From f4092abdf94af6a99aff944d6264bc1284e8bdd4 Mon Sep 17 00:00:00 2001 From: Reinhard Tartler Date: Mon, 10 Oct 2011 17:43:39 +0200 Subject: Imported nx-X11-3.1.0-1.tar.gz Summary: Imported nx-X11-3.1.0-1.tar.gz Keywords: Imported nx-X11-3.1.0-1.tar.gz into Git repository --- .../Xserver/hw/xfree86/os-support/bus/sparcPci.c | 1052 ++++++++++++++++++++ 1 file changed, 1052 insertions(+) create mode 100644 nx-X11/programs/Xserver/hw/xfree86/os-support/bus/sparcPci.c (limited to 'nx-X11/programs/Xserver/hw/xfree86/os-support/bus/sparcPci.c') diff --git a/nx-X11/programs/Xserver/hw/xfree86/os-support/bus/sparcPci.c b/nx-X11/programs/Xserver/hw/xfree86/os-support/bus/sparcPci.c new file mode 100644 index 000000000..48e10ede4 --- /dev/null +++ b/nx-X11/programs/Xserver/hw/xfree86/os-support/bus/sparcPci.c @@ -0,0 +1,1052 @@ +/* $XFree86: xc/programs/Xserver/hw/xfree86/os-support/bus/sparcPci.c,v 1.14 2003/08/24 17:37:04 dawes Exp $ */ +/* + * Copyright (C) 2001-2003 The XFree86 Project, Inc. All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining a copy + * of this software and associated documentation files (the "Software"), to + * deal in the Software without restriction, including without limitation the + * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or + * sell copies of the Software, and to permit persons to whom the Software is + * furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice shall be included in + * all copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + * XFREE86 PROJECT BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER + * IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN + * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * Except as contained in this notice, the name of the XFree86 Project shall + * not be used in advertising or otherwise to promote the sale, use or other + * dealings in this Software without prior written authorization from the + * XFree86 Project. + */ + +#ifdef HAVE_XORG_CONFIG_H +#include +#endif + +#include "xf86.h" +#include "xf86Priv.h" +#include "xf86_OSlib.h" +#include "Pci.h" +#include "xf86sbusBus.h" + +#if defined(sun) + +extern char *apertureDevName; +static int apertureFd = -1; + +/* + * A version of xf86MapVidMem() that allows for 64-bit displacements (but not + * sizes). Areas thus mapped can be unmapped by xf86UnMapVidMem(). + */ +static pointer +sparcMapAperture(int iScreen, int Flags, + unsigned long long Base, unsigned long Size) +{ + pointer result; + static int lastFlags = 0; + + /* Assume both Base & Size are multiples of the page size */ + + if ((apertureFd < 0) || (Flags != lastFlags)) { + if (apertureFd >= 0) + close(apertureFd); + lastFlags = Flags; + apertureFd = open(apertureDevName, + (Flags & VIDMEM_READONLY) ? O_RDONLY : O_RDWR); + if (apertureFd < 0) + FatalError("sparcMapAperture: open failure: %s\n", + strerror(errno)); + } + + result = mmap(NULL, Size, + (Flags & VIDMEM_READONLY) ? + PROT_READ : (PROT_READ | PROT_WRITE), + MAP_SHARED, apertureFd, (off_t)Base); + + if (result == MAP_FAILED) + FatalError("sparcMapAperture: mmap failure: %s\n", strerror(errno)); + + return result; +} + +/* + * Platform-specific bus privates. + */ +typedef struct _sparcDomainRec { + unsigned long long io_addr, io_size; + unsigned long long mem_addr, mem_size; + pointer pci, io; + int bus_min, bus_max; + unsigned char dfn_mask[256 / 8]; +} sparcDomainRec, *sparcDomainPtr; + +#define SetBitInMap(bit, map) \ + do { \ + int _bit = (bit); \ + (map)[_bit >> 3] |= 1 << (_bit & 7); \ + } while (0) + +#define IsBitSetInMap(bit, map) \ + ((map)[(bit) >> 3] & (1 << ((bit) & 7))) + +/* + * Domain 0 is reserved for the one that represents the system as a whole, i.e. + * the one without any resource relocations. + */ +#define MAX_DOMAINS (MAX_PCI_BUSES / 256) +static sparcDomainPtr xf86DomainInfo[MAX_DOMAINS]; +static int pciNumDomains = 1; + +/* Variables that are assigned this must be declared volatile */ +#define PciReg(base, tag, off, type) \ + *(volatile type *)(pointer)((char *)(base) + \ + (PCI_TAG_NO_DOMAIN(tag) | (off))) + +/* Generic SPARC PCI access functions */ +static CARD32 +sparcPciCfgRead32(PCITAG tag, int off) +{ + pciBusInfo_t *pBusInfo; + sparcDomainPtr pDomain; + volatile CARD32 result = (CARD32)(-1); /* Must be volatile */ + int bus; + + if ((off >= 0) && (off <= 252) && !