/* psycho.c,v 1.80.20.1 2008/01/09 01:49:03 matt Exp */ /* * Copyright (c) 2001, 2002 Eduardo E. Horvath * Copyright (c) 1999, 2000 Matthew R. Green * All rights reserved. * * 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. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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, "psycho.c,v 1.80.20.1 2008/01/09 01:49:03 matt Exp"); #include "opt_ddb.h" /* * Support for `psycho' and `psycho+' UPA to PCI bridge and * UltraSPARC IIi and IIe `sabre' PCI controllers. */ #ifdef DEBUG #define PDB_PROM 0x01 #define PDB_BUSMAP 0x02 #define PDB_INTR 0x04 int psycho_debug = 0x0; #define DPRINTF(l, s) do { if (psycho_debug & l) printf s; } while (0) #else #define DPRINTF(l, s) #endif #include #include #include #include #include #include #include #include #include #define _SPARC_BUS_DMA_PRIVATE #include #include #include #include #include #include #include #include #include #include #include #include "ioconf.h" static pci_chipset_tag_t psycho_alloc_chipset(struct psycho_pbm *, int, pci_chipset_tag_t); static struct extent *psycho_alloc_extent(struct psycho_pbm *, int, int, const char *); static void psycho_get_bus_range(int, int *); static void psycho_get_ranges(int, struct psycho_ranges **, int *); static void psycho_set_intr(struct psycho_softc *, int, void *, uint64_t *, uint64_t *); /* Interrupt handlers */ static int psycho_ue(void *); static int psycho_ce(void *); static int psycho_bus_a(void *); static int psycho_bus_b(void *); static int psycho_powerfail(void *); static int psycho_wakeup(void *); /* IOMMU support */ static void psycho_iommu_init(struct psycho_softc *, int); /* * bus space and bus DMA support for UltraSPARC `psycho'. note that most * of the bus DMA support is provided by the iommu dvma controller. */ static int get_childspace(int); static struct psycho_ranges *get_psychorange(struct psycho_pbm *, int); static paddr_t psycho_bus_mmap(bus_space_tag_t, bus_addr_t, off_t, int, int); static int _psycho_bus_map(bus_space_tag_t, bus_addr_t, bus_size_t, int, vaddr_t, bus_space_handle_t *); static void *psycho_intr_establish(bus_space_tag_t, int, int, int (*)(void *), void *, void(*)(void)); static int psycho_dmamap_load(bus_dma_tag_t, bus_dmamap_t, void *, bus_size_t, struct proc *, int); static void psycho_dmamap_unload(bus_dma_tag_t, bus_dmamap_t); static int psycho_dmamap_load_raw(bus_dma_tag_t, bus_dmamap_t, bus_dma_segment_t *, int, bus_size_t, int); static void psycho_dmamap_sync(bus_dma_tag_t, bus_dmamap_t, bus_addr_t, bus_size_t, int); int psycho_dmamem_alloc(bus_dma_tag_t, bus_size_t, bus_size_t, bus_size_t, bus_dma_segment_t *, int, int *, int); void psycho_dmamem_free(bus_dma_tag_t, bus_dma_segment_t *, int); int psycho_dmamem_map(bus_dma_tag_t, bus_dma_segment_t *, int, size_t, void **, int); void psycho_dmamem_unmap(bus_dma_tag_t, void *, size_t); /* base pci_chipset */ extern struct sparc_pci_chipset _sparc_pci_chipset; /* power button handlers */ static void psycho_register_power_button(struct psycho_softc *sc); static void psycho_power_button_pressed(void *arg); /* * autoconfiguration */ static int psycho_match(struct device *, struct cfdata *, void *); static void psycho_attach(struct device *, struct device *, void *); static int psycho_print(void *aux, const char *p); CFATTACH_DECL(psycho, sizeof(struct psycho_softc), psycho_match, psycho_attach, NULL, NULL); /* * "sabre" is the UltraSPARC IIi onboard UPA to PCI bridge. It manages a * single PCI bus and does not have a streaming buffer. It often has an APB * (advanced PCI bridge) connected to it, which was designed specifically for * the IIi. The APB let's the IIi handle two independednt PCI buses, and * appears as two "simba"'s underneath the sabre. * * "psycho" and "psycho+" is a dual UPA to PCI bridge. It sits on the UPA bus * and manages two PCI buses. "psycho" has two 64-bit 33 MHz buses, while * "psycho+" controls both a 64-bit 33 MHz and a 64-bit 66 MHz PCI bus. You * will usually find a "psycho+" since I don't think the original "psycho" * ever shipped, and if it did it would be in the U30. * * Each "psycho" PCI bus appears as a separate OFW node, but since they are * both part of the same IC, they only have a single register space. As such, * they need to be configured together, even though the autoconfiguration will * attach them separately. * * On UltraIIi machines, "sabre" itself usually takes pci0, with "simba" often * as pci1 and pci2, although they have been implemented with other PCI bus * numbers on some machines. * * On UltraII machines, there can be any number of "psycho+" ICs, each * providing two PCI buses. * * * XXXX The psycho/sabre node has an `interrupts' attribute. They contain * the values of the following interrupts in this order: * * PCI Bus Error (30) * DMA UE (2e) * DMA CE (2f) * Power Fail (25) * * We really should attach handlers for each. * */ #define ROM_PCI_NAME "pci" struct psycho_names { const char *p_name; int p_type; } psycho_names[] = { { "SUNW,psycho", PSYCHO_MODE_PSYCHO }, { "pci108e,8000", PSYCHO_MODE_PSYCHO }, { "SUNW,sabre", PSYCHO_MODE_SABRE }, { "pci108e,a000", PSYCHO_MODE_SABRE }, { "pci108e,a001", PSYCHO_MODE_SABRE }, { NULL, 0 } }; static int psycho_match(struct device *parent, struct cfdata *match, void *aux) { struct mainbus_attach_args *ma = aux; char *model = prom_getpropstring(ma->ma_node, "model"); int i; /* match on a name of "pci" and a sabre or a psycho */ if (strcmp(ma->ma_name, ROM_PCI_NAME) == 0) { for (i=0; psycho_names[i].p_name; i++) if (strcmp(model, psycho_names[i].p_name) == 0) return (1); model = prom_getpropstring(ma->ma_node, "compatible"); for (i=0; psycho_names[i].p_name; i++) if (strcmp(model, psycho_names[i].p_name) == 0) return (1); } return (0); } #ifdef DEBUG static void psycho_dump_intmap(struct psycho_softc *sc); static void psycho_dump_intmap(struct psycho_softc *sc) { volatile uint64_t *intrmapptr = NULL; printf("psycho_dump_intmap: OBIO\n"); for (intrmapptr = &sc->sc_regs->scsi_int_map; intrmapptr < &sc->sc_regs->ue_int_map; intrmapptr++) printf("%p: %llx\n", intrmapptr, (unsigned long long)*intrmapptr); printf("\tintmap:pci\n"); for (intrmapptr = &sc->sc_regs->pcia_slot0_int; intrmapptr <= &sc->sc_regs->pcib_slot3_int; intrmapptr++) printf("%p: %llx\n", intrmapptr, (unsigned long long)*intrmapptr); printf("\tintmap:ffb\n"); for (intrmapptr = &sc->sc_regs->ffb0_int_map; intrmapptr <= &sc->sc_regs->ffb1_int_map; intrmapptr++) printf("%p: %llx\n", intrmapptr, (unsigned long long)*intrmapptr); } #endif /* * SUNW,psycho initialisation .. * - find the per-psycho registers * - figure out the IGN. * - find our partner psycho * - configure ourselves * - bus range, bus, * - get interrupt-map and interrupt-map-mask * - setup the chipsets. * - if we're the first of the pair, initialise the IOMMU, otherwise * just copy it's tags and addresses. */ static void psycho_attach(struct device *parent, struct device *self, void *aux) { struct psycho_softc *sc = (struct psycho_softc *)self; struct psycho_softc *osc = NULL; struct psycho_pbm *pp; struct pcibus_attach_args pba; struct mainbus_attach_args *ma = aux; struct psycho_ranges *pr; prop_dictionary_t dict; bus_space_handle_t bh; uint64_t csr, mem_base; int psycho_br[2], n, i; bus_space_handle_t pci_ctl; char *model = prom_getpropstring(ma->ma_node, "model"); aprint_normal("\n"); sc->sc_node = ma->ma_node; sc->sc_bustag = ma->ma_bustag; sc->sc_dmatag = ma->ma_dmatag; /* * Identify the device. */ for (i=0; psycho_names[i].p_name; i++) if (strcmp(model, psycho_names[i].p_name) == 0) { sc->sc_mode = psycho_names[i].p_type; goto found; } model = prom_getpropstring(ma->ma_node, "compatible"); for (i=0; psycho_names[i].p_name; i++) if (strcmp(model, psycho_names[i].p_name) == 0) { sc->sc_mode = psycho_names[i].p_type; goto found; } panic("unknown psycho model %s", model); found: /* * The psycho gets three register banks: * (0) per-PBM configuration and status registers * (1) per-PBM PCI configuration space, containing only the * PBM 256-byte PCI header * (2) the shared psycho configuration registers (struct psychoreg) */ /* Register layouts are different. stuupid. */ if (sc->sc_mode == PSYCHO_MODE_PSYCHO) { sc->sc_basepaddr = (paddr_t)ma->ma_reg[2].ur_paddr; if (ma->ma_naddress > 2) { sparc_promaddr_to_handle(sc->sc_bustag, ma->ma_address[2], &sc->sc_bh); sparc_promaddr_to_handle(sc->sc_bustag, ma->ma_address[0], &pci_ctl); sc->sc_regs = (struct psychoreg *) bus_space_vaddr(sc->sc_bustag, sc->sc_bh); } else if (ma->ma_nreg > 2) { /* We need to map this in ourselves. */ if (bus_space_map(sc->sc_bustag, ma->ma_reg[2].ur_paddr, ma->ma_reg[2].ur_len, BUS_SPACE_MAP_LINEAR, &sc->sc_bh)) panic("psycho_attach: cannot map regs"); sc->sc_regs = (struct psychoreg *) bus_space_vaddr(sc->sc_bustag, sc->sc_bh); if (bus_space_map(sc->sc_bustag, ma->ma_reg[0].ur_paddr, ma->ma_reg[0].ur_len, BUS_SPACE_MAP_LINEAR, &pci_ctl)) panic("psycho_attach: cannot map ctl"); } else panic("psycho_attach: %d not enough registers", ma->ma_nreg); } else { sc->sc_basepaddr = (paddr_t)ma->ma_reg[0].ur_paddr; if (ma->ma_naddress) { sparc_promaddr_to_handle(sc->sc_bustag, ma->ma_address[0], &sc->sc_bh); sc->sc_regs = (struct psychoreg *) bus_space_vaddr(sc->sc_bustag, sc->sc_bh); bus_space_subregion(sc->sc_bustag, sc->sc_bh, offsetof(struct psychoreg, psy_pcictl), sizeof(struct pci_ctl), &pci_ctl); } else if (ma->ma_nreg) { /* We need to map this in ourselves. */ if (bus_space_map(sc->sc_bustag, ma->ma_reg[0].ur_paddr, ma->ma_reg[0].ur_len, BUS_SPACE_MAP_LINEAR, &sc->sc_bh)) panic("psycho_attach: cannot map regs"); sc->sc_regs = (struct psychoreg *) bus_space_vaddr(sc->sc_bustag, sc->sc_bh); bus_space_subregion(sc->sc_bustag, sc->sc_bh, offsetof(struct psychoreg, psy_pcictl), sizeof(struct pci_ctl), &pci_ctl); } else panic("psycho_attach: %d not enough registers", ma->ma_nreg); } csr = bus_space_read_8(sc->sc_bustag, sc->sc_bh, offsetof(struct psychoreg, psy_csr)); sc->sc_ign = 0x7c0; /* APB IGN is always 0x7c */ if (sc->sc_mode == PSYCHO_MODE_PSYCHO) sc->sc_ign = PSYCHO_GCSR_IGN(csr) << 6; aprint_normal_dev(self, "%s: impl %d, version %d: ign %x ", model, PSYCHO_GCSR_IMPL(csr), PSYCHO_GCSR_VERS(csr), sc->sc_ign); /* * Match other psycho's that are already configured against * the base physical address. This will be the same for a * pair of devices that share register space. */ for (n = 0; n < psycho_cd.cd_ndevs; n++) { struct psycho_softc *asc = (struct psycho_softc *)psycho_cd.cd_devs[n]; if (asc == NULL || asc == sc) /* This entry is not there or it is me */ continue; if (asc->sc_basepaddr != sc->sc_basepaddr) /* This is an unrelated psycho */ continue; /* Found partner */ osc = asc; break; } /* Oh, dear. OK, lets get started */ /* * Setup the PCI control register */ csr = bus_space_read_8(sc->sc_bustag, pci_ctl, offsetof(struct pci_ctl, pci_csr)); csr |= PCICTL_MRLM | PCICTL_ARB_PARK | PCICTL_ERRINTEN | PCICTL_4ENABLE; csr &= ~(PCICTL_SERR | PCICTL_CPU_PRIO | PCICTL_ARB_PRIO | PCICTL_RTRYWAIT); bus_space_write_8(sc->sc_bustag, pci_ctl, offsetof(struct pci_ctl, pci_csr), csr); /* * Allocate our psycho_pbm */ pp = sc->sc_psycho_this = malloc(sizeof *pp, M_DEVBUF, M_NOWAIT | M_ZERO); if (pp == NULL) panic("could not allocate psycho pbm"); pp->pp_sc = sc; /* grab the psycho ranges */ psycho_get_ranges(sc->sc_node, &pp->pp_range, &pp->pp_nrange); /* get the bus-range for the psycho */ psycho_get_bus_range(sc->sc_node, psycho_br); pba.pba_bus = psycho_br[0]; pba.pba_bridgetag = NULL; pp->pp_busmax = psycho_br[1]; aprint_normal("bus range %u to %u", psycho_br[0], psycho_br[1]); aprint_normal("; PCI bus %d", psycho_br[0]); pp->pp_pcictl = pci_ctl; /* allocate our tags */ pp->pp_memt = psycho_alloc_mem_tag(pp); pp->pp_iot = psycho_alloc_io_tag(pp); pp->pp_dmat = psycho_alloc_dma_tag(pp); pp->pp_flags = (pp->pp_memt ? PCI_FLAGS_MEM_ENABLED : 0) | (pp->pp_iot ? PCI_FLAGS_IO_ENABLED : 0); /* allocate a chipset for this */ pp->pp_pc = psycho_alloc_chipset(pp, sc->sc_node, &_sparc_pci_chipset); /* setup the rest of the psycho pbm */ pba.pba_pc = psycho_alloc_chipset(pp, sc->sc_node, pp->pp_pc); switch((ma->ma_reg[0].ur_paddr) & 0xf000) { case 0x2000: pp->pp_id = PSYCHO_PBM_A; break; case 0x4000: pp->pp_id = PSYCHO_PBM_B; break; } aprint_normal("\n"); /* allocate extents for free bus space */ pp->pp_exmem = psycho_alloc_extent(pp, sc->sc_node, 0x02, "psycho mem"); pp->pp_exio = psycho_alloc_extent(pp, sc->sc_node, 0x01, "psycho io"); #ifdef DEBUG if (psycho_debug & PDB_INTR) psycho_dump_intmap(sc); #endif /* * And finally, if we're a sabre or the first of a pair of psycho's to * arrive here, start up the IOMMU and get a config space tag. */ if (osc == NULL) { uint64_t timeo; /* * Establish handlers for interesting interrupts.... * * XXX We need to remember these and remove this to support * hotplug on the UPA/FHC bus. * * XXX Not all controllers have these, but installing them * is better than trying to sort through this mess. */ psycho_set_intr(sc, 15, psycho_ue, &sc->sc_regs->ue_int_map, &sc->sc_regs->ue_clr_int); psycho_set_intr(sc, 1, psycho_ce, &sc->sc_regs->ce_int_map, &sc->sc_regs->ce_clr_int); psycho_set_intr(sc, 15, psycho_bus_a, &sc->sc_regs->pciaerr_int_map, &sc->sc_regs->pciaerr_clr_int); psycho_set_intr(sc, 