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File.fs
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File.fs
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////
//// File and path management
////
module Microsoft.FSharpLu.File
open System.IO
open Microsoft.FSharpLu.Option
open Microsoft.FSharpLu
/// Path combine infix operator
let (++) x y = System.IO.Path.Combine(x,y)
/// Ensure specified file exists
let public getExistingFile path =
if System.IO.File.Exists path then
Some path
else
None
/// Ensure specified directory exists
let public getExistingDir path =
if System.IO.Directory.Exists path then
Some path
else
None
/// Return the size in bytes of a file
let fileLength filePath =
let f = new System.IO.FileInfo(filePath)
f.Length
/// Append a line to a text file
let public appendLine filepath line =
System.IO.File.AppendAllLines(filepath, [line])
/// Append lines to a text file
let public appendLines filepath (lines:seq<string>) =
System.IO.File.AppendAllLines(filepath, lines)
/// Write lines to a text file
let public writeLines filepath (lines:seq<string>) =
System.IO.File.WriteAllLines(filepath, lines)
/// Create an empty file
let public createEmptyFile filepath =
(
use file = System.IO.File.Create(filepath)
()
)
/// Write to a text file atomically while allowing concurrent reads.
/// **Atomicity is guaranteed only if file content is < 8kb**
///
// NOTE: An implementation based on System.IO.File.Replace
// would not guarantee atomicity for files residing on SMB shares!
// (http://msdn.microsoft.com/en-us/library/windows/desktop/aa365512(v=vs.85).aspx)
let public atomaticWriteAllLines filePath lines =
/// Replace content of an existing file atomically using the
/// whitespace padding hack.
let replaceExistingContentWithPaddingHack () =
// CAUTION: Atomicity breaks if bufferSize < |content to be written|
let BufferSize = 8192
// Should not use FileMode.Create otherwise the file will be empty until the next flush.
use fs = new FileStream(filePath, FileMode.OpenOrCreate, FileAccess.ReadWrite, FileShare.Read, BufferSize, FileOptions.WriteThrough)
use streamWriter = new StreamWriter(fs)
streamWriter.AutoFlush <- false
let newContent = Text.join streamWriter.NewLine lines
// If new content is smaller than previous content
// then we pad the content with spaces to
// prevent concurrent readers to see inconsistent content
// after we flushed and before the file is closed.
let oldLength = fs.Length |> int64
streamWriter.Write(newContent)
let newLength = newContent.Length |> int64
let diff = oldLength - newLength
if diff > 0L then
streamWriter.Write(streamWriter.NewLine)
streamWriter.Write(Array.create(diff |> int) ' ')
streamWriter.Flush()
// Trim the extra padding
fs.SetLength(newLength)
if newLength > int64 BufferSize then
failwithf "File too big to guarantee atomicity: %d bytes. Maximum supported size is %d" newLength BufferSize
// Write content to a temp file in the target directory
let writeToTempFile () =
let targetDir = System.IO.Path.GetDirectoryName(filePath)
let tempFileName = System.Guid.NewGuid().ToString().Replace("-","")
let tempFile = targetDir ++ tempFileName
System.IO.File.WriteAllLines(tempFile, lines |> Seq.toArray)
tempFile
// Logic differs depending on whether the file exists.
if System.IO.File.Exists filePath then
replaceExistingContentWithPaddingHack ()
else
// If the file does not exists then the previous logic does not work:
// creating the file stream will leave the file empty until the file is flushed!
// Instead we write to a separate file and then atomically rename it.
let tempFile = writeToTempFile()
try
System.IO.File.Move(tempFile, filePath)
with
:? System.IO.IOException ->
if System.IO.File.Exists filePath then
// the target file has just been created by
// another process: let the other process win
System.IO.File.Delete tempFile
else
reraise()
/// Read a text file atomically while allowing concurrent writes.
