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167 lines
6.5 KiB
Plaintext
167 lines
6.5 KiB
Plaintext
Linuxthreads - POSIX 1003.1c kernel threads for Linux
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Copyright 1996, 1997 Xavier Leroy (Xavier.Leroy@inria.fr)
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DESCRIPTION:
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This is release 0.7 (late beta) of LinuxThreads, a BiCapitalized
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implementation of the Posix 1003.1c "pthread" interface for Linux.
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LinuxThreads provides kernel-level threads: each thread is a separate
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Unix process, sharing its address space with the other threads through
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the new system call clone(). Scheduling between threads is handled by
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the kernel scheduler, just like scheduling between Unix processes.
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REQUIREMENTS:
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- Linux version 2.0 and up (requires the new clone() system call
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and the new realtime scheduler).
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- For Intel platforms: libc 5.2.18 or later is required.
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5.2.18 or 5.4.12 or later are recommended;
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5.3.12 and 5.4.7 have problems (see the FAQ.html file for more info).
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- Also supports glibc 2 (a.k.a. libc 6), which actually comes with
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a specially-adapted version of this library.
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- Currently supports Intel, Alpha, Sparc, Motorola 68k, ARM and MIPS
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platforms.
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- Multiprocessors are supported.
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INSTALLATION:
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- Edit the Makefile, set the variables in the "Configuration" section.
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- Do "make".
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- Do "make install".
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USING LINUXTHREADS:
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gcc -D_REENTRANT ... -lpthread
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A complete set of manual pages is included. Also see the subdirectory
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Examples/ for some sample programs.
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STATUS:
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- All functions in the Posix 1003.1c base interface implemented.
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Also supports priority scheduling.
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- For users of libc 5 (H.J.Lu's libc), a number of C library functions
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are reimplemented or wrapped to make them thread-safe, including:
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* malloc functions
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* stdio functions (define _REENTRANT before including <stdio.h>)
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* per-thread errno variable (define _REENTRANT before including <errno.h>)
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* directory reading functions (opendir(), etc)
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* sleep()
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* gmtime(), localtime()
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New library functions provided:
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* flockfile(), funlockfile(), ftrylockfile()
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* reentrant versions of network database functions (gethostbyname_r(), etc)
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and password functions (getpwnam_r(), etc).
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- libc 6 (glibc 2) provides much better thread support than libc 5,
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and comes with a specially-adapted version of LinuxThreads.
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For serious multithreaded programming, you should consider switching
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to glibc 2. It is available from ftp.gnu.org:/pub/gnu and its mirrors.
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WARNING:
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Many existing libraries are not compatible with LinuxThreads,
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either because they are not inherently thread-safe, or because they
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have not been compiled with the -D_REENTRANT. For more info, see the
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FAQ.html file in this directory.
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A prime example of the latter is Xlib. If you link it with
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LinuxThreads, you'll probably get an "unknown 0 error" very
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early. This is just a consequence of the Xlib binaries using the
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global variable "errno" to fetch error codes, while LinuxThreads and
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the C library use the per-thread "errno" location.
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See the file README.Xfree3.3 for info on how to compile the Xfree 3.3
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libraries to make them compatible with LinuxThreads.
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KNOWN BUGS AND LIMITATIONS:
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- Threads share pretty much everything they should share according
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to the standard: memory space, file descriptors, signal handlers,
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current working directory, etc. One thing that they do not share
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is their pid's and parent pid's. According to the standard, they
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should have the same, but that's one thing we cannot achieve
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in this implementation (until the CLONE_PID flag to clone() becomes
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usable).
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- The current implementation uses the two signals SIGUSR1 and SIGUSR2,
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so user-level code cannot employ them. Ideally, there should be two
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signals reserved for this library. One signal is used for restarting
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threads blocked on mutexes or conditions; the other is for thread
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cancellation.
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*** This is not anymore true when the application runs on a kernel
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newer than approximately 2.1.60.
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- The stacks for the threads are allocated high in the memory space,
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below the stack of the initial process, and spaced 2M apart.
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Stacks are allocated with the "grow on demand" flag, so they don't
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use much virtual space initially (4k, currently), but can grow
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up to 2M if needed.
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Reserving such a large address space for each thread means that,
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on a 32-bit architecture, no more than about 1000 threads can
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coexist (assuming a 2Gb address space for user processes),
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but this is reasonable, since each thread uses up one entry in the
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kernel's process table, which is usually limited to 512 processes.
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Another potential problem of the "grow on demand" scheme is that
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nothing prevents the user from mmap'ing something in the 2M address
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window reserved for a thread stack, possibly causing later extensions of
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that stack to fail. Mapping at fixed addresses should be avoided
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when using this library.
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- Signal handling does not fully conform to the Posix standard,
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due to the fact that threads are here distinct processes that can be
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sent signals individually, so there's no notion of sending a signal
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to "the" process (the collection of all threads).
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More precisely, here is a summary of the standard requirements
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and how they are met by the implementation:
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1- Synchronous signals (generated by the thread execution, e.g. SIGFPE)
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are delivered to the thread that raised them.
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(OK.)
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2- A fatal asynchronous signal terminates all threads in the process.
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(OK. The thread manager notices when a thread dies on a signal
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and kills all other threads with the same signal.)
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3- An asynchronous signal will be delivered to one of the threads
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of the program which does not block the signal (it is unspecified
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which).
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(No, the signal is delivered to the thread it's been sent to,
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based on the pid of the thread. If that thread is currently
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blocking the signal, the signal remains pending.)
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4- The signal will be delivered to at most one thread.
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(OK, except for signals generated from the terminal or sent to
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the process group, which will be delivered to all threads.)
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- The current implementation of the MIPS support assumes a MIPS ISA II
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processor or better. These processors support atomic operations by
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ll/sc instructions. Older R2000/R3000 series processors are not
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supported yet; support for these will have higher overhead.
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- The current implementation of the ARM support assumes that the SWP
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(atomic swap register with memory) instruction is available. This is
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the case for all processors except for the ARM1 and ARM2. On StrongARM,
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the SWP instruction does not bypass the cache, so multi-processor support
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will be more troublesome.
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