llvm-gcc-4.2/boehm-gc/doc/README.darwin - llvm-archive - Git at Google

 6.5 update:
 I disabled incremental GC on Darwin in this version, since I couldn't
 get gctest to pass when the GC was built as a dynamic library.  Building
 with -DMPROTECT_VDB (and threads) on the command line should get you
 back to the old state.			- HB

 ./configure --enable-cplusplus results in a "make check" failure, probably
 because the ::delete override ends up in a separate dl, and Darwin dynamic
 loader semantics appear to be such that this is not really visible to the
 main program, unlike on ELF systems.  Someone who understands dynamic
 loading needs to lookat this.  For now, gc_cpp.o needs to be linked
 statically, if needed.			- HB

 Darwin/MacOSX Support - December 16, 2003
 =========================================

 Important Usage Notes
 =====================

 GC_init() MUST be called before calling any other GC functions. This
 is necessary to properly register segments in dynamic libraries. This
 call is required even if you code does not use dynamic libraries as the
 dyld code handles registering all data segments.

 When your use of the garbage collector is confined to dylibs and you
 cannot call GC_init() before your libraries' static initializers have
 run and perhaps called GC_malloc(), create an initialization routine
 for each library to call GC_init():

 #include <gc/gc.h>
 extern "C" void my_library_init() { GC_init(); }

 Compile this code into a my_library_init.o, and link it into your
 dylib. When you link the dylib, pass the -init argument with
 _my_library_init (e.g. gcc -dynamiclib -o my_library.dylib a.o b.o c.o
 my_library_init.o -init _my_library_init). This causes
 my_library_init() to be called before any static initializers, and
 will initialize the garbage collector properly.

 Note: It doesn't hurt to call GC_init() more than once, so it's best,
 if you have an application or set of libraries that all use the
 garbage collector, to create an initialization routine for each of
 them that calls GC_init(). Better safe than sorry.

 The incremental collector is still a bit flaky on darwin. It seems to
 work reliably with workarounds for a few possible bugs in place however
 these workaround may not work correctly in all cases. There may also
 be additional problems that I have not found.

 Thread-local GC allocation will not work with threads that are not
 created using the GC-provided override of pthread_create(). Threads
 created without the GC-provided pthread_create() do not have the
 necessary data structures in the GC to store this data.


 Implementation Information
 ==========================
 Darwin/MacOSX support is nearly complete. Thread support is reliable on
 Darwin 6.x (MacOSX 10.2) and there have been reports of success on older
 Darwin versions (MacOSX 10.1). Shared library support had also been
 added and the gc can be run from a shared library. There is currently only
 support for Darwin/PPC although adding x86 support should be trivial.

 Thread support is implemented in terms of mach thread_suspend and
 thread_resume calls. These provide a very clean interface to thread
 suspension. This implementation doesn't rely on pthread_kill so the
 code works on Darwin < 6.0 (MacOSX 10.1). All the code to stop and
 start the world is located in darwin_stop_world.c.

 Since not all uses of the GC enable clients to override pthread_create()
 before threads have been created, the code for stopping the world has
 been rewritten to look for threads using Mach kernel calls. Each
 thread identified in this way is suspended and resumed as above. In
 addition, since Mach kernel threads do not contain pointers to their
 stacks, a stack-walking function has been written to find the stack
 limits. Given an initial stack pointer (for the current thread, a
 pointer to a stack-allocated local variable will do; for a non-active
 thread, we grab the value of register 1 (on PowerPC)), it
 will walk the PPC Mach-O-ABI compliant stack chain until it reaches the
 top of the stack. This appears to work correctly for GCC-compiled C,
 C++, Objective-C, and Objective-C++ code, as well as for Java
 programs that use JNI. If you run code that does not follow the stack
 layout or stack pointer conventions laid out in the PPC Mach-O ABI,
 then this will likely crash the garbage collector.

 The original incremental collector support unfortunatelly no longer works
 on recent Darwin versions. It also relied on some undocumented kernel
 structures. Mach, however, does have a very clean interface to exception
 handing. The current implementation uses Mach's exception handling.

