In Python 3, this was due to a bug in Python's standard I/O library. The bug was fixed in Python 3.3.
In a Unix terminal, typing Ctrl+D doesn't actually close the process's stdin. But typing either Enter or Ctrl+D does cause the OS
read system call to return right away. So:
xyzzy (I press Enter here)
(I press Ctrl+D once)
sys.stdin.read(100) is delegated to
sys.stdin.buffer.read, which calls the system read() in a loop until either it accumulates the full requested amount of data; or the system read() returns 0 bytes; or an error occurs. (docs) (source)
Pressing Enter after the first line caused the system read() to return 6 bytes.
sys.stdin.buffer.read called read() again to try to get more input. Then I pressed Ctrl+D, causing read() to return 0 bytes. At this point,
sys.stdin.buffer.read gave up and returned just the 6 bytes it had collected earlier.
Note that the process still has my terminal on stdin, and I can still type stuff.
>>> sys.stdin.read() (note I can still type stuff to python)
xyzzy (I press Enter)
(Press Ctrl+D again)
OK. This is the part that was busted when this question was originally asked. It works now. But prior to Python 3.3, there was a bug.
The bug was a little complicated --- basically the problem was that two separate layers were doing the same work.
BufferedReader.read() was written to call
self.raw.read() repeatedly until it returned 0 bytes. However, the raw method,
FileIO.read(), performed a loop-until-zero-bytes of its own. So the first time you press Ctrl+D in a Python with this bug, it would cause
FileIO.read() to return 6 bytes to
BufferedReader.read(), which would then immediately call
self.raw.read() again. The second Ctrl+D would cause that to return 0 bytes, and then
BufferedReader.read() would finally exit.
This explanation is unfortunately much longer than my previous one, but it has the virtue of being correct. Bugs are like that...