Exemplo n.º 1
0
        private static RecursiveStepResult GetFilesRecursiveStep
        (
            RecursionState recursionState,
            string projectDirectory,
            bool stripProjectDirectory,
            GetFileSystemEntries getFileSystemEntries
        )
        {
            RecursiveStepResult ret = new RecursiveStepResult();

            /*
             * Get the matching files.
             */
            bool considerFiles = false;

            // Only consider files if...
            if (recursionState.RemainingWildcardDirectory.Length == 0)
            {
                // We've reached the end of the wildcard directory elements.
                considerFiles = true;
            }
            else if (recursionState.RemainingWildcardDirectory.IndexOf(recursiveDirectoryMatch, StringComparison.Ordinal) == 0)
            {
                // or, we've reached a "**" so everything else is matched recursively.
                considerFiles = true;
            }

            if (considerFiles)
            {
                string[] files = getFileSystemEntries(FileSystemEntity.Files, recursionState.BaseDirectory,
                    recursionState.SearchData.Filespec, projectDirectory, stripProjectDirectory);

                bool needToProcessEachFile = recursionState.SearchData.Filespec == null || recursionState.SearchData.ExtensionLengthToEnforce != 0;
                if (needToProcessEachFile)
                {
                    List<string> listOfFiles = new List<string>();
                    foreach (string file in files)
                    {
                        if ((recursionState.SearchData.Filespec != null) ||
                            // if no file-spec provided, match the file to the regular expression
                            // PERF NOTE: Regex.IsMatch() is an expensive operation, so we avoid it whenever possible
                            recursionState.SearchData.RegexFileMatch.IsMatch(file))
                        {
                            if ((recursionState.SearchData.Filespec == null) ||
                                // if we used a file-spec with a "loosely" defined extension
                                (recursionState.SearchData.ExtensionLengthToEnforce == 0) ||
                                // discard all files that do not have extensions of the desired length
                                (Path.GetExtension(file).Length == recursionState.SearchData.ExtensionLengthToEnforce))
                            {
                                listOfFiles.Add(file);
                            }
                        }
                    }
                    ret.Files = listOfFiles.ToArray(); 
                }
                else
                {
                    ret.Files = files;
                }
            }

            /*
             * Recurse into subdirectories.
             */
            if (recursionState.SearchData.NeedsRecursion && recursionState.RemainingWildcardDirectory.Length > 0)
            {
                // Find the next directory piece.
                string pattern = null;

                if (!IsRecursiveDirectoryMatch(recursionState.RemainingWildcardDirectory))
                {
                    int indexOfNextSlash = recursionState.RemainingWildcardDirectory.IndexOfAny(directorySeparatorCharacters);
                    ErrorUtilities.VerifyThrow(indexOfNextSlash != -1, "Slash should be guaranteed.");

                    pattern = recursionState.RemainingWildcardDirectory.Substring(0, indexOfNextSlash);

                    if (pattern == recursiveDirectoryMatch)
                    {
                        // If pattern turned into **, then there's no choice but to enumerate everything.
                        pattern = null;
                        recursionState.RemainingWildcardDirectory = recursiveDirectoryMatch;
                    }
                    else
                    {
                        // Peel off the leftmost directory piece. So for example, if remainingWildcardDirectory
                        // contains:
                        //
                        //        ?emp\foo\**\bar
                        //
                        // then put '?emp' into pattern. Then put the remaining part,
                        //
                        //        foo\**\bar
                        //
                        // back into remainingWildcardDirectory.
                        // This is a performance optimization. We don't want to enumerate everything if we 
                        // don't have to.
                        recursionState.RemainingWildcardDirectory = recursionState.RemainingWildcardDirectory.Substring(indexOfNextSlash + 1);
                    }
                }

                ret.RemainingWildcardDirectory = recursionState.RemainingWildcardDirectory;
                ret.Subdirs = getFileSystemEntries(FileSystemEntity.Directories, recursionState.BaseDirectory, pattern, null, false);
            }

            return ret;
        }
Exemplo n.º 2
0
        static SearchAction GetFileSearchData(string projectDirectoryUnescaped, string filespecUnescaped,
            GetFileSystemEntries getFileSystemEntries, DirectoryExists directoryExists, out bool stripProjectDirectory,
            out RecursionState result)
        {
            stripProjectDirectory = false;
            result = new RecursionState();

