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#!/usr/bin/env bash
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# Copyright 2021-2023 the Pinniped contributors. All Rights Reserved.
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# SPDX-License-Identifier: Apache-2.0
#
# A script to perform the setup required to manually test using the supervisor on a kind cluster.
# Assumes that you installed the apps already using hack/prepare-for-integration-tests.sh.
#
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# By default, this script does something hacky to avoid setting up any type of ingress or load balancer
# on Kind. It uses an http proxy server and port forwarding to route the requests into the cluster.
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# This is only intended for quick manual testing of features by contributors and is not a
# representation of how to really deploy or configure Pinniped.
#
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# When invoked with the PINNIPED_USE_CONTOUR environment variable set to a non-empty value,
# the script will install Contour into Kind and configure ingress using Contour. This requires that you
# also set PINNIPED_USE_CONTOUR to a non-empty value when you ran hack/prepare-for-integration-tests.sh.
# This will require editing your /etc/hosts file, and this script will echo instructions for doing so.
# When using PINNIPED_USE_CONTOUR, the proxy server is not needed, which makes it easier
# to use any web browser to complete web-based login flows (e.g. Safari, where configuring proxies
# on localhost is painfully difficult). This still does something a little hacky though, which is that
# it uses .cluster.local hostnames, because the Supervisor must be accessible by the same hostname both
# inside and outside the cluster, since the Concierge's JWTAuthenticator needs to be able to
# reach the discovery endpoint of the Supervisor by using the same hostname that is configured in the
# Supervisor's FederationDomain.
#
# Example usage:
# PINNIPED_USE_CONTOUR=1 hack/prepare-for-integration-tests.sh -c
# PINNIPED_USE_CONTOUR=1 hack/prepare-supervisor-on-kind.sh --oidc --ldap
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#
# Depends on `step` which can be installed by `brew install step` on MacOS.
#
set -euo pipefail
# Change working directory to the top of the repo.
ROOT = " $( cd " $( dirname " ${ BASH_SOURCE [0] } " ) /.. " && pwd ) "
cd " $ROOT "
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function log_error( ) {
RED = '\033[0;31m'
NC = '\033[0m'
if [ [ ${ COLORTERM :- unknown } = ~ ^( truecolor| 24bit) $ ] ] ; then
echo -e " 🙁 ${ RED } Error: $* ${ NC } "
else
echo " :( Error: $* "
fi
}
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use_oidc_upstream = no
use_ldap_upstream = no
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use_ad_upstream = no
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use_flow = ""
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while ( ( " $# " ) ) ; do
case " $1 " in
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--flow)
shift
# If there are no more command line arguments, or there is another command line argument but it starts with a dash, then error
if [ [ " $# " = = "0" || " $1 " = = -* ] ] ; then
log_error "--flow requires a flow name to be specified (e.g. cli_password or browser_authcode"
exit 1
fi
if [ [ " $1 " != "browser_authcode" && " $1 " != "cli_password" ] ] ; then
log_error "--flow must be cli_password or browser_authcode"
exit 1
fi
use_flow = $1
shift
; ;
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--ldap)
use_ldap_upstream = yes
shift
; ;
--oidc)
use_oidc_upstream = yes
shift
; ;
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--ad)
# Use an ActiveDirectoryIdentityProvider.
# This assumes that you used the --get-active-directory-vars flag with hack/prepare-for-integration-tests.sh.
use_ad_upstream = yes
shift
; ;
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-*)
log_error " Unsupported flag $1 " >& 2
exit 1
; ;
*)
log_error " Unsupported positional arg $1 " >& 2
exit 1
; ;
esac
done
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if [ [ " $use_oidc_upstream " = = "no" && " $use_ldap_upstream " = = "no" && " $use_ad_upstream " = = "no" ] ] ; then
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log_error "Error: Please use --oidc, --ldap, or --ad to specify which type(s) of upstream identity provider(s) you would like. May use one or multiple."
