// MPTable generation (on emulators) // // Copyright (C) 2008-2010 Kevin O'Connor // Copyright (C) 2006 Fabrice Bellard // // This file may be distributed under the terms of the GNU LGPLv3 license. #include "util.h" // dprintf #include "config.h" // CONFIG_* #include "mptable.h" // MPTABLE_SIGNATURE #include "paravirt.h" // qemu_cfg_irq0_override #include "pci.h" #include "pci_regs.h" void mptable_init(void) { if (! CONFIG_MPTABLE) return; dprintf(3, "init MPTable\n"); // Config structure in temp area. struct mptable_config_s *config = malloc_tmp(32*1024); if (!config) { warn_noalloc(); return; } memset(config, 0, sizeof(*config)); config->signature = MPCONFIG_SIGNATURE; config->spec = 4; memcpy(config->oemid, CONFIG_CPUNAME8, sizeof(config->oemid)); memcpy(config->productid, "0.1 ", sizeof(config->productid)); config->lapic = BUILD_APIC_ADDR; // Detect cpu info u32 cpuid_signature, ebx, ecx, cpuid_features; cpuid(1, &cpuid_signature, &ebx, &ecx, &cpuid_features); if (! cpuid_signature) { // Use default values. cpuid_signature = 0x600; cpuid_features = 0x201; } int pkgcpus = 1; if (cpuid_features & (1 << 28)) { /* Only populate the MPS tables with the first logical CPU in each package */ pkgcpus = (ebx >> 16) & 0xff; pkgcpus = 1 << (__fls(pkgcpus - 1) + 1); /* round up to power of 2 */ } u8 apic_version = readl((u8*)BUILD_APIC_ADDR + 0x30) & 0xff; // CPU definitions. struct mpt_cpu *cpus = (void*)&config[1], *cpu = cpus; int i; for (i = 0; i < MaxCountCPUs; i+=pkgcpus) { memset(cpu, 0, sizeof(*cpu)); cpu->type = MPT_TYPE_CPU; cpu->apicid = i; cpu->apicver = apic_version; /* cpu flags: enabled, bootstrap cpu */ cpu->cpuflag = ((icpusignature = cpuid_signature; cpu->featureflag = cpuid_features; cpu++; } int entrycount = cpu - cpus; // PCI buses struct mpt_bus *buses = (void*)cpu, *bus = buses; int lastbus = -1; struct pci_device *pci; foreachpci(pci) { int curbus = pci_bdf_to_bus(pci->bdf); if (curbus == lastbus) continue; lastbus = curbus; memset(bus, 0, sizeof(*bus)); bus->type = MPT_TYPE_BUS; bus->busid = curbus; memcpy(bus->bustype, "PCI ", sizeof(bus->bustype)); bus++; } /* isa bus */ int isabusid; memset(bus, 0, sizeof(*bus)); bus->type = MPT_TYPE_BUS; isabusid = bus->busid = lastbus + 1; memcpy(bus->bustype, "ISA ", sizeof(bus->bustype)); bus++; entrycount += bus - buses; /* ioapic */ u8 ioapic_id = CountCPUs; struct mpt_ioapic *ioapic = (void*)bus; memset(ioapic, 0, sizeof(*ioapic)); ioapic->type = MPT_TYPE_IOAPIC; ioapic->apicid = ioapic_id; ioapic->apicver = 0x11; ioapic->flags = 1; // enable ioapic->apicaddr = BUILD_IOAPIC_ADDR; entrycount++; /* irqs */ struct mpt_intsrc *intsrcs = (void*)&ioapic[1], *intsrc = intsrcs; int dev = -1; unsigned short mask = 0, pinmask = 0; foreachpci(pci) { u16 bdf = pci->bdf; int pin = pci_config_readb(bdf, PCI_INTERRUPT_PIN); int irq = pci_config_readb(bdf, PCI_INTERRUPT_LINE); if (pin == 0) continue; if (dev != pci_bdf_to_busdev(bdf)) { dev = pci_bdf_to_busdev(bdf); pinmask = 0; } if (pinmask & (1 << pin)) /* pin was seen already */ continue; pinmask |= (1 << pin); mask |= (1 << irq); memset(intsrc, 0, sizeof(*intsrc)); intsrc->type = MPT_TYPE_INTSRC; intsrc->irqtype = 0; /* INT */ intsrc->irqflag = 1; /* active high */ intsrc->srcbus = pci_bdf_to_bus(bdf); /* PCI bus */ intsrc->srcbusirq = (pci_bdf_to_dev(bdf) << 2) | (pin - 1); intsrc->dstapic = ioapic_id; intsrc->dstirq = irq; intsrc++; } for (i = 0; i < 16; i++) { memset(intsrc, 0, sizeof(*intsrc)); if (mask & (1 << i)) continue; intsrc->type = MPT_TYPE_INTSRC; intsrc->irqtype = 0; /* INT */ intsrc->irqflag = 0; /* conform to bus spec */ intsrc->srcbus = isabusid; /* ISA bus */ intsrc->srcbusirq = i; intsrc->dstapic = ioapic_id; intsrc->dstirq = i; if (qemu_cfg_irq0_override()) { /* Destination 2 is covered by irq0->inti2 override (i == 0). Source IRQ 2 is unused */ if (i == 0) intsrc->dstirq = 2; else if (i == 2) intsrc--; } intsrc++; } /* Local interrupt assignment */ intsrc->type = MPT_TYPE_LOCAL_INT; intsrc->irqtype = 3; /* ExtINT */ intsrc->irqflag = 0; /* PO, EL default */ intsrc->srcbus = isabusid; /* ISA */ intsrc->srcbusirq = 0; intsrc->dstapic = 0; /* BSP == APIC #0 */ intsrc->dstirq = 0; /* LINTIN0 */ intsrc++; intsrc->type = MPT_TYPE_LOCAL_INT; intsrc->irqtype = 1; /* NMI */ intsrc->irqflag = 0; /* PO, EL default */ intsrc->srcbus = isabusid; /* ISA */ intsrc->srcbusirq = 0; intsrc->dstapic = 0xff; /* to all local APICs */ intsrc->dstirq = 1; /* LINTIN1 */ intsrc++; entrycount += intsrc - intsrcs; // Finalize config structure. int length = (void*)intsrc - (void*)config; config->entrycount = entrycount; config->length = length; config->checksum -= checksum(config, length); // Allocate final memory locations. (In theory the config // structure can go in high memory, but Linux kernels before // v2.6.30 crash with that.) struct mptable_config_s *finalconfig = malloc_fseg(length); struct mptable_floating_s *floating = malloc_fseg(sizeof(*floating)); if (!finalconfig || !floating) { warn_noalloc(); free(config); free(finalconfig); free(floating); return; } memcpy(finalconfig, config, length); free(config); /* floating pointer structure */ memset(floating, 0, sizeof(*floating)); floating->signature = MPTABLE_SIGNATURE; floating->physaddr = (u32)finalconfig; floating->length = 1; floating->spec_rev = 4; floating->checksum -= checksum(floating, sizeof(*floating)); dprintf(1, "MP table addr=%p MPC table addr=%p size=%d\n", floating, finalconfig, length); }