/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of Qt Creator. ** ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 as published by the Free Software ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ****************************************************************************/ #include "abi.h" #include #include #include #include #include #include #include #include /*! \class ProjectExplorer::Abi \brief The Abi class represents the Application Binary Interface (ABI) of a target platform. \sa ProjectExplorer::ToolChain */ namespace ProjectExplorer { // -------------------------------------------------------------------------- // Helpers // -------------------------------------------------------------------------- static quint8 getUint8(const QByteArray &data, int pos) { return static_cast(data.at(pos)); } static quint32 getLEUint32(const QByteArray &ba, int pos) { Q_ASSERT(ba.size() >= pos + 3); return (static_cast(static_cast(ba.at(pos + 3))) << 24) + (static_cast(static_cast(ba.at(pos + 2)) << 16)) + (static_cast(static_cast(ba.at(pos + 1))) << 8) + static_cast(ba.at(pos)); } static quint32 getBEUint32(const QByteArray &ba, int pos) { Q_ASSERT(ba.size() >= pos + 3); return (static_cast(static_cast(ba.at(pos))) << 24) + (static_cast(static_cast(ba.at(pos + 1))) << 16) + (static_cast(static_cast(ba.at(pos + 2))) << 8) + static_cast(ba.at(pos + 3)); } static quint32 getLEUint16(const QByteArray &ba, int pos) { Q_ASSERT(ba.size() >= pos + 1); return (static_cast(static_cast(ba.at(pos + 1))) << 8) + static_cast(ba.at(pos)); } static quint32 getBEUint16(const QByteArray &ba, int pos) { Q_ASSERT(ba.size() >= pos + 1); return (static_cast(static_cast(ba.at(pos))) << 8) + static_cast(ba.at(pos + 1)); } static Abi macAbiForCpu(quint32 type) { switch (type) { case 7: // CPU_TYPE_X86, CPU_TYPE_I386 return Abi(Abi::X86Architecture, Abi::DarwinOS, Abi::GenericDarwinFlavor, Abi::MachOFormat, 32); case 0x01000000 + 7: // CPU_TYPE_X86_64 return Abi(Abi::X86Architecture, Abi::DarwinOS, Abi::GenericDarwinFlavor, Abi::MachOFormat, 64); case 18: // CPU_TYPE_POWERPC return Abi(Abi::PowerPCArchitecture, Abi::DarwinOS, Abi::GenericDarwinFlavor, Abi::MachOFormat, 32); case 0x01000000 + 18: // CPU_TYPE_POWERPC64 return Abi(Abi::PowerPCArchitecture, Abi::DarwinOS, Abi::GenericDarwinFlavor, Abi::MachOFormat, 32); case 12: // CPU_TYPE_ARM return Abi(Abi::ArmArchitecture, Abi::DarwinOS, Abi::GenericDarwinFlavor, Abi::MachOFormat, 32); case 0x01000000 + 12: // CPU_TYPE_ARM64 return Abi(Abi::ArmArchitecture, Abi::DarwinOS, Abi::GenericDarwinFlavor, Abi::MachOFormat, 64); default: return Abi(); } } static QList parseCoffHeader(const QByteArray &data) { QList result; if (data.size() < 20) return result; Abi::Architecture arch = Abi::UnknownArchitecture; Abi::OSFlavor flavor = Abi::UnknownFlavor; int width = 0; // Get machine field from COFF file header quint16 machine = getLEUint16(data, 0); switch (machine) { case 0x01c0: // ARM LE case 0x01c2: // ARM or thumb case 0x01c4: // ARMv7 thumb arch = Abi::ArmArchitecture; width = 32; break; case 0x8664: // x86_64 arch = Abi::X86Architecture; width = 64; break; case 0x014c: // i386 arch = Abi::X86Architecture; width = 32; break; case 0x0166: // MIPS, little endian arch = Abi::MipsArchitecture; width = 32; break; case 0x0200: // ia64 arch = Abi::ItaniumArchitecture; width = 64; break; } if (data.size() >= 24) { // Get Major and Minor Image Version from optional header fields quint8 minorLinker = data.at(23); switch (data.at(22)) { case 2: case 3: // not yet reached:-) flavor = Abi::WindowsMSysFlavor; break; case 8: flavor = Abi::WindowsMsvc2005Flavor; break; case 9: flavor = Abi::WindowsMsvc2008Flavor; break; case 10: flavor = Abi::WindowsMsvc2010Flavor; break; case 11: flavor = Abi::WindowsMsvc2012Flavor; break; case 12: flavor = Abi::WindowsMsvc2013Flavor; break; case 14: flavor = minorLinker >= quint8(10) ? Abi::WindowsMsvc2017Flavor // MSVC2017 RC : Abi::WindowsMsvc2015Flavor; break; case 15: flavor = Abi::WindowsMsvc2017Flavor; break; default: // Keep unknown flavor if (minorLinker != 0) flavor = Abi::WindowsMSysFlavor; // MSVC seems to avoid using minor numbers else qWarning("%s: Unknown MSVC flavour encountered.", Q_FUNC_INFO); break; } } if (arch != Abi::UnknownArchitecture && width != 0) result.append(Abi(arch, Abi::WindowsOS, flavor, Abi::PEFormat, width)); return result; } static QList abiOf(const QByteArray &data) { QList result; if (data.size() <= 8) return result; if (data.size() >= 20 && getUint8(data, 0) == 0x7f && getUint8(data, 1) == 'E' && getUint8(data, 2) == 'L' && getUint8(data, 3) == 'F') { // ELF format: bool isLE = (getUint8(data, 5) == 1); quint16 machine = isLE ? getLEUint16(data, 18) : getBEUint16(data, 