_resetdone = 1<<2, Ohci_resetdone = 1<<1, }; /* * an array of these structs is preceded by error_log at 0x20, control, * error_clear_single, error_clear_multi. first struct is at offset 0x48. */ struct L3protreg { /* hw: an L3 protection region */ uvlong req_info_perm; uvlong read_perm; uvlong write_perm; uvlong addr_match; /* ro? write this one last, then flush */ }; // TODO: set these permission bits (e.g., for usb)? enum { Permusbhost = 1<<9, Permusbotg = 1<<4, Permsysdma = 1<<3, Permmpu = 1<<1, }; struct L3agent { /* hw registers */ uchar _pad0[0x20]; uvlong ctl; uvlong sts; uchar _pad1[0x58 - 0x30]; uvlong errlog; uvlong errlogaddr; }; struct L3regs { L3protreg *base; /* base of array */ int upper; /* index maximum */ char *name; }; L3regs l3regs[] = { (L3protreg *)(PHYSL3GPMCPM+0x48), 7, "gpmc", /* known to be first */ (L3protreg *)(PHYSL3PMRT+0x48), 1, "rt", /* l3 config */ (L3protreg *)(PHYSL3OCTRAM+0x48), 7, "ocm ram", (L3protreg *)(PHYSL3OCTROM+0x48), 1, "ocm rom", (L3protreg *)(PHYSL3MAD2D+0x48), 7, "mad2d", /* die-to-die */ (L3protreg *)(PHYSL3IVA+0x48), 3, "iva2.2", /* a/v */ }; /* * PRM_CLKSEL (0x48306d40) low 3 bits are system clock speed, assuming * units of MHz: 0 = 12, 1 = 13, 2 = 19.2, 3 = 26, 4 = 38.4, 5 = 16.8 */ struct Cm { /* clock management */ ulong fclken; /* ``functional'' clock enable */ ulong fclken2; ulong fclken3; uchar _pad0[0x10 - 0xc]; ulong iclken; /* ``interface'' clock enable */ ulong iclken2; ulong iclken3; uchar _pad1[0x20 - 0x1c]; ulong idlest; /* idle status */ ulong idlest2; ulong idlest3; uchar _pad2[0x30 - 0x2c]; ulong autoidle; ulong autoidle2; ulong autoidle3; uchar _pad3[0x40 - 0x3c]; union { ulong clksel[5]; struct unused { ulong sleepdep; ulong clkstctrl; ulong clkstst; }; uchar _pad4[0x70 - 0x40]; }; ulong clkoutctrl; }; struct Prm { /* power & reset management */ uchar _pad[0x50]; ulong rstctrl; }; struct Gpio { ulong _pad0[4]; ulong sysconfig; ulong sysstatus; ulong irqsts1; /* for mpu */ ulong irqen1; ulong wkupen; ulong _pad1; ulong irqsts2; /* for iva */ ulong irqen2; ulong ctrl; ulong oe; ulong datain; ulong dataout; ulong lvldet0; ulong lvldet1; ulong risingdet; ulong fallingdet; /* rest are uninteresting */ ulong deben; /* debouncing enable */ ulong debtime; ulong _pad2[2]; ulong clrirqen1; ulong setirqen1; ulong _pad3[2]; ulong clrirqen2; ulong setirqen2; ulong _pad4[2]; ulong clrwkupen; ulong setwkupen; ulong _pad5[2]; ulong clrdataout; ulong setdataout; }; enum { /* clock enable & idle status bits */ Wkusimocp = 1 << 9, /* SIM card: uses 120MHz clock */ Wkwdt2 = 1 << 5, /* wdt2 clock enable bit for wakeup */ Wkgpio1 = 1 << 3, /* gpio1 " */ Wkgpt1 = 1 << 0, /* gpt1 " */ Dssl3l4 = 1 << 0, /* dss l3, l4 i clks */ Dsstv = 1 << 2, /* dss tv f clock */ Dss2 = 1 << 1, /* dss clock 2 */ Dss1 = 1 << 0, /* dss clock 1 */ Pergpio6 = 1 << 17, Pergpio5 = 1 << 16, Pergpio4 = 1 << 15, Pergpio3 = 1 << 14, Pergpio2 = 1 << 13, Perwdt3 = 1 << 12, /* wdt3 clock enable bit for periphs */ Peruart3 = 1 << 11, /* console uart */ Pergpt9 = 1 << 10, Pergpt8 = 1 << 9, Pergpt7 = 1 << 8, Pergpt6 = 1 << 7, Pergpt5 = 1 << 6, Pergpt4 = 1 << 5, Pergpt3 = 1 << 4, Pergpt2 = 1 << 3, /* gpt2 clock enable bit for periphs */ Perenable = Pergpio6 | Pergpio5 | Perwdt3 | Pergpt2 | Peruart3, Usbhost2 = 1 << 1, /* 120MHz clock enable */ Usbhost1 = 1 << 0, /* 48MHz clock enable */ Usbhost = Usbhost1, /* iclock enable */ Usbhostidle = 1 << 1, Usbhoststdby = 1 << 0, Coreusbhsotg = 1 << 4, /* usb hs otg enable bit */ Core3usbtll = 1 << 2, /* usb tll enable bit */ /* core->idlest bits */ Coreusbhsotgidle = 1 << 5, Coreusbhsotgstdby= 1 << 4, Dplllock = 7, /* mpu->idlest2 bits */ Dplllocked = 1, Dpllbypassed = 0, /* wkup->idlest bits */ Gpio1idle = 1 << 3, /* dss->idlest bits */ Dssidle = 1 << 1, Gpio1vidmagic = 1<<24 | 1<<8 | 1<<5, /* gpio 1 pins for video */ }; enum { Rstgs = 1 << 1, /* global sw. reset */ /* fp control regs. most are read-only */ Fpsid = 0, Fpscr, /* rw */ Mvfr1 = 6, Mvfr0, Fpexc, /* rw */ }; /* see ether9221.c for explanation */ enum { Ethergpio = 176, Etherchanbit = 1 << (Ethergpio % 32), }; /* * these shift values are for the Cortex-A8 L1 cache (A=2, L=6) and * the Cortex-A8 L2 cache (A=3, L=6). * A = log2(# of ways), L = log2(bytes per cache line). * see armv7 arch ref p. 1403. * * #define L1WAYSH 30 * #define L1SETSH 6 * #define L2WAYSH 29 * #define L2SETSH 6 */ enum { /* * cache capabilities. write-back vs write-through is controlled * by the Buffered bit in PTEs. */ Cawt = 1 << 31, Cawb = 1 << 30, Cara = 1 << 29, Cawa = 1 << 28, }; struct Gen { ulong padconf_off; ulong devconf0; uchar _pad0[0x68 - 8]; ulong devconf1; }; struct Cntrl { ulong _pad0; ulong id; ulong _pad1; ulong skuid; }; static char * devidstr(ulong) { return "ARM Cortex-A8"; } void archomaplink(void) { } int ispow2(uvlong ul) { /* see Hacker's Delight if this isn't obvious */ return (ul & (ul - 1)) == 0; } /* * return exponent of smallest power of 2 ≥ n */ int log2(ulong n) { int i; i = 31 - clz(n); if (n == 0 || !ispow2(n)) i++; return i; } void archconfinit(void) { char *p; ulong mhz; assert(m != nil); m->cpuhz = 500 * Mhz; /* beagle speed */ p = getconf("*cpumhz"); if (p) { mhz = atoi(p) * Mhz; if (mhz >= 100*Mhz && mhz <= 3000UL*Mhz) m->cpuhz = mhz; } m->delayloop = m->cpuhz/2000; /* initial estimate */ } static void prperm(uvlong perm) { if (perm == MASK(16)) print("all"); else print("%#llux", perm); } static void prl3region(L3protreg *pr, int r) { int level, size, addrspace; uvlong am, base; if (r == 0) am = 0; else am = pr->addr_match; size = (am >> 3) & MASK(5); if (r > 0 && size == 0) /* disabled? */ return; print(" %d: perms req ", r); prperm(pr->req_info_perm); if (pr->read_perm == pr->write_perm && pr->read_perm == MASK(16)) print(" rw all"); else { print(" read "); prperm(pr->read_perm); print(" write "); prperm(pr->write_perm); } if (r == 0) print(", all addrs level 0"); else { size = 1 << size; /* 2^size */ level = (am >> 9) & 1; if (r == 1) level = 3; else level++; addrspace = am & 7; base = am & ~MASK(10); print(", base %#llux size %dKB level %d addrspace %d", base, size, level, addrspace); } print("\n"); delay(100); } /* * dump the l3 interconnect firewall settings by protection region. * mpu, sys dma and both usbs (0x21a) should be set in all read & write * permission registers. */ static void dumpl3pr(void) { int r; L3regs *reg; L3protreg *pr; for (reg = l3regs; reg < l3regs + nelem(l3regs); reg++) { print("%#p (%s) enabled l3 regions:\n", reg->base, reg->name); for (r = 0; r <= reg->upper; r++) prl3region(reg->base + r, r); } if (0) { // TODO /* touch up gpmc perms */ reg = l3regs; /* first entry is gpmc */ for (r = 0; r <= reg->upper; r++) { pr = reg->base + r; // TODO } print("%#p (%s) modified l3 regions:\n", reg->base, reg->name); for (r = 0; r <= reg->upper; r++) prl3region(reg->base + r, r); } } static void p16(uchar *p, ulong v) { *p++ = v>>8; *p = v; } static void p32(uchar *p, ulong v) { *p++ = v>>24; *p++ = v>>16; *p++ = v>>8; *p = v; } int archether(unsigned ctlrno, Ether *ether) { switch(ctlrno) { case 0: /* there's no built-in ether on the beagle but igepv2 has 1 */ ether->type = "9221"; ether->ctlrno = ctlrno; ether->irq = 34; ether->nopt = 0; ether->mbps = 100; return 1; } return -1; } /* * turn on all the necessary clocks on the SoC. * * a ``functional'' clock drives a device; an ``interface'' clock drives * its communication with the rest of the system. so the interface * clock must be enabled to reach the device's registers. * * dplls: 1 mpu, 2 iva2, 3 core, 4 per, 5 per2. */ static void configmpu(void) { ulong clk, mhz, nmhz, maxmhz; Cm *mpu = (Cm *)PHYSSCMMPU; Cntrl *id = (Cntrl *)PHYSCNTRL; if ((id->skuid & MASK(4)) == 8) maxmhz = 720; else maxmhz = 600; iprint("cpu capable of %ldMHz operation", maxmhz); clk = mpu->clksel[0]; mhz = (clk >> 8) & MASK(11); /* configured speed */ // iprint("\tfclk src %ld; dpll1 mult %ld (MHz) div %ld", // (clk >> 19) & MASK(3), mhz, clk & MASK(7)); iprint("; at %ldMHz", mhz); nmhz = m->cpuhz / Mhz; /* nominal speed */ if (mhz == nmhz) { iprint("\n"); return; } mhz = nmhz; if (mhz > maxmhz) { mhz = maxmhz; iprint("; limiting operation to %ldMHz", mhz); } /* disable dpll1 lock mode; put into low-power bypass mode */ mpu->fclken2 = mpu->fclken2 & ~MASK(3) | 5; coherence(); while (mpu->idlest2 != Dpllbypassed) ; /* * there's a dance to change processor speed, * prescribed in spruf98d §4.7.6.9. */ /* just change multiplier; leave divider alone at 12 (meaning 13?) */ mpu->clksel[0] = clk & ~(MASK(11) << 8) | mhz << 8; coherence(); /* set output divider (M2) in clksel[1]: leave at 1 */ /* * u-boot calls us with just freqsel 3 (~1MHz) & dpll1 lock mode. */ /* set FREQSEL */ mpu->fclken2 = mpu->fclken2 & ~FREQSEL(MASK(4)) | FREQSEL(3); coherence(); /* set ramp-up delay to `fast' */ mpu->fclken2 = mpu->fclken2 & ~(MASK(2) << 8) | 3 << 8; coherence(); /* set auto-recalibration (off) */ mpu->fclken2 &= ~(1 << 3); coherence(); /* disable auto-idle: ? */ /* unmask clock intr: later */ /* enable dpll lock mode */ mpu->fclken2 |= Dplllock; coherence(); while (mpu->idlest2 != Dplllocked) ; delay(200); /* allow time for speed to ramp up */ if (((mpu->clksel[0] >> 8) & MASK(11)) != mhz) panic("mpu clock speed change didn't stick"); iprint("; now at %ldMHz\n", mhz); } static void configpll(void) { int i; Cm *pll = (Cm *)PHYSSCMPLL; pll->clkoutctrl |= 1 << 7; /* enable sys_clkout2 */ coherence(); delay(10); /* * u-boot calls us with just freqsel 3 (~1MHz) & lock mode * for both dplls (3 & 4). ensure that. */ if ((pll->idlest & 3) != 3) { /* put dpll[34] into low-power bypass mode */ pll->fclken = pll->fclken & ~(MASK(3) << 16 | MASK(3)) | 1 << 16 | 5; coherence(); while (pll->idlest & 3) /* wait for both to bypass or stop */ ; pll->fclken = (FREQSEL(3) | Dplllock) << 16 | FREQSEL(3) | Dplllock; coherence(); while ((pll->idlest & 3) != 3) /* wait for both to lock */ ; } /* * u-boot calls us with just freqsel 1 (default but undefined) * & stop mode for dpll5. try to lock it at 120MHz. */ if (!