forked from TrueCloudLab/restic
750 lines
20 KiB
Go
750 lines
20 KiB
Go
// Copyright 2017 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// linux/mkall.go - Generates all Linux zsysnum, zsyscall, zerror, and ztype
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// files for all 11 linux architectures supported by the go compiler. See
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// README.md for more information about the build system.
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// To run it you must have a git checkout of the Linux kernel and glibc. Once
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// the appropriate sources are ready, the program is run as:
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// go run linux/mkall.go <linux_dir> <glibc_dir>
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// +build ignore
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package main
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import (
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"bufio"
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"bytes"
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"debug/elf"
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"encoding/binary"
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"errors"
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"fmt"
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"io"
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"io/ioutil"
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"os"
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"os/exec"
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"path/filepath"
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"runtime"
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"strings"
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"unicode"
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)
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// These will be paths to the appropriate source directories.
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var LinuxDir string
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var GlibcDir string
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const TempDir = "/tmp"
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const IncludeDir = TempDir + "/include" // To hold our C headers
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const BuildDir = TempDir + "/build" // To hold intermediate build files
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const GOOS = "linux" // Only for Linux targets
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const BuildArch = "amd64" // Must be built on this architecture
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const MinKernel = "2.6.23" // https://golang.org/doc/install#requirements
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type target struct {
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GoArch string // Architecture name according to Go
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LinuxArch string // Architecture name according to the Linux Kernel
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GNUArch string // Architecture name according to GNU tools (https://wiki.debian.org/Multiarch/Tuples)
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BigEndian bool // Default Little Endian
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SignedChar bool // Is -fsigned-char needed (default no)
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Bits int
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}
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// List of the 11 Linux targets supported by the go compiler. sparc64 is not
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// currently supported, though a port is in progress.
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var targets = []target{
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{
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GoArch: "386",
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LinuxArch: "x86",
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GNUArch: "i686-linux-gnu", // Note "i686" not "i386"
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Bits: 32,
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},
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{
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GoArch: "amd64",
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LinuxArch: "x86",
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GNUArch: "x86_64-linux-gnu",
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Bits: 64,
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},
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{
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GoArch: "arm64",
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LinuxArch: "arm64",
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GNUArch: "aarch64-linux-gnu",
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SignedChar: true,
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Bits: 64,
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},
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{
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GoArch: "arm",
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LinuxArch: "arm",
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GNUArch: "arm-linux-gnueabi",
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Bits: 32,
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},
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{
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GoArch: "mips",
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LinuxArch: "mips",
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GNUArch: "mips-linux-gnu",
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BigEndian: true,
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Bits: 32,
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},
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{
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GoArch: "mipsle",
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LinuxArch: "mips",
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GNUArch: "mipsel-linux-gnu",
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Bits: 32,
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},
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{
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GoArch: "mips64",
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LinuxArch: "mips",
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GNUArch: "mips64-linux-gnuabi64",
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BigEndian: true,
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Bits: 64,
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},
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{
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GoArch: "mips64le",
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LinuxArch: "mips",
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GNUArch: "mips64el-linux-gnuabi64",
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Bits: 64,
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},
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{
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GoArch: "ppc64",
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LinuxArch: "powerpc",
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GNUArch: "powerpc64-linux-gnu",
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BigEndian: true,
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Bits: 64,
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},
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{
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GoArch: "ppc64le",
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LinuxArch: "powerpc",
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GNUArch: "powerpc64le-linux-gnu",
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Bits: 64,
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},
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{
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GoArch: "s390x",
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LinuxArch: "s390",
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GNUArch: "s390x-linux-gnu",
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BigEndian: true,
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SignedChar: true,
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Bits: 64,
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},
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// {
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// GoArch: "sparc64",
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// LinuxArch: "sparc",
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// GNUArch: "sparc64-linux-gnu",
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// BigEndian: true,
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// Bits: 64,
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// },
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}
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// ptracePairs is a list of pairs of targets that can, in some cases,
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// run each other's binaries.
