src/media/stream_processors/test/src/test_spec.rs - fuchsia - Git at Google

 // Copyright 2019 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 use crate::{
     elementary_stream::*, output_validator::*, stream::*, stream_runner::*, FatalError, Result,
 };
 use anyhow::Context as _;
 use fidl_fuchsia_media::StreamProcessorProxy;
 use futures::{future::BoxFuture, stream::FuturesUnordered, TryStreamExt};
 use std::rc::Rc;

 const FIRST_FORMAT_DETAILS_VERSION_ORDINAL: u64 = 1;

 pub trait StreamProcessorFactory {
     fn connect_to_stream_processor(
         &self,
         stream: &dyn ElementaryStream,
         format_details_version_ordinal: u64,
     ) -> BoxFuture<'_, Result<StreamProcessorProxy>>;
 }

 /// A test spec describes all the cases that will run and the circumstances in which
 /// they will run.
 pub struct TestSpec {
     pub cases: Vec<TestCase>,
     pub relation: CaseRelation,
     pub stream_processor_factory: Rc<dyn StreamProcessorFactory>,
 }

 /// A case relation describes the temporal relationship between two test cases.
 pub enum CaseRelation {
     /// With serial relation, test cases will be run in sequence using the same codec server.
     Serial,
     /// With concurrent relation, test cases will run concurrently using two or more codec servers.
     Concurrent,
 }

 /// A test cases describes a sequence of elementary stream chunks that should be fed into a codec
 /// server, and a set of validators to check the output. To pass, all validations must pass for all
 /// output from the stream.
 pub struct TestCase {
     pub name: &'static str,
     pub stream: Rc<dyn ElementaryStream>,
     pub validators: Vec<Rc<dyn OutputValidator>>,
     pub stream_options: Option<StreamOptions>,
 }

 impl TestSpec {
     pub async fn run(self) -> Result<()> {
         match self.relation {
             CaseRelation::Serial => {
                 run_cases_serially(self.stream_processor_factory.as_ref(), self.cases).await
             }
             CaseRelation::Concurrent => {
                 run_cases_concurrently(self.stream_processor_factory.as_ref(), self.cases).await
             }
         }
     }
 }

 async fn run_cases_serially(
     stream_processor_factory: &dyn StreamProcessorFactory,
     cases: Vec<TestCase>,
 ) -> Result<()> {
     let stream_processor =
         if let Some(stream) = cases.first().as_ref().map(|case| case.stream.as_ref()) {
             stream_processor_factory
                 .connect_to_stream_processor(stream, FIRST_FORMAT_DETAILS_VERSION_ORDINAL)
                 .await?
         } else {
             return Err(FatalError(String::from("No test cases provided.")).into());
         };
     let mut stream_runner = StreamRunner::new(stream_processor);

     for case in cases {
         let output = stream_runner
             .run_stream(case.stream, case.stream_options.unwrap_or_default())
             .await
             .context(format!("Running case {}", case.name))?;
         for validator in case.validators {
             validator.validate(&output).await.context(format!("Validating case {}", case.name))?;
         }
     }

     Ok(())
 }

 async fn run_cases_concurrently(
     stream_processor_factory: &dyn StreamProcessorFactory,
     cases: Vec<TestCase>,
 ) -> Result<()> {
     let mut unordered = FuturesUnordered::new();
     for case in cases {
         unordered.push(run_cases_serially(stream_processor_factory, vec![case]))
     }

     while let Some(()) = unordered.try_next().await? {}

     Ok(())
 }

 pub fn with_large_stack(f: fn() -> Result<()>) -> Result<()> {
     // The TestSpec futures are too big to fit on Fuchsia's default stack.
     // We need this when running the test in panic=abort mode (in unwind mode,
     // the test harness creates a thread with a 2MB stack for us).
     const STACK_SIZE: usize = 2 * 1024 * 1024;
     std::thread::Builder::new().stack_size(STACK_SIZE).spawn(f).unwrap().join().unwrap()
 }
	// Copyright 2019 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	use crate::{
	elementary_stream::, output_validator::, stream::, stream_runner::, FatalError, Result,
	};
	use anyhow::Context as _;
	use fidl_fuchsia_media::StreamProcessorProxy;
	use futures::{future::BoxFuture, stream::FuturesUnordered, TryStreamExt};
	use std::rc::Rc;

