Name: metadataproxy
Owner: SalesforceIQ
Description: A proxy for AWS's metadata service that gives out scoped IAM credentials from STS
Created: 2016-07-07 03:47:47.0
Updated: 2016-07-07 03:47:48.0
Pushed: 2016-07-07 13:01:00.0
Size: 76
Language: Python
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The metadataproxy is used to allow containers to acquire IAM roles.
From inside of the repo run the following commands:
r -p /srv/metadataproxy
srv/metadataproxy
ualenv venv
ce venv/bin/activate
install metadataproxy
tivate
See the settings file for specific configuration options.
The metadataproxy has two basic modes of operation:
To enable mocking, use the environment variable:
rt MOCK_API=true
metadataproxy relies on boto configuration for its AWS credentials. If metadata IAM credentials are available, it will use this. Otherwise, you'll need to use .aws/credentials, .boto, or environment variables to specify the IAM credentials before the service is started.
For IAM routes, the metadataproxy will use STS to assume roles for containers. To do so it takes the incoming IP address of metadata requests and finds the running docker container associated with the IP address. It uses the value of the container's IAM_ROLE environment variable as the role it will assume. It then assumes the role and gives back STS credentials in the metadata response.
So, to specify the role of a container, simply launch it with the IAM_ROLE environment variable set to the IAM role you wish the container to run with.
If you'd like containers to fallback to a default role if no role is specified, you can use the following configuration option:
rt DEFAULT_ROLE=my-default-role
A useful way to deploy this metadataproxy is with a two-tier role structure:
The first tier is the EC2 service role for the instances running
your containers. Call it DockerHostRole. Your instances must
be launched with a policy that assigns this role.
The second tier is the role that each container will use. These
roles must trust your own account (“Role for Cross-Account
Access” in AWS terms). Call it ContainerRole1.
metadataproxy needs to query and assume the container role. So
the DockerHostRole policy must permit this for each container
role. For example:
tement": [ {
"Effect": "Allow",
"Action": [
"iam:GetRole",
"sts:AssumeRole"
],
"Resource": [
"arn:aws:iam::012345678901:role/ContainerRole1",
"arn:aws:iam::012345678901:role/ContainerRole2"
]
Now customize ContainerRole1 & friends as you like
Using iptables, we can forward traffic meant to 169.254.169.254 from docker0 to the metadataproxy. The following example assumes the metadataproxy is run on the host, and not in a container:
n/iptables --wait -t nat -A PREROUTING -i docker0 -p tcp --dport 80 --destination 169.254.169.254 --jump DNAT --to-destination 127.0.0.1:8000
If you'd like to start the metadataproxy in a container, it's recommended to use host-only networking. Also, it's necessary to volume mount in the docker socket, as metadataproxy must be able to interact with docker.
Be aware that non-host-mode containers will not be able to contact 127.0.0.1 in the host network stack. As an alternative, you can use the meta-data service to find the local address. In this case, you probably want to restrict proxy access to the docker0 interface!
L_IPV4=$(curl http://169.254.169.254/latest/meta-data/local-ipv4)
n/iptables --wait -t nat -A PREROUTING -i docker0 -p tcp --dport 80 --destination 169.254.169.254 --jump DNAT --to-destination $LOCAL_IPV4:8000
n/iptables --wait -I INPUT 1 -p tcp --dport 80 \! -i docker0 -j DROP
In the following we assume my_config is a bash file with exports for all of the necessary settings discussed in the configuration section.
ce my_config
srv/metadataproxy
ce venv/bin/activate
corn metadataproxy:app --workers=2 -k gevent
For production purposes, you'll want to kick up a container to run. You can build one with the included Dockerfile. To run, do something like:
er run --net=host \
-v /var/run/docker.sock:/var/run/docker.sock \
metadataproxy
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