On Sep 28, 2021

Determining AWS IAM Policies According To Terraform And AWS CLI

Meir Gabay
Meir GabayDevOps Engineer

Let's write a practical blog post of how to implement this principle in the CI/CD realm.

I find myself mentioning the term Principle Of Least Privilege often, so I thought, "Let's write a practical blog post of how to implement this principle in the CI/CD realm".

In this blog post, I'll describe the process of granting the least privileges required to execute aws s3 ls and terraform apply by a CI/CD runner.


In case you're from health tech, this process might help you with qualifying some of the HIPAA compliance requirements, see HIPAA's Minimum Necessary Requirement.


Imagine this, you've created an IAM user cicd-user, with AdministratorAcess and generated the access keys AWS_ACCESS_KEY_ID and AWS_SECRET_ACCESS_KEY for that user. You've created that user so that your CI/CD service, whatever it is, GitHub Actions, drone.io, Jenkins, etc., will be able to apply changes in your AWS account.

This is a common scenario that usually happens in small startup companies, where the product and sales are far more important than meeting regulations and securing the product. But why do people do that? Because every time a CI/CD attempts to do something, figuring out which policies are required for the job is a nightmare.

"Let's provide the CI/CD service an admin permission, we'll deal with that later, we must focus on the product."

Avenged Sevenfold - Nightmare

TIP: Listen to Avenged Sevenfold - Nightmare while reading this blog-post.

The Nightmare

A typical "Nightmare Situation" where you need to create an IAM policy for a CI/CD service; here goes.

  1. Create an IAM user with no permissions and generate access keys for the CI/CD service.
  2. IAM user (CI/CD job or you) invokes some aws or terraform command.
  3. If the operation fails due to authorization (403) issues, then you'll get

an error message that states which permission(s), usually it's singular, is required. 4. Add the required permission(s) to the user's IAM policy. 5. Start again from step 2 - invoke aws or terraform ...

NOTE: Sometimes, you'll get Forbidden status code: 403, which is quite useless for finding out the required IAM permissions.

There's A Tool For That

Here comes iamlive by Ian Mckay.

Generate an IAM policy from AWS calls using client-side monitoring (CSM) or embedded proxy


I'll focus on the Proxy Mode, which supports running iamlive as a Docker container. No worries, we'll get to that.

Proxy Mode? What Do you Mean?

The way iamlive works is pretty simple. iamlive runs in the background in proxy mode and serves, which allows access from "any IP", but only we have access to this process, so we're good. In a separated terminal, you set HTTP_PROXY, HTTPS_PROXY, and AWS_CA_BUNDLE according to iamlive.

Running iamlive in Docker

Build The Image Locally

For full visibility, since we're talking about credentials, let's build the Docker image locally. Copy-paste the following Dockerfile:


ARG APP_NAME="iamlive"
ARG APP_PATH="/go/src/iamlive"

# Dev
FROM golang:${GO_VERSION}-alpine AS dev
RUN apk add --update git
    APP_PATH="${APP_PATH}" \

# Build
FROM dev as build
RUN go install

# App
FROM alpine:3.12 AS app
RUN apk --update upgrade && \
    apk add --update ca-certificates && \
WORKDIR "/app/"
COPY --from=build "/go/bin/iamlive" ./iamlive
RUN addgroup -S "appgroup" && adduser -S "appuser" -G "appgroup" && \
    chown "appuser:appgroup" "./iamlive"

USER "appuser"
EXPOSE 10080
ENTRYPOINT ["./iamlive"]
CMD ""

We need the source code of iamlive to build the Docker image, so let's git clone it and then build the Docker image. Though before building the image, let's add a .dockerignore file to copy only the required files to build the iamlive application.



Now let's get the source code and build the Docker image.

# Get source code
git clone https://github.com/iann0036/iamlive.git
cd iamlive

# Build the Docker image from source code and tag it
docker build -t iamlive-test  .

Run iamlive-test Docker Container

We need to proxy all of aws and terraform requests via iamlive-test, and then iamlive will be able to generate the relevant IAM permissions according to the invoked request. Pretty awesome, right?

Zooming in on some of the arguments

  1. -p 80:10080 and -p 443:10080 - Maps the ports 80 and 443 in the Host to the Container port 10080
  2. --bind-addr - iamlive listens on port 10080, from any IP address
  3. --force-wildcard-resource - Makes it easier to iterate over missing permissions
  4. --output-file "/app/iamlive.log" - Save the generated permissions to a file upon kill -HUP 1.
docker run \
  -p 80:10080 \
  -p 443:10080 \
  --name iamlive-test \
  -it iamlive-test \
  --mode proxy \
  --bind-addr \
  --force-wildcard-resource \
  --output-file "/app/iamlive.log"
# Runs in the background ...
# Average Memory Usage: 88MB

Using The Proxy

First, I recommend that you create a fresh new IAM user with no permissions at all, let's name that user dummy-user. Doing so will ease getting the minimum required permissions (all of them).

The fact that the iamlive-test container is running means nothing to aws and terraform. To configure both CLIs to use this proxy server, open a new terminal window and execute the below commands.


export HTTP_PROXY= \
       HTTPS_PROXY= \

Say what? From where did this AWS_CA_BUNDLE come from? Well, this environment variable instructs tools that use the AWS SDK to trust the provided Certificate Authority Certificate, in our case, it's ca.pem.

The ca.pem file is generated by iamlive for each execution of the iamlive-test container. We need to copy the ca.pem file from the container to our machine (Host).

docker cp iamlive-test:/home/appuser/.iamlive/ ~/

The environment variables HTTP_PROXY and HTTPS_PROXY are telling AWS's SDK to forward traffic via a proxy server (iamlive-test container).

