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README

Linuxthreads - POSIX 1003.1c kernel threads for Linux

Copyright 1996, 1997 Xavier Leroy (Xavier.Leroy@inria.fr)


DESCRIPTION:

This is release 0.7 (late beta) of LinuxThreads, a BiCapitalized
implementation of the Posix 1003.1c "pthread" interface for Linux.

LinuxThreads provides kernel-level threads: each thread is a separate
Unix process, sharing its address space with the other threads through
the new system call clone(). Scheduling between threads is handled by
the kernel scheduler, just like scheduling between Unix processes.


REQUIREMENTS:

- Linux version 2.0 and up (requires the new clone() system call
and the new realtime scheduler).

- For Intel platforms: libc 5.2.18 or later is required.
5.2.18 or 5.4.12 or later are recommended;
5.3.12 and 5.4.7 have problems (see the FAQ.html file for more info).

- Also supports glibc 2 (a.k.a. libc 6), which actually comes with
a specially-adapted version of this library.

- Currently supports Intel, Alpha, Sparc, Motorola 68k, ARM and MIPS
platforms.

- Multiprocessors are supported.


INSTALLATION:

- Edit the Makefile, set the variables in the "Configuration" section.

- Do "make".

- Do "make install".


USING LINUXTHREADS:

gcc -D_REENTRANT ... -lpthread

A complete set of manual pages is included. Also see the subdirectory
Examples/ for some sample programs.


STATUS:

- All functions in the Posix 1003.1c base interface implemented.
Also supports priority scheduling.

- For users of libc 5 (H.J.Lu's libc), a number of C library functions
are reimplemented or wrapped to make them thread-safe, including:
* malloc functions
* stdio functions (define _REENTRANT before including )
* per-thread errno variable (define _REENTRANT before including )
* directory reading functions (opendir(), etc)
* sleep()
* gmtime(), localtime()

New library functions provided:
* flockfile(), funlockfile(), ftrylockfile()
* reentrant versions of network database functions (gethostbyname_r(), etc)
and password functions (getpwnam_r(), etc).

- libc 6 (glibc 2) provides much better thread support than libc 5,
and comes with a specially-adapted version of LinuxThreads.
For serious multithreaded programming, you should consider switching
to glibc 2. It is available from ftp.gnu.org:/pub/gnu and its mirrors.


WARNING:

Many existing libraries are not compatible with LinuxThreads,
either because they are not inherently thread-safe, or because they
have not been compiled with the -D_REENTRANT. For more info, see the
FAQ.html file in this directory.

A prime example of the latter is Xlib. If you link it with
LinuxThreads, you'll probably get an "unknown 0 error" very
early. This is just a consequence of the Xlib binaries using the
global variable "errno" to fetch error codes, while LinuxThreads and
the C library use the per-thread "errno" location.

See the file README.Xfree3.3 for info on how to compile the Xfree 3.3
libraries to make them compatible with LinuxThreads.


KNOWN BUGS AND LIMITATIONS:

- Threads share pretty much everything they should share according
to the standard: memory space, file descriptors, signal handlers,
current working directory, etc. One thing that they do not share
is their pid's and parent pid's. According to the standard, they
should have the same, but that's one thing we cannot achieve
in this implementation (until the CLONE_PID flag to clone() becomes
usable).

- The current implementation uses the two signals SIGUSR1 and SIGUSR2,
so user-level code cannot employ them. Ideally, there should be two
signals reserved for this library. One signal is used for restarting
threads blocked on mutexes or conditions; the other is for thread
cancellation.

*** This is not anymore true when the application runs on a kernel
newer than approximately 2.1.60.

- The stacks for the threads are allocated high in the memory space,
below the stack of the initial process, and spaced 2M apart.
Stacks are allocated with the "grow on demand" flag, so they don't
use much virtual space initially (4k, currently), but can grow
up to 2M if needed.

Reserving such a large address space for each thread means that,
on a 32-bit architecture, no more than about 1000 threads can
coexist (assuming a 2Gb address space for user processes),
but this is reasonable, since each thread uses up one entry in the
kernel's process table, which is usually limited to 512 processes.

Another potential problem of the "grow on demand" scheme is that
nothing prevents the user from mmap'ing something in the 2M address
window reserved for a thread stack, possibly causing later extensions of
that stack to fail. Mapping at fixed addresses should be avoided
when using this library.

- Signal handling does not fully conform to the Posix standard,
due to the fact that threads are here distinct processes that can be
sent signals individually, so there's no notion of sending a signal
to "the" process (the collection of all threads).
More precisely, here is a summary of the standard requirements
and how they are met by the implementation:

1- Synchronous signals (generated by the thread execution, e.g. SIGFPE)
are delivered to the thread that raised them.
(OK.)

2- A fatal asynchronous signal terminates all threads in the process.
(OK. The thread manager notices when a thread dies on a signal
and kills all other threads with the same signal.)

3- An asynchronous signal will be delivered to one of the threads
of the program which does not block the signal (it is unspecified
which).
(No, the signal is delivered to the thread it's been sent to,
based on the pid of the thread. If that thread is currently
blocking the signal, the signal remains pending.)

4- The signal will be delivered to at most one thread.
(OK, except for signals generated from the terminal or sent to
the process group, which will be delivered to all threads.)

- The current implementation of the MIPS support assumes a MIPS ISA II
processor or better. These processors support atomic operations by
ll/sc instructions. Older R2000/R3000 series processors are not
supported yet; support for these will have higher overhead.

- The current implementation of the ARM support assumes that the SWP
(atomic swap register with memory) instruction is available. This is
the case for all processors except for the ARM1 and ARM2. On StrongARM,
the SWP instruction does not bypass the cache, so multi-processor support
will be more troublesome.