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This is a piped command for generating 10 characters password at random:

cat /dev/urandom | base64 | head -c 10

My question is cat /dev/urandom | base64 is an infinite output stream which will not stop by itself. But why appending head -c 10 makes the whole pipe terminated? I assume cat, base64 and head are 3 separated processes, how can head terminate the cat?

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3 Answers 3

up vote 10 down vote accepted

After base64 outputs 10 bytes, head gets enough inputs and exits. When the former attempts to output more bytes, it will receive SIGPIPE signal and hence exit too。For the same reason, cat will exit in turn.

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head closes the input file after reading the required amount. when a pipe is closed from one side, the other side gets write errors; this causes base64 to close, which in turn causes cat to close.

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It's probably worth mentioning that the only reason head gets any input at all is that base64 writes output after it gets a certain amount of input, i.e. when its buffer is full. If it were to read until EOF, it would be reading forever, and head would never get a crack at any of it. So a similar pipeline, like cat /dev/urandom | sum | head -c 10 would behave differently, since sum waits for EOF. –  Rob Davis Apr 5 '12 at 16:23
s/gets write errors/receives SIGPIPE/ –  Robᵩ Apr 5 '12 at 18:38
Rob's comment is extremely relevant. If the process inherits a SIGPIPE handler or ignores SIGPIPE (eg if it is run under older python interpreters subprocess module) and does not check write errors, it will not terminate. There is a huge difference between a write error and receiving a SIGPIPE, and programs that ignore both issues are prone to running indefinitely. –  William Pursell Apr 5 '12 at 19:55
@WilliamPursell: A process cannot inherit a SIGPIPE handler. It can inherit the SIG_IGN non-handler, but any signal handler is reset to the default when a process uses exec() to replace itself. It's not hard to see why: the pointer to a function in the old process is almost certainly not a good choice for the new process. But you're right that a process that ignores write errors and is also ignoring SIGPIPE will continue working far too long. –  Jonathan Leffler Apr 6 '12 at 3:46

Piping works by connection the output of one process A to the input of B. The connection can be broken, when

  • A closes its output. B will get EOF.
  • B closes its input. A will get an error that the output is no longer available when it tries to write the next byte.

Since these two cases are so common, the handling has been moved into the C standard lib.

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Thanks, but what does "the handling has been moved into the C standard lib" mean? is A and B terminated by shell instead of they detects the closing of input/output and stop themselves? –  Dagang Apr 5 '12 at 15:31
When B closes its side of the pipe, A will receive a signal. The code in the I/O routines of the standard library c.lib (fprintf(), open(), read(), ...) handle the signal and the function call will return return the errno EPIPE = "Broken pipe". –  Aaron Digulla Apr 5 '12 at 15:36
@AaronDigulla, I disagree. I am not aware of any C library that installs a SIGPIPE handler, nor do my experiments suggest it. In fact, SIGPIPE is delivered which causes any program that hasn't installed a handler (that is, 99% of all programs) to exit. –  Robᵩ Apr 5 '12 at 18:57
correct, Rob, it's SIGPIPE. thanks! could you create an answer? i will accept it. currently, the 2 answers are not perfectly correct. –  Dagang Apr 6 '12 at 4:36
@Robᵩ: What I mean is that you don't see "Broken Pipe" error in the console, so someone must handle this signal. –  Aaron Digulla Apr 6 '12 at 11:12

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