cloudchain is designed to make it easy to store and retrieve secrets using AWS. cloudchain relies on the AWS Identity and Access Management (IAM) Key Management Service (KMS) to securely store and manage access to encryption keys, and stores the encrypted secret in a DynamoDB table.
There are three steps in the process. First, cloudchain retrieves an encryption key from KMS and uses it to encrypt the plain text secret. The boto3 library used returns a dictionary with a "Ciphertext" entry containing the encrypted key. cloudchain then base64 encodes the encrypted key into a string, and saves that string to a DynamoDB table named, by default, "safedb".
Install with pip:
pip install cloudchain
A new encryption key should be created in KMS. Using the console makes this easy, and sets up permissions to the key using IAM users or Roles. IAM users should be given permission individually, while instances launching in AWS should be identified by a role.
A new DynamoDB table should be created as well. Run this command using the AWS CLI tools:
aws dynamodb create-table \
--table-name safedb \
--attribute-definitions \
AttributeName=Service,AttributeType=S \
AttributeName=Username,AttributeType=S \
--key-schema \
AttributeName=Service,KeyType=HASH \
AttributeName=Username,KeyType=RANGE \
--provisioned-throughput \
ReadCapacityUnits=1,WriteCapacityUnits=1
This will create the DynamoDB table with two attributes: Service and Username. cloudchain assumes that the combination of a service and a username will require a unique secret. The first time a secret is written to the table the third "Secret" attribute is created.
The cloudchain cli, cchain
, looks for a configuration file at ~/.cchainrc
. This should be a standard Python ConfigParser compatible file with the following format:
[dynamo]
region_name = us-east-1
endpoint_url = https://dynamodb.us-east-1.amazonaws.com
tablename = safedb
[IAMKMS]
keyalias = alias/key
The "keyalias" should be the name of the KMS encryption key created during the setup, prefixed by "alias/". The "endpoint_url" should point at the closest HTTPS endpoint, or at localhost if using a local development environment.
Both the test.py
unit tests and the cchain
cli import cloudchain.py
. After importing, cloudchain expects four variables to be set:
- region_name
- endpoint_url
- tablename
- keyalias
These variables can be set in the code directly, or imported from the config file by calling cloudchain.read_configfile()
.
After importing, cloudchain can be called on to encrypt and decrypt secrets:
To Encrypt:
cloudchain.savecreds(args['service'], args['user'], args['save'])
To Decrypt:
cloudchain.readcreds(args['service'], args['user'])
Where:
- service = The service name the username and secret are associated with
- user = The username
- save = The unencrypted secret to encrypt
The command line script supports five arguments:
-h, --help show this help message and exit
-u USER, --user USER User name
-e SERVICE, --service SERVICE
Service or application
-s SAVE, --save SAVE Save password to the safe
-r, --read Read password from the safe
- The
--save
and--read
arguments are mutually exclusive, and cannot be used at the same time. --save
expects the unencrypted secret as an argument, and requires both--user
and--service
flags.--user
expects the username as an argument.--service
expects the service name as an argument.--read
requires no arguments, and requires both--user
and--service
flags.
To save a secret:
cchain -u testuser --service testservice --save testsecreet
To retrieve a secret:
cchain -u testuser --service testservice --read