def set_bdev_options(client, bdev_io_pool_size=None, bdev_io_cache_size=None):
"""Set parameters for the bdev subsystem.
Args:
bdev_io_pool_size: number of bdev_io structures in shared buffer pool (optional)
bdev_io_cache_size: maximum number of bdev_io structures cached per thread (optional)
"""
params = {}
if bdev_io_pool_size:
params['bdev_io_pool_size'] = bdev_io_pool_size
if bdev_io_cache_size:
params['bdev_io_cache_size'] = bdev_io_cache_size
return client.call('set_bdev_options', params)
def construct_crypto_bdev(client, base_bdev_name, name, crypto_pmd, key):
"""Construct a crypto virtual block device.
Args:
base_bdev_name: name of the underlying base bdev
name: name for the crypto vbdev
crypto_pmd: name of of the DPDK crypto driver to use
key: key
Returns:
Name of created virtual block device.
"""
params = {'base_bdev_name': base_bdev_name, 'name': name, 'crypto_pmd': crypto_pmd, 'key': key}
return client.call('construct_crypto_bdev', params)
def delete_crypto_bdev(client, name):
"""Delete crypto virtual block device.
Args:
name: name of crypto vbdev to delete
"""
params = {'name': name}
return client.call('delete_crypto_bdev', params)
def construct_malloc_bdev(client, num_blocks, block_size, name=None, uuid=None):
"""Construct a malloc block device.
Args:
num_blocks: size of block device in blocks
block_size: block size of device; must be a power of 2 and at least 512
name: name of block device (optional)
uuid: UUID of block device (optional)
Returns:
Name of created block device.
"""
params = {'num_blocks': num_blocks, 'block_size': block_size}
if name:
params['name'] = name
if uuid:
params['uuid'] = uuid
return client.call('construct_malloc_bdev', params)
def delete_malloc_bdev(client, name):
"""Delete malloc block device.
Args:
bdev_name: name of malloc bdev to delete
"""
params = {'name': name}
return client.call('delete_malloc_bdev', params)
def construct_null_bdev(client, num_blocks, block_size, name, uuid=None):
"""Construct a null block device.
Args:
num_blocks: size of block device in blocks
block_size: block size of device; must be a power of 2 and at least 512
name: name of block device
uuid: UUID of block device (optional)
Returns:
Name of created block device.
"""
params = {'name': name, 'num_blocks': num_blocks,
'block_size': block_size}
if uuid:
params['uuid'] = uuid
return client.call('construct_null_bdev', params)
def delete_null_bdev(client, name):
"""Remove null bdev from the system.
Args:
name: name of null bdev to delete
"""
params = {'name': name}
return client.call('delete_null_bdev', params)
def get_raid_bdevs(client, category):
"""Get list of raid bdevs based on category
Args:
category: any one of all or online or configuring or offline
Returns:
List of raid bdev names
"""
params = {'category': category}
return client.call('get_raid_bdevs', params)
def construct_raid_bdev(client, name, strip_size, raid_level, base_bdevs):
"""Construct pooled device
Args:
name: user defined raid bdev name
strip_size: strip size of raid bdev in KB, supported values like 8, 16, 32, 64, 128, 256, 512, 1024 etc
raid_level: raid level of raid bdev, supported values 0
base_bdevs: Space separated names of Nvme bdevs in double quotes, like "Nvme0n1 Nvme1n1 Nvme2n1"
Returns:
None
"""
params = {'name': name, 'strip_size': strip_size, 'raid_level': raid_level, 'base_bdevs': base_bdevs}
return client.call('construct_raid_bdev', params)
def destroy_raid_bdev(client, name):
"""Destroy pooled device
Args:
name: raid bdev name
Returns:
None
"""
params = {'name': name}
return client.call('destroy_raid_bdev', params)
def construct_aio_bdev(client, filename, name, block_size=None):
"""Construct a Linux AIO block device.
Args:
filename: path to device or file (ex: /dev/sda)
name: name of block device
block_size: block size of device (optional; autodetected if omitted)
Returns:
Name of created block device.
"""
params = {'name': name,
'filename': filename}
if block_size:
params['block_size'] = block_size
return client.call('construct_aio_bdev', params)
def delete_aio_bdev(client, name):
"""Remove aio bdev from the system.
