I want forward traffic using an exactly matching URL e.g. test.example.com with a ACL rule in the given frontend. When test.example.com\path it should move to another backend. My setup is a little bit more complicated, means just specify an acl matching for the path for the given backend does not work for me.
ACL logic: use backend IF acl_match_exact_url FOR EVERYTHING ELSE acl_use_other_backend.
Is there a way only to match the URL via ACL?
If I understand your question correctly, you want an ACL that can match by host header and/or path. You can do that several ways, for example you can match the req.hdr(host) and path separately like so:
acl match_path path /path
acl match_host req.hdr(host) test.example.com
use_backend backend_one if match_path match_host
default_backend backend_two
You can also do this with base, which concatenates both host and path into one sample, e.g:
acl match_host_and_path base test.example.com/path
use_backend backend_one if match_host_and_path
default_backend backend_two
Related
I have a laravel projct deployed on a virtual machine on GCP and I need to create a subdomain for it based on its url , the url looks like this : 34.90.86.243/questions_bank/public/
but when I wanted to add the url to the data field on google domains I got confused on what type I should use to make this up to work.
see this image
so which type should I choose ? and if there is an other way to do it please tel me
You cannot create subdomains based upon URL paths (/questions_bank/public/).
DNS servers manage subdomain resource records based upon IP addresses (A and AAAA) and CNAMES (which resolve to A and AAAA resource records.
If your goal is to create a subdomain questionsbank as in questionsbank.example.com from the IP address 34.90.86.243, create an A with the Host name questionsbank, Type A, TTL 86400, Value 34.90.86.243.
In your webserver (Apache, Nginx, etc.) you can use URL Rewrite to map subdomains to URL paths.
Context
I've been running an intranet admin panel in Symfony 3.x for several years. The users login with google oauth and the system checks if the email matches a validated one in a lookup-list. The oauth client handling is done with the "HWI OAuth Bundle".
In order to start a clean way to migrate this admin panel into SF4 and later to SF5 we've started breaking our monolyth into microservices running in docker.
Moving to docker behind a reverse proxy
Today we were moving this admin panel into a docker. Then we are having the public apache2 doing a ProxyPass towards the docker running the admin panel. Let's imagine the docker runs in http://1.2.3.4:7540 Let's assume the public address is https://admin-europe.example.com
What happens is that the symfony application has a relative URL, as the route google_login configured in the routing.yml and in the service configuration defined in the security.yml:
routing:
# Required by the HWI OAuth Bundle.
hwi_oauth_redirect:
resource: "#HWIOAuthBundle/Resources/config/routing/redirect.xml"
prefix: /connect
hwi_oauth_connect:
resource: "#HWIOAuthBundle/Resources/config/routing/connect.xml"
prefix: /connect
hwi_oauth_login:
resource: "#HWIOAuthBundle/Resources/config/routing/login.xml"
prefix: /login
# HWI OAuth Bundle route needed for each resource provider.
google_login:
path: /login/check-google
logout:
path: /logout
security:
firewalls:
# disables authentication for assets and the profiler, adapt it according to your needs
dev:
pattern: ^/(_(profiler|wdt)|css|images|js)/
security: false
secured_area:
anonymous: true
logout:
path: /logout
target: /
handlers: [ admin.security.logout.handler ]
oauth:
resource_owners:
google: "/login/check-google"
login_path: /
use_forward: false
failure_path: /
oauth_user_provider:
service: admin.user.provider
So when the application was not dockerized, it run properly because the route requested to be the "redirect route" to google was https://admin-europe.example.com/login/check-google.
Nevertheless, now that it's inside the docker when the HWI bundle is building the data block to send to google it requests for this http://1.2.3.4:7540/login/check-google to be authorised as the "redirect URI" but of course it should not. Of course the redirect URI should continue to be https://admin-europe.example.com/login/check-google.
I naturally get this error message:
The reverse proxy
We already have in the reverse proxy the ProxyPassReverse and, in fact, the very same configuration has been working hassle-free for over a month with another microservice we already successfully moved (but that service did not need auth, was a public site).
This is natural, as ProxyPassReverse will tackle into http data but the google-oauth info-block is not handled by the ProxyPassReverse, as it's natural.
The problem
The problem here is not to have this address validated (put a domain alias into the private IP address, etc.)
The problem here is how to generate the "proper public URL" from inside the docker without creating a hard-dependency for the container contents in function of the environment it's going to run. Doing so would be an anti-pattern.
Exploring solutions
Of course the "easy" solution would be to "hardcode" the "external route" inside the container.
But this has a flaw. If I also want the same docker to be accessed from, say, https://admin-asia.example.com/ (note the -asia instead of the -europe), I'll run into problems as the asia users will be redirected to the europe route. This is a mere example, don't care about the specific europe-asia thing... the point is that the container should not be conscious of the sorrounding architecture. Or at least, conscious to "interact" but definitively not to have "hardcoded" inside the container things that depend on the environment.
