libs/apkverify/src/sigutil.rs - android_packages_modules_Virtualization - Gitiles

 /*
  * Copyright (C) 2021 The Android Open Source Project
  *
  * 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.
  */

 //! Utilities for Signature Verification

 use anyhow::{anyhow, ensure, Error, Result};
 use byteorder::{LittleEndian, ReadBytesExt};
 use bytes::{Buf, BufMut, Bytes, BytesMut};
 use openssl::hash::{DigestBytes, Hasher, MessageDigest};
 use std::cmp::min;
 use std::io::{self, Cursor, ErrorKind, Read, Seek, SeekFrom, Take};

 use crate::algorithms::SignatureAlgorithmID;
 use crate::ziputil::{set_central_directory_offset, zip_sections};

 const APK_SIG_BLOCK_MIN_SIZE: u32 = 32;
 const APK_SIG_BLOCK_MAGIC: u128 = 0x3234206b636f6c4220676953204b5041;

 const CHUNK_SIZE_BYTES: u64 = 1024 * 1024;
 const CHUNK_HEADER_TOP: &[u8] = &[0x5a];
 const CHUNK_HEADER_MID: &[u8] = &[0xa5];

 /// The [APK structure] has four major sections:
 ///
 /// | Zip contents | APK Signing Block | Central directory | EOCD(End of Central Directory) |
 ///
 /// This structure contains the offset/size information of all the sections except the Zip contents.
 ///
 /// [APK structure]: https://source.android.com/docs/security/apksigning/v2#apk-signing-block
 pub struct ApkSections<R> {
     inner: R,
     signing_block_offset: u32,
     signing_block_size: u32,
     central_directory_offset: u32,
     central_directory_size: u32,
     eocd_offset: u32,
     eocd_size: u32,
 }

 impl<R: Read + Seek> ApkSections<R> {
     pub fn new(mut reader: R) -> Result<ApkSections<R>> {
         let zip_sections = zip_sections(&mut reader)?;
         let (signing_block_offset, signing_block_size) =
             find_signing_block(&mut reader, zip_sections.central_directory_offset)?;
         Ok(ApkSections {
             inner: reader,
             signing_block_offset,
             signing_block_size,
             central_directory_offset: zip_sections.central_directory_offset,
             central_directory_size: zip_sections.central_directory_size,
             eocd_offset: zip_sections.eocd_offset,
             eocd_size: zip_sections.eocd_size,
         })
     }

     /// Returns the APK Signature Scheme block contained in the provided file for the given ID
     /// and the additional information relevant for verifying the block against the file.
     pub fn find_signature(&mut self, block_id: u32) -> Result<Bytes> {
         let signing_block = self.bytes(self.signing_block_offset, self.signing_block_size)?;
         find_signature_scheme_block(Bytes::from(signing_block), block_id)
     }

     /// Computes digest with "signature algorithm" over APK contents, central directory, and EOCD.
     /// 1. The digest of each chunk is computed over the concatenation of byte 0xa5, the chunk’s
     ///    length in bytes (little-endian uint32), and the chunk’s contents.
     /// 2. The top-level digest is computed over the concatenation of byte 0x5a, the number of
     ///    chunks (little-endian uint32), and the concatenation of digests of the chunks in the
     ///    order the chunks appear in the APK.
     /// (see https://source.android.com/security/apksigning/v2#integrity-protected-contents)
     pub(crate) fn compute_digest(
         &mut self,
         signature_algorithm_id: SignatureAlgorithmID,
     ) -> Result<Vec<u8>> {
         let digester = Digester { message_digest: signature_algorithm_id.new_message_digest() };
         let mut digests_of_chunks = BytesMut::new();
         let mut chunk_count = 0u32;
         let mut chunk = vec![0u8; CHUNK_SIZE_BYTES as usize];
         for data in &[
             ApkSections::zip_entries,
             ApkSections::central_directory,
             ApkSections::eocd_for_verification,
         ] {
             let mut data = data(self)?;
             while data.limit() > 0 {
                 let chunk_size = min(CHUNK_SIZE_BYTES, data.limit());
                 let slice = &mut chunk[..(chunk_size as usize)];
                 data.read_exact(slice)?;
                 digests_of_chunks.put_slice(
                     digester.digest(slice, CHUNK_HEADER_MID, chunk_size as u32)?.as_ref(),
                 );
                 chunk_count += 1;
             }
         }
         Ok(digester.digest(&digests_of_chunks, CHUNK_HEADER_TOP, chunk_count)?.as_ref().into())
     }

