/* $OpenBSD: mbus.c,v 1.4 2011/04/07 15:30:16 miod Exp $ */ /* * Copyright (c) 2008 Miodrag Vallat. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #define PR_CPUID 14 /* * FBIC interrupt handlers */ struct fbic_irq { int (*fi_fn)(void *); void *fi_arg; struct evcount fi_cnt; int fi_ipl; }; /* * Generic information for each slot. * * This information is maintained at the mbus level, rather than * enforcing each child driver to provide it. This allows proper * M-bus configuration on slots where no driver attaches. */ struct fbic { paddr_t base; vaddr_t regs; int vecbase; struct fbic_irq *firq[FBIC_DEVIRQMAX]; }; struct mbus_slot { uint8_t ms_interface; /* MODTYPE interface */ uint8_t ms_class; /* MODTYPE class */ unsigned int ms_nfbic; struct fbic ms_fbic[2]; }; struct mbus_softc { struct device sc_dev; struct mbus_slot *sc_slots[MBUS_SLOT_MAX]; }; void mbus_attach(struct device *, struct device *, void *); int mbus_match(struct device *, void *, void *); struct cfdriver mbus_cd = { NULL, "mbus", DV_DULL }; const struct cfattach mbus_ca = { sizeof(struct mbus_softc), mbus_match, mbus_attach }; void mbus_initialize_cpu(struct mbus_slot *, unsigned int, int); void mbus_initialize_device(struct mbus_slot *, unsigned int, uint8_t); void mbus_intr_dispatch(void *); int mbus_print(void *, const char *); int mbus_submatch(struct device *, void *, void *); unsigned int mbus_ioslot = (unsigned int)-1; int mbus_match(struct device *parent, void *vcf, void *aux) { struct mainbus_attach_args *maa = (struct mainbus_attach_args *)aux; return maa->maa_bustype == VAX_MBUS ? 1 : 0; } void mbus_attach(struct device *parent, struct device *self, void *aux) { struct mbus_softc *sc = (struct mbus_softc *)self; struct mbus_slot *ms; unsigned int mid; struct mbus_attach_args maa; paddr_t pa; vaddr_t fbic; uint32_t modtype; uint8_t class, interface; printf("\n"); /* * Walk the bus and probe slots. * We will also record information about all occupied slots, * and keep a permanent mapping of their FBIC, as we will end * up needing to play with them often... */ for (mid = 0; mid < MBUS_SLOT_MAX; mid++) { /* * Map main (and often, only) FBIC. */ pa = MBUS_SLOT_BASE(mid); fbic = vax_map_physmem(pa + FBIC_BASE, 1); if (fbic == 0) panic("unable to map slot %d registers", mid); if (badaddr((caddr_t)(fbic + FBIC_MODTYPE), 4) != 0) modtype = 0; else modtype = *(uint32_t *)(fbic + FBIC_MODTYPE); if (modtype == 0 || modtype == 0xffffffff) { vax_unmap_physmem(fbic, 1); continue; } /* * The slot is populated. Write things down. */ ms = (struct mbus_slot *)malloc(sizeof(*ms), M_DEVBUF, M_NOWAIT | M_ZERO); if (ms == NULL) panic("not enough memory to probe M-bus"); sc->sc_slots[mid] = ms; ms->ms_nfbic = 1; /* only one so far! */ ms->ms_fbic[0].base = pa + FBIC_BASE; ms->ms_fbic[0].regs = fbic; class = (modtype & MODTYPE_CLASS_MASK) >> MODTYPE_CLASS_SHIFT; interface = (modtype & MODTYPE_INTERFACE_MASK) >> MODTYPE_INTERFACE_SHIFT; ms->ms_interface = interface; ms->ms_class = class; /* * If there are two FBICs on this board, map the second one. */ if (class == CLASS_CPU) { /* the FBIC we mapped is in fact the second one... */ ms->ms_fbic[1].base = ms->ms_fbic[0].base; ms->ms_fbic[1].regs = ms->ms_fbic[0].regs; ms->ms_nfbic = 2; fbic = vax_map_physmem(pa + FBIC_CPUA_BASE, 1); if (fbic == 0) panic("unable to map slot %d registers", mid); ms->ms_fbic[0].base = pa + FBIC_CPUA_BASE; ms->ms_fbic[0].regs = fbic; } /* * Perform a minimal sane initialization. */ if (class == CLASS_CPU) { mbus_initialize_cpu(ms, mid, 0); mbus_initialize_cpu(ms, mid, 1); } else mbus_initialize_device(ms, mid, interface); /* * Attach subdevices if possible. */ maa.maa_mid = mid; maa.maa_class = class; maa.maa_subclass = (modtype & MODTYPE_SUBCLASS_MASK) >> MODTYPE_SUBCLASS_SHIFT; maa.maa_interface = interface; maa.maa_revision = (modtype & MODTYPE_REVISION_MASK) >> MODTYPE_REVISION_SHIFT; maa.maa_addr = pa; maa.maa_vecbase = ms->ms_fbic[0].vecbase; (void)config_found_sm(self, &maa, mbus_print, mbus_submatch); } } int mbus_print(void *aux, const char *pnp) { struct mbus_attach_args *maa = (struct mbus_attach_args *)aux; int rc = UNCONF; const char *descr; switch (maa->maa_class) { case CLASS_BA: descr = "Bus Adaptor"; break; case CLASS_GRAPHICS: descr = "Graphics"; break; case CLASS_IO: descr = "I/O Module"; break; case CLASS_CPU: descr = "cpu"; break; case CLASS_MEMORY: descr = maa->maa_interface == INTERFACE_FMDC ? "ECC memory" : "Memory"; break; default: descr = NULL; rc = UNSUPP; break; } if (maa->maa_interface != INTERFACE_FBIC) { if (maa->maa_class != CLASS_MEMORY || (maa->maa_interface != INTERFACE_FMCM && maa->maa_interface != INTERFACE_FMDC)) rc = UNSUPP; } if (pnp != NULL) { if (rc == UNSUPP) { printf("logic board class %02x:%02x interface %u.%u ", maa->maa_class, maa->maa_subclass, maa->maa_interface, maa->maa_revision); if (descr != NULL) printf("(%s)", descr); } else printf("%s", descr); printf(" at %s", pnp); } printf(" mid %u", maa->maa_mid); return (rc); } int mbus_submatch(struct device *parent, void *vcf, void *aux) { struct mbus_attach_args *maa = (struct mbus_attach_args *)aux; struct cfdata *cf = (struct cfdata *)vcf; /* * If attachment specifies the mid, it has to match. */ if (cf->cf_loc[0] != -1 && cf->cf_loc[0] != maa->maa_mid) return 0; return (*cf->cf_attach->ca_match)(parent, vcf, aux); } /* * CPU board initialization. */ void mbus_initialize_cpu(struct mbus_slot *ms, unsigned int mid, int cpu) { struct fbic *fbic = &ms->ms_fbic[cpu]; uint32_t fbicsr; int cpuid; cpuid = (mid << CPUID_MID_SHIFT) | (cpu != 0 ? CPUID_PROC_1 : CPUID_PROC_0); /* * Clear error log */ *(uint32_t *)(fbic->regs + FBIC_BUSCSR) = BUSCSR_RESET; /* * Set (IPI) interrupt vectors base, but do not enable them yet. */ fbic->vecbase = MBUS_VECTOR_BASE(mid, cpu); *(uint32_t *)(fbic->regs + FBIC_IPDVINT) = 0 /* IPDVINT_IPUNIT */ | (fbic->vecbase & IPDVINT_VECTOR_MASK); /* * Enable