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exit 1
fi
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# Read the env vars output by hack/prepare-for-integration-tests.sh
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source "/tmp/integration-test-env"
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# Choose some filenames.
root_ca_crt_path = root_ca.crt
root_ca_key_path = root_ca.key
tls_crt_path = tls.crt
tls_key_path = tls.key
# Choose an audience name for the Concierge.
audience = " my-workload-cluster- $( openssl rand -hex 4) "
# These settings align with how the Dex redirect URI is configured by hack/prepare-for-integration-tests.sh.
# Note that this hostname can only be resolved inside the cluster, so we will use a web proxy running inside
# the cluster whenever we want to be able to connect to it.
issuer_host = "pinniped-supervisor-clusterip.supervisor.svc.cluster.local"
issuer = " https:// $issuer_host /some/path "
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dex_host = "dex.tools.svc.cluster.local"
if [ [ " ${ PINNIPED_USE_CONTOUR :- } " != "" ] ] ; then
# Install Contour.
kubectl apply -f https://projectcontour.io/quickstart/contour.yaml
# Wait for its pods to be ready.
echo "Waiting for Contour to be ready..."
kubectl wait --for 'jsonpath={.status.phase}=Succeeded' pods -l 'app=contour-certgen' -n projectcontour --timeout 60s
kubectl wait --for 'jsonpath={.status.phase}=Running' pods -l 'app!=contour-certgen' -n projectcontour --timeout 60s
# Create an ingress for the Supervisor which uses TLS passthrough to allow the Supervisor to terminate TLS.
cat <<EOF | kubectl apply --namespace "$PINNIPE D_TEST_SUPERVISOR_NAMESPACE" -f -
apiVersion: projectcontour.io/v1
kind: HTTPProxy
metadata:
name: supervisor-proxy
spec:
virtualhost:
fqdn: $issuer_host
tls:
passthrough: true
tcpproxy:
services:
- name: pinniped-supervisor-clusterip
port: 443
EOF
# Create an ingress for Dex which uses TLS passthrough to allow Dex to terminate TLS.
cat <<EOF | kubectl apply --namespace "$PINNIPE D_TEST_TOOLS_NAMESPACE" -f -
apiVersion: projectcontour.io/v1
kind: HTTPProxy
metadata:
name: dex-proxy
spec:
virtualhost:
fqdn: $dex_host
tls:
passthrough: true
tcpproxy:
services:
- name: dex
port: 443
EOF
issuer_host_missing = no
if ! grep -q " $issuer_host " /etc/hosts; then
issuer_host_missing = yes
fi
dex_host_missing = no
if ! grep -q " $dex_host " /etc/hosts; then
dex_host_missing = yes
fi
if [ [ " $issuer_host_missing " = = "yes" || ( " $dex_host_missing " = = "yes" && " $use_oidc_upstream " = = "yes" ) ] ] ; then
echo
log_error "Please run these commands to edit /etc/hosts, and then run this script again with the same options."
if [ [ " $issuer_host_missing " = = "yes" ] ] ; then
echo " sudo bash -c \"echo '127.0.0.1 $issuer_host ' >> /etc/hosts\" "
fi
if [ [ " $dex_host_missing " = = "yes" && " $use_oidc_upstream " = = "yes" ] ] ; then
echo " sudo bash -c \"echo '127.0.0.1 $dex_host ' >> /etc/hosts\" "
fi
log_error "When you are finished with your Kind cluster, you can remove these lines from /etc/hosts."
exit 1
fi
fi
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if [ [ " $use_oidc_upstream " = = "yes" ] ] ; then
# Make an OIDCIdentityProvider which uses Dex to provide identity.
cat <<EOF | kubectl apply --namespace "$PINNIPE D_TEST_SUPERVISOR_NAMESPACE" -f -
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apiVersion: idp.supervisor.pinniped.dev/v1alpha1
kind: OIDCIdentityProvider
metadata:
name: my-oidc-provider
spec:
issuer: " $PINNIPED_TEST_SUPERVISOR_UPSTREAM_OIDC_ISSUER "
tls:
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certificateAuthorityData: " $PINNIPED_TEST_SUPERVISOR_UPSTREAM_OIDC_ISSUER_CA_BUNDLE "
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authorizationConfig:
additionalScopes: [ ${ PINNIPED_TEST_SUPERVISOR_UPSTREAM_OIDC_ADDITIONAL_SCOPES } ]
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allowPasswordGrant: true
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claims:
username: " $PINNIPED_TEST_SUPERVISOR_UPSTREAM_OIDC_USERNAME_CLAIM "
groups: " $PINNIPED_TEST_SUPERVISOR_UPSTREAM_OIDC_GROUPS_CLAIM "
client:
secretName: my-oidc-provider-client-secret
EOF
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# Make a Secret for the above OIDCIdentityProvider to describe the OIDC client configured in Dex.
