summaryrefslogtreecommitdiffhomepage
path: root/tools/go_marshal
diff options
context:
space:
mode:
Diffstat (limited to 'tools/go_marshal')
-rw-r--r--tools/go_marshal/BUILD25
-rw-r--r--tools/go_marshal/README.md114
-rw-r--r--tools/go_marshal/analysis/BUILD12
-rw-r--r--tools/go_marshal/analysis/analysis_unsafe.go179
-rw-r--r--tools/go_marshal/defs.bzl65
-rw-r--r--tools/go_marshal/gomarshal/BUILD21
-rw-r--r--tools/go_marshal/gomarshal/generator.go499
-rw-r--r--tools/go_marshal/gomarshal/generator_interfaces.go276
-rw-r--r--tools/go_marshal/gomarshal/generator_interfaces_array_newtype.go146
-rw-r--r--tools/go_marshal/gomarshal/generator_interfaces_primitive_newtype.go289
-rw-r--r--tools/go_marshal/gomarshal/generator_interfaces_struct.go622
-rw-r--r--tools/go_marshal/gomarshal/generator_tests.go233
-rw-r--r--tools/go_marshal/gomarshal/util.go491
-rw-r--r--tools/go_marshal/main.go72
-rw-r--r--tools/go_marshal/marshal/BUILD17
-rw-r--r--tools/go_marshal/marshal/marshal_state_autogen.go3
-rw-r--r--tools/go_marshal/primitive/BUILD18
-rw-r--r--tools/go_marshal/primitive/primitive_abi_autogen_unsafe.go1441
-rw-r--r--tools/go_marshal/primitive/primitive_state_autogen.go3
-rw-r--r--tools/go_marshal/test/BUILD44
-rw-r--r--tools/go_marshal/test/benchmark_test.go220
-rw-r--r--tools/go_marshal/test/escape/BUILD14
-rw-r--r--tools/go_marshal/test/escape/escape.go95
-rw-r--r--tools/go_marshal/test/external/BUILD11
-rw-r--r--tools/go_marshal/test/external/external.go31
-rw-r--r--tools/go_marshal/test/marshal_test.go515
-rw-r--r--tools/go_marshal/test/test.go176
27 files changed, 1447 insertions, 4185 deletions
diff --git a/tools/go_marshal/BUILD b/tools/go_marshal/BUILD
deleted file mode 100644
index f79defea7..000000000
--- a/tools/go_marshal/BUILD
+++ /dev/null
@@ -1,25 +0,0 @@
-load("//tools:defs.bzl", "bzl_library", "go_binary")
-
-licenses(["notice"])
-
-go_binary(
- name = "go_marshal",
- srcs = ["main.go"],
- visibility = [
- "//:sandbox",
- ],
- deps = [
- "//tools/go_marshal/gomarshal",
- ],
-)
-
-config_setting(
- name = "marshal_config_verbose",
- values = {"define": "gomarshal=verbose"},
-)
-
-bzl_library(
- name = "defs_bzl",
- srcs = ["defs.bzl"],
- visibility = ["//visibility:private"],
-)
diff --git a/tools/go_marshal/README.md b/tools/go_marshal/README.md
deleted file mode 100644
index 68d759083..000000000
--- a/tools/go_marshal/README.md
+++ /dev/null
@@ -1,114 +0,0 @@
-This package implements the go_marshal utility.
-
-# Overview
-
-`go_marshal` is a code generation utility similar to `go_stateify` for
-automatically generating code to marshal go data structures to memory.
-
-`go_marshal` attempts to improve on `binary.Write` and the sentry's
-`binary.Marshal` by moving the go runtime reflection necessary to marshal a
-struct to compile-time.
-
-`go_marshal` automatically generates implementations for `marshal.Marshallable`
-and `safemem.{Reader,Writer}`. Data structures that require custom serialization
-will have manual implementations for these interfaces.
-
-Data structures can be flagged for code generation by adding a struct-level
-comment `// +marshal`.
-
-# Usage
-
-See `defs.bzl`: a new rule is provided, `go_marshal`.
-
-Under the hood, the `go_marshal` rule is used to generate a file that will
-appear in a Go target; the output file should appear explicitly in a srcs list.
-For example (note that the above is the preferred method):
-
-```
-load("<PKGPATH>/gvisor/tools/go_marshal:defs.bzl", "go_marshal")
-
-go_marshal(
- name = "foo_abi",
- srcs = ["foo.go"],
- out = "foo_abi.go",
- package = "foo",
-)
-
-go_library(
- name = "foo",
- srcs = [
- "foo.go",
- "foo_abi.go",
- ],
- ...
-)
-```
-
-As part of the interface generation, `go_marshal` also generates some tests for
-sanity checking the struct definitions for potential alignment issues, and a
-simple round-trip test through Marshal/Unmarshal to verify the implementation.
-These tests use reflection to verify properties of the ABI struct, and should be
-considered part of the generated interfaces (but are too expensive to execute at
-runtime). Ensure these tests run at some point.
-
-# Restrictions
-
-Not all valid go type definitions can be used with `go_marshal`. `go_marshal` is
-intended for ABI structs, which have these additional restrictions:
-
-- At the moment, `go_marshal` only supports struct declarations.
-
-- Structs are marshalled as packed types. This means no implicit padding is
- inserted between fields shorter than the platform register size. For
- alignment, manually insert padding fields.
-
-- Structs used with `go_marshal` must have a compile-time static size. This
- means no dynamically sizes fields like slices or strings. Use statically
- sized array (byte arrays for strings) instead.
-
-- No pointers, channel, map or function pointer fields, and no fields that are
- arrays of these types. These don't make sense in an ABI data structure.
-
-- We could support opaque pointers as `uintptr`, but this is currently not
- implemented. Implementing this would require handling the architecture
- dependent native pointer size.
-
-- Fields must either be a primitive integer type (`byte`,
- `[u]int{8,16,32,64}`), or of a type that implements abi.Marshallable.
-
-- `int` and `uint` fields are not allowed. Use an explicitly-sized numeric
- type.
-
-- `float*` fields are currently not supported, but could be if necessary.
-
-# Appendix
-
-## Working with Non-Packed Structs
-
-ABI structs must generally be packed types, meaning they should have no implicit
-padding between short fields. However, if a field is tagged
-`marshal:"unaligned"`, `go_marshal` will fall back to a safer but slower
-mechanism to deal with potentially unaligned fields.
-
-Note that the non-packed property is inheritted by any other struct that embeds
-this struct, since the `go_marshal` tool currently can't reason about alignments
-for embedded structs that are not aligned.
-
-Because of this, it's generally best to avoid using `marshal:"unaligned"` and
-insert explicit padding fields instead.
-
-## Modifying the `go_marshal` Tool
-
-The following are some guidelines for modifying the `go_marshal` tool:
-
-- The `go_marshal` tool currently does a single pass over all types requesting
- code generation, in arbitrary order. This means the generated code can't
- directly obtain information about embedded marshallable types at
- compile-time. One way to work around this restriction is to add a new
- Marshallable interface method providing this piece of information, and
- calling it from the generated code. Use this sparingly, as we want to rely
- on compile-time information as much as possible for performance.
-
-- No runtime reflection in the code generated for the marshallable interface.
- The entire point of the tool is to avoid runtime reflection. The generated
- tests may use reflection.
diff --git a/tools/go_marshal/analysis/BUILD b/tools/go_marshal/analysis/BUILD
deleted file mode 100644
index c2a4d45c4..000000000
--- a/tools/go_marshal/analysis/BUILD
+++ /dev/null
@@ -1,12 +0,0 @@
-load("//tools:defs.bzl", "go_library")
-
-licenses(["notice"])
-
-go_library(
- name = "analysis",
- testonly = 1,
- srcs = ["analysis_unsafe.go"],
- visibility = [
- "//:sandbox",
- ],
-)
diff --git a/tools/go_marshal/analysis/analysis_unsafe.go b/tools/go_marshal/analysis/analysis_unsafe.go
deleted file mode 100644
index cd55cf5cb..000000000
--- a/tools/go_marshal/analysis/analysis_unsafe.go
+++ /dev/null
@@ -1,179 +0,0 @@
-// 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 analysis implements common functionality used by generated
-// go_marshal tests.
-package analysis
-
-// All functions in this package are unsafe and are not intended for general
-// consumption. They contain sharp edge cases and the caller is responsible for
-// ensuring none of them are hit. Callers must be carefully to pass in only sane
-// arguments. Failure to do so may cause panics at best and arbitrary memory
-// corruption at worst.
-//
-// Never use outside of tests.
-
-import (
- "fmt"
- "math/rand"
- "reflect"
- "testing"
- "unsafe"
-)
-
-// RandomizeValue assigns random value(s) to an abitrary type. This is intended
-// for used with ABI structs from go_marshal, meaning the typical restrictions
-// apply (fixed-size types, no pointers, maps, channels, etc), and should only
-// be used on zeroed values to avoid overwriting pointers to active go objects.
-//
-// Internally, we populate the type with random data by doing an unsafe cast to
-// access the underlying memory of the type and filling it as if it were a byte
-// slice. This almost gets us what we want, but padding fields named "_" are
-// normally not accessible, so we walk the type and recursively zero all "_"
-// fields.
-//
-// Precondition: x must be a pointer. x must not contain any valid
-// pointers to active go objects (pointer fields aren't allowed in ABI
-// structs anyways), or we'd be violating the go runtime contract and
-// the GC may malfunction.
-func RandomizeValue(x interface{}) {
- v := reflect.Indirect(reflect.ValueOf(x))
- if !v.CanSet() {
- panic("RandomizeType() called with an unaddressable value. You probably need to pass a pointer to the argument")
- }
-
- // Cast the underlying memory for the type into a byte slice.
- var b []byte
- hdr := (*reflect.SliceHeader)(unsafe.Pointer(&b))
- // Note: v.UnsafeAddr panics if x is passed by value. x should be a pointer.
- hdr.Data = v.UnsafeAddr()
- hdr.Len = int(v.Type().Size())
- hdr.Cap = hdr.Len
-
- // Fill the byte slice with random data, which in effect fills the type with
- // random values.
- n, err := rand.Read(b)
- if err != nil || n != len(b) {
- panic("unreachable")
- }
-
- // Normally, padding fields are not accessible, so zero them out.
- reflectZeroPaddingFields(v.Type(), b, false)
-}
-
-// reflectZeroPaddingFields assigns zero values to padding fields for the value
-// of type r, represented by the memory in data. Padding fields are defined as
-// fields with the name "_". If zero is true, the immediate value itself is
-// zeroed. In addition, the type is recursively scanned for padding fields in
-// inner types.
-//
-// This is used for zeroing padding fields after calling RandomizeValue.
-func reflectZeroPaddingFields(r reflect.Type, data []byte, zero bool) {
- if zero {
- for i, _ := range data {
- data[i] = 0
- }
- }
- switch r.Kind() {
- case reflect.Int8, reflect.Uint8, reflect.Int16, reflect.Uint16, reflect.Int32, reflect.Uint32, reflect.Int64, reflect.Uint64:
- // These types are explicitly allowed in an ABI type, but we don't need
- // to recurse further as they're scalar types.
- case reflect.Struct:
- for i, numFields := 0, r.NumField(); i < numFields; i++ {
- f := r.Field(i)
- off := f.Offset
- len := f.Type.Size()
- window := data[off : off+len]
- reflectZeroPaddingFields(f.Type, window, f.Name == "_")
- }
- case reflect.Array:
- eLen := int(r.Elem().Size())
- if int(r.Size()) != eLen*r.Len() {
- panic("Array has unexpected size?")
- }
- for i, n := 0, r.Len(); i < n; i++ {
- reflectZeroPaddingFields(r.Elem(), data[i*eLen:(i+1)*eLen], false)
- }
- default:
- panic(fmt.Sprintf("Type %v not allowed in ABI struct", r.Kind()))
-
- }
-}
-
-// AlignmentCheck ensures the definition of the type represented by typ doesn't
-// cause the go compiler to emit implicit padding between elements of the type
-// (i.e. fields in a struct).
-//
-// AlignmentCheck doesn't explicitly recurse for embedded structs because any
-// struct present in an ABI struct must also be Marshallable, and therefore
-// they're aligned by definition (or their alignment check would have failed).
-func AlignmentCheck(t *testing.T, typ reflect.Type) (ok bool, delta uint64) {
- switch typ.Kind() {
- case reflect.Int8, reflect.Uint8, reflect.Int16, reflect.Uint16, reflect.Int32, reflect.Uint32, reflect.Int64, reflect.Uint64:
- // Primitive types are always considered well aligned. Primitive types
- // that are fields in structs are checked independently, this branch
- // exists to handle recursive calls to alignmentCheck.
- case reflect.Struct:
- xOff := 0
- nextXOff := 0
- skipNext := false
- for i, numFields := 0, typ.NumField(); i < numFields; i++ {
- xOff = nextXOff
- f := typ.Field(i)
- fmt.Printf("Checking alignment of %s.%s @ %d [+%d]...\n", typ.Name(), f.Name, f.Offset, f.Type.Size())
- nextXOff = int(f.Offset + f.Type.Size())
-
- if f.Name == "_" {
- // Padding fields need not be aligned.
- fmt.Printf("Padding field of type %v\n", f.Type)
- continue
- }
-
- if tag, ok := f.Tag.Lookup("marshal"); ok && tag == "unaligned" {
- skipNext = true
- continue
- }
-
- if skipNext {
- skipNext = false
- fmt.Printf("Skipping alignment check for field %s.%s explicitly marked as unaligned.\n", typ.Name(), f.Name)
- continue
- }
-
- if xOff != int(f.Offset) {
- implicitPad := int(f.Offset) - xOff
- t.Fatalf("Suspect offset for field %s.%s, detected an implicit %d byte padding from offset %d to %d; either add %d bytes of explicit padding before this field or tag it as `marshal:\"unaligned\"`.", typ.Name(), f.Name, implicitPad, xOff, f.Offset, implicitPad)
- }
- }
-
- // Ensure structs end on a byte explicitly defined by the type.
- if typ.NumField() > 0 && nextXOff != int(typ.Size()) {
- implicitPad := int(typ.Size()) - nextXOff
- f := typ.Field(typ.NumField() - 1) // Final field
- if tag, ok := f.Tag.Lookup("marshal"); ok && tag == "unaligned" {
- // Final field explicitly marked unaligned.
- break
- }
- t.Fatalf("Suspect offset for field %s.%s at the end of %s, detected an implicit %d byte padding from offset %d to %d at the end of the struct; either add %d bytes of explict padding at end of the struct or tag the final field %s as `marshal:\"unaligned\"`.",
- typ.Name(), f.Name, typ.Name(), implicitPad, nextXOff, typ.Size(), implicitPad, f.Name)
- }
- case reflect.Array:
- // Independent arrays are also always considered well aligned. We only
- // need to worry about their alignment when they're embedded in structs,
- // which we handle above.
- default:
- t.Fatalf("Unsupported type in ABI struct while checking for field alignment for type: %v", typ.Kind())
- }
- return true, uint64(typ.Size())
-}
diff --git a/tools/go_marshal/defs.bzl b/tools/go_marshal/defs.bzl
deleted file mode 100644
index 323e33882..000000000
--- a/tools/go_marshal/defs.bzl
+++ /dev/null
@@ -1,65 +0,0 @@
-"""Marshal is a tool for generating marshalling interfaces for Go types."""
-
-def _go_marshal_impl(ctx):
- """Execute the go_marshal tool."""
- output = ctx.outputs.lib
- output_test = ctx.outputs.test
-
- # Run the marshal command.
- args = ["-output=%s" % output.path]
- args += ["-pkg=%s" % ctx.attr.package]
- args += ["-output_test=%s" % output_test.path]
-
- if ctx.attr.debug:
- args += ["-debug"]
-
- args += ["--"]
- for src in ctx.attr.srcs:
- args += [f.path for f in src.files.to_list()]
- ctx.actions.run(
- inputs = ctx.files.srcs,
- outputs = [output, output_test],
- mnemonic = "GoMarshal",
- progress_message = "go_marshal: %s" % ctx.label,
- arguments = args,
- executable = ctx.executable._tool,
- )
-
-# Generates save and restore logic from a set of Go files.
-#
-# Args:
-# name: the name of the rule.
-# srcs: the input source files. These files should include all structs in the
-# package that need to be saved.
-# imports: an optional list of extra, non-aliased, Go-style absolute import
-# paths.
-# out: the name of the generated file output. This must not conflict with any
-# other files and must be added to the srcs of the relevant go_library.
-# package: the package name for the input sources.
-go_marshal = rule(
- implementation = _go_marshal_impl,
- attrs = {
- "srcs": attr.label_list(mandatory = True, allow_files = True),
- "imports": attr.string_list(mandatory = False),
- "package": attr.string(mandatory = True),
- "debug": attr.bool(doc = "enable debugging output from the go_marshal tool"),
- "_tool": attr.label(executable = True, cfg = "host", default = Label("//tools/go_marshal:go_marshal")),
- },
- outputs = {
- "lib": "%{name}_unsafe.go",
- "test": "%{name}_test.go",
- },
-)
-
-# marshal_deps are the dependencies requied by generated code.
-marshal_deps = [
- "//pkg/gohacks",
- "//pkg/safecopy",
- "//pkg/usermem",
- "//tools/go_marshal/marshal",
-]
-
-# marshal_test_deps are required by test targets.
-marshal_test_deps = [
- "//tools/go_marshal/analysis",
-]
diff --git a/tools/go_marshal/gomarshal/BUILD b/tools/go_marshal/gomarshal/BUILD
deleted file mode 100644
index 44cb33ae4..000000000
--- a/tools/go_marshal/gomarshal/BUILD
+++ /dev/null
@@ -1,21 +0,0 @@
-load("//tools:defs.bzl", "go_library")
-
-licenses(["notice"])
-
-go_library(
- name = "gomarshal",
- srcs = [
- "generator.go",
- "generator_interfaces.go",
- "generator_interfaces_array_newtype.go",
- "generator_interfaces_primitive_newtype.go",
- "generator_interfaces_struct.go",
- "generator_tests.go",
- "util.go",
- ],
- stateify = False,
- visibility = [
- "//:sandbox",
- ],
- deps = ["//tools/tags"],
-)
diff --git a/tools/go_marshal/gomarshal/generator.go b/tools/go_marshal/gomarshal/generator.go
deleted file mode 100644
index 19bcd4e6a..000000000
--- a/tools/go_marshal/gomarshal/generator.go
+++ /dev/null
@@ -1,499 +0,0 @@
-// 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", "dst", "dsts", "count", "err", "hdr", "idx", "inner",
- "length", "limit", "ptr", "size", "src", "srcs", "task", "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
- // 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, 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: %v", 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: %v", out, err)
- }
- g := Generator{
- inputs: srcs,
- output: f,
- outputTest: fTest,
- 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/tools/go_marshal/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: %v", 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
-}
-
-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) []marshallableType {
- var types []marshallableType
- for _, decl := range a.Decls {
- gdecl, ok := decl.(*ast.GenDecl)
- // Type declaration?
- if !ok || gdecl.Tok != token.TYPE {
- 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 = append(types, newMarshallableType(f, tagLine, t))
-
- }
- }
- 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, 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)
- 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
- 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.
-
- // If we didn't generate any Marshallable implementations, we can't just
- // emit an empty test file, since that causes the build to fail with "no
- // tests/benchmarks/examples found". Unfortunately we can't signal bazel to
- // omit the entire package since the outputs are already defined before
- // go-marshal is called. If we'd otherwise emit an empty test suite, emit an
- // empty example instead.
- if len(ts) == 0 {
- b.reset()
- b.emit("func Example() {\n")
- b.inIndent(func() {
- b.emit("// This example is intentionally empty to ensure this file contains at least\n")
- b.emit("// one testable entity. go-marshal is forced to emit a test file if a package\n")
- b.emit("// is marked marshallable, but emitting a test file with no entities results\n")
- b.emit("// in a build failure.\n")
- })
- b.emit("}\n")
- return b.write(g.outputTest)
- }
-
- for _, t := range ts {
- if err := t.write(g.outputTest); err != nil {
- return err
- }
- }
- return nil
-}
diff --git a/tools/go_marshal/gomarshal/generator_interfaces.go b/tools/go_marshal/gomarshal/generator_interfaces.go
deleted file mode 100644
index e3c3dac63..000000000
--- a/tools/go_marshal/gomarshal/generator_interfaces.go
+++ /dev/null
@@ -1,276 +0,0 @@
-// 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
-
-import (
- "fmt"
- "go/ast"
- "go/token"
- "strings"
-)
-
-// interfaceGenerator generates marshalling interfaces for a single type.
-//
-// getState is not thread-safe.
-type interfaceGenerator struct {
- sourceBuffer
-
- // The type we're serializing.
- t *ast.TypeSpec
-
- // Receiver argument for generated methods.
- r string
-
- // FileSet containing the tokens for the type we're processing.
- f *token.FileSet
-
- // is records external packages referenced by the generated implementation.
- is map[string]struct{}
-
- // ms records Marshallable types referenced by the generated implementation
- // of t's interfaces.
- ms map[string]struct{}
-
- // as records embedded fields in t that are potentially not packed. The key
- // is the accessor for the field.
- as map[string]struct{}
-}
-
-// typeName returns the name of the type this g represents.
-func (g *interfaceGenerator) typeName() string {
- return g.t.Name.Name
-}
-
-// newinterfaceGenerator creates a new interface generator.
-func newInterfaceGenerator(t *ast.TypeSpec, fset *token.FileSet) *interfaceGenerator {
- g := &interfaceGenerator{
- t: t,
- r: receiverName(t),
- f: fset,
- is: make(map[string]struct{}),
- ms: make(map[string]struct{}),
- as: make(map[string]struct{}),
- }
- g.recordUsedMarshallable(g.typeName())
- return g
-}
-
-func (g *interfaceGenerator) recordUsedMarshallable(m string) {
- g.ms[m] = struct{}{}
-
-}
-
-func (g *interfaceGenerator) recordUsedImport(i string) {
- g.is[i] = struct{}{}
-}
-
-func (g *interfaceGenerator) recordPotentiallyNonPackedField(fieldName string) {
- g.as[fieldName] = struct{}{}
-}
-
-// abortAt aborts the go_marshal tool with the given error message, with a
-// reference position to the input source. Same as abortAt, but uses g to
-// resolve p to position.
