#![feature(async_fn_in_trait)]
#![feature(return_position_impl_trait_in_trait)]
// should be stabilized soon https://github.com/rust-lang/rust/pull/115822
mod bayou;
mod config;
mod cryptoblob;
mod imap;
mod k2v_util;
mod lmtp;
mod login;
mod mail;
mod server;
mod storage;
mod time;
use std::path::PathBuf;
use anyhow::{bail, Result};
use clap::{Parser, Subcommand};
use rand::prelude::*;
use config::*;
use cryptoblob::*;
use login::{static_provider::*, *};
use server::Server;
#[derive(Parser, Debug)]
#[clap(author, version, about, long_about = None)]
struct Args {
#[clap(subcommand)]
command: Command,
}
#[derive(Subcommand, Debug)]
enum Command {
/// Runs the IMAP+LMTP server daemon
Server {
#[clap(short, long, env = "CONFIG_FILE", default_value = "aerogramme.toml")]
config_file: PathBuf,
},
/// TEST TEST TEST
Test {
#[clap(short, long, env = "CONFIG_FILE", default_value = "aerogramme.toml")]
config_file: PathBuf,
},
/// Initializes key pairs for a user and adds a key decryption password
FirstLogin {
#[clap(flatten)]
creds: StorageCredsArgs,
#[clap(flatten)]
user_secrets: UserSecretsArgs,
},
/// Initializes key pairs for a user and dumps keys to stdout for usage with static
/// login provider
InitializeLocalKeys {
#[clap(flatten)]
creds: StorageCredsArgs,
},
/// Adds a key decryption password for a user
AddPassword {
#[clap(flatten)]
creds: StorageCredsArgs,
#[clap(flatten)]
user_secrets: UserSecretsArgs,
/// Automatically generate password
#[clap(short, long)]
gen: bool,
},
/// Deletes a key decription password for a user
DeletePassword {
#[clap(flatten)]
creds: StorageCredsArgs,
#[clap(flatten)]
user_secrets: UserSecretsArgs,
/// Allow to delete all passwords
#[clap(long)]
allow_delete_all: bool,
},
/// Dumps all encryption keys for user
ShowKeys {
#[clap(flatten)]
creds: StorageCredsArgs,
#[clap(flatten)]
user_secrets: UserSecretsArgs,
},
}
#[derive(Parser, Debug)]
struct StorageCredsArgs {
/// Name of the region to use
#[clap(short = 'r', long, env = "AWS_REGION")]
region: String,
/// Url of the endpoint to connect to for K2V
#[clap(short = 'k', long, env = "K2V_ENDPOINT")]
k2v_endpoint: String,
/// Url of the endpoint to connect to for S3
#[clap(short = 's', long, env = "S3_ENDPOINT")]
s3_endpoint: String,
/// Access key ID
#[clap(short = 'A', long, env = "AWS_ACCESS_KEY_ID")]
aws_access_key_id: String,
/// Access key ID
#[clap(short = 'S', long, env = "AWS_SECRET_ACCESS_KEY")]
aws_secret_access_key: String,
/// Bucket name
#[clap(short = 'b', long, env = "BUCKET")]
bucket: String,
}
#[derive(Parser, Debug)]
struct UserSecretsArgs {
/// User secret
#[clap(short = 'U', long, env = "USER_SECRET")]
user_secret: String,
/// Alternate user secrets (comma-separated list of strings)
#[clap(long, env = "ALTERNATE_USER_SECRETS", default_value = "")]
alternate_user_secrets: String,
}
#[tokio::main]
async fn main() -> Result<()> {
if std::env::var("RUST_LOG").is_err() {
std::env::set_var("RUST_LOG", "main=info,aerogramme=info,k2v_client=info")
}
// Abort on panic (same behavior as in Go)
std::panic::set_hook(Box::new(|panic_info| {
eprintln!("{}", panic_info);
eprintln!("{:?}", backtrace::Backtrace::new());
std::process::abort();
}));
tracing_subscriber::fmt::init();
let args = Args::parse();
match args.command {
Command::Server { config_file } => {
let config = read_config(config_file)?;
let server = Server::new(config).await?;
server.run().await?;
}
Command::Test { config_file } => {
let config = read_config(config_file)?;
let _server = Server::new(config).await?;
//server.test().await?;
}
Command::FirstLogin {
creds,
user_secrets,
} => {
let creds = make_storage_creds(creds);
let user_secrets = make_user_secrets(user_secrets);
println!("Please enter your password for key decryption.");
println!("If you are using LDAP login, this must be your LDAP password.");
println!("If you are using the static login provider, enter any password, and this will also become your password for local IMAP access.");
let password = rpassword::prompt_password("Enter password: ")?;
let password_confirm = rpassword::prompt_password("Confirm password: ")?;
if password != password_confirm {
bail!("Passwords don't match.");
}
