/* Copyright (c) 2011 Wildfire Games * * 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 AUTHORS OR COPYRIGHT HOLDERS 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. */ #include "precompiled.h" #include "lib/sysdep/arch/x86_x64/apic.h" #include "lib/bits.h" #include "lib/module_init.h" #include "lib/sysdep/cpu.h" // ERR::CPU_FEATURE_MISSING #include "lib/sysdep/os_cpu.h" #include "lib/sysdep/arch/x86_x64/x86_x64.h" ApicId GetApicId() { x86_x64::CpuidRegs regs = { 0 }; regs.eax = 1; // note: CPUID function 1 is always supported, but only processors with // an xAPIC (e.g. P4/Athlon XP) will return a nonzero ID. bool ok = x86_x64::cpuid(®s); ASSERT(ok); UNUSED2(ok); const u8 apicId = (u8)bits(regs.ebx, 24, 31); return apicId; } static size_t numIds; static ApicId processorApicIds[os_cpu_MaxProcessors]; static ApicId sortedApicIds[os_cpu_MaxProcessors]; static Status GetAndValidateApicIds() { numIds = os_cpu_NumProcessors(); struct StoreEachProcessorsApicId { static void Callback(size_t processor, uintptr_t UNUSED(data)) { processorApicIds[processor] = GetApicId(); } }; // (can fail due to restrictions on our process affinity or lack of // support for affinity masks in OS X.) RETURN_STATUS_IF_ERR(os_cpu_CallByEachCPU(StoreEachProcessorsApicId::Callback, 0)); std::copy(processorApicIds, processorApicIds+numIds, sortedApicIds); std::sort(sortedApicIds, sortedApicIds+numIds); ApicId* const end = std::unique(sortedApicIds, sortedApicIds+numIds); const size_t numUnique = end-sortedApicIds; // all IDs are zero - system lacks an xAPIC. // (NB: we exclude single-processor systems in this test - // having one zero-valued ID is legitimate) if(numUnique == 1 && sortedApicIds[0] == 0 && numIds != 1) { debug_printf("APIC: all zero\n"); return ERR::CPU_FEATURE_MISSING; // NOWARN } // not all unique - probably running in a VM whose emulation is // imperfect or doesn't allow access to all processors. if(numUnique != numIds) { debug_printf("APIC: not unique\n"); return ERR::FAIL; // NOWARN } return INFO::OK; } static Status InitApicIds() { const Status status = GetAndValidateApicIds(); if(status < 0) // failed { // generate fake but legitimate APIC IDs for(size_t processor = 0; processor < numIds; processor++) processorApicIds[processor] = sortedApicIds[processor] = (ApicId)processor; } return status; } static ModuleInitState apicInitState; bool AreApicIdsReliable() { ModuleInit(&apicInitState, InitApicIds); if(apicInitState < 0) return false; return true; } static size_t IndexFromApicId(const ApicId* apicIds, ApicId apicId) { ModuleInit(&apicInitState, InitApicIds); const ApicId* pos = std::find(apicIds, apicIds+numIds, apicId); if(pos == apicIds+numIds) { DEBUG_WARN_ERR(ERR::LOGIC); return 0; } const size_t index = pos - apicIds; return index; } size_t ProcessorFromApicId(ApicId apicId) { return IndexFromApicId(processorApicIds, apicId); } size_t ContiguousIdFromApicId(ApicId apicId) { return IndexFromApicId(sortedApicIds, apicId); } static ApicId ApicIdFromIndex(const ApicId* apicIds, size_t index) { ModuleInit(&apicInitState, InitApicIds); ASSERT(index < numIds); return apicIds[index]; } ApicId ApicIdFromProcessor(size_t processor) { return ApicIdFromIndex(processorApicIds, processor); } ApicId ApicIdFromContiguousId(size_t contiguousId) { return ApicIdFromIndex(sortedApicIds, contiguousId); }