-func (g *interfaceGenerator) abortAt(p token.Pos, msg string) {
- abortAt(g.f.Position(p), msg)
-}
-
-// scalarSize returns the size of type identified by t. If t isn't a primitive
-// type, the size isn't known at code generation time, and must be resolved via
-// the marshal.Marshallable interface.
-func (g *interfaceGenerator) scalarSize(t *ast.Ident) (size int, unknownSize bool) {
- switch t.Name {
- case "int8", "uint8", "byte":
- return 1, false
- case "int16", "uint16":
- return 2, false
- case "int32", "uint32":
- return 4, false
- case "int64", "uint64":
- return 8, false
- default:
- return 0, true
- }
-}
-
-func (g *interfaceGenerator) shift(bufVar string, n int) {
- g.emit("%s = %s[%d:]\n", bufVar, bufVar, n)
-}
-
-func (g *interfaceGenerator) shiftDynamic(bufVar, name string) {
- g.emit("%s = %s[%s.SizeBytes():]\n", bufVar, bufVar, name)
-}
-
-// marshalScalar writes a single scalar to a byte slice.
-func (g *interfaceGenerator) marshalScalar(accessor, typ, bufVar string) {
- switch typ {
- case "int8", "uint8", "byte":
- g.emit("%s[0] = byte(%s)\n", bufVar, accessor)
- g.shift(bufVar, 1)
- case "int16", "uint16":
- g.recordUsedImport("usermem")
- g.emit("usermem.ByteOrder.PutUint16(%s[:2], uint16(%s))\n", bufVar, accessor)
- g.shift(bufVar, 2)
- case "int32", "uint32":
- g.recordUsedImport("usermem")
- g.emit("usermem.ByteOrder.PutUint32(%s[:4], uint32(%s))\n", bufVar, accessor)
- g.shift(bufVar, 4)
- case "int64", "uint64":
- g.recordUsedImport("usermem")
- g.emit("usermem.ByteOrder.PutUint64(%s[:8], uint64(%s))\n", bufVar, accessor)
- g.shift(bufVar, 8)
- default:
- g.emit("%s.MarshalBytes(%s[:%s.SizeBytes()])\n", accessor, bufVar, accessor)
- g.shiftDynamic(bufVar, accessor)
- }
-}
-
-// unmarshalScalar reads a single scalar from a byte slice.
-func (g *interfaceGenerator) unmarshalScalar(accessor, typ, bufVar string) {
- switch typ {
- case "byte":
- g.emit("%s = %s[0]\n", accessor, bufVar)
- g.shift(bufVar, 1)
- case "int8", "uint8":
- g.emit("%s = %s(%s[0])\n", accessor, typ, bufVar)
- g.shift(bufVar, 1)
- case "int16", "uint16":
- g.recordUsedImport("usermem")
- g.emit("%s = %s(usermem.ByteOrder.Uint16(%s[:2]))\n", accessor, typ, bufVar)
- g.shift(bufVar, 2)
- case "int32", "uint32":
- g.recordUsedImport("usermem")
- g.emit("%s = %s(usermem.ByteOrder.Uint32(%s[:4]))\n", accessor, typ, bufVar)
- g.shift(bufVar, 4)
- case "int64", "uint64":
- g.recordUsedImport("usermem")
- g.emit("%s = %s(usermem.ByteOrder.Uint64(%s[:8]))\n", accessor, typ, bufVar)
- g.shift(bufVar, 8)
- default:
- g.emit("%s.UnmarshalBytes(%s[:%s.SizeBytes()])\n", accessor, bufVar, accessor)
- g.shiftDynamic(bufVar, accessor)
- g.recordPotentiallyNonPackedField(accessor)
- }
-}
-
-// emitCastToByteSlice unsafely casts an arbitrary type's underlying memory to a
-// byte slice, bypassing escape analysis. The caller is responsible for ensuring
-// srcPtr lives until they're done with dstVar, the runtime does not consider
-// dstVar dependent on srcPtr due to the escape analysis bypass.
-//
-// srcPtr must be a pointer.
-//
-// This function uses internally uses the identifier "hdr", and cannot be used
-// in a context where it is already bound.
-func (g *interfaceGenerator) emitCastToByteSlice(srcPtr, dstVar, lenExpr string) {
- g.recordUsedImport("gohacks")
- g.emit("// Construct a slice backed by dst's underlying memory.\n")
- g.emit("var %s []byte\n", dstVar)
- g.emit("hdr := (*reflect.SliceHeader)(unsafe.Pointer(&%s))\n", dstVar)
- g.emit("hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(%s)))\n", srcPtr)
- g.emit("hdr.Len = %s\n", lenExpr)
- g.emit("hdr.Cap = %s\n\n", lenExpr)
-}
-
-// emitCastToByteSlice unsafely casts a slice with elements of an abitrary type
-// to a byte slice. As part of the cast, the byte slice is made to look
-// independent of the src slice by bypassing escape analysis. This means the
-// byte slice can be used without causing the source to escape. The caller is
-// responsible for ensuring srcPtr lives until they're done with dstVar, as the
-// runtime no longer considers dstVar dependent on srcPtr and is free to GC it.
-//
-// srcPtr must be a pointer.
-//
-// This function uses internally uses the identifiers "ptr", "val" and "hdr",
-// and cannot be used in a context where these identifiers are already bound.
-func (g *interfaceGenerator) emitCastSliceToByteSlice(srcPtr, dstVar, lenExpr string) {
- g.emitNoEscapeSliceDataPointer(srcPtr, "val")
-
- g.emit("// Construct a slice backed by dst's underlying memory.\n")
- g.emit("var %s []byte\n", dstVar)
- g.emit("hdr := (*reflect.SliceHeader)(unsafe.Pointer(&%s))\n", dstVar)
- g.emit("hdr.Data = uintptr(val)\n")
- g.emit("hdr.Len = %s\n", lenExpr)
- g.emit("hdr.Cap = %s\n\n", lenExpr)
-}
-
-// emitNoEscapeSliceDataPointer unsafely casts a slice's data pointer to an
-// unsafe.Pointer, bypassing escape analysis. The caller is responsible for
-// ensuring srcPtr lives until they're done with dstVar, as the runtime no
-// longer considers dstVar dependent on srcPtr and is free to GC it.
-//
-// srcPtr must be a pointer.
-//
-// This function uses internally uses the identifier "ptr" cannot be used in a
-// context where this identifier is already bound.
-func (g *interfaceGenerator) emitNoEscapeSliceDataPointer(srcPtr, dstVar string) {
- g.recordUsedImport("gohacks")
- g.emit("ptr := unsafe.Pointer(%s)\n", srcPtr)
- g.emit("%s := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))\n\n", dstVar)
-}
-
-func (g *interfaceGenerator) emitKeepAlive(ptrVar string) {
- g.emit("// Since we bypassed the compiler's escape analysis, indicate that %s\n", ptrVar)
- g.emit("// must live until the use above.\n")
- g.emit("runtime.KeepAlive(%s)\n", ptrVar)
-}
-
-func (g *interfaceGenerator) expandBinaryExpr(b *strings.Builder, e *ast.BinaryExpr) {
- switch x := e.X.(type) {
- case *ast.BinaryExpr:
- // Recursively expand sub-expression.
- g.expandBinaryExpr(b, x)
- case *ast.Ident:
- fmt.Fprintf(b, "%s", x.Name)
- case *ast.BasicLit:
- fmt.Fprintf(b, "%s", x.Value)
- default:
- g.abortAt(e.Pos(), "Cannot convert binary expression to output code. Go-marshal currently only handles simple expressions of literals, constants and basic identifiers")
- }
-
- fmt.Fprintf(b, "%s", e.Op)
-
- switch y := e.Y.(type) {
- case *ast.BinaryExpr:
- // Recursively expand sub-expression.
- g.expandBinaryExpr(b, y)
- case *ast.Ident:
- fmt.Fprintf(b, "%s", y.Name)
- case *ast.BasicLit:
- fmt.Fprintf(b, "%s", y.Value)
- default:
- g.abortAt(e.Pos(), "Cannot convert binary expression to output code. Go-marshal currently only handles simple expressions of literals, constants and basic identifiers")
- }
-}
-
-// arrayLenExpr returns a string containing a valid golang expression
-// representing the length of array a. The returned expression should be treated
-// as a single value, and will be already parenthesized as required.
-func (g *interfaceGenerator) arrayLenExpr(a *ast.ArrayType) string {
- var b strings.Builder
-
- switch l := a.Len.(type) {
- case *ast.Ident:
- fmt.Fprintf(&b, "%s", l.Name)
- case *ast.BasicLit:
- fmt.Fprintf(&b, "%s", l.Value)
- case *ast.BinaryExpr:
- g.expandBinaryExpr(&b, l)
- return fmt.Sprintf("(%s)", b.String())
- default:
- g.abortAt(l.Pos(), "Cannot convert this array len expression to output code. Go-marshal currently only handles simple expressions of literals, constants and basic identifiers")
- }
- return b.String()
-}
diff --git a/tools/go_marshal/gomarshal/generator_interfaces_array_newtype.go b/tools/go_marshal/gomarshal/generator_interfaces_array_newtype.go
deleted file mode 100644
index 72ef03a22..000000000
--- a/tools/go_marshal/gomarshal/generator_interfaces_array_newtype.go
+++ /dev/null
@@ -1,146 +0,0 @@
-// Copyright 2020 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.
-
-// This file contains the bits of the code generator specific to marshalling
-// newtypes on arrays.
-
-package gomarshal
-
-import (
- "fmt"
- "go/ast"
-)
-
-func (g *interfaceGenerator) validateArrayNewtype(n *ast.Ident, a *ast.ArrayType) {
- if a.Len == nil {
- g.abortAt(a.Pos(), fmt.Sprintf("Dynamically sized slice '%s' cannot be marshalled, arrays must be statically sized", n.Name))
- }
-
- if _, ok := a.Elt.(*ast.Ident); !ok {
- g.abortAt(a.Elt.Pos(), fmt.Sprintf("Marshalling not supported for arrays with %s elements, array elements must be primitive types", kindString(a.Elt)))
- }
-}
-
-func (g *interfaceGenerator) emitMarshallableForArrayNewtype(n *ast.Ident, a *ast.ArrayType, elt *ast.Ident) {
- g.recordUsedImport("io")
- g.recordUsedImport("marshal")
- g.recordUsedImport("reflect")
- g.recordUsedImport("runtime")
- g.recordUsedImport("safecopy")
- g.recordUsedImport("unsafe")
- g.recordUsedImport("usermem")
-
- lenExpr := g.arrayLenExpr(a)
-
- g.emit("// SizeBytes implements marshal.Marshallable.SizeBytes.\n")
- g.emit("//go:nosplit\n")
- g.emit("func (%s *%s) SizeBytes() int {\n", g.r, g.typeName())
- g.inIndent(func() {
- if size, dynamic := g.scalarSize(elt); !dynamic {
- g.emit("return %d * %s\n", size, lenExpr)
- } else {
- g.emit("return (*%s)(nil).SizeBytes() * %s\n", n.Name, lenExpr)
- }
- })
- g.emit("}\n\n")
-
- g.emit("// MarshalBytes implements marshal.Marshallable.MarshalBytes.\n")
- g.emit("func (%s *%s) MarshalBytes(dst []byte) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emit("for idx := 0; idx < %s; idx++ {\n", lenExpr)
- g.inIndent(func() {
- g.marshalScalar(fmt.Sprintf("%s[idx]", g.r), elt.Name, "dst")
- })
- g.emit("}\n")
- })
- g.emit("}\n\n")
-
- g.emit("// UnmarshalBytes implements marshal.Marshallable.UnmarshalBytes.\n")
- g.emit("func (%s *%s) UnmarshalBytes(src []byte) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emit("for idx := 0; idx < %s; idx++ {\n", lenExpr)
- g.inIndent(func() {
- g.unmarshalScalar(fmt.Sprintf("%s[idx]", g.r), elt.Name, "src")
- })
- g.emit("}\n")
- })
- g.emit("}\n\n")
-
- g.emit("// Packed implements marshal.Marshallable.Packed.\n")
- g.emit("//go:nosplit\n")
- g.emit("func (%s *%s) Packed() bool {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emit("// Array newtypes are always packed.\n")
- g.emit("return true\n")
- })
- g.emit("}\n\n")
-
- g.emit("// MarshalUnsafe implements marshal.Marshallable.MarshalUnsafe.\n")
- g.emit("func (%s *%s) MarshalUnsafe(dst []byte) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emit("safecopy.CopyIn(dst, unsafe.Pointer(%s))\n", g.r)
- })
- g.emit("}\n\n")
-
- g.emit("// UnmarshalUnsafe implements marshal.Marshallable.UnmarshalUnsafe.\n")
- g.emit("func (%s *%s) UnmarshalUnsafe(src []byte) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emit("safecopy.CopyOut(unsafe.Pointer(%s), src)\n", g.r)
- })
- g.emit("}\n\n")
-
- g.emit("// CopyOutN implements marshal.Marshallable.CopyOutN.\n")
- g.emit("//go:nosplit\n")
- g.emit("func (%s *%s) CopyOutN(task marshal.Task, addr usermem.Addr, limit int) (int, error) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emitCastToByteSlice(g.r, "buf", fmt.Sprintf("%s.SizeBytes()", g.r))
-
- g.emit("length, err := task.CopyOutBytes(addr, buf[:limit]) // escapes: okay.\n")
- g.emitKeepAlive(g.r)
- g.emit("return length, err\n")
- })
- g.emit("}\n\n")
-
- g.emit("// CopyOut implements marshal.Marshallable.CopyOut.\n")
- g.emit("//go:nosplit\n")
- g.emit("func (%s *%s) CopyOut(task marshal.Task, addr usermem.Addr) (int, error) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emit("return %s.CopyOutN(task, addr, %s.SizeBytes())\n", g.r, g.r)
- })
- g.emit("}\n\n")
-
- g.emit("// CopyIn implements marshal.Marshallable.CopyIn.\n")
- g.emit("//go:nosplit\n")
- g.emit("func (%s *%s) CopyIn(task marshal.Task, addr usermem.Addr) (int, error) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emitCastToByteSlice(g.r, "buf", fmt.Sprintf("%s.SizeBytes()", g.r))
-
- g.emit("length, err := task.CopyInBytes(addr, buf) // escapes: okay.\n")
- g.emitKeepAlive(g.r)
- g.emit("return length, err\n")
- })
- g.emit("}\n\n")
-
- g.emit("// WriteTo implements io.WriterTo.WriteTo.\n")
- g.emit("func (%s *%s) WriteTo(w io.Writer) (int64, error) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emitCastToByteSlice(g.r, "buf", fmt.Sprintf("%s.SizeBytes()", g.r))
-
- g.emit("length, err := w.Write(buf)\n")
- g.emitKeepAlive(g.r)
- g.emit("return int64(length), err\n")
-
- })
- g.emit("}\n\n")
-}
diff --git a/tools/go_marshal/gomarshal/generator_interfaces_primitive_newtype.go b/tools/go_marshal/gomarshal/generator_interfaces_primitive_newtype.go
deleted file mode 100644
index 39f654ea8..000000000
--- a/tools/go_marshal/gomarshal/generator_interfaces_primitive_newtype.go
+++ /dev/null
@@ -1,289 +0,0 @@
-// Copyright 2020 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.
-
-// This file contains the bits of the code generator specific to marshalling
-// newtypes on primitives.
-
-package gomarshal
-
-import (
- "fmt"
- "go/ast"
-)
-
-// marshalPrimitiveScalar writes a single primitive variable to a byte
-// slice.
-func (g *interfaceGenerator) marshalPrimitiveScalar(accessor, typ, bufVar string) {
- switch typ {
- case "int8", "uint8", "byte":
- g.emit("%s[0] = byte(*%s)\n", bufVar, accessor)
- case "int16", "uint16":
- g.recordUsedImport("usermem")
- g.emit("usermem.ByteOrder.PutUint16(%s[:2], uint16(*%s))\n", bufVar, accessor)
- case "int32", "uint32":
- g.recordUsedImport("usermem")
- g.emit("usermem.ByteOrder.PutUint32(%s[:4], uint32(*%s))\n", bufVar, accessor)
- case "int64", "uint64":
- g.recordUsedImport("usermem")
- g.emit("usermem.ByteOrder.PutUint64(%s[:8], uint64(*%s))\n", bufVar, accessor)
- default:
- g.emit("// Explicilty cast to the underlying type before dispatching to\n")
- g.emit("// MarshalBytes, so we don't recursively call %s.MarshalBytes\n", accessor)
- g.emit("inner := (*%s)(%s)\n", typ, accessor)
- g.emit("inner.MarshalBytes(%s[:%s.SizeBytes()])\n", bufVar, accessor)
- }
-}
-
-// unmarshalPrimitiveScalar read a single primitive variable from a byte slice.
-func (g *interfaceGenerator) unmarshalPrimitiveScalar(accessor, typ, bufVar, typeCast string) {
- switch typ {
- case "byte":
- g.emit("*%s = %s(%s[0])\n", accessor, typeCast, bufVar)
- case "int8", "uint8":
- g.emit("*%s = %s(%s(%s[0]))\n", accessor, typeCast, typ, bufVar)
- case "int16", "uint16":
- g.recordUsedImport("usermem")
- g.emit("*%s = %s(%s(usermem.ByteOrder.Uint16(%s[:2])))\n", accessor, typeCast, typ, bufVar)
- case "int32", "uint32":
- g.recordUsedImport("usermem")
- g.emit("*%s = %s(%s(usermem.ByteOrder.Uint32(%s[:4])))\n", accessor, typeCast, typ, bufVar)
- case "int64", "uint64":
- g.recordUsedImport("usermem")
- g.emit("*%s = %s(%s(usermem.ByteOrder.Uint64(%s[:8])))\n", accessor, typeCast, typ, bufVar)
- default:
- g.emit("// Explicilty cast to the underlying type before dispatching to\n")
- g.emit("// UnmarshalBytes, so we don't recursively call %s.UnmarshalBytes\n", accessor)
- g.emit("inner := (*%s)(%s)\n", typ, accessor)
- g.emit("inner.UnmarshalBytes(%s[:%s.SizeBytes()])\n", bufVar, accessor)
- }
-}
-
-func (g *interfaceGenerator) validatePrimitiveNewtype(t *ast.Ident) {
- switch t.Name {
- case "int8", "uint8", "byte", "int16", "uint16", "int32", "uint32", "int64", "uint64":
- // These are the only primitive types we're allow. Below, we provide
- // suggestions for some disallowed types and reject them, then attempt
- // to marshal any remaining types by invoking the marshal.Marshallable
- // interface on them. If these types don't actually implement
- // marshal.Marshallable, compilation of the generated code will fail
- // with an appropriate error message.
- return
- case "int":
- g.abortAt(t.Pos(), "Type 'int' has ambiguous width, use int32 or int64")
- case "uint":
- g.abortAt(t.Pos(), "Type 'uint' has ambiguous width, use uint32 or uint64")
- case "string":
- g.abortAt(t.Pos(), "Type 'string' is dynamically-sized and cannot be marshalled, use a fixed size byte array '[...]byte' instead")
- default:
- debugfAt(g.f.Position(t.Pos()), fmt.Sprintf("Found derived type '%s', will attempt dispatch via marshal.Marshallable.\n", t.Name))
- }
-}
-
-// emitMarshallableForPrimitiveNewtype outputs code to implement the
-// marshal.Marshallable interface for a newtype on a primitive. Primitive
-// newtypes are always packed, so we can omit the various fallbacks required for
-// non-packed structs.