     fn zip_entries(&mut self) -> Result<Take<Box<dyn Read + '_>>> {
         scoped_read(&mut self.inner, 0, self.signing_block_offset as u64)
     }

     fn central_directory(&mut self) -> Result<Take<Box<dyn Read + '_>>> {
         scoped_read(
             &mut self.inner,
             self.central_directory_offset as u64,
             self.central_directory_size as u64,
         )
     }

     fn eocd_for_verification(&mut self) -> Result<Take<Box<dyn Read + '_>>> {
         let mut eocd = self.bytes(self.eocd_offset, self.eocd_size)?;
         // Protection of section 4 (ZIP End of Central Directory) is complicated by the section
         // containing the offset of ZIP Central Directory. The offset changes when the size of the
         // APK Signing Block changes, for instance, when a new signature is added. Thus, when
         // computing digest over the ZIP End of Central Directory, the field containing the offset
         // of ZIP Central Directory must be treated as containing the offset of the APK Signing
         // Block.
         set_central_directory_offset(&mut eocd, self.signing_block_offset)?;
         Ok(Read::take(Box::new(Cursor::new(eocd)), self.eocd_size as u64))
     }

     fn bytes(&mut self, offset: u32, size: u32) -> Result<Vec<u8>> {
         self.inner.seek(SeekFrom::Start(offset as u64))?;
         let mut buf = vec![0u8; size as usize];
         self.inner.read_exact(&mut buf)?;
         Ok(buf)
     }
 }

 fn scoped_read<'a, R: Read + Seek>(
     src: &'a mut R,
     offset: u64,
     size: u64,
 ) -> Result<Take<Box<dyn Read + 'a>>> {
     src.seek(SeekFrom::Start(offset))?;
     Ok(Read::take(Box::new(src), size))
 }

 struct Digester {
     message_digest: MessageDigest,
 }

 impl Digester {
     // v2/v3 digests are computed after prepending "header" byte and "size" info.
     fn digest(&self, data: &[u8], header: &[u8], size: u32) -> Result<DigestBytes> {
         let mut hasher = Hasher::new(self.message_digest)?;
         hasher.update(header)?;
         hasher.update(&size.to_le_bytes())?;
         hasher.update(data)?;
         Ok(hasher.finish()?)
     }
 }

 fn find_signing_block<T: Read + Seek>(
     reader: &mut T,
     central_directory_offset: u32,
 ) -> Result<(u32, u32)> {
     // FORMAT:
     // OFFSET       DATA TYPE  DESCRIPTION
     // * @+0  bytes uint64:    size in bytes (excluding this field)
     // * @+8  bytes payload
     // * @-24 bytes uint64:    size in bytes (same as the one above)
     // * @-16 bytes uint128:   magic
     ensure!(
         central_directory_offset >= APK_SIG_BLOCK_MIN_SIZE,
         "APK too small for APK Signing Block. ZIP Central Directory offset: {}",
         central_directory_offset
     );
     reader.seek(SeekFrom::Start((central_directory_offset - 24) as u64))?;
     let size_in_footer = reader.read_u64::<LittleEndian>()? as u32;
     ensure!(
         reader.read_u128::<LittleEndian>()? == APK_SIG_BLOCK_MAGIC,
         "No APK Signing Block before ZIP Central Directory"
     );
     let total_size = size_in_footer + 8;
     let signing_block_offset = central_directory_offset
         .checked_sub(total_size)
         .ok_or_else(|| anyhow!("APK Signing Block size out of range: {}", size_in_footer))?;
     reader.seek(SeekFrom::Start(signing_block_offset as u64))?;
     let size_in_header = reader.read_u64::<LittleEndian>()? as u32;
     // This corresponds to APK Signature Scheme v3 verification step 1a.
     ensure!(
         size_in_header == size_in_footer,
         "APK Signing Block sizes in header and footer do not match: {} vs {}",
         size_in_header,
         size_in_footer
     );
     Ok((signing_block_offset, total_size))
 }

