/* * Copyright (c) 2016 Andrew Kelley * * This file is part of zig, which is MIT licensed. * See http://opensource.org/licenses/MIT */ #include "buffer.hpp" #include "error.hpp" #include "target.hpp" #include "util.hpp" #include "os.hpp" #include "compiler.hpp" #include "glibc.hpp" #include static const ZigLLVM_ArchType arch_list[] = { ZigLLVM_arm, // ARM (little endian): arm, armv.*, xscale ZigLLVM_armeb, // ARM (big endian): armeb ZigLLVM_aarch64, // AArch64 (little endian): aarch64 ZigLLVM_aarch64_be, // AArch64 (big endian): aarch64_be ZigLLVM_aarch64_32, // AArch64 (little endian) ILP32: aarch64_32 ZigLLVM_arc, // ARC: Synopsys ARC ZigLLVM_avr, // AVR: Atmel AVR microcontroller ZigLLVM_bpfel, // eBPF or extended BPF or 64-bit BPF (little endian) ZigLLVM_bpfeb, // eBPF or extended BPF or 64-bit BPF (big endian) ZigLLVM_hexagon, // Hexagon: hexagon ZigLLVM_mips, // MIPS: mips, mipsallegrex, mipsr6 ZigLLVM_mipsel, // MIPSEL: mipsel, mipsallegrexe, mipsr6el ZigLLVM_mips64, // MIPS64: mips64, mips64r6, mipsn32, mipsn32r6 ZigLLVM_mips64el, // MIPS64EL: mips64el, mips64r6el, mipsn32el, mipsn32r6el ZigLLVM_msp430, // MSP430: msp430 ZigLLVM_ppc, // PPC: powerpc ZigLLVM_ppc64, // PPC64: powerpc64, ppu ZigLLVM_ppc64le, // PPC64LE: powerpc64le ZigLLVM_r600, // R600: AMD GPUs HD2XXX - HD6XXX ZigLLVM_amdgcn, // AMDGCN: AMD GCN GPUs ZigLLVM_riscv32, // RISC-V (32-bit): riscv32 ZigLLVM_riscv64, // RISC-V (64-bit): riscv64 ZigLLVM_sparc, // Sparc: sparc ZigLLVM_sparcv9, // Sparcv9: Sparcv9 ZigLLVM_sparcel, // Sparc: (endianness = little). NB: 'Sparcle' is a CPU variant ZigLLVM_systemz, // SystemZ: s390x ZigLLVM_tce, // TCE (http://tce.cs.tut.fi/): tce ZigLLVM_tcele, // TCE little endian (http://tce.cs.tut.fi/): tcele ZigLLVM_thumb, // Thumb (little endian): thumb, thumbv.* ZigLLVM_thumbeb, // Thumb (big endian): thumbeb ZigLLVM_x86, // X86: i[3-9]86 ZigLLVM_x86_64, // X86-64: amd64, x86_64 ZigLLVM_xcore, // XCore: xcore ZigLLVM_nvptx, // NVPTX: 32-bit ZigLLVM_nvptx64, // NVPTX: 64-bit ZigLLVM_le32, // le32: generic little-endian 32-bit CPU (PNaCl) ZigLLVM_le64, // le64: generic little-endian 64-bit CPU (PNaCl) ZigLLVM_amdil, // AMDIL ZigLLVM_amdil64, // AMDIL with 64-bit pointers ZigLLVM_hsail, // AMD HSAIL ZigLLVM_hsail64, // AMD HSAIL with 64-bit pointers ZigLLVM_spir, // SPIR: standard portable IR for OpenCL 32-bit version ZigLLVM_spir64, // SPIR: standard portable IR for OpenCL 64-bit version ZigLLVM_kalimba, // Kalimba: generic kalimba ZigLLVM_shave, // SHAVE: Movidius vector VLIW processors ZigLLVM_lanai, // Lanai: Lanai 32-bit ZigLLVM_wasm32, // WebAssembly with 32-bit pointers ZigLLVM_wasm64, // WebAssembly with 64-bit pointers ZigLLVM_renderscript32, // 32-bit RenderScript ZigLLVM_renderscript64, // 64-bit RenderScript ZigLLVM_ve, // NEC SX-Aurora Vector Engine }; static const ZigLLVM_VendorType vendor_list[] = { ZigLLVM_Apple, ZigLLVM_PC, ZigLLVM_SCEI, ZigLLVM_BGP, ZigLLVM_BGQ, ZigLLVM_Freescale, ZigLLVM_IBM, ZigLLVM_ImaginationTechnologies, ZigLLVM_MipsTechnologies, ZigLLVM_NVIDIA, ZigLLVM_CSR, ZigLLVM_Myriad, ZigLLVM_AMD, ZigLLVM_Mesa, ZigLLVM_SUSE, }; static const Os os_list[] = { OsFreestanding, OsAnanas, OsCloudABI, OsDragonFly, OsFreeBSD, OsFuchsia, OsIOS, OsKFreeBSD, OsLinux, OsLv2, // PS3 OsMacOSX, OsNetBSD, OsOpenBSD, OsSolaris, OsWindows, OsHaiku, OsMinix, OsRTEMS, OsNaCl, // Native Client OsCNK, // BG/P Compute-Node Kernel OsAIX, OsCUDA, // NVIDIA CUDA OsNVCL, // NVIDIA OpenCL OsAMDHSA, // AMD HSA Runtime OsPS4, OsELFIAMCU, OsTvOS, // Apple tvOS OsWatchOS, // Apple watchOS OsMesa3D, OsContiki, OsAMDPAL, OsHermitCore, OsHurd, OsWASI, OsEmscripten, OsUefi, OsOther, }; // Coordinate with zig_llvm.h static const ZigLLVM_EnvironmentType