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// Copyright 2019 The gVisor Authors.
//
// 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 gomarshal implements the go_marshal code generator. See README.md.
package gomarshal
import (
"bytes"
"fmt"
"go/ast"
"go/parser"
"go/token"
"os"
"sort"
"strings"
"gvisor.dev/gvisor/tools/tags"
)
// List of identifiers we use in generated code that may conflict with a
// similarly-named source identifier. Abort gracefully when we see these to
// avoid potentially confusing compilation failures in generated code.
//
// This only applies to import aliases at the moment. All other identifiers
// are qualified by a receiver argument, since they're struct fields.
//
// All recievers are single letters, so we don't allow import aliases to be a
// single letter.
var badIdents = []string{
"addr", "blk", "buf", "cc", "dst", "dsts", "count", "err", "hdr", "idx",
"inner", "length", "limit", "ptr", "size", "src", "srcs", "val",
// All single-letter identifiers.
}
// Constructed fromt badIdents in init().
var badIdentsMap map[string]struct{}
func init() {
badIdentsMap = make(map[string]struct{})
for _, ident := range badIdents {
badIdentsMap[ident] = struct{}{}
}
}
// Generator drives code generation for a single invocation of the go_marshal
// utility.
//
// The Generator holds arguments passed to the tool, and drives parsing,
// processing and code Generator for all types marked with +marshal declared in
// the input files.
//
// See Generator.run() as the entry point.
type Generator struct {
// Paths to input go source files.
inputs []string
// Output file to write generated go source.
output *os.File
// Output file to write generated tests.
outputTest *os.File
// Output file to write unconditionally generated tests.
outputTestUC *os.File
// Package name for the generated file.
pkg string
// Set of extra packages to import in the generated file.
imports *importTable
}
// NewGenerator creates a new code Generator.
func NewGenerator(srcs []string, out, outTest, outTestUnconditional, pkg string, imports []string) (*Generator, error) {
f, err := os.OpenFile(out, os.O_CREATE|os.O_WRONLY|os.O_TRUNC, 0644)
if err != nil {
return nil, fmt.Errorf("couldn't open output file %q: %w", out, err)
}
fTest, err := os.OpenFile(outTest, os.O_CREATE|os.O_WRONLY|os.O_TRUNC, 0644)
if err != nil {
return nil, fmt.Errorf("couldn't open test output file %q: %w", out, err)
}
fTestUC, err := os.OpenFile(outTestUnconditional, os.O_CREATE|os.O_WRONLY|os.O_TRUNC, 0644)
if err != nil {
return nil, fmt.Errorf("couldn't open unconditional test output file %q: %w", out, err)
}
g := Generator{
inputs: srcs,
output: f,
outputTest: fTest,
outputTestUC: fTestUC,
pkg: pkg,
imports: newImportTable(),
}
for _, i := range imports {
// All imports on the extra imports list are unconditionally marked as
// used, so that they're always added to the generated code.
g.imports.add(i).markUsed()
}
// The following imports may or may not be used by the generated code,
// depending on what's required for the target types. Don't mark these as
// used by default.
g.imports.add("io")
g.imports.add("reflect")
g.imports.add("runtime")
g.imports.add("unsafe")
g.imports.add("gvisor.dev/gvisor/pkg/gohacks")
g.imports.add("gvisor.dev/gvisor/pkg/safecopy")
g.imports.add("gvisor.dev/gvisor/pkg/usermem")
g.imports.add("gvisor.dev/gvisor/pkg/marshal")
return &g, nil
}
// writeHeader writes the header for the generated source file. The header
// includes the package name, package level comments and import statements.
func (g *Generator) writeHeader() error {
var b sourceBuffer
b.emit("// Automatically generated marshal implementation. See tools/go_marshal.\n\n")
// Emit build tags.
if t := tags.Aggregate(g.inputs); len(t) > 0 {
b.emit(strings.Join(t.Lines(), "\n"))
b.emit("\n\n")
}
// Package header.
b.emit("package %s\n\n", g.pkg)
if err := b.write(g.output); err != nil {
return err
}
return g.imports.write(g.output)
}
// writeTypeChecks writes a statement to force the compiler to perform a type
// check for all Marshallable types referenced by the generated code.
func (g *Generator) writeTypeChecks(ms map[string]struct{}) error {
if len(ms) == 0 {
return nil
}
msl := make([]string, 0, len(ms))
for m, _ := range ms {
msl = append(msl, m)
}
sort.Strings(msl)
var buf bytes.Buffer
fmt.Fprint(&buf, "// Marshallable types used by this file.\n")
for _, m := range msl {
fmt.Fprintf(&buf, "var _ marshal.Marshallable = (*%s)(nil)\n", m)
}
fmt.Fprint(&buf, "\n")
_, err := fmt.Fprint(g.output, buf.String())
return err
}
// parse processes all input files passed this generator and produces a set of
// parsed go ASTs.
