// required-features: hash #![no_std] #![no_main] #[path = "../common.rs"] mod common; use common::*; use embassy_executor::Spawner; use embassy_stm32::dma::NoDma; use embassy_stm32::hash::*; use embassy_stm32::{bind_interrupts, hash, peripherals}; use hmac::{Hmac, Mac}; use sha2::{Digest, Sha224, Sha256}; use {defmt_rtt as _, panic_probe as _}; type HmacSha256 = Hmac; #[cfg(any(feature = "stm32l4a6zg", feature = "stm32h755zi", feature = "stm32h753zi"))] bind_interrupts!(struct Irqs { HASH_RNG => hash::InterruptHandler; }); #[cfg(any( feature = "stm32wba52cg", feature = "stm32l552ze", feature = "stm32h563zi", feature = "stm32h503rb", feature = "stm32u5a5zj", feature = "stm32u585ai", feature = "stm32h7s3l8" ))] bind_interrupts!(struct Irqs { HASH => hash::InterruptHandler; }); #[embassy_executor::main] async fn main(_spawner: Spawner) { let p: embassy_stm32::Peripherals = init(); let mut hw_hasher = Hash::new(p.HASH, NoDma, Irqs); let test_1: &[u8] = b"as;dfhaslfhas;oifvnasd;nifvnhasd;nifvhndlkfghsd;nvfnahssdfgsdafgsasdfasdfasdfasdfasdfghjklmnbvcalskdjghalskdjgfbaslkdjfgbalskdjgbalskdjbdfhsdfhsfghsfghfgh"; let test_2: &[u8] = b"fdhalksdjfhlasdjkfhalskdjfhgal;skdjfgalskdhfjgalskdjfglafgadfgdfgdafgaadsfgfgdfgadrgsyfthxfgjfhklhjkfgukhulkvhlvhukgfhfsrghzdhxyfufynufyuszeradrtydyytserr"; let test_3: &[u8] = b"a.ewtkluGWEBR.KAJRBTA,RMNRBG,FDMGB.kger.tkasjrbt.akrjtba.krjtba.ktmyna,nmbvtyliasd;gdrtba,sfvs.kgjzshd.gkbsr.tksejb.SDkfBSE.gkfgb>ESkfbSE>gkJSBESE>kbSE>fk"; // Start an SHA-256 digest. let mut sha256context = hw_hasher.start(Algorithm::SHA256, DataType::Width8, None); hw_hasher.update_blocking(&mut sha256context, test_1); // Interrupt the SHA-256 digest to compute an SHA-224 digest. let mut sha224context = hw_hasher.start(Algorithm::SHA224, DataType::Width8, None); hw_hasher.update_blocking(&mut sha224context, test_3); let mut sha224_digest_buffer: [u8; 28] = [0; 28]; let _ = hw_hasher.finish_blocking(sha224context, &mut sha224_digest_buffer); // Finish the SHA-256 digest. hw_hasher.update_blocking(&mut sha256context, test_2); let mut sha256_digest_buffer: [u8; 32] = [0; 32]; let _ = hw_hasher.finish_blocking(sha256context, &mut sha256_digest_buffer); // Compute the SHA-256 digest in software. let mut sw_sha256_hasher = Sha256::new(); sw_sha256_hasher.update(test_1); sw_sha256_hasher.update(test_2); let sw_sha256_digest = sw_sha256_hasher.finalize(); //Compute the SHA-224 digest in software. let mut sw_sha224_hasher = Sha224::new(); sw_sha224_hasher.update(test_3); let sw_sha224_digest = sw_sha224_hasher.finalize(); // Compare the SHA-256 digests. info!("Hardware SHA-256 Digest: {:?}", sha256_digest_buffer); info!("Software SHA-256 Digest: {:?}", sw_sha256_digest[..]); defmt::assert!(sha256_digest_buffer == sw_sha256_digest[..]); // Compare the SHA-224 digests. info!("Hardware SHA-256 Digest: {:?}", sha224_digest_buffer); info!("Software SHA-256 Digest: {:?}", sw_sha224_digest[..]); defmt::assert!(sha224_digest_buffer == sw_sha224_digest[..]); let hmac_key: [u8; 64] = [0x55; 64]; // Compute HMAC in hardware. let mut sha256hmac_context = hw_hasher.start(Algorithm::SHA256, DataType::Width8, Some(&hmac_key)); hw_hasher.update_blocking(&mut sha256hmac_context, test_1); hw_hasher.update_blocking(&mut sha256hmac_context, test_2); let mut hw_hmac: [u8; 32] = [0; 32]; hw_hasher.finish_blocking(sha256hmac_context, &mut hw_hmac); // Compute HMAC in software. let mut sw_mac = HmacSha256::new_from_slice(&hmac_key).unwrap(); sw_mac.update(test_1); sw_mac.update(test_2); let sw_hmac = sw_mac.finalize().into_bytes(); info!("Hardware HMAC: {:?}", hw_hmac); info!("Software HMAC: {:?}", sw_hmac[..]); defmt::assert!(hw_hmac == sw_hmac[..]); info!("Test OK"); cortex_m::asm::bkpt(); }