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var ptracePairs = []struct{ a1, a2 string }{
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{"386", "amd64"},
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{"arm", "arm64"},
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{"mips", "mips64"},
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{"mipsle", "mips64le"},
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}
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func main() {
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if runtime.GOOS != GOOS || runtime.GOARCH != BuildArch {
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fmt.Printf("Build system has GOOS_GOARCH = %s_%s, need %s_%s\n",
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runtime.GOOS, runtime.GOARCH, GOOS, BuildArch)
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return
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}
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// Check that we are using the new build system if we should
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if os.Getenv("GOLANG_SYS_BUILD") != "docker" {
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fmt.Println("In the new build system, mkall.go should not be called directly.")
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fmt.Println("See README.md")
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return
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}
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// Parse the command line options
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if len(os.Args) != 3 {
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fmt.Println("USAGE: go run linux/mkall.go <linux_dir> <glibc_dir>")
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return
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}
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LinuxDir = os.Args[1]
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GlibcDir = os.Args[2]
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for _, t := range targets {
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fmt.Printf("----- GENERATING: %s -----\n", t.GoArch)
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if err := t.generateFiles(); err != nil {
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fmt.Printf("%v\n***** FAILURE: %s *****\n\n", err, t.GoArch)
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} else {
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fmt.Printf("----- SUCCESS: %s -----\n\n", t.GoArch)
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}
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}
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fmt.Printf("----- GENERATING ptrace pairs -----\n")
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ok := true
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for _, p := range ptracePairs {
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if err := generatePtracePair(p.a1, p.a2); err != nil {
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fmt.Printf("%v\n***** FAILURE: %s/%s *****\n\n", err, p.a1, p.a2)
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ok = false
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}
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}
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if ok {
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fmt.Printf("----- SUCCESS ptrace pairs -----\n\n")
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}
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}
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// Makes an exec.Cmd with Stderr attached to os.Stderr
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func makeCommand(name string, args ...string) *exec.Cmd {
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cmd := exec.Command(name, args...)
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cmd.Stderr = os.Stderr
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return cmd
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}
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// Runs the command, pipes output to a formatter, pipes that to an output file.
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func (t *target) commandFormatOutput(formatter string, outputFile string,
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name string, args ...string) (err error) {
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mainCmd := makeCommand(name, args...)
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fmtCmd := makeCommand(formatter)
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if formatter == "mkpost" {
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fmtCmd = makeCommand("go", "run", "mkpost.go")
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// Set GOARCH_TARGET so mkpost knows what GOARCH is..
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fmtCmd.Env = append(os.Environ(), "GOARCH_TARGET="+t.GoArch)
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// Set GOARCH to host arch for mkpost, so it can run natively.
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for i, s := range fmtCmd.Env {
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if strings.HasPrefix(s, "GOARCH=") {
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fmtCmd.Env[i] = "GOARCH=" + BuildArch
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}
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}
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}
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// mainCmd | fmtCmd > outputFile
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if fmtCmd.Stdin, err = mainCmd.StdoutPipe(); err != nil {
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return
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}
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if fmtCmd.Stdout, err = os.Create(outputFile); err != nil {
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return
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}
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// Make sure the formatter eventually closes
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if err = fmtCmd.Start(); err != nil {
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return
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}
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defer func() {
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fmtErr := fmtCmd.Wait()
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if err == nil {
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err = fmtErr
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}
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}()
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return mainCmd.Run()
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}
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// Generates all the files for a Linux target
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func (t *target) generateFiles() error {
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// Setup environment variables
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os.Setenv("GOOS", GOOS)
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os.Setenv("GOARCH", t.GoArch)
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// Get appropriate compiler and emulator (unless on x86)
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if t.LinuxArch != "x86" {
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// Check/Setup cross compiler
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compiler := t.GNUArch + "-gcc"
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if _, err := exec.LookPath(compiler); err != nil {
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return err
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}
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os.Setenv("CC", compiler)
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// Check/Setup emulator (usually first component of GNUArch)
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qemuArchName := t.GNUArch[:strings.Index(t.GNUArch, "-")]
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if t.LinuxArch == "powerpc" {
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qemuArchName = t.GoArch
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}
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os.Setenv("GORUN", "qemu-"+qemuArchName)
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} else {
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os.Setenv("CC", "gcc")
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}
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// Make the include directory and fill it with headers
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if err := os.MkdirAll(IncludeDir, os.ModePerm); err != nil {
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return err
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}
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defer os.RemoveAll(IncludeDir)
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if err := t.makeHeaders(); err != nil {
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return fmt.Errorf("could not make header files: %v", err)
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}
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fmt.Println("header files generated")
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// Make each of the four files
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if err := t.makeZSysnumFile(); err != nil {
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return fmt.Errorf("could not make zsysnum file: %v", err)
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}
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fmt.Println("zsysnum file generated")
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if err := t.makeZSyscallFile(); err != nil {
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return fmt.Errorf("could not make zsyscall file: %v", err)
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}
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fmt.Println("zsyscall file generated")
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if err := t.makeZTypesFile(); err != nil {
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return fmt.Errorf("could not make ztypes file: %v", err)
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}
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fmt.Println("ztypes file generated")
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if err := t.makeZErrorsFile(); err != nil {
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return fmt.Errorf("could not make zerrors file: %v", err)
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}
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fmt.Println("zerrors file generated")
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return nil
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}
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// Create the Linux, glibc and ABI (C compiler convention) headers in the include directory.
