def test_blkid_parsing(self):
# Output of: `blkid` (with no arguments)
input_blkid_string = """/dev/sda1: UUID="0354526A55E7267A" TYPE="ntfs" PTTYPE="dos" PARTUUID="80827ac0-298e-438c-8854-42aab5e1954c"
/dev/sdc1: UUID="4f3cab4f-2a7d-43e5-9219-de7bb94b5b2e" TYPE="ext4" PARTUUID="0ac0b05d-406e-4995-b032-1776ad0a87e3"
/dev/sdc2: UUID="5176-0026" TYPE="vfat" PARTUUID="497ab23e-3566-4544-8659-c1210dafb621"
/dev/sdc3: UUID="50FD7236021DBC16" TYPE="ntfs" PTTYPE="dos" PARTUUID="161458e9-eafc-4b18-ab8d-56152b29b8b5"
/dev/sdc6: UUID="aac8f01a-ba7c-3c71-9267-86ae94bf39b9" LABEL="untitled" TYPE="hfsplus" PARTUUID="1d0cf486-b483-4d30-b0c3-60cd4d71f66d"
/dev/sdc8: UUID="14FC1B2B3D69E002" TYPE="ntfs" PTTYPE="dos" PARTUUID="ada38fe6-687c-4cd9-8fa3-6abd9e1a3d81"
/dev/sr0: UUID="2020-06-26-05-33-51-00" LABEL="Rescuezilla" TYPE="iso9660" PTTYPE="PMBR"
/dev/loop0: TYPE="squashfs" PARTLABEL="This string has spaces" LABEL="Another label"
/dev/sdc4: UUID="fc93c6bf-6e02-4150-be08-6ad1d61ac2ed" TYPE="xfs" PARTUUID="15121dd7-3e30-4d0d-b545-af39901e36fd"
/dev/sdc5: UUID="b49c36be-6549-4d52-bacf-1172ae0946ac" TYPE="reiser4" PARTUUID="2fa17c84-a52f-4d46-9096-e733807c4862"
/dev/sdc7: UUID="988916bb-dfa9-456b-9c03-ec85a60b2054" TYPE="swap" PARTUUID="bf532c13-b749-4491-98ff-3a26e87025d1"
"""
blkid_dict = Blkid.parse_blkid_output(input_blkid_string)
expected_blkid_dict = {
'/dev/sda1': {
'UUID': "0354526A55E7267A",
'TYPE': "ntfs",
'PTTYPE': "dos",
'PARTUUID': "80827ac0-298e-438c-8854-42aab5e1954c"
},
'/dev/sdc1': {
'UUID': "4f3cab4f-2a7d-43e5-9219-de7bb94b5b2e",
'TYPE': "ext4",
'PARTUUID': "0ac0b05d-406e-4995-b032-1776ad0a87e3"
},
'/dev/sdc2': {
'UUID': "5176-0026",
'TYPE': "vfat",
'PARTUUID': "497ab23e-3566-4544-8659-c1210dafb621"
},
'/dev/sdc3': {
'UUID': "50FD7236021DBC16",
'TYPE': "ntfs",
'PTTYPE': "dos",
'PARTUUID': "161458e9-eafc-4b18-ab8d-56152b29b8b5"
},
'/dev/sdc6': {
'UUID': "aac8f01a-ba7c-3c71-9267-86ae94bf39b9",
'LABEL': "untitled",
'TYPE': "hfsplus",
'PARTUUID': "1d0cf486-b483-4d30-b0c3-60cd4d71f66d"
},
'/dev/sdc8': {
'UUID': "14FC1B2B3D69E002",
'TYPE': "ntfs",
'PTTYPE': "dos",
'PARTUUID': "ada38fe6-687c-4cd9-8fa3-6abd9e1a3d81"
},
'/dev/sr0': {
'UUID': "2020-06-26-05-33-51-00",
'LABEL': "Rescuezilla",
'TYPE': "iso9660",
'PTTYPE': "PMBR"
},
'/dev/loop0': {
'TYPE': "squashfs",
'PARTLABEL': "This string has spaces",
'LABEL': "Another label",
},
'/dev/sdc4': {
'UUID': "fc93c6bf-6e02-4150-be08-6ad1d61ac2ed",
'TYPE': "xfs",
'PARTUUID': "15121dd7-3e30-4d0d-b545-af39901e36fd"
},
'/dev/sdc5': {
'UUID': "b49c36be-6549-4d52-bacf-1172ae0946ac",
'TYPE': "reiser4",
'PARTUUID': "2fa17c84-a52f-4d46-9096-e733807c4862"
},
'/dev/sdc7': {
'UUID': "988916bb-dfa9-456b-9c03-ec85a60b2054",
'TYPE': "swap",
'PARTUUID': "bf532c13-b749-4491-98ff-3a26e87025d1"
}
}
self.assertDictEqual(expected_blkid_dict, blkid_dict)
def test_combined_drive_state(self):
parted_dict_dict = {}
sfdict_dict_dict = {}
lsblk_json_output = """{
"blockdevices": [
{"kname":"/dev/loop0", "name":"/dev/loop0", "size":698761216, "type":"loop", "fstype":"squashfs", "mountpoint":"/rofs", "model":null},
{"kname":"/dev/sda", "name":"/dev/sda", "size":34359738368, "type":"disk", "fstype":null, "mountpoint":null, "model":"VBOX_HARDDISK",
"children": [
{"kname":"/dev/sda1", "name":"/dev/sda1", "size":34357641216, "type":"part", "fstype":"ntfs", "mountpoint":"/mnt/backup", "model":null}
]
},
{"kname":"/dev/sdb", "name":"/dev/sdb", "size":1073741824, "type":"disk", "fstype":"LVM2_member", "mountpoint":null, "model":"VBOX_HARDDISK",
"children": [
{"kname":"/dev/dm-0", "name":"/dev/mapper/vgtest-lvtest", "size":1069547520, "type":"lvm", "fstype":"ext4", "mountpoint":null, "model":null}
]
},
{"kname":"/dev/sdc", "name":"/dev/sdc", "size":1610612736, "type":"disk", "fstype":"ntfs", "mountpoint":null, "model":"VBOX_HARDDISK"},
{"kname":"/dev/sdd", "name":"/dev/sdd", "size":2147483648, "type":"disk", "fstype":null, "mountpoint":null, "model":"VBOX_HARDDISK",
"children": [
{"kname":"/dev/sdd1", "name":"/dev/sdd1", "size":3145728, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null},
{"kname":"/dev/sdd2", "name":"/dev/sdd2", "size":44040192, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null},
{"kname":"/dev/sdd4", "name":"/dev/sdd4", "size":1024, "type":"part", "fstype":null, "mountpoint":null, "model":null},
{"kname":"/dev/sdd5", "name":"/dev/sdd5", "size":12582912, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null},
{"kname":"/dev/sdd6", "name":"/dev/sdd6", "size":4194304, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null},
{"kname":"/dev/sdd7", "name":"/dev/sdd7", "size":28311552, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null},
{"kname":"/dev/sdd8", "name":"/dev/sdd8", "size":4194304, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null},
{"kname":"/dev/sdd9", "name":"/dev/sdd9", "size":20971520, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null},
{"kname":"/dev/sdd10", "name":"/dev/sdd10", "size":83886080, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null},
{"kname":"/dev/sdd11", "name":"/dev/sdd11", "size":72351744, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null},
{"kname":"/dev/sdd12", "name":"/dev/sdd12", "size":18874368, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null},
{"kname":"/dev/sdd13", "name":"/dev/sdd13", "size":29360128, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null},
{"kname":"/dev/sdd14", "name":"/dev/sdd14", "size":45088768, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null}
]
},
{"kname":"/dev/sde", "name":"/dev/sde", "size":2684354560, "type":"disk", "fstype":null, "mountpoint":null, "model":"VBOX_HARDDISK",
"children": [
{"kname":"/dev/sde1", "name":"/dev/sde1", "size":113246208, "type":"part", "fstype":"ntfs", "mountpoint":null, "model":null},
{"kname":"/dev/sde2", "name":"/dev/sde2", "size":67108864, "type":"part", "fstype":"vfat", "mountpoint":null, "model":null},
{"kname":"/dev/sde3", "name":"/dev/sde3", "size":2277507072, "type":"part", "fstype":"ntfs", "mountpoint":null, "model":null},
{"kname":"/dev/sde4", "name":"/dev/sde4", "size":224395264, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null}
]
},
{"kname":"/dev/sdf", "name":"/dev/sdf", "size":3221225472, "type":"disk", "fstype":null, "mountpoint":null, "model":"VBOX_HARDDISK",
"children": [
{"kname":"/dev/sdf1", "name":"/dev/sdf1", "size":268435456, "type":"part", "fstype":"btrfs", "mountpoint":null, "model":null},
{"kname":"/dev/sdf2", "name":"/dev/sdf2", "size":147849216, "type":"part", "fstype":"ext2", "mountpoint":null, "model":null},
{"kname":"/dev/sdf3", "name":"/dev/sdf3", "size":1024, "type":"part", "fstype":null, "mountpoint":null, "model":null},
{"kname":"/dev/sdf5", "name":"/dev/sdf5", "size":52428800, "type":"part", "fstype":"ext4", "mountpoint":null, "model":null},
{"kname":"/dev/sdf6", "name":"/dev/sdf6", "size":34603008, "type":"part", "fstype":"ntfs", "mountpoint":null, "model":null},
{"kname":"/dev/sdf7", "name":"/dev/sdf7", "size":73400320, "type":"part", "fstype":"vfat", "mountpoint":null, "model":null},
{"kname":"/dev/sdf8", "name":"/dev/sdf8", "size":47185920, "type":"part", "fstype":"vfat", "mountpoint":null, "model":null},
{"kname":"/dev/sdf9", "name":"/dev/sdf9", "size":55574528, "type":"part", "fstype":"reiser4", "mountpoint":null, "model":null},
{"kname":"/dev/sdf10", "name":"/dev/sdf10", "size":35651584, "type":"part", "fstype":"reiserfs", "mountpoint":null, "model":null},
{"kname":"/dev/sdf11", "name":"/dev/sdf11", "size":36700160, "type":"part", "fstype":"swap", "mountpoint":null, "model":null},
{"kname":"/dev/sdf12", "name":"/dev/sdf12", "size":379584512, "type":"part", "fstype":"ntfs", "mountpoint":null, "model":null},
{"kname":"/dev/sdf13", "name":"/dev/sdf13", "size":45088768, "type":"part", "fstype":"udf", "mountpoint":null, "model":null},
{"kname":"/dev/sdf14", "name":"/dev/sdf14", "size":68157440, "type":"part", "fstype":"xfs", "mountpoint":null, "model":null},
