/* $NetBSD: pnpbus.c,v 1.15 2021/08/07 16:19:03 thorpej Exp $ */ /*- * Copyright (c) 1998 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Tim Rightnour * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include __KERNEL_RCSID(0, "$NetBSD: pnpbus.c,v 1.15 2021/08/07 16:19:03 thorpej Exp $"); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "isadma.h" static int pnpbus_match(device_t, cfdata_t, void *); static void pnpbus_attach(device_t, device_t, void *); static int pnpbus_print(void *, const char *); static int pnpbus_search(device_t, cfdata_t, const int *, void *); CFATTACH_DECL_NEW(pnpbus, sizeof(struct pnpbus_softc), pnpbus_match, pnpbus_attach, NULL, NULL); struct pnpbus_softc *pnpbus_softc; extern struct cfdriver pnpbus_cd; static int pnpbus_match(device_t parent, cfdata_t cf, void *aux) { struct pnpbus_attach_args *paa = aux; if (paa->paa_name != NULL && strcmp(paa->paa_name, "pnpbus") == 0) return 1; return 0; } static void pnpbus_attach(device_t parent, device_t self, void *aux) { struct pnpbus_softc *sc = device_private(self); struct pnpbus_attach_args *paa = aux; aprint_normal("\n"); pnpbus_softc = sc; sc->sc_dev = self; sc->sc_ic = paa->paa_ic; sc->sc_iot = paa->paa_iot; sc->sc_memt = paa->paa_memt; sc->sc_dmat = paa->paa_dmat; #if NISADMA > 0 isa_dmainit(sc->sc_ic, sc->sc_iot, sc->sc_dmat, self); #endif config_search(self, aux, CFARGS(.search = pnpbus_search)); } static int pnp_newirq(void *v, struct pnpresources *r, int size) { struct _S4_Pack *p = v; struct pnpbus_irq *irq; irq = kmem_alloc(sizeof(struct pnpbus_irq), KM_SLEEP); irq->mask = le16dec(&p->IRQMask[0]); if (size > 2) irq->flags = p->IRQInfo; else irq->flags = 0x1; SIMPLEQ_INSERT_TAIL(&r->irq, irq, next); r->numirq++; return 0; } static int pnp_newdma(void *v, struct pnpresources *r, int size) { struct _S5_Pack *p = v; struct pnpbus_dma *dma; dma = kmem_alloc(sizeof(struct pnpbus_dma), KM_SLEEP); dma->mask = le16dec(&p->DMAMask); if (size > 2) dma->flags = p->DMAInfo; else dma->flags = 0x01; SIMPLEQ_INSERT_TAIL(&r->dma, dma, next); r->numdma++; return 0; } static int pnp_newioport(void *v, struct pnpresources *r, int size) { struct _S8_Pack *p = v; struct pnpbus_io *io; uint16_t mask; io = kmem_alloc(sizeof(struct pnpbus_io), KM_SLEEP); mask = p->IOInfo & ISAAddr16bit ? 0xffff : 0x03ff; io->minbase = (p->RangeMin[0] | (p->RangeMin[1] << 8)) & mask; io->maxbase = (p->RangeMax[0] | (p->RangeMax[1] << 8)) & mask; io->align = p->IOAlign; io->len = p->IONum; io->flags = p->IOInfo; SIMPLEQ_INSERT_TAIL(&r->io, io, next); r->numio++; return 0; } static int pnp_newfixedioport(void *v, struct pnpresources *r, int size) { struct _S9_Pack *p = v; struct pnpbus_io *io; io = kmem_alloc(sizeof(struct pnpbus_io), KM_SLEEP); io->minbase = (p->Range[0] | (p->Range[1] << 8)) & 0x3ff; io->len = p->IONum; io->maxbase = -1; io->flags = 0; io->align = 1; SIMPLEQ_INSERT_TAIL(&r->io, io, next); r->numio++; return 0; } static int pnp_newiomem(void *v, struct pnpresources *r, int size) { struct pnpbus_mem *mem; struct _L1_Pack *pack = v; if (pack->Count0 >= 0x9) { mem = kmem_alloc(sizeof(struct pnpbus_mem), KM_SLEEP); mem->minbase = (pack->Data[2] << 16) | (pack->Data[1] << 8); mem->maxbase = (pack->Data[4] << 16) | (pack->Data[3] << 8); mem->align = (pack->Data[6] << 8) | pack->Data[5]; mem->len = (pack->Data[8] << 16) | (pack->Data[7] << 8); mem->flags = pack->Data[0]; SIMPLEQ_INSERT_TAIL(&r->iomem, mem, next); r->numiomem++; return 0; } return -1; } static int pnp_newaddr(void *v, struct pnpresources *r, int size) { struct pnpbus_io *io; struct pnpbus_mem *mem; struct _L4_Pack *pack = v; struct _L4_PPCPack *p = &pack->L4_Data.L4_PPCPack; if (p->PPCData[0] == 1) {/* type IO */ io = kmem_alloc(sizeof(struct pnpbus_io), KM_SLEEP); io->minbase = (uint16_t)le64dec(&p->PPCData[4]); io->maxbase = -1; io->align = p->PPCData[1]; io->len = (uint16_t)le64dec(&p->PPCData[12]); io->flags = 0; SIMPLEQ_INSERT_TAIL(&r->io, io, next); r->numio++; return 0; } else if (p->PPCData[0] == 2) { mem = kmem_alloc(sizeof(struct pnpbus_mem), KM_SLEEP); mem->minbase = (uint32_t)le64dec(&p->PPCData[4]); mem->maxbase = -1; mem->align = p->PPCData[1]; mem->len = (uint32_t)le64dec(&p->PPCData[12]); mem->flags = 0; SIMPLEQ_INSERT_TAIL(&r->mem, mem, next); r->nummem++; return 0; } else return -1; } static int pnp_newcompatid(void *v, struct pnpresources *r, int size) { struct _S3_Pack *p = v; struct pnpbus_compatid *id; uint32_t cid; id = kmem_alloc(sizeof(*id), KM_SLEEP); cid = le32dec(p->CompatId); pnp_devid_to_string(cid, id->idstr); id->next = r->compatids; r->compatids = id; return 0; } /* * Call if match succeeds. This way we don't allocate lots of ram * for structures we never use if the device isn't attached. */ int pnpbus_scan(struct pnpbus_dev_attach_args *pna, PPC_DEVICE *dev) { struct pnpresources *r = &pna->pna_res; uint32_t l; uint8_t *p, *q; void *v; int tag, size, item; l = be32toh(dev->AllocatedOffset); p = res->DevicePnPHeap + l; if (p == NULL) return -1; for (; p[0] != END_TAG; p += size) { tag = *p; v = p; if (tag_type(p[0]) == PNP_SMALL) { size = tag_small_count(tag) + 1; item = tag_small_item_name(tag); switch (item) { case IRQFormat: pnp_newirq(v, r, size); break; case DMAFormat: pnp_newdma(v, r, size); break; case IOPort: pnp_newioport(v, r, size); break; case FixedIOPort: pnp_newfixedioport(v, r, size); break; } } else { struct _L4_Pack *pack = v; struct _L4_PPCPack *pa = &pack->L4_Data.L4_PPCPack; q = p; size = (q[1] | (q[2] << 8)) + 3 /* tag + length */; item = tag_large_item_name(tag); if (item == LargeVendorItem && pa->Type == LV_GenericAddress) pnp_newaddr(v, r, size); else if (item == MemoryRange) pnp_newiomem(v, r, size); } } /* scan for compatid's */ l = be32toh(dev->CompatibleOffset); p = res->DevicePnPHeap + l; if (p == NULL) return -1; for (; p[0] != END_TAG; p += size) { tag = *p; v = p; if (tag_type(p[0]) == PNP_SMALL) { size = tag_small_count(tag) + 1; item = tag_small_item_name(tag); switch (item) { case CompatibleDevice: pnp_newcompatid(v, r, size); break; } } else { q = p; size = (q[1] | (q[2] << 8)) + 3 /* tag + length */; } } return 0; } /* * Setup the basic pna structure. */ static void