ref: 82559c3fdcc8242a1a542a3b4d3076e133fd02a9
dir: /sys/src/9/teg2/archtegra.c/
/* * nvidia tegra 2 architecture-specific stuff */ #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 "../port/etherif.h" #include "../port/flashif.h" #include "../port/usb.h" #include "../port/portusbehci.h" #include "usbehci.h" enum { /* hardware limits imposed by register contents or layouts */ Maxcpus = 4, Maxflowcpus = 2, Debug = 0, }; typedef struct Clkrst Clkrst; typedef struct Diag Diag; typedef struct Flow Flow; typedef struct Scu Scu; typedef struct Power Power; struct Clkrst { ulong rstsrc; ulong rstdevl; ulong rstdevh; ulong rstdevu; ulong clkoutl; ulong clkouth; ulong clkoutu; uchar _pad0[0x24-0x1c]; ulong supcclkdiv; /* super cclk divider */ ulong _pad1; ulong supsclkdiv; /* super sclk divider */ uchar _pad4[0x4c-0x30]; ulong clkcpu; uchar _pad1[0xe0-0x50]; ulong pllxbase; /* pllx controls CPU clock speed */ ulong pllxmisc; ulong pllebase; /* plle is dedicated to pcie */ ulong pllemisc; uchar _pad2[0x340-0xf0]; ulong cpuset; ulong cpuclr; }; enum { /* rstsrc bits */ Wdcpurst = 1<<0, Wdcoprst = 1<<1, Wdsysrst = 1<<2, Wdsel = 1<<4, /* tmr1 or tmr2? */ Wdena = 1<<5, /* devl bits */ Sysreset = 1<<2, /* clkcpu bits */ Cpu1stop = 1<<9, Cpu0stop = 1<<8, /* cpu* bits */ Cpu1dbgreset = 1<<13, Cpu0dbgreset = 1<<12, Cpu1wdreset = 1<<9, Cpu0wdreset = 1<<8, Cpu1dereset = 1<<5, Cpu0dereset = 1<<4, Cpu1reset = 1<<1, Cpu0reset = 1<<0, }; struct Power { ulong ctl; /* mainly for rtc clock signals */ ulong secregdis; ulong swrst; ulong wakevmask; ulong waklvl; ulong waksts; ulong swwaksts; ulong dpdpadsovr; /* deep power down pads override */ ulong dpdsample; ulong dpden; ulong gatetimroff; ulong gatetimron; ulong toggle; ulong unclamp; ulong gatests; /* ro */ ulong goodtmr; ulong blinktmr; ulong noiopwr; ulong detect; ulong detlatch; ulong scratch[24]; ulong secscratch[6]; ulong cpupwrgoodtmr; ulong cpupwrofftmr; ulong pgmask[2]; ulong autowaklvl; ulong autowaklvlmask; ulong wakdelay; ulong detval; ulong ddr; ulong usbdebdel; /* usb de-bounce delay */ ulong usbao; ulong cryptoop; ulong pllpwb0ovr; ulong scratch24[42-24+1]; ulong boundoutmirr[3]; ulong sys33ven; ulong boundoutmirracc; ulong gate; }; enum { /* toggle bits */ Start = 1<<8, /* partition ids */ Partpcie= 3, Partl2 = 4, }; struct Scu { ulong ctl; ulong cfg; /* ro */ ulong cpupwrsts; ulong inval; uchar _pad0[0x40-0x10]; ulong filtstart; ulong filtend; uchar _pad1[0x50-0x48]; ulong accctl; /* initially 0 */ ulong nsaccctl; }; enum { /* ctl bits */ Scuenable = 1<<0, Filter = 1<<1, Scuparity = 1<<2, Specfill = 1<<3, /* only for PL310 */ Allport0 = 1<<4, Standby = 1<<5, Icstandby = 1<<6, }; struct Flow { ulong haltcpu0; ulong haltcop; ulong cpu0; ulong cop; ulong xrq; ulong haltcpu1; ulong cpu1; }; enum { /* haltcpu* bits */ Stop = 2<<29, /* cpu* bits */ Event = 1<<14, /* w1c */ Waitwfebitsshift = 4, Waitwfebitsmask = MASK(2), Eventenable = 1<<1, Cpuenable = 1<<0, }; struct Diag { Cacheline c0; Lock; Ref cnt; Ref sync; Cacheline c1; }; extern ulong testmem; /* * number of cpus available. contrast with