#include <IOKit/IOLib.h>
#include <IOKit/IOBufferMemoryDescriptor.h>
+#include "IOKitKernelInternal.h"
+
__BEGIN_DECLS
void ipc_port_release_send(ipc_port_t port);
-__END_DECLS
+#include <vm/pmap.h>
-extern "C" vm_map_t IOPageableMapForAddress( vm_address_t address );
+vm_map_t IOPageableMapForAddress( vm_address_t address );
+__END_DECLS
#define super IOGeneralMemoryDescriptor
OSDefineMetaClassAndStructors(IOBufferMemoryDescriptor,
bool IOBufferMemoryDescriptor::initWithOptions(
IOOptionBits options,
vm_size_t capacity,
- vm_offset_t alignment)
+ vm_offset_t alignment,
+ task_t inTask)
{
+ kern_return_t kr;
+ vm_map_t vmmap = 0;
+ IOOptionBits iomdOptions = kIOMemoryAsReference | kIOMemoryTypeVirtual;
+
if (!capacity)
return false;
_physSegCount = 0;
_buffer = 0;
+ // Grab the direction and the Auto Prepare bits from the Buffer MD options
+ iomdOptions |= options & (kIOMemoryDirectionMask | kIOMemoryAutoPrepare);
+
if ((options & kIOMemorySharingTypeMask) && (alignment < page_size))
alignment = page_size;
+ if ((inTask != kernel_task) && !(options & kIOMemoryPageable))
+ return false;
+
_alignment = alignment;
if (options & kIOMemoryPageable)
- /* Allocate some kernel address space. */
- _buffer = IOMallocPageable(capacity, alignment);
- /* Allocate a wired-down buffer inside kernel space. */
- else if (options & kIOMemoryPhysicallyContiguous)
- _buffer = IOMallocContiguous(capacity, alignment, 0);
- else if (alignment > 1)
- _buffer = IOMallocAligned(capacity, alignment);
- else
- _buffer = IOMalloc(capacity);
-
- if (!_buffer)
- return false;
+ {
+ iomdOptions |= kIOMemoryBufferPageable;
+
+ ipc_port_t sharedMem;
+ vm_size_t size = round_page_32(capacity);
+
+ // must create the entry before any pages are allocated
+
+ // set flags for entry + object create
+ vm_prot_t memEntryCacheMode = VM_PROT_READ | VM_PROT_WRITE
+ | MAP_MEM_NAMED_CREATE;
+
+ if (options & kIOMemoryPurgeable)
+ memEntryCacheMode |= MAP_MEM_PURGABLE;
+
+ // set memory entry cache mode
+ switch (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;
+ }
+
+ kr = mach_make_memory_entry( vmmap,
+ &size, 0,
+ memEntryCacheMode, &sharedMem,
+ NULL );
+
+ if( (KERN_SUCCESS == kr) && (size != round_page_32(capacity))) {
+ ipc_port_release_send( sharedMem );
+ kr = kIOReturnVMError;
+ }
+ if( KERN_SUCCESS != kr)
+ return( false );
+
+ _memEntry = (void *) sharedMem;
+#if IOALLOCDEBUG
+ debug_iomallocpageable_size += size;
+#endif
+ if ((NULL == inTask) && (options & kIOMemoryPageable))
+ inTask = kernel_task;
+ else if (inTask == kernel_task)
+ {
+ vmmap = kernel_map;
+ }
+ else
+ {
+
+ if( !reserved) {
+ reserved = IONew( ExpansionData, 1 );
+ if( !reserved)
+ return( false );
+ }
+ vmmap = get_task_map(inTask);
+ vm_map_reference(vmmap);
+ reserved->map = vmmap;
+ }
+ }
+ else
+ {
+ // @@@ gvdl: Need to remove this
+ // Buffer should never auto prepare they should be prepared explicitly
+ // But it never was enforced so what are you going to do?
