X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/9bccf70c0258c7cac2dcb80011b2a964d884c552..0b4c1975fb5e4eccf1012a35081f7e7799b81046:/iokit/Kernel/IOMemoryDescriptor.cpp?ds=sidebyside diff --git a/iokit/Kernel/IOMemoryDescriptor.cpp b/iokit/Kernel/IOMemoryDescriptor.cpp index 20b05f3e1..bd3c67176 100644 --- a/iokit/Kernel/IOMemoryDescriptor.cpp +++ b/iokit/Kernel/IOMemoryDescriptor.cpp @@ -1,23 +1,29 @@ /* - * Copyright (c) 1998-2000 Apple Computer, Inc. All rights reserved. + * Copyright (c) 1998-2007 Apple Inc. All rights reserved. * - * @APPLE_LICENSE_HEADER_START@ + * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * - * The contents of this file constitute Original Code as defined in and - * are subject to the Apple Public Source License Version 1.1 (the - * "License"). You may not use this file except in compliance with the - * License. Please obtain a copy of the License at - * http://www.apple.com/publicsource and read it before using this file. + * 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. * - * This Original Code and all software distributed under the License are - * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER + * 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 OR NON-INFRINGEMENT. Please see the - * License for the specific language governing rights and limitations - * under the License. + * 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_LICENSE_HEADER_END@ + * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ /* * Copyright (c) 1998 Apple Computer, Inc. All rights reserved. @@ -26,36 +32,54 @@ * */ + +#include + #include #include #include #include +#include +#include + +#ifndef __LP64__ +#include +#endif /* !__LP64__ */ #include +#include + +#include "IOKitKernelInternal.h" #include #include #include #include #include -#include + +#include __BEGIN_DECLS #include +#include +#include #include -void bcopy_phys(char *from, char *to, int size); -void pmap_enter(pmap_t pmap, vm_offset_t va, vm_offset_t pa, - vm_prot_t prot, unsigned int flags, boolean_t wired); -#ifndef i386 -struct phys_entry *pmap_find_physentry(vm_offset_t pa); -#endif + +#include +#include +#include +#include + +extern ppnum_t pmap_find_phys(pmap_t pmap, addr64_t va); void ipc_port_release_send(ipc_port_t port); -vm_offset_t vm_map_get_phys_page(vm_map_t map, vm_offset_t offset); + +/* Copy between a physical page and a virtual address in the given vm_map */ +kern_return_t copypv(addr64_t source, addr64_t sink, unsigned int size, int which); memory_object_t device_pager_setup( memory_object_t pager, - int device_handle, + uintptr_t device_handle, vm_size_t size, int flags); void @@ -65,41 +89,37 @@ kern_return_t device_pager_populate_object( memory_object_t pager, vm_object_offset_t offset, - vm_offset_t phys_addr, + ppnum_t phys_addr, vm_size_t size); +kern_return_t +memory_object_iopl_request( + ipc_port_t port, + memory_object_offset_t offset, + vm_size_t *upl_size, + upl_t *upl_ptr, + upl_page_info_array_t user_page_list, + unsigned int *page_list_count, + int *flags); -/* - * Page fault handling based on vm_map (or entries therein) - */ -extern kern_return_t vm_fault( - vm_map_t map, - vm_offset_t vaddr, - vm_prot_t fault_type, - boolean_t change_wiring, - int interruptible, - pmap_t caller_pmap, - vm_offset_t caller_pmap_addr); +unsigned int IOTranslateCacheBits(struct phys_entry *pp); __END_DECLS -/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ - -OSDefineMetaClassAndAbstractStructors( IOMemoryDescriptor, OSObject ) +#define kIOMaximumMappedIOByteCount (512*1024*1024) -#define super IOMemoryDescriptor +static IOMapper * gIOSystemMapper = NULL; -OSDefineMetaClassAndStructors(IOGeneralMemoryDescriptor, IOMemoryDescriptor) +static ppnum_t gIOMaximumMappedIOPageCount = atop_32(kIOMaximumMappedIOByteCount); -extern "C" { +ppnum_t gIOLastPage; -vm_map_t IOPageableMapForAddress( vm_address_t address ); +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ -typedef kern_return_t (*IOIteratePageableMapsCallback)(vm_map_t map, void * ref); +OSDefineMetaClassAndAbstractStructors( IOMemoryDescriptor, OSObject ) -kern_return_t IOIteratePageableMaps(vm_size_t size, - IOIteratePageableMapsCallback callback, void * ref); +#define super IOMemoryDescriptor -} +OSDefineMetaClassAndStructors(IOGeneralMemoryDescriptor, IOMemoryDescriptor) /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ @@ -111,45 +131,69 @@ static IORecursiveLock * gIOMemoryLock; #define WAKEUP \ IORecursiveLockWakeup( gIOMemoryLock, (void *)this, /* one-thread */ false) +#if 0 +#define DEBG(fmt, args...) { kprintf(fmt, ## args); } +#else +#define DEBG(fmt, args...) {} +#endif + +#define IOMD_DEBUG_DMAACTIVE 1 + /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ -inline vm_map_t IOGeneralMemoryDescriptor::getMapForTask( task_t task, vm_address_t address ) -{ - if( (task == kernel_task) && (kIOMemoryRequiresWire & _flags)) - return( IOPageableMapForAddress( address ) ); - else - return( get_task_map( task )); -} +// Some data structures and accessor macros used by the initWithOptions +// Function + +enum ioPLBlockFlags { + kIOPLOnDevice = 0x00000001, + kIOPLExternUPL = 0x00000002, +}; -inline vm_offset_t pmap_extract_safe(task_t task, vm_offset_t va) +struct typePersMDData { - vm_offset_t pa = pmap_extract(get_task_pmap(task), va); + const IOGeneralMemoryDescriptor *fMD; + ipc_port_t fMemEntry; +}; - if ( pa == 0 ) - { - pa = vm_map_get_phys_page(get_task_map(task), trunc_page(va)); - if ( pa ) pa += va - trunc_page(va); - } +struct ioPLBlock { + upl_t fIOPL; + vm_address_t fPageInfo; // Pointer to page list or index into it + uint32_t fIOMDOffset; // The offset of this iopl in descriptor + ppnum_t fMappedBase; // Page number of first page in this iopl + unsigned int fPageOffset; // Offset within first page of iopl + unsigned int fFlags; // Flags +}; - return pa; -} +struct ioGMDData { + IOMapper *fMapper; + uint64_t fPreparationID; + unsigned int fPageCnt; +#if __LP64__ + // align arrays to 8 bytes so following macros work + unsigned int fPad; +#endif + upl_page_info_t fPageList[]; + ioPLBlock fBlocks[]; +}; -inline void bcopy_phys_safe(char * from, char * to, int size) -{ - boolean_t enabled = ml_set_interrupts_enabled(FALSE); +#define getDataP(osd) ((ioGMDData *) (osd)->getBytesNoCopy()) +#define getIOPLList(d) ((ioPLBlock *) &(d->fPageList[d->fPageCnt])) +#define getNumIOPL(osd, d) \ + (((osd)->getLength() - ((char *) getIOPLList(d) - (char *) d)) / sizeof(ioPLBlock)) +#define getPageList(d) (&(d->fPageList[0])) +#define computeDataSize(p, u) \ + (sizeof(ioGMDData) + p * sizeof(upl_page_info_t) + u * sizeof(ioPLBlock)) - bcopy_phys(from, to, size); - ml_set_interrupts_enabled(enabled); -} +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ -#define next_page(a) ( trunc_page(a) + page_size ) +#define next_page(a) ( trunc_page(a) + PAGE_SIZE ) extern "C" { kern_return_t device_data_action( - int device_handle, + uintptr_t device_handle, ipc_port_t device_pager, vm_prot_t protection, vm_object_offset_t offset, @@ -168,8 +212,12 @@ kern_return_t device_data_action( LOCK; memDesc = ref->memory; if( memDesc) + { + memDesc->retain(); kr = memDesc->handleFault( device_pager, 0, 0, offset, size, kIOMapDefaultCache /*?*/); + memDesc->release(); + } else kr = KERN_ABORTED; UNLOCK; @@ -178,7 +226,7 @@ kern_return_t device_data_action( } kern_return_t device_close( - int device_handle) + uintptr_t device_handle) { struct ExpansionData { void * devicePager; @@ -192,64 +240,142 @@ kern_return_t device_close( return( kIOReturnSuccess ); } - +}; // end extern "C" + +// Note this inline function uses C++ reference arguments to return values +// This means that pointers are not passed and NULLs don't have to be +// checked for as a NULL reference is illegal. +static inline void +getAddrLenForInd(user_addr_t &addr, IOPhysicalLength &len, // Output variables + UInt32 type, IOGeneralMemoryDescriptor::Ranges r, UInt32 ind) +{ + assert(kIOMemoryTypeUIO == type + || kIOMemoryTypeVirtual == type || kIOMemoryTypeVirtual64 == type + || kIOMemoryTypePhysical == type || kIOMemoryTypePhysical64 == type); + if (kIOMemoryTypeUIO == type) { + user_size_t us; + uio_getiov((uio_t) r.uio, ind, &addr, &us); len = us; + } +#ifndef __LP64__ + else if ((kIOMemoryTypeVirtual64 == type) || (kIOMemoryTypePhysical64 == type)) { + IOAddressRange cur = r.v64[ind]; + addr = cur.address; + len = cur.length; + } +#endif /* !__LP64__ */ + else { + IOVirtualRange cur = r.v[ind]; + addr = cur.address; + len = cur.length; + } } /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ -/* - * withAddress: - * - * Create a new IOMemoryDescriptor. The buffer is a virtual address - * relative to the specified task. If no task is supplied, the kernel - * task is implied. - */ IOMemoryDescriptor * IOMemoryDescriptor::withAddress(void * address, - IOByteCount withLength, - IODirection withDirection) + IOByteCount length, + IODirection direction) +{ + return IOMemoryDescriptor:: + withAddressRange((IOVirtualAddress) address, length, direction | kIOMemoryAutoPrepare, kernel_task); +} + +#ifndef __LP64__ +IOMemoryDescriptor * +IOMemoryDescriptor::withAddress(IOVirtualAddress address, + IOByteCount length, + IODirection direction, + task_t task) { IOGeneralMemoryDescriptor * that = new IOGeneralMemoryDescriptor; if (that) { - if (that->initWithAddress(address, withLength, withDirection)) + if (that->initWithAddress(address, length, direction, task)) return that; that->release(); } return 0; } +#endif /* !__LP64__ */ + +IOMemoryDescriptor * +IOMemoryDescriptor::withPhysicalAddress( + IOPhysicalAddress address, + IOByteCount length, + IODirection direction ) +{ +#ifdef __LP64__ + return (IOMemoryDescriptor::withAddressRange(address, length, direction, TASK_NULL)); +#else /* !__LP64__ */ + IOGeneralMemoryDescriptor *self = new IOGeneralMemoryDescriptor; + if (self + && !self->initWithPhysicalAddress(address, length, direction)) { + self->release(); + return 0; + } + + return self; +#endif /* !__LP64__ */ +} +#ifndef __LP64__ IOMemoryDescriptor * -IOMemoryDescriptor::withAddress(vm_address_t address, - IOByteCount withLength, - IODirection withDirection, - task_t withTask) +IOMemoryDescriptor::withRanges( IOVirtualRange * ranges, + UInt32 withCount, + IODirection direction, + task_t task, + bool asReference) { IOGeneralMemoryDescriptor * that = new IOGeneralMemoryDescriptor; if (that) { - if (that->initWithAddress(address, withLength, withDirection, withTask)) + if (that->initWithRanges(ranges, withCount, direction, task, asReference)) return that; that->release(); } return 0; } +#endif /* !__LP64__ */ IOMemoryDescriptor * -IOMemoryDescriptor::withPhysicalAddress( - IOPhysicalAddress address, - IOByteCount withLength, - IODirection withDirection ) +IOMemoryDescriptor::withAddressRange(mach_vm_address_t address, + mach_vm_size_t length, + IOOptionBits options, + task_t task) +{ + IOAddressRange range = { address, length }; + return (IOMemoryDescriptor::withAddressRanges(&range, 1, options, task)); +} + +IOMemoryDescriptor * +IOMemoryDescriptor::withAddressRanges(IOAddressRange * ranges, + UInt32 rangeCount, + IOOptionBits options, + task_t task) { - return( IOMemoryDescriptor::withAddress( address, withLength, - withDirection, (task_t) 0 )); + IOGeneralMemoryDescriptor * that = new IOGeneralMemoryDescriptor; + if (that) + { + if (task) + options |= kIOMemoryTypeVirtual64; + else + options |= kIOMemoryTypePhysical64; + + if (that->initWithOptions(ranges, rangeCount, 0, task, options, /* mapper */ 0)) + return that; + + that->release(); + } + + return 0; } /* - * withRanges: + * withOptions: * * Create a new IOMemoryDescriptor. The buffer is made up of several * virtual address ranges, from a given task. @@ -257,33 +383,46 @@ IOMemoryDescriptor::withPhysicalAddress( * Passing the ranges as a reference will avoid an extra allocation. */ IOMemoryDescriptor * -IOMemoryDescriptor::withRanges( IOVirtualRange * ranges, - UInt32 withCount, - IODirection withDirection, - task_t withTask, - bool asReference = false) +IOMemoryDescriptor::withOptions(void * buffers, + UInt32 count, + UInt32 offset, + task_t task, + IOOptionBits opts, + IOMapper * mapper) { - IOGeneralMemoryDescriptor * that = new IOGeneralMemoryDescriptor; - if (that) - { - if (that->initWithRanges(ranges, withCount, withDirection, withTask, asReference)) - return that; + IOGeneralMemoryDescriptor *self = new IOGeneralMemoryDescriptor; - that->release(); + if (self + && !self->initWithOptions(buffers, count, offset, task, opts, mapper)) + { + self->release(); + return 0; } - return 0; + + return self; +} + +bool IOMemoryDescriptor::initWithOptions(void * buffers, + UInt32 count, + UInt32 offset, + task_t task, + IOOptionBits options, + IOMapper * mapper) +{ + return( false ); } +#ifndef __LP64__ IOMemoryDescriptor * IOMemoryDescriptor::withPhysicalRanges( IOPhysicalRange * ranges, UInt32 withCount, - IODirection withDirection, - bool asReference = false) + IODirection direction, + bool asReference) { IOGeneralMemoryDescriptor * that = new IOGeneralMemoryDescriptor; if (that) { - if (that->initWithPhysicalRanges(ranges, withCount, withDirection, asReference)) + if (that->initWithPhysicalRanges(ranges, withCount, direction, asReference)) return that; that->release(); @@ -295,42 +434,112 @@ IOMemoryDescriptor * IOMemoryDescriptor::withSubRange(IOMemoryDescriptor * of, IOByteCount offset, IOByteCount length, - IODirection withDirection) + IODirection direction) { - IOSubMemoryDescriptor * that = new IOSubMemoryDescriptor; + return (IOSubMemoryDescriptor::withSubRange(of, offset, length, direction | kIOMemoryThreadSafe)); +} +#endif /* !__LP64__ */ - if (that && !that->initSubRange(of, offset, length, withDirection)) { - that->release(); - that = 0; +IOMemoryDescriptor * +IOMemoryDescriptor::withPersistentMemoryDescriptor(IOMemoryDescriptor *originalMD) +{ + IOGeneralMemoryDescriptor *origGenMD = + OSDynamicCast(IOGeneralMemoryDescriptor, originalMD); + + if (origGenMD) + return IOGeneralMemoryDescriptor:: + withPersistentMemoryDescriptor(origGenMD); + else + return 0; +} + +IOMemoryDescriptor * +IOGeneralMemoryDescriptor::withPersistentMemoryDescriptor(IOGeneralMemoryDescriptor *originalMD) +{ + ipc_port_t sharedMem = (ipc_port_t) originalMD->createNamedEntry(); + + if (!sharedMem) + return 0; + + if (sharedMem == originalMD->_memEntry) { + originalMD->retain(); // Add a new reference to ourselves + ipc_port_release_send(sharedMem); // Remove extra send right + return originalMD; + } + + IOGeneralMemoryDescriptor * self = new IOGeneralMemoryDescriptor; + typePersMDData initData = { originalMD, sharedMem }; + + if (self + && !self->initWithOptions(&initData, 1, 0, 0, kIOMemoryTypePersistentMD, 0)) { + self->release(); + self = 0; } - return that; + return self; } -/* - * initWithAddress: - * - * Initialize an IOMemoryDescriptor. The buffer is a virtual address - * relative to the specified task. If no task is supplied, the kernel - * task is implied. - * - * An IOMemoryDescriptor can be re-used by calling initWithAddress or - * initWithRanges again on an existing instance -- note this behavior - * is not commonly supported in other I/O Kit classes, although it is - * supported here. - */ +void *IOGeneralMemoryDescriptor::createNamedEntry() +{ + kern_return_t error; + ipc_port_t sharedMem; + + IOOptionBits type = _flags & kIOMemoryTypeMask; + + user_addr_t range0Addr; + IOByteCount range0Len; + getAddrLenForInd(range0Addr, range0Len, type, _ranges, 0); + range0Addr = trunc_page_64(range0Addr); + + vm_size_t size = ptoa_32(_pages); + vm_address_t kernelPage = (vm_address_t) range0Addr; + + vm_map_t theMap = ((_task == kernel_task) + && (kIOMemoryBufferPageable & _flags)) + ? IOPageableMapForAddress(kernelPage) + : get_task_map(_task); + + memory_object_size_t actualSize = size; + vm_prot_t prot = VM_PROT_READ; +#if CONFIG_EMBEDDED + if (kIODirectionOut != (kIODirectionOutIn & _flags)) +#endif + prot |= VM_PROT_WRITE; + + if (_memEntry) + prot |= MAP_MEM_NAMED_REUSE; + + error = mach_make_memory_entry_64(theMap, + &actualSize, range0Addr, prot, &sharedMem, (ipc_port_t) _memEntry); + + if (KERN_SUCCESS == error) { + if (actualSize == size) { + return sharedMem; + } else { +#if IOASSERT + IOLog("IOGMD::mach_make_memory_entry_64 (%08llx) size (%08llx:%08llx)\n", + (UInt64)range0Addr, (UInt64)actualSize, (UInt64)size); +#endif + ipc_port_release_send( sharedMem ); + } + } + + return MACH_PORT_NULL; +} + +#ifndef __LP64__ bool IOGeneralMemoryDescriptor::initWithAddress(void * address, IOByteCount withLength, IODirection withDirection) { - _singleRange.v.address = (vm_address_t) address; + _singleRange.v.address = (vm_offset_t) address; _singleRange.v.length = withLength; return initWithRanges(&_singleRange.v, 1, withDirection, kernel_task, true); } bool -IOGeneralMemoryDescriptor::initWithAddress(vm_address_t address, +IOGeneralMemoryDescriptor::initWithAddress(IOVirtualAddress address, IOByteCount withLength, IODirection withDirection, task_t withTask) @@ -353,29 +562,134 @@ IOGeneralMemoryDescriptor::initWithPhysicalAddress( return initWithPhysicalRanges( &_singleRange.p, 1, withDirection, true); } +bool +IOGeneralMemoryDescriptor::initWithPhysicalRanges( + IOPhysicalRange * ranges, + UInt32 count, + IODirection direction, + bool reference) +{ + IOOptionBits mdOpts = direction | kIOMemoryTypePhysical; + + if (reference) + mdOpts |= kIOMemoryAsReference; + + return initWithOptions(ranges, count, 0, 0, mdOpts, /* mapper */ 0); +} + +bool +IOGeneralMemoryDescriptor::initWithRanges( + IOVirtualRange * ranges, + UInt32 count, + IODirection direction, + task_t task, + bool reference) +{ + IOOptionBits mdOpts = direction; + + if (reference) + mdOpts |= kIOMemoryAsReference; + + if (task) { + mdOpts |= kIOMemoryTypeVirtual; + + // Auto-prepare if this is a kernel memory descriptor as very few + // clients bother to prepare() kernel memory. + // But it was not enforced so what are you going to do? + if (task == kernel_task) + mdOpts |= kIOMemoryAutoPrepare; + } + else + mdOpts |= kIOMemoryTypePhysical; + + return initWithOptions(ranges, count, 0, task, mdOpts, /* mapper */ 0); +} +#endif /* !