            string fixedDirectoryPart;
            string wildcardDirectoryPart;
            string filenamePart;
            string matchFileExpression;
            bool needsRecursion;
            bool isLegalFileSpec;
            GetFileSpecInfo
            (
                filespecUnescaped,
                out fixedDirectoryPart,
                out wildcardDirectoryPart,
                out filenamePart,
                out matchFileExpression,
                out needsRecursion,
                out isLegalFileSpec,
                getFileSystemEntries
            );

            /*
             * If the filespec is invalid, then just return now.
             */
            if (!isLegalFileSpec)
            {
                return SearchAction.ReturnFileSpec;
            }

            // The projectDirectory is not null only if we are running the evaluation from
            // inside the engine (i.e. not from a task)
            if (projectDirectoryUnescaped != null)
            {
                if (fixedDirectoryPart != null)
                {
                    string oldFixedDirectoryPart = fixedDirectoryPart;
                    try
                    {
                        fixedDirectoryPart = Path.Combine(projectDirectoryUnescaped, fixedDirectoryPart);
                    }
                    catch (ArgumentException)
                    {
                        return SearchAction.ReturnEmptyList;
                    }

                    stripProjectDirectory = !String.Equals(fixedDirectoryPart, oldFixedDirectoryPart, StringComparison.OrdinalIgnoreCase);
                }
                else
                {
                    fixedDirectoryPart = projectDirectoryUnescaped;
                    stripProjectDirectory = true;
                }
            }

            /*
             * If the fixed directory part doesn't exist, then this means no files should be
             * returned.
             */
            if (fixedDirectoryPart.Length > 0 && !directoryExists(fixedDirectoryPart))
            {
                return SearchAction.ReturnEmptyList;
            }

            // determine if we need to use the regular expression to match the files
            // PERF NOTE: Constructing a Regex object is expensive, so we avoid it whenever possible
            bool matchWithRegex =
                // if we have a directory specification that uses wildcards, and
                (wildcardDirectoryPart.Length > 0) &&
                // the specification is not a simple "**"
                !IsRecursiveDirectoryMatch(wildcardDirectoryPart);
            // then we need to use the regular expression

            // if we're not using the regular expression, get the file pattern extension
            string extensionPart = matchWithRegex
                ? null
                : Path.GetExtension(filenamePart);

            // check if the file pattern would cause Windows to match more loosely on the extension
            // NOTE: Windows matches loosely in two cases (in the absence of the * wildcard in the extension):
            // 1) if the extension ends with the ? wildcard, it matches files with shorter extensions also e.g. "file.tx?" would
            //    match both "file.txt" and "file.tx"
            // 2) if the extension is three characters, and the filename contains the * wildcard, it matches files with longer
            //    extensions that start with the same three characters e.g. "*.htm" would match both "file.htm" and "file.html"
            bool needToEnforceExtensionLength =
                    (extensionPart != null) &&
                    (extensionPart.IndexOf('*') == -1)
                &&
                    (extensionPart.EndsWith("?", StringComparison.Ordinal)
                ||
                    ((extensionPart.Length == (3 + 1 /* +1 for the period */)) &&
                    (filenamePart.IndexOf('*') != -1)));

            var searchData = new FilesSearchData(
                // if using the regular expression, ignore the file pattern
                (matchWithRegex ? null : filenamePart), (needToEnforceExtensionLength ? extensionPart.Length : 0),
                // if using the file pattern, ignore the regular expression
                (matchWithRegex ? new Regex(matchFileExpression, RegexOptions.IgnoreCase) : null),
                needsRecursion);

            result.SearchData = searchData;
            result.BaseDirectory = fixedDirectoryPart;
            result.RemainingWildcardDirectory = wildcardDirectoryPart;