(off & 3) && + ((bus = PCI_BUS_FROM_TAG(tag)) < pciNumBuses) && + (pBusInfo = pciBusInfo[bus]) && (pDomain = pBusInfo->pciBusPriv) && + (bus >= pDomain->bus_min) && (bus < pDomain->bus_max) && + ((bus > pDomain->bus_min) || + IsBitSetInMap(PCI_DFN_FROM_TAG(tag), pDomain->dfn_mask))) { + result = PciReg(pDomain->pci, tag, off, CARD32); + + result = PCI_CPU(result); + } + + return result; +} + +static void +sparcPciCfgWrite32(PCITAG tag, int off, CARD32 val) +{ + pciBusInfo_t *pBusInfo; + sparcDomainPtr pDomain; + int bus; + + if ((off < 0) || (off > 252) || (off & 3) || + ((bus = PCI_BUS_FROM_TAG(tag)) >= pciNumBuses) || + !(pBusInfo = pciBusInfo[bus]) || !(pDomain = pBusInfo->pciBusPriv) || + (bus < pDomain->bus_min) || (bus >= pDomain->bus_max) || + ((bus == pDomain->bus_min) && + !IsBitSetInMap(PCI_DFN_FROM_TAG(tag), pDomain->dfn_mask))) + return; + + val = PCI_CPU(val); + PciReg(pDomain->pci, tag, off, CARD32) = val; +} + +static void +sparcPciCfgSetBits32(PCITAG tag, int off, CARD32 mask, CARD32 bits) +{ + CARD32 PciVal; + + PciVal = sparcPciCfgRead32(tag, off); + PciVal &= ~mask; + PciVal |= bits; + sparcPciCfgWrite32(tag, off, PciVal); +} + +static pciBusFuncs_t sparcPCIFunctions = +{ + sparcPciCfgRead32, + sparcPciCfgWrite32, + sparcPciCfgSetBits32, + pciAddrNOOP, + pciAddrNOOP +}; + +/* + * Sabre-specific versions of the above because of its peculiar access size + * requirements. + */ +static CARD32 +sabrePciCfgRead32(PCITAG tag, int off) +{ + pciBusInfo_t *pBusInfo; + sparcDomainPtr pDomain; + volatile CARD32 result; /* Must be volatile */ + int bus; + + if (PCI_BDEV_FROM_TAG(tag)) + return sparcPciCfgRead32(tag, off); + + if (PCI_FUNC_FROM_TAG(tag) || (off < 0) || (off > 252) || (off & 3) || + ((bus = PCI_BUS_FROM_TAG(tag)) >= pciNumBuses) || + !(pBusInfo = pciBusInfo[bus]) || !(pDomain = pBusInfo->pciBusPriv) || + (bus != pDomain->bus_min)) + return (CARD32)(-1); + + if (off < 8) { + result = (PciReg(pDomain->pci, tag, off, CARD16) << 16) | + PciReg(pDomain->pci, tag, off + 2, CARD16); + return PCI_CPU(result); + } + + result = (PciReg(pDomain->pci, tag, off + 3, CARD8) << 24) | + (PciReg(pDomain->pci, tag, off + 2, CARD8) << 16) | + (PciReg(pDomain->pci, tag, off + 1, CARD8) << 8) | + (PciReg(pDomain->pci, tag, off , CARD8) ); + return result; +} + +static void +sabrePciCfgWrite32(PCITAG tag, int off, CARD32 val) +{ + pciBusInfo_t *pBusInfo; + sparcDomainPtr pDomain; + int bus; + + if (PCI_BDEV_FROM_TAG(tag)) + sparcPciCfgWrite32(tag, off, val); + else if (!PCI_FUNC_FROM_TAG(tag) && + (off >= 0) && (off <= 252) && !(off & 3) && + ((bus = PCI_BUS_FROM_TAG(tag)) < pciNumBuses) && + (pBusInfo = pciBusInfo[bus]) && + (pDomain = pBusInfo->pciBusPriv) && + (bus == pDomain->bus_min)) { + if (off < 8) { + val = PCI_CPU(val); + PciReg(pDomain->pci, tag, off , CARD16) = val >> 16; + PciReg(pDomain->pci, tag, off + 2, CARD16) = val; + } else { + PciReg(pDomain->pci, tag, off , CARD8) = val; + PciReg(pDomain->pci, tag, off + 1, CARD8) = val >> 8; + PciReg(pDomain->pci, tag, off + 2, CARD8) = val >> 16; + PciReg(pDomain->pci, tag, off + 3, CARD8) = val >> 24; + } + } +} + +static void +sabrePciCfgSetBits32(PCITAG tag, int off, CARD32 mask, CARD32 bits) +{ + CARD32 PciVal; + + PciVal = sabrePciCfgRead32(tag, off); + PciVal &= ~mask; + PciVal |= bits; + sabrePciCfgWrite32(tag, off, PciVal); +} + +static pciBusFuncs_t sabrePCIFunctions = +{ + sabrePciCfgRead32, + sabrePciCfgWrite32, + sabrePciCfgSetBits32, + pciAddrNOOP, + pciAddrNOOP +}; + +static int pagemask; + +/* Scan PROM