must-gather-clean
can be used for obfuscating and omitting sensitive data from must-gathers.
must-gather-clean
is designed to be fast and extensible, yet simple to use. It has the following key features:
- Obfuscation for many common types of confidential information, for example IPs, MACs, DNS
- Granular control over what files should be shared
- Replace confidential information consistently to preserve debuggability
- Ability to parse and understand Kubernetes and OpenShift resources
- Concise and feature rich tool configuration
- Comprehensive reporting and reproducible obfuscation
- Community supported, contributions are welcome
You can download the latest version of must-gather-clean
from the GitHub Release page. We currently support Linux and Mac (ADM64+ARM64) and Windows.
Unpack the binary that you downloaded, for Linux the tar file can be extracted with:
$ tar xzf must-gather-clean-linux-amd64.tar.gz
Optionally, you can validate against the checksum file found on the release page, here using the linux binary:
$ echo "$(<SHA256_SUM) must-gather-clean" | sha256sum --check
On Linux, you can add the binary to the path with:
$ chmod +x must-gather-clean
$ sudo mv ./must-gather-clean /usr/local/bin/must-gather-clean
Then you should be able to run:
$ must-gather-clean version
Building this tool requires Golang 1.16 or later and GNU make
.
- Clone the repository
$ git clone https://github.com/openshift/must-gather-clean
$ cd must-gather-clean
- Run make to build the tool
$ make
- Check the build version to verify it was built properly
$ ./must-gather-clean version
must-gather-clean
should be pointed to the root folder of an already generated must-gather.
Provided a must-gather generated by the command:
$ oc adm must-gather --dest-dir=must-gather-output
Then cleaning can be done by running:
$ must-gather-clean -c config.yaml -i must-gather-output -o must-gather-output-cleaned
The cleaned must-gather can then be found in the must-gather-output-cleaned
folder, indicated by the -o
argument.
The configuration passed via -c
is explained in the below Configuration section.
By default, the tool runs using multiple threads and is designed to utilize the whole CPU. The number of threads can be adjusted any time with the -w
argument, defaulting to the number of CPU cores available on the host.
The tool also supports piping content on your shell:
$ echo "some ip 192.168.2.1" | must-gather-clean
some ip x-ipv4-0000000001-x
By default, this will obfuscate IPs and MAC addresses. You can still pass configuration options as explained in the below Configuration section to further define what needs to be obfuscated. Omissions are not supported when supplying content by pipes.
A very basic default configuration you can supply as the above -c
flag for OpenShift can be found
under examples/openshift_default.yaml. If you want to obfuscate your domain names (for example DNS entries), then you have to adjust the list of domainNames
to include yours.
In case you don't need to share networking or SDN information in the must-gather, you can run the configuration under examples/openshift_omit_network.yaml. This will ignore the largest log files that also take a long time to obfuscate.
In general the schema consists of two major sections:
The omission section is used to define the omission behaviour, so to define what files to include and what not. The obfuscation section is then used to determine, on each of the included files, what content to replace (detection) and how (replacement).
The different types are explained along examples below. The whole schema itself is defined in JSON schema and can be found in schema.json with more examples and documentation for each property. A more browsable alternative can be found on json-schema.app.
You can define obfuscators as a list of "types", usually customized by a couple of parameters. The obfuscators will then be applied to each non-omitted file and on a line-by-line basis in case of text files.
The following obfuscation types are supported:
A minimal working example with MAC address obfuscation can be defined as following:
config:
obfuscate:
- type: MAC
This configuration applied on a must-gather
folder will detect all MAC addresses recursively in all the files.
Since obfuscation is about replacing the found information, the above will simply replace the found MAC address with xx:xx:xx:xx:xx:xx
. We call this a Static
replacement, which is the default for all types of obfuscators.
There is another type of replacement called Consistent
, that can be configured like this:
config:
obfuscate:
- type: MAC
replacementType: Consistent
This will detect all MAC addresses and replace them with a "consistent" identifier that looks like this xxx-mac-000001-xxx
.
For example, one of your network interfaces has the mac address 52:54:00:5e:ee:c6
and was logged, then must-gather-clean
will guarantee that it will always be assigned the same obfuscated consistent identifier across all files in a must-gather.
That primarily helps our support and engineers to ensure we can still understand and reproduce challenges that you were facing without putting your classified information at risk.
Another obfuscation type named IP
can be used to clean IP addresses, we support both IPv4 and IPv6 except for the usual local interfaces (127.0.0.1
, 0.0.0.0
and ::1
) that will always be preserved.
You can configure this along with the MAC obfuscator like this:
config:
obfuscate:
- type: MAC
replacementType: Consistent
- type: IP
replacementType: Consistent
On a line-by-line basis, this will always execute the MAC obfuscation first and then the IP obfuscator - we'll go through this behaviour in more detail in the following Chaining obfuscators and side effects section.
