Ejemplo n.º 1
0
void db_dumpiojunk( const IORegistryPlane * plane )
{
    IORegistryEntry *		next;
    IORegistryIterator * 	iter;
    OSOrderedSet *		all;
    char			format[] = "%xxxs";
    IOService *			service;

    iter = IORegistryIterator::iterateOver( plane );

    all = iter->iterateAll();
    if( all) {
        dbugprintf("Count %d\n", all->getCount() );
        all->release();
    } else dbugprintf("Empty\n");

    iter->reset();
    while( (next = iter->getNextObjectRecursive())) {
		snprintf(format + 1, sizeof(format) - 1, "%ds", 2 * next->getDepth( plane ));
		dbugprintf( format, "");
		dbugprintf( "%s", next->getName( plane ));
		if( (next->getLocation( plane )))
				dbugprintf("@%s", next->getLocation( plane ));
		dbugprintf(" <class %s", next->getMetaClass()->getClassName());
			if( (service = OSDynamicCast(IOService, next)))
				dbugprintf(", busy %ld", service->getBusyState());
		dbugprintf( ">\n");
    }
    iter->release();
}
Ejemplo n.º 2
0
void IOPrintPlane( const IORegistryPlane * plane )
{
    IORegistryEntry *		next;
    IORegistryIterator * 	iter;
    OSOrderedSet *		all;
    char			format[] = "%xxxs";
    IOService *			service;

    iter = IORegistryIterator::iterateOver( plane );
    assert( iter );
    all = iter->iterateAll();
    if( all) {
        DEBG("Count %d\n", all->getCount() );
        all->release();
    } else
	DEBG("Empty\n");

    iter->reset();
    while( (next = iter->getNextObjectRecursive())) {
	snprintf(format + 1, sizeof(format) - 1, "%ds", 2 * next->getDepth( plane ));
	DEBG( format, "");
	DEBG( "\033[33m%s", next->getName( plane ));
	if( (next->getLocation( plane )))
            DEBG("@%s", next->getLocation( plane ));
	DEBG("\033[0m <class %s", next->getMetaClass()->getClassName());
        if( (service = OSDynamicCast(IOService, next)))
            DEBG(", busy %ld", (long) service->getBusyState());
	DEBG( ">\n");
//	IOSleep(250);
    }
    iter->release();
}
/*
 * Copyright (c) 1998-2013 Apple Inc. All rights reserved.
 *
 * @APPLE_LICENSE_HEADER_START@
 * 
 * This file contains Original Code and/or Modifications of Original Code
 * as defined in and that are subject to the Apple Public Source License
 * Version 2.0 (the 'License'). You may not use this file except in
 * compliance with the License. Please obtain a copy of the License at
 * http://www.opensource.apple.com/apsl/ and read it before using this
 * file.
 * 
 * The Original Code and all software distributed under the License are
 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
 * Please see the License for the specific language governing rights and
 * limitations under the License.
 * 
 * @APPLE_LICENSE_HEADER_END@
 */

#include <IOKit/IODeviceTreeSupport.h>
#include <IOKit/IOMessage.h>
#include <IOKit/storage/IOPartitionScheme.h>

#define super IOStorage
OSDefineMetaClassAndStructors(IOPartitionScheme, IOStorage)

#ifndef __LP64__
extern IOStorageAttributes gIOStorageAttributesUnsupported;
#endif /* !__LP64__ */

static SInt32 partitionComparison( const OSMetaClassBase * object1,
                                   const OSMetaClassBase * object2,
                                   void *                  context )
{
    //
    // Internal comparison routine for sorting partitions in an ordered set.
    //

    UInt64 base1 = ( ( IOMedia * ) object1 )->getBase( );
    UInt64 base2 = ( ( IOMedia * ) object2 )->getBase( );