abi_list[] = { ZigLLVM_UnknownEnvironment, ZigLLVM_GNU, ZigLLVM_GNUABIN32, ZigLLVM_GNUABI64, ZigLLVM_GNUEABI, ZigLLVM_GNUEABIHF, ZigLLVM_GNUX32, ZigLLVM_CODE16, ZigLLVM_EABI, ZigLLVM_EABIHF, ZigLLVM_Android, ZigLLVM_Musl, ZigLLVM_MuslEABI, ZigLLVM_MuslEABIHF, ZigLLVM_MSVC, ZigLLVM_Itanium, ZigLLVM_Cygnus, ZigLLVM_CoreCLR, ZigLLVM_Simulator, ZigLLVM_MacABI, }; static const ZigLLVM_ObjectFormatType oformat_list[] = { ZigLLVM_UnknownObjectFormat, ZigLLVM_COFF, ZigLLVM_ELF, ZigLLVM_MachO, ZigLLVM_Wasm, }; size_t target_oformat_count(void) { return array_length(oformat_list); } ZigLLVM_ObjectFormatType target_oformat_enum(size_t index) { assert(index < array_length(oformat_list)); return oformat_list[index]; } const char *target_oformat_name(ZigLLVM_ObjectFormatType oformat) { switch (oformat) { case ZigLLVM_UnknownObjectFormat: return "unknown"; case ZigLLVM_COFF: return "coff"; case ZigLLVM_ELF: return "elf"; case ZigLLVM_MachO: return "macho"; case ZigLLVM_Wasm: return "wasm"; case ZigLLVM_XCOFF: return "xcoff"; } zig_unreachable(); } size_t target_arch_count(void) { return array_length(arch_list); } ZigLLVM_ArchType target_arch_enum(size_t index) { assert(index < array_length(arch_list)); return arch_list[index]; } size_t target_vendor_count(void) { return array_length(vendor_list); } ZigLLVM_VendorType target_vendor_enum(size_t index) { assert(index < array_length(vendor_list)); return vendor_list[index]; } size_t target_os_count(void) { return array_length(os_list); } Os target_os_enum(size_t index) { assert(index < array_length(os_list)); return os_list[index]; } ZigLLVM_OSType get_llvm_os_type(Os os_type) { switch (os_type) { case OsFreestanding: case OsOther: return ZigLLVM_UnknownOS; case OsAnanas: return ZigLLVM_Ananas; case OsCloudABI: return ZigLLVM_CloudABI; case OsDragonFly: return ZigLLVM_DragonFly; case OsFreeBSD: return ZigLLVM_FreeBSD; case OsFuchsia: return ZigLLVM_Fuchsia; case OsIOS: return ZigLLVM_IOS; case OsKFreeBSD: return ZigLLVM_KFreeBSD; case OsLinux: return ZigLLVM_Linux; case OsLv2: return ZigLLVM_Lv2; case OsMacOSX: return ZigLLVM_MacOSX; case OsNetBSD: return ZigLLVM_NetBSD; case OsOpenBSD: return ZigLLVM_OpenBSD; case OsSolaris: return ZigLLVM_Solaris; case OsWindows: case OsUefi: return ZigLLVM_Win32; case OsHaiku: return ZigLLVM_Haiku; case OsMinix: return ZigLLVM_Minix; case OsRTEMS: return ZigLLVM_RTEMS; case OsNaCl: return ZigLLVM_NaCl; case OsCNK: return ZigLLVM_CNK; case OsAIX: return ZigLLVM_AIX; case OsCUDA: return ZigLLVM_CUDA; case OsNVCL: return ZigLLVM_NVCL; case OsAMDHSA: return ZigLLVM_AMDHSA; case OsPS4: return ZigLLVM_PS4; case OsELFIAMCU: return ZigLLVM_ELFIAMCU; case OsTvOS: return ZigLLVM_TvOS; case OsWatchOS: return ZigLLVM_WatchOS; case OsMesa3D: return ZigLLVM_Mesa3D; case OsContiki: return ZigLLVM_Contiki; case OsAMDPAL: return ZigLLVM_AMDPAL; case OsHermitCore: return ZigLLVM_HermitCore; case OsHurd: return ZigLLVM_Hurd; case OsWASI: return ZigLLVM_WASI; case OsEmscripten: return ZigLLVM_Emscripten; } zig_unreachable(); } const char *target_os_name(Os os_type) { switch (os_type) { case OsFreestanding: return "freestanding"; case OsUefi: return "uefi"; case OsOther: return "other"; case OsAnanas: case OsCloudABI: case OsDragonFly: case OsFreeBSD: case OsFuchsia: case OsIOS: case OsKFreeBSD: case OsLinux: case OsLv2: // PS3 case OsMacOSX: case OsNetBSD: case OsOpenBSD: case OsSolaris: case OsWindows: case OsHaiku: case OsMinix: case OsRTEMS: case OsNaCl: // Native Client case OsCNK: // BG/P Compute-Node Kernel case OsAIX: case OsCUDA: // NVIDIA CUDA case OsNVCL: // NVIDIA OpenCL case OsAMDHSA: // AMD HSA Runtime case OsPS4: case OsELFIAMCU: case OsTvOS: // Apple tvOS case OsWatchOS: // Apple watchOS case OsMesa3D: case OsContiki: case OsAMDPAL: case OsHermitCore: case OsHurd: case OsWASI: case OsEmscripten: return ZigLLVMGetOSTypeName(get_llvm_os_type(os_type)); } zig_unreachable(); } size_t