conf.nmach, which is number * of running cpus. */ int navailcpus; Isolated l1ptstable; Soc soc = { .clkrst = 0x60006000, /* clock & reset signals */ .power = 0x7000e400, .exceptvec = PHYSEVP, /* undocumented magic */ .sema = 0x60001000, .l2cache= PHYSL2BAG, /* pl310 bag on the side */ .flow = 0x60007000, /* 4 non-gic controllers */ // .intr = { 0x60004000, 0x60004100, 0x60004200, 0x60004300, }, /* private memory region */ .scu = 0x50040000, /* we got this address from the `cortex-a series programmer's guide'. */ .intr = 0x50040100, /* per-cpu interface */ .glbtmr = 0x50040200, .loctmr = 0x50040600, .intrdist=0x50041000, .uart = { 0x70006000, 0x70006040, 0x70006200, 0x70006300, 0x70006400, }, .rtc = 0x7000e000, .tmr = { 0x60005000, 0x60005008, 0x60005050, 0x60005058, }, .µs = 0x60005010, .pci = 0x80000000, .ether = 0xa0024000, .nand = 0x70008000, .nor = 0x70009000, /* also VIRTNOR */ .ehci = P2VAHB(0xc5000000), /* 1st of 3 */ .ide = P2VAHB(0xc3000000), .gpio = { 0x6000d000, 0x6000d080, 0x6000d100, 0x6000d180, 0x6000d200, 0x6000d280, 0x6000d300, }, .spi = { 0x7000d400, 0x7000d600, 0x7000d800, 0x7000da00, }, .twsi = 0x7000c000, .mmc = { P2VAHB(0xc8000000), P2VAHB(0xc8000200), P2VAHB(0xc8000400), P2VAHB(0xc8000600), }, }; static volatile Diag diag; static int missed; void dumpcpuclks(void) /* run CPU at full speed */ { Clkrst *clk = (Clkrst *)soc.clkrst; iprint("pllx base %#lux misc %#lux\n", clk->pllxbase, clk->pllxmisc); iprint("plle base %#lux misc %#lux\n", clk->pllebase, clk->pllemisc); iprint("super cclk divider %#lux\n", clk->supcclkdiv); iprint("super sclk divider %#lux\n", clk->supsclkdiv); } static char * devidstr(ulong) { return "ARM Cortex-A9"; } void archtegralink(void) { } /* convert AddrDevid register to a string in buf and return buf */ char * cputype2name(char *buf, int size) { ulong r; r = cpidget(); /* main id register */ assert((r >> 24) == 'A'); seprint(buf, buf + size, "Cortex-A9 r%ldp%ld", (r >> 20) & MASK(4), r & MASK(4)); return buf; } static void errata(void) { ulong reg, r, p; /* apply cortex-a9 errata workarounds */ r = cpidget(); /* main id register */ assert((r >> 24) == 'A'); p = r & MASK(4); /* minor revision */ r >>= 20; r &= MASK(4); /* major revision */ /* this is an undocumented `diagnostic register' that linux knows */ reg = cprdsc(0, CpDTLB, 0, 1); if (r < 2 || r == 2 && p <= 2) reg |= 1<<4; /* 742230 */ if (r == 2 && p <= 2) reg |= 1<<6 | 1<<12 | 1<<22; /* 743622, 2×742231 */ if (r < 3) reg |= 1<<11; /* 751472 */ cpwrsc(0, CpDTLB, 0, 1, reg); } void archconfinit(void) { char *p; ulong hz; assert(m != nil); m->cpuhz = 1000 * Mhz; /* trimslice speed */ p = getconf("*cpumhz"); if (p) { hz = atoi(p) * Mhz; if (hz >= 100*Mhz && hz <= 3600UL*Mhz) m->cpuhz = hz; } m->delayloop = m->cpuhz/2000; /* initial estimate */ errata(); } int archether(unsigned ctlrno, Ether *ether) { switch(ctlrno) { case 0: ether->type = "rtl8169"; /* pci-e ether */ ether->ctlrno = ctlrno; ether->irq = Pcieirq; /* non-msi pci-e intr */ ether->nopt = 0; ether->mbps = 1000; return 1; } return -1; } void dumpscustate(void) { Scu *scu = (Scu *)soc.scu; print("cpu%d scu: accctl %#lux\n", m->machno, scu->accctl); print("cpu%d scu: smp cpu bit map %#lo for %ld cpus; ", m->machno, (scu->cfg >> 4) & MASK(4), (scu->cfg & MASK(2)) + 1); print("cpus' power %#lux\n", scu->cpupwrsts); } void scuon(void) { Scu *scu = (Scu *)soc.scu; if (scu->ctl & Scuenable) return; scu->inval = MASK(16); coherence(); scu->ctl = Scuparity | Scuenable | Specfill; coherence(); } int getncpus(void) { int n; char *p; Scu *scu; if (navailcpus == 0) { scu = (Scu *)soc.scu; navailcpus = (scu->cfg & MASK(2)) + 1; if (navailcpus > MAXMACH) navailcpus = MAXMACH; p = getconf("*ncpu"); if (p && *p) { n = atoi(p); if (n > 0 && n < navailcpus) navailcpus = n; } } return navailcpus; } void cpuidprint(void) { char name[64]; cputype2name(name, sizeof name); delay(50); /* let uart catch up */ iprint("cpu%d: %lldMHz ARM %s %s-endian\n", m->machno, m->cpuhz / Mhz, name, getpsr() & PsrBigend? "big": "little"); } static void clockson(void) { Clkrst *clk = (Clkrst *)soc.clkrst; /* enable all by clearing resets */ clk->rstdevl = clk->rstdevh = clk->rstdevu = 0; coherence(); clk->clkoutl = clk->clkouth = clk->clkoutu = ~0; /* enable all clocks */ coherence(); clk->rstsrc = Wdcpurst | Wdcoprst | Wdsysrst | Wdena; coherence(); } /* we could be shutting down ourself (if cpu == m->machno), so take care. */ void stopcpu(uint cpu) { Flow *flow = (Flow *)soc.flow; Clkrst *clk = (Clkrst *)soc.clkrst; if (cpu == 0) { iprint("stopcpu: may not stop cpu0\n"); return; } machoff(cpu); lock(&active); active.stopped |= 1 << cpu; unlock(&active); l1cache->wb(); /* shut down arm7 avp coproc so it can't cause mischief. */ /* could try watchdog without stopping avp. */ flow->haltcop = Stop; coherence(); flow->cop = 0; /* no Cpuenable */ coherence(); delay(10); assert(cpu < Maxflowcpus); *(cpu == 0? &flow->haltcpu0: &flow->haltcpu1) = Stop; coherence(); *(cpu == 0? &flow->cpu0: &flow->cpu1) = 0; /* no Cpuenable */ coherence(); delay(10); /* cold reset */ assert(cpu < Maxcpus); clk->cpuset = (Cpu0reset | Cpu0dbgreset | Cpu0dereset) << cpu; coherence(); delay(1); l1cache->wb(); } static void synccpus(Ref *cntp, int n) { incref(cntp); while (cntp->ref < n) ; /* all cpus should now be here */ } static void pass1(int pass, volatile Diag *dp) { int i; if(m->machno == 0) iprint(" %d", pass); for (i = 1000*1000; --i > 0; ) { incref(&dp->cnt); incref(&dp->cnt); } synccpus(&dp->sync, navailcpus); /* all cpus are now here */ ilock(dp); if(dp->cnt.ref != 0) panic("cpu%d: diag: failed w count %ld", m->machno, dp->cnt.ref); iunlock(dp); synccpus(&dp->sync, 2 * navailcpus); /* all cpus are now here */ decref(&dp->sync); decref(&dp->sync); } /* * try to confirm coherence of l1 caches. * assume that all available cpus will be started. */ void l1diag(void) { int pass; volatile Diag *dp; if (!Debug) return; l1cache->wb(); /* * synchronise and print */ dp = &diag; ilock(dp); if (m->machno == 0) iprint("l1: waiting for %d cpus... ", navailcpus); iunlock(dp); synccpus(&dp->sync, navailcpus); ilock(dp); if (m->machno == 0) iprint("cache coherency pass"); iunlock(dp); synccpus(&dp->sync, 