src/cmd/newlink/prog.go - go - Git at Google

 // Copyright 2014 The Go Authors.  All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package main

 import (
 	"cmd/internal/goobj"
 	"encoding/binary"
 	"fmt"
 	"go/build"
 	"io"
 	"os"
 	"runtime"
 )

 // A Prog holds state for constructing an executable (program) image.
 //
 // The usual sequence of operations on a Prog is:
 //
 //	p.init()
 //	p.scan(file)
 //	p.dead()
 //	p.runtime()
 //	p.layout()
 //	p.load()
 //	p.debug()
 //	p.write(w)
 //
 // p.init is in this file. The rest of the methods are in files
 // named for the method. The convenience method p.link runs
 // this sequence.
 //
 type Prog struct {
 	// Context
 	GOOS     string       // target operating system
 	GOARCH   string       // target architecture
 	Format   string       // desired file format ("elf", "macho", ...)
 	Error    func(string) // called to report an error (if set)
 	NumError int          // number of errors printed
 	StartSym string

 	// Derived context
 	arch
 	formatter   formatter
 	startSym    goobj.SymID
 	pkgdir      string
 	omitRuntime bool // do not load runtime package

 	// Input
 	Packages   map[string]*Package  // loaded packages, by import path
 	Syms       map[goobj.SymID]*Sym // defined symbols, by symbol ID
 	Missing    map[goobj.SymID]bool // missing symbols
 	Dead       map[goobj.SymID]bool // symbols removed as dead
 	SymOrder   []*Sym               // order syms were scanned
 	MaxVersion int                  // max SymID.Version, for generating fresh symbol IDs

 	// Output
 	UnmappedSize Addr       // size of unmapped region at address 0
 	HeaderSize   Addr       // size of object file header
 	Entry        Addr       // virtual address where execution begins
 	Segments     []*Segment // loaded memory segments
 }

 // An arch describes architecture-dependent settings.
 type arch struct {
 	byteorder binary.ByteOrder
 	ptrsize   int
 	pcquantum int
 }

 // A formatter takes care of the details of generating a particular
 // kind of executable file.
 type formatter interface {
 	// headerSize returns the footprint of the header for p
 	// in both virtual address space and file bytes.
 	// The footprint does not include any bytes stored at the
 	// end of the file.
 	headerSize(p *Prog) (virt, file Addr)

 	// write writes the executable file for p to w.
 	write(w io.Writer, p *Prog)
 }

 // An Addr represents a virtual memory address, a file address, or a size.
 // It must be a uint64, not a uintptr, so that a 32-bit linker can still generate a 64-bit binary.
 // It must be unsigned in order to link programs placed at very large start addresses.
 // Math involving Addrs must be checked carefully not to require negative numbers.
 type Addr uint64

 // A Package is a Go package loaded from a file.
 type Package struct {
 	*goobj.Package        // table of contents
 	File           string // file name for reopening
 	Syms           []*Sym // symbols defined by this package
 }

 // A Sym is a symbol defined in a loaded package.
 type Sym struct {
 	*goobj.Sym          // symbol metadata from package file
 	Package    *Package // package defining symbol
 	Section    *Section // section where symbol is placed in output program
 	Addr       Addr     // virtual address of symbol in output program
 	Bytes      []byte   // symbol data, for internally defined symbols
 }

 // A Segment is a loaded memory segment.
 // A Prog is expected to have segments named "text" and optionally "data",
 // in that order, before any other segments.
 type Segment struct {
 	Name       string     // name of segment: "text", "data", ...
 	VirtAddr   Addr       // virtual memory address of segment base
 	VirtSize   Addr       // size of segment in memory
 	FileOffset Addr       // file offset of segment base
 	FileSize   Addr       // size of segment in file; can be less than VirtSize
 	Sections   []*Section // sections inside segment
 	Data       []byte     // raw data of segment image
 }

 // A Section is part of a loaded memory segment.
 type Section struct {
 	Name     string   // name of section: "text", "rodata", "noptrbss", and so on
 	VirtAddr Addr     // virtual memory address of section base
 	Size     Addr     // size of section in memory
 	Align    Addr     // required alignment
 	InFile   bool     // section has image data in file (like data, unlike bss)
 	Syms     []*Sym   // symbols stored in section
 	Segment  *Segment // segment containing section
 }

 func (p *Prog) errorf(format string, args ...interface{}) {
 	if p.Error != nil {
 		p.Error(fmt.Sprintf(format, args...))
 	} else {
 		fmt.Fprintf(os.Stderr, format+"\n", args...)
 	}
 	p.NumError++
 }

