zfs-redact.8
ZFS-SEND(8) | System Manager's Manual | ZFS-SEND(8) |
NAME
zfs-send
—
Generate a send stream, which may be of a filesystem, and
may be incremental from a bookmark.
SYNOPSIS
zfs |
send [-DLPRbcehnpvw ]
[[-I |-i ]
snapshot] snapshot |
zfs |
send [-DLPRcenpvw ]
[-i
snapshot|bookmark]
filesystem|volume|snapshot |
zfs |
send --redact
redaction_bookmark
[-DLPcenpv ]
[ -i
snapshot|bookmark]
snapshot |
zfs |
send [-Penv ]
-t receive_resume_token |
zfs |
send [-Pnv ]
-S filesystem |
zfs |
redact snapshot
redaction_bookmark redaction_snapshot... |
DESCRIPTION
zfs
send
[-DLPRbcehnpvw
] [[-I
|-i
] snapshot] snapshot- Creates a stream representation of the second
snapshot, which is written to standard output. The
output can be redirected to a file or to a different system (for example,
using ssh(1)). By default, a full stream is generated.
-D,
--dedup
- Deduplicated send is no longer supported. This flag is accepted for backwards compatibility, but a regular, non-deduplicated stream will be generated.
-I
snapshot- Generate a stream package that sends all intermediary snapshots from
the first snapshot to the second snapshot. For example,
-I
@a fs@d is similar to-i
@a fs@b;-i
@b fs@c;-i
@c fs@d. The incremental source may be specified as with the-i
option. -L,
--large-block
- Generate a stream which may contain blocks larger than 128KB. This flag has no effect if the large_blocks pool feature is disabled, or if the recordsize property of this filesystem has never been set above 128KB. The receiving system must have the large_blocks pool feature enabled as well. See zpool-features(5) for details on ZFS feature flags and the large_blocks feature.
-P,
--parsable
- Print machine-parsable verbose information about the stream package generated.
-R,
--replicate
- Generate a replication stream package, which will replicate the
specified file system, and all descendent file systems, up to the
named snapshot. When received, all properties, snapshots, descendent
file systems, and clones are preserved.
If the
-i
or-I
flags are used in conjunction with the-R
flag, an incremental replication stream is generated. The current values of properties, and current snapshot and file system names are set when the stream is received. If the-F
flag is specified when this stream is received, snapshots and file systems that do not exist on the sending side are destroyed. If the-R
flag is used to send encrypted datasets, then-w
must also be specified. -e,
--embed
- Generate a more compact stream by using WRITE_EMBEDDED records for blocks which are stored more compactly on disk by the embedded_data pool feature. This flag has no effect if the embedded_data feature is disabled. The receiving system must have the embedded_data feature enabled. If the lz4_compress feature is active on the sending system, then the receiving system must have that feature enabled as well. Datasets that are sent with this flag may not be received as an encrypted dataset, since encrypted datasets cannot use the embedded_data feature. See zpool-features(5) for details on ZFS feature flags and the embedded_data feature.
-b,
--backup
- Sends only received property values whether or not they are overridden
by local settings, but only if the dataset has ever been received. Use
this option when you want
zfs
receive
to restore received properties backed up on the sent dataset and to avoid sending local settings that may have nothing to do with the source dataset, but only with how the data is backed up. -c,
--compressed
- Generate a more compact stream by using compressed WRITE records for
blocks which are compressed on disk and in memory (see the
compression property for details). If the
lz4_compress feature is active on the sending
system, then the receiving system must have that feature enabled as
well. If the large_blocks feature is enabled on the
sending system but the
-L
option is not supplied in conjunction with-c
, then the data will be decompressed before sending so it can be split into smaller block sizes. Streams sent with-c
will not have their data recompressed on the receiver side using-o
-compress=value.
