IODeviceTreeSupport.cpp [plain text]
#include <IOKit/IODeviceTreeSupport.h>
#include <libkern/c++/OSContainers.h>
#include <IOKit/IODeviceMemory.h>
#include <IOKit/IOService.h>
#include <IOKit/IOCatalogue.h>
#include <IOKit/IOLib.h>
#include <IOKit/IOKitKeys.h>
#include <DeviceTree.h>
extern "C" {
#include <machine/machine_routines.h>
void DTInit( void * data );
int IODTGetLoaderInfo( char *key, void **infoAddr, int *infosize );
void IODTFreeLoaderInfo( char *key, void *infoAddr, int infoSize );
}
#include <IOKit/assert.h>
#define IODTSUPPORTDEBUG 0
const IORegistryPlane * gIODTPlane;
static OSArray * gIODTPHandles;
static OSArray * gIODTPHandleMap;
const OSSymbol * gIODTNameKey;
const OSSymbol * gIODTUnitKey;
const OSSymbol * gIODTCompatibleKey;
const OSSymbol * gIODTTypeKey;
const OSSymbol * gIODTModelKey;
const OSSymbol * gIODTSizeCellKey;
const OSSymbol * gIODTAddressCellKey;
const OSSymbol * gIODTRangeKey;
const OSSymbol * gIODTPersistKey;
const OSSymbol * gIODTDefaultInterruptController;
const OSSymbol * gIODTAAPLInterruptsKey;
const OSSymbol * gIODTPHandleKey;
const OSSymbol * gIODTInterruptCellKey;
const OSSymbol * gIODTInterruptParentKey;
const OSSymbol * gIODTNWInterruptMappingKey;
static IORegistryEntry * MakeReferenceTable( DTEntry dtEntry, bool copy );
static void AddPHandle( IORegistryEntry * regEntry );
static void FreePhysicalMemory( vm_offset_t * range );
IORegistryEntry *
IODeviceTreeAlloc( void * dtTop )
{
IORegistryEntry *parent;
IORegistryEntry *child;
IORegistryIterator *regIter;
DTEntryIterator iter;
DTEntry dtChild;
DTEntry mapEntry;
OSArray *stack;
OSData *prop;
OSObject *obj;
vm_offset_t *dtMap;
int propSize;
bool intMap;
bool freeDT;
IOLog("IODeviceTreeSupport ");
gIODTPlane = IORegistryEntry::makePlane( kIODeviceTreePlane );
gIODTNameKey = OSSymbol::withCStringNoCopy( "name" );
gIODTUnitKey = OSSymbol::withCStringNoCopy( "AAPL,unit-string" );
gIODTCompatibleKey = OSSymbol::withCStringNoCopy( "compatible" );
gIODTTypeKey = OSSymbol::withCStringNoCopy( "device_type" );
gIODTModelKey = OSSymbol::withCStringNoCopy( "model" );
gIODTSizeCellKey = OSSymbol::withCStringNoCopy( "#size-cells" );
gIODTAddressCellKey = OSSymbol::withCStringNoCopy( "#address-cells" );
gIODTRangeKey = OSSymbol::withCStringNoCopy( "ranges" );
gIODTPersistKey = OSSymbol::withCStringNoCopy( "IODTPersist" );
assert( gIODTPlane && gIODTCompatibleKey
&& gIODTTypeKey && gIODTModelKey
&& gIODTSizeCellKey && gIODTAddressCellKey && gIODTRangeKey
&& gIODTPersistKey );
gIODTDefaultInterruptController
= OSSymbol::withCStringNoCopy("IOPrimaryInterruptController");
gIODTNWInterruptMappingKey
= OSSymbol::withCStringNoCopy("IONWInterrupts");
gIODTAAPLInterruptsKey
= OSSymbol::withCStringNoCopy("AAPL,interrupts");
gIODTPHandleKey
= OSSymbol::withCStringNoCopy("AAPL,phandle");
gIODTInterruptParentKey
= OSSymbol::withCStringNoCopy("interrupt-parent");
gIODTPHandles = OSArray::withCapacity( 1 );
gIODTPHandleMap = OSArray::withCapacity( 1 );
gIODTInterruptCellKey
= OSSymbol::withCStringNoCopy("#interrupt-cells");
assert( gIODTDefaultInterruptController && gIODTNWInterruptMappingKey
&& gIODTAAPLInterruptsKey
&& gIODTPHandleKey && gIODTInterruptParentKey
&& gIODTPHandles && gIODTPHandleMap
&& gIODTInterruptCellKey
);
freeDT = (kSuccess == DTLookupEntry( 0, "/chosen/memory-map", &mapEntry ))
&& (kSuccess == DTGetProperty( mapEntry,