{"kname":"/dev/sdf15", "name":"/dev/sdf15", "size":50331648, "type":"part", "fstype":null, "mountpoint":null, "model":null},
{"kname":"/dev/sdf16", "name":"/dev/sdf16", "size":40894464, "type":"part", "fstype":null, "mountpoint":null, "model":null},
{"kname":"/dev/sdf17", "name":"/dev/sdf17", "size":11534336, "type":"part", "fstype":"minix", "mountpoint":null, "model":null},
{"kname":"/dev/sdf18", "name":"/dev/sdf18", "size":62914560, "type":"part", "fstype":"f2fs", "mountpoint":null, "model":null},
{"kname":"/dev/sdf19", "name":"/dev/sdf19", "size":135266304, "type":"part", "fstype":"nilfs2", "mountpoint":null, "model":null},
{"kname":"/dev/sdf20", "name":"/dev/sdf20", "size":1656750080, "type":"part", "fstype":"ntfs", "mountpoint":null, "model":null}
]
},
{"kname":"/dev/sdg", "name":"/dev/sdg", "size":3758096384, "type":"disk", "fstype":null, "mountpoint":null, "model":"VBOX_HARDDISK"},
{"kname":"/dev/sdh", "name":"/dev/sdh", "size":4294967296, "type":"disk", "fstype":null, "mountpoint":null, "model":"VBOX_HARDDISK",
"children": [
{"kname":"/dev/sdh1", "name":"/dev/sdh1", "size":104857600, "type":"part", "fstype":"LVM2_member", "mountpoint":null, "model":null,
"children": [
{"kname":"/dev/dm-1", "name":"/dev/mapper/vgtest1-lvtest1", "size":54525952, "type":"lvm", "fstype":"vfat", "mountpoint":null, "model":null}
]
},
{"kname":"/dev/sdh2", "name":"/dev/sdh2", "size":104857600, "type":"part", "fstype":"LVM2_member", "mountpoint":null, "model":null,
"children": [
{"kname":"/dev/dm-3", "name":"/dev/mapper/vgtest2-lvtest2", "size":54525952, "type":"lvm", "fstype":"ntfs", "mountpoint":null, "model":null}
]
},
{"kname":"/dev/sdh3", "name":"/dev/sdh3", "size":104857600, "type":"part", "fstype":"LVM2_member", "mountpoint":null, "model":null,
"children": [
{"kname":"/dev/dm-2", "name":"/dev/mapper/vgtest3-lvtest3", "size":54525952, "type":"lvm", "fstype":"ext4", "mountpoint":null, "model":null}
]
}
]
},
{"kname":"/dev/sdi", "name":"/dev/sdi", "size":8589934592, "type":"disk", "fstype":null, "mountpoint":null, "model":"VBOX_HARDDISK",
"children": [
{"kname":"/dev/sdi1", "name":"/dev/sdi1", "size":536870912, "type":"part", "fstype":"vfat", "mountpoint":null, "model":null},
{"kname":"/dev/sdi2", "name":"/dev/sdi2", "size":255852544, "type":"part", "fstype":"ext2", "mountpoint":null, "model":null},
{"kname":"/dev/sdi3", "name":"/dev/sdi3", "size":7795113984, "type":"part", "fstype":"crypto_LUKS", "mountpoint":null, "model":null}
]
},
{"kname":"/dev/sdj", "name":"/dev/sdj", "size":53687091200, "type":"disk", "fstype":null, "mountpoint":null, "model":"VBOX_HARDDISK",
"children": [
{"kname":"/dev/sdj1", "name":"/dev/sdj1", "size":554696704, "type":"part", "fstype":"ntfs", "mountpoint":null, "model":null},
{"kname":"/dev/sdj2", "name":"/dev/sdj2", "size":104857600, "type":"part", "fstype":"vfat", "mountpoint":null, "model":null},
{"kname":"/dev/sdj3", "name":"/dev/sdj3", "size":16777216, "type":"part", "fstype":null, "mountpoint":null, "model":null},
{"kname":"/dev/sdj4", "name":"/dev/sdj4", "size":53008662528, "type":"part", "fstype":"ntfs", "mountpoint":null, "model":null}
]
},
{"kname":"/dev/sdk", "name":"/dev/sdk", "size":1073741824, "type":"disk", "fstype":null, "mountpoint":null, "model":"VBOX_HARDDISK",
"children": [
{"kname":"/dev/sdk1", "name":"/dev/sdk1", "size":1072693248, "type":"part", "fstype":"linux_raid_member", "mountpoint":null, "model":null,
"children": [
{"kname":"/dev/md127", "name":"/dev/md127", "size":1071644672, "type":"raid1", "fstype":"ext4", "mountpoint":null, "model":null}
]
}
]
},
{"kname":"/dev/sdl", "name":"/dev/sdl", "size":1073741824, "type":"disk", "fstype":null, "mountpoint":null, "model":"VBOX_HARDDISK",
"children": [
{"kname":"/dev/sdl1", "name":"/dev/sdl1", "size":1072693248, "type":"part", "fstype":"linux_raid_member", "mountpoint":null, "model":null,
"children": [
{"kname":"/dev/md127", "name":"/dev/md127", "size":1071644672, "type":"raid1", "fstype":"ext4", "mountpoint":null, "model":null}
]
}
]
},
{"kname":"/dev/sdm", "name":"/dev/sdm", "size":1073741824, "type":"disk", "fstype":null, "mountpoint":null, "model":"VBOX_HARDDISK",
"children": [
{"kname":"/dev/sdm1", "name":"/dev/sdm1", "size":1072693248, "type":"part", "fstype":"linux_raid_member", "mountpoint":null, "model":null,
"children": [
{"kname":"/dev/md0", "name":"/dev/md0", "size":1071644672, "type":"raid1", "fstype":"ext4", "mountpoint":null, "model":null}
]
}
]
},
{"kname":"/dev/sdn", "name":"/dev/sdn", "size":1073741824, "type":"disk", "fstype":null, "mountpoint":null, "model":"VBOX_HARDDISK",
"children": [
{"kname":"/dev/sdn1", "name":"/dev/sdn1", "size":1072693248, "type":"part", "fstype":"linux_raid_member", "mountpoint":null, "model":null,
"children": [
{"kname":"/dev/md0", "name":"/dev/md0", "size":1071644672, "type":"raid1", "fstype":"ext4", "mountpoint":null, "model":null}
]
}
]
},
{"kname":"/dev/sdo", "name":"/dev/sdo", "size":1610612736, "type":"disk", "fstype":"ext4", "mountpoint":null, "model":"VBOX_HARDDISK"},
{"kname":"/dev/sr0", "name":"/dev/sr0", "size":805623808, "type":"rom", "fstype":"iso9660", "mountpoint":"/cdrom", "model":"VBOX_CD-ROM"}
]
}"""
lsblk_json_dict = json.loads(lsblk_json_output)
input_blkid_string = """/dev/mapper/vgtest-lvtest: UUID="b9131c40-9742-416c-b019-8b11481a86ac" TYPE="ext4"
/dev/sda1: UUID="5C2F5F000C198BC5" TYPE="ntfs" PTTYPE="dos" PARTUUID="9aa1db09-6b7c-45a6-b392-c14518730297"
/dev/sdc: UUID="0818993868533997" TYPE="ntfs" PTTYPE="dos"
/dev/sdd1: UUID="925ef222-bc6d-4e46-a31d-af3443821ed6" TYPE="ext4" PARTUUID="1dbd2bfc-01"
/dev/sdd10: UUID="2708289c-c559-4d5c-bed1-98735f673bc0" TYPE="ext4" PARTUUID="1dbd2bfc-0a"
/dev/sdd11: UUID="c1dc5a1d-d22b-4a64-933f-5495a454eb05" TYPE="ext4" PARTUUID="1dbd2bfc-0b"
/dev/sdd12: UUID="47d1b78f-dd89-44d2-8af6-e7c01f1b635e" TYPE="ext4" PARTUUID="1dbd2bfc-0c"
/dev/sdd13: UUID="39fb1fdd-2cb8-449d-8d15-3eb7ab682677" TYPE="ext4" PARTUUID="1dbd2bfc-0d"
/dev/sdd14: UUID="f40bf79e-619e-422c-a546-ba78caa4ced7" TYPE="ext4" PARTUUID="1dbd2bfc-0e"
/dev/sdd2: UUID="206b6149-a675-4149-b368-8d7f158d9da2" TYPE="ext4" PARTUUID="1dbd2bfc-02"
/dev/sdd5: UUID="b8a96bc5-43c5-4180-a6c6-12466b544ced" TYPE="ext4" PARTUUID="1dbd2bfc-05"
/dev/sdd6: UUID="0897426b-24ee-47ed-8c85-e034205a43aa" TYPE="ext4" PARTUUID="1dbd2bfc-06"
/dev/sdd7: UUID="c4f8b878-1a4e-424b-93dd-17ea6d8e14d2" TYPE="ext4" PARTUUID="1dbd2bfc-07"
/dev/sdd8: UUID="e4fa2ad0-a206-447e-9c14-829d52c10407" TYPE="ext4" PARTUUID="1dbd2bfc-08"
/dev/sdd9: UUID="34648ad0-2fc1-47e1-8503-dc88b5152386" TYPE="ext4" PARTUUID="1dbd2bfc-09"
/dev/sde1: UUID="39DE69624116B96D" TYPE="ntfs" PTTYPE="dos" PARTUUID="4c6ec2cf-8de5-43c0-9757-41a596de5486"
/dev/sde2: UUID="B155-F891" TYPE="vfat" PARTUUID="be9f4179-560c-4bc9-8366-ae214f69a16e"
/dev/sde3: UUID="286C1DA536C63454" TYPE="ntfs" PTTYPE="dos" PARTUUID="363bdd4e-d6a1-42e6-a4da-616cd3e46952"
/dev/sde4: UUID="11d0533c-feba-4a07-ae30-7ff3720a051e" TYPE="ext4" PARTUUID="ced0279d-0096-4ebe-8425-4c6c9d46a4d2"
/dev/sdf1: UUID="c297cbb6-acb5-4d6a-9e34-af7558e120a0" UUID_SUB="695a452a-c43c-477c-8d5c-a21802e18091" TYPE="btrfs" PARTUUID="43c18652-01"
/dev/sdf12: UUID="023E47301DBC9964" TYPE="ntfs" PTTYPE="dos" PARTUUID="43c18652-0c"
/dev/sdf13: UUID="5f4b3897b65975a8" LABEL="LinuxUDF" TYPE="udf" PARTUUID="43c18652-0d"
/dev/sdf17: TYPE="minix" PARTUUID="43c18652-11"
/dev/sdf18: UUID="d73d2f4f-fba2-43ef-ad7a-c5fe877bf8a9" TYPE="f2fs" PARTUUID="43c18652-12"
/dev/sdf2: UUID="04944da2-d784-4c9f-b143-060d2776c4b1" TYPE="ext2" PARTUUID="43c18652-02"
/dev/sdf20: UUID="718E7F8E7F42D1B8" TYPE="ntfs" PTTYPE="dos" PARTUUID="43c18652-14"
/dev/sdf5: UUID="a2f8e4d6-ac83-4c57-a046-b7122c0398d5" TYPE="ext4" PARTUUID="43c18652-05"
/dev/sdf6: UUID="1297CD00121D448B" TYPE="ntfs" PTTYPE="dos" PARTUUID="43c18652-06"
/dev/sdf7: SEC_TYPE="msdos" UUID="CF57-1227" TYPE="vfat" PARTUUID="43c18652-07"
/dev/sdf8: UUID="CF6A-B2D0" TYPE="vfat" PARTUUID="43c18652-08"
/dev/sdi1: UUID="F5A2-3D31" TYPE="vfat" PARTUUID="b227e8b3-c8ea-448f-9657-53670575e6a8"
