packages/fuchsia_ctl/lib/src/emulator.dart - mirrors/packages - Git at Google

 // Copyright 2013 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 import 'package:file/file.dart';
 import 'package:file/local.dart';
 import 'package:meta/meta.dart';
 import 'package:path/path.dart' as path;

 import 'command_line.dart';
 import 'operation_result.dart';
 import 'ssh_key_manager.dart';

 /// A wrapper for running Fuchsia images on the Android Emulator (AEMU).
 class Emulator {
   /// Creates a new wrapper for the `emu` tool.
   Emulator({
     @required this.aemuPath,
     @required this.fuchsiaImagePath,
     @required this.fuchsiaSdkPath,
     this.fs = const LocalFileSystem(),
     this.cli = const CommandLine(),
     @required this.qemuKernelPath,
     @required this.sshKeyManager,
     @required this.zbiPath,
   })  : assert(cli != null),
         assert(fs != null);

   /// The path to the AEMU executable on disk.
   final String aemuPath;

   /// Fuchsia image to load into the emulator.
   final String fuchsiaImagePath;

   /// The path to the Fuchsia SDK that contains the tools `fvm` and `zbi`.
   final String fuchsiaSdkPath;

   /// The QEMU kernel image to use. This is only bundled in Fuchsia QEMU images.
   final String qemuKernelPath;

   /// The Fuchsia bootloader image.
   final String zbiPath;

   /// Location of `fvm` in [fuchsiaSdkPath].
   @visibleForTesting
   final String fvmToolPath = 'sdk/tools/fvm';

   /// Location of `zbi` in [fuchsiaSdkPath].
   @visibleForTesting
   final String zbiToolPath = 'sdk/tools/zbi';

   /// Default AEMU window size to be launched.
   @visibleForTesting
   final String defaultWindowSize = '1280x800';

   /// Flag to pass to AEMU to run in headless mode.
   @visibleForTesting
   final String aemuHeadlessFlag = '-no-window';

   /// [SshKeyManager] for creating `authorized_keys` to access emulator.
   final SshKeyManager sshKeyManager;

   /// The [FileSystem] to use when running the `emu` tool.
   final FileSystem fs;

   /// The [CommandLine] wrapper for interacting with the current shell.
   final CommandLine cli;

   /// FVM extended image of [fuchsiaImagePath] for running on FEMU.
   @visibleForTesting
   String fvmImagePath;

   /// [zbiPath] that is accessible with SSH using [sshPath] keys.
   @visibleForTesting
   String signedZbiPath;

   /// Update given Fuchsia assets to make them compatible with FEMU.
   ///
   /// 1. Ensure required assets exist.
   /// 2. Create FVM image for running with FEMU.
   /// 3. Sign boot image for host access to the guest FEMU instance.
   Future<void> prepareEnvironment() async {
     assert(fs.isFileSync(fuchsiaImagePath));
     assert(fs.isFileSync(zbiPath));
     assert(fs.isFileSync(qemuKernelPath));

     final String tmpPath = fs.systemTempDirectory.createTempSync().path;
     fvmImagePath = '$tmpPath/fvm.blk';
     signedZbiPath = '$tmpPath/fuchsia-ssh.zbi';

     await _prepareFvmImage(fuchsiaImagePath, fvmImagePath);
     await _signBootImage(zbiPath, signedZbiPath);
   }

   /// Double the size of [fuchsiaImagePath] to make space for the emulator
   /// to write back to it.
   Future<void> _prepareFvmImage(String fuchsiaImagePath, String fvmPath,
       {String fvmExecutable}) async {
     fvmExecutable ??= path.join(fuchsiaSdkPath, fvmToolPath);

     await cli.run(<String>['cp', fuchsiaImagePath, fvmPath]);

     /// [fvmTool] and FEMU need write access to [fvmPath].
     await cli.run(<String>['chmod', 'u+w', fvmPath]);

     // Calculate new size by doubling the current size
     final File fvmFile = fs.file(fvmPath)..createSync();
     final int newSize = fvmFile.lengthSync() * 2;

     await cli.run(
         <String>[fvmExecutable, fvmPath, 'extend', '--length', '$newSize']);
   }

   /// Signed [zbiPath] using [zbiExecutable] with [publicKeyPath] to
   /// create a bootloader image that is accessible from the host.
   Future<void> _signBootImage(String zbiPath, String signedZbiPath,
       {String zbiExecutable}) async {
     zbiExecutable ??= path.join(fuchsiaSdkPath, zbiToolPath);

     await sshKeyManager.createKeys();

     /// Ensure `zbi` is able to find the ssh keys by giving the full path.
     final File authorizedKeysAbsolute =
         fs.file('.ssh/authorized_keys').absolute;

     final List<String> zbiCommand = <String>[
       zbiExecutable,
       '--compressed=zstd',
       '-o',
       signedZbiPath,
       zbiPath,
       '-e',
       'data/ssh/authorized_keys=${authorizedKeysAbsolute.path}'
     ];
     await cli.run(zbiCommand);
   }