"DeviceTree", (void **) &dtMap, &propSize ))
&& ((2 * sizeof( vm_offset_t)) == propSize);
parent = MakeReferenceTable( (DTEntry)dtTop, freeDT );
stack = OSArray::withObjects( & (const OSObject *) parent, 1, 10 );
DTCreateEntryIterator( (DTEntry)dtTop, &iter );
do {
parent = (IORegistryEntry *)stack->getObject( stack->getCount() - 1);
stack->removeObject( stack->getCount() - 1);
while( kSuccess == DTIterateEntries( iter, &dtChild) ) {
child = MakeReferenceTable( dtChild, freeDT );
child->attachToParent( parent, gIODTPlane);
AddPHandle( child );
if( kSuccess == DTEnterEntry( iter, dtChild)) {
stack->setObject( parent);
parent = child;
}
child->release();
}
} while( stack->getCount()
&& (kSuccess == DTExitEntry( iter, &dtChild)));
stack->release();
DTDisposeEntryIterator( iter);
if( (prop = (OSData *) parent->getProperty( gIODTCompatibleKey))) {
parent->setName( parent->getName(), gIODTPlane );
parent->setName( (const char *) prop->getBytesNoCopy() );
}
parent->attachToParent( IORegistryEntry::getRegistryRoot(), gIODTPlane);
parent->release();
if( freeDT ) {
DTInit(0);
IODTFreeLoaderInfo( "DeviceTree",
(void *)dtMap[0], round_page(dtMap[1]) );
}
intMap = false;
regIter = IORegistryIterator::iterateOver( gIODTPlane,
kIORegistryIterateRecursively );
assert( regIter );
if( regIter) {
while( (child = regIter->getNextObject())) {
IODTMapInterrupts( child );
if( !intMap && child->getProperty( gIODTInterruptParentKey))
intMap = true;
if( (obj = child->getProperty( "driver,AAPL,MacOSX,PowerPC"))) {
gIOCatalogue->addExtensionsFromArchive((OSData *)obj);
child->removeProperty( "driver,AAPL,MacOSX,PowerPC");
}
child->removeProperty( "lanLib,AAPL,MacOS,PowerPC");
if( (obj = child->getProperty( "driver,AAPL,MacOS,PowerPC"))) {
if( (0 == (prop = (OSData *)child->getProperty( gIODTTypeKey )))
|| (strcmp( "display", (char *) prop->getBytesNoCopy())) ) {
child->removeProperty( "driver,AAPL,MacOS,PowerPC");
}
}
}
regIter->release();
}
if( intMap)
parent->setProperty( gIODTNWInterruptMappingKey,
(OSObject *) gIODTNWInterruptMappingKey );
IOLog("done\n");
return( parent);
}
int IODTGetLoaderInfo( char *key, void **infoAddr, int *infoSize )
{
IORegistryEntry *chosen;
OSData *propObj;
unsigned int *propPtr;
unsigned int propSize;
chosen = IORegistryEntry::fromPath( "/chosen/memory-map", gIODTPlane );
if ( chosen == 0 ) return -1;
propObj = OSDynamicCast( OSData, chosen->getProperty(key) );
if ( propObj == 0 ) return -1;
propSize = propObj->getLength();
if ( propSize != (2 * sizeof(UInt32)) ) return -1;
propPtr = (unsigned int *)propObj->getBytesNoCopy();
if ( propPtr == 0 ) return -1;
*infoAddr = (void *)propPtr[0] ;
*infoSize = (int) propPtr[1];
return 0;
}
void IODTFreeLoaderInfo( char *key, void *infoAddr, int infoSize )
{
vm_offset_t range[2];
IORegistryEntry *chosen;
range[0] = (vm_offset_t)infoAddr;
range[1] = (vm_offset_t)infoSize;
FreePhysicalMemory( range );
if ( key != 0 ) {
chosen = IORegistryEntry::fromPath( "/chosen/memory-map", gIODTPlane );
if ( chosen != 0 ) {
chosen->removeProperty(key);
}
}
}
static void FreePhysicalMemory( vm_offset_t * range )
{
vm_offset_t virt;
virt = ml_static_ptovirt( range[0] );
if( virt) {
ml_static_mfree( virt, range[1] );
}
}
static IORegistryEntry *
MakeReferenceTable( DTEntry dtEntry, bool copy )
{
IORegistryEntry *regEntry;
OSDictionary *propTable;
const OSSymbol *nameKey;
OSData *data;
const OSSymbol *sym;