 fn find_signature_scheme_block(buf: Bytes, block_id: u32) -> Result<Bytes> {
     // FORMAT:
     // OFFSET       DATA TYPE  DESCRIPTION
     // * @+0  bytes uint64:    size in bytes (excluding this field)
     // * @+8  bytes pairs
     // * @-24 bytes uint64:    size in bytes (same as the one above)
     // * @-16 bytes uint128:   magic
     let mut pairs = buf.slice(8..(buf.len() - 24));
     let mut entry_count = 0;
     while pairs.has_remaining() {
         entry_count += 1;
         ensure!(
             pairs.remaining() >= 8,
             "Insufficient data to read size of APK Signing Block entry #{}",
             entry_count
         );
         let length = pairs.get_u64_le();
         let mut pair = pairs.split_to(length as usize);
         let id = pair.get_u32_le();
         if id == block_id {
             return Ok(pair);
         }
     }
     let context =
         format!("No APK Signature Scheme block in APK Signing Block with ID: {}", block_id);
     Err(Error::new(io::Error::from(ErrorKind::NotFound)).context(context))
 }

 #[cfg(test)]
 mod tests {
     use super::*;
     use byteorder::LittleEndian;
     use std::fs::File;
     use std::mem::size_of_val;

     use crate::v3::APK_SIGNATURE_SCHEME_V3_BLOCK_ID;

     const CENTRAL_DIRECTORY_HEADER_SIGNATURE: u32 = 0x02014b50;

     #[test]
     fn test_apk_sections() {
         let apk_file = File::open("tests/data/v3-only-with-ecdsa-sha512-p521.apk").unwrap();
         let apk_sections = ApkSections::new(apk_file).unwrap();
         let mut reader = &apk_sections.inner;

         // Checks APK Signing Block.
         assert_eq!(
             apk_sections.signing_block_offset + apk_sections.signing_block_size,
             apk_sections.central_directory_offset
         );
         let apk_signature_offset = SeekFrom::Start(
             apk_sections.central_directory_offset as u64 - size_of_val(&APK_SIG_BLOCK_MAGIC) as u64,
         );
         reader.seek(apk_signature_offset).unwrap();
         assert_eq!(reader.read_u128::<LittleEndian>().unwrap(), APK_SIG_BLOCK_MAGIC);

         // Checks Central directory.
         assert_eq!(reader.read_u32::<LittleEndian>().unwrap(), CENTRAL_DIRECTORY_HEADER_SIGNATURE);
         assert_eq!(
             apk_sections.central_directory_offset + apk_sections.central_directory_size,
             apk_sections.eocd_offset
         );

         // Checks EOCD.
         assert_eq!(
             reader.metadata().unwrap().len(),
             (apk_sections.eocd_offset + apk_sections.eocd_size) as u64
         );
     }

     #[test]
     fn test_apk_digest() {
         let apk_file = File::open("tests/data/v3-only-with-dsa-sha256-1024.apk").unwrap();
         let mut apk_sections = ApkSections::new(apk_file).unwrap();
         let digest = apk_sections.compute_digest(SignatureAlgorithmID::DsaWithSha256).unwrap();
         assert_eq!(
             "0df2426ea33aedaf495d88e5be0c6a1663ff0a81c5ed12d5b2929ae4b4300f2f",
             hex::encode(&digest[..])
         );
     }

     #[test]
     fn test_apk_sections_cannot_find_signature() {
         let apk_file = File::open("tests/data/v2-only-two-signers.apk").unwrap();
         let mut apk_sections = ApkSections::new(apk_file).unwrap();
         let result = apk_sections.find_signature(APK_SIGNATURE_SCHEME_V3_BLOCK_ID);

         assert!(result.is_err());
         let error = result.unwrap_err();
         assert_eq!(error.downcast_ref::<io::Error>().unwrap().kind(), ErrorKind::NotFound);
         assert!(
             error.to_string().contains(&APK_SIGNATURE_SCHEME_V3_BLOCK_ID.to_string()),
             "Error should contain the block ID: {}",
             error
         );
     }

     #[test]
     fn test_apk_sections_find_signature() {
         let apk_file = File::open("tests/data/v3-only-with-dsa-sha256-1024.apk").unwrap();
         let mut apk_sections = ApkSections::new(apk_file).unwrap();
         let signature = apk_sections.find_signature(APK_SIGNATURE_SCHEME_V3_BLOCK_ID).unwrap();

         let expected_v3_signature_block_size = 1289; // Only for this specific APK
         assert_eq!(signature.len(), expected_v3_signature_block_size);
     }
 }
	/*
	* Copyright (C) 2021 The Android Open Source Project
	*
	* 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.
	*/

