The GitRepository
API defines a Source to produce an Artifact for a Git
repository revision.
The following is an example of a GitRepository. It creates a tarball
(.tar.gz
) Artifact with the fetched data from a Git repository for the
resolved reference.
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: podinfo
namespace: default
spec:
interval: 5m0s
url: https://github.com/stefanprodan/podinfo
ref:
branch: master
In the above example:
- A GitRepository named
podinfo
is created, indicated by the.metadata.name
field. - The source-controller checks the Git repository every five minutes, indicated
by the
.spec.interval
field. - It clones the
master
branch of thehttps://github.com/stefanprodan/podinfo
repository, indicated by the.spec.ref.branch
and.spec.url
fields. - The specified branch and resolved HEAD revision are used as the Artifact
revision, reported in-cluster in the
.status.artifact.revision
field. - When the current GitRepository revision differs from the latest fetched revision, a new Artifact is archived.
- The new Artifact is reported in the
.status.artifact
field.
You can run this example by saving the manifest into gitrepository.yaml
.
-
Apply the resource on the cluster:
kubectl apply -f gitrepository.yaml
-
Run
kubectl get gitrepository
to see the GitRepository:NAME URL AGE READY STATUS podinfo https://github.com/stefanprodan/podinfo 5s True stored artifact for revision 'master@sha1:132f4e719209eb10b9485302f8593fc0e680f4fc'
-
Run
kubectl describe gitrepository podinfo
to see the Artifact and Conditions in the GitRepository's Status:... Status: Artifact: Digest: sha256:95e386f421272710c4cedbbd8607dbbaa019d500e7a5a0b6720bc7bebefc7bf2 Last Update Time: 2022-02-14T11:23:36Z Path: gitrepository/default/podinfo/132f4e719209eb10b9485302f8593fc0e680f4fc.tar.gz Revision: master@sha1:132f4e719209eb10b9485302f8593fc0e680f4fc Size: 91318 URL: http://source-controller.source-system.svc.cluster.local./gitrepository/default/podinfo/132f4e719209eb10b9485302f8593fc0e680f4fc.tar.gz Conditions: Last Transition Time: 2022-02-14T11:23:36Z Message: stored artifact for revision 'master@sha1:132f4e719209eb10b9485302f8593fc0e680f4fc' Observed Generation: 1 Reason: Succeeded Status: True Type: Ready Last Transition Time: 2022-02-14T11:23:36Z Message: stored artifact for revision 'master@sha1:132f4e719209eb10b9485302f8593fc0e680f4fc' Observed Generation: 1 Reason: Succeeded Status: True Type: ArtifactInStorage Observed Generation: 1 Events: Type Reason Age From Message ---- ------ ---- ---- ------- Normal NewArtifact 62s source-controller stored artifact for commit 'Merge pull request #160 from stefanprodan/release-6.0.3'
As with all other Kubernetes config, a GitRepository needs apiVersion
,
kind
, and metadata
fields. The name of a GitRepository object must be a
valid DNS subdomain name.
A GitRepository also needs a
.spec
section.
.spec.url
is a required field that specifies the HTTP/S or SSH address of the
Git repository.
Note: Unlike using git
, the
shorter scp-like syntax
is not supported for SSH addresses (e.g. [email protected]:repository.git
).
Instead, the valid URL format is ssh://[email protected]:22/repository.git
.
.spec.secretRef.name
is an optional field to specify a name reference to a
Secret in the same namespace as the GitRepository, containing authentication
credentials for the Git repository.
The required fields in the Secret depend on the specified protocol in the URL.
To authenticate towards a Git repository over HTTPS using basic access
authentication (in other words: using a username and password), the referenced
Secret is expected to contain .data.username
and .data.password
values.
---
apiVersion: v1
kind: Secret
metadata:
name: basic-access-auth
type: Opaque
data:
username: <BASE64>
password: <BASE64>
To authenticate towards a Git repository over HTTPS using bearer token
authentication (in other words: using a Authorization: Bearer
header), the referenced
Secret is expected to contain the token in .data.bearerToken
.
Note: If you are looking to use OAuth tokens with popular servers (e.g. GitHub, Bitbucket, GitLab), you should use basic access authentication instead. These servers use basic HTTP authentication, with the OAuth token as the password. Check the documentation of your Git server for details.