Args:
bdev_name: name of aio bdev to delete
"""
params = {'name': name}
return client.call('delete_aio_bdev', params)
def set_bdev_nvme_options(client, action_on_timeout=None, timeout_us=None, retry_count=None, nvme_adminq_poll_period_us=None):
"""Set options for the bdev nvme. This is startup command.
Args:
action_on_timeout: action to take on command time out. Valid values are: none, reset, abort (optional)
timeout_us: Timeout for each command, in microseconds. If 0, don't track timeouts (optional)
retry_count: The number of attempts per I/O when an I/O fails (optional)
nvme_adminq_poll_period_us: how often the admin queue is polled for asynchronous events in microsecon (optional)
"""
params = {}
if action_on_timeout:
params['action_on_timeout'] = action_on_timeout
if timeout_us:
params['timeout_us'] = timeout_us
if retry_count:
params['retry_count'] = retry_count
if nvme_adminq_poll_period_us:
params['nvme_adminq_poll_period_us'] = nvme_adminq_poll_period_us
return client.call('set_bdev_nvme_options', params)
def set_bdev_nvme_hotplug(client, enable, period_us=None):
"""Set options for the bdev nvme. This is startup command.
Args:
enable: True to enable hotplug, False to disable.
period_us: how often the hotplug is processed for insert and remove events. Set 0 to reset to default. (optional)
"""
params = {'enable': enable}
if period_us:
params['period_us'] = period_us
return client.call('set_bdev_nvme_hotplug', params)
def construct_nvme_bdev(client, name, trtype, traddr, adrfam=None, trsvcid=None, subnqn=None):
"""Construct NVMe namespace block device.
Args:
name: bdev name prefix; "n" + namespace ID will be appended to create unique names
trtype: transport type ("PCIe", "RDMA")
traddr: transport address (PCI BDF or IP address)
adrfam: address family ("IPv4", "IPv6", "IB", or "FC") (optional for PCIe)
trsvcid: transport service ID (port number for IP-based addresses; optional for PCIe)
subnqn: subsystem NQN to connect to (optional)
Returns:
Name of created block device.
"""
params = {'name': name,
'trtype': trtype,
'traddr': traddr}
if adrfam:
params['adrfam'] = adrfam
if trsvcid:
params['trsvcid'] = trsvcid
if subnqn:
params['subnqn'] = subnqn
return client.call('construct_nvme_bdev', params)
def delete_nvme_controller(client, name):
"""Remove NVMe controller from the system.
Args:
name: controller name
"""
params = {'name': name}
return client.call('delete_nvme_controller', params)
def construct_rbd_bdev(client, pool_name, rbd_name, block_size, name=None):
"""Construct a Ceph RBD block device.
Args:
pool_name: Ceph RBD pool name
rbd_name: Ceph RBD image name
block_size: block size of RBD volume
name: name of block device (optional)
Returns:
Name of created block device.
"""
params = {
'pool_name': pool_name,
'rbd_name': rbd_name,
'block_size': block_size,
}
if name:
params['name'] = name
return client.call('construct_rbd_bdev', params)
def delete_rbd_bdev(client, name):
"""Remove rbd bdev from the system.
Args:
name: name of rbd bdev to delete
"""
params = {'name': name}
return client.call('delete_rbd_bdev', params)
def construct_error_bdev(client, base_name):
"""Construct an error injection block device.
Args:
base_name: base bdev name
"""
params = {'base_name': base_name}
return client.call('construct_error_bdev', params)
def delete_error_bdev(client, name):
"""Remove error bdev from the system.
Args:
bdev_name: name of error bdev to delete
"""
params = {'name': name}
return client.call('delete_error_bdev', params)
def construct_iscsi_bdev(client, name, url, initiator_iqn):
"""Construct a iSCSI block device.
Args:
name: name of block device
url: iSCSI URL
initiator_iqn: IQN name to be used by initiator
Returns:
Name of created block device.
"""
params = {
'name': name,
'url': url,
'initiator_iqn': initiator_iqn,
}
return client.call('construct_iscsi_bdev', params)
def delete_iscsi_bdev(client, name):
"""Remove iSCSI bdev from the system.
Args:
bdev_name: name of iSCSI bdev to delete
"""
params = {'name': name}
return client.call('delete_iscsi_bdev', params)
def construct_pmem_bdev(client, pmem_file, name):
"""Construct a libpmemblk block device.