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func (t *target) makeHeaders() error {
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// Make the Linux headers we need for this architecture
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linuxMake := makeCommand("make", "headers_install", "ARCH="+t.LinuxArch, "INSTALL_HDR_PATH="+TempDir)
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linuxMake.Dir = LinuxDir
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if err := linuxMake.Run(); err != nil {
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return err
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}
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// A Temporary build directory for glibc
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if err := os.MkdirAll(BuildDir, os.ModePerm); err != nil {
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return err
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}
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defer os.RemoveAll(BuildDir)
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// Make the glibc headers we need for this architecture
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confScript := filepath.Join(GlibcDir, "configure")
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glibcConf := makeCommand(confScript, "--prefix="+TempDir, "--host="+t.GNUArch, "--enable-kernel="+MinKernel)
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glibcConf.Dir = BuildDir
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if err := glibcConf.Run(); err != nil {
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return err
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}
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glibcMake := makeCommand("make", "install-headers")
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glibcMake.Dir = BuildDir
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if err := glibcMake.Run(); err != nil {
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return err
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}
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// We only need an empty stubs file
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stubsFile := filepath.Join(IncludeDir, "gnu/stubs.h")
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if file, err := os.Create(stubsFile); err != nil {
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return err
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} else {
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file.Close()
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}
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// ABI headers will specify C compiler behavior for the target platform.
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return t.makeABIHeaders()
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}
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// makeABIHeaders generates C header files based on the platform's calling convention.
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// While many platforms have formal Application Binary Interfaces, in practice, whatever the
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// dominant C compilers generate is the de-facto calling convention.
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//
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// We generate C headers instead of a Go file, so as to enable references to the ABI from Cgo.
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func (t *target) makeABIHeaders() (err error) {
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abiDir := filepath.Join(IncludeDir, "abi")
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if err = os.Mkdir(abiDir, os.ModePerm); err != nil {
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return err
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}
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cc := os.Getenv("CC")
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if cc == "" {
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return errors.New("CC (compiler) env var not set")
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}
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// Build a sacrificial ELF file, to mine for C compiler behavior.
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binPath := filepath.Join(TempDir, "tmp_abi.o")
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bin, err := t.buildELF(cc, cCode, binPath)
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if err != nil {
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return fmt.Errorf("cannot build ELF to analyze: %v", err)
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}
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defer bin.Close()
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defer os.Remove(binPath)
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// Right now, we put everything in abi.h, but we may change this later.
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abiFile, err := os.Create(filepath.Join(abiDir, "abi.h"))
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if err != nil {
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return err
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}
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defer func() {
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if cerr := abiFile.Close(); cerr != nil && err == nil {
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err = cerr
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}
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}()
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if err = t.writeBitFieldMasks(bin, abiFile); err != nil {
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return fmt.Errorf("cannot write bitfield masks: %v", err)
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}
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return nil
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}
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func (t *target) buildELF(cc, src, path string) (*elf.File, error) {
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// Compile the cCode source using the set compiler - we will need its .data section.
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// Do not link the binary, so that we can find .data section offsets from the symbol values.