pnp_getpna(struct pnpbus_dev_attach_args *pna, struct pnpbus_attach_args *paa, PPC_DEVICE *dev) { DEVICE_ID *id = &dev->DeviceId; struct pnpresources *r = &pna->pna_res; ChipIDPack *pack; uint32_t l; uint8_t *p; void *v; int tag, size, item; l = be32toh(dev->AllocatedOffset); p = res->DevicePnPHeap + l; pna->pna_iot = paa->paa_iot; pna->pna_memt = paa->paa_memt; pna->pna_ic = paa->paa_ic; pna->pna_dmat = paa->paa_dmat; pnp_devid_to_string(id->DevId, pna->pna_devid); pna->basetype = id->BaseType; pna->subtype = id->SubType; pna->interface = id->Interface; pna->pna_ppc_dev = dev; memset(r, 0, sizeof(*r)); SIMPLEQ_INIT(&r->mem); SIMPLEQ_INIT(&r->io); SIMPLEQ_INIT(&r->irq); SIMPLEQ_INIT(&r->dma); SIMPLEQ_INIT(&r->iomem); if (p == NULL) return; /* otherwise, we start looking for chipid's */ for (; p[0] != END_TAG; p += size) { tag = *p; v = p; if (tag_type(p[0]) == PNP_SMALL) { size = tag_small_count(tag) + 1; item = tag_small_item_name(tag); if (item != SmallVendorItem || p[1] != 1) continue; pack = v; pna->chipid = le16dec(&pack->Name[0]); pna->chipmfg0 = pack->VendorID0; pna->chipmfg1 = pack->VendorID1; break; } else { /* Large */ size = (p[1] | (p[2] << 8)) + 3 /* tag + length */; } } } static int pnpbus_search(device_t parent, cfdata_t cf, const int *ldesc, void *aux) { struct pnpbus_dev_attach_args pna; struct pnpbus_attach_args *paa = aux; PPC_DEVICE *ppc_dev; int i; uint32_t ndev; ndev = be32toh(res->ActualNumDevices); ppc_dev = res->Devices; for (i = 0; i < ((ndev > MAX_DEVICES) ? MAX_DEVICES : ndev); i++) { pnp_getpna(&pna, paa, &ppc_dev[i]); if (config_probe(parent, cf, &pna)) config_attach(parent, cf, &pna, pnpbus_print, CFARGS_NONE); } return 0; } static void pnpbus_printres(struct pnpresources *r) { struct pnpbus_io *io; struct pnpbus_mem *mem; struct pnpbus_irq *irq; struct pnpbus_dma *dma; int p = 0; if (!SIMPLEQ_EMPTY(&r->mem)) { aprint_normal("mem"); SIMPLEQ_FOREACH(mem, &r->mem, next) { aprint_normal(" 0x%x", mem->minbase); if (mem->len > 1) aprint_normal("-0x%x", mem->minbase + mem->len - 1); } p++; } if (!SIMPLEQ_EMPTY(&r->io)) { if (p++) aprint_normal(", "); aprint_normal("port"); SIMPLEQ_FOREACH(io, &r->io, next) { aprint_normal(" 0x%x", io->minbase); if (io->len > 1) aprint_normal("-0x%x", io->minbase + io->len - 1); } } if (!SIMPLEQ_EMPTY(&r->iomem)) { if (p++) aprint_normal(", "); aprint_normal("iomem"); SIMPLEQ_FOREACH(mem, &r->iomem, next) { aprint_normal(" 0x%x", mem->minbase); if (mem->len > 1) aprint_normal("-0x%x", mem->minbase + mem->len - 1); } p++; } if (!SIMPLEQ_EMPTY(&r->irq)) { if (p++) aprint_normal(", "); aprint_normal("irq"); SIMPLEQ_FOREACH(irq, &r->irq, next) { aprint_normal(" %d", ffs(irq->mask) - 1); } } if (!SIMPLEQ_EMPTY(&r->dma)) { if (p++) aprint_normal(", "); aprint_normal("DMA"); SIMPLEQ_FOREACH(dma, &r->dma, next) { aprint_normal(" %d", ffs(dma->mask) - 1); } } } void pnpbus_print_devres(struct pnpbus_dev_attach_args *pna) { aprint_normal(": "); pnpbus_printres(&pna->pna_res); } static int pnpbus_print(void *args, const char *name) { struct pnpbus_dev_attach_args *pna = args; pnpbus_print_devres(pna); return (UNCONF); } /* * Set up an interrupt handler to start being called. */ void * pnpbus_intr_establish(int idx, int level, int tover, int (*ih_fun)(void *), void *ih_arg, struct pnpresources *r) { struct pnpbus_irq *irq; int irqnum, type; if (idx >= r->numirq) return 0; irq = SIMPLEQ_FIRST(&r->irq); while (idx--) irq = SIMPLEQ_NEXT(irq, next); irqnum = ffs(irq->mask) - 1; type = (irq->flags & 0x0c) ? IST_LEVEL : IST_EDGE; if (tover != IST_PNP) type = tover; return (void *)intr_establish(irqnum, type, level, ih_fun, ih_arg); } /* * Deregister an interrupt handler. */ void pnpbus_intr_disestablish(void *arg) { intr_disestablish(arg); } int pnpbus_getirqnum(struct pnpresources *r, int idx, int *irqp, int *istp) { struct pnpbus_irq *irq; if (idx >= r->numirq) return EINVAL; irq = SIMPLEQ_FIRST(&r->irq); while (idx--) irq = SIMPLEQ_NEXT(irq, next); if (irqp != NULL) *irqp = ffs(irq->mask) - 1; if (istp != NULL) *istp = (irq->flags &0x0c) ? IST_LEVEL : IST_EDGE; return 0; } int pnpbus_getdmachan(struct pnpresources *r, int idx, int *chanp) { struct pnpbus_dma *dma; if (idx >= r->numdma) return EINVAL; dma = SIMPLEQ_FIRST(&r->dma); while (idx--) dma = SIMPLEQ_NEXT(dma, next); if (chanp != NULL) *chanp = ffs(dma->mask) - 1; return 0; } int pnpbus_getioport(struct pnpresources *r, int idx, int *basep, int *sizep) { struct pnpbus_io *io; if (idx >= r->numio) return EINVAL; io = SIMPLEQ_FIRST(&r->io); while (idx--) io = SIMPLEQ_NEXT(io, next); if (basep) *basep = io->minbase; if (sizep) *sizep = io->len; return 0; } int pnpbus_io_map(struct pnpresources *r, int idx, bus_space_tag_t *tagp, bus_space_handle_t *hdlp) { struct pnpbus_io *io; if (idx >= r->numio) return EINVAL; io = SIMPLEQ_FIRST(&r->io); while (idx--) io = SIMPLEQ_NEXT(io, next); *tagp = &genppc_isa_io_space_tag; return (bus_space_map(&genppc_isa_io_space_tag, io->minbase, io->len, 0, hdlp)); } void pnpbus_io_unmap(struct pnpresources *r, int idx, bus_space_tag_t tag, bus_space_handle_t hdl) { struct pnpbus_io *io; if (idx >= r->numio) return; io = SIMPLEQ_FIRST(&r->io); while (idx--) io = SIMPLEQ_NEXT(io, next); bus_space_unmap(tag, hdl, io->len); } int pnpbus_getiomem(struct pnpresources *r, int idx, int *basep, int *sizep) { struct pnpbus_mem *mem; if (idx >= r->numiomem) return EINVAL; mem = SIMPLEQ_FIRST(&r->iomem); while (idx--) mem = SIMPLEQ_NEXT(mem, next); if (basep) *basep = mem->minbase; if (sizep) *sizep = mem->len; return 0; } int pnpbus_iomem_map(struct pnpresources *r, int idx, bus_space_tag_t *tagp, bus_space_handle_t *hdlp) { struct pnpbus_mem *mem; if (idx >= r->numiomem) return EINVAL; mem = SIMPLEQ_FIRST(&r->iomem); while (idx--) mem = SIMPLEQ_NEXT(mem, next); *tagp = &genppc_isa_mem_space_tag; return (bus_space_map(&genppc_isa_mem_space_tag, mem->minbase, mem->len, 0, hdlp)); } void pnpbus_iomem_unmap(struct pnpresources *r, int idx, bus_space_tag_t tag, bus_space_handle_t hdl) { struct pnpbus_mem *mem; if (idx >= r->numiomem) return; mem = SIMPLEQ_FIRST(&r->mem); while (idx--) mem = SIMPLEQ_NEXT(mem, next); bus_space_unmap(tag, hdl, mem->len); }