// Copyright 2021 The Matrix.org Foundation C.I.C. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. //! This crate implements methods to parse and generate QR codes that are used //! for interactive verification in [Matrix](https://matrix.org/). //! //! It implements the QR format defined in the Matrix [spec]. //! //! [spec]: https://spec.matrix.org/unstable/client-server-api/#qr-code-format //! //! ```no_run //! # use matrix_qrcode::{QrVerification, DecodingError}; //! # fn main() -> Result<(), DecodingError> { //! use image; //! //! let image = image::open("/path/to/my/image.png").unwrap(); //! let result = QrVerification::from_image(image)?; //! # Ok(()) //! # } //! ``` #![deny( missing_debug_implementations, dead_code, trivial_casts, trivial_numeric_casts, unused_extern_crates, unused_import_braces, unused_qualifications )] mod error; mod types; mod utils; pub use error::{DecodingError, EncodingError}; #[cfg(feature = "decode_image")] #[cfg_attr(feature = "docs", doc(cfg(decode_image)))] pub use image; pub use qrcode; #[cfg(feature = "decode_image")] #[cfg_attr(feature = "docs", doc(cfg(decode_image)))] pub use rqrr; pub use types::{ QrVerification, SelfVerificationData, SelfVerificationNoMasterKey, VerificationData, }; #[cfg(test)] mod test { #[cfg(feature = "decode_image")] use std::{convert::TryFrom, io::Cursor}; #[cfg(feature = "decode_image")] use image::{ImageFormat, Luma}; #[cfg(feature = "decode_image")] use qrcode::QrCode; #[cfg(feature = "decode_image")] use crate::utils::decode_qr; use crate::{DecodingError, QrVerification}; #[cfg(feature = "decode_image")] static VERIFICATION: &[u8; 4277] = include_bytes!("../data/verification.png"); #[cfg(feature = "decode_image")] static SELF_VERIFICATION: &[u8; 1467] = include_bytes!("../data/self-verification.png"); #[cfg(feature = "decode_image")] static SELF_NO_MASTER: &[u8; 1775] = include_bytes!("../data/self-no-master.png"); #[test] #[cfg(feature = "decode_image")] fn decode_qr_test() { let image = Cursor::new(VERIFICATION); let image = image::load(image, ImageFormat::Png).unwrap().to_luma8(); decode_qr(image).expect("Couldn't decode the QR code"); } #[test] #[cfg(feature = "decode_image")] fn decode_test() { let image = Cursor::new(VERIFICATION); let image = image::load(image, ImageFormat::Png).unwrap().to_luma8(); let result = QrVerification::try_from(image).unwrap(); assert!(matches!(result, QrVerification::Verification(_))); } #[test] #[cfg(feature = "decode_image")] fn decode_encode_cycle() { let image = Cursor::new(VERIFICATION); let image = image::load(image, ImageFormat::Png).unwrap(); let result = QrVerification::from_image(image).unwrap(); assert!(matches!(result, QrVerification::Verification(_))); let encoded = result.to_qr_code().unwrap(); let image = encoded.render::>().build(); let second_result = QrVerification::try_from(image).unwrap(); assert_eq!(result, second_result); let bytes = result.to_bytes().unwrap(); let third_result = QrVerification::from_bytes(bytes).unwrap(); assert_eq!(result, third_result); } #[test] #[cfg(feature = "decode_image")] fn decode_encode_cycle_self() { let image = Cursor::new(SELF_VERIFICATION); let image = image::load(image, ImageFormat::Png).unwrap(); let result = QrVerification::try_from(image).unwrap(); assert!(matches!(result, QrVerification::SelfVerification(_))); let encoded = result.to_qr_code().unwrap(); let image = encoded.render::>().build(); let second_result = QrVerification::from_luma(image).unwrap(); assert_eq!(result, second_result); let bytes = result.to_bytes().unwrap(); let third_result = QrVerification::from_bytes(bytes).unwrap(); assert_eq!(result, third_result); } #[test] #[cfg(feature = "decode_image")] fn decode_encode_cycle_self_no_master() { let image = Cursor::new(SELF_NO_MASTER); let image = image::load(image, ImageFormat::Png).unwrap(); let result = QrVerification::from_image(image).unwrap(); assert!(matches!(result, QrVerification::SelfVerificationNoMasterKey(_))); let encoded = result.to_qr_code().unwrap(); let image = encoded.render::>().build(); let second_result = QrVerification::try_from(image).unwrap(); assert_eq!(result, second_result); let bytes = result.to_bytes().unwrap(); let third_result = QrVerification::try_from(bytes).unwrap(); assert_eq!(result, third_result); } #[test] #[cfg(feature = "decode_image")] fn decode_invalid_qr() { let qr = QrCode::new(b"NonMatrixCode").expect("Can't build a simple QR code"); let image = qr.render::>().build(); let result = QrVerification::try_from(image); assert!(matches!(result, Err(DecodingError::Header))) } #[test] fn decode_invalid_header() { let data = b"NonMatrixCode"; let result = QrVerification::from_bytes(data); assert!(matches!(result, Err(DecodingError::Header))) } #[test] fn decode_invalid_mode() { let data = b"MATRIX\x02\x03"; let result = QrVerification::from_bytes(data); assert!(matches!(result, Err(DecodingError::Mode(3)))) } #[test] fn decode_invalid_version() { let data = b"MATRIX\x01\x03"; let result = QrVerification::from_bytes(data); assert!(matches!(result, Err(DecodingError::Version(1)))) } #[test] fn decode_missing_data() { let data = b"MATRIX\x02\x02"; let result = QrVerification::from_bytes(data); assert!(matches!(result, Err(DecodingError::Read(_)))) } #[test] fn decode_short_secret() { let data = b"MATRIX\x02\x02\x00\x07FLOW_IDAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAABBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBSECRET"; let result = QrVerification::from_bytes(data); assert!(matches!(result, Err(DecodingError::SharedSecret(_)))) } }