mandhor/ebsnvme-id

## ebsnvme-id
#!/usr/bin/env python2.7

# Copyright (C) 2017 Amazon.com, Inc. or its affiliates.
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License").
# You may not use this file except in compliance with the License.
# A copy of the License is located at
#
#    http://aws.amazon.com/apache2.0/
#
# or in the "license" file accompanying this file. This file is
# distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS
# OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the
# License.

"""
Usage:
Read EBS device information and provide information about
the volume.
"""

import argparse
from ctypes import *
from fcntl import ioctl
import sys

NVME_ADMIN_IDENTIFY = 0x06
NVME_IOCTL_ADMIN_CMD = 0xC0484E41
AMZN_NVME_VID = 0x1D0F
AMZN_NVME_EBS_MN = "Amazon Elastic Block Store"

class nvme_admin_command(Structure):
    _pack_ = 1
    _fields_ = [("opcode", c_uint8),      # op code
                ("flags", c_uint8),       # fused operation
                ("cid", c_uint16),        # command id
                ("nsid", c_uint32),       # namespace id
                ("reserved0", c_uint64),
                ("mptr", c_uint64),       # metadata pointer
                ("addr", c_uint64),       # data pointer
                ("mlen", c_uint32),       # metadata length
                ("alen", c_uint32),       # data length
                ("cdw10", c_uint32),
                ("cdw11", c_uint32),
                ("cdw12", c_uint32),
                ("cdw13", c_uint32),
                ("cdw14", c_uint32),
                ("cdw15", c_uint32),
                ("reserved1", c_uint64)]

class nvme_identify_controller_amzn_vs(Structure):
    _pack_ = 1
    _fields_ = [("bdev", c_char * 32),  # block device name
                ("reserved0", c_char * (1024 - 32))]

class nvme_identify_controller_psd(Structure):
    _pack_ = 1
    _fields_ = [("mp", c_uint16),       # maximum power
                ("reserved0", c_uint16),
                ("enlat", c_uint32),     # entry latency
                ("exlat", c_uint32),     # exit latency
                ("rrt", c_uint8),       # relative read throughput
                ("rrl", c_uint8),       # relative read latency
                ("rwt", c_uint8),       # relative write throughput
                ("rwl", c_uint8),       # relative write latency
                ("reserved1", c_char * 16)]

class nvme_identify_controller(Structure):
    _pack_ = 1
    _fields_ = [("vid", c_uint16),          # PCI Vendor ID
                ("ssvid", c_uint16),        # PCI Subsystem Vendor ID
                ("sn", c_char * 20),        # Serial Number
                ("mn", c_char * 40),        # Module Number
                ("fr", c_char * 8),         # Firmware Revision
                ("rab", c_uint8),           # Recommend Arbitration Burst
                ("ieee", c_uint8 * 3),      # IEEE OUI Identifier
                ("mic", c_uint8),           # Multi-Interface Capabilities
                ("mdts", c_uint8),          # Maximum Data Transfer Size
                ("reserved0", c_uint8 * (256 - 78)),
                ("oacs", c_uint16),         # Optional Admin Command Support
                ("acl", c_uint8),           # Abort Command Limit
                ("aerl", c_uint8),          # Asynchronous Event Request Limit
                ("frmw", c_uint8),          # Firmware Updates
                ("lpa", c_uint8),           # Log Page Attributes
                ("elpe", c_uint8),          # Error Log Page Entries
                ("npss", c_uint8),          # Number of Power States Support
                ("avscc", c_uint8),         # Admin Vendor Specific Command Configuration
                ("reserved1", c_uint8 * (512 - 265)),
                ("sqes", c_uint8),          # Submission Queue Entry Size
                ("cqes", c_uint8),          # Completion Queue Entry Size
                ("reserved2", c_uint16),
                ("nn", c_uint32),            # Number of Namespaces
                ("oncs", c_uint16),         # Optional NVM Command Support
                ("fuses", c_uint16),        # Fused Operation Support
                ("fna", c_uint8),           # Format NVM Attributes
                ("vwc", c_uint8),           # Volatile Write Cache
                ("awun", c_uint16),         # Atomic Write Unit Normal
                ("awupf", c_uint16),        # Atomic Write Unit Power Fail
                ("nvscc", c_uint8),         # NVM Vendor Specific Command Configuration
                ("reserved3", c_uint8 * (704 - 531)),
                ("reserved4", c_uint8 * (2048 - 704)),
                ("psd", nvme_identify_controller_psd * 32),     # Power State Descriptor
                ("vs", nvme_identify_controller_amzn_vs)]  # Vendor Specific

