A reverse proxy and static file server that provides authentication using Providers (Google, GitHub, and others) to validate accounts by email, domain or group.
Note: This repository was forked from bitly/OAuth2_Proxy on 27/11/2018. Versions v3.0.0 and up are from this fork and will have diverged from any changes in the original fork. A list of changes can be seen in the CHANGELOG.
-
Choose how to deploy:
a. Download Prebuilt Binary (current release is
v3.1.0
)b. Build with
$ go get github.com/pusher/oauth2_proxy
which will put the binary in$GOROOT/bin
c. Using the prebuilt docker image quay.io/pusher/oauth2_proxy (AMD64, ARMv6 and ARM64 tags available)
Prebuilt binaries can be validated by extracting the file and verifying it against the sha256sum.txt
checksum file provided for each release starting with version v3.0.0
.
sha256sum -c sha256sum.txt 2>&1 | grep OK
oauth2_proxy-3.1.0.linux-amd64: OK
- Select a Provider and Register an OAuth Application with a Provider
- Configure OAuth2 Proxy using config file, command line options, or environment variables
- Configure SSL or Deploy behind a SSL endpoint (example provided for Nginx)
You will need to register an OAuth application with a Provider (Google, GitHub or another provider), and configure it with Redirect URI(s) for the domain you intend to run oauth2_proxy
on.
Valid providers are :
The provider can be selected using the provider
configuration value.
For Google, the registration steps are:
- Create a new project: https://console.developers.google.com/project
- Choose the new project from the top right project dropdown (only if another project is selected)
- In the project Dashboard center pane, choose "API Manager"
- In the left Nav pane, choose "Credentials"
- In the center pane, choose "OAuth consent screen" tab. Fill in "Product name shown to users" and hit save.
- In the center pane, choose "Credentials" tab.
- Open the "New credentials" drop down
- Choose "OAuth client ID"
- Choose "Web application"
- Application name is freeform, choose something appropriate
- Authorized JavaScript origins is your domain ex:
https://internal.yourcompany.com
- Authorized redirect URIs is the location of oauth2/callback ex:
https://internal.yourcompany.com/oauth2/callback
- Choose "Create"
- Take note of the Client ID and Client Secret
It's recommended to refresh sessions on a short interval (1h) with cookie-refresh
setting which validates that the account is still authorized.
- Create a service account: https://developers.google.com/identity/protocols/OAuth2ServiceAccount and make sure to download the json file.
- Make note of the Client ID for a future step.
- Under "APIs & Auth", choose APIs.
- Click on Admin SDK and then Enable API.
- Follow the steps on https://developers.google.com/admin-sdk/directory/v1/guides/delegation#delegate_domain-wide_authority_to_your_service_account and give the client id from step 2 the following oauth scopes:
https://www.googleapis.com/auth/admin.directory.group.readonly
https://www.googleapis.com/auth/admin.directory.user.readonly
- Follow the steps on https://support.google.com/a/answer/60757 to enable Admin API access.
- Create or choose an existing administrative email address on the Gmail domain to assign to the
google-admin-email
flag. This email will be impersonated by this client to make calls to the Admin SDK. See the note on the link from step 5 for the reason why. - Create or choose an existing email group and set that email to the
google-group
flag. You can pass multiple instances of this flag with different groups and the user will be checked against all the provided groups. - Lock down the permissions on the json file downloaded from step 1 so only oauth2_proxy is able to read the file and set the path to the file in the
google-service-account-json
flag. - Restart oauth2_proxy.
Note: The user is checked against the group members list on initial authentication and every time the token is refreshed ( about once an hour ).
- Add an application to your Azure Active Directory tenant.
- On the App properties page provide the correct Sign-On URL ie
https://internal.yourcompany.com/oauth2/callback
- If applicable take note of your
TenantID
and provide it via the--azure-tenant=<YOUR TENANT ID>
commandline option. Default thecommon
tenant is used.
The Azure AD auth provider uses openid
as it default scope. It uses https://graph.windows.net
as a default protected resource. It call to https://graph.windows.net/me
to get the email address of the user that logs in.