/dev/sdi2: UUID="80a2000c-c375-4a74-b6f9-2f1e1c7a8958" TYPE="ext2" PARTUUID="a3b889cb-31af-469d-a584-34edb323c62a"
/dev/sdj1: LABEL="Recovery" UUID="5C22168F22166E70" TYPE="ntfs" PARTLABEL="Basic data partition" PARTUUID="e3e94ae6-c2ab-495a-a955-a32140f56c2a"
/dev/sdj2: UUID="2C16-C81E" TYPE="vfat" PARTLABEL="EFI system partition" PARTUUID="7423670f-d0c3-4724-82f7-3185350a1bf7"
/dev/sdj4: UUID="DA40176E4017511D" TYPE="ntfs" PARTLABEL="Basic data partition" PARTUUID="1f1c6171-d10c-44c0-ba9b-e12995d7f4da"
/dev/sdk1: UUID="b4b3109e-816d-bcee-66c4-151e60fd8e23" UUID_SUB="cbb347a0-e478-39be-5dae-8b2955375ff6" LABEL="ubuntu:0" TYPE="linux_raid_member" PARTUUID="edb03a25-01"
/dev/sdl1: UUID="b4b3109e-816d-bcee-66c4-151e60fd8e23" UUID_SUB="17ee1620-2ccc-c266-1cd8-a567f6896d7a" LABEL="ubuntu:0" TYPE="linux_raid_member" PARTUUID="c6774609-01"
/dev/sr0: UUID="2020-09-04-10-27-14-00" LABEL="Rescuezilla" TYPE="iso9660" PTTYPE="PMBR"
/dev/loop0: TYPE="squashfs"
/dev/sdb: UUID="i20UTQ-OaX3-c6nB-CiBv-Gav1-hgVf-tEkO2W" TYPE="LVM2_member"
/dev/sdf9: UUID="0ab2eb0a-6c94-4f78-8206-7d725bbeb4e5" TYPE="reiser4" PARTUUID="43c18652-09"
/dev/sdf10: UUID="d230da2e-5359-43cb-827e-40c48a0a572b" TYPE="reiserfs" PARTUUID="43c18652-0a"
/dev/sdf11: UUID="217c8359-2ce6-4d07-bc44-4dcae84bc089" TYPE="swap" PARTUUID="43c18652-0b"
/dev/sdf14: UUID="3211b89b-b5ce-461d-8e6e-8acfaaa4bb28" TYPE="xfs" PARTUUID="43c18652-0e"
/dev/sdf19: UUID="957acceb-12f3-4574-ac1f-fb6e53f1a22f" TYPE="nilfs2" PARTUUID="43c18652-13"
/dev/sdh1: UUID="aNcRGF-4HyS-UoFu-aNpE-tXKI-nyeu-LiKaTm" TYPE="LVM2_member" PARTUUID="c64c40a3-4eec-4b86-820a-f8068ad3f686"
/dev/sdh2: UUID="cwuIbV-pb5s-9whu-eezX-WiZU-4wlY-gvuLZS" TYPE="LVM2_member" PARTUUID="45e285ea-caa3-4fc7-a7fe-9727d3198f09"
/dev/sdh3: UUID="jStAm5-tt1J-6uRa-HElo-EROm-DgjD-B5OJ3B" TYPE="LVM2_member" PARTUUID="4a014da5-75ca-45b2-9b62-7e3380c14570"
/dev/sdi3: UUID="17147edc-1e54-4300-b47a-01b138581512" TYPE="crypto_LUKS" PARTUUID="5f64fbd4-dcad-4467-8a8b-f3e009871661"
/dev/md127: UUID="0ca32d11-af2c-4512-9e68-bef318870149" TYPE="ext4"
/dev/mapper/vgtest1-lvtest1: SEC_TYPE="msdos" UUID="0559-959C" TYPE="vfat"
/dev/mapper/vgtest3-lvtest3: UUID="846a2cbd-b040-4afd-bb1c-8ecd6e15f0c2" TYPE="ext4"
/dev/mapper/vgtest2-lvtest2: UUID="588E895406ECC468" TYPE="ntfs" PTTYPE="dos"
/dev/sdf15: PARTUUID="43c18652-0f"
/dev/sdf16: PARTUUID="43c18652-10"
/dev/sdj3: PARTLABEL="Microsoft reserved partition" PARTUUID="229ef65d-3315-4824-945e-9719feda2f42"
/dev/sdm1: UUID="75515f3b-95ea-ef00-e327-c48e2784e416" UUID_SUB="52b46420-82ff-7e66-ff87-4195a846f804" LABEL="ubuntu:0" TYPE="linux_raid_member" PARTUUID="e02572d4-01"
/dev/sdn1: UUID="75515f3b-95ea-ef00-e327-c48e2784e416" UUID_SUB="5a61afd1-e3eb-d319-f6ca-a0135c0889de" LABEL="ubuntu:0" TYPE="linux_raid_member" PARTUUID="1e066523-01"
/dev/md0: UUID="42ba6b53-6752-4ca7-b5a7-95a5e766ce97" BLOCK_SIZE="4096" TYPE="ext4"
/dev/sdo: UUID="642af36d-7695-4376-a6f9-a35a15552e33" BLOCK_SIZE="4096" TYPE="ext4" """
blkid_dict = Blkid.parse_blkid_output(input_blkid_string)
os_prober_contents = """/dev/sdc2@/efi/Microsoft/Boot/bootmgfw.efi:Windows Boot Manager:Windows:efi
/dev/sdd1:Debian GNU/Linux 10 (buster):Debian:linux"""
osprober_dict = OsProber.parse_os_prober_output(os_prober_contents)
input_parted_gpt_string = """Model: ATA VBOX HARDDISK (scsi)
Disk /dev/sde: 2684354560B
Sector size (logical/physical): 512B/512B
Partition Table: gpt
Disk Flags:
Number Start End Size File system Name Flags
1 1048576B 114294783B 113246208B ntfs msftdata
2 114294784B 181403647B 67108864B fat32 msftdata
3 181403648B 2458910719B 2277507072B ntfs msftdata
4 2458910720B 2683305983B 224395264B ext4"""
parted_dict_dict['/dev/sde'] = Parted.parse_parted_output(
input_parted_gpt_string)
input_sfdisk_gpt_string = """label: gpt
label-id: 5FA01E95-F3E8-4B92-845B-843609E4EF0D
device: /dev/sde
unit: sectors
first-lba: 34
last-lba: 5242846
/dev/sde1 : start= 2048, size= 221184, type=EBD0A0A2-B9E5-4433-87C0-68B6B72699C7, uuid=4C6EC2CF-8DE5-43C0-9757-41A596DE5486
/dev/sde2 : start= 223232, size= 131072, type=EBD0A0A2-B9E5-4433-87C0-68B6B72699C7, uuid=BE9F4179-560C-4BC9-8366-AE214F69A16E
/dev/sde3 : start= 354304, size= 4448256, type=EBD0A0A2-B9E5-4433-87C0-68B6B72699C7, uuid=363BDD4E-D6A1-42E6-A4DA-616CD3E46952
/dev/sde4 : start= 4802560, size= 438272, type=0FC63DAF-8483-4772-8E79-3D69D8477DE4, uuid=CED0279D-0096-4EBE-8425-4C6C9D46A4D2"""
sfdict_dict_dict['/dev/sde'] = Sfdisk.parse_sfdisk_dump_output(
input_sfdisk_gpt_string)
input_parted_mbr_string = """Model: ATA VBOX HARDDISK (scsi)
Disk /dev/sdd: 2147483648B
Sector size (logical/physical): 512B/512B
Partition Table: msdos
Disk Flags:
Number Start End Size Type File system Flags
4 1048576B 2100297727B 2099249152B extended
14 2097152B 47185919B 45088768B logical ext4
13 48234496B 77594623B 29360128B logical ext4
5 78643200B 91226111B 12582912B logical ext4
9 92274688B 113246207B 20971520B logical ext4
6 114294784B 118489087B 4194304B logical ext2
7 119537664B 147849215B 28311552B logical ext4
8 148897792B 153092095B 4194304B logical ext2
10 154140672B 238026751B 83886080B logical ext4
11 239075328B 311427071B 72351744B logical ext4
12 312475648B 331350015B 18874368B logical ext4
1 2100297728B 2103443455B 3145728B primary ext2
2 2103443456B 2147483647B 44040192B primary ext4"""
parted_dict_dict['/dev/sdd'] = Parted.parse_parted_output(
input_parted_mbr_string)
input_parted_sdm_string = """Model: ATA VBOX HARDDISK (scsi)
Disk /dev/sdm: 1073741824B
Sector size (logical/physical): 512B/512B
Partition Table: msdos
Disk Flags:
Number Start End Size Type File system Flags
1 1048576B 1073741823B 1072693248B primary raid
"""
parted_dict_dict['/dev/sdm'] = Parted.parse_parted_output(
input_parted_sdm_string)
input_parted_sdn_string = """
Model: ATA VBOX HARDDISK (scsi)
Disk /dev/sdn: 1073741824B
Sector size (logical/physical): 512B/512B
Partition Table: msdos
Disk Flags:
Number Start End Size Type File system Flags
1 1048576B 1073741823B 1072693248B primary raid
"""
parted_dict_dict['/dev/sdn'] = Parted.parse_parted_output(
input_parted_sdn_string)
input_parted_fs_directly_on_disk_string = """
Model: ATA VBOX HARDDISK (scsi)
Disk /dev/sdo: 1610612736B
Sector size (logical/physical): 512B/512B
Partition Table: loop
Disk Flags:
Number Start End Size File system Flags
1 0B 1610612735B 1610612736B ext4
"""
parted_dict_dict['/dev/sdo'] = Parted.parse_parted_output(
input_parted_fs_directly_on_disk_string)
input_sfdisk_sdm_string = """label: dos
label-id: 0xe02572d4
device: /dev/sdm
unit: sectors
sector-size: 512
/dev/sdm1 : start= 2048, size= 2095104, type=fd"""
sfdict_dict_dict['/dev/sdm'] = Sfdisk.parse_sfdisk_dump_output(
input_sfdisk_sdm_string)
input_sfdisk_sdn_string = """label: dos
label-id: 0x1e066523
device: /dev/sdn
unit: sectors
sector-size: 512
/dev/sdn1 : start= 2048, size= 2095104, type=fd"""
sfdict_dict_dict['/dev/sdn'] = Sfdisk.parse_sfdisk_dump_output(
input_sfdisk_sdn_string)
input_sfdisk_mbr_string = """label: dos
label-id: 0x1dbd2bfc
device: /dev/sdd
unit: sectors
/dev/sdd1 : start= 4102144, size= 6144, type=83
/dev/sdd2 : start= 4108288, size= 86016, type=83
/dev/sdd4 : start= 2048, size= 4100096, type=5
/dev/sdd5 : start= 153600, size= 24576, type=83
/dev/sdd6 : start= 223232, size= 8192, type=83
/dev/sdd7 : start= 233472, size= 55296, type=83
/dev/sdd8 : start= 290816, size= 8192, type=83
/dev/sdd9 : start= 180224, size= 40960, type=83
/dev/sdd10 : start= 301056, size= 163840, type=83
/dev/sdd11 : start= 466944, size= 141312, type=83
/dev/sdd12 : start= 610304, size= 36864, type=83
/dev/sdd13 : start= 94208, size= 57344, type=83
/dev/sdd14 : start= 4096, size= 88064, type=83 """
sfdict_dict_dict['/dev/sdd'] = Sfdisk.parse_sfdisk_dump_output(
input_sfdisk_mbr_string)
pp = pprint.PrettyPrinter(indent=4)
combined_drive_state_dict = CombinedDriveState.construct_combined_drive_state_dict(
lsblk_json_dict, blkid_dict, osprober_dict, parted_dict_dict,