class ebs_nvme_device:
    def __init__(self, device):
        self.device = device
        self.ctrl_identify()

    def _nvme_ioctl(self, id_response, id_len):
        admin_cmd = nvme_admin_command(opcode = NVME_ADMIN_IDENTIFY,
                                       addr = id_response,
                                       alen = id_len,
                                       cdw10 = 1)

        with open(self.device, "rw") as nvme:
            ioctl(nvme, NVME_IOCTL_ADMIN_CMD, admin_cmd)

    def ctrl_identify(self):
        self.id_ctrl = nvme_identify_controller()
        self._nvme_ioctl(addressof(self.id_ctrl), sizeof(self.id_ctrl))

        if self.id_ctrl.vid != AMZN_NVME_VID or self.id_ctrl.mn.strip() != AMZN_NVME_EBS_MN:
            raise TypeError("[ERROR] Not an EBS device: '{0}'".format(self.device))

    def get_volume_id(self):
        vol = self.id_ctrl.sn

        if vol.startswith("vol") and vol[3] != "-":
            vol = "vol-" + vol[3:]

        return vol

    def get_block_device(self, stripped=False):
        dev = self.id_ctrl.vs.bdev

        if stripped and dev.startswith("/dev/"):
            dev = dev[5:]

        return dev

if __name__ == "__main__":
    parser = argparse.ArgumentParser(description="Reads EBS information from NVMe devices.")
    parser.add_argument("device", nargs=1, help="Device to query")

    display = parser.add_argument_group("Display Options")
    display.add_argument("-v", "--volume", action="store_true",
            help="Return volume-id")
    display.add_argument("-b", "--block-dev", action="store_true",
            help="Return block device mapping")
    display.add_argument("-u", "--udev", action="store_true",
            help="Output data in format suitable for udev rules")

    if len(sys.argv) < 2:
        parser.print_help()
        sys.exit(1)

    args = parser.parse_args()

    get_all = not (args.udev or args.volume or args.block_dev)

    try:
        dev = ebs_nvme_device(args.device[0])
    except (IOError, TypeError) as err:
        print >> sys.stderr, err
        sys.exit(1)

    if get_all or args.volume:
        print "Volume ID: {0}".format(dev.get_volume_id())
    if get_all or args.block_dev or args.udev:
        print dev.get_block_device(args.udev)
	#!/usr/bin/env python2.7

	# Copyright (C) 2017 Amazon.com, Inc. or its affiliates.
	# All Rights Reserved.
	#
	# Licensed under the Apache License, Version 2.0 (the "License").
	# You may not use this file except in compliance with the License.
	# A copy of the License is located at
	#
	# http://aws.amazon.com/apache2.0/
	#
	# or in the "license" file accompanying this file. This file is
	# distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS
	# OF ANY KIND, either express or implied. See the License for the
	# specific language governing permissions and limitations under the
	# License.

	"""
	Usage:
	Read EBS device information and provide information about
	the volume.
	"""

	import argparse
	from ctypes import *
	from fcntl import ioctl
	import sys

	NVME_ADMIN_IDENTIFY = 0x06
	NVME_IOCTL_ADMIN_CMD = 0xC0484E41
	AMZN_NVME_VID = 0x1D0F
	AMZN_NVME_EBS_MN = "Amazon Elastic Block Store"

	class nvme_admin_command(Structure):
	_pack_ = 1
	_fields_ = [("opcode", c_uint8), # op code
	("flags", c_uint8), # fused operation
	("cid", c_uint16), # command id
	("nsid", c_uint32), # namespace id
	("reserved0", c_uint64),
	("mptr", c_uint64), # metadata pointer
	("addr", c_uint64), # data pointer
	("mlen", c_uint32), # metadata length
	("alen", c_uint32), # data length
	("cdw10", c_uint32),
	("cdw11", c_uint32),
	("cdw12", c_uint32),
	("cdw13", c_uint32),
	("cdw14", c_uint32),
	("cdw15", c_uint32),
	("reserved1", c_uint64)]

	class nvme_identify_controller_amzn_vs(Structure):
	_pack_ = 1
	_fields_ = [("bdev", c_char * 32), # block device name
	("reserved0", c_char * (1024 - 32))]

	class nvme_identify_controller_psd(Structure):
	_pack_ = 1
	_fields_ = [("mp", c_uint16), # maximum power
	("reserved0", c_uint16),
	("enlat", c_uint32), # entry latency
	("exlat", c_uint32), # exit latency
	("rrt", c_uint8), # relative read throughput
	("rrl", c_uint8), # relative read latency
	("rwt", c_uint8), # relative write throughput
	("rwl", c_uint8), # relative write latency
	("reserved1", c_char * 16)]