The data will stay compressed as it was from the sender. The new compression property will be set for future data. -w,
--raw
- For encrypted datasets, send data exactly as it exists on disk. This
allows backups to be taken even if encryption keys are not currently
loaded. The backup may then be received on an untrusted machine since
that machine will not have the encryption keys to read the protected
data or alter it without being detected. Upon being received, the
dataset will have the same encryption keys as it did on the send side,
although the keylocation property will be defaulted
to prompt if not otherwise provided. For unencrypted
datasets, this flag will be equivalent to
-Lec
. Note that if you do not use this flag for sending encrypted datasets, data will be sent unencrypted and may be re-encrypted with a different encryption key on the receiving system, which will disable the ability to do a raw send to that system for incrementals. -h,
--holds
- Generate a stream package that includes any snapshot holds (created with the zfs hold command), and indicating to zfs receive that the holds be applied to the dataset on the receiving system.
-i
snapshot- Generate an incremental stream from the first
snapshot (the incremental source) to the second
snapshot (the incremental target). The
incremental source can be specified as the last component of the
snapshot name (the @ character and following) and it
is assumed to be from the same file system as the incremental target.
If the destination is a clone, the source may be the origin snapshot, which must be fully specified (for example, pool/fs@origin, not just @origin).
-n,
--dryrun
- Do a dry-run ("No-op") send. Do not generate any actual send
data. This is useful in conjunction with the
-v
or-P
flags to determine what data will be sent. In this case, the verbose output will be written to standard output (contrast with a non-dry-run, where the stream is written to standard output and the verbose output goes to standard error). -p,
--props
- Include the dataset's properties in the stream. This flag is implicit
when
-R
is specified. The receiving system must also support this feature. Sends of encrypted datasets must use-w
when using this flag. -v,
--verbose
- Print verbose information about the stream package generated. This
information includes a per-second report of how much data has been
sent.
The format of the stream is committed. You will be able to receive your streams on future versions of ZFS.
zfs
send
[-DLPRcenpvw
] [-i
snapshot|bookmark] filesystem|volume|snapshot- Generate a send stream, which may be of a filesystem, and may be
incremental from a bookmark. If the destination is a filesystem or volume,
the pool must be read-only, or the filesystem must not be mounted. When
the stream generated from a filesystem or volume is received, the default
snapshot name will be "--head--".
-L,
--large-block
- Generate a stream which may contain blocks larger than 128KB. This flag has no effect if the large_blocks pool feature is disabled, or if the recordsize property of this filesystem has never been set above 128KB. The receiving system must have the large_blocks pool feature enabled as well. See zpool-features(5) for details on ZFS feature flags and the large_blocks feature.
-P,
--parsable
- Print machine-parsable verbose information about the stream package generated.
-c,
--compressed
- Generate a more compact stream by using compressed WRITE records for
blocks which are compressed on disk and in memory (see the
compression property for details). If the
lz4_compress feature is active on the sending
system, then the receiving system must have that feature enabled as
well. If the large_blocks feature is enabled on the
sending system but the
-L
option is not supplied in conjunction with-c
, then the data will be decompressed before sending so it can be split into smaller block sizes. -w,
--raw
- For encrypted datasets, send data exactly as it exists on disk. This
allows backups to be taken even if encryption keys are not currently
loaded. The backup may then be received on an untrusted machine since
that machine will not have the encryption keys to read the protected
data or alter it without being detected. Upon being received, the
dataset will have the same encryption keys as it did on the send side,
although the keylocation property will be defaulted
to prompt if not otherwise provided. For unencrypted
datasets, this flag will be equivalent to
-Lec
. Note that if you do not use this flag for sending encrypted datasets, data will be sent unencrypted and may be re-encrypted with a different encryption key on the receiving system, which will disable the ability to do a raw send to that system for incrementals. -e,
--embed
- Generate a more compact stream by using WRITE_EMBEDDED records for blocks which are stored more compactly on disk by the embedded_data pool feature. This flag has no effect if the embedded_data feature is disabled. The receiving system must have the embedded_data feature enabled. If the lz4_compress feature is active on the sending system, then the receiving system must have that feature enabled as well. Datasets that are sent with this flag may not be received as an encrypted dataset, since encrypted datasets cannot use the embedded_data feature. See zpool-features(5) for details on ZFS feature flags and the embedded_data feature.
