src/main/java/com/google/devtools/build/lib/exec/SymlinkTreeHelper.java - bazel - Git at Google

 // Copyright 2014 The Bazel Authors. All rights reserved.
 //
 // 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.
 package com.google.devtools.build.lib.exec;


 import com.google.common.annotations.VisibleForTesting;
 import com.google.common.base.Preconditions;
 import com.google.common.collect.ImmutableList;
 import com.google.common.collect.ImmutableMap;
 import com.google.common.collect.Lists;
 import com.google.devtools.build.lib.actions.Artifact;
 import com.google.devtools.build.lib.actions.EnvironmentalExecException;
 import com.google.devtools.build.lib.actions.ExecException;
 import com.google.devtools.build.lib.actions.FilesetOutputSymlink;
 import com.google.devtools.build.lib.shell.Command;
 import com.google.devtools.build.lib.shell.CommandException;
 import com.google.devtools.build.lib.util.CommandBuilder;
 import com.google.devtools.build.lib.util.CommandUtils;
 import com.google.devtools.build.lib.util.OsUtils;
 import com.google.devtools.build.lib.util.io.OutErr;
 import com.google.devtools.build.lib.vfs.Dirent;
 import com.google.devtools.build.lib.vfs.FileStatus;
 import com.google.devtools.build.lib.vfs.FileSystemUtils;
 import com.google.devtools.build.lib.vfs.Path;
 import com.google.devtools.build.lib.vfs.PathFragment;
 import com.google.devtools.build.lib.vfs.Symlinks;
 import java.io.IOException;
 import java.util.HashMap;
 import java.util.List;
 import java.util.Map;
 import javax.annotation.Nullable;

 /**
  * Helper class responsible for the symlink tree creation. Used to generate runfiles and fileset
  * symlink farms.
  */
 public final class SymlinkTreeHelper {
   @VisibleForTesting
   public static final String BUILD_RUNFILES = "build-runfiles" + OsUtils.executableExtension();

   private final Path inputManifest;
   private final Path symlinkTreeRoot;
   private final boolean filesetTree;

   /**
    * Creates SymlinkTreeHelper instance. Can be used independently of SymlinkTreeAction.
    *
    * @param inputManifest exec path to the input runfiles manifest
    * @param symlinkTreeRoot the root of the symlink tree to be created
    * @param filesetTree true if this is fileset symlink tree, false if this is a runfiles symlink
    *     tree.
    */
   public SymlinkTreeHelper(Path inputManifest, Path symlinkTreeRoot, boolean filesetTree) {
     this.inputManifest = inputManifest;
     this.symlinkTreeRoot = symlinkTreeRoot;
     this.filesetTree = filesetTree;
   }

   private Path getOutputManifest() {
     return symlinkTreeRoot.getChild("MANIFEST");
   }

   /** Creates a symlink tree by making VFS calls. */
   public void createSymlinksDirectly(Path symlinkTreeRoot, Map<PathFragment, Artifact> symlinks)
       throws IOException {
     Preconditions.checkState(!filesetTree);
     // Our strategy is to minimize mutating file system operations as much as possible. Ideally, if
     // there is an existing symlink tree with the expected contents, we don't make any changes. Our
     // algorithm goes as follows:
     //
     // 1. Create a tree structure that represents the entire set of paths that we want to exist. The
     //    tree structure contains a node for every intermediate directory. For example, this is the
     //    tree structure corresponding to the symlinks {"a/b/c": "foobar", "a/d/e": null}:
     //
     //      / b - c (symlink to "foobar")
     //    a
     //      \ d - e (empty file)
     //
     //    Note that we need to distinguish directories, symlinks, and empty files. In the Directory
     //    class below, we use two maps for that purpose: one for directories, and one for symlinks
     //    and empty files. This avoids having to create additional classes / objects to distinguish
     //    them.
     //
     // 2. Perform a depth-first traversal over the on-disk file system tree and make each directory
     //    match our expected directory layout. To that end, call readdir, and compare the result
     //    with the contents of the corresponding node in the in-memory tree.
     //
     //    For each Dirent entry in the readdir result:
     //    - If the entry is not in the current node, if the entry has an incompatible type, or if it
     //      is a symlink that points to the wrong location, delete the entry on disk (recursively).
     //    - Otherwise:
     //      - If the entry is a directory, recurse into that directory
     //      - In all cases, delete the entry in the current in-memory node.
     //
     // 3. For every remaining entry in the node, create the corresponding file, symlink, or
     //    directory on disk. If it is a directory, recurse into that directory.
     Directory root = new Directory();
     for (Map.Entry<PathFragment, Artifact> entry : symlinks.entrySet()) {
       // This creates intermediate directory nodes as a side effect.
       Directory parentDir = root.walk(entry.getKey().getParentDirectory());
       parentDir.addSymlink(entry.getKey().getBaseName(), entry.getValue());
     }
     root.syncTreeRecursively(symlinkTreeRoot);
   }