---
apiVersion: v1
kind: Secret
metadata:
name: bearer-token-auth
type: Opaque
data:
bearerToken: <BASE64>
To provide a Certificate Authority to trust while connecting with a Git
repository over HTTPS, the referenced Secret's .data
can contain a ca.crt
or caFile
key. ca.crt
takes precedence over caFile
, i.e. if both keys
are present, the value of ca.crt
will be taken into consideration.
---
apiVersion: v1
kind: Secret
metadata:
name: https-ca-credentials
namespace: default
type: Opaque
data:
ca.crt: <BASE64>
To authenticate towards a Git repository over SSH, the referenced Secret is
expected to contain identity
and known_hosts
fields. With the respective
private key of the SSH key pair, and the host keys of the Git repository.
---
apiVersion: v1
kind: Secret
metadata:
name: ssh-credentials
type: Opaque
stringData:
identity: |
-----BEGIN OPENSSH PRIVATE KEY-----
...
-----END OPENSSH PRIVATE KEY-----
known_hosts: |
github.com ecdsa-sha2-nistp256 AAAA...
Alternatively, the Flux CLI can be used to automatically create the secret, and also populate the known_hosts:
flux create secret git podinfo-auth \
--url=ssh://[email protected]/stefanprodan/podinfo \
--private-key-file=./identity
For password-protected SSH private keys, the password must be provided
via an additional password
field in the secret. Flux CLI also supports
this via the --password
flag.
.spec.interval
is a required field that specifies the interval at which the
Git repository must be fetched.
After successfully reconciling the object, the source-controller requeues it
for inspection after the specified interval. The value must be in a
Go recognized duration string format,
e.g. 10m0s
to reconcile the object every 10 minutes.
If the .metadata.generation
of a resource changes (due to e.g. a change to
the spec), this is handled instantly outside the interval window.
Note: The controller can be configured to apply a jitter to the interval in order to distribute the load more evenly when multiple GitRepository objects are set up with the same interval. For more information, please refer to the source-controller configuration options.
.spec.timeout
is an optional field to specify a timeout for Git operations
like cloning. The value must be in a
Go recognized duration string format,
e.g. 1m30s
for a timeout of one minute and thirty seconds. The default value
is 60s
.
.spec.ref
is an optional field to specify the Git reference to resolve and
watch for changes. References are specified in one or more subfields
(.branch
, .tag
, .semver
, .name
, .commit
), with latter listed fields taking
precedence over earlier ones. If not specified, it defaults to a master
branch reference.
To Git checkout a specified branch, use .spec.ref.branch
:
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: <repository-name>
spec:
ref:
branch: <branch-name>
This will perform a shallow clone to only fetch the specified branch.
To Git checkout a specified tag, use .spec.ref.tag
:
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: <repository-name>
spec:
ref:
tag: <tag-name>
This field takes precedence over .branch
.
To Git checkout a tag based on a
SemVer range,
use .spec.ref.semver
:
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: <repository-name>
spec:
ref:
# SemVer range reference: https://github.com/Masterminds/semver#checking-version-constraints
semver: "<semver-range>"
This field takes precedence over .branch
and
.tag
.
To Git checkout a specified reference,
use .spec.ref.name
:
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: <repository-name>
spec:
ref:
# Ref name format reference: https://git-scm.com/docs/git-check-ref-format#_description
name: <reference-name>
Valid examples are: refs/heads/main
, refs/tags/v0.1.0
, refs/pull/420/head
,
refs/merge-requests/1/head
.
This field takes precedence over .branch
,
.tag
, and .semver
.
Note: Azure DevOps and AWS CodeCommit do not support fetching the HEAD of
a pull request. While Azure DevOps allows you to fetch the merge commit that
will be created after merging a PR (using refs/pull/<id>/merge
), this field
can only be used to fetch references that exist in the current state of the Git
repository and not references that will be created in the future.
