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esp-hal/esp32h2-hal/examples/aes.rs
Juraj Sadel ca4e1b3a26
(G)DMA AES working mode support (#821) 
* Add (G)DMA AES initial support

* Modify AES examples to the driver changes

* Add DMA examples(tests)

* fmt

* changelog

* review changes

* typo
2023-09-27 09:08:14 -07:00

86 lines
2.5 KiB
Rust
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//! Encrypt/Decrypt a message using AES.
#![no_std]
#![no_main]
use aes::{
cipher::{generic_array::GenericArray, BlockDecrypt, BlockEncrypt, KeyInit},
Aes128 as Aes128SW,
};
use esp32h2_hal::{
aes::{Aes, Mode},
clock::ClockControl,
peripherals::Peripherals,
prelude::*,
systimer::SystemTimer,
};
use esp_backtrace as _;
use esp_println::println;
#[entry]
fn main() -> ! {
let peripherals = Peripherals::take();
let system = peripherals.PCR.split();
let _clocks = ClockControl::boot_defaults(system.clock_control).freeze();
let mut aes = Aes::new(peripherals.AES);
let keytext = "SUp4SeCp@sSw0rd".as_bytes();
let plaintext = "message".as_bytes();
// create an array with aes128 key size
let mut keybuf = [0_u8; 16];
keybuf[..keytext.len()].copy_from_slice(keytext);
// create an array with aes block size
let mut block_buf = [0_u8; 16];
block_buf[..plaintext.len()].copy_from_slice(plaintext);
let mut block = block_buf.clone();
let pre_hw_encrypt = SystemTimer::now();
aes.process(&mut block, Mode::Encryption128, &keybuf);
let post_hw_encrypt = SystemTimer::now();
println!(
"it took {} cycles for hw encrypt",
post_hw_encrypt - pre_hw_encrypt
);
let hw_encrypted = block.clone();
let pre_hw_decrypt = SystemTimer::now();
aes.process(&mut block, Mode::Decryption128, &keybuf);
let post_hw_decrypt = SystemTimer::now();
println!(
"it took {} cycles for hw decrypt",
post_hw_decrypt - pre_hw_decrypt
);
let hw_decrypted = block;
let key = GenericArray::from(keybuf);
let mut block = GenericArray::from(block_buf);
let cipher = Aes128SW::new(&key);
let pre_sw_encrypt = SystemTimer::now();
cipher.encrypt_block(&mut block);
let post_sw_encrypt = SystemTimer::now();
println!(
"it took {} cycles for sw encrypt",
post_sw_encrypt - pre_sw_encrypt
);
let sw_encrypted = block.clone();
let pre_sw_decrypt = SystemTimer::now();
cipher.decrypt_block(&mut block);
let post_sw_decrypt = SystemTimer::now();
println!(
"it took {} cycles for sw decrypt",
post_sw_decrypt - pre_sw_decrypt
);
let sw_decrypted = block;
assert!(eq(&sw_encrypted.into(), &hw_encrypted));
assert!(eq(&sw_decrypted.into(), &hw_decrypted));
println!("done");
loop {}
}
fn eq(slice1: &[u8; 16], slice2: &[u8; 16]) -> bool {
slice1.iter().zip(slice2.iter()).all(|(a, b)| a == b)
}
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