__LP64__ */ + /* - * initWithRanges: + * initWithOptions: * - * Initialize an IOMemoryDescriptor. The buffer is made up of several - * virtual address ranges, from a given task + * IOMemoryDescriptor. The buffer is made up of several virtual address ranges, + * from a given task, several physical ranges, an UPL from the ubc + * system or a uio (may be 64bit) from the BSD subsystem. * * Passing the ranges as a reference will avoid an extra allocation. * - * An IOMemoryDescriptor can be re-used by calling initWithAddress or - * initWithRanges again on an existing instance -- note this behavior - * is not commonly supported in other I/O Kit classes, although it is - * supported here. + * An IOMemoryDescriptor can be re-used by calling initWithOptions again on an + * existing instance -- note this behavior is not commonly supported in other + * I/O Kit classes, although it is supported here. */ + bool -IOGeneralMemoryDescriptor::initWithRanges( - IOVirtualRange * ranges, - UInt32 withCount, - IODirection withDirection, - task_t withTask, - bool asReference = false) -{ - assert(ranges); - assert(withCount); +IOGeneralMemoryDescriptor::initWithOptions(void * buffers, + UInt32 count, + UInt32 offset, + task_t task, + IOOptionBits options, + IOMapper * mapper) +{ + IOOptionBits type = options & kIOMemoryTypeMask; + + // Grab the original MD's configuation data to initialse the + // arguments to this function. + if (kIOMemoryTypePersistentMD == type) { + + typePersMDData *initData = (typePersMDData *) buffers; + const IOGeneralMemoryDescriptor *orig = initData->fMD; + ioGMDData *dataP = getDataP(orig->_memoryEntries); + + // Only accept persistent memory descriptors with valid dataP data. + assert(orig->_rangesCount == 1); + if ( !(orig->_flags & kIOMemoryPersistent) || !dataP) + return false; + + _memEntry = initData->fMemEntry; // Grab the new named entry + options = orig->_flags | kIOMemoryAsReference; + _singleRange = orig->_singleRange; // Initialise our range + buffers = &_singleRange; + count = 1; + + // Now grab the original task and whatever mapper was previously used + task = orig->_task; + mapper = dataP->fMapper; + + // We are ready to go through the original initialisation now + } + + switch (type) { + case kIOMemoryTypeUIO: + case kIOMemoryTypeVirtual: +#ifndef __LP64__ + case kIOMemoryTypeVirtual64: +#endif /* !__LP64__ */ + assert(task); + if (!task) + return false; + +#ifndef __LP64__ + if (vm_map_is_64bit(get_task_map(task)) + && (kIOMemoryTypeVirtual == type) + && ((IOVirtualRange *) buffers)->address) + { + OSReportWithBacktrace("IOMemoryDescriptor: attempt to create 32b virtual in 64b task, use ::withAddressRange()"); + return false; + } +#endif /* !__LP64__ */ + break; + + case kIOMemoryTypePhysical: // Neither Physical nor UPL should have a task +#ifndef __LP64__ + case kIOMemoryTypePhysical64: +#endif /* !__LP64__ */ + case kIOMemoryTypeUPL: + assert(!task); + break; + default: + return false; /* bad argument */ + } + + assert(buffers); + assert(count); /* * We can check the _initialized instance variable before having ever set @@ -383,75 +697,255 @@ IOGeneralMemoryDescriptor::initWithRanges( * variables are zeroed on an object's allocation. */ - if (_initialized == false) - { - if (super::init() == false) return false; - _initialized = true; - } - else - { + if (_initialized) { /* * An existing memory descriptor is being retargeted to point to * somewhere else. Clean up our present state. */ + IOOptionBits type = _flags & kIOMemoryTypeMask; + if ((kIOMemoryTypePhysical != type) && (kIOMemoryTypePhysical64 != type)) + { + while (_wireCount) + complete(); + } + if (_ranges.v && !(kIOMemoryAsReference & _flags)) + { + if (kIOMemoryTypeUIO == type) + uio_free((uio_t) _ranges.v); +#ifndef __LP64__ + else if ((kIOMemoryTypeVirtual64 == type) || (kIOMemoryTypePhysical64 == type)) + IODelete(_ranges.v64, IOAddressRange, _rangesCount); +#endif /* !__LP64__ */ + else + IODelete(_ranges.v, IOVirtualRange, _rangesCount); + } - assert(_wireCount == 0); - - while (_wireCount) - complete(); - if (_kernPtrAligned) - unmapFromKernel(); - if (_ranges.v && _rangesIsAllocated) - IODelete(_ranges.v, IOVirtualRange, _rangesCount); + if (_memEntry) + { ipc_port_release_send((ipc_port_t) _memEntry); _memEntry = 0; } + if (_mappings) + _mappings->flushCollection(); + } + else { + if (!super::init()) + return false; + _initialized = true; } - /* - * Initialize the memory descriptor. - */ + // Grab the appropriate mapper + if (kIOMemoryMapperNone & options) + mapper = 0; // No Mapper + else if (mapper == kIOMapperSystem) { + IOMapper::checkForSystemMapper(); + gIOSystemMapper = mapper = IOMapper::gSystem; + } - _ranges.v = 0; - _rangesCount = withCount; - _rangesIsAllocated = asReference ? false : true; - _direction = withDirection; - _length = 0; - _task = withTask; - _position = 0; - _positionAtIndex = 0; - _positionAtOffset = 0; - _kernPtrAligned = 0; - _cachedPhysicalAddress = 0; - _cachedVirtualAddress = 0; - _flags = 0; - - if (withTask && (withTask != kernel_task)) - _flags |= kIOMemoryRequiresWire; - - if (asReference) - _ranges.v = ranges; - else + // Temp binary compatibility for kIOMemoryThreadSafe + if (kIOMemoryReserved6156215 & options) { - _ranges.v = IONew(IOVirtualRange, withCount); - if (_ranges.v == 0) return false; - bcopy(/* from */ ranges, _ranges.v, withCount * sizeof(IOVirtualRange)); - } + options &= ~kIOMemoryReserved6156215; + options |= kIOMemoryThreadSafe; + } + // Remove the dynamic internal use flags from the initial setting + options &= ~(kIOMemoryPreparedReadOnly); + _flags = options; + _task = task; - for (unsigned index = 0; index < _rangesCount; index++) +#ifndef __LP64__ + _direction = (IODirection) (_flags & kIOMemoryDirectionMask); +#endif /* !__LP64__ */ + + __iomd_reservedA = 0; + __iomd_reservedB = 0; + _highestPage = 0; + + if (kIOMemoryThreadSafe & options) + { + if (!_prepareLock) + _prepareLock = IOLockAlloc(); + } + else if (_prepareLock) { - _length += _ranges.v[index].length; + IOLockFree(_prepareLock); + _prepareLock = NULL; } + + if (kIOMemoryTypeUPL == type) { - return true; -} + ioGMDData *dataP; + unsigned int dataSize = computeDataSize(/* pages */ 0, /* upls */ 1); -bool -IOGeneralMemoryDescriptor::initWithPhysicalRanges( IOPhysicalRange * ranges, - UInt32 withCount, - IODirection withDirection, - bool asReference = false) -{ -#warning assuming virtual, physical addresses same size - return( initWithRanges( (IOVirtualRange *) ranges, - withCount, withDirection, (task_t) 0, asReference )); + if (!_memoryEntries) { + _memoryEntries = OSData::withCapacity(dataSize); + if (!_memoryEntries) + return false; + } + else if (!_memoryEntries->initWithCapacity(dataSize)) + return false; + + _memoryEntries->appendBytes(0, sizeof(ioGMDData)); + dataP = getDataP(_memoryEntries); + dataP->fMapper = mapper; + dataP->fPageCnt = 0; + + // _wireCount++; // UPLs start out life wired + + _length = count; + _pages += atop_32(offset + count + PAGE_MASK) - atop_32(offset); + + ioPLBlock iopl; + iopl.fIOPL = (upl_t) buffers; + upl_page_info_t *pageList = UPL_GET_INTERNAL_PAGE_LIST(iopl.fIOPL); + + if (upl_get_size(iopl.fIOPL) < (count + offset)) + panic("short external upl"); + + // Set the flag kIOPLOnDevice convieniently equal to 1 + iopl.fFlags = pageList->device | kIOPLExternUPL; + iopl.fIOMDOffset = 0; + + _highestPage = upl_get_highest_page(iopl.fIOPL); + + if (!pageList->device) { + // Pre-compute the offset into the UPL's page list + pageList = &pageList[atop_32(offset)]; + offset &= PAGE_MASK; + if (mapper) { + iopl.fMappedBase = mapper->iovmAlloc(_pages); + mapper->iovmInsert(iopl.fMappedBase, 0, pageList, _pages); + } + else + iopl.fMappedBase = 0; + } + else + iopl.fMappedBase = 0; + iopl.fPageInfo = (vm_address_t) pageList; + iopl.fPageOffset = offset; + + _memoryEntries->appendBytes(&iopl, sizeof(iopl)); + } + else { + // kIOMemoryTypeVirtual | kIOMemoryTypeVirtual64 | kIOMemoryTypeUIO + // kIOMemoryTypePhysical | kIOMemoryTypePhysical64 + + // Initialize the memory descriptor + if (options & kIOMemoryAsReference) { +#ifndef __LP64__ + _rangesIsAllocated = false; +#endif /* !__LP64__ */ + + // Hack assignment to get the buffer arg into _ranges. + // I'd prefer to do _ranges = (Ranges) buffers, but that doesn't + // work, C++ sigh. + // This also initialises the uio & physical ranges. + _ranges.v = (IOVirtualRange *) buffers; + } + else { +#ifndef __LP64__ + _rangesIsAllocated = true; +#endif /* !__LP64__ */ + switch (type) + { + case kIOMemoryTypeUIO: + _ranges.v = (IOVirtualRange *) uio_duplicate((uio_t) buffers); + break; + +#ifndef __LP64__ + case kIOMemoryTypeVirtual64: + case kIOMemoryTypePhysical64: + if (count == 1 + && (((IOAddressRange *) buffers)->address + ((IOAddressRange *) buffers)->length) <= 0x100000000ULL) { + if (kIOMemoryTypeVirtual64 == type) + type = kIOMemoryTypeVirtual; + else + type = kIOMemoryTypePhysical; + _flags = (_flags & ~kIOMemoryTypeMask) | type | kIOMemoryAsReference; + _rangesIsAllocated = false; + _ranges.v = &_singleRange.v; + _singleRange.v.address = ((IOAddressRange *) buffers)->address; + _singleRange.v.length = ((IOAddressRange *) buffers)->length; + break; + } + _ranges.v64 = IONew(IOAddressRange, count); + if (!_ranges.v64) + return false; + bcopy(buffers, _ranges.v, count * sizeof(IOAddressRange)); + break; +#endif /* !__LP64__ */ + case kIOMemoryTypeVirtual: + case kIOMemoryTypePhysical: + if (count == 1) { + _flags |= kIOMemoryAsReference; +#ifndef __LP64__ + _rangesIsAllocated = false; +#endif /* !__LP64__ */ + _ranges.v = &_singleRange.v; + } else { + _ranges.v = IONew(IOVirtualRange, count); + if (!_ranges.v) + return false; + } + bcopy(buffers, _ranges.v, count * sizeof(IOVirtualRange)); + break; + } + } + + // Find starting address within the vector of ranges + Ranges vec = _ranges; + UInt32 length = 0; + UInt32 pages = 0; + for (unsigned ind = 0; ind < count; ind++) { + user_addr_t addr; + IOPhysicalLength len; + + // addr & len are returned by this function + getAddrLenForInd(addr, len, type, vec, ind); + pages += (atop_64(addr + len + PAGE_MASK) - atop_64(addr)); + len += length; + assert(len >= length); // Check for 32 bit wrap around + length = len; + + if ((kIOMemoryTypePhysical == type) || (kIOMemoryTypePhysical64 == type)) + { + ppnum_t highPage = atop_64(addr + len - 1); + if (highPage > _highestPage) + _highestPage = highPage; + } + } + _length = length; + _pages = pages; + _rangesCount = count; + + // Auto-prepare memory at creation time. + // Implied completion when descriptor is free-ed + if ((kIOMemoryTypePhysical == type) || (kIOMemoryTypePhysical64 == type)) + _wireCount++; // Physical MDs are, by definition, wired + else { /* kIOMemoryTypeVirtual | kIOMemoryTypeVirtual64 | kIOMemoryTypeUIO */ + ioGMDData *dataP; + unsigned dataSize = computeDataSize(_pages, /* upls */ count * 2); + + if (!_memoryEntries) { + _memoryEntries = OSData::withCapacity(dataSize); + if (!_memoryEntries) + return false; + } + else if (!_memoryEntries->initWithCapacity(dataSize)) + return false; + + _memoryEntries->appendBytes(0, sizeof(ioGMDData)); + dataP = getDataP(_memoryEntries); + dataP->fMapper = mapper; + dataP->fPageCnt = _pages; + + if ( (kIOMemoryPersistent & _flags) && !_memEntry) + _memEntry = createNamedEntry(); + + if ((_flags & kIOMemoryAutoPrepare) + && prepare() != kIOReturnSuccess) + return false; + } + } + + return true; } /* @@ -461,109 +955,62 @@ IOGeneralMemoryDescriptor::initWithPhysicalRanges( IOPhysicalRange * ranges, */ void IOGeneralMemoryDescriptor::free() { - LOCK; + IOOptionBits type = _flags & kIOMemoryTypeMask; + if( reserved) + { + LOCK; reserved->memory = 0; - UNLOCK; + UNLOCK; + } - while (_wireCount) - complete(); - if (_kernPtrAligned) - unmapFromKernel(); - if (_ranges.v && _rangesIsAllocated) - IODelete(_ranges.v, IOVirtualRange, _rangesCount); + if ((kIOMemoryTypePhysical != type) && (kIOMemoryTypePhysical64 != type)) + { + while (_wireCount) + complete(); + } + if (_memoryEntries) + _memoryEntries->release(); - if( reserved && reserved->devicePager) - device_pager_deallocate( reserved->devicePager ); + if (_ranges.v && !(kIOMemoryAsReference & _flags)) + { + if (kIOMemoryTypeUIO == type) + uio_free((uio_t) _ranges.v); +#ifndef __LP64__ + else if ((kIOMemoryTypeVirtual64 == type) || (kIOMemoryTypePhysical64 == type)) + IODelete(_ranges.v64, IOAddressRange, _rangesCount); +#endif /* !__LP64__ */ + else + IODelete(_ranges.v, IOVirtualRange, _rangesCount); + + _ranges.v = NULL; + } - // memEntry holds a ref on the device pager which owns reserved (ExpansionData) - // so no reserved access after this point - if( _memEntry) + if (reserved && reserved->devicePager) + device_pager_deallocate( (memory_object_t) reserved->devicePager ); + + // memEntry holds a ref on the device pager which owns reserved + // (ExpansionData) so no reserved access after this point + if (_memEntry) ipc_port_release_send( (ipc_port_t) _memEntry ); + + if (_prepareLock) + IOLockFree(_prepareLock); + super::free(); } -/* DEPRECATED */ void IOGeneralMemoryDescriptor::unmapFromKernel() -/* DEPRECATED */ { -/* DEPRECATED */ kern_return_t krtn; -/* DEPRECATED */ vm_offset_t off; -/* DEPRECATED */ // Pull the shared pages out of the task map -/* DEPRECATED */ // Do we need to unwire it first? -/* DEPRECATED */ for ( off = 0; off < _kernSize; off += page_size ) -/* DEPRECATED */ { -/* DEPRECATED */ pmap_change_wiring( -/* DEPRECATED */ kernel_pmap, -/* DEPRECATED */ _kernPtrAligned + off, -/* DEPRECATED */ FALSE); -/* DEPRECATED */ -/* DEPRECATED */ pmap_remove( -/* DEPRECATED */ kernel_pmap, -/* DEPRECATED */ _kernPtrAligned + off, -/* DEPRECATED */ _kernPtrAligned + off + page_size); -/* DEPRECATED */ } -/* DEPRECATED */ // Free the former shmem area in the task -/* DEPRECATED */ krtn = vm_deallocate(kernel_map, -/* DEPRECATED */ _kernPtrAligned, -/* DEPRECATED */ _kernSize ); -/* DEPRECATED */ assert(krtn == KERN_SUCCESS); -/* DEPRECATED */ _kernPtrAligned = 0; -/* DEPRECATED */ } -/* DEPRECATED */ -/* DEPRECATED */ void IOGeneralMemoryDescriptor::mapIntoKernel(unsigned rangeIndex) -/* DEPRECATED */ { -/* DEPRECATED */ kern_return_t krtn; -/* DEPRECATED */ vm_offset_t off; -/* DEPRECATED */ -/* DEPRECATED */ if (_kernPtrAligned) -/* DEPRECATED */ { -/* DEPRECATED */ if (_kernPtrAtIndex == rangeIndex) return; -/* DEPRECATED */ unmapFromKernel(); -/* DEPRECATED */ assert(_kernPtrAligned == 0); -/* DEPRECATED */ } -/* DEPRECATED */ -/* DEPRECATED */ vm_offset_t srcAlign = trunc_page(_ranges.v[rangeIndex].address); -/* DEPRECATED */ -/* DEPRECATED */ _kernSize = trunc_page(_ranges.v[rangeIndex].address + -/* DEPRECATED */ _ranges.v[rangeIndex].length + -/* DEPRECATED */ page_size - 1) - srcAlign; -/* DEPRECATED */ -/* DEPRECATED */ /* Find some memory of the same size in kernel task. We use vm_allocate() */ -/* DEPRECATED */ /* to do this. vm_allocate inserts the found memory object in the */ -/* DEPRECATED */ /* target task's map as a side effect. */ -/* DEPRECATED */ krtn = vm_allocate( kernel_map, -/* DEPRECATED */ &_kernPtrAligned, -/* DEPRECATED */ _kernSize, -/* DEPRECATED */ VM_FLAGS_ANYWHERE|VM_MAKE_TAG(VM_MEMORY_IOKIT) ); // Find first fit -/* DEPRECATED */ assert(krtn == KERN_SUCCESS); -/* DEPRECATED */ if(krtn) return; -/* DEPRECATED */ -/* DEPRECATED */ /* For each page in the area allocated from the kernel map, */ -/* DEPRECATED */ /* find the physical address of the page. */ -/* DEPRECATED */ /* Enter the page in the target task's pmap, at the */ -/* DEPRECATED */ /* appropriate target task virtual address. */ -/* DEPRECATED */ for ( off = 0; off < _kernSize; off += page_size ) -/* DEPRECATED */ { -/* DEPRECATED */ vm_offset_t kern_phys_addr, phys_addr; -/* DEPRECATED */ if( _task) -/* DEPRECATED */ phys_addr = pmap_extract( get_task_pmap(_task), srcAlign + off ); -/* DEPRECATED */ else -/* DEPRECATED */ phys_addr = srcAlign + off; -/* DEPRECATED */ assert(phys_addr); -/* DEPRECATED */ if(phys_addr == 0) return; -/* DEPRECATED */ -/* DEPRECATED */ // Check original state. -/* DEPRECATED */ kern_phys_addr = pmap_extract( kernel_pmap, _kernPtrAligned + off ); -/* DEPRECATED */ // Set virtual page to point to the right physical one -/* DEPRECATED */ pmap_enter( -/* DEPRECATED */ kernel_pmap, -/* DEPRECATED */ _kernPtrAligned + off, -/* DEPRECATED */ phys_addr, -/* DEPRECATED */ VM_PROT_READ|VM_PROT_WRITE, -/* DEPRECATED */ VM_WIMG_USE_DEFAULT, -/* DEPRECATED */ TRUE); -/* DEPRECATED */ } -/* DEPRECATED */ _kernPtrAtIndex = rangeIndex; -/* DEPRECATED */ } +#ifndef __LP64__ +void IOGeneralMemoryDescriptor::unmapFromKernel() +{ + panic("IOGMD::unmapFromKernel deprecated"); +} + +void IOGeneralMemoryDescriptor::mapIntoKernel(unsigned rangeIndex) +{ + panic("IOGMD::mapIntoKernel deprecated"); +} +#endif /* !