To Git checkout a specified commit, use .spec.ref.commit
:
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: <repository-name>
spec:
ref:
commit: "<commit SHA>"
This field takes precedence over all other fields. It can be combined with
.spec.ref.branch
to perform a shallow clone of the branch, in which the
commit must exist:
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: <repository-name>
spec:
ref:
branch: <branch>
commit: "<commit SHA within branch>"
.spec.verify
is an optional field to enable the verification of Git commit
signatures. The field offers two subfields:
-
.mode
, to specify what Git object(s) should be verified. Supported values are:HEAD
: Verifies the commit object pointed to by the HEAD of the repository after performing a checkout via.spec.ref
.head
: Same asHEAD
, supported for backwards compatibility purposes.Tag
: Verifies the tag object pointed to by the specified/inferred tag reference in.spec.ref.tag
,.spec.ref.semver
or.spec.ref.name
.TagAndHEAD
: Verifies the tag object pointed to by the specified/inferred tag reference in.spec.ref.tag
,.spec.ref.semver
or.spec.ref.name
and the commit object pointed to by the tag.
-
.secretRef.name
, to specify a reference to a Secret in the same namespace as the GitRepository. Containing the (PGP) public keys of trusted Git authors.
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: podinfo
namespace: default
spec:
interval: 1m
url: https://github.com/stefanprodan/podinfo
ref:
branch: master
verify:
mode: HEAD
secretRef:
name: pgp-public-keys
When the verification succeeds, the controller adds a Condition with the
following attributes to the GitRepository's .status.conditions
:
type: SourceVerifiedCondition
status: "True"
reason: Succeeded
---
apiVersion: v1
kind: Secret
metadata:
name: pgp-public-keys
namespace: default
type: Opaque
data:
author1.asc: <BASE64>
author2.asc: <BASE64>
Exporting armored public keys (.asc
files) using gpg
, and generating a
Secret:
# Export armored public keys
gpg --export --armor 3CB12BA185C47B67 > author1.asc
gpg --export --armor 6A7436E8790F8689 > author2.asc
# Generate secret
kubectl create secret generic pgp-public-keys \
--from-file=author1.asc \
--from-file=author2.asc \
-o yaml
.spec.ignore
is an optional field to specify rules in the .gitignore
pattern format. Paths
matching the defined rules are excluded while archiving.
When specified, .spec.ignore
overrides the default exclusion
list, and may overrule the .sourceignore
file
exclusions. See excluding files
for more information.
.spec.suspend
is an optional field to suspend the reconciliation of a
GitRepository. When set to true
, the controller will stop reconciling the
GitRepository, and changes to the resource or in the Git repository will not
result in a new Artifact. When the field is set to false
or removed, it will
resume.
.spec.proxySecretRef.name
is an optional field used to specify the name of a
Secret that contains the proxy settings for the object. These settings are used
for all remote Git operations related to the GitRepository.
The Secret can contain three keys:
address
, to specify the address of the proxy server. This is a required key.username
, to specify the username to use if the proxy server is protected by basic authentication. This is an optional key.password
, to specify the password to use if the proxy server is protected by basic authentication. This is an optional key.
The proxy server must be either HTTP/S or SOCKS5. You can use a SOCKS5 proxy with a HTTP/S Git repository url.
Examples:
---
apiVersion: v1
kind: Secret
metadata:
name: http-proxy
type: Opaque
stringData:
address: http://proxy.com
username: mandalorian
password: grogu
---
apiVersion: v1
kind: Secret
metadata:
name: ssh-proxy
type: Opaque
stringData:
address: socks5://proxy.com
username: mandalorian
password: grogu
Proxying can also be configured in the source-controller Deployment directly by
using the standard environment variables such as HTTPS_PROXY
, ALL_PROXY
, etc.
.spec.proxySecretRef.name
takes precedence over all environment variables.
.spec.recurseSubmodules
is an optional field to enable the initialization of
all submodules within the cloned Git repository, using their default settings.
This option defaults to false
.
Note that for most Git providers (e.g. GitHub and GitLab), deploy keys can not be used as reusing a key across multiple repositories is not allowed. You have to use either HTTPS token-based authentication, or an SSH key belonging to a (bot) user who has access to the main repository and all submodules.
.spec.include
is an optional field to map the contents of GitRepository
Artifacts into another. This may look identical to Git submodules but has
multiple benefits over regular submodules:
- Including a
GitRepository
allows you to use different authentication methods for different repositories. - A change in the included repository will trigger an update of the including repository.
- Multiple
GitRepository
objects could include the same repository, which decreases the amount of cloning done compared to using submodules.
