haiku/headers/private/kernel/disk_device_manager/KDiskDeviceUtils.h

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// KDiskDeviceUtils.h
#ifndef _K_DISK_DEVICE_UTILS_H
#define _K_DISK_DEVICE_UTILS_H
#include <stdlib.h>
#include <string.h>
#include <SupportDefs.h>
#include <util/AutoLock.h>
// instantiations
#include <KDiskDevice.h>
#include <KDiskDeviceManager.h>
#include <KDiskSystem.h>
#include <KPartition.h>
namespace BPrivate {
namespace DiskDevice {
// helper functions
// min
template<typename T>
static inline
const T&
min(const T &a, const T &b)
{
if (a < b)
return a;
return b;
}
// max
template<typename T>
static inline
const T&
max(const T &a, const T &b)
{
if (a < b)
return b;
return a;
}
// set_string
static inline
status_t
set_string(char *&location, const char *newValue)
{
// unset old value
if (location) {
free(location);
location = NULL;
}
// set new value
status_t error = B_OK;
if (newValue) {
location = strdup(newValue);
if (!location)
error = B_NO_MEMORY;
}
return error;
}
// compare_string
/*! \brief \c NULL aware strcmp().
\c NULL is considered the least of all strings. \c NULL equals \c NULL.
\param str1 First string.
\param str2 Second string.
\return A value less than 0, if \a str1 is less than \a str2,
0, if they are equal, or a value greater than 0, if
\a str1 is greater \a str2.
*/
static inline
int
compare_string(const char *str1, const char *str2)
{
if (str1 == NULL) {
if (str2 == NULL)
return 0;
return 1;
} else if (str2 == NULL)
return -1;
return strcmp(str1, str2);
}
// locking
// instantiations
class KDiskDevice;
class KDiskDeviceManager;
class KDiskSystem;
class KPartition;
//typedef struct disk_device_data disk_device_data;
typedef AutoLocker<KDiskDevice, AutoLockerReadLocking<KDiskDevice> >
DeviceReadLocker;
typedef AutoLocker<KDiskDevice, AutoLockerWriteLocking<KDiskDevice> >
DeviceWriteLocker;
typedef AutoLocker<KDiskDeviceManager > ManagerLocker;
// AutoLockerPartitionRegistration
template<const int dummy = 0>
class AutoLockerPartitionRegistration {
public:
inline bool Lock(KPartition *partition)
{
partition->Register();
return true;
}
inline void Unlock(KPartition *partition)
{
partition->Unregister();
}
};
typedef AutoLocker<KPartition, AutoLockerPartitionRegistration<> >
PartitionRegistrar;
// AutoLockerDiskSystemLoading
template<const int dummy = 0>
class AutoLockerDiskSystemLoading {
public:
inline bool Lock(KDiskSystem *diskSystem)
{
return (diskSystem->Load() == B_OK);
}
inline void Unlock(KDiskSystem *diskSystem)
{
diskSystem->Unload();
}
};
typedef AutoLocker<KDiskSystem, AutoLockerDiskSystemLoading<> >
DiskSystemLoader;
/*
// AutoLockerDeviceStructReadLocker
template<const int dummy = 0>
class AutoLockerDeviceStructReadLocker {
public:
inline bool Lock(disk_device_data *device)
{
return read_lock_disk_device(device->id);
}
inline void Unlock(disk_device_data *device)
{
read_unlock_disk_device(device->id);
}
};
typedef AutoLocker<disk_device_data, AutoLockerDeviceStructReadLocker<> >
DeviceStructReadLocker;
// AutoLockerDeviceStructWriteLocker
template<const int dummy = 0>
class AutoLockerDeviceStructWriteLocker {
public:
inline bool Lock(disk_device_data *device)
{
return write_lock_disk_device(device->id);
}
inline void Unlock(disk_device_data *device)
{
write_unlock_disk_device(device->id);
}
};
typedef AutoLocker<disk_device_data, AutoLockerDeviceStructWriteLocker<> >
DeviceStructWriteLocker;
*/
} // namespace DiskDevice
} // namespace BPrivate
using BPrivate::DiskDevice::set_string;
using BPrivate::DiskDevice::DeviceReadLocker;
using BPrivate::DiskDevice::DeviceWriteLocker;
using BPrivate::DiskDevice::ManagerLocker;
using BPrivate::DiskDevice::PartitionRegistrar;
using BPrivate::DiskDevice::DiskSystemLoader;
//using BPrivate::DiskDevice::DeviceStructReadLocker;
//using BPrivate::DiskDevice::DeviceStructReadLocker;
#endif // _K_DISK_DEVICE_H