-func (g *interfaceGenerator) emitMarshallableForPrimitiveNewtype(nt *ast.Ident) {
- g.recordUsedImport("io")
- g.recordUsedImport("marshal")
- g.recordUsedImport("reflect")
- g.recordUsedImport("runtime")
- g.recordUsedImport("safecopy")
- g.recordUsedImport("unsafe")
- g.recordUsedImport("usermem")
-
- g.emit("// SizeBytes implements marshal.Marshallable.SizeBytes.\n")
- g.emit("//go:nosplit\n")
- g.emit("func (%s *%s) SizeBytes() int {\n", g.r, g.typeName())
- g.inIndent(func() {
- if size, dynamic := g.scalarSize(nt); !dynamic {
- g.emit("return %d\n", size)
- } else {
- g.emit("return (*%s)(nil).SizeBytes()\n", nt.Name)
- }
- })
- g.emit("}\n\n")
-
- g.emit("// MarshalBytes implements marshal.Marshallable.MarshalBytes.\n")
- g.emit("func (%s *%s) MarshalBytes(dst []byte) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.marshalPrimitiveScalar(g.r, nt.Name, "dst")
- })
- g.emit("}\n\n")
-
- g.emit("// UnmarshalBytes implements marshal.Marshallable.UnmarshalBytes.\n")
- g.emit("func (%s *%s) UnmarshalBytes(src []byte) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.unmarshalPrimitiveScalar(g.r, nt.Name, "src", g.typeName())
- })
- g.emit("}\n\n")
-
- g.emit("// Packed implements marshal.Marshallable.Packed.\n")
- g.emit("//go:nosplit\n")
- g.emit("func (%s *%s) Packed() bool {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emit("// Scalar newtypes are always packed.\n")
- g.emit("return true\n")
- })
- g.emit("}\n\n")
-
- g.emit("// MarshalUnsafe implements marshal.Marshallable.MarshalUnsafe.\n")
- g.emit("func (%s *%s) MarshalUnsafe(dst []byte) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emit("safecopy.CopyIn(dst, unsafe.Pointer(%s))\n", g.r)
- })
- g.emit("}\n\n")
-
- g.emit("// UnmarshalUnsafe implements marshal.Marshallable.UnmarshalUnsafe.\n")
- g.emit("func (%s *%s) UnmarshalUnsafe(src []byte) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emit("safecopy.CopyOut(unsafe.Pointer(%s), src)\n", g.r)
- })
- g.emit("}\n\n")
-
- g.emit("// CopyOutN implements marshal.Marshallable.CopyOutN.\n")
- g.emit("//go:nosplit\n")
- g.emit("func (%s *%s) CopyOutN(task marshal.Task, addr usermem.Addr, limit int) (int, error) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emitCastToByteSlice(g.r, "buf", fmt.Sprintf("%s.SizeBytes()", g.r))
-
- g.emit("length, err := task.CopyOutBytes(addr, buf[:limit]) // escapes: okay.\n")
- g.emitKeepAlive(g.r)
- g.emit("return length, err\n")
- })
- g.emit("}\n\n")
-
- g.emit("// CopyOut implements marshal.Marshallable.CopyOut.\n")
- g.emit("//go:nosplit\n")
- g.emit("func (%s *%s) CopyOut(task marshal.Task, addr usermem.Addr) (int, error) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emit("return %s.CopyOutN(task, addr, %s.SizeBytes())\n", g.r, g.r)
- })
- g.emit("}\n\n")
-
- g.emit("// CopyIn implements marshal.Marshallable.CopyIn.\n")
- g.emit("//go:nosplit\n")
- g.emit("func (%s *%s) CopyIn(task marshal.Task, addr usermem.Addr) (int, error) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emitCastToByteSlice(g.r, "buf", fmt.Sprintf("%s.SizeBytes()", g.r))
-
- g.emit("length, err := task.CopyInBytes(addr, buf) // escapes: okay.\n")
- g.emitKeepAlive(g.r)
- g.emit("return length, err\n")
- })
- g.emit("}\n\n")
-
- g.emit("// WriteTo implements io.WriterTo.WriteTo.\n")
- g.emit("func (%s *%s) WriteTo(w io.Writer) (int64, error) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emitCastToByteSlice(g.r, "buf", fmt.Sprintf("%s.SizeBytes()", g.r))
-
- g.emit("length, err := w.Write(buf)\n")
- g.emitKeepAlive(g.r)
- g.emit("return int64(length), err\n")
-
- })
- g.emit("}\n\n")
-}
-
-func (g *interfaceGenerator) emitMarshallableSliceForPrimitiveNewtype(nt *ast.Ident, slice *sliceAPI) {
- g.recordUsedImport("marshal")
- g.recordUsedImport("usermem")
- g.recordUsedImport("reflect")
- g.recordUsedImport("runtime")
- g.recordUsedImport("unsafe")
-
- eltType := g.typeName()
- if slice.inner {
- eltType = nt.Name
- }
-
- g.emit("// Copy%sIn copies in a slice of %s objects from the task's memory.\n", slice.ident, eltType)
- g.emit("//go:nosplit\n")
- g.emit("func Copy%sIn(task marshal.Task, addr usermem.Addr, dst []%s) (int, error) {\n", slice.ident, eltType)
- g.inIndent(func() {
- g.emit("count := len(dst)\n")
- g.emit("if count == 0 {\n")
- g.inIndent(func() {
- g.emit("return 0, nil\n")
- })
- g.emit("}\n")
- g.emit("size := (*%s)(nil).SizeBytes()\n\n", g.typeName())
-
- g.emitCastSliceToByteSlice("&dst", "buf", "size * count")
-
- g.emit("length, err := task.CopyInBytes(addr, buf) // escapes: okay.\n")
- g.emitKeepAlive("dst")
- g.emit("return length, err\n")
- })
- g.emit("}\n\n")
-
- g.emit("// Copy%sOut copies a slice of %s objects to the task's memory.\n", slice.ident, eltType)
- g.emit("//go:nosplit\n")
- g.emit("func Copy%sOut(task marshal.Task, addr usermem.Addr, src []%s) (int, error) {\n", slice.ident, eltType)
- g.inIndent(func() {
- g.emit("count := len(src)\n")
- g.emit("if count == 0 {\n")
- g.inIndent(func() {
- g.emit("return 0, nil\n")
- })
- g.emit("}\n")
- g.emit("size := (*%s)(nil).SizeBytes()\n\n", g.typeName())
-
- g.emitCastSliceToByteSlice("&src", "buf", "size * count")
-
- g.emit("length, err := task.CopyOutBytes(addr, buf) // escapes: okay.\n")
- g.emitKeepAlive("src")
- g.emit("return length, err\n")
- })
- g.emit("}\n\n")
-
- g.emit("// MarshalUnsafe%s is like %s.MarshalUnsafe, but for a []%s.\n", slice.ident, g.typeName(), g.typeName())
- g.emit("func MarshalUnsafe%s(src []%s, dst []byte) (int, error) {\n", slice.ident, g.typeName())
- g.inIndent(func() {
- g.emit("count := len(src)\n")
- g.emit("if count == 0 {\n")
- g.inIndent(func() {
- g.emit("return 0, nil\n")
- })
- g.emit("}\n")
- g.emit("size := (*%s)(nil).SizeBytes()\n\n", g.typeName())
-
- g.emitNoEscapeSliceDataPointer("&src", "val")
-
- g.emit("length, err := safecopy.CopyIn(dst[:(size*count)], val)\n")
- g.emitKeepAlive("src")
- g.emit("return length, err\n")
- })
- g.emit("}\n\n")
-
- g.emit("// UnmarshalUnsafe%s is like %s.UnmarshalUnsafe, but for a []%s.\n", slice.ident, g.typeName(), g.typeName())
- g.emit("func UnmarshalUnsafe%s(dst []%s, src []byte) (int, error) {\n", slice.ident, g.typeName())
- g.inIndent(func() {
- g.emit("count := len(dst)\n")
- g.emit("if count == 0 {\n")
- g.inIndent(func() {
- g.emit("return 0, nil\n")
- })
- g.emit("}\n")
- g.emit("size := (*%s)(nil).SizeBytes()\n\n", g.typeName())
-
- g.emitNoEscapeSliceDataPointer("&dst", "val")
-
- g.emit("length, err := safecopy.CopyOut(val, src[:(size*count)])\n")
- g.emitKeepAlive("dst")
- g.emit("return length, err\n")
- })
- g.emit("}\n\n")
-}
diff --git a/tools/go_marshal/gomarshal/generator_interfaces_struct.go b/tools/go_marshal/gomarshal/generator_interfaces_struct.go
deleted file mode 100644
index 44fbb425c..000000000
--- a/tools/go_marshal/gomarshal/generator_interfaces_struct.go
+++ /dev/null
@@ -1,622 +0,0 @@
-// Copyright 2020 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.
-
-// This file contains the bits of the code generator specific to marshalling
-// structs.
-
-package gomarshal
-
-import (
- "fmt"
- "go/ast"
- "strings"
-)
-
-func (g *interfaceGenerator) fieldAccessor(n *ast.Ident) string {
- return fmt.Sprintf("%s.%s", g.r, n.Name)
-}
-
-// areFieldsPackedExpression returns a go expression checking whether g.t's fields are
-// packed. Returns "", false if g.t has no fields that may be potentially
-// packed, otherwise returns <clause>, true, where <clause> is an expression
-// like "t.a.Packed() && t.b.Packed() && t.c.Packed()".
-func (g *interfaceGenerator) areFieldsPackedExpression() (string, bool) {
- if len(g.as) == 0 {
- return "", false
- }
-
- cs := make([]string, 0, len(g.as))
- for accessor, _ := range g.as {
- cs = append(cs, fmt.Sprintf("%s.Packed()", accessor))
- }
- return strings.Join(cs, " && "), true
-}
-
-// validateStruct ensures the type we're working with can be marshalled. These
-// checks are done ahead of time and in one place so we can make assumptions
-// later.
-func (g *interfaceGenerator) validateStruct(ts *ast.TypeSpec, st *ast.StructType) {
- forEachStructField(st, func(f *ast.Field) {
- if len(f.Names) == 0 {
- g.abortAt(f.Pos(), "Cannot marshal structs with embedded fields, give the field a name; use '_' for anonymous fields such as padding fields")
- }
- })
-
- forEachStructField(st, func(f *ast.Field) {
- fieldDispatcher{
- primitive: func(_, t *ast.Ident) {
- g.validatePrimitiveNewtype(t)
- },
- selector: func(_, _, _ *ast.Ident) {
- // No validation to perform on selector fields. However this
- // callback must still be provided.
- },
- array: func(n *ast.Ident, a *ast.ArrayType, _ *ast.Ident) {
- g.validateArrayNewtype(n, a)
- },
- unhandled: func(_ *ast.Ident) {
- g.abortAt(f.Pos(), fmt.Sprintf("Marshalling not supported for %s fields", kindString(f.Type)))
- },
- }.dispatch(f)
- })
-}
-
-func (g *interfaceGenerator) isStructPacked(st *ast.StructType) bool {
- packed := true
- forEachStructField(st, func(f *ast.Field) {
- if f.Tag != nil {
- if f.Tag.Value == "`marshal:\"unaligned\"`" {
- if packed {
- debugfAt(g.f.Position(g.t.Pos()),
- fmt.Sprintf("Marking type '%s' as not packed due to tag `marshal:\"unaligned\"`.\n", g.t.Name))
- packed = false
- }
- }
- }
- })
- return packed
-}
-
-func (g *interfaceGenerator) emitMarshallableForStruct(st *ast.StructType) {
- thisPacked := g.isStructPacked(st)
-
- g.emit("// SizeBytes implements marshal.Marshallable.SizeBytes.\n")
- g.emit("func (%s *%s) SizeBytes() int {\n", g.r, g.typeName())
- g.inIndent(func() {
- primitiveSize := 0
- var dynamicSizeTerms []string
-
- forEachStructField(st, fieldDispatcher{
- primitive: func(n, t *ast.Ident) {
- if size, dynamic := g.scalarSize(t); !dynamic {
- primitiveSize += size
- } else {
- g.recordUsedMarshallable(t.Name)
- dynamicSizeTerms = append(dynamicSizeTerms, fmt.Sprintf("(*%s)(nil).SizeBytes()", t.Name))
- }
- },
- selector: func(n, tX, tSel *ast.Ident) {
- tName := fmt.Sprintf("%s.%s", tX.Name, tSel.Name)
- g.recordUsedImport(tX.Name)
- g.recordUsedMarshallable(tName)
- dynamicSizeTerms = append(dynamicSizeTerms, fmt.Sprintf("(*%s)(nil).SizeBytes()", tName))
- },
- array: func(n *ast.Ident, a *ast.ArrayType, t *ast.Ident) {
- lenExpr := g.arrayLenExpr(a)
- if size, dynamic := g.scalarSize(t); !dynamic {
- dynamicSizeTerms = append(dynamicSizeTerms, fmt.Sprintf("%d*%s", size, lenExpr))
- } else {
- g.recordUsedMarshallable(t.Name)
- dynamicSizeTerms = append(dynamicSizeTerms, fmt.Sprintf("(*%s)(nil).SizeBytes()*%s", t.Name, lenExpr))
- }
- },
- }.dispatch)
- g.emit("return %d", primitiveSize)
- if len(dynamicSizeTerms) > 0 {
- g.incIndent()
- }
- {
- for _, d := range dynamicSizeTerms {
- g.emitNoIndent(" +\n")
- g.emit(d)
- }
- }
- if len(dynamicSizeTerms) > 0 {
- g.decIndent()
- }
- })
- g.emit("\n}\n\n")
-
- g.emit("// MarshalBytes implements marshal.Marshallable.MarshalBytes.\n")
- g.emit("func (%s *%s) MarshalBytes(dst []byte) {\n", g.r, g.typeName())
- g.inIndent(func() {
- forEachStructField(st, fieldDispatcher{
- primitive: func(n, t *ast.Ident) {
- if n.Name == "_" {
- g.emit("// Padding: dst[:sizeof(%s)] ~= %s(0)\n", t.Name, t.Name)
- if len, dynamic := g.scalarSize(t); !dynamic {
- g.shift("dst", len)
- } else {
- // We can't use shiftDynamic here because we don't have
- // an instance of the dynamic type we can reference here
- // (since the version in this struct is anonymous). Use
- // a typed nil pointer to call SizeBytes() instead.
- g.emit("dst = dst[(*%s)(nil).SizeBytes():]\n", t.Name)
- }
- return
- }
- g.marshalScalar(g.fieldAccessor(n), t.Name, "dst")
- },
- selector: func(n, tX, tSel *ast.Ident) {
- if n.Name == "_" {
- g.emit("// Padding: dst[:sizeof(%s)] ~= %s(0)\n", tX.Name, tSel.Name)
- g.emit("dst = dst[(*%s.%s)(nil).SizeBytes():]\n", tX.Name, tSel.Name)
- return
- }
- g.marshalScalar(g.fieldAccessor(n), fmt.Sprintf("%s.%s", tX.Name, tSel.Name), "dst")
- },
- array: func(n *ast.Ident, a *ast.ArrayType, t *ast.Ident) {
- lenExpr := g.arrayLenExpr(a)
- if n.Name == "_" {
- g.emit("// Padding: dst[:sizeof(%s)*%s] ~= [%s]%s{0}\n", t.Name, lenExpr, lenExpr, t.Name)
- if size, dynamic := g.scalarSize(t); !dynamic {
- g.emit("dst = dst[%d*(%s):]\n", size, lenExpr)
- } else {
- // We can't use shiftDynamic here because we don't have
- // an instance of the dynamic type we can reference here
- // (since the version in this struct is anonymous). Use
- // a typed nil pointer to call SizeBytes() instead.
- g.emit("dst = dst[(*%s)(nil).SizeBytes()*(%s):]\n", t.Name, lenExpr)
- }
- return
- }
-
- g.emit("for idx := 0; idx < %s; idx++ {\n", lenExpr)
- g.inIndent(func() {
- g.marshalScalar(fmt.Sprintf("%s[idx]", g.fieldAccessor(n)), t.Name, "dst")
- })
- g.emit("}\n")
- },
- }.dispatch)
- })
- g.emit("}\n\n")
-
- g.emit("// UnmarshalBytes implements marshal.Marshallable.UnmarshalBytes.\n")
- g.emit("func (%s *%s) UnmarshalBytes(src []byte) {\n", g.r, g.typeName())
- g.inIndent(func() {
- forEachStructField(st, fieldDispatcher{
- primitive: func(n, t *ast.Ident) {
- if n.Name == "_" {
- g.emit("// Padding: var _ %s ~= src[:sizeof(%s)]\n", t.Name, t.Name)
- if len, dynamic := g.scalarSize(t); !dynamic {
- g.shift("src", len)
- } else {
- // We don't have an instance of the dynamic type we can
- // reference here (since the version in this struct is
- // anonymous). Use a typed nil pointer to call
- // SizeBytes() instead.
- g.shiftDynamic("src", fmt.Sprintf("(*%s)(nil)", t.Name))
- g.recordPotentiallyNonPackedField(fmt.Sprintf("(*%s)(nil)", t.Name))
- }
- return
- }
- g.unmarshalScalar(g.fieldAccessor(n), t.Name, "src")
- },
- selector: func(n, tX, tSel *ast.Ident) {
- if n.Name == "_" {
- g.emit("// Padding: %s ~= src[:sizeof(%s.%s)]\n", g.fieldAccessor(n), tX.Name, tSel.Name)
- g.emit("src = src[(*%s.%s)(nil).SizeBytes():]\n", tX.Name, tSel.Name)
- g.recordPotentiallyNonPackedField(fmt.Sprintf("(*%s.%s)(nil)", tX.Name, tSel.Name))
- return
- }
- g.unmarshalScalar(g.fieldAccessor(n), fmt.Sprintf("%s.%s", tX.Name, tSel.Name), "src")
- },
- array: func(n *ast.Ident, a *ast.ArrayType, t *ast.Ident) {
- lenExpr := g.arrayLenExpr(a)
- if n.Name == "_" {
- g.emit("// Padding: ~ copy([%s]%s(%s), src[:sizeof(%s)*%s])\n", lenExpr, t.Name, g.fieldAccessor(n), t.Name, lenExpr)
- if size, dynamic := g.scalarSize(t); !dynamic {
- g.emit("src = src[%d*(%s):]\n", size, lenExpr)
- } else {
- // We can't use shiftDynamic here because we don't have
- // an instance of the dynamic type we can referece here
- // (since the version in this struct is anonymous). Use
- // a typed nil pointer to call SizeBytes() instead.
- g.emit("src = src[(*%s)(nil).SizeBytes()*(%s):]\n", t.Name, lenExpr)
- }
- return
- }
-
- g.emit("for idx := 0; idx < %s; idx++ {\n", lenExpr)
- g.inIndent(func() {
- g.unmarshalScalar(fmt.Sprintf("%s[idx]", g.fieldAccessor(n)), t.Name, "src")
- })
- g.emit("}\n")
- },
- }.dispatch)
- })
- g.emit("}\n\n")
-
- g.emit("// Packed implements marshal.Marshallable.Packed.\n")
- g.emit("//go:nosplit\n")
- g.emit("func (%s *%s) Packed() bool {\n", g.r, g.typeName())
- g.inIndent(func() {
- expr, fieldsMaybePacked := g.areFieldsPackedExpression()
- switch {
- case !thisPacked:
- g.emit("return false\n")
- case fieldsMaybePacked:
- g.emit("return %s\n", expr)
- default:
- g.emit("return true\n")
-
- }
- })
- g.emit("}\n\n")
-
- g.emit("// MarshalUnsafe implements marshal.Marshallable.MarshalUnsafe.\n")
- g.emit("func (%s *%s) MarshalUnsafe(dst []byte) {\n", g.r, g.typeName())
- g.inIndent(func() {
- fallback := func() {
- g.emit("// Type %s doesn't have a packed layout in memory, fallback to MarshalBytes.\n", g.typeName())
- g.emit("%s.MarshalBytes(dst)\n", g.r)
- }
- if thisPacked {
- g.recordUsedImport("safecopy")
- g.recordUsedImport("unsafe")
- if cond, ok := g.areFieldsPackedExpression(); ok {
- g.emit("if %s {\n", cond)
- g.inIndent(func() {
- g.emit("safecopy.CopyIn(dst, unsafe.Pointer(%s))\n", g.r)
- })
- g.emit("} else {\n")
- g.inIndent(fallback)
- g.emit("}\n")
- } else {
- g.emit("safecopy.CopyIn(dst, unsafe.Pointer(%s))\n", g.r)
- }
- } else {
- fallback()
- }
- })
- g.emit("}\n\n")
-
- g.emit("// UnmarshalUnsafe implements marshal.Marshallable.UnmarshalUnsafe.\n")
- g.emit("func (%s *%s) UnmarshalUnsafe(src []byte) {\n", g.r, g.typeName())
- g.inIndent(func() {
- fallback := func() {
- g.emit("// Type %s doesn't have a packed layout in memory, fallback to UnmarshalBytes.\n", g.typeName())
- g.emit("%s.UnmarshalBytes(src)\n", g.r)
- }
- if thisPacked {
- g.recordUsedImport("safecopy")
- g.recordUsedImport("unsafe")
- if cond, ok := g.areFieldsPackedExpression(); ok {
- g.emit("if %s {\n", cond)
- g.inIndent(func() {
- g.emit("safecopy.CopyOut(unsafe.Pointer(%s), src)\n", g.r)
- })
- g.emit("} else {\n")
- g.inIndent(fallback)
- g.emit("}\n")
- } else {
- g.emit("safecopy.CopyOut(unsafe.Pointer(%s), src)\n", g.r)
- }
- } else {
- fallback()
- }
- })
- g.emit("}\n\n")
-
- g.emit("// CopyOutN implements marshal.Marshallable.CopyOutN.\n")
- g.emit("//go:nosplit\n")
- g.recordUsedImport("marshal")
- g.recordUsedImport("usermem")
- g.emit("func (%s *%s) CopyOutN(task marshal.Task, addr usermem.Addr, limit int) (int, error) {\n", g.r, g.typeName())
- g.inIndent(func() {
- fallback := func() {
- g.emit("// Type %s doesn't have a packed layout in memory, fall back to MarshalBytes.\n", g.typeName())
- g.emit("buf := task.CopyScratchBuffer(%s.SizeBytes()) // escapes: okay.\n", g.r)
- g.emit("%s.MarshalBytes(buf) // escapes: fallback.\n", g.r)
- g.emit("return task.CopyOutBytes(addr, buf[:limit]) // escapes: okay.\n")
- }
- if thisPacked {
- g.recordUsedImport("reflect")
- g.recordUsedImport("runtime")
- g.recordUsedImport("unsafe")
- if cond, ok := g.areFieldsPackedExpression(); ok {
- g.emit("if !%s {\n", cond)
- g.inIndent(fallback)
- g.emit("}\n\n")
- }
- // Fast serialization.
- g.emitCastToByteSlice(g.r, "buf", fmt.Sprintf("%s.SizeBytes()", g.r))
-
- g.emit("length, err := task.CopyOutBytes(addr, buf[:limit]) // escapes: okay.\n")
- g.emitKeepAlive(g.r)
- g.emit("return length, err\n")
- } else {
- fallback()
- }
- })
- g.emit("}\n\n")
-
- g.emit("// CopyOut implements marshal.Marshallable.CopyOut.\n")
- g.emit("//go:nosplit\n")
- g.recordUsedImport("marshal")
- g.recordUsedImport("usermem")
- g.emit("func (%s *%s) CopyOut(task marshal.Task, addr usermem.Addr) (int, error) {\n", g.r, g.typeName())
- g.inIndent(func() {
- g.emit("return %s.CopyOutN(task, addr, %s.SizeBytes())\n", g.r, g.r)
- })
- g.emit("}\n\n")
-
- g.emit("// CopyIn implements marshal.Marshallable.CopyIn.\n")
- g.emit("//go:nosplit\n")
- g.recordUsedImport("marshal")
- g.recordUsedImport("usermem")
- g.emit("func (%s *%s) CopyIn(task marshal.Task, addr usermem.Addr) (int, error) {\n", g.r, g.typeName())
- g.inIndent(func() {
- fallback := func() {
- g.emit("// Type %s doesn't have a packed layout in memory, fall back to UnmarshalBytes.\n", g.typeName())
- g.emit("buf := task.CopyScratchBuffer(%s.SizeBytes()) // escapes: okay.\n", g.r)
- g.emit("length, err := task.CopyInBytes(addr, buf) // escapes: okay.\n")
- g.emit("// Unmarshal unconditionally. If we had a short copy-in, this results in a\n")
- g.emit("// partially unmarshalled struct.\n")
- g.emit("%s.UnmarshalBytes(buf) // escapes: fallback.\n", g.r)
- g.emit("return length, err\n")
- }
- if thisPacked {
- g.recordUsedImport("reflect")
- g.recordUsedImport("runtime")
- g.recordUsedImport("unsafe")
- if cond, ok := g.areFieldsPackedExpression(); ok {
- g.emit("if !%s {\n", cond)
- g.inIndent(fallback)
- g.emit("}\n\n")
- }
- // Fast deserialization.
