src/cmd/compile/internal/noder/linker.go - go - Git at Google

 // UNREVIEWED

 // Copyright 2021 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 noder

 import (
 	"io"

 	"cmd/compile/internal/base"
 	"cmd/compile/internal/ir"
 	"cmd/compile/internal/reflectdata"
 	"cmd/compile/internal/types"
 	"cmd/internal/goobj"
 	"cmd/internal/obj"
 )

 // This file implements the unified IR linker, which combines the
 // local package's stub data with imported package data to produce a
 // complete export data file. It also rewrites the compiler's
 // extension data sections based on the results of compilation (e.g.,
 // the function inlining cost and linker symbol index assignments).
 //
 // TODO(mdempsky): Using the name "linker" here is confusing, because
 // readers are likely to mistake references to it for cmd/link. But
 // there's a shortage of good names for "something that combines
 // multiple parts into a cohesive whole"... e.g., "assembler" and
 // "compiler" are also already taken.

 type linker struct {
 	pw pkgEncoder

 	pkgs  map[string]int
 	decls map[*types.Sym]int
 }

 func (l *linker) relocAll(pr *pkgReader, relocs []relocEnt) []relocEnt {
 	res := make([]relocEnt, len(relocs))
 	for i, rent := range relocs {
 		rent.idx = l.relocIdx(pr, rent.kind, rent.idx)
 		res[i] = rent
 	}
 	return res
 }

 func (l *linker) relocIdx(pr *pkgReader, k reloc, idx int) int {
 	assert(pr != nil)

 	absIdx := pr.absIdx(k, idx)

 	if newidx := pr.newindex[absIdx]; newidx != 0 {
 		return ^newidx
 	}

 	var newidx int
 	switch k {
 	case relocString:
 		newidx = l.relocString(pr, idx)
 	case relocPkg:
 		newidx = l.relocPkg(pr, idx)
 	case relocObj:
 		newidx = l.relocObj(pr, idx)

 	default:
 		// Generic relocations.
 		//
 		// TODO(mdempsky): Deduplicate more sections? In fact, I think
 		// every section could be deduplicated. This would also be easier
 		// if we do external relocations.

 		w := l.pw.newEncoderRaw(k)
 		l.relocCommon(pr, &w, k, idx)
 		newidx = w.idx
 	}

 	pr.newindex[absIdx] = ^newidx

 	return newidx
 }

 func (l *linker) relocString(pr *pkgReader, idx int) int {
 	return l.pw.stringIdx(pr.stringIdx(idx))
 }

 func (l *linker) relocPkg(pr *pkgReader, idx int) int {
 	path := pr.peekPkgPath(idx)

 	if newidx, ok := l.pkgs[path]; ok {
 		return newidx
 	}

 	r := pr.newDecoder(relocPkg, idx, syncPkgDef)
 	w := l.pw.newEncoder(relocPkg, syncPkgDef)
 	l.pkgs[path] = w.idx

 	// TODO(mdempsky): We end up leaving an empty string reference here
 	// from when the package was originally written as "". Probably not
 	// a big deal, but a little annoying. Maybe relocating
 	// cross-references in place is the way to go after all.
 	w.relocs = l.relocAll(pr, r.relocs)

 	_ = r.string() // original path
 	w.string(path)

 	io.Copy(&w.data, &r.data)

 	return w.flush()
 }

 func (l *linker) relocObj(pr *pkgReader, idx int) int {
 	path, name, tag := pr.peekObj(idx)
 	sym := types.NewPkg(path, "").Lookup(name)

 	if newidx, ok := l.decls[sym]; ok {
 		return newidx
 	}

 	if tag == objStub && path != "builtin" && path != "unsafe" {
 		pri, ok := objReader[sym]
 		if !ok {
 			base.Fatalf("missing reader for %q.%v", path, name)
 		}
 		assert(ok)

 		pr = pri.pr
 		idx = pri.idx

 		path2, name2, tag2 := pr.peekObj(idx)
 		sym2 := types.NewPkg(path2, "").Lookup(name2)
 		assert(sym == sym2)
 		assert(tag2 != objStub)
 	}

 	w := l.pw.newEncoderRaw(relocObj)
 	wext := l.pw.newEncoderRaw(relocObjExt)
 	wname := l.pw.newEncoderRaw(relocName)
 	wdict := l.pw.newEncoderRaw(relocObjDict)

 	l.decls[sym] = w.idx
 	assert(wext.idx == w.idx)
 	assert(wname.idx == w.idx)
 	assert(wdict.idx == w.idx)

 	l.relocCommon(pr, &w, relocObj, idx)
 	l.relocCommon(pr, &wname, relocName, idx)
 	l.relocCommon(pr, &wdict, relocObjDict, idx)

 	var obj *ir.Name
 	if path == "" {
 		var ok bool
 		obj, ok = sym.Def.(*ir.Name)