Generating IAM Policies With Relevant Permissions

So far, we've got two terminal windows. In the first terminal, we have the iamlive-test container running, and it probably looks like it's doing nothing, but it's running, trust me. In the second terminal, we exported the relevant environment variables and copied ca.pem from the iamlive-test docker container to our machine (Host).

Executing A Command With AWS CLI

In the second terminal, we'll execute commands with aws and terraform. After the command execution is completed, we'll inspect the logs of the first terminal, which runs the iamlive-test container.

aws s3 ls

# Output
# An error occurred (AccessDenied) when calling the ListBuckets operation: Access Denied

Really? All I need is the ListBuckets permission? The real permission is called s3:ListAllMyBuckets, and I know that because the logs of iamlive-test look like this.

    "Version": "2012-10-17",
    "Statement": [
            "Effect": "Allow",
            "Action": [
            "Resource": "*"

Executing A Command With Terraform CLI

Before we proceed, it's important to mention that terraform init cannot be proxied via iamlive-test since it attempts to access registry.terraform.io, and it's not covered by iamlive. So first, unset the proxy settings, and then execute terraform init.

This is what it looks like when you attempt to execute terraform init with the proxy settings (environment variables) on.

terraform init

 Error: Failed to query available provider packages

 Could not retrieve the list of available versions for provider
 hashicorp/aws: could not connect to registry.terraform.io: Failed to
 request discovery document: Get
 "https://registry.terraform.io/.well-known/terraform.json": x509:
 certificate signed by unknown authority

For testing purposes, create a new directory and add the following main.tf file.

variable "region" {
  type = string
  default = "eu-west-1"

provider "aws" {
  region = var.region

resource "aws_s3_bucket" "app" {}

Unset proxy related environment variables and then execute terraform init


mkdir terraform-iamlive
cd terraform-iamlive
vim main.tf # copy-paste the above main.tf file

terraform init
# Terraform has been successfully initialized!

Finally, we can execute terraform apply and see which permissions are required for the task.


export HTTP_PROXY= \
       HTTPS_PROXY= \

# In terraform-iamlive dir
terraform apply

# Output
# Error: error reading S3 Bucket (terraform-20210422212704452600000001): Forbidden: Forbidden
# │       status code: 403, request id: A25SVTBABN0B3DSH, host id: /c1b5TsnsBE23AaDDHJQ34yLAYdrR7y3kvu2lqEX7VvstffawROKWwcPYfxNjleeluZPg9nucKY=

No idea what that means; let's check iamlive-test container logs to see if iamlive knows which permissions are required.

    "Version": "2012-10-17",
    "Statement": [
            "Effect": "Allow",
            "Action": [
            "Resource": "*"

Sometimes, you won't get the full list of required permissions. To overcome that, add the given IAM policy and invoke terraform apply again to see which permissions are missing.

Also, you might want to limit "*" to specific resources or patterns, but still, it's better than the current nightmare.

Here's the output after adding the above IAM policy to my "dummy-user".

    "Version": "2012-10-17",
    "Statement": [
            "Effect": "Allow",
            "Action": [
            "Resource": "*"

A new permission was added - s3GetBucketAcl. We need to iterate this process a few times, but each time it's a simple copy-paste of the generated permissions to the existing IAM policy in AWS Console.

This is the final result, after eight (8) iterations. If you're about to deploy a large stack with multiple resources, you'll have to iterate more than a few times.

    "Version": "2012-10-17",
    "Statement": [
            "Effect": "Allow",
            "Action": [
            "Resource": "*"

IMPORTANT: Remember, limit "*" to specific resources or patterns.

NOTE: After adding the policy to an IAM user, it took a few retries to get the updated IAM policy from iamlive-test. Just keep on adding permissions until a successful attempt.

Stop And Start iamlive-test

The beauty of omitting the flag --rm in the docker run command is that iamlive-test will not be removed when it stops. This is important! We want to keep the same ca.pem in the next execution of iamlive-test instead of re-copying ca.pem from iamlive-test to our machine (Host).

# Hit CTRL+C To stop the container

docker start -i iamlive-test
# Keep it running in the background

Get The Lastest Generated IAM Policy

We can send a SIGHUP signal to the iamlive-test container, which instructs iamlive to dump its latest output to the file iamlive.log. I piped the output through jq to beautify it.

docker exec iamlive-test kill -HUP 1 && \
docker exec iamlive-test cat /app/iamlive.log | jq


Stop Using The Proxy

To avoid using a proxy server for AWS SDK operations, unset the relevant environment variables, or restart your terminal window.




I've tried getting the required permissions by investigating AWS CloudTrail logs, and again, it was a nightmare. I just wanted a simple way, with the least overhead, to generate permissions easily for my CI/CD services.

IAM Policy Simulator

In case you don't know, AWS provides the free service IAM Policy Simulator, which is great for testing and debugging IAM policies in your AWS account. Then again, different tools for different purposes.

IAM Access Analyzer

Fresh from the oven, AWS extended the capabilities of IAM Access Analyzer, posted on Apr 19, 2021. Though its capabilities are still limited and do not cover all AWS services. It's still nice to see that AWS is improving the capabilities to ease writing least privilege IAM policies.

Final Thoughts

I'll probably write some Bash script that invokes terraform apply and when the error code equals 403, adds the output of iamlive.log to the relevant IAM policy in AWS. That might make it friendlier than it is now; it's annoying to copy-paste.

Got a better way to achieve the same thing? Have some thoughts about this process? Let's discuss it; feel free to comment below!

Cover photo by Dim Hou on Unsplash

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