-i
snapshot|bookmark- Generate an incremental send stream. The incremental source must be an
earlier snapshot in the destination's history. It will commonly be an
earlier snapshot in the destination's file system, in which case it
can be specified as the last component of the name (the
# or
@ character and following).
If the incremental target is a clone, the incremental source can be the origin snapshot, or an earlier snapshot in the origin's filesystem, or the origin's origin, etc.
-n,
--dryrun
- Do a dry-run ("No-op") send. Do not generate any actual send
data. This is useful in conjunction with the
-v
or-P
flags to determine what data will be sent. In this case, the verbose output will be written to standard output (contrast with a non-dry-run, where the stream is written to standard output and the verbose output goes to standard error). -v,
--verbose
- Print verbose information about the stream package generated. This information includes a per-second report of how much data has been sent.
zfs
send
--redact
redaction_bookmark [-DLPcenpv
]
[-i
snapshot|bookmark] snapshot- Generate a redacted send stream. This send stream contains all blocks from
the snapshot being sent that aren't included in the redaction list
contained in the bookmark specified by the
--redact
(or--d
) flag. The resulting send stream is said to be redacted with respect to the snapshots the bookmark specified by the--redact
flag was created with. The bookmark must have been created by running zfs redact on the snapshot being sent.This feature can be used to allow clones of a filesystem to be made available on a remote system, in the case where their parent need not (or needs to not) be usable. For example, if a filesystem contains sensitive data, and it has clones where that sensitive data has been secured or replaced with dummy data, redacted sends can be used to replicate the secured data without replicating the original sensitive data, while still sharing all possible blocks. A snapshot that has been redacted with respect to a set of snapshots will contain all blocks referenced by at least one snapshot in the set, but will contain none of the blocks referenced by none of the snapshots in the set. In other words, if all snapshots in the set have modified a given block in the parent, that block will not be sent; but if one or more snapshots have not modified a block in the parent, they will still reference the parent's block, so that block will be sent. Note that only user data will be redacted.
When the redacted send stream is received, we will generate a redacted snapshot. Due to the nature of redaction, a redacted dataset can only be used in the following ways:
1. To receive, as a clone, an incremental send from the original snapshot to one of the snapshots it was redacted with respect to. In this case, the stream will produce a valid dataset when received because all blocks that were redacted in the parent are guaranteed to be present in the child's send stream. This use case will produce a normal snapshot, which can be used just like other snapshots.
2. To receive an incremental send from the original snapshot to something redacted with respect to a subset of the set of snapshots the initial snapshot was redacted with respect to. In this case, each block that was redacted in the original is still redacted (redacting with respect to additional snapshots causes less data to be redacted (because the snapshots define what is permitted, and everything else is redacted)). This use case will produce a new redacted snapshot.
3. To receive an incremental send from a redaction bookmark of the original snapshot that was created when redacting with respect to a subset of the set of snapshots the initial snapshot was created with respect to anything else. A send stream from such a redaction bookmark will contain all of the blocks necessary to fill in any redacted data, should it be needed, because the sending system is aware of what blocks were originally redacted. This will either produce a normal snapshot or a redacted one, depending on whether the new send stream is redacted.
4. To receive an incremental send from a redacted version of the initial snapshot that is redacted with respect to a subject of the set of snapshots the initial snapshot was created with respect to. A send stream from a compatible redacted dataset will contain all of the blocks necessary to fill in any redacted data. This will either produce a normal snapshot or a redacted one, depending on whether the new send stream is redacted.
5. To receive a full send as a clone of the redacted snapshot. Since the stream is a full send, it definitionally contains all the data needed to create a new dataset. This use case will either produce a normal snapshot or a redacted one, depending on whether the full send stream was redacted.
These restrictions are detected and enforced by zfs receive; a redacted send stream will contain the list of snapshots that the stream is redacted with respect to. These are stored with the redacted snapshot, and are used to detect and correctly handle the cases above. Note that for technical reasons, raw sends and redacted sends cannot be combined at this time.
zfs
send
[-Penv
]-t
receive_resume_token- Creates a send stream which resumes an interrupted receive. The receive_resume_token is the value of this property on the filesystem or volume that was being received into. See the documentation for zfs receive -s for more details.
zfs
send
[-Pnv
] [-i
snapshot|bookmark]-S
filesystem- Generate a send stream from a dataset that has been partially received.