- Create a new FB App from https://developers.facebook.com/
- Under FB Login, set your Valid OAuth redirect URIs to
https://internal.yourcompany.com/oauth2/callback
- Create a new project: https://github.com/settings/developers
- Under
Authorization callback URL
enter the correct url iehttps://internal.yourcompany.com/oauth2/callback
The GitHub auth provider supports two additional parameters to restrict authentication to Organization or Team level access. Restricting by org and team is normally accompanied with --email-domain=*
-github-org="": restrict logins to members of this organisation
-github-team="": restrict logins to members of any of these teams (slug), separated by a comma
If you are using GitHub enterprise, make sure you set the following to the appropriate url:
-login-url="http(s)://<enterprise github host>/login/oauth/authorize"
-redeem-url="http(s)://<enterprise github host>/login/oauth/access_token"
-validate-url="http(s)://<enterprise github host>/api/v3"
Whether you are using GitLab.com or self-hosting GitLab, follow these steps to add an application
If you are using self-hosted GitLab, make sure you set the following to the appropriate URL:
-login-url="<your gitlab url>/oauth/authorize"
-redeem-url="<your gitlab url>/oauth/token"
-validate-url="<your gitlab url>/api/v4/user"
For LinkedIn, the registration steps are:
- Create a new project: https://www.linkedin.com/secure/developer
- In the OAuth User Agreement section:
- In default scope, select r_basicprofile and r_emailaddress.
- In "OAuth 2.0 Redirect URLs", enter
https://internal.yourcompany.com/oauth2/callback
- Fill in the remaining required fields and Save.
- Take note of the Consumer Key / API Key and Consumer Secret / Secret Key
For adding an application to the Microsoft Azure AD follow these steps to add an application.
Take note of your TenantId
if applicable for your situation. The TenantId
can be used to override the default common
authorization server with a tenant specific server.
OpenID Connect is a spec for OAUTH 2.0 + identity that is implemented by many major providers and several open source projects. This provider was originally built against CoreOS Dex and we will use it as an example.
-
Launch a Dex instance using the getting started guide.
-
Setup oauth2_proxy with the correct provider and using the default ports and callbacks.
-
Login with the fixture use in the dex guide and run the oauth2_proxy with the following args:
-provider oidc -client-id oauth2_proxy -client-secret proxy -redirect-url http://127.0.0.1:4180/oauth2/callback -oidc-issuer-url http://127.0.0.1:5556 -cookie-secure=false -email-domain example.com
To authorize by email domain use --email-domain=yourcompany.com
. To authorize individual email addresses use --authenticated-emails-file=/path/to/file
with one email per line. To authorize all email addresses use --email-domain=*
.
oauth2_proxy
can be configured via config file, command line options or environment variables.
To generate a strong cookie secret use python -c 'import os,base64; print base64.urlsafe_b64encode(os.urandom(16))'
An example oauth2_proxy.cfg config file is in the contrib directory. It can be used by specifying -config=/etc/oauth2_proxy.cfg
Usage of oauth2_proxy:
-approval-prompt string: OAuth approval_prompt (default "force")
-authenticated-emails-file string: authenticate against emails via file (one per line)
-azure-tenant string: go to a tenant-specific or common (tenant-independent) endpoint. (default "common")
-basic-auth-password string: the password to set when passing the HTTP Basic Auth header
-client-id string: the OAuth Client ID: ie: "123456.apps.googleusercontent.com"
-client-secret string: the OAuth Client Secret
-config string: path to config file
-cookie-domain string: an optional cookie domain to force cookies to (ie: .yourcompany.com)
-cookie-expire duration: expire timeframe for cookie (default 168h0m0s)
-cookie-httponly: set HttpOnly cookie flag (default true)
-cookie-name string: the name of the cookie that the oauth_proxy creates (default "_oauth2_proxy")
-cookie-refresh duration: refresh the cookie after this duration; 0 to disable
-cookie-secret string: the seed string for secure cookies (optionally base64 encoded)
-cookie-secure: set secure (HTTPS) cookie flag (default true)
-custom-templates-dir string: path to custom html templates
-display-htpasswd-form: display username / password login form if an htpasswd file is provided (default true)
-email-domain value: authenticate emails with the specified domain (may be given multiple times). Use * to authenticate any email
-flush-interval: period between flushing response buffers when streaming responses (default "1s")
-footer string: custom footer string. Use "-" to disable default footer.