#if TARGET_OS_EMBEDDED
    OSString * uuid1 = OSDynamicCast( OSString, ( ( IOMedia * ) object1 )->getProperty( kIOMediaUUIDKey ) );
    OSString * uuid2 = OSDynamicCast( OSString, ( ( IOMedia * ) object2 )->getProperty( kIOMediaUUIDKey ) );

    if ( uuid1 || uuid2 )
    {
        if ( uuid1 == 0 ) return -1;
        if ( uuid2 == 0 ) return  1;

        return strcmp( uuid2->getCStringNoCopy( ), uuid1->getCStringNoCopy( ) );
    }
#endif /* TARGET_OS_EMBEDDED */

    if ( base1 < base2 ) return  1;
    if ( base1 > base2 ) return -1;

    return 0;
}

IOMedia * IOPartitionScheme::getProvider() const
{
    //
    // Obtain this object's provider.  We override the superclass's method
    // to return a more specific subclass of OSObject -- an IOMedia.  This
    // method serves simply as a convenience to subclass developers.
    //

    return (IOMedia *) IOService::getProvider();
}

bool IOPartitionScheme::init(OSDictionary * properties)
{
    //
    // Initialize this object's minimal state.
    //

    if (super::init(properties) == false)  return false;

    _openLevel         = kIOStorageAccessNone;
    _openReaders       = OSSet::withCapacity(16);
    _openReaderWriters = OSSet::withCapacity(16);

    if (_openReaders == 0 || _openReaderWriters == 0) return false;

    return true;
}

void IOPartitionScheme::free()
{
    //
    // Free all of this object's outstanding resources.
    //

    if (_openReaders)        _openReaders->release();
    if (_openReaderWriters)  _openReaderWriters->release();

    super::free();
}

bool IOPartitionScheme::handleOpen(IOService *  client,
                                   IOOptionBits options,
                                   void *       argument)
{
    //
    // The handleOpen method grants or denies permission to access this object
    // to an interested client.  The argument is an IOStorageAccess value that
    // specifies the level of access desired -- reader or reader-writer.
    //
    // This method can be invoked to upgrade or downgrade the access level for
    // an existing client as well.  The previous access level will prevail for
    // upgrades that fail, of course.   A downgrade should never fail.  If the
    // new access level should be the same as the old for a given client, this
    // method will do nothing and return success.  In all cases, one, singular
    // close-per-client is expected for all opens-per-client received.
    //
    // This implementation replaces the IOService definition of handleOpen().
    //
    // We are guaranteed that no other opens or closes will be processed until
    // we make our decision, change our state, and return from this method.
    //

    IOStorageAccess access  = (uintptr_t) argument;
    IOStorageAccess level;

    assert(client);
    assert( access == kIOStorageAccessReader       ||
            access == kIOStorageAccessReaderWriter );

    //
    // A partition scheme multiplexes the opens it receives from several clients
    // and sends one open to the level below that satisfies the highest level of
    // access.
    //

    unsigned writers = _openReaderWriters->getCount();

    if (_openReaderWriters->containsObject(client))  writers--;
    if (access == kIOStorageAccessReaderWriter)  writers++;

    level = (writers) ? kIOStorageAccessReaderWriter : kIOStorageAccessReader;

    //
    // Determine whether the levels below us accept this open or not (we avoid
    // the open if the required access is the access we already hold).
    //

    if ( _openLevel != level )
    {
        IOStorage * provider;

        provider = OSDynamicCast( IOStorage, getProvider( ) );

        if ( provider )
        {
            bool success;

            level = ( level | kIOStorageAccessSharedLock );

            success = provider->open( this, options, level );

            level = ( level & kIOStorageAccessReaderWriter );

            if ( success == false )
            {
                return false;
            }
        }
    }

    //
    // Process the open.
    //

    if (access == kIOStorageAccessReader)
    {
        _openReaders->setObject(client);

        _openReaderWriters->removeObject(client);           // (for a downgrade)
    }
    else // (access == kIOStorageAccessReaderWriter)
    {
        _openReaderWriters->setObject(client);

