compos/src/compilation.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.
  */

 use anyhow::{anyhow, bail, Context, Result};
 use log::error;
 use minijail::{self, Minijail};
 use std::fs::File;
 use std::os::unix::io::{AsRawFd, RawFd};
 use std::path::Path;

 use crate::fsverity;
 use authfs_aidl_interface::aidl::com::android::virt::fs::{
     AuthFsConfig::AuthFsConfig, IAuthFs::IAuthFs, IAuthFsService::IAuthFsService,
     InputFdAnnotation::InputFdAnnotation, OutputFdAnnotation::OutputFdAnnotation,
 };
 use authfs_aidl_interface::binder::{ParcelFileDescriptor, Strong};
 use compos_aidl_interface::aidl::com::android::compos::FdAnnotation::FdAnnotation;

 /// The number that represents the file descriptor number expecting by the task. The number may be
 /// meaningless in the current process.
 pub type PseudoRawFd = i32;

 pub enum CompilerOutput {
     /// Fs-verity digests of output files, if the compiler finishes successfully.
     Digests {
         oat: fsverity::Sha256Digest,
         vdex: fsverity::Sha256Digest,
         image: fsverity::Sha256Digest,
     },
     /// Exit code returned by the compiler, if not 0.
     ExitCode(i8),
 }

 struct CompilerOutputParcelFds {
     oat: ParcelFileDescriptor,
     vdex: ParcelFileDescriptor,
     image: ParcelFileDescriptor,
 }

 /// Runs the compiler with given flags with file descriptors described in `fd_annotation` retrieved
 /// via `authfs_service`. Returns exit code of the compiler process.
 pub fn compile(
     compiler_path: &Path,
     compiler_args: &[String],
     authfs_service: Strong<dyn IAuthFsService>,
     fd_annotation: &FdAnnotation,
 ) -> Result<CompilerOutput> {
     // Mount authfs (via authfs_service). The authfs instance unmounts once the `authfs` variable
     // is out of scope.
     let authfs_config = build_authfs_config(fd_annotation);
     let authfs = authfs_service.mount(&authfs_config)?;

     // The task expects to receive FD numbers that match its flags (e.g. --zip-fd=42) prepared
     // on the host side. Since the local FD opened from authfs (e.g. /authfs/42) may not match
     // the task's expectation, prepare a FD mapping and let minijail prepare the correct FD
     // setup.
     let fd_mapping =
         open_authfs_files_for_fd_mapping(&authfs, &authfs_config).context("Open on authfs")?;

     let jail =
         spawn_jailed_task(compiler_path, compiler_args, fd_mapping).context("Spawn dex2oat")?;
     let jail_result = jail.wait();

     let parcel_fds = parse_compiler_args(&authfs, compiler_args)?;
     let oat_file: &File = parcel_fds.oat.as_ref();
     let vdex_file: &File = parcel_fds.vdex.as_ref();
     let image_file: &File = parcel_fds.image.as_ref();

     match jail_result {
         Ok(()) => Ok(CompilerOutput::Digests {
             oat: fsverity::measure(oat_file.as_raw_fd())?,
             vdex: fsverity::measure(vdex_file.as_raw_fd())?,
             image: fsverity::measure(image_file.as_raw_fd())?,
         }),
         Err(minijail::Error::ReturnCode(exit_code)) => {
             error!("dex2oat failed with exit code {}", exit_code);
             Ok(CompilerOutput::ExitCode(exit_code as i8))
         }
         Err(e) => {
             bail!("Unexpected minijail error: {}", e)
         }
     }
 }

 fn parse_compiler_args(
     authfs: &Strong<dyn IAuthFs>,
     args: &[String],
 ) -> Result<CompilerOutputParcelFds> {
     const OAT_FD_PREFIX: &str = "--oat-fd=";
     const VDEX_FD_PREFIX: &str = "--output-vdex-fd=";
     const IMAGE_FD_PREFIX: &str = "--image-fd=";
     const APP_IMAGE_FD_PREFIX: &str = "--app-image-fd=";

     let mut oat = None;
     let mut vdex = None;
     let mut image = None;

     for arg in args {
         if let Some(value) = arg.strip_prefix(OAT_FD_PREFIX) {
             let fd = value.parse::<RawFd>().context("Invalid --oat-fd flag")?;
             debug_assert!(oat.is_none());
             oat = Some(authfs.openFile(fd, false)?);
         } else if let Some(value) = arg.strip_prefix(VDEX_FD_PREFIX) {
             let fd = value.parse::<RawFd>().context("Invalid --output-vdex-fd flag")?;
             debug_assert!(vdex.is_none());
             vdex = Some(authfs.openFile(fd, false)?);
         } else if let Some(value) = arg.strip_prefix(IMAGE_FD_PREFIX) {
             let fd = value.parse::<RawFd>().context("Invalid --image-fd flag")?;
             debug_assert!(image.is_none());
             image = Some(authfs.openFile(fd, false)?);
         } else if let Some(value) = arg.strip_prefix(APP_IMAGE_FD_PREFIX) {
             let fd = value.parse::<RawFd>().context("Invalid --app-image-fd flag")?;
             debug_assert!(image.is_none());
             image = Some(authfs.openFile(fd, false)?);
         }
     }