for all PCI host bridges in the system */ +void +sparcPciInit(void) +{ + int node, node2; + + if (!xf86LinearVidMem()) + return; + + apertureFd = open(apertureDevName, O_RDWR); + if (apertureFd < 0) { + xf86Msg(X_ERROR, + "sparcPciInit: open failure: %s\n", strerror(errno)); + return; + } + + sparcPromInit(); + pagemask = xf86getpagesize() - 1; + + for (node = promGetChild(promRootNode); + node; + node = promGetSibling(node)) { + unsigned long long pci_addr; + sparcDomainRec domain; + sparcDomainPtr pDomain; + pciBusFuncs_p pFunctions; + char *prop_val; + int prop_len, bus; + + prop_val = promGetProperty("name", &prop_len); + /* Some PROMs include the trailing null; some don't */ + if (!prop_val || (prop_len < 3) || (prop_len > 4) || + strcmp(prop_val, "pci")) + continue; + + prop_val = promGetProperty("model", &prop_len); + if (!prop_val || (prop_len <= 0)) { + prop_val = promGetProperty("compatible", &prop_len); + if (!prop_val || (prop_len <= 0)) + continue; + } + + pFunctions = &sparcPCIFunctions; + (void)memset(&domain, 0, sizeof(domain)); + + if (!strncmp("SUNW,sabre", prop_val, prop_len) || + !strncmp("pci108e,a000", prop_val, prop_len) || + !strncmp("pci108e,a001", prop_val, prop_len)) { + /* + * There can only be one "Sabre" bridge in a system. It provides + * PCI configuration space, a 24-bit I/O space and a 32-bit memory + * space, all three of which are at fixed physical CPU addresses. + */ + static Bool sabre_seen = FALSE; + + xf86Msg(X_INFO, + "Sabre or Hummingbird PCI host bridge found (\"%s\")\n", + prop_val); + + /* There can only be one Sabre */ + if (sabre_seen) + continue; + sabre_seen = TRUE; + + /* Get "bus-range" property */ + prop_val = promGetProperty("bus-range", &prop_len); + if (!prop_val || (prop_len != 8) || + (((unsigned int *)prop_val)[0]) || + (((unsigned int *)prop_val)[1] >= 256)) + continue; + + pci_addr = 0x01fe01000000ull; + domain.io_addr = 0x01fe02000000ull; + domain.io_size = 0x000001000000ull; + domain.mem_addr = 0x01ff00000000ull; + domain.mem_size = 0x000100000000ull; + domain.bus_min = 0; /* Always */ + domain.bus_max = ((int *)prop_val)[1]; + + pFunctions = &sabrePCIFunctions; + } else + if (!strncmp("SUNW,psycho", prop_val, prop_len) || + !strncmp("pci108e,8000", prop_val, prop_len)) { + /* + * A "Psycho" host bridge provides two PCI interfaces, each with + * its own 16-bit I/O and 31-bit memory spaces. Both share the + * same PCI configuration space. Here, they are assigned separate + * domain numbers to prevent unintentional I/O and/or memory + * resource conflicts. + */ + xf86Msg(X_INFO, + "Psycho PCI host bridge found (\"%s\")\n", prop_val); + + /* Get "bus-range" property */ + prop_val = promGetProperty("bus-range", &prop_len); + if (!prop_val || (prop_len != 8) || + (((unsigned int *)prop_val)[1] >= 256) || + (((unsigned int *)prop_val)[0] > ((unsigned int *)prop_val)[1])) + continue; + + domain.bus_min = ((int *)prop_val)[0]; + domain.bus_max = ((int *)prop_val)[1]; + + /* Get "ranges" property */ + prop_val = promGetProperty("ranges", &prop_len); + if (!prop_val || (prop_len != 112) || + prop_val[0] || (prop_val[28] != 0x01u) || + (prop_val[56] != 0x02u) || (prop_val[84] != 0x03u) || + (((unsigned int *)prop_val)[4] != 0x01000000u) || + ((unsigned int *)prop_val)[5] || + ((unsigned int *)prop_val)[12] || + (((unsigned int *)prop_val)[13] != 0x00010000u) || + ((unsigned int *)prop_val)[19] || + (((unsigned int *)prop_val)[20] != 0x80000000u) || + ((((unsigned int *)prop_val)[11] & ~0x00010000u) != + 0x02000000u) || + (((unsigned int *)prop_val)[18] & ~0x80000000u) || + (((unsigned int *)prop_val)[3] != + ((unsigned int *)prop_val)[10]) || + (((unsigned int *)prop_val)[17] != + ((unsigned int *)prop_val)[24]) || + (((unsigned int *)prop_val)[18] != + ((unsigned int *)prop_val)[25]) || + (((unsigned int *)prop_val)[19] != + ((unsigned int *)prop_val)[26]) || + (((unsigned int *)prop_val)[20] != + ((unsigned int *)prop_val)[27])) + continue; + + /* Use memcpy() to avoid alignment issues */ + (void)memcpy(&pci_addr, prop_val + 12, + sizeof(pci_addr)); + (void)memcpy(&domain.io_addr, prop_val + 40, + sizeof(domain.io_addr)); + (void)memcpy(&domain.mem_addr, prop_val + 68, + sizeof(domain.mem_addr)); + + domain.io_size = 0x000000010000ull; + domain.mem_size = 0x000080000000ull; + } else + if (!strncmp("SUNW,schizo", prop_val, prop_len) || + !strncmp("pci108e,8001", prop_val, prop_len)) { + /* + * I have no docs on the "Schizo", but judging from the Linux + * kernel, it also provides two PCI domains. Each PCI + * configuration space is the usual 16M in size, followed by a + * variable-length I/O space. Each domain also provides a + * variable-length memory space. The kernel seems to think the I/O + * spaces are 16M long, and the memory spaces, 2G, but these + * assumptions are actually only present in source code comments. + * Sun has, however, confirmed to me the validity of these + * assumptions. + */ + volatile unsigned long long mem_match, mem_mask, io_match, io_mask; + unsigned long Offset; + pointer pSchizo; + + xf86Msg(X_INFO, + "Schizo PCI host bridge found (\"%s\")\n", prop_val); + + /* Get "bus-range" property */ + prop_val = promGetProperty("bus-range", &prop_len); + if (!prop_val || (prop_len != 8) || + (((unsigned int *)prop_val)[1] >= 256) || + (((unsigned int *)prop_val)[0] > ((unsigned int *)prop_val)[1])) + continue; + + domain.bus_min = ((int *)prop_val)[0]; + domain.bus_max = ((int *)prop_val)[1]; + + /* Get "reg" property */ + prop_val = promGetProperty("reg", &prop_len); + if (!prop_val || (prop_len != 48)) + continue; + + /* Temporarily map some of Schizo's registers */ + pSchizo = sparcMapAperture(-1, VIDMEM_MMIO, + ((unsigned long long *)prop_val)[2] - 0x000000010000ull, + 0x00010000ul); + + /* Determine where PCI config, I/O and memory spaces reside */ + if ((((unsigned long long *)prop_val)[0] & 0x000000700000ull) == + 0x000000600000ull) + Offset = 0x0040; + else + Offset = 0x0060; + + mem_match = PciReg(pSchizo, 0, Offset, unsigned long long); + mem_mask = PciReg(pSchizo, 0, Offset + 8, unsigned long long); + io_match = PciReg(pSchizo, 0, Offset + 16, unsigned long long); + io_mask = PciReg(pSchizo, 0, Offset + 24, unsigned long long); + + /* Unmap Schizo registers */ + xf86UnMapVidMem(-1, pSchizo, 0x00010000ul); + + /* Calculate sizes */ + mem_mask = (((mem_mask - 1) ^ mem_mask) >> 1) + 1; + io_mask = (((io_mask - 1) ^ io_mask ) >> 1) + 1; + + if (io_mask <= 0x000001000000ull) /* Nothing left for I/O */ + continue; + + domain.mem_addr = mem_match & ~0x8000000000000000ull; + domain.mem_size = mem_mask; + pci_addr = io_match & ~0x8000000000000000ull; + domain.io_addr = pci_addr + 0x0000000001000000ull; + domain.io_size = io_mask - 0x0000000001000000ull; + } else { + xf86Msg(X_WARNING, "Unknown PCI host bridge: \"%s\"\n", prop_val); + continue; + } + + /* Only map as much PCI configuration as we need */ + domain.pci = (char *)sparcMapAperture(-1, VIDMEM_MMIO, + pci_addr + PCI_MAKE_TAG(domain.bus_min, 0, 0), + PCI_MAKE_TAG(domain.bus_max - domain.bus_min + 1, 0, 0)) - + PCI_MAKE_TAG(domain.bus_min, 0, 0); + + /* Allocate a domain record */ + pDomain = xnfalloc(sizeof(sparcDomainRec)); + *pDomain = domain; + + /* + * Allocate and prime pciBusInfo records. These are allocated one at a + * time because those for empty buses are eventually released. + */ + bus = pDomain->bus_min = + PCI_MAKE_BUS(pciNumDomains, domain.bus_min); + pciNumBuses = pDomain->bus_max = + PCI_MAKE_BUS(pciNumDomains, domain.bus_max) + 1; + + pciBusInfo[bus] = xnfcalloc(1, sizeof(pciBusInfo_t)); + pciBusInfo[bus]->configMech = PCI_CFG_MECH_OTHER; + pciBusInfo[bus]->numDevices = 32; + pciBusInfo[bus]->funcs = pFunctions; + pciBusInfo[bus]->pciBusPriv = pDomain; + while (++bus < pciNumBuses) { + pciBusInfo[bus] = xnfalloc(sizeof(pciBusInfo_t)); + *(pciBusInfo[bus]) = *(pciBusInfo[bus - 