DTPropertyIterator dtIter;
void *prop;
int propSize;
char *name;
char location[ 32 ];
bool noLocation = true;
regEntry = new IOService;
if( regEntry && (false == regEntry->init())) {
regEntry->release();
regEntry = 0;
}
if( regEntry &&
(kSuccess == DTCreatePropertyIterator( dtEntry, &dtIter))) {
propTable = regEntry->getPropertyTable();
while( kSuccess == DTIterateProperties( dtIter, &name)) {
if( kSuccess != DTGetProperty( dtEntry, name, &prop, &propSize ))
continue;
if( copy) {
nameKey = OSSymbol::withCString(name);
data = OSData::withBytes(prop, propSize);
} else {
nameKey = OSSymbol::withCStringNoCopy(name);
data = OSData::withBytesNoCopy(prop, propSize);
}
assert( nameKey && data );
propTable->setObject( nameKey, data);
data->release();
nameKey->release();
if( nameKey == gIODTNameKey ) {
if( copy)
sym = OSSymbol::withCString( (const char *) prop);
else
sym = OSSymbol::withCStringNoCopy( (const char *) prop);
regEntry->setName( sym );
sym->release();
} else if( nameKey == gIODTUnitKey ) {
if( propSize >= (int) sizeof( location))
propSize = sizeof( location) - 1;
strncpy( location, (const char *) prop, propSize );
location[ propSize ] = 0;
regEntry->setLocation( location );
propTable->removeObject( gIODTUnitKey );
noLocation = false;
} else if( noLocation && (0 == strcmp( name, "reg"))) {
sprintf( location, "%lX", *((UInt32 *) prop) );
regEntry->setLocation( location );
}
}
DTDisposePropertyIterator( dtIter);
}
return( regEntry);
}
static void AddPHandle( IORegistryEntry * regEntry )
{
OSData * data;
if( regEntry->getProperty( gIODTInterruptCellKey)
&& (data = OSDynamicCast( OSData, regEntry->getProperty( gIODTPHandleKey )))) {
gIODTPHandles->setObject( data );
gIODTPHandleMap->setObject( regEntry );
}
}
static IORegistryEntry * FindPHandle( UInt32 phandle )
{
OSData *data;
IORegistryEntry *regEntry = 0;
int i;
for( i = 0; (data = (OSData *)gIODTPHandles->getObject( i )); i++ ) {
if( phandle == *((UInt32 *)data->getBytesNoCopy())) {
regEntry = (IORegistryEntry *)
gIODTPHandleMap->getObject( i );
break;
}
}
return( regEntry );
}
static bool GetUInt32( IORegistryEntry * regEntry, const OSSymbol * name,
UInt32 * value )
{
OSData *data;
if( (data = OSDynamicCast( OSData, regEntry->getProperty( name )))
&& (4 == data->getLength())) {
*value = *((UInt32 *) data->getBytesNoCopy());
return( true );
} else
return( false );
}
IORegistryEntry * IODTFindInterruptParent( IORegistryEntry * regEntry )
{
IORegistryEntry * parent;
UInt32 phandle;
if( GetUInt32( regEntry, gIODTInterruptParentKey, &phandle))
parent = FindPHandle( phandle );
else if( 0 == regEntry->getProperty( "interrupt-controller"))
parent = regEntry->getParentEntry( gIODTPlane);
else
parent = 0;
return( parent );
}
const OSSymbol * IODTInterruptControllerName( IORegistryEntry * regEntry )
{
const OSSymbol *sym;
UInt32 phandle;
bool ok;
char buf[48];
ok = GetUInt32( regEntry, gIODTPHandleKey, &phandle);
assert( ok );
if( ok) {
sprintf( buf, "IOInterruptController%08lX", phandle);
sym = OSSymbol::withCString( buf );
} else
sym = 0;
return( sym );
}
#define unexpected(a) { kprintf("unexpected %s:%d\n", __FILE__, __LINE__); a; }
static void IODTGetICellCounts( IORegistryEntry * regEntry,
UInt32 * iCellCount, UInt32 * aCellCount)
{
if( !GetUInt32( regEntry, gIODTInterruptCellKey, iCellCount))
unexpected( *iCellCount = 1 );
if( !GetUInt32( regEntry, gIODTAddressCellKey, aCellCount))
