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chatmail-core/benches/decrypting.rs

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Rust
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//! Benchmarks for message decryption,
//! comparing decryption of symmetrically-encrypted messages
//! to decryption of asymmetrically-encrypted messages.
//!
//! Call with
//!
//! ```text
//! cargo bench --bench decrypting --features="internals"
//! ```
//!
//! or, if you want to only run e.g. the 'Decrypt a symmetrically encrypted message' benchmark:
//!
//! ```text
//! cargo bench --bench decrypting --features="internals" -- 'Decrypt a symmetrically encrypted message'
//! ```
//!
//! You can also pass a substring.
//! So, you can run all 'Decrypt and parse' benchmarks with:
//!
//! ```text
//! cargo bench --bench decrypting --features="internals" -- 'Decrypt and parse'
//! ```
//!
//! Symmetric decryption has to try out all known secrets,
//! You can benchmark this by adapting the `NUM_SECRETS` variable.
use std::hint::black_box;
use criterion::{Criterion, criterion_group, criterion_main};
use deltachat::internals_for_benches::create_broadcast_secret;
use deltachat::internals_for_benches::create_dummy_keypair;
use deltachat::internals_for_benches::save_broadcast_secret;
use deltachat::{
Events,
chat::ChatId,
config::Config,
context::Context,
internals_for_benches::key_from_asc,
internals_for_benches::parse_and_get_text,
internals_for_benches::store_self_keypair,
pgp::{KeyPair, SeipdVersion, decrypt, pk_encrypt, symm_encrypt_message},
stock_str::StockStrings,
};
use rand::{Rng, rng};
use tempfile::tempdir;
const NUM_SECRETS: usize = 500;
async fn create_context() -> Context {
let dir = tempdir().unwrap();
let dbfile = dir.path().join("db.sqlite");
let context = Context::new(dbfile.as_path(), 100, Events::new(), StockStrings::new())
.await
.unwrap();
context
.set_config(Config::ConfiguredAddr, Some("bob@example.net"))
.await
.unwrap();
let secret = key_from_asc(include_str!("../test-data/key/bob-secret.asc")).unwrap();
let public = secret.signed_public_key();
let key_pair = KeyPair { public, secret };
store_self_keypair(&context, &key_pair)
.await
.expect("Failed to save key");
context
}
fn criterion_benchmark(c: &mut Criterion) {
let mut group = c.benchmark_group("Decrypt");
// ===========================================================================================
// Benchmarks for decryption only, without any other parsing
// ===========================================================================================
group.sample_size(10);
group.bench_function("Decrypt a symmetrically encrypted message", |b| {
let plain = generate_plaintext();
let secrets = generate_secrets();
let encrypted = tokio::runtime::Runtime::new().unwrap().block_on(async {
let secret = secrets[NUM_SECRETS / 2].clone();
symm_encrypt_message(
plain.clone(),
create_dummy_keypair("alice@example.org").unwrap().secret,
black_box(&secret),
true,
)
.await
.unwrap()
});
b.iter(|| {
let mut msg =
decrypt(encrypted.clone().into_bytes(), &[], black_box(&secrets)).unwrap();
let decrypted = msg.as_data_vec().unwrap();
assert_eq!(black_box(decrypted), plain);
});
});
group.bench_function("Decrypt a public-key encrypted message", |b| {
let plain = generate_plaintext();
let key_pair = create_dummy_keypair("alice@example.org").unwrap();
let secrets = generate_secrets();
let encrypted = tokio::runtime::Runtime::new().unwrap().block_on(async {
pk_encrypt(
plain.clone(),
vec![black_box(key_pair.public.clone())],
key_pair.secret.clone(),
true,
true,
SeipdVersion::V2,
)
.await
.unwrap()
});
b.iter(|| {
let mut msg = decrypt(
encrypted.clone().into_bytes(),
std::slice::from_ref(&key_pair.secret),
black_box(&secrets),
)
.unwrap();
let decrypted = msg.as_data_vec().unwrap();
assert_eq!(black_box(decrypted), plain);
});
});
// ===========================================================================================
// Benchmarks for the whole parsing pipeline, incl. decryption (but excl. receive_imf())
// ===========================================================================================
let rt = tokio::runtime::Runtime::new().unwrap();
let mut secrets = generate_secrets();
// "secret" is the shared secret that was used to encrypt text_symmetrically_encrypted.eml.
// Put it into the middle of our secrets:
secrets[NUM_SECRETS / 2] = "secret".to_string();
let context = rt.block_on(async {
let context = create_context().await;
for (i, secret) in secrets.iter().enumerate() {
save_broadcast_secret(&context, ChatId::new(10 + i as u32), secret)
.await
.unwrap();
}
context
});
group.bench_function("Decrypt and parse a symmetrically encrypted message", |b| {
b.to_async(&rt).iter(|| {
let ctx = context.clone();
async move {
let text = parse_and_get_text(
&ctx,
include_bytes!("../test-data/message/text_symmetrically_encrypted.eml"),
)
.await
.unwrap();
assert_eq!(text, "Symmetrically encrypted message");
}
});
});
group.bench_function("Decrypt and parse a public-key encrypted message", |b| {
b.to_async(&rt).iter(|| {
let ctx = context.clone();
async move {
let text = parse_and_get_text(
&ctx,
include_bytes!("../test-data/message/text_from_alice_encrypted.eml"),
)
.await
.unwrap();
assert_eq!(text, "hi");
}
});
});
group.finish();
}
fn generate_secrets() -> Vec<String> {
let secrets: Vec<String> = (0..NUM_SECRETS)
.map(|_| create_broadcast_secret())
.collect();
secrets
}
fn generate_plaintext() -> Vec<u8> {
let mut plain: Vec<u8> = vec![0; 500];
rng().fill(&mut plain[..]);
plain
}
criterion_group!(benches, criterion_benchmark);
criterion_main!(benches);
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