target_abi_count(void) { return array_length(abi_list); } ZigLLVM_EnvironmentType target_abi_enum(size_t index) { assert(index < array_length(abi_list)); return abi_list[index]; } const char *target_abi_name(ZigLLVM_EnvironmentType abi) { if (abi == ZigLLVM_UnknownEnvironment) return "none"; return ZigLLVMGetEnvironmentTypeName(abi); } Error target_parse_glibc_version(Stage2SemVer *glibc_ver, const char *text) { glibc_ver->major = 2; glibc_ver->minor = 0; glibc_ver->patch = 0; SplitIterator it = memSplit(str(text), str("GLIBC_.")); { Optional> opt_component = SplitIterator_next(&it); if (!opt_component.is_some) return ErrorUnknownABI; glibc_ver->major = strtoul(buf_ptr(buf_create_from_slice(opt_component.value)), nullptr, 10); } { Optional> opt_component = SplitIterator_next(&it); if (!opt_component.is_some) return ErrorNone; glibc_ver->minor = strtoul(buf_ptr(buf_create_from_slice(opt_component.value)), nullptr, 10); } { Optional> opt_component = SplitIterator_next(&it); if (!opt_component.is_some) return ErrorNone; glibc_ver->patch = strtoul(buf_ptr(buf_create_from_slice(opt_component.value)), nullptr, 10); } return ErrorNone; } void target_init_default_glibc_version(ZigTarget *target) { *target->glibc_or_darwin_version = {2, 17, 0}; } Error target_parse_arch(ZigLLVM_ArchType *out_arch, const char *arch_ptr, size_t arch_len) { *out_arch = ZigLLVM_UnknownArch; for (size_t arch_i = 0; arch_i < array_length(arch_list); arch_i += 1) { ZigLLVM_ArchType arch = arch_list[arch_i]; if (mem_eql_str(arch_ptr, arch_len, target_arch_name(arch))) { *out_arch = arch; return ErrorNone; } } return ErrorUnknownArchitecture; } Error target_parse_os(Os *out_os, const char *os_ptr, size_t os_len) { for (size_t i = 0; i < array_length(os_list); i += 1) { Os os = os_list[i]; const char *os_name = target_os_name(os); if (mem_eql_str(os_ptr, os_len, os_name)) { *out_os = os; return ErrorNone; } } return ErrorUnknownOperatingSystem; } Error target_parse_abi(ZigLLVM_EnvironmentType *out_abi, const char *abi_ptr, size_t abi_len) { for (size_t i = 0; i < array_length(abi_list); i += 1) { ZigLLVM_EnvironmentType abi = abi_list[i]; const char *abi_name = target_abi_name(abi); if (mem_eql_str(abi_ptr, abi_len, abi_name)) { *out_abi = abi; return ErrorNone; } } return ErrorUnknownABI; } Error target_parse_triple(ZigTarget *target, const char *triple, const char *mcpu, const char *dynamic_linker) { return stage2_target_parse(target, triple, mcpu, dynamic_linker); } const char *target_arch_name(ZigLLVM_ArchType arch) { return ZigLLVMGetArchTypeName(arch); } void init_all_targets(void) { LLVMInitializeAllTargets(); LLVMInitializeAllTargetInfos(); LLVMInitializeAllTargetMCs(); LLVMInitializeAllAsmPrinters(); LLVMInitializeAllAsmParsers(); } void target_triple_zig(Buf *triple, const ZigTarget *target) { buf_resize(triple, 0); buf_appendf(triple, "%s-%s-%s", target_arch_name(target->arch), target_os_name(target->os), target_abi_name(target->abi)); } void target_triple_llvm(Buf *triple, const ZigTarget *target) { buf_resize(triple, 0); buf_appendf(triple, "%s-%s-%s-%s", ZigLLVMGetArchTypeName(target->arch), ZigLLVMGetVendorTypeName(target->vendor), ZigLLVMGetOSTypeName(get_llvm_os_type(target->os)), ZigLLVMGetEnvironmentTypeName(target->abi)); } bool target_os_is_darwin(Os os) { switch (os) { case OsMacOSX: case OsIOS: case OsWatchOS: case OsTvOS: return true; default: return false; } } ZigLLVM_ObjectFormatType target_object_format(const ZigTarget *target) { if (target->os == OsUefi || target->os == OsWindows) { return ZigLLVM_COFF; } else if (target_os_is_darwin(target->os)) { return ZigLLVM_MachO; } if (target->arch == ZigLLVM_wasm32 || target->arch == ZigLLVM_wasm64) { return ZigLLVM_Wasm; } return ZigLLVM_ELF; } // See lib/Support/Triple.cpp in LLVM for the