- g.emitCastToByteSlice(g.r, "buf", fmt.Sprintf("%s.SizeBytes()", g.r))
-
- g.emit("length, err := task.CopyInBytes(addr, buf) // escapes: okay.\n")
- g.emitKeepAlive(g.r)
- g.emit("return length, err\n")
- } else {
- fallback()
- }
- })
- g.emit("}\n\n")
-
- g.emit("// WriteTo implements io.WriterTo.WriteTo.\n")
- g.recordUsedImport("io")
- g.emit("func (%s *%s) WriteTo(writer io.Writer) (int64, error) {\n", g.r, g.typeName())
- g.inIndent(func() {
- fallback := func() {
- g.emit("// Type %s doesn't have a packed layout in memory, fall back to MarshalBytes.\n", g.typeName())
- g.emit("buf := make([]byte, %s.SizeBytes())\n", g.r)
- g.emit("%s.MarshalBytes(buf)\n", g.r)
- g.emit("length, err := writer.Write(buf)\n")
- g.emit("return int64(length), err\n")
- }
- if thisPacked {
- g.recordUsedImport("reflect")
- g.recordUsedImport("runtime")
- g.recordUsedImport("unsafe")
- if cond, ok := g.areFieldsPackedExpression(); ok {
- g.emit("if !%s {\n", cond)
- g.inIndent(fallback)
- g.emit("}\n\n")
- }
- // Fast serialization.
- g.emitCastToByteSlice(g.r, "buf", fmt.Sprintf("%s.SizeBytes()", g.r))
-
- g.emit("length, err := writer.Write(buf)\n")
- g.emitKeepAlive(g.r)
- g.emit("return int64(length), err\n")
- } else {
- fallback()
- }
- })
- g.emit("}\n\n")
-}
-
-func (g *interfaceGenerator) emitMarshallableSliceForStruct(st *ast.StructType, slice *sliceAPI) {
- thisPacked := g.isStructPacked(st)
-
- if slice.inner {
- abortAt(g.f.Position(slice.comment.Slash), fmt.Sprintf("The ':inner' argument to '+marshal slice:%s:inner' is only applicable to newtypes on primitives. Remove it from this struct declaration.", slice.ident))
- }
-
- g.recordUsedImport("marshal")
- g.recordUsedImport("usermem")
-
- g.emit("// Copy%sIn copies in a slice of %s objects from the task's memory.\n", slice.ident, g.typeName())
- g.emit("func Copy%sIn(task marshal.Task, addr usermem.Addr, dst []%s) (int, error) {\n", slice.ident, g.typeName())
- g.inIndent(func() {
- g.emit("count := len(dst)\n")
- g.emit("if count == 0 {\n")
- g.inIndent(func() {
- g.emit("return 0, nil\n")
- })
- g.emit("}\n")
- g.emit("size := (*%s)(nil).SizeBytes()\n\n", g.typeName())
-
- fallback := func() {
- g.emit("// Type %s doesn't have a packed layout in memory, fall back to UnmarshalBytes.\n", g.typeName())
- g.emit("buf := task.CopyScratchBuffer(size * count)\n")
- g.emit("length, err := task.CopyInBytes(addr, buf)\n\n")
-
- g.emit("// Unmarshal as much as possible, even on error. First handle full objects.\n")
- g.emit("limit := length/size\n")
- g.emit("for idx := 0; idx < limit; idx++ {\n")
- g.inIndent(func() {
- g.emit("dst[idx].UnmarshalBytes(buf[size*idx:size*(idx+1)])\n")
- })
- g.emit("}\n\n")
-
- g.emit("// Handle any final partial object. buf is guaranteed to be long enough for the\n")
- g.emit("// final element, but may not contain valid data for the entire range. This may\n")
- g.emit("// result in unmarshalling zero values for some parts of the object.\n")
- g.emit("if length%size != 0 {\n")
- g.inIndent(func() {
- g.emit("idx := limit\n")
- g.emit("dst[idx].UnmarshalBytes(buf[size*idx:size*(idx+1)])\n")
- })
- g.emit("}\n\n")
-
- g.emit("return length, err\n")
- }
- if thisPacked {
- g.recordUsedImport("reflect")
- g.recordUsedImport("runtime")
- g.recordUsedImport("unsafe")
- if _, ok := g.areFieldsPackedExpression(); ok {
- g.emit("if !dst[0].Packed() {\n")
- g.inIndent(fallback)
- g.emit("}\n\n")
- }
- // Fast deserialization.
- g.emitCastSliceToByteSlice("&dst", "buf", "size * count")
-
- g.emit("length, err := task.CopyInBytes(addr, buf)\n")
- g.emitKeepAlive("dst")
- g.emit("return length, err\n")
- } else {
- fallback()
- }
- })
- g.emit("}\n\n")
-
- g.emit("// Copy%sOut copies a slice of %s objects to the task's memory.\n", slice.ident, g.typeName())
- g.emit("func Copy%sOut(task marshal.Task, addr usermem.Addr, src []%s) (int, error) {\n", slice.ident, g.typeName())
- g.inIndent(func() {
- g.emit("count := len(src)\n")
- g.emit("if count == 0 {\n")
- g.inIndent(func() {
- g.emit("return 0, nil\n")
- })
- g.emit("}\n")
- g.emit("size := (*%s)(nil).SizeBytes()\n\n", g.typeName())
-
- fallback := func() {
- g.emit("// Type %s doesn't have a packed layout in memory, fall back to MarshalBytes.\n", g.typeName())
- g.emit("buf := task.CopyScratchBuffer(size * count)\n")
- g.emit("for idx := 0; idx < count; idx++ {\n")
- g.inIndent(func() {
- g.emit("src[idx].MarshalBytes(buf[size*idx:size*(idx+1)])\n")
- })
- g.emit("}\n")
- g.emit("return task.CopyOutBytes(addr, buf)\n")
- }
- if thisPacked {
- g.recordUsedImport("reflect")
- g.recordUsedImport("runtime")
- g.recordUsedImport("unsafe")
- if _, ok := g.areFieldsPackedExpression(); ok {
- g.emit("if !src[0].Packed() {\n")
- g.inIndent(fallback)
- g.emit("}\n\n")
- }
- // Fast serialization.
- g.emitCastSliceToByteSlice("&src", "buf", "size * count")
-
- g.emit("length, err := task.CopyOutBytes(addr, buf)\n")
- g.emitKeepAlive("src")
- g.emit("return length, err\n")
- } else {
- fallback()
- }
- })
- g.emit("}\n\n")
-
- g.emit("// MarshalUnsafe%s is like %s.MarshalUnsafe, but for a []%s.\n", slice.ident, g.typeName(), g.typeName())
- g.emit("func MarshalUnsafe%s(src []%s, dst []byte) (int, error) {\n", slice.ident, g.typeName())
- g.inIndent(func() {
- g.emit("count := len(src)\n")
- g.emit("if count == 0 {\n")
- g.inIndent(func() {
- g.emit("return 0, nil\n")
- })
- g.emit("}\n")
- g.emit("size := (*%s)(nil).SizeBytes()\n\n", g.typeName())
-
- fallback := func() {
- g.emit("// Type %s doesn't have a packed layout in memory, fall back to MarshalBytes.\n", g.typeName())
- g.emit("for idx := 0; idx < count; idx++ {\n")
- g.inIndent(func() {
- g.emit("src[idx].MarshalBytes(dst[size*idx:(size)*(idx+1)])\n")
- })
- g.emit("}\n")
- g.emit("return size * count, nil\n")
- }
- if thisPacked {
- g.recordUsedImport("reflect")
- g.recordUsedImport("runtime")
- g.recordUsedImport("unsafe")
- if _, ok := g.areFieldsPackedExpression(); ok {
- g.emit("if !src[0].Packed() {\n")
- g.inIndent(fallback)
- g.emit("}\n\n")
- }
- g.emitNoEscapeSliceDataPointer("&src", "val")
-
- g.emit("length, err := safecopy.CopyIn(dst[:(size*count)], val)\n")
- g.emitKeepAlive("src")
- g.emit("return length, err\n")
- } else {
- fallback()
- }
- })
- g.emit("}\n\n")
-
- g.emit("// UnmarshalUnsafe%s is like %s.UnmarshalUnsafe, but for a []%s.\n", slice.ident, g.typeName(), g.typeName())
- g.emit("func UnmarshalUnsafe%s(dst []%s, src []byte) (int, error) {\n", slice.ident, g.typeName())
- g.inIndent(func() {
- g.emit("count := len(dst)\n")
- g.emit("if count == 0 {\n")
- g.inIndent(func() {
- g.emit("return 0, nil\n")
- })
- g.emit("}\n")
- g.emit("size := (*%s)(nil).SizeBytes()\n\n", g.typeName())
-
- fallback := func() {
- g.emit("// Type %s doesn't have a packed layout in memory, fall back to UnmarshalBytes.\n", g.typeName())
- g.emit("for idx := 0; idx < count; idx++ {\n")
- g.inIndent(func() {
- g.emit("dst[idx].UnmarshalBytes(src[size*idx:size*(idx+1)])\n")
- })
- g.emit("}\n")
- g.emit("return size * count, nil\n")
- }
- if thisPacked {
- g.recordUsedImport("reflect")
- g.recordUsedImport("runtime")
- g.recordUsedImport("unsafe")
- if _, ok := g.areFieldsPackedExpression(); ok {
- g.emit("if !dst[0].Packed() {\n")
- g.inIndent(fallback)
- g.emit("}\n\n")
- }
- g.emitNoEscapeSliceDataPointer("&dst", "val")
-
- g.emit("length, err := safecopy.CopyOut(val, src[:(size*count)])\n")
- g.emitKeepAlive("dst")
- g.emit("return length, err\n")
- } else {
- fallback()
- }
- })
- g.emit("}\n\n")
-}
diff --git a/tools/go_marshal/gomarshal/generator_tests.go b/tools/go_marshal/gomarshal/generator_tests.go
deleted file mode 100644
index 631295373..000000000
--- a/tools/go_marshal/gomarshal/generator_tests.go
+++ /dev/null
@@ -1,233 +0,0 @@
-// 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
-
-import (
- "fmt"
- "go/ast"
- "io"
- "strings"
-)
-
-var standardImports = []string{
- "bytes",
- "fmt",
- "reflect",
- "testing",
-
- "gvisor.dev/gvisor/tools/go_marshal/analysis",
-}
-
-var sliceAPIImports = []string{
- "encoding/binary",
- "gvisor.dev/gvisor/pkg/usermem",
-}
-
-type testGenerator struct {
- sourceBuffer
-
- // The type we're serializing.
- t *ast.TypeSpec
-
- // Receiver argument for generated methods.
- r string
-
- // Imports used by generated code.
- imports *importTable
-
- // Import statement for the package declaring the type we generated code
- // for. We need this to construct test instances for the type, since the
- // tests aren't written in the same package.
- decl *importStmt
-}
-
-func newTestGenerator(t *ast.TypeSpec) *testGenerator {
- g := &testGenerator{
- t: t,
- r: receiverName(t),
- imports: newImportTable(),
- }
-
- for _, i := range standardImports {
- g.imports.add(i).markUsed()
- }
- // These imports are used if a type requests the slice API. Don't
- // mark them as used by default.
- for _, i := range sliceAPIImports {
- g.imports.add(i)
- }
-
- return g
-}
-
-func (g *testGenerator) typeName() string {
- return g.t.Name.Name
-}
-
-func (g *testGenerator) testFuncName(base string) string {
- return fmt.Sprintf("%s%s", base, strings.Title(g.t.Name.Name))
-}
-
-func (g *testGenerator) inTestFunction(name string, body func()) {
- g.emit("func %s(t *testing.T) {\n", g.testFuncName(name))
- g.inIndent(body)
- g.emit("}\n\n")
-}
-
-func (g *testGenerator) emitTestNonZeroSize() {
- g.inTestFunction("TestSizeNonZero", func() {
- g.emit("var x %v\n", g.typeName())
- g.emit("if x.SizeBytes() == 0 {\n")
- g.inIndent(func() {
- g.emit("t.Fatal(\"Marshallable.SizeBytes() should not return zero\")\n")
- })
- g.emit("}\n")
- })
-}
-
-func (g *testGenerator) emitTestSuspectAlignment() {
- g.inTestFunction("TestSuspectAlignment", func() {
- g.emit("var x %v\n", g.typeName())
- g.emit("analysis.AlignmentCheck(t, reflect.TypeOf(x))\n")
- })
-}
-
-func (g *testGenerator) emitTestMarshalUnmarshalPreservesData() {
- g.inTestFunction("TestSafeMarshalUnmarshalPreservesData", func() {
- g.emit("var x, y, z, yUnsafe, zUnsafe %s\n", g.typeName())
- g.emit("analysis.RandomizeValue(&x)\n\n")
-
- g.emit("buf := make([]byte, x.SizeBytes())\n")
- g.emit("x.MarshalBytes(buf)\n")
- g.emit("bufUnsafe := make([]byte, x.SizeBytes())\n")
- g.emit("x.MarshalUnsafe(bufUnsafe)\n\n")
-
- g.emit("y.UnmarshalBytes(buf)\n")
- g.emit("if !reflect.DeepEqual(x, y) {\n")
- g.inIndent(func() {
- g.emit("t.Fatal(fmt.Sprintf(\"Data corrupted across MarshalBytes/UnmarshalBytes cycle:\\nBefore: %+v\\nAfter: %+v\\n\", x, y))\n")
- })
- g.emit("}\n")
- g.emit("yUnsafe.UnmarshalBytes(bufUnsafe)\n")
- g.emit("if !reflect.DeepEqual(x, yUnsafe) {\n")
- g.inIndent(func() {
- g.emit("t.Fatal(fmt.Sprintf(\"Data corrupted across MarshalUnsafe/UnmarshalBytes cycle:\\nBefore: %+v\\nAfter: %+v\\n\", x, yUnsafe))\n")
- })
- g.emit("}\n\n")
-
- g.emit("z.UnmarshalUnsafe(buf)\n")
- g.emit("if !reflect.DeepEqual(x, z) {\n")
- g.inIndent(func() {
- g.emit("t.Fatal(fmt.Sprintf(\"Data corrupted across MarshalBytes/UnmarshalUnsafe cycle:\\nBefore: %+v\\nAfter: %+v\\n\", x, z))\n")
- })
- g.emit("}\n")
- g.emit("zUnsafe.UnmarshalUnsafe(bufUnsafe)\n")
- g.emit("if !reflect.DeepEqual(x, zUnsafe) {\n")
- g.inIndent(func() {
- g.emit("t.Fatal(fmt.Sprintf(\"Data corrupted across MarshalUnsafe/UnmarshalUnsafe cycle:\\nBefore: %+v\\nAfter: %+v\\n\", x, zUnsafe))\n")
- })
- g.emit("}\n")
- })
-}
-
-func (g *testGenerator) emitTestMarshalUnmarshalSlicePreservesData(slice *sliceAPI) {
- for _, name := range []string{"binary", "usermem"} {
- if !g.imports.markUsed(name) {
- panic(fmt.Sprintf("Generated test for '%s' referenced a non-existent import with local name '%s'", g.typeName(), name))
- }
- }
-
- g.inTestFunction("TestSafeMarshalUnmarshalSlicePreservesData", func() {
- g.emit("var x, y, yUnsafe [8]%s\n", g.typeName())
- g.emit("analysis.RandomizeValue(&x)\n\n")
- g.emit("size := (*%s)(nil).SizeBytes() * len(x)\n", g.typeName())
- g.emit("buf := bytes.NewBuffer(make([]byte, size))\n")
- g.emit("buf.Reset()\n")
- g.emit("if err := binary.Write(buf, usermem.ByteOrder, x[:]); err != nil {\n")
- g.inIndent(func() {
- g.emit("t.Fatal(fmt.Sprintf(\"binary.Write failed: %v\", err))\n")
- })
- g.emit("}\n")
- g.emit("bufUnsafe := make([]byte, size)\n")
- g.emit("MarshalUnsafe%s(x[:], bufUnsafe)\n\n", slice.ident)
-
- g.emit("UnmarshalUnsafe%s(y[:], buf.Bytes())\n", slice.ident)
- g.emit("if !reflect.DeepEqual(x, y) {\n")
- g.inIndent(func() {
- g.emit("t.Fatal(fmt.Sprintf(\"Data corrupted across binary.Write/UnmarshalUnsafeSlice cycle:\\nBefore: %+v\\nAfter: %+v\\n\", x, y))\n")
- })
- g.emit("}\n")
- g.emit("UnmarshalUnsafe%s(yUnsafe[:], bufUnsafe)\n", slice.ident)
- g.emit("if !reflect.DeepEqual(x, yUnsafe) {\n")
- g.inIndent(func() {
- g.emit("t.Fatal(fmt.Sprintf(\"Data corrupted across MarshalUnsafeSlice/UnmarshalUnsafeSlice cycle:\\nBefore: %+v\\nAfter: %+v\\n\", x, yUnsafe))\n")
- })
- g.emit("}\n\n")
- })
-}
-
-func (g *testGenerator) emitTestWriteToUnmarshalPreservesData() {
- g.inTestFunction("TestWriteToUnmarshalPreservesData", func() {
- g.emit("var x, y, yUnsafe %s\n", g.typeName())
- g.emit("analysis.RandomizeValue(&x)\n\n")
-
- g.emit("var buf bytes.Buffer\n\n")
-
- g.emit("x.WriteTo(&buf)\n")
- g.emit("y.UnmarshalBytes(buf.Bytes())\n\n")
- g.emit("yUnsafe.UnmarshalUnsafe(buf.Bytes())\n\n")
-
- g.emit("if !reflect.DeepEqual(x, y) {\n")
- g.inIndent(func() {
- g.emit("t.Fatal(fmt.Sprintf(\"Data corrupted across WriteTo/UnmarshalBytes cycle:\\nBefore: %+v\\nAfter: %+v\\n\", x, y))\n")
- })
- g.emit("}\n")
- g.emit("if !reflect.DeepEqual(x, yUnsafe) {\n")
- g.inIndent(func() {
- g.emit("t.Fatal(fmt.Sprintf(\"Data corrupted across WriteTo/UnmarshalUnsafe cycle:\\nBefore: %+v\\nAfter: %+v\\n\", x, yUnsafe))\n")
- })
- g.emit("}\n")
- })
-}
-
-func (g *testGenerator) emitTestSizeBytesOnTypedNilPtr() {
- g.inTestFunction("TestSizeBytesOnTypedNilPtr", func() {
- g.emit("var x %s\n", g.typeName())
- g.emit("sizeFromConcrete := x.SizeBytes()\n")
- g.emit("sizeFromTypedNilPtr := (*%s)(nil).SizeBytes()\n\n", g.typeName())
-
- g.emit("if sizeFromTypedNilPtr != sizeFromConcrete {\n")
- g.inIndent(func() {
- g.emit("t.Fatalf(\"SizeBytes() on typed nil pointer (%v) doesn't match size returned by a concrete object (%v).\\n\", sizeFromTypedNilPtr, sizeFromConcrete)\n")
- })
- g.emit("}\n")
- })
-}
-
-func (g *testGenerator) emitTests(slice *sliceAPI) {
- g.emitTestNonZeroSize()
- g.emitTestSuspectAlignment()
- g.emitTestMarshalUnmarshalPreservesData()
- g.emitTestWriteToUnmarshalPreservesData()
- g.emitTestSizeBytesOnTypedNilPtr()
-
- if slice != nil {
- g.emitTestMarshalUnmarshalSlicePreservesData(slice)
- }
-}
-
-func (g *testGenerator) write(out io.Writer) error {
- return g.sourceBuffer.write(out)
-}
diff --git a/tools/go_marshal/gomarshal/util.go b/tools/go_marshal/gomarshal/util.go
deleted file mode 100644
index d94314302..000000000
--- a/tools/go_marshal/gomarshal/util.go
+++ /dev/null
@@ -1,491 +0,0 @@
-// 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
-
-import (
- "bytes"
- "flag"
- "fmt"
- "go/ast"
- "go/token"
- "io"
- "os"
- "path"
- "reflect"
- "sort"
- "strings"
-)
-
-var debug = flag.Bool("debug", false, "enables debugging output")
-
-// receiverName returns an appropriate receiver name given a type spec.
-func receiverName(t *ast.TypeSpec) string {
- if len(t.Name.Name) < 1 {
- // Zero length type name?
- panic("unreachable")
- }
- return strings.ToLower(t.Name.Name[:1])
-}
-
-// kindString returns a user-friendly representation of an AST expr type.
-func kindString(e ast.Expr) string {
- switch e.(type) {
- case *ast.Ident:
- return "scalar"
- case *ast.ArrayType:
- return "array"
- case *ast.StructType:
- return "struct"
- case *ast.StarExpr:
- return "pointer"
- case *ast.FuncType:
- return "function"
- case *ast.InterfaceType:
- return "interface"
- case *ast.MapType:
- return "map"
- case *ast.ChanType:
- return "channel"
- default:
- return reflect.TypeOf(e).String()
- }
-}
-
-func forEachStructField(st *ast.StructType, fn func(f *ast.Field)) {
- for _, field := range st.Fields.List {
- fn(field)
- }
-}
-
-// fieldDispatcher is a collection of callbacks for handling different types of
-// fields in a struct declaration.