15, psycho_powerfail, &sc->sc_regs->power_int_map, &sc->sc_regs->power_clr_int); psycho_register_power_button(sc); if (sc->sc_mode != PSYCHO_MODE_SABRE) { /* sabre doesn't have these interrupts */ psycho_set_intr(sc, 15, psycho_bus_b, &sc->sc_regs->pciberr_int_map, &sc->sc_regs->pciberr_clr_int); psycho_set_intr(sc, 1, psycho_wakeup, &sc->sc_regs->pwrmgt_int_map, &sc->sc_regs->pwrmgt_clr_int); } /* * Apparently a number of machines with psycho and psycho+ * controllers have interrupt latency issues. We'll try * setting the interrupt retry timeout to 0xff which gives us * a retry of 3-6 usec (which is what sysio is set to) for the * moment, which seems to help alleviate this problem. */ timeo = sc->sc_regs->intr_retry_timer; if (timeo > 0xfff) { #ifdef DEBUG printf("decreasing interrupt retry timeout " "from %lx to 0xff\n", (long)timeo); #endif sc->sc_regs->intr_retry_timer = 0xff; } /* * Allocate bus node, this contains a prom node per bus. */ pp->pp_busnode = malloc(sizeof(*pp->pp_busnode), M_DEVBUF, M_NOWAIT | M_ZERO); if (pp->pp_busnode == NULL) panic("psycho_attach: malloc pp->pp_busnode"); /* * Setup IOMMU and PCI configuration if we're the first * of a pair of psycho's to arrive here. * * We should calculate a TSB size based on amount of RAM * and number of bus controllers and number an type of * child devices. * * For the moment, 32KB should be more than enough. */ sc->sc_is = malloc(sizeof(struct iommu_state), M_DEVBUF, M_NOWAIT); if (sc->sc_is == NULL) panic("psycho_attach: malloc iommu_state"); /* Point the strbuf_ctl at the iommu_state */ pp->pp_sb.sb_is = sc->sc_is; sc->sc_is->is_sb[0] = sc->sc_is->is_sb[1] = NULL; if (prom_getproplen(sc->sc_node, "no-streaming-cache") < 0) { struct strbuf_ctl *sb = &pp->pp_sb; vaddr_t va = (vaddr_t)&pp->pp_flush[0x40]; /* * Initialize the strbuf_ctl. * * The flush sync buffer must be 64-byte aligned. */ sb->sb_flush = (void *)(va & ~0x3f); bus_space_subregion(sc->sc_bustag, pci_ctl, offsetof(struct pci_ctl, pci_strbuf), sizeof (struct iommu_strbuf), &sb->sb_sb); /* Point our iommu at the strbuf_ctl */ sc->sc_is->is_sb[0] = sb; } psycho_iommu_init(sc, 2); sc->sc_configtag = psycho_alloc_config_tag(sc->sc_psycho_this); /* * XXX This is a really ugly hack because PCI config space * is explicitly handled with unmapped accesses. */ i = sc->sc_bustag->type; sc->sc_bustag->type = PCI_CONFIG_BUS_SPACE; if (bus_space_map(sc->sc_bustag, sc->sc_basepaddr + 0x01000000, 0x01000000, 0, &bh)) panic("could not map psycho PCI configuration space"); sc->sc_bustag->type = i; sc->sc_configaddr = bh; } else { /* Share bus numbers with the pair of mine */ pp->pp_busnode = osc->sc_psycho_this->pp_busnode; /* Just copy IOMMU state, config tag and address */ sc->sc_is = osc->sc_is; sc->sc_configtag = osc->sc_configtag; sc->sc_configaddr = osc->sc_configaddr; /* Point the strbuf_ctl at the iommu_state */ pp->pp_sb.sb_is = sc->sc_is; if (prom_getproplen(sc->sc_node, "no-streaming-cache") < 0) { struct strbuf_ctl *sb = &pp->pp_sb; vaddr_t va = (vaddr_t)&pp->pp_flush[0x40]; /* * Initialize the strbuf_ctl. * * The flush sync buffer must be 64-byte aligned. */ sb->sb_flush = (void *)(va & ~0x3f); bus_space_subregion(sc->sc_bustag, pci_ctl, offsetof(struct pci_ctl, pci_strbuf), sizeof (struct iommu_strbuf), &sb->sb_sb); /* Point our iommu at the strbuf_ctl */ sc->sc_is->is_sb[1] = sb; } iommu_reset(sc->sc_is); } dict = device_properties(self); pr = get_psychorange(pp, 2); /* memory range */ #ifdef DEBUG printf("memory range: %08x %08x\n", pr->phys_hi, pr->phys_lo); #endif mem_base = ((uint64_t)pr->phys_hi) << 32 | pr->phys_lo; prop_dictionary_set_uint64(dict, "mem_base", mem_base); /* * attach the pci.. note we pass PCI A tags, etc., for the sabre here. */ pba.pba_flags = sc->sc_psycho_this->pp_flags; pba.pba_dmat = sc->sc_psycho_this->pp_dmat; pba.pba_dmat64 = NULL; pba.pba_iot = sc->sc_psycho_this->pp_iot; pba.pba_memt = sc->sc_psycho_this->pp_memt; config_found_ia(self, "pcibus", &pba, psycho_print); } static int psycho_print(void *aux, const char *p) { if (p == NULL) return (UNCONF); return (QUIET); } static void psycho_set_intr(struct psycho_softc *sc, int ipl, void *handler, uint64_t *mapper, uint64_t *clearer) { struct intrhand *ih; ih = (struct intrhand *)malloc(sizeof(struct intrhand), M_DEVBUF, M_NOWAIT); ih->ih_arg = sc; ih->ih_map = mapper; ih->ih_clr = clearer; ih->ih_fun = handler; ih->ih_pil = (1<ih_number = INTVEC(*(ih->ih_map)); intr_establish(ipl, ih); *(ih->ih_map) |= INTMAP_V|(CPU_UPAID << INTMAP_TID_SHIFT); } /* * power button handlers */ static void psycho_register_power_button(struct psycho_softc *sc) { sysmon_task_queue_init(); sc->sc_powerpressed = 0; sc->sc_smcontext = malloc(sizeof(struct sysmon_pswitch), M_DEVBUF, 0); if (!sc->sc_smcontext) { printf("%s: could not allocate power button context\n", sc->sc_dev.dv_xname); return; } memset(sc->sc_smcontext, 0, sizeof(struct sysmon_pswitch)); sc->sc_smcontext->smpsw_name = sc->sc_dev.dv_xname; sc->sc_smcontext->smpsw_type = PSWITCH_TYPE_POWER; if (sysmon_pswitch_register(sc->sc_smcontext) != 0) printf("%s: unable to register power button with sysmon\n", sc->sc_dev.dv_xname); } static void psycho_power_button_pressed(void *arg) { struct psycho_softc *sc = arg; sysmon_pswitch_event(sc->sc_smcontext, PSWITCH_EVENT_PRESSED); sc->sc_powerpressed = 0; } /* * PCI bus support */ /* * allocate a PCI chipset tag and set it's cookie. */ static pci_chipset_tag_t psycho_alloc_chipset(struct psycho_pbm *pp, int node, pci_chipset_tag_t pc) { pci_chipset_tag_t npc; npc = malloc(sizeof *npc, M_DEVBUF, M_NOWAIT); if (npc == NULL) panic("could not allocate pci_chipset_tag_t"); memcpy(npc, pc, sizeof *pc); npc->cookie = pp; npc->rootnode = node; return (npc); } /* * create extent for free bus space, then allocate assigned regions. */ static struct extent * psycho_alloc_extent(struct psycho_pbm *pp, int node, int ss, const char *name) { struct psycho_registers *pa = NULL; struct psycho_ranges *pr; struct extent *ex; bus_addr_t baddr, addr; bus_size_t bsize, size; int i, num; /* get bus space size */ pr = get_psychorange(pp, ss); if (pr == NULL) { printf("psycho_alloc_extent: get_psychorange failed\n"); return NULL; } baddr = 0x00000000; bsize = BUS_ADDR(pr->size_hi, pr->size_lo); /* get available lists */ num = 0; if (prom_getprop(node, "available", sizeof(*pa), &num, &pa)) { printf("psycho_alloc_extent: no \"available\" property\n"); return NULL; } /* create extent */ ex = extent_create(name, baddr, bsize - baddr - 1, M_DEVBUF, 0, 0, EX_NOWAIT); if (ex == NULL) { printf("psycho_alloc_extent: extent_create failed\n"); goto ret; } /* allocate assigned regions */ for (i = 0; i < num; i++) if (((pa[i].phys_hi >> 24) & 0x03) == ss) { /* allocate bus space */ addr = BUS_ADDR(pa[i].phys_mid, pa[i].phys_lo); size = BUS_ADDR(pa[i].size_hi, pa[i].size_lo); if (extent_alloc_region(ex, baddr, addr - baddr, EX_NOWAIT)) { printf("psycho_alloc_extent: " "extent_alloc_region %" PRIx64 "-%" PRIx64 " failed\n", baddr, addr); extent_destroy(ex); ex = NULL; goto ret; } baddr = addr + size; } /* allocate left region if available */ if (baddr < bsize) if (extent_alloc_region(ex, baddr, bsize - baddr, EX_NOWAIT)) { printf("psycho_alloc_extent: extent_alloc_region %" PRIx64 "-%" PRIx64 " failed\n", baddr, bsize); extent_destroy(ex); ex = NULL; goto ret; } #ifdef DEBUG /* print extent */ extent_print(ex); #endif ret: /* return extent */ free(pa, M_DEVBUF); return ex; } /* * grovel the OBP for various psycho properties */ static void psycho_get_bus_range(int node, int *brp) { int n, error; n = 2; error = prom_getprop(node, "bus-range", sizeof(*brp), &n, &brp); if (error) panic("could not get psycho bus-range, error %d", error); if (n != 2) panic("broken psycho bus-range"); DPRINTF(PDB_PROM, ("psycho debug: got `bus-range' for node %08x: %u - %u\n", node, brp[0], brp[1])); } static void psycho_get_ranges(int node, struct psycho_ranges **rp, int *np) { if (prom_getprop(node, "ranges", sizeof(**rp), np, rp)) panic("could not get psycho ranges"); DPRINTF(PDB_PROM, ("psycho debug: got `ranges' for node %08x: %d entries\n", node, *np)); } /* * Interrupt handlers. */ static int psycho_ue(void *arg) { struct psycho_softc *sc = (struct psycho_softc *)arg; struct psychoreg *regs = sc->sc_regs; long long afsr = regs->psy_ue_afsr; long long afar = regs->psy_ue_afar; long size = PAGE_SIZE<<(sc->sc_is->is_tsbsize); struct iommu_state *is = sc->sc_is; char bits[128]; /* * It's uncorrectable. Dump the regs and panic. */ printf("%s: uncorrectable DMA error AFAR %llx pa %llx AFSR %llx:\n%s\n", sc->sc_dev.dv_xname, afar, (long long)iommu_extract(is, (vaddr_t)afar), afsr, bitmask_snprintf(afsr, PSYCHO_UE_AFSR_BITS, bits, sizeof(bits))); /* Sometimes the AFAR points to an IOTSB entry */ if (afar >= is->is_ptsb && afar < is->is_ptsb + size) { printf("IOVA %llx IOTTE %llx\n", (long long)((afar - is->is_ptsb) * PAGE_SIZE + is->is_dvmabase), (long long)ldxa(afar, ASI_PHYS_CACHED)); } #ifdef DDB Debugger(); #endif regs->psy_ue_afar = 0; regs->psy_ue_afsr = 0; return (1); } static int psycho_ce(void *arg) { struct psycho_softc *sc = (struct psycho_softc *)arg; struct psychoreg *regs = sc->sc_regs; /* * It's correctable. Dump the regs and continue. */ printf("%s: correctable DMA error AFAR %llx AFSR %llx\n", sc->sc_dev.dv_xname, (long long)regs->psy_ce_afar, (long long)regs->psy_ce_afsr); return (1); } static int psycho_bus_a(void *arg) { struct psycho_softc *sc = (struct psycho_softc *)arg; struct psychoreg *regs = sc->sc_regs; /* * It's uncorrectable. Dump the regs and panic. */ panic("%s: PCI bus A error AFAR %llx AFSR %llx", sc->sc_dev.dv_xname, (long long)regs->psy_pcictl[0].pci_afar, (long long)regs->psy_pcictl[0].pci_afsr); return (1); } static int psycho_bus_b(void *arg) { struct psycho_softc *sc = (struct psycho_softc *)arg; struct psychoreg *regs = sc->sc_regs; /* * It's uncorrectable. Dump the regs and panic. */ panic("%s: PCI bus B error AFAR %llx AFSR %llx", sc->sc_dev.dv_xname, (long long)regs->psy_pcictl[0].pci_afar, (long long)regs->psy_pcictl[0].pci_afsr); return (1); } static int psycho_powerfail(void *arg) { struct psycho_softc *sc = (struct psycho_softc *)arg; /* * We lost power. Queue a callback with thread context to * handle all the real work. */ if (sc->sc_powerpressed == 0 && sc->sc_smcontext != NULL) { sc->sc_powerpressed = 1; sysmon_task_queue_sched(0, psycho_power_button_pressed, sc); } return (1); } static int psycho_wakeup(void *arg) { struct psycho_softc *sc = (struct psycho_softc *)arg; /* * Gee, we don't really have a framework to deal with this * properly. */ printf("%s: power management wakeup\n", sc->sc_dev.dv_xname); return (1); } /* * initialise the IOMMU.. */ void psycho_iommu_init(struct psycho_softc *sc, int tsbsize) { char *name; struct iommu_state *is = sc->sc_is; uint32_t iobase = -1; int *vdma = NULL; int nitem; /* punch in our copies */ is->is_bustag = sc->sc_bustag; bus_space_subregion(sc->sc_bustag, sc->sc_bh, offsetof(struct psychoreg, psy_iommu), sizeof (struct iommureg), &is->is_iommu); /* * Separate the men from the boys. Get the `virtual-dma' * property for sabre and use that to make sure the damn * iommu works. * * We could query the `#virtual-dma-size-cells' and * `#virtual-dma-addr-cells' and DTRT, but I'm lazy. */ nitem = 0; if (!prom_getprop(sc->sc_node, "virtual-dma", sizeof(vdma), &nitem, &vdma)) { /* Damn. Gotta use these values. */ iobase = vdma[0]; #define TSBCASE(x) case 1<<((x)+23): tsbsize = (x); break switch (vdma[1]) { TSBCASE(1); TSBCASE(2); TSBCASE(3); TSBCASE(4); TSBCASE(5); TSBCASE(6); default: printf("bogus tsb size %x, using 7\n", vdma[1]); TSBCASE(7); } #undef TSBCASE } /* give us a nice name.. */ name = (char *)malloc(32, M_DEVBUF, M_NOWAIT); if (name == 0) panic("couldn't malloc iommu name"); snprintf(name, 32, "%s dvma", sc->sc_dev.dv_xname); iommu_init(name, is, tsbsize, iobase); } /* * below here is bus space and bus DMA support */ bus_space_tag_t psycho_alloc_bus_tag(struct psycho_pbm *pp, int type) { struct psycho_softc *sc = pp->pp_sc; bus_space_tag_t bt; bt = (bus_space_tag_t) malloc(sizeof(struct sparc_bus_space_tag), M_DEVBUF, M_NOWAIT); if (bt == NULL) panic("could not allocate psycho bus tag"); memset(bt, 0, sizeof *bt); bt->cookie = pp; bt->parent = sc->sc_bustag; bt->type = type; bt->sparc_bus_map = _psycho_bus_map; bt->sparc_bus_mmap = psycho_bus_mmap; bt->sparc_intr_establish = psycho_intr_establish; return (bt); } bus_dma_tag_t psycho_alloc_dma_tag(struct psycho_pbm *pp) { struct psycho_softc *sc = pp->pp_sc; bus_dma_tag_t dt, pdt = sc->sc_dmatag; dt = (bus_dma_tag_t) malloc(sizeof(struct sparc_bus_dma_tag), M_DEVBUF, M_NOWAIT); if (dt == NULL) panic("could not allocate psycho DMA tag"); memset(dt, 0, sizeof *dt); dt->_cookie = pp; dt->_parent = pdt; #define PCOPY(x) dt->x = pdt->x PCOPY(_dmamap_create); PCOPY(_dmamap_destroy); dt->_dmamap_load = psycho_dmamap_load; PCOPY(_dmamap_load_mbuf); PCOPY(_dmamap_load_uio); dt->_dmamap_load_raw = psycho_dmamap_load_raw; dt->_dmamap_unload = psycho_dmamap_unload; dt->_dmamap_sync = psycho_dmamap_sync; dt->_dmamem_alloc = psycho_dmamem_alloc; dt->_dmamem_free = psycho_dmamem_free; dt->_dmamem_map = psycho_dmamem_map; dt->_dmamem_unmap = psycho_dmamem_unmap; PCOPY(_dmamem_mmap); #undef