/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * PCI configuration space access routines */ #include #include #include #include #include #include #include #include #if defined(__xpv) #include #endif #if defined(__xpv) int pci_max_nbus = 0xFE; #endif int pci_bios_cfg_type = PCI_MECHANISM_UNKNOWN; int pci_bios_maxbus; int pci_bios_mech; int pci_bios_vers; /* * These two variables can be used to force a configuration mechanism or * to force which function is used to probe for the presence of the PCI bus. */ int PCI_CFG_TYPE = 0; int PCI_PROBE_TYPE = 0; /* * No valid mcfg_mem_base by default, and accessing pci config space * in mem-mapped way is disabled. */ uint64_t mcfg_mem_base = 0; uint8_t mcfg_bus_start = 0; uint8_t mcfg_bus_end = 0xff; /* * These function pointers lead to the actual implementation routines * for configuration space access. Normally they lead to either the * pci_mech1_* or pci_mech2_* routines, but they can also lead to * routines that work around chipset bugs. * These functions are accessing pci config space via I/O way. * Pci_cfgacc_get/put functions shoul be used as more common interfaces, * which also provide accessing pci config space via mem-mapped way. */ uint8_t (*pci_getb_func)(int bus, int dev, int func, int reg); uint16_t (*pci_getw_func)(int bus, int dev, int func, int reg); uint32_t (*pci_getl_func)(int bus, int dev, int func, int reg); void (*pci_putb_func)(int bus, int dev, int func, int reg, uint8_t val); void (*pci_putw_func)(int bus, int dev, int func, int reg, uint16_t val); void (*pci_putl_func)(int bus, int dev, int func, int reg, uint32_t val); extern void (*pci_cfgacc_acc_p)(pci_cfgacc_req_t *req); /* * Internal routines */ static int pci_check(void); #if !defined(__xpv) static int pci_check_bios(void); static int pci_get_cfg_type(void); #endif /* all config-space access routines share this one... */ kmutex_t pcicfg_mutex; /* ..except Orion and Neptune, which have to have their own */ kmutex_t pcicfg_chipset_mutex; void pci_cfgspace_init(void) { mutex_init(&pcicfg_mutex, NULL, MUTEX_SPIN, (ddi_iblock_cookie_t)ipltospl(15)); mutex_init(&pcicfg_chipset_mutex, NULL, MUTEX_SPIN, (ddi_iblock_cookie_t)ipltospl(15)); if (!pci_check()) { mutex_destroy(&pcicfg_mutex); mutex_destroy(&pcicfg_chipset_mutex); } } /* * This code determines if this system supports PCI/PCIE and which * type of configuration access method is used */ static int pci_check(void) { uint64_t ecfginfo[4]; /* * Only do this once. NB: If this is not a PCI system, and we * get called twice, we can't detect it and will probably die * horribly when we try to ask the BIOS whether PCI is present. * This code is safe *ONLY* during system startup when the * BIOS is still available. */ if (pci_bios_cfg_type != PCI_MECHANISM_UNKNOWN) return (TRUE); #if defined(__xpv) /* * only support PCI config mechanism 1 in i86xpv. This should be fine * since the other ones are workarounds for old broken H/W which won't * be supported in i86xpv anyway. */ if (DOMAIN_IS_INITDOMAIN(xen_info)) { pci_bios_cfg_type = PCI_MECHANISM_1; pci_getb_func = pci_mech1_getb; pci_getw_func = pci_mech1_getw; pci_getl_func = pci_mech1_getl; pci_putb_func = pci_mech1_putb; pci_putw_func = pci_mech1_putw; pci_putl_func = pci_mech1_putl; /* * Since we can't get the BIOS info in i86xpv, we will do an * exhaustive search of all PCI buses. We have to do this until * we start using the PCI information in ACPI. */ pci_bios_maxbus = pci_max_nbus; } #else /* !