   /**
    * Creates symlink tree and output manifest using the {@code build-runfiles.cc} tool.
    *
    * @param enableRunfiles If {@code false} only the output manifest is created.
    */
   public void createSymlinks(
       Path execRoot,
       OutErr outErr,
       BinTools binTools,
       Map<String, String> shellEnvironment,
       boolean enableRunfiles)
       throws ExecException {
     if (enableRunfiles) {
       createSymlinksUsingCommand(execRoot, binTools, shellEnvironment, outErr);
     } else {
       copyManifest();
     }
   }

   /** Copies the input manifest to the output manifest. */
   public void copyManifest() throws ExecException {
     // Pretend we created the runfiles tree by copying the manifest
     try {
       symlinkTreeRoot.createDirectoryAndParents();
       FileSystemUtils.copyFile(inputManifest, getOutputManifest());
     } catch (IOException e) {
       throw new EnvironmentalExecException(e);
     }
   }

   /**
    * Creates a symlink tree using a CommandBuilder. This means that the symlink tree will always be
    * present on the developer's workstation. Useful when running commands locally.
    *
    * <p>Warning: this method REALLY executes the command on the box Bazel is running on, without any
    * kind of synchronization, locking, or anything else.
    */
   public void createSymlinksUsingCommand(
       Path execRoot, BinTools binTools, Map<String, String> shellEnvironment, OutErr outErr)
       throws EnvironmentalExecException {
     Command command = createCommand(execRoot, binTools, shellEnvironment);
     try {
       if (outErr != null) {
         command.execute(outErr.getOutputStream(), outErr.getErrorStream());
       } else {
         command.execute();
       }
     } catch (CommandException e) {
       throw new EnvironmentalExecException(CommandUtils.describeCommandFailure(true, e), e);
     }
   }

   @VisibleForTesting
   Command createCommand(Path execRoot, BinTools binTools, Map<String, String> shellEnvironment) {
     Preconditions.checkNotNull(shellEnvironment);
     List<String> args = Lists.newArrayList();
     args.add(binTools.getEmbeddedPath(BUILD_RUNFILES).asFragment().getPathString());
     if (filesetTree) {
       args.add("--allow_relative");
       args.add("--use_metadata");
     }
     args.add(inputManifest.relativeTo(execRoot).getPathString());
     args.add(symlinkTreeRoot.relativeTo(execRoot).getPathString());
     return new CommandBuilder()
         .addArgs(args)
         .setWorkingDir(execRoot)
         .setEnv(shellEnvironment)
         .build();
   }

   static ImmutableMap<PathFragment, PathFragment> processFilesetLinks(
       ImmutableList<FilesetOutputSymlink> links, PathFragment root, PathFragment execRoot) {
     Map<PathFragment, PathFragment> symlinks = new HashMap<>();
     for (FilesetOutputSymlink symlink : links) {
       symlinks.put(root.getRelative(symlink.getName()), symlink.reconstituteTargetPath(execRoot));
     }
     return ImmutableMap.copyOf(symlinks);
   }

   private static final class Directory {
     private final Map<String, Artifact> symlinks = new HashMap<>();
     private final Map<String, Directory> directories = new HashMap<>();

     void addSymlink(String basename, @Nullable Artifact artifact) {
       symlinks.put(basename, artifact);
     }