18); quint8 osAbi = getUint8(data, 7); Abi::OS os = Abi::UnixOS; Abi::OSFlavor flavor = Abi::GenericUnixFlavor; // http://www.sco.com/developers/gabi/latest/ch4.eheader.html#elfid switch (osAbi) { #if defined(Q_OS_NETBSD) case 0: // NetBSD: ELFOSABI_NETBSD 2, however, NetBSD uses 0 os = Abi::BsdOS; flavor = Abi::NetBsdFlavor; break; #elif defined(Q_OS_OPENBSD) case 0: // OpenBSD: ELFOSABI_OPENBSD 12, however, OpenBSD uses 0 os = Abi::BsdOS; flavor = Abi::OpenBsdFlavor; break; #else case 0: // no extra info available: Default to Linux: #endif case 3: // Linux: case 97: // ARM, also linux most of the time. os = Abi::LinuxOS; flavor = Abi::GenericLinuxFlavor; break; case 6: // Solaris: os = Abi::UnixOS; flavor = Abi::SolarisUnixFlavor; break; case 9: // FreeBSD: os = Abi::BsdOS; flavor = Abi::FreeBsdFlavor; break; } switch (machine) { case 3: // EM_386 result.append(Abi(Abi::X86Architecture, os, flavor, Abi::ElfFormat, 32)); break; case 8: // EM_MIPS result.append(Abi(Abi::MipsArchitecture, os, flavor, Abi::ElfFormat, 32)); break; case 20: // EM_PPC result.append(Abi(Abi::PowerPCArchitecture, os, flavor, Abi::ElfFormat, 32)); break; case 21: // EM_PPC64 result.append(Abi(Abi::PowerPCArchitecture, os, flavor, Abi::ElfFormat, 64)); break; case 40: // EM_ARM result.append(Abi(Abi::ArmArchitecture, os, flavor, Abi::ElfFormat, 32)); break; case 183: // EM_AARCH64 result.append(Abi(Abi::ArmArchitecture, os, flavor, Abi::ElfFormat, 64)); break; case 62: // EM_X86_64 result.append(Abi(Abi::X86Architecture, os, flavor, Abi::ElfFormat, 64)); break; case 42: // EM_SH result.append(Abi(Abi::ShArchitecture, os, flavor, Abi::ElfFormat, 32)); break; case 50: // EM_IA_64 result.append(Abi(Abi::ItaniumArchitecture, os, flavor, Abi::ElfFormat, 64)); break; default: ; } } else if (((getUint8(data, 0) == 0xce || getUint8(data, 0) == 0xcf) && getUint8(data, 1) == 0xfa && getUint8(data, 2) == 0xed && getUint8(data, 3) == 0xfe ) || (getUint8(data, 0) == 0xfe && getUint8(data, 1) == 0xed && getUint8(data, 2) == 0xfa && (getUint8(data, 3) == 0xce || getUint8(data, 3) == 0xcf) ) ) { // Mach-O format (Mac non-fat binary, 32 and 64bit magic): quint32 type = (getUint8(data, 1) == 0xfa) ? getLEUint32(data, 4) : getBEUint32(data, 4); result.append(macAbiForCpu(type)); } else if ((getUint8(data, 0) == 0xbe && getUint8(data, 1) == 0xba && getUint8(data, 2) == 0xfe && getUint8(data, 3) == 0xca) || (getUint8(data, 0) == 0xca && getUint8(data, 1) == 0xfe && getUint8(data, 2) == 0xba && getUint8(data, 3) == 0xbe) ) { // Mach-0 format Fat binary header: bool isLE = (getUint8(data, 0) == 0xbe); quint32 count = isLE ? getLEUint32(data, 4) : getBEUint32(data, 4); int pos = 8; for (quint32 i = 0; i < count; ++i) { if (data.size() <= pos + 4) break; quint32 type = isLE ? getLEUint32(data, pos) : getBEUint32(data, pos); result.append(macAbiForCpu(type)); pos += 20; } } else if (data.size() >= 64){ // Windows PE: values are LE (except for a few exceptions which we will not use here). // MZ header first (ZM is also allowed, but rarely used) const quint8 firstChar = getUint8(data, 0); const quint8 secondChar = getUint8(data, 1); if ((firstChar != 'M' || secondChar != 'Z') && (firstChar != 'Z' || secondChar != 'M')) return result; // Get PE/COFF header position from MZ header: qint32 pePos = getLEUint32(data, 60); if (pePos <= 0 || data.size() < pePos + 4 + 20) // PE magic bytes plus COFF header return result; if (getUint8(data, pePos) == 'P' && getUint8(data, pePos + 1) == 'E' && getUint8(data, pePos + 2) == 0 && getUint8(data, pePos + 3) == 0) result = parseCoffHeader(data.mid(pePos + 4)); } return result; } // -------------------------------------------------------------------------- // Abi // -------------------------------------------------------------------------- Abi::Abi(const Architecture &a, const OS &o, const OSFlavor &of, const BinaryFormat &f, unsigned char w) : m_architecture(a), m_os(o), m_osFlavor(of), m_binaryFormat(f), m_wordWidth(w) { switch (m_os) { case UnknownOS: m_osFlavor = UnknownFlavor; break; case LinuxOS: if (m_osFlavor < GenericLinuxFlavor || m_osFlavor > AndroidLinuxFlavor) m_osFlavor = UnknownFlavor; break; case BsdOS: if (m_osFlavor < FreeBsdFlavor || m_osFlavor > OpenBsdFlavor) m_osFlavor = UnknownFlavor; break; case DarwinOS: if (m_osFlavor < GenericDarwinFlavor || m_osFlavor > GenericDarwinFlavor) m_osFlavor = UnknownFlavor; break; case UnixOS: if (m_osFlavor < GenericUnixFlavor || m_osFlavor > SolarisUnixFlavor) m_osFlavor = UnknownFlavor; break; case WindowsOS: if (m_osFlavor < WindowsMsvc2005Flavor || m_osFlavor > WindowsCEFlavor) m_osFlavor = UnknownFlavor; break; case VxWorks: if (m_osFlavor != VxWorksFlavor) m_osFlavor = VxWorksFlavor; break; case QnxOS: if (m_osFlavor != GenericQnxFlavor) m_osFlavor = UnknownFlavor; break; case BareMetalOS: if (m_osFlavor != GenericBareMetalFlavor) m_osFlavor = GenericBareMetalFlavor; break; } } Abi::Abi(const QString &abiString) : m_architecture(UnknownArchitecture), m_os(UnknownOS), m_osFlavor(UnknownFlavor), m_binaryFormat(UnknownFormat), m_wordWidth(0) { const QVector abiParts = abiString.splitRef('-'); if (abiParts.count() >= 1) { if (abiParts.at(0) == "unknown") m_architecture = UnknownArchitecture; else if (abiParts.at(0) == "arm") m_architecture = ArmArchitecture; else if (abiParts.at(0) == "aarch64") m_architecture = ArmArchitecture; else if (abiParts.at(0) == "avr") m_architecture = AvrArchitecture; else if (abiParts.at(0) == "x86") m_architecture = X86Architecture; else if (abiParts.at(0) == "mips") m_architecture = MipsArchitecture; else if (abiParts.at(0) == "ppc") m_architecture = PowerPCArchitecture; else if (abiParts.at(0) == "itanium") m_architecture = ItaniumArchitecture; else if (abiParts.at(0) == "sh") m_architecture = ShArchitecture; else return; } if (abiParts.count() >= 2) { if (abiParts.at(1) == "unknown") m_os = UnknownOS; else if (abiParts.at(1) == "linux") m_os = LinuxOS; else if (abiParts.at(1) == "bsd") m_os = BsdOS; else if (abiParts.at(1) == "darwin" || abiParts.at(1) == "macos") m_os = DarwinOS; else if (abiParts.at(1) == "unix") m_os = UnixOS; else if (abiParts.at(1) == "windows") m_os = WindowsOS; else if (abiParts.at(1) == "vxworks") m_os = VxWorks; else if (abiParts.at(1) == "qnx") m_os = QnxOS; else return; } if (abiParts.count() >= 3) { if (abiParts.at(2) == "unknown") m_osFlavor = UnknownFlavor; else if (abiParts.at(2) == "generic" && m_os == LinuxOS) m_osFlavor = GenericLinuxFlavor; else if (abiParts.at(2) == "android" && m_os == LinuxOS) m_osFlavor = AndroidLinuxFlavor; else if (abiParts.at(2) == "generic" && m_os == QnxOS) m_osFlavor = GenericQnxFlavor; else if (abiParts.at(2) == "freebsd" && m_os == BsdOS) m_osFlavor = FreeBsdFlavor; else if (abiParts.at(2) == "netbsd" && m_os == BsdOS) m_osFlavor = NetBsdFlavor; else if (abiParts.at(2) == "openbsd" && m_os == BsdOS) m_osFlavor = OpenBsdFlavor; else if (abiParts.at(2) == "generic" && m_os == DarwinOS) m_osFlavor = GenericDarwinFlavor; else if (abiParts.at(2) == "generic" && m_os == UnixOS) m_osFlavor = GenericUnixFlavor; else if (abiParts.at(2) == "solaris" && m_os == UnixOS) m_osFlavor = SolarisUnixFlavor; else if (abiParts.at(2) == "msvc2005" && m_os == WindowsOS) m_osFlavor = WindowsMsvc2005Flavor; else if (abiParts.at(2) == "msvc2008" && m_os == WindowsOS) m_osFlavor = WindowsMsvc2008Flavor; else if (abiParts.at(2) == "msvc2010" && m_os == WindowsOS) m_osFlavor = WindowsMsvc2010Flavor; else if (abiParts.at(2) == "msvc2012" && m_os == WindowsOS) m_osFlavor = WindowsMsvc2012Flavor; else if (abiParts.at(2) == "msvc2013" && m_os == WindowsOS) m_osFlavor = WindowsMsvc2013Flavor; else if (abiParts.at(2) == "msvc2015" && m_os == WindowsOS) m_osFlavor = WindowsMsvc2015Flavor; else if (abiParts.at(2) == "msvc2017" && m_os == WindowsOS) m_osFlavor = WindowsMsvc2017Flavor; else if (abiParts.at(2) == "msys" && m_os == WindowsOS) m_osFlavor = WindowsMSysFlavor; else if (abiParts.at(2) == "ce" && m_os == WindowsOS) m_osFlavor = WindowsCEFlavor; else if (abiParts.at(2) == "vxworks" && m_os == VxWorks) m_osFlavor = VxWorksFlavor; else return; } if (abiParts.count() >= 4) { if (abiParts.at(3) == "unknown") m_binaryFormat = UnknownFormat; else if (abiParts.at(3) == "elf") m_binaryFormat = ElfFormat; else if (abiParts.at(3) == "pe") m_binaryFormat = PEFormat; else if (abiParts.at(3) == "mach_o") m_binaryFormat = MachOFormat; else if (abiParts.at(3) == "qml_rt") m_binaryFormat = RuntimeQmlFormat; else return; } if (abiParts.count() >= 5) { const QStringRef &bits = abiParts.at(4); if (!bits.endsWith("bit")) return; bool ok = false; const QStringRef number = bits.string()->midRef(bits.position(), bits.count() - 3); const int bitCount = number.toInt(&ok); if (!ok) return; if (bitCount != 8 && bitCount != 16 && bitCount != 32 && bitCount != 64) return; m_wordWidth = bitCount; } } Abi Abi::abiFromTargetTriplet(const QString &triple) { QString machine = triple.toLower(); if (machine.isEmpty()) return Abi(); const QVector parts = machine.splitRef(QRegExp("[ /-]")); Architecture arch = UnknownArchitecture; OS os = UnknownOS; OSFlavor flavor = UnknownFlavor; BinaryFormat format = UnknownFormat; unsigned char width = 0; int unknownCount = 0; for (const QStringRef &p : parts) { if (p == "unknown" || p == "pc" || p == "none" || p == "gnu" || p == "uclibc" || p == "86_64" || p == "redhat" || p == "gnueabi" || p == "w64") { continue; } else if (p == "i386" || p == "i486" || p == "i586" || p == "i686" || p == "x86") { arch = X86Architecture; width = 32; } else if (p.startsWith("arm")) { arch = ArmArchitecture; width = p.contains("64") ? 