# following code modifies these definitions in the gcc config # MULTILIB_OPTIONS # MULTILIB_DIRNAMES # MULTILIB_OSDIRNAMES # GLIBC_DYNAMIC_LINKER32 # GLIBC_DYNAMIC_LINKER64 # GLIBC_DYNAMIC_LINKERX32 # GLIBC_DYNAMIC_LINKERN32 # For more information on use of these variables look at these files in the gcc source code # gcc/config/i386/t-linux64 # gcc/config/mips/t-linux64 # gcc/config/rs6000/t-linux64 # gcc/config/i386/linux64.h # gcc/config/mips/linux64.h # gcc/config/rs6000/linux64.h MULTILIB_OPTION_WHITELIST ??= "-m32 -m64 -mx32 -mabi=n32 -mabi=32 -mabi=64" python gcc_multilib_setup() { import re import shutil import glob srcdir = d.getVar('S', True) builddir = d.getVar('B', True) src_conf_dir = '%s/gcc/config' % srcdir build_conf_dir = '%s/gcc/config' % builddir bb.utils.remove(build_conf_dir, True) ml_globs = ('%s/*/t-linux64' % src_conf_dir, '%s/*/linux64.h' % src_conf_dir, '%s/aarch64/t-aarch64' % src_conf_dir, '%s/aarch64/aarch64.h' % src_conf_dir, '%s/aarch64/aarch64-cores.def' % src_conf_dir, '%s/*/linux.h' % src_conf_dir, '%s/linux.h' % src_conf_dir) # copy the target multilib config files to ${B} for ml_glob in ml_globs: for fn in glob.glob(ml_glob): rel_path = os.path.relpath(fn, src_conf_dir) parent_dir = os.path.dirname(rel_path) bb.utils.mkdirhier('%s/%s' % (build_conf_dir, parent_dir)) bb.utils.copyfile(fn, '%s/%s' % (build_conf_dir, rel_path)) pn = d.getVar('PN', True) multilibs = (d.getVar('MULTILIB_VARIANTS', True) or '').split() if not multilibs and pn != "nativesdk-gcc": return mlprefix = d.getVar('MLPREFIX', True) if ('%sgcc' % mlprefix) != pn and (not pn.startswith('gcc-cross-canadian')) and pn != "nativesdk-gcc": return def write_config(root, files, options, dirnames, osdirnames): for ml_conf_file in files: with open(root + '/' + ml_conf_file, 'r') as f: filelines = f.readlines() # recreate multilib configuration variables substs = [ (r'^(\s*(MULTILIB_OPTIONS\s*=).*)$', r'\2 %s' % '/'.join(options)), (r'^(\s*MULTILIB_OPTIONS\s*\+=.*)$', ''), (r'^(\s*(MULTILIB_DIRNAMES\s*=).*)$', r'\2 %s' % ' '.join(dirnames)), (r'^(\s*MULTILIB_DIRNAMES\s*\+=.*)$', ''), (r'^(\s*(MULTILIB_OSDIRNAMES\s*=).*)$', r'\2 %s' % ' '.join(osdirnames)), (r'^(\s*MULTILIB_OSDIRNAMES\s*\+=.*)$', ''), ] for (i, line) in enumerate(filelines): for subst in substs: line = re.sub(subst[0], subst[1], line) filelines[i] = line with open(root + '/' + ml_conf_file, 'w') as f: f.write(''.join(filelines)) def write_headers(root, files, libdir32, libdir64, libdirx32, libdirn32): def wrap_libdir(libdir): if libdir.find('SYSTEMLIBS_DIR') != -1: return '"%r"' else: return '"/%s/"' % libdir for ml_conf_file in files: fn = root + '/' + ml_conf_file if not os.path.exists(fn): continue with open(fn, 'r') as f: filelines = f.readlines() # replace lines like # #define GLIBC_DYNAMIC_LINKER32 SYSTEMLIBS_DIR "ld-linux.so.2" # by # #define GLIBC_DYNAMIC_LINKER32 "/lib/" "ld-linux.so.2" # this is needed to put the correct dynamic loader path in the generated binaries substs = [ (r'^(#define\s*GLIBC_DYNAMIC_LINKER32\s*)(\S+)(\s*\".*\")$', r'\1' + wrap_libdir(libdir32) + r'\3'), (r'^(#define\s*GLIBC_DYNAMIC_LINKER64\s*)(\S+)(\s*\"\S+\")$', r'\1' + wrap_libdir(libdir64) + r'\3'), (r'^(#define\s*GLIBC_DYNAMIC_LINKER64\s*\"\S+\"\s*)(\S+)(\s*\"\S+\"\s*)(\S+)(\s*\".*\")$', r'\1' + wrap_libdir(libdir64) + r'\3' + wrap_libdir(libdir64) + r'\5'), (r'^(#define\s*GLIBC_DYNAMIC_LINKERX32\s*)(\S+)(\s*\".*\")$', r'\1' + wrap_libdir(libdirx32) + r'\3'), (r'^(#define\s*GLIBC_DYNAMIC_LINKERN32\s*)(\S+)(\s*\".*\")$', r'\1' + wrap_libdir(libdirn32) + r'\3'), (r'^(#define\s*UCLIBC_DYNAMIC_LINKER32\s*)(\S+)(\s*\".*\")$', r'\1' + wrap_libdir(libdir32) + r'\3'), (r'^(#define\s*UCLIBC_DYNAMIC_LINKER64\s*)(\S+)(\s*\".