 // link is the one-stop convenience method for running a link.
 // It writes to w the object file generated from using mainFile as the main package.
 func (p *Prog) link(w io.Writer, mainFile string) {
 	p.init()
 	p.scan(mainFile)
 	if p.NumError > 0 {
 		return
 	}
 	p.dead()
 	p.runtime()
 	p.autoData()
 	p.layout()
 	p.autoConst()
 	if p.NumError > 0 {
 		return
 	}
 	p.load()
 	if p.NumError > 0 {
 		return
 	}
 	p.debug()
 	if p.NumError > 0 {
 		return
 	}
 	p.write(w)
 }

 // init initializes p for use by the other methods.
 func (p *Prog) init() {
 	// Set default context if not overridden.
 	if p.GOOS == "" {
 		p.GOOS = build.Default.GOOS
 	}
 	if p.GOARCH == "" {
 		p.GOARCH = build.Default.GOARCH
 	}
 	if p.Format == "" {
 		p.Format = goosFormat[p.GOOS]
 		if p.Format == "" {
 			p.errorf("no default file format for GOOS %q", p.GOOS)
 			return
 		}
 	}
 	if p.StartSym == "" {
 		p.StartSym = fmt.Sprintf("_rt0_%s_%s", p.GOARCH, p.GOOS)
 	}

 	// Derive internal context.
 	p.formatter = formatters[p.Format]
 	if p.formatter == nil {
 		p.errorf("unknown output file format %q", p.Format)
 		return
 	}
 	p.startSym = goobj.SymID{Name: p.StartSym}
 	arch, ok := arches[p.GOARCH]
 	if !ok {
 		p.errorf("unknown GOOS %q", p.GOOS)
 		return
 	}
 	p.arch = arch

 	p.pkgdir = fmt.Sprintf("%s/pkg/%s_%s", runtime.GOROOT(), p.GOOS, p.GOARCH)
 }

 // goosFormat records the default format for each known GOOS value.
 var goosFormat = map[string]string{
 	"darwin": "darwin",
 }

 // formatters records the format implementation for each known format value.
 var formatters = map[string]formatter{
 	"darwin": machoFormat{},
 }

 var arches = map[string]arch{
 	"amd64": {
 		byteorder: binary.LittleEndian,
 		ptrsize:   8,
 		pcquantum: 1,
 	},
 }
	// Copyright 2014 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package main

	import (
	"cmd/internal/goobj"
	"encoding/binary"
	"fmt"
	"go/build"
	"io"
	"os"
	"runtime"
	)

	// A Prog holds state for constructing an executable (program) image.
	//
	// The usual sequence of operations on a Prog is:
	//
	// p.init()
	// p.scan(file)
	// p.dead()
	// p.runtime()
	// p.layout()
	// p.load()
	// p.debug()
	// p.write(w)
	//
	// p.init is in this file. The rest of the methods are in files
	// named for the method. The convenience method p.link runs
	// this sequence.
	//
	type Prog struct {
	// Context
	GOOS string // target operating system
	GOARCH string // target architecture
	Format string // desired file format ("elf", "macho", ...)
	Error func(string) // called to report an error (if set)
	NumError int // number of errors printed
	StartSym string

	// Derived context
	arch
	formatter formatter
	startSym goobj.SymID
	pkgdir string
	omitRuntime bool // do not load runtime package

	// Input
	Packages map[string]*Package // loaded packages, by import path
	Syms map[goobj.SymID]*Sym // defined symbols, by symbol ID
	Missing map[goobj.SymID]bool // missing symbols
	Dead map[goobj.SymID]bool // symbols removed as dead
	SymOrder []*Sym // order syms were scanned
	MaxVersion int // max SymID.Version, for generating fresh symbol IDs

	// Output
	UnmappedSize Addr // size of unmapped region at address 0
	HeaderSize Addr // size of object file header
	Entry Addr // virtual address where execution begins
	Segments []*Segment // loaded memory segments
	}

	// An arch describes architecture-dependent settings.
	type arch struct {
	byteorder binary.ByteOrder
	ptrsize int
	pcquantum int
	}

	// A formatter takes care of the details of generating a particular
	// kind of executable file.
	type formatter interface {
	// headerSize returns the footprint of the header for p
	// in both virtual address space and file bytes.
	// The footprint does not include any bytes stored at the
	// end of the file.
	headerSize(p *Prog) (virt, file Addr)