(pll->idlest2 & Dplllocked)) { /* force dpll5 into low-power bypass mode */ pll->fclken2 = 3 << 8 | FREQSEL(1) | 1; coherence(); for (i = 0; pll->idlest2 & Dplllocked && i < 20; i++) delay(50); if (i >= 20) iprint(" [dpll5 failed to stop]"); /* * CORE_CLK is 26MHz. */ pll->clksel[4-1] = 120 << 8 | 12; /* M=120, N=12+1 */ /* M2 divisor: 120MHz clock is exactly the DPLL5 clock */ pll->clksel[5-1] = 1; coherence(); pll->fclken2 = 3 << 8 | FREQSEL(1) | Dplllock; /* def. freq */ coherence(); for (i = 0; !(pll->idlest2 & Dplllocked) && i < 20; i++) delay(50); if (i >= 20) iprint(" [dpll5 failed to lock]"); } if (!(pll->idlest2 & (1<<1))) iprint(" [no 120MHz clock]"); if (!(pll->idlest2 & (1<<3))) iprint(" [no dpll5 120MHz clock output]"); } static void configper(void) { Cm *per = (Cm *)PHYSSCMPER; per->clksel[0] &= ~MASK(8); /* select 32kHz clock for GPTIMER2-9 */ per->iclken |= Perenable; coherence(); per->fclken |= Perenable; coherence(); while (per->idlest & Perenable) ; per->autoidle = 0; coherence(); } static void configwkup(void) { Cm *wkup = (Cm *)PHYSSCMWKUP; /* select 32kHz clock (not system clock) for GPTIMER1 */ wkup->clksel[0] &= ~1; wkup->iclken |= Wkusimocp | Wkwdt2 | Wkgpt1; coherence(); wkup->fclken |= Wkusimocp | Wkwdt2 | Wkgpt1; coherence(); while (wkup->idlest & (Wkusimocp | Wkwdt2 | Wkgpt1)) ; } static void configusb(void) { int i; Cm *usb = (Cm *)PHYSSCMUSB; /* * make the usb registers accessible without address faults, * notably uhh, ochi & ehci. tll seems to be separate & otg is okay. */ usb->iclken |= Usbhost; coherence(); usb->fclken |= Usbhost1 | Usbhost2; /* includes 120MHz clock */ coherence(); for (i = 0; usb->idlest & Usbhostidle && i < 20; i++) delay(50); if (i >= 20) iprint(" [usb inaccessible]"); } static void configcore(void) { Cm *core = (Cm *)PHYSSCMCORE; /* * make the usb tll registers accessible. */ core->iclken |= Coreusbhsotg; core->iclken3 |= Core3usbtll; coherence(); core->fclken3 |= Core3usbtll; coherence(); delay(100); while (core->idlest & Coreusbhsotgidle) ; if (core->idlest3 & Core3usbtll) iprint(" [no usb tll]"); } static void configclks(void) { int s; Gen *gen = (Gen *)PHYSSCMPCONF; delay(20); s = splhi(); configmpu(); /* sets cpu clock rate, turns on dplls 1 & 2 */ /* * the main goal is to get enough clocks running, in the right order, * so that usb has all the necessary clock signals. */ iprint("clocks:"); iprint(" usb"); configusb(); /* starts usb clocks & 120MHz clock */ iprint(", pll"); configpll(); /* starts dplls 3, 4 & 5 & 120MHz clock */ iprint(", wakeup"); configwkup(); /* starts timer clocks and usim clock */ iprint(", per"); configper(); /* starts timer & gpio (ether) clocks */ iprint(", core"); configcore(); /* starts usb tll */ iprint("\n"); gen->devconf0 |= 1 << 1 | 1 << 0; /* dmareq[01] edge sensitive */ /* make dmareq[2-6] edge sensitive */ gen->devconf1 |= 1 << 23 | 1 << 22 | 1 << 21 | 1 << 8 | 1 << 7; coherence(); splx(s); delay(20); } static void resetwait(ulong *reg) { long bound; for (bound = 400*Mhz; !(*reg & Resetdone) && bound > 0; bound--) ; if (bound <= 0) iprint("archomap: Resetdone didn't come ready\n"); } /* * gpio irq 1 goes to the mpu intr ctlr; irq 2 goes to the iva's. * this stuff is magic and without it, we won't get irq 34 interrupts * from the 9221 ethernet controller. */ static void configgpio(void) { Gpio *gpio = (Gpio *)PHYSGPIO6; gpio->sysconfig = Softreset; coherence(); resetwait(&gpio->sysstatus); gpio->ctrl = 1<<1 | 0; /* enable this gpio module, gating ratio 1 */ gpio->oe |= Etherchanbit; /* cfg ether pin as input */ coherence(); gpio->irqen1 = Etherchanbit; /* channel # == pin # */ gpio->irqen2 = 0; gpio->lvldet0 = Etherchanbit; /* enable irq ass'n on low det'n */ gpio->lvldet1 = 0; /* disable irq ass'n on high det'n */ gpio->risingdet = 0; /* enable irq rising edge det'n */ gpio->fallingdet = 0; /* disable irq falling edge det'n */ gpio->wkupen = 0; gpio->deben = 0; /* no de-bouncing */ gpio->debtime = 0; coherence(); gpio->irqsts1 = ~0; /* dismiss all outstanding intrs */ gpio->irqsts2 = ~0; coherence(); } void configscreengpio(void) { Cm *wkup = (Cm *)PHYSSCMWKUP; Gpio *gpio = (Gpio *)PHYSGPIO1; /* no clocksel needed */ wkup->iclken |= Wkgpio1; coherence(); wkup->fclken |= Wkgpio1; /* turn gpio clock on */ coherence(); // wkup->autoidle |= Wkgpio1; /* set gpio clock on auto */ wkup->autoidle = 0; coherence(); while (wkup->idlest & Gpio1idle) ; /* * 0 bits in oe are output signals. * enable output for gpio 1 (first gpio) video magic pins. */ gpio->oe &= ~Gpio1vidmagic; coherence(); gpio->dataout |= Gpio1vidmagic; /* set output pins to 1 */ coherence(); delay(50); } void screenclockson(void) { Cm *dss = (Cm *)PHYSSCMDSS; dss->iclken |= Dssl3l4; coherence(); dss->fclken = Dsstv | Dss2 | Dss1; coherence(); /* tv fclk is dpll4 clk; dpll4 m4 divide factor for dss1 fclk is 2 */ dss->clksel[0] = 1<<12 | 2; coherence(); delay(50); while (dss->idlest & Dssidle) ; } void gpioirqclr(void) { Gpio *gpio = (Gpio *)PHYSGPIO6; gpio->irqsts1 = gpio->irqsts1; coherence(); } static char * l1iptype(uint type) { static char *types[] = { "reserved", "asid-tagged VIVT", "VIPT", "PIPT", }; if (type >= nelem(types) || types[type] == nil) return "GOK"; return types[type]; } void cacheinfo(int level, Memcache *cp) { ulong setsways; /* select cache level */ cpwrsc(CpIDcssel, CpID, CpIDid, 0, (level - 1) << 1); setsways = cprdsc(CpIDcsize, CpID, CpIDid, 0); cp->l1ip = cprdsc(0, CpID, CpIDidct, CpIDct); cp->level = level; cp->nways = ((setsways >> 3) & MASK(10)) + 1; cp->nsets = ((setsways >> 13) & MASK(15)) + 1; cp->log2linelen = (setsways & MASK(2)) + 2 + 2; cp->linelen = 1 << cp->log2linelen; cp->setsways = setsways; cp->setsh = cp->log2linelen; cp->waysh = 32 - log2(cp->nways); } static void prcachecfg(void) { int cache; Memcache mc; for (cache = 1; cache <= 2; cache++) { cacheinfo(cache, &mc); iprint("l%d: %d ways %d sets %d bytes/line", mc.level, mc.nways, mc.nsets, mc.linelen); if (mc.linelen != CACHELINESZ) iprint(" *should* be %d", CACHELINESZ); if (mc.setsways & Cawt) iprint("; can WT"); if (mc.setsways & Cawb) iprint("; can WB"); #ifdef COMPULSIVE /* both caches can do this */ if (mc.setsways & Cara) iprint("; can read-allocate"); #endif if (mc.setsways & Cawa) iprint("; can write-allocate"); if (cache == 1) iprint("; l1 I policy %s", l1iptype((mc.l1ip >> 14) & MASK(2))); iprint("\n"); } } static char * subarch(int impl, uint sa) { static char *armarchs[] = { "VFPv1 (pre-armv7)", "VFPv2 (pre-armv7)", "VFPv3+ with common VFP subarch v2", "VFPv3+ with null subarch", "VFPv3+ with common VFP subarch v3", }; if (impl != 'A' || sa >= nelem(armarchs)) return "GOK"; else return armarchs[sa]; } /* * padconf bits in a short, 2 per long register * 15 wakeupevent * 14 wakeupenable * 13 offpulltypeselect * 12 offpulludenable * 11 offoutvalue * 10 offoutenable * 9 offenable * 8 inputenable * 4 pulltypeselect * 3 pulludenable * 2-0 muxmode * * see table 7-5 in §7.4.4.3 of spruf98d */ enum { /* pad config register bits */ Inena = 1 << 8, /* input enable */ Indis = 0 << 8, /* input disable */ Ptup = 1 << 4, /* pull type up */ Ptdown = 0 << 4, /* pull type down */ Ptena = 1 << 3, /* pull type selection is active */ Ptdis = 0 << 3, /* pull type selection is inactive */ Muxmode = MASK(3), /* pad config registers relevant to flash */ GpmcA1 = 0x4800207A, GpmcA2 = 0x4800207C, GpmcA3 = 0x4800207E, GpmcA4 = 0x48002080, GpmcA5 = 0x48002082, GpmcA6 = 0x48002084, GpmcA7 = 0x48002086, GpmcA8 = 0x48002088, GpmcA9 = 0x4800208A, GpmcA10 = 0x4800208C, GpmcD0 = 0x4800208E, GpmcD1 = 0x48002090, GpmcD2 = 0x48002092, GpmcD3 = 0x48002094, GpmcD4 = 0x48002096, GpmcD5 = 0x48002098, GpmcD6 = 0x4800209A, GpmcD7 = 0x4800209C, GpmcD8 = 0x4800209E, GpmcD9 = 0x480020A0, GpmcD10 = 0x480020A2, GpmcD11 = 0x480020A4, GpmcD12 = 0x480020A6, GpmcD13 = 0x480020A8, GpmcD14 = 0x480020AA, GpmcD15 = 0x480020AC, GpmcNCS0 = 0x480020AE, GpmcNCS1 = 0x480020B0, GpmcNCS2 = 0x480020B2, GpmcNCS3 = 0x480020B4, GpmcNCS4 = 0x480020B6, GpmcNCS5 = 0x480020B8, GpmcNCS6 = 0x480020BA, GpmcNCS7 = 0x480020BC, GpmcCLK = 0x480020BE, GpmcNADV_ALE = 0x480020C0, GpmcNOE = 0x480020C2, GpmcNWE = 0x480020C4, GpmcNBE0_CLE = 0x480020C6, GpmcNBE1 = 0x480020C8, GpmcNWP = 0x480020CA, GpmcWAIT0 = 0x480020CC, GpmcWAIT1 = 0x480020CE, GpmcWAIT2 = 0x480020D0, GpmcWAIT3 = 0x480020D2, }; /* set SCM pad config mux mode */ void setmuxmode(ulong addr, int shorts, int mode) { int omode; ushort *ptr; mode &= Muxmode; for (ptr = (ushort *)addr; shorts-- > 0; ptr++) { omode = *ptr & Muxmode; if (omode != mode) *ptr = *ptr & ~Muxmode | mode; } coherence(); } static void setpadmodes(void) { int off; /* set scm pad modes for usb; hasn't made any difference yet */ setmuxmode(0x48002166, 7, 5); /* hsusb3_tll* in mode 5; is mode 4 */ setmuxmode(0x48002180, 1, 5); /* hsusb3_tll_clk; is mode 4 */ setmuxmode(0x48002184, 4, 5); /* hsusb3_tll_data?; is mode 1 */ setmuxmode(0x480021a2, 12, 0); /* hsusb0 (console) in mode 0 */ setmuxmode(0x480021d4, 6, 2); /* hsusb2_tll* (ehci port 2) in mode 2 */ /* mode 3 is hsusb2_data* */ setmuxmode(0x480025d8, 18, 6); /* hsusb[12]_tll*; mode 3 is */ /* hsusb1_data*, hsusb2* */ setmuxmode(0x480020e4, 2, 5); /* uart3_rx_* in mode 5 */ setmuxmode(0x4800219a, 4, 0); /* uart3_* in mode 0 */ /* uart3_* in mode 2; TODO: conflicts with hsusb0 */ setmuxmode(0x480021aa, 4, 2); setmuxmode(0x48002240, 2, 3); /* uart3_* in mode 3 */ /* * igep/gumstix only: mode 4 of 21d2 is gpio_176 (smsc9221 ether irq). * see ether9221.c for more. */ *(ushort *)0x480021d2 = Inena | Ptup | Ptena | 4; /* magic from u-boot for flash */ *(ushort *)GpmcA1 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcA2 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcA3 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcA4 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcA5 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcA6 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcA7 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcA8 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcA9 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcA10 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcD0 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD1 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD2 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD3 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD4 