cmd/gomobile/binary_xml.go - mobile - Git at Google

 // Copyright 2015 The Go Authors.  All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package main

 import (
 	"encoding/xml"
 	"fmt"
 	"io"
 	"sort"
 	"strconv"
 	"strings"
 	"unicode/utf16"
 )

 // binaryXML converts XML into Android's undocumented binary XML format.
 //
 // The best source of information on this format seems to be the source code
 // in AOSP frameworks-base. Android "resource" types seem to describe the
 // encoded bytes, in particular:
 //
 //	ResChunk_header
 //	ResStringPool_header
 //	ResXMLTree_node
 //
 // These are defined in:
 //
 //	https://android.googlesource.com/platform/frameworks/base/+/master/include/androidfw/ResourceTypes.h
 //
 // The rough format of the file is a resource chunk containing a sequence of
 // chunks. Each chunk is made up of a header and a body. The header begins with
 // the contents of the ResChunk_header struct, which includes the size of both
 // the header and the body.
 //
 // Both the header and body are 4-byte aligned.
 //
 // Values are encoded as little-endian.
 //
 // The android source code for encoding is done in the aapt tool. Its source
 // code lives in AOSP:
 //
 //	https://android.googlesource.com/platform/frameworks/base.git/+/master/tools/aapt
 //
 // A sample layout:
 //
 //	File Header (ResChunk_header, type XML)
 //	Chunk: String Pool (type STRING_POOL)
 //	Sequence of strings, each with the format:
 //		uint16 length
 //		uint16 extended_length -- only if top bit set on length
 //		UTF-16LE string
 //		two zero bytes
 //	Resource Map
 //		The [i]th 4-byte entry in the resource map corresponds with
 //		the [i]th string from the string pool. The 4-bytes are a
 //		Resource ID constant defined:
 //			http://developer.android.com/reference/android/R.attr.html
 //		This appears to be a way to map strings onto enum values.
 //	Chunk: Namespace Start (ResXMLTree_node; ResXMLTree_namespaceExt)
 //	Chunk: Element Start
 //		ResXMLTree_node
 //		ResXMLTree_attrExt
 //		ResXMLTree_attribute (repeated attributeCount times)
 //	Chunk: Element End
 //		(ResXMLTree_node; ResXMLTree_endElementExt)
 //	...
 //	Chunk: Namespace End
 func binaryXML(r io.Reader) ([]byte, error) {
 	lr := &lineReader{r: r}
 	d := xml.NewDecoder(lr)

 	pool := new(binStringPool)
 	depth := 0
 	elements := []chunk{}
 	namespaceEnds := make(map[int][]binEndNamespace)

 	for {
 		line := lr.line(d.InputOffset())
 		tok, err := d.Token()
 		if err != nil {
 			if err == io.EOF {
 				break
 			}
 			return nil, err
 		}
 		switch tok := tok.(type) {
 		case xml.StartElement:
 			// uses-sdk is synthesized by the writer, disallow declaration in manifest.
 			if tok.Name.Local == "uses-sdk" {
 				return nil, fmt.Errorf("unsupported manifest tag <uses-sdk .../>")
 			} else if tok.Name.Local == "application" {
 				// synthesize <uses-sdk/> before handling <application> token
 				attr := xml.Attr{
 					Name: xml.Name{
 						Space: "http://schemas.android.com/apk/res/android",
 						Local: "minSdkVersion",
 					},
 					Value: "15",
 				}
 				ba, err := pool.getAttr(attr)
 				if err != nil {
 					return nil, fmt.Errorf("failed to synthesize attr minSdkVersion=\"15\"")
 				}
 				elements = append(elements,
 					&binStartElement{
 						line: line - 1, // current testing strategy is not friendly to synthesized tags, -1 for would-be location
 						ns:   pool.getNS(""),
 						name: pool.get("uses-sdk"),
 						attr: []*binAttr{ba},
 					},
 					&binEndElement{
 						line: line - 1,
 						ns:   pool.getNS(""),
 						name: pool.get("uses-sdk"),
 					})
 			}
 			// Intercept namespace definitions.
 			var attr []*binAttr
 			for _, a := range tok.Attr {
 				if a.Name.Space == "xmlns" {
 					elements = append(elements, binStartNamespace{
 						line:   line,
 						prefix: pool.get(a.Name.Local),
 						url:    pool.get(a.Value),
 					})
 					namespaceEnds[depth] = append([]binEndNamespace{{
 						line:   line,
 						prefix: pool.get(a.Name.Local),
 						url:    pool.get(a.Value),
 					}}, namespaceEnds[depth]...)
 					continue
 				}
 				ba, err := pool.getAttr(a)
 				if err != nil {
 					return nil, fmt.Errorf("%d: %s: %v", line, a.Name.Local, err)
 				}
 				attr = append(attr, ba)
 			}