-github-org string: restrict logins to members of this organisation
-github-team string: restrict logins to members of any of these teams (slug), separated by a comma
-google-admin-email string: the google admin to impersonate for api calls
-google-group value: restrict logins to members of this google group (may be given multiple times).
-google-service-account-json string: the path to the service account json credentials
-htpasswd-file string: additionally authenticate against a htpasswd file. Entries must be created with "htpasswd -s" for SHA encryption
-http-address string: [http://]<addr>:<port> or unix://<path> to listen on for HTTP clients (default "127.0.0.1:4180")
-https-address string: <addr>:<port> to listen on for HTTPS clients (default ":443")
-login-url string: Authentication endpoint
-oidc-issuer-url: the OpenID Connect issuer URL. ie: "https://accounts.google.com"
-pass-access-token: pass OAuth access_token to upstream via X-Forwarded-Access-Token header
-pass-authorization-header: pass OIDC IDToken to upstream via Authorization Bearer header
-pass-basic-auth: pass HTTP Basic Auth, X-Forwarded-User and X-Forwarded-Email information to upstream (default true)
-pass-host-header: pass the request Host Header to upstream (default true)
-pass-user-headers: pass X-Forwarded-User and X-Forwarded-Email information to upstream (default true)
-profile-url string: Profile access endpoint
-provider string: OAuth provider (default "google")
-proxy-prefix string: the url root path that this proxy should be nested under (e.g. /<oauth2>/sign_in) (default "/oauth2")
-redeem-url string: Token redemption endpoint
-redirect-url string: the OAuth Redirect URL. ie: "https://internalapp.yourcompany.com/oauth2/callback"
-request-logging: Log requests to stdout (default true)
-request-logging-format: Template for request log lines (see "Logging Format" paragraph below)
-resource string: The resource that is protected (Azure AD only)
-scope string: OAuth scope specification
-set-xauthrequest: set X-Auth-Request-User and X-Auth-Request-Email response headers (useful in Nginx auth_request mode)
-set-authorization-header: set Authorization Bearer response header (useful in Nginx auth_request mode)
-signature-key string: GAP-Signature request signature key (algorithm:secretkey)
-skip-auth-preflight: will skip authentication for OPTIONS requests
-skip-auth-regex value: bypass authentication for requests path's that match (may be given multiple times)
-skip-provider-button: will skip sign-in-page to directly reach the next step: oauth/start
-ssl-insecure-skip-verify: skip validation of certificates presented when using HTTPS
-tls-cert string: path to certificate file
-tls-key string: path to private key file
-upstream value: the http url(s) of the upstream endpoint or file:// paths for static files. Routing is based on the path
-validate-url string: Access token validation endpoint
-version: print version string
-whitelist-domain: allowed domains for redirection after authentication. Prefix domain with a . to allow subdomains (eg .example.com)
Note, when using the whitelist-domain
option, any domain prefixed with a .
will allow any subdomain of the specified domain as a valid redirect URL.
See below for provider specific options
oauth2_proxy
supports having multiple upstreams, and has the option to pass requests on to HTTP(S) servers or serve static files from the file system. HTTP and HTTPS upstreams are configured by providing a URL such as http://127.0.0.1:8080/
for the upstream parameter, that will forward all authenticated requests to be forwarded to the upstream server. If you instead provide http://127.0.0.1:8080/some/path/
then it will only be requests that start with /some/path/
which are forwarded to the upstream.
Static file paths are configured as a file:// URL. file:///var/www/static/
will serve the files from that directory at http://[oauth2_proxy url]/var/www/static/
, which may not be what you want. You can provide the path to where the files should be available by adding a fragment to the configured URL. The value of the fragment will then be used to specify which path the files are available at. file:///var/www/static/#/static/
will ie. make /var/www/static/
available at http://[oauth2_proxy url]/static/
.