__LP64__ */ /* * getDirection: @@ -572,7 +1019,11 @@ void IOGeneralMemoryDescriptor::free() */ IODirection IOMemoryDescriptor::getDirection() const { - return _direction; +#ifndef __LP64__ + if (_direction) + return _direction; +#endif /* !__LP64__ */ + return (IODirection) (_flags & kIOMemoryDirectionMask); } /* @@ -585,8 +1036,7 @@ IOByteCount IOMemoryDescriptor::getLength() const return _length; } -void IOMemoryDescriptor::setTag( - IOOptionBits tag ) +void IOMemoryDescriptor::setTag( IOOptionBits tag ) { _tag = tag; } @@ -596,495 +1046,1181 @@ IOOptionBits IOMemoryDescriptor::getTag( void ) return( _tag); } -IOPhysicalAddress IOMemoryDescriptor::getSourceSegment( IOByteCount offset, - IOByteCount * length ) +#ifndef __LP64__ +// @@@ gvdl: who is using this API? Seems like a wierd thing to implement. +IOPhysicalAddress +IOMemoryDescriptor::getSourceSegment( IOByteCount offset, IOByteCount * length ) { - IOPhysicalAddress physAddr = 0; + addr64_t physAddr = 0; if( prepare() == kIOReturnSuccess) { - physAddr = getPhysicalSegment( offset, length ); + physAddr = getPhysicalSegment64( offset, length ); complete(); } - return( physAddr ); + return( (IOPhysicalAddress) physAddr ); // truncated but only page offset is used } +#endif /* !__LP64__ */ -IOByteCount IOMemoryDescriptor::readBytes( IOByteCount offset, - void * bytes, - IOByteCount withLength ) +IOByteCount IOMemoryDescriptor::readBytes + (IOByteCount offset, void *bytes, IOByteCount length) { - IOByteCount bytesCopied = 0; + addr64_t dstAddr = CAST_DOWN(addr64_t, bytes); + IOByteCount remaining; - assert(offset <= _length); - assert(offset <= _length - withLength); + // Assert that this entire I/O is withing the available range + assert(offset < _length); + assert(offset + length <= _length); + if (offset >= _length) { + return 0; + } - if ( offset < _length ) - { - withLength = min(withLength, _length - offset); + if (kIOMemoryThreadSafe & _flags) + LOCK; - while ( withLength ) // (process another source segment?) - { - IOPhysicalAddress sourceSegment; - IOByteCount sourceSegmentLength; + remaining = length = min(length, _length - offset); + while (remaining) { // (process another target segment?) + addr64_t srcAddr64; + IOByteCount srcLen; - sourceSegment = getPhysicalSegment(offset, &sourceSegmentLength); - if ( sourceSegment == 0 ) goto readBytesErr; + srcAddr64 = getPhysicalSegment(offset, &srcLen, kIOMemoryMapperNone); + if (!srcAddr64) + break; - sourceSegmentLength = min(sourceSegmentLength, withLength); + // Clip segment length to remaining + if (srcLen > remaining) + srcLen = remaining; - while ( sourceSegmentLength ) // (process another target segment?) - { - IOPhysicalAddress targetSegment; - IOByteCount targetSegmentLength; + copypv(srcAddr64, dstAddr, srcLen, + cppvPsrc | cppvNoRefSrc | cppvFsnk | cppvKmap); - targetSegment = pmap_extract_safe(kernel_task, (vm_offset_t) bytes); - if ( targetSegment == 0 ) goto readBytesErr; + dstAddr += srcLen; + offset += srcLen; + remaining -= srcLen; + } - targetSegmentLength = min(next_page(targetSegment) - targetSegment, sourceSegmentLength); + if (kIOMemoryThreadSafe & _flags) + UNLOCK; - if ( sourceSegment + targetSegmentLength > next_page(sourceSegment) ) - { - IOByteCount pageLength; + assert(!remaining); - pageLength = next_page(sourceSegment) - sourceSegment; + return length - remaining; +} - bcopy_phys_safe( /* from */ (char *) sourceSegment, - /* to */ (char *) targetSegment, - /* size */ (int ) pageLength ); +IOByteCount IOMemoryDescriptor::writeBytes + (IOByteCount offset, const void *bytes, IOByteCount length) +{ + addr64_t srcAddr = CAST_DOWN(addr64_t, bytes); + IOByteCount remaining; - ((UInt8 *) bytes) += pageLength; - bytesCopied += pageLength; - offset += pageLength; - sourceSegment += pageLength; - sourceSegmentLength -= pageLength; - targetSegment += pageLength; - targetSegmentLength -= pageLength; - withLength -= pageLength; - } + // Assert that this entire I/O is withing the available range + assert(offset < _length); + assert(offset + length <= _length); - bcopy_phys_safe( /* from */ (char *) sourceSegment, - /* to */ (char *) targetSegment, - /* size */ (int ) targetSegmentLength ); + assert( !(kIOMemoryPreparedReadOnly & _flags) ); - ((UInt8 *) bytes) += targetSegmentLength; - bytesCopied += targetSegmentLength; - offset += targetSegmentLength; - sourceSegment += targetSegmentLength; - sourceSegmentLength -= targetSegmentLength; - withLength -= targetSegmentLength; - } - } + if ( (kIOMemoryPreparedReadOnly & _flags) || offset >= _length) { + return 0; } -readBytesErr: + if (kIOMemoryThreadSafe & _flags) + LOCK; - if ( bytesCopied ) - { - // We mark the destination pages as modified, just - // in case they are made pageable later on in life. + remaining = length = min(length, _length - offset); + while (remaining) { // (process another target segment?) + addr64_t dstAddr64; + IOByteCount dstLen; - pmap_modify_pages( /* pmap */ kernel_pmap, - /* start */ trunc_page(((vm_offset_t) bytes) - bytesCopied), - /* end */ round_page(((vm_offset_t) bytes)) ); - } + dstAddr64 = getPhysicalSegment(offset, &dstLen, kIOMemoryMapperNone); + if (!dstAddr64) + break; - return bytesCopied; -} + // Clip segment length to remaining + if (dstLen > remaining) + dstLen = remaining; -IOByteCount IOMemoryDescriptor::writeBytes( IOByteCount offset, - const void * bytes, - IOByteCount withLength ) -{ - IOByteCount bytesCopied = 0; + copypv(srcAddr, (addr64_t) dstAddr64, dstLen, + cppvPsnk | cppvFsnk | cppvNoRefSrc | cppvNoModSnk | cppvKmap); - assert(offset <= _length); - assert(offset <= _length - withLength); + srcAddr += dstLen; + offset += dstLen; + remaining -= dstLen; + } - if ( offset < _length ) - { - withLength = min(withLength, _length - offset); + if (kIOMemoryThreadSafe & _flags) + UNLOCK; - while ( withLength ) // (process another target segment?) - { - IOPhysicalAddress targetSegment; - IOByteCount targetSegmentLength; + assert(!remaining); - targetSegment = getPhysicalSegment(offset, &targetSegmentLength); - if ( targetSegment == 0 ) goto writeBytesErr; + return length - remaining; +} - targetSegmentLength = min(targetSegmentLength, withLength); +// osfmk/device/iokit_rpc.c +extern "C" unsigned int IODefaultCacheBits(addr64_t pa); - while ( targetSegmentLength ) // (process another source segment?) - { - IOPhysicalAddress sourceSegment; - IOByteCount sourceSegmentLength; +#ifndef __LP64__ +void IOGeneralMemoryDescriptor::setPosition(IOByteCount position) +{ + panic("IOGMD::setPosition deprecated"); +} +#endif /* !__LP64__ */ - sourceSegment = pmap_extract_safe(kernel_task, (vm_offset_t) bytes); - if ( sourceSegment == 0 ) goto writeBytesErr; +static volatile SInt64 gIOMDPreparationID __attribute__((aligned(8))) = (1ULL << 32); - sourceSegmentLength = min(next_page(sourceSegment) - sourceSegment, targetSegmentLength); +uint64_t +IOGeneralMemoryDescriptor::getPreparationID( void ) +{ + ioGMDData *dataP; - if ( targetSegment + sourceSegmentLength > next_page(targetSegment) ) - { - IOByteCount pageLength; + if (!_wireCount) + return (kIOPreparationIDUnprepared); - pageLength = next_page(targetSegment) - targetSegment; + if (_flags & (kIOMemoryTypePhysical | kIOMemoryTypePhysical64)) + return (kIOPreparationIDAlwaysPrepared); - bcopy_phys_safe( /* from */ (char *) sourceSegment, - /* to */ (char *) targetSegment, - /* size */ (int ) pageLength ); + if (!_memoryEntries || !(dataP = getDataP(_memoryEntries))) + return (kIOPreparationIDUnprepared); - // We flush the data cache in case it is code we've copied, - // such that the instruction cache is in the know about it. + if (kIOPreparationIDUnprepared == dataP->fPreparationID) + { +#if defined(__ppc__ ) + dataP->fPreparationID = gIOMDPreparationID++; +#else + dataP->fPreparationID = OSIncrementAtomic64(&gIOMDPreparationID); +#endif + } + return (dataP->fPreparationID); +} - flush_dcache(targetSegment, pageLength, true); +uint64_t +IOMemoryDescriptor::getPreparationID( void ) +{ + return (kIOPreparationIDUnsupported); +} - ((UInt8 *) bytes) += pageLength; - bytesCopied += pageLength; - offset += pageLength; - sourceSegment += pageLength; - sourceSegmentLength -= pageLength; - targetSegment += pageLength; - targetSegmentLength -= pageLength; - withLength -= pageLength; - } +IOReturn IOGeneralMemoryDescriptor::dmaCommandOperation(DMACommandOps op, void *vData, UInt dataSize) const +{ + if (kIOMDGetCharacteristics == op) { - bcopy_phys_safe( /* from */ (char *) sourceSegment, - /* to */ (char *) targetSegment, - /* size */ (int ) sourceSegmentLength ); + if (dataSize < sizeof(IOMDDMACharacteristics)) + return kIOReturnUnderrun; - // We flush the data cache in case it is code we've copied, - // such that the instruction cache is in the know about it. + IOMDDMACharacteristics *data = (IOMDDMACharacteristics *) vData; + data->fLength = _length; + data->fSGCount = _rangesCount; + data->fPages = _pages; + data->fDirection = getDirection(); + if (!_wireCount) + data->fIsPrepared = false; + else { + data->fIsPrepared = true; + data->fHighestPage = _highestPage; + if (_memoryEntries) { + ioGMDData *gmdData = getDataP(_memoryEntries); + ioPLBlock *ioplList = getIOPLList(gmdData); + UInt count = getNumIOPL(_memoryEntries, gmdData); - flush_dcache(targetSegment, sourceSegmentLength, true); + data->fIsMapped = (gmdData->fMapper && _pages && (count > 0) + && ioplList[0].fMappedBase); + if (count == 1) + data->fPageAlign = (ioplList[0].fPageOffset & PAGE_MASK) | ~PAGE_MASK; + } + else + data->fIsMapped = false; + } - ((UInt8 *) bytes) += sourceSegmentLength; - bytesCopied += sourceSegmentLength; - offset += sourceSegmentLength; - targetSegment += sourceSegmentLength; - targetSegmentLength -= sourceSegmentLength; - withLength -= sourceSegmentLength; - } - } + return kIOReturnSuccess; + +#if IOMD_DEBUG_DMAACTIVE + } else if (kIOMDSetDMAActive == op) { + IOGeneralMemoryDescriptor * md = const_cast(this); + OSIncrementAtomic(&md->__iomd_reservedA); + } else if (kIOMDSetDMAInactive == op) { + IOGeneralMemoryDescriptor * md = const_cast(this); + if (md->__iomd_reservedA) + OSDecrementAtomic(&md->__iomd_reservedA); + else + panic("kIOMDSetDMAInactive"); +#endif /* IOMD_DEBUG_DMAACTIVE */ + + } else if (!(kIOMDWalkSegments & op)) + return kIOReturnBadArgument; + + // Get the next segment + struct InternalState { + IOMDDMAWalkSegmentArgs fIO; + UInt fOffset2Index; + UInt fIndex; + UInt fNextOffset; + } *isP; + + // Find the next segment + if (dataSize < sizeof(*isP)) + return kIOReturnUnderrun; + + isP = (InternalState *) vData; + UInt offset = isP->fIO.fOffset; + bool mapped = isP->fIO.fMapped; + + if (offset >= _length) + return (offset == _length)? kIOReturnOverrun : kIOReturnInternalError; + + // Validate the previous offset + UInt ind, off2Ind = isP->fOffset2Index; + if ((kIOMDFirstSegment != op) + && offset + && (offset == isP->fNextOffset || off2Ind <= offset)) + ind = isP->fIndex; + else + ind = off2Ind = 0; // Start from beginning + + UInt length; + UInt64 address; + if ( (_flags & kIOMemoryTypeMask) == kIOMemoryTypePhysical) { + + // Physical address based memory descriptor + const IOPhysicalRange *physP = (IOPhysicalRange *) &_ranges.p[0]; + + // Find the range after the one that contains the offset + mach_vm_size_t len; + for (len = 0; off2Ind <= offset; ind++) { + len = physP[ind].length; + off2Ind += len; + } + + // Calculate length within range and starting address + length = off2Ind - offset; + address = physP[ind - 1].address + len - length; + + // see how far we can coalesce ranges + while (ind < _rangesCount && address + length == physP[ind].address) { + len = physP[ind].length; + length += len; + off2Ind += len; + ind++; + } + + // correct contiguous check overshoot + ind--; + off2Ind -= len; + } +#ifndef __LP64__ + else if ( (_flags & kIOMemoryTypeMask) == kIOMemoryTypePhysical64) { + + // Physical address based memory descriptor + const IOAddressRange *physP = (IOAddressRange *) &_ranges.v64[0]; + + // Find the range after the one that contains the offset + mach_vm_size_t len; + for (len = 0; off2Ind <= offset; ind++) { + len = physP[ind].length; + off2Ind += len; + } + + // Calculate length within range and starting address + length = off2Ind - offset; + address = physP[ind - 1].address + len - length; + + // see how far we can coalesce ranges + while (ind < _rangesCount && address + length == physP[ind].address) { + len = physP[ind].length; + length += len; + off2Ind += len; + ind++; + } + + // correct contiguous check overshoot + ind--; + off2Ind -= len; } +#endif /* !__LP64__ */ + else do { + if (!_wireCount) + panic("IOGMD: not wired for the IODMACommand"); + + assert(_memoryEntries); + + ioGMDData * dataP = getDataP(_memoryEntries); + const ioPLBlock *ioplList = getIOPLList(dataP); + UInt numIOPLs = getNumIOPL(_memoryEntries, dataP); + upl_page_info_t *pageList = getPageList(dataP); + + assert(numIOPLs > 0); + + // Scan through iopl info blocks looking for block containing offset + while (ind < numIOPLs && offset >= ioplList[ind].fIOMDOffset) + ind++; + + // Go back to actual range as search goes past it + ioPLBlock ioplInfo = ioplList[ind - 1]; + off2Ind = ioplInfo.fIOMDOffset; + + if (ind < numIOPLs) + length = ioplList[ind].fIOMDOffset; + else + length = _length; + length -= offset; // Remainder within iopl + + // Subtract offset till this iopl in total list + offset -= off2Ind; + + // If a mapped address is requested and this is a pre-mapped IOPL + // then just need to compute an offset relative to the mapped base. + if (mapped && ioplInfo.fMappedBase) { + offset += (ioplInfo.fPageOffset & PAGE_MASK); + address = ptoa_64(ioplInfo.fMappedBase) + offset; + continue; // Done leave do/while(false) now + } + + // The offset is rebased into the current iopl. + // Now add the iopl 1st page offset. + offset += ioplInfo.fPageOffset; + + // For external UPLs the fPageInfo field points directly to + // the upl's upl_page_info_t array. + if (ioplInfo.fFlags & kIOPLExternUPL) + pageList = (upl_page_info_t *) ioplInfo.fPageInfo; + else + pageList = &pageList[ioplInfo.fPageInfo]; + + // Check for direct device non-paged memory + if ( ioplInfo.fFlags & kIOPLOnDevice ) { + address = ptoa_64(pageList->phys_addr) + offset; + continue; // Done leave do/while(false) now + } + + // Now we need compute the index into the pageList + UInt pageInd = atop_32(offset); + offset &= PAGE_MASK; + + // Compute the starting address of this segment + IOPhysicalAddress pageAddr = pageList[pageInd].phys_addr; + if (!pageAddr) { + panic("!pageList phys_addr"); + } + + address = ptoa_64(pageAddr) + offset; + + // length is currently set to the length of the remainider of the iopl. + // We need to check that the remainder of the iopl is contiguous. + // This is indicated by pageList[ind].phys_addr being sequential. + IOByteCount contigLength = PAGE_SIZE - offset; + while (contigLength < length + && ++pageAddr == pageList[++pageInd].phys_addr) + { + contigLength += PAGE_SIZE; + } + + if (contigLength < length) + length = contigLength; + + + assert(address); + assert(length); -writeBytesErr: + } while (false); - return bytesCopied; + // Update return values and state + isP->fIO.fIOVMAddr = address; + isP->fIO.fLength = length; + isP->fIndex = ind; + isP->fOffset2Index = off2Ind; + isP->fNextOffset = isP->fIO.fOffset + length; + + return kIOReturnSuccess; } -extern "C" { -// osfmk/device/iokit_rpc.c -extern unsigned int IOTranslateCacheBits(struct phys_entry *pp); -}; +addr64_t +IOGeneralMemoryDescriptor::getPhysicalSegment(IOByteCount offset, IOByteCount *lengthOfSegment, IOOptionBits options) +{ + IOReturn ret; + addr64_t address = 0; + IOByteCount length = 0; + IOMapper * mapper = gIOSystemMapper; + IOOptionBits type = _flags & kIOMemoryTypeMask; + + if (lengthOfSegment) + *lengthOfSegment = 0; + + if (offset >= _length) + return 0; -/* DEPRECATED */ void IOGeneralMemoryDescriptor::setPosition(IOByteCount position) -/* DEPRECATED */ { -/* DEPRECATED */ assert(position <= _length); -/* DEPRECATED */ -/* DEPRECATED */ if (position >= _length) -/* DEPRECATED */ { -/* DEPRECATED */ _position = _length; -/* DEPRECATED */ _positionAtIndex = _rangesCount; /* careful: out-of-bounds */ -/* DEPRECATED */ _positionAtOffset = 0; -/* DEPRECATED */ return; -/* DEPRECATED */ } -/* DEPRECATED */ -/* DEPRECATED */ if (position < _position) -/* DEPRECATED */ { -/* DEPRECATED */ _positionAtOffset = position; -/* DEPRECATED */ _positionAtIndex = 0; -/* DEPRECATED */ } -/* DEPRECATED */ else -/* DEPRECATED */ { -/* DEPRECATED */ _positionAtOffset += (position - _position); -/* DEPRECATED */ } -/* DEPRECATED */ _position = position; -/* DEPRECATED */ -/* DEPRECATED */ while (_positionAtOffset >= _ranges.v[_positionAtIndex].length) -/* DEPRECATED */ { -/* DEPRECATED */ _positionAtOffset -= _ranges.v[_positionAtIndex].length; -/* DEPRECATED */ _positionAtIndex++; -/* DEPRECATED */ } -/* DEPRECATED */ } - -IOPhysicalAddress IOGeneralMemoryDescriptor::getPhysicalSegment( IOByteCount offset, - IOByteCount * lengthOfSegment ) -{ - IOPhysicalAddress address = 0; - IOPhysicalLength length = 0; - - -// assert(offset <= _length); - - if ( offset < _length ) // (within bounds?) + // IOMemoryDescriptor::doMap() cannot use getPhysicalSegment() to obtain the page offset, since it must + // support the unwired memory case in IOGeneralMemoryDescriptor, and hibernate_write_image() cannot use + // map()->getVirtualAddress() to obtain the kernel pointer, since it must prevent the memory allocation + // due to IOMemoryMap, so _kIOMemorySourceSegment is a necessary evil until all of this gets cleaned up + + if ((options & _kIOMemorySourceSegment) && (kIOMemoryTypeUPL != type)) { unsigned rangesIndex = 0; + Ranges vec = _ranges; + user_addr_t addr; + + // Find starting address within the vector of ranges + for (;;) { + getAddrLenForInd(addr, length, type, vec, rangesIndex); + if (offset < length) + break; + offset -= length; // (make offset relative) + rangesIndex++; + } + + // Now that we have the starting range, + // lets find the last contiguous range + addr += offset; + length -= offset; + + for ( ++rangesIndex; rangesIndex < _rangesCount; rangesIndex++ ) { + user_addr_t newAddr; + IOPhysicalLength newLen; + + getAddrLenForInd(newAddr, newLen, type, vec, rangesIndex); + if (addr + length != newAddr) + break; + length += newLen; + } + if (addr) + address = (IOPhysicalAddress) addr; // Truncate address to 32bit + } + else + { + IOMDDMAWalkSegmentState _state; + IOMDDMAWalkSegmentArgs * state = (IOMDDMAWalkSegmentArgs *) &_state; + + state->fOffset = offset; + state->fLength = _length - offset; + state->fMapped = (0 == (options & kIOMemoryMapperNone)); + + ret = dmaCommandOperation(kIOMDFirstSegment, _state, sizeof(_state)); + + if ((kIOReturnSuccess != ret) && (kIOReturnOverrun != ret)) + DEBG("getPhysicalSegment dmaCommandOperation(%lx), %p, offset %qx, addr %qx, len %qx\n", + ret, this, state->fOffset, + state->fIOVMAddr, state->fLength); + if (kIOReturnSuccess == ret) + { + address = state->fIOVMAddr; + length = state->fLength; + } - for ( ; offset >= _ranges.v[rangesIndex].length; rangesIndex++ ) - { - offset -= _ranges.v[rangesIndex].length; // (make offset relative) - } + // dmaCommandOperation() does not distinguish between "mapped" and "unmapped" physical memory, even + // with fMapped set correctly, so we must handle the transformation here until this gets cleaned up + + if (mapper && ((kIOMemoryTypePhysical == type) || (kIOMemoryTypePhysical64 == type))) + { + if ((options & kIOMemoryMapperNone) && !(_flags & kIOMemoryMapperNone)) + { + addr64_t origAddr = address; + IOByteCount origLen = length; + + address = mapper->mapAddr(origAddr); + length = page_size - (address & (page_size - 1)); + while ((length < origLen) + && ((address + length) == mapper->mapAddr(origAddr + length))) + length += page_size; + if (length > origLen) + length = origLen; + } +#ifdef __LP64__ + else if (!(options & kIOMemoryMapperNone) && (_flags & kIOMemoryMapperNone)) + { + panic("getPhysicalSegment not mapped for I/O"); + } +#endif /* __LP64__ */ + } + } - if ( _task == 0 ) // (physical memory?) - { - address = _ranges.v[rangesIndex].address + offset; - length = _ranges.v[rangesIndex].length - offset; + if (!address) + length = 0; - for ( ++rangesIndex; rangesIndex < _rangesCount; rangesIndex++ ) - { - if ( address + length != _ranges.v[rangesIndex].address ) break; + if (lengthOfSegment) + *lengthOfSegment = length; - length += _ranges.v[rangesIndex].length; // (coalesce ranges) - } - } - else // (virtual memory?) - { - vm_address_t addressVirtual = _ranges.v[rangesIndex].address + offset; + return (address); +} - assert((0 == (kIOMemoryRequiresWire & _flags)) || _wireCount); +#ifndef __LP64__ +addr64_t +IOMemoryDescriptor::getPhysicalSegment(IOByteCount offset, IOByteCount *lengthOfSegment, IOOptionBits options) +{ + addr64_t address = 0; - address = pmap_extract_safe(_task, addressVirtual); - length = next_page(addressVirtual) - addressVirtual; - length = min(_ranges.v[rangesIndex].length - offset, length); - } + if (options & _kIOMemorySourceSegment) + { + address = getSourceSegment(offset, lengthOfSegment); + } + else if (options & kIOMemoryMapperNone) + { + address = getPhysicalSegment64(offset, lengthOfSegment); + } + else + { + address = getPhysicalSegment(offset, lengthOfSegment); + } - assert(address); - if ( address == 0 ) length = 0; + return (address); +} + +addr64_t +IOGeneralMemoryDescriptor::getPhysicalSegment64(IOByteCount offset, IOByteCount *lengthOfSegment) +{ + return (getPhysicalSegment(offset, lengthOfSegment, kIOMemoryMapperNone)); +} + +IOPhysicalAddress +IOGeneralMemoryDescriptor::getPhysicalSegment(IOByteCount offset, IOByteCount *lengthOfSegment) +{ + addr64_t address = 0; + IOByteCount length = 0; + + address = getPhysicalSegment(offset, lengthOfSegment, 0); + + if (lengthOfSegment) + length = *lengthOfSegment; + + if ((address + length) > 0x100000000ULL) + { + panic("getPhysicalSegment() out of 32b range 0x%qx, len 0x%lx, class %s", + address, (long) length, (getMetaClass())->getClassName()); } - if ( lengthOfSegment ) *lengthOfSegment = length; + return ((IOPhysicalAddress) address); +} - return address; +addr64_t +IOMemoryDescriptor::getPhysicalSegment64(IOByteCount offset, IOByteCount *lengthOfSegment) +{ + IOPhysicalAddress phys32; + IOByteCount length; + addr64_t phys64; + IOMapper * mapper = 0; + + phys32 = getPhysicalSegment(offset, lengthOfSegment); + if (!phys32) + return 0; + + if (gIOSystemMapper) + mapper = gIOSystemMapper; + + if (mapper) + { + IOByteCount origLen; + + phys64 = mapper->mapAddr(phys32); + origLen = *lengthOfSegment; + length = page_size - (phys64 & (page_size - 1)); + while ((length < origLen) + && ((phys64 + length) == mapper->mapAddr(phys32 + length))) + length += page_size; + if (length > origLen) + length = origLen; + + *lengthOfSegment = length; + } + else + phys64 = (addr64_t) phys32; + + return phys64; } -IOPhysicalAddress IOGeneralMemoryDescriptor::getSourceSegment( IOByteCount offset, - IOByteCount * lengthOfSegment ) +IOPhysicalAddress +IOMemoryDescriptor::getPhysicalSegment(IOByteCount offset, IOByteCount *lengthOfSegment) { - IOPhysicalAddress address = 0; - IOPhysicalLength length = 0; + return ((IOPhysicalAddress) getPhysicalSegment(offset, lengthOfSegment, 0)); +} + +IOPhysicalAddress +IOGeneralMemoryDescriptor::getSourceSegment(IOByteCount offset, IOByteCount *lengthOfSegment) +{ + return ((IOPhysicalAddress) getPhysicalSegment(offset, lengthOfSegment, _kIOMemorySourceSegment)); +} + +void * IOGeneralMemoryDescriptor::getVirtualSegment(IOByteCount offset, + IOByteCount * lengthOfSegment) +{ + if (_task == kernel_task) + return (void *) getSourceSegment(offset, lengthOfSegment); + else + panic("IOGMD::getVirtualSegment deprecated"); - assert(offset <= _length); + return 0; +} +#endif /* !__LP64__ */ + +IOReturn +IOMemoryDescriptor::dmaCommandOperation(DMACommandOps op, void *vData, UInt dataSize) const +{ + if (kIOMDGetCharacteristics == op) { + if (dataSize < sizeof(IOMDDMACharacteristics)) + return kIOReturnUnderrun; + + IOMDDMACharacteristics *data = (IOMDDMACharacteristics *) vData; + data->fLength = getLength(); + data->fSGCount = 0; + data->fDirection = getDirection(); + if (IOMapper::gSystem) + data->fIsMapped = true; + data->fIsPrepared = true; // Assume prepared - fails safe + } + else if (kIOMDWalkSegments & op) { + if (dataSize < sizeof(IOMDDMAWalkSegmentArgs)) + return kIOReturnUnderrun; + + IOMDDMAWalkSegmentArgs *data = (IOMDDMAWalkSegmentArgs *) vData; + IOByteCount offset = (IOByteCount) data->fOffset; + + IOPhysicalLength length; + IOMemoryDescriptor *ncmd = const_cast(this); + if (data->fMapped && IOMapper::gSystem) + data->fIOVMAddr = ncmd->getPhysicalSegment(offset, &length); + else + data->fIOVMAddr = ncmd->getPhysicalSegment(offset, &length, kIOMemoryMapperNone); + data->fLength = length; + } + else + return kIOReturnBadArgument; + + return kIOReturnSuccess; +} + +static IOReturn +purgeableControlBits(IOOptionBits newState, vm_purgable_t * control, int * state) +{ + IOReturn err = kIOReturnSuccess; - if ( offset < _length ) // (within bounds?) + *control = VM_PURGABLE_SET_STATE; + switch (newState) { - unsigned rangesIndex = 0; + case kIOMemoryPurgeableKeepCurrent: + *control = VM_PURGABLE_GET_STATE; + break; + + case kIOMemoryPurgeableNonVolatile: + *state = VM_PURGABLE_NONVOLATILE; + break; + case kIOMemoryPurgeableVolatile: + *state = VM_PURGABLE_VOLATILE; + break; + case kIOMemoryPurgeableEmpty: + *state = VM_PURGABLE_EMPTY; + break; + default: + err = kIOReturnBadArgument; + break; + } + return (err); +} + +static IOReturn +purgeableStateBits(int * state) +{ + IOReturn err = kIOReturnSuccess; + + switch (*state) + { + case VM_PURGABLE_NONVOLATILE: + *state = kIOMemoryPurgeableNonVolatile; + break; + case VM_PURGABLE_VOLATILE: + *state = kIOMemoryPurgeableVolatile; + break; + case VM_PURGABLE_EMPTY: + *state = kIOMemoryPurgeableEmpty; + break; + default: + *state = kIOMemoryPurgeableNonVolatile; + err = kIOReturnNotReady; + break; + } + return (err); +} + +IOReturn +IOGeneralMemoryDescriptor::setPurgeable( IOOptionBits newState, + IOOptionBits * oldState ) +{ + IOReturn err = kIOReturnSuccess; + vm_purgable_t control; + int state; - for ( ; offset >= _ranges.v[rangesIndex].length; rangesIndex++ ) + if (_memEntry) + { + err = super::setPurgeable(newState, oldState); + } + else + { + if (kIOMemoryThreadSafe & _flags) + LOCK; + do + { + // Find the appropriate vm_map for the given task + vm_map_t curMap; + if (_task == kernel_task && (kIOMemoryBufferPageable & _flags)) + { + err = kIOReturnNotReady; + break; + } + else + curMap = get_task_map(_task); + + // can only do one range + Ranges vec = _ranges; + IOOptionBits type = _flags & kIOMemoryTypeMask; + user_addr_t addr; + IOByteCount len; + getAddrLenForInd(addr, len, type, vec, 0); + + err = purgeableControlBits(newState, &control, &state); + if (kIOReturnSuccess != err) + break; + err = mach_vm_purgable_control(curMap, addr, control, &state); + if (oldState) + { + if (kIOReturnSuccess == err) + { + err = purgeableStateBits(&state); + *oldState = state; + } + } + } + while (false); + if (kIOMemoryThreadSafe & _flags) + UNLOCK; + } + return (err); +} + +IOReturn IOMemoryDescriptor::setPurgeable( IOOptionBits newState, + IOOptionBits * oldState ) +{ + IOReturn err = kIOReturnSuccess; + vm_purgable_t control; + int state; + + if (kIOMemoryThreadSafe & _flags) + LOCK; + + do + { + if (!_memEntry) { - offset -= _ranges.v[rangesIndex].length; // (make offset relative) + err = kIOReturnNotReady; + break; } + err = purgeableControlBits(newState, &control, &state); + if (kIOReturnSuccess != err) + break; + err = mach_memory_entry_purgable_control((ipc_port_t) _memEntry, control, &state); + if (oldState) + { + if (kIOReturnSuccess == err) + { + err = purgeableStateBits(&state); + *oldState = state; + } + } + } + while (false); - address = _ranges.v[rangesIndex].address + offset; - length = _ranges.v[rangesIndex].length - offset; + if (kIOMemoryThreadSafe & _flags) + UNLOCK; - for ( ++rangesIndex; rangesIndex < _rangesCount; rangesIndex++ ) - { - if ( address + length != _ranges.v[rangesIndex].address ) break; + return (err); +} - length += _ranges.v[rangesIndex].length; // (coalesce ranges) - } +extern "C" void dcache_incoherent_io_flush64(addr64_t pa, unsigned int count); +extern "C" void dcache_incoherent_io_store64(addr64_t pa, unsigned int count); - assert(address); - if ( address == 0 ) length = 0; - } - - if ( lengthOfSegment ) *lengthOfSegment = length; - - return address; -} - -/* DEPRECATED */ /* USE INSTEAD: map(), readBytes(), writeBytes() */ -/* DEPRECATED */ void * IOGeneralMemoryDescriptor::getVirtualSegment(IOByteCount offset, -/* DEPRECATED */ IOByteCount * lengthOfSegment) -/* DEPRECATED */ { -/* DEPRECATED */ if( offset != _position) -/* DEPRECATED */ setPosition( offset ); -/* DEPRECATED */ -/* DEPRECATED */ assert(_position <= _length); -/* DEPRECATED */ -/* DEPRECATED */ /* Fail gracefully if the position is at (or past) the end-of-buffer. */ -/* DEPRECATED */ if (_position >= _length) -/* DEPRECATED */ { -/* DEPRECATED */ *lengthOfSegment = 0; -/* DEPRECATED */ return 0; -/* DEPRECATED */ } -/* DEPRECATED */ -/* DEPRECATED */ /* Compute the relative length to the end of this virtual segment. */ -/* DEPRECATED */ *lengthOfSegment = _ranges.v[_positionAtIndex].length - _positionAtOffset; -/* DEPRECATED */ -/* DEPRECATED */ /* Compute the relative address of this virtual segment. */ -/* DEPRECATED */ if (_task == kernel_task) -/* DEPRECATED */ return (void *)(_ranges.v[_positionAtIndex].address + _positionAtOffset); -/* DEPRECATED */ else -/* DEPRECATED */ { -/* DEPRECATED */ vm_offset_t off; -/* DEPRECATED */ -/* DEPRECATED */ mapIntoKernel(_positionAtIndex); -/* DEPRECATED */ -/* DEPRECATED */ off = _ranges.v[_kernPtrAtIndex].address; -/* DEPRECATED */ off -= trunc_page(off); -/* DEPRECATED */ -/* DEPRECATED */ return (void *) (_kernPtrAligned + off + _positionAtOffset); -/* DEPRECATED */ } -/* DEPRECATED */ } -/* DEPRECATED */ /* USE INSTEAD: map(), readBytes(), writeBytes() */ +static void SetEncryptOp(addr64_t pa, unsigned int count) +{ + ppnum_t page, end; -/* - * prepare - * - * Prepare the memory for an I/O transfer. This involves paging in - * the memory, if necessary, and wiring it down for the duration of - * the transfer. The complete() method completes the processing of - * the memory after the I/O transfer finishes. This method needn't - * called for non-pageable memory. - */ -IOReturn IOGeneralMemoryDescriptor::prepare( - IODirection forDirection = kIODirectionNone) + page = atop_64(round_page_64(pa)); + end = atop_64(trunc_page_64(pa + count)); + for (; page < end; page++) + { + pmap_clear_noencrypt(page); + } +} + +static void ClearEncryptOp(addr64_t pa, unsigned int count) { - UInt rangeIndex = 0; + ppnum_t page, end; - if((_wireCount == 0) && (kIOMemoryRequiresWire & _flags)) { - kern_return_t rc; + page = atop_64(round_page_64(pa)); + end = atop_64(trunc_page_64(pa + count)); + for (; page < end; page++) + { + pmap_set_noencrypt(page); + } +} - if(forDirection == kIODirectionNone) - forDirection = _direction; +IOReturn IOMemoryDescriptor::performOperation( IOOptionBits options, + IOByteCount offset, IOByteCount length ) +{ + IOByteCount remaining; + void (*func)(addr64_t pa, unsigned int count) = 0; - vm_prot_t access; + switch (options) + { + case kIOMemoryIncoherentIOFlush: + func = &dcache_incoherent_io_flush64; + break; + case kIOMemoryIncoherentIOStore: + func = &dcache_incoherent_io_store64; + break; + + case kIOMemorySetEncrypted: + func = &SetEncryptOp; + break; + case kIOMemoryClearEncrypted: + func = &ClearEncryptOp; + break; + } - switch (forDirection) - { - case kIODirectionIn: - access = VM_PROT_WRITE; - break; + if (!func) + return (kIOReturnUnsupported); - case kIODirectionOut: - access = VM_PROT_READ; - break; + if (kIOMemoryThreadSafe & _flags) + LOCK; - default: - access = VM_PROT_READ | VM_PROT_WRITE; - break; - } + remaining = length = min(length, getLength() - offset); + while (remaining) + // (process another target segment?) + { + addr64_t dstAddr64; + IOByteCount dstLen; - // - // Check user read/write access to the data buffer. - // + dstAddr64 = getPhysicalSegment(offset, &dstLen, kIOMemoryMapperNone); + if (!dstAddr64) + break; - for (rangeIndex = 0; rangeIndex < _rangesCount; rangeIndex++) - { - vm_offset_t checkBase = trunc_page(_ranges.v[rangeIndex].address); - vm_size_t checkSize = round_page(_ranges.v[rangeIndex].length ); + // Clip segment length to remaining + if (dstLen > remaining) + dstLen = remaining; - while (checkSize) - { - vm_region_basic_info_data_t regionInfo; - mach_msg_type_number_t regionInfoSize = sizeof(regionInfo); - vm_size_t regionSize; - - if ( (vm_region( - /* map */ getMapForTask(_task, checkBase), - /* address */ &checkBase, - /* size */ ®ionSize, - /* flavor */ VM_REGION_BASIC_INFO, - /* info */ (vm_region_info_t) ®ionInfo, - /* info size */ ®ionInfoSize, - /* object name */ 0 ) != KERN_SUCCESS ) || - ( (forDirection & kIODirectionIn ) && - !