Args:
pmem_file: path to pmemblk pool file
name: name of block device
Returns:
Name of created block device.
"""
params = {
'pmem_file': pmem_file,
'name': name
}
return client.call('construct_pmem_bdev', params)
def delete_pmem_bdev(client, name):
"""Remove pmem bdev from the system.
Args:
name: name of pmem bdev to delete
"""
params = {'name': name}
return client.call('delete_pmem_bdev', params)
def construct_passthru_bdev(client, base_bdev_name, passthru_bdev_name):
"""Construct a pass-through block device.
Args:
base_bdev_name: name of the existing bdev
passthru_bdev_name: name of block device
Returns:
Name of created block device.
"""
params = {
'base_bdev_name': base_bdev_name,
'passthru_bdev_name': passthru_bdev_name,
}
return client.call('construct_passthru_bdev', params)
def delete_passthru_bdev(client, name):
"""Remove pass through bdev from the system.
Args:
name: name of pass through bdev to delete
"""
params = {'name': name}
return client.call('delete_passthru_bdev', params)
def construct_split_vbdev(client, base_bdev, split_count, split_size_mb=None):
"""Construct split block devices from a base bdev.
Args:
base_bdev: name of bdev to split
split_count: number of split bdevs to create
split_size_mb: size of each split volume in MiB (optional)
Returns:
List of created block devices.
"""
params = {
'base_bdev': base_bdev,
'split_count': split_count,
}
if split_size_mb:
params['split_size_mb'] = split_size_mb
return client.call('construct_split_vbdev', params)
def destruct_split_vbdev(client, base_bdev):
"""Destroy split block devices.
Args:
base_bdev: name of previously split bdev
"""
params = {
'base_bdev': base_bdev,
}
return client.call('destruct_split_vbdev', params)
def get_bdevs(client, name=None):
"""Get information about block devices.
Args:
name: bdev name to query (optional; if omitted, query all bdevs)
Returns:
List of bdev information objects.
"""
params = {}
if name:
params['name'] = name
return client.call('get_bdevs', params)
def get_bdevs_iostat(client, name=None):
"""Get I/O statistics for block devices.
Args:
name: bdev name to query (optional; if omitted, query all bdevs)
Returns:
I/O statistics for the requested block devices.
"""
params = {}
if name:
params['name'] = name
return client.call('get_bdevs_iostat', params)
def delete_bdev(client, bdev_name):
"""Remove a bdev from the system.
Args:
bdev_name: name of bdev to delete
"""
params = {'name': bdev_name}
return client.call('delete_bdev', params)
def bdev_inject_error(client, name, io_type, error_type, num=1):
"""Inject an error via an error bdev.
Args:
name: name of error bdev
io_type: one of "clear", "read", "write", "unmap", "flush", or "all"
error_type: one of "failure" or "pending"
num: number of commands to fail
"""
params = {
'name': name,
'io_type': io_type,
'error_type': error_type,
'num': num,
}
return client.call('bdev_inject_error', params)
def set_bdev_qd_sampling_period(client, name, period):
"""Enable queue depth tracking on a specified bdev.
Args:
name: name of a bdev on which to track queue depth.
period: period (in microseconds) at which to update the queue depth reading. If set to 0, polling will be disabled.
"""
params = {}
params['name'] = name
params['period'] = period
return client.call('set_bdev_qd_sampling_period', params)
def set_bdev_qos_limit(client, name, rw_ios_per_sec=None, rw_mbytes_per_sec=None):
"""Set QoS rate limit on a block device.
Args:
name: name of block device
rw_ios_per_sec: R/W IOs per second limit (>=10000, example: 20000). 0 means unlimited.
rw_mbytes_per_sec: R/W megabytes per second limit (>=10, example: 100). 0 means unlimited.
"""
params = {}
params['name'] = name
if rw_ios_per_sec is not None:
params['rw_ios_per_sec'] = rw_ios_per_sec
if rw_mbytes_per_sec is not None:
params['rw_mbytes_per_sec'] = rw_mbytes_per_sec
return client.call('set_bdev_qos_limit', params)
def apply_firmware(client, bdev_name, filename):
"""Download and commit firmware to NVMe device.
Args:
bdev_name: name of NVMe block device
filename: filename of the firmware to download
"""
params = {
'filename': filename,
'bdev_name': bdev_name,
}
return client.call('apply_nvme_firmware', params)