CryptoKeys::init(&creds, &user_secrets, &password).await?;
println!("");
println!("Cryptographic key setup is complete.");
println!("");
println!("If you are using the static login provider, add the following section to your .toml configuration file:");
println!("");
dump_config(&password, &creds);
}
Command::InitializeLocalKeys { creds } => {
let creds = make_storage_creds(creds);
println!("Please enter a password for local IMAP access.");
println!("This password is not used for key decryption, your keys will be printed below (do not lose them!)");
println!(
"If you plan on using LDAP login, stop right here and use `first-login` instead"
);
let password = rpassword::prompt_password("Enter password: ")?;
let password_confirm = rpassword::prompt_password("Confirm password: ")?;
if password != password_confirm {
bail!("Passwords don't match.");
}
let master = gen_key();
let (_, secret) = gen_keypair();
let keys = CryptoKeys::init_without_password(&creds, &master, &secret).await?;
println!("");
println!("Cryptographic key setup is complete.");
println!("");
println!("Add the following section to your .toml configuration file:");
println!("");
dump_config(&password, &creds);
dump_keys(&keys);
}
Command::AddPassword {
creds,
user_secrets,
gen,
} => {
let creds = make_storage_creds(creds);
let user_secrets = make_user_secrets(user_secrets);
let existing_password =
rpassword::prompt_password("Enter existing password to decrypt keys: ")?;
let new_password = if gen {
let password = base64::encode_config(
&u128::to_be_bytes(thread_rng().gen())[..10],
base64::URL_SAFE_NO_PAD,
);
println!("Your new password: {}", password);
println!("Keep it safe!");
password
} else {
let password = rpassword::prompt_password("Enter new password: ")?;
let password_confirm = rpassword::prompt_password("Confirm new password: ")?;
if password != password_confirm {
bail!("Passwords don't match.");
}
password
};
let keys = CryptoKeys::open(&creds, &user_secrets, &existing_password).await?;
keys.add_password(&creds, &user_secrets, &new_password)
.await?;
println!("");
println!("New password added successfully.");
}
Command::DeletePassword {
creds,
user_secrets,
allow_delete_all,
} => {
let creds = make_storage_creds(creds);
let user_secrets = make_user_secrets(user_secrets);
let existing_password = rpassword::prompt_password("Enter password to delete: ")?;
let keys = match allow_delete_all {
true => Some(CryptoKeys::open(&creds, &user_secrets, &existing_password).await?),
false => None,
};
CryptoKeys::delete_password(&creds, &existing_password, allow_delete_all).await?;
println!("");
println!("Password was deleted successfully.");
if let Some(keys) = keys {
println!("As a reminder, here are your cryptographic keys:");
dump_keys(&keys);
}
}
Command::ShowKeys {
creds,
user_secrets,
} => {
let creds = make_storage_creds(creds);
let user_secrets = make_user_secrets(user_secrets);
let existing_password = rpassword::prompt_password("Enter key decryption password: ")?;
let keys = CryptoKeys::open(&creds, &user_secrets, &existing_password).await?;
dump_keys(&keys);
}
}
Ok(())
}
fn make_storage_creds(c: StorageCredsArgs) -> StorageCredentials {
let s3_region = Region {
name: c.region.clone(),
endpoint: c.s3_endpoint,
};
let k2v_region = Region {
name: c.region,
endpoint: c.k2v_endpoint,
};
StorageCredentials {
k2v_region,
s3_region,
aws_access_key_id: c.aws_access_key_id,
aws_secret_access_key: c.aws_secret_access_key,
bucket: c.bucket,
}
}
fn make_user_secrets(c: UserSecretsArgs) -> UserSecrets {
UserSecrets {
user_secret: c.user_secret,
alternate_user_secrets: c
.alternate_user_secrets
.split(',')
.map(|x| x.trim())
.filter(|x| !x.is_empty())
.map(|x| x.to_string())
.collect(),
}
}
fn dump_config(password: &str, creds: &StorageCredentials) {
println!("[login_static.users.<username>]");
println!(
"password = \"{}\"",
hash_password(password).expect("unable to hash password")
);
println!("aws_access_key_id = \"{}\"", creds.aws_access_key_id);
println!(
"aws_secret_access_key = \"{}\"",
creds.aws_secret_access_key
);
}
fn dump_keys(keys: &CryptoKeys) {
println!("master_key = \"{}\"", base64::encode(&keys.master));
println!("secret_key = \"{}\"", base64::encode(&keys.secret));
}