cat <<EOF | kubectl apply --namespace "$PINNIPE D_TEST_SUPERVISOR_NAMESPACE" -f -
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apiVersion: v1
kind: Secret
metadata:
name: my-oidc-provider-client-secret
stringData:
clientID: " $PINNIPED_TEST_SUPERVISOR_UPSTREAM_OIDC_CLIENT_ID "
clientSecret: " $PINNIPED_TEST_SUPERVISOR_UPSTREAM_OIDC_CLIENT_SECRET "
type: "secrets.pinniped.dev/oidc-client"
EOF
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# Grant the test user some RBAC permissions so we can play with kubectl as that user.
kubectl create clusterrolebinding oidc-test-user-can-view --clusterrole view \
--user " $PINNIPED_TEST_SUPERVISOR_UPSTREAM_OIDC_USERNAME " \
--dry-run= client --output yaml | kubectl apply -f -
fi
if [ [ " $use_ldap_upstream " = = "yes" ] ] ; then
# Make an LDAPIdentityProvider which uses OpenLDAP to provide identity.
cat <<EOF | kubectl apply --namespace "$PINNIPE D_TEST_SUPERVISOR_NAMESPACE" -f -
apiVersion: idp.supervisor.pinniped.dev/v1alpha1
kind: LDAPIdentityProvider
metadata:
name: my-ldap-provider
spec:
host: " $PINNIPED_TEST_LDAP_HOST "
tls:
certificateAuthorityData: " $PINNIPED_TEST_LDAP_LDAPS_CA_BUNDLE "
bind:
secretName: my-ldap-service-account
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groupSearch:
base: " $PINNIPED_TEST_LDAP_GROUPS_SEARCH_BASE "
attributes:
groupName: "cn"
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userSearch:
base: " $PINNIPED_TEST_LDAP_USERS_SEARCH_BASE "
filter: "cn={}"
attributes:
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uid: " $PINNIPED_TEST_LDAP_USER_UNIQUE_ID_ATTRIBUTE_NAME "
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username: " $PINNIPED_TEST_LDAP_USER_EMAIL_ATTRIBUTE_NAME "
EOF
# Make a Secret for the above LDAPIdentityProvider to describe the bind account.
cat <<EOF | kubectl apply --namespace "$PINNIPE D_TEST_SUPERVISOR_NAMESPACE" -f -
apiVersion: v1
kind: Secret
metadata:
name: my-ldap-service-account
stringData:
username: " $PINNIPED_TEST_LDAP_BIND_ACCOUNT_USERNAME "
password: " $PINNIPED_TEST_LDAP_BIND_ACCOUNT_PASSWORD "
type: "kubernetes.io/basic-auth"
EOF
# Grant the test user some RBAC permissions so we can play with kubectl as that user.
kubectl create clusterrolebinding ldap-test-user-can-view --clusterrole view \
--user " $PINNIPED_TEST_LDAP_USER_EMAIL_ATTRIBUTE_VALUE " \
--dry-run= client --output yaml | kubectl apply -f -
fi
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if [ [ " $use_ad_upstream " = = "yes" ] ] ; then
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# Make an ActiveDirectoryIdentityProvider. Needs to be pointed to a real AD server by env vars.
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cat <<EOF | kubectl apply --namespace "$PINNIPE D_TEST_SUPERVISOR_NAMESPACE" -f -
apiVersion: idp.supervisor.pinniped.dev/v1alpha1
kind: ActiveDirectoryIdentityProvider
metadata:
name: my-ad-provider
spec:
host: " $PINNIPED_TEST_AD_HOST "
tls:
certificateAuthorityData: " $PINNIPED_TEST_AD_LDAPS_CA_BUNDLE "
bind:
secretName: my-ad-service-account
EOF
# Make a Secret for the above ActiveDirectoryIdentityProvider to describe the bind account.
cat <<EOF | kubectl apply --namespace "$PINNIPE D_TEST_SUPERVISOR_NAMESPACE" -f -
apiVersion: v1
kind: Secret
metadata:
name: my-ad-service-account
stringData:
username: " $PINNIPED_TEST_AD_BIND_ACCOUNT_USERNAME "
password: " $PINNIPED_TEST_AD_BIND_ACCOUNT_PASSWORD "
type: "kubernetes.io/basic-auth"
EOF
# Grant the test user some RBAC permissions so we can play with kubectl as that user.
kubectl create clusterrolebinding ldap-test-user-can-view --clusterrole view \
--user " $PINNIPED_TEST_AD_USER_USER_PRINCIPAL_NAME " \
--dry-run= client --output yaml | kubectl apply -f -
fi
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# Create a CA and TLS serving certificates for the Supervisor's FederationDomain.