 		// Generic types and functions and declared constraint types won't
 		// have definitions.
 		// For now, just generically copy their extension data.
 		// TODO(mdempsky): Restore assertion.
 		if !ok && false {
 			base.Fatalf("missing definition for %v", sym)
 		}
 	}

 	if obj != nil {
 		wext.sync(syncObject1)
 		switch tag {
 		case objFunc:
 			l.relocFuncExt(&wext, obj)
 		case objType:
 			l.relocTypeExt(&wext, obj)
 		case objVar:
 			l.relocVarExt(&wext, obj)
 		}
 		wext.flush()
 	} else {
 		l.relocCommon(pr, &wext, relocObjExt, idx)
 	}

 	return w.idx
 }

 func (l *linker) relocCommon(pr *pkgReader, w *encoder, k reloc, idx int) {
 	r := pr.newDecoderRaw(k, idx)
 	w.relocs = l.relocAll(pr, r.relocs)
 	io.Copy(&w.data, &r.data)
 	w.flush()
 }

 func (l *linker) pragmaFlag(w *encoder, pragma ir.PragmaFlag) {
 	w.sync(syncPragma)
 	w.int(int(pragma))
 }

 func (l *linker) relocFuncExt(w *encoder, name *ir.Name) {
 	w.sync(syncFuncExt)

 	l.pragmaFlag(w, name.Func.Pragma)
 	l.linkname(w, name)

 	// Relocated extension data.
 	w.bool(true)

 	// Record definition ABI so cross-ABI calls can be direct.
 	// This is important for the performance of calling some
 	// common functions implemented in assembly (e.g., bytealg).
 	w.uint64(uint64(name.Func.ABI))

 	// Escape analysis.
 	for _, fs := range &types.RecvsParams {
 		for _, f := range fs(name.Type()).FieldSlice() {
 			w.string(f.Note)
 		}
 	}

 	if inl := name.Func.Inl; w.bool(inl != nil) {
 		w.len(int(inl.Cost))
 		w.bool(inl.CanDelayResults)

 		pri, ok := bodyReader[name.Func]
 		assert(ok)
 		w.reloc(relocBody, l.relocIdx(pri.pr, relocBody, pri.idx))
 	}

 	w.sync(syncEOF)
 }

 func (l *linker) relocTypeExt(w *encoder, name *ir.Name) {
 	w.sync(syncTypeExt)

 	typ := name.Type()

 	l.pragmaFlag(w, name.Pragma())

 	// For type T, export the index of type descriptor symbols of T and *T.
 	l.lsymIdx(w, "", reflectdata.TypeLinksym(typ))
 	l.lsymIdx(w, "", reflectdata.TypeLinksym(typ.PtrTo()))

 	if typ.Kind() != types.TINTER {
 		for _, method := range typ.Methods().Slice() {
 			l.relocFuncExt(w, method.Nname.(*ir.Name))
 		}
 	}
 }

 func (l *linker) relocVarExt(w *encoder, name *ir.Name) {
 	w.sync(syncVarExt)
 	l.linkname(w, name)
 }

 func (l *linker) linkname(w *encoder, name *ir.Name) {
 	w.sync(syncLinkname)

 	linkname := name.Sym().Linkname
 	if !l.lsymIdx(w, linkname, name.Linksym()) {
 		w.string(linkname)
 	}
 }

 func (l *linker) lsymIdx(w *encoder, linkname string, lsym *obj.LSym) bool {
 	if lsym.PkgIdx > goobj.PkgIdxSelf || (lsym.PkgIdx == goobj.PkgIdxInvalid && !lsym.Indexed()) || linkname != "" {
 		w.int64(-1)
 		return false
 	}

 	// For a defined symbol, export its index.
 	// For re-exporting an imported symbol, pass its index through.
 	w.int64(int64(lsym.SymIdx))
 	return true
 }

 // @@@ Helpers

 // TODO(mdempsky): These should probably be removed. I think they're a
 // smell that the export data format is not yet quite right.

 func (pr *pkgDecoder) peekPkgPath(idx int) string {
 	r := pr.newDecoder(relocPkg, idx, syncPkgDef)
 	path := r.string()
 	if path == "" {
 		path = pr.pkgPath
 	}
 	return path
 }

 func (pr *pkgDecoder) peekObj(idx int) (string, string, codeObj) {
 	r := pr.newDecoder(relocName, idx, syncObject1)
 	r.sync(syncSym)
 	r.sync(syncPkg)
 	path := pr.peekPkgPath(r.reloc(relocPkg))
 	name := r.string()
 	assert(name != "")

 	tag := codeObj(r.code(syncCodeObj))

 	return path, name, tag
 }
	// UNREVIEWED

	// Copyright 2021 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 noder

	import (
	"io"

