I want to create a binary on MacOS Catalina (64 bit) with a data segment that can be made executable (see here for details) but is not executable from the start.
I make my binary with
gcc -nostdlib -segprot __DATA rwx rw- ....
I also created an object file with gcc and then called ld directly. The ld version is
$ ld -v @(#)PROGRAM:ld PROJECT:ld64-530 BUILD 18:57:17 Dec 13 2019 configured to support archs: armv6 armv7 armv7s arm64 arm64e arm64_32 i386 x86_64 x86_64h armv6m armv7k armv7m armv7em LTO support using: LLVM version 11.0.0, (clang-118.104.22.168) (static support for 23, runtime is 23) TAPI support using: Apple TAPI version 11.0.0 (tapi-1100.0.11)
That should make the data segment initially RW, but allow me to use mprotect to extend permission in that segment to RWX.
However, I notice that the __DATA segment is RW for initial and max permission:
$ otool -l jonesforth . . . Load command 2 cmd LC_SEGMENT_64 cmdsize 312 segname __DATA vmaddr 0x0000000100001000 vmsize 0x0000000000024000 fileoff 4096 filesize 4096 maxprot 0x00000003 initprot 0x00000003 nsects 3 flags 0x0 Section . . .
Is there something I'm missing? The darwin documentation here says:
-segprot name max init (32-bit only) Specifies the maximum and initial virtual memory protection of the named segment, name, to be max and init ,respectively. The values for max and init are any combination of the characters `r' (for read), `w' (for write), `x' (for execute) and '-' (no access). The default is `rwx' for the maximum protection for all segments for PowerPC architecures and `rw` for the all Intel architecures. The default for the initial protection for all segments is `rw' unless the segment contains a section which contains some machine instructions, in which case the default for the initial protection is `rwx' (and for Intel architecures it also sets the maximum protection to `rwx' in this case). The default for the initial protection for the ``__TEXT'' segment is `rx' (not writable).
Of course, that the darwin (32 bit only) documentation but it's the only thing I found. I suspect that either gcc does not 'properly' support the darwin protection syntax, or it's broken, or things in darwin changed from x86 to x64.
Any pointers would be great, thanks in advance.