/* $NetBSD: imc.c,v 1.34 2015/02/18 16:47:58 macallan Exp $ */ /* * Copyright (c) 2001 Rafal K. Boni * 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, "$NetBSD: imc.c,v 1.34 2015/02/18 16:47:58 macallan Exp $"); #include #include #include #include #include #include #include #include #include #include #include #include #include "locators.h" struct imc_softc { bus_space_tag_t iot; bus_space_handle_t ioh; int eisa_present; }; static int imc_match(device_t, cfdata_t, void *); static void imc_attach(device_t, device_t, void *); static int imc_print(void *, const char *); static void imc_bus_reset(void); static void imc_bus_error(vaddr_t, uint32_t, uint32_t); static void imc_watchdog_reset(void); static void imc_watchdog_disable(void); static void imc_watchdog_enable(void); CFATTACH_DECL_NEW(imc, sizeof(struct imc_softc), imc_match, imc_attach, NULL, NULL); struct imc_attach_args { const char* iaa_name; bus_space_tag_t iaa_st; bus_space_handle_t iaa_sh; /* ? */ long iaa_offset; int iaa_intr; #if 0 int iaa_stride; #endif }; int imc_gio64_arb_config(int, uint32_t); struct imc_softc isc; static int imc_match(device_t parent, cfdata_t match, void *aux) { if ((mach_type == MACH_SGI_IP22) || (mach_type == MACH_SGI_IP20)) return 1; return 0; } static void imc_attach(device_t parent, device_t self, void *aux) { uint32_t reg; struct imc_attach_args iaa; struct mainbus_attach_args *ma = aux; uint32_t sysid; isc.iot = normal_memt; if (bus_space_map(isc.iot, ma->ma_addr, 0x100, BUS_SPACE_MAP_LINEAR, &isc.ioh)) panic("imc_attach: could not allocate memory\n"); platform.bus_reset = imc_bus_reset; platform.watchdog_reset = imc_watchdog_reset; platform.watchdog_disable = imc_watchdog_disable; platform.watchdog_enable = imc_watchdog_enable; sysid = bus_space_read_4(isc.iot, isc.ioh, IMC_SYSID); /* EISA exists on IP22 only */ if (mach_subtype == MACH_SGI_IP22_FULLHOUSE) isc.eisa_present = (sysid & IMC_SYSID_HAVEISA); else isc.eisa_present = 0; printf(": revision %d", (sysid & IMC_SYSID_REVMASK)); if (isc.eisa_present) printf(", EISA bus present"); printf("\n"); /* Clear CPU/GIO error status registers to clear any leftover bits. */ imc_bus_reset(); /* Hook the bus error handler into the ISR */ platform.intr4 = imc_bus_error; /* * Enable parity reporting on GIO/main memory transactions. * Disable parity checking on CPU bus transactions (as turning * it on seems to cause spurious bus errors), but enable parity * checking on CPU reads from main memory (note that this bit * has the opposite sense... Turning it on turns the checks off!). * Finally, turn on interrupt writes to the CPU from the MC. */ reg = bus_space_read_4(isc.iot, isc.ioh, IMC_CPUCTRL0); reg &= ~IMC_CPUCTRL0_NCHKMEMPAR; reg |= (IMC_CPUCTRL0_GPR | IMC_CPUCTRL0_MPR | IMC_CPUCTRL0_INTENA); bus_space_write_4(isc.iot, isc.ioh, IMC_CPUCTRL0, reg); /* Setup the MC write buffer depth */ reg = bus_space_read_4(isc.iot, isc.ioh, IMC_CPUCTRL1); reg = (reg & ~IMC_CPUCTRL1_MCHWMSK) | 13; /* * Force endianness on the onboard HPC and both slots. * This should be safe for Fullhouse, but leave it conditional * for now. */ if (mach_type == MACH_SGI_IP20 || (mach_type == MACH_SGI_IP22 && mach_subtype == MACH_SGI_IP22_GUINNESS)) { reg |= IMC_CPUCTRL1_HPCFX; reg |= IMC_CPUCTRL1_EXP0FX; reg |= IMC_CPUCTRL1_EXP1FX; reg &= ~IMC_CPUCTRL1_HPCLITTLE; reg &= ~IMC_CPUCTRL1_EXP0LITTLE; reg &= ~IMC_CPUCTRL1_EXP1LITTLE; } bus_space_write_4(isc.iot, isc.ioh, IMC_CPUCTRL1, reg); /* * Set GIO64 arbitrator configuration register: * * Preserve PROM-set graphics-related bits, as they seem to depend * on the graphics variant present and I'm not sure how to figure * that out or 100% sure what the correct settings are for each. */ reg = bus_space_read_4(isc.iot, isc.ioh, IMC_GIO64ARB); reg &= (IMC_GIO64ARB_GRX64 | IMC_GIO64ARB_GRXRT | IMC_GIO64ARB_GRXMST); /* Rest of settings are machine/board dependent */ if (mach_type == MACH_SGI_IP20) { reg |= IMC_GIO64ARB_ONEGIO; reg |= (IMC_GIO64ARB_EXP0RT | IMC_GIO64ARB_EXP1RT); reg |= (IMC_GIO64ARB_EXP0MST | IMC_GIO64ARB_EXP1MST); reg &= ~(IMC_GIO64ARB_HPC64 | IMC_GIO64ARB_HPCEXP64 | IMC_GIO64ARB_EISA64 | IMC_GIO64ARB_EXP064 | IMC_GIO64ARB_EXP164 | IMC_GIO64ARB_EXP0PIPE | IMC_GIO64ARB_EXP1PIPE); } else { /* * GIO64 invariant for all IP22 platforms: one GIO bus, * HPC1 @ 64 */ reg |= IMC_GIO64ARB_ONEGIO | IMC_GIO64ARB_HPC64; switch (mach_subtype) { case MACH_SGI_IP22_GUINNESS: /* XXX is MST mutually exclusive? */ reg |= (IMC_GIO64ARB_EXP0RT | IMC_GIO64ARB_EXP1RT); reg |= (IMC_GIO64ARB_EXP0MST | IMC_GIO64ARB_EXP1MST); /* EISA can bus-master, is 64-bit */ reg |= (IMC_GIO64ARB_EISAMST | IMC_GIO64ARB_EISA64); break; case MACH_SGI_IP22_FULLHOUSE: /* * All Fullhouse boards have a 64-bit HPC2 and pipelined * EXP0 slot. */ reg |= (IMC_GIO64ARB_HPCEXP64 | IMC_GIO64ARB_EXP0PIPE); if (mach_boardrev < 2) { /* EXP0 realtime, EXP1 can master */ reg |= (IMC_GIO64ARB_EXP0RT | IMC_GIO64ARB_EXP1MST); } else { /* EXP1 pipelined as well, EISA masters */ reg |= (IMC_GIO64ARB_EXP1PIPE | IMC_GIO64ARB_EISAMST); } break; } } bus_space_write_4(isc.iot, isc.ioh, IMC_GIO64ARB, reg); if (isc.eisa_present) { #if notyet memset(&iaa, 0, sizeof(iaa)); config_found_ia(self, "eisabus", (void*)&iaa, eisabusprint); #endif } memset(&iaa, 0, sizeof(iaa)); config_found_ia(self, "giobus", (void*)&iaa, imc_print); imc_watchdog_enable(); } static int imc_print(void *aux, const char *name) { if (name) aprint_normal("gio at %s", name); return UNCONF; } static void imc_bus_reset(void) { bus_space_write_4(isc.iot, isc.ioh, IMC_CPU_ERRSTAT, 0); bus_space_write_4(isc.iot, isc.ioh, IMC_GIO_ERRSTAT, 0); } static void imc_bus_error(vaddr_t pc, uint32_t status, uint32_t ipending) { printf("bus error: cpu_stat %08x addr %08x, gio_stat %08x addr %08x\n", bus_space_read_4(isc.iot, isc.ioh, IMC_CPU_ERRSTAT), bus_space_read_4(isc.iot, isc.ioh, IMC_CPU_ERRADDR), bus_space_read_4(isc.iot, isc.ioh, IMC_GIO_ERRSTAT), bus_space_read_4(isc.iot, isc.ioh, IMC_GIO_ERRADDR) ); imc_bus_reset(); } static void imc_watchdog_reset(void) { bus_space_write_4(isc.iot, isc.ioh, IMC_WDOG, 0); } static void imc_watchdog_disable(void) { uint32_t reg; bus_space_write_4(isc.iot, isc.ioh, IMC_WDOG, 0); reg = bus_space_read_4(isc.iot, isc.ioh, IMC_CPUCTRL0); reg &= ~(IMC_CPUCTRL0_WDOG); bus_space_write_4(isc.iot, isc.ioh, IMC_CPUCTRL0, reg); } static void imc_watchdog_enable(void) { uint32_t reg; /* enable watchdog and clear it */ reg = bus_space_read_4(isc.iot, isc.ioh, IMC_CPUCTRL0); reg |= IMC_CPUCTRL0_WDOG; bus_space_write_4(isc.iot, isc.ioh, IMC_CPUCTRL0, reg); imc_watchdog_reset(); } /* intended to be