// decrypter.rs // // Copyright 2019 Jordan Petridis // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to // deal in the Software without restriction, including without limitation the // rights to use, copy, modify, merge, publish, distribute, sublicense, and/or // sell copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING // FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS // IN THE SOFTWARE. // // SPDX-License-Identifier: MIT use gst::glib; use gst::prelude::*; use std::sync::{Arc, Mutex}; use std::path::PathBuf; use pretty_assertions::assert_eq; use once_cell::sync::Lazy; static SENDER_PUBLIC: Lazy = Lazy::new(|| { let public = [ 66, 248, 199, 74, 216, 55, 228, 116, 52, 17, 147, 56, 65, 130, 134, 148, 157, 153, 235, 171, 179, 147, 120, 71, 100, 243, 133, 120, 160, 14, 111, 65, ]; glib::Bytes::from_owned(public) }); static RECEIVER_PRIVATE: Lazy = Lazy::new(|| { let secret = [ 54, 221, 217, 54, 94, 235, 167, 2, 187, 249, 71, 31, 59, 27, 19, 166, 78, 236, 102, 48, 29, 142, 41, 189, 22, 146, 218, 69, 147, 165, 240, 235, ]; glib::Bytes::from_owned(secret) }); fn init() { use std::sync::Once; static INIT: Once = Once::new(); INIT.call_once(|| { gst::init().unwrap(); gstsodium::plugin_register_static().unwrap(); }); } #[test] fn test_pipeline() { init(); let pipeline = gst::Pipeline::builder() .name("sodium-decrypter-test") .build(); let input_path = { let mut r = PathBuf::new(); r.push(env!("CARGO_MANIFEST_DIR")); r.push("tests"); r.push("encrypted_sample"); r.set_extension("enc"); r }; let filesrc = gst::ElementFactory::make("filesrc") .property("location", input_path.to_str().unwrap()) .build() .unwrap(); let dec = gst::ElementFactory::make("sodiumdecrypter") .property("sender-key", &*SENDER_PUBLIC) .property("receiver-key", &*RECEIVER_PRIVATE) .build() .unwrap(); // the typefind element here is cause the decrypter only supports // operating in pull mode bu the filesink wants push-mode. let typefind = gst::ElementFactory::make("typefind").build().unwrap(); let sink = gst_app::AppSink::builder().build(); pipeline .add_many(&[&filesrc, &dec, &typefind, sink.upcast_ref()]) .expect("failed to add elements to the pipeline"); gst::Element::link_many(&[&filesrc, &dec, &typefind, sink.upcast_ref()]) .expect("failed to link the elements"); let adapter = Arc::new(Mutex::new(gst_base::UniqueAdapter::new())); let adapter_clone = adapter.clone(); sink.set_callbacks( gst_app::AppSinkCallbacks::builder() // Add a handler to the "new-sample" signal. .new_sample(move |appsink| { // Pull the sample in question out of the appsink's buffer. let sample = appsink.pull_sample().map_err(|_| gst::FlowError::Eos)?; let buffer = sample.buffer().ok_or(gst::FlowError::Error)?; let mut adapter = adapter_clone.lock().unwrap(); adapter.push(buffer.to_owned()); Ok(gst::FlowSuccess::Ok) }) .build(), ); pipeline .set_state(gst::State::Playing) .expect("Unable to set the pipeline to the `Playing` state"); let bus = pipeline.bus().unwrap(); for msg in bus.iter_timed(gst::ClockTime::NONE) { use gst::MessageView; match msg.view() { MessageView::Error(err) => { eprintln!( "Error received from element {:?}: {}", err.src().map(|s| s.path_string()), err.error() ); eprintln!("Debugging information: {:?}", err.debug()); unreachable!(); } MessageView::Eos(..) => break, _ => (), } } pipeline .set_state(gst::State::Null) .expect("Unable to set the pipeline to the `Playing` state"); let expected_output = include_bytes!("sample.mp3"); let mut adapter = adapter.lock().unwrap(); let available = adapter.available(); assert_eq!(available, expected_output.len()); let output_buffer = adapter.take_buffer(available).unwrap(); let output = output_buffer.map_readable().unwrap(); assert_eq!(expected_output.as_ref(), output.as_ref()); } #[test] fn test_pull_range() { init(); let pipeline = gst::Pipeline::builder() .name("sodium-decrypter-pull-range-test") .build(); let input_path = { let mut r = PathBuf::new(); r.push(env!