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ccCmd := makeCommand(cc, "-o", path, "-gdwarf", "-x", "c", "-c", "-")
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ccCmd.Stdin = strings.NewReader(src)
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ccCmd.Stdout = os.Stdout
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if err := ccCmd.Run(); err != nil {
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return nil, fmt.Errorf("compiler error: %v", err)
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}
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bin, err := elf.Open(path)
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if err != nil {
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return nil, fmt.Errorf("cannot read ELF file %s: %v", path, err)
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}
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return bin, nil
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}
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func (t *target) writeBitFieldMasks(bin *elf.File, out io.Writer) error {
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symbols, err := bin.Symbols()
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if err != nil {
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return fmt.Errorf("getting ELF symbols: %v", err)
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}
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var masksSym *elf.Symbol
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for _, sym := range symbols {
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if sym.Name == "masks" {
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masksSym = &sym
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}
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}
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if masksSym == nil {
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return errors.New("could not find the 'masks' symbol in ELF symtab")
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}
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dataSection := bin.Section(".data")
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if dataSection == nil {
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return errors.New("ELF file has no .data section")
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}
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data, err := dataSection.Data()
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if err != nil {
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return fmt.Errorf("could not read .data section: %v\n", err)
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}
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var bo binary.ByteOrder
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if t.BigEndian {
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bo = binary.BigEndian
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} else {
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bo = binary.LittleEndian
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}
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// 64 bit masks of type uint64 are stored in the data section starting at masks.Value.
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// Here we are running on AMD64, but these values may be big endian or little endian,
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// depending on target architecture.
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for i := uint64(0); i < 64; i++ {
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off := masksSym.Value + i*8
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// Define each mask in native by order, so as to match target endian.
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fmt.Fprintf(out, "#define BITFIELD_MASK_%d %dULL\n", i, bo.Uint64(data[off:off+8]))
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}
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return nil
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}
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// makes the zsysnum_linux_$GOARCH.go file
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func (t *target) makeZSysnumFile() error {
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zsysnumFile := fmt.Sprintf("zsysnum_linux_%s.go", t.GoArch)
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unistdFile := filepath.Join(IncludeDir, "asm/unistd.h")
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args := append(t.cFlags(), unistdFile)
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return t.commandFormatOutput("gofmt", zsysnumFile, "linux/mksysnum.pl", args...)
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}
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// makes the zsyscall_linux_$GOARCH.go file
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func (t *target) makeZSyscallFile() error {
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zsyscallFile := fmt.Sprintf("zsyscall_linux_%s.go", t.GoArch)
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// Find the correct architecture syscall file (might end with x.go)
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archSyscallFile := fmt.Sprintf("syscall_linux_%s.go", t.GoArch)
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if _, err := os.Stat(archSyscallFile); os.IsNotExist(err) {
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shortArch := strings.TrimSuffix(t.GoArch, "le")
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archSyscallFile = fmt.Sprintf("syscall_linux_%sx.go", shortArch)
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}
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args := append(t.mksyscallFlags(), "-tags", "linux,"+t.GoArch,
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"syscall_linux.go", archSyscallFile)
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return t.commandFormatOutput("gofmt", zsyscallFile, "./mksyscall.pl", args...)
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}
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// makes the zerrors_linux_$GOARCH.go file
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func (t *target) makeZErrorsFile() error {
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zerrorsFile := fmt.Sprintf("zerrors_linux_%s.go", t.GoArch)
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return t.commandFormatOutput("gofmt", zerrorsFile, "./mkerrors.sh", t.cFlags()...)
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}
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// makes the ztypes_linux_$GOARCH.go file
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func (t *target) makeZTypesFile() error {
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ztypesFile := fmt.Sprintf("ztypes_linux_%s.go", t.GoArch)
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args := []string{"tool", "cgo", "-godefs", "--"}
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args = append(args, t.cFlags()...)
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args = append(args, "linux/types.go")
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return t.commandFormatOutput("mkpost", ztypesFile, "go", args...)
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}
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// Flags that should be given to gcc and cgo for this target
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func (t *target) cFlags() []string {
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// Compile statically to avoid cross-architecture dynamic linking.