            return SearchAction.RunSearch;
        }
Exemplo n.º 3
0
        /// <summary>
        /// Get all files that match either the file-spec or the regular expression. 
        /// </summary>
        /// <param name="listOfFiles">List of files that gets populated.</param>
        /// <param name="recursionState">Information about the search</param>
        /// <param name="projectDirectory"></param>
        /// <param name="stripProjectDirectory"></param>
        /// <param name="getFileSystemEntries">Delegate.</param>
        /// <param name="searchesToExclude">Patterns to exclude from the results</param>
        /// <param name="searchesToExcludeInSubdirs">exclude patterns that might activate farther down the directory tree. Keys assume paths are normalized with forward slashes and no trailing slashes</param>
        private static void GetFilesRecursive
        (
            IList<string> listOfFiles,
            RecursionState recursionState,
            string projectDirectory,
            bool stripProjectDirectory,
            GetFileSystemEntries getFileSystemEntries,
            IList<RecursionState> searchesToExclude,
            Dictionary<string, List<RecursionState>> searchesToExcludeInSubdirs
        )
        {
            ErrorUtilities.VerifyThrow((recursionState.SearchData.Filespec== null) || (recursionState.SearchData.RegexFileMatch == null),
                "File-spec overrides the regular expression -- pass null for file-spec if you want to use the regular expression.");

            ErrorUtilities.VerifyThrow((recursionState.SearchData.Filespec != null) || (recursionState.SearchData.RegexFileMatch != null),
                "Need either a file-spec or a regular expression to match files.");

            ErrorUtilities.VerifyThrow(recursionState.RemainingWildcardDirectory != null, "Expected non-null remaning wildcard directory.");

            //  Determine if any of searchesToExclude is necessarily a superset of the results that will be returned.
            //  This means all results will be excluded and we should bail out now.
            if (searchesToExclude != null)
            {
                foreach (var searchToExclude in searchesToExclude)
                {
                    //  The BaseDirectory of all the exclude searches should be the same as the include one
                    Debug.Assert(FileUtilities.PathsEqual(searchToExclude.BaseDirectory, recursionState.BaseDirectory), "Expected exclude search base directory to match include search base directory");

                    //  We can exclude all results in this folder if:
                    if (
                        //  We are matching files based on a filespec and not a regular expression
                        searchToExclude.SearchData.Filespec != null &&
                        //  The wildcard path portion of the excluded search matches the include search
                        FileUtilities.PathsEqual(searchToExclude.RemainingWildcardDirectory, recursionState.RemainingWildcardDirectory) &&
                        //  The exclude search will match ALL filenames OR
                        (searchToExclude.SearchData.Filespec == "*" || searchToExclude.SearchData.Filespec == "*.*" ||
                            //  The exclude search filename pattern matches the include search's pattern
                            (searchToExclude.SearchData.Filespec == recursionState.SearchData.Filespec &&
                            searchToExclude.SearchData.ExtensionLengthToEnforce == recursionState.SearchData.ExtensionLengthToEnforce)))
                    {
                        //  We won't get any results from this search that we would end up keeping
                        return;
                    }
                }
            }

            RecursiveStepResult nextStep = GetFilesRecursiveStep(
                recursionState,
                projectDirectory,
                stripProjectDirectory,
                getFileSystemEntries);

            RecursiveStepResult[] excludeNextSteps = null;
            if (searchesToExclude != null)
            {
                excludeNextSteps = new RecursiveStepResult[searchesToExclude.Count];
                for (int i = 0; i < searchesToExclude.Count; i++)
                {
                    excludeNextSteps[i] = GetFilesRecursiveStep(
                        searchesToExclude[i],
                        projectDirectory,
                        stripProjectDirectory,
                        getFileSystemEntries);
                }
            }

            if (nextStep.Files != null)
            {
                HashSet<string> filesToExclude = null;
                if (excludeNextSteps != null)
                {
                    filesToExclude = new HashSet<string>();
                    foreach (var excludeStep in excludeNextSteps)
                    {
                        foreach (var file in excludeStep.Files)
                        {
                            filesToExclude.Add(file);
                        }
                    }
                }

                foreach (var file in nextStep.Files)
                {
                    if (filesToExclude == null || !filesToExclude.Contains(file))
                    {
                        listOfFiles.Add(file);
                    }
                }
            }

            if (nextStep.Subdirs != null)
            {
                foreach (string subdir in nextStep.Subdirs)
                {
                    //  RecursionState is a struct so this copies it
                    var newRecursionState = recursionState;

                    newRecursionState.BaseDirectory = subdir;
                    newRecursionState.RemainingWildcardDirectory = nextStep.RemainingWildcardDirectory;

