0cdf705cc6
-By adding MKGCC=yes and MKGCCCMDS=yes on the make commandline it is now possible to compile and install GCC on the system. Before doing this, if you are not using the build.sh script, you will need to call the fetch scripts in order to retrieve the sources of GCC and its dependencies. -Reduce difference with NetBSD share/mk Move Minix-specific parameters from bsd.gcc.mk to bsd.own.mk, which is anyway patched, so that bsd.gcc.mk is now aligned on the NetBSD version. -Clean libraries dependencies, compiles stdc++ only if gcc is also compiled (it is part of the gcc sources) -Correct minix.h header sequence, cleanup spec headers. -Fix cross-compilation from a 32bit host targeting MINIX/arm Change-Id: I1b234af18eed4ab5675188244e931b2a2b7bd943 |
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alpha | ||
arch | ||
arm_elf | ||
common | ||
common_elf | ||
hppa | ||
ia64 | ||
m68k_elf | ||
mips | ||
powerpc | ||
powerpc64 | ||
sh3_elf | ||
sparc64 | ||
sparc_elf | ||
vax_elf | ||
Makefile | ||
README |
Overview of the common runtime support The common runtime support contains two modules, crtbegin and crtend. crtbegin is linked before all other object files of the program or dynamic library, crtend after all other object files. They frame the lists of constructors, destructors, Java types and exception handling frames. If done correctly, crtend contains no code and is therefore position independent. crtendS.o is therefore just a link to crtend.o. crtbegin should be position-independent code. crtbeginT.o doesn't have to be PIC as it is statically linked. The overhead is generally not worth the trouble though. Section types: .ctor: writeable .dtor: writeable .eh_frame: read-only if platform allows mixing read-only and read-write sections. This is supported by GNU ld. .jcr: writeable .init: executable .fini: executable Non-local symbols: Weak references: - _Jv_RegisterClasses, - __cxa_finalize (crtbeginS.o) - __deregister_frame_info - __register_frame_info Hidden: - __dso_handle: pointer to self for crtbeginS.o, NULL otherwise. - __CTOR_LIST_END__ Initialisation (called from .init): 1. Check that the init code hasn't started already, otherwise bail out. 2. If __register_frame_info is NULL, skip to 4 3. Call __register_frame_info with start of .eh_frame as first argument and a data object of at least 8 pointers as second argument. 4: If _Jv_RegisterClasses is NULL, skip to 6 5: Call _Jv_RegisterClasses with the first pointer of the .jcr section as argument. 6: Iterate from the end of the .ctor section to the start. Skip the terminating NULL and stop when reaching the starting (void *)-1 element. Call the pointers as void (*)(void) functions. Deinitialisation (called from .fini): 1. Check if the init code has already started, otherwise bail out. 2. If this is not crtbeginS.o or __cxa_finalize is NULL, skip to 4. 3. Call __cxa_finalize with a pointer into this Dynamic Shared Object (DSO) as first argument. 4. Iterate from the start of the .dtor section to the send. Skip the initial (void *)-1 and stop when reaching the terminating NULL element. Call the pointers as void (*)(void) functions. 5. If __deregister_frame_info is NULL, return. 6. Call __deregister_frame_info with the start of .eh_frame as the argument.