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flags := []string{"-Wall", "-Werror", "-static", "-I" + IncludeDir}
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// Architecture-specific flags
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if t.SignedChar {
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flags = append(flags, "-fsigned-char")
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}
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if t.LinuxArch == "x86" {
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flags = append(flags, fmt.Sprintf("-m%d", t.Bits))
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}
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return flags
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}
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// Flags that should be given to mksyscall for this target
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func (t *target) mksyscallFlags() (flags []string) {
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if t.Bits == 32 {
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if t.BigEndian {
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flags = append(flags, "-b32")
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} else {
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flags = append(flags, "-l32")
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}
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}
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// This flag menas a 64-bit value should use (even, odd)-pair.
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if t.GoArch == "arm" || (t.LinuxArch == "mips" && t.Bits == 32) {
|
|
flags = append(flags, "-arm")
|
|
}
|
|
return
|
|
}
|
|
|
|
// generatePtracePair takes a pair of GOARCH values that can run each
|
|
// other's binaries, such as 386 and amd64. It extracts the PtraceRegs
|
|
// type for each one. It writes a new file defining the types
|
|
// PtraceRegsArch1 and PtraceRegsArch2 and the corresponding functions
|
|
// Ptrace{Get,Set}Regs{arch1,arch2}. This permits debugging the other
|
|
// binary on a native system.
|
|
func generatePtracePair(arch1, arch2 string) error {
|
|
def1, err := ptraceDef(arch1)
|
|
if err != nil {
|
|
return err
|
|
}
|
|
def2, err := ptraceDef(arch2)
|
|
if err != nil {
|
|
return err
|
|
}
|
|
f, err := os.Create(fmt.Sprintf("zptrace%s_linux.go", arch1))
|
|
if err != nil {
|
|
return err
|
|
}
|
|
buf := bufio.NewWriter(f)
|
|
fmt.Fprintf(buf, "// Code generated by linux/mkall.go generatePtracePair(%s, %s). DO NOT EDIT.\n", arch1, arch2)
|
|
fmt.Fprintf(buf, "\n")
|
|
fmt.Fprintf(buf, "// +build linux\n")
|
|
fmt.Fprintf(buf, "// +build %s %s\n", arch1, arch2)
|
|
fmt.Fprintf(buf, "\n")
|
|
fmt.Fprintf(buf, "package unix\n")
|
|
fmt.Fprintf(buf, "\n")
|
|
fmt.Fprintf(buf, "%s\n", `import "unsafe"`)
|
|
fmt.Fprintf(buf, "\n")
|
|
writeOnePtrace(buf, arch1, def1)
|
|
fmt.Fprintf(buf, "\n")
|
|
writeOnePtrace(buf, arch2, def2)
|
|
if err := buf.Flush(); err != nil {
|
|
return err
|
|
}
|
|
if err := f.Close(); err != nil {
|
|
return err
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// ptraceDef returns the definition of PtraceRegs for arch.
|
|
func ptraceDef(arch string) (string, error) {
|
|
filename := fmt.Sprintf("ztypes_linux_%s.go", arch)
|
|
data, err := ioutil.ReadFile(filename)
|
|
if err != nil {
|
|
return "", fmt.Errorf("reading %s: %v", filename, err)
|
|
}
|
|
start := bytes.Index(data, []byte("type PtraceRegs struct"))
|
|
if start < 0 {
|
|
return "", fmt.Errorf("%s: no definition of PtraceRegs", filename)
|
|
}
|
|
data = data[start:]
|
|
end := bytes.Index(data, []byte("\n}\n"))
|
|
if end < 0 {
|
|
return "", fmt.Errorf("%s: can't find end of PtraceRegs definition", filename)
|
|
}
|
|
return string(data[:end+2]), nil
|
|
}
|
|
|
|
// writeOnePtrace writes out the ptrace definitions for arch.
