#!/usr/bin/env python3 import os.path import re import requests import textwrap BASE_URL = "https://toolchains.bootlin.com/downloads/releases/toolchains" AUTOGENERATED_COMMENT = """# This file was auto-generated by support/scripts/gen-bootlin-toolchains # Do not edit """ # In the below dict: # - 'conditions' indicate the cumulative conditions under which the # toolchain will be made available. In several situations, a given # toolchain is usable on several architectures variants (for # example, an ARMv6 toolchain can be used on ARMv7) # - 'test_options' indicate one specific configuration where the # toolchain can be used. It is used to create the runtime test # cases. If 'test_options' does not exist, the code assumes it can # be made equal to 'conditions' # - 'prefix' is the prefix of the cross-compilation toolchain tools arches = { 'aarch64': { 'conditions': ['BR2_aarch64'], 'prefix': 'aarch64', }, 'aarch64be': { 'conditions': ['BR2_aarch64_be'], 'prefix': 'aarch64_be', }, 'arcle-750d': { 'conditions': ['BR2_arcle', 'BR2_arc750d'], 'prefix': 'arc', }, 'arcle-hs38': { 'conditions': ['BR2_arcle', 'BR2_archs38'], 'prefix': 'arc', }, 'armv5-eabi': { 'conditions': ['BR2_ARM_CPU_ARMV5', 'BR2_ARM_EABI'], 'test_options': ['BR2_arm', 'BR2_arm926t', 'BR2_ARM_EABI'], 'prefix': 'arm', }, 'armv6-eabihf': { 'conditions': ['BR2_ARM_CPU_ARMV6', 'BR2_ARM_EABIHF'], 'test_options': ['BR2_arm', 'BR2_arm1176jzf_s', 'BR2_ARM_EABIHF'], 'prefix': 'arm', }, 'armv7-eabihf': { 'conditions': ['BR2_ARM_CPU_ARMV7A', 'BR2_ARM_EABIHF'], 'test_options': ['BR2_arm', 'BR2_cortex_a8', 'BR2_ARM_EABIHF'], 'prefix': 'arm', }, 'armv7m': { 'conditions': ['BR2_ARM_CPU_ARMV7M'], 'test_options': ['BR2_arm', 'BR2_cortex_m4'], 'prefix': 'arm', }, 'm68k-68xxx': { 'conditions': ['BR2_m68k_m68k'], 'test_options': ['BR2_m68k', 'BR2_m68k_68040'], 'prefix': 'm68k', }, 'm68k-coldfire': { 'conditions': ['BR2_m68k_cf'], 'test_options': ['BR2_m68k', 'BR2_m68k_cf5208'], 'prefix': 'm68k', }, 'microblazebe': { 'conditions': ['BR2_microblazebe'], 'prefix': 'microblaze', }, 'microblazeel': { 'conditions': ['BR2_microblazeel'], 'prefix': 'microblazeel', }, 'mips32': { # Not sure it could be used by other mips32 variants? 'conditions': ['BR2_mips', 'BR2_mips_32', '!BR2_MIPS_SOFT_FLOAT'], 'prefix': 'mips', }, 'mips32el': { # Not sure it could be used by other mips32el variants? 'conditions': ['BR2_mipsel', 'BR2_mips_32', '!BR2_MIPS_SOFT_FLOAT'], 'prefix': 'mipsel', }, 'mips32r5el': { 'conditions': ['BR2_mipsel', 'BR2_mips_32r5', '!BR2_MIPS_SOFT_FLOAT'], 'prefix': 'mipsel', }, 'mips32r6el': { 'conditions': ['BR2_mipsel', 'BR2_mips_32r6', '!BR2_MIPS_SOFT_FLOAT'], 'prefix': 'mipsel', }, 'mips64': { # Not sure it could be used by other mips64 variants? 'conditions': ['BR2_mips64', 'BR2_mips_64', '!BR2_MIPS_SOFT_FLOAT'], 'prefix': 'mips64', }, 'mips64-n32': { # Not sure it could be used by other mips64 variants? 'conditions': ['BR2_mips64', 'BR2_mips_64', 'BR2_MIPS_NABI32', '!BR2_MIPS_SOFT_FLOAT'], 'prefix': 'mips64', }, 'mips64el-n32': { # Not sure it could be used by other mips64el variants? 'conditions': ['BR2_mips64el', 'BR2_mips_64', 'BR2_MIPS_NABI32', '!BR2_MIPS_SOFT_FLOAT'], 'prefix': 'mips64el', }, 'mips64r6el-n32': { 'conditions': ['BR2_mips64el', 'BR2_mips_64r6', 'BR2_MIPS_NABI32', '!BR2_MIPS_SOFT_FLOAT'], 'prefix': 'mips64el', }, 'nios2': { 'conditions': ['BR2_nios2'], 'prefix': 'nios2', }, 'openrisc': { 'conditions': ['BR2_or1k'], 'prefix': 'or1k', }, 'powerpc-e500mc': { # Not sure it could be used by other powerpc variants? 