func (g *Generator) parse() ([]*ast.File, []*token.FileSet, error) {
debugf("go_marshal invoked with %d input files:\n", len(g.inputs))
for _, path := range g.inputs {
debugf(" %s\n", path)
}
files := make([]*ast.File, 0, len(g.inputs))
fsets := make([]*token.FileSet, 0, len(g.inputs))
for _, path := range g.inputs {
fset := token.NewFileSet()
f, err := parser.ParseFile(fset, path, nil, parser.ParseComments)
if err != nil {
// Not a valid input file?
return nil, nil, fmt.Errorf("input %q can't be parsed: %w", path, err)
}
if debugEnabled() {
debugf("AST for %q:\n", path)
ast.Print(fset, f)
}
files = append(files, f)
fsets = append(fsets, fset)
}
return files, fsets, nil
}
// sliceAPI carries information about the '+marshal slice' directive.
type sliceAPI struct {
// Comment node in the AST containing the +marshal tag.
comment *ast.Comment
// Identifier fragment to use when naming generated functions for the slice
// API.
ident string
// Whether the generated functions should reference the newtype name, or the
// inner type name. Only meaningful on newtype declarations on primitives.
inner bool
}
// marshallableType carries information about a type marked with the '+marshal'
// directive.
type marshallableType struct {
spec *ast.TypeSpec
slice *sliceAPI
recv string
}
func newMarshallableType(fset *token.FileSet, tagLine *ast.Comment, spec *ast.TypeSpec) *marshallableType {
mt := &marshallableType{
spec: spec,
slice: nil,
}
var unhandledTags []string
for _, tag := range strings.Fields(strings.TrimPrefix(tagLine.Text, "// +marshal")) {
if strings.HasPrefix(tag, "slice:") {
tokens := strings.Split(tag, ":")
if len(tokens) < 2 || len(tokens) > 3 {
abortAt(fset.Position(tagLine.Slash), fmt.Sprintf("+marshal directive has invalid 'slice' clause. Expecting format 'slice:<IDENTIFIER>[:inner]', got '%v'", tag))
}
if len(tokens[1]) == 0 {
abortAt(fset.Position(tagLine.Slash), "+marshal slice directive has empty identifier argument. Expecting '+marshal slice:identifier'")
}
sa := &sliceAPI{
comment: tagLine,
ident: tokens[1],
}
mt.slice = sa
if len(tokens) == 3 {
if tokens[2] != "inner" {
abortAt(fset.Position(tagLine.Slash), "+marshal slice directive has an invalid argument. Expecting '+marshal slice:<IDENTIFIER>[:inner]'")
}
sa.inner = true
}
continue
}
unhandledTags = append(unhandledTags, tag)
}
if len(unhandledTags) > 0 {
abortAt(fset.Position(tagLine.Slash), fmt.Sprintf("+marshal directive contained the following unknown clauses: %v", strings.Join(unhandledTags, " ")))
}
return mt
}
// collectMarshallableTypes walks the parsed AST and collects a list of type
// declarations for which we need to generate the Marshallable interface.
func (g *Generator) collectMarshallableTypes(a *ast.File, f *token.FileSet) map[*ast.TypeSpec]*marshallableType {
recv := make(map[string]string) // Type name to recevier name.
types := make(map[*ast.TypeSpec]*marshallableType)
for _, decl := range a.Decls {
gdecl, ok := decl.(*ast.GenDecl)
// Type declaration?
if !ok || gdecl.Tok != token.TYPE {
// Is this a function declaration? We remember receiver names.
d, ok := decl.(*ast.FuncDecl)
if ok && d.Recv != nil && len(d.Recv.List) == 1 {
// Accept concrete methods & pointer methods.
ident, ok := d.Recv.List[0].Type.(*ast.Ident)
if !ok {
var st *ast.StarExpr
st, ok = d.Recv.List[0].Type.(*ast.StarExpr)
if ok {
ident, ok = st.X.(*ast.Ident)
}
}
// The receiver name may be not present.
if ok && len(d.Recv.List[0].Names) == 1 {
// Recover the type receiver name in this case.
recv[ident.Name] = d.Recv.List[0].Names[0].Name
}
}
debugfAt(f.Position(decl.Pos()), "Skipping declaration since it's not a type declaration.\n")
continue
}
// Does it have a comment?