Ie: Forget about the -europe and -asia thing. Imagine the access is admin-1111. It does not make sense that I have to "recompile" and "redeploy" the container if one day I want it to be accessible as admin-2222.
Temporal solution
I think it would solve the problem to point both the route in the rounting.yml and the config in the security.yml to a "parameter" (in 3.x in parameters.yml) and then move that into an Environment Variable when updating to SF4, but I'm unsure on how the cache compiler of the symfony would behave with a route that does not have a value, but a route that "changes dynamically".
Then pass the value of the redirecion when the container is started. This would solve the problem only partially: All the container would be bound to a redirect route set at the time of start, but it still would not solve the case of the same container instance accessed via different names thus needing multiple redirect routes. Instead when running non-dockerized that works as it just takes the "hostname" to build the absolute path on a relative-path definition.
Investigation so far
When accessing, the browser shows I'm going to
https://accounts.google.com/o/oauth2/auth
?response_type=code
&client_id=111111111111-aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa.apps.googleusercontent.com
&scope=email+https%3A%2F%2Fwww.googleapis.com%2Fauth%2Fplus.profile.emails.read+https%3A%2F%2Fwww.googleapis.com%2Fauth%2Fplus.login
&redirect_uri=http%3A%2F%2Fmy.nice.domain.example.com%3A7040%2Fapp_dev.php%2Flogin%2Fcheck-google
Here we see that the redirect_uri parameter is the place where we'll return after passing the control to google momentarily.
So somebody needs to be building this URL.
I seeked for "redirect_uri" within the source code and I found that the involved classes are GoogleResourceOwner which extends GenericOAuth2ResourceOwner.
Both classes seem to belong to the domain as per the tests passing the $redirectUri as a string which needs to be already built by the caller.
The involved method is public function getAuthorizationUrl($redirectUri, array $extraParameters = array()). This receives the redirect URI and builds the auth URI with the redurect URI encoded as a parameter.
So, who are the consumers/clients of getAuthorizationUrl()?
I only found one single client usage in OAuthUtils, in a line that says return $resourceOwner->getAuthorizationUrl($redirectUrl, $extraParameters); within the function public function getAuthorizationUrl(Request $request, $name, $redirectUrl = null, array $extraParameters = array())
I see that mainly this OAuthUtils is acting as an adapter between the Symfony Request and the OAuth domain model. Within this method we mainly find code to create the $redirectUri.
The cleanest solution for me would be to create a child class OAuthUtilsBehindProxy inheriting from OAuthUtils, overwriting the method getAuthorizationUrl() and having it interpret the X-FORWARDED-* headers of the request, and then have the dependency injection to autowire my class everywhere the OAuthUtils is used with the hope that noone is doing a new OAuthUtils and every user of this class is getting it passed on the constructor.
This would be clean and woul work.
But frankly it seems an overkill to me. I'm pretty sure someone before me has put an app that needs Google OAuth made with HWI behind a reverse proxy and I wonder if there's a "config option" that I'm missing or really I have to re-code all this and inject it via D.I.
So, question
How do I have HWI-OAuth bundle to behave properly when running in a docker container behind a reverse proxy in regards on how to build the "redirect route" for the google-oauth service?
Is there any way to tell either the HWI bundle or either symfony to add a "full-host" prefix IN FUNCTION of the the X-FORWARDED-* headers "if available"? This would leave the docker image "fixed" and would run in "any" environment.
The underlying reason is the way Symfony generated the full-addresses from a relative path or route name.
Here's the investigation:
The method HWI/OAuthUtils::getAuthorizationUrl() is the one that generates the OAUth auth URI and consumes the method Symfony/HttpUtils::generateUri() to get the absolute URI of the redirect_to callback that will be encoded inside the Auth URI.
The method Symfony/HttpUtils::generateUri() generates an absolute URI (that in our case will be the callback) and to do so, the method handles 3 general cases:
The parameter is already an absolute URI (the return is the parameter without further processing)
The parameter is a relative URL (the function calls the Request class to build the proto + host + port + project-path prefix to prepend to the relative URI)
The parameter is a route name (the funcion calls the Router class to build the absolute URI)
In my example I was configuring a relative URL (google: "/login/check-google") in the security.yml so HttpUtils was delegating into the Request class.
Looking at the source of the Request class we observe:
The Request class is able to use proxy headers to build the absolute class.
But for security, by default symfony does not trust that a proxy exists merely because there are X-FORWARDED-* headers in it.
Indeed it's more secure plus more flexible.
There are 2 levels of security:
Somewhere we need to tell the Request class what is the list of trusted IPs that are proxies accessing the application.