/// Atomicity is guaranteed only if file content is < 8kb
let public atomaticReadAllText filePath =
let bufferSize = 8192 // CAUTION: if < content to be written then atomicity breaks
use fs = new FileStream(filePath, FileMode.Open, FileAccess.Read, FileShare.ReadWrite, bufferSize, FileOptions.SequentialScan)
use streamReader = new StreamReader(fs)
streamReader.ReadToEnd()
/// Read a text file atomically while allowing concurrent writes.
/// Returns result as array of lines
let public atomaticReadLines filePath =
atomaticReadAllText filePath |> Text.splitOnString [|"\r\n"|]
/// Parse any batch file containing variable definitions of the following format
/// rem Some comment
/// set VAR=somevalue
/// set VAR2=some other value
let public parseBatchSetFile file =
file
|> atomaticReadLines
|> Seq.filter (Text.startsWith "::" >> not)
|> Seq.filter (Text.startsWith "rem" >> not)
|> Seq.filter (Text.startsWith "REM" >> not)
|> Seq.filter (System.String.IsNullOrWhiteSpace >> not)
|> Seq.map (Text.skipPrefixCaseInsensitive "set " >> Text.splitOnce '=')
|> Seq.toList
/// Serialize a sequence of key/value pairs to batch file
let public serializeToBatch filepath keypairs =
keypairs |> Seq.map (fun (k,v) -> sprintf "set %s=%O" k v)
|> atomaticWriteAllLines filepath
/// Wait until the specified file exists on disk.
/// Note: the immediate parent directory must already exist
let waitUntilExists (log:Logger.Logger<unit,'B>) filepath =
async {
if System.IO.File.Exists filepath then
log.write "File %s already exists" filepath
return filepath
else
let parentDir = System.IO.Path.GetDirectoryName filepath
let fileName = System.IO.Path.GetFileName filepath
use w = new System.IO.FileSystemWatcher(parentDir, fileName, IncludeSubdirectories = false, EnableRaisingEvents = true)
let waitForFileAsync =
Async.Compete
[
async {
let! v = Async.AwaitEvent w.Created
return v.FullPath
}
async {
let! v = Async.AwaitEvent w.Renamed
return v.FullPath
}
]
// (a) Potential race condition if the file is created here,
// taken care of by (b).
let! waitForFile = Async.StartChild(waitForFileAsync)
/// (b) Check again to handle race condition (a)
if System.IO.File.Exists filepath then
return filepath
else
log.write "awaiting for %s" filepath
return! waitForFile
}
/// Deletes the directory if it exists.
let deleteDirIfExists dir =
if Directory.Exists(dir) then
Directory.Delete(dir, true)
/// Check if the target directory exists, if not, create it.
let createDirIfNotExists dir =
if not <| Directory.Exists(dir) then
Directory.CreateDirectory(dir) |> ignore
/// Create the target directory exists, deleting it first if it already exists.
let recreateDir dir =
if Directory.Exists(dir) then
Directory.Delete(dir, true)
Directory.CreateDirectory(dir) |> ignore
/// Directory copy (ported from MSDN https://msdn.microsoft.com/en-us/library/system.io.directoryinfo.aspx)
/// Usage:
///
/// CopyDirectory (DirectoryInfo(sourceDirectory)) (DirectoryInfo(targetDirectory))
///
let copyDirectory sourcePath targetPath =
let rec aux (source:DirectoryInfo) (target:DirectoryInfo) =
if System.String.Compare(source.FullName, target.FullName, true) <> 0 then
createDirIfNotExists target.FullName
// Copy each file into it's new directory.
source.GetFiles()
|> Seq.iter
(fun fi ->
// printf @"Copying %s\%s" target.FullName fi.Name
fi.CopyTo(Path.Combine(target.ToString(), fi.Name), true) |> ignore)
// Copy each subdirectory using recursion.
source.GetDirectories()
|> Seq.iter(fun diSourceSubDir ->
let nextTargetSubDir = target.CreateSubdirectory(diSourceSubDir.Name)
aux diSourceSubDir nextTargetSubDir)
in aux (DirectoryInfo(sourcePath)) (DirectoryInfo(targetPath))