'conditions': ['BR2_powerpc', 'BR2_powerpc_e500mc'], 'prefix': 'powerpc', }, 'powerpc64-e5500': { 'conditions': ['BR2_powerpc64', 'BR2_powerpc_e5500'], 'prefix': 'powerpc64', }, 'powerpc64-power8': { 'conditions': ['BR2_powerpc64', 'BR2_powerpc_power8'], 'prefix': 'powerpc64', }, 'powerpc64le-power8': { 'conditions': ['BR2_powerpc64le', 'BR2_powerpc_power8'], 'prefix': 'powerpc64le', }, 'riscv32-ilp32d': { 'conditions': ['BR2_riscv', 'BR2_riscv_g', 'BR2_RISCV_32', 'BR2_RISCV_ABI_ILP32D'], 'prefix': 'riscv32', }, 'riscv64': { 'conditions': ['BR2_riscv', 'BR2_riscv_g', 'BR2_RISCV_64', 'BR2_RISCV_ABI_LP64'], 'prefix': 'riscv64', }, 'sh-sh4': { 'conditions': ['BR2_sh', 'BR2_sh4'], 'prefix': 'sh4', }, 'sh-sh4aeb': { 'conditions': ['BR2_sh', 'BR2_sh4aeb'], 'prefix': 'sh4aeb', }, 'sparc64': { 'conditions': ['BR2_sparc64', 'BR2_sparc_v9'], 'prefix': 'sparc64', }, 'sparcv8': { 'conditions': ['BR2_sparc', 'BR2_sparc_v8'], 'prefix': 'sparc', }, 'x86-64-core-i7': { 'conditions': ['BR2_x86_64', 'BR2_X86_CPU_HAS_MMX', 'BR2_X86_CPU_HAS_SSE', 'BR2_X86_CPU_HAS_SSE2', 'BR2_X86_CPU_HAS_SSE3', 'BR2_X86_CPU_HAS_SSSE3', 'BR2_X86_CPU_HAS_SSE4', 'BR2_X86_CPU_HAS_SSE42'], 'test_options': ['BR2_x86_64', 'BR2_x86_corei7'], 'prefix': 'x86_64', }, 'x86-core2': { 'conditions': ['BR2_i386', 'BR2_X86_CPU_HAS_MMX', 'BR2_X86_CPU_HAS_SSE', 'BR2_X86_CPU_HAS_SSE2', 'BR2_X86_CPU_HAS_SSE3', 'BR2_X86_CPU_HAS_SSSE3'], 'test_options': ['BR2_i386', 'BR2_x86_core2'], 'prefix': 'i686', }, 'x86-i686': { 'conditions': ['BR2_i386', '!BR2_x86_i486', '!BR2_x86_i586', '!BR2_x86_x1000'], 'test_options': ['BR2_i386', 'BR2_x86_i686'], 'prefix': 'i686', }, 'xtensa-lx60': { 'conditions': ['BR2_xtensa', 'BR2_xtensa_fsf'], 'prefix': 'xtensa', }, } class Toolchain: def __init__(self, arch, libc, variant, version): self.arch = arch self.libc = libc self.variant = variant self.version = version self.fname_prefix = "%s--%s--%s-%s" % (self.arch, self.libc, self.variant, self.version) self.option_name = "BR2_TOOLCHAIN_EXTERNAL_BOOTLIN_%s_%s_%s" % \ (self.arch.replace("-", "_").upper(), self.libc.upper(), self.variant.replace("-", "_").upper()) self.fragment = requests.get(self.fragment_url).text.split("\n") self.sha256 = requests.get(self.hash_url).text.split(" ")[0] @property def tarball_url(self): return os.path.join(BASE_URL, self.arch, "tarballs", self.fname_prefix + ".tar.bz2") @property def hash_url(self): return os.path.join(BASE_URL, self.arch, "tarballs", self.fname_prefix + ".sha256") @property def fragment_url(self): return os.path.join(BASE_URL, self.arch, "fragments", self.fname_prefix + ".frag") def gen_config_in_options(self, f): f.write("config %s\n" % self.option_name) f.write("\tbool \"%s %s %s %s\"\n" % (self.arch, self.libc, self.variant, self.version)) for c in arches[self.arch]['conditions']: f.write("\tdepends on %s\n" % c) selects = [] for frag in self.fragment: # libc type if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_CUSTOM_UCLIBC"): selects.append("BR2_TOOLCHAIN_EXTERNAL_UCLIBC") elif frag.startswith("BR2_TOOLCHAIN_EXTERNAL_CUSTOM_GLIBC"): selects.append("BR2_TOOLCHAIN_EXTERNAL_GLIBC") # all glibc toolchains have RPC support selects.append("BR2_TOOLCHAIN_HAS_NATIVE_RPC") elif frag.startswith("BR2_TOOLCHAIN_EXTERNAL_CUSTOM_MUSL"): selects.append("BR2_TOOLCHAIN_EXTERNAL_MUSL") # gcc version if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_GCC_"): m = re.match("^BR2_TOOLCHAIN_EXTERNAL_GCC_([0-9_]*)=y$", frag) assert m, "Cannot get gcc version for toolchain %s" % self.fname_prefix selects.append("BR2_TOOLCHAIN_GCC_AT_LEAST_%s" % m[1]) # kernel headers version if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_HEADERS_"): m = re.match("^BR2_TOOLCHAIN_EXTERNAL_HEADERS_([0-9_]*)=y$", frag) assert m, "Cannot get kernel headers version for toolchain %s" % self.fname_prefix selects.append("BR2_TOOLCHAIN_HEADERS_AT_LEAST_%s" % m[1]) # C++ if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_CXX"): selects.append("BR2_INSTALL_LIBSTDCPP") # SSP