*aCellCount = 0;
}
UInt32 IODTMapOneInterrupt( IORegistryEntry * regEntry, UInt32 * intSpec,
OSData ** spec, const OSSymbol ** controller )
{
IORegistryEntry *parent = 0;
OSData *data;
UInt32 *addrCmp;
UInt32 *maskCmp;
UInt32 *map;
UInt32 *endMap;
UInt32 acells, icells, pacells, picells, cell;
UInt32 i, original_icells;
bool cmp, ok = false;
parent = IODTFindInterruptParent( regEntry );
IODTGetICellCounts( parent, &icells, &acells );
addrCmp = 0;
if( acells) {
data = OSDynamicCast( OSData, regEntry->getProperty( "reg" ));
if( data && (data->getLength() >= (acells * sizeof( UInt32))))
addrCmp = (UInt32 *) data->getBytesNoCopy();
}
original_icells = icells;
regEntry = parent;
do {
#if IODTSUPPORTDEBUG
kprintf ("IODTMapOneInterrupt: current regEntry name %s\n", regEntry->getName());
kprintf ("acells - icells: ");
for (i = 0; i < acells; i++) kprintf ("0x%08X ", addrCmp[i]);
kprintf ("- ");
for (i = 0; i < icells; i++) kprintf ("0x%08X ", intSpec[i]);
kprintf ("\n");
#endif
if( parent && (data = OSDynamicCast( OSData,
regEntry->getProperty( "interrupt-controller")))) {
parent = 0;
*spec = OSData::withBytesNoCopy( (void *) intSpec,
icells * sizeof( UInt32));
*controller = IODTInterruptControllerName( regEntry );
ok = (*spec && *controller);
} else if( parent && (data = OSDynamicCast( OSData,
regEntry->getProperty( "interrupt-map")))) {
map = (UInt32 *) data->getBytesNoCopy();
endMap = map + (data->getLength() / sizeof(UInt32));
data = OSDynamicCast( OSData, regEntry->getProperty( "interrupt-map-mask" ));
if( data && (data->getLength() >= ((acells + icells) * sizeof( UInt32))))
maskCmp = (UInt32 *) data->getBytesNoCopy();
else
maskCmp = 0;
#if IODTSUPPORTDEBUG
if (maskCmp) {
kprintf (" maskCmp: ");
for (i = 0; i < acells + icells; i++) {
if (i == acells)
kprintf ("- ");
kprintf ("0x%08X ", maskCmp[i]);
}
kprintf ("\n");
kprintf (" masked: ");
for (i = 0; i < acells + icells; i++) {
if (i == acells)
kprintf ("- ");
kprintf ("0x%08X ", ((i < acells) ? addrCmp[i] : intSpec[i-acells]) & maskCmp[i]);
}
kprintf ("\n");
} else
kprintf ("no maskCmp\n");
#endif
do {
#if IODTSUPPORTDEBUG
kprintf (" map: ");
for (i = 0; i < acells + icells; i++) {
if (i == acells)
kprintf ("- ");
kprintf ("0x%08X ", map[i]);
}
kprintf ("\n");
#endif
for( i = 0, cmp = true; cmp && (i < (acells + icells)); i++) {
cell = (i < acells) ? addrCmp[i] : intSpec[ i - acells ];
if( maskCmp)
cell &= maskCmp[i];
cmp = (cell == map[i]);
}
map += acells + icells;
if( 0 == (parent = FindPHandle( *(map++) )))
unexpected(break);
IODTGetICellCounts( parent, &picells, &pacells );
if( cmp) {
addrCmp = map;
intSpec = map + pacells;
regEntry = parent;
} else {
map += pacells + picells;
}
} while( !cmp && (map < endMap) );
if (!cmp)
parent = 0;
}
if( parent) {
IODTGetICellCounts( parent, &icells, &acells );
regEntry = parent;
}
} while( parent);
return( ok ? original_icells : 0 );
}
bool IODTMapInterrupts( IORegistryEntry * regEntry )
{
IORegistryEntry *parent;
OSData *local;
OSData *local2;
UInt32 *localBits;
UInt32 *localEnd;
OSData *map;
OSArray *mapped;
const OSSymbol *controller;
OSArray *controllers;
UInt32 skip = 1;
bool ok, nw;
nw = (0 == (local = OSDynamicCast( OSData,
regEntry->getProperty( gIODTAAPLInterruptsKey))));
if( nw && (0 == (local = OSDynamicCast( OSData,
regEntry->getProperty( "interrupts")))))
return( true );