source of this data. // getArchPointerBitWidth uint32_t target_arch_pointer_bit_width(ZigLLVM_ArchType arch) { switch (arch) { case ZigLLVM_UnknownArch: return 0; case ZigLLVM_avr: case ZigLLVM_msp430: return 16; case ZigLLVM_arc: case ZigLLVM_arm: case ZigLLVM_armeb: case ZigLLVM_hexagon: case ZigLLVM_le32: case ZigLLVM_mips: case ZigLLVM_mipsel: case ZigLLVM_nvptx: case ZigLLVM_ppc: case ZigLLVM_r600: case ZigLLVM_riscv32: case ZigLLVM_sparc: case ZigLLVM_sparcel: case ZigLLVM_tce: case ZigLLVM_tcele: case ZigLLVM_thumb: case ZigLLVM_thumbeb: case ZigLLVM_x86: case ZigLLVM_xcore: case ZigLLVM_amdil: case ZigLLVM_hsail: case ZigLLVM_spir: case ZigLLVM_kalimba: case ZigLLVM_lanai: case ZigLLVM_shave: case ZigLLVM_wasm32: case ZigLLVM_renderscript32: case ZigLLVM_aarch64_32: return 32; case ZigLLVM_aarch64: case ZigLLVM_aarch64_be: case ZigLLVM_amdgcn: case ZigLLVM_bpfel: case ZigLLVM_bpfeb: case ZigLLVM_le64: case ZigLLVM_mips64: case ZigLLVM_mips64el: case ZigLLVM_nvptx64: case ZigLLVM_ppc64: case ZigLLVM_ppc64le: case ZigLLVM_riscv64: case ZigLLVM_sparcv9: case ZigLLVM_systemz: case ZigLLVM_x86_64: case ZigLLVM_amdil64: case ZigLLVM_hsail64: case ZigLLVM_spir64: case ZigLLVM_wasm64: case ZigLLVM_renderscript64: case ZigLLVM_ve: return 64; } zig_unreachable(); } uint32_t target_arch_largest_atomic_bits(ZigLLVM_ArchType arch) { switch (arch) { case ZigLLVM_UnknownArch: zig_unreachable(); case ZigLLVM_avr: case ZigLLVM_msp430: return 16; case ZigLLVM_arc: case ZigLLVM_arm: case ZigLLVM_armeb: case ZigLLVM_hexagon: case ZigLLVM_le32: case ZigLLVM_mips: case ZigLLVM_mipsel: case ZigLLVM_nvptx: case ZigLLVM_ppc: case ZigLLVM_r600: case ZigLLVM_riscv32: case ZigLLVM_sparc: case ZigLLVM_sparcel: case ZigLLVM_tce: case ZigLLVM_tcele: case ZigLLVM_thumb: case ZigLLVM_thumbeb: case ZigLLVM_x86: case ZigLLVM_xcore: case ZigLLVM_amdil: case ZigLLVM_hsail: case ZigLLVM_spir: case ZigLLVM_kalimba: case ZigLLVM_lanai: case ZigLLVM_shave: case ZigLLVM_wasm32: case ZigLLVM_renderscript32: return 32; case ZigLLVM_aarch64: case ZigLLVM_aarch64_be: case ZigLLVM_aarch64_32: case ZigLLVM_amdgcn: case ZigLLVM_bpfel: case ZigLLVM_bpfeb: case ZigLLVM_le64: case ZigLLVM_mips64: case ZigLLVM_mips64el: case ZigLLVM_nvptx64: case ZigLLVM_ppc64: case ZigLLVM_ppc64le: case ZigLLVM_riscv64: case ZigLLVM_sparcv9: case ZigLLVM_systemz: case ZigLLVM_amdil64: case ZigLLVM_hsail64: case ZigLLVM_spir64: case ZigLLVM_wasm64: case ZigLLVM_renderscript64: case ZigLLVM_ve: return 64; case ZigLLVM_x86_64: return 128; } zig_unreachable(); } uint32_t target_c_type_size_in_bits(const ZigTarget *target, CIntType id) { switch (target->os) { case OsFreestanding: case OsOther: switch (target->arch) { case ZigLLVM_msp430: switch (id) { case CIntTypeShort: case CIntTypeUShort: return 16; case CIntTypeInt: case CIntTypeUInt: return 16; case CIntTypeLong: case CIntTypeULong: return 32; case CIntTypeLongLong: case CIntTypeULongLong: return 64; case CIntTypeCount: zig_unreachable(); } default: switch (id) { case CIntTypeShort: case CIntTypeUShort: return 16; case CIntTypeInt: case CIntTypeUInt: return 32; case CIntTypeLong: case CIntTypeULong: return target_arch_pointer_bit_width(target->arch); case CIntTypeLongLong: case CIntTypeULongLong: return 64; case CIntTypeCount: zig_unreachable(); } } case OsLinux: case OsMacOSX: case OsFreeBSD: case OsNetBSD: case OsDragonFly: case OsOpenBSD: case OsWASI: case OsEmscripten: switch (id) { case CIntTypeShort: case CIntTypeUShort: return 16; case CIntTypeInt: case CIntTypeUInt: return 32; case CIntTypeLong: case CIntTypeULong: return target_arch_pointer_bit_width(target->arch); case CIntTypeLongLong: case CIntTypeULongLong: return 64; case CIntTypeCount: zig_unreachable(); } case OsUefi: case OsWindows: switch (id) { case CIntTypeShort: case CIntTypeUShort: return 16; case CIntTypeInt: case CIntTypeUInt: case CIntTypeLong: case CIntTypeULong: return 32; case CIntTypeLongLong: case CIntTypeULongLong: return 64; case CIntTypeCount: zig_unreachable(); } case OsIOS: switch (id) { case CIntTypeShort: case CIntTypeUShort: return 16; case CIntTypeInt: case CIntTypeUInt: return 32; case CIntTypeLong: case CIntTypeULong: case CIntTypeLongLong: case CIntTypeULongLong: return 64; case CIntTypeCount: zig_unreachable(); } case OsAnanas: case OsCloudABI: case OsKFreeBSD: case OsLv2: case OsSolaris: case OsHaiku: case OsMinix: case OsRTEMS: case OsNaCl: case OsCNK: case OsAIX: case OsCUDA: case OsNVCL: case OsAMDHSA: case OsPS4: case OsELFIAMCU: case OsTvOS: case OsWatchOS: case OsMesa3D: case OsFuchsia: case OsContiki: case OsAMDPAL: case OsHermitCore: case OsHurd: zig_panic("TODO c type size in bits for this target"); } zig_unreachable(); } bool target_allows_addr_zero(const ZigTarget *target) { return target->os == OsFreestanding || target->os == OsUefi; } const char *target_o_file_ext(const ZigTarget *target) { if (target->abi == ZigLLVM_MSVC || (target->os == OsWindows && !target_abi_is_gnu(target->abi)) || target->os == OsUefi) { return ".obj"; } else { return ".o"; } } const char *target_asm_file_ext(const ZigTarget *target) { return ".s"; } const char *target_llvm_ir_file_ext(const ZigTarget *target) { return ".ll"; } const char *target_exe_file_ext(const ZigTarget *target) { if (target->os == OsWindows) { return ".exe"; } else if (target->os == OsUefi) { return ".efi"; } else if (target_is_wasm(target)) { return ".wasm"; } else { return ""; } } const char *target_lib_file_prefix(const ZigTarget *target) { if ((target->os == OsWindows && !target_abi_is_gnu(target->abi)) || target->os == OsUefi || target_is_wasm(target)) { return ""; } else { return "lib"; } } const char *target_lib_file_ext(const ZigTarget *target, bool is_static, size_t version_major, size_t version_minor, size_t version_patch) { if (target_is_wasm(target)) { return ".wasm"; } if (target->os == OsWindows || target->os == OsUefi) { if (is_static) { if (target->os == OsWindows && target_abi_is_gnu(target->abi)) { return ".a"; } else { return ".lib"; } } else { return ".dll"; } } else { if (is_static) { return ".a"; } else if (target_os_is_darwin(target->os)) { return buf_ptr(buf_sprintf(".%" ZIG_PRI_usize ".%" ZIG_PRI_usize ".%" ZIG_PRI_usize ".dylib", version_major, version_minor, version_patch)); } else { return buf_ptr(buf_sprintf(".so.%" ZIG_PRI_usize ".%" ZIG_PRI_usize ".%" ZIG_PRI_usize, version_major, version_minor, version_patch)); } } } bool target_is_android(const ZigTarget *target) { return target->abi == ZigLLVM_Android; } bool target_can_exec(const ZigTarget *host_target, const ZigTarget *guest_target) { assert(host_target != nullptr); if (guest_target == nullptr) { // null guest target means that the guest target is native return true; } if (guest_target->os == host_target->os && guest_target->arch == host_target->arch) { // OS and arch match return true; } if (guest_target->os == OsWindows && host_target->os == OsWindows && host_target->arch == ZigLLVM_x86_64 && guest_target->arch == ZigLLVM_x86) { // 64-bit windows can run 32-bit programs return true; } return false; } const char *arch_stack_pointer_register_name(ZigLLVM_ArchType arch) { switch (arch) { case ZigLLVM_UnknownArch: zig_unreachable(); case ZigLLVM_x86: return "esp"; case ZigLLVM_x86_64: return "rsp"; case ZigLLVM_arm: case ZigLLVM_armeb: case ZigLLVM_thumb: case ZigLLVM_thumbeb: case ZigLLVM_aarch64: case ZigLLVM_aarch64_be: case ZigLLVM_aarch64_32: case ZigLLVM_riscv32: case ZigLLVM_riscv64: case ZigLLVM_mipsel: return "sp"; case ZigLLVM_wasm32: case ZigLLVM_wasm64: return nullptr; // known to be not available case ZigLLVM_amdgcn: case ZigLLVM_amdil: case ZigLLVM_amdil64: case ZigLLVM_arc: case ZigLLVM_avr: case ZigLLVM_bpfeb: case ZigLLVM_bpfel: case ZigLLVM_hexagon: case ZigLLVM_lanai: case ZigLLVM_hsail: case ZigLLVM_hsail64: case ZigLLVM_kalimba: case ZigLLVM_le32: case ZigLLVM_le64: case ZigLLVM_mips: case ZigLLVM_mips64: case ZigLLVM_mips64el: case ZigLLVM_msp430: case ZigLLVM_nvptx: case ZigLLVM_nvptx64: case ZigLLVM_ppc64le: case ZigLLVM_r600: case ZigLLVM_renderscript32: case ZigLLVM_renderscript64: case ZigLLVM_shave: case ZigLLVM_sparc: case ZigLLVM_sparcel: case ZigLLVM_sparcv9: case ZigLLVM_spir: case ZigLLVM_spir64: case ZigLLVM_systemz: case ZigLLVM_tce: case ZigLLVM_tcele: case ZigLLVM_xcore: case ZigLLVM_ppc: case ZigLLVM_ppc64: case ZigLLVM_ve: zig_panic("TODO populate this table with stack pointer register name for this CPU architecture"); } zig_unreachable(); } bool target_is_arm(const ZigTarget *target) { switch (target->arch) { case ZigLLVM_UnknownArch: zig_unreachable(); case ZigLLVM_aarch64: case ZigLLVM_aarch64_be: case ZigLLVM_aarch64_32: case ZigLLVM_arm: case ZigLLVM_armeb: case ZigLLVM_thumb: case ZigLLVM_thumbeb: return true; case ZigLLVM_x86: case ZigLLVM_x86_64: case ZigLLVM_amdgcn: case ZigLLVM_amdil: case ZigLLVM_amdil64: case ZigLLVM_arc: case ZigLLVM_avr: case ZigLLVM_bpfeb: case ZigLLVM_bpfel: case ZigLLVM_hexagon: case ZigLLVM_lanai: case ZigLLVM_hsail: case ZigLLVM_hsail64: case ZigLLVM_kalimba: case ZigLLVM_le32: case ZigLLVM_le64: case ZigLLVM_mips: case ZigLLVM_mips64: case ZigLLVM_mips64el: case ZigLLVM_mipsel: case ZigLLVM_msp430: case ZigLLVM_nvptx: case ZigLLVM_nvptx64: case ZigLLVM_ppc64le: case ZigLLVM_r600: case ZigLLVM_renderscript32: case ZigLLVM_renderscript64: case ZigLLVM_riscv32: case ZigLLVM_riscv64: case ZigLLVM_shave: case ZigLLVM_sparc: case ZigLLVM_sparcel: case ZigLLVM_sparcv9: case ZigLLVM_spir: case ZigLLVM_spir64: case ZigLLVM_systemz: case ZigLLVM_tce: case ZigLLVM_tcele: case ZigLLVM_wasm32: case ZigLLVM_wasm64: case ZigLLVM_xcore: case ZigLLVM_ppc: case ZigLLVM_ppc64: case ZigLLVM_ve: return false; } zig_unreachable(); } // Valgrind supports more, but Zig does not support them yet. bool target_has_valgrind_support(const ZigTarget *target) { switch (target->arch) { case ZigLLVM_UnknownArch: zig_unreachable(); case ZigLLVM_x86_64: return (target->os == OsLinux || target_os_is_darwin(target->os) || target->os == OsSolaris || (target->os == OsWindows && target->abi != ZigLLVM_MSVC)); default: return false; } zig_unreachable(); } bool target_os_requires_libc(Os os) { // On Darwin, we always link libSystem which contains libc. // Similarly on FreeBSD and NetBSD we always link system libc // since this is the stable syscall interface. return (target_os_is_darwin(os) || os == OsFreeBSD || os == OsNetBSD || os == OsDragonFly); } bool target_supports_fpic(const ZigTarget *target) { // This is not whether the target supports Position Independent Code, but whether the -fPIC // C compiler argument is valid. return target->os != OsWindows; } bool target_supports_clang_march_native(const ZigTarget *target) { // Whether clang supports -march=native on this target. // Arguably it should always work, but in reality it gives: // error: the clang compiler does not support '-march=native' // If we move CPU detection logic into Zig itelf, we will not need this, // instead we will always pass target features and CPU configuration explicitly. return target->arch != ZigLLVM_aarch64 && target->arch != ZigLLVM_aarch64_be; } bool target_supports_stack_probing(const ZigTarget *target) { return target->os != OsWindows && target->os != OsUefi && (target->arch == ZigLLVM_x86 || target->arch == ZigLLVM_x86_64); } bool target_supports_sanitize_c(const ZigTarget *target) { return true; } bool target_requires_pic(const ZigTarget *target, bool