64 : 32; } else if (p.startsWith("aarch64")) { arch = ArmArchitecture; width = 64; } else if (p == "avr") { arch = AvrArchitecture; os = BareMetalOS; flavor = GenericBareMetalFlavor; format = ElfFormat; width = 16; } else if (p.startsWith("mips")) { arch = MipsArchitecture; width = p.contains("64") ? 64 : 32; } else if (p == "x86_64" || p == "amd64") { arch = X86Architecture; width = 64; } else if (p == "powerpc64") { arch = PowerPCArchitecture; width = 64; } else if (p == "powerpc") { arch = PowerPCArchitecture; width = 32; } else if (p == "linux" || p == "linux6e") { os = LinuxOS; if (flavor == UnknownFlavor) flavor = GenericLinuxFlavor; format = ElfFormat; } else if (p == "android") { flavor = AndroidLinuxFlavor; } else if (p == "androideabi") { flavor = AndroidLinuxFlavor; } else if (p.startsWith("freebsd")) { os = BsdOS; if (flavor == UnknownFlavor) flavor = FreeBsdFlavor; format = ElfFormat; } else if (p.startsWith("openbsd")) { os = BsdOS; if (flavor == UnknownFlavor) flavor = OpenBsdFlavor; format = ElfFormat; } else if (p == "mingw32" || p == "win32" || p == "mingw32msvc" || p == "msys" || p == "cygwin" || p == "windows") { arch = X86Architecture; os = WindowsOS; flavor = WindowsMSysFlavor; format = PEFormat; } else if (p == "apple") { os = DarwinOS; flavor = GenericDarwinFlavor; format = MachOFormat; } else if (p == "darwin10") { width = 64; } else if (p == "darwin9") { width = 32; } else if (p == "gnueabi") { format = ElfFormat; } else if (p == "wrs") { continue; } else if (p == "vxworks") { os = VxWorks; flavor = VxWorksFlavor; format = ElfFormat; } else if (p.startsWith("qnx")) { os = QnxOS; flavor = GenericQnxFlavor; format = ElfFormat; } else { ++unknownCount; } } return Abi(arch, os, flavor, format, width); } QString Abi::toString() const { const QStringList dn = {toString(m_architecture), toString(m_os), toString(m_osFlavor), toString(m_binaryFormat), toString(m_wordWidth)}; return dn.join('-'); } bool Abi::operator != (const Abi &other) const { return !operator ==(other); } bool Abi::operator == (const Abi &other) const { return m_architecture == other.m_architecture && m_os == other.m_os && m_osFlavor == other.m_osFlavor && m_binaryFormat == other.m_binaryFormat && m_wordWidth == other.m_wordWidth; } bool Abi::isCompatibleWith(const Abi &other) const { // Generic match: If stuff is identical or the other side is unknown, then this is a match. bool isCompat = (architecture() == other.architecture() || other.architecture() == UnknownArchitecture) && (os() == other.os() || other.os() == UnknownOS) && (osFlavor() == other.osFlavor() || other.osFlavor() == UnknownFlavor) && (binaryFormat() == other.binaryFormat() || other.binaryFormat() == UnknownFormat) && ((wordWidth() == other.wordWidth() && wordWidth() != 0) || other.wordWidth() == 0); // *-linux-generic-* is compatible with *-linux-* (both ways): This is for the benefit of // people building Qt themselves using e.g. a meego toolchain. // // We leave it to the specific targets to filter out the tool chains that do not // work for them. if (!isCompat && (architecture() == other.architecture() || other.architecture() == UnknownArchitecture) && ((os() == other.os()) && (os() == LinuxOS)) && (osFlavor() == GenericLinuxFlavor || other.osFlavor() == GenericLinuxFlavor) && (binaryFormat() == other.binaryFormat() || other.binaryFormat() == UnknownFormat) && ((wordWidth() == other.wordWidth() && wordWidth() != 0) || other.wordWidth() == 0)) { isCompat = true; } // Make Android matching more strict than the generic Linux matches so far: if (isCompat && (osFlavor() == AndroidLinuxFlavor || other.osFlavor() == AndroidLinuxFlavor)) isCompat = (architecture() == other.architecture()) && (osFlavor() == other.osFlavor()); // MSVC2017 is compatible with MSVC2015 if (!isCompat && ((osFlavor() == WindowsMsvc2015Flavor && other.osFlavor() == WindowsMsvc2017Flavor) || (osFlavor() == WindowsMsvc2017Flavor && other.osFlavor() == WindowsMsvc2015Flavor))) { isCompat = true; } return isCompat; } bool Abi::isValid() const { return m_architecture != UnknownArchitecture && m_os != UnknownOS && m_osFlavor != UnknownFlavor && m_binaryFormat != UnknownFormat && m_wordWidth != 0; } bool Abi::isNull() const { return m_architecture == UnknownArchitecture && m_os == UnknownOS && m_osFlavor == UnknownFlavor && m_binaryFormat == UnknownFormat && m_wordWidth == 0; } QString Abi::toString(const Architecture &a) { switch (a) { case ArmArchitecture: return QLatin1String("arm"); case AvrArchitecture: return QLatin1String("avr"); case X86Architecture: return QLatin1String("x86"); case MipsArchitecture: return QLatin1String("mips"); case PowerPCArchitecture: return QLatin1String("ppc"); case ItaniumArchitecture: return QLatin1String("itanium"); case ShArchitecture: return QLatin1String("sh"); case UnknownArchitecture: // fall through! default: return QLatin1String("unknown"); } } QString Abi::toString(const OS &o) { switch (o) { case LinuxOS: return QLatin1String("linux"); case BsdOS: return QLatin1String("bsd"); case DarwinOS: return QLatin1String("darwin"); case UnixOS: return QLatin1String("unix"); case WindowsOS: return QLatin1String("windows"); case VxWorks: return QLatin1String("vxworks"); case QnxOS: return QLatin1String("qnx"); case BareMetalOS: return QLatin1String("baremetal"); case UnknownOS: // fall through! default: return QLatin1String("unknown"); }; } QString Abi::toString(const OSFlavor &of) { switch (of) { case GenericLinuxFlavor: return QLatin1String("generic"); case AndroidLinuxFlavor: return QLatin1String("android"); case FreeBsdFlavor: return QLatin1String("freebsd"); case NetBsdFlavor: return QLatin1String("netbsd"); case OpenBsdFlavor: return QLatin1String("openbsd"); case GenericDarwinFlavor: return QLatin1String("generic"); case GenericUnixFlavor: return QLatin1String("generic"); case SolarisUnixFlavor: return QLatin1String("solaris"); case WindowsMsvc2005Flavor: return QLatin1String("msvc2005"); case WindowsMsvc2008Flavor: return QLatin1String("msvc2008"); case WindowsMsvc2010Flavor: return QLatin1String("msvc2010"); case WindowsMsvc2012Flavor: return QLatin1String("msvc2012"); case WindowsMsvc2013Flavor: return QLatin1String("msvc2013"); case WindowsMsvc2015Flavor: return QLatin1String("msvc2015"); case WindowsMsvc2017Flavor: return QLatin1String("msvc2017"); case WindowsMSysFlavor: return QLatin1String("msys"); case WindowsCEFlavor: return QLatin1String("ce"); case VxWorksFlavor: return QLatin1String("vxworks"); case GenericQnxFlavor: case GenericBareMetalFlavor: return QLatin1String("generic"); case UnknownFlavor: // fall through! default: return QLatin1String("unknown"); } } QString Abi::toString(const BinaryFormat &bf) { switch (bf) { case ElfFormat: return QLatin1String("elf"); case PEFormat: return QLatin1String("pe"); case MachOFormat: return QLatin1String("mach_o"); case RuntimeQmlFormat: return QLatin1String("qml_rt"); case UnknownFormat: // fall through! default: return QLatin1String("unknown"); } } QString Abi::toString(int w) { if (w == 0) return QLatin1String("unknown"); return QString::fromLatin1("%1bit").arg(w); } QList Abi::flavorsForOs(const Abi::OS &o) { QList result; switch (o) { case BsdOS: return {FreeBsdFlavor, OpenBsdFlavor, NetBsdFlavor, UnknownFlavor}; case LinuxOS: return {GenericLinuxFlavor, AndroidLinuxFlavor, UnknownFlavor}; case DarwinOS: return {GenericDarwinFlavor, UnknownFlavor}; case UnixOS: return {GenericUnixFlavor, SolarisUnixFlavor, UnknownFlavor}; case WindowsOS: return {WindowsMsvc2005Flavor, WindowsMsvc2008Flavor, WindowsMsvc2010Flavor, WindowsMsvc2012Flavor, WindowsMsvc2013Flavor, WindowsMsvc2015Flavor, WindowsMsvc2017Flavor , WindowsMSysFlavor, WindowsCEFlavor, UnknownFlavor}; case VxWorks: return {VxWorksFlavor, UnknownFlavor}; case QnxOS: return {GenericQnxFlavor, UnknownFlavor}; case BareMetalOS: return {GenericBareMetalFlavor}; case UnknownOS: return {UnknownFlavor}; default: break; } return result; } Abi::OSFlavor Abi::flavorForMsvcVersion(int version) { if (version >= 1910) return WindowsMsvc2017Flavor; switch (version) { case 1900: return WindowsMsvc2015Flavor; case 1800: return WindowsMsvc2013Flavor; case 1700: return WindowsMsvc2012Flavor; case 1600: return WindowsMsvc2010Flavor; case 1500: return WindowsMsvc2008Flavor; case 1400: return WindowsMsvc2005Flavor; default: return WindowsMSysFlavor; } } Abi Abi::hostAbi() { Architecture arch = QTC_CPU; // define set by qmake OS os = UnknownOS; OSFlavor subos = UnknownFlavor; BinaryFormat format = UnknownFormat; #if defined (Q_OS_WIN) os = WindowsOS; #ifdef _MSC_VER subos = flavorForMsvcVersion(_MSC_VER); #elif defined (Q_CC_MINGW) subos = WindowsMSysFlavor; #endif format = PEFormat; #elif defined (Q_OS_LINUX) os = LinuxOS; subos = GenericLinuxFlavor; format = ElfFormat; #elif defined (Q_OS_DARWIN) os = DarwinOS; subos = GenericDarwinFlavor; format = MachOFormat; #elif defined (Q_OS_BSD4) os = BsdOS; # if defined (Q_OS_FREEBSD) subos = FreeBsdFlavor; # elif defined (Q_OS_NETBSD) subos = NetBsdFlavor; # elif defined (Q_OS_OPENBSD) subos = OpenBsdFlavor; # endif format = ElfFormat; #endif const Abi result(arch, os, subos, format, QSysInfo::WordSize); if (!result.isValid()) qWarning("Unable to completely determine the host ABI (%s).", qPrintable(result.toString())); return result; } QList Abi::abisOfBinary(const Utils::FileName &path) { QList tmp; if (path.isEmpty()) return tmp; QFile f(path.toString()); if (!f.exists()) return tmp; if (!f.open(QFile::ReadOnly)) return tmp; QByteArray data = f.read(1024); if (data.size() >= 67 && getUint8(data, 0) == '!' && getUint8(data, 1) == '<' && getUint8(data, 2) == 'a' && getUint8(data, 3) == 'r' && getUint8(data, 4) == 'c' && getUint8(data, 5) == 'h' && getUint8(data, 6) == '>' && getUint8(data, 7) == 0x0a) { // We got an ar file: possibly a static lib for ELF, PE or Mach-O data = data.mid(8); // Cut of ar file magic quint64 offset = 8; while (!data.isEmpty()) { if ((getUint8(data, 58) != 0x60 || getUint8(data, 59) != 0x0a)) { qWarning() << path.toString() << ": Thought it was an ar-file, but it is not!"; break; } const QString fileName = QString::fromLocal8Bit(data.mid(0, 16)); quint64 fileNameOffset = 0; if (fileName.startsWith("#1/")) fileNameOffset = fileName.midRef(3).toInt(); const QString fileLength = QString::fromLatin1(data.mid(48, 10)); int toSkip = 60 + fileNameOffset; offset += fileLength.toInt() + 60 /* header */; tmp.append(abiOf(data.mid(toSkip))); if (tmp.isEmpty() && fileName == "/0 ") tmp = parseCoffHeader(data.mid(toSkip, 20)); // This might be windws... if (!tmp.isEmpty() && tmp.at(0).binaryFormat() != MachOFormat) break; offset += (offset % 2); // ar is 2 byte aligned f.seek(offset); data = f.read(1024); } } else { tmp = abiOf(data); } f.close(); // Remove duplicates: QList result; foreach (const Abi &a, tmp) { if (!result.contains(a)) result.append(a); } return result; } } // namespace ProjectExplorer // Unit tests: #ifdef WITH_TESTS # include # include # include "projectexplorer.h" void ProjectExplorer::ProjectExplorerPlugin::testAbiOfBinary_data() { QTest::addColumn("file"); QTest::addColumn("abis"); QTest::newRow("no file") << QString() << (QStringList()); QTest::newRow("non existing file") << QString::fromLatin1("/does/not/exist") << (QStringList()); // Set up prefix for test data now that we can be sure to have some tests to run: QString prefix = QString::fromLocal8Bit(qgetenv("QTC_TEST_EXTRADATALOCATION")); if (prefix.isEmpty()) return; prefix += "/projectexplorer/abi"; QFileInfo fi(prefix); if (!fi.exists() || !fi.isDir()) return; prefix = fi.absoluteFilePath(); QTest::newRow("text file") << QString::fromLatin1("%1/broken/text.txt").arg(prefix) << (QStringList()); QTest::newRow("static QtCore: win msvc2008") << QString::fromLatin1("%1/static/win-msvc2008-release.lib").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-unknown-pe-32bit")); QTest::newRow("static QtCore: win msvc2008 II") << QString::fromLatin1("%1/static/win-msvc2008-release2.lib").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-unknown-pe-64bit")); QTest::newRow("static QtCore: win msvc2008 (debug)") << QString::fromLatin1("%1/static/win-msvc2008-debug.lib").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-unknown-pe-32bit")); QTest::newRow("static QtCore: win mingw") << QString::fromLatin1("%1/static/win-mingw.a").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-unknown-pe-32bit")); QTest::newRow("static QtCore: mac (debug)") << QString::fromLatin1("%1/static/mac-32bit-debug.a").arg(prefix) << (QStringList() << QString::fromLatin1("x86-darwin-generic-mach_o-32bit")); QTest::newRow("static QtCore: linux 32bit") << QString::fromLatin1("%1/static/linux-32bit-release.a").arg(prefix) << (QStringList() << QString::fromLatin1("x86-linux-generic-elf-32bit")); QTest::newRow("static QtCore: linux 64bit") << QString::fromLatin1("%1/static/linux-64bit-release.a").arg(prefix) << (QStringList() << QString::fromLatin1("x86-linux-generic-elf-64bit")); QTest::newRow("static stdc++: mac fat") << QString::fromLatin1("%1/static/mac-fat.a").arg(prefix) << (QStringList() << QString::fromLatin1("x86-darwin-generic-mach_o-32bit") << QString::fromLatin1("ppc-darwin-generic-mach_o-32bit") << QString::fromLatin1("x86-darwin-generic-mach_o-64bit")); QTest::newRow("executable: win msvc2013 64bit") << QString::fromLatin1("%1/executables/x86-windows-mvsc2013-pe-64bit.exe").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-msvc2013-pe-64bit")); QTest::newRow("executable: win msvc2013 32bit") << QString::fromLatin1("%1/executables/x86-windows-mvsc2013-pe-32bit.exe").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-msvc2013-pe-32bit")); QTest::newRow("dynamic: win msvc2013 64bit") << QString::fromLatin1("%1/dynamic/x86-windows-mvsc2013-pe-64bit.dll").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-msvc2013-pe-64bit")); QTest::newRow("dynamic: win msvc2013 32bit") << QString::fromLatin1("%1/dynamic/x86-windows-mvsc2013-pe-32bit.dll").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-msvc2013-pe-32bit")); QTest::newRow("dynamic QtCore: win msvc2010 64bit") << QString::fromLatin1("%1/dynamic/win-msvc2010-64bit.dll").