if( nw && (parent = regEntry->getParentEntry( gIODTPlane))) {
if( (local2 = OSDynamicCast( OSData,
parent->getProperty( gIODTAAPLInterruptsKey)))) {
local = local2;
nw = false;
}
}
localBits = (UInt32 *) local->getBytesNoCopy();
localEnd = localBits + (local->getLength() / sizeof( UInt32));
mapped = OSArray::withCapacity( 1 );
controllers = OSArray::withCapacity( 1 );
ok = (mapped && controllers);
if( ok) do {
if( nw) {
skip = IODTMapOneInterrupt( regEntry, localBits, &map, &controller );
if( 0 == skip) {
IOLog("%s: error mapping interrupt[%d]\n",
regEntry->getName(), mapped->getCount());
break;
}
} else {
map = OSData::withData( local, mapped->getCount() * sizeof( UInt32),
sizeof( UInt32));
controller = gIODTDefaultInterruptController;
}
localBits += skip;
mapped->setObject( map );
map->release();
controllers->setObject( (OSObject *) controller );
controller->release();
} while( localBits < localEnd);
ok &= (localBits == localEnd);
if( ok ) {
ok = regEntry->setProperty( gIOInterruptControllersKey, controllers);
ok &= regEntry->setProperty( gIOInterruptSpecifiersKey, mapped);
}
if( controllers)
controllers->release();
if( mapped)
mapped->release();
return( ok );
}
static const char *
CompareKey( OSString * key,
const IORegistryEntry * table, const OSSymbol * propName )
{
OSObject *prop;
OSData *data;
OSString *string;
const char *ckey;
UInt32 keyLen;
const char *names;
const char *lastName;
bool wild;
bool matched;
const char *result = 0;
if( 0 == (prop = table->getProperty( propName )))
return( 0 );
if( (data = OSDynamicCast( OSData, prop ))) {
names = (const char *) data->getBytesNoCopy();
lastName = names + data->getLength();
} else if( (string = OSDynamicCast( OSString, prop ))) {
names = string->getCStringNoCopy();
lastName = names + string->getLength() + 1;
} else
return( 0 );
ckey = key->getCStringNoCopy();
keyLen = key->getLength();
wild = ('*' == key->getChar( keyLen - 1 ));
do {
if( wild)
matched = (0 == strncmp( ckey, names, keyLen - 1 ));
else
matched = (keyLen == strlen( names ))
&& (0 == strncmp( ckey, names, keyLen ));
if( matched)
result = names;
names = names + strlen( names) + 1;
} while( (names < lastName) && (false == matched));
return( result);
}
bool IODTCompareNubName( const IORegistryEntry * regEntry,
OSString * name, OSString ** matchingName )
{
const char *result;
bool matched;
matched = (0 != (result = CompareKey( name, regEntry, gIODTNameKey)))
|| (0 != (result = CompareKey( name, regEntry, gIODTCompatibleKey)))
|| (0 != (result = CompareKey( name, regEntry, gIODTTypeKey)))
|| (0 != (result = CompareKey( name, regEntry, gIODTModelKey)));
if( result && matchingName)
*matchingName = OSString::withCString( result );
return( result != 0 );
}
bool IODTMatchNubWithKeys( IORegistryEntry * regEntry,
const char * keys )
{
OSObject *obj;
bool result = false;
obj = OSUnserialize( keys, 0 );
if( obj) {
result = regEntry->compareNames( obj );
obj->release();
}
#ifdef DEBUG
else IOLog("Couldn't unserialize %s\n", keys );
#endif
return( result );
}
OSCollectionIterator * IODTFindMatchingEntries( IORegistryEntry * from,
IOOptionBits options, const char * keys )
{
OSSet *result;
IORegistryEntry *next;
IORegistryIterator *iter;
OSCollectionIterator *cIter;
bool cmp;
bool minus = options & kIODTExclusive;
result = OSSet::withCapacity( 3 );
if( !result)
return( 0);
iter = IORegistryIterator::iterateOver( from, gIODTPlane,
