Linus Torvalds (email@example.com)
Tue, 6 Aug 1996 12:47:31 +0300 (EET DST)
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On Mon, 5 Aug 1996, Peter P. Eiserloh wrote:
We need to keep a clear the concept of threads. Too many people
seem to confuse a thread with a process. The following discussion
does not reflect the current state of linux, but rather is an
attempt to stay at a high level discussion.
There is NO reason to think that "threads" and "processes" are
separate entities. That's how it's traditionally done, but I
personally think it's a major mistake to think that way. The only
reason to think that way is historical baggage.
Both threads and processes are really just one thing: a "context of
execution". Trying to artificially distinguish different cases is just
A "context of execution", hereby called COE, is just the conglomerate
of all the state of that COE. That state includes things like CPU
state (registers etc), MMU state (page mappings), permission state
(uid, gid) and various "communication states" (open files, signal
handlers etc). Traditionally, the difference between a "thread" and a
"process" has been mainly that a threads has CPU state (+ possibly
some other minimal state), while all the other context comes from the
process. However, that's just
one way of dividing up the total state of the COE, and there is nothing that says that it's the right way to do it. Limiting yourself
to that kind of image is just plain stupid.
The way Linux thinks about this (and the way I want things to work) is
that there is no such thing as a "process" or a "thread". There is
only the totality of the COE (called "task" by Linux). Different COE's
can share parts of their context with each other, and one subset of
that sharing is the traditional "thread"/"process" setup, but that
should really be seen as ONLY a subset (it's an important subset, but
that importance comes not from design, but from standards: we obviusly
want to run standards-conforming threads programs on top of Linux
In short: do NOT design around the thread/process way of thinking. The
kernel should be designed around the COE way of thinking, and then the
pthreads library can export the limited pthreads interface to users
who want to use that way of looking at COE's.
Just as an example of what becomes possible when you think COE as
opposed to thread/process:
- You can do a external "cd" program, something that is traditionally impossible in UNIX and/or process/thread (silly example, but the idea
is that you can have these kinds of "modules" that aren't limited to
the traditional UNIX/threads setup). Do a:
/* the "execve()" will disassociate the VM, so the only reason we
used CLONE_VM was to make the act of cloning faster */
- You can do "vfork()" naturally (it meeds minimal kernel support, but that support fits the CUA way of thinking perfectly):
child: continue to run, eventually execve()
mother: wait for execve
- you can do external "IO deamons":
child: open file descriptors etc
mother: use the fd's the child opened and vv.
All of the above work because you aren't tied to the thread/process
way of thinking. Think of a web server for example, where the CGI
scripts are done as "threads of execution". You can't do that with
traditional threads, because traditional threads always have to share
the whole address space, so you'd have to link in everything you ever
wanted to do in the web server itself (a "thread" can't run another
Thinking of this as a "context of execution" problem instead, your
tasks can now chose to execute external programs (= separate the
address space from the parent) etc if they want to, or they can for
example share everything with the parent except for the file
descriptors (so that the sub-"threads" can open lots of files without
the parent needing to worry about them: they close automatically when
the sub-"thread" exits, and it doesn't use up fd's in the parent).
Think of a threaded "inetd", for example. You want low overhead
fork+exec, so with the Linux way you can instead of using a "fork()"
you write a multi-threaded inetd where each thread is created with
just CLONE_VM (share address space, but don't share file descriptors
etc). Then the child can execve if it was a external service (rlogind,
for example), or maybe it was one of the internal inetd services
(echo, timeofday) in which case it just does it's thing and exits.
You can't do that with "thread"/"process".