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: include-example
spec:
include:
- repository:
name: other-repository
fromPath: deploy/kubernetes
toPath: base/app
The .fromPath
and .toPath
fields allow you to limit the files included, and
where they will be copied to. If you do not specify a value for .fromPath
,
all files from the referenced GitRepository Artifact will be included. The
.toPath
defaults to the .repository.name
(e.g. ./other-repository/*
).
By default, files which match the default exclusion rules are excluded while archiving the Git repository contents as an Artifact. It is possible to overwrite and/or overrule the default exclusions using a file in the Git repository and/or an in-spec set of rules.
Excluding files is possible by adding a .sourceignore
file in the Git
repository. The .sourceignore
file follows the .gitignore
pattern
format, and
pattern entries may overrule default exclusions.
The controller recursively loads ignore files so a .sourceignore
can be
placed in the repository root or in subdirectories.
Another option is to define the exclusions within the GitRepository spec, using
the .spec.ignore
field. Specified rules override the default
exclusion list, and may overrule .sourceignore
file
exclusions.
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: <repository-name>
spec:
ignore: |
# exclude all
/*
# include deploy dir
!/deploy
# exclude file extensions from deploy dir
/deploy/**/*.md
/deploy/**/*.txt
To manually tell the source-controller to reconcile a GitRepository outside the
specified interval window, a GitRepository can be annotated with
reconcile.fluxcd.io/requestedAt: <arbitrary value>
. Annotating the resource
queues the GitRepository for reconciliation if the <arbitrary-value>
differs
from the last value the controller acted on, as reported in
.status.lastHandledReconcileAt
.
Using kubectl
:
kubectl annotate --field-manager=flux-client-side-apply --overwrite gitrepository/<repository-name> reconcile.fluxcd.io/requestedAt="$(date +%s)"
Using flux
:
flux reconcile source git <repository-name>
When a change is applied, it is possible to wait for the GitRepository to reach
a ready state using kubectl
:
kubectl wait gitrepository/<repository-name> --for=condition=ready --timeout=1m
When you find yourself in a situation where you temporarily want to pause the
reconciliation of a GitRepository, you can suspend it using the
.spec.suspend
field.
In your YAML declaration:
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: <repository-name>
spec:
suspend: true
Using kubectl
:
kubectl patch gitrepository <repository-name> --field-manager=flux-client-side-apply -p '{\"spec\": {\"suspend\" : true }}'
Using flux
:
flux suspend source git <repository-name>
Note: When a GitRepository has an Artifact and is suspended, and this Artifact later disappears from the storage due to e.g. the source-controller Pod being evicted from a Node, this will not be reflected in the GitRepository's Status until it is resumed.
In your YAML declaration, comment out (or remove) the field:
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: <repository-name>
spec:
# suspend: true
Note: Setting the field value to false
has the same effect as removing
it, but does not allow for "hot patching" using e.g. kubectl
while practicing
GitOps; as the manually applied patch would be overwritten by the declared
state in Git.
Using kubectl
:
kubectl patch gitrepository <repository-name> --field-manager=flux-client-side-apply -p '{\"spec\" : {\"suspend\" : false }}'
Using flux
:
flux resume source git <repository-name>
There are several ways to gather information about a GitRepository for debugging purposes.
Describing a GitRepository using
kubectl describe gitrepository <repository-name>
displays the latest recorded information for the resource in the Status
and
Events
sections:
...
Status:
...
Conditions:
Last Transition Time: 2022-02-14T09:40:27Z
Message: processing object: new generation 1 -> 2
Observed Generation: 2
Reason: ProgressingWithRetry
Status: True
Type: Reconciling
Last Transition Time: 2022-02-14T09:40:27Z
Message: failed to checkout and determine revision: unable to clone 'https://github.com/stefanprodan/podinfo': couldn't find remote ref "refs/heads/invalid"
Observed Generation: 2
Reason: GitOperationFailed
Status: False
Type: Ready
Last Transition Time: 2022-02-14T09:40:27Z
Message: failed to checkout and determine revision: unable to clone 'https://github.com/stefanprodan/podinfo': couldn't find remote ref "refs/heads/invalid"
Observed Generation: 2
Reason: GitOperationFailed
Status: True
Type: FetchFailed
Observed Generation: 1
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Warning GitOperationFailed 2s (x9 over 4s) source-controller failed to checkout and determine revision: unable to clone 'https://github.com/stefanprodan/podinfo': couldn't find remote ref "refs/heads/invalid"
To view events for specific GitRepository(s), kubectl events
can be used in
combination with --for
to list the Events for specific objects. For example,
running
kubectl events --for GitRepository/<repository-name>
lists
LAST SEEN TYPE REASON OBJECT MESSAGE
2m14s Normal NewArtifact gitrepository/<repository-name> stored artifact for commit 'Merge pull request #160 from stefanprodan/release-6.0.3'
36s Normal ArtifactUpToDate gitrepository/<repository-name> artifact up-to-date with remote revision: 'master@sha1:132f4e719209eb10b9485302f8593fc0e680f4fc'
94s Warning GitOperationFailed gitrepository/<repository-name> failed to checkout and determine revision: unable to clone 'https://github.com/stefanprodan/podinfo': couldn't find remote ref "refs/heads/invalid"
Besides being reported in Events, the reconciliation errors are also logged by
the controller. The Flux CLI offer commands for filtering the logs for a
specific GitRepository, e.g.
