/* * Copyright (c) 1998-2004 Apple Computer, Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ #include #include #include #include #include __BEGIN_DECLS extern ppnum_t pmap_find_phys(pmap_t pmap, addr64_t va); __END_DECLS #define super IOService OSDefineMetaClassAndAbstractStructors(IOMapper, IOService); OSMetaClassDefineReservedUsed(IOMapper, 0); OSMetaClassDefineReservedUsed(IOMapper, 1); OSMetaClassDefineReservedUsed(IOMapper, 2); OSMetaClassDefineReservedUsed(IOMapper, 3); OSMetaClassDefineReservedUnused(IOMapper, 4); OSMetaClassDefineReservedUnused(IOMapper, 5); OSMetaClassDefineReservedUnused(IOMapper, 6); OSMetaClassDefineReservedUnused(IOMapper, 7); OSMetaClassDefineReservedUnused(IOMapper, 8); OSMetaClassDefineReservedUnused(IOMapper, 9); OSMetaClassDefineReservedUnused(IOMapper, 10); OSMetaClassDefineReservedUnused(IOMapper, 11); OSMetaClassDefineReservedUnused(IOMapper, 12); OSMetaClassDefineReservedUnused(IOMapper, 13); OSMetaClassDefineReservedUnused(IOMapper, 14); OSMetaClassDefineReservedUnused(IOMapper, 15); IOMapper * IOMapper::gSystem = (IOMapper *) IOMapper::kUnknown; class IOMapperLock { IOLock *fWaitLock; public: IOMapperLock() { fWaitLock = IOLockAlloc(); }; ~IOMapperLock() { IOLockFree(fWaitLock); }; void lock() { IOLockLock(fWaitLock); }; void unlock() { IOLockUnlock(fWaitLock); }; void sleep(void *event) { IOLockSleep(fWaitLock, event, THREAD_UNINT); }; void wakeup(void *event) { IOLockWakeup(fWaitLock, event, false); }; }; static IOMapperLock sMapperLock; bool IOMapper::start(IOService *provider) { OSObject * obj; if (!super::start(provider)) return false; if (!initHardware(provider)) return false; if (fIsSystem) { sMapperLock.lock(); IOMapper::gSystem = this; sMapperLock.wakeup(&IOMapper::gSystem); sMapperLock.unlock(); } if (provider) { obj = provider->getProperty("iommu-id"); if (!obj) obj = provider->getProperty("AAPL,phandle"); if (obj) setProperty(gIOMapperIDKey, obj); } return true; } bool IOMapper::allocTable(IOByteCount size) { assert(!fTable); fTableSize = size; fTableHandle = NewARTTable(size, &fTable, &fTablePhys); return fTableHandle != 0; } void IOMapper::free() { if (fTableHandle) { FreeARTTable(fTableHandle, fTableSize); fTableHandle = 0; } super::free(); } void IOMapper::setMapperRequired(bool hasMapper) { if (hasMapper) IOMapper::gSystem = (IOMapper *) kHasMapper; else { sMapperLock.lock(); IOMapper::gSystem = (IOMapper *) kNoMapper; sMapperLock.unlock(); sMapperLock.wakeup(&IOMapper::gSystem); } } void IOMapper::waitForSystemMapper() { sMapperLock.lock(); while ((uintptr_t) IOMapper::gSystem & kWaitMask) { OSReportWithBacktrace("waitForSystemMapper"); sMapperLock.sleep(&IOMapper::gSystem); } sMapperLock.unlock(); } IOMapper * IOMapper::copyMapperForDevice(IOService * device) { OSObject * obj; IOMapper * mapper; OSDictionary * matching; obj = device->copyProperty("iommu-parent"); if (!obj) return (NULL); if ((mapper = OSDynamicCast(IOMapper, obj))) return (mapper); matching = IOService::propertyMatching(gIOMapperIDKey, obj); if (matching) { mapper = OSDynamicCast(IOMapper, IOService::waitForMatchingService(matching)); matching->release(); } if (mapper) device->setProperty("iommu-parent", mapper); else obj->release(); return (mapper); } ppnum_t IOMapper::iovmAllocDMACommand(IODMACommand * command, IOItemCount pageCount) { return (0); } void IOMapper::iovmFreeDMACommand(IODMACommand * command, ppnum_t addr, IOItemCount pageCount) { } ppnum_t IOMapper::iovmMapMemory( OSObject * memory, // dma command or iomd ppnum_t offsetPage, ppnum_t pageCount, uint32_t options, upl_page_info_t * pageList, const IODMAMapSpecification * mapSpecification) { return (0); } void IOMapper::iovmInsert(ppnum_t addr, IOItemCount offset, ppnum_t *pageList, IOItemCount pageCount) { while (pageCount--) iovmInsert(addr, offset++, *pageList++); } void IOMapper::iovmInsert(ppnum_t addr, IOItemCount offset, upl_page_info_t *pageList, IOItemCount pageCount) { for (IOItemCount i = 0; i < pageCount; i++) iovmInsert(addr, offset + i, pageList[i].phys_addr); } OSData * IOMapper:: NewARTTable(IOByteCount size, void ** virtAddrP, ppnum_t *physAddrP) { if (!virtAddrP || !physAddrP) return 0; kern_return_t kr; vm_address_t address; size = round_page(size); kr = kmem_alloc_contig(kernel_map, &address, size, PAGE_MASK, 0 /*max_pnum*/, 0 /*pnum_mask*/, false); if (kr) return 0; ppnum_t pagenum = pmap_find_phys(kernel_pmap, (addr64_t) address); if (pagenum) *physAddrP = pagenum; else { FreeARTTable((OSData *) address, size); address = 0; } *virtAddrP = (void *) address; return (OSData *) address; } void IOMapper::FreeARTTable(OSData *artHandle, IOByteCount size) { vm_address_t address = (vm_address_t) artHandle; size = round_page(size); kmem_free(kernel_map, address, size); // Just panic if address is 0 } bool IOMapper::getBypassMask(addr64_t *maskP) const { return false; } __BEGIN_DECLS // These are C accessors to the system mapper for non-IOKit clients ppnum_t IOMapperIOVMAlloc(unsigned pages) { IOMapper::checkForSystemMapper(); if (IOMapper::gSystem) return IOMapper::gSystem->iovmAlloc((IOItemCount) pages); else return 0; } void IOMapperIOVMFree(ppnum_t addr, unsigned pages) { if (IOMapper::gSystem) IOMapper::gSystem->iovmFree(addr, (IOItemCount) pages); } ppnum_t IOMapperInsertPage(ppnum_t addr, unsigned offset, ppnum_t page) { if (IOMapper::gSystem) { if (!addr) panic("!addr"); IOMapper::gSystem->iovmInsert(addr, (IOItemCount) offset, page); return addr + offset; } else return page; } void IOMapperInsertPPNPages(ppnum_t addr, unsigned offset, ppnum_t *pageList, unsigned pageCount) { if (!IOMapper::gSystem) panic("IOMapperInsertPPNPages no system mapper"); else assert(!((vm_address_t) IOMapper::gSystem & 3)); IOMapper::gSystem-> iovmInsert(addr, (IOItemCount) offset, pageList, pageCount); } void IOMapperInsertUPLPages(ppnum_t addr, unsigned offset, upl_page_info_t *pageList, unsigned pageCount) { if (!IOMapper::gSystem) panic("IOMapperInsertUPLPages no system mapper"); else assert(!((vm_address_t) IOMapper::gSystem & 3)); IOMapper::gSystem->iovmInsert(addr, (IOItemCount) offset, pageList, (IOItemCount) pageCount); } ///////////////////////////////////////////////////////////////////////////// // // // IOLib.h APIs // // ///////////////////////////////////////////////////////////////////////////// #include UInt8 IOMappedRead8(IOPhysicalAddress address) { IOMapper::checkForSystemMapper(); if (IOMapper::gSystem) { addr64_t addr = IOMapper::gSystem->mapAddr(address); return (UInt8) ml_phys_read_byte_64(addr); } else return (UInt8) ml_phys_read_byte((vm_offset_t) address); } UInt16 IOMappedRead16(IOPhysicalAddress address) { IOMapper::checkForSystemMapper(); if (IOMapper::gSystem) { addr64_t addr = IOMapper::gSystem->mapAddr(address); return (UInt16) ml_phys_read_half_64(addr); } else return (UInt16) ml_phys_read_half((vm_offset_t) address); } UInt32 IOMappedRead32(IOPhysicalAddress address) { IOMapper::checkForSystemMapper(); if (IOMapper::gSystem) { addr64_t addr = IOMapper::gSystem->mapAddr(address); return (UInt32) ml_phys_read_word_64(addr); } else return (UInt32) ml_phys_read_word((vm_offset_t) address); } UInt64 IOMappedRead64(IOPhysicalAddress address) { IOMapper::checkForSystemMapper(); if (IOMapper::gSystem) { addr64_t addr = IOMapper::gSystem->mapAddr(address); return (UInt64) ml_phys_read_double_64(addr); } else return (UInt64) ml_phys_read_double((vm_offset_t) address); } void IOMappedWrite8(IOPhysicalAddress address, UInt8 value) { IOMapper::checkForSystemMapper(); if (IOMapper::gSystem) { addr64_t addr = IOMapper::gSystem->mapAddr(address); ml_phys_write_byte_64(addr, value); } else ml_phys_write_byte((vm_offset_t) address, value); } void IOMappedWrite16(IOPhysicalAddress address, UInt16 value) { IOMapper::checkForSystemMapper(); if (IOMapper::gSystem) { addr64_t addr = IOMapper::gSystem->mapAddr(address); ml_phys_write_half_64(addr, value); } else ml_phys_write_half((vm_offset_t) address, value); } void IOMappedWrite32(IOPhysicalAddress address, UInt32 value) { IOMapper::checkForSystemMapper(); if (IOMapper::gSystem) { addr64_t addr = IOMapper::gSystem->mapAddr(address); ml_phys_write_word_64(addr, value); } else ml_phys_write_word((vm_offset_t) address, value); } void IOMappedWrite64(IOPhysicalAddress address, UInt64 value) { IOMapper::checkForSystemMapper(); if (IOMapper::gSystem) { addr64_t addr = IOMapper::gSystem->mapAddr(address); ml_phys_write_double_64(addr, value); } else ml_phys_write_double((vm_offset_t) address, value); } __END_DECLS