sfdict_dict_dict)
pp.pprint(combined_drive_state_dict)
CombinedDriveState.get_first_partition(
combined_drive_state_dict['/dev/sdd']['partitions'])
def _do_drive_query(self):
env_C_locale = Utility.get_env_C_locale()
drive_query_start_time = datetime.now()
GLib.idle_add(self.please_wait_popup.set_secondary_label_text,
_("Unmounting: {path}").format(path=IMAGE_EXPLORER_DIR))
returncode, failed_message = ImageExplorerManager._do_unmount(
IMAGE_EXPLORER_DIR)
if not returncode:
GLib.idle_add(
self.error_message_callback, False,
_("Unable to shutdown Image Explorer") + "\n\n" +
failed_message)
GLib.idle_add(self.please_wait_popup.destroy)
return
if self.is_stop_requested():
GLib.idle_add(self.error_message_callback, False,
_("Operation cancelled by user."))
return
GLib.idle_add(
self.please_wait_popup.set_secondary_label_text,
_("Unmounting: {path}").format(path=RESCUEZILLA_MOUNT_TMP_DIR))
returncode, failed_message = ImageExplorerManager._do_unmount(
RESCUEZILLA_MOUNT_TMP_DIR)
if not returncode:
GLib.idle_add(
self.error_message_callback, False,
_("Unable to unmount {path}").format(
path=RESCUEZILLA_MOUNT_TMP_DIR) + "\n\n" + failed_message)
GLib.idle_add(self.please_wait_popup.destroy)
return
if self.is_stop_requested():
GLib.idle_add(self.error_message_callback, False,
_("Operation cancelled by user."))
return
lsblk_cmd_list = [
"lsblk", "-o",
"KNAME,NAME,SIZE,TYPE,FSTYPE,MOUNTPOINT,MODEL,SERIAL", "--paths",
"--bytes", "--json"
]
blkid_cmd_list = ["blkid"]
os_prober_cmd_list = ["os-prober"]
lsblk_json_dict = {}
blkid_dict = {}
os_prober_dict = {}
parted_dict_dict = collections.OrderedDict([])
sfdisk_dict_dict = collections.OrderedDict([])
# Clonezilla combines drive, partition and filesystem from multiple data sources (lsblk, blkid, parted etc)
# Rescuezilla continues this approach to reach best possible Clonezilla compatibility.
#
# However this sequential querying is slow. A parallel approach should be in theory much faster (but might be
# less reliable if internal commands are creating file locks etc.)
#
# In practice, the sequential approach was about 25% faster than a first-cut (polling-based) parallel approach.
# Parallel mode currently disabled, but kept for further development/analysis.
mode = "sequential-drive-query"
if mode == "sequential-drive-query":
print("Running drive query in sequential mode")
# TODO: Run with Utility.interruptable_run() so that even long-lived commands can have a signal sent to it
# to shutdown early.
# Not checking return codes here because Clonezilla does not, and some of these commands are expected to
# fail. The Utility.run() command prints the output to stdout.
GLib.idle_add(self.please_wait_popup.set_secondary_label_text,
_("Running: {app}").format(app="lsblk"))
process, flat_command_string, fail_description = Utility.run(
"lsblk", lsblk_cmd_list, use_c_locale=True)
lsblk_json_dict = json.loads(process.stdout)
if self.is_stop_requested():
GLib.idle_add(self.error_message_callback, False,
_("Operation cancelled by user."))
return
GLib.idle_add(self.please_wait_popup.set_secondary_label_text,
_("Running: {app}").format(app="blkid"))
process, flat_command_string, fail_description = Utility.run(
"blkid", blkid_cmd_list, use_c_locale=True)
blkid_dict = Blkid.parse_blkid_output(process.stdout)
if self.is_stop_requested():
GLib.idle_add(self.error_message_callback, False,
_("Operation cancelled by user."))
return
GLib.idle_add(self.please_wait_popup.set_secondary_label_text,
_("Running: {app}").format(app="os-prober"))
# Use os-prober to get OS information (running WITH original locale information
process, flat_command_string, fail_description = Utility.run(
"osprober", os_prober_cmd_list, use_c_locale=True)
os_prober_dict = OsProber.parse_os_prober_output(process.stdout)
if self.is_stop_requested():
GLib.idle_add(self.error_message_callback, False,
_("Operation cancelled by user."))
return
for lsblk_dict in lsblk_json_dict['blockdevices']:
partition_longdevname = lsblk_dict['name']
print("Going to run parted and sfdisk on " +
partition_longdevname)
try:
GLib.idle_add(
self.please_wait_popup.set_secondary_label_text,
_("Running {app} on {device}").format(
app="parted", device=partition_longdevname))
process, flat_command_string, fail_description = Utility.run(
"parted",
self._get_parted_cmd_list(partition_longdevname),
use_c_locale=True)
if "unrecognized disk label" not in process.stderr:
parted_dict_dict[
partition_longdevname] = Parted.parse_parted_output(
process.stdout)
else:
print("Parted says " + process.stderr)
if self.is_stop_requested():
GLib.idle_add(self.error_message_callback, False,
_("Operation cancelled by user."))
return
GLib.idle_add(
self.please_wait_popup.set_secondary_label_text,
_("Running {app} on {device}").format(
app="sfdisk", device=partition_longdevname))
process, flat_command_string, fail_description = Utility.run(
"sfdisk",
self._get_sfdisk_cmd_list(partition_longdevname),
use_c_locale=True)
sfdisk_dict_dict[
partition_longdevname] = Sfdisk.parse_sfdisk_dump_output(
process.stdout)
if self.is_stop_requested():
GLib.idle_add(self.error_message_callback, False,
_("Operation cancelled by user."))
return
except Exception:
print("Could run run parted on " + partition_longdevname)
elif mode == "parallel-drive-query":
print("Running drive query in parallel mode")
# Launch drive query in parallel. Parallel Python subprocess.Popen() approach adapted from [1]
# [1] https://stackoverflow.com/a/636601
cmd_dict = {
('lsblk', ""):
subprocess.Popen(lsblk_cmd_list,
env=env_C_locale,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
encoding="utf-8",
universal_newlines=True),
('blkid', ""):
subprocess.Popen(blkid_cmd_list,
env=env_C_locale,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
encoding="utf-8",
universal_newlines=True),
('os_prober', ""):
subprocess.Popen(os_prober_cmd_list,
env=env_C_locale,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
encoding="utf-8",
universal_newlines=True),
}
while cmd_dict:
print("drive_query_process is length " + str(len(cmd_dict)) +
" with contents " + str(cmd_dict))
for key in list(cmd_dict.keys()):
proc = cmd_dict[key]
retcode = proc.poll()
if retcode is not None: # Process finished.
cmd_dict.pop(key, None)
if key[0] == "lsblk" and retcode == 0:
# lsblk is complete, partition information can be used to launch the parted/sfdisk
lsblk_json_dict = json.loads(proc.stdout.read())
for lsblk_dict in lsblk_json_dict['blockdevices']:
partition_longdevname = lsblk_dict['name']
print("Launching parted and sfdisk on " +
partition_longdevname)
try:
cmd_dict[("parted", partition_longdevname
)] = subprocess.Popen(
self._get_parted_cmd_list(
partition_longdevname),
env=env_C_locale,
encoding="utf-8",
universal_newlines=True)
cmd_dict[("sfdisk", partition_longdevname
)] = subprocess.Popen(
self._get_sfdisk_cmd_list(
partition_longdevname),
env=env_C_locale,
encoding="utf-8",
universal_newlines=True)
except Exception:
print("Could launch sfdisk or parted on " +
partition_longdevname)
elif key[0] == "blkid" and retcode == 0:
blkid_dict = Blkid.parse_blkid_output(
proc.stdout.read())
elif key[0] == "osprober" and retcode == 0:
os_prober_dict = OsProber.parse_os_prober_output(
proc.stdout.read())
elif key[
0] == "sfdisk" and retcode == 0 and proc.stdout is not None:
sfdisk_dict_dict[
key[1]] = Sfdisk.parse_sfdisk_dump_output(
proc.stdout.read())
elif key[
0] == "parted" and retcode == 0 and proc.stdout is not None:
if proc.stderr is not None:
stderr = proc.stderr.read()
print("parted with key " + str(key) +
" had stderr " + stderr)
if "unrecognized disk label" not in stderr:
parted_dict_dict[
key[1]] = Parted.parse_parted_output(
proc.stdout.read())
else:
print(
"COULD NOT PROCESS process launched with key "
+ str(key) + " return code" + str(retcode))
if proc.stdout is not None:
print("stdout:" + proc.stdout.read())
if proc.stderr is not None:
print(" stderr:" + proc.stderr.read())
else: # No process is done, wait a bit and check again.