(regionInfo.protection & VM_PROT_WRITE) ) || - ( (forDirection & kIODirectionOut) && - !(regionInfo.protection & VM_PROT_READ ) ) ) - { - return kIOReturnVMError; - } + (*func)(dstAddr64, dstLen); - assert((regionSize & PAGE_MASK) == 0); - - regionSize = min(regionSize, checkSize); - checkSize -= regionSize; - checkBase += regionSize; - } // (for each vm region) - } // (for each io range) - - for (rangeIndex = 0; rangeIndex < _rangesCount; rangeIndex++) { - - vm_offset_t srcAlign = trunc_page(_ranges.v[rangeIndex].address); - IOByteCount srcAlignEnd = trunc_page(_ranges.v[rangeIndex].address + - _ranges.v[rangeIndex].length + - page_size - 1); - - vm_map_t taskVMMap = getMapForTask(_task, srcAlign); - - // If this I/O is for a user land task then protect ourselves - // against COW and other vm_shenanigans - if (_task && _task != kernel_task) { - // setup a data object to hold the 'named' memory regions - // @@@ gvdl: If we fail to allocate an OSData we will just - // hope for the best for the time being. Lets not fail a - // prepare at this late stage in product release. - if (!_memoryEntries) - _memoryEntries = OSData::withCapacity(16); - if (_memoryEntries) { - vm_object_offset_t desiredSize = srcAlignEnd - srcAlign; - vm_object_offset_t entryStart = srcAlign; - ipc_port_t memHandle; - - do { - vm_object_offset_t actualSize = desiredSize; - - rc = mach_make_memory_entry_64 - (taskVMMap, &actualSize, entryStart, - forDirection, &memHandle, NULL); - if (KERN_SUCCESS != rc) { - IOLog("IOMemoryDescriptor::prepare mach_make_memory_entry_64 failed: %d\n", rc); - goto abortExit; - } - - _memoryEntries-> - appendBytes(&memHandle, sizeof(memHandle)); - desiredSize -= actualSize; - entryStart += actualSize; - } while (desiredSize); - } + offset += dstLen; + remaining -= dstLen; + } + + if (kIOMemoryThreadSafe & _flags) + UNLOCK; + + return (remaining ? kIOReturnUnderrun : kIOReturnSuccess); +} + +#if defined(__ppc__) || defined(__arm__) +extern vm_offset_t static_memory_end; +#define io_kernel_static_end static_memory_end +#else +extern vm_offset_t first_avail; +#define io_kernel_static_end first_avail +#endif + +static kern_return_t +io_get_kernel_static_upl( + vm_map_t /* map */, + uintptr_t offset, + vm_size_t *upl_size, + upl_t *upl, + upl_page_info_array_t page_list, + unsigned int *count, + ppnum_t *highest_page) +{ + unsigned int pageCount, page; + ppnum_t phys; + ppnum_t highestPage = 0; + + pageCount = atop_32(*upl_size); + if (pageCount > *count) + pageCount = *count; + + *upl = NULL; + + for (page = 0; page < pageCount; page++) + { + phys = pmap_find_phys(kernel_pmap, ((addr64_t)offset) + ptoa_64(page)); + if (!phys) + break; + page_list[page].phys_addr = phys; + page_list[page].pageout = 0; + page_list[page].absent = 0; + page_list[page].dirty = 0; + page_list[page].precious = 0; + page_list[page].device = 0; + if (phys > highestPage) + highestPage = phys; + } + + *highest_page = highestPage; + + return ((page >= pageCount) ? kIOReturnSuccess : kIOReturnVMError); +} + +IOReturn IOGeneralMemoryDescriptor::wireVirtual(IODirection forDirection) +{ + IOOptionBits type = _flags & kIOMemoryTypeMask; + IOReturn error = kIOReturnCannotWire; + ioGMDData *dataP; + ppnum_t mapBase = 0; + IOMapper *mapper; + ipc_port_t sharedMem = (ipc_port_t) _memEntry; + + assert(!_wireCount); + assert(kIOMemoryTypeVirtual == type || kIOMemoryTypeVirtual64 == type || kIOMemoryTypeUIO == type); + + if (_pages >= gIOMaximumMappedIOPageCount) + return kIOReturnNoResources; + + dataP = getDataP(_memoryEntries); + mapper = dataP->fMapper; + if (mapper && _pages) + mapBase = mapper->iovmAlloc(_pages); + + // Note that appendBytes(NULL) zeros the data up to the + // desired length. + _memoryEntries->appendBytes(0, dataP->fPageCnt * sizeof(upl_page_info_t)); + dataP = 0; // May no longer be valid so lets not get tempted. + + if (forDirection == kIODirectionNone) + forDirection = getDirection(); + + int uplFlags; // This Mem Desc's default flags for upl creation + switch (kIODirectionOutIn & forDirection) + { + case kIODirectionOut: + // Pages do not need to be marked as dirty on commit + uplFlags = UPL_COPYOUT_FROM; + _flags |= kIOMemoryPreparedReadOnly; + break; + + case kIODirectionIn: + default: + uplFlags = 0; // i.e. ~UPL_COPYOUT_FROM + break; + } + uplFlags |= UPL_SET_IO_WIRE | UPL_SET_LITE; + +#ifdef UPL_NEED_32BIT_ADDR + if (kIODirectionPrepareToPhys32 & forDirection) + uplFlags |= UPL_NEED_32BIT_ADDR; +#endif + + // Find the appropriate vm_map for the given task + vm_map_t curMap; + if (_task == kernel_task && (kIOMemoryBufferPageable & _flags)) + curMap = 0; + else + { curMap = get_task_map(_task); } + + // Iterate over the vector of virtual ranges + Ranges vec = _ranges; + unsigned int pageIndex = 0; + IOByteCount mdOffset = 0; + ppnum_t highestPage = 0; + for (UInt range = 0; range < _rangesCount; range++) { + ioPLBlock iopl; + user_addr_t startPage; + IOByteCount numBytes; + ppnum_t highPage = 0; + + // Get the startPage address and length of vec[range] + getAddrLenForInd(startPage, numBytes, type, vec, range); + iopl.fPageOffset = startPage & PAGE_MASK; + numBytes += iopl.fPageOffset; + startPage = trunc_page_64(startPage); + + if (mapper) + iopl.fMappedBase = mapBase + pageIndex; + else + iopl.fMappedBase = 0; + + // Iterate over the current range, creating UPLs + while (numBytes) { + dataP = getDataP(_memoryEntries); + vm_address_t kernelStart = (vm_address_t) startPage; + vm_map_t theMap; + if (curMap) + theMap = curMap; + else if (!sharedMem) { + assert(_task == kernel_task); + theMap = IOPageableMapForAddress(kernelStart); + } + else + theMap = NULL; + + upl_page_info_array_t pageInfo = getPageList(dataP); + int ioplFlags = uplFlags; + upl_page_list_ptr_t baseInfo = &pageInfo[pageIndex]; + + vm_size_t ioplSize = round_page(numBytes); + unsigned int numPageInfo = atop_32(ioplSize); + + if (theMap == kernel_map && kernelStart < io_kernel_static_end) { + error = io_get_kernel_static_upl(theMap, + kernelStart, + &ioplSize, + &iopl.fIOPL, + baseInfo, + &numPageInfo, + &highPage); } + else if (sharedMem) { + error = memory_object_iopl_request(sharedMem, + ptoa_32(pageIndex), + &ioplSize, + &iopl.fIOPL, + baseInfo, + &numPageInfo, + &ioplFlags); + } + else { + assert(theMap); + error = vm_map_create_upl(theMap, + startPage, + (upl_size_t*)&ioplSize, + &iopl.fIOPL, + baseInfo, + &numPageInfo, + &ioplFlags); + } + + assert(ioplSize); + if (error != KERN_SUCCESS) + goto abortExit; + + if (iopl.fIOPL) + highPage = upl_get_highest_page(iopl.fIOPL); + if (highPage > highestPage) + highestPage = highPage; + + error = kIOReturnCannotWire; + + if (baseInfo->device) { + numPageInfo = 1; + iopl.fFlags = kIOPLOnDevice; + // Don't translate device memory at all + if (mapper && mapBase) { + mapper->iovmFree(mapBase, _pages); + mapBase = 0; + iopl.fMappedBase = 0; + } + } + else { + iopl.fFlags = 0; + if (mapper) + mapper->iovmInsert(mapBase, pageIndex, + baseInfo, numPageInfo); + } - rc = vm_map_wire(taskVMMap, srcAlign, srcAlignEnd, access, FALSE); - if (KERN_SUCCESS != rc) { - IOLog("IOMemoryDescriptor::prepare vm_map_wire failed: %d\n", rc); - goto abortExit; + iopl.fIOMDOffset = mdOffset; + iopl.fPageInfo = pageIndex; + + if ((_flags & kIOMemoryAutoPrepare) && iopl.fIOPL) + { + upl_commit(iopl.fIOPL, 0, 0); + upl_deallocate(iopl.fIOPL); + iopl.fIOPL = 0; } + + if (!_memoryEntries->appendBytes(&iopl, sizeof(iopl))) { + // Clean up partial created and unsaved iopl + if (iopl.fIOPL) { + upl_abort(iopl.fIOPL, 0); + upl_deallocate(iopl.fIOPL); + } + goto abortExit; + } + + // Check for a multiple iopl's in one virtual range + pageIndex += numPageInfo; + mdOffset -= iopl.fPageOffset; + if (ioplSize < numBytes) { + numBytes -= ioplSize; + startPage += ioplSize; + mdOffset += ioplSize; + iopl.fPageOffset = 0; + if (mapper) + iopl.fMappedBase = mapBase + pageIndex; + } + else { + mdOffset += numBytes; + break; + } } } - _wireCount++; + + _highestPage = highestPage; + return kIOReturnSuccess; abortExit: - UInt doneIndex; + { + dataP = getDataP(_memoryEntries); + UInt done = getNumIOPL(_memoryEntries, dataP); + ioPLBlock *ioplList = getIOPLList(dataP); + + for (UInt range = 0; range < done; range++) + { + if (ioplList[range].fIOPL) { + upl_abort(ioplList[range].fIOPL, 0); + upl_deallocate(ioplList[range].fIOPL); + } + } + (void) _memoryEntries->initWithBytes(dataP, sizeof(ioGMDData)); // == setLength() + + if (mapper && mapBase) + mapper->iovmFree(mapBase, _pages); + } + + if (error == KERN_FAILURE) + error = kIOReturnCannotWire; + + return error; +} + +/* + * prepare + * + * Prepare the memory for an I/O transfer. This involves paging in + * the memory, if necessary, and wiring it down for the duration of + * the transfer. The complete() method completes the processing of + * the memory after the I/O transfer finishes. This method needn't + * called for non-pageable memory. + */ +IOReturn IOGeneralMemoryDescriptor::prepare(IODirection forDirection) +{ + IOReturn error = kIOReturnSuccess; + IOOptionBits type = _flags & kIOMemoryTypeMask; + if ((kIOMemoryTypePhysical == type) || (kIOMemoryTypePhysical64 == type)) + return kIOReturnSuccess; - for(doneIndex = 0; doneIndex < rangeIndex; doneIndex++) { - vm_offset_t srcAlign = trunc_page(_ranges.v[doneIndex].address); - IOByteCount srcAlignEnd = trunc_page(_ranges.v[doneIndex].address + - _ranges.v[doneIndex].length + - page_size - 1); + if (_prepareLock) + IOLockLock(_prepareLock); - vm_map_unwire(getMapForTask(_task, srcAlign), srcAlign, - srcAlignEnd, FALSE); + if (!_wireCount + && (kIOMemoryTypeVirtual == type || kIOMemoryTypeVirtual64 == type || kIOMemoryTypeUIO == type) ) { + error = wireVirtual(forDirection); } - if (_memoryEntries) { - ipc_port_t *handles, *handlesEnd; + if (kIOReturnSuccess == error) + _wireCount++; - handles = (ipc_port_t *) _memoryEntries->getBytesNoCopy(); - handlesEnd = (ipc_port_t *) - ((vm_address_t) handles + _memoryEntries->getLength()); - while (handles < handlesEnd) - ipc_port_release_send(*handles++); - _memoryEntries->release(); - _memoryEntries = 0; + if (1 == _wireCount) + { + if (kIOMemoryClearEncrypt & _flags) + { + performOperation(kIOMemoryClearEncrypted, 0, _length); + } } - return kIOReturnVMError; + if (_prepareLock) + IOLockUnlock(_prepareLock); + + return error; } /* @@ -1096,110 +2232,155 @@ abortExit: * before and after an I/O transfer involving pageable memory. */ -IOReturn IOGeneralMemoryDescriptor::complete( - IODirection forDirection = kIODirectionNone) +IOReturn IOGeneralMemoryDescriptor::complete(IODirection /* forDirection */) { - assert(_wireCount); - - if(0 == _wireCount) - return kIOReturnSuccess; - - _wireCount--; - if((_wireCount == 0) && (kIOMemoryRequiresWire & _flags)) { - UInt rangeIndex; - kern_return_t rc; - - if(forDirection == kIODirectionNone) - forDirection = _direction; + IOOptionBits type = _flags & kIOMemoryTypeMask; - for(rangeIndex = 0; rangeIndex < _rangesCount; rangeIndex++) { + if ((kIOMemoryTypePhysical == type) || (kIOMemoryTypePhysical64 == type)) + return kIOReturnSuccess; - vm_offset_t srcAlign = trunc_page(_ranges.v[rangeIndex].address); - IOByteCount srcAlignEnd = trunc_page(_ranges.v[rangeIndex].address + - _ranges.v[rangeIndex].length + - page_size - 1); + if (_prepareLock) + IOLockLock(_prepareLock); - if(forDirection == kIODirectionIn) - pmap_modify_pages(get_task_pmap(_task), srcAlign, srcAlignEnd); + assert(_wireCount); - rc = vm_map_unwire(getMapForTask(_task, srcAlign), srcAlign, - srcAlignEnd, FALSE); - if(rc != KERN_SUCCESS) - IOLog("IOMemoryDescriptor::complete: vm_map_unwire failed: %d\n", rc); + if (_wireCount) + { + if ((kIOMemoryClearEncrypt & _flags) && (1 == _wireCount)) + { + performOperation(kIOMemorySetEncrypted, 0, _length); } - if (_memoryEntries) { - ipc_port_t *handles, *handlesEnd; - - handles = (ipc_port_t *) _memoryEntries->getBytesNoCopy(); - handlesEnd = (ipc_port_t *) - ((vm_address_t) handles + _memoryEntries->getLength()); - while (handles < handlesEnd) - ipc_port_release_send(*handles++); + _wireCount--; + if (!_wireCount) + { + IOOptionBits type = _flags & kIOMemoryTypeMask; + ioGMDData * dataP = getDataP(_memoryEntries); + ioPLBlock *ioplList = getIOPLList(dataP); + UInt count = getNumIOPL(_memoryEntries, dataP); + +#if IOMD_DEBUG_DMAACTIVE + if (__iomd_reservedA) panic("complete() while dma active"); +#endif /* IOMD_DEBUG_DMAACTIVE */ + + if (dataP->fMapper && _pages && ioplList[0].fMappedBase) + dataP->fMapper->iovmFree(ioplList[0].fMappedBase, _pages); + + // Only complete iopls that we created which are for TypeVirtual + if (kIOMemoryTypeVirtual == type || kIOMemoryTypeVirtual64 == type || kIOMemoryTypeUIO == type) { + for (UInt ind = 0; ind < count; ind++) + if (ioplList[ind].fIOPL) { + upl_commit(ioplList[ind].fIOPL, 0, 0); + upl_deallocate(ioplList[ind].fIOPL); + } + } + (void) _memoryEntries->initWithBytes(dataP, sizeof(ioGMDData)); // == setLength() - _memoryEntries->release(); - _memoryEntries = 0; + dataP->fPreparationID = kIOPreparationIDUnprepared; } } + + if (_prepareLock) + IOLockUnlock(_prepareLock); + return kIOReturnSuccess; } IOReturn IOGeneralMemoryDescriptor::doMap( - vm_map_t addressMap, - IOVirtualAddress * atAddress, + vm_map_t __addressMap, + IOVirtualAddress * __address, IOOptionBits options, - IOByteCount sourceOffset = 0, - IOByteCount length = 0 ) + IOByteCount __offset, + IOByteCount __length ) + { - kern_return_t kr; +#ifndef __LP64__ + if (!(kIOMap64Bit & options)) panic("IOGeneralMemoryDescriptor::doMap !64bit"); +#endif /* !__LP64__ */ + + IOMemoryMap * mapping = (IOMemoryMap *) *__address; + mach_vm_size_t offset = mapping->fOffset + __offset; + mach_vm_size_t length = mapping->fLength; + + kern_return_t kr = kIOReturnVMError; ipc_port_t sharedMem = (ipc_port_t) _memEntry; + IOOptionBits type = _flags & kIOMemoryTypeMask; + Ranges vec = _ranges; + + user_addr_t range0Addr = 0; + IOByteCount range0Len = 0; + + if (vec.v) + getAddrLenForInd(range0Addr, range0Len, type, vec, 0); + // mapping source == dest? (could be much better) - if( _task && (addressMap == get_task_map(_task)) && (options & kIOMapAnywhere) - && (1 == _rangesCount) && (0 == sourceOffset) - && (length <= _ranges.v[0].length) ) { - *atAddress = _ranges.v[0].address; - return( kIOReturnSuccess ); + if( _task + && (mapping->fAddressMap == get_task_map(_task)) && (options & kIOMapAnywhere) + && (1 == _rangesCount) && (0 == offset) + && range0Addr && (length <= range0Len) ) + { + mapping->fAddress = range0Addr; + mapping->fOptions |= kIOMapStatic; + + return( kIOReturnSuccess ); } if( 0 == sharedMem) { - vm_size_t size = 0; - - for (unsigned index = 0; index < _rangesCount; index++) - size += round_page(_ranges.v[index].address + _ranges.v[index].length) - - trunc_page(_ranges.v[index].address); + vm_size_t size = ptoa_32(_pages); if( _task) { -#ifndef i386 - vm_size_t actualSize = size; - kr = mach_make_memory_entry( get_task_map(_task), - &actualSize, _ranges.v[0].address, - VM_PROT_READ | VM_PROT_WRITE, &sharedMem, + + memory_object_size_t actualSize = size; + vm_prot_t prot = VM_PROT_READ; + if (!