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See README.alpha for Linux on DEC AXP info.
This file applies mostly to Linux/Intel IA32. Ports to Linux on an M68K, IA64,
SPARC, MIPS, Alpha and PowerPC are also integrated. They should behave
similarly, except that the PowerPC port lacks incremental GC support, and
it is unknown to what extent the Linux threads code is functional.
See below for M68K specific notes.
Incremental GC is generally supported.
Dynamic libraries are supported on an ELF system. A static executable
should be linked with the gcc option "-Wl,-defsym,_DYNAMIC=0".
The collector appears to work reliably with Linux threads, but beware
of older versions of glibc and gdb.
The garbage collector uses SIGPWR and SIGXCPU if it is used with
Linux threads. These should not be touched by the client program.
To use threads, you need to abide by the following requirements:
1) You need to use LinuxThreads or NPTL (which are included in libc6).
The collector relies on some implementation details of the LinuxThreads
package. This code may not work on other
pthread implementations (in particular it will *not* work with
MIT pthreads).
2) You must compile the collector with -DGC_LINUX_THREADS and -D_REENTRANT
specified in the Makefile.
3a) Every file that makes thread calls should define GC_LINUX_THREADS and
_REENTRANT and then include gc.h. Gc.h redefines some of the
pthread primitives as macros which also provide the collector with
information it requires.
3b) A new alternative to (3a) is to build the collector and compile GC clients
with -DGC_USE_LD_WRAP, and to link the final program with
(for ld) --wrap read --wrap dlopen --wrap pthread_create \
--wrap pthread_join --wrap pthread_detach \
--wrap pthread_sigmask --wrap sleep
(for gcc) -Wl,--wrap -Wl,read -Wl,--wrap -Wl,dlopen -Wl,--wrap \
-Wl,pthread_create -Wl,--wrap -Wl,pthread_join -Wl,--wrap \
-Wl,pthread_detach -Wl,--wrap -Wl,pthread_sigmask \
-Wl,--wrap -Wl,sleep
In any case, _REENTRANT should be defined during compilation.
4) Dlopen() disables collection during its execution. (It can't run
concurrently with the collector, since the collector looks at its
data structures. It can't acquire the allocator lock, since arbitrary
user startup code may run as part of dlopen().) Under unusual
conditions, this may cause unexpected heap growth.
5) The combination of GC_LINUX_THREADS, REDIRECT_MALLOC, and incremental
collection fails in seemingly random places. This hasn't been tracked
down yet, but is perhaps not completely astonishing. The thread package
uses malloc, and thus can presumably get SIGSEGVs while inside the
package. There is no real guarantee that signals are handled properly
at that point.
6) Thread local storage may not be viewed as part of the root set by the
collector. This probably depends on the linuxthreads version. For the
time being, any collectable memory referenced by thread local storage should
also be referenced from elsewhere, or be allocated as uncollectable.
(This is really a bug that should be fixed somehow.)
M68K LINUX:
(From Richard Zidlicky)
The bad news is that it can crash every linux-m68k kernel on a 68040,
so an additional test is needed somewhere on startup. I have meanwhile
patches to correct the problem in 68040 buserror handler but it is not
yet in any standard kernel.
Here is a simple test program to detect whether the kernel has the
problem. It could be run as a separate check in configure or tested
upon startup. If it fails (return !0) than mprotect can't be used
on that system.
/*
* test for bug that may crash 68040 based Linux
*/
#include <sys/mman.h>
#include <signal.h>
#include <unistd.h>
#include <stdio.h>
#include <stdlib.h>
char *membase;
int pagesize=4096;
int pageshift=12;
int x_taken=0;
int sighandler(int sig)
{
mprotect(membase,pagesize,PROT_READ|PROT_WRITE);
x_taken=1;
}
main()
{
long l;
signal(SIGSEGV,sighandler);
l=(long)mmap(NULL,pagesize,PROT_READ,MAP_PRIVATE | MAP_ANON,-1,0);
if (l==-1)
{
perror("mmap/malloc");
abort();
}
membase=(char*)l;
*(long*)(membase+sizeof(long))=123456789;
if (*(long*)(membase+sizeof(long)) != 123456789 )
{
fprintf(stderr,"writeback failed !\n");
exit(1);
}
if (!x_taken)
{
fprintf(stderr,"exception not taken !\n");
exit(1);
}
fprintf(stderr,"vmtest Ok\n");
exit(0);
}
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