Multiple upstreams can either be configured by supplying a comma separated list to the -upstream
parameter, supplying the parameter multiple times or provinding a list in the config file. When multiple upstreams are used routing to them will be based on the path they are set up with.
The following environment variables can be used in place of the corresponding command-line arguments:
OAUTH2_PROXY_CLIENT_ID
OAUTH2_PROXY_CLIENT_SECRET
OAUTH2_PROXY_COOKIE_NAME
OAUTH2_PROXY_COOKIE_SECRET
OAUTH2_PROXY_COOKIE_DOMAIN
OAUTH2_PROXY_COOKIE_EXPIRE
OAUTH2_PROXY_COOKIE_REFRESH
OAUTH2_PROXY_SIGNATURE_KEY
There are two recommended configurations.
- Configure SSL Termination with OAuth2 Proxy by providing a
--tls-cert=/path/to/cert.pem
and--tls-key=/path/to/cert.key
.
The command line to run oauth2_proxy
in this configuration would look like this:
./oauth2_proxy \
--email-domain="yourcompany.com" \
--upstream=http://127.0.0.1:8080/ \
--tls-cert=/path/to/cert.pem \
--tls-key=/path/to/cert.key \
--cookie-secret=... \
--cookie-secure=true \
--provider=... \
--client-id=... \
--client-secret=...
- Configure SSL Termination with Nginx (example config below), Amazon ELB, Google Cloud Platform Load Balancing, or ....
Because oauth2_proxy
listens on 127.0.0.1:4180
by default, to listen on all interfaces (needed when using an
external load balancer like Amazon ELB or Google Platform Load Balancing) use --http-address="0.0.0.0:4180"
or
--http-address="http://:4180"
.
Nginx will listen on port 443
and handle SSL connections while proxying to oauth2_proxy
on port 4180
.
oauth2_proxy
will then authenticate requests for an upstream application. The external endpoint for this example
would be https://internal.yourcompany.com/
.
An example Nginx config follows. Note the use of Strict-Transport-Security
header to pin requests to SSL
via HSTS:
server {
listen 443 default ssl;
server_name internal.yourcompany.com;
ssl_certificate /path/to/cert.pem;
ssl_certificate_key /path/to/cert.key;
add_header Strict-Transport-Security max-age=2592000;
location / {
proxy_pass http://127.0.0.1:4180;
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Scheme $scheme;
proxy_connect_timeout 1;
proxy_send_timeout 30;
proxy_read_timeout 30;
}
}
The command line to run oauth2_proxy
in this configuration would look like this:
./oauth2_proxy \
--email-domain="yourcompany.com" \
--upstream=http://127.0.0.1:8080/ \
--cookie-secret=... \
--cookie-secure=true \
--provider=... \
--client-id=... \
--client-secret=...
OAuth2 Proxy responds directly to the following endpoints. All other endpoints will be proxied upstream when authenticated. The /oauth2
prefix can be changed with the --proxy-prefix
config variable.
- /robots.txt - returns a 200 OK response that disallows all User-agents from all paths; see robotstxt.org for more info
- /ping - returns an 200 OK response
- /oauth2/sign_in - the login page, which also doubles as a sign out page (it clears cookies)
- /oauth2/start - a URL that will redirect to start the OAuth cycle
- /oauth2/callback - the URL used at the end of the OAuth cycle. The oauth app will be configured with this as the callback url.
- /oauth2/auth - only returns a 202 Accepted response or a 401 Unauthorized response; for use with the Nginx
auth_request
directive
If signature_key
is defined, proxied requests will be signed with the
GAP-Signature
header, which is a Hash-based Message Authentication Code
(HMAC)
of selected request information and the request body see SIGNATURE_HEADERS
in oauthproxy.go
.
signature_key
must be of the form algorithm:secretkey
, (ie: signature_key = "sha1:secret0"
)
For more information about HMAC request signature validation, read the following:
- Amazon Web Services: Signing and Authenticating REST Requests
- rc3.org: Using HMAC to authenticate Web service requests
By default, OAuth2 Proxy logs requests to stdout in a format similar to Apache Combined Log.