if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_HAS_SSP"): selects.append("BR2_TOOLCHAIN_HAS_SSP") # wchar if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_WCHAR"): selects.append("BR2_USE_WCHAR") # locale if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_LOCALE"): # locale implies the availability of wchar selects.append("BR2_USE_WCHAR") selects.append("BR2_ENABLE_LOCALE") # thread support if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_HAS_THREADS"): selects.append("BR2_TOOLCHAIN_HAS_THREADS") if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_HAS_THREADS_DEBUG"): selects.append("BR2_TOOLCHAIN_HAS_THREADS_DEBUG") if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_HAS_THREADS_NPTL"): selects.append("BR2_TOOLCHAIN_HAS_THREADS_NPTL") # RPC if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_INET_RPC"): selects.append("BR2_TOOLCHAIN_HAS_NATIVE_RPC") # D language if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_DLANG"): selects.append("BR2_TOOLCHAIN_HAS_DLANG") # fortran if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_FORTRAN"): selects.append("BR2_TOOLCHAIN_HAS_FORTRAN") # OpenMP if frag.startswith("BR2_TOOLCHAIN_EXTERNAL_OPENMP"): selects.append("BR2_TOOLCHAIN_HAS_OPENMP") for select in selects: f.write("\tselect %s\n" % select) f.write("\thelp\n") desc = "Bootlin toolchain for the %s architecture, using the %s C library. " % \ (self.arch, self.libc) if self.variant == "stable": desc += "This is a stable version, which means it is using stable and proven versions of gcc, gdb and binutils." else: desc += "This is a bleeding-edge version, which means it is using the latest versions of gcc, gdb and binutils." f.write(textwrap.fill(desc, width=62, initial_indent="\t ", subsequent_indent="\t ") + "\n") f.write("\n") f.write("\t https://toolchains.bootlin.com/\n") f.write("\n") def gen_mk(self, f): f.write("ifeq ($(%s),y)\n" % self.option_name) f.write("TOOLCHAIN_EXTERNAL_BOOTLIN_VERSION = %s\n" % self.version) f.write("TOOLCHAIN_EXTERNAL_BOOTLIN_SOURCE = %s--%s--%s-$(TOOLCHAIN_EXTERNAL_BOOTLIN_VERSION).tar.bz2\n" % (self.arch, self.libc, self.variant)) f.write("TOOLCHAIN_EXTERNAL_BOOTLIN_SITE = %s\n" % os.path.join(BASE_URL, self.arch, "tarballs")) f.write("endif\n\n") pass def gen_hash(self, f): f.write("# From %s\n" % self.hash_url) f.write("sha256 %s %s\n" % (self.sha256, os.path.basename(self.tarball_url))) def gen_test(self, f): if self.variant == "stable": variant = "Stable" else: variant = "BleedingEdge" testname = "TestExternalToolchainBootlin" + \ self.arch.replace("-", "").capitalize() + \ self.libc.capitalize() + variant f.write("\n\n") f.write("class %s(TestExternalToolchain):\n" % testname) f.write(" config = \"\"\"\n") if 'test_options' in arches[self.arch]: test_options = arches[self.arch]['test_options'] else: test_options = arches[self.arch]['conditions'] for opt in test_options: if opt.startswith("!"): f.write(" # %s is not set\n" % opt[1:]) else: f.write(" %s=y\n" % opt) f.write(" BR2_TOOLCHAIN_EXTERNAL=y\n") f.write(" BR2_TOOLCHAIN_EXTERNAL_BOOTLIN=y\n") f.write(" %s=y\n" % self.option_name) f.write(" # BR2_TARGET_ROOTFS_TAR is not set\n") f.write(" \"\"\"\n") f.write(" toolchain_prefix = \"%s-linux\"\n" % arches[self.arch]['prefix']) f.write("\n") f.write(" def test_run(self):\n") f.write(" TestExternalToolchain.common_check(self)\n") def __repr__(self): return "Toolchain(arch=%s libc=%s variant=%s version=%s, option=%s)" % \ (self.arch, self.libc, self.variant, self.version, self.option_name) def get_toolchains(): toolchains = list() for arch, details in arches.items(): print(arch) url = os.path.join(BASE_URL, arch, "available_toolchains") page = requests.get(url).text fnames = sorted(re.findall(r'