flux logs --level=error --kind=GitRepository --name=<repository-name>
.
The GitRepository reports the latest synchronized state from the Git repository
as an Artifact object in the .status.artifact
of the resource.
The Artifact file is a gzip compressed TAR archive (<commit sha>.tar.gz
), and
can be retrieved in-cluster from the .status.artifact.url
HTTP address.
---
apiVersion: source.toolkit.fluxcd.io/v1
kind: GitRepository
metadata:
name: <repository-name>
status:
artifact:
digest: sha256:e750c7a46724acaef8f8aa926259af30bbd9face2ae065ae8896ba5ee5ab832b
lastUpdateTime: "2022-01-29T06:59:23Z"
path: gitrepository/<namespace>/<repository-name>/c3ab8ff13720e8ad9047dd39466b3c8974e592c2fa383d4a3960714caef0c4f2.tar.gz
revision: master@sha1:363a6a8fe6a7f13e05d34c163b0ef02a777da20a
size: 91318
url: http://source-controller.<namespace>.svc.cluster.local./gitrepository/<namespace>/<repository-name>/363a6a8fe6a7f13e05d34c163b0ef02a777da20a.tar.gz
The following files and extensions are excluded from the Artifact by default:
- Git files (
.git/, .gitignore, .gitmodules, .gitattributes
) - File extensions (
.jpg, .jpeg, .gif, .png, .wmv, .flv, .tar.gz, .zip
) - CI configs (
.github/, .circleci/, .travis.yml, .gitlab-ci.yml, appveyor.yml, .drone.yml, cloudbuild.yaml, codeship-services.yml, codeship-steps.yml
) - CLI configs (
.goreleaser.yml, .sops.yaml
) - Flux v1 config (
.flux.yaml
)
To define your own exclusion rules, see excluding files.
A GitRepository enters various states during its lifecycle, reflected as Kubernetes Conditions. It can be reconciling while fetching the Git state, it can be ready, or it can fail during reconciliation.
The GitRepository API is compatible with the kstatus specification,
and reports Reconciling
and Stalled
conditions where applicable to
provide better (timeout) support to solutions polling the GitRepository to
become Ready
.
The source-controller marks a GitRepository as reconciling when one of the following is true:
- There is no current Artifact for the GitRepository, or the reported Artifact is determined to have disappeared from the storage.
- The generation of the GitRepository is newer than the Observed Generation.
- The newly resolved Artifact revision differs from the current Artifact.
When the GitRepository is "reconciling", the Ready
Condition status becomes
Unknown
when the controller detects drift, and the controller adds a Condition
with the following attributes to the GitRepository's
.status.conditions
:
type: Reconciling
status: "True"
reason: Progressing
|reason: ProgressingWithRetry
If the reconciling state is due to a new revision, an additional Condition is added with the following attributes:
type: ArtifactOutdated
status: "True"
reason: NewRevision
Both Conditions have a "negative polarity",
and are only present on the GitRepository while their status value is "True"
.
The source-controller marks a GitRepository as ready when it has the following characteristics:
- The GitRepository reports an Artifact.
- The reported Artifact exists in the controller's Artifact storage.
- The controller was able to communicate with the remote Git repository using the current spec.
- The revision of the reported Artifact is up-to-date with the latest resolved revision of the remote Git repository.