	//! Utilities for Signature Verification

	use anyhow::{anyhow, ensure, Error, Result};
	use byteorder::{LittleEndian, ReadBytesExt};
	use bytes::{Buf, BufMut, Bytes, BytesMut};
	use openssl::hash::{DigestBytes, Hasher, MessageDigest};
	use std::cmp::min;
	use std::io::{self, Cursor, ErrorKind, Read, Seek, SeekFrom, Take};

	use crate::algorithms::SignatureAlgorithmID;
	use crate::ziputil::{set_central_directory_offset, zip_sections};

	const APK_SIG_BLOCK_MIN_SIZE: u32 = 32;
	const APK_SIG_BLOCK_MAGIC: u128 = 0x3234206b636f6c4220676953204b5041;

	const CHUNK_SIZE_BYTES: u64 = 1024 * 1024;
	const CHUNK_HEADER_TOP: &[u8] = &[0x5a];
	const CHUNK_HEADER_MID: &[u8] = &[0xa5];

	/// The [APK structure] has four major sections:
	///
	/// \| Zip contents \| APK Signing Block \| Central directory \| EOCD(End of Central Directory) \|
	///
	/// This structure contains the offset/size information of all the sections except the Zip contents.
	///
	/// [APK structure]: https://source.android.com/docs/security/apksigning/v2#apk-signing-block
	pub struct ApkSections<R> {
	inner: R,
	signing_block_offset: u32,
	signing_block_size: u32,
	central_directory_offset: u32,
	central_directory_size: u32,
	eocd_offset: u32,
	eocd_size: u32,
	}

	impl<R: Read + Seek> ApkSections<R> {
	pub fn new(mut reader: R) -> Result<ApkSections<R>> {
	let zip_sections = zip_sections(&mut reader)?;
	let (signing_block_offset, signing_block_size) =
	find_signing_block(&mut reader, zip_sections.central_directory_offset)?;
	Ok(ApkSections {
	inner: reader,
	signing_block_offset,
	signing_block_size,
	central_directory_offset: zip_sections.central_directory_offset,
	central_directory_size: zip_sections.central_directory_size,
	eocd_offset: zip_sections.eocd_offset,
	eocd_size: zip_sections.eocd_size,
	})
	}

	/// Returns the APK Signature Scheme block contained in the provided file for the given ID
	/// and the additional information relevant for verifying the block against the file.
	pub fn find_signature(&mut self, block_id: u32) -> Result<Bytes> {
	let signing_block = self.bytes(self.signing_block_offset, self.signing_block_size)?;
	find_signature_scheme_block(Bytes::from(signing_block), block_id)
	}

	/// Computes digest with "signature algorithm" over APK contents, central directory, and EOCD.
	/// 1. The digest of each chunk is computed over the concatenation of byte 0xa5, the chunk’s
	/// length in bytes (little-endian uint32), and the chunk’s contents.
	/// 2. The top-level digest is computed over the concatenation of byte 0x5a, the number of
	/// chunks (little-endian uint32), and the concatenation of digests of the chunks in the
	/// order the chunks appear in the APK.
	/// (see https://source.android.com/security/apksigning/v2#integrity-protected-contents)
	pub(crate) fn compute_digest(
	&mut self,
	signature_algorithm_id: SignatureAlgorithmID,
	) -> Result<Vec<u8>> {
	let digester = Digester { message_digest: signature_algorithm_id.new_message_digest() };
	let mut digests_of_chunks = BytesMut::new();
	let mut chunk_count = 0u32;
	let mut chunk = vec![0u8; CHUNK_SIZE_BYTES as usize];
	for data in &[
	ApkSections::zip_entries,
	ApkSections::central_directory,
	ApkSections::eocd_for_verification,
	] {
	let mut data = data(self)?;
	while data.limit() > 0 {
	let chunk_size = min(CHUNK_SIZE_BYTES, data.limit());
	let slice = &mut chunk[..(chunk_size as usize)];
	data.read_exact(slice)?;
	digests_of_chunks.put_slice(
	digester.digest(slice, CHUNK_HEADER_MID, chunk_size as u32)?.as_ref(),
	);
	chunk_count += 1;
	}
	}
	Ok(digester.digest(&digests_of_chunks, CHUNK_HEADER_TOP, chunk_count)?.as_ref().into())
	}