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD5 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD6 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD7 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD8 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD9 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD10 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD11 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD12 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD13 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD14 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcD15 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcNCS0 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcNCS1 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcNCS2 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcNCS3 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcNCS4 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcNCS5 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcNCS6 = Indis | Ptup | Ptena | 0; *(ushort *)GpmcNOE = Indis | Ptdown | Ptdis | 0; *(ushort *)GpmcNWE = Indis | Ptdown | Ptdis | 0; *(ushort *)GpmcWAIT2 = Inena | Ptup | Ptena | 4; /* GPIO_64 -ETH_NRESET */ *(ushort *)GpmcNCS7 = Inena | Ptup | Ptena | 1; /* SYS_nDMA_REQ3 */ *(ushort *)GpmcCLK = Indis | Ptdown | Ptdis | 0; *(ushort *)GpmcNBE1 = Inena | Ptdown | Ptdis | 0; *(ushort *)GpmcNADV_ALE = Indis | Ptdown | Ptdis | 0; *(ushort *)GpmcNBE0_CLE = Indis | Ptdown | Ptdis | 0; *(ushort *)GpmcNWP = Inena | Ptdown | Ptdis | 0; *(ushort *)GpmcWAIT0 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcWAIT1 = Inena | Ptup | Ptena | 0; *(ushort *)GpmcWAIT3 = Inena | Ptup | Ptena | 0; /* * magic from u-boot: set 0xe00 bits in gpmc_(nwe|noe|nadv_ale) * to enable `off' mode for each. */ for (off = 0xc0; off <= 0xc4; off += sizeof(short)) *((ushort *)(PHYSSCM + off)) |= 0xe00; coherence(); } static char * implement(uchar impl) { if (impl == 'A') return "arm"; else return "unknown"; } static void fpon(void) { int gotfp, impl; ulong acc, scr; gotfp = 1 << CpFP | 1 << CpDFP; cpwrsc(0, CpCONTROL, 0, CpCPaccess, MASK(28)); acc = cprdsc(0, CpCONTROL, 0, CpCPaccess); if ((acc & (MASK(2) << (2*CpFP))) == 0) { gotfp &= ~(1 << CpFP); print("fpon: no single FP coprocessor\n"); } if ((acc & (MASK(2) << (2*CpDFP))) == 0) { gotfp &= ~(1 << CpDFP); print("fpon: no double FP coprocessor\n"); } if (!gotfp) { print("fpon: no FP coprocessors\n"); return; } /* enable fp. must be first operation on the FPUs. */ fpwr(Fpexc, fprd(Fpexc) | 1 << 30); scr = fprd(Fpsid); impl = scr >> 24; print("fp: %s arch %s", implement(impl), subarch(impl, (scr >> 16) & MASK(7))); scr = fprd(Fpscr); // TODO configure Fpscr further scr |= 1 << 9; /* div-by-0 exception */ scr &= ~(MASK(2) << 20 | MASK(3) << 16); /* all ops are scalar */ fpwr(Fpscr, scr); print("\n"); /* we should now be able to execute VFP-style FP instr'ns natively */ } static void resetusb(void) { int bound; Uhh *uhh; Usbotg *otg; Usbtll *tll; iprint("resetting usb: otg..."); otg = (Usbotg *)PHYSUSBOTG; otg->otgsyscfg = Softreset; /* see omap35x errata 3.1.1.144 */ coherence(); resetwait(&otg->otgsyssts); otg->otgsyscfg |= Sidle | Midle; coherence(); iprint("uhh..."); uhh = (Uhh *)PHYSUHH; uhh->sysconfig |= Softreset; coherence(); resetwait(&uhh->sysstatus); for (bound = 400*Mhz; !