linking_libc) { // This function returns whether non-pic code is completely invalid on the given target. return target_is_android(target) || target->os == OsWindows || target->os == OsUefi || target_os_requires_libc(target->os) || (linking_libc && target_is_glibc(target)); } bool target_requires_pie(const ZigTarget *target) { return target_is_android(target); } bool target_is_glibc(const ZigTarget *target) { return target->os == OsLinux && target_abi_is_gnu(target->abi); } bool target_is_musl(const ZigTarget *target) { return target->os == OsLinux && target_abi_is_musl(target->abi); } bool target_is_wasm(const ZigTarget *target) { return target->arch == ZigLLVM_wasm32 || target->arch == ZigLLVM_wasm64; } bool target_is_single_threaded(const ZigTarget *target) { return target_is_wasm(target); } ZigLLVM_EnvironmentType target_default_abi(ZigLLVM_ArchType arch, Os os) { if (arch == ZigLLVM_wasm32 || arch == ZigLLVM_wasm64) { return ZigLLVM_Musl; } switch (os) { case OsFreestanding: case OsAnanas: case OsCloudABI: case OsLv2: case OsSolaris: case OsHaiku: case OsMinix: case OsRTEMS: case OsNaCl: case OsCNK: case OsAIX: case OsCUDA: case OsNVCL: case OsAMDHSA: case OsPS4: case OsELFIAMCU: case OsMesa3D: case OsContiki: case OsAMDPAL: case OsHermitCore: case OsOther: return ZigLLVM_EABI; case OsOpenBSD: case OsMacOSX: case OsFreeBSD: case OsIOS: case OsTvOS: case OsWatchOS: case OsFuchsia: case OsKFreeBSD: case OsNetBSD: case OsDragonFly: case OsHurd: return ZigLLVM_GNU; case OsUefi: case OsWindows: return ZigLLVM_MSVC; case OsLinux: case OsWASI: case OsEmscripten: return ZigLLVM_Musl; } zig_unreachable(); } bool target_abi_is_gnu(ZigLLVM_EnvironmentType abi) { switch (abi) { case ZigLLVM_GNU: case ZigLLVM_GNUABIN32: case ZigLLVM_GNUABI64: case ZigLLVM_GNUEABI: case ZigLLVM_GNUEABIHF: case ZigLLVM_GNUX32: return true; default: return false; } } bool target_abi_is_musl(ZigLLVM_EnvironmentType abi) { switch (abi) { case ZigLLVM_Musl: case ZigLLVM_MuslEABI: case ZigLLVM_MuslEABIHF: return true; default: return false; } } struct AvailableLibC { ZigLLVM_ArchType arch; Os os; ZigLLVM_EnvironmentType abi; }; static const AvailableLibC libcs_available[] = { {ZigLLVM_aarch64_be, OsLinux, ZigLLVM_GNU}, {ZigLLVM_aarch64_be, OsLinux, ZigLLVM_Musl}, {ZigLLVM_aarch64_be, OsWindows, ZigLLVM_GNU}, {ZigLLVM_aarch64, OsLinux, ZigLLVM_GNU}, {ZigLLVM_aarch64, OsLinux, ZigLLVM_Musl}, {ZigLLVM_aarch64, OsWindows, ZigLLVM_GNU}, {ZigLLVM_armeb, OsLinux, ZigLLVM_GNUEABI}, {ZigLLVM_armeb, OsLinux, ZigLLVM_GNUEABIHF}, {ZigLLVM_armeb, OsLinux, ZigLLVM_MuslEABI}, {ZigLLVM_armeb, OsLinux, ZigLLVM_MuslEABIHF}, {ZigLLVM_armeb, OsWindows, ZigLLVM_GNU}, {ZigLLVM_arm, OsLinux, ZigLLVM_GNUEABI}, {ZigLLVM_arm, OsLinux, ZigLLVM_GNUEABIHF}, {ZigLLVM_arm, OsLinux, ZigLLVM_MuslEABI}, {ZigLLVM_arm, OsLinux, ZigLLVM_MuslEABIHF}, {ZigLLVM_arm, OsWindows, ZigLLVM_GNU}, {ZigLLVM_x86, OsLinux, ZigLLVM_GNU}, {ZigLLVM_x86, OsLinux, ZigLLVM_Musl}, {ZigLLVM_x86, OsWindows, ZigLLVM_GNU}, {ZigLLVM_mips64el, OsLinux, ZigLLVM_GNUABI64}, {ZigLLVM_mips64el, OsLinux, ZigLLVM_GNUABIN32}, {ZigLLVM_mips64el, OsLinux, ZigLLVM_Musl}, {ZigLLVM_mips64, OsLinux, ZigLLVM_GNUABI64}, {ZigLLVM_mips64, OsLinux, ZigLLVM_GNUABIN32}, {ZigLLVM_mips64, OsLinux, ZigLLVM_Musl}, {ZigLLVM_mipsel, OsLinux, ZigLLVM_GNU}, {ZigLLVM_mipsel, OsLinux, ZigLLVM_Musl}, {ZigLLVM_mips, OsLinux, ZigLLVM_GNU}, {ZigLLVM_mips, OsLinux, ZigLLVM_Musl}, {ZigLLVM_ppc64le, OsLinux, ZigLLVM_GNU}, {ZigLLVM_ppc64le, OsLinux, ZigLLVM_Musl}, {ZigLLVM_ppc64, OsLinux, ZigLLVM_GNU}, {ZigLLVM_ppc64, OsLinux, ZigLLVM_Musl}, {ZigLLVM_ppc, OsLinux, ZigLLVM_GNU}, {ZigLLVM_ppc, OsLinux, ZigLLVM_Musl}, {ZigLLVM_riscv64, OsLinux, ZigLLVM_GNU}, {ZigLLVM_riscv64, OsLinux, ZigLLVM_Musl}, {ZigLLVM_systemz, OsLinux, ZigLLVM_GNU}, {ZigLLVM_systemz, OsLinux, ZigLLVM_Musl}, {ZigLLVM_sparc, OsLinux, ZigLLVM_GNU}, {ZigLLVM_sparcv9, OsLinux, ZigLLVM_GNU}, {ZigLLVM_wasm32, OsFreestanding, ZigLLVM_Musl}, {ZigLLVM_x86_64, OsLinux, ZigLLVM_GNU}, {ZigLLVM_x86_64, OsLinux, ZigLLVM_GNUX32}, {ZigLLVM_x86_64, OsLinux, ZigLLVM_Musl}, {ZigLLVM_x86_64, OsWindows, ZigLLVM_GNU}, }; bool