   /// Launch AEMU with [fvmImagePath], [signedZbiPath], and [qemuKernelPath].
   ///
   /// [prepareEnvironment] must have been called before starting the emulator.
   ///
   /// If [headless] is true, AEMU will run without a graphical window. Infra
   /// will run AEMU in headless mode.
   ///
   /// [windowSize] is what AEMU will set its window size to. Defaults to
   /// [defaultWindowSize]. Expected to be in the format of "WIDTHxHEIGHT".
   Future<OperationResult> start(
       {bool headless = false, String windowSize}) async {
     assert(fvmImagePath != null && fs.isFileSync(fvmImagePath));
     assert(signedZbiPath != null && fs.isFileSync(signedZbiPath));

     final List<String> aemuCommand = <String>[
       aemuPath,
       '-feature',
       'VirtioInput,RefCountPipe,KVM,GLDirectMem,Vulkan',
       '-window-size',
       windowSize ?? defaultWindowSize,
       '-gpu',
       'swiftshader_indirect',
       if (headless) aemuHeadlessFlag,

       /// Anything after -fuchsia flag will be passed to QEMU
       '-fuchsia',
       '-kernel', qemuKernelPath,
       '-initrd', signedZbiPath,
       '-m', '2048',
       '-serial', 'stdio',
       '-vga', 'none',
       '-device', 'virtio-keyboard-pci',
       '-device', 'virtio_input_multi_touch_pci_1',
       '-smp', '4,threads=2',
       '-machine', 'q35',
       '-device', 'isa-debug-exit,iobase=0xf4,iosize=0x04',
       // TODO(chillers): Add hardware acceleration option to configure this.
       '-enable-kvm',
       '-cpu', 'host,migratable=no,+invtsc',
       '-netdev', 'type=tap,ifname=qemu,script=no,downscript=no,id=net0',
       '-device', 'e1000,netdev=net0,mac=52:54:00:63:5e:7a',
       '-drive', 'file=$fvmImagePath,format=raw,if=none,id=vdisk',
       '-device', 'virtio-blk-pci,drive=vdisk',
       '-append',
       // TODO(chillers): Generate entropy mixin.
       "'TERM=xterm-256color kernel.serial=legacy kernel.entropy-mixin=660486b6b20b4ace3fb5c81b0002abf5271289185c6a5620707606c55b377562 kernel.halt-on-panic=true'",
     ];

     await cli.start(aemuCommand);

     return OperationResult.success();
   }
 }
	// Copyright 2013 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	import 'package:file/file.dart';
	import 'package:file/local.dart';
	import 'package:meta/meta.dart';
	import 'package:path/path.dart' as path;

	import 'command_line.dart';
	import 'operation_result.dart';
	import 'ssh_key_manager.dart';

	/// A wrapper for running Fuchsia images on the Android Emulator (AEMU).
	class Emulator {
	/// Creates a new wrapper for the `emu` tool.
	Emulator({
	@required this.aemuPath,
	@required this.fuchsiaImagePath,
	@required this.fuchsiaSdkPath,
	this.fs = const LocalFileSystem(),
	this.cli = const CommandLine(),
	@required this.qemuKernelPath,
	@required this.sshKeyManager,
	@required this.zbiPath,
	}) : assert(cli != null),
	assert(fs != null);

	/// The path to the AEMU executable on disk.
	final String aemuPath;

	/// Fuchsia image to load into the emulator.
	final String fuchsiaImagePath;

	/// The path to the Fuchsia SDK that contains the tools `fvm` and `zbi`.
	final String fuchsiaSdkPath;

	/// The QEMU kernel image to use. This is only bundled in Fuchsia QEMU images.
	final String qemuKernelPath;

	/// The Fuchsia bootloader image.
	final String zbiPath;

	/// Location of `fvm` in [fuchsiaSdkPath].
	@visibleForTesting
	final String fvmToolPath = 'sdk/tools/fvm';

	/// Location of `zbi` in [fuchsiaSdkPath].
	@visibleForTesting
	final String zbiToolPath = 'sdk/tools/zbi';

	/// Default AEMU window size to be launched.
	@visibleForTesting
	final String defaultWindowSize = '1280x800';

	/// Flag to pass to AEMU to run in headless mode.
	@visibleForTesting
	final String aemuHeadlessFlag = '-no-window';

	/// [SshKeyManager] for creating `authorized_keys` to access emulator.
	final SshKeyManager sshKeyManager;

	/// The [FileSystem] to use when running the `emu` tool.
	final FileSystem fs;

	/// The [CommandLine] wrapper for interacting with the current shell.
	final CommandLine cli;

	/// FVM extended image of [fuchsiaImagePath] for running on FEMU.
	@visibleForTesting
	String fvmImagePath;

	/// [zbiPath] that is accessible with SSH using [sshPath] keys.
	@visibleForTesting
	String signedZbiPath;