                    List<RecursionState> newSearchesToExclude = null;

                    if (excludeNextSteps != null)
                    {
                        newSearchesToExclude = new List<RecursionState>();

                        for (int i = 0; i < excludeNextSteps.Length; i++)
                        {
                            if (excludeNextSteps[i].Subdirs != null &&
                                excludeNextSteps[i].Subdirs.Any(excludedDir => FileUtilities.PathsEqual(excludedDir, subdir)))
                            {
                                RecursionState thisExcludeStep = searchesToExclude[i];
                                thisExcludeStep.BaseDirectory = subdir;
                                thisExcludeStep.RemainingWildcardDirectory = excludeNextSteps[i].RemainingWildcardDirectory;
                                newSearchesToExclude.Add(thisExcludeStep);
                            }
                        }
                    }

                    if (searchesToExcludeInSubdirs != null)
                    {
                        List<RecursionState> searchesForSubdir;

                        // The normalization fixes https://github.com/Microsoft/msbuild/issues/917
                        // and is a partial fix for https://github.com/Microsoft/msbuild/issues/724
                        if (searchesToExcludeInSubdirs.TryGetValue(subdir.NormalizeForPathComparison(), out searchesForSubdir))
                        {
                            //  We've found the base directory that these exclusions apply to.  So now add them as normal searches
                            if (newSearchesToExclude == null)
                            {
                                newSearchesToExclude = new List<RecursionState>();
                            }
                            newSearchesToExclude.AddRange(searchesForSubdir);
                        }
                    }

                    // We never want to strip the project directory from the leaves, because the current 
                    // process directory maybe different
                    GetFilesRecursive(
                        listOfFiles,
                        newRecursionState,
                        projectDirectory,
                        stripProjectDirectory,
                        getFileSystemEntries,
                        newSearchesToExclude,
                        searchesToExcludeInSubdirs);
                }
            }
        }
Exemplo n.º 4
0
        public void RecalculateExpanded(out List <string> warnings)
        {
            // TODO: A performance improvement could be made by short-circuiting if the non-expanded values are not dirty. It's unclear whether it would make a significant difference.

            // Take a lock to prevent the variables from changing while expansion is being processed.
            lock (_setLock)
            {
                const int MaxDepth = 50;
                // TODO: Validate max size? No limit on *nix. Max of 32k per env var on Windows https://msdn.microsoft.com/en-us/library/windows/desktop/ms682653%28v=vs.85%29.aspx
                _trace.Entering();
                warnings = new List <string>();

                // Create a new expanded instance.
                var expanded = new ConcurrentDictionary <string, Variable>(_nonexpanded, StringComparer.OrdinalIgnoreCase);

                // Process each variable in the dictionary.
                foreach (string name in _nonexpanded.Keys)
                {
                    bool secret   = _nonexpanded[name].Secret;
                    bool readOnly = _nonexpanded[name].ReadOnly;
                    _trace.Verbose($"Processing expansion for variable: '{name}'");

                    // This algorithm handles recursive replacement using a stack.
                    // 1) Max depth is enforced by leveraging the stack count.
                    // 2) Cyclical references are detected by walking the stack.
                    // 3) Additional call frames are avoided.
                    bool           exceedsMaxDepth = false;
                    bool           hasCycle        = false;
                    var            stack           = new Stack <RecursionState>();
                    RecursionState state           = new RecursionState(name: name, value: _nonexpanded[name].Value ?? string.Empty);

                    // The outer while loop is used to manage popping items from the stack (of state objects).
                    while (true)
                    {
                        // The inner while loop is used to manage replacement within the current state object.