called from gio/gio.c only */ int imc_gio64_arb_config(int slot, uint32_t flags) { uint32_t reg; /* GIO_SLOT_EXP1 is unusable on Fullhouse */ if (slot == GIO_SLOT_EXP1 && mach_subtype == MACH_SGI_IP22_FULLHOUSE) return EINVAL; /* GIO_SLOT_GFX is only usable on Fullhouse */ if (slot == GIO_SLOT_GFX && mach_subtype != MACH_SGI_IP22_FULLHOUSE) return EINVAL; /* GIO_SLOT_GFX is always pipelined */ if (slot == GIO_SLOT_GFX && (flags & GIO_ARB_NOPIPE)) return EINVAL; /* IP20 does not support pipelining (XXX what about Indy?) */ if (((flags & GIO_ARB_PIPE) || (flags & GIO_ARB_NOPIPE)) && mach_type == MACH_SGI_IP20) return EINVAL; reg = bus_space_read_4(isc.iot, isc.ioh, IMC_GIO64ARB); if (flags & GIO_ARB_RT) { if (slot == GIO_SLOT_EXP0) reg |= IMC_GIO64ARB_EXP0RT; else if (slot == GIO_SLOT_EXP1) reg |= IMC_GIO64ARB_EXP1RT; else if (slot == GIO_SLOT_GFX) reg |= IMC_GIO64ARB_GRXRT; } if (flags & GIO_ARB_MST) { if (slot == GIO_SLOT_EXP0) reg |= IMC_GIO64ARB_EXP0MST; else if (slot == GIO_SLOT_EXP1) reg |= IMC_GIO64ARB_EXP1MST; else if (slot == GIO_SLOT_GFX) reg |= IMC_GIO64ARB_GRXMST; } if (flags & GIO_ARB_PIPE) { if (slot == GIO_SLOT_EXP0) reg |= IMC_GIO64ARB_EXP0PIPE; else if (slot == GIO_SLOT_EXP1) reg |= IMC_GIO64ARB_EXP1PIPE; } if (flags & GIO_ARB_LB) { if (slot == GIO_SLOT_EXP0) reg &= ~IMC_GIO64ARB_EXP0RT; else if (slot == GIO_SLOT_EXP1) reg &= ~IMC_GIO64ARB_EXP1RT; else if (slot == GIO_SLOT_GFX) reg &= ~IMC_GIO64ARB_GRXRT; } if (flags & GIO_ARB_SLV) { if (slot == GIO_SLOT_EXP0) reg &= ~IMC_GIO64ARB_EXP0MST; else if (slot == GIO_SLOT_EXP1) reg &= ~IMC_GIO64ARB_EXP1MST; else if (slot == GIO_SLOT_GFX) reg &= ~IMC_GIO64ARB_GRXMST; } if (flags & GIO_ARB_NOPIPE) { if (slot == GIO_SLOT_EXP0) reg &= ~IMC_GIO64ARB_EXP0PIPE; else if (slot == GIO_SLOT_EXP1) reg &= ~IMC_GIO64ARB_EXP1PIPE; } if (flags & GIO_ARB_32BIT) { if (slot == GIO_SLOT_EXP0) reg &= ~IMC_GIO64ARB_EXP064; else if (slot == GIO_SLOT_EXP1) reg &= ~IMC_GIO64ARB_EXP164; } if (flags & GIO_ARB_64BIT) { if (slot == GIO_SLOT_EXP0) reg |= IMC_GIO64ARB_EXP064; else if (slot == GIO_SLOT_EXP1) reg |= IMC_GIO64ARB_EXP164; } if (flags & GIO_ARB_HPC2_32BIT) reg &= ~IMC_GIO64ARB_HPCEXP64; if (flags & GIO_ARB_HPC2_64BIT) reg |= IMC_GIO64ARB_HPCEXP64; bus_space_write_4(isc.iot, isc.ioh, IMC_GIO64ARB, reg); return 0; } /* * According to chapter 19 of the "IRIX Device Driver Programmer's Guide", * some GIO devices, which do not drive all data lines, may cause false * memory read parity errors on the SysAD bus. The workaround is to disable * parity checking. */ void imc_disable_sysad_parity(void) { uint32_t reg; if (mach_type != MACH_SGI_IP20 && mach_type != MACH_SGI_IP22) return; reg = bus_space_read_4(isc.iot, isc.ioh, IMC_CPUCTRL0); reg |= IMC_CPUCTRL0_NCHKMEMPAR; bus_space_write_4(isc.iot, isc.ioh, IMC_CPUCTRL0, reg); } void imc_enable_sysad_parity(void) { uint32_t reg; if (mach_type != MACH_SGI_IP20 && mach_type != MACH_SGI_IP22) return; reg = bus_space_read_4(isc.iot, isc.ioh, IMC_CPUCTRL0); reg &= ~IMC_CPUCTRL0_NCHKMEMPAR; bus_space_write_4(isc.iot, isc.ioh, IMC_CPUCTRL0, reg); } int imc_is_sysad_parity_enabled(void) { uint32_t reg; if (mach_type != MACH_SGI_IP20 && mach_type != MACH_SGI_IP22) return 0; reg = bus_space_read_4(isc.iot, isc.ioh, IMC_CPUCTRL0); return reg & IMC_CPUCTRL0_NCHKMEMPAR; }