time.sleep(0.1)
continue
else:
raise Exception("Invalid drive query mode")
self.drive_state = CombinedDriveState.construct_combined_drive_state_dict(
lsblk_json_dict, blkid_dict, os_prober_dict, parted_dict_dict,
sfdisk_dict_dict)
pp = pprint.PrettyPrinter(indent=4)
pp.pprint(self.drive_state)
drive_query_end_time = datetime.now()
print("Drive query took: " +
str((drive_query_end_time - drive_query_start_time)))
GLib.idle_add(self.populate_drive_selection_table)
def __init__(self, absolute_clonezilla_img_path, enduser_filename):
self.absolute_path = absolute_clonezilla_img_path
self.enduser_filename = enduser_filename
self.warning_dict = {}
statbuf = os.stat(self.absolute_path)
self.last_modified_timestamp = format_datetime(
datetime.fromtimestamp(statbuf.st_mtime))
print("Last modified timestamp " + self.last_modified_timestamp)
self.image_format = "CLONEZILLA_FORMAT"
dir = Path(absolute_clonezilla_img_path).parent.as_posix()
print("Clonezilla directory : " + dir)
self.short_device_node_partition_list = []
self.short_device_node_disk_list = []
self.lvm_vg_dev_dict = {}
self.lvm_logical_volume_dict = {}
self.dev_fs_dict = {}
self.is_needs_decryption = False
self.ecryptfs_info_dict = None
ecryptfs_info_filepath = os.path.join(dir, "ecryptfs.info")
if isfile(ecryptfs_info_filepath):
try:
# ecryptfs.info is plain text when the directory is encrypted and produces Input/Output error when decrypted
Utility.read_file_into_string(ecryptfs_info_filepath)
self.is_needs_decryption = True
except:
self.is_needs_decryption = False
if self.is_needs_decryption:
self.ecryptfs_info_dict = Ecryptfs.parse_ecryptfs_info(
Utility.read_file_into_string(ecryptfs_info_filepath))
self.short_device_node_disk_list = self.ecryptfs_info_dict['disk']
self.short_device_node_partition_list = self.ecryptfs_info_dict[
'parts']
else:
# The 'parts' file contains space separated short partition device nodes (eg 'sda1 sda2 sda7') corresponding
# to the partitions that were selected by the user during the original backup.
parts_filepath = os.path.join(dir, "parts")
if isfile(parts_filepath):
self.short_device_node_partition_list = Utility.read_space_delimited_file_into_list(
parts_filepath)
else:
# Every Clonezilla image encountered so far has a 'parts' file, so the backup is considered invalid
# if none is present.
raise FileNotFoundError("Unable to locate " + parts_filepath +
" or file is encrypted")
# The 'disk' file can contain *multiple* space-separated short device nodes (eg 'sda sdb'), but most
# users will only backup one drive at a time using Clonezilla.
#
# Clonezilla images created using 'saveparts' function (rather than 'savedisk') does NOT have this file.
disk_filepath = os.path.join(dir, "disk")
if isfile(disk_filepath):
self.short_device_node_disk_list = Utility.read_space_delimited_file_into_list(
disk_filepath)
else:
print("Unable to locate " + disk_filepath)
# Clonezilla images created using 'saveparts' (rather than 'savedisks') don't have this file. However, if
# 'saveparts' is used on partitions that multiple disks that each contain partition tables then it's vital
# that the short device nodes information is extracted in order for the user to be able to restoring their
# intended partition table.
#
#
parted_absolute_path_list = glob.glob(
os.path.join(dir, "*-pt.parted"))
for parted_absolute_path in parted_absolute_path_list:
self.short_device_node_disk_list.append(
re.sub('-pt.parted', '',
os.path.basename(parted_absolute_path)))
if len(self.short_device_node_disk_list) == 0:
# If the device list is still empty it must be due to using 'saveparts' on a drive without a
# partition table. Append these device odds onto the disk list for convenience.
self.short_device_node_disk_list += self.short_device_node_partition_list
# TODO: Re-evaluate the need to parse this file, as far as I can tell all the information can be extracted
# from the partition information.
# The 'dev-fs.list' file contains the association between device nodes and the filesystems (eg '/dev/sda2 ext4')
dev_fs_list_filepath = os.path.join(dir, "dev-fs.list")
if isfile(dev_fs_list_filepath):
self.dev_fs_dict = ClonezillaImage.parse_dev_fs_list_output(
Utility.read_file_into_string(dev_fs_list_filepath))
else:
# Not raising exception because older Clonezilla images don't have this file.
print("Unable to locate " + dev_fs_list_filepath)
# The 'blkid.list' file provides a snapshot of the partitions on the system at the time of backup. This data
# is not particularly relevant during a restore operation, except potentially for eg, UUID.
#
# Danger: Do not mistake this structure for the current system's 'blkid' information.
# TODO: Re-evaluate the need to parse this file. The risk of mistaken usage may outweigh its usefulness.
self.blkid_dict = {}
blkid_list_filepath = os.path.join(dir, "blkid.list")
if isfile(blkid_list_filepath):
self.blkid_dict = Blkid.parse_blkid_output(
Utility.read_file_into_string(
os.path.join(dir, blkid_list_filepath)))
else:
# Not raising exception because older Clonezilla images don't have this file.
print("Unable to locate " + blkid_list_filepath)
# The 'lvm_vg_dev.list' file contains the association between an LVM VG (Logical Volume Manager volume group)
# with a name eg 'vgtest', the LVM PV (physical volume) with a UUID name, and the device node that the physical
# volume resides on eg, /dev/sdb.
lvm_vg_dev_list_filepath = os.path.join(dir, "lvm_vg_dev.list")
if isfile(
lvm_vg_dev_list_filepath) and not self.is_needs_decryption:
self.lvm_vg_dev_dict = Lvm.parse_volume_group_device_list_string(
Utility.read_file_into_string(lvm_vg_dev_list_filepath))
else:
print("No LVM volume group to device file detected in image")
# The 'lvm_logv.list' file contains the association between device nodes and the filesystems (eg '/dev/sda2 ext4')
lvm_logv_list_filepath = os.path.join(dir, "lvm_logv.list")
if isfile(lvm_logv_list_filepath) and not self.is_needs_decryption:
self.lvm_logical_volume_dict = Lvm.parse_logical_volume_device_list_string(
Utility.read_file_into_string(lvm_logv_list_filepath))
else:
print("No LVM logical volume file detected in image")
self.parted_dict_dict = {}
self.sfdisk_dict_dict = {}
self.mbr_dict_dict = {}
self.ebr_dict_dict = {}
self.size_bytes = 0
self.enduser_readable_size = "unknown"
for short_disk_device_node in self.short_device_node_disk_list:
self.size_bytes = 0
# Clonezilla -pt.parted file lists size in sectors, rather than bytes (or end-user readable KB/MB/GB/TB as
# Clonezilla's -pt.parted.compact file)
parted_filepath = os.path.join(
dir, short_disk_device_node + "-pt.parted")
if isfile(parted_filepath) and not self.is_needs_decryption:
self.parted_dict_dict[
short_disk_device_node] = Parted.parse_parted_output(
Utility.read_file_into_string(parted_filepath))
if 'capacity' in self.parted_dict_dict[short_disk_device_node] and 'logical_sector_size' in \
self.parted_dict_dict[short_disk_device_node]:
self.size_bytes = self.parted_dict_dict[short_disk_device_node]['capacity'] * \
self.parted_dict_dict[short_disk_device_node]['logical_sector_size']
else:
raise Exception(
"Unable to calculate disk capacity using " +
parted_filepath + ": " +
str(self.parted_dict_dict[short_disk_device_node]))
else:
# Do not raise exception because parted partition table is not present when using 'saveparts'
print("Unable to locate " + parted_filepath +
" or file is encrypted")
if self.ecryptfs_info_dict is not None and 'size' in self.ecryptfs_info_dict.keys(
):
self.enduser_readable_size = self.ecryptfs_info_dict[
'size'].strip("_")
else:
# Covert size in bytes to KB/MB/GB/TB as relevant
self.enduser_readable_size = size(int(self.size_bytes),
system=alternative)
sfdisk_filepath = os.path.join(
dir, short_disk_device_node + "-pt.sf")
if isfile(sfdisk_filepath) and not self.is_needs_decryption:
sfdisk_string = Utility.read_file_into_string(
sfdisk_filepath)
self.sfdisk_dict_dict[short_disk_device_node] = {
'absolute_path':
sfdisk_filepath,
'sfdisk_dict':
Sfdisk.parse_sfdisk_dump_output(sfdisk_string),
'sfdisk_file_length':
len(sfdisk_string)
}
else:
# Do not raise exception because sfdisk partition table is often missing using Clonezilla image format,
# as `sfdisk --dump` fails for disks without a partition table.
print("Unable to locate " + sfdisk_filepath +
" or file is encrypted")
# There is a maximum of 1 MBR per drive (there can be many drives). Master Boot Record (EBR) is never
# listed in 'parts' list.
mbr_glob_list = glob.glob(
os.path.join(dir, short_disk_device_node) + "*-mbr")
for absolute_mbr_filepath in mbr_glob_list:
short_mbr_device_node = basename(absolute_mbr_filepath).split(
"-mbr")[0]
self.mbr_dict_dict[short_disk_device_node] = {
'short_device_node': short_mbr_device_node,
'absolute_path': absolute_mbr_filepath
}
# There is a maximum of 1 EBR per drive (there can be many drives). Extended Boot Record (EBR) is never
# listed in 'parts' list.
ebr_glob_list = glob.glob(
os.path.join(dir, short_disk_device_node) + "*-ebr")
for absolute_ebr_filepath in ebr_glob_list:
short_ebr_device_node = basename(absolute_ebr_filepath).split(
"-ebr")[0]
self.ebr_dict_dict[short_disk_device_node] = {
'short_device_node': short_ebr_device_node,
'absolute_path': absolute_ebr_filepath
}
self.image_format_dict_dict = collections.OrderedDict([])
# Loops over the partitions listed in the 'parts' file
for short_partition_device_node in self.short_device_node_partition_list:
has_found_atleast_one_associated_image = False
# For standard MBR and GPT partitions, the partition key listed in the 'parts' file has a directly
# associated backup image, so check for this.
image_format_dict = ClonezillaImage.scan_backup_image(
dir, short_partition_device_node, self.is_needs_decryption)
# If no match found check the LVM (Logical Volume Manager)
if len(image_format_dict) == 0:
# Loop over all the volume groups (if any)
for vg_name in self.lvm_vg_dev_dict.keys():