<REMOTE_ADDRESS> - <[email protected]> [19/Mar/2015:17:20:19 -0400] <HOST_HEADER> GET <UPSTREAM_HOST> "/path/" HTTP/1.1 "<USER_AGENT>" <RESPONSE_CODE> <RESPONSE_BYTES> <REQUEST_DURATION>
If you require a different format than that, you can configure it with the -request-logging-format
flag.
The default format is configured as follows:
{{.Client}} - {{.Username}} [{{.Timestamp}}] {{.Host}} {{.RequestMethod}} {{.Upstream}} {{.RequestURI}} {{.Protocol}} {{.UserAgent}} {{.StatusCode}} {{.ResponseSize}} {{.RequestDuration}}
See logMessageData
in logging_handler.go
for all available variables.
Follow the examples in the providers
package to define a new
Provider
instance. Add a new case
to
providers.New()
to allow oauth2_proxy
to use the
new Provider
.
The Nginx auth_request
directive allows Nginx to authenticate requests via the oauth2_proxy's /auth
endpoint, which only returns a 202 Accepted response or a 401 Unauthorized response without proxying the request through. For example:
server {
listen 443 ssl;
server_name ...;
include ssl/ssl.conf;
location /oauth2/ {
proxy_pass http://127.0.0.1:4180;
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Scheme $scheme;
proxy_set_header X-Auth-Request-Redirect $request_uri;
}
location = /oauth2/auth {
proxy_pass http://127.0.0.1:4180;
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Scheme $scheme;
# nginx auth_request includes headers but not body
proxy_set_header Content-Length "";
proxy_pass_request_body off;
}
location / {
auth_request /oauth2/auth;
error_page 401 = /oauth2/sign_in;
# pass information via X-User and X-Email headers to backend,
# requires running with --set-xauthrequest flag
auth_request_set $user $upstream_http_x_auth_request_user;
auth_request_set $email $upstream_http_x_auth_request_email;
proxy_set_header X-User $user;
proxy_set_header X-Email $email;
# if you enabled --cookie-refresh, this is needed for it to work with auth_request
auth_request_set $auth_cookie $upstream_http_set_cookie;
add_header Set-Cookie $auth_cookie;
# When using the --set-authorization flag, some provider's cookies can exceed the 4kb
# limit and so the OAuth2 Proxy splits these into multiple parts.
# Nginx normally only copies the first `Set-Cookie` header from the auth_request to the response,
# so if your cookies are larger than 4kb, you will need to extract additional cookies manually.
auth_request_set $auth_cookie_name_upstream_1 $upstream_cookie_auth_cookie_name_1;
# Extract the Cookie attributes from the first Set-Cookie header and append them
# to the second part ($upstream_cookie_* variables only contain the raw cookie content)
if ($auth_cookie ~* "(; .*)") {
set $auth_cookie_name_0 $auth_cookie;
set $auth_cookie_name_1 "auth_cookie_name_1=$auth_cookie_name_upstream_1$1";
}
# Send both Set-Cookie headers now if there was a second part
if ($auth_cookie_name_upstream_1) {
add_header Set-Cookie $auth_cookie_name_0;
add_header Set-Cookie $auth_cookie_name_1;
}
proxy_pass http://backend/;
# or "root /path/to/site;" or "fastcgi_pass ..." etc
}
}
If you use ingress-nginx in Kubernetes (which includes the Lua module), you also can use the following configuration snippet for your Ingress:
nginx.ingress.kubernetes.io/auth-response-headers: Authorization
nginx.ingress.kubernetes.io/auth-signin: https://$host/oauth2/start?rd=$request_uri
nginx.ingress.kubernetes.io/auth-url: https://$host/oauth2/auth
nginx.ingress.kubernetes.io/configuration-snippet: |
auth_request_set $name_upstream_1 $upstream_cookie_name_1;
access_by_lua_block {
if ngx.var.name_upstream_1 ~= "" then
ngx.header["Set-Cookie"] = "name_1=" .. ngx.var.name_upstream_1 .. ngx.var.auth_cookie:match("(; .*)")
end
}
Please see our Contributing guidelines.