|
|
func writeOnePtrace(w io.Writer, arch, def string) {
|
|
uarch := string(unicode.ToUpper(rune(arch[0]))) + arch[1:]
|
|
fmt.Fprintf(w, "// PtraceRegs%s is the registers used by %s binaries.\n", uarch, arch)
|
|
fmt.Fprintf(w, "%s\n", strings.Replace(def, "PtraceRegs", "PtraceRegs"+uarch, 1))
|
|
fmt.Fprintf(w, "\n")
|
|
fmt.Fprintf(w, "// PtraceGetRegs%s fetches the registers used by %s binaries.\n", uarch, arch)
|
|
fmt.Fprintf(w, "func PtraceGetRegs%s(pid int, regsout *PtraceRegs%s) error {\n", uarch, uarch)
|
|
fmt.Fprintf(w, "\treturn ptrace(PTRACE_GETREGS, pid, 0, uintptr(unsafe.Pointer(regsout)))\n")
|
|
fmt.Fprintf(w, "}\n")
|
|
fmt.Fprintf(w, "\n")
|
|
fmt.Fprintf(w, "// PtraceSetRegs%s sets the registers used by %s binaries.\n", uarch, arch)
|
|
fmt.Fprintf(w, "func PtraceSetRegs%s(pid int, regs *PtraceRegs%s) error {\n", uarch, uarch)
|
|
fmt.Fprintf(w, "\treturn ptrace(PTRACE_SETREGS, pid, 0, uintptr(unsafe.Pointer(regs)))\n")
|
|
fmt.Fprintf(w, "}\n")
|
|
}
|
|
|
|
// cCode is compiled for the target architecture, and the resulting data section is carved for
|
|
// the statically initialized bit masks.
|
|
const cCode = `
|
|
// Bit fields are used in some system calls and other ABIs, but their memory layout is
|
|
// implementation-defined [1]. Even with formal ABIs, bit fields are a source of subtle bugs [2].
|
|
// Here we generate the offsets for all 64 bits in an uint64.
|
|
// 1: http://en.cppreference.com/w/c/language/bit_field
|
|
// 2: https://lwn.net/Articles/478657/
|
|
|
|
#include <stdint.h>
|
|
|
|
struct bitfield {
|
|
union {
|
|
uint64_t val;
|
|
struct {
|
|
uint64_t u64_bit_0 : 1;
|
|
uint64_t u64_bit_1 : 1;
|
|
uint64_t u64_bit_2 : 1;
|
|
uint64_t u64_bit_3 : 1;
|
|
uint64_t u64_bit_4 : 1;
|
|
uint64_t u64_bit_5 : 1;
|
|
uint64_t u64_bit_6 : 1;
|
|
uint64_t u64_bit_7 : 1;
|
|
uint64_t u64_bit_8 : 1;
|
|
uint64_t u64_bit_9 : 1;
|
|
uint64_t u64_bit_10 : 1;
|
|
uint64_t u64_bit_11 : 1;
|
|
uint64_t u64_bit_12 : 1;
|
|
uint64_t u64_bit_13 : 1;
|
|
uint64_t u64_bit_14 : 1;
|
|
uint64_t u64_bit_15 : 1;
|
|
uint64_t u64_bit_16 : 1;
|
|
uint64_t u64_bit_17 : 1;
|
|
uint64_t u64_bit_18 : 1;
|
|
uint64_t u64_bit_19 : 1;
|
|
uint64_t u64_bit_20 : 1;
|
|
uint64_t u64_bit_21 : 1;
|
|
uint64_t u64_bit_22 : 1;
|
|
uint64_t u64_bit_23 : 1;
|
|
uint64_t u64_bit_24 : 1;
|
|
uint64_t u64_bit_25 : 1;
|
|
uint64_t u64_bit_26 : 1;
|
|
uint64_t u64_bit_27 : 1;
|
|
uint64_t u64_bit_28 : 1;
|
|
uint64_t u64_bit_29 : 1;
|
|
uint64_t u64_bit_30 : 1;
|
|
uint64_t u64_bit_31 : 1;
|
|
uint64_t u64_bit_32 : 1;