target_can_build_libc(const ZigTarget *target) { for (size_t i = 0; i < array_length(libcs_available); i += 1) { if (target->arch == libcs_available[i].arch && target->os == libcs_available[i].os && target->abi == libcs_available[i].abi) { return true; } } return false; } const char *target_libc_generic_name(const ZigTarget *target) { if (target->os == OsWindows) { return "mingw"; } switch (target->abi) { case ZigLLVM_GNU: case ZigLLVM_GNUABIN32: case ZigLLVM_GNUABI64: case ZigLLVM_GNUEABI: case ZigLLVM_GNUEABIHF: case ZigLLVM_GNUX32: return "glibc"; case ZigLLVM_Musl: case ZigLLVM_MuslEABI: case ZigLLVM_MuslEABIHF: case ZigLLVM_UnknownEnvironment: return "musl"; case ZigLLVM_CODE16: case ZigLLVM_EABI: case ZigLLVM_EABIHF: case ZigLLVM_Android: case ZigLLVM_MSVC: case ZigLLVM_Itanium: case ZigLLVM_Cygnus: case ZigLLVM_CoreCLR: case ZigLLVM_Simulator: case ZigLLVM_MacABI: zig_unreachable(); } zig_unreachable(); } bool target_is_libc_lib_name(const ZigTarget *target, const char *name) { if (strcmp(name, "c") == 0) return true; if (target_abi_is_gnu(target->abi) && target->os == OsWindows) { // mingw-w64 if (strcmp(name, "m") == 0) return true; return false; } if (target_abi_is_gnu(target->abi) || target_abi_is_musl(target->abi) || target_os_is_darwin(target->os)) { if (strcmp(name, "m") == 0) return true; if (strcmp(name, "rt") == 0) return true; if (strcmp(name, "pthread") == 0) return true; if (strcmp(name, "crypt") == 0) return true; if (strcmp(name, "util") == 0) return true; if (strcmp(name, "xnet") == 0) return true; if (strcmp(name, "resolv") == 0) return true; if (strcmp(name, "dl") == 0) return true; } return false; } bool target_is_libcpp_lib_name(const ZigTarget *target, const char *name) { if (strcmp(name, "c++") == 0 || strcmp(name, "c++abi") == 0) return true; return false; } size_t target_libc_count(void) { return array_length(libcs_available); } void target_libc_enum(size_t index, ZigTarget *out_target) { assert(index < array_length(libcs_available)); out_target->arch = libcs_available[index].arch; out_target->os = libcs_available[index].os; out_target->abi = libcs_available[index].abi; out_target->vendor = ZigLLVM_UnknownVendor; out_target->is_native_os = false; out_target->is_native_cpu = false; } bool target_has_debug_info(const ZigTarget *target) { return !target_is_wasm(target); } const char *target_arch_musl_name(ZigLLVM_ArchType arch) { switch (arch) { case ZigLLVM_aarch64: case ZigLLVM_aarch64_be: return "aarch64"; case ZigLLVM_arm: case ZigLLVM_armeb: return "arm"; case ZigLLVM_mips: case ZigLLVM_mipsel: return "mips"; case ZigLLVM_mips64el: case ZigLLVM_mips64: return "mips64"; case ZigLLVM_ppc: return "powerpc"; case ZigLLVM_ppc64: case ZigLLVM_ppc64le: return "powerpc64"; case ZigLLVM_systemz: return "s390x"; case ZigLLVM_x86: return "i386"; case ZigLLVM_x86_64: return "x86_64"; case ZigLLVM_riscv64: return "riscv64"; default: zig_unreachable(); } } bool target_libc_needs_crti_crtn(const ZigTarget *target) { if (target->arch == ZigLLVM_riscv32 || target->arch == ZigLLVM_riscv64 || target_is_android(target)) { return false; } return true; } bool target_is_riscv(const ZigTarget *target) { return target->arch == ZigLLVM_riscv32 || target->arch == ZigLLVM_riscv64; } bool target_is_mips(const ZigTarget *target) { return target->arch == ZigLLVM_mips || target->arch == ZigLLVM_mipsel || target->arch == ZigLLVM_mips64 || target->arch == ZigLLVM_mips64el; } unsigned target_fn_align(const ZigTarget *target) { return 16; }