+ iomdOptions |= kIOMemoryAutoPrepare;
+
+ /* Allocate a wired-down buffer inside kernel space. */
+ if (options & kIOMemoryPhysicallyContiguous)
+ _buffer = IOMallocContiguous(capacity, alignment, 0);
+ else if (alignment > 1)
+ _buffer = IOMallocAligned(capacity, alignment);
+ else
+ _buffer = IOMalloc(capacity);
+
+ if (!_buffer)
+ return false;
+ }
_singleRange.v.address = (vm_address_t) _buffer;
_singleRange.v.length = capacity;
- if (!super::initWithRanges(&_singleRange.v, 1,
- (IODirection) (options & kIOMemoryDirectionMask),
- kernel_task, true))
+ if (!super::initWithOptions(&_singleRange.v, 1, 0,
+ inTask, iomdOptions, /* System mapper */ 0))
return false;
- if (options & kIOMemoryPageable) {
- _flags |= kIOMemoryRequiresWire;
-
+ if (options & kIOMemoryPageable)
+ {
kern_return_t kr;
- ipc_port_t sharedMem = (ipc_port_t) _memEntry;
- vm_size_t size = round_page(_ranges.v[0].length);
- // must create the entry before any pages are allocated
- if( 0 == sharedMem) {
- kr = mach_make_memory_entry( IOPageableMapForAddress( _ranges.v[0].address ),
- &size, _ranges.v[0].address,
- VM_PROT_READ | VM_PROT_WRITE, &sharedMem,
- NULL );
- if( (KERN_SUCCESS == kr) && (size != round_page(_ranges.v[0].length))) {
- ipc_port_release_send( sharedMem );
- kr = kIOReturnVMError;
- }
- if( KERN_SUCCESS != kr)
- sharedMem = 0;
- _memEntry = (void *) sharedMem;
- }
-
- } else {
- /* Precompute virtual-to-physical page mappings. */
- vm_address_t inBuffer = (vm_address_t) _buffer;
- _physSegCount = atop(trunc_page(inBuffer + capacity - 1) -
- trunc_page(inBuffer)) + 1;
- _physAddrs = IONew(IOPhysicalAddress, _physSegCount);
- if (!_physAddrs)
- return false;
-
- inBuffer = trunc_page(inBuffer);
- for (unsigned i = 0; i < _physSegCount; i++) {
- _physAddrs[i] = pmap_extract(get_task_pmap(kernel_task), inBuffer);
- assert(_physAddrs[i]); /* supposed to be wired */
- inBuffer += page_size;
- }
+ if (vmmap)
+ {
+ kr = doMap(vmmap, (IOVirtualAddress *) &_buffer, kIOMapAnywhere, 0, round_page_32(capacity));
+ if (KERN_SUCCESS != kr)
+ {
+ _buffer = 0;
+ return( false );
+ }
+ _singleRange.v.address = (vm_address_t) _buffer;
+ }
}
setLength(capacity);
return true;
}
+IOBufferMemoryDescriptor * IOBufferMemoryDescriptor::inTaskWithOptions(
+ task_t inTask,
+ IOOptionBits options,
+ vm_size_t capacity,
+ vm_offset_t alignment)
+{
+ IOBufferMemoryDescriptor *me = new IOBufferMemoryDescriptor;
+
+ if (me && !me->initWithOptions(options, capacity, alignment, inTask)) {
+ me->release();
+ me = 0;
+ }
+ return me;
+}
+
+bool IOBufferMemoryDescriptor::initWithOptions(
+ IOOptionBits options,
+ vm_size_t capacity,
+ vm_offset_t alignment)
+{
+ return( initWithOptions(options, capacity, alignment, kernel_task) );
+}
+
IOBufferMemoryDescriptor * IOBufferMemoryDescriptor::withOptions(
IOOptionBits options,
vm_size_t capacity,
- vm_offset_t alignment = 1)
+ vm_offset_t alignment)
{
IOBufferMemoryDescriptor *me = new IOBufferMemoryDescriptor;
- if (me && !me->initWithOptions(options, capacity, alignment)) {
+ if (me && !me->initWithOptions(options, capacity, alignment, kernel_task)) {
me->release();
me = 0;
}
*/
void IOBufferMemoryDescriptor::free()
{
+ // Cache all of the relevant information on the stack for use
+ // after we call super::free()!
