# Right now this is focused on arm-specific tune features. # We get away with this for now as one can only use x86-64 as the build host # (not arm). # Note that TUNE_FEATURES is _always_ refering to the target, so we really # don't want to use this for the host/build. def llvm_features_from_tune(d): f = [] feat = d.getVar('TUNE_FEATURES') if not feat: return [] feat = frozenset(feat.split()) mach_overrides = d.getVar('MACHINEOVERRIDES') mach_overrides = frozenset(mach_overrides.split(':')) if 'vfpv4' in feat: f.append("+vfp4") if 'vfpv3' in feat: f.append("+vfp3") if 'vfpv3d16' in feat: f.append("+d16") if 'vfpv2' in feat or 'vfp' in feat: f.append("+vfp2") if 'neon' in feat: f.append("+neon") if 'mips32' in feat: f.append("+mips32") if 'mips32r2' in feat: f.append("+mips32r2") if target_is_armv7(d): f.append('+v7') if ('armv6' in mach_overrides) or ('armv6' in feat): f.append("+v6") if 'armv5te' in feat: f.append("+strict-align") f.append("+v5te") elif 'armv5' in feat: f.append("+strict-align") f.append("+v5") if ('armv4' in mach_overrides) or ('armv4' in feat): f.append("+strict-align") if 'dsp' in feat: f.append("+dsp") if 'thumb' in feat: if d.getVar('ARM_THUMB_OPT') == "thumb": if target_is_armv7(d): f.append('+thumb2') f.append("+thumb-mode") if 'cortexa5' in feat: f.append("+a5") if 'cortexa7' in feat: f.append("+a7") if 'cortexa9' in feat: f.append("+a9") if 'cortexa15' in feat: f.append("+a15") if 'cortexa17' in feat: f.append("+a17") if ('riscv64' in feat) or ('riscv32' in feat): f.append("+a,+c,+d,+f,+m") return f llvm_features_from_tune[vardepvalue] = "${@llvm_features_from_tune(d)}" # TARGET_CC_ARCH changes from build/cross/target so it'll do the right thing # this should go away when https://github.com/rust-lang/rust/pull/31709 is # stable (1.9.0?) def llvm_features_from_cc_arch(d): f = [] feat = d.getVar('TARGET_CC_ARCH') if not feat: return [] feat = frozenset(feat.split()) if '-mmmx' in feat: f.append("+mmx") if '-msse' in feat: f.append("+sse") if '-msse2' in feat: f.append("+sse2") if '-msse3' in feat: f.append("+sse3") if '-mssse3' in feat: f.append("+ssse3") if '-msse4.1' in feat: f.append("+sse4.1") if '-msse4.2' in feat: f.append("+sse4.2") if '-msse4a' in feat: f.append("+sse4a") if '-mavx' in feat: f.append("+avx") if '-mavx2' in feat: f.append("+avx2") return f def llvm_features_from_target_fpu(d): # TARGET_FPU can be hard or soft. +soft-float tell llvm to use soft float # ABI. There is no option for hard. fpu = d.getVar('TARGET_FPU', True) return ["+soft-float"] if fpu == "soft" else [] def llvm_features(d): return ','.join(llvm_features_from_tune(d) + llvm_features_from_cc_arch(d) + llvm_features_from_target_fpu(d)) ## arm-unknown-linux-gnueabihf DATA_LAYOUT[arm] = "e-m:e-p:32:32-i64:64-v128:64:128-a:0:32-n32-S64" TARGET_ENDIAN[arm] = "little" TARGET_POINTER_WIDTH[arm] = "32" TARGET_C_INT_WIDTH[arm] = "32" MAX_ATOMIC_WIDTH[arm] = "64" FEATURES[arm] = "+v6,+vfp2" ## armv7-unknown-linux-gnueabihf DATA_LAYOUT[armv7-eabi] = "e-m:e-p:32:32-i64:64-v128:64:128-a:0:32-n32-S64" TARGET_ENDIAN[armv7-eabi] = "little" TARGET_POINTER_WIDTH[armv7-eabi] = "32" TARGET_C_INT_WIDTH[armv7-eabi] = "32" MAX_ATOMIC_WIDTH[armv7-eabi] = "64" FEATURES[armv7-eabi] = "+v7,+vfp2,+thumb2" ## aarch64-unknown-linux-{gnu, musl} DATA_LAYOUT[aarch64] = "e-m:e-i8:8:32-i16:16:32-i64:64-i128:128-n32:64-S128" TARGET_ENDIAN[aarch64] = "little" TARGET_POINTER_WIDTH[aarch64] = "64" TARGET_C_INT_WIDTH[aarch64] = "32" MAX_ATOMIC_WIDTH[aarch64] = "128" ## x86_64-unknown-linux-{gnu, musl} DATA_LAYOUT[x86_64] = "e-m:e-i64:64-f80:128-n8:16:32:64-S128" TARGET_ENDIAN[x86_64] = "little" TARGET_POINTER_WIDTH[x86_64] = "64" TARGET_C_INT_WIDTH[x86_64] = "32" MAX_ATOMIC_WIDTH[x86_64] = "64" ## x86_64-unknown-linux-gnux32 