(kIOMapReadOnly & options)) + prot |= VM_PROT_WRITE; + else if (kIOMapDefaultCache != (options & kIOMapCacheMask)) + prot |= VM_PROT_WRITE; + + kr = mach_make_memory_entry_64(get_task_map(_task), + &actualSize, range0Addr, + prot, &sharedMem, NULL ); - if( (KERN_SUCCESS == kr) && (actualSize != round_page(size))) { + if( (KERN_SUCCESS == kr) && (actualSize != round_page(size))) + { + // map will cross vm objects #if IOASSERT - IOLog("mach_make_memory_entry_64 (%08lx) size (%08lx:%08lx)\n", - _ranges.v[0].address, (UInt32)actualSize, size); + IOLog("mach_make_memory_entry_64 (%08llx) size (%08llx:%08llx)\n", + range0Addr, (UInt64)actualSize, (UInt64)size); #endif kr = kIOReturnVMError; ipc_port_release_send( sharedMem ); - } - - if( KERN_SUCCESS != kr) -#endif /* i386 */ sharedMem = MACH_PORT_NULL; - } else do { + mach_vm_address_t address; + mach_vm_size_t pageOffset = (range0Addr & PAGE_MASK); + + address = trunc_page_64(mapping->fAddress); + if ((options & kIOMapAnywhere) || ((mapping->fAddress - address) == pageOffset)) + { + kr = IOMemoryDescriptorMapCopy(mapping->fAddressMap, + get_task_map(_task), range0Addr, + options, + offset, &address, round_page_64(length + pageOffset)); + if (kr == KERN_SUCCESS) + mapping->fAddress = address + pageOffset; + else + mapping->fAddress = NULL; + } + } + } + else do + { // _task == 0, must be physical - memory_object_t pager; - unsigned int flags=0; - struct phys_entry *pp; - IOPhysicalAddress pa; + memory_object_t pager; + unsigned int flags = 0; + addr64_t pa; IOPhysicalLength segLen; - pa = getPhysicalSegment( sourceOffset, &segLen ); + pa = getPhysicalSegment( offset, &segLen, kIOMemoryMapperNone ); if( !reserved) { reserved = IONew( ExpansionData, 1 ); @@ -1209,43 +2390,48 @@ IOReturn IOGeneralMemoryDescriptor::doMap( reserved->pagerContig = (1 == _rangesCount); reserved->memory = this; -#ifndef i386 - switch(options & kIOMapCacheMask ) { /*What cache mode do we need*/ + /*What cache mode do we need*/ + switch(options & kIOMapCacheMask ) { case kIOMapDefaultCache: default: - if((pp = pmap_find_physentry(pa))) {/* Find physical address */ - /* Use physical attributes as default */ - flags = IOTranslateCacheBits(pp); - - } - else { /* If no physical, just hard code attributes */ - flags = DEVICE_PAGER_CACHE_INHIB | - DEVICE_PAGER_COHERENT | DEVICE_PAGER_GUARDED; - } - break; + flags = IODefaultCacheBits(pa); + if (DEVICE_PAGER_CACHE_INHIB & flags) + { + if (DEVICE_PAGER_GUARDED & flags) + mapping->fOptions |= kIOMapInhibitCache; + else + mapping->fOptions |= kIOMapWriteCombineCache; + } + else if (DEVICE_PAGER_WRITE_THROUGH & flags) + mapping->fOptions |= kIOMapWriteThruCache; + else + mapping->fOptions |= kIOMapCopybackCache; + break; case kIOMapInhibitCache: - flags = DEVICE_PAGER_CACHE_INHIB | - DEVICE_PAGER_COHERENT | DEVICE_PAGER_GUARDED; - break; + flags = DEVICE_PAGER_CACHE_INHIB | + DEVICE_PAGER_COHERENT | DEVICE_PAGER_GUARDED; + break; case kIOMapWriteThruCache: - flags = DEVICE_PAGER_WRITE_THROUGH | - DEVICE_PAGER_COHERENT | DEVICE_PAGER_GUARDED; - break; + flags = DEVICE_PAGER_WRITE_THROUGH | + DEVICE_PAGER_COHERENT | DEVICE_PAGER_GUARDED; + break; case kIOMapCopybackCache: - flags = DEVICE_PAGER_COHERENT; - break; + flags = DEVICE_PAGER_COHERENT; + break; + + case kIOMapWriteCombineCache: + flags = DEVICE_PAGER_CACHE_INHIB | + DEVICE_PAGER_COHERENT; + break; } flags |= reserved->pagerContig ? DEVICE_PAGER_CONTIGUOUS : 0; -#else - flags = reserved->pagerContig ? DEVICE_PAGER_CONTIGUOUS : 0; -#endif - pager = device_pager_setup( (memory_object_t) 0, (int) reserved, + pager = device_pager_setup( (memory_object_t) 0, (uintptr_t) reserved, size, flags); assert( pager ); @@ -1254,7 +2440,8 @@ IOReturn IOGeneralMemoryDescriptor::doMap( size, VM_PROT_READ | VM_PROT_WRITE, pager, &sharedMem ); assert( KERN_SUCCESS == kr ); - if( KERN_SUCCESS != kr) { + if( KERN_SUCCESS != kr) + { device_pager_deallocate( pager ); pager = MACH_PORT_NULL; sharedMem = MACH_PORT_NULL; @@ -1272,203 +2459,105 @@ IOReturn IOGeneralMemoryDescriptor::doMap( _memEntry = (void *) sharedMem; } -#ifndef i386 - if( 0 == sharedMem) - kr = kIOReturnVMError; + IOReturn result; + if (0 == sharedMem) + result = kr; else -#endif - kr = super::doMap( addressMap, atAddress, - options, sourceOffset, length ); + result = super::doMap( __addressMap, __address, + options, __offset, __length ); - return( kr ); + return( result ); } IOReturn IOGeneralMemoryDescriptor::doUnmap( vm_map_t addressMap, - IOVirtualAddress logical, - IOByteCount length ) + IOVirtualAddress __address, + IOByteCount __length ) { - // could be much better - if( _task && (addressMap == getMapForTask(_task, _ranges.v[0].address)) && (1 == _rangesCount) - && (logical == _ranges.v[0].address) - && (length <= _ranges.v[0].length) ) - return( kIOReturnSuccess ); - - return( super::doUnmap( addressMap, logical, length )); + return (super::doUnmap(addressMap, __address, __length)); } /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ -extern "C" { -// osfmk/device/iokit_rpc.c -extern kern_return_t IOMapPages( vm_map_t map, vm_offset_t va, vm_offset_t pa, - vm_size_t length, unsigned int mapFlags); -extern kern_return_t IOUnmapPages(vm_map_t map, vm_offset_t va, vm_size_t length); -}; +#undef super +#define super OSObject -/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ +OSDefineMetaClassAndStructors( IOMemoryMap, OSObject ) -OSDefineMetaClassAndAbstractStructors( IOMemoryMap, OSObject ) +OSMetaClassDefineReservedUnused(IOMemoryMap, 0); +OSMetaClassDefineReservedUnused(IOMemoryMap, 1); +OSMetaClassDefineReservedUnused(IOMemoryMap, 2); +OSMetaClassDefineReservedUnused(IOMemoryMap, 3); +OSMetaClassDefineReservedUnused(IOMemoryMap, 4); +OSMetaClassDefineReservedUnused(IOMemoryMap, 5); +OSMetaClassDefineReservedUnused(IOMemoryMap, 6); +OSMetaClassDefineReservedUnused(IOMemoryMap, 7); -/* inline function implementation */ +/* ex-inline function implementation */ IOPhysicalAddress IOMemoryMap::getPhysicalAddress() { return( getPhysicalSegment( 0, 0 )); } /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ -class _IOMemoryMap : public IOMemoryMap -{ - OSDeclareDefaultStructors(_IOMemoryMap) - - IOMemoryDescriptor * memory; - IOMemoryMap * superMap; - IOByteCount offset; - IOByteCount length; - IOVirtualAddress logical; - task_t addressTask; - vm_map_t addressMap; - IOOptionBits options; - -protected: - virtual void taggedRelease(const void *tag = 0) const; - virtual void free(); - -public: - - // IOMemoryMap methods - virtual IOVirtualAddress getVirtualAddress(); - virtual IOByteCount getLength(); - virtual task_t getAddressTask(); - virtual IOMemoryDescriptor * getMemoryDescriptor(); - virtual IOOptionBits getMapOptions(); - - virtual IOReturn unmap(); - virtual void taskDied(); - - virtual IOPhysicalAddress getPhysicalSegment(IOByteCount offset, - IOByteCount * length); - - // for IOMemoryDescriptor use - _IOMemoryMap * copyCompatible( - IOMemoryDescriptor * owner, - task_t intoTask, - IOVirtualAddress toAddress, - IOOptionBits options, - IOByteCount offset, - IOByteCount length ); - - bool initCompatible( - IOMemoryDescriptor * memory, - IOMemoryMap * superMap, - IOByteCount offset, - IOByteCount length ); - - bool initWithDescriptor( - IOMemoryDescriptor * memory, - task_t intoTask, - IOVirtualAddress toAddress, - IOOptionBits options, - IOByteCount offset, - IOByteCount length ); - - IOReturn redirect( - task_t intoTask, bool redirect ); -}; - -/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ - -#undef super -#define super IOMemoryMap - -OSDefineMetaClassAndStructors(_IOMemoryMap, IOMemoryMap) - -/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ - -bool _IOMemoryMap::initCompatible( - IOMemoryDescriptor * _memory, - IOMemoryMap * _superMap, - IOByteCount _offset, - IOByteCount _length ) +bool IOMemoryMap::init( + task_t intoTask, + mach_vm_address_t toAddress, + IOOptionBits _options, + mach_vm_size_t _offset, + mach_vm_size_t _length ) { - - if( !super::init()) + if (!intoTask) return( false); - if( (_offset + _length) > _superMap->getLength()) - return( false); + if (!super::init()) + return(false); - _memory->retain(); - memory = _memory; - _superMap->retain(); - superMap = _superMap; + fAddressMap = get_task_map(intoTask); + if (!fAddressMap) + return(false); + vm_map_reference(fAddressMap); - offset = _offset; - if( _length) - length = _length; - else - length = _memory->getLength(); - - options = superMap->getMapOptions(); - logical = superMap->getVirtualAddress() + offset; + fAddressTask = intoTask; + fOptions = _options; + fLength = _length; + fOffset = _offset; + fAddress = toAddress; - return( true ); + return (true); } -bool _IOMemoryMap::initWithDescriptor( - IOMemoryDescriptor * _memory, - task_t intoTask, - IOVirtualAddress toAddress, - IOOptionBits _options, - IOByteCount _offset, - IOByteCount _length ) +bool IOMemoryMap::setMemoryDescriptor(IOMemoryDescriptor * _memory, mach_vm_size_t _offset) { - bool ok; - - if( (!_memory) || (!intoTask) || !super::init()) - return( false); + if (!_memory) + return(false); - if( (_offset + _length) > _memory->getLength()) - return( false); - - addressMap = get_task_map(intoTask); - if( !addressMap) - return( false); - vm_map_reference(addressMap); + if (!fSuperMap) + { + if( (_offset + fLength) > _memory->getLength()) + return( false); + fOffset = _offset; + } _memory->retain(); - memory = _memory; - - offset = _offset; - if( _length) - length = _length; - else - length = _memory->getLength(); - - addressTask = intoTask; - logical = toAddress; - options = _options; - - if( options & kIOMapStatic) - ok = true; - else - ok = (kIOReturnSuccess == memory->doMap( addressMap, &logical, - options, offset, length )); - if( !ok) { - logical = 0; - memory->release(); - memory = 0; - vm_map_deallocate(addressMap); - addressMap = 0; + if (fMemory) + { + if (fMemory != _memory) + fMemory->removeMapping(this); + fMemory->release(); } - return( ok ); + fMemory = _memory; + + return( true ); } struct IOMemoryDescriptorMapAllocRef { ipc_port_t sharedMem; - vm_size_t size; - vm_offset_t mapped; - IOByteCount sourceOffset; + vm_map_t src_map; + mach_vm_offset_t src_address; + mach_vm_address_t mapped; + mach_vm_size_t size; + mach_vm_size_t sourceOffset; IOOptionBits options; }; @@ -1478,11 +2567,49 @@ static kern_return_t IOMemoryDescriptorMapAlloc(vm_map_t map, void * _ref) IOReturn err; do { - if( ref->sharedMem) { + if( ref->sharedMem) + { vm_prot_t prot = VM_PROT_READ | ((ref->options & kIOMapReadOnly) ? 0 : VM_PROT_WRITE); - - err = vm_map( map, + + // VM system requires write access to change cache mode + if (kIOMapDefaultCache != (ref->options & kIOMapCacheMask)) + prot |= VM_PROT_WRITE; + + // set memory entry cache + vm_prot_t memEntryCacheMode = prot | MAP_MEM_ONLY; + switch (ref->options & kIOMapCacheMask) + { + case kIOMapInhibitCache: + SET_MAP_MEM(MAP_MEM_IO, memEntryCacheMode); + break; + + case kIOMapWriteThruCache: + SET_MAP_MEM(MAP_MEM_WTHRU, memEntryCacheMode); + break; + + case kIOMapWriteCombineCache: + SET_MAP_MEM(MAP_MEM_WCOMB, memEntryCacheMode); + break; + + case kIOMapCopybackCache: + SET_MAP_MEM(MAP_MEM_COPYBACK, memEntryCacheMode); + break; + + case kIOMapDefaultCache: + default: + SET_MAP_MEM(MAP_MEM_NOOP, memEntryCacheMode); + break; + } + + vm_size_t unused = 0; + + err = mach_make_memory_entry( NULL /*unused*/, &unused, 0 /*unused*/, + memEntryCacheMode, NULL, ref->sharedMem ); + if (KERN_SUCCESS != err) + IOLog("MAP_MEM_ONLY failed %d\n", err); + + err = mach_vm_map( map, &ref->mapped, ref->size, 0 /* mask */, (( ref->options & kIOMapAnywhere ) ? VM_FLAGS_ANYWHERE : VM_FLAGS_FIXED) @@ -1492,129 +2619,269 @@ static kern_return_t IOMemoryDescriptorMapAlloc(vm_map_t map, void * _ref) prot, // cur prot, // max VM_INHERIT_NONE); - + if( KERN_SUCCESS != err) { ref->mapped = 0; continue; } - - } else { - - err = vm_allocate( map, &ref->mapped, ref->size, + } + else if (ref->src_map) + { + vm_prot_t cur_prot, max_prot; + err = mach_vm_remap(map, &ref->mapped, ref->size, PAGE_MASK, + (ref->options & kIOMapAnywhere) ? TRUE : FALSE, + ref->src_map, ref->src_address, + FALSE /* copy */, + &cur_prot, + &max_prot, + VM_INHERIT_NONE); + if (KERN_SUCCESS == err) + { + if ((!(VM_PROT_READ & cur_prot)) + || (!(kIOMapReadOnly & ref->options) && !(VM_PROT_WRITE & cur_prot))) + { + mach_vm_deallocate(map, ref->mapped, ref->size); + err = KERN_PROTECTION_FAILURE; + } + } + if (KERN_SUCCESS != err) + ref->mapped = 0; + } + else + { + err = mach_vm_allocate( map, &ref->mapped, ref->size, ((ref->options & kIOMapAnywhere) ? VM_FLAGS_ANYWHERE : VM_FLAGS_FIXED) | VM_MAKE_TAG(VM_MEMORY_IOKIT) ); - if( KERN_SUCCESS != err) { ref->mapped = 0; continue; } - // we have to make sure that these guys don't get copied if we fork. err = vm_inherit( map, ref->mapped, ref->size, VM_INHERIT_NONE); assert( KERN_SUCCESS == err ); } - - } while( false ); + } + while( false ); return( err ); } +kern_return_t +IOMemoryDescriptorMapMemEntry(vm_map_t map, ipc_port_t entry, IOOptionBits options, bool pageable, + mach_vm_size_t offset, + mach_vm_address_t * address, mach_vm_size_t length) +{ + IOReturn err; + IOMemoryDescriptorMapAllocRef ref; + + ref.sharedMem = entry; + ref.src_map = NULL; + ref.sharedMem = entry; + ref.sourceOffset = trunc_page_64(offset); + ref.options = options; + ref.size = length; + + if (options & kIOMapAnywhere) + // vm_map looks for addresses above here, even when VM_FLAGS_ANYWHERE + ref.mapped = 0; + else + ref.mapped = *address; + + if( ref.sharedMem && (map == kernel_map) && pageable) + err = IOIteratePageableMaps( ref.size, &IOMemoryDescriptorMapAlloc, &ref ); + else + err = IOMemoryDescriptorMapAlloc( map, &ref ); + + *address = ref.mapped; + return (err); +} + +kern_return_t +IOMemoryDescriptorMapCopy(vm_map_t map, + vm_map_t src_map, + mach_vm_offset_t src_address, + IOOptionBits options, + mach_vm_size_t offset, + mach_vm_address_t * address, mach_vm_size_t length) +{ + IOReturn err; + IOMemoryDescriptorMapAllocRef ref; + + ref.sharedMem = NULL; + ref.src_map = src_map; + ref.src_address = src_address; + ref.sourceOffset = trunc_page_64(offset); + ref.options = options; + ref.size = length; + + if (options & kIOMapAnywhere) + // vm_map looks for addresses above here, even when VM_FLAGS_ANYWHERE + ref.mapped = 0; + else + ref.mapped = *address; + + if (map == kernel_map) + err = IOIteratePageableMaps(ref.size, &IOMemoryDescriptorMapAlloc, &ref); + else + err = IOMemoryDescriptorMapAlloc(map, &ref); + + *address = ref.mapped; + return (err); +} IOReturn IOMemoryDescriptor::doMap( - vm_map_t addressMap, - IOVirtualAddress * atAddress, + vm_map_t __addressMap, + IOVirtualAddress * __address, IOOptionBits options, - IOByteCount sourceOffset = 0, - IOByteCount length = 0 ) + IOByteCount __offset, + IOByteCount __length ) { - IOReturn err = kIOReturnSuccess; - memory_object_t pager; - vm_address_t logical; - IOByteCount pageOffset; - IOPhysicalAddress sourceAddr; - IOMemoryDescriptorMapAllocRef ref; - - ref.sharedMem = (ipc_port_t) _memEntry; - ref.sourceOffset = sourceOffset; - ref.options = options; +#ifndef __LP64__ + if (!(kIOMap64Bit & options)) panic("IOMemoryDescriptor::doMap !64bit"); +#endif /* !__LP64__ */ - do { + IOMemoryMap * mapping = (IOMemoryMap *) *__address; + mach_vm_size_t offset = mapping->fOffset + __offset; + mach_vm_size_t length = mapping->fLength; - if( 0 == length) - length = getLength(); + IOReturn err = kIOReturnSuccess; + memory_object_t pager; + mach_vm_size_t pageOffset; + IOPhysicalAddress sourceAddr; + unsigned int lock_count; - sourceAddr = getSourceSegment( sourceOffset, NULL ); - assert( sourceAddr ); - pageOffset = sourceAddr - trunc_page( sourceAddr ); + do + { + sourceAddr = getPhysicalSegment( offset, NULL, _kIOMemorySourceSegment ); + pageOffset = sourceAddr - trunc_page( sourceAddr ); + + if( reserved) + pager = (memory_object_t) reserved->devicePager; + else + pager = MACH_PORT_NULL; + + if ((kIOMapReference|kIOMapUnique) == ((kIOMapReference|kIOMapUnique) & options)) + { + upl_t redirUPL2; + vm_size_t size; + int flags; + + if (!_memEntry) + { + err = kIOReturnNotReadable; + continue; + } - ref.size = round_page( length + pageOffset ); + size = round_page(mapping->fLength + pageOffset); + flags = UPL_COPYOUT_FROM | UPL_SET_INTERNAL + | UPL_SET_LITE | UPL_SET_IO_WIRE | UPL_BLOCK_ACCESS; - logical = *atAddress; - if( options & kIOMapAnywhere) - // vm_map looks for addresses above here, even when VM_FLAGS_ANYWHERE - ref.mapped = 0; - else { - ref.mapped = trunc_page( logical ); - if( (logical - ref.mapped) != pageOffset) { - err = kIOReturnVMError; - continue; - } - } + if (KERN_SUCCESS != memory_object_iopl_request((ipc_port_t) _memEntry, 0, &size, &redirUPL2, + NULL, NULL, + &flags)) + redirUPL2 = NULL; - if( ref.sharedMem && (addressMap == kernel_map) && (kIOMemoryRequiresWire & _flags)) - err = IOIteratePageableMaps( ref.size, &IOMemoryDescriptorMapAlloc, &ref ); - else - err = IOMemoryDescriptorMapAlloc( addressMap, &ref ); + for (lock_count = 0; + IORecursiveLockHaveLock(gIOMemoryLock); + lock_count++) { + UNLOCK; + } + err = upl_transpose(redirUPL2, mapping->fRedirUPL); + for (; + lock_count; + lock_count--) { + LOCK; + } - if( err != KERN_SUCCESS) - continue; + if (kIOReturnSuccess != err) + { + IOLog("upl_transpose(%x)\n", err); + err = kIOReturnSuccess; + } - if( reserved) - pager = (memory_object_t) reserved->devicePager; - else - pager = MACH_PORT_NULL; + if (redirUPL2) + { + upl_commit(redirUPL2, NULL, 0); + upl_deallocate(redirUPL2); + redirUPL2 = 0; + } + { + // swap the memEntries since they now refer to different vm_objects + void * me = _memEntry; + _memEntry = mapping->fMemory->_memEntry; + mapping->fMemory->_memEntry = me; + } + if (pager) + err = handleFault( reserved->devicePager, mapping->fAddressMap, mapping->fAddress, offset, length, options ); + } + else + { + mach_vm_address_t address; + + if (!(options & kIOMapAnywhere)) + { + address = trunc_page_64(mapping->fAddress); + if( (mapping->fAddress - address) != pageOffset) + { + err = kIOReturnVMError; + continue; + } + } - if( !ref.sharedMem || pager ) - err = handleFault( pager, addressMap, ref.mapped, sourceOffset, length, options ); + err = IOMemoryDescriptorMapMemEntry(mapping->fAddressMap, (ipc_port_t) _memEntry, + options, (kIOMemoryBufferPageable & _flags), + offset, &address, round_page_64(length + pageOffset)); + if( err != KERN_SUCCESS) + continue; + + if (!