if [ [ ! -f " $root_ca_crt_path " ] ] ; then
step certificate create \
"Supervisor CA" " $root_ca_crt_path " " $root_ca_key_path " \
--profile root-ca \
--no-password --insecure --force
fi
if [ [ ! -f " $tls_crt_path " || ! -f " $tls_key_path " ] ] ; then
step certificate create \
" $issuer_host " " $tls_crt_path " " $tls_key_path " \
--profile leaf \
--not-after 8760h \
--ca " $root_ca_crt_path " --ca-key " $root_ca_key_path " \
--no-password --insecure --force
fi
# Put the TLS certificate into a Secret for the Supervisor's FederationDomain.
kubectl create secret tls -n " $PINNIPED_TEST_SUPERVISOR_NAMESPACE " my-federation-domain-tls --cert " $tls_crt_path " --key " $tls_key_path " \
--dry-run= client --output yaml | kubectl apply -f -
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# Make a FederationDomain using the TLS Secret and identity providers from above in a temp file.
fd_file = "/tmp/federationdomain.yaml"
cat << EOF > $fd_file
apiVersion: config.supervisor.pinniped.dev/v1alpha1
kind: FederationDomain
metadata:
name: my-federation-domain
spec:
issuer: $issuer
tls:
secretName: my-federation-domain-tls
identityProviders:
EOF
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if [ [ " $use_oidc_upstream " = = "yes" ] ] ; then
# Indenting the heredoc by 4 spaces to make it indented the correct amount in the FederationDomain below.
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cat << EOF >> $fd_file
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- displayName: "My OIDC IDP 🚀"
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objectRef:
apiGroup: idp.supervisor.pinniped.dev
kind: OIDCIdentityProvider
name: my-oidc-provider
transforms:
expressions:
- type: username/v1
expression: '"oidc:" + username'
- type: groups/v1 # the pinny user doesn't belong to any groups in Dex, so this isn't strictly needed, but doesn't hurt
expression: 'groups.map(group, "oidc:" + group)'
examples:
- username: ryan@example.com
groups: [ a, b ]
expects:
username: oidc:ryan@example.com
groups: [ oidc:a, oidc:b ]
EOF
fi
if [ [ " $use_ldap_upstream " = = "yes" ] ] ; then
# Indenting the heredoc by 4 spaces to make it indented the correct amount in the FederationDomain below.
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cat << EOF >> $fd_file
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- displayName: "My LDAP IDP 🚀"
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objectRef:
apiGroup: idp.supervisor.pinniped.dev
kind: LDAPIdentityProvider
name: my-ldap-provider
transforms: # these are contrived to exercise all the available features
constants:
- name: prefix
type: string
stringValue: "ldap:"
- name: onlyIncludeGroupsWithThisPrefix
type: string
stringValue: "ball-" # pinny belongs to ball-game-players in openldap
- name: mustBelongToOneOfThese
type: stringList
stringListValue: [ ball-admins, seals ] # pinny belongs to seals in openldap
- name: additionalAdmins
type: stringList
stringListValue: [ pinny.ldap@example.com, ryan@example.com ] # pinny's email address in openldap
expressions:
- type: policy/v1
expression: 'groups.exists(g, g in strListConst.mustBelongToOneOfThese)'
message: "Only users in certain kube groups are allowed to authenticate"
- type: groups/v1
expression: 'username in strListConst.additionalAdmins ? groups + ["ball-admins"] : groups'
- type: groups/v1
expression: 'groups.filter(group, group.startsWith(strConst.onlyIncludeGroupsWithThisPrefix))'
- type: username/v1
expression: 'strConst.prefix + username'
- type: groups/v1
expression: 'groups.map(group, strConst.prefix + group)'
examples:
- username: ryan@example.com
groups: [ ball-developers, seals, non-ball-group ] # allowed to auth because belongs to seals
expects:
username: ldap:ryan@example.com
groups: [ ldap:ball-developers, ldap:ball-admins ] # gets ball-admins because of username, others dropped because they lack "ball-" prefix
- username: someone_else@example.com
groups: [ ball-developers, ball-admins, non-ball-group ] # allowed to auth because belongs to ball-admins
expects:
username: ldap:someone_else@example.com
groups: [ ldap:ball-developers, ldap:ball-admins ] # seals dropped because it lacks prefix
- username: paul@example.com
groups: [ not-ball-admins-group, not-seals-group ] # reject because does not belong to any of the required groups
expects:
rejected: true
message: "Only users in certain kube groups are allowed to authenticate"