-S,
--saved
- This flag requires that the specified filesystem previously received a resumable send that did not finish and was interrupted. In such scenarios this flag enables the user to send this partially received state. Using this flag will always use the last fully received snapshot as the incremental source if it exists.
zfs
redact
snapshot redaction_bookmark redaction_snapshot...- Generate a new redaction bookmark. In addition to the typical bookmark information, a redaction bookmark contains the list of redacted blocks and the list of redaction snapshots specified. The redacted blocks are blocks in the snapshot which are not referenced by any of the redaction snapshots. These blocks are found by iterating over the metadata in each redaction snapshot to determine what has been changed since the target snapshot. Redaction is designed to support redacted zfs sends; see the entry for zfs send for more information on the purpose of this operation. If a redact operation fails partway through (due to an error or a system failure), the redaction can be resumed by rerunning the same command.
Redaction
ZFS has support for a limited version of data subsetting, in the form of redaction. Using the zfs redact command, a redaction bookmark can be created that stores a list of blocks containing sensitive information. When provided to zfs send, this causes a redacted send to occur. Redacted sends omit the blocks containing sensitive information, replacing them with REDACT records. When these send streams are received, a redacted dataset is created. A redacted dataset cannot be mounted by default, since it is incomplete. It can be used to receive other send streams. In this way datasets can be used for data backup and replication, with all the benefits that zfs send and receive have to offer, while protecting sensitive information from being stored on less-trusted machines or services.
For the purposes of redaction, there are two steps to the process. A redact step, and a send/receive step. First, a redaction bookmark is created. This is done by providing the zfs redact command with a parent snapshot, a bookmark to be created, and a number of redaction snapshots. These redaction snapshots must be descendants of the parent snapshot, and they should modify data that is considered sensitive in some way. Any blocks of data modified by all of the redaction snapshots will be listed in the redaction bookmark, because it represents the truly sensitive information. When it comes to the send step, the send process will not send the blocks listed in the redaction bookmark, instead replacing them with REDACT records. When received on the target system, this will create a redacted dataset, missing the data that corresponds to the blocks in the redaction bookmark on the sending system. The incremental send streams from the original parent to the redaction snapshots can then also be received on the target system, and this will produce a complete snapshot that can be used normally. Incrementals from one snapshot on the parent filesystem and another can also be done by sending from the redaction bookmark, rather than the snapshots themselves.
In order to make the purpose of the feature more clear, an example is provided. Consider a zfs filesystem containing four files. These files represent information for an online shopping service. One file contains a list of usernames and passwords, another contains purchase histories, a third contains click tracking data, and a fourth contains user preferences. The owner of this data wants to make it available for their development teams to test against, and their market research teams to do analysis on. The development teams need information about user preferences and the click tracking data, while the market research teams need information about purchase histories and user preferences. Neither needs access to the usernames and passwords. However, because all of this data is stored in one ZFS filesystem, it must all be sent and received together. In addition, the owner of the data wants to take advantage of features like compression, checksumming, and snapshots, so they do want to continue to use ZFS to store and transmit their data. Redaction can help them do so. First, they would make two clones of a snapshot of the data on the source. In one clone, they create the setup they want their market research team to see; they delete the usernames and passwords file, and overwrite the click tracking data with dummy information. In another, they create the setup they want the development teams to see, by replacing the passwords with fake information and replacing the purchase histories with randomly generated ones. They would then create a redaction bookmark on the parent snapshot, using snapshots on the two clones as redaction snapshots. The parent can then be sent, redacted, to the target server where the research and development teams have access. Finally, incremental sends from the parent snapshot to each of the clones can be send to and received on the target server; these snapshots are identical to the ones on the source, and are ready to be used, while the parent snapshot on the target contains none of the username and password data present on the source, because it was removed by the redacted send operation.
SEE ALSO
zfs-bookmark(8), zfs-receive(8), zfs-redact(8), zfs-snapshot(8)
June 30, 2019 | Debian |