	"cmd/compile/internal/base"
	"cmd/compile/internal/ir"
	"cmd/compile/internal/reflectdata"
	"cmd/compile/internal/types"
	"cmd/internal/goobj"
	"cmd/internal/obj"
	)

	// This file implements the unified IR linker, which combines the
	// local package's stub data with imported package data to produce a
	// complete export data file. It also rewrites the compiler's
	// extension data sections based on the results of compilation (e.g.,
	// the function inlining cost and linker symbol index assignments).
	//
	// TODO(mdempsky): Using the name "linker" here is confusing, because
	// readers are likely to mistake references to it for cmd/link. But
	// there's a shortage of good names for "something that combines
	// multiple parts into a cohesive whole"... e.g., "assembler" and
	// "compiler" are also already taken.

	type linker struct {
	pw pkgEncoder

	pkgs map[string]int
	decls map[*types.Sym]int
	}

	func (l linker) relocAll(pr pkgReader, relocs []relocEnt) []relocEnt {
	res := make([]relocEnt, len(relocs))
	for i, rent := range relocs {
	rent.idx = l.relocIdx(pr, rent.kind, rent.idx)
	res[i] = rent
	}
	return res
	}

	func (l linker) relocIdx(pr pkgReader, k reloc, idx int) int {
	assert(pr != nil)

	absIdx := pr.absIdx(k, idx)

	if newidx := pr.newindex[absIdx]; newidx != 0 {
	return ^newidx
	}

	var newidx int
	switch k {
	case relocString:
	newidx = l.relocString(pr, idx)
	case relocPkg:
	newidx = l.relocPkg(pr, idx)
	case relocObj:
	newidx = l.relocObj(pr, idx)

	default:
	// Generic relocations.
	//
	// TODO(mdempsky): Deduplicate more sections? In fact, I think
	// every section could be deduplicated. This would also be easier
	// if we do external relocations.

	w := l.pw.newEncoderRaw(k)
	l.relocCommon(pr, &w, k, idx)
	newidx = w.idx
	}

	pr.newindex[absIdx] = ^newidx

	return newidx
	}

	func (l linker) relocString(pr pkgReader, idx int) int {
	return l.pw.stringIdx(pr.stringIdx(idx))
	}

	func (l linker) relocPkg(pr pkgReader, idx int) int {
	path := pr.peekPkgPath(idx)

	if newidx, ok := l.pkgs[path]; ok {
	return newidx
	}

	r := pr.newDecoder(relocPkg, idx, syncPkgDef)
	w := l.pw.newEncoder(relocPkg, syncPkgDef)
	l.pkgs[path] = w.idx

	// TODO(mdempsky): We end up leaving an empty string reference here
	// from when the package was originally written as "". Probably not
	// a big deal, but a little annoying. Maybe relocating
	// cross-references in place is the way to go after all.
	w.relocs = l.relocAll(pr, r.relocs)

	_ = r.string() // original path
	w.string(path)

	io.Copy(&w.data, &r.data)

	return w.flush()
	}

	func (l linker) relocObj(pr pkgReader, idx int) int {
	path, name, tag := pr.peekObj(idx)
	sym := types.NewPkg(path, "").Lookup(name)

	if newidx, ok := l.decls[sym]; ok {
	return newidx
	}

	if tag == objStub && path != "builtin" && path != "unsafe" {
	pri, ok := objReader[sym]
	if !ok {
	base.Fatalf("missing reader for %q.%v", path, name)
	}
	assert(ok)

	pr = pri.pr
	idx = pri.idx

	path2, name2, tag2 := pr.peekObj(idx)
	sym2 := types.NewPkg(path2, "").Lookup(name2)
	assert(sym == sym2)
	assert(tag2 != objStub)
	}

	w := l.pw.newEncoderRaw(relocObj)
	wext := l.pw.newEncoderRaw(relocObjExt)
	wname := l.pw.newEncoderRaw(relocName)
	wdict := l.pw.newEncoderRaw(relocObjDict)

	l.decls[sym] = w.idx
	assert(wext.idx == w.idx)
	assert(wname.idx == w.idx)
	assert(wdict.idx == w.idx)

	l.relocCommon(pr, &w, relocObj, idx)
	l.relocCommon(pr, &wname, relocName, idx)
	l.relocCommon(pr, &wdict, relocObjDict, idx)

	var obj *ir.Name
	if path == "" {
	var ok bool
	obj, ok = sym.Def.(*ir.Name)