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-msvc2010-pe-64bit")); QTest::newRow("dynamic QtCore: win msvc2008 32bit") << QString::fromLatin1("%1/dynamic/win-msvc2008-32bit.dll").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-msvc2008-pe-32bit")); QTest::newRow("dynamic QtCore: win msvc2005 32bit") << QString::fromLatin1("%1/dynamic/win-msvc2005-32bit.dll").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-msvc2005-pe-32bit")); QTest::newRow("dynamic QtCore: win msys 32bit") << QString::fromLatin1("%1/dynamic/win-mingw-32bit.dll").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-msys-pe-32bit")); QTest::newRow("dynamic QtCore: win mingw 64bit") << QString::fromLatin1("%1/dynamic/win-mingw-64bit.dll").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-msys-pe-64bit")); QTest::newRow("dynamic QtCore: wince mips msvc2005 32bit") << QString::fromLatin1("%1/dynamic/wince-32bit.dll").arg(prefix) << (QStringList() << QString::fromLatin1("mips-windows-msvc2005-pe-32bit")); QTest::newRow("dynamic QtCore: wince arm msvc2008 32bit") << QString::fromLatin1("%1/dynamic/arm-win-ce-pe-32bit").arg(prefix) << (QStringList() << QString::fromLatin1("arm-windows-msvc2008-pe-32bit")); QTest::newRow("dynamic stdc++: mac fat") << QString::fromLatin1("%1/dynamic/mac-fat.dylib").arg(prefix) << (QStringList() << QString::fromLatin1("x86-darwin-generic-mach_o-32bit") << QString::fromLatin1("ppc-darwin-generic-mach_o-32bit") << QString::fromLatin1("x86-darwin-generic-mach_o-64bit")); QTest::newRow("dynamic QtCore: arm linux 32bit") << QString::fromLatin1("%1/dynamic/arm-linux.so").arg(prefix) << (QStringList() << QString::fromLatin1("arm-linux-generic-elf-32bit")); QTest::newRow("dynamic QtCore: arm linux 32bit, using ARM as OSABI") << QString::fromLatin1("%1/dynamic/arm-linux2.so").arg(prefix) << (QStringList() << QString::fromLatin1("arm-linux-generic-elf-32bit")); QTest::newRow("dynamic QtCore: arm linux 32bit (angstrom)") << QString::fromLatin1("%1/dynamic/arm-angstrom-linux.so").arg(prefix) << (QStringList() << QString::fromLatin1("arm-linux-generic-elf-32bit")); QTest::newRow("dynamic QtCore: sh4 linux 32bit") << QString::fromLatin1("%1/dynamic/sh4-linux.so").arg(prefix) << (QStringList() << QString::fromLatin1("sh-linux-generic-elf-32bit")); QTest::newRow("dynamic QtCore: mips linux 32bit") << QString::fromLatin1("%1/dynamic/mips-linux.so").arg(prefix) << (QStringList() << QString::fromLatin1("mips-linux-generic-elf-32bit")); QTest::newRow("dynamic QtCore: projectexplorer/abi/static/win-msvc2010-32bit.libppc be linux 32bit") << QString::fromLatin1("%1/dynamic/ppcbe-linux-32bit.so").arg(prefix) << (QStringList() << QString::fromLatin1("ppc-linux-generic-elf-32bit")); QTest::newRow("dynamic QtCore: x86 freebsd 64bit") << QString::fromLatin1("%1/dynamic/freebsd-elf-64bit.so").arg(prefix) << (QStringList() << QString::fromLatin1("x86-bsd-freebsd-elf-64bit")); QTest::newRow("dynamic QtCore: x86 freebsd 64bit") << QString::fromLatin1("%1/dynamic/freebsd-elf-64bit.so").arg(prefix) << (QStringList() << QString::fromLatin1("x86-bsd-freebsd-elf-64bit")); QTest::newRow("dynamic QtCore: x86 freebsd 32bit") << QString::fromLatin1("%1/dynamic/freebsd-elf-32bit.so").arg(prefix) << (QStringList() << QString::fromLatin1("x86-bsd-freebsd-elf-32bit")); QTest::newRow("executable: x86 win 32bit cygwin executable") << QString::fromLatin1("%1/executable/cygwin-32bit.exe").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-msys-pe-32bit")); QTest::newRow("executable: x86 win 32bit mingw executable") << QString::fromLatin1("%1/executable/mingw-32bit.exe").arg(prefix) << (QStringList() << QString::fromLatin1("x86-windows-msys-pe-32bit")); } void ProjectExplorer::ProjectExplorerPlugin::testAbiOfBinary() { QFETCH(QString, file); QFETCH(QStringList, abis); QList result = Abi::abisOfBinary(Utils::FileName::fromString(file)); QCOMPARE(result.count(), abis.count()); for (int i = 0; i < abis.count(); ++i) QCOMPARE(result.at(i).toString(), abis.at(i)); } void ProjectExplorer::ProjectExplorerPlugin::testFlavorForOs() { QList > flavorLists; for (int i = 0; i != static_cast(Abi::UnknownOS); ++i) flavorLists.append(Abi::flavorsForOs(static_cast(i))); int foundCounter = 0; for (int i = 0; i != Abi::UnknownFlavor; ++i) { foundCounter = 0; // make sure i is in exactly on of the flavor lists! foreach (const QList &l, flavorLists) { QVERIFY(l.contains(Abi::UnknownFlavor)); if (l.contains(static_cast(i))) ++foundCounter; } QCOMPARE(foundCounter, 1); } } void