-type fieldDispatcher struct {
- primitive func(n, t *ast.Ident)
- selector func(n, tX, tSel *ast.Ident)
- array func(n *ast.Ident, a *ast.ArrayType, t *ast.Ident)
- unhandled func(n *ast.Ident)
-}
-
-// Precondition: All dispatch callbacks that will be invoked must be
-// provided. Embedded fields are not allowed, len(f.Names) >= 1.
-func (fd fieldDispatcher) dispatch(f *ast.Field) {
- // Each field declaration may actually be multiple declarations of the same
- // type. For example, consider:
- //
- // type Point struct {
- // x, y, z int
- // }
- //
- // We invoke the call-backs once per such instance. Embedded fields are not
- // allowed, and results in a panic.
- if len(f.Names) < 1 {
- panic("Precondition not met: attempted to dispatch on embedded field")
- }
-
- for _, name := range f.Names {
- switch v := f.Type.(type) {
- case *ast.Ident:
- fd.primitive(name, v)
- case *ast.SelectorExpr:
- fd.selector(name, v.X.(*ast.Ident), v.Sel)
- case *ast.ArrayType:
- switch t := v.Elt.(type) {
- case *ast.Ident:
- fd.array(name, v, t)
- default:
- // Should be handled with a better error message during validate.
- panic(fmt.Sprintf("Array element type is of unsupported kind. Expected *ast.Ident, got %v", t))
- }
- default:
- fd.unhandled(name)
- }
- }
-}
-
-// debugEnabled indicates whether debugging is enabled for gomarshal.
-func debugEnabled() bool {
- return *debug
-}
-
-// abort aborts the go_marshal tool with the given error message.
-func abort(msg string) {
- if !strings.HasSuffix(msg, "\n") {
- msg += "\n"
- }
- fmt.Print(msg)
- os.Exit(1)
-}
-
-// abortAt aborts the go_marshal tool with the given error message, with
-// a reference position to the input source.
-func abortAt(p token.Position, msg string) {
- abort(fmt.Sprintf("%v:\n %s\n", p, msg))
-}
-
-// debugf conditionally prints a debug message.
-func debugf(f string, a ...interface{}) {
- if debugEnabled() {
- fmt.Printf(f, a...)
- }
-}
-
-// debugfAt conditionally prints a debug message with a reference to a position
-// in the input source.
-func debugfAt(p token.Position, f string, a ...interface{}) {
- if debugEnabled() {
- fmt.Printf("%s:\n %s", p, fmt.Sprintf(f, a...))
- }
-}
-
-// emit generates a line of code in the output file.
-//
-// emit is a wrapper around writing a formatted string to the output
-// buffer. emit can be invoked in one of two ways:
-//
-// (1) emit("some string")
-// When emit is called with a single string argument, it is simply copied to
-// the output buffer without any further formatting.
-// (2) emit(fmtString, args...)
-// emit can also be invoked in a similar fashion to *Printf() functions,
-// where the first argument is a format string.
-//
-// Calling emit with a single argument that is not a string will result in a
-// panic, as the caller's intent is ambiguous.
-func emit(out io.Writer, indent int, a ...interface{}) {
- const spacesPerIndentLevel = 4
-
- if len(a) < 1 {
- panic("emit() called with no arguments")
- }
-
- if indent > 0 {
- if _, err := fmt.Fprint(out, strings.Repeat(" ", indent*spacesPerIndentLevel)); err != nil {
- // Writing to the emit output should not fail. Typically the output
- // is a byte.Buffer; writes to these never fail.
- panic(err)
- }
- }
-
- first, ok := a[0].(string)
- if !ok {
- // First argument must be either the string to emit (case 1 from
- // function-level comment), or a format string (case 2).
- panic(fmt.Sprintf("First argument to emit() is not a string: %+v", a[0]))
- }
-
- if len(a) == 1 {
- // Single string argument. Assume no formatting requested.
- if _, err := fmt.Fprint(out, first); err != nil {
- // Writing to out should not fail.
- panic(err)
- }
- return
-
- }
-
- // Formatting requested.
- if _, err := fmt.Fprintf(out, first, a[1:]...); err != nil {
- // Writing to out should not fail.
- panic(err)
- }
-}
-
-// sourceBuffer represents fragments of generated go source code.
-//
-// sourceBuffer provides a convenient way to build up go souce fragments in
-// memory. May be safely zero-value initialized. Not thread-safe.
-type sourceBuffer struct {
- // Current indentation level.
- indent int
-
- // Memory buffer containing contents while they're being generated.
- b bytes.Buffer
-}
-
-func (b *sourceBuffer) reset() {
- b.indent = 0
- b.b.Reset()
-}
-
-func (b *sourceBuffer) incIndent() {
- b.indent++
-}
-
-func (b *sourceBuffer) decIndent() {
- if b.indent <= 0 {
- panic("decIndent() without matching incIndent()")
- }
- b.indent--
-}
-
-func (b *sourceBuffer) emit(a ...interface{}) {
- emit(&b.b, b.indent, a...)
-}
-
-func (b *sourceBuffer) emitNoIndent(a ...interface{}) {
- emit(&b.b, 0 /*indent*/, a...)
-}
-
-func (b *sourceBuffer) inIndent(body func()) {
- b.incIndent()
- body()
- b.decIndent()
-}
-
-func (b *sourceBuffer) write(out io.Writer) error {
- _, err := fmt.Fprint(out, b.b.String())
- return err
-}
-
-// Write implements io.Writer.Write.
-func (b *sourceBuffer) Write(buf []byte) (int, error) {
- return (b.b.Write(buf))
-}
-
-// importStmt represents a single import statement.
-type importStmt struct {
- // Local name of the imported package.
- name string
- // Import path.
- path string
- // Indicates whether the local name is an alias, or simply the final
- // component of the path.
- aliased bool
- // Indicates whether this import was referenced by generated code.
- used bool
- // AST node and file set representing the import statement, if any. These
- // are only non-nil if the import statement originates from an input source
- // file.
- spec *ast.ImportSpec
- fset *token.FileSet
-}
-
-func newImport(p string) *importStmt {
- name := path.Base(p)
- return &importStmt{
- name: name,
- path: p,
- aliased: false,
- }
-}
-
-func newImportFromSpec(spec *ast.ImportSpec, f *token.FileSet) *importStmt {
- p := spec.Path.Value[1 : len(spec.Path.Value)-1] // Strip the " quotes around path.
- name := path.Base(p)
- if name == "" || name == "/" || name == "." {
- panic(fmt.Sprintf("Couldn't process local package name for import at %s, (processed as %s)",
- f.Position(spec.Path.Pos()), name))
- }
- if spec.Name != nil {
- name = spec.Name.Name
- }
- return &importStmt{
- name: name,
- path: p,
- aliased: spec.Name != nil,
- spec: spec,
- fset: f,
- }
-}
-
-// String implements fmt.Stringer.String. This generates a string for the import
-// statement appropriate for writing directly to generated code.
-func (i *importStmt) String() string {
- if i.aliased {
- return fmt.Sprintf("%s %q", i.name, i.path)
- }
- return fmt.Sprintf("%q", i.path)
-}
-
-// debugString returns a debug string representing an import statement. This
-// representation is not valid golang code and is used for debugging output.
-func (i *importStmt) debugString() string {
- if i.spec != nil && i.fset != nil {
- return fmt.Sprintf("%s: %s", i.fset.Position(i.spec.Path.Pos()), i)
- }
- return fmt.Sprintf("(go-marshal import): %s", i)
-}
-
-func (i *importStmt) markUsed() {
- i.used = true
-}
-
-func (i *importStmt) equivalent(other *importStmt) bool {
- return i.name == other.name && i.path == other.path && i.aliased == other.aliased
-}
-
-// importTable represents a collection of importStmts.
-//
-// An importTable may contain multiple import statements referencing the same
-// local name. All import statements aliasing to the same local name are
-// technically ambiguous, as if such an import name is used in the generated
-// code, it's not clear which import statement it refers to. We ignore any
-// potential collisions until actually writing the import table to the generated
-// source file. See importTable.write.
-//
-// Given the following import statements across all the files comprising a
-// package marshalled:
-//
-// "sync"
-// "pkg/sync"
-// "pkg/sentry/kernel"
-// ktime "pkg/sentry/kernel/time"
-//
-// An importTable representing them would look like this:
-//
-// importTable {
-// is: map[string][]*importStmt {
-// "sync": []*importStmt{
-// importStmt{name:"sync", path:"sync", aliased:false}
-// importStmt{name:"sync", path:"pkg/sync", aliased:false}
-// },
-// "kernel": []*importStmt{importStmt{
-// name: "kernel",
-// path: "pkg/sentry/kernel",
-// aliased: false
-// }},
-// "ktime": []*importStmt{importStmt{
-// name: "ktime",
-// path: "pkg/sentry/kernel/time",
-// aliased: true,
-// }},
-// }
-// }
-//
-// Note that the local name "sync" is assigned to two different import
-// statements. This is possible if the import statements are from different
-// source files in the same package.
-//
-// Since go-marshal generates a single output file per package regardless of the
-// number of input files, if "sync" is referenced by any generated code, it's
-// unclear which import statement "sync" refers to. While it's theoretically
-// possible to resolve this by assigning a unique local alias to each instance
-// of the sync package, go-marshal currently aborts when it encounters such an
-// ambiguity.
-//
-// TODO(b/151478251): importTable considers the final component of an import
-// path to be the package name, but this is only a convention. The actual
-// package name is determined by the package statement in the source files for
-// the package.
-type importTable struct {
- // Map of imports and whether they should be copied to the output.
- is map[string][]*importStmt
-}
-
-func newImportTable() *importTable {
- return &importTable{
- is: make(map[string][]*importStmt),
- }
-}
-
-// Merges import statements from other into i.
-func (i *importTable) merge(other *importTable) {
- for name, ims := range other.is {
- i.is[name] = append(i.is[name], ims...)
- }
-}
-
-func (i *importTable) addStmt(s *importStmt) *importStmt {
- i.is[s.name] = append(i.is[s.name], s)
- return s
-}
-
-func (i *importTable) add(s string) *importStmt {
- n := newImport(s)
- return i.addStmt(n)
-}
-
-func (i *importTable) addFromSpec(spec *ast.ImportSpec, f *token.FileSet) *importStmt {
- return i.addStmt(newImportFromSpec(spec, f))
-}
-
-// Marks the import named n as used. If no such import is in the table, returns
-// false.
-func (i *importTable) markUsed(n string) bool {
- if ns, ok := i.is[n]; ok {
- for _, n := range ns {
- n.markUsed()
- }
- return true
- }
- return false
-}
-
-func (i *importTable) clear() {
- for _, is := range i.is {
- for _, i := range is {
- i.used = false
- }
- }
-}
-
-func (i *importTable) write(out io.Writer) error {
- if len(i.is) == 0 {
- // Nothing to import, we're done.
- return nil
- }
-
- imports := make([]string, 0, len(i.is))
- for name, is := range i.is {
- var lastUsed *importStmt
- var ambiguous bool
-
- for _, i := range is {
- if i.used {
- if lastUsed != nil {
- if !i.equivalent(lastUsed) {
- ambiguous = true
- }
- }
- lastUsed = i
- }
- }
-
- if ambiguous {
- // We have two or more import statements across the different source
- // files that share a local name, and at least one of these imports
- // are used by the generated code. This ambiguity can't be resolved
- // by go-marshal and requires the user intervention. Dump a list of
- // the colliding import statements and let the user modify the input
- // files as appropriate.
- var b strings.Builder
- fmt.Fprintf(&b, "The imported name %q is used by one of the types marked for marshalling, and which import statement the code refers to is ambiguous. Perhaps give the imports unique local names?\n\n", name)
- fmt.Fprintf(&b, "The following %d import statements are ambiguous for the local name %q:\n", len(is), name)
- // Note: len(is) is guaranteed to be 1 or greater or ambiguous can't
- // be true. Therefore the slicing below is safe.
- for _, i := range is[:len(is)-1] {
- fmt.Fprintf(&b, " %v\n", i.debugString())
- }
- fmt.Fprintf(&b, " %v", is[len(is)-1].debugString())
- panic(b.String())
- }
-
- if lastUsed != nil {
- imports = append(imports, lastUsed.String())
- }
- }
- sort.Strings(imports)
-
- var b sourceBuffer
- b.emit("import (\n")
- b.incIndent()
- for _, i := range imports {
- b.emit("%s\n", i)
- }
- b.decIndent()
- b.emit(")\n\n")
-
- return b.write(out)
-}
diff --git a/tools/go_marshal/main.go b/tools/go_marshal/main.go
deleted file mode 100644
index f74be5c29..000000000
--- a/tools/go_marshal/main.go
+++ /dev/null
@@ -1,72 +0,0 @@
-// 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.
-
-// go_marshal is a code generation utility for automatically generating code to
-// marshal go data structures to memory.
-//
-// This binary is typically run as part of the build process, and is invoked by
-// the go_marshal bazel rule defined in defs.bzl.
-//
-// See README.md.
-package main
-
-import (
- "flag"
- "fmt"
- "os"
- "strings"
-
- "gvisor.dev/gvisor/tools/go_marshal/gomarshal"
-)
-
-var (
- pkg = flag.String("pkg", "", "output package")
- output = flag.String("output", "", "output file")
- outputTest = flag.String("output_test", "", "output file for tests")
- imports = flag.String("imports", "", "comma-separated list of extra packages to import in generated code")
-)
-
-func main() {
- flag.Usage = func() {
- fmt.Fprintf(os.Stderr, "Usage: %s <input go src files>\n", os.Args[0])
- flag.PrintDefaults()
- }
- flag.Parse()
- if len(flag.Args()) == 0 {
- flag.Usage()
- os.Exit(1)
- }
-
- if *pkg == "" {
- flag.Usage()
- fmt.Fprint(os.Stderr, "Flag -pkg must be provided.\n")
- os.Exit(1)
- }
-
- var extraImports []string
- if len(*imports) > 0 {
- // Note: strings.Split(s, sep) returns s if sep doesn't exist in s. Thus
- // we check for an empty imports list to avoid emitting an empty string
- // as an import.
- extraImports = strings.Split(*imports, ",")
- }
- g, err := gomarshal.NewGenerator(flag.Args(), *output, *outputTest, *pkg, extraImports)
- if err != nil {
- panic(err)
- }
-
- if err := g.Run(); err != nil {
- panic(err)
- }
-}
diff --git a/tools/go_marshal/marshal/BUILD b/tools/go_marshal/marshal/BUILD
deleted file mode 100644
index 4aec98218..000000000
--- a/tools/go_marshal/marshal/BUILD
+++ /dev/null
@@ -1,17 +0,0 @@
-load("//tools:defs.bzl", "go_library")
-
-licenses(["notice"])
-
-go_library(
- name = "marshal",
- srcs = [
- "marshal.go",
- "marshal_impl_util.go",
- ],
- visibility = [
- "//:sandbox",
- ],
- deps = [
- "//pkg/usermem",
- ],
-)
diff --git a/tools/go_marshal/marshal/marshal_state_autogen.go b/tools/go_marshal/marshal/marshal_state_autogen.go
new file mode 100644
index 000000000..a0a953158
--- /dev/null
+++ b/tools/go_marshal/marshal/marshal_state_autogen.go
@@ -0,0 +1,3 @@
+// automatically generated by stateify.
+
+package marshal
diff --git a/tools/go_marshal/primitive/BUILD b/tools/go_marshal/primitive/BUILD
deleted file mode 100644
index cc08ba63a..000000000
--- a/tools/go_marshal/primitive/BUILD
+++ /dev/null
@@ -1,18 +0,0 @@
-load("//tools:defs.bzl", "go_library")
-
-licenses(["notice"])
-
-go_library(
- name = "primitive",
- srcs = [
- "primitive.go",
- ],
- marshal = True,
- visibility = [
- "//:sandbox",
- ],
- deps = [
- "//pkg/usermem",
- "//tools/go_marshal/marshal",
- ],
-)
diff --git a/tools/go_marshal/primitive/primitive_abi_autogen_unsafe.go b/tools/go_marshal/primitive/primitive_abi_autogen_unsafe.go
new file mode 100644
index 000000000..a408e8194
--- /dev/null
+++ b/tools/go_marshal/primitive/primitive_abi_autogen_unsafe.go
@@ -0,0 +1,1441 @@
+// Automatically generated marshal implementation. See tools/go_marshal.
+
+package primitive
+
+import (
+ "gvisor.dev/gvisor/pkg/gohacks"
+ "gvisor.dev/gvisor/pkg/safecopy"
+ "gvisor.dev/gvisor/pkg/usermem"
+ "gvisor.dev/gvisor/tools/go_marshal/marshal"
+ "io"
+ "reflect"
+ "runtime"
+ "unsafe"
+)
+
+// Marshallable types used by this file.
+var _ marshal.Marshallable = (*Int16)(nil)
+var _ marshal.Marshallable = (*Int32)(nil)
+var _ marshal.Marshallable = (*Int64)(nil)
+var _ marshal.Marshallable = (*Int8)(nil)
+var _ marshal.Marshallable = (*Uint16)(nil)
+var _ marshal.Marshallable = (*Uint32)(nil)
+var _ marshal.Marshallable = (*Uint64)(nil)
+var _ marshal.Marshallable = (*Uint8)(nil)
+
+// SizeBytes implements marshal.Marshallable.SizeBytes.
+//go:nosplit
+func (i *Int8) SizeBytes() int {
+ return 1
+}
+
+// MarshalBytes implements marshal.Marshallable.MarshalBytes.
+func (i *Int8) MarshalBytes(dst []byte) {
+ dst[0] = byte(*i)
+}
+
+// UnmarshalBytes implements marshal.Marshallable.UnmarshalBytes.
+func (i *Int8) UnmarshalBytes(src []byte) {
+ *i = Int8(int8(src[0]))
+}
+
+// Packed implements marshal.Marshallable.Packed.
+//go:nosplit
+func (i *Int8) Packed() bool {
+ // Scalar newtypes are always packed.
+ return true
+}
+
+// MarshalUnsafe implements marshal.Marshallable.MarshalUnsafe.
+func (i *Int8) MarshalUnsafe(dst []byte) {
+ safecopy.CopyIn(dst, unsafe.Pointer(i))
+}
+
+// UnmarshalUnsafe implements marshal.Marshallable.UnmarshalUnsafe.
+func (i *Int8) UnmarshalUnsafe(src []byte) {
+ safecopy.CopyOut(unsafe.Pointer(i), src)
+}
+
+// CopyOutN implements marshal.Marshallable.CopyOutN.
+//go:nosplit
+func (i *Int8) CopyOutN(task marshal.Task, addr usermem.Addr, limit int) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(i)))
+ hdr.Len = i.SizeBytes()
+ hdr.Cap = i.SizeBytes()
+
+ length, err := task.CopyOutBytes(addr, buf[:limit]) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that i
+ // must live until the use above.
+ runtime.KeepAlive(i)
+ return length, err
+}
+
+// CopyOut implements marshal.Marshallable.CopyOut.
+//go:nosplit
+func (i *Int8) CopyOut(task marshal.Task, addr usermem.Addr) (int, error) {
+ return i.CopyOutN(task, addr, i.SizeBytes())
+}
+
+// CopyIn implements marshal.Marshallable.CopyIn.
+//go:nosplit
+func (i *Int8) CopyIn(task marshal.Task, addr usermem.Addr) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(i)))
+ hdr.Len = i.SizeBytes()
+ hdr.Cap = i.SizeBytes()
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that i
+ // must live until the use above.
+ runtime.KeepAlive(i)
+ return length, err
+}
+
+// WriteTo implements io.WriterTo.WriteTo.
+func (i *Int8) WriteTo(w io.Writer) (int64, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(i)))
+ hdr.Len = i.SizeBytes()
+ hdr.Cap = i.SizeBytes()
+
+ length, err := w.Write(buf)
+ // Since we bypassed the compiler's escape analysis, indicate that i
+ // must live until the use above.
+ runtime.KeepAlive(i)
+ return int64(length), err
+}
+
+// CopyInt8SliceIn copies in a slice of int8 objects from the task's memory.
+//go:nosplit
+func CopyInt8SliceIn(task marshal.Task, addr usermem.Addr, dst []int8) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int8)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// CopyInt8SliceOut copies a slice of int8 objects to the task's memory.
+//go:nosplit
+func CopyInt8SliceOut(task marshal.Task, addr usermem.Addr, src []int8) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int8)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyOutBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// MarshalUnsafeInt8Slice is like Int8.MarshalUnsafe, but for a []Int8.
+func MarshalUnsafeInt8Slice(src []Int8, dst []byte) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int8)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyIn(dst[:(size*count)], val)
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// UnmarshalUnsafeInt8Slice is like Int8.UnmarshalUnsafe, but for a []Int8.
+func UnmarshalUnsafeInt8Slice(dst []Int8, src []byte) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int8)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyOut(val, src[:(size*count)])
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// SizeBytes implements marshal.Marshallable.SizeBytes.
+//go:nosplit
+func (u *Uint8) SizeBytes() int {
+ return 1
+}
+
+// MarshalBytes implements marshal.Marshallable.MarshalBytes.
+func (u *Uint8) MarshalBytes(dst []byte) {
+ dst[0] = byte(*u)
+}
+
+// UnmarshalBytes implements marshal.Marshallable.UnmarshalBytes.
+func (u *Uint8) UnmarshalBytes(src []byte) {
+ *u = Uint8(uint8(src[0]))
+}
+
+// Packed implements marshal.Marshallable.Packed.
+//go:nosplit
+func (u *Uint8) Packed() bool {
+ // Scalar newtypes are always packed.