if gdecl.Doc == nil {
debugfAt(f.Position(gdecl.Pos()), "Skipping declaration since it doesn't have a comment.\n")
continue
}
// Does the comment contain a "+marshal" line?
marked := false
var tagLine *ast.Comment
for _, c := range gdecl.Doc.List {
if strings.HasPrefix(c.Text, "// +marshal") {
marked = true
tagLine = c
break
}
}
if !marked {
debugfAt(f.Position(gdecl.Pos()), "Skipping declaration since it doesn't have a comment containing +marshal line.\n")
continue
}
for _, spec := range gdecl.Specs {
// We already confirmed we're in a type declaration earlier, so this
// cast will succeed.
t := spec.(*ast.TypeSpec)
switch t.Type.(type) {
case *ast.StructType:
debugfAt(f.Position(t.Pos()), "Collected marshallable struct %s.\n", t.Name.Name)
case *ast.Ident: // Newtype on primitive.
debugfAt(f.Position(t.Pos()), "Collected marshallable newtype on primitive %s.\n", t.Name.Name)
case *ast.ArrayType: // Newtype on array.
debugfAt(f.Position(t.Pos()), "Collected marshallable newtype on array %s.\n", t.Name.Name)
default:
// A user specifically requested marshalling on this type, but we
// don't support it.
abortAt(f.Position(t.Pos()), fmt.Sprintf("Marshalling codegen was requested on type '%s', but go-marshal doesn't support this kind of declaration.\n", t.Name))
}
types[t] = newMarshallableType(f, tagLine, t)
}
}
// Update the types with the last seen receiver. As long as the
// receiver name is consistent for the type, then we will generate
// code that is still consistent with itself.
for t, mt := range types {
r, ok := recv[t.Name.Name]
if !ok {
mt.recv = receiverName(t) // Default.
continue
}
mt.recv = r // Last seen.
}
return types
}
// collectImports collects all imports from all input source files. Some of
// these imports are copied to the generated output, if they're referenced by
// the generated code.
//
// collectImports de-duplicates imports while building the list, and ensures
// identifiers in the generated code don't conflict with any imported package
// names.
func (g *Generator) collectImports(a *ast.File, f *token.FileSet) map[string]importStmt {
is := make(map[string]importStmt)
for _, decl := range a.Decls {
gdecl, ok := decl.(*ast.GenDecl)
// Import statement?
if !ok || gdecl.Tok != token.IMPORT {
continue
}
for _, spec := range gdecl.Specs {
i := g.imports.addFromSpec(spec.(*ast.ImportSpec), f)
debugf("Collected import '%s' as '%s'\n", i.path, i.name)
// Make sure we have an import that doesn't use any local names that
// would conflict with identifiers in the generated code.
if len(i.name) == 1 && i.name != "_" {
abortAt(f.Position(spec.Pos()), fmt.Sprintf("Import has a single character local name '%s'; this may conflict with code generated by go_marshal, use a multi-character import alias", i.name))
}
if _, ok := badIdentsMap[i.name]; ok {
abortAt(f.Position(spec.Pos()), fmt.Sprintf("Import name '%s' is likely to conflict with code generated by go_marshal, use a different import alias", i.name))
}
}
}
return is
}
func (g *Generator) generateOne(t *marshallableType, fset *token.FileSet) *interfaceGenerator {
i := newInterfaceGenerator(t.spec, t.recv, fset)
switch ty := t.spec.Type.(type) {
case *ast.StructType:
i.validateStruct(t.spec, ty)
i.emitMarshallableForStruct(ty)
if t.slice != nil {
i.emitMarshallableSliceForStruct(ty, t.slice)
}
case *ast.Ident:
i.validatePrimitiveNewtype(ty)
i.emitMarshallableForPrimitiveNewtype(ty)
if t.slice != nil {
i.emitMarshallableSliceForPrimitiveNewtype(ty, t.slice)
}
case *ast.ArrayType:
i.validateArrayNewtype(t.spec.Name, ty)
// After validate, we can safely call arrayLen.
i.emitMarshallableForArrayNewtype(t.spec.Name, ty, ty.Elt.(*ast.Ident))
if t.slice != nil {
abortAt(fset.Position(t.slice.comment.Slash), fmt.Sprintf("Array type marked as '+marshal slice:...', but this is not supported. Perhaps fold one of the dimensions?"))
