AWS Vault is a tool to securely store and access AWS credentials in a development environment.
AWS Vault stores IAM credentials in your operating system's secure keystore and then generates temporary credentials from those to expose to your shell and applications. It's designed to be complementary to the AWS CLI tools, and is aware of your profiles and configuration in ~/.aws/config
.
Check out the announcement blog post for more details.
You can install AWS Vault:
- by downloading the latest release
- on macOS with Homebrew Cask:
brew install --cask aws-vault
- on macOS with MacPorts:
port install aws-vault
- on Windows with Chocolatey:
choco install aws-vault
- on Windows with Scoop:
scoop install aws-vault
- on Linux with Homebrew on Linux:
brew install aws-vault
- on Arch Linux:
pacman -S aws-vault
- on Gentoo Linux:
emerge --ask app-admin/aws-vault
(enable Guru first) - on FreeBSD:
pkg install aws-vault
- on OpenSUSE: enable devel:languages:go repo then
zypper install aws-vault
- with Nix:
nix-env -i aws-vault
- with asdf-vm:
asdf plugin-add aws-vault https://github.com/karancode/asdf-aws-vault.git && asdf install aws-vault <version>
Config, usage, tips and tricks are available in the USAGE.md file.
The supported vaulting backends are:
- macOS Keychain
- Windows Credential Manager
- Secret Service (Gnome Keyring, KWallet)
- KWallet
- Pass
- Encrypted file
Use the --backend
flag or AWS_VAULT_BACKEND
environment variable to specify.
# Store AWS credentials for the "jonsmith" profile
$ aws-vault add jonsmith
Enter Access Key Id: ABDCDEFDASDASF
Enter Secret Key: %%%
# Execute a command (using temporary credentials)
$ aws-vault exec jonsmith -- aws s3 ls
bucket_1
bucket_2
# open a browser window and login to the AWS Console
$ aws-vault login jonsmith
# List credentials
$ aws-vault list
Profile Credentials Sessions
======= =========== ========
jonsmith jonsmith -
# Start a subshell with temporary credentials
$ aws-vault exec jonsmith
Starting subshell /bin/zsh, use `exit` to exit the subshell
$ aws s3 ls
bucket_1
bucket_2
aws-vault
uses Amazon's STS service to generate temporary credentials via the GetSessionToken
or AssumeRole
API calls. These expire in a short period of time, so the risk of leaking credentials is reduced.
AWS Vault then exposes the temporary credentials to the sub-process in one of two ways
- Environment variables are written to the sub-process. Notice in the below example how the AWS credentials get written out
$ aws-vault exec jonsmith -- env | grep AWS AWS_VAULT=jonsmith AWS_DEFAULT_REGION=us-east-1 AWS_REGION=us-east-1 AWS_ACCESS_KEY_ID=%%% AWS_SECRET_ACCESS_KEY=%%% AWS_SESSION_TOKEN=%%% AWS_CREDENTIAL_EXPIRATION=2020-04-16T11:16:27Z
- Local metadata server is started. This approach has the advantage that anything that uses Amazon's SDKs will automatically refresh credentials as needed, so session times can be as short as possible.
$ aws-vault exec --server jonsmith -- env | grep AWS AWS_VAULT=jonsmith AWS_DEFAULT_REGION=us-east-1 AWS_REGION=us-east-1 AWS_CONTAINER_CREDENTIALS_FULL_URI=%%% AWS_CONTAINER_AUTHORIZATION_TOKEN=%%%
The default is to use environment variables, but you can opt-in to the local instance metadata server with the --server
flag on the exec
command.
Best-practice is to create Roles to delegate permissions. For security, you should also require that users provide a one-time key generated from a multi-factor authentication (MFA) device.
First you'll need to create the users and roles in IAM, as well as setup an MFA device. You can then set up IAM roles to enforce MFA.
Here's an example configuration using roles and MFA:
[default]
region = us-east-1
[profile jonsmith]
mfa_serial = arn:aws:iam::111111111111:mfa/jonsmith
[profile foo-readonly]
source_profile = jonsmith
role_arn = arn:aws:iam::22222222222:role/ReadOnly
[profile foo-admin]
source_profile = jonsmith
role_arn = arn:aws:iam::22222222222:role/Administrator
mfa_serial = arn:aws:iam::111111111111:mfa/jonsmith
[profile bar-role1]
source_profile = jonsmith
role_arn = arn:aws:iam::333333333333:role/Role1
mfa_serial = arn:aws:iam::111111111111:mfa/jonsmith
[profile bar-role2]
source_profile = bar-role1
role_arn = arn:aws:iam::333333333333:role/Role2
mfa_serial = arn:aws:iam::111111111111:mfa/jonsmith
Here's what you can expect from aws-vault
Command | Credentials | Cached | MFA |
---|---|---|---|
aws-vault exec jonsmith --no-session |
Long-term credentials | No | No |
aws-vault exec jonsmith |
session-token | session-token | Yes |
aws-vault exec foo-readonly |
role | No | No |
aws-vault exec foo-admin |
session-token + role | session-token | Yes |
aws-vault exec foo-admin --duration=2h |
role | role | Yes |
aws-vault exec bar-role2 |
session-token + role + role | session-token | Yes |
aws-vault exec bar-role2 --no-session |
role + role | role | Yes |
The macOS release builds are code-signed to avoid extra prompts in Keychain. You can verify this with:
$ codesign --verify --verbose $(which aws-vault)
If you are developing or compiling the aws-vault binary yourself, you can generate a self-signed certificate by accessing Keychain Access > Certificate Assistant > Create Certificate -> Certificate Type: Code Signing. You can then sign your binary with:
$ go build .
$ codesign --sign <Name of certificate created above> ./aws-vault
- https://github.com/pda/aws-keychain
- https://docs.aws.amazon.com/IAM/latest/UserGuide/MFAProtectedAPI.html
- https://docs.aws.amazon.com/IAM/latest/UserGuide/IAMBestPractices.html#create-iam-users
- https://github.com/makethunder/awsudo
- https://github.com/AdRoll/hologram
- https://github.com/realestate-com-au/credulous
- https://github.com/dump247/aws-mock-metadata
- https://boto.readthedocs.org/en/latest/boto_config_tut.html