A simple lib to encrypt, decrypt data with Public-key cryptography. Now ED25519, ECDSA, and RSA are supported.
Features:
- Use the existing ssh key pairs and github public key url, no need to generate new key pair.
- Auto find the right key to decrypt.
- Encrypt data for multiple recipients.
- ssh-agent like server to cache the private key passphrase.
- Optional signing for integrity check.
- Lower overhead and small wire format.
- Streamlined design for large file encryption.
Use it as lib or CLI tool.
Go to the release page to download the CLI binary.
If you have golang installed:
go install github.com/ysmood/whisper@latest
Here is a simple example to encrypt and decrypt for yourself. The encrypted data can only be decrypted by your private key.
# Skip this if already have a key pair.
whisper -gen-key ~/.ssh/id_ed25519
echo 'hello world!' > hello.txt
# Encrypt file hello.txt to a whisper file hello.wsp .
# It will auto start a agent server to cache the passphrase so you don't have to retype it.
whisper -e='~/.ssh/id_ed25519.pub' hello.txt > hello.wsp
# Decrypt file encrypted to stdout.
whisper hello.wsp
# hello world!
# Piping is also supported.
cat hello.txt | whisper -e='~/.ssh/id_ed25519.pub' > hello.wsp
cat hello.wsp | whisper
You can also use a url for a remote public key file.
Here we use my public key on github to encrypt the data.
Github generally exposes your public key file at @https://github.com/{YOUR_ID}.keys
.
# For github, you can use the user id directly.
# Here the user id is 'ysmood'.
whisper -e='@ysmood' hello.txt > hello.wsp
# For other sites you can use the full url.
whisper -e='@https://gitlab.com/jack.keys' hello.txt > hello.wsp
# A authorized_keys file may contain several keys,
# you can add a suffix to select a specific key to encrypt.
# 'ed25519' is the substring of the key we want to use.
whisper -e='@ysmood:ed25519' hello.txt > hello.wsp
# Encrypt content for multiple recipients, such as Jack and Tim.
whisper -e='@jack' -e='@tim' hello.txt > hello.wsp
# Decrypt on Jack's machine, the machine has Jack's private key.
whisper hello.wsp
# To sign and encrypt the data, you can use the `-s` flag.
whisper -s='@ysmood' -e='@jack' hello.txt > hello.wsp
# Print the meta data of the whisper file to see who is the sender.
whisper -m hello.wsp
# To verify the signature and decrypt the data.
# If -s flag is not provided, it will only decrypt the data.
whisper -s='@ysmood' hello.wsp
The input can also be file url.
Create a json file whisper.json
with the content:
{
"$schema": "https://raw.githubusercontent.com/ysmood/whisper/main/batch_schema.json",
"files": {
"secrets/backend": ["@jack"],
"secrets/db.txt": ["@tom"]
},
"outDir": "vault"
}
Then run:
whisper -be whisper.json
It will encrypt the files in folder secrets/backend
for Jack and encrypt file secrets/db.txt
for Tom,
they will be saved to folder vault
.
To decrypt in batch, run:
whisper -bd whisper.json
Or you can decrypt a single file directly:
whisper vault/secrets/db.txt.wsp
If you have a lot of members to manage, the batch config file supports grouping,
the $
prefix means a group name:
{
"$schema": "https://raw.githubusercontent.com/ysmood/whisper/main/batch_schema.json",
"groups": {
"$frontend": ["@mike", "@tim"],
"$backend": ["$frontend", "@jack"] // group reference can be recursive
},
"admins": ["@ci-robot"], // the users who can decrypt all the files
"files": {
"secrets/backend": ["$backend"], // the path can be a directory secrets/backend
"secrets/frontend": ["$frontend", "@tom"],
"secrets/frontend/mongo": ["@joy"] // add the user to the file that is already set by previous line
},
"outDir": "vault"
}
The agent server is for caching the private key passphrase, so you don't have to retype it every time. To start the agent server, run:
# Add the key to the agent.
whisper -add ~/.ssh/id_ed25519
To remove the key from the agent, run:
whisper -clear-cache
When using the -gen-key
flag, it will ask you whether to generate a deterministic key or not,
if you enter yes
, the key will be generated based on the passphrase itself,
so that you can regenerate the same private key on any device as long as you remember the passphrase.
This is useful if you don't want to backup the key, but it's less secure than random key, you must use a strong passphrase.