EOF
fi
if [ [ " $use_ad_upstream " = = "yes" ] ] ; then
# Indenting the heredoc by 4 spaces to make it indented the correct amount in the FederationDomain below.
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cat << EOF >> $fd_file
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- displayName: "My AD IDP"
objectRef:
apiGroup: idp.supervisor.pinniped.dev
kind: ActiveDirectoryIdentityProvider
name: my-ad-provider
EOF
fi
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# Apply the FederationDomain from the file created above.
kubectl apply --namespace " $PINNIPED_TEST_SUPERVISOR_NAMESPACE " -f " $fd_file "
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echo "Waiting for FederationDomain to initialize or update..."
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kubectl wait --for= condition = Ready FederationDomain/my-federation-domain -n " $PINNIPED_TEST_SUPERVISOR_NAMESPACE "
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# Decide if we need to use the proxy settings for certain commands below.
if [ [ " ${ PINNIPED_USE_CONTOUR :- } " != "" ] ] ; then
# Using the proxy is not needed with Contour.
proxy_server = ""
proxy_except = ""
proxy_env_vars = ""
else
# Without Contour, we will use the proxy for several commands below.
proxy_server = " $PINNIPED_TEST_PROXY "
proxy_except = "127.0.0.1"
proxy_env_vars = " https_proxy= $proxy_server no_proxy= $proxy_except "
fi
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# Test that the federation domain is working before we proceed.
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echo "Fetching FederationDomain discovery info via command:" \
" ${ proxy_env_vars } curl -fLsS --retry-all-errors --retry 5 --cacert \" $root_ca_crt_path \" \" $issuer /.well-known/openid-configuration\" "
https_proxy = " $proxy_server " no_proxy = " $proxy_except " curl -fLsS \
--retry-all-errors --retry 5 --cacert " $root_ca_crt_path " \
" $issuer /.well-known/openid-configuration " | jq .
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if [ [ " $OSTYPE " = = "darwin" * ] ] ; then
certificateAuthorityData = $( cat " $root_ca_crt_path " | base64)
else
# Linux base64 requires an extra flag to keep the output on one line.
certificateAuthorityData = $( cat " $root_ca_crt_path " | base64 -w 0)
fi
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# Make a JWTAuthenticator which respects JWTs from the Supervisor's issuer.
# The issuer URL must be accessible from within the cluster for OIDC discovery.
cat <<EOF | kubectl apply -f -
apiVersion: authentication.concierge.pinniped.dev/v1alpha1
kind: JWTAuthenticator
metadata:
name: my-jwt-authenticator
spec:
issuer: $issuer
audience: $audience
tls:
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certificateAuthorityData: $certificateAuthorityData
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EOF
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echo "Waiting for JWTAuthenticator to initialize or update..."
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# Sleeping is a race, but that's probably good enough for the purposes of this script.
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sleep 5
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# Compile the CLI.
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echo "Building the Pinniped CLI..."
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go build ./cmd/pinniped
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# In case Pinniped was just installed moments ago, wait for the CredentialIssuer to be ready.
while [ [ -z " $( kubectl get credentialissuer pinniped-concierge-config -o= jsonpath = '{.status.strategies[?(@.status == "Success")].type}' ) " ] ] ; do
echo "Waiting for a successful strategy on CredentialIssuer"
sleep 2
done
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# Use the CLI to get the kubeconfig. Tell it that you don't want the browser to automatically open for browser-based
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# flows so we can open our own browser with the proxy settings (if needed). Generate a kubeconfig for each IDP.