|
|
uint64_t u64_bit_33 : 1;
|
|
uint64_t u64_bit_34 : 1;
|
|
uint64_t u64_bit_35 : 1;
|
|
uint64_t u64_bit_36 : 1;
|
|
uint64_t u64_bit_37 : 1;
|
|
uint64_t u64_bit_38 : 1;
|
|
uint64_t u64_bit_39 : 1;
|
|
uint64_t u64_bit_40 : 1;
|
|
uint64_t u64_bit_41 : 1;
|
|
uint64_t u64_bit_42 : 1;
|
|
uint64_t u64_bit_43 : 1;
|
|
uint64_t u64_bit_44 : 1;
|
|
uint64_t u64_bit_45 : 1;
|
|
uint64_t u64_bit_46 : 1;
|
|
uint64_t u64_bit_47 : 1;
|
|
uint64_t u64_bit_48 : 1;
|
|
uint64_t u64_bit_49 : 1;
|
|
uint64_t u64_bit_50 : 1;
|
|
uint64_t u64_bit_51 : 1;
|
|
uint64_t u64_bit_52 : 1;
|
|
uint64_t u64_bit_53 : 1;
|
|
uint64_t u64_bit_54 : 1;
|
|
uint64_t u64_bit_55 : 1;
|
|
uint64_t u64_bit_56 : 1;
|
|
uint64_t u64_bit_57 : 1;
|
|
uint64_t u64_bit_58 : 1;
|
|
uint64_t u64_bit_59 : 1;
|
|
uint64_t u64_bit_60 : 1;
|
|
uint64_t u64_bit_61 : 1;
|
|
uint64_t u64_bit_62 : 1;
|
|
uint64_t u64_bit_63 : 1;
|
|
};
|
|
};
|
|
};
|
|
|
|
struct bitfield masks[] = {
|
|
{.u64_bit_0 = 1},
|
|
{.u64_bit_1 = 1},
|
|
{.u64_bit_2 = 1},
|
|
{.u64_bit_3 = 1},
|
|
{.u64_bit_4 = 1},
|
|
{.u64_bit_5 = 1},
|
|
{.u64_bit_6 = 1},
|
|
{.u64_bit_7 = 1},
|
|
{.u64_bit_8 = 1},
|
|
{.u64_bit_9 = 1},
|
|
{.u64_bit_10 = 1},
|
|
{.u64_bit_11 = 1},
|
|
{.u64_bit_12 = 1},
|
|
{.u64_bit_13 = 1},
|
|
{.u64_bit_14 = 1},
|
|
{.u64_bit_15 = 1},
|
|
{.u64_bit_16 = 1},
|
|
{.u64_bit_17 = 1},
|
|
{.u64_bit_18 = 1},
|
|
{.u64_bit_19 = 1},
|
|
{.u64_bit_20 = 1},
|
|
{.u64_bit_21 = 1},
|
|
{.u64_bit_22 = 1},
|
|
{.u64_bit_23 = 1},
|
|
{.u64_bit_24 = 1},
|
|
{.u64_bit_25 = 1},
|
|
{.u64_bit_26 = 1},
|
|
{.u64_bit_27 = 1},
|
|
{.u64_bit_28 = 1},
|
|
{.u64_bit_29 = 1},
|
|
{.u64_bit_30 = 1},
|
|
{.u64_bit_31 = 1},
|
|
{.u64_bit_32 = 1},
|
|
{.u64_bit_33 = 1},
|
|
{.u64_bit_34 = 1},
|
|
{.u64_bit_35 = 1},
|
|
{.u64_bit_36 = 1},
|
|
{.u64_bit_37 = 1},
|
|
{.u64_bit_38 = 1},
|
|
{.u64_bit_39 = 1},
|
|
{.u64_bit_40 = 1},
|
|
{.u64_bit_41 = 1},
|
|
{.u64_bit_42 = 1},
|
|
{.u64_bit_43 = 1},
|
|
{.u64_bit_44 = 1},
|
|
{.u64_bit_45 = 1},
|
|
{.u64_bit_46 = 1},
|
|
{.u64_bit_47 = 1},
|
|
{.u64_bit_48 = 1},
|
|
{.u64_bit_49 = 1},
|
|
{.u64_bit_50 = 1},
|
|
{.u64_bit_51 = 1},
|
|
{.u64_bit_52 = 1},
|
|
{.u64_bit_53 = 1},
|
|
{.u64_bit_54 = 1},
|
|
{.u64_bit_55 = 1},
|
|
{.u64_bit_56 = 1},
|
|
{.u64_bit_57 = 1},
|
|
{.u64_bit_58 = 1},
|
|
{.u64_bit_59 = 1},
|
|
{.u64_bit_60 = 1},
|
|
{.u64_bit_61 = 1},
|
|
{.u64_bit_62 = 1},
|
|
{.u64_bit_63 = 1}
|
|
};
|
|
|
|
int main(int argc, char **argv) {
|
|
struct bitfield *mask_ptr = &masks[0];
|
|
return mask_ptr->val;
|
|
}
|
|
|
|
`
|