	fn zip_entries(&mut self) -> Result<Take<Box<dyn Read + '_>>> {
	scoped_read(&mut self.inner, 0, self.signing_block_offset as u64)
	}

	fn central_directory(&mut self) -> Result<Take<Box<dyn Read + '_>>> {
	scoped_read(
	&mut self.inner,
	self.central_directory_offset as u64,
	self.central_directory_size as u64,
	)
	}

	fn eocd_for_verification(&mut self) -> Result<Take<Box<dyn Read + '_>>> {
	let mut eocd = self.bytes(self.eocd_offset, self.eocd_size)?;
	// Protection of section 4 (ZIP End of Central Directory) is complicated by the section
	// containing the offset of ZIP Central Directory. The offset changes when the size of the
	// APK Signing Block changes, for instance, when a new signature is added. Thus, when
	// computing digest over the ZIP End of Central Directory, the field containing the offset
	// of ZIP Central Directory must be treated as containing the offset of the APK Signing
	// Block.
	set_central_directory_offset(&mut eocd, self.signing_block_offset)?;
	Ok(Read::take(Box::new(Cursor::new(eocd)), self.eocd_size as u64))
	}

	fn bytes(&mut self, offset: u32, size: u32) -> Result<Vec<u8>> {
	self.inner.seek(SeekFrom::Start(offset as u64))?;
	let mut buf = vec![0u8; size as usize];
	self.inner.read_exact(&mut buf)?;
	Ok(buf)
	}
	}

	fn scoped_read<'a, R: Read + Seek>(
	src: &'a mut R,
	offset: u64,
	size: u64,
	) -> Result<Take<Box<dyn Read + 'a>>> {
	src.seek(SeekFrom::Start(offset))?;
	Ok(Read::take(Box::new(src), size))
	}

	struct Digester {
	message_digest: MessageDigest,
	}

	impl Digester {
	// v2/v3 digests are computed after prepending "header" byte and "size" info.
	fn digest(&self, data: &[u8], header: &[u8], size: u32) -> Result<DigestBytes> {
	let mut hasher = Hasher::new(self.message_digest)?;
	hasher.update(header)?;
	hasher.update(&size.to_le_bytes())?;
	hasher.update(data)?;
	Ok(hasher.finish()?)
	}
	}

	fn find_signing_block<T: Read + Seek>(
	reader: &mut T,
	central_directory_offset: u32,
	) -> Result<(u32, u32)> {
	// FORMAT:
	// OFFSET DATA TYPE DESCRIPTION
	// * @+0 bytes uint64: size in bytes (excluding this field)
	// * @+8 bytes payload
	// * @-24 bytes uint64: size in bytes (same as the one above)
	// * @-16 bytes uint128: magic
	ensure!(
	central_directory_offset >= APK_SIG_BLOCK_MIN_SIZE,
	"APK too small for APK Signing Block. ZIP Central Directory offset: {}",
	central_directory_offset
	);
	reader.seek(SeekFrom::Start((central_directory_offset - 24) as u64))?;
	let size_in_footer = reader.read_u64::<LittleEndian>()? as u32;
	ensure!(
	reader.read_u128::<LittleEndian>()? == APK_SIG_BLOCK_MAGIC,
	"No APK Signing Block before ZIP Central Directory"
	);
	let total_size = size_in_footer + 8;
	let signing_block_offset = central_directory_offset
	.checked_sub(total_size)
	.ok_or_else(\|\| anyhow!("APK Signing Block size out of range: {}", size_in_footer))?;
	reader.seek(SeekFrom::Start(signing_block_offset as u64))?;
	let size_in_header = reader.read_u64::<LittleEndian>()? as u32;
	// This corresponds to APK Signature Scheme v3 verification step 1a.
	ensure!(
	size_in_header == size_in_footer,
	"APK Signing Block sizes in header and footer do not match: {} vs {}",
	size_in_header,
	size_in_footer
	);
	Ok((signing_block_offset, total_size))
	}