        _openReaders->removeObject(client);                  // (for an upgrade)
    }

    _openLevel = level;

    return true;
}

bool IOPartitionScheme::handleIsOpen(const IOService * client) const
{
    //
    // The handleIsOpen method determines whether the specified client, or any
    // client if none is specificed, presently has an open on this object.
    //
    // This implementation replaces the IOService definition of handleIsOpen().
    //
    // We are guaranteed that no other opens or closes will be processed until
    // we return from this method.
    //

    if (client == 0)  return (_openLevel != kIOStorageAccessNone);

    return ( _openReaderWriters->containsObject(client) ||
             _openReaders->containsObject(client)       );
}

void IOPartitionScheme::handleClose(IOService * client, IOOptionBits options)
{
    //
    // The handleClose method closes the client's access to this object.
    //
    // This implementation replaces the IOService definition of handleClose().
    //
    // We are guaranteed that no other opens or closes will be processed until
    // we change our state and return from this method.
    //

    assert(client);

    //
    // Process the close.
    //

    if (_openReaderWriters->containsObject(client))  // (is it a reader-writer?)
    {
        _openReaderWriters->removeObject(client);
    }
    else if (_openReaders->containsObject(client))  // (is the client a reader?)
    {
        _openReaders->removeObject(client);
    }
    else                                      // (is the client is an imposter?)
    {
        assert(0);
        return;
    }

    //
    // Reevaluate the open we have on the level below us.  If no opens remain,
    // we close, or if no reader-writer remains, but readers do, we downgrade.
    //

    IOStorageAccess level;

    if (_openReaderWriters->getCount())  level = kIOStorageAccessReaderWriter;
    else if (_openReaders->getCount())   level = kIOStorageAccessReader;
    else                                 level = kIOStorageAccessNone;

    if ( _openLevel != level )
    {
        IOStorage * provider;

        provider = OSDynamicCast( IOStorage, getProvider( ) );

        if ( provider )
        {
            if ( level == kIOStorageAccessNone )
            {
                provider->close( this, options );
            }
            else
            {
                bool success;

                level = ( level | kIOStorageAccessSharedLock );

                success = provider->open( this, 0, level );

                level = ( level & kIOStorageAccessReaderWriter );

                assert( success );
            }
         }

         _openLevel = level;
    }
}

void IOPartitionScheme::read(IOService *           client,
                             UInt64                byteStart,
                             IOMemoryDescriptor *  buffer,
                             IOStorageAttributes * attributes,
                             IOStorageCompletion * completion)
{
    //
    // Read data from the storage object at the specified byte offset into the
    // specified buffer, asynchronously.   When the read completes, the caller
    // will be notified via the specified completion action.
    //
    // The buffer will be retained for the duration of the read.
    //
    // For simple partition schemes, the default behavior is to simply pass the
    // read through to the provider media.  More complex partition schemes such
    // as RAID will need to do extra processing here.
    //

#ifndef __LP64__
    if ( IOStorage::_expansionData )
    {
        if ( attributes == &gIOStorageAttributesUnsupported )
        {
            attributes = NULL;
        }
        else
        {
            IOStorage::read( client, byteStart, buffer, attributes, completion );

            return;
        }
    }
#endif /* !__LP64__ */

    getProvider( )->read( this, byteStart, buffer, attributes, completion );
}

void IOPartitionScheme::write(IOService *           client,
                              UInt64                byteStart,
                              IOMemoryDescriptor *  buffer,
                              IOStorageAttributes * attributes,
                              IOStorageCompletion * completion)
{
    //
    // Write data into the storage object at the specified byte offset from the
    // specified buffer, asynchronously.   When the write completes, the caller
    // will be notified via the specified completion action.
    //
    // The buffer will be retained for the duration of the write.
    //
    // For simple partition schemes, the default behavior is to simply pass the
    // write through to the provider media. More complex partition schemes such
    // as RAID will need to do extra processing here.
    //