Another configuration flag that we support for each obfuscation type is the target
. The target is useful when the confidential information can be found not only in the file content, but also in the folder or file names.
This can very frequently happen with IP addresses, for example, through node names. You can control that independently for each type as following:
config:
obfuscate:
- type: MAC
replacementType: Consistent
target: FileContents
- type: IP
replacementType: Consistent
target: FilePath
The MAC obfuscator would work on file content whereas the IP obfuscator would work only on FilePaths. There is a mixed target called All
, that will obfuscate on both paths and contents.
The default if no target is specified is FileContents
. It is, thus, always recommended to use the IP obfuscator with target: All
to not accidentally leak IP information through folder names.
The third built-in type of obfuscation is Domain
, let's take a look how this can be configured:
config:
obfuscate:
- type: Domain
domainNames:
- "rhcloud.com"
- "dev.rhcloud.com"
As you can see, this type must be customized by supplying domain names. Kubernetes resources are defined along with their domain names (for example "apps.openshift.io/v1") and thus would be automatically recognized as such and obfuscated as a false-positive. We thus kindly ask the user to supply their confidential domain names manually through the configuration.
The above definition will obfuscate rhcloud.com
as domain0000001
(consistent) or as obfuscated.com
(static).
Note that this does not include subdomains, they would need to be separately obfuscated.
A domain name defined as staging.rhcloud.com
would only be obfuscated as staging.domain0000001
, thus, you should include all subdomains you want to have obfuscated (for example dev.rhcloud.com
) in the list as well. The tool will sort them based on their specificity, so the most specific domain name will always be obfuscated first, for example dev.rhcloud.com
will always come before rhcloud.com
- irrespective of the order of definition.
Aside from the above three built-in types to obfuscate, we also offer custom obfuscators that allow users to fine-tune the replacement of certain strings. This can be useful for custom auth token formats, confidential domain knowledge or keyword and can be customized through those two types:
config:
obfuscate:
- type: Keywords
replacement:
hello: bye
tomorrow: yesterday
This configuration will simply replace the strings on the left-hand side with the values on the right-hand side.
The target
variable here is supported as well, so you can also target specific files and obfuscate their name, for example:
config:
obfuscate:
- type: Keywords
target: FilePath
replacement:
namespaces: virtual-cluster
which would replace the ubiquitous "namespaces" folder to be called "virtual-cluster".
FilePath obfuscation works on the whole path (including the file name), so you can even obfuscate multi-level folder structures like this:
config:
obfuscate:
- type: Keywords
target: FilePath
replacement:
namespaces/kube-system/apps: virtual-cluster/apps
which would condense the namespaces/kube-system/apps
folder to become virtual-cluster/apps
and all of its files would be under that new folder.
Since the replacement is already supplied, configuring the replacementType
will have no effect.
Another common approach to detect strings by their format is using regular expressions. Internally this uses the Golang regexp package if you need further details on how to express a pattern.
Let's take a brief example on both FilePath and FileContents:
config:
obfuscate:
- type: Regex
target: FilePath
regex: "release-4\..*\/ingress_controllers\/.*\/haproxy.*"
- type: Regex
target: FileContents
regex: ".*ssl-min-ver TLSv1.2$"
The first regex would match a path like: release-4.1/ingress_controllers/something/haproxy.log
and would x
out the whole path.
The resulting filename would literally be: xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
, thus there is very little practical use for using the regex like that.
This however, is much more useful in the second example where we want to obfuscate that we were using TLSv1.2 as the min version - which would also be replaced as xxxxxxxxxxxxxxxxxxxxxxx
.
There is currently no support for consistent replacement as in the built-in types, there is a feature upcoming for capture groups and individual replacements thereof.
As seen above, obfuscators can be chained and are guaranteed to be executed in order of definition on a line of text. This can cause some interesting side effects you should be aware of. Let's take the following contrived example to illustrate:
config:
obfuscate:
- type: Keywords
replacement:
a: b
- type: Keywords
replacement:
b: 192.168.2.1
- type: IP
replacementType: Static
Running the above obfuscation on the string a wonderful evening to go dancing
would yield the following result:
xxx.xxx.xxx.xxx wonderful evening to go dxxx.xxx.xxx.xxxncing
, which might be counter-intuitive.
So what happened here? First off, we would replace all a
with a b
, that b
in turn would be replaced with 192.168.2.1
that later matches as an IPv4 and gets obfuscated in a static manner.
You can ensure that this does not happen, by providing custom obfuscators at the very bottom of the definition, preferably after all built-ins, and by ensuring you match on very specific terms (for example by supplying word boundaries in regular expressions).