_memEntry || pager) + { + err = handleFault( pager, mapping->fAddressMap, address, offset, length, options ); + if (err != KERN_SUCCESS) + doUnmap( mapping->fAddressMap, (IOVirtualAddress) mapping, 0 ); + } - } while( false ); +#if DEBUG + if (kIOLogMapping & gIOKitDebug) + IOLog("mapping(%x) desc %p @ %lx, map %p, address %qx, offset %qx, length %qx\n", + err, this, sourceAddr, mapping, address, offset, length); +#endif - if( err != KERN_SUCCESS) { - if( ref.mapped) - doUnmap( addressMap, ref.mapped, ref.size ); - *atAddress = NULL; - } else - *atAddress = ref.mapped + pageOffset; + if (err == KERN_SUCCESS) + mapping->fAddress = address + pageOffset; + else + mapping->fAddress = NULL; + } + } + while( false ); - return( err ); + return (err); } -enum { - kIOMemoryRedirected = 0x00010000 -}; - IOReturn IOMemoryDescriptor::handleFault( void * _pager, vm_map_t addressMap, - IOVirtualAddress address, - IOByteCount sourceOffset, - IOByteCount length, + mach_vm_address_t address, + mach_vm_size_t sourceOffset, + mach_vm_size_t length, IOOptionBits options ) { IOReturn err = kIOReturnSuccess; memory_object_t pager = (memory_object_t) _pager; - vm_size_t size; - vm_size_t bytes; - vm_size_t page; - IOByteCount pageOffset; + mach_vm_size_t size; + mach_vm_size_t bytes; + mach_vm_size_t page; + mach_vm_size_t pageOffset; + mach_vm_size_t pagerOffset; IOPhysicalLength segLen; - IOPhysicalAddress physAddr; - - if( !addressMap) { + addr64_t physAddr; - if( kIOMemoryRedirected & _flags) { -#ifdef DEBUG - IOLog("sleep mem redirect %p, %lx\n", this, sourceOffset); + if( !addressMap) + { + if( kIOMemoryRedirected & _flags) + { +#if DEBUG + IOLog("sleep mem redirect %p, %qx\n", this, sourceOffset); #endif do { SLEEP; @@ -1624,344 +2891,416 @@ IOReturn IOMemoryDescriptor::handleFault( return( kIOReturnSuccess ); } - physAddr = getPhysicalSegment( sourceOffset, &segLen ); + physAddr = getPhysicalSegment( sourceOffset, &segLen, kIOMemoryMapperNone ); assert( physAddr ); - pageOffset = physAddr - trunc_page( physAddr ); + pageOffset = physAddr - trunc_page_64( physAddr ); + pagerOffset = sourceOffset; size = length + pageOffset; physAddr -= pageOffset; segLen += pageOffset; bytes = size; - do { + do + { // in the middle of the loop only map whole pages if( segLen >= bytes) segLen = bytes; else if( segLen != trunc_page( segLen)) err = kIOReturnVMError; - if( physAddr != trunc_page( physAddr)) + if( physAddr != trunc_page_64( physAddr)) err = kIOReturnBadArgument; + if (kIOReturnSuccess != err) + break; -#ifdef DEBUG +#if DEBUG if( kIOLogMapping & gIOKitDebug) - IOLog("_IOMemoryMap::map(%p) %08lx->%08lx:%08lx\n", + IOLog("IOMemoryMap::map(%p) 0x%qx->0x%qx:0x%qx\n", addressMap, address + pageOffset, physAddr + pageOffset, segLen - pageOffset); #endif - - - -#ifdef i386 - /* i386 doesn't support faulting on device memory yet */ - if( addressMap && (kIOReturnSuccess == err)) - err = IOMapPages( addressMap, address, physAddr, segLen, options ); - assert( KERN_SUCCESS == err ); - if( err) - break; -#endif - if( pager) { if( reserved && reserved->pagerContig) { IOPhysicalLength allLen; - IOPhysicalAddress allPhys; + addr64_t allPhys; - allPhys = getPhysicalSegment( 0, &allLen ); + allPhys = getPhysicalSegment( 0, &allLen, kIOMemoryMapperNone ); assert( allPhys ); - err = device_pager_populate_object( pager, 0, trunc_page(allPhys), round_page(allLen) ); - - } else { + err = device_pager_populate_object( pager, 0, atop_64(allPhys), round_page(allLen) ); + } + else + { - for( page = 0; + for( page = 0; (page < segLen) && (KERN_SUCCESS == err); - page += page_size) { - err = device_pager_populate_object( pager, sourceOffset + page, - physAddr + page, page_size ); + page += page_size) + { + err = device_pager_populate_object(pager, pagerOffset, + (ppnum_t)(atop_64(physAddr + page)), page_size); + pagerOffset += page_size; } } assert( KERN_SUCCESS == err ); if( err) break; } -#ifndef i386 + + // This call to vm_fault causes an early pmap level resolution + // of the mappings created above for kernel mappings, since + // faulting in later can't take place from interrupt level. /* *** ALERT *** */ /* *** Temporary Workaround *** */ - /* This call to vm_fault causes an early pmap level resolution */ - /* of the mappings created above. Need for this is in absolute */ - /* violation of the basic tenet that the pmap layer is a cache. */ - /* Further, it implies a serious I/O architectural violation on */ - /* the part of some user of the mapping. As of this writing, */ - /* the call to vm_fault is needed because the NVIDIA driver */ - /* makes a call to pmap_extract. The NVIDIA driver needs to be */ - /* fixed as soon as possible. The NVIDIA driver should not */ - /* need to query for this info as it should know from the doMap */ - /* call where the physical memory is mapped. When a query is */ - /* necessary to find a physical mapping, it should be done */ - /* through an iokit call which includes the mapped memory */ - /* handle. This is required for machine architecture independence.*/ - - if(!(kIOMemoryRedirected & _flags)) { - vm_fault(addressMap, address, 3, FALSE, FALSE, NULL, 0); + if ((addressMap == kernel_map) && !(kIOMemoryRedirected & _flags)) + { + vm_fault(addressMap, + (vm_map_offset_t)address, + VM_PROT_READ|VM_PROT_WRITE, + FALSE, THREAD_UNINT, NULL, + (vm_map_offset_t)0); } /* *** Temporary Workaround *** */ /* *** ALERT *** */ -#endif + sourceOffset += segLen - pageOffset; address += segLen; bytes -= segLen; pageOffset = 0; - } while( bytes - && (physAddr = getPhysicalSegment( sourceOffset, &segLen ))); + } + while (bytes && (physAddr = getPhysicalSegment( sourceOffset, &segLen, kIOMemoryMapperNone ))); - if( bytes) + if (bytes) err = kIOReturnBadArgument; - return( err ); + return (err); } IOReturn IOMemoryDescriptor::doUnmap( vm_map_t addressMap, - IOVirtualAddress logical, - IOByteCount length ) + IOVirtualAddress __address, + IOByteCount __length ) { - IOReturn err; + IOReturn err; + mach_vm_address_t address; + mach_vm_size_t length; -#ifdef DEBUG - if( kIOLogMapping & gIOKitDebug) - kprintf("IOMemoryDescriptor::doUnmap(%x) %08x:%08x\n", - addressMap, logical, length ); -#endif - - if( (addressMap == kernel_map) || (addressMap == get_task_map(current_task()))) { + if (__length) + { + address = __address; + length = __length; + } + else + { + addressMap = ((IOMemoryMap *) __address)->fAddressMap; + address = ((IOMemoryMap *) __address)->fAddress; + length = ((IOMemoryMap *) __address)->fLength; + } - if( _memEntry && (addressMap == kernel_map) && (kIOMemoryRequiresWire & _flags)) - addressMap = IOPageableMapForAddress( logical ); + if ((addressMap == kernel_map) + && ((kIOMemoryBufferPageable & _flags) || !_memEntry)) + addressMap = IOPageableMapForAddress( address ); - err = vm_deallocate( addressMap, logical, length ); +#if DEBUG + if( kIOLogMapping & gIOKitDebug) + IOLog("IOMemoryDescriptor::doUnmap map %p, 0x%qx:0x%qx\n", + addressMap, address, length ); +#endif - } else - err = kIOReturnSuccess; + err = mach_vm_deallocate( addressMap, address, length ); - return( err ); + return (err); } -IOReturn IOMemoryDescriptor::redirect( task_t safeTask, bool redirect ) +IOReturn IOMemoryDescriptor::redirect( task_t safeTask, bool doRedirect ) { - IOReturn err; - _IOMemoryMap * mapping = 0; + IOReturn err = kIOReturnSuccess; + IOMemoryMap * mapping = 0; OSIterator * iter; LOCK; + if( doRedirect) + _flags |= kIOMemoryRedirected; + else + _flags &= ~kIOMemoryRedirected; + do { if( (iter = OSCollectionIterator::withCollection( _mappings))) { - while( (mapping = (_IOMemoryMap *) iter->getNextObject())) - mapping->redirect( safeTask, redirect ); + while( (mapping = (IOMemoryMap *) iter->getNextObject())) + mapping->redirect( safeTask, doRedirect ); - iter->release(); - } + iter->release(); + } } while( false ); - if( redirect) - _flags |= kIOMemoryRedirected; - else { - _flags &= ~kIOMemoryRedirected; + if (!doRedirect) + { WAKEUP; } UNLOCK; +#ifndef __LP64__ // temporary binary compatibility IOSubMemoryDescriptor * subMem; if( (subMem = OSDynamicCast( IOSubMemoryDescriptor, this))) - err = subMem->redirect( safeTask, redirect ); + err = subMem->redirect( safeTask, doRedirect ); else - err = kIOReturnSuccess; + err = kIOReturnSuccess; +#endif /* !__LP64__ */ return( err ); } -IOReturn IOSubMemoryDescriptor::redirect( task_t safeTask, bool redirect ) -{ - return( _parent->redirect( safeTask, redirect )); -} - -IOReturn _IOMemoryMap::redirect( task_t safeTask, bool redirect ) +IOReturn IOMemoryMap::redirect( task_t safeTask, bool doRedirect ) { IOReturn err = kIOReturnSuccess; - if( superMap) { -// err = ((_IOMemoryMap *)superMap)->redirect( safeTask, redirect ); + if( fSuperMap) { +// err = ((IOMemoryMap *)superMap)->redirect( safeTask, doRedirect ); } else { LOCK; - if( logical && addressMap - && (get_task_map( safeTask) != addressMap) - && (0 == (options & kIOMapStatic))) { - - IOUnmapPages( addressMap, logical, length ); - if( !redirect) { - err = vm_deallocate( addressMap, logical, length ); - err = memory->doMap( addressMap, &logical, - (options & ~kIOMapAnywhere) /*| kIOMapReserve*/, - offset, length ); - } else - err = kIOReturnSuccess; -#ifdef DEBUG - IOLog("IOMemoryMap::redirect(%d, %p) %x:%lx from %p\n", redirect, this, logical, length, addressMap); + + do + { + if (!fAddress) + break; + if (!fAddressMap) + break; + + if ((!safeTask || (get_task_map(safeTask) != fAddressMap)) + && (0 == (fOptions & kIOMapStatic))) + { + IOUnmapPages( fAddressMap, fAddress, fLength ); + err = kIOReturnSuccess; +#if DEBUG + IOLog("IOMemoryMap::redirect(%d, %p) 0x%qx:0x%qx from %p\n", doRedirect, this, fAddress, fLength, fAddressMap); #endif - } - UNLOCK; + } + else if (kIOMapWriteCombineCache == (fOptions & kIOMapCacheMask)) + { + IOOptionBits newMode; + newMode = (fOptions & ~kIOMapCacheMask) | (doRedirect ? kIOMapInhibitCache : kIOMapWriteCombineCache); + IOProtectCacheMode(fAddressMap, fAddress, fLength, newMode); + } + } + while (false); + UNLOCK; } + if ((((fMemory->_flags & kIOMemoryTypeMask) == kIOMemoryTypePhysical) + || ((fMemory->_flags & kIOMemoryTypeMask) == kIOMemoryTypePhysical64)) + && safeTask + && (doRedirect != (0 != (fMemory->_flags & kIOMemoryRedirected)))) + fMemory->redirect(safeTask, doRedirect); + return( err ); } -IOReturn _IOMemoryMap::unmap( void ) +IOReturn IOMemoryMap::unmap( void ) { IOReturn err; LOCK; - if( logical && addressMap && (0 == superMap) - && (0 == (options & kIOMapStatic))) { + if( fAddress && fAddressMap && (0 == fSuperMap) && fMemory + && (0 == (fOptions & kIOMapStatic))) { - err = memory->doUnmap( addressMap, logical, length ); - vm_map_deallocate(addressMap); - addressMap = 0; + err = fMemory->doUnmap(fAddressMap, (IOVirtualAddress) this, 0); } else err = kIOReturnSuccess; - logical = 0; + if (fAddressMap) + { + vm_map_deallocate(fAddressMap); + fAddressMap = 0; + } + + fAddress = 0; UNLOCK; return( err ); } -void _IOMemoryMap::taskDied( void ) +void IOMemoryMap::taskDied( void ) { LOCK; - if( addressMap) { - vm_map_deallocate(addressMap); - addressMap = 0; + if (fUserClientUnmap) + unmap(); + if( fAddressMap) { + vm_map_deallocate(fAddressMap); + fAddressMap = 0; } - addressTask = 0; - logical = 0; + fAddressTask = 0; + fAddress = 0; UNLOCK; } +IOReturn IOMemoryMap::userClientUnmap( void ) +{ + fUserClientUnmap = true; + return (kIOReturnSuccess); +} + // Overload the release mechanism. All mappings must be a member // of a memory descriptors _mappings set. This means that we // always have 2 references on a mapping. When either of these mappings // are released we need to free ourselves. -void _IOMemoryMap::taggedRelease(const void *tag = 0) const +void IOMemoryMap::taggedRelease(const void *tag) const { + LOCK; super::taggedRelease(tag, 2); + UNLOCK; } -void _IOMemoryMap::free() +void IOMemoryMap::free() { unmap(); - if( memory) { + if (fMemory) + { + LOCK; + fMemory->removeMapping(this); + UNLOCK; + fMemory->release(); + } + + if (fOwner && (fOwner != fMemory)) + { LOCK; - memory->removeMapping( this); + fOwner->removeMapping(this); UNLOCK; - memory->release(); } - if( superMap) - superMap->release(); + if (fSuperMap) + fSuperMap->release(); + + if (fRedirUPL) { + upl_commit(fRedirUPL, NULL, 0); + upl_deallocate(fRedirUPL); + } super::free(); } -IOByteCount _IOMemoryMap::getLength() +IOByteCount IOMemoryMap::getLength() +{ + return( fLength ); +} + +IOVirtualAddress IOMemoryMap::getVirtualAddress() +{ +#ifndef __LP64__ + if (fSuperMap) + fSuperMap->getVirtualAddress(); + else if (fAddressMap + && vm_map_is_64bit(fAddressMap) + && (sizeof(IOVirtualAddress) < 8)) + { + OSReportWithBacktrace("IOMemoryMap::getVirtualAddress(0x%qx) called on 64b map; use ::getAddress()", fAddress); + } +#endif /* !__LP64__ */ + + return (fAddress); +} + +#ifndef __LP64__ +mach_vm_address_t IOMemoryMap::getAddress() { - return( length ); + return( fAddress); } -IOVirtualAddress _IOMemoryMap::getVirtualAddress() +mach_vm_size_t IOMemoryMap::getSize() { - return( logical); + return( fLength ); } +#endif /* !__LP64__ */ -task_t _IOMemoryMap::getAddressTask() + +task_t IOMemoryMap::getAddressTask() { - if( superMap) - return( superMap->getAddressTask()); + if( fSuperMap) + return( fSuperMap->getAddressTask()); else - return( addressTask); + return( fAddressTask); } -IOOptionBits _IOMemoryMap::getMapOptions() +IOOptionBits IOMemoryMap::getMapOptions() { - return( options); + return( fOptions); } -IOMemoryDescriptor * _IOMemoryMap::getMemoryDescriptor() +IOMemoryDescriptor * IOMemoryMap::getMemoryDescriptor() { - return( memory ); + return( fMemory ); } -_IOMemoryMap * _IOMemoryMap::copyCompatible( - IOMemoryDescriptor * owner, - task_t task, - IOVirtualAddress toAddress, - IOOptionBits _options, - IOByteCount _offset, - IOByteCount _length ) +IOMemoryMap * IOMemoryMap::copyCompatible( + IOMemoryMap * newMapping ) { - _IOMemoryMap * mapping; + task_t task = newMapping->getAddressTask(); + mach_vm_address_t toAddress = newMapping->fAddress; + IOOptionBits _options = newMapping->fOptions; + mach_vm_size_t _offset = newMapping->fOffset; + mach_vm_size_t _length = newMapping->fLength; - if( (!task) || (task != getAddressTask())) + if( (!task) || (!fAddressMap) || (fAddressMap != get_task_map(task))) return( 0 ); - if( (options ^ _options) & kIOMapReadOnly) + if( (fOptions ^ _options) & kIOMapReadOnly) return( 0 ); if( (kIOMapDefaultCache != (_options & kIOMapCacheMask)) - && ((options ^ _options) & kIOMapCacheMask)) + && ((fOptions ^ _options) & kIOMapCacheMask)) return( 0 ); - if( (0 == (_options & kIOMapAnywhere)) && (logical != toAddress)) + if( (0 == (_options & kIOMapAnywhere)) && (fAddress != toAddress)) return( 0 ); - if( _offset < offset) + if( _offset < fOffset) return( 0 ); - _offset -= offset; + _offset -= fOffset; - if( (_offset + _length) > length) + if( (_offset + _length) > fLength) return( 0 ); - if( (length == _length) && (!_offset)) { - retain(); - mapping = this; - - } else { - mapping = new _IOMemoryMap; - if( mapping - && !mapping->initCompatible( owner, this, _offset, _length )) { - mapping->release(); - mapping = 0; - } + retain(); + if( (fLength == _length) && (!_offset)) + { + newMapping->release(); + newMapping = this; + } + else + { + newMapping->fSuperMap = this; + newMapping->fOffset = _offset; + newMapping->fAddress = fAddress + _offset; } - return( mapping ); + return( newMapping ); } -IOPhysicalAddress _IOMemoryMap::getPhysicalSegment( IOByteCount _offset, - IOPhysicalLength * length) +IOPhysicalAddress +#ifdef __LP64__ +IOMemoryMap::getPhysicalSegment( IOByteCount _offset, IOPhysicalLength * _length, IOOptionBits _options) +#else /* !__LP64__ */ +IOMemoryMap::getPhysicalSegment( IOByteCount _offset, IOPhysicalLength * _length) +#endif /* !__LP64__ */ { IOPhysicalAddress address; LOCK; - address = memory->getPhysicalSegment( offset + _offset, length ); +#ifdef __LP64__ + address = fMemory->getPhysicalSegment( fOffset + _offset, _length, _options ); +#else /* !__LP64__ */ + address = fMemory->getPhysicalSegment( fOffset + _offset, _length ); +#endif /* !__LP64__ */ UNLOCK; return( address ); @@ -1978,6 +3317,10 @@ void IOMemoryDescriptor::initialize( void ) { if( 0 == gIOMemoryLock) gIOMemoryLock = IORecursiveLockAlloc(); + + IORegistryEntry::getRegistryRoot()->setProperty(kIOMaximumMappedIOByteCountKey, + ptoa_64(gIOMaximumMappedIOPageCount), 64); + gIOLastPage = IOGetLastPageNumber(); } void IOMemoryDescriptor::free( void ) @@ -1991,363 +3334,347 @@ void IOMemoryDescriptor::free( void ) IOMemoryMap * IOMemoryDescriptor::setMapping( task_t intoTask, IOVirtualAddress mapAddress, - IOOptionBits options = 0 ) + IOOptionBits options ) { - _IOMemoryMap * map; - - map = new _IOMemoryMap; - - LOCK; - - if( map - && !map->initWithDescriptor( this, intoTask, mapAddress, - options | kIOMapStatic, 0, getLength() )) { - map->release(); - map = 0; - } - - addMapping( map); - - UNLOCK; - - return( map); + return (createMappingInTask( intoTask, mapAddress, + options | kIOMapStatic, + 0, getLength() )); } IOMemoryMap * IOMemoryDescriptor::map( - IOOptionBits options = 0 ) + IOOptionBits options ) { - - return( makeMapping( this, kernel_task, 0, - options | kIOMapAnywhere, - 0, getLength() )); + return (createMappingInTask( kernel_task, 0, + options | kIOMapAnywhere, + 0, getLength() )); } -IOMemoryMap * IOMemoryDescriptor::map( - task_t intoTask, - IOVirtualAddress toAddress, +#ifndef __LP64__ +IOMemoryMap * IOMemoryDescriptor::map( + task_t intoTask, + IOVirtualAddress atAddress, IOOptionBits options, - IOByteCount offset = 0, - IOByteCount length = 0 ) + IOByteCount offset, + IOByteCount length ) { - if( 0 == length) - length = getLength(); + if ((!