__xpv */ pci_bios_cfg_type = pci_check_bios(); if (pci_bios_cfg_type == PCI_MECHANISM_NONE) pci_bios_cfg_type = PCI_MECHANISM_1; /* default to mech 1 */ switch (pci_get_cfg_type()) { case PCI_MECHANISM_1: if (pci_is_broken_orion()) { pci_getb_func = pci_orion_getb; pci_getw_func = pci_orion_getw; pci_getl_func = pci_orion_getl; pci_putb_func = pci_orion_putb; pci_putw_func = pci_orion_putw; pci_putl_func = pci_orion_putl; } else { pci_getb_func = pci_mech1_getb; pci_getw_func = pci_mech1_getw; pci_getl_func = pci_mech1_getl; pci_putb_func = pci_mech1_putb; pci_putw_func = pci_mech1_putw; pci_putl_func = pci_mech1_putl; } break; case PCI_MECHANISM_2: if (pci_check_neptune()) { /* * The BIOS for some systems with the Intel * Neptune chipset seem to default to #2 even * though the chipset can do #1. Override * the BIOS so that MP systems will work * correctly. */ pci_getb_func = pci_neptune_getb; pci_getw_func = pci_neptune_getw; pci_getl_func = pci_neptune_getl; pci_putb_func = pci_neptune_putb; pci_putw_func = pci_neptune_putw; pci_putl_func = pci_neptune_putl; } else { pci_getb_func = pci_mech2_getb; pci_getw_func = pci_mech2_getw; pci_getl_func = pci_mech2_getl; pci_putb_func = pci_mech2_putb; pci_putw_func = pci_mech2_putw; pci_putl_func = pci_mech2_putl; } break; default: return (FALSE); } #endif /* __xpv */ /* * Try to get a valid mcfg_mem_base in early boot * If failed, leave mem-mapped pci config space accessing disabled * until pci boot code (pci_autoconfig) makes sure this is a PCIE * platform. */ if (do_bsys_getprop(NULL, MCFG_PROPNAME, ecfginfo) != -1) { mcfg_mem_base = ecfginfo[0]; mcfg_bus_start = ecfginfo[2]; mcfg_bus_end = ecfginfo[3]; } /* See pci_cfgacc.c */ pci_cfgacc_acc_p = pci_cfgacc_acc; return (TRUE); } #if !defined(__xpv) static int pci_check_bios(void) { struct bop_regs regs; uint32_t carryflag; uint16_t ax, dx; bzero(®s, sizeof (regs)); regs.eax.word.ax = (PCI_FUNCTION_ID << 8) | PCI_BIOS_PRESENT; BOP_DOINT(bootops, 0x1a, ®s); carryflag = regs.eflags & PS_C; ax = regs.eax.word.ax; dx = regs.edx.word.dx; /* the carry flag must not be set */ if (carryflag != 0) return (PCI_MECHANISM_NONE); if (dx != ('P' | 'C'<<8)) return (PCI_MECHANISM_NONE); /* ah (the high byte of ax) must be zero */ if ((ax & 0xff00) != 0) return (PCI_MECHANISM_NONE); pci_bios_mech = (ax & 0x3); pci_bios_vers = regs.ebx.word.bx; pci_bios_maxbus = (regs.ecx.word.cx & 0xff); switch (pci_bios_mech) { default: /* ?!? */ case 0: /* supports neither? */ return (PCI_MECHANISM_NONE); case 1: case 3: /* supports both */ return (PCI_MECHANISM_1); case 2: return (PCI_MECHANISM_2); } } static int pci_get_cfg_type(void) { /* Check to see if the config mechanism has been set in /etc/system */ switch (PCI_CFG_TYPE) { default: case 0: break; case 1: return (PCI_MECHANISM_1); case 2: return (PCI_MECHANISM_2); case -1: return (PCI_MECHANISM_NONE); } /* call one of the PCI detection algorithms */ switch (PCI_PROBE_TYPE) { default: case 0: /* From pci_check() and pci_check_bios() */ return (pci_bios_cfg_type); case -1: return (PCI_MECHANISM_NONE); } } #endif /* __xpv */