1]); + pciBusInfo[bus]->funcs = &sparcPCIFunctions; + } + + /* Next domain, please... */ + xf86DomainInfo[pciNumDomains++] = pDomain; + + /* + * OK, enough of the straight-forward stuff. Time to deal with some + * brokenness... + * + * The PCI specs require that when a bus transaction remains unclaimed + * for too long, the master entity on that bus is to cancel the + * transaction it issued or passed on with a master abort. Two + * outcomes are possible: + * + * - the master abort can be treated as an error that is propogated + * back through the bus tree to the entity that ultimately originated + * the transaction; or + * - the transaction can be allowed to complete normally, which means + * that writes are ignored and reads return all ones. + * + * In the first case, if the CPU happens to be at the tail end of the + * tree path through one of its host bridges, it will be told there is + * a hardware mal-function, despite being generated by software. + * + * For a software function (be it firmware, OS or userland application) + * to determine how a PCI bus tree is populated, it must be able to + * detect when master aborts occur. Obviously, PCI discovery is much + * simpler when master aborts are allowed to complete normally. + * + * Unfortunately, a number of non-Intel PCI implementations have chosen + * to treat master aborts as severe errors. The net effect is to + * cripple PCI discovery algorithms in userland. + * + * On SPARCs, master aborts cause a number of different behaviours, + * including delivering a signal to the userland application, rebooting + * the system, "dropping down" to firmware, or, worst of all, bus + * lockouts. Even in the first case, the SIGBUS signal that is + * eventually generated isn't delivered in a timely enough fashion to + * allow an application to reliably detect the master abort that + * ultimately caused it. + * + * This can be somewhat mitigated. On all architectures, master aborts + * that occur on secondary buses can be forced to complete normally + * because the PCI-to-PCI bridges that serve them are governed by an + * industry-wide specification. (This is just another way of saying + * that whatever justification there might be for erroring out master + * aborts is deemed by the industry as insufficient to generate more + * PCI non-compliance than there already is...) + * + * This leaves us with master aborts that occur on primary buses. + * There is no specification for host-to-PCI bridges. Bridges used in + * SPARCs can be told to ignore all PCI errors, but not specifically + * master aborts. Not only is this too coarse-grained, but + * master-aborted read transactions on the primary bus end up returning + * garbage rather than all ones. + * + * I have elected to work around this the only way I can think of doing + * so right now. The following scans an additional PROM level and + * builds a device/function map for the primary bus. I can only hope + * this PROM information represents all devices on the primary bus, + * rather than only a subset of them. + * + * Master aborts are useful in other ways too, that are not addressed + * here. These include determining whether or not a domain provides + * VGA, or if a PCI device actually implements PCI disablement. + * + * --- TSI @ UQV 2001.09.19 + */ + for (node2 = promGetChild(node); + node2; + node2 = promGetSibling(node2)) { + /* Get "reg" property */ + prop_val = promGetProperty("reg", &prop_len); + if (!prop_val || (prop_len % 20)) + continue; + + /* + * It's unnecessary to scan the entire "reg" property, but I'll do + * so anyway. + */ + prop_len /= 20; + for (; prop_len--; prop_val += 20) + SetBitInMap(PCI_DFN_FROM_TAG(*(PCITAG *)prop_val), + pDomain->dfn_mask); + } + + /* Assume the host bridge is device 0, function 0 on its bus */ + SetBitInMap(0, pDomain->dfn_mask); + } + + sparcPromClose(); + + close(apertureFd); + apertureFd = -1; +} + +#ifndef INCLUDE_XF86_NO_DOMAIN + +int +xf86GetPciDomain(PCITAG Tag) +{ + return PCI_DOM_FROM_TAG(Tag); +} + +pointer +xf86MapDomainMemory(int ScreenNum, int Flags, PCITAG Tag, + ADDRESS Base, unsigned long Size) +{ + sparcDomainPtr pDomain; + pointer result; + int domain = PCI_DOM_FROM_TAG(Tag); + + if ((domain <= 0) || (domain >= pciNumDomains) || + !