# TODO: Evalulate if there are Linux multipath device nodes that hold LVM Physical Volumes.
# TODO: May need to adjust for multipath device node by replacing "/" with "-" for this node.
pv_short_device_node = re.sub(
'/dev/', '',
self.lvm_vg_dev_dict[vg_name]['device_node'])
# Check if there is an associated LVM Physical Volume (PV) present
if short_partition_device_node == pv_short_device_node:
# Yes, the partition being analysed is associated with an LVM physical volume that contains
# an LVM Volume Group. Now determine all backup images associated to Logical Volumes that
# reside within this Volume Group.
for lv_path in self.lvm_logical_volume_dict.keys():
candidate_lv_path_prefix = "/dev/" + vg_name + "/"
# Eg, "/dev/cl/root".startswith("/dev/cl")
if lv_path.startswith(candidate_lv_path_prefix):
# Found a logical volume. Note: There may be more than one LV associated with an VG
# Set the scan prefix for the backup image to eg "cl-root"
logical_volume_scan_key = re.sub(
'/', '-', re.sub('/dev/', '', lv_path))
image_format_dict = ClonezillaImage.scan_backup_image(
dir, logical_volume_scan_key,
self.is_needs_decryption)
if len(image_format_dict) != 0:
image_format_dict[
'is_lvm_logical_volume'] = True
image_format_dict[
'volume_group_name'] = vg_name
image_format_dict['physical_volume_long_device_node'] = \
self.lvm_vg_dev_dict[vg_name]['device_node']
image_format_dict[
'logical_volume_long_device_node'] = lv_path
self.image_format_dict_dict[
logical_volume_scan_key] = image_format_dict
has_found_atleast_one_associated_image = True
else:
has_found_atleast_one_associated_image = True
self.image_format_dict_dict[
short_partition_device_node] = image_format_dict
if not has_found_atleast_one_associated_image:
self.image_format_dict_dict[short_partition_device_node] = {
'type': "missing",
'prefix': short_partition_device_node,
'is_lvm_logical_volume': False
}
# TODO: Improve conversion between /dev/ nodes to short dev node.
long_partition_key = "/dev/" + short_partition_device_node
if long_partition_key in self.dev_fs_dict.keys():
# Annotate have filesystem information from dev-fs.list file. This case is expected when during a
# backup Clonezilla or Rescuezilla failed to successfully image the filesystem, but may have
# succeeded for other filesystems.
fs = self.dev_fs_dict[long_partition_key]
self.image_format_dict_dict[short_partition_device_node][
'filesystem'] = fs
# TODO: Consider removing warning_dict as image_format_dict is sufficient.
self.warning_dict[short_partition_device_node] = fs
elif self.is_needs_decryption:
self.warning_dict[short_partition_device_node] = _(
"Needs decryption")
else:
self.warning_dict[short_partition_device_node] = _(
"Unknown filesystem")
# Unfortunately swap partitions are not listed in the 'parts' file. There does not appear to be any alternative
# but scanning for the swap partitions and add them to the existing partitions, taking care to avoid duplicates
# by rescanning what has already been scanned due to listing as an LVM logical volume.
swap_partition_info_glob_list = glob.glob(
os.path.join(dir, "swappt-*.info"))
for swap_partition_info_glob in swap_partition_info_glob_list:
key = Swappt.get_short_device_from_swappt_info_filename(
swap_partition_info_glob)
already_scanned = False
for image_format_dict_key in self.image_format_dict_dict.keys():
if key == self.image_format_dict_dict[image_format_dict_key][
"prefix"]:
already_scanned = True
break
if not already_scanned and not self.is_needs_decryption:
self.image_format_dict_dict[key] = Swappt.parse_swappt_info(
Utility.read_file_into_string(swap_partition_info_glob))
self.image_format_dict_dict[key]['type'] = "swap"
self.image_format_dict_dict[key]['prefix'] = key
self.image_format_dict_dict[key][
'is_lvm_logical_volume'] = False
pp = pprint.PrettyPrinter(indent=4)
pp.pprint(self.image_format_dict_dict)
def __init__(self, absolute_clonezilla_img_path, enduser_filename, dir,
ecryptfs_info_dict, is_needs_decryption,
short_disk_device_node, short_device_node_partition_list,
is_display_multidisk, enduser_drive_number):
self.absolute_path = absolute_clonezilla_img_path
self.ecryptfs_info_dict = ecryptfs_info_dict
self.is_needs_decryption = is_needs_decryption
self.short_disk_device_node = short_disk_device_node
self.is_display_multidisk = is_display_multidisk
self.enduser_drive_number = enduser_drive_number
self.user_notes = ""
self.warning_dict = {}
notes_filepath = os.path.join(dir, "rescuezilla.description.txt")
if os.path.exists(notes_filepath):
self.user_notes = Utility.read_file_into_string(notes_filepath)
if is_display_multidisk:
multidisk_desc = _("Drive {drive_number}".format(
drive_number=str(self.enduser_drive_number)))
self.enduser_filename = enduser_filename + " (" + multidisk_desc + ")"
else:
self.enduser_filename = enduser_filename
statbuf = os.stat(self.absolute_path)
self.last_modified_timestamp = format_datetime(
datetime.fromtimestamp(statbuf.st_mtime))
print("Last modified timestamp " + self.last_modified_timestamp)
self.image_format = "CLONEZILLA_FORMAT"
self.short_device_node_partition_list = short_device_node_partition_list
self.short_device_node_disk_list = [short_disk_device_node]
self.ebr_dict = {}
self.lvm_vg_dev_dict = {}
self.lvm_logical_volume_dict = {}
self.dev_fs_dict = {}
if not self.is_needs_decryption:
# The 'dev-fs.list' file contains the association between device nodes and the filesystems
# (eg '/dev/sda2 ext4'). The filesystems are a combination of several sources, so the values may differ from
# `blkid` and `parted`. Given newer versions of Clonezilla create this file, it makes sense to process it.
dev_fs_list_filepath = os.path.join(dir, "dev-fs.list")
if isfile(dev_fs_list_filepath):
self.dev_fs_dict = ClonezillaImage.parse_dev_fs_list_output(
Utility.read_file_into_string(dev_fs_list_filepath))
else:
# Not raising exception because older Clonezilla images don't have this file.
print("Unable to locate " + dev_fs_list_filepath)
# The 'blkid.list' file provides a snapshot of the partitions on the system at the time of backup. This data
# is not particularly relevant during a restore operation, except potentially for eg, UUID.
#
# Danger: Do not mistake this structure for the current system's 'blkid' information.
# TODO: Re-evaluate the need to parse this file. The risk of mistaken usage may outweigh its usefulness.
self.blkid_dict = {}
blkid_list_filepath = os.path.join(dir, "blkid.list")
if isfile(blkid_list_filepath):
self.blkid_dict = Blkid.parse_blkid_output(
Utility.read_file_into_string(
os.path.join(dir, blkid_list_filepath)))
else:
# Not raising exception because older Clonezilla images don't have this file.
print("Unable to locate " + blkid_list_filepath)
# The 'lvm_vg_dev.list' file contains the association between an LVM VG (Logical Volume Manager volume group)
# with a name eg 'vgtest', the LVM PV (physical volume) with a UUID name, and the device node that the physical
# volume resides on eg, /dev/sdb.
lvm_vg_dev_list_filepath = os.path.join(dir, "lvm_vg_dev.list")
if isfile(
lvm_vg_dev_list_filepath) and not self.is_needs_decryption:
self.lvm_vg_dev_dict = Lvm.parse_volume_group_device_list_string(
Utility.read_file_into_string(lvm_vg_dev_list_filepath))
else:
print("No LVM volume group to device file detected in image")
# The 'lvm_logv.list' file contains the association between device nodes and the filesystems (eg '/dev/sda2 ext4')
lvm_logv_list_filepath = os.path.join(dir, "lvm_logv.list")
if isfile(lvm_logv_list_filepath) and not self.is_needs_decryption:
self.lvm_logical_volume_dict = Lvm.parse_logical_volume_device_list_string(
Utility.read_file_into_string(lvm_logv_list_filepath))
else:
print("No LVM logical volume file detected in image")
self.parted_dict = {}
self._mbr_absolute_path = {}
self.post_mbr_gap_absolute_path = {}
self.size_bytes = 0
self.enduser_readable_size = "unknown"
self.size_bytes = 0
# Clonezilla -pt.parted file lists size in sectors, rather than bytes (or end-user readable KB/MB/GB/TB as
# Clonezilla's -pt.parted.compact file)
parted_filepath = os.path.join(dir,
short_disk_device_node + "-pt.parted")
if isfile(parted_filepath) and not self.is_needs_decryption:
self.parted_dict = Parted.parse_parted_output(
Utility.read_file_into_string(parted_filepath))
if 'capacity' in self.parted_dict and 'logical_sector_size' in \
self.parted_dict:
self.size_bytes = self.parted_dict['capacity'] * \
self.parted_dict['logical_sector_size']
else:
raise Exception("Unable to calculate disk capacity using " +
parted_filepath + ": " + str(self.parted_dict))
else:
# Do not raise exception because parted partition table is not present when using 'saveparts'
print("Unable to locate " + parted_filepath +
" or file is encrypted")
if self.ecryptfs_info_dict is not None and 'size' in self.ecryptfs_info_dict.keys(
):
self.enduser_readable_size = self.ecryptfs_info_dict['size'].strip(
"_")
self.normalized_sfdisk_dict = {
'absolute_path': None,
'sfdisk_dict': {
'partitions': {}
},
'file_length': 0
}
if not is_needs_decryption:
sfdisk_absolute_path = os.path.join(
dir, short_disk_device_node + "-pt.sf")
self.normalized_sfdisk_dict = Sfdisk.generate_normalized_sfdisk_dict(
sfdisk_absolute_path, self)