	/// Update given Fuchsia assets to make them compatible with FEMU.
	///
	/// 1. Ensure required assets exist.
	/// 2. Create FVM image for running with FEMU.
	/// 3. Sign boot image for host access to the guest FEMU instance.
	Future<void> prepareEnvironment() async {
	assert(fs.isFileSync(fuchsiaImagePath));
	assert(fs.isFileSync(zbiPath));
	assert(fs.isFileSync(qemuKernelPath));

	final String tmpPath = fs.systemTempDirectory.createTempSync().path;
	fvmImagePath = '$tmpPath/fvm.blk';
	signedZbiPath = '$tmpPath/fuchsia-ssh.zbi';

	await _prepareFvmImage(fuchsiaImagePath, fvmImagePath);
	await _signBootImage(zbiPath, signedZbiPath);
	}

	/// Double the size of [fuchsiaImagePath] to make space for the emulator
	/// to write back to it.
	Future<void> _prepareFvmImage(String fuchsiaImagePath, String fvmPath,
	{String fvmExecutable}) async {
	fvmExecutable ??= path.join(fuchsiaSdkPath, fvmToolPath);

	await cli.run(<String>['cp', fuchsiaImagePath, fvmPath]);

	/// [fvmTool] and FEMU need write access to [fvmPath].
	await cli.run(<String>['chmod', 'u+w', fvmPath]);

	// Calculate new size by doubling the current size
	final File fvmFile = fs.file(fvmPath)..createSync();
	final int newSize = fvmFile.lengthSync() * 2;

	await cli.run(
	<String>[fvmExecutable, fvmPath, 'extend', '--length', '$newSize']);
	}

	/// Signed [zbiPath] using [zbiExecutable] with [publicKeyPath] to
	/// create a bootloader image that is accessible from the host.
	Future<void> _signBootImage(String zbiPath, String signedZbiPath,
	{String zbiExecutable}) async {
	zbiExecutable ??= path.join(fuchsiaSdkPath, zbiToolPath);

	await sshKeyManager.createKeys();

	/// Ensure `zbi` is able to find the ssh keys by giving the full path.
	final File authorizedKeysAbsolute =
	fs.file('.ssh/authorized_keys').absolute;

	final List<String> zbiCommand = <String>[
	zbiExecutable,
	'--compressed=zstd',
	'-o',
	signedZbiPath,
	zbiPath,
	'-e',
	'data/ssh/authorized_keys=${authorizedKeysAbsolute.path}'
	];
	await cli.run(zbiCommand);
	}

	/// Launch AEMU with [fvmImagePath], [signedZbiPath], and [qemuKernelPath].
	///
	/// [prepareEnvironment] must have been called before starting the emulator.
	///
	/// If [headless] is true, AEMU will run without a graphical window. Infra
	/// will run AEMU in headless mode.
	///
	/// [windowSize] is what AEMU will set its window size to. Defaults to
	/// [defaultWindowSize]. Expected to be in the format of "WIDTHxHEIGHT".
	Future<OperationResult> start(
	{bool headless = false, String windowSize}) async {
	assert(fvmImagePath != null && fs.isFileSync(fvmImagePath));
	assert(signedZbiPath != null && fs.isFileSync(signedZbiPath));

	final List<String> aemuCommand = <String>[
	aemuPath,
	'-feature',
	'VirtioInput,RefCountPipe,KVM,GLDirectMem,Vulkan',
	'-window-size',
	windowSize ?? defaultWindowSize,
	'-gpu',
	'swiftshader_indirect',
	if (headless) aemuHeadlessFlag,

	/// Anything after -fuchsia flag will be passed to QEMU
	'-fuchsia',
	'-kernel', qemuKernelPath,
	'-initrd', signedZbiPath,
	'-m', '2048',
	'-serial', 'stdio',
	'-vga', 'none',
	'-device', 'virtio-keyboard-pci',
	'-device', 'virtio_input_multi_touch_pci_1',
	'-smp', '4,threads=2',
	'-machine', 'q35',
	'-device', 'isa-debug-exit,iobase=0xf4,iosize=0x04',
	// TODO(chillers): Add hardware acceleration option to configure this.
	'-enable-kvm',
	'-cpu', 'host,migratable=no,+invtsc',
	'-netdev', 'type=tap,ifname=qemu,script=no,downscript=no,id=net0',
	'-device', 'e1000,netdev=net0,mac=52:54:00:63:5e:7a',
	'-drive', 'file=$fvmImagePath,format=raw,if=none,id=vdisk',
	'-device', 'virtio-blk-pci,drive=vdisk',
	'-append',
	// TODO(chillers): Generate entropy mixin.
	"'TERM=xterm-256color kernel.serial=legacy kernel.entropy-mixin=660486b6b20b4ace3fb5c81b0002abf5271289185c6a5620707606c55b377562 kernel.halt-on-panic=true'",
	];

	await cli.start(aemuCommand);

	return OperationResult.success();
	}
	}