	const FIRST_FORMAT_DETAILS_VERSION_ORDINAL: u64 = 1;

	pub trait StreamProcessorFactory {
	fn connect_to_stream_processor(
	&self,
	stream: &dyn ElementaryStream,
	format_details_version_ordinal: u64,
	) -> BoxFuture<'_, Result<StreamProcessorProxy>>;
	}

	/// A test spec describes all the cases that will run and the circumstances in which
	/// they will run.
	pub struct TestSpec {
	pub cases: Vec<TestCase>,
	pub relation: CaseRelation,
	pub stream_processor_factory: Rc<dyn StreamProcessorFactory>,
	}

	/// A case relation describes the temporal relationship between two test cases.
	pub enum CaseRelation {
	/// With serial relation, test cases will be run in sequence using the same codec server.
	Serial,
	/// With concurrent relation, test cases will run concurrently using two or more codec servers.
	Concurrent,
	}

	/// A test cases describes a sequence of elementary stream chunks that should be fed into a codec
	/// server, and a set of validators to check the output. To pass, all validations must pass for all
	/// output from the stream.
	pub struct TestCase {
	pub name: &'static str,
	pub stream: Rc<dyn ElementaryStream>,
	pub validators: Vec<Rc<dyn OutputValidator>>,
	pub stream_options: Option<StreamOptions>,
	}

	impl TestSpec {
	pub async fn run(self) -> Result<()> {
	match self.relation {
	CaseRelation::Serial => {
	run_cases_serially(self.stream_processor_factory.as_ref(), self.cases).await
	}
	CaseRelation::Concurrent => {
	run_cases_concurrently(self.stream_processor_factory.as_ref(), self.cases).await
	}
	}
	}
	}

	async fn run_cases_serially(
	stream_processor_factory: &dyn StreamProcessorFactory,
	cases: Vec<TestCase>,
	) -> Result<()> {
	let stream_processor =
	if let Some(stream) = cases.first().as_ref().map(\|case\| case.stream.as_ref()) {
	stream_processor_factory
	.connect_to_stream_processor(stream, FIRST_FORMAT_DETAILS_VERSION_ORDINAL)
	.await?
	} else {
	return Err(FatalError(String::from("No test cases provided.")).into());
	};
	let mut stream_runner = StreamRunner::new(stream_processor);

	for case in cases {
	let output = stream_runner
	.run_stream(case.stream, case.stream_options.unwrap_or_default())
	.await
	.context(format!("Running case {}", case.name))?;
	for validator in case.validators {
	validator.validate(&output).await.context(format!("Validating case {}", case.name))?;
	}
	}

	Ok(())
	}

	async fn run_cases_concurrently(
	stream_processor_factory: &dyn StreamProcessorFactory,
	cases: Vec<TestCase>,
	) -> Result<()> {
	let mut unordered = FuturesUnordered::new();
	for case in cases {
	unordered.push(run_cases_serially(stream_processor_factory, vec![case]))
	}

	while let Some(()) = unordered.try_next().await? {}

	Ok(())
	}

	pub fn with_large_stack(f: fn() -> Result<()>) -> Result<()> {
	// The TestSpec futures are too big to fit on Fuchsia's default stack.
	// We need this when running the test in panic=abort mode (in unwind mode,
	// the test harness creates a thread with a 2MB stack for us).
	const STACK_SIZE: usize = 2 * 1024 * 1024;
	std::thread::Builder::new().stack_size(STACK_SIZE).spawn(f).unwrap().join().unwrap()
	}