(pDomain = xf86DomainInfo[domain]) || + (((unsigned long long)Base + (unsigned long long)Size) > + pDomain->mem_size)) + FatalError("xf86MapDomainMemory() called with invalid parameters.\n"); + + result = sparcMapAperture(ScreenNum, Flags, pDomain->mem_addr + Base, Size); + + if (apertureFd >= 0) { + close(apertureFd); + apertureFd = -1; + } + + return result; +} + +IOADDRESS +xf86MapDomainIO(int ScreenNum, int Flags, PCITAG Tag, + IOADDRESS Base, unsigned long Size) +{ + sparcDomainPtr pDomain; + int domain = PCI_DOM_FROM_TAG(Tag); + + if ((domain <= 0) || (domain >= pciNumDomains) || + !(pDomain = xf86DomainInfo[domain]) || + (((unsigned long long)Base + (unsigned long long)Size) > + pDomain->io_size)) + FatalError("xf86MapDomainIO() called with invalid parameters.\n"); + + /* Permanently map all of I/O space */ + if (!pDomain->io) { + pDomain->io = sparcMapAperture(ScreenNum, Flags, + pDomain->io_addr, pDomain->io_size); + + if (apertureFd >= 0) { + close(apertureFd); + apertureFd = -1; + } + } + + return (IOADDRESS)pDomain->io + Base; +} + +int +xf86ReadDomainMemory(PCITAG Tag, ADDRESS Base, int Len, unsigned char *Buf) +{ + unsigned char *ptr, *src; + ADDRESS offset; + unsigned long size; + int len; + + /* Ensure page boundaries */ + offset = Base & ~pagemask; + size = ((Base + Len + pagemask) & ~pagemask) - offset; + + ptr = xf86MapDomainMemory(-1, VIDMEM_READONLY, Tag, offset, size); + + /* Using memcpy() here hangs the system */ + src = ptr + (Base - offset); + for (len = Len; len-- > 0;) + *Buf++ = *src++; + + xf86UnMapVidMem(-1, ptr, size); + + return Len; +} + +resPtr +xf86BusAccWindowsFromOS(void) +{ + sparcDomainPtr pDomain; + resPtr pRes = NULL; + resRange range; + int domain; + + for (domain = 1; domain < pciNumDomains; domain++) { + if (!(pDomain = xf86DomainInfo[domain])) + continue; + + RANGE(range, 0, pDomain->mem_size - 1, + RANGE_TYPE(ResExcMemBlock, domain)); + pRes = xf86AddResToList(pRes, &range, -1); + + RANGE(range, 0, pDomain->io_size - 1, + RANGE_TYPE(ResExcIoBlock, domain)); + pRes = xf86AddResToList(pRes, &range, -1); + } + + return pRes; +} + +resPtr +xf86PciBusAccWindowsFromOS(void) +{ + sparcDomainPtr pDomain; + resPtr pRes = NULL; + resRange range; + int domain; + + for (domain = 1; domain < pciNumDomains; domain++) { + if (!(pDomain = xf86DomainInfo[domain])) + continue; + + RANGE(range, 0, pDomain->mem_size - 1, + RANGE_TYPE(ResExcMemBlock, domain)); + pRes = xf86AddResToList(pRes, &range, -1); + + RANGE(range, 0, pDomain->io_size - 1, + RANGE_TYPE(ResExcIoBlock, domain)); + pRes = xf86AddResToList(pRes, &range, -1); + } + + return pRes; +} + +resPtr +xf86AccResFromOS(resPtr pRes) +{ + sparcDomainPtr pDomain; + resRange range; + int domain; + + for (domain = 1; domain < pciNumDomains; domain++) { + if (!(pDomain = xf86DomainInfo[domain])) + continue; + + /* + * At minimum, the top and bottom resources must be claimed, so that + * resources that are (or appear to be) unallocated can be relocated. + */ + RANGE(range, 0x00000000u, 0x0009ffffu, + RANGE_TYPE(ResExcMemBlock, domain)); + pRes = xf86AddResToList(pRes, &range, -1); + RANGE(range, 0x000c0000u, 0x000effffu, + RANGE_TYPE(ResExcMemBlock, domain)); + pRes = xf86AddResToList(pRes, &range, -1); + RANGE(range, 0x000f0000u, 0x000fffffu, + RANGE_TYPE(ResExcMemBlock, domain)); + pRes = xf86AddResToList(pRes, &range, -1); + + RANGE(range, pDomain->mem_size - 1, pDomain->mem_size - 1, + RANGE_TYPE(ResExcMemBlock, domain)); + pRes = xf86AddResToList(pRes, &range, -1); + + RANGE(range, 0x00000000u, 0x00000000u, + RANGE_TYPE(ResExcIoBlock, domain)); + pRes = xf86AddResToList(pRes, &range, -1); + RANGE(range, pDomain->io_size - 1, pDomain->io_size - 1, + RANGE_TYPE(ResExcIoBlock, domain)); + pRes = xf86AddResToList(pRes, &range, -1); + } + + return pRes; +} + +#endif /* !INCLUDE_XF86_NO_DOMAIN */ + +#endif /* defined(sun) */ + +#if defined(ARCH_PCI_PCI_BRIDGE) + +/* Definitions specific to Sun's APB P2P bridge (a.k.a. Simba) */ +#define APB_IO_ADDRESS_MAP 0xDE +#define APB_MEM_ADDRESS_MAP 0xDF + +/* + * Simba's can only occur on bus 0. Furthermore, Simba's must have a non-zero + * device/function number because the Sabre interface they must connect to + * occupies the 0:0:0 slot. Also, there can be only one Sabre interface in the + * system, and therefore, only one Simba function can route any particular + * resource. Thus, it is appropriate to use a single set of static variables + * to hold the tag of the Simba function routing a VGA resource range at any + * one time, and to test these variables for non-zero to determine whether or + * not the Sabre would master-abort a VGA access (and kill the system). + * + * The trick is to determine when it is safe to re-route VGA, because doing so + * re-routes much more. + */ +static PCITAG simbavgaIOTag = 0, simbavgaMemTag = 0; +static Bool simbavgaRoutingAllow = TRUE; + +/* + * Scan the bus subtree rooted at 'bus' for a non-display device that might be + * decoding the bottom 2 MB of I/O space and/or the bottom 512 MB of memory + * space. Reset simbavgaRoutingAllow if such a device is found. + * + * XXX For now, this is very conservative and should be made less so as the + * need arises. + */ +static void +simbaCheckBus(CARD16 pcicommand, int bus) +{ + pciConfigPtr pPCI, *ppPCI = xf86scanpci(0); + + while ((pPCI = *ppPCI++)) { + if (pPCI->busnum < bus) + continue; + if (pPCI->busnum > bus) + break; + + /* XXX Assume all devices respect PCI disablement */ + if (!(pcicommand & pPCI->pci_command)) + continue; + + /* XXX This doesn't deal with mis-advertised classes */ + switch (pPCI->pci_base_class) { + case PCI_CLASS_PREHISTORIC: + if (pPCI->pci_sub_class == PCI_SUBCLASS_PREHISTORIC_VGA) + continue; /* Ignore VGA */ + break; + + case PCI_CLASS_DISPLAY: + continue; + + case PCI_CLASS_BRIDGE: + switch (pPCI->pci_sub_class) { + case PCI_SUBCLASS_BRIDGE_PCI: + case PCI_SUBCLASS_BRIDGE_CARDBUS: + /* Scan secondary bus */ + /* XXX First check bridge routing? */ + simbaCheckBus(pcicommand & pPCI->pci_command, + PCI_SECONDARY_BUS_EXTRACT(pPCI->pci_pp_bus_register, + pPCI->tag)); + if (!simbavgaRoutingAllow) + return; + + default: + break; + } + + default: + break; + } + + /* + * XXX We could check the device's bases here, but PCI doesn't limit + * the device's decoding to them. + */ + + simbavgaRoutingAllow = FALSE; + break; + } +} + +static pciConfigPtr +simbaVerifyBus(int bus) +{ + pciConfigPtr pPCI; + if ((bus < 0) || (bus >= pciNumBuses) || + !pciBusInfo[bus] || !(pPCI = pciBusInfo[bus]->bridge) || + (pPCI->pci_device_vendor != DEVID(VENDOR_SUN, CHIP_SIMBA))) + return NULL; + + return pPCI; +} + +static CARD16 +simbaControlBridge(int bus, CARD16 mask, CARD16 value) +{ + pciConfigPtr pPCI; + CARD16 current = 0, tmp; + CARD8 iomap, memmap; + + if ((pPCI = simbaVerifyBus(bus))) { + /* + * The Simba does not implement VGA enablement as described in the P2P + * spec. It does however route I/O and memory in large enough chunks + * so that we can determine were VGA resources would be routed + * (including ISA VGA I/O aliases). We can allow changes to that + * routing only under certain circumstances. + */ + iomap = pciReadByte(pPCI->tag, APB_IO_ADDRESS_MAP); + memmap = pciReadByte(pPCI->tag, APB_MEM_ADDRESS_MAP); + if (iomap & memmap & 0x01) { + current |= PCI_PCI_BRIDGE_VGA_EN; + if ((mask & PCI_PCI_BRIDGE_VGA_EN) && + !(value & PCI_PCI_BRIDGE_VGA_EN)) { + if (!simbavgaRoutingAllow) { + xf86MsgVerb(X_WARNING, 3, "Attempt to disable VGA routing" + " through Simba at %x:%x:%x disallowed.