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flow_arg = ""
if [ [ -n " $use_flow " ] ] ; then
flow_arg = " --upstream-identity-provider-flow $use_flow "
fi
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if [ [ " $use_oidc_upstream " = = "yes" ] ] ; then
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echo "Generating OIDC kubeconfig..."
https_proxy = " $proxy_server " no_proxy = " $proxy_except " \
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./pinniped get kubeconfig --oidc-skip-browser $flow_arg --upstream-identity-provider-type oidc >kubeconfig-oidc.yaml
fi
if [ [ " $use_ldap_upstream " = = "yes" ] ] ; then
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echo "Generating LDAP kubeconfig..."
https_proxy = " $proxy_server " no_proxy = " $proxy_except " \
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./pinniped get kubeconfig --oidc-skip-browser $flow_arg --upstream-identity-provider-type ldap >kubeconfig-ldap.yaml
fi
if [ [ " $use_ad_upstream " = = "yes" ] ] ; then
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echo "Generating AD kubeconfig..."
https_proxy = " $proxy_server " no_proxy = " $proxy_except " \
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./pinniped get kubeconfig --oidc-skip-browser $flow_arg --upstream-identity-provider-type activedirectory >kubeconfig-ad.yaml
fi
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# Clear the local CLI cache to ensure that the kubectl command below will need to perform a fresh login.
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rm -f " $HOME /.config/pinniped/sessions.yaml "
rm -f " $HOME /.config/pinniped/credentials.yaml "
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echo
echo "Ready! 🚀"
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# These instructions only apply when you are not using Contour and you will need a browser to log in.
if [ [ " ${ PINNIPED_USE_CONTOUR :- } " = = "" && ( " $use_oidc_upstream " = = "yes" || " $use_flow " = = "browser_authcode" ) ] ] ; then
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echo
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echo "To be able to access the Supervisor URL during login, start Chrome like this:"
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echo " open -a \"Google Chrome\" --args --proxy-server=\" $proxy_server \" "
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echo "Note that Chrome must be fully quit before being started with --proxy-server."
echo "Then open the login URL shown below in that new Chrome window."
echo
echo "When prompted for username and password, use these values:"
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echo
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fi
if [ [ " $use_oidc_upstream " = = "yes" ] ] ; then
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echo " OIDC Username: $PINNIPED_TEST_SUPERVISOR_UPSTREAM_OIDC_USERNAME "
echo " OIDC Password: $PINNIPED_TEST_SUPERVISOR_UPSTREAM_OIDC_PASSWORD "
echo
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fi
if [ [ " $use_ldap_upstream " = = "yes" ] ] ; then
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echo " LDAP Username: $PINNIPED_TEST_LDAP_USER_CN "
echo " LDAP Password: $PINNIPED_TEST_LDAP_USER_PASSWORD "
echo
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fi
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if [ [ " $use_ad_upstream " = = "yes" ] ] ; then
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echo " AD Username: $PINNIPED_TEST_AD_USER_USER_PRINCIPAL_NAME "
echo " AD Password: $PINNIPED_TEST_AD_USER_PASSWORD "
echo
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fi
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# Echo the commands that may be used to login and print the identity of the currently logged in user.
# Once the CLI has cached your tokens, it will automatically refresh your short-lived credentials whenever
# they expire, so you should not be prompted to log in again for the rest of the day.
if [ [ " $use_oidc_upstream " = = "yes" ] ] ; then
echo "To log in using OIDC, run:"
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echo " PINNIPED_DEBUG=true ${ proxy_env_vars } ./pinniped whoami --kubeconfig ./kubeconfig-oidc.yaml "
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echo
fi
if [ [ " $use_ldap_upstream " = = "yes" ] ] ; then
echo "To log in using LDAP, run:"
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echo " PINNIPED_DEBUG=true ${ proxy_env_vars } ./pinniped whoami --kubeconfig ./kubeconfig-ldap.yaml "
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echo
fi
if [ [ " $use_ad_upstream " = = "yes" ] ] ; then
echo "To log in using AD, run:"
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echo " PINNIPED_DEBUG=true ${ proxy_env_vars } ./pinniped whoami --kubeconfig ./kubeconfig-ad.yaml "
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echo
fi