+ return true
+}
+
+// MarshalUnsafe implements marshal.Marshallable.MarshalUnsafe.
+func (u *Uint8) MarshalUnsafe(dst []byte) {
+ safecopy.CopyIn(dst, unsafe.Pointer(u))
+}
+
+// UnmarshalUnsafe implements marshal.Marshallable.UnmarshalUnsafe.
+func (u *Uint8) UnmarshalUnsafe(src []byte) {
+ safecopy.CopyOut(unsafe.Pointer(u), src)
+}
+
+// CopyOutN implements marshal.Marshallable.CopyOutN.
+//go:nosplit
+func (u *Uint8) CopyOutN(task marshal.Task, addr usermem.Addr, limit int) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(u)))
+ hdr.Len = u.SizeBytes()
+ hdr.Cap = u.SizeBytes()
+
+ length, err := task.CopyOutBytes(addr, buf[:limit]) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that u
+ // must live until the use above.
+ runtime.KeepAlive(u)
+ return length, err
+}
+
+// CopyOut implements marshal.Marshallable.CopyOut.
+//go:nosplit
+func (u *Uint8) CopyOut(task marshal.Task, addr usermem.Addr) (int, error) {
+ return u.CopyOutN(task, addr, u.SizeBytes())
+}
+
+// CopyIn implements marshal.Marshallable.CopyIn.
+//go:nosplit
+func (u *Uint8) CopyIn(task marshal.Task, addr usermem.Addr) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(u)))
+ hdr.Len = u.SizeBytes()
+ hdr.Cap = u.SizeBytes()
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that u
+ // must live until the use above.
+ runtime.KeepAlive(u)
+ return length, err
+}
+
+// WriteTo implements io.WriterTo.WriteTo.
+func (u *Uint8) WriteTo(w io.Writer) (int64, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(u)))
+ hdr.Len = u.SizeBytes()
+ hdr.Cap = u.SizeBytes()
+
+ length, err := w.Write(buf)
+ // Since we bypassed the compiler's escape analysis, indicate that u
+ // must live until the use above.
+ runtime.KeepAlive(u)
+ return int64(length), err
+}
+
+// CopyUint8SliceIn copies in a slice of uint8 objects from the task's memory.
+//go:nosplit
+func CopyUint8SliceIn(task marshal.Task, addr usermem.Addr, dst []uint8) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint8)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// CopyUint8SliceOut copies a slice of uint8 objects to the task's memory.
+//go:nosplit
+func CopyUint8SliceOut(task marshal.Task, addr usermem.Addr, src []uint8) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint8)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyOutBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// MarshalUnsafeUint8Slice is like Uint8.MarshalUnsafe, but for a []Uint8.
+func MarshalUnsafeUint8Slice(src []Uint8, dst []byte) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint8)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyIn(dst[:(size*count)], val)
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// UnmarshalUnsafeUint8Slice is like Uint8.UnmarshalUnsafe, but for a []Uint8.
+func UnmarshalUnsafeUint8Slice(dst []Uint8, src []byte) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint8)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyOut(val, src[:(size*count)])
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// SizeBytes implements marshal.Marshallable.SizeBytes.
+//go:nosplit
+func (i *Int16) SizeBytes() int {
+ return 2
+}
+
+// MarshalBytes implements marshal.Marshallable.MarshalBytes.
+func (i *Int16) MarshalBytes(dst []byte) {
+ usermem.ByteOrder.PutUint16(dst[:2], uint16(*i))
+}
+
+// UnmarshalBytes implements marshal.Marshallable.UnmarshalBytes.
+func (i *Int16) UnmarshalBytes(src []byte) {
+ *i = Int16(int16(usermem.ByteOrder.Uint16(src[:2])))
+}
+
+// Packed implements marshal.Marshallable.Packed.
+//go:nosplit
+func (i *Int16) Packed() bool {
+ // Scalar newtypes are always packed.
+ return true
+}
+
+// MarshalUnsafe implements marshal.Marshallable.MarshalUnsafe.
+func (i *Int16) MarshalUnsafe(dst []byte) {
+ safecopy.CopyIn(dst, unsafe.Pointer(i))
+}
+
+// UnmarshalUnsafe implements marshal.Marshallable.UnmarshalUnsafe.
+func (i *Int16) UnmarshalUnsafe(src []byte) {
+ safecopy.CopyOut(unsafe.Pointer(i), src)
+}
+
+// CopyOutN implements marshal.Marshallable.CopyOutN.
+//go:nosplit
+func (i *Int16) CopyOutN(task marshal.Task, addr usermem.Addr, limit int) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(i)))
+ hdr.Len = i.SizeBytes()
+ hdr.Cap = i.SizeBytes()
+
+ length, err := task.CopyOutBytes(addr, buf[:limit]) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that i
+ // must live until the use above.
+ runtime.KeepAlive(i)
+ return length, err
+}
+
+// CopyOut implements marshal.Marshallable.CopyOut.
+//go:nosplit
+func (i *Int16) CopyOut(task marshal.Task, addr usermem.Addr) (int, error) {
+ return i.CopyOutN(task, addr, i.SizeBytes())
+}
+
+// CopyIn implements marshal.Marshallable.CopyIn.
+//go:nosplit
+func (i *Int16) CopyIn(task marshal.Task, addr usermem.Addr) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(i)))
+ hdr.Len = i.SizeBytes()
+ hdr.Cap = i.SizeBytes()
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that i
+ // must live until the use above.
+ runtime.KeepAlive(i)
+ return length, err
+}
+
+// WriteTo implements io.WriterTo.WriteTo.
+func (i *Int16) WriteTo(w io.Writer) (int64, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(i)))
+ hdr.Len = i.SizeBytes()
+ hdr.Cap = i.SizeBytes()
+
+ length, err := w.Write(buf)
+ // Since we bypassed the compiler's escape analysis, indicate that i
+ // must live until the use above.
+ runtime.KeepAlive(i)
+ return int64(length), err
+}
+
+// CopyInt16SliceIn copies in a slice of int16 objects from the task's memory.
+//go:nosplit
+func CopyInt16SliceIn(task marshal.Task, addr usermem.Addr, dst []int16) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int16)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// CopyInt16SliceOut copies a slice of int16 objects to the task's memory.
+//go:nosplit
+func CopyInt16SliceOut(task marshal.Task, addr usermem.Addr, src []int16) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int16)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyOutBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// MarshalUnsafeInt16Slice is like Int16.MarshalUnsafe, but for a []Int16.
+func MarshalUnsafeInt16Slice(src []Int16, dst []byte) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int16)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyIn(dst[:(size*count)], val)
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// UnmarshalUnsafeInt16Slice is like Int16.UnmarshalUnsafe, but for a []Int16.
+func UnmarshalUnsafeInt16Slice(dst []Int16, src []byte) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int16)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyOut(val, src[:(size*count)])
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// SizeBytes implements marshal.Marshallable.SizeBytes.
+//go:nosplit
+func (u *Uint16) SizeBytes() int {
+ return 2
+}
+
+// MarshalBytes implements marshal.Marshallable.MarshalBytes.
+func (u *Uint16) MarshalBytes(dst []byte) {
+ usermem.ByteOrder.PutUint16(dst[:2], uint16(*u))
+}
+
+// UnmarshalBytes implements marshal.Marshallable.UnmarshalBytes.
+func (u *Uint16) UnmarshalBytes(src []byte) {
+ *u = Uint16(uint16(usermem.ByteOrder.Uint16(src[:2])))
+}
+
+// Packed implements marshal.Marshallable.Packed.
+//go:nosplit
+func (u *Uint16) Packed() bool {
+ // Scalar newtypes are always packed.
+ return true
+}
+
+// MarshalUnsafe implements marshal.Marshallable.MarshalUnsafe.
+func (u *Uint16) MarshalUnsafe(dst []byte) {
+ safecopy.CopyIn(dst, unsafe.Pointer(u))
+}
+
+// UnmarshalUnsafe implements marshal.Marshallable.UnmarshalUnsafe.
+func (u *Uint16) UnmarshalUnsafe(src []byte) {
+ safecopy.CopyOut(unsafe.Pointer(u), src)
+}
+
+// CopyOutN implements marshal.Marshallable.CopyOutN.
+//go:nosplit
+func (u *Uint16) CopyOutN(task marshal.Task, addr usermem.Addr, limit int) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(u)))
+ hdr.Len = u.SizeBytes()
+ hdr.Cap = u.SizeBytes()
+
+ length, err := task.CopyOutBytes(addr, buf[:limit]) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that u
+ // must live until the use above.
+ runtime.KeepAlive(u)
+ return length, err
+}
+
+// CopyOut implements marshal.Marshallable.CopyOut.
+//go:nosplit
+func (u *Uint16) CopyOut(task marshal.Task, addr usermem.Addr) (int, error) {
+ return u.CopyOutN(task, addr, u.SizeBytes())
+}
+
+// CopyIn implements marshal.Marshallable.CopyIn.
+//go:nosplit
+func (u *Uint16) CopyIn(task marshal.Task, addr usermem.Addr) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(u)))
+ hdr.Len = u.SizeBytes()
+ hdr.Cap = u.SizeBytes()
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that u
+ // must live until the use above.
+ runtime.KeepAlive(u)
+ return length, err
+}
+
+// WriteTo implements io.WriterTo.WriteTo.
+func (u *Uint16) WriteTo(w io.Writer) (int64, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(u)))
+ hdr.Len = u.SizeBytes()
+ hdr.Cap = u.SizeBytes()
+
+ length, err := w.Write(buf)
+ // Since we bypassed the compiler's escape analysis, indicate that u
+ // must live until the use above.
+ runtime.KeepAlive(u)
+ return int64(length), err
+}
+
+// CopyUint16SliceIn copies in a slice of uint16 objects from the task's memory.
+//go:nosplit
+func CopyUint16SliceIn(task marshal.Task, addr usermem.Addr, dst []uint16) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint16)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// CopyUint16SliceOut copies a slice of uint16 objects to the task's memory.
+//go:nosplit
+func CopyUint16SliceOut(task marshal.Task, addr usermem.Addr, src []uint16) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint16)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyOutBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// MarshalUnsafeUint16Slice is like Uint16.MarshalUnsafe, but for a []Uint16.
+func MarshalUnsafeUint16Slice(src []Uint16, dst []byte) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint16)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyIn(dst[:(size*count)], val)
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// UnmarshalUnsafeUint16Slice is like Uint16.UnmarshalUnsafe, but for a []Uint16.
+func UnmarshalUnsafeUint16Slice(dst []Uint16, src []byte) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint16)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyOut(val, src[:(size*count)])
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// SizeBytes implements marshal.Marshallable.SizeBytes.
+//go:nosplit
+func (i *Int32) SizeBytes() int {
+ return 4
+}
+
+// MarshalBytes implements marshal.Marshallable.MarshalBytes.
+func (i *Int32) MarshalBytes(dst []byte) {
+ usermem.ByteOrder.PutUint32(dst[:4], uint32(*i))
+}
+
+// UnmarshalBytes implements marshal.Marshallable.UnmarshalBytes.
+func (i *Int32) UnmarshalBytes(src []byte) {
+ *i = Int32(int32(usermem.ByteOrder.Uint32(src[:4])))
+}
+
+// Packed implements marshal.Marshallable.Packed.
+//go:nosplit
+func (i *Int32) Packed() bool {
+ // Scalar newtypes are always packed.
+ return true
+}
+
+// MarshalUnsafe implements marshal.Marshallable.MarshalUnsafe.
+func (i *Int32) MarshalUnsafe(dst []byte) {
+ safecopy.CopyIn(dst, unsafe.Pointer(i))
+}
+
+// UnmarshalUnsafe implements marshal.Marshallable.UnmarshalUnsafe.
+func (i *Int32) UnmarshalUnsafe(src []byte) {
+ safecopy.CopyOut(unsafe.Pointer(i), src)
+}
+
+// CopyOutN implements marshal.Marshallable.CopyOutN.
+//go:nosplit
+func (i *Int32) CopyOutN(task marshal.Task, addr usermem.Addr, limit int) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(i)))
+ hdr.Len = i.SizeBytes()
+ hdr.Cap = i.SizeBytes()
+
+ length, err := task.CopyOutBytes(addr, buf[:limit]) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that i
+ // must live until the use above.
+ runtime.KeepAlive(i)
+ return length, err
+}
+
+// CopyOut implements marshal.Marshallable.CopyOut.
+//go:nosplit
+func (i *Int32) CopyOut(task marshal.Task, addr usermem.Addr) (int, error) {
+ return i.CopyOutN(task, addr, i.SizeBytes())
+}
+
+// CopyIn implements marshal.Marshallable.CopyIn.
+//go:nosplit
+func (i *Int32) CopyIn(task marshal.Task, addr usermem.Addr) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(i)))
+ hdr.Len = i.SizeBytes()
+ hdr.Cap = i.SizeBytes()
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that i
+ // must live until the use above.
+ runtime.KeepAlive(i)
+ return length, err
+}
+
+// WriteTo implements io.WriterTo.WriteTo.
+func (i *Int32) WriteTo(w io.Writer) (int64, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(i)))
+ hdr.Len = i.SizeBytes()
+ hdr.Cap = i.SizeBytes()
+
+ length, err := w.Write(buf)
+ // Since we bypassed the compiler's escape analysis, indicate that i
+ // must live until the use above.
+ runtime.KeepAlive(i)
+ return int64(length), err
+}
+
+// CopyInt32SliceIn copies in a slice of int32 objects from the task's memory.
+//go:nosplit
+func CopyInt32SliceIn(task marshal.Task, addr usermem.Addr, dst []int32) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int32)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// CopyInt32SliceOut copies a slice of int32 objects to the task's memory.
+//go:nosplit
+func CopyInt32SliceOut(task marshal.Task, addr usermem.Addr, src []int32) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int32)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyOutBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// MarshalUnsafeInt32Slice is like Int32.MarshalUnsafe, but for a []Int32.
+func MarshalUnsafeInt32Slice(src []Int32, dst []byte) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int32)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyIn(dst[:(size*count)], val)
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// UnmarshalUnsafeInt32Slice is like Int32.UnmarshalUnsafe, but for a []Int32.
+func UnmarshalUnsafeInt32Slice(dst []Int32, src []byte) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int32)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyOut(val, src[:(size*count)])
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// SizeBytes implements marshal.Marshallable.SizeBytes.
+//go:nosplit
+func (u *Uint32) SizeBytes() int {
+ return 4
+}
+
+// MarshalBytes implements marshal.Marshallable.MarshalBytes.
+func (u *Uint32) MarshalBytes(dst []byte) {
+ usermem.ByteOrder.PutUint32(dst[:4], uint32(*u))
+}
+
+// UnmarshalBytes implements marshal.Marshallable.UnmarshalBytes.
+func (u *Uint32) UnmarshalBytes(src []byte) {
+ *u = Uint32(uint32(usermem.ByteOrder.Uint32(src[:4])))
+}
+
+// Packed implements marshal.Marshallable.Packed.
+//go:nosplit
+func (u *Uint32) Packed() bool {
+ // Scalar newtypes are always packed.
+ return true
+}
+
+// MarshalUnsafe implements marshal.Marshallable.MarshalUnsafe.
+func (u *Uint32) MarshalUnsafe(dst []byte) {
+ safecopy.CopyIn(dst, unsafe.Pointer(u))
+}
+
+// UnmarshalUnsafe implements marshal.Marshallable.UnmarshalUnsafe.
+func (u *Uint32) UnmarshalUnsafe(src []byte) {
+ safecopy.CopyOut(unsafe.Pointer(u), src)
+}
+
+// CopyOutN implements marshal.Marshallable.CopyOutN.
+//go:nosplit
+func (u *Uint32) CopyOutN(task marshal.Task, addr usermem.Addr, limit int) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(u)))
+ hdr.Len = u.SizeBytes()
+ hdr.Cap = u.SizeBytes()
+
+ length, err := task.CopyOutBytes(addr, buf[:limit]) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that u
+ // must live until the use above.
+ runtime.KeepAlive(u)
+ return length, err
+}
+
+// CopyOut implements marshal.Marshallable.CopyOut.
+//go:nosplit
+func (u *Uint32) CopyOut(task marshal.Task, addr usermem.Addr) (int, error) {
+ return u.CopyOutN(task, addr, u.SizeBytes())
+}
+
+// CopyIn implements marshal.Marshallable.CopyIn.
+//go:nosplit
+func (u *Uint32) CopyIn(task marshal.Task, addr usermem.Addr) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(u)))
+ hdr.Len = u.SizeBytes()
+ hdr.Cap = u.SizeBytes()
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that u
+ // must live until the use above.
+ runtime.KeepAlive(u)
+ return length, err
+}
+
+// WriteTo implements io.WriterTo.WriteTo.
+func (u *Uint32) WriteTo(w io.Writer) (int64, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(u)))
+ hdr.Len = u.SizeBytes()
+ hdr.Cap = u.SizeBytes()
+
+ length, err := w.Write(buf)
+ // Since we bypassed the compiler's escape analysis, indicate that u
+ // must live until the use above.
+ runtime.KeepAlive(u)
+ return int64(length), err
+}
+
+// CopyUint32SliceIn copies in a slice of uint32 objects from the task's memory.
+//go:nosplit
+func CopyUint32SliceIn(task marshal.Task, addr usermem.Addr, dst []uint32) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint32)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// CopyUint32SliceOut copies a slice of uint32 objects to the task's memory.
+//go:nosplit
+func CopyUint32SliceOut(task marshal.Task, addr usermem.Addr, src []uint32) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint32)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyOutBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// MarshalUnsafeUint32Slice is like Uint32.MarshalUnsafe, but for a []Uint32.
+func MarshalUnsafeUint32Slice(src []Uint32, dst []byte) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint32)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyIn(dst[:(size*count)], val)
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// UnmarshalUnsafeUint32Slice is like Uint32.UnmarshalUnsafe, but for a []Uint32.
+func UnmarshalUnsafeUint32Slice(dst []Uint32, src []byte) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint32)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyOut(val, src[:(size*count)])
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// SizeBytes implements marshal.Marshallable.SizeBytes.
+//go:nosplit
+func (i *Int64) SizeBytes() int {
+ return 8
+}
+
+// MarshalBytes implements marshal.Marshallable.MarshalBytes.
+func (i *Int64) MarshalBytes(dst []byte) {
+ usermem.ByteOrder.PutUint64(dst[:8], uint64(*i))
+}
+
+// UnmarshalBytes implements marshal.Marshallable.UnmarshalBytes.
+func (i *Int64) UnmarshalBytes(src []byte) {
+ *i = Int64(int64(usermem.ByteOrder.Uint64(src[:8])))
+}
+
+// Packed implements marshal.Marshallable.Packed.
+//go:nosplit
+func (i *Int64) Packed() bool {
+ // Scalar newtypes are always packed.
+ return true
+}
+
+// MarshalUnsafe implements marshal.Marshallable.MarshalUnsafe.
+func (i *Int64) MarshalUnsafe(dst []byte) {
+ safecopy.CopyIn(dst, unsafe.Pointer(i))
+}
+
+// UnmarshalUnsafe implements marshal.Marshallable.UnmarshalUnsafe.
+func (i *Int64) UnmarshalUnsafe(src []byte) {
+ safecopy.CopyOut(unsafe.Pointer(i), src)
+}
+
+// CopyOutN implements marshal.Marshallable.CopyOutN.
+//go:nosplit
+func (i *Int64) CopyOutN(task marshal.Task, addr usermem.Addr, limit int) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(i)))
+ hdr.Len = i.SizeBytes()
+ hdr.Cap = i.SizeBytes()
+
+ length, err := task.CopyOutBytes(addr, buf[:limit]) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that i
+ // must live until the use above.
+ runtime.KeepAlive(i)
+ return length, err
+}
+
+// CopyOut implements marshal.Marshallable.CopyOut.
+//go:nosplit
+func (i *Int64) CopyOut(task marshal.Task, addr usermem.Addr) (int, error) {
+ return i.CopyOutN(task, addr, i.SizeBytes())
+}
+
+// CopyIn implements marshal.Marshallable.CopyIn.
+//go:nosplit
+func (i *Int64) CopyIn(task marshal.Task, addr usermem.Addr) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(i)))
+ hdr.Len = i.SizeBytes()
+ hdr.Cap = i.SizeBytes()
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that i
+ // must live until the use above.
+ runtime.KeepAlive(i)
+ return length, err
+}
+
+// WriteTo implements io.WriterTo.WriteTo.
+func (i *Int64) WriteTo(w io.Writer) (int64, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(i)))
+ hdr.Len = i.SizeBytes()
+ hdr.Cap = i.SizeBytes()
+
+ length, err := w.Write(buf)
+ // Since we bypassed the compiler's escape analysis, indicate that i
+ // must live until the use above.
+ runtime.KeepAlive(i)
+ return int64(length), err
+}
+
+// CopyInt64SliceIn copies in a slice of int64 objects from the task's memory.
+//go:nosplit
+func CopyInt64SliceIn(task marshal.Task, addr usermem.Addr, dst []int64) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int64)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// CopyInt64SliceOut copies a slice of int64 objects to the task's memory.
+//go:nosplit
+func CopyInt64SliceOut(task marshal.Task, addr usermem.Addr, src []int64) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int64)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyOutBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// MarshalUnsafeInt64Slice is like Int64.MarshalUnsafe, but for a []Int64.
+func MarshalUnsafeInt64Slice(src []Int64, dst []byte) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int64)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyIn(dst[:(size*count)], val)
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// UnmarshalUnsafeInt64Slice is like Int64.UnmarshalUnsafe, but for a []Int64.
+func UnmarshalUnsafeInt64Slice(dst []Int64, src []byte) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Int64)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyOut(val, src[:(size*count)])
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// SizeBytes implements marshal.Marshallable.SizeBytes.
+//go:nosplit
+func (u *Uint64) SizeBytes() int {
+ return 8
+}
+
+// MarshalBytes implements marshal.Marshallable.MarshalBytes.
+func (u *Uint64) MarshalBytes(dst []byte) {
+ usermem.ByteOrder.PutUint64(dst[:8], uint64(*u))
+}
+
+// UnmarshalBytes implements marshal.Marshallable.UnmarshalBytes.