("CARGO_MANIFEST_DIR")); r.push("tests"); r.push("encrypted_sample"); r.set_extension("enc"); r }; let filesrc = gst::ElementFactory::make("filesrc") .property("location", input_path.to_str().unwrap()) .build() .unwrap(); let dec = gst::ElementFactory::make("sodiumdecrypter") .property("sender-key", &*SENDER_PUBLIC) .property("receiver-key", &*RECEIVER_PRIVATE) .build() .unwrap(); pipeline .add_many(&[&filesrc, &dec]) .expect("failed to add elements to the pipeline"); gst::Element::link_many(&[&filesrc, &dec]).expect("failed to link the elements"); // Activate in the pad in pull mode pipeline .set_state(gst::State::Ready) .expect("Unable to set the pipeline to the `Playing` state"); let srcpad = dec.static_pad("src").unwrap(); srcpad.activate_mode(gst::PadMode::Pull, true).unwrap(); pipeline .set_state(gst::State::Playing) .expect("Unable to set the pipeline to the `Playing` state"); // Test that the decryptor is seekable let mut q = gst::query::Seeking::new(gst::Format::Bytes); srcpad.query(&mut q); // get the seeking capabilities let (seekable, start, stop) = q.result(); assert!(seekable); assert_eq!(start, 0.bytes().into()); assert_eq!(stop, 6043.bytes().into()); // do pulls let expected_array_1 = [ 255, 251, 192, 196, 0, 0, 13, 160, 37, 86, 116, 240, 0, 42, 73, 33, 43, 63, 61, 16, 128, 5, 53, 37, 220, 28, 225, 35, 16, 243, 140, 220, 4, 192, 2, 64, 14, 3, 144, 203, 67, 208, 244, 61, 70, 175, 103, 127, 28, 0, ]; let buf1 = srcpad.range(0, 50).unwrap(); assert_eq!(buf1.size(), 50); let map1 = buf1.map_readable().unwrap(); assert_eq!(&map1[..], &expected_array_1[..]); let expected_array_2 = [ 255, 251, 192, 196, 0, 0, 13, 160, 37, 86, 116, 240, 0, 42, 73, 33, 43, 63, 61, 16, 128, 5, 53, 37, 220, 28, 225, 35, 16, 243, 140, 220, 4, 192, 2, 64, 14, 3, 144, 203, 67, 208, 244, 61, 70, 175, 103, 127, 28, 0, 0, 0, 0, 12, 60, 60, 60, 122, 0, 0, 0, 12, 195, 195, 195, 207, 192, 0, 0, 3, 113, 195, 199, 255, 255, 254, 97, 225, 225, 231, 160, 0, 0, 49, 24, 120, 120, 121, 232, 0, 0, 12, 252, 195, 195, 199, 128, 0, 0, 0, ]; let buf2 = srcpad.range(0, 100).unwrap(); assert_eq!(buf2.size(), 100); let map2 = buf2.map_readable().unwrap(); assert_eq!(&map2[..], &expected_array_2[..]); // compare the first 50 bytes of the two slices // they should match assert_eq!(&map1[..], &map2[..map1.len()]); // request in the middle of a block let buf = srcpad.range(853, 100).unwrap(); // result size doesn't include the block macs, assert_eq!(buf.size(), 100); // read till eos, this also will pull multiple blocks let buf = srcpad.range(853, 42000).unwrap(); // 6031 (size of file) - 883 (requersted offset) - headers size - (numbler of blcks * block mac) assert_eq!(buf.size(), 5054); // read 0 bytes from the start let buf = srcpad.range(0, 0).unwrap(); assert_eq!(buf.size(), 0); // read 0 bytes somewhere in the middle let buf = srcpad.range(4242, 0).unwrap(); assert_eq!(buf.size(), 0); // read 0 bytes to eos let res = srcpad.range(6003, 0); assert_eq!(res, Err(gst::FlowError::Eos)); // read 100 bytes at eos let res = srcpad.range(6003, 100); assert_eq!(res, Err(gst::FlowError::Eos)); // read 100 bytes way past eos let res = srcpad.range(424_242, 100); assert_eq!(res, Err(gst::FlowError::Eos)); // read 10 bytes at eos -1, should return a single byte let buf = srcpad.range(5906, 10).unwrap(); assert_eq!(buf.size(), 1); pipeline .set_state(gst::State::Null) .expect("Unable to set the pipeline to the `Playing` state"); } #[test] fn test_state_changes() { init(); // NullToReady without keys provided { let dec = gst::ElementFactory::make("sodiumdecrypter") .build() .unwrap(); assert!(dec.change_state(gst::StateChange::NullToReady).is_err()); // Set only receiver key let dec = gst::ElementFactory::make("sodiumdecrypter") .property("receiver-key", &*RECEIVER_PRIVATE) .build() .unwrap(); assert!(dec.change_state(gst::StateChange::NullToReady).is_err()); // Set only sender key let dec = gst::ElementFactory::make("sodiumdecrypter") .property("sender-key", &*SENDER_PUBLIC) .build() .unwrap(); assert!(dec.change_state(gst::StateChange::NullToReady).is_err()); } // NullToReady, no nonce provided { let dec = gst::ElementFactory::make("sodiumdecrypter") .property("sender-key", &*SENDER_PUBLIC) .property("receiver-key", &*RECEIVER_PRIVATE) .build() .unwrap(); assert!(dec.change_state(gst::StateChange::NullToReady).is_ok()); } // ReadyToNull { let dec = gst::ElementFactory::make("sodiumdecrypter") .property("sender-key", &*SENDER_PUBLIC) .property("receiver-key", &*RECEIVER_PRIVATE) .build() .unwrap(); assert!(dec.change_state(gst::StateChange::NullToReady).is_ok()); } }