     Directory walk(PathFragment dir) {
       Directory result = this;
       for (String segment : dir.getSegments()) {
         Directory next = result.directories.get(segment);
         if (next == null) {
           next = new Directory();
           result.directories.put(segment, next);
         }
         result = next;
       }
       return result;
     }

     void syncTreeRecursively(Path at) throws IOException {
       // This is a reimplementation of the C++ code in build-runfiles.cc. This avoids having to ship
       // a separate native tool to create a few runfiles.
       // TODO(ulfjack): Measure performance.
       FileStatus stat = at.statNullable(Symlinks.FOLLOW);
       if (stat == null) {
         at.createDirectoryAndParents();
       } else if (!stat.isDirectory()) {
         at.deleteTree();
         at.createDirectoryAndParents();
       }
       // TODO(ulfjack): provide the mode bits from FileStatus and use that to construct the correct
       //  chmod call here. Note that we do not have any tests for this right now. Something like
       //  this:
       // if (!stat.isExecutable() || !stat.isReadable()) {
       //   at.chmod(stat.getMods() | 0700);
       // }
       for (Dirent dirent : at.readdir(Symlinks.FOLLOW)) {
         String basename = dirent.getName();
         Path next = at.getChild(basename);
         if (symlinks.containsKey(basename)) {
           Artifact value = symlinks.remove(basename);
           if (value == null) {
             if (dirent.getType() != Dirent.Type.FILE) {
               next.deleteTree();
               FileSystemUtils.createEmptyFile(next);
             }
             // For consistency with build-runfiles.cc, we don't truncate the file if one exists.
           } else {
             // TODO(ulfjack): On Windows, this call makes a copy rather than creating a symlink.
             FileSystemUtils.ensureSymbolicLink(next, value.getPath().asFragment());
           }
         } else if (directories.containsKey(basename)) {
           Directory nextDir = directories.remove(basename);
           if (dirent.getType() != Dirent.Type.DIRECTORY) {
             next.deleteTree();
           }
           nextDir.syncTreeRecursively(at.getChild(basename));
         } else {
           at.getChild(basename).deleteTree();
         }
       }

       for (Map.Entry<String, Artifact> entry : symlinks.entrySet()) {
         Path next = at.getChild(entry.getKey());
         if (entry.getValue() == null) {
           FileSystemUtils.createEmptyFile(next);
         } else {
           FileSystemUtils.ensureSymbolicLink(next, entry.getValue().getPath().asFragment());
         }
       }
       for (Map.Entry<String, Directory> entry : directories.entrySet()) {
         entry.getValue().syncTreeRecursively(at.getChild(entry.getKey()));
       }
     }
   }
 }
	// Copyright 2014 The Bazel Authors. All rights reserved.
	//
	// 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.
	package com.google.devtools.build.lib.exec;


	import com.google.common.annotations.VisibleForTesting;
	import com.google.common.base.Preconditions;
	import com.google.common.collect.ImmutableList;
	import com.google.common.collect.ImmutableMap;
	import com.google.common.collect.Lists;
	import com.google.devtools.build.lib.actions.Artifact;
	import com.google.devtools.build.lib.actions.EnvironmentalExecException;
	import com.google.devtools.build.lib.actions.ExecException;
	import com.google.devtools.build.lib.actions.FilesetOutputSymlink;
	import com.google.devtools.build.lib.shell.Command;
	import com.google.devtools.build.lib.shell.CommandException;
	import com.google.devtools.build.lib.util.CommandBuilder;
	import com.google.devtools.build.lib.util.CommandUtils;
	import com.google.devtools.build.lib.util.OsUtils;
	import com.google.devtools.build.lib.util.io.OutErr;
	import com.google.devtools.build.lib.vfs.Dirent;
	import com.google.devtools.build.lib.vfs.FileStatus;
	import com.google.devtools.build.lib.vfs.FileSystemUtils;
	import com.google.devtools.build.lib.vfs.Path;
	import com.google.devtools.build.lib.vfs.PathFragment;
	import com.google.devtools.build.lib.vfs.Symlinks;
	import java.io.IOException;
	import java.util.HashMap;
	import java.util.List;
	import java.util.Map;
	import javax.annotation.Nullable;

	/**
	* Helper class responsible for the symlink tree creation. Used to generate runfiles and fileset
	* symlink farms.
	*/
	public final class SymlinkTreeHelper {
	@VisibleForTesting
	public static final String BUILD_RUNFILES = "build-runfiles" + OsUtils.executableExtension();

	private final Path inputManifest;
	private final Path symlinkTreeRoot;
	private final boolean filesetTree;