2 * navailcpus); decref(&dp->sync); decref(&dp->sync); /* * cpus contend */ for (pass = 0; pass < 3; pass++) pass1(pass, dp); /* * synchronise and check sanity */ synccpus(&dp->sync, navailcpus); if(dp->sync.ref < navailcpus || dp->sync.ref >= 2 * navailcpus) panic("cpu%d: diag: failed w dp->sync %ld", m->machno, dp->sync.ref); if(dp->cnt.ref != 0) panic("cpu%d: diag: failed w dp->cnt %ld", m->machno, dp->cnt.ref); ilock(dp); iprint(" cpu%d ok", m->machno); iunlock(dp); synccpus(&dp->sync, 2 * navailcpus); decref(&dp->sync); decref(&dp->sync); l1cache->wb(); /* * all done, print */ ilock(dp); if (m->machno == 0) iprint("\n"); iunlock(dp); } static void unfreeze(uint cpu) { Clkrst *clk = (Clkrst *)soc.clkrst; Flow *flow = (Flow *)soc.flow; assert(cpu < Maxcpus); clk->clkcpu &= ~(Cpu0stop << cpu); coherence(); /* out of reset */ clk->cpuclr = (Cpu0reset | Cpu0wdreset | Cpu0dbgreset | Cpu0dereset) << cpu; coherence(); assert(cpu < Maxflowcpus); *(cpu == 0? &flow->cpu0: &flow->cpu1) = 0; coherence(); *(cpu == 0? &flow->haltcpu0: &flow->haltcpu1) = 0; /* normal operat'n */ coherence(); } /* * this is all a bit magic. the soc.exceptvec register is effectively * undocumented. we had to look at linux and experiment, alas. this is the * sort of thing that should be standardised as part of the cortex mpcore spec. * even intel document their equivalent procedure. */ int startcpu(uint cpu) { int i, r; ulong oldvec, rstaddr; ulong *evp = (ulong *)soc.exceptvec; /* magic */ r = 0; if (getncpus() < 2 || cpu == m->machno || cpu >= MAXMACH || cpu >= navailcpus) return -1; oldvec = *evp; l1cache->wb(); /* start next cpu w same view of ram */ *evp = rstaddr = PADDR(_vrst); /* will start cpu executing at _vrst */ coherence(); l1cache->wb(); unfreeze(cpu); for (i = 2000; i > 0 && *evp == rstaddr; i--) delay(1); if (i <= 0 || *evp != cpu) { iprint("cpu%d: didn't start!\n", cpu); stopcpu(cpu); /* make sure it's stopped */ r = -1; } *evp = oldvec; return r; } static void cksecure(void) { ulong db; extern ulong getdebug(void); if (getscr() & 1) panic("cpu%d: running non-secure", m->machno); db = getdebug(); if (db) iprint("cpu%d: debug enable reg %#lux\n", m->machno, db); } ulong smpon(void) { ulong aux; /* cortex-a9 model-specific configuration */ aux = getauxctl(); putauxctl(aux | CpACsmp | CpACmaintbcast); return aux; } void cortexa9cachecfg(void) { /* cortex-a9 model-specific configuration */ putauxctl(getauxctl() | CpACparity | CpAClwr0line | CpACl2pref); } /* * called on a cpu other than 0 from cpureset in l.s, * from _vrst in lexception.s. * mmu and l1 (and system-wide l2) caches and coherency (smpon) are on, * but interrupts are disabled. * our mmu is using an exact copy of cpu0's l1 page table * as it was after userinit ran. */ void cpustart(void) { int ms; ulong *evp; Power *pwr; up = nil; if (active.machs[m->machno]) { serialputc('?'); serialputc('r'); panic("cpu%d: resetting after start", m->machno); } assert(m->machno != 0); errata(); cortexa9cachecfg(); memdiag(&testmem); machinit(); /* bumps nmach, adds bit to machs */ machoff(m->machno); /* not