(kIOMapAnywhere & options)) && vm_map_is_64bit(get_task_map(intoTask))) + { + OSReportWithBacktrace("IOMemoryDescriptor::map() in 64b task, use ::createMappingInTask()"); + return (0); + } - return( makeMapping( this, intoTask, toAddress, options, offset, length )); + return (createMappingInTask(intoTask, atAddress, + options, offset, length)); } +#endif /* !__LP64__ */ -IOMemoryMap * IOMemoryDescriptor::makeMapping( - IOMemoryDescriptor * owner, +IOMemoryMap * IOMemoryDescriptor::createMappingInTask( task_t intoTask, - IOVirtualAddress toAddress, + mach_vm_address_t atAddress, IOOptionBits options, - IOByteCount offset, - IOByteCount length ) + mach_vm_size_t offset, + mach_vm_size_t length) { - _IOMemoryMap * mapping = 0; - OSIterator * iter; - - LOCK; - - do { - // look for an existing mapping - if( (iter = OSCollectionIterator::withCollection( _mappings))) { - - while( (mapping = (_IOMemoryMap *) iter->getNextObject())) { - - if( (mapping = mapping->copyCompatible( - owner, intoTask, toAddress, - options | kIOMapReference, - offset, length ))) - break; - } - iter->release(); - if( mapping) - continue; - } - - - if( mapping || (options & kIOMapReference)) - continue; - - owner = this; - - mapping = new _IOMemoryMap; - if( mapping - && !mapping->initWithDescriptor( owner, intoTask, toAddress, options, - offset, length )) { -#ifdef DEBUG - IOLog("Didn't make map %08lx : %08lx\n", offset, length ); -#endif - mapping->release(); - mapping = 0; - } - - } while( false ); - - owner->addMapping( mapping); + IOMemoryMap * result; + IOMemoryMap * mapping; - UNLOCK; + if (0 == length) + length = getLength(); - return( mapping); -} + mapping = new IOMemoryMap; -void IOMemoryDescriptor::addMapping( - IOMemoryMap * mapping ) -{ - if( mapping) { - if( 0 == _mappings) - _mappings = OSSet::withCapacity(1); - if( _mappings ) - _mappings->setObject( mapping ); + if( mapping + && !mapping->init( intoTask, atAddress, + options, offset, length )) { + mapping->release(); + mapping = 0; } -} - -void IOMemoryDescriptor::removeMapping( - IOMemoryMap * mapping ) -{ - if( _mappings) - _mappings->removeObject( mapping); -} - -/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ - -#undef super -#define super IOMemoryDescriptor - -OSDefineMetaClassAndStructors(IOSubMemoryDescriptor, IOMemoryDescriptor) - -/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ - -bool IOSubMemoryDescriptor::initSubRange( IOMemoryDescriptor * parent, - IOByteCount offset, IOByteCount length, - IODirection withDirection ) -{ - if( !super::init()) - return( false ); - - if( !parent) - return( false); - if( (offset + length) > parent->getLength()) - return( false); + if (mapping) + result = makeMapping(this, intoTask, (IOVirtualAddress) mapping, options | kIOMap64Bit, 0, 0); + else + result = 0; - parent->retain(); - _parent = parent; - _start = offset; - _length = length; - _direction = withDirection; - _tag = parent->getTag(); +#if DEBUG + if (!result) + IOLog("createMappingInTask failed desc %p, addr %qx, options %lx, offset %qx, length %qx\n", + this, atAddress, options, offset, length); +#endif - return( true ); + return (result); } -void IOSubMemoryDescriptor::free( void ) +#ifndef __LP64__ // there is only a 64 bit version for LP64 +IOReturn IOMemoryMap::redirect(IOMemoryDescriptor * newBackingMemory, + IOOptionBits options, + IOByteCount offset) { - if( _parent) - _parent->release(); - - super::free(); + return (redirect(newBackingMemory, options, (mach_vm_size_t)offset)); } +#endif - -IOPhysicalAddress IOSubMemoryDescriptor::getPhysicalSegment( IOByteCount offset, - IOByteCount * length ) +IOReturn IOMemoryMap::redirect(IOMemoryDescriptor * newBackingMemory, + IOOptionBits options, + mach_vm_size_t offset) { - IOPhysicalAddress address; - IOByteCount actualLength; - - assert(offset <= _length); - - if( length) - *length = 0; - - if( offset >= _length) - return( 0 ); - - address = _parent->getPhysicalSegment( offset + _start, &actualLength ); - - if( address && length) - *length = min( _length - offset, actualLength ); - - return( address ); -} + IOReturn err = kIOReturnSuccess; + IOMemoryDescriptor * physMem = 0; -IOPhysicalAddress IOSubMemoryDescriptor::getSourceSegment( IOByteCount offset, - IOByteCount * length ) -{ - IOPhysicalAddress address; - IOByteCount actualLength; + LOCK; - assert(offset <= _length); + if (fAddress && fAddressMap) do + { + if (((fMemory->_flags & kIOMemoryTypeMask) == kIOMemoryTypePhysical) + || ((fMemory->_flags & kIOMemoryTypeMask) == kIOMemoryTypePhysical64)) + { + physMem = fMemory; + physMem->retain(); + } - if( length) - *length = 0; + if (!fRedirUPL) + { + vm_size_t size = round_page(fLength); + int flags = UPL_COPYOUT_FROM | UPL_SET_INTERNAL + | UPL_SET_LITE | UPL_SET_IO_WIRE | UPL_BLOCK_ACCESS; + if (KERN_SUCCESS != memory_object_iopl_request((ipc_port_t) fMemory->_memEntry, 0, &size, &fRedirUPL, + NULL, NULL, + &flags)) + fRedirUPL = 0; + + if (physMem) + { + IOUnmapPages( fAddressMap, fAddress, fLength ); + if (false) + physMem->redirect(0, true); + } + } - if( offset >= _length) - return( 0 ); + if (newBackingMemory) + { + if (newBackingMemory != fMemory) + { + fOffset = 0; + if (this != newBackingMemory->makeMapping(newBackingMemory, fAddressTask, (IOVirtualAddress) this, + options | kIOMapUnique | kIOMapReference | kIOMap64Bit, + offset, fLength)) + err = kIOReturnError; + } + if (fRedirUPL) + { + upl_commit(fRedirUPL, NULL, 0); + upl_deallocate(fRedirUPL); + fRedirUPL = 0; + } + if (false && physMem) + physMem->redirect(0, false); + } + } + while (false); - address = _parent->getSourceSegment( offset + _start, &actualLength ); + UNLOCK; - if( address && length) - *length = min( _length - offset, actualLength ); + if (physMem) + physMem->release(); - return( address ); + return (err); } -void * IOSubMemoryDescriptor::getVirtualSegment(IOByteCount offset, - IOByteCount * lengthOfSegment) +IOMemoryMap * IOMemoryDescriptor::makeMapping( + IOMemoryDescriptor * owner, + task_t __intoTask, + IOVirtualAddress __address, + IOOptionBits options, + IOByteCount __offset, + IOByteCount __length ) { - return( 0 ); -} +#ifndef __LP64__ + if (!(kIOMap64Bit & options)) panic("IOMemoryDescriptor::makeMapping !64bit"); +#endif /* !__LP64__ */ -IOByteCount IOSubMemoryDescriptor::readBytes(IOByteCount offset, - void * bytes, IOByteCount withLength) -{ - IOByteCount byteCount; + IOMemoryDescriptor * mapDesc = 0; + IOMemoryMap * result = 0; + OSIterator * iter; - assert(offset <= _length); + IOMemoryMap * mapping = (IOMemoryMap *) __address; + mach_vm_size_t offset = mapping->fOffset + __offset; + mach_vm_size_t length = mapping->fLength; - if( offset >= _length) - return( 0 ); + mapping->fOffset = offset; LOCK; - byteCount = _parent->readBytes( _start + offset, bytes, - min(withLength, _length - offset) ); - UNLOCK; - - return( byteCount ); -} - -IOByteCount IOSubMemoryDescriptor::writeBytes(IOByteCount offset, - const void* bytes, IOByteCount withLength) -{ - IOByteCount byteCount; - assert(offset <= _length); + do + { + if (kIOMapStatic & options) + { + result = mapping; + addMapping(mapping); + mapping->setMemoryDescriptor(this, 0); + continue; + } - if( offset >= _length) - return( 0 ); + if (kIOMapUnique & options) + { + IOPhysicalAddress phys; + IOByteCount physLen; - LOCK; - byteCount = _parent->writeBytes( _start + offset, bytes, - min(withLength, _length - offset) ); - UNLOCK; +// if (owner != this) continue; - return( byteCount ); -} + if (((_flags & kIOMemoryTypeMask) == kIOMemoryTypePhysical) + || ((_flags & kIOMemoryTypeMask) == kIOMemoryTypePhysical64)) + { + phys = getPhysicalSegment(offset, &physLen, kIOMemoryMapperNone); + if (!phys || (physLen < length)) + continue; + + mapDesc = IOMemoryDescriptor::withAddressRange( + phys, length, getDirection() | kIOMemoryMapperNone, NULL); + if (!mapDesc) + continue; + offset = 0; + mapping->fOffset = offset; + } + } + else + { + // look for a compatible existing mapping + if( (iter = OSCollectionIterator::withCollection(_mappings))) + { + IOMemoryMap * lookMapping; + while ((lookMapping = (IOMemoryMap *) iter->getNextObject())) + { + if ((result = lookMapping->copyCompatible(mapping))) + { + addMapping(result); + result->setMemoryDescriptor(this, offset); + break; + } + } + iter->release(); + } + if (result || (options & kIOMapReference)) + continue; + } -IOReturn IOSubMemoryDescriptor::prepare( - IODirection forDirection = kIODirectionNone) -{ - IOReturn err; + if (!mapDesc) + { + mapDesc = this; + mapDesc->retain(); + } + IOReturn + kr = mapDesc->doMap( 0, (IOVirtualAddress *) &mapping, options, 0, 0 ); + if (kIOReturnSuccess == kr) + { + result = mapping; + mapDesc->addMapping(result); + result->setMemoryDescriptor(mapDesc, offset); + } + else + { + mapping->release(); + mapping = NULL; + } + } + while( false ); - LOCK; - err = _parent->prepare( forDirection); UNLOCK; - return( err ); + if (mapDesc) + mapDesc->release(); + + return (result); } -IOReturn IOSubMemoryDescriptor::complete( - IODirection forDirection = kIODirectionNone) +void IOMemoryDescriptor::addMapping( + IOMemoryMap * mapping ) { - IOReturn err; - - LOCK; - err = _parent->complete( forDirection); - UNLOCK; - - return( err ); + if( mapping) + { + if( 0 == _mappings) + _mappings = OSSet::withCapacity(1); + if( _mappings ) + _mappings->setObject( mapping ); + } } -IOMemoryMap * IOSubMemoryDescriptor::makeMapping( - IOMemoryDescriptor * owner, - task_t intoTask, - IOVirtualAddress toAddress, - IOOptionBits options, - IOByteCount offset, - IOByteCount length ) +void IOMemoryDescriptor::removeMapping( + IOMemoryMap * mapping ) { - IOMemoryMap * mapping; - - mapping = (IOMemoryMap *) _parent->makeMapping( - _parent, intoTask, - toAddress - (_start + offset), - options | kIOMapReference, - _start + offset, length ); - - if( !mapping) - mapping = (IOMemoryMap *) _parent->makeMapping( - _parent, intoTask, - toAddress, - options, _start + offset, length ); - - if( !mapping) - mapping = super::makeMapping( owner, intoTask, toAddress, options, - offset, length ); - - return( mapping ); + if( _mappings) + _mappings->removeObject( mapping); } -/* ick */ - +#ifndef __LP64__ +// obsolete initializers +// - initWithOptions is the designated initializer bool -IOSubMemoryDescriptor::initWithAddress(void * address, - IOByteCount withLength, - IODirection withDirection) +IOMemoryDescriptor::initWithAddress(void * address, + IOByteCount length, + IODirection direction) { return( false ); } bool -IOSubMemoryDescriptor::initWithAddress(vm_address_t address, - IOByteCount withLength, - IODirection withDirection, - task_t withTask) +IOMemoryDescriptor::initWithAddress(IOVirtualAddress address, + IOByteCount length, + IODirection direction, + task_t task) { return( false ); } bool -IOSubMemoryDescriptor::initWithPhysicalAddress( +IOMemoryDescriptor::initWithPhysicalAddress( IOPhysicalAddress address, - IOByteCount withLength, - IODirection withDirection ) + IOByteCount length, + IODirection direction ) { return( false ); } bool -IOSubMemoryDescriptor::initWithRanges( +IOMemoryDescriptor::initWithRanges( IOVirtualRange * ranges, UInt32 withCount, - IODirection withDirection, - task_t withTask, - bool asReference = false) + IODirection direction, + task_t task, + bool asReference) { return( false ); } bool -IOSubMemoryDescriptor::initWithPhysicalRanges( IOPhysicalRange * ranges, +IOMemoryDescriptor::initWithPhysicalRanges( IOPhysicalRange * ranges, UInt32 withCount, - IODirection withDirection, - bool asReference = false) + IODirection direction, + bool asReference) { return( false ); } +void * IOMemoryDescriptor::getVirtualSegment(IOByteCount offset, + IOByteCount * lengthOfSegment) +{ + return( 0 ); +} +#endif /* !__LP64__ */ + /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ bool IOGeneralMemoryDescriptor::serialize(OSSerialize * s) const { OSSymbol const *keys[2]; OSObject *values[2]; - OSDictionary *dict; - IOVirtualRange *vcopy; + struct SerData { + user_addr_t address; + user_size_t length; + } *vcopy; unsigned int index, nRanges; bool result; + IOOptionBits type = _flags & kIOMemoryTypeMask; + if (s == NULL) return false; if (s->previouslySerialized(this)) return true; @@ -2355,7 +3682,7 @@ bool IOGeneralMemoryDescriptor::serialize(OSSerialize * s) const if (!s->addXMLStartTag(this, "array")) return false; nRanges = _rangesCount; - vcopy = (IOVirtualRange *) IOMalloc(sizeof(IOVirtualRange) * nRanges); + vcopy = (SerData *) IOMalloc(sizeof(SerData) * nRanges); if (vcopy == 0) return false; keys[0] = OSSymbol::withCString("address"); @@ -2370,8 +3697,12 @@ bool IOGeneralMemoryDescriptor::serialize(OSSerialize * s) const // while the lock is held. LOCK; if (nRanges == _rangesCount) { + Ranges vec = _ranges; for (index = 0; index < nRanges; index++) { - vcopy[index] = _ranges.v[index]; + user_addr_t addr; IOByteCount len; + getAddrLenForInd(addr, len, type, vec, index); + vcopy[index].address = addr; + vcopy[index].length = len; } } else { // The descriptor changed out from under us. Give up. @@ -2383,12 +3714,15 @@ bool IOGeneralMemoryDescriptor::serialize(OSSerialize * s) const for (index = 0; index < nRanges; index++) { - values[0] = OSNumber::withNumber(_ranges.v[index].address, sizeof(_ranges.v[index].address) * 8); + user_addr_t addr = vcopy[index].address; + IOByteCount len = (IOByteCount) vcopy[index].length; + values[0] = + OSNumber::withNumber(addr, (((UInt64) addr) >> 32)? 64 : 32); if (values[0] == 0) { result = false; goto bail; } - values[1] = OSNumber::withNumber(_ranges.v[index].length, sizeof(_ranges.v[index].length) * 8); + values[1] = OSNumber::withNumber(len, sizeof(len) * 8); if (values[1] == 0) { result = false; goto bail; @@ -2420,60 +3754,14 @@ bool IOGeneralMemoryDescriptor::serialize(OSSerialize * s) const if (keys[1]) keys[1]->release(); if (vcopy) - IOFree(vcopy, sizeof(IOVirtualRange) * nRanges); + IOFree(vcopy, sizeof(SerData) * nRanges); return result; } -bool IOSubMemoryDescriptor::serialize(OSSerialize * s) const -{ - if (!s) { - return (false); - } - if (s->previouslySerialized(this)) return true; - - // Pretend we are a dictionary. - // We must duplicate the functionality of OSDictionary here - // because otherwise object references will not work; - // they are based on the value of the object passed to - // previouslySerialized and addXMLStartTag. - - if (!s->addXMLStartTag(this, "dict")) return false; - - char const *keys[3] = {"offset", "length", "parent"}; - - OSObject *values[3]; - values[0] = OSNumber::withNumber(_start, sizeof(_start) * 8); - if (values[0] == 0) - return false; - values[1] = OSNumber::withNumber(_length, sizeof(_length) * 8); - if (values[1] == 0) { - values[0]->release(); - return false; - } - values[2] = _parent; - - bool result = true; - for (int i=0; i<3; i++) { - if (!s->addString("") || - !s->addString(keys[i]) || - !s->addXMLEndTag("key") || - !values[i]->serialize(s)) { - result = false; - break; - } - } - values[0]->release(); - values[1]->release(); - if (!result) { - return false; - } - - return s->addXMLEndTag("dict"); -} - /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ OSMetaClassDefineReservedUsed(IOMemoryDescriptor, 0); +#ifdef __LP64__ OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 1); OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 2); OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 3); @@ -2481,6 +3769,15 @@ OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 4); OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 5); OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 6); OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 7); +#else /* !__LP64__ */ +OSMetaClassDefineReservedUsed(IOMemoryDescriptor, 1); +OSMetaClassDefineReservedUsed(IOMemoryDescriptor, 2); +OSMetaClassDefineReservedUsed(IOMemoryDescriptor, 3); +OSMetaClassDefineReservedUsed(IOMemoryDescriptor, 4); +OSMetaClassDefineReservedUsed(IOMemoryDescriptor, 5); +OSMetaClassDefineReservedUsed(IOMemoryDescriptor, 6); +OSMetaClassDefineReservedUsed(IOMemoryDescriptor, 7); +#endif /* !__LP64__ */ OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 8); OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 9); OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 10); @@ -2490,6 +3787,10 @@ OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 13); OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 14); OSMetaClassDefineReservedUnused(IOMemoryDescriptor, 15); -/* inline function implementation */ -IOPhysicalAddress IOMemoryDescriptor::getPhysicalAddress() +/* ex-inline function implementation */ +IOPhysicalAddress +IOMemoryDescriptor::getPhysicalAddress() { return( getPhysicalSegment( 0, 0 )); } + + +