(options & kIODTRecursive) ? kIORegistryIterateRecursively : 0 );
if( iter) {
while( (next = iter->getNextObject())) {
if( next->getProperty("AAPL,ignore"))
continue;
if( keys) {
cmp = IODTMatchNubWithKeys( next, keys );
if( (minus && (false == cmp))
|| ((false == minus) && (false != cmp)) )
result->setObject( next);
} else
result->setObject( next);
}
iter->release();
}
cIter = OSCollectionIterator::withCollection( result);
result->release();
return( cIter);
}
struct IODTPersistent {
IODTCompareAddressCellFunc compareFunc;
IODTNVLocationFunc locationFunc;
};
void IODTSetResolving( IORegistryEntry * regEntry,
IODTCompareAddressCellFunc compareFunc,
IODTNVLocationFunc locationFunc )
{
IODTPersistent persist;
OSData *prop;
persist.compareFunc = compareFunc;
persist.locationFunc = locationFunc;
prop = OSData::withBytes( &persist, sizeof( persist));
if( !prop)
return;
regEntry->setProperty( gIODTPersistKey, prop);
prop->release();
return;
}
static SInt32 DefaultCompare( UInt32 cellCount, UInt32 left[], UInt32 right[] )
{
cellCount--;
return( left[ cellCount ] - right[ cellCount ] );
}
void IODTGetCellCounts( IORegistryEntry * regEntry,
UInt32 * sizeCount, UInt32 * addressCount)
{
if( !GetUInt32( regEntry, gIODTSizeCellKey, sizeCount))
*sizeCount = 1;
if( !GetUInt32( regEntry, gIODTAddressCellKey, addressCount))
*addressCount = 2;
return;
}
bool IODTResolveAddressCell( IORegistryEntry * regEntry,
UInt32 cellsIn[],
IOPhysicalAddress * phys, IOPhysicalLength * len )
{
IORegistryEntry *parent;
OSData *prop;
UInt32 sizeCells, addressCells;
UInt32 childSizeCells, childAddressCells;
UInt32 childCells;
UInt32 cell[ 5 ], offset = 0, length;
UInt32 *range;
UInt32 *endRanges;
bool ok = true;
SInt32 diff;
IODTPersistent *persist;
IODTCompareAddressCellFunc compare;
IODTGetCellCounts( regEntry, &childSizeCells, &childAddressCells );
childCells = childAddressCells + childSizeCells;
bcopy( cellsIn, cell, 4 * childCells );
if( childSizeCells > 1)
*len = IOPhysical32( cellsIn[ childAddressCells ],
cellsIn[ childAddressCells + 1 ] );
else
*len = IOPhysical32( 0, cellsIn[ childAddressCells ] );
do {
prop = OSDynamicCast( OSData, regEntry->getProperty( gIODTRangeKey ));
if( 0 == prop) {
*phys = IOPhysical32( 0, cell[ childAddressCells - 1 ] + offset);
break;
}
parent = regEntry->getParentEntry( gIODTPlane );
IODTGetCellCounts( parent, &sizeCells, &addressCells );
if( (length = prop->getLength())) {
range = (UInt32 *) prop->getBytesNoCopy();
endRanges = range + (length / 4);
prop = (OSData *) regEntry->getProperty( gIODTPersistKey );
if( prop) {
persist = (IODTPersistent *) prop->getBytesNoCopy();
compare = persist->compareFunc;
} else
compare = DefaultCompare;
for( ok = false;
range < endRanges;
range += (childCells + addressCells) ) {
diff = (*compare)( childAddressCells, cell, range );
if( diff < 0)
continue;
if( (diff + cell[ childCells - 1 ])
> range[ childCells + addressCells - 1 ])
continue;
offset += diff;
ok = true;
break;
}
bcopy( range + childAddressCells, cell, 4 * addressCells );
bzero( cell + addressCells, 4 * sizeCells );
}
regEntry = parent;
childSizeCells = sizeCells;
childAddressCells = addressCells;
childCells = childAddressCells + childSizeCells;
} while( ok && regEntry);
return( ok);
}
OSArray * IODTResolveAddressing( IORegistryEntry * regEntry,
const char * addressPropertyName,
IODeviceMemory * parent )
{
IORegistryEntry *parentEntry;