\n", + pPCI->busnum, pPCI->devnum, pPCI->funcnum); + value |= PCI_PCI_BRIDGE_VGA_EN; + } else { + pciWriteByte(pPCI->tag, APB_IO_ADDRESS_MAP, + iomap & ~0x01); + pciWriteByte(pPCI->tag, APB_MEM_ADDRESS_MAP, + memmap & ~0x01); + simbavgaIOTag = simbavgaMemTag = 0; + } + } + } else { + if (mask & value & PCI_PCI_BRIDGE_VGA_EN) { + if (!simbavgaRoutingAllow) { + xf86MsgVerb(X_WARNING, 3, "Attempt to enable VGA routing" + " through Simba at %x:%x:%x disallowed.\n", + pPCI->busnum, pPCI->devnum, pPCI->funcnum); + value &= ~PCI_PCI_BRIDGE_VGA_EN; + } else { + if (pPCI->tag != simbavgaIOTag) { + if (simbavgaIOTag) { + tmp = pciReadByte(simbavgaIOTag, + APB_IO_ADDRESS_MAP); + pciWriteByte(simbavgaIOTag, APB_IO_ADDRESS_MAP, + tmp & ~0x01); + } + + pciWriteByte(pPCI->tag, APB_IO_ADDRESS_MAP, + iomap | 0x01); + simbavgaIOTag = pPCI->tag; + } + + if (pPCI->tag != simbavgaMemTag) { + if (simbavgaMemTag) { + tmp = pciReadByte(simbavgaMemTag, + APB_MEM_ADDRESS_MAP); + pciWriteByte(simbavgaMemTag, APB_MEM_ADDRESS_MAP, + tmp & ~0x01); + } + + pciWriteByte(pPCI->tag, APB_MEM_ADDRESS_MAP, + memmap | 0x01); + simbavgaMemTag = pPCI->tag; + } + } + } + } + + /* Move on to master abort failure enablement (as per P2P spec) */ + tmp = pciReadWord(pPCI->tag, PCI_PCI_BRIDGE_CONTROL_REG); + current |= tmp; + if (tmp & PCI_PCI_BRIDGE_MASTER_ABORT_EN) { + if ((mask & PCI_PCI_BRIDGE_MASTER_ABORT_EN) && + !(value & PCI_PCI_BRIDGE_MASTER_ABORT_EN)) + pciWriteWord(pPCI->tag, PCI_PCI_BRIDGE_CONTROL_REG, + tmp & ~PCI_PCI_BRIDGE_MASTER_ABORT_EN); + } else { + if (mask & value & PCI_PCI_BRIDGE_MASTER_ABORT_EN) + pciWriteWord(pPCI->tag, PCI_PCI_BRIDGE_CONTROL_REG, + tmp | PCI_PCI_BRIDGE_MASTER_ABORT_EN); + } + + /* Insert emulation of other P2P controls here */ + } + + return (current & ~mask) | (value & mask); +} + +static void +simbaGetBridgeResources(int bus, + pointer *ppIoRes, + pointer *ppMemRes, + pointer *ppPmemRes) +{ + pciConfigPtr pPCI = simbaVerifyBus(bus); + resRange range; + int i; + + if (!pPCI) + return; + + if (ppIoRes) { + xf86FreeResList(*ppIoRes); + *ppIoRes = NULL; + + if (pPCI->pci_command & PCI_CMD_IO_ENABLE) { + unsigned char iomap = pciReadByte(pPCI->tag, APB_IO_ADDRESS_MAP); + if (simbavgaRoutingAllow) + iomap |= 0x01; + for (i = 0; i < 8; i++) { + if (iomap & (1 << i)) { + RANGE(range, i << 21, ((i + 1) << 21) - 1, + RANGE_TYPE(ResExcIoBlock, + xf86GetPciDomain(pPCI->tag))); + *ppIoRes = xf86AddResToList(*ppIoRes, &range, -1); + } + } + } + } + + if (ppMemRes) { + xf86FreeResList(*ppMemRes); + *ppMemRes = NULL; + + if (pPCI->pci_command & PCI_CMD_MEM_ENABLE) { + unsigned char memmap = pciReadByte(pPCI->tag, APB_MEM_ADDRESS_MAP); + if (simbavgaRoutingAllow) + memmap |= 0x01; + for (i = 0; i < 8; i++) { + if (memmap & (1 << i)) { + RANGE(range, i << 29, ((i + 1) << 29) - 1, + RANGE_TYPE(ResExcMemBlock, + xf86GetPciDomain(pPCI->tag))); + *ppMemRes = xf86AddResToList(*ppMemRes, &range, -1); + } + } + } + } + + if (ppPmemRes) { + xf86FreeResList(*ppPmemRes); + *ppPmemRes = NULL; + } +} + +void ARCH_PCI_PCI_BRIDGE(pciConfigPtr pPCI) +{ + static pciBusFuncs_t simbaBusFuncs; + pciBusInfo_t *pBusInfo; + CARD16 pcicommand; + + if (pPCI->pci_device_vendor != DEVID(VENDOR_SUN, CHIP_SIMBA)) + return; + + pBusInfo = pPCI->businfo; + + simbaBusFuncs = *(pBusInfo->funcs); + simbaBusFuncs.pciControlBridge = simbaControlBridge; + simbaBusFuncs.pciGetBridgeResources = simbaGetBridgeResources; + + pBusInfo->funcs = &simbaBusFuncs; + + if (!simbavgaRoutingAllow) + return; + + pcicommand = 0; + + if (pciReadByte(pPCI->tag, APB_IO_ADDRESS_MAP) & 0x01) { + pcicommand |= PCI_CMD_IO_ENABLE; + simbavgaIOTag = pPCI->tag; + } + + if (pciReadByte(pPCI->tag, APB_MEM_ADDRESS_MAP) & 0x01) { + pcicommand |= PCI_CMD_MEM_ENABLE; + simbavgaMemTag = pPCI->tag; + } + + if (!pcicommand) + return; + + simbaCheckBus(pcicommand, + PCI_SECONDARY_BUS_EXTRACT(pPCI->pci_pp_bus_register, pPCI->tag)); +} + +#endif /* defined(ARCH_PCI_PCI_BRIDGE) */ -- cgit v1.2.3