# There is a maximum of 1 MBR per drive (there can be many drives). Master Boot Record (MBR) is never
# listed in 'parts' list.
self._mbr_absolute_path = None
mbr_glob_list = glob.glob(
os.path.join(dir, short_disk_device_node) + "-mbr")
for absolute_mbr_filepath in mbr_glob_list:
self._mbr_absolute_path = absolute_mbr_filepath
# There is a maximum of 1 post-MBR gap per drive (there can be many drives). The post MBR gap is never
# listed in 'parts' list. Note the asterisk wildcard in the glob, to get the notes.txt file (see below)
post_mbr_gap_glob_list = glob.glob(
os.path.join(dir, short_disk_device_node) +
"-hidden-data-after-mbr*")
for absolute_post_mbr_gap_filepath in post_mbr_gap_glob_list:
if absolute_post_mbr_gap_filepath.endswith(
".notes.txt") and not isfile(
os.path.join(dir, short_disk_device_node) +
"-hidden-data-after-mbr"):
# When the post-MBR gap is not created by Clonezilla due to >1024 MB gap between MBR and first partition
# there is a "notes.txt" file created which explains this. To maximize compatibility, in this
# situation Rescuezilla v2.1+ creates a 1MB post-MBR gap backup *and* a notes.txt file.
self.warning_dict[
short_disk_device_node +
"mbr"] = "Backup is missing the \"post-MBR gap\" backup, most likely due to Clonezilla detecting a >1024MB gap between the MBR partition table and the first partition. Any GRUB bootloaders present will not restore correctly. In order to boot after restoring this backup, Clonezilla happens to workaround this situation by automatically re-installing GRUB, but current version of Rescuezilla does not implement this (but will in a future version). Clonezilla is available from within the Rescuezilla live environment by running `clonezilla` in a Terminal. See the following link for more information: https://github.com/rescuezilla/rescuezilla/issues/146"
else:
self.post_mbr_gap_absolute_path = {
'absolute_path': absolute_post_mbr_gap_filepath
}
# There is a maximum of 1 EBR per drive (there can be many drives). Extended Boot Record (EBR) is never
# listed in 'parts' list. The asterisk is needed here because unlike the MBR case, the ebr file is eg,
# sda4-ebr. In otherwords the EBR is associated with a partition not the base device node.
ebr_glob_list = glob.glob(
os.path.join(dir, short_disk_device_node) + "*-ebr")
for absolute_ebr_filepath in ebr_glob_list:
short_ebr_device_node = basename(absolute_ebr_filepath).split(
"-ebr")[0]
self.ebr_dict = {
'short_device_node': short_ebr_device_node,
'absolute_path': absolute_ebr_filepath
}
self.image_format_dict_dict = collections.OrderedDict([])
# Loops over the partitions listed in the 'parts' file
for short_partition_device_node in self.short_device_node_partition_list:
has_found_atleast_one_associated_image = False
# For standard MBR and GPT partitions, the partition key listed in the 'parts' file has a directly
# associated backup image, so check for this.
image_format_dict = ClonezillaImage.scan_backup_image(
dir, short_partition_device_node, self.is_needs_decryption)
# If no match found check the LVM (Logical Volume Manager)
if len(image_format_dict) == 0:
# Loop over all the volume groups (if any)
for vg_name in self.lvm_vg_dev_dict.keys():
# TODO: Evalulate if there are Linux multipath device nodes that hold LVM Physical Volumes.
# TODO: May need to adjust for multipath device node by replacing "/" with "-" for this node.
pv_short_device_node = re.sub(
'/dev/', '',
self.lvm_vg_dev_dict[vg_name]['device_node'])
# Check if there is an associated LVM Physical Volume (PV) present
if short_partition_device_node == pv_short_device_node:
# Yes, the partition being analysed is associated with an LVM physical volume that contains
# an LVM Volume Group. Now determine all backup images associated to Logical Volumes that
# reside within this Volume Group.
for lv_path in self.lvm_logical_volume_dict.keys():
candidate_lv_path_prefix = "/dev/" + vg_name + "/"
# Eg, "/dev/cl/root".startswith("/dev/cl")
if lv_path.startswith(candidate_lv_path_prefix):
# Found a logical volume. Note: There may be more than one LV associated with an VG
# Set the scan prefix for the backup image to eg "cl-root"
logical_volume_scan_key = re.sub(
'/', '-', re.sub('/dev/', '', lv_path))
image_format_dict = ClonezillaImage.scan_backup_image(
dir, logical_volume_scan_key,
self.is_needs_decryption)
if len(image_format_dict) != 0:
image_format_dict[
'is_lvm_logical_volume'] = True
image_format_dict[
'volume_group_name'] = vg_name
image_format_dict['physical_volume_long_device_node'] = \
self.lvm_vg_dev_dict[vg_name]['device_node']
image_format_dict[
'logical_volume_long_device_node'] = lv_path
self.image_format_dict_dict[
logical_volume_scan_key] = image_format_dict
has_found_atleast_one_associated_image = True
else:
has_found_atleast_one_associated_image = True
self.image_format_dict_dict[
short_partition_device_node] = image_format_dict
if not has_found_atleast_one_associated_image:
self.image_format_dict_dict[short_partition_device_node] = {
'type': "missing",
'prefix': short_partition_device_node,
'is_lvm_logical_volume': False
}
# TODO: Improve conversion between /dev/ nodes to short dev node.
long_partition_key = "/dev/" + short_partition_device_node
if long_partition_key in self.dev_fs_dict.keys():
# Annotate have filesystem information from dev-fs.list file. This case is expected when during a
# backup Clonezilla or Rescuezilla failed to successfully image the filesystem, but may have
# succeeded for other filesystems.
fs = self.dev_fs_dict[long_partition_key]['filesystem']
self.image_format_dict_dict[short_partition_device_node][
'filesystem'] = fs
# TODO: Consider removing warning_dict as image_format_dict is sufficient.
self.warning_dict[short_partition_device_node] = fs
elif self.is_needs_decryption:
self.warning_dict[short_partition_device_node] = _(
"Needs decryption")
else:
self.warning_dict[short_partition_device_node] = _(
"Unknown filesystem")
# Unfortunately swap partitions are not listed in the 'parts' file. There does not appear to be any alternative
# but scanning for the swap partitions and add them to the existing partitions, taking care to avoid duplicates
# by rescanning what has already been scanned due to listing as an LVM logical volume.
swap_partition_info_glob_list = glob.glob(
os.path.join(dir, "swappt-*.info"))
for swap_partition_info_glob in swap_partition_info_glob_list:
key = Swappt.get_short_device_from_swappt_info_filename(
swap_partition_info_glob)
already_scanned = False
for image_format_dict_key in self.image_format_dict_dict.keys():
if key == self.image_format_dict_dict[image_format_dict_key][
"prefix"]:
already_scanned = True
break
if not already_scanned and not self.is_needs_decryption:
self.image_format_dict_dict[key] = Swappt.parse_swappt_info(
Utility.read_file_into_string(swap_partition_info_glob))
self.image_format_dict_dict[key]['type'] = "swap"
self.image_format_dict_dict[key]['prefix'] = key
self.image_format_dict_dict[key][
'is_lvm_logical_volume'] = False
total_size_estimate = 0
# Now we have all the images, compute the partition size estimates, and save it to avoid recomputing.
for image_format_dict_key in self.image_format_dict_dict.keys():
# Try to find the short_disk_key for the image. This key is used to access the parted and sfdisk
# partition table backups. It's not guaranteed there is a direct association between the backup image and
# the partition table (for example, Logical Volume Manager logical volumes).
associated_short_disk_key = ""
for short_disk_key in self.short_device_node_disk_list:
if image_format_dict_key.startswith(short_disk_key):
associated_short_disk_key = short_disk_key
estimated_size_bytes = self._compute_partition_size_byte_estimate(
associated_short_disk_key, image_format_dict_key)
self.image_format_dict_dict[image_format_dict_key][
'estimated_size_bytes'] = estimated_size_bytes
total_size_estimate += estimated_size_bytes
if self.size_bytes == 0:
# For md RAID devices, Clonezilla doesn't have a parted of sfdisk partition table containing the hard drive
# size, so in that situation, summing the image sizes provides some kind of size estimate.
self.size_bytes = total_size_estimate
# Covert size in bytes to KB/MB/GB/TB as relevant
self.enduser_readable_size = Utility.human_readable_filesize(
int(self.size_bytes))
pp = pprint.PrettyPrinter(indent=4)
pp.pprint(self.image_format_dict_dict)
def __init__(self, partition_long_device_node, absolute_path=None, enduser_filename=None):
self.image_format = "METADATA_ONLY_FORMAT"
self.long_device_node = partition_long_device_node
if absolute_path is None:
self.absolute_path = partition_long_device_node
else:
self.absolute_path = absolute_path
if enduser_filename is None:
self.absolute_path = partition_long_device_node
else:
self.enduser_filename = enduser_filename
self.normalized_sfdisk_dict = {'absolute_path': None, 'sfdisk_dict': {'partitions': {}}, 'file_length': 0}
self.user_notes = ""
self.warning_dict = {}
# Clonezilla format
self.ebr_dict = {}
self.efi_nvram_dat_absolute_path = None
self.short_device_node_partition_list = []
self.short_device_node_disk_list = []
self.lvm_vg_dev_dict = {}
self.lvm_logical_volume_dict = {}
self.sfdisk_chs_dict = None
self.dev_fs_dict = {}
self.size_bytes = 0
self.enduser_readable_size = ""
self.is_needs_decryption = False
self.parted_dict = {'partitions': {}}
self.post_mbr_gap_dict = {}
self._mbr_absolute_path = None
statbuf = os.stat(self.absolute_path)
self.last_modified_timestamp = format_datetime(datetime.fromtimestamp(statbuf.st_mtime))
print("Last modified timestamp " + self.last_modified_timestamp)
process, flat_command_string, failed_message = Utility.run("Get partition table", ["sfdisk", "--dump", partition_long_device_node], use_c_locale=True)
if process.returncode != 0:
# Expect devices without a partition table to not be able to extract partition table
print("Could not extract filesystem using sfdisk: " + process.stderr)
else:
sfdisk_string = process.stdout
f = tempfile.NamedTemporaryFile(mode='w', delete=False)
f.write(sfdisk_string)
f.close()
self.normalized_sfdisk_dict = Sfdisk.generate_normalized_sfdisk_dict(f.name, self)
if 'device' in self.normalized_sfdisk_dict['sfdisk_dict'].keys():
self.short_device_node_disk_list = [self.normalized_sfdisk_dict['sfdisk_dict']['device']]