ProjectExplorer::ProjectExplorerPlugin::testAbiFromTargetTriplet_data() { QTest::addColumn("architecture"); QTest::addColumn("os"); QTest::addColumn("osFlavor"); QTest::addColumn("binaryFormat"); QTest::addColumn("wordWidth"); QTest::newRow("x86_64-apple-darwin") << int(Abi::X86Architecture) << int(Abi::DarwinOS) << int(Abi::GenericDarwinFlavor) << int(Abi::MachOFormat) << 64; QTest::newRow("x86_64-apple-darwin12.5.0") << int(Abi::X86Architecture) << int(Abi::DarwinOS) << int(Abi::GenericDarwinFlavor) << int(Abi::MachOFormat) << 64; QTest::newRow("x86_64-linux-gnu") << int(Abi::X86Architecture) << int(Abi::LinuxOS) << int(Abi::GenericLinuxFlavor) << int(Abi::ElfFormat) << 64; QTest::newRow("x86_64-pc-mingw32msvc") << int(Abi::X86Architecture) << int(Abi::WindowsOS) << int(Abi::WindowsMSysFlavor) << int(Abi::PEFormat) << 64; QTest::newRow("i586-pc-mingw32msvc") << int(Abi::X86Architecture) << int(Abi::WindowsOS) << int(Abi::WindowsMSysFlavor) << int(Abi::PEFormat) << 32; QTest::newRow("i686-linux-gnu") << int(Abi::X86Architecture) << int(Abi::LinuxOS) << int(Abi::GenericLinuxFlavor) << int(Abi::ElfFormat) << 32; QTest::newRow("i686-linux-android") << int(Abi::X86Architecture) << int(Abi::LinuxOS) << int(Abi::AndroidLinuxFlavor) << int(Abi::ElfFormat) << 32; QTest::newRow("i686-pc-linux-android") << int(Abi::X86Architecture) << int(Abi::LinuxOS) << int(Abi::AndroidLinuxFlavor) << int(Abi::ElfFormat) << 32; QTest::newRow("i686-pc-mingw32") << int(Abi::X86Architecture) << int(Abi::WindowsOS) << int(Abi::WindowsMSysFlavor) << int(Abi::PEFormat) << 32; QTest::newRow("i686-w64-mingw32") << int(Abi::X86Architecture) << int(Abi::WindowsOS) << int(Abi::WindowsMSysFlavor) << int(Abi::PEFormat) << 32; QTest::newRow("x86_64-pc-msys") << int(Abi::X86Architecture) << int(Abi::WindowsOS) << int(Abi::WindowsMSysFlavor) << int(Abi::PEFormat) << 64; QTest::newRow("x86_64-pc-cygwin") << int(Abi::X86Architecture) << int(Abi::WindowsOS) << int(Abi::WindowsMSysFlavor) << int(Abi::PEFormat) << 64; QTest::newRow("x86-pc-windows-msvc") << int(Abi::X86Architecture) << int(Abi::WindowsOS) << int(Abi::WindowsMSysFlavor) << int(Abi::PEFormat) << 32; QTest::newRow("mingw32") << int(Abi::X86Architecture) << int(Abi::WindowsOS) << int(Abi::WindowsMSysFlavor) << int(Abi::PEFormat) << 0; QTest::newRow("arm-linux-android") << int(Abi::ArmArchitecture) << int(Abi::LinuxOS) << int(Abi::AndroidLinuxFlavor) << int(Abi::ElfFormat) << 32; QTest::newRow("arm-linux-androideabi") << int(Abi::ArmArchitecture) << int(Abi::LinuxOS) << int(Abi::AndroidLinuxFlavor) << int(Abi::ElfFormat) << 32; QTest::newRow("arm-none-linux-gnueabi") << int(Abi::ArmArchitecture) << int(Abi::LinuxOS) << int(Abi::GenericLinuxFlavor) << int(Abi::ElfFormat) << 32; QTest::newRow("mipsel-linux-android") << int(Abi::MipsArchitecture) << int(Abi::LinuxOS) << int(Abi::AndroidLinuxFlavor) << int(Abi::ElfFormat) << 32; QTest::newRow("mipsel-unknown-linux-android") << int(Abi::MipsArchitecture) << int(Abi::LinuxOS) << int(Abi::AndroidLinuxFlavor) << int(Abi::ElfFormat) << 32; QTest::newRow("mips-linux-gnu") << int(Abi::MipsArchitecture) << int(Abi::LinuxOS) << int(Abi::GenericLinuxFlavor) << int(Abi::ElfFormat) << 32; QTest::newRow("mips64el-linux-android") << int(Abi::MipsArchitecture) << int(Abi::LinuxOS) << int(Abi::AndroidLinuxFlavor) << int(Abi::ElfFormat) << 64; QTest::newRow("mips64el-unknown-linux-android") << int(Abi::MipsArchitecture) << int(Abi::LinuxOS) << int(Abi::AndroidLinuxFlavor) << int(Abi::ElfFormat) << 64; QTest::newRow("mips64-linux-octeon-gnu") << int(Abi::MipsArchitecture) << int(Abi::LinuxOS) << int(Abi::GenericLinuxFlavor) << int(Abi::ElfFormat) << 64; QTest::newRow("mips64el-linux-gnuabi") << int(Abi::MipsArchitecture) << int(Abi::LinuxOS) << int(Abi::GenericLinuxFlavor) << int(Abi::ElfFormat) << 64; QTest::newRow("arm-wrs-vxworks") << int(Abi::ArmArchitecture) << int(Abi::VxWorks) << int(Abi::VxWorksFlavor) << int(Abi::ElfFormat) << 32; QTest::newRow("x86_64-unknown-openbsd") << int(Abi::X86Architecture) << int(Abi::BsdOS) << int(Abi::OpenBsdFlavor) << int(Abi::ElfFormat) << 64; QTest::newRow("aarch64-unknown-linux-gnu") << int(Abi::ArmArchitecture) << int(Abi::LinuxOS) << int(Abi::GenericLinuxFlavor) << int(Abi::ElfFormat) << 64; // Yes, that's the entire triplet QTest::newRow("avr") << int(Abi::AvrArchitecture) << int(Abi::BareMetalOS) << int(Abi::GenericBareMetalFlavor) << int(Abi::ElfFormat) << 16; } void ProjectExplorer::ProjectExplorerPlugin::testAbiFromTargetTriplet() { QFETCH(int, architecture); QFETCH(int, os); QFETCH(int, osFlavor); QFETCH(int, binaryFormat); QFETCH(int, wordWidth); const Abi expectedAbi = Abi(Abi::Architecture(architecture), Abi::OS(os), Abi::OSFlavor(osFlavor), Abi::BinaryFormat(binaryFormat), static_cast(wordWidth)); QCOMPARE(Abi::abiFromTargetTriplet(QLatin1String(QTest::currentDataTag())), expectedAbi); } #endif