 Much thanks goes to Andrew Stone, Dietmar Planitzer, Andrew Begel,
 Jeff Sturm, and Jesse Rosenstock for all their work on the
 Darwin/OS X port.

 -Brian Alliet
 brian@brianweb.net


 Older Information (Most of this no longer applies to the current code)
 ======================================================================

 While the GC should work on MacOS X Server, MacOS X and Darwin, I only tested
 it on MacOS X Server.
 I've added a PPC assembly version of GC_push_regs(), thus the setjmp() hack is
 no longer necessary. Incremental collection is supported via mprotect/signal.
 The current solution isn't really optimal because the signal handler must decode
 the faulting PPC machine instruction in order to find the correct heap address.
 Further, it must poke around in the register state which the kernel saved away
 in some obscure register state structure before it calls the signal handler -
 needless to say the layout of this structure is no where documented.
 Threads and dynamic libraries are not yet supported (adding dynamic library
 support via the low-level dyld API shouldn't be that hard).

 The original MacOS X port was brought to you by Andrew Stone.


 June, 1 2000

 Dietmar Planitzer
 dave.pl@ping.at

 Note from Andrew Begel:

 One more fix to enable gc.a to link successfully into a shared library for
 MacOS X. You have to add -fno-common to the CFLAGS in the Makefile. MacOSX
 disallows common symbols in anything that eventually finds its way into a
 shared library. (I don't completely understand why, but -fno-common seems to
 work and doesn't mess up the garbage collector's functionality).

 Feb 26, 2003

 Jeff Sturm and Jesse Rosenstock provided a patch that adds thread support.
 GC_MACOSX_THREADS should be defined in the build and in clients.  Real
 dynamic library support is still missing, i.e. dynamic library data segments
 are still not scanned.  Code that stores pointers to the garbage collected
 heap in statically allocated variables should not reside in a dynamic
 library.  This still doesn't appear to be 100% reliable.

 Mar 10, 2003
 Brian Alliet contributed dynamic library support for MacOSX.  It could also
 use more testing.
	6.5 update:
	I disabled incremental GC on Darwin in this version, since I couldn't
	get gctest to pass when the GC was built as a dynamic library. Building
	with -DMPROTECT_VDB (and threads) on the command line should get you
	back to the old state. - HB

	./configure --enable-cplusplus results in a "make check" failure, probably
	because the ::delete override ends up in a separate dl, and Darwin dynamic
	loader semantics appear to be such that this is not really visible to the
	main program, unlike on ELF systems. Someone who understands dynamic
	loading needs to lookat this. For now, gc_cpp.o needs to be linked
	statically, if needed. - HB

	Darwin/MacOSX Support - December 16, 2003
	=========================================

	Important Usage Notes
	=====================

	GC_init() MUST be called before calling any other GC functions. This
	is necessary to properly register segments in dynamic libraries. This
	call is required even if you code does not use dynamic libraries as the
	dyld code handles registering all data segments.

	When your use of the garbage collector is confined to dylibs and you
	cannot call GC_init() before your libraries' static initializers have
	run and perhaps called GC_malloc(), create an initialization routine
	for each library to call GC_init():

	#include <gc/gc.h>
	extern "C" void my_library_init() { GC_init(); }

	Compile this code into a my_library_init.o, and link it into your
	dylib. When you link the dylib, pass the -init argument with
	_my_library_init (e.g. gcc -dynamiclib -o my_library.dylib a.o b.o c.o
	my_library_init.o -init _my_library_init). This causes
	my_library_init() to be called before any static initializers, and
	will initialize the garbage collector properly.

	Note: It doesn't hurt to call GC_init() more than once, so it's best,
	if you have an application or set of libraries that all use the
	garbage collector, to create an initialization routine for each of
	them that calls GC_init(). Better safe than sorry.

	The incremental collector is still a bit flaky on darwin. It seems to
	work reliably with workarounds for a few possible bugs in place however
	these workaround may not work correctly in all cases. There may also
	be additional problems that I have not found.