     Ok(CompilerOutputParcelFds {
         oat: oat.ok_or_else(|| anyhow!("Missing --oat-fd"))?,
         vdex: vdex.ok_or_else(|| anyhow!("Missing --vdex-fd"))?,
         image: image.ok_or_else(|| anyhow!("Missing --image-fd or --app-image-fd"))?,
     })
 }

 fn build_authfs_config(fd_annotation: &FdAnnotation) -> AuthFsConfig {
     AuthFsConfig {
         port: 3264, // TODO: support dynamic port
         inputFdAnnotations: fd_annotation
             .input_fds
             .iter()
             .map(|fd| InputFdAnnotation { fd: *fd })
             .collect(),
         outputFdAnnotations: fd_annotation
             .output_fds
             .iter()
             .map(|fd| OutputFdAnnotation { fd: *fd })
             .collect(),
     }
 }

 fn open_authfs_files_for_fd_mapping(
     authfs: &Strong<dyn IAuthFs>,
     config: &AuthFsConfig,
 ) -> Result<Vec<(ParcelFileDescriptor, PseudoRawFd)>> {
     let mut fd_mapping = Vec::new();

     let results: Result<Vec<_>> = config
         .inputFdAnnotations
         .iter()
         .map(|annotation| Ok((authfs.openFile(annotation.fd, false)?, annotation.fd)))
         .collect();
     fd_mapping.append(&mut results?);

     let results: Result<Vec<_>> = config
         .outputFdAnnotations
         .iter()
         .map(|annotation| Ok((authfs.openFile(annotation.fd, true)?, annotation.fd)))
         .collect();
     fd_mapping.append(&mut results?);

     Ok(fd_mapping)
 }

 fn spawn_jailed_task(
     executable: &Path,
     args: &[String],
     fd_mapping: Vec<(ParcelFileDescriptor, PseudoRawFd)>,
 ) -> Result<Minijail> {
     // TODO(b/185175567): Run in a more restricted sandbox.
     let jail = Minijail::new()?;
     let preserve_fds: Vec<_> = fd_mapping.iter().map(|(f, id)| (f.as_raw_fd(), *id)).collect();
     let _pid = jail.run_remap(executable, preserve_fds.as_slice(), args)?;
     Ok(jail)
 }
	/*
	* 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.
	*/

	use anyhow::{anyhow, bail, Context, Result};
	use log::error;
	use minijail::{self, Minijail};
	use std::fs::File;
	use std::os::unix::io::{AsRawFd, RawFd};
	use std::path::Path;

	use crate::fsverity;
	use authfs_aidl_interface::aidl::com::android::virt::fs::{
	AuthFsConfig::AuthFsConfig, IAuthFs::IAuthFs, IAuthFsService::IAuthFsService,
	InputFdAnnotation::InputFdAnnotation, OutputFdAnnotation::OutputFdAnnotation,
	};
	use authfs_aidl_interface::binder::{ParcelFileDescriptor, Strong};
	use compos_aidl_interface::aidl::com::android::compos::FdAnnotation::FdAnnotation;

	/// The number that represents the file descriptor number expecting by the task. The number may be
	/// meaningless in the current process.
	pub type PseudoRawFd = i32;

	pub enum CompilerOutput {
	/// Fs-verity digests of output files, if the compiler finishes successfully.
	Digests {
	oat: fsverity::Sha256Digest,
	vdex: fsverity::Sha256Digest,
	image: fsverity::Sha256Digest,
	},
	/// Exit code returned by the compiler, if not 0.
	ExitCode(i8),
	}

	struct CompilerOutputParcelFds {
	oat: ParcelFileDescriptor,
	vdex: ParcelFileDescriptor,
	image: ParcelFileDescriptor,
	}

	/// Runs the compiler with given flags with file descriptors described in `fd_annotation` retrieved
	/// via `authfs_service`. Returns exit code of the compiler process.
	pub fn compile(
	compiler_path: &Path,
	compiler_args: &[String],
	authfs_service: Strong<dyn IAuthFsService>,
	fd_annotation: &FdAnnotation,
	) -> Result<CompilerOutput> {
	// Mount authfs (via authfs_service). The authfs instance unmounts once the `authfs` variable
	// is out of scope.
	let authfs_config = build_authfs_config(fd_annotation);
	let authfs = authfs_service.mount(&authfs_config)?;