}
default:
// This should've been filtered out by collectMarshallabeTypes.
panic(fmt.Sprintf("Unexpected type %+v", ty))
}
return i
}
// generateOneTestSuite generates a test suite for the automatically generated
// implementations type t.
func (g *Generator) generateOneTestSuite(t *marshallableType) *testGenerator {
i := newTestGenerator(t.spec, t.recv)
i.emitTests(t.slice)
return i
}
// Run is the entry point to code generation using g.
//
// Run parses all input source files specified in g and emits generated code.
func (g *Generator) Run() error {
// Parse our input source files into ASTs and token sets.
asts, fsets, err := g.parse()
if err != nil {
return err
}
if len(asts) != len(fsets) {
panic("ASTs and FileSets don't match")
}
// Map of imports in source files; key = local package name, value = import
// path.
is := make(map[string]importStmt)
for i, a := range asts {
// Collect all imports from the source files. We may need to copy some
// of these to the generated code if they're referenced. This has to be
// done before the loop below because we need to process all ASTs before
// we start requesting imports to be copied one by one as we encounter
// them in each generated source.
for name, i := range g.collectImports(a, fsets[i]) {
is[name] = i
}
}
var impls []*interfaceGenerator
var ts []*testGenerator
// Set of Marshallable types referenced by generated code.
ms := make(map[string]struct{})
for i, a := range asts {
// Collect type declarations marked for code generation and generate
// Marshallable interfaces.
for _, t := range g.collectMarshallableTypes(a, fsets[i]) {
impl := g.generateOne(t, fsets[i])
// Collect Marshallable types referenced by the generated code.
for ref := range impl.ms {
ms[ref] = struct{}{}
}
impls = append(impls, impl)
// Collect imports referenced by the generated code and add them to
// the list of imports we need to copy to the generated code.
for name := range impl.is {
if !g.imports.markUsed(name) {
panic(fmt.Sprintf("Generated code for '%s' referenced a non-existent import with local name '%s'. Either go-marshal needs to add an import to the generated file, or a package in an input source file has a package name differ from the final component of its path, which go-marshal doesn't know how to detect; use an import alias to work around this limitation.", impl.typeName(), name))
}
}
ts = append(ts, g.generateOneTestSuite(t))
}
}
// Write output file header. These include things like package name and
// import statements.
if err := g.writeHeader(); err != nil {
return err
}
// Write type checks for referenced marshallable types to output file.
if err := g.writeTypeChecks(ms); err != nil {
return err
}
// Write generated interfaces to output file.
for _, i := range impls {
if err := i.write(g.output); err != nil {
return err
}
}
// Write generated tests to test file.
return g.writeTests(ts)
}
// writeTests outputs tests for the generated interface implementations to a go
// source file.
func (g *Generator) writeTests(ts []*testGenerator) error {
var b sourceBuffer
// Write the unconditional test file. This file is always compiled,
// regardless of what build tags were specified on the original input
// files. We use this file to guarantee we never end up with an empty test
// file, as that causes the build to fail with "no tests/benchmarks/examples
// found".
//
// There's no easy way to determine ahead of time if we'll end up with an
// empty build file since build constraints can arbitrarily cause some of
// the original types to be not defined. We also have no way to tell bazel
// to omit the entire test suite since the output files are already defined
// before go-marshal is called.
b.emit("// Automatically generated marshal tests. See tools/go_marshal.\n\n")
b.emit("package %s\n\n", g.pkg)
b.emit("func Example() {\n")
b.inIndent(func() {
b.emit("// This example is intentionally empty, and ensures this package contains at\n")
b.emit("// least one testable entity. go-marshal is forced to emit a test package if the\n")
b.emit("// input package is marked marshallable, but emitting no testable entities \n")
b.emit("// results in a build failure.\n")
})
b.emit("}\n")
if err := b.write(g.outputTestUC); err != nil {
return err
}
// Now generate the real test file that contains the real types we
// processed. These need to be conditionally compiled according to the build
// tags, as the original types may not be defined under all build
// configurations.
b.reset()
b.emit("// Automatically generated marshal tests. See tools/go_marshal.\n\n")
// Emit build tags.
if t := tags.Aggregate(g.inputs); len(t) > 0 {
b.emit(strings.Join(t.Lines(), "\n"))
b.emit("\n\n")
}
b.emit("package %s\n\n", g.pkg)
if err := b.write(g.outputTest); err != nil {
return err
}
// Collect and write test import statements.
imports := newImportTable()
for _, t := range ts {
imports.merge(t.imports)
}
if err := imports.write(g.outputTest); err != nil {
return err
}
// Write test functions.
for _, t := range ts {
if err := t.write(g.outputTest); err != nil {
return err
}
}
return nil
}
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