	// write writes the executable file for p to w.
	write(w io.Writer, p *Prog)
	}

	// An Addr represents a virtual memory address, a file address, or a size.
	// It must be a uint64, not a uintptr, so that a 32-bit linker can still generate a 64-bit binary.
	// It must be unsigned in order to link programs placed at very large start addresses.
	// Math involving Addrs must be checked carefully not to require negative numbers.
	type Addr uint64

	// A Package is a Go package loaded from a file.
	type Package struct {
	*goobj.Package // table of contents
	File string // file name for reopening
	Syms []*Sym // symbols defined by this package
	}

	// A Sym is a symbol defined in a loaded package.
	type Sym struct {
	*goobj.Sym // symbol metadata from package file
	Package *Package // package defining symbol
	Section *Section // section where symbol is placed in output program
	Addr Addr // virtual address of symbol in output program
	Bytes []byte // symbol data, for internally defined symbols
	}

	// A Segment is a loaded memory segment.
	// A Prog is expected to have segments named "text" and optionally "data",
	// in that order, before any other segments.
	type Segment struct {
	Name string // name of segment: "text", "data", ...
	VirtAddr Addr // virtual memory address of segment base
	VirtSize Addr // size of segment in memory
	FileOffset Addr // file offset of segment base
	FileSize Addr // size of segment in file; can be less than VirtSize
	Sections []*Section // sections inside segment
	Data []byte // raw data of segment image
	}

	// A Section is part of a loaded memory segment.
	type Section struct {
	Name string // name of section: "text", "rodata", "noptrbss", and so on
	VirtAddr Addr // virtual memory address of section base
	Size Addr // size of section in memory
	Align Addr // required alignment
	InFile bool // section has image data in file (like data, unlike bss)
	Syms []*Sym // symbols stored in section
	Segment *Segment // segment containing section
	}

	func (p *Prog) errorf(format string, args ...interface{}) {
	if p.Error != nil {
	p.Error(fmt.Sprintf(format, args...))
	} else {
	fmt.Fprintf(os.Stderr, format+"\n", args...)
	}
	p.NumError++
	}

	// link is the one-stop convenience method for running a link.
	// It writes to w the object file generated from using mainFile as the main package.
	func (p *Prog) link(w io.Writer, mainFile string) {
	p.init()
	p.scan(mainFile)
	if p.NumError > 0 {
	return
	}
	p.dead()
	p.runtime()
	p.autoData()
	p.layout()
	p.autoConst()
	if p.NumError > 0 {
	return
	}
	p.load()
	if p.NumError > 0 {
	return
	}
	p.debug()
	if p.NumError > 0 {
	return
	}
	p.write(w)
	}

	// init initializes p for use by the other methods.
	func (p *Prog) init() {
	// Set default context if not overridden.
	if p.GOOS == "" {
	p.GOOS = build.Default.GOOS
	}
	if p.GOARCH == "" {
	p.GOARCH = build.Default.GOARCH
	}
	if p.Format == "" {
	p.Format = goosFormat[p.GOOS]
	if p.Format == "" {
	p.errorf("no default file format for GOOS %q", p.GOOS)
	return
	}
	}
	if p.StartSym == "" {
	p.StartSym = fmt.Sprintf("_rt0_%s_%s", p.GOARCH, p.GOOS)
	}

	// Derive internal context.
	p.formatter = formatters[p.Format]
	if p.formatter == nil {
	p.errorf("unknown output file format %q", p.Format)
	return
	}
	p.startSym = goobj.SymID{Name: p.StartSym}
	arch, ok := arches[p.GOARCH]
	if !ok {
	p.errorf("unknown GOOS %q", p.GOOS)
	return
	}
	p.arch = arch

	p.pkgdir = fmt.Sprintf("%s/pkg/%s_%s", runtime.GOROOT(), p.GOOS, p.GOARCH)
	}

	// goosFormat records the default format for each known GOOS value.
	var goosFormat = map[string]string{
	"darwin": "darwin",
	}

	// formatters records the format implementation for each known format value.
	var formatters = map[string]formatter{
	"darwin": machoFormat{},
	}

	var arches = map[string]arch{
	"amd64": {
	byteorder: binary.LittleEndian,
	ptrsize: 8,
	pcquantum: 1,
	},
	}