IOOptionBits options = _options;
vm_size_t size = _capacity;
void * buffer = _buffer;
+ vm_map_t vmmap = 0;
vm_offset_t alignment = _alignment;
- if (_physAddrs)
- IODelete(_physAddrs, IOPhysicalAddress, _physSegCount);
+ if (reserved)
+ {
+ vmmap = reserved->map;
+ IODelete( reserved, ExpansionData, 1 );
+ }
/* super::free may unwire - deallocate buffer afterwards */
super::free();
- if (buffer) {
- if (options & kIOMemoryPageable)
- IOFreePageable(buffer, size);
- else {
- if (options & kIOMemoryPhysicallyContiguous)
- IOFreeContiguous(buffer, size);
- else if (alignment > 1)
- IOFreeAligned(buffer, size);
+ if (options & kIOMemoryPageable)
+ {
+#if IOALLOCDEBUG
+ if (!buffer || vmmap)
+ debug_iomallocpageable_size -= round_page_32(size);
+#endif
+ if (buffer)
+ {
+ if (vmmap)
+ vm_deallocate(vmmap, (vm_address_t) buffer, round_page_32(size));
else
- IOFree(buffer, size);
+ IOFreePageable(buffer, size);
}
}
+ else if (buffer)
+ {
+ if (options & kIOMemoryPhysicallyContiguous)
+ IOFreeContiguous(buffer, size);
+ else if (alignment > 1)
+ IOFreeAligned(buffer, size);
+ else
+ IOFree(buffer, size);
+ }
+ if (vmmap)
+ vm_map_deallocate(vmmap);
}
/*
return 0;
}
-/*
- * getPhysicalSegment:
- *
- * Get the physical address of the buffer, relative to the current position.
- * If the current position is at the end of the buffer, a zero is returned.
- */
-IOPhysicalAddress
-IOBufferMemoryDescriptor::getPhysicalSegment(IOByteCount offset,
- IOByteCount * lengthOfSegment)
-{
- IOPhysicalAddress physAddr;
-
- if( offset != _position)
- setPosition( offset );
-
- assert(_position <= _length);
-
- /* Fail gracefully if the position is at (or past) the end-of-buffer. */
- if (_position >= _length) {
- *lengthOfSegment = 0;
- return 0;
- }
-
- if (_options & kIOMemoryPageable) {
- physAddr = super::getPhysicalSegment(offset, lengthOfSegment);
-
- } else {
- /* Compute the largest contiguous physical length possible. */
- vm_address_t actualPos = _singleRange.v.address + _position;
- vm_address_t actualPage = trunc_page(actualPos);
- unsigned physInd = atop(actualPage-trunc_page(_singleRange.v.address));
-
- vm_size_t physicalLength = actualPage + page_size - actualPos;
- for (unsigned index = physInd + 1; index < _physSegCount &&
- _physAddrs[index] == _physAddrs[index-1] + page_size; index++) {
- physicalLength += page_size;
- }
-
- /* Clip contiguous physical length at the end-of-buffer. */
- if (physicalLength > _length - _position)
- physicalLength = _length - _position;
-
- *lengthOfSegment = physicalLength;
- physAddr = _physAddrs[physInd] + (actualPos - actualPage);
- }
-
- return physAddr;
-}
-
-OSMetaClassDefineReservedUnused(IOBufferMemoryDescriptor, 0);
+OSMetaClassDefineReservedUsed(IOBufferMemoryDescriptor, 0);
OSMetaClassDefineReservedUnused(IOBufferMemoryDescriptor, 1);
OSMetaClassDefineReservedUnused(IOBufferMemoryDescriptor, 2);
OSMetaClassDefineReservedUnused(IOBufferMemoryDescriptor, 3);
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