PCOPY return (dt); } /* * bus space support. has a discussion about * PCI physical addresses. */ static int get_childspace(int type) { int ss; switch (type) { case PCI_CONFIG_BUS_SPACE: ss = 0x00; break; case PCI_IO_BUS_SPACE: ss = 0x01; break; case PCI_MEMORY_BUS_SPACE: ss = 0x02; break; #if 0 /* we don't do 64 bit memory space */ case PCI_MEMORY64_BUS_SPACE: ss = 0x03; break; #endif default: panic("get_childspace: unknown bus type"); } return (ss); } static struct psycho_ranges * get_psychorange(struct psycho_pbm *pp, int ss) { int i; for (i = 0; i < pp->pp_nrange; i++) { if (((pp->pp_range[i].cspace >> 24) & 0x03) == ss) return (&pp->pp_range[i]); } /* not found */ return (NULL); } static int _psycho_bus_map(bus_space_tag_t t, bus_addr_t offset, bus_size_t size, int flags, vaddr_t unused, bus_space_handle_t *hp) { struct psycho_pbm *pp = t->cookie; struct psycho_softc *sc = pp->pp_sc; struct psycho_ranges *pr; bus_addr_t paddr; int ss; DPRINTF(PDB_BUSMAP, ("_psycho_bus_map: type %d off %qx sz %qx flags %d", t->type, (unsigned long long)offset, (unsigned long long)size, flags)); ss = get_childspace(t->type); DPRINTF(PDB_BUSMAP, (" cspace %d", ss)); pr = get_psychorange(pp, ss); if (pr != NULL) { paddr = BUS_ADDR(pr->phys_hi, pr->phys_lo + offset); DPRINTF(PDB_BUSMAP, ("\n_psycho_bus_map: mapping paddr " "space %lx offset %lx paddr %qx\n", (long)ss, (long)offset, (unsigned long long)paddr)); return ((*sc->sc_bustag->sparc_bus_map)(t, paddr, size, flags, 0, hp)); } DPRINTF(PDB_BUSMAP, (" FAILED\n")); return (EINVAL); } static paddr_t psycho_bus_mmap(bus_space_tag_t t, bus_addr_t paddr, off_t off, int prot, int flags) { bus_addr_t offset = paddr; struct psycho_pbm *pp = t->cookie; struct psycho_softc *sc = pp->pp_sc; struct psycho_ranges *pr; int ss; ss = get_childspace(t->type); DPRINTF(PDB_BUSMAP, ("_psycho_bus_mmap: prot %x flags %d pa %qx\n", prot, flags, (unsigned long long)paddr)); pr = get_psychorange(pp, ss); if (pr != NULL) { paddr = BUS_ADDR(pr->phys_hi, pr->phys_lo + offset); DPRINTF(PDB_BUSMAP, ("\n_psycho_bus_mmap: mapping paddr " "space %lx offset %lx paddr %qx\n", (long)ss, (long)offset, (unsigned long long)paddr)); return (bus_space_mmap(sc->sc_bustag, paddr, off, prot, flags)); } return (-1); } /* * Get a PCI offset address from bus_space_handle_t. */ bus_addr_t psycho_bus_offset(bus_space_tag_t t, bus_space_handle_t *hp) { struct psycho_pbm *pp = t->cookie; struct psycho_ranges *pr; bus_addr_t addr, offset; vaddr_t va; int ss; addr = hp->_ptr; ss = get_childspace(t->type); DPRINTF(PDB_BUSMAP, ("psycho_bus_offset: type %d addr %" PRIx64 " cspace %d", t->type, addr, ss)); pr = get_psychorange(pp, ss); if (pr != NULL) { if (!PHYS_ASI(hp->_asi)) { va = trunc_page((vaddr_t)addr); if (pmap_extract(pmap_kernel(), va, &addr) == FALSE) { DPRINTF(PDB_BUSMAP, ("\n pmap_extract FAILED\n")); return (-1); } addr += hp->_ptr & PGOFSET; } offset = BUS_ADDR_PADDR(addr) - pr->phys_lo; DPRINTF(PDB_BUSMAP, ("\npsycho_bus_offset: paddr %" PRIx64 " offset %" PRIx64 "\n", addr, offset)); return (offset); } DPRINTF(PDB_BUSMAP, ("\n FAILED\n")); return (-1); } /* * install an interrupt handler for a PCI device */ void * psycho_intr_establish(bus_space_tag_t t, int ihandle, int level, int (*handler)(void *), void *arg, void (*fastvec)(void) /* ignored */) { struct psycho_pbm *pp = t->cookie; struct psycho_softc *sc = pp->pp_sc; struct intrhand *ih; volatile uint64_t *intrmapptr = NULL, *intrclrptr = NULL; int64_t imap = 0; int ino; long vec = INTVEC(ihandle); ih = (struct intrhand *) malloc(sizeof(struct intrhand), M_DEVBUF, M_NOWAIT); if (ih == NULL) return (NULL); /* * Hunt through all the interrupt mapping regs to look for our * interrupt vector. * * XXX We only compare INOs rather than IGNs since the firmware may * not provide the IGN and the IGN is constant for all device on that * PCI controller. This could cause problems for the FFB/external * interrupt which has a full vector that can be set arbitrarily. */ DPRINTF(PDB_INTR, ("\npsycho_intr_establish: ihandle %x vec %lx", ihandle, vec)); ino = INTINO(vec); DPRINTF(PDB_INTR, (" ino %x", ino)); /* If the device didn't ask for an IPL, use the one encoded. */ if (level == IPL_NONE) level = INTLEV(vec); /* If it still has no level, print a warning and assign IPL 2 */ if (level == IPL_NONE) { printf("ERROR: no IPL, setting IPL 2.\n"); level = 2; } DPRINTF(PDB_INTR, ("\npsycho: intr %lx: %p\nHunting for IRQ...