all interrupt sources if on the boot processor, * disable them otherwise (this does not affect IPIs). */ fbicsr = *(uint32_t *)(fbic->regs + FBIC_BUSCSR); if (cpuid == mfpr(PR_CPUID)) fbicsr |= FBICSR_IRQEN_MASK; else fbicsr &= ~FBICSR_IRQEN_MASK; /* * Route interrupts from the M-bus to the CVAX. */ fbicsr &= ~FBICSR_IRQC2M_MASK; /* * Allow the CPU to be halted. */ fbicsr |= FBICSR_HALTEN; *(uint32_t *)(fbic->regs + FBIC_BUSCSR) = fbicsr; } /* * Device board initialization. */ void mbus_initialize_device(struct mbus_slot *ms, unsigned int mid, uint8_t interface) { struct fbic *fbic = ms->ms_fbic; uint32_t fbicsr; /* * Clear error log if applicable */ if (interface == INTERFACE_FBIC || interface == INTERFACE_FMDC) *(uint32_t *)(fbic->regs + FBIC_BUSCSR) = BUSCSR_RESET; if (interface == INTERFACE_FBIC) { /* * Set interrupt vector base. */ fbic->vecbase = MBUS_VECTOR_BASE(mid, 0); *(uint32_t *)(fbic->regs + FBIC_IPDVINT) = IPDVINT_DEVICE | (fbic->vecbase & IPDVINT_VECTOR_MASK); /* * Disable all interrupt sources, and route them * from the devices to the M-bus. */ fbicsr = *(uint32_t *)(fbic->regs + FBIC_BUSCSR); fbicsr &= ~FBICSR_IRQEN_MASK; fbicsr |= FBICSR_IRQC2M_MASK; *(uint32_t *)(fbic->regs + FBIC_BUSCSR) = fbicsr; } } /* * Interrupt handling. */ int mbus_intr_establish(unsigned int vec, int ipl, int (*fn)(void *), void *arg, const char *name) { struct mbus_softc *sc; struct mbus_slot *ms; struct fbic *fbic; struct fbic_irq *fi; uint32_t fbicsr; unsigned int mid, fbicirq; mid = MBUS_VECTOR_TO_MID(vec); #ifdef DIAGNOSTIC if (mid >= MBUS_SLOT_MAX) return EINVAL; if (mbus_cd.cd_ndevs == 0) return ENXIO; #endif sc = (struct mbus_softc *)mbus_cd.cd_devs[0]; #ifdef DIAGNOSTIC if (sc == NULL) return ENXIO; #endif ms = sc->sc_slots[mid]; #ifdef DIAGNOSTIC if (ms == NULL) return ENXIO; #endif fi = (struct fbic_irq *)malloc(sizeof *fi, M_DEVBUF, M_NOWAIT); if (fi == NULL) return ENOMEM; /* * This interface is intended to be used for device interrupts * only, so there is no need to handle dual-FBIC slots. */ fbic = &ms->ms_fbic[0 /* MBUS_VECTOR_TO_FBIC(vec) */]; fi->fi_fn = fn; fi->fi_arg = arg; fi->fi_ipl = ipl; evcount_attach(&fi->fi_cnt, name, &fi->fi_ipl); fbicirq = MBUS_VECTOR_TO_IRQ(vec); fbic->firq[fbicirq] = fi; scb_vecalloc(vec, mbus_intr_dispatch, fi, SCB_ISTACK, &fi->fi_cnt); /* * Enable device interrupt in the module FBIC. Proper direction * has been setup in mbus_slot_initialize(). */ fbicsr = *(uint32_t *)(fbic->regs + FBIC_BUSCSR); fbicsr |= fbicirq << FBICSR_IRQEN_SHIFT; *(uint32_t *)(fbic + FBIC_BUSCSR) = fbicsr; return 0; } /* * Interrupt dispatcher. */ void mbus_intr_dispatch(void *v) { struct fbic_irq *fi = (struct fbic_irq *)v; int s; /* * FBIC interrupts are at fixed levels. In case the level is * below the level the driver expects the interrupt at, we need * to raise spl to be safe (e.g. for sii). */ s = _splraise(fi->fi_ipl); (void)(*fi->fi_fn)(fi->fi_arg); splx(s); }