haiku/headers/private/kernel/disk_device_manager/KDiskDeviceManager.h
Axel Dörfler 65bd831cbb * KDiskDeviceManager::_ScanPartition() can now run synchronously (and execute the
scan job in the calling thread).
* KDiskDeviceManager::InitialDeviceScan() now runs synchronously, so that
  get_boot_partitions() doesn't need to do this ugly wait hack.
* KDiskDeviceManager::CreateFileDevice() can now run synchronously as well, which
  fixes a deadlock in fs_mount() - note, mounting file devices still doesn't work,
  though as Haiku's BFS doesn't allow this right now.


git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@17334 a95241bf-73f2-0310-859d-f6bbb57e9c96
2006-05-05 10:54:10 +00:00

167 lines
4.7 KiB
C++

/*
* Copyright 2004-2006, Haiku, Inc. All rights reserved.
* Copyright 2003-2004, Ingo Weinhold, bonefish@cs.tu-berlin.de. All rights reserved.
*
* Distributed under the terms of the MIT License.
*/
#ifndef _K_DISK_DEVICE_MANAGER_H
#define _K_DISK_DEVICE_MANAGER_H
#include "disk_device_manager.h"
#include "Locker.h"
namespace BPrivate {
namespace DiskDevice {
class KDiskDevice;
class KDiskDeviceJob;
class KDiskDeviceJobFactory;
class KDiskDeviceJobQueue;
class KDiskSystem;
class KFileDiskDevice;
class KPartition;
class KDiskDeviceManager {
public:
KDiskDeviceManager();
~KDiskDeviceManager();
status_t InitCheck() const;
// Singleton Creation, Deletion, and Access
static status_t CreateDefault();
static void DeleteDefault();
static KDiskDeviceManager *Default();
// Locking
bool Lock();
void Unlock();
// Disk Device / Partition Management
// manager must be locked
KDiskDevice *FindDevice(const char *path);
KDiskDevice *FindDevice(partition_id id, bool deviceOnly = true);
KPartition *FindPartition(const char *path, bool noShadow = false);
KPartition *FindPartition(partition_id id, bool noShadow = false);
KFileDiskDevice *FindFileDevice(const char *filePath);
KDiskDevice *RegisterDevice(const char *path);
KDiskDevice *RegisterDevice(partition_id id, bool deviceOnly = true);
KDiskDevice *RegisterNextDevice(int32 *cookie);
KPartition *RegisterPartition(const char *path, bool noShadow = false);
KPartition *RegisterPartition(partition_id id, bool noShadow = false);
KFileDiskDevice *RegisterFileDevice(const char *filePath);
KDiskDevice *ReadLockDevice(partition_id id, bool deviceOnly = true);
KDiskDevice *WriteLockDevice(partition_id id, bool deviceOnly = true);
// The device is also registered and must be unregistered by the
// caller.
KPartition *ReadLockPartition(partition_id id);
KPartition *WriteLockPartition(partition_id id);
// Both the device and the partition is also registered and must be
// unregistered by the caller.
partition_id CreateFileDevice(const char *filePath,
bool *newlyCreated = NULL, bool async = true);
status_t DeleteFileDevice(const char *filePath);
status_t DeleteFileDevice(partition_id id);
// manager must be locked
int32 CountDevices();
KDiskDevice *NextDevice(int32 *cookie);
bool PartitionAdded(KPartition *partition); // implementation internal
bool PartitionRemoved(KPartition *partition); //
bool DeletePartition(KPartition *partition); //
// Jobs
// manager must be locked
KDiskDeviceJob *FindJob(disk_job_id id);
int32 CountJobs();
KDiskDeviceJob *NextJob(int32 *cookie);
// manager must be locked
status_t AddJobQueue(KDiskDeviceJobQueue *jobQueue);
// the device must be write locked
status_t RemoveJobQueue(KDiskDeviceJobQueue *jobQueue);
status_t DeleteJobQueue(KDiskDeviceJobQueue *jobQueue);
// called when the execution is done
int32 CountJobQueues();
KDiskDeviceJobQueue *NextJobQueue(int32 *cookie);
KDiskDeviceJobFactory *JobFactory() const;
// manager must *not* be locked
status_t UpdateBusyPartitions(KDiskDevice *device);
status_t UpdateJobStatus(KDiskDeviceJob *job, uint32 status,
bool updateBusyPartitions);
// Disk Systems
// manager must be locked
KDiskSystem *FindDiskSystem(const char *name);
KDiskSystem *FindDiskSystem(disk_system_id id);
int32 CountDiskSystems();
KDiskSystem *NextDiskSystem(int32 *cookie);
KDiskSystem *LoadDiskSystem(const char *name);
KDiskSystem *LoadDiskSystem(disk_system_id id);
KDiskSystem *LoadNextDiskSystem(int32 *cookie);
// Watching
// TODO: Watching service for the kernel. The userland watching is handled
// by the registrar.
status_t InitialDeviceScan();
private:
status_t _AddPartitioningSystem(const char *name);
status_t _AddFileSystem(const char *name);
status_t _AddDiskSystem(KDiskSystem *diskSystem);
bool _AddDevice(KDiskDevice *device);
bool _RemoveDevice(KDiskDevice *device);
bool _RemoveJobQueue(KDiskDeviceJobQueue *jobQueue);
status_t _UpdateBusyPartitions(KDiskDevice *device);
status_t _UpdateJobStatus(KDiskDeviceJob *job, uint32 status,
bool updateBusyPartitions);
status_t _Scan(const char *path);
status_t _ScanPartition(KPartition *partition, bool async);
// the manager must be locked and the device write locked
struct DeviceMap;
struct DiskSystemMap;
struct JobMap;
struct JobQueueVector;
struct PartitionMap;
struct PartitionSet;
BLocker fLock;
DeviceMap *fDevices;
PartitionMap *fPartitions;
DiskSystemMap *fDiskSystems;
PartitionSet *fObsoletePartitions;
JobMap *fJobs;
JobQueueVector *fJobQueues;
KDiskDeviceJobFactory *fJobFactory;
static KDiskDeviceManager *sDefaultManager;
};
} // namespace DiskDevice
} // namespace BPrivate
using BPrivate::DiskDevice::KDiskDeviceManager;
#endif // _K_DISK_DEVICE_MANAGER_H