*\")$', r'\1' + wrap_libdir(libdir64) + r'\3'), (r'^(#define\s*UCLIBC_DYNAMIC_LINKERN32\s*)(\S+)(\s*\".*\")$', r'\1' + wrap_libdir(libdirn32) + r'\3'), (r'^(#define\s*UCLIBC_DYNAMIC_LINKER\b\s*)(\S+)(\s*\".*\")$', r'\1' + wrap_libdir(libdir32) + r'\3'), ] for (i, line) in enumerate(filelines): for subst in substs: line = re.sub(subst[0], subst[1], line) filelines[i] = line with open(root + '/' + ml_conf_file, 'w') as f: f.write(''.join(filelines)) gcc_target_config_files = { 'x86_64' : ['gcc/config/i386/t-linux64'], 'i586' : ['gcc/config/i386/t-linux64'], 'i686' : ['gcc/config/i386/t-linux64'], 'mips' : ['gcc/config/mips/t-linux64'], 'mips64' : ['gcc/config/mips/t-linux64'], 'powerpc' : ['gcc/config/rs6000/t-linux64'], 'powerpc64' : ['gcc/config/rs6000/t-linux64'], 'aarch64' : ['gcc/config/aarch64/t-aarch64'], 'arm' : ['gcc/config/aarch64/t-aarch64'], } gcc_header_config_files = { 'x86_64' : ['gcc/config/i386/linux64.h'], 'i586' : ['gcc/config/i386/linux64.h'], 'i686' : ['gcc/config/i386/linux64.h'], 'mips' : ['gcc/config/mips/linux.h', 'gcc/config/mips/linux64.h'], 'mips64' : ['gcc/config/mips/linux.h', 'gcc/config/mips/linux64.h'], 'powerpc' : ['gcc/config/rs6000/linux64.h'], 'powerpc64' : ['gcc/config/rs6000/linux64.h'], 'aarch64' : ['gcc/config/aarch64/aarch64.h'], 'arm' : ['gcc/config/aarch64/aarch64.h'], } libdir32 = 'SYSTEMLIBS_DIR' libdir64 = 'SYSTEMLIBS_DIR' libdirx32 = 'SYSTEMLIBS_DIR' libdirn32 = 'SYSTEMLIBS_DIR' target_arch = (d.getVar('TARGET_ARCH_MULTILIB_ORIGINAL', True) if mlprefix else d.getVar('TARGET_ARCH', True)) if pn == "nativesdk-gcc": header_config_files = gcc_header_config_files[d.getVar("SDK_ARCH", True)] write_headers(builddir, header_config_files, libdir32, libdir64, libdirx32, libdirn32) return if target_arch not in gcc_target_config_files: bb.warn('gcc multilib setup is not supported for TARGET_ARCH=' + target_arch) return target_config_files = gcc_target_config_files[target_arch] header_config_files = gcc_header_config_files[target_arch] ml_list = ['DEFAULTTUNE_MULTILIB_ORIGINAL' if mlprefix else 'DEFAULTTUNE'] mltunes = [('DEFAULTTUNE_virtclass-multilib-%s' % ml) for ml in multilibs] if mlprefix: mlindex = 0 for ml in multilibs: if mlprefix == ml + '-': break mlindex += 1 ml_list.extend(mltunes[:mlindex] + ['DEFAULTTUNE'] + mltunes[(mlindex + 1):]) else: ml_list.extend(mltunes) options = [] dirnames = [] osdirnames = [] optsets = [] for ml in ml_list: tune = d.getVar(ml, True) if not tune: bb.warn("%s doesn't have a corresponding tune. Skipping..." % ml) continue tune_parameters = get_tune_parameters(tune, d) tune_baselib = tune_parameters['baselib'] if not tune_baselib: bb.warn("Tune %s doesn't have a baselib set. Skipping..." % tune) continue if tune_baselib == 'lib64': libdir64 = tune_baselib elif tune_baselib == 'libx32': libdirx32 = tune_baselib elif tune_baselib == 'lib32': libdirn32 = tune_baselib elif tune_baselib == 'lib': libdir32 = tune_baselib else: bb.error('Unknown libdir (%s) of the tune : %s' % (tune_baselib, tune)) # take out '-' mcpu='s and march='s from parameters opts = [] whitelist = (d.getVar("MULTILIB_OPTION_WHITELIST", True) or "").split() for i in d.expand(tune_parameters['ccargs']).split(): if i in whitelist: # Need to strip '-' from option opts.append(i[1:]) options.append(" ".join(opts)) if tune_baselib == 'lib': dirnames.append('32') # /lib => 32bit lib else: dirnames.append(tune_baselib.replace('lib', '')) osdirnames.append('../' + tune_baselib) write_config(builddir, target_config_files, options, dirnames, osdirnames) write_headers(builddir, header_config_files, libdir32, libdir64, libdirx32, libdirn32) } gcc_multilib_setup[cleandirs] = "${B}/gcc/config" gcc_multilib_setup[vardepsexclude] = "SDK_ARCH" EXTRACONFFUNCS += "gcc_multilib_setup"