	// Generic types and functions and declared constraint types won't
	// have definitions.
	// For now, just generically copy their extension data.
	// TODO(mdempsky): Restore assertion.
	if !ok && false {
	base.Fatalf("missing definition for %v", sym)
	}
	}

	if obj != nil {
	wext.sync(syncObject1)
	switch tag {
	case objFunc:
	l.relocFuncExt(&wext, obj)
	case objType:
	l.relocTypeExt(&wext, obj)
	case objVar:
	l.relocVarExt(&wext, obj)
	}
	wext.flush()
	} else {
	l.relocCommon(pr, &wext, relocObjExt, idx)
	}

	return w.idx
	}

	func (l linker) relocCommon(pr pkgReader, w *encoder, k reloc, idx int) {
	r := pr.newDecoderRaw(k, idx)
	w.relocs = l.relocAll(pr, r.relocs)
	io.Copy(&w.data, &r.data)
	w.flush()
	}

	func (l linker) pragmaFlag(w encoder, pragma ir.PragmaFlag) {
	w.sync(syncPragma)
	w.int(int(pragma))
	}

	func (l linker) relocFuncExt(w encoder, name *ir.Name) {
	w.sync(syncFuncExt)

	l.pragmaFlag(w, name.Func.Pragma)
	l.linkname(w, name)

	// Relocated extension data.
	w.bool(true)

	// Record definition ABI so cross-ABI calls can be direct.
	// This is important for the performance of calling some
	// common functions implemented in assembly (e.g., bytealg).
	w.uint64(uint64(name.Func.ABI))

	// Escape analysis.
	for _, fs := range &types.RecvsParams {
	for _, f := range fs(name.Type()).FieldSlice() {
	w.string(f.Note)
	}
	}

	if inl := name.Func.Inl; w.bool(inl != nil) {
	w.len(int(inl.Cost))
	w.bool(inl.CanDelayResults)

	pri, ok := bodyReader[name.Func]
	assert(ok)
	w.reloc(relocBody, l.relocIdx(pri.pr, relocBody, pri.idx))
	}

	w.sync(syncEOF)
	}

	func (l linker) relocTypeExt(w encoder, name *ir.Name) {
	w.sync(syncTypeExt)

	typ := name.Type()

	l.pragmaFlag(w, name.Pragma())

	// For type T, export the index of type descriptor symbols of T and *T.
	l.lsymIdx(w, "", reflectdata.TypeLinksym(typ))
	l.lsymIdx(w, "", reflectdata.TypeLinksym(typ.PtrTo()))

	if typ.Kind() != types.TINTER {
	for _, method := range typ.Methods().Slice() {
	l.relocFuncExt(w, method.Nname.(*ir.Name))
	}
	}
	}

	func (l linker) relocVarExt(w encoder, name *ir.Name) {
	w.sync(syncVarExt)
	l.linkname(w, name)
	}

	func (l linker) linkname(w encoder, name *ir.Name) {
	w.sync(syncLinkname)

	linkname := name.Sym().Linkname
	if !l.lsymIdx(w, linkname, name.Linksym()) {
	w.string(linkname)
	}
	}

	func (l linker) lsymIdx(w encoder, linkname string, lsym *obj.LSym) bool {
	if lsym.PkgIdx > goobj.PkgIdxSelf \|\| (lsym.PkgIdx == goobj.PkgIdxInvalid && !lsym.Indexed()) \|\| linkname != "" {
	w.int64(-1)
	return false
	}

	// For a defined symbol, export its index.
	// For re-exporting an imported symbol, pass its index through.
	w.int64(int64(lsym.SymIdx))
	return true
	}

	// @@@ Helpers

	// TODO(mdempsky): These should probably be removed. I think they're a
	// smell that the export data format is not yet quite right.

	func (pr *pkgDecoder) peekPkgPath(idx int) string {
	r := pr.newDecoder(relocPkg, idx, syncPkgDef)
	path := r.string()
	if path == "" {
	path = pr.pkgPath
	}
	return path
	}

	func (pr *pkgDecoder) peekObj(idx int) (string, string, codeObj) {
	r := pr.newDecoder(relocName, idx, syncObject1)
	r.sync(syncSym)
	r.sync(syncPkg)
	path := pr.peekPkgPath(r.reloc(relocPkg))
	name := r.string()
	assert(name != "")

	tag := codeObj(r.code(syncCodeObj))

	return path, name, tag
	}