ready to go yet */ /* clock signals and scu are system-wide and already on */ clockshutdown(); /* kill any watch-dog timer */ trapinit(); clockinit(); /* sets loop delay */ timersinit(); cpuidprint(); /* * notify cpu0 that we're up so it can proceed to l1diag. */ evp = (ulong *)soc.exceptvec; /* magic */ *evp = m->machno; coherence(); l1diag(); /* contend with other cpus to verify sanity */ /* * pwr->noiopwr == 0 * pwr->detect == 0x1ff (default, all disabled) */ pwr = (Power *)soc.power; assert(pwr->gatests == MASK(7)); /* everything has power */ /* * 8169 has to initialise before we get past this, thus cpu0 * has to schedule processes first. */ if (Debug) iprint("cpu%d: waiting for 8169\n", m->machno); for (ms = 0; !l1ptstable.word && ms < 5000; ms += 10) { delay(10); cachedinvse(&l1ptstable.word, sizeof l1ptstable.word); } if (!l1ptstable.word) iprint("cpu%d: 8169 unreasonably slow; proceeding\n", m->machno); /* now safe to copy cpu0's l1 pt in mmuinit */ mmuinit(); /* update our l1 pt from cpu0's */ fpon(); machon(m->machno); /* now ready to go and be scheduled */ if (Debug) iprint("cpu%d: scheding\n", m->machno); schedinit(); panic("cpu%d: schedinit returned", m->machno); } /* mainly used to break out of wfi */ void sgintr(Ureg *ureg, void *) { iprint("cpu%d: got sgi\n", m->machno); /* try to prod cpu1 into life when it gets stuck */ if (m->machno != 0) clockprod(ureg); } void archreset(void) { static int beenhere; if (beenhere) return; beenhere = 1; /* conservative temporary values until archconfinit runs */ m->cpuhz = 1000 * Mhz; /* trimslice speed */ m->delayloop = m->cpuhz/2000; /* initial estimate */ prcachecfg(); clockson(); /* all partitions were powered up by u-boot, so needn't do anything */ archconfinit(); // resetusb(); fpon(); if (irqtooearly) panic("archreset: too early for irqenable"); irqenable(Cpu0irq, sgintr, nil, "cpu0"); irqenable(Cpu1irq, sgintr, nil, "cpu1"); /* ... */ } void archreboot(void) { Clkrst *clk = (Clkrst *)soc.clkrst; assert(m->machno == 0); iprint("archreboot: reset!\n"); delay(20); clk->rstdevl |= Sysreset; coherence(); delay(500); /* shouldn't get here */ splhi(); iprint("awaiting reset"); for(;;) { delay(1000); print("."); } } void kbdinit(void) { } static void missing(ulong addr, char *name) { static int firstmiss = 1; if (addr == 0) { iprint("address zero for %s\n", name); return; } if (probeaddr(addr) >= 0) return; missed++; 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(10); missing(KZERO, "dram"); missing(soc.intr, "intr ctlr"); missing(soc.intrdist, "intr distrib"); missing(soc.tmr[0], "tegra timer1"); missing(soc.uart[0], "console uart"); missing(soc.pci, "pcie"); missing(soc.ether, "ether8169"); missing(soc.µs, "µs counter"); if (missed) iprint("\n"); delay(10); } 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; panic("archflashreset: rewrite for nor & nand flash on ts"); /* * this is set up for the igepv2 board. */ f->type = "onenand"; f->addr = (void*)VIRTNOR; /* mapped here by archreset */ f->size = 0; /* done by probe */ f->width = 1; f->interleave = 0; return 0; }