OSData *addressProperty;
UInt32 sizeCells, addressCells, cells;
int i, num;
UInt32 *reg;
IOPhysicalAddress phys;
IOPhysicalLength len;
OSArray *array;
IODeviceMemory *range;
parentEntry = regEntry->getParentEntry( gIODTPlane );
addressProperty = (OSData *) regEntry->getProperty( addressPropertyName );
if( (0 == addressProperty) || (0 == parentEntry))
return( 0);
IODTGetCellCounts( parentEntry, &sizeCells, &addressCells );
if( 0 == sizeCells)
return( 0);
cells = sizeCells + addressCells;
reg = (UInt32 *) addressProperty->getBytesNoCopy();
num = addressProperty->getLength() / (4 * cells);
array = OSArray::withCapacity( 1 );
if( 0 == array)
return( 0);
for( i = 0; i < num; i++) {
if( IODTResolveAddressCell( parentEntry, reg, &phys, &len )) {
range = 0;
if( parent)
range = IODeviceMemory::withSubRange( parent,
phys - parent->getPhysicalAddress(), len );
if( 0 == range)
range = IODeviceMemory::withRange( phys, len );
if( range)
array->setObject( range );
}
reg += cells;
}
regEntry->setProperty( gIODeviceMemoryKey, array);
array->release();
return( array);
}
static void IODTGetNVLocation(
IORegistryEntry * parent,
IORegistryEntry * regEntry,
UInt8 * busNum, UInt8 * deviceNum, UInt8 * functionNum )
{
OSData *prop;
IODTPersistent *persist;
UInt32 *cell;
prop = (OSData *) parent->getProperty( gIODTPersistKey );
if( prop) {
persist = (IODTPersistent *) prop->getBytesNoCopy();
(*persist->locationFunc)( regEntry, busNum, deviceNum, functionNum );
} else {
prop = (OSData *) regEntry->getProperty( "reg" );
*functionNum = 0;
if( prop) {
cell = (UInt32 *) prop->getBytesNoCopy();
*busNum = 3;
*deviceNum = 0x1f & (cell[ 0 ] >> 24);
} else {
*busNum = 0;
*deviceNum = 0;
}
}
return;
}
IOReturn IODTMakeNVDescriptor( IORegistryEntry * regEntry,
IONVRAMDescriptor * hdr )
{
IORegistryEntry *parent;
UInt32 level;
UInt32 bridgeDevices;
UInt8 busNum;
UInt8 deviceNum;
UInt8 functionNum;
hdr->format = 1;
hdr->marker = 0;
for(level = 0, bridgeDevices = 0;
(parent = regEntry->getParentEntry( gIODTPlane )) && (level < 7); level++ ) {
IODTGetNVLocation( parent, regEntry,
&busNum, &deviceNum, &functionNum );
if( level)
bridgeDevices |= ((deviceNum & 0x1f) << ((level - 1) * 5));
else {
hdr->busNum = busNum;
hdr->deviceNum = deviceNum;
hdr->functionNum = functionNum;
}
regEntry = parent;
}
hdr->bridgeCount = level - 2;
hdr->bridgeDevices = bridgeDevices;
return( kIOReturnSuccess );
}
OSData * IODTFindSlotName( IORegistryEntry * regEntry, UInt32 deviceNumber )
{
IORegistryEntry *parent;
OSData *data;
OSData *ret = 0;
UInt32 *bits;
UInt32 i;
char *names;
char *lastName;
UInt32 mask;
data = (OSData *) regEntry->getProperty("AAPL,slot-name");
if( data)
return( data);
parent = regEntry->getParentEntry( gIODTPlane );
if( !parent)
return( 0 );
data = OSDynamicCast( OSData, parent->getProperty("slot-names"));
if( !data)
return( 0 );
if( data->getLength() <= 4)
return( 0 );
bits = (UInt32 *) data->getBytesNoCopy();
mask = *bits;
if( (0 == (mask & (1 << deviceNumber))))
return( 0 );
names = (char *)(bits + 1);
lastName = names + (data->getLength() - 4);
for( i = 0; (i <= deviceNumber) && (names < lastName); i++ ) {
if( mask & (1 << i)) {
if( i == deviceNumber) {
data = OSData::withBytesNoCopy( names, 1 + strlen( names));
if( data) {
regEntry->setProperty("AAPL,slot-name", data);
ret = data;
data->release();
}
} else
names += 1 + strlen( names);
}
}
return( ret );
}