# Get the parted partition table. For convenience, using the bytes unit, not sectors.
parted_process, flat_command_string, failed_message = Utility.run("Get filesystem information",
["parted", "--script", partition_long_device_node, "unit", "b",
"print"], use_c_locale=True)
if parted_process.returncode != 0:
# Expect devices without a partition table to not be able to extract partition table
print("Could not extract filesystem using parted: " + parted_process.stderr)
self.parted_dict = Parted.parse_parted_output(parted_process.stdout)
if len(self.short_device_node_disk_list) == 0 and 'long_dev_node' in self.parted_dict.keys():
self.short_device_node_disk_list = [self.parted_dict['long_dev_node']]
pp = pprint.PrettyPrinter(indent=4)
pp.pprint(self.parted_dict)
lsblk_process, flat_command_string, failed_message = Utility.run("Querying device capacity",
["lsblk", "--getsize64", partition_long_device_node],
use_c_locale=True)
if lsblk_process.returncode != 0:
# Expected for NBD device nodes
print("Failed to get drive capacity from device node")
# Create a CombinedDriveState structure for the MetadataOnlyImage, which may otherwise not be populated.
lsblk_cmd_list = ["lsblk", "-o", "KNAME,NAME,SIZE,TYPE,FSTYPE,MOUNTPOINT,MODEL,SERIAL", "--paths", "--bytes",
"--json", self.long_device_node]
process, flat_command_string, fail_description = Utility.run("lsblk", lsblk_cmd_list, use_c_locale=True)
lsblk_json_dict = json.loads(process.stdout)
# blkid is called in DriveQuery and without arugments it prints information about all *partitions* in the system
# (eg, /dev/sda1, /dev/sda2), but not th base device. But with an argument, it only prints out the base device.
# But globbing using an wildcard match prints out the base device *and* the partitions. Not ideal, but it works.
partition_device_glob_list = glob.glob(self.long_device_node + "*")
blkid_cmd_list = ["blkid"] + partition_device_glob_list
process, flat_command_string, fail_description = Utility.run("blkid", blkid_cmd_list, use_c_locale=True)
blkid_dict = Blkid.parse_blkid_output(process.stdout)
# OS Prober takes too long to run
os_prober_dict = {}
self.drive_state = CombinedDriveState.construct_combined_drive_state_dict(lsblk_json_dict=lsblk_json_dict,
blkid_dict=blkid_dict,
osprober_dict=os_prober_dict,
parted_dict_dict={self.long_device_node:self.parted_dict},
sfdisk_dict_dict={self.long_device_node:self.normalized_sfdisk_dict})
pp = pprint.PrettyPrinter(indent=4)
pp.pprint(self.drive_state)
self.image_format_dict_dict = collections.OrderedDict([])
total_size_estimate = 0
drive_state_partitions_dict = self.drive_state[self.long_device_node]['partitions']
for partition_long_device_node in drive_state_partitions_dict:
if 'type' in drive_state_partitions_dict[partition_long_device_node].keys() \
and drive_state_partitions_dict[partition_long_device_node]['type'] == "extended":
# Skip extended partitions as they will be handled by the '-ebr' file
continue
self.image_format_dict_dict[partition_long_device_node] = {'type': "raw",
'compression': "uncompressed",
'is_lvm_logical_volume': False,
'filesystem': drive_state_partitions_dict[partition_long_device_node]['filesystem']}
# Estimate the disk size from sfdisk partition table backup
last_partition_key, last_partition_final_byte = Sfdisk.get_highest_offset_partition(self.normalized_sfdisk_dict)
self.size_bytes = last_partition_final_byte
if self.size_bytes == 0:
self.size_bytes = self.parted_dict['capacity']
# Covert size in bytes to KB/MB/GB/TB as relevant
self.enduser_readable_size = Utility.human_readable_filesize(int(self.size_bytes))
def _do_drive_query(self):
env_C_locale = Utility.get_env_C_locale()
drive_query_start_time = datetime.now()
lsblk_cmd_list = [
"lsblk", "-o", "KNAME,NAME,SIZE,TYPE,FSTYPE,MOUNTPOINT,MODEL",
"--paths", "--bytes", "--json"
]
blkid_cmd_list = ["blkid"]
os_prober_cmd_list = ["os-prober"]
lsblk_json_dict = {}
blkid_dict = {}
os_prober_dict = {}
parted_dict_dict = collections.OrderedDict([])
sfdisk_dict_dict = collections.OrderedDict([])
# Clonezilla combines drive, partition and filesystem from multiple data sources (lsblk, blkid, parted etc)
# Rescuezilla continues this approach to reach best possible Clonezilla compatibility.
#
# However this sequential querying is slow. A parallel approach should be in theory much faster (but might be
# less reliable if internal commands are creating file locks etc.)
#
# In practice, the sequential approach was about 25% faster than a first-cut (polling-based) parallel approach.
# Parallel mode currently disabled, but kept for further development/analysis.
mode = "sequential-drive-query"
if mode == "sequential-drive-query":
print("Running drive query in sequential mode")
lsblk_stdout, lsblk_stderr, lsblk_return_code = Utility.run_external_command(
lsblk_cmd_list, self.temp_callback, env_C_locale)
lsblk_json_dict = json.loads(lsblk_stdout)
blkid_stdout, blkid_stderr, blkid_return_code = Utility.run_external_command(
blkid_cmd_list, self.temp_callback, env_C_locale)
blkid_dict = Blkid.parse_blkid_output(blkid_stdout)
# Use os-prober to get OS information (running WITH original locale information
os_prober_stdout, os_prober_stderr, os_prober_return_code = Utility.run_external_command(
os_prober_cmd_list, self.temp_callback, os.environ.copy())
os_prober_dict = OsProber.parse_os_prober_output(os_prober_stdout)
for lsblk_dict in lsblk_json_dict['blockdevices']:
partition_longdevname = lsblk_dict['name']
print("Going to run parted and sfdisk on " +
partition_longdevname)
try:
parted_stdout, parted_stderr, parted_return_code = Utility.run_external_command(
self._get_parted_cmd_list(partition_longdevname),
self.temp_callback, env_C_locale)
if "unrecognized disk label" not in parted_stderr:
parted_dict_dict[
partition_longdevname] = Parted.parse_parted_output(
parted_stdout)
else:
print("Parted says " + parted_stderr)
sfdisk_stdout, sfdisk_stderr, sfdisk_return_code = Utility.run_external_command(
self._get_sfdisk_cmd_list(partition_longdevname),
self.temp_callback, env_C_locale)
sfdisk_dict_dict[
partition_longdevname] = Sfdisk.parse_sfdisk_dump_output(
sfdisk_stdout)
except Exception:
print("Could run run parted on " + partition_longdevname)
elif mode == "parallel-drive-query":
print("Running drive query in parallel mode")
# Launch drive query in parallel. Parallel Python subprocess.Popen() approach adapted from [1]
# [1] https://stackoverflow.com/a/636601
cmd_dict = {
('lsblk', ""):
subprocess.Popen(lsblk_cmd_list,
env=env_C_locale,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
encoding="utf-8",
universal_newlines=True),
('blkid', ""):
subprocess.Popen(blkid_cmd_list,
env=env_C_locale,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
encoding="utf-8",
universal_newlines=True),
('os_prober', ""):
subprocess.Popen(os_prober_cmd_list,
env=env_C_locale,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
encoding="utf-8",
universal_newlines=True),
}
while cmd_dict:
print("drive_query_process is length " + str(len(cmd_dict)) +
" with contents " + str(cmd_dict))
for key in list(cmd_dict.keys()):
proc = cmd_dict[key]
retcode = proc.poll()
if retcode is not None: # Process finished.
cmd_dict.pop(key, None)
if key[0] == "lsblk" and retcode == 0:
# lsblk is complete, partition information can be used to launch the parted/sfdisk
lsblk_json_dict = json.loads(proc.stdout.read())
for lsblk_dict in lsblk_json_dict['blockdevices']:
partition_longdevname = lsblk_dict['name']
print("Launching parted and sfdisk on " +
partition_longdevname)
try:
cmd_dict[("parted", partition_longdevname
)] = subprocess.Popen(
self._get_parted_cmd_list(
partition_longdevname),
env=env_C_locale,
encoding="utf-8",
universal_newlines=True)
cmd_dict[("sfdisk", partition_longdevname
)] = subprocess.Popen(
self._get_sfdisk_cmd_list(
partition_longdevname),
env=env_C_locale,
encoding="utf-8",
universal_newlines=True)
except Exception:
print("Could launch sfdisk or parted on " +
partition_longdevname)
elif key[0] == "blkid" and retcode == 0:
blkid_dict = Blkid.parse_blkid_output(
proc.stdout.read())
elif key[0] == "osprober" and retcode == 0:
os_prober_dict = OsProber.parse_os_prober_output(
proc.stdout.read())
elif key[
0] == "sfdisk" and retcode == 0 and proc.stdout is not None:
sfdisk_dict_dict[
key[1]] = Sfdisk.parse_sfdisk_dump_output(
proc.stdout.read())
elif key[
0] == "parted" and retcode == 0 and proc.stdout is not None:
if proc.stderr is not None:
stderr = proc.stderr.read()
print("parted with key " + key +
" had stderr " + stderr)
if "unrecognized disk label" not in stderr:
parted_dict_dict[
key[1]] = Parted.parse_parted_output(
proc.stdout.read())
else:
print(
"COULD NOT PROCESS process launched with key "
+ str(key) + " return code" + str(retcode))
if proc.stdout is not None:
print("stdout:" + proc.stdout.read())
if proc.stderr is not None:
print(" stderr:" + proc.stderr.read())
else: # No process is done, wait a bit and check again.
time.sleep(0.1)
continue
else:
raise Exception("Invalid drive query mode")
self.drive_state = CombinedDriveState.construct_combined_drive_state_dict(
lsblk_json_dict, blkid_dict, os_prober_dict, parted_dict_dict,
sfdisk_dict_dict)
pp = pprint.PrettyPrinter(indent=4)
pp.pprint(self.drive_state)
drive_query_end_time = datetime.now()
print("Drive query took: " +
str((drive_query_end_time - drive_query_start_time)))
GLib.idle_add(self.populate_drive_selection_table)