                        // Find the next macro within the current value.
                        while (state.StartIndex < state.Value.Length &&
                               (state.PrefixIndex = state.Value.IndexOf(Constants.Variables.MacroPrefix, state.StartIndex, StringComparison.Ordinal)) >= 0 &&
                               (state.SuffixIndex = state.Value.IndexOf(Constants.Variables.MacroSuffix, state.PrefixIndex + Constants.Variables.MacroPrefix.Length, StringComparison.Ordinal)) >= 0)
                        {
                            // A candidate was found.
                            string nestedName = state.Value.Substring(
                                startIndex: state.PrefixIndex + Constants.Variables.MacroPrefix.Length,
                                length: state.SuffixIndex - state.PrefixIndex - Constants.Variables.MacroPrefix.Length);
                            if (!secret)
                            {
                                _trace.Verbose($"Found macro candidate: '{nestedName}'");
                            }

                            Variable nestedVariable;
                            if (!string.IsNullOrEmpty(nestedName) &&
                                _nonexpanded.TryGetValue(nestedName, out nestedVariable))
                            {
                                // A matching variable was found.

                                // Check for max depth.
                                int currentDepth = stack.Count + 1; // Add 1 since the current state isn't on the stack.
                                if (currentDepth == MaxDepth)
                                {
                                    // Warn and break out of the while loops.
                                    _trace.Warning("Exceeds max depth.");
                                    exceedsMaxDepth = true;
                                    warnings.Add(StringUtil.Loc("Variable0ExceedsMaxDepth1", name, MaxDepth));
                                    break;
                                }
                                // Check for a cyclical reference.
                                else if (string.Equals(state.Name, nestedName, StringComparison.OrdinalIgnoreCase) ||
                                         stack.Any(x => string.Equals(x.Name, nestedName, StringComparison.OrdinalIgnoreCase)))
                                {
                                    // Warn and break out of the while loops.
                                    _trace.Warning("Cyclical reference detected.");
                                    hasCycle = true;
                                    warnings.Add(StringUtil.Loc("Variable0ContainsCyclicalReference", name));
                                    break;
                                }
                                else
                                {
                                    // Push the current state and start a new state. There is no need to break out
                                    // of the inner while loop. It will continue processing the new current state.
                                    secret = secret || nestedVariable.Secret;
                                    if (!secret)
                                    {
                                        _trace.Verbose($"Processing expansion for nested variable: '{nestedName}'");
                                    }

                                    stack.Push(state);
                                    state = new RecursionState(name: nestedName, value: StringTranslator(nestedVariable.Value ?? string.Empty));
                                }
                            }
                            else
                            {
                                // A matching variable was not found.
                                if (!secret)
                                {
                                    _trace.Verbose("Macro not found.");
                                }

                                state.StartIndex = state.PrefixIndex + 1;
                            }
                        } // End of inner while loop for processing the variable.

                        // No replacement is performed if something went wrong.
                        if (exceedsMaxDepth || hasCycle)
                        {
                            break;
                        }

                        // Check if finished processing the stack.
                        if (stack.Count == 0)
                        {
                            // Store the final value and break out of the outer while loop.
                            if (!string.Equals(state.Value, _nonexpanded[name].Value, StringComparison.Ordinal))
                            {
                                // Register the secret.
                                if (secret && !string.IsNullOrEmpty(state.Value))
                                {
                                    _secretMasker.AddValue(state.Value);
                                }

                                // Set the expanded value.
                                expanded[state.Name] = new Variable(state.Name, state.Value, secret, readOnly);
                                _trace.Verbose($"Set '{state.Name}' = '{state.Value}'");
                            }

                            break;
                        }

                        // Adjust and pop the parent state.
                        if (!secret)
                        {
                            _trace.Verbose("Popping recursion state.");
                        }

                        RecursionState parent = stack.Pop();
                        parent.Value = string.Concat(
                            parent.Value.Substring(0, parent.PrefixIndex),
                            state.Value,
                            parent.Value.Substring(parent.SuffixIndex + Constants.Variables.MacroSuffix.Length));
                        parent.StartIndex = parent.PrefixIndex + (state.Value).Length;
                        state             = parent;
                        if (!secret)
                        {
                            _trace.Verbose($"Intermediate state '{state.Name}': '{state.Value}'");
                        }
                    } // End of outer while loop for recursively processing the variable.
                }     // End of foreach loop over each key in the dictionary.

                _expanded = expanded;
            } // End of critical section.
        }