	/**
	* Creates SymlinkTreeHelper instance. Can be used independently of SymlinkTreeAction.
	*
	* @param inputManifest exec path to the input runfiles manifest
	* @param symlinkTreeRoot the root of the symlink tree to be created
	* @param filesetTree true if this is fileset symlink tree, false if this is a runfiles symlink
	* tree.
	*/
	public SymlinkTreeHelper(Path inputManifest, Path symlinkTreeRoot, boolean filesetTree) {
	this.inputManifest = inputManifest;
	this.symlinkTreeRoot = symlinkTreeRoot;
	this.filesetTree = filesetTree;
	}

	private Path getOutputManifest() {
	return symlinkTreeRoot.getChild("MANIFEST");
	}

	/** Creates a symlink tree by making VFS calls. */
	public void createSymlinksDirectly(Path symlinkTreeRoot, Map<PathFragment, Artifact> symlinks)
	throws IOException {
	Preconditions.checkState(!filesetTree);
	// Our strategy is to minimize mutating file system operations as much as possible. Ideally, if
	// there is an existing symlink tree with the expected contents, we don't make any changes. Our
	// algorithm goes as follows:
	//
	// 1. Create a tree structure that represents the entire set of paths that we want to exist. The
	// tree structure contains a node for every intermediate directory. For example, this is the
	// tree structure corresponding to the symlinks {"a/b/c": "foobar", "a/d/e": null}:
	//
	// / b - c (symlink to "foobar")
	// a
	// \ d - e (empty file)
	//
	// Note that we need to distinguish directories, symlinks, and empty files. In the Directory
	// class below, we use two maps for that purpose: one for directories, and one for symlinks
	// and empty files. This avoids having to create additional classes / objects to distinguish
	// them.
	//
	// 2. Perform a depth-first traversal over the on-disk file system tree and make each directory
	// match our expected directory layout. To that end, call readdir, and compare the result
	// with the contents of the corresponding node in the in-memory tree.
	//
	// For each Dirent entry in the readdir result:
	// - If the entry is not in the current node, if the entry has an incompatible type, or if it
	// is a symlink that points to the wrong location, delete the entry on disk (recursively).
	// - Otherwise:
	// - If the entry is a directory, recurse into that directory
	// - In all cases, delete the entry in the current in-memory node.
	//
	// 3. For every remaining entry in the node, create the corresponding file, symlink, or
	// directory on disk. If it is a directory, recurse into that directory.
	Directory root = new Directory();
	for (Map.Entry<PathFragment, Artifact> entry : symlinks.entrySet()) {
	// This creates intermediate directory nodes as a side effect.
	Directory parentDir = root.walk(entry.getKey().getParentDirectory());
	parentDir.addSymlink(entry.getKey().getBaseName(), entry.getValue());
	}
	root.syncTreeRecursively(symlinkTreeRoot);
	}

	/**
	* Creates symlink tree and output manifest using the {@code build-runfiles.cc} tool.
	*
	* @param enableRunfiles If {@code false} only the output manifest is created.
	*/
	public void createSymlinks(
	Path execRoot,
	OutErr outErr,
	BinTools binTools,
	Map<String, String> shellEnvironment,
	boolean enableRunfiles)
	throws ExecException {
	if (enableRunfiles) {
	createSymlinksUsingCommand(execRoot, binTools, shellEnvironment, outErr);
	} else {
	copyManifest();
	}
	}

	/** Copies the input manifest to the output manifest. */
	public void copyManifest() throws ExecException {
	// Pretend we created the runfiles tree by copying the manifest
	try {
	symlinkTreeRoot.createDirectoryAndParents();
	FileSystemUtils.copyFile(inputManifest, getOutputManifest());
	} catch (IOException e) {
	throw new EnvironmentalExecException(e);
	}
	}

	/**
	* Creates a symlink tree using a CommandBuilder. This means that the symlink tree will always be
	* present on the developer's workstation. Useful when running commands locally.
	*
	* <p>Warning: this method REALLY executes the command on the box Bazel is running on, without any
	* kind of synchronization, locking, or anything else.
	*/
	public void createSymlinksUsingCommand(
	Path execRoot, BinTools binTools, Map<String, String> shellEnvironment, OutErr outErr)
	throws EnvironmentalExecException {
	Command command = createCommand(execRoot, binTools, shellEnvironment);
	try {
	if (outErr != null) {
	command.execute(outErr.getOutputStream(), outErr.getErrorStream());
	} else {
	command.execute();
	}
	} catch (CommandException e) {
	throw new EnvironmentalExecException(CommandUtils.describeCommandFailure(true, e), e);
	}
	}

