// Copyright 2016 Google Inc. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package config import ( "android/soong/android" ) var ( linuxBionicCflags = []string{ "-Wa,--noexecstack", "-fPIC", "-U_FORTIFY_SOURCE", "-D_FORTIFY_SOURCE=2", "-fstack-protector-strong", // From x86_64_device "-ffunction-sections", "-fno-short-enums", "-funwind-tables", // Tell clang where the gcc toolchain is "--gcc-toolchain=${LinuxBionicGccRoot}", // This is normally in ClangExtraTargetCflags, but this is considered host "-nostdlibinc", } linuxBionicLdflags = []string{ "-Wl,-z,noexecstack", "-Wl,-z,relro", "-Wl,-z,now", "-Wl,--build-id=md5", "-Wl,--fatal-warnings", "-Wl,--hash-style=gnu", "-Wl,--no-undefined-version", // Use the device gcc toolchain "--gcc-toolchain=${LinuxBionicGccRoot}", } // Embed the linker into host bionic binaries. This is needed to support host bionic, // as the linux kernel requires that the ELF interpreter referenced by PT_INTERP be // either an absolute path, or relative from CWD. To work around this, we extract // the load sections from the runtime linker ELF binary and embed them into each host // bionic binary, omitting the PT_INTERP declaration. The kernel will treat it as a static // binary, and then we use a special entry point to fix up the arguments passed by // the kernel before jumping to the embedded linker. linuxBionicCrtBeginSharedBinary = append(android.CopyOf(bionicCrtBeginSharedBinary), "host_bionic_linker_script") ) const ( x86_64GccVersion = "4.9" ) func init() { exportedVars.ExportStringListStaticVariable("LinuxBionicCflags", linuxBionicCflags) exportedVars.ExportStringListStaticVariable("LinuxBionicLdflags", linuxBionicLdflags) exportedVars.ExportStringListStaticVariable("LinuxBionicLldflags", linuxBionicLdflags) // Use the device gcc toolchain for now exportedVars.ExportStringStaticVariable("LinuxBionicGccVersion", x86_64GccVersion) exportedVars.ExportSourcePathVariable("LinuxBionicGccRoot", "prebuilts/gcc/${HostPrebuiltTag}/x86/x86_64-linux-android-${LinuxBionicGccVersion}") } type toolchainLinuxBionic struct { toolchain64Bit toolchainBionic } func (t *toolchainLinuxBionic) Name() string { return "x86_64" } func (t *toolchainLinuxBionic) IncludeFlags() string { return "" } func (t *toolchainLinuxBionic) ClangTriple() string { // TODO: we don't have a triple yet b/31393676 return "x86_64-linux-android" } func (t *toolchainLinuxBionic) Cflags() string { return "${config.LinuxBionicCflags}" } func (t *toolchainLinuxBionic) Cppflags() string { return "" } func (t *toolchainLinuxBionic) Ldflags() string { return "${config.LinuxBionicLdflags}" } func (t *toolchainLinuxBionic) Lldflags() string { return "${config.LinuxBionicLldflags}" } func (t *toolchainLinuxBionic) ToolchainCflags() string { return "-m64 -march=x86-64" + // TODO: We're not really android, but we don't have a triple yet b/31393676 " -U__ANDROID__" } func (t *toolchainLinuxBionic) ToolchainLdflags() string { return "-m64" } func (t *toolchainLinuxBionic) AvailableLibraries() []string { return nil } func (toolchainLinuxBionic) LibclangRuntimeLibraryArch() string { return "x86_64" } func (toolchainLinuxBionic) CrtBeginSharedBinary() []string { return linuxBionicCrtBeginSharedBinary } var toolchainLinuxBionicSingleton Toolchain = &toolchainLinuxBionic{} func linuxBionicToolchainFactory(arch android.Arch) Toolchain { return toolchainLinuxBionicSingleton } func init() { registerToolchainFactory(android.LinuxBionic, android.X86_64, linuxBionicToolchainFactory) }