To ensure certain files will never be shared, must-gather-clean helps you to omit files. There is support for these types of files:
File patterns can be useful to omit certain folders and files by their path. The paths are always relative to the root of the must-gather that was supplied by the "-i" flag.
config:
omit:
- type: File
pattern: "*/namespaces/openshift-sdn/pods/*/*/*/logs/*.log"
This example illustrates how the globbing of the path works, you need to supply the respective folder structure down to the specific files you want to omit. A simple *.log
will not suffice to omit all files matching the log extension in the must-gather.
The rationale here is to be explicit about what is being omitted to later avoid chasing the accidentally missing files.
For more information about the supported syntax refer to the documentation on filepath.Match that powers this feature.
Most of the very confidential information, for example authentication tokens and certificates, are stored in Kubernetes resources and its yaml representation. We added the ability to omit those resources by their familiar Kubernetes resource identifiers.
You can configure to omit all secrets by its kind as follows:
config:
omit:
- type: Kubernetes
kubernetesResource:
kind: "Secret"
which will, irrespectively of its API version and namespace, omit all Secrets that are defined in the must-gather. kind
must always be supplied as a mandatory parameter.
To supply one or many namespaces, you can supply a list as follows:
config:
omit:
- type: Kubernetes
kubernetesResource:
kind: "Secret"
namespaces: ["kube-system", "default"]
which will omit only the secrets in the defined namespaces.
Since those resources are usually versioned and fenced off by their own naming schema, you can supply an API version that must be omitted:
config:
omit:
- type: Kubernetes
kubernetesResource:
kind: CertificateSigningRequest
apiVersion: certificates.k8s.io/v1
namespaces: ["kube-system"]
Sometimes a custom must-gather image can create a symbolic link that might not be referencing an available file anymore. This tool would give you an error message similar to:
F1006 HH:MM:SS.MS 1062736 traversal.go:43] failed to process etc/grub.d/15_ostree due to open etc/grub.d/15_ostree: no such file or directory
In such scenarios, it makes sense to completely omit all symbolic links. The configuration for this behaviour looks as follows and takes no additional configuration options:
config:
omit:
- type: SymbolicLink
Similar to obfuscators, you can also chain the omitters. The guarantee is that each omission type will be called for each file path in order of their definition. The first omitter to match a file path is used as the final decision, subsequently defined omitters will be skipped. To have optimal performance, it is important that the most selective omitters should be defined first, the most specific at the bottom.
At the end of every cleaning a report.yaml
will be written to the current working directory. A different folder for the report can be configured by supplying the -r
argument.
The report contains a section about the replacements:
replacements:
- - canonical: 10.0.187.218
replacedWith: x-ipv4-0000000001-x
occurrences:
- original: 10-0-187-218
count: 12429
- original: 10.0.187.218
count: 7855
...
- - canonical: 0E:A0:E7:92:3A:A3
replacedWith: x-mac-0000000001-x
occurrences:
- original: 0e:a0:e7:92:3a:a3
count: 1
...
Each replacement comes with a canonicalized version of a detected text. In the above example report you see that the IP address 10.0.187.218
was replaced with x-ipv4-0000000001-x
much more often formatted as 10-0-187-218
- 12429 over 7855 times. Omissions are also included in the report, those will report a listing of all files that have been omitted from the output.
Please ensure to not share the report as this allows to relate the original confidential data with their obfuscated replacements.
To reproduce runs of an already done cleaning process, you can reuse the report as a configuration. At the bottom of each report, you'll also find the initial configuration used to clean along with the reported replacements:
config:
obfuscate:
- replacement:
10-0-187-218: x-ipv4-0000000001-x
10.0.187.218: x-ipv4-0000000001-x
...
replacementType: Consistent
target: All
type: IP
- replacement:
0a:60:54:e4:52:a5: x-mac-0000000003-x
0a:fd:78:19:88:d7: x-mac-0000000002-x
0e:a0:e7:92:3a:a3: x-mac-0000000001-x
replacementType: Consistent
target: All
type: MAC
- domainNames:
- rhcloud.com
- dev.rhcloud.com
replacement:
aws.dev.rhcloud.com: domain0000000001
replacementType: Consistent
target: All
type: Domain
This allows to reproduce a run completely by passing the report.yaml
back as a configuration:
$ must-gather-clean -c report.yaml -i must-gather-output -o must-gather-output-cleaned
The resulting cleaned must-gather is replaced exactly as in the previous run that created the report.
This project is a community supported open source project under the OpenShift umbrella. We're a small cross-functional team that initially built this tool and want to foster a community around it.
Contributions to the code and documentation are always welcome and will be reviewed in due time by a member of our team. For larger changes, we would appreciate starting a discussion in an Github Issue before.
You can find more information in CONTRIB.
Before filing a bug report, ensure the bug hasn't already been reported by searching through the project Issues.
Please choose the Bug Report
template when creating an issue and fill the required sections in the template - this helps us to triage the issue get it fixed faster.