	// The task expects to receive FD numbers that match its flags (e.g. --zip-fd=42) prepared
	// on the host side. Since the local FD opened from authfs (e.g. /authfs/42) may not match
	// the task's expectation, prepare a FD mapping and let minijail prepare the correct FD
	// setup.
	let fd_mapping =
	open_authfs_files_for_fd_mapping(&authfs, &authfs_config).context("Open on authfs")?;

	let jail =
	spawn_jailed_task(compiler_path, compiler_args, fd_mapping).context("Spawn dex2oat")?;
	let jail_result = jail.wait();

	let parcel_fds = parse_compiler_args(&authfs, compiler_args)?;
	let oat_file: &File = parcel_fds.oat.as_ref();
	let vdex_file: &File = parcel_fds.vdex.as_ref();
	let image_file: &File = parcel_fds.image.as_ref();

	match jail_result {
	Ok(()) => Ok(CompilerOutput::Digests {
	oat: fsverity::measure(oat_file.as_raw_fd())?,
	vdex: fsverity::measure(vdex_file.as_raw_fd())?,
	image: fsverity::measure(image_file.as_raw_fd())?,
	}),
	Err(minijail::Error::ReturnCode(exit_code)) => {
	error!("dex2oat failed with exit code {}", exit_code);
	Ok(CompilerOutput::ExitCode(exit_code as i8))
	}
	Err(e) => {
	bail!("Unexpected minijail error: {}", e)
	}
	}
	}

	fn parse_compiler_args(
	authfs: &Strong<dyn IAuthFs>,
	args: &[String],
	) -> Result<CompilerOutputParcelFds> {
	const OAT_FD_PREFIX: &str = "--oat-fd=";
	const VDEX_FD_PREFIX: &str = "--output-vdex-fd=";
	const IMAGE_FD_PREFIX: &str = "--image-fd=";
	const APP_IMAGE_FD_PREFIX: &str = "--app-image-fd=";

	let mut oat = None;
	let mut vdex = None;
	let mut image = None;

	for arg in args {
	if let Some(value) = arg.strip_prefix(OAT_FD_PREFIX) {
	let fd = value.parse::<RawFd>().context("Invalid --oat-fd flag")?;
	debug_assert!(oat.is_none());
	oat = Some(authfs.openFile(fd, false)?);
	} else if let Some(value) = arg.strip_prefix(VDEX_FD_PREFIX) {
	let fd = value.parse::<RawFd>().context("Invalid --output-vdex-fd flag")?;
	debug_assert!(vdex.is_none());
	vdex = Some(authfs.openFile(fd, false)?);
	} else if let Some(value) = arg.strip_prefix(IMAGE_FD_PREFIX) {
	let fd = value.parse::<RawFd>().context("Invalid --image-fd flag")?;
	debug_assert!(image.is_none());
	image = Some(authfs.openFile(fd, false)?);
	} else if let Some(value) = arg.strip_prefix(APP_IMAGE_FD_PREFIX) {
	let fd = value.parse::<RawFd>().context("Invalid --app-image-fd flag")?;
	debug_assert!(image.is_none());
	image = Some(authfs.openFile(fd, false)?);
	}
	}

	Ok(CompilerOutputParcelFds {
	oat: oat.ok_or_else(\|\| anyhow!("Missing --oat-fd"))?,
	vdex: vdex.ok_or_else(\|\| anyhow!("Missing --vdex-fd"))?,
	image: image.ok_or_else(\|\| anyhow!("Missing --image-fd or --app-image-fd"))?,
	})
	}

	fn build_authfs_config(fd_annotation: &FdAnnotation) -> AuthFsConfig {
	AuthFsConfig {
	port: 3264, // TODO: support dynamic port
	inputFdAnnotations: fd_annotation
	.input_fds
	.iter()
	.map(\|fd\| InputFdAnnotation { fd: *fd })
	.collect(),
	outputFdAnnotations: fd_annotation
	.output_fds
	.iter()
	.map(\|fd\| OutputFdAnnotation { fd: *fd })
	.collect(),
	}
	}

	fn open_authfs_files_for_fd_mapping(
	authfs: &Strong<dyn IAuthFs>,
	config: &AuthFsConfig,
	) -> Result<Vec<(ParcelFileDescriptor, PseudoRawFd)>> {
	let mut fd_mapping = Vec::new();

	let results: Result<Vec<_>> = config
	.inputFdAnnotations
	.iter()
	.map(\|annotation\| Ok((authfs.openFile(annotation.fd, false)?, annotation.fd)))
	.collect();
	fd_mapping.append(&mut results?);

	let results: Result<Vec<_>> = config
	.outputFdAnnotations
	.iter()
	.map(\|annotation\| Ok((authfs.openFile(annotation.fd, true)?, annotation.fd)))
	.collect();
	fd_mapping.append(&mut results?);

	Ok(fd_mapping)
	}

	fn spawn_jailed_task(
	executable: &Path,
	args: &[String],
	fd_mapping: Vec<(ParcelFileDescriptor, PseudoRawFd)>,
	) -> Result<Minijail> {
	// TODO(b/185175567): Run in a more restricted sandbox.
	let jail = Minijail::new()?;
	let preserve_fds: Vec<_> = fd_mapping.iter().map(\|(f, id)\| (f.as_raw_fd(), *id)).collect();
	let _pid = jail.run_remap(executable, preserve_fds.as_slice(), args)?;
	Ok(jail)
	}