+func (u *Uint64) UnmarshalBytes(src []byte) {
+ *u = Uint64(uint64(usermem.ByteOrder.Uint64(src[:8])))
+}
+
+// Packed implements marshal.Marshallable.Packed.
+//go:nosplit
+func (u *Uint64) Packed() bool {
+ // Scalar newtypes are always packed.
+ return true
+}
+
+// MarshalUnsafe implements marshal.Marshallable.MarshalUnsafe.
+func (u *Uint64) MarshalUnsafe(dst []byte) {
+ safecopy.CopyIn(dst, unsafe.Pointer(u))
+}
+
+// UnmarshalUnsafe implements marshal.Marshallable.UnmarshalUnsafe.
+func (u *Uint64) UnmarshalUnsafe(src []byte) {
+ safecopy.CopyOut(unsafe.Pointer(u), src)
+}
+
+// CopyOutN implements marshal.Marshallable.CopyOutN.
+//go:nosplit
+func (u *Uint64) CopyOutN(task marshal.Task, addr usermem.Addr, limit int) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(u)))
+ hdr.Len = u.SizeBytes()
+ hdr.Cap = u.SizeBytes()
+
+ length, err := task.CopyOutBytes(addr, buf[:limit]) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that u
+ // must live until the use above.
+ runtime.KeepAlive(u)
+ return length, err
+}
+
+// CopyOut implements marshal.Marshallable.CopyOut.
+//go:nosplit
+func (u *Uint64) CopyOut(task marshal.Task, addr usermem.Addr) (int, error) {
+ return u.CopyOutN(task, addr, u.SizeBytes())
+}
+
+// CopyIn implements marshal.Marshallable.CopyIn.
+//go:nosplit
+func (u *Uint64) CopyIn(task marshal.Task, addr usermem.Addr) (int, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(u)))
+ hdr.Len = u.SizeBytes()
+ hdr.Cap = u.SizeBytes()
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that u
+ // must live until the use above.
+ runtime.KeepAlive(u)
+ return length, err
+}
+
+// WriteTo implements io.WriterTo.WriteTo.
+func (u *Uint64) WriteTo(w io.Writer) (int64, error) {
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(gohacks.Noescape(unsafe.Pointer(u)))
+ hdr.Len = u.SizeBytes()
+ hdr.Cap = u.SizeBytes()
+
+ length, err := w.Write(buf)
+ // Since we bypassed the compiler's escape analysis, indicate that u
+ // must live until the use above.
+ runtime.KeepAlive(u)
+ return int64(length), err
+}
+
+// CopyUint64SliceIn copies in a slice of uint64 objects from the task's memory.
+//go:nosplit
+func CopyUint64SliceIn(task marshal.Task, addr usermem.Addr, dst []uint64) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint64)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyInBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
+// CopyUint64SliceOut copies a slice of uint64 objects to the task's memory.
+//go:nosplit
+func CopyUint64SliceOut(task marshal.Task, addr usermem.Addr, src []uint64) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint64)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ // Construct a slice backed by dst's underlying memory.
+ var buf []byte
+ hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf))
+ hdr.Data = uintptr(val)
+ hdr.Len = size * count
+ hdr.Cap = size * count
+
+ length, err := task.CopyOutBytes(addr, buf) // escapes: okay.
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// MarshalUnsafeUint64Slice is like Uint64.MarshalUnsafe, but for a []Uint64.
+func MarshalUnsafeUint64Slice(src []Uint64, dst []byte) (int, error) {
+ count := len(src)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint64)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&src)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyIn(dst[:(size*count)], val)
+ // Since we bypassed the compiler's escape analysis, indicate that src
+ // must live until the use above.
+ runtime.KeepAlive(src)
+ return length, err
+}
+
+// UnmarshalUnsafeUint64Slice is like Uint64.UnmarshalUnsafe, but for a []Uint64.
+func UnmarshalUnsafeUint64Slice(dst []Uint64, src []byte) (int, error) {
+ count := len(dst)
+ if count == 0 {
+ return 0, nil
+ }
+ size := (*Uint64)(nil).SizeBytes()
+
+ ptr := unsafe.Pointer(&dst)
+ val := gohacks.Noescape(unsafe.Pointer((*reflect.SliceHeader)(ptr).Data))
+
+ length, err := safecopy.CopyOut(val, src[:(size*count)])
+ // Since we bypassed the compiler's escape analysis, indicate that dst
+ // must live until the use above.
+ runtime.KeepAlive(dst)
+ return length, err
+}
+
diff --git a/tools/go_marshal/primitive/primitive_state_autogen.go b/tools/go_marshal/primitive/primitive_state_autogen.go
new file mode 100644
index 000000000..f9db3a918
--- /dev/null
+++ b/tools/go_marshal/primitive/primitive_state_autogen.go
@@ -0,0 +1,3 @@
+// automatically generated by stateify.
+
+package primitive
diff --git a/tools/go_marshal/test/BUILD b/tools/go_marshal/test/BUILD
deleted file mode 100644
index 3d989823a..000000000
--- a/tools/go_marshal/test/BUILD
+++ /dev/null
@@ -1,44 +0,0 @@
-load("//tools:defs.bzl", "go_library", "go_test")
-
-licenses(["notice"])
-
-package_group(
- name = "gomarshal_test",
- packages = [
- "//tools/go_marshal/test/...",
- ],
-)
-
-go_test(
- name = "benchmark_test",
- srcs = ["benchmark_test.go"],
- deps = [
- ":test",
- "//pkg/binary",
- "//pkg/usermem",
- "//tools/go_marshal/analysis",
- ],
-)
-
-go_library(
- name = "test",
- testonly = 1,
- srcs = ["test.go"],
- marshal = True,
- visibility = ["//tools/go_marshal/test:__subpackages__"],
- deps = ["//tools/go_marshal/test/external"],
-)
-
-go_test(
- name = "marshal_test",
- size = "small",
- srcs = ["marshal_test.go"],
- deps = [
- ":test",
- "//pkg/syserror",
- "//pkg/usermem",
- "//tools/go_marshal/analysis",
- "//tools/go_marshal/marshal",
- "@com_github_google_go_cmp//cmp:go_default_library",
- ],
-)
diff --git a/tools/go_marshal/test/benchmark_test.go b/tools/go_marshal/test/benchmark_test.go
deleted file mode 100644
index 224d308c7..000000000
--- a/tools/go_marshal/test/benchmark_test.go
+++ /dev/null
@@ -1,220 +0,0 @@
-// 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 benchmark_test
-
-import (
- "bytes"
- encbin "encoding/binary"
- "fmt"
- "reflect"
- "testing"
-
- "gvisor.dev/gvisor/pkg/binary"
- "gvisor.dev/gvisor/pkg/usermem"
- "gvisor.dev/gvisor/tools/go_marshal/analysis"
- "gvisor.dev/gvisor/tools/go_marshal/test"
-)
-
-// Marshalling using the standard encoding/binary package.
-func BenchmarkEncodingBinary(b *testing.B) {
- var s1, s2 test.Stat
- analysis.RandomizeValue(&s1)
-
- size := encbin.Size(&s1)
-
- b.ResetTimer()
-
- for n := 0; n < b.N; n++ {
- buf := bytes.NewBuffer(make([]byte, size))
- buf.Reset()
- if err := encbin.Write(buf, usermem.ByteOrder, &s1); err != nil {
- b.Error("Write:", err)
- }
- if err := encbin.Read(buf, usermem.ByteOrder, &s2); err != nil {
- b.Error("Read:", err)
- }
- }
-
- b.StopTimer()
-
- // Sanity check, make sure the values were preserved.
- if !reflect.DeepEqual(s1, s2) {
- panic(fmt.Sprintf("Data corruption across marshal/unmarshal cycle:\nBefore: %+v\nAfter: %+v\n", s1, s2))
- }
-}
-
-// Marshalling using the sentry's binary.Marshal.
-func BenchmarkBinary(b *testing.B) {
- var s1, s2 test.Stat
- analysis.RandomizeValue(&s1)
-
- size := binary.Size(s1)
-
- b.ResetTimer()
-
- for n := 0; n < b.N; n++ {
- buf := make([]byte, 0, size)
- buf = binary.Marshal(buf, usermem.ByteOrder, &s1)
- binary.Unmarshal(buf, usermem.ByteOrder, &s2)
- }
-
- b.StopTimer()
-
- // Sanity check, make sure the values were preserved.
- if !reflect.DeepEqual(s1, s2) {
- panic(fmt.Sprintf("Data corruption across marshal/unmarshal cycle:\nBefore: %+v\nAfter: %+v\n", s1, s2))
- }
-}
-
-// Marshalling field-by-field with manually-written code.
-func BenchmarkMarshalManual(b *testing.B) {
- var s1, s2 test.Stat
- analysis.RandomizeValue(&s1)
-
- b.ResetTimer()
-
- for n := 0; n < b.N; n++ {
- buf := make([]byte, 0, s1.SizeBytes())
-
- // Marshal
- buf = binary.AppendUint64(buf, usermem.ByteOrder, s1.Dev)
- buf = binary.AppendUint64(buf, usermem.ByteOrder, s1.Ino)
- buf = binary.AppendUint64(buf, usermem.ByteOrder, s1.Nlink)
- buf = binary.AppendUint32(buf, usermem.ByteOrder, s1.Mode)
- buf = binary.AppendUint32(buf, usermem.ByteOrder, s1.UID)
- buf = binary.AppendUint32(buf, usermem.ByteOrder, s1.GID)
- buf = binary.AppendUint32(buf, usermem.ByteOrder, 0)
- buf = binary.AppendUint64(buf, usermem.ByteOrder, s1.Rdev)
- buf = binary.AppendUint64(buf, usermem.ByteOrder, uint64(s1.Size))
- buf = binary.AppendUint64(buf, usermem.ByteOrder, uint64(s1.Blksize))
- buf = binary.AppendUint64(buf, usermem.ByteOrder, uint64(s1.Blocks))
- buf = binary.AppendUint64(buf, usermem.ByteOrder, uint64(s1.ATime.Sec))
- buf = binary.AppendUint64(buf, usermem.ByteOrder, uint64(s1.ATime.Nsec))
- buf = binary.AppendUint64(buf, usermem.ByteOrder, uint64(s1.MTime.Sec))
- buf = binary.AppendUint64(buf, usermem.ByteOrder, uint64(s1.MTime.Nsec))
- buf = binary.AppendUint64(buf, usermem.ByteOrder, uint64(s1.CTime.Sec))
- buf = binary.AppendUint64(buf, usermem.ByteOrder, uint64(s1.CTime.Nsec))
-
- // Unmarshal
- s2.Dev = usermem.ByteOrder.Uint64(buf[0:8])
- s2.Ino = usermem.ByteOrder.Uint64(buf[8:16])
- s2.Nlink = usermem.ByteOrder.Uint64(buf[16:24])
- s2.Mode = usermem.ByteOrder.Uint32(buf[24:28])
- s2.UID = usermem.ByteOrder.Uint32(buf[28:32])
- s2.GID = usermem.ByteOrder.Uint32(buf[32:36])
- // Padding: buf[36:40]
- s2.Rdev = usermem.ByteOrder.Uint64(buf[40:48])
- s2.Size = int64(usermem.ByteOrder.Uint64(buf[48:56]))
- s2.Blksize = int64(usermem.ByteOrder.Uint64(buf[56:64]))
- s2.Blocks = int64(usermem.ByteOrder.Uint64(buf[64:72]))
- s2.ATime.Sec = int64(usermem.ByteOrder.Uint64(buf[72:80]))
- s2.ATime.Nsec = int64(usermem.ByteOrder.Uint64(buf[80:88]))
- s2.MTime.Sec = int64(usermem.ByteOrder.Uint64(buf[88:96]))
- s2.MTime.Nsec = int64(usermem.ByteOrder.Uint64(buf[96:104]))
- s2.CTime.Sec = int64(usermem.ByteOrder.Uint64(buf[104:112]))
- s2.CTime.Nsec = int64(usermem.ByteOrder.Uint64(buf[112:120]))
- }
-
- b.StopTimer()
-
- // Sanity check, make sure the values were preserved.
- if !reflect.DeepEqual(s1, s2) {
- panic(fmt.Sprintf("Data corruption across marshal/unmarshal cycle:\nBefore: %+v\nAfter: %+v\n", s1, s2))
- }
-}
-
-// Marshalling with the go_marshal safe API.
-func BenchmarkGoMarshalSafe(b *testing.B) {
- var s1, s2 test.Stat
- analysis.RandomizeValue(&s1)
-
- b.ResetTimer()
-
- for n := 0; n < b.N; n++ {
- buf := make([]byte, s1.SizeBytes())
- s1.MarshalBytes(buf)
- s2.UnmarshalBytes(buf)
- }
-
- b.StopTimer()
-
- // Sanity check, make sure the values were preserved.
- if !reflect.DeepEqual(s1, s2) {
- panic(fmt.Sprintf("Data corruption across marshal/unmarshal cycle:\nBefore: %+v\nAfter: %+v\n", s1, s2))
- }
-}
-
-// Marshalling with the go_marshal unsafe API.
-func BenchmarkGoMarshalUnsafe(b *testing.B) {
- var s1, s2 test.Stat
- analysis.RandomizeValue(&s1)
-
- b.ResetTimer()
-
- for n := 0; n < b.N; n++ {
- buf := make([]byte, s1.SizeBytes())
- s1.MarshalUnsafe(buf)
- s2.UnmarshalUnsafe(buf)
- }
-
- b.StopTimer()
-
- // Sanity check, make sure the values were preserved.
- if !reflect.DeepEqual(s1, s2) {
- panic(fmt.Sprintf("Data corruption across marshal/unmarshal cycle:\nBefore: %+v\nAfter: %+v\n", s1, s2))
- }
-}
-
-func BenchmarkBinarySlice(b *testing.B) {
- var s1, s2 [64]test.Stat
- analysis.RandomizeValue(&s1)
-
- size := binary.Size(s1)
-
- b.ResetTimer()
-
- for n := 0; n < b.N; n++ {
- buf := make([]byte, 0, size)
- buf = binary.Marshal(buf, usermem.ByteOrder, &s1)
- binary.Unmarshal(buf, usermem.ByteOrder, &s2)
- }
-
- b.StopTimer()
-
- // Sanity check, make sure the values were preserved.
- if !reflect.DeepEqual(s1, s2) {
- panic(fmt.Sprintf("Data corruption across marshal/unmarshal cycle:\nBefore: %+v\nAfter: %+v\n", s1, s2))
- }
-}
-
-func BenchmarkGoMarshalUnsafeSlice(b *testing.B) {
- var s1, s2 [64]test.Stat
- analysis.RandomizeValue(&s1)
-
- b.ResetTimer()
-
- for n := 0; n < b.N; n++ {
- buf := make([]byte, (*test.Stat)(nil).SizeBytes()*len(s1))
- test.MarshalUnsafeStatSlice(s1[:], buf)
- test.UnmarshalUnsafeStatSlice(s2[:], buf)
- }
-
- b.StopTimer()
-
- // Sanity check, make sure the values were preserved.
- if !reflect.DeepEqual(s1, s2) {
- panic(fmt.Sprintf("Data corruption across marshal/unmarshal cycle:\nBefore: %+v\nAfter: %+v\n", s1, s2))
- }
-}
diff --git a/tools/go_marshal/test/escape/BUILD b/tools/go_marshal/test/escape/BUILD
deleted file mode 100644
index f74e6ffae..000000000
--- a/tools/go_marshal/test/escape/BUILD
+++ /dev/null
@@ -1,14 +0,0 @@
-load("//tools:defs.bzl", "go_library")
-
-licenses(["notice"])
-
-go_library(
- name = "escape",
- testonly = 1,
- srcs = ["escape.go"],
- deps = [
- "//pkg/usermem",
- "//tools/go_marshal/marshal",
- "//tools/go_marshal/test",
- ],
-)
diff --git a/tools/go_marshal/test/escape/escape.go b/tools/go_marshal/test/escape/escape.go
deleted file mode 100644
index 6a46ddbf8..000000000
--- a/tools/go_marshal/test/escape/escape.go
+++ /dev/null
@@ -1,95 +0,0 @@
-// Copyright 2020 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 escape
-
-import (
- "gvisor.dev/gvisor/pkg/usermem"
- "gvisor.dev/gvisor/tools/go_marshal/marshal"
- "gvisor.dev/gvisor/tools/go_marshal/test"
-)
-
-// dummyTask implements marshal.Task.
-type dummyTask struct {
-}
-
-func (*dummyTask) CopyScratchBuffer(size int) []byte {
- return make([]byte, size)
-}
-
-func (*dummyTask) CopyOutBytes(addr usermem.Addr, b []byte) (int, error) {
- return len(b), nil
-}
-
-func (*dummyTask) CopyInBytes(addr usermem.Addr, b []byte) (int, error) {
- return len(b), nil
-}
-
-func (t *dummyTask) MarshalBytes(addr usermem.Addr, marshallable marshal.Marshallable) {
- buf := t.CopyScratchBuffer(marshallable.SizeBytes())
- marshallable.MarshalBytes(buf)
- t.CopyOutBytes(addr, buf)
-}
-
-func (t *dummyTask) MarshalUnsafe(addr usermem.Addr, marshallable marshal.Marshallable) {
- buf := t.CopyScratchBuffer(marshallable.SizeBytes())
- marshallable.MarshalUnsafe(buf)
- t.CopyOutBytes(addr, buf)
-}
-
-// +checkescape:all
-//go:nosplit
-func doCopyIn(t *dummyTask) {
- var stat test.Stat
- stat.CopyIn(t, usermem.Addr(0xf000ba12))
-}
-
-// +checkescape:all
-//go:nosplit
-func doCopyOut(t *dummyTask) {
- var stat test.Stat
- stat.CopyOut(t, usermem.Addr(0xf000ba12))
-}
-
-// +mustescape:builtin
-// +mustescape:stack
-func doMarshalBytesDirect(t *dummyTask) {
- var stat test.Stat
- buf := t.CopyScratchBuffer(stat.SizeBytes())
- stat.MarshalBytes(buf)
- t.CopyOutBytes(usermem.Addr(0xf000ba12), buf)
-}
-
-// +mustescape:builtin
-// +mustescape:stack
-func doMarshalUnsafeDirect(t *dummyTask) {
- var stat test.Stat
- buf := t.CopyScratchBuffer(stat.SizeBytes())
- stat.MarshalUnsafe(buf)
- t.CopyOutBytes(usermem.Addr(0xf000ba12), buf)
-}
-
-// +mustescape:local,heap
-// +mustescape:stack
-func doMarshalBytesViaMarshallable(t *dummyTask) {
- var stat test.Stat
- t.MarshalBytes(usermem.Addr(0xf000ba12), &stat)
-}
-
-// +mustescape:local,heap
-// +mustescape:stack
-func doMarshalUnsafeViaMarshallable(t *dummyTask) {
- var stat test.Stat
- t.MarshalUnsafe(usermem.Addr(0xf000ba12), &stat)
-}
diff --git a/tools/go_marshal/test/external/BUILD b/tools/go_marshal/test/external/BUILD
deleted file mode 100644
index 0cf6da603..000000000
--- a/tools/go_marshal/test/external/BUILD
+++ /dev/null
@@ -1,11 +0,0 @@
-load("//tools:defs.bzl", "go_library")
-
-licenses(["notice"])
-
-go_library(
- name = "external",
- testonly = 1,
- srcs = ["external.go"],
- marshal = True,
- visibility = ["//tools/go_marshal/test:gomarshal_test"],
-)
diff --git a/tools/go_marshal/test/external/external.go b/tools/go_marshal/test/external/external.go
deleted file mode 100644
index 26fe8e0c8..000000000
--- a/tools/go_marshal/test/external/external.go
+++ /dev/null
@@ -1,31 +0,0 @@
-// 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 external defines types we can import for testing.
-package external
-
-// External is a public Marshallable type for use in testing.
-//
-// +marshal
-type External struct {
- j int64
-}
-
-// NotPacked is an unaligned Marshallable type for use in testing.
-//
-// +marshal
-type NotPacked struct {
- a int32
- b byte `marshal:"unaligned"`
-}
diff --git a/tools/go_marshal/test/marshal_test.go b/tools/go_marshal/test/marshal_test.go
deleted file mode 100644
index 16829ee45..000000000
--- a/tools/go_marshal/test/marshal_test.go
+++ /dev/null
@@ -1,515 +0,0 @@
-// Copyright 2020 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 marshal_test contains manual tests for the marshal interface. These
-// are intended to test behaviour not covered by the automatically generated
-// tests.
-package marshal_test
-
-import (
- "bytes"
- "encoding/binary"
- "fmt"
- "reflect"
- "runtime"
- "testing"
- "unsafe"
-
- "github.com/google/go-cmp/cmp"
- "gvisor.dev/gvisor/pkg/syserror"
- "gvisor.dev/gvisor/pkg/usermem"
- "gvisor.dev/gvisor/tools/go_marshal/analysis"
- "gvisor.dev/gvisor/tools/go_marshal/marshal"
- "gvisor.dev/gvisor/tools/go_marshal/test"
-)
-
-var simulatedErr error = syserror.EFAULT
-
-// mockTask implements marshal.Task.
-type mockTask struct {
- taskMem usermem.BytesIO
-}
-
-// populate fills the task memory with the contents of val.
-func (t *mockTask) populate(val interface{}) {
- var buf bytes.Buffer
- // Use binary.Write so we aren't testing go-marshal against its own
- // potentially buggy implementation.
- if err := binary.Write(&buf, usermem.ByteOrder, val); err != nil {
- panic(err)
- }
- t.taskMem.Bytes = buf.Bytes()
-}
-
-func (t *mockTask) setLimit(n int) {
- if len(t.taskMem.Bytes) < n {
- grown := make([]byte, n)
- copy(grown, t.taskMem.Bytes)
- t.taskMem.Bytes = grown
- return
- }
- t.taskMem.Bytes = t.taskMem.Bytes[:n]
-}
-
-// CopyScratchBuffer implements marshal.Task.CopyScratchBuffer.