When the GitRepository is "ready", the controller sets a Condition with the
following attributes in the GitRepository's .status.conditions
:
type: Ready
status: "True"
reason: Succeeded
This Ready
Condition will retain a status value of "True"
until the
GitRepository is marked as reconciling, or e.g. a
transient error occurs due to a temporary network issue.
When the GitRepository Artifact is archived in the controller's Artifact
storage, the controller sets a Condition with the following attributes in the
GitRepository's .status.conditions
:
type: ArtifactInStorage
status: "True"
reason: Succeeded
This ArtifactInStorage
Condition will retain a status value of "True"
until
the Artifact in the storage no longer exists.
The source-controller may get stuck trying to produce an Artifact for a GitRepository without completing. This can occur due to some of the following factors:
- The remote Git repository URL is temporarily unavailable.
- The Git repository does not exist.
- The Secret reference contains a reference to a non-existing Secret.
- A specified Include is unavailable.
- The verification of the Git commit signature failed.
- The credentials in the referenced Secret are invalid.
- The GitRepository spec contains a generic misconfiguration.
- A storage related failure when storing the artifact.
When this happens, the controller sets the Ready
Condition status to False
,
and adds a Condition with the following attributes to the GitRepository's
.status.conditions
:
type: FetchFailed
|type: IncludeUnavailable
|type: StorageOperationFailed
status: "True"
reason: AuthenticationFailed
|reason: GitOperationFailed
This condition has a "negative polarity",
and is only present on the GitRepository while the status value is "True"
.
There may be more arbitrary values for the reason
field to provide accurate
reason for a condition.
In addition to the above Condition types, when the
verification of a Git commit signature fails. A condition with
the following attributes is added to the GitRepository's .status.conditions
:
type: SourceVerifiedCondition
status: "False"
reason: Failed
While the GitRepository has one or more of these Conditions, the controller will continue to attempt to produce an Artifact for the resource with an exponential backoff, until it succeeds and the GitRepository is marked as ready.
Note that a GitRepository can be reconciling
while failing at the same time, for example due to a newly introduced
configuration issue in the GitRepository spec. When a reconciliation fails, the
Reconciling
Condition reason would be ProgressingWithRetry
. When the
reconciliation is performed again after the failure, the reason is updated to
Progressing
.
The source-controller reports an observed ignore in the GitRepository's
.status.observedIgnore
. The observed ignore is the latest .spec.ignore
value
which resulted in a ready state, or stalled due to error
it can not recover from without human intervention.
The value is the same as the ignore in spec.
It indicates the ignore rules used in building the current artifact in storage.
It is also used by the controller to determine if an artifact needs to be
rebuilt.
Example:
status:
...
observedIgnore: |
cue
pkg
...
The source-controller reports an observed recurse submodule in the
GitRepository's .status.observedRecurseSubmodules
. The observed recurse
submodules is the latest .spec.recurseSubmodules
value which resulted in a
ready state, or stalled due to error it can not recover
from without human intervention. The value is the same as the
recurse submodules in spec. It indicates the recurse
submodules configuration used in building the current artifact in storage. It is
also used by the controller to determine if an artifact needs to be rebuilt.
Example:
status:
...
observedRecurseSubmodules: true
...
The source-controller reports observed include in the GitRepository's
.status.observedInclude
. The observed include is the latest
.spec.recurseSubmodules
value which resulted in a
ready state, or stalled due to error it can not recover
from without human intervention. The value is the same as the
include in spec. It indicates the include configuration used in
building the current artifact in storage. It is also used by the controller to
determine if an artifact needs to be rebuilt.
Example:
status:
...
observedInclude:
- fromPath: deploy/webapp
repository:
name: repo1
toPath: foo
- fromPath: deploy/secure
repository:
name: repo2
toPath: bar
...
The source-controller reports the Git object(s) it verified in the Git
repository to create an artifact in the GitRepository's
.status.sourceVerificationMode
. This value is the same as the verification
mode in spec. The verification status is applicable only to the
latest Git repository revision used to successfully build and store an
artifact.
The source-controller reports an observed generation
in the GitRepository's .status.observedGeneration
. The observed generation is
the latest .metadata.generation
which resulted in either a ready state,
or stalled due to error it can not recover from without human
intervention.
The source-controller reports the last reconcile.fluxcd.io/requestedAt
annotation value it acted on in the .status.lastHandledReconcileAt
field.
For practical information about this field, see triggering a reconcile.