	class nvme_identify_controller(Structure):
	_pack_ = 1
	_fields_ = [("vid", c_uint16), # PCI Vendor ID
	("ssvid", c_uint16), # PCI Subsystem Vendor ID
	("sn", c_char * 20), # Serial Number
	("mn", c_char * 40), # Module Number
	("fr", c_char * 8), # Firmware Revision
	("rab", c_uint8), # Recommend Arbitration Burst
	("ieee", c_uint8 * 3), # IEEE OUI Identifier
	("mic", c_uint8), # Multi-Interface Capabilities
	("mdts", c_uint8), # Maximum Data Transfer Size
	("reserved0", c_uint8 * (256 - 78)),
	("oacs", c_uint16), # Optional Admin Command Support
	("acl", c_uint8), # Abort Command Limit
	("aerl", c_uint8), # Asynchronous Event Request Limit
	("frmw", c_uint8), # Firmware Updates
	("lpa", c_uint8), # Log Page Attributes
	("elpe", c_uint8), # Error Log Page Entries
	("npss", c_uint8), # Number of Power States Support
	("avscc", c_uint8), # Admin Vendor Specific Command Configuration
	("reserved1", c_uint8 * (512 - 265)),
	("sqes", c_uint8), # Submission Queue Entry Size
	("cqes", c_uint8), # Completion Queue Entry Size
	("reserved2", c_uint16),
	("nn", c_uint32), # Number of Namespaces
	("oncs", c_uint16), # Optional NVM Command Support
	("fuses", c_uint16), # Fused Operation Support
	("fna", c_uint8), # Format NVM Attributes
	("vwc", c_uint8), # Volatile Write Cache
	("awun", c_uint16), # Atomic Write Unit Normal
	("awupf", c_uint16), # Atomic Write Unit Power Fail
	("nvscc", c_uint8), # NVM Vendor Specific Command Configuration
	("reserved3", c_uint8 * (704 - 531)),
	("reserved4", c_uint8 * (2048 - 704)),
	("psd", nvme_identify_controller_psd * 32), # Power State Descriptor
	("vs", nvme_identify_controller_amzn_vs)] # Vendor Specific

	class ebs_nvme_device:
	def __init__(self, device):
	self.device = device
	self.ctrl_identify()

	def _nvme_ioctl(self, id_response, id_len):
	admin_cmd = nvme_admin_command(opcode = NVME_ADMIN_IDENTIFY,
	addr = id_response,
	alen = id_len,
	cdw10 = 1)

	with open(self.device, "rw") as nvme:
	ioctl(nvme, NVME_IOCTL_ADMIN_CMD, admin_cmd)

	def ctrl_identify(self):
	self.id_ctrl = nvme_identify_controller()
	self._nvme_ioctl(addressof(self.id_ctrl), sizeof(self.id_ctrl))

	if self.id_ctrl.vid != AMZN_NVME_VID or self.id_ctrl.mn.strip() != AMZN_NVME_EBS_MN:
	raise TypeError("[ERROR] Not an EBS device: '{0}'".format(self.device))

	def get_volume_id(self):
	vol = self.id_ctrl.sn

	if vol.startswith("vol") and vol[3] != "-":
	vol = "vol-" + vol[3:]

	return vol

	def get_block_device(self, stripped=False):
	dev = self.id_ctrl.vs.bdev

	if stripped and dev.startswith("/dev/"):
	dev = dev[5:]

	return dev

	if __name__ == "__main__":
	parser = argparse.ArgumentParser(description="Reads EBS information from NVMe devices.")
	parser.add_argument("device", nargs=1, help="Device to query")

	display = parser.add_argument_group("Display Options")
	display.add_argument("-v", "--volume", action="store_true",
	help="Return volume-id")
	display.add_argument("-b", "--block-dev", action="store_true",
	help="Return block device mapping")
	display.add_argument("-u", "--udev", action="store_true",
	help="Output data in format suitable for udev rules")

	if len(sys.argv) < 2:
	parser.print_help()
	sys.exit(1)

	args = parser.parse_args()

	get_all = not (args.udev or args.volume or args.block_dev)

	try:
	dev = ebs_nvme_device(args.device[0])
	except (IOError, TypeError) as err:
	print >> sys.stderr, err
	sys.exit(1)

	if get_all or args.volume:
	print "Volume ID: {0}".format(dev.get_volume_id())
	if get_all or args.block_dev or args.udev:
	print dev.get_block_device(args.udev)