-func (t *mockTask) CopyScratchBuffer(size int) []byte {
- return make([]byte, size)
-}
-
-// CopyOutBytes implements marshal.Task.CopyOutBytes. The implementation
-// completely ignores the target address and stores a copy of b in its
-// internally buffer, overriding any previous contents.
-func (t *mockTask) CopyOutBytes(_ usermem.Addr, b []byte) (int, error) {
- return t.taskMem.CopyOut(nil, 0, b, usermem.IOOpts{})
-}
-
-// CopyInBytes implements marshal.Task.CopyInBytes. The implementation
-// completely ignores the source address and always fills b from the begining of
-// its internal buffer.
-func (t *mockTask) CopyInBytes(_ usermem.Addr, b []byte) (int, error) {
- return t.taskMem.CopyIn(nil, 0, b, usermem.IOOpts{})
-}
-
-// unsafeMemory returns the underlying memory for m. The returned slice is only
-// valid for the lifetime for m. The garbage collector isn't aware that the
-// returned slice is related to m, the caller must ensure m lives long enough.
-func unsafeMemory(m marshal.Marshallable) []byte {
- if !m.Packed() {
- // We can't return a slice pointing to the underlying memory
- // since the layout isn't packed. Allocate a temporary buffer
- // and marshal instead.
- var buf bytes.Buffer
- if err := binary.Write(&buf, usermem.ByteOrder, m); err != nil {
- panic(err)
- }
- return buf.Bytes()
- }
-
- // reflect.ValueOf(m)
- // .Elem() // Unwrap interface to inner concrete object
- // .Addr() // Pointer value to object
- // .Pointer() // Actual address from the pointer value
- ptr := reflect.ValueOf(m).Elem().Addr().Pointer()
-
- size := m.SizeBytes()
-
- var mem []byte
- hdr := (*reflect.SliceHeader)(unsafe.Pointer(&mem))
- hdr.Data = ptr
- hdr.Len = size
- hdr.Cap = size
-
- return mem
-}
-
-// unsafeMemorySlice returns the underlying memory for m. The returned slice is
-// only valid for the lifetime for m. The garbage collector isn't aware that the
-// returned slice is related to m, the caller must ensure m lives long enough.
-//
-// Precondition: m must be a slice.
-func unsafeMemorySlice(m interface{}, elt marshal.Marshallable) []byte {
- kind := reflect.TypeOf(m).Kind()
- if kind != reflect.Slice {
- panic("unsafeMemorySlice called on non-slice")
- }
-
- if !elt.Packed() {
- // We can't return a slice pointing to the underlying memory
- // since the layout isn't packed. Allocate a temporary buffer
- // and marshal instead.
- var buf bytes.Buffer
- if err := binary.Write(&buf, usermem.ByteOrder, m); err != nil {
- panic(err)
- }
- return buf.Bytes()
- }
-
- v := reflect.ValueOf(m)
- length := v.Len() * elt.SizeBytes()
-
- var mem []byte
- hdr := (*reflect.SliceHeader)(unsafe.Pointer(&mem))
- hdr.Data = v.Pointer() // This is a pointer to the first elem for slices.
- hdr.Len = length
- hdr.Cap = length
-
- return mem
-}
-
-func isZeroes(buf []byte) bool {
- for _, b := range buf {
- if b != 0 {
- return false
- }
- }
- return true
-}
-
-// compareMemory compares the first n bytes of two chuncks of memory represented
-// by expected and actual.
-func compareMemory(t *testing.T, expected, actual []byte, n int) {
- t.Logf("Expected (%d): %v (%d) + (%d) %v\n", len(expected), expected[:n], n, len(expected)-n, expected[n:])
- t.Logf("Actual (%d): %v (%d) + (%d) %v\n", len(actual), actual[:n], n, len(actual)-n, actual[n:])
-
- if diff := cmp.Diff(expected[:n], actual[:n]); diff != "" {
- t.Errorf("Memory buffers don't match:\n--- expected only\n+++ actual only\n%v", diff)
- }
-}
-
-// limitedCopyIn populates task memory with src, then unmarshals task memory to
-// dst. The task signals an error at limit bytes during copy-in, which should
-// result in a truncated unmarshalling.
-func limitedCopyIn(t *testing.T, src, dst marshal.Marshallable, limit int) {
- var task mockTask
- task.populate(src)
- task.setLimit(limit)
-
- n, err := dst.CopyIn(&task, usermem.Addr(0))
- if n != limit {
- t.Errorf("CopyIn copied unexpected number of bytes, expected %d, got %d", limit, n)
- }
- if err != simulatedErr {
- t.Errorf("CopyIn returned unexpected error, expected %v, got %v", simulatedErr, err)
- }
-
- expectedMem := unsafeMemory(src)
- defer runtime.KeepAlive(src)
- actualMem := unsafeMemory(dst)
- defer runtime.KeepAlive(dst)
-
- compareMemory(t, expectedMem, actualMem, n)
-
- // The last n bytes should be zero for actual, since actual was
- // zero-initialized, and CopyIn shouldn't have touched those bytes. However
- // we can only guarantee we didn't touch anything in the last n bytes if the
- // layout is packed.
- if dst.Packed() && !isZeroes(actualMem[n:]) {
- t.Errorf("Expected the last %d bytes of copied in object to be zeroes, got %v\n", dst.SizeBytes()-n, actualMem)
- }
-}
-
-// limitedCopyOut marshals src to task memory. The task signals an error at
-// limit bytes during copy-out, which should result in a truncated marshalling.
-func limitedCopyOut(t *testing.T, src marshal.Marshallable, limit int) {
- var task mockTask
- task.setLimit(limit)
-
- n, err := src.CopyOut(&task, usermem.Addr(0))
- if n != limit {
- t.Errorf("CopyOut copied unexpected number of bytes, expected %d, got %d", limit, n)
- }
- if err != simulatedErr {
- t.Errorf("CopyOut returned unexpected error, expected %v, got %v", simulatedErr, err)
- }
-
- expectedMem := unsafeMemory(src)
- defer runtime.KeepAlive(src)
- actualMem := task.taskMem.Bytes
-
- compareMemory(t, expectedMem, actualMem, n)
-}
-
-// copyOutN marshals src to task memory, requesting the marshalling to be
-// limited to limit bytes.
-func copyOutN(t *testing.T, src marshal.Marshallable, limit int) {
- var task mockTask
- task.setLimit(limit)
-
- n, err := src.CopyOutN(&task, usermem.Addr(0), limit)
- if err != nil {
- t.Errorf("CopyOut returned unexpected error: %v", err)
- }
- if n != limit {
- t.Errorf("CopyOut copied unexpected number of bytes, expected %d, got %d", limit, n)
- }
-
- expectedMem := unsafeMemory(src)
- defer runtime.KeepAlive(src)
- actualMem := task.taskMem.Bytes
-
- t.Logf("Expected: %v + %v\n", expectedMem[:n], expectedMem[n:])
- t.Logf("Actual : %v + %v\n", actualMem[:n], actualMem[n:])
-
- compareMemory(t, expectedMem, actualMem, n)
-}
-
-// TestLimitedMarshalling verifies marshalling/unmarshalling succeeds when the
-// underyling copy in/out operations partially succeed.
-func TestLimitedMarshalling(t *testing.T) {
- types := []reflect.Type{
- // Packed types.
- reflect.TypeOf((*test.Type2)(nil)),
- reflect.TypeOf((*test.Type3)(nil)),
- reflect.TypeOf((*test.Timespec)(nil)),
- reflect.TypeOf((*test.Stat)(nil)),
- reflect.TypeOf((*test.InetAddr)(nil)),
- reflect.TypeOf((*test.SignalSet)(nil)),
- reflect.TypeOf((*test.SignalSetAlias)(nil)),
- // Non-packed types.
- reflect.TypeOf((*test.Type1)(nil)),
- reflect.TypeOf((*test.Type4)(nil)),
- reflect.TypeOf((*test.Type5)(nil)),
- reflect.TypeOf((*test.Type6)(nil)),
- reflect.TypeOf((*test.Type7)(nil)),
- reflect.TypeOf((*test.Type8)(nil)),
- }
-
- for _, tyPtr := range types {
- // Remove one level of pointer-indirection from the type. We get this
- // back when we pass the type to reflect.New.
- ty := tyPtr.Elem()
-
- // Partial copy-in.
- t.Run(fmt.Sprintf("PartialCopyIn_%v", ty), func(t *testing.T) {
- expected := reflect.New(ty).Interface().(marshal.Marshallable)
- actual := reflect.New(ty).Interface().(marshal.Marshallable)
- analysis.RandomizeValue(expected)
-
- limitedCopyIn(t, expected, actual, expected.SizeBytes()/2)
- })
-
- // Partial copy-out.
- t.Run(fmt.Sprintf("PartialCopyOut_%v", ty), func(t *testing.T) {
- expected := reflect.New(ty).Interface().(marshal.Marshallable)
- analysis.RandomizeValue(expected)
-
- limitedCopyOut(t, expected, expected.SizeBytes()/2)
- })
-
- // Explicitly request partial copy-out.
- t.Run(fmt.Sprintf("PartialCopyOutN_%v", ty), func(t *testing.T) {
- expected := reflect.New(ty).Interface().(marshal.Marshallable)
- analysis.RandomizeValue(expected)
-
- copyOutN(t, expected, expected.SizeBytes()/2)
- })
- }
-}
-
-// TestLimitedMarshalling verifies marshalling/unmarshalling of slices of
-// marshallable types succeed when the underyling copy in/out operations
-// partially succeed.
-func TestLimitedSliceMarshalling(t *testing.T) {
- types := []struct {
- arrayPtrType reflect.Type
- copySliceIn func(task marshal.Task, addr usermem.Addr, dstSlice interface{}) (int, error)
- copySliceOut func(task marshal.Task, addr usermem.Addr, srcSlice interface{}) (int, error)
- unsafeMemory func(arrPtr interface{}) []byte
- }{
- // Packed types.
- {
- reflect.TypeOf((*[20]test.Stat)(nil)),
- func(task marshal.Task, addr usermem.Addr, dst interface{}) (int, error) {
- slice := dst.(*[20]test.Stat)[:]
- return test.CopyStatSliceIn(task, addr, slice)
- },
- func(task marshal.Task, addr usermem.Addr, src interface{}) (int, error) {
- slice := src.(*[20]test.Stat)[:]
- return test.CopyStatSliceOut(task, addr, slice)
- },
- func(a interface{}) []byte {
- slice := a.(*[20]test.Stat)[:]
- return unsafeMemorySlice(slice, &slice[0])
- },
- },
- {
- reflect.TypeOf((*[1]test.Stat)(nil)),
- func(task marshal.Task, addr usermem.Addr, dst interface{}) (int, error) {
- slice := dst.(*[1]test.Stat)[:]
- return test.CopyStatSliceIn(task, addr, slice)
- },
- func(task marshal.Task, addr usermem.Addr, src interface{}) (int, error) {
- slice := src.(*[1]test.Stat)[:]
- return test.CopyStatSliceOut(task, addr, slice)
- },
- func(a interface{}) []byte {
- slice := a.(*[1]test.Stat)[:]
- return unsafeMemorySlice(slice, &slice[0])
- },
- },
- {
- reflect.TypeOf((*[5]test.SignalSetAlias)(nil)),
- func(task marshal.Task, addr usermem.Addr, dst interface{}) (int, error) {
- slice := dst.(*[5]test.SignalSetAlias)[:]
- return test.CopySignalSetAliasSliceIn(task, addr, slice)
- },
- func(task marshal.Task, addr usermem.Addr, src interface{}) (int, error) {
- slice := src.(*[5]test.SignalSetAlias)[:]
- return test.CopySignalSetAliasSliceOut(task, addr, slice)
- },
- func(a interface{}) []byte {
- slice := a.(*[5]test.SignalSetAlias)[:]
- return unsafeMemorySlice(slice, &slice[0])
- },
- },
- // Non-packed types.
- {
- reflect.TypeOf((*[20]test.Type1)(nil)),
- func(task marshal.Task, addr usermem.Addr, dst interface{}) (int, error) {
- slice := dst.(*[20]test.Type1)[:]
- return test.CopyType1SliceIn(task, addr, slice)
- },
- func(task marshal.Task, addr usermem.Addr, src interface{}) (int, error) {
- slice := src.(*[20]test.Type1)[:]
- return test.CopyType1SliceOut(task, addr, slice)
- },
- func(a interface{}) []byte {
- slice := a.(*[20]test.Type1)[:]
- return unsafeMemorySlice(slice, &slice[0])
- },
- },
- {
- reflect.TypeOf((*[1]test.Type1)(nil)),
- func(task marshal.Task, addr usermem.Addr, dst interface{}) (int, error) {
- slice := dst.(*[1]test.Type1)[:]
- return test.CopyType1SliceIn(task, addr, slice)
- },
- func(task marshal.Task, addr usermem.Addr, src interface{}) (int, error) {
- slice := src.(*[1]test.Type1)[:]
- return test.CopyType1SliceOut(task, addr, slice)
- },
- func(a interface{}) []byte {
- slice := a.(*[1]test.Type1)[:]
- return unsafeMemorySlice(slice, &slice[0])
- },
- },
- {
- reflect.TypeOf((*[7]test.Type8)(nil)),
- func(task marshal.Task, addr usermem.Addr, dst interface{}) (int, error) {
- slice := dst.(*[7]test.Type8)[:]
- return test.CopyType8SliceIn(task, addr, slice)
- },
- func(task marshal.Task, addr usermem.Addr, src interface{}) (int, error) {
- slice := src.(*[7]test.Type8)[:]
- return test.CopyType8SliceOut(task, addr, slice)
- },
- func(a interface{}) []byte {
- slice := a.(*[7]test.Type8)[:]
- return unsafeMemorySlice(slice, &slice[0])
- },
- },
- }
-
- for _, tt := range types {
- // The body of this loop is generic over the type tt.arrayPtrType, with
- // the help of reflection. To aid in readability, comments below show
- // the equivalent go code assuming
- // tt.arrayPtrType = typeof(*[20]test.Stat).
-
- // Equivalent:
- // var x *[20]test.Stat
- // arrayTy := reflect.TypeOf(*x)
- arrayTy := tt.arrayPtrType.Elem()
-
- // Partial copy-in of slices.
- t.Run(fmt.Sprintf("PartialCopySliceIn_%v", arrayTy), func(t *testing.T) {
- // Equivalent:
- // var x [20]test.Stat
- // length := len(x)
- length := arrayTy.Len()
- if length < 1 {
- panic("Test type can't be zero-length array")
- }
- // Equivalent:
- // elem := new(test.Stat).(marshal.Marshallable)
- elem := reflect.New(arrayTy.Elem()).Interface().(marshal.Marshallable)
-
- // Equivalent:
- // var expected, actual interface{}
- // expected = new([20]test.Stat)
- // actual = new([20]test.Stat)
- expected := reflect.New(arrayTy).Interface()
- actual := reflect.New(arrayTy).Interface()
-
- analysis.RandomizeValue(expected)
-
- limit := (length * elem.SizeBytes()) / 2
- // Also make sure the limit is partially inside one of the elements.
- limit += elem.SizeBytes() / 2
- analysis.RandomizeValue(expected)
-
- var task mockTask
- task.populate(expected)
- task.setLimit(limit)
-
- n, err := tt.copySliceIn(&task, usermem.Addr(0), actual)
- if n != limit {
- t.Errorf("CopyIn copied unexpected number of bytes, expected %d, got %d", limit, n)
- }
- if n < length*elem.SizeBytes() && err != simulatedErr {
- t.Errorf("CopyIn returned unexpected error, expected %v, got %v", simulatedErr, err)
- }
-
- expectedMem := tt.unsafeMemory(expected)
- defer runtime.KeepAlive(expected)
- actualMem := tt.unsafeMemory(actual)
- defer runtime.KeepAlive(actual)
-
- compareMemory(t, expectedMem, actualMem, n)
-
- // The last n bytes should be zero for actual, since actual was
- // zero-initialized, and CopyIn shouldn't have touched those bytes. However
- // we can only guarantee we didn't touch anything in the last n bytes if the
- // layout is packed.
- if elem.Packed() && !isZeroes(actualMem[n:]) {
- t.Errorf("Expected the last %d bytes of copied in object to be zeroes, got %v\n", (elem.SizeBytes()*length)-n, actualMem)
- }
- })
-
- // Partial copy-out of slices.
- t.Run(fmt.Sprintf("PartialCopySliceOut_%v", arrayTy), func(t *testing.T) {
- // Equivalent:
- // var x [20]test.Stat
- // length := len(x)
- length := arrayTy.Len()
- if length < 1 {
- panic("Test type can't be zero-length array")
- }
- // Equivalent:
- // elem := new(test.Stat).(marshal.Marshallable)
- elem := reflect.New(arrayTy.Elem()).Interface().(marshal.Marshallable)
-
- // Equivalent:
- // var expected, actual interface{}
- // expected = new([20]test.Stat)
- // actual = new([20]test.Stat)
- expected := reflect.New(arrayTy).Interface()
-
- analysis.RandomizeValue(expected)
-
- limit := (length * elem.SizeBytes()) / 2
- // Also make sure the limit is partially inside one of the elements.
- limit += elem.SizeBytes() / 2
- analysis.RandomizeValue(expected)
-
- var task mockTask
- task.populate(expected)
- task.setLimit(limit)
-
- n, err := tt.copySliceOut(&task, usermem.Addr(0), expected)
- if n != limit {
- t.Errorf("CopyIn copied unexpected number of bytes, expected %d, got %d", limit, n)
- }
- if n < length*elem.SizeBytes() && err != simulatedErr {
- t.Errorf("CopyIn returned unexpected error, expected %v, got %v", simulatedErr, err)
- }
-
- expectedMem := tt.unsafeMemory(expected)
- defer runtime.KeepAlive(expected)
- actualMem := task.taskMem.Bytes
-
- compareMemory(t, expectedMem, actualMem, n)
- })
- }
-}
diff --git a/tools/go_marshal/test/test.go b/tools/go_marshal/test/test.go
deleted file mode 100644
index f75ca1b7f..000000000
--- a/tools/go_marshal/test/test.go
+++ /dev/null
@@ -1,176 +0,0 @@
-// 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 test contains data structures for testing the go_marshal tool.
-package test
-
-import (
- // We're intentionally using a package name alias here even though it's not
- // necessary to test the code generator's ability to handle package aliases.
- ex "gvisor.dev/gvisor/tools/go_marshal/test/external"
-)
-
-// Type1 is a test data type.
-//
-// +marshal slice:Type1Slice
-type Type1 struct {
- a Type2
- x, y int64 // Multiple field names.
- b byte `marshal:"unaligned"` // Short field.
- c uint64
- _ uint32 // Unnamed scalar field.
- _ [6]byte // Unnamed vector field, typical padding.
- _ [2]byte
- xs [8]int32
- as [10]Type2 `marshal:"unaligned"` // Array of Marshallable objects.
- ss Type3
-}
-
-// Type2 is a test data type.
-//
-// +marshal
-type Type2 struct {
- n int64
- c byte
- _ [7]byte
- m int64
- a int64
-}
-
-// Type3 is a test data type.
-//
-// +marshal
-type Type3 struct {
- s int64
- x ex.External // Type defined in another package.
-}
-
-// Type4 is a test data type.
-//
-// +marshal
-type Type4 struct {
- c byte
- x int64 `marshal:"unaligned"`
- d byte
- _ [7]byte
-}
-
-// Type5 is a test data type.
-//
-// +marshal
-type Type5 struct {
- n int64
- t Type4
- m int64
-}
-
-// Type6 is a test data type ends mid-word.
-//
-// +marshal
-type Type6 struct {
- a int64
- b int64
- // If c isn't marked unaligned, analysis fails (as it should, since
- // the unsafe API corrupts Type7).
- c byte `marshal:"unaligned"`
-}
-
-// Type7 is a test data type that contains a child struct that ends
-// mid-word.
-// +marshal
-type Type7 struct {
- x Type6
- y int64
-}
-
-// Type8 is a test data type which contains an external non-packed field.
-//
-// +marshal slice:Type8Slice
-type Type8 struct {
- a int64
- np ex.NotPacked
- b int64
-}
-
-// Timespec represents struct timespec in <time.h>.
-//
-// +marshal
-type Timespec struct {
- Sec int64
- Nsec int64
-}
-
-// Stat represents struct stat.
-//
-// +marshal slice:StatSlice
-type Stat struct {
- Dev uint64
- Ino uint64
- Nlink uint64
- Mode uint32
- UID uint32
- GID uint32
- _ int32
- Rdev uint64
- Size int64
- Blksize int64
- Blocks int64
- ATime Timespec
- MTime Timespec
- CTime Timespec
- _ [3]int64
-}
-
-// InetAddr is an example marshallable newtype on an array.
-//
-// +marshal
-type InetAddr [4]byte
-
-// SignalSet is an example marshallable newtype on a primitive.
-//
-// +marshal slice:SignalSetSlice:inner
-type SignalSet uint64
-
-// SignalSetAlias is an example newtype on another marshallable type.
-//
-// +marshal slice:SignalSetAliasSlice
-type SignalSetAlias SignalSet
-
-const sizeA = 64
-const sizeB = 8
-
-// TestArray is a test data structure on an array with a constant length.
-//
-// +marshal
-type TestArray [sizeA]int32
-
-// TestArray2 is a newtype on an array with a simple arithmetic expression of
-// constants for the array length.
-//
-// +marshal
-type TestArray2 [sizeA * sizeB]int32
-
-// TestArray2 is a newtype on an array with a simple arithmetic expression of
-// mixed constants and literals for the array length.
-//
-// +marshal
-type TestArray3 [sizeA*sizeB + 12]int32
-
-// Type9 is a test data type containing an array with a non-literal length.
-//
-// +marshal
-type Type9 struct {
- x int64
- y [sizeA]int32
-}