	@VisibleForTesting
	Command createCommand(Path execRoot, BinTools binTools, Map<String, String> shellEnvironment) {
	Preconditions.checkNotNull(shellEnvironment);
	List<String> args = Lists.newArrayList();
	args.add(binTools.getEmbeddedPath(BUILD_RUNFILES).asFragment().getPathString());
	if (filesetTree) {
	args.add("--allow_relative");
	args.add("--use_metadata");
	}
	args.add(inputManifest.relativeTo(execRoot).getPathString());
	args.add(symlinkTreeRoot.relativeTo(execRoot).getPathString());
	return new CommandBuilder()
	.addArgs(args)
	.setWorkingDir(execRoot)
	.setEnv(shellEnvironment)
	.build();
	}

	static ImmutableMap<PathFragment, PathFragment> processFilesetLinks(
	ImmutableList<FilesetOutputSymlink> links, PathFragment root, PathFragment execRoot) {
	Map<PathFragment, PathFragment> symlinks = new HashMap<>();
	for (FilesetOutputSymlink symlink : links) {
	symlinks.put(root.getRelative(symlink.getName()), symlink.reconstituteTargetPath(execRoot));
	}
	return ImmutableMap.copyOf(symlinks);
	}

	private static final class Directory {
	private final Map<String, Artifact> symlinks = new HashMap<>();
	private final Map<String, Directory> directories = new HashMap<>();

	void addSymlink(String basename, @Nullable Artifact artifact) {
	symlinks.put(basename, artifact);
	}

	Directory walk(PathFragment dir) {
	Directory result = this;
	for (String segment : dir.getSegments()) {
	Directory next = result.directories.get(segment);
	if (next == null) {
	next = new Directory();
	result.directories.put(segment, next);
	}
	result = next;
	}
	return result;
	}

	void syncTreeRecursively(Path at) throws IOException {
	// This is a reimplementation of the C++ code in build-runfiles.cc. This avoids having to ship
	// a separate native tool to create a few runfiles.
	// TODO(ulfjack): Measure performance.
	FileStatus stat = at.statNullable(Symlinks.FOLLOW);
	if (stat == null) {
	at.createDirectoryAndParents();
	} else if (!stat.isDirectory()) {
	at.deleteTree();
	at.createDirectoryAndParents();
	}
	// TODO(ulfjack): provide the mode bits from FileStatus and use that to construct the correct
	// chmod call here. Note that we do not have any tests for this right now. Something like
	// this:
	// if (!stat.isExecutable() \|\| !stat.isReadable()) {
	// at.chmod(stat.getMods() \| 0700);
	// }
	for (Dirent dirent : at.readdir(Symlinks.FOLLOW)) {
	String basename = dirent.getName();
	Path next = at.getChild(basename);
	if (symlinks.containsKey(basename)) {
	Artifact value = symlinks.remove(basename);
	if (value == null) {
	if (dirent.getType() != Dirent.Type.FILE) {
	next.deleteTree();
	FileSystemUtils.createEmptyFile(next);
	}
	// For consistency with build-runfiles.cc, we don't truncate the file if one exists.
	} else {
	// TODO(ulfjack): On Windows, this call makes a copy rather than creating a symlink.
	FileSystemUtils.ensureSymbolicLink(next, value.getPath().asFragment());
	}
	} else if (directories.containsKey(basename)) {
	Directory nextDir = directories.remove(basename);
	if (dirent.getType() != Dirent.Type.DIRECTORY) {
	next.deleteTree();
	}
	nextDir.syncTreeRecursively(at.getChild(basename));
	} else {
	at.getChild(basename).deleteTree();
	}
	}

	for (Map.Entry<String, Artifact> entry : symlinks.entrySet()) {
	Path next = at.getChild(entry.getKey());
	if (entry.getValue() == null) {
	FileSystemUtils.createEmptyFile(next);
	} else {
	FileSystemUtils.ensureSymbolicLink(next, entry.getValue().getPath().asFragment());
	}
	}
	for (Map.Entry<String, Directory> entry : directories.entrySet()) {
	entry.getValue().syncTreeRecursively(at.getChild(entry.getKey()));
	}
	}
	}
	}