	Thread-local GC allocation will not work with threads that are not
	created using the GC-provided override of pthread_create(). Threads
	created without the GC-provided pthread_create() do not have the
	necessary data structures in the GC to store this data.


	Implementation Information
	==========================
	Darwin/MacOSX support is nearly complete. Thread support is reliable on
	Darwin 6.x (MacOSX 10.2) and there have been reports of success on older
	Darwin versions (MacOSX 10.1). Shared library support had also been
	added and the gc can be run from a shared library. There is currently only
	support for Darwin/PPC although adding x86 support should be trivial.

	Thread support is implemented in terms of mach thread_suspend and
	thread_resume calls. These provide a very clean interface to thread
	suspension. This implementation doesn't rely on pthread_kill so the
	code works on Darwin < 6.0 (MacOSX 10.1). All the code to stop and
	start the world is located in darwin_stop_world.c.

	Since not all uses of the GC enable clients to override pthread_create()
	before threads have been created, the code for stopping the world has
	been rewritten to look for threads using Mach kernel calls. Each
	thread identified in this way is suspended and resumed as above. In
	addition, since Mach kernel threads do not contain pointers to their
	stacks, a stack-walking function has been written to find the stack
	limits. Given an initial stack pointer (for the current thread, a
	pointer to a stack-allocated local variable will do; for a non-active
	thread, we grab the value of register 1 (on PowerPC)), it
	will walk the PPC Mach-O-ABI compliant stack chain until it reaches the
	top of the stack. This appears to work correctly for GCC-compiled C,
	C++, Objective-C, and Objective-C++ code, as well as for Java
	programs that use JNI. If you run code that does not follow the stack
	layout or stack pointer conventions laid out in the PPC Mach-O ABI,
	then this will likely crash the garbage collector.

	The original incremental collector support unfortunatelly no longer works
	on recent Darwin versions. It also relied on some undocumented kernel
	structures. Mach, however, does have a very clean interface to exception
	handing. The current implementation uses Mach's exception handling.

	Much thanks goes to Andrew Stone, Dietmar Planitzer, Andrew Begel,
	Jeff Sturm, and Jesse Rosenstock for all their work on the
	Darwin/OS X port.

	-Brian Alliet
	brian@brianweb.net


	Older Information (Most of this no longer applies to the current code)
	======================================================================

	While the GC should work on MacOS X Server, MacOS X and Darwin, I only tested
	it on MacOS X Server.
	I've added a PPC assembly version of GC_push_regs(), thus the setjmp() hack is
	no longer necessary. Incremental collection is supported via mprotect/signal.
	The current solution isn't really optimal because the signal handler must decode
	the faulting PPC machine instruction in order to find the correct heap address.
	Further, it must poke around in the register state which the kernel saved away
	in some obscure register state structure before it calls the signal handler -
	needless to say the layout of this structure is no where documented.
	Threads and dynamic libraries are not yet supported (adding dynamic library
	support via the low-level dyld API shouldn't be that hard).

	The original MacOS X port was brought to you by Andrew Stone.


	June, 1 2000

	Dietmar Planitzer
	dave.pl@ping.at

	Note from Andrew Begel:

	One more fix to enable gc.a to link successfully into a shared library for
	MacOS X. You have to add -fno-common to the CFLAGS in the Makefile. MacOSX
	disallows common symbols in anything that eventually finds its way into a
	shared library. (I don't completely understand why, but -fno-common seems to
	work and doesn't mess up the garbage collector's functionality).

	Feb 26, 2003

	Jeff Sturm and Jesse Rosenstock provided a patch that adds thread support.
	GC_MACOSX_THREADS should be defined in the build and in clients. Real
	dynamic library support is still missing, i.e. dynamic library data segments
	are still not scanned. Code that stores pointers to the garbage collected
	heap in statically allocated variables should not reside in a dynamic
	library. This still doesn't appear to be 100% reliable.

	Mar 10, 2003
	Brian Alliet contributed dynamic library support for MacOSX. It could also
	use more testing.