\n", (long)ino, intrlev[ino])); /* * First look for PCI interrupts, otherwise the PCI A slot 0 * INTA# interrupt might match an unused non-PCI (obio) * interrupt. */ for (intrmapptr = &sc->sc_regs->pcia_slot0_int, intrclrptr = &sc->sc_regs->pcia0_clr_int[0]; intrmapptr <= &sc->sc_regs->pcib_slot3_int; intrmapptr++, intrclrptr += 4) { if (sc->sc_mode == PSYCHO_MODE_PSYCHO && (intrmapptr == &sc->sc_regs->pcia_slot2_int || intrmapptr == &sc->sc_regs->pcia_slot3_int)) continue; if (((*intrmapptr ^ vec) & 0x3c) == 0) { intrclrptr += vec & 0x3; goto found; } } /* Now hunt thru obio. */ for (intrmapptr = &sc->sc_regs->scsi_int_map, intrclrptr = &sc->sc_regs->scsi_clr_int; intrmapptr < &sc->sc_regs->ue_int_map; intrmapptr++, intrclrptr++) { if (INTINO(*intrmapptr) == ino) goto found; } /* Finally check the two FFB slots */ intrclrptr = NULL; /* XXX? */ for (intrmapptr = &sc->sc_regs->ffb0_int_map; intrmapptr <= &sc->sc_regs->ffb1_int_map; intrmapptr++) { if (INTVEC(*intrmapptr) == ino) goto found; } printf("Cannot find interrupt vector %lx\n", vec); return (NULL); found: /* Register the map and clear intr registers */ ih->ih_map = intrmapptr; ih->ih_clr = intrclrptr; ih->ih_fun = handler; ih->ih_arg = arg; ih->ih_pil = level; ih->ih_number = ino | sc->sc_ign; DPRINTF(PDB_INTR, ( "; installing handler %p arg %p with ino %u pil %u\n", handler, arg, (u_int)ino, (u_int)ih->ih_pil)); intr_establish(ih->ih_pil, ih); /* * Enable the interrupt now we have the handler installed. * Read the current value as we can't change it besides the * valid bit so so make sure only this bit is changed. * * XXXX --- we really should use bus_space for this. */ if (intrmapptr) { imap = *intrmapptr; DPRINTF(PDB_INTR, ("; read intrmap = %016qx", (unsigned long long)imap)); /* Enable the interrupt */ imap |= INTMAP_V|(CPU_UPAID << INTMAP_TID_SHIFT); DPRINTF(PDB_INTR, ("; addr of intrmapptr = %p", intrmapptr)); DPRINTF(PDB_INTR, ("; writing intrmap = %016qx\n", (unsigned long long)imap)); *intrmapptr = imap; DPRINTF(PDB_INTR, ("; reread intrmap = %016qx", (unsigned long long)(imap = *intrmapptr))); } if (intrclrptr) { /* set state to IDLE */ *intrclrptr = 0; } return (ih); } /* * hooks into the iommu dvma calls. */ int psycho_dmamap_load(bus_dma_tag_t t, bus_dmamap_t map, void *buf, bus_size_t buflen, struct proc *p, int flags) { struct psycho_pbm *pp = (struct psycho_pbm *)t->_cookie; return (iommu_dvmamap_load(t, &pp->pp_sb, map, buf, buflen, p, flags)); } void psycho_dmamap_unload(bus_dma_tag_t t, bus_dmamap_t map) { struct psycho_pbm *pp = (struct psycho_pbm *)t->_cookie; iommu_dvmamap_unload(t, &pp->pp_sb, map); } int psycho_dmamap_load_raw(bus_dma_tag_t t, bus_dmamap_t map, bus_dma_segment_t *segs, int nsegs, bus_size_t size, int flags) { struct psycho_pbm *pp = (struct psycho_pbm *)t->_cookie; return (iommu_dvmamap_load_raw(t, &pp->pp_sb, map, segs, nsegs, flags, size)); } void psycho_dmamap_sync(bus_dma_tag_t t, bus_dmamap_t map, bus_addr_t offset, bus_size_t len, int ops) { struct psycho_pbm *pp = (struct psycho_pbm *)t->_cookie; if (ops & (BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE)) { /* Flush the CPU then the IOMMU */ bus_dmamap_sync(t->_parent, map, offset, len, ops); iommu_dvmamap_sync(t, &pp->pp_sb, map, offset, len, ops); } if (ops & (BUS_DMASYNC_POSTREAD|BUS_DMASYNC_POSTWRITE)) { /* Flush the IOMMU then the CPU */ iommu_dvmamap_sync(t, &pp->pp_sb, map, offset, len, ops); bus_dmamap_sync(t->_parent, map, offset, len, ops); } } int psycho_dmamem_alloc(bus_dma_tag_t t, bus_size_t size, bus_size_t alignment, bus_size_t boundary, bus_dma_segment_t *segs, int nsegs, int *rsegs, int flags) { struct psycho_pbm *pp = (struct psycho_pbm *)t->_cookie; return (iommu_dvmamem_alloc(t, &pp->pp_sb, size, alignment, boundary, segs, nsegs, rsegs, flags)); } void psycho_dmamem_free(bus_dma_tag_t t, bus_dma_segment_t *segs, int nsegs) { struct psycho_pbm *pp = (struct psycho_pbm *)t->_cookie; iommu_dvmamem_free(t, &pp->pp_sb, segs, nsegs); } int psycho_dmamem_map(bus_dma_tag_t t, bus_dma_segment_t *segs, int nsegs, size_t size, void **kvap, int flags) { struct psycho_pbm *pp = (struct psycho_pbm *)t->_cookie; return (iommu_dvmamem_map(t, &pp->pp_sb, segs, nsegs, size, kvap, flags)); } void psycho_dmamem_unmap(bus_dma_tag_t t, void *kva, size_t size) { struct psycho_pbm *pp = (struct psycho_pbm *)t->_cookie; iommu_dvmamem_unmap(t, &pp->pp_sb, kva, size); }