As I understand it, POSIX does not guarantee the result of calling read(2) in one thread and close(2) in another. This is effectively what is happening here.

Changing Close() to not write to file.fd yet still only close once per the comment is pretty straightforward (see below). However, setting file.fd to -1 has the positive side affect that file operations after Close() will not be using a stale fd at the syscall level, so we should keep the -1 assignment unless we want to take the file.closedMutex every operation which defeats the purpose.

diff --git a/src/os/file_unix.go b/src/os/file_unix.go
index ff4fc7d..1f31860 100644
--- a/src/os/file_unix.go
+++ b/src/os/file_unix.go
@@ -8,6 +8,7 @@ package os

 import (
        "runtime"
+       "sync"
        "sync/atomic"
        "syscall"
 )
@@ -26,6 +27,9 @@ type file struct {
        name    string
        dirinfo *dirInfo // nil unless directory being read
        nepipe  int32    // number of consecutive EPIPE in Write
+
+       closeMutex sync.Mutex
+       closed     bool
 }

 // Fd returns the integer Unix file descriptor referencing the open file.
@@ -99,14 +103,22 @@ func (f *File) Close() error {
 }

 func (file *file) close() error {
-       if file == nil || file.fd < 0 {
+       if file == nil {
+               return syscall.EINVAL
+       }
+
+       file.closeMutex.Lock()
+       alreadyClosed := file.closed
+       file.closed = true
+       file.closeMutex.Unlock()
+
+       if alreadyClosed {
                return syscall.EINVAL
        }
        var err error
        if e := syscall.Close(file.fd); e != nil {
                err = &PathError{"close", file.name, e}
        }
-       file.fd = -1 // so it can't be closed again

        // no need for a finalizer anymore
        runtime.SetFinalizer(file, nil)

Imagine the following three events happening one after the other:

1. f1.Close()
2. f2 = os.Open()  // Same file descriptor could well be reused
3. f1.Read()

In that case, the call to f1.Read() would actually be reading from an invalid file descriptor. Setting the internal .fd property to -1 prevents that situation.

I am not disputing that there is a race. What I am suggesting is fixing
this race gives the illusion that concurrent read/close works, and POSIX
doesn't guarantee this.

On Thu, Feb 26, 2015 at 7:41 AM, Alvaro Lopez Ortega <
notifications@github.com> wrote:

Imagine the following three events happening one after the other:

1. f1.Close()
2. f2 = os.Open() // Same file descriptor could well be reused
3. f1.Read()

In that case, the call to f1.Read() would actually be reading from an
invalid file descriptor. Setting the internal .fd property to -1 prevents
that situation.

—
Reply to this email directly or view it on GitHub
#10001 (comment).

@davecheney FYI my first reply was not meant as a reply to your first comment. Looking into it more I agree with you.

From the linux man page:

It is probably unwise to close file descriptors while they may be in use by system calls in other threads in the same process. Since a file descriptor may be reused, there are some obscure race conditions that may cause unintended side effects.

I will fix this at a higher level in the serial library. Closing.

The problem here is not with file.fd, but with the actual file. Whenever you call Close concurrently with Read/Write you are risking of corrupting arbitrary file or leaking sensitive data to an arbitrary socket.

@tarm on a closing note, this issue is related to #6222. If all fd io in Go went through a poller, not just the network stuff, then we could have real async close.