#ifndef __LP64__
    if ( IOStorage::_expansionData )
    {
        if ( attributes == &gIOStorageAttributesUnsupported )
        {
            attributes = NULL;
        }
        else
        {
            IOStorage::write( client, byteStart, buffer, attributes, completion );

            return;
        }
    }
#endif /* !__LP64__ */

    getProvider( )->write( this, byteStart, buffer, attributes, completion );
}

IOReturn IOPartitionScheme::synchronizeCache(IOService * client)
{
    //
    // Flush the cached data in the storage object, if any, synchronously.
    //

    return getProvider()->synchronizeCache(this);
}

IOReturn IOPartitionScheme::unmap(IOService *       client,
                                  IOStorageExtent * extents,
                                  UInt32            extentsCount,
                                  UInt32            options)
{
    //
    // Delete unused data from the storage object at the specified byte offsets,
    // synchronously.
    //

    return getProvider( )->unmap( this, extents, extentsCount, options );
}

bool IOPartitionScheme::lockPhysicalExtents(IOService * client)
{
    //
    // Lock the contents of the storage object against relocation temporarily,
    // for the purpose of getting physical extents.
    //

    return getProvider( )->lockPhysicalExtents( this );
}

IOStorage * IOPartitionScheme::copyPhysicalExtent(IOService * client,
                                                  UInt64 *    byteStart,
                                                  UInt64 *    byteCount)
{
    //
    // Convert the specified byte offset into a physical byte offset, relative
    // to a physical storage object.  This call should only be made within the
    // context of lockPhysicalExtents().
    //

    return getProvider( )->copyPhysicalExtent( this, byteStart, byteCount );
}

void IOPartitionScheme::unlockPhysicalExtents(IOService * client)
{
    //
    // Unlock the contents of the storage object for relocation again.  This
    // call must balance a successful call to lockPhysicalExtents().
    //

    getProvider( )->unlockPhysicalExtents( this );
}

#ifdef __LP64__
bool IOPartitionScheme::attachMediaObjectToDeviceTree(IOMedia * media)
#else /* !__LP64__ */
bool IOPartitionScheme::attachMediaObjectToDeviceTree(IOMedia *    media,
                                                      IOOptionBits options)
#endif /* !__LP64__ */
{
    //
    // Attach the given media object to the device tree plane.
    //

    IORegistryEntry * parent = this;

    while ( (parent = parent->getParentEntry(gIOServicePlane)) )
    {
        if ( parent->inPlane(gIODTPlane) )
        {
            char         location[ 32 ];
            const char * locationOfParent = parent->getLocation(gIODTPlane);
            const char * nameOfParent     = parent->getName(gIODTPlane);

            if ( locationOfParent == 0 )  break;

            if ( OSDynamicCast(IOMedia, parent) == 0 )  break;

            parent = parent->getParentEntry(gIODTPlane);

            if ( parent == 0 )  break;

            if ( media->attachToParent(parent, gIODTPlane) == false )  break;

            strlcpy(location, locationOfParent, sizeof(location));
            if ( strchr(location, ':') )  *(strchr(location, ':') + 1) = 0;
            strlcat(location, media->getLocation(), sizeof(location) - strlen(location));
            media->setLocation(location, gIODTPlane);
            media->setName(nameOfParent, gIODTPlane);

            return true;
        }
    }

    return false;
}
Ejemplo n.º 4
0
IORegistryEntry * AppleIntelPIIXATARoot::getDTChannelEntry( int channelID )
{
    IORegistryEntry * entry = 0;
    const char *      location;

    OSIterator * iter = _provider->getChildIterator( gIODTPlane );
    if (iter == 0) return 0;

    while (( entry = (IORegistryEntry *) iter->getNextObject() ))
    {
        location = entry->getLocation();
        if ( location && strtol(location, 0, 10) == channelID )
        {
            entry->retain();
            break;
        }
    }

    iter->release();
    
    return entry;  // retain held on the entry
}