Struct devicemapper::LinearDev [−][src]
pub struct LinearDev { /* fields omitted */ }
A DM construct of combined Segments
Methods
impl LinearDev
[src]
impl LinearDev
Use DM to concatenate a list of segments together into a linear block device of continuous sectors.
pub fn setup(
dm: &DM,
name: &DmName,
uuid: Option<&DmUuid>,
table: Vec<TargetLine<LinearDevTargetParams>>
) -> DmResult<LinearDev>
[src]
pub fn setup(
dm: &DM,
name: &DmName,
uuid: Option<&DmUuid>,
table: Vec<TargetLine<LinearDevTargetParams>>
) -> DmResult<LinearDev>
Construct a new block device by concatenating the given segments into linear space. If the device is already known to the kernel, just verifies that the segments argument passed exactly matches the kernel data.
Warning: If the segments overlap, this method will succeed. However, the behavior of the linear device in that case should be treated as undefined.
Note: A linear device is just a mapping in the kernel from locations in that device to locations on other devices which are specified by their device number. There is usually a device node so that data can be read from and written to the device. Other than that, it really has no existence. Consequently, there is no conflict in overloading this method to mean both "make a wholly new device" and "establish the existence of the requested device". Of course, a linear device is usually expected to hold data, so it is important to get the mapping just right.
pub fn set_table(
&mut self,
dm: &DM,
table: Vec<TargetLine<LinearDevTargetParams>>
) -> DmResult<()>
[src]
pub fn set_table(
&mut self,
dm: &DM,
table: Vec<TargetLine<LinearDevTargetParams>>
) -> DmResult<()>
Set the segments for this linear device. This action puts the device in a state where it is ready to be resumed. Warning: It is the client's responsibility to make sure the designated segments are compatible with the device's existing segments. If they are not, this function will still succeed, but some kind of data corruption will be the inevitable result.
pub fn set_name(&mut self, dm: &DM, name: &DmName) -> DmResult<()>
[src]
pub fn set_name(&mut self, dm: &DM, name: &DmName) -> DmResult<()>
Set the name for this LinearDev.
Trait Implementations
impl Debug for LinearDev
[src]
impl Debug for LinearDev
fn fmt(&self, f: &mut Formatter) -> Result
[src]
fn fmt(&self, f: &mut Formatter) -> Result
Formats the value using the given formatter. Read more
impl DmDevice<LinearDevTargetTable> for LinearDev
[src]
impl DmDevice<LinearDevTargetTable> for LinearDev
fn device(&self) -> Device
[src]
fn device(&self) -> Device
The device.
fn devnode(&self) -> PathBuf
[src]
fn devnode(&self) -> PathBuf
The device's device node.
fn equivalent_tables(
left: &LinearDevTargetTable,
right: &LinearDevTargetTable
) -> DmResult<bool>
[src]
fn equivalent_tables(
left: &LinearDevTargetTable,
right: &LinearDevTargetTable
) -> DmResult<bool>
Check if tables indicate an equivalent device.
fn name(&self) -> &DmName
[src]
fn name(&self) -> &DmName
The device's name.
fn size(&self) -> Sectors
[src]
fn size(&self) -> Sectors
The number of sectors available for user data.
fn table(&self) -> &LinearDevTargetTable
[src]
fn table(&self) -> &LinearDevTargetTable
What the device thinks its table is.
fn teardown(self, dm: &DM) -> DmResult<()>
[src]
fn teardown(self, dm: &DM) -> DmResult<()>
Erase the kernel's memory of this device.
fn uuid(&self) -> Option<&DmUuid>
[src]
fn uuid(&self) -> Option<&DmUuid>
The device's UUID, if available. Note that the UUID is not any standard UUID format. Read more
fn read_kernel_table(dm: &DM, id: &DevId) -> DmResult<T>
[src]
fn read_kernel_table(dm: &DM, id: &DevId) -> DmResult<T>
Read the devicemapper table
fn resume(&mut self, dm: &DM) -> DmResult<()>
[src]
fn resume(&mut self, dm: &DM) -> DmResult<()>
Resume I/O on the device.
fn suspend(&mut self, dm: &DM, flush: bool) -> DmResult<()>
[src]
fn suspend(&mut self, dm: &DM, flush: bool) -> DmResult<()>
Suspend I/O on the device. If flush is true, flush the device first.
fn table_load(&self, dm: &DM, table: &T) -> DmResult<()>
[src]
fn table_load(&self, dm: &DM, table: &T) -> DmResult<()>
Load a table