	fn find_signature_scheme_block(buf: Bytes, block_id: u32) -> Result<Bytes> {
	// FORMAT:
	// OFFSET DATA TYPE DESCRIPTION
	// * @+0 bytes uint64: size in bytes (excluding this field)
	// * @+8 bytes pairs
	// * @-24 bytes uint64: size in bytes (same as the one above)
	// * @-16 bytes uint128: magic
	let mut pairs = buf.slice(8..(buf.len() - 24));
	let mut entry_count = 0;
	while pairs.has_remaining() {
	entry_count += 1;
	ensure!(
	pairs.remaining() >= 8,
	"Insufficient data to read size of APK Signing Block entry #{}",
	entry_count
	);
	let length = pairs.get_u64_le();
	let mut pair = pairs.split_to(length as usize);
	let id = pair.get_u32_le();
	if id == block_id {
	return Ok(pair);
	}
	}
	let context =
	format!("No APK Signature Scheme block in APK Signing Block with ID: {}", block_id);
	Err(Error::new(io::Error::from(ErrorKind::NotFound)).context(context))
	}

	#[cfg(test)]
	mod tests {
	use super::*;
	use byteorder::LittleEndian;
	use std::fs::File;
	use std::mem::size_of_val;

	use crate::v3::APK_SIGNATURE_SCHEME_V3_BLOCK_ID;

	const CENTRAL_DIRECTORY_HEADER_SIGNATURE: u32 = 0x02014b50;

	#[test]
	fn test_apk_sections() {
	let apk_file = File::open("tests/data/v3-only-with-ecdsa-sha512-p521.apk").unwrap();
	let apk_sections = ApkSections::new(apk_file).unwrap();
	let mut reader = &apk_sections.inner;

	// Checks APK Signing Block.
	assert_eq!(
	apk_sections.signing_block_offset + apk_sections.signing_block_size,
	apk_sections.central_directory_offset
	);
	let apk_signature_offset = SeekFrom::Start(
	apk_sections.central_directory_offset as u64 - size_of_val(&APK_SIG_BLOCK_MAGIC) as u64,
	);
	reader.seek(apk_signature_offset).unwrap();
	assert_eq!(reader.read_u128::<LittleEndian>().unwrap(), APK_SIG_BLOCK_MAGIC);

	// Checks Central directory.
	assert_eq!(reader.read_u32::<LittleEndian>().unwrap(), CENTRAL_DIRECTORY_HEADER_SIGNATURE);
	assert_eq!(
	apk_sections.central_directory_offset + apk_sections.central_directory_size,
	apk_sections.eocd_offset
	);

	// Checks EOCD.
	assert_eq!(
	reader.metadata().unwrap().len(),
	(apk_sections.eocd_offset + apk_sections.eocd_size) as u64
	);
	}

	#[test]
	fn test_apk_digest() {
	let apk_file = File::open("tests/data/v3-only-with-dsa-sha256-1024.apk").unwrap();
	let mut apk_sections = ApkSections::new(apk_file).unwrap();
	let digest = apk_sections.compute_digest(SignatureAlgorithmID::DsaWithSha256).unwrap();
	assert_eq!(
	"0df2426ea33aedaf495d88e5be0c6a1663ff0a81c5ed12d5b2929ae4b4300f2f",
	hex::encode(&digest[..])
	);
	}

	#[test]
	fn test_apk_sections_cannot_find_signature() {
	let apk_file = File::open("tests/data/v2-only-two-signers.apk").unwrap();
	let mut apk_sections = ApkSections::new(apk_file).unwrap();
	let result = apk_sections.find_signature(APK_SIGNATURE_SCHEME_V3_BLOCK_ID);

	assert!(result.is_err());
	let error = result.unwrap_err();
	assert_eq!(error.downcast_ref::<io::Error>().unwrap().kind(), ErrorKind::NotFound);
	assert!(
	error.to_string().contains(&APK_SIGNATURE_SCHEME_V3_BLOCK_ID.to_string()),
	"Error should contain the block ID: {}",
	error
	);
	}

	#[test]
	fn test_apk_sections_find_signature() {
	let apk_file = File::open("tests/data/v3-only-with-dsa-sha256-1024.apk").unwrap();
	let mut apk_sections = ApkSections::new(apk_file).unwrap();
	let signature = apk_sections.find_signature(APK_SIGNATURE_SCHEME_V3_BLOCK_ID).unwrap();

	let expected_v3_signature_block_size = 1289; // Only for this specific APK
	assert_eq!(signature.len(), expected_v3_signature_block_size);
	}
	}