DATA_LAYOUT[x86_64-x32] = "e-m:e-p:32:32-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128" TARGET_ENDIAN[x86_64-x32] = "little" TARGET_POINTER_WIDTH[x86_64-x32] = "32" TARGET_C_INT_WIDTH[x86_64-x32] = "32" MAX_ATOMIC_WIDTH[x86_64-x32] = "64" ## i686-unknown-linux-{gnu, musl} DATA_LAYOUT[i686] = "e-m:e-p:32:32-f64:32:64-f80:32-n8:16:32-S128" TARGET_ENDIAN[i686] = "little" TARGET_POINTER_WIDTH[i686] = "32" TARGET_C_INT_WIDTH[i686] = "32" MAX_ATOMIC_WIDTH[i686] = "64" ## XXX: a bit of a hack so qemux86 builds, clone of i686-unknown-linux-{gnu, musl} above DATA_LAYOUT[i586] = "e-m:e-p:32:32-f64:32:64-f80:32-n8:16:32-S128" TARGET_ENDIAN[i586] = "little" TARGET_POINTER_WIDTH[i586] = "32" TARGET_C_INT_WIDTH[i586] = "32" MAX_ATOMIC_WIDTH[i586] = "64" ## mips-unknown-linux-{gnu, musl} DATA_LAYOUT[mips] = "E-m:m-p:32:32-i8:8:32-i16:16:32-i64:64-n32-S64" TARGET_ENDIAN[mips] = "big" TARGET_POINTER_WIDTH[mips] = "32" TARGET_C_INT_WIDTH[mips] = "32" MAX_ATOMIC_WIDTH[mips] = "32" ## mipsel-unknown-linux-{gnu, musl} DATA_LAYOUT[mipsel] = "e-m:m-p:32:32-i8:8:32-i16:16:32-i64:64-n32-S64" TARGET_ENDIAN[mipsel] = "little" TARGET_POINTER_WIDTH[mipsel] = "32" TARGET_C_INT_WIDTH[mipsel] = "32" MAX_ATOMIC_WIDTH[mipsel] = "32" ## mips64-unknown-linux-{gnu, musl} DATA_LAYOUT[mips64] = "E-m:e-i8:8:32-i16:16:32-i64:64-n32:64-S128" TARGET_ENDIAN[mips64] = "big" TARGET_POINTER_WIDTH[mips64] = "64" TARGET_C_INT_WIDTH[mips64] = "64" MAX_ATOMIC_WIDTH[mips64] = "64" ## mips64el-unknown-linux-{gnu, musl} DATA_LAYOUT[mips64el] = "e-m:e-i8:8:32-i16:16:32-i64:64-n32:64-S128" TARGET_ENDIAN[mips64el] = "little" TARGET_POINTER_WIDTH[mips64el] = "64" TARGET_C_INT_WIDTH[mips64el] = "64" MAX_ATOMIC_WIDTH[mips64el] = "64" ## powerpc-unknown-linux-{gnu, musl} DATA_LAYOUT[powerpc] = "E-m:e-p:32:32-i64:64-n32" TARGET_ENDIAN[powerpc] = "big" TARGET_POINTER_WIDTH[powerpc] = "32" TARGET_C_INT_WIDTH[powerpc] = "32" MAX_ATOMIC_WIDTH[powerpc] = "32" ## powerpc64-unknown-linux-{gnu, musl} DATA_LAYOUT[powerpc64] = "E-m:e-i64:64-n32:64-S128-v256:256:256-v512:512:512" TARGET_ENDIAN[powerpc64] = "big" TARGET_POINTER_WIDTH[powerpc64] = "64" TARGET_C_INT_WIDTH[powerpc64] = "64" MAX_ATOMIC_WIDTH[powerpc64] = "64" ## powerpc64le-unknown-linux-{gnu, musl} DATA_LAYOUT[powerpc64le] = "e-m:e-i64:64-n32:64-v256:256:256-v512:512:512" TARGET_ENDIAN[powerpc64le] = "little" TARGET_POINTER_WIDTH[powerpc64le] = "64" TARGET_C_INT_WIDTH[powerpc64le] = "64" MAX_ATOMIC_WIDTH[powerpc64le] = "64" ## riscv32-unknown-linux-{gnu, musl} DATA_LAYOUT[riscv32] = "e-m:e-p:32:32-i64:64-n32-S128" TARGET_ENDIAN[riscv32] = "little" TARGET_POINTER_WIDTH[riscv32] = "32" TARGET_C_INT_WIDTH[riscv32] = "32" MAX_ATOMIC_WIDTH[riscv32] = "32" ## riscv64-unknown-linux-{gnu, musl} DATA_LAYOUT[riscv64] = "e-m:e-p:64:64-i64:64-i128:128-n64-S128" TARGET_ENDIAN[riscv64] = "little" TARGET_POINTER_WIDTH[riscv64] = "64" TARGET_C_INT_WIDTH[riscv64] = "64" MAX_ATOMIC_WIDTH[riscv64] = "64" def sys_for(d, thing): return d.getVar('{}_SYS'.format(thing)) def prefix_for(d, thing): return d.getVar('{}_PREFIX'.format(thing)) # Convert a normal arch (HOST_ARCH, TARGET_ARCH, BUILD_ARCH, etc) to something # rust's internals won't choke on. def arch_to_rust_target_arch(arch): if arch == "i586" or arch == "i686": return "x86" elif arch == "mipsel": return "mips" elif arch == "mip64sel": return "mips64" elif arch == "armv7": return "arm" elif arch == "powerpc64le": return "powerpc64" else: return arch # generates our target CPU value def llvm_cpu(d): cpu = d.getVar('PACKAGE_ARCH') target = d.getVar('TRANSLATED_TARGET_ARCH') trans = {} trans['corei7-64'] = "corei7" trans['core2-32'] = "core2" trans['x86-64'] = "x86-64" trans['i686'] = "i686" trans['i586'] = "i586" trans['powerpc'] = "powerpc" trans['mips64'] = "mips64" trans['mips64el'] = "mips64" trans['riscv64'] = "generic-rv64" trans['riscv32'] = "generic-rv32" if target in ["mips", "mipsel"]: feat = frozenset(d.getVar('TUNE_FEATURES').split()) if "mips32r2" in feat: trans['mipsel'] = "mips32r2" trans['mips'] = "mips32r2" elif "mips32" in feat: trans['mipsel'] = "mips32" trans['mips'] = "mips32" try: return trans[cpu] except: return trans.get(target, "generic") TARGET_LLVM_CPU="${@llvm_cpu(d)}" TARGET_LLVM_FEATURES = "${@llvm_features(d)}" # class-native implies TARGET=HOST, and TUNE_FEATURES only describes the real # (original) target. TARGET_LLVM_FEATURES:class-native = "${@','.join(llvm_features_from_cc_arch(d))}" def rust_gen_target(d, thing, wd, features, cpu, arch, abi=""): import json sys = sys_for(d, thing) prefix = prefix_for(d, thing) rust_arch = oe.rust.arch_to_rust_arch(arch) if abi: arch_abi = "{}-{}".format(rust_arch, abi) else: arch_abi = rust_arch features = features or d.getVarFlag('FEATURES', arch_abi) or "" features = features.strip() # build tspec tspec = {} if bb.data.inherits_class('cross-canadian', d): tspec['llvm-target'] = d.getVar('RUST_HOST_SYS', arch_abi) else: tspec['llvm-target'] = d.getVar('RUST_TARGET_SYS', arch_abi) tspec['data-layout'] = d.getVarFlag('DATA_LAYOUT', arch_abi) tspec['max-atomic-width'] = int(d.getVarFlag('MAX_ATOMIC_WIDTH', arch_abi)) tspec['target-pointer-width'] = d.getVarFlag('TARGET_POINTER_WIDTH', arch_abi) tspec['target-c-int-width'] = d.getVarFlag('TARGET_C_INT_WIDTH', arch_abi) tspec['target-endian'] = d.getVarFlag('TARGET_ENDIAN', arch_abi) tspec['arch'] = arch_to_rust_target_arch(rust_arch) tspec['os'] = "linux" if "musl" in tspec['llvm-target']: tspec['env'] = "musl" else: tspec['env'] = "gnu" if "riscv64" in tspec['llvm-target']: tspec['llvm-abiname'] = "lp64d" if "riscv32" in tspec['llvm-target']: tspec['llvm-abiname'] = "ilp32d" tspec['vendor'] = "unknown" tspec['target-family'] = "unix" tspec['linker'] = "{}{}gcc".format(d.getVar('CCACHE'), prefix) tspec['cpu'] = cpu if features != "": tspec['features'] = features tspec['dynamic-linking'] = True tspec['executables'] = True tspec['linker-is-gnu'] = True tspec['linker-flavor'] = "gcc" tspec['has-rpath'] = True tspec['has-elf-tls'] = True tspec['position-independent-executables'] = True tspec['panic-strategy'] = d.getVar("RUST_PANIC_STRATEGY") # write out the target spec json file with open(wd + sys + '.json', 'w') as f: json.dump(tspec, f, indent=4) # These are accounted for in tmpdir path names so don't need to be in the task sig rust_gen_target[vardepsexclude] += "RUST_HOST_SYS RUST_TARGET_SYS" do_rust_gen_targets[vardeps] += "DATA_LAYOUT TARGET_ENDIAN TARGET_POINTER_WIDTH TARGET_C_INT_WIDTH MAX_ATOMIC_WIDTH FEATURES" python do_rust_gen_targets () { wd = d.getVar('WORKDIR') + '/targets/' build_arch = d.getVar('BUILD_ARCH') rust_gen_target(d, 'BUILD', wd, "", "generic", build_arch) } addtask rust_gen_targets after do_patch before do_compile do_rust_gen_targets[dirs] += "${WORKDIR}/targets"