(uhh->sysstatus & Resetdone) && bound > 0; bound--) ; uhh->sysconfig |= Sidle | Midle; /* * using the TLL seems to be an optimisation when talking * to another identical SoC, thus not very useful, so * force PHY (ULPI) mode. */ /* this bit is normally off when we get here */ uhh->hostconfig &= ~P1ulpi_bypass; coherence(); if (uhh->hostconfig & P1ulpi_bypass) iprint("utmi (tll) mode..."); /* via tll */ else /* external transceiver (phy), no tll */ iprint("ulpi (phy) mode..."); tll = (Usbtll *)PHYSUSBTLL; if (probeaddr(PHYSUSBTLL) >= 0) { iprint("tll..."); tll->sysconfig |= Softreset; coherence(); resetwait(&tll->sysstatus); tll->sysconfig |= Sidle; coherence(); } else iprint("no tll..."); iprint("\n"); } /* * there are secure sdrc registers at 0x48002460 * sdrc regs at PHYSSDRC; see spruf98c §1.2.8.2. * set or dump l4 prot regs at PHYSL4? */ void archreset(void) { static int beenhere; if (beenhere) return; beenhere = 1; /* conservative temporary values until archconfinit runs */ m->cpuhz = 500 * Mhz; /* beagle speed */ m->delayloop = m->cpuhz/2000; /* initial estimate */ // dumpl3pr(); prcachecfg(); /* fight omap35x errata 2.0.1.104 */ memset((void *)PHYSSWBOOTCFG, 0, 240); coherence(); setpadmodes(); configclks(); /* may change cpu speed */ configgpio(); archconfinit(); resetusb(); fpon(); } void archreboot(void) { Prm *prm = (Prm *)PHYSPRMGLBL; iprint("archreboot: reset!\n"); delay(20); prm->rstctrl |= Rstgs; coherence(); delay(500); /* shouldn't get here */ splhi(); iprint("awaiting reset"); for(;;) { delay(1000); print("."); } } void lastresortprint(char *buf, long bp) { iprint("%.*s", (int)bp, buf); /* nothing else seems to work */ } static void scmdump(ulong addr, int shorts) { ushort reg; ushort *ptr; ptr = (ushort *)addr; print("scm regs:\n"); while (shorts-- > 0) { reg = *ptr++; print("%#p: %#ux\tinputenable %d pulltypeselect %d " "pulludenable %d muxmode %d\n", ptr, reg, (reg>>8) & 1, (reg>>4) & 1, (reg>>3) & 1, reg & 7); } } char *cputype2name(char *buf, int size); void cpuidprint(void) { char name[64]; cputype2name(name, sizeof name); delay(250); /* let uart catch up */ iprint("cpu%d: %lldMHz ARM %s\n", m->machno, m->cpuhz / Mhz, name); } static void missing(ulong addr, char *name) { static int firstmiss = 1; if (probeaddr(addr) >= 0) return; if (firstmiss) { iprint("missing:"); firstmiss = 0; } else iprint(",\n\t"); iprint(" %s at %#lux", name, addr); } /* verify that all the necessary device registers are accessible */ void chkmissing(void) { delay(20); missing(PHYSSCM, "scm"); missing(KZERO, "dram"); missing(PHYSL3, "l3 config"); missing(PHYSINTC, "intr ctlr"); missing(PHYSTIMER1, "timer1"); missing(PHYSCONS, "console uart2"); missing(PHYSUART0, "uart0"); missing(PHYSUART1, "uart1"); missing(PHYSETHER, "smc9221"); /* not on beagle */ missing(PHYSUSBOTG, "usb otg"); missing(PHYSUHH, "usb uhh"); missing(PHYSOHCI, "usb ohci"); missing(PHYSEHCI, "usb ehci"); missing(PHYSSDMA, "dma"); missing(PHYSWDOG, "watchdog timer"); missing(PHYSUSBTLL, "usb tll"); iprint("\n"); delay(20); } void archflashwp(Flash*, int) { } /* * for ../port/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; /* * this is set up for the igepv2 board. * if the beagleboard ever works, we'll have to sort this out. */ f->type = "onenand"; f->addr = (void*)PHYSNAND; /* mapped here by archreset */ f->size = 0; /* done by probe */ f->width = 1; f->interleave = 0; return 0; }