Somewhere else we need to tell the Request class what specific proxy headers are trusted and what headers are not, even it supports different standards headers (RFC headers, non-RFC apache headers, etc)
Stated here https://symfony.com/blog/fixing-the-trusted-proxies-configuration-for-symfony-3-3 is that you need to configure the trusted proxies in the front-controller by calling the static method Request::setTrustedProxies();
So adding those couple of lines in the front-controller one killing non-nee4ded headers and the other with the IP ranges of the proxies, solved the problem:
# app.php
<?php
use Symfony\Component\HttpFoundation\Request;
$loader = require __DIR__.'/../app/autoload.php';
include_once __DIR__.'/../var/bootstrap.php.cache';
$kernel = new AppKernel('prod', false);
$kernel->loadClassCache();
Request::setTrustedHeaderName( Request::HEADER_FORWARDED, null ); # <-- Kill unneeded header.
Request::setTrustedProxies( [ '192.168.104.0/24', '10.0.0.0/8' ] ); # <-- Trust any proxy that lives in any of those two private nets.
$request = Request::createFromGlobals();
$response = $kernel->handle($request);
$response->send();
$kernel->terminate($request, $response);
With this change:
Symfony Request is able to build correct public absolute addresses from relative addresses if called thru a proxy, by deducting the host from HTTP_X_FORWARDED_HOST and HTTP_X_FORWARDED_PORT instead of HTTP_HOST and SERVER_PORT.
Symfony HttpUtils also, as it was delegating to Request.
HWI is in turn able to build a correct absolute callback redirect_to.
HWI can set the proper callback encoded inside the AuthUri.
The AuthURI that contains the proper absolute URI taking in account the proxy effect is sent to google.
Google sees the "public URI" as the one registered in the google configuration.
The workflow completes and the login process can end successfully.
E.g. I have two backend services, A and B, and I want to forward everything with path
/A* to A and /B* to B - but I want to strip out the /A/ and /B/ before it hits them. So for example /A/api reaches A as /api. Is this possible?
Edit: I specifically want to forward the traffic, not redirect.
I don't think it's possible, what worked for me is simply configuring my backends so that locally I can start them without the context, and then when deployed, a context is added.
I think you can do redirect rewrite rule, this content is for forcing https redirection but I am assuming you can do a redirect to a diff url as well:
https://aws.amazon.com/premiumsupport/knowledge-center/elb-redirect-http-to-https-using-alb/
If your services are separated servers:
Create target group for service A (target_A)
Create target group for service B (target_B)
Add servers to their groups.
Create balancer path rule "If Path is /A/* THEN Forward to target_A: 1 (100%)"
Create balancer path rule "If Path is /B/* THEN Forward to target_B: 1 (100%)"
i have 2 instances of a service running on different ports
zuul forwarding properties for both of them are
for v1:
zuul.routes.app.path=/app/**
zuul.routes.app.url=http://localhost:8081
and for v2
zuul.routes.app.path=/app/v2/**
zuul.routes.app.url=http://localhost:8082
all my request to api/v2 are going into app/ and not to api/v2 is there any way to configure v1 one to ignore calls for api/v2 and/or forward it to v2 url given that path for v1 cant be changed
Declare order of routes is important for zuul.
Described above happens because you have configured
zuul.routes.app.path=/app/**
eagerly consumes all responses. Try to configure in such order:
zuul.routes.app2.path=/app/v2/**
zuul.routes.app2.url=http://localhost:8082
zuul.routes.app1.path=/app/**
zuul.routes.app1.url=http://localhost:8081
So if it is specific call to
/app/v2/**
it will be matched first. If not, second match that consume all requests to
/app/**
...will be matched.
Note also, routes should be named differently:
app1, app2
You can also read about here. Hope this will help...
I often visit a link!
But i have no idea what dot (.) represents in the URL.
What is use of dot (.) in the URL?
The dot (.) is the character that was defined to be the delimiter in domain names (see DNS).
It delimits the labels in a domain name.
The domain name www.google.com consists of three labels:
com (aka. the top-level domain)
google (aka. the second-level domain)
www (aka. the third-level domain, or subdomain)
The '.' is like a character which differentiates from the domains. like www.todaysfuture.in the '.' after www means the first domain is done. then it checks the next domain.
The best example is like your email ID
first is the email-ID
then is the '#' that means the account name is done
then comes gmail/yahoo/wtvr
then a '.' to finish the account type
then '.' com or in depending on the account
Web addresses, or Uniform Resource Locators, go backwards with more specific terms coming first (like real addresses).
So for www.google.com
com is the top level domain - it might be a global domain like .com or a country code like .uk, and some top level domains have sub divisions like .gov.uk and .co.uk.
google is the domain - this is the name you actually buy and route to your servers/services
www subdomain - these are optional, and can be used to distinguish different services running on the same server, so www.google.com would serve web pages while ftp.google.com might be an FTP service.
Note that the subdomain is often optional - google.com and most other servers will assume www as the default service or infer it from the protocol (the http:// bit).