 			depth++
 			elements = append(elements, &binStartElement{
 				line: line,
 				ns:   pool.getNS(tok.Name.Space),
 				name: pool.get(tok.Name.Local),
 				attr: attr,
 			})
 		case xml.EndElement:
 			elements = append(elements, &binEndElement{
 				line: line,
 				ns:   pool.getNS(tok.Name.Space),
 				name: pool.get(tok.Name.Local),
 			})
 			depth--
 			if nsEnds := namespaceEnds[depth]; len(nsEnds) > 0 {
 				delete(namespaceEnds, depth)
 				for _, nsEnd := range nsEnds {
 					elements = append(elements, nsEnd)
 				}
 			}
 		case xml.CharData:
 			// The aapt tool appears to "compact" leading and
 			// trailing whitepsace. See XMLNode::removeWhitespace in
 			// https://android.googlesource.com/platform/frameworks/base.git/+/master/tools/aapt/XMLNode.cpp
 			if len(tok) == 0 {
 				continue
 			}
 			start, end := 0, len(tok)
 			for start < len(tok) && isSpace(tok[start]) {
 				start++
 			}
 			for end > start && isSpace(tok[end-1]) {
 				end--
 			}
 			if start == end {
 				continue // all whitespace, skip it
 			}

 			// Preserve one character of whitespace.
 			if start > 0 {
 				start--
 			}
 			if end < len(tok) {
 				end++
 			}

 			elements = append(elements, &binCharData{
 				line: line,
 				data: pool.get(string(tok[start:end])),
 			})
 		case xml.Comment:
 			// Ignored by Anroid Binary XML format.
 		case xml.ProcInst:
 			// Ignored by Anroid Binary XML format?
 		case xml.Directive:
 			// Ignored by Anroid Binary XML format.
 		default:
 			return nil, fmt.Errorf("apk: unexpected token: %v (%T)", tok, tok)
 		}
 	}

 	sortPool(pool)
 	for _, e := range elements {
 		if e, ok := e.(*binStartElement); ok {
 			sortAttr(e, pool)
 		}
 	}

 	resMap := &binResMap{pool}

 	size := 8 + pool.size() + resMap.size()
 	for _, e := range elements {
 		size += e.size()
 	}

 	b := make([]byte, 0, size)
 	b = appendHeader(b, headerXML, size)
 	b = pool.append(b)
 	b = resMap.append(b)
 	for _, e := range elements {
 		b = e.append(b)
 	}

 	return b, nil
 }

 func isSpace(b byte) bool {
 	switch b {
 	case '\t', '\n', '\v', '\f', '\r', ' ', 0x85, 0xA0:
 		return true
 	}
 	return false
 }

 type headerType uint16

 const (
 	headerXML            headerType = 0x0003
 	headerStringPool                = 0x0001
 	headerResourceMap               = 0x0180
 	headerStartNamespace            = 0x0100
 	headerEndNamespace              = 0x0101
 	headerStartElement              = 0x0102
 	headerEndElement                = 0x0103
 	headerCharData                  = 0x0104
 )

 func appendU16(b []byte, v uint16) []byte {
 	return append(b, byte(v), byte(v>>8))
 }

 func appendU32(b []byte, v uint32) []byte {
 	return append(b, byte(v), byte(v>>8), byte(v>>16), byte(v>>24))
 }

 func appendHeader(b []byte, typ headerType, size int) []byte {
 	b = appendU16(b, uint16(typ))
 	b = appendU16(b, 8)
 	b = appendU16(b, uint16(size))
 	b = appendU16(b, 0)
 	return b
 }

 // Attributes of the form android:key are mapped to resource IDs, which are
 // embedded into the Binary XML format.
 //
 // http://developer.android.com/reference/android/R.attr.html
 var resourceCodes = map[string]uint32{
 	"versionCode":       0x0101021b,
 	"versionName":       0x0101021c,
 	"minSdkVersion":     0x0101020c,
 	"windowFullscreen":  0x0101020d,
 	"theme":             0x01010000,
 	"label":             0x01010001,
 	"hasCode":           0x0101000c,
 	"debuggable":        0x0101000f,
 	"name":              0x01010003,
 	"screenOrientation": 0x0101001e,
 	"configChanges":     0x0101001f,
 	"value":             0x01010024,
 }

 // http://developer.android.com/reference/android/R.attr.html#configChanges
 var configChanges = map[string]uint32{
 	"mcc":                0x0001,
 	"mnc":                0x0002,
 	"locale":             0x0004,
 	"touchscreen":        0x0008,
 	"keyboard":           0x0010,
 	"keyboardHidden":     0x0020,
 	"navigation":         0x0040,
 	"orientation":        0x0080,
 	"screenLayout":       0x0100,
 	"uiMode":             0x0200,
 	"screenSize":         0x0400,
 	"smallestScreenSize": 0x0800,
 	"layoutDirection":    0x2000,
 	"fontScale":          0x40000000,
 }

 // http://developer.android.com/reference/android/R.attr.html#screenOrientation
 var screenOrientation = map[string]int{
 	"unspecified":      -1,
 	"landscape":        0,
 	"portrait":         1,
 	"user":             2,
 	"behind":           3,
 	"sensor":           4,
 	"nosensor":         5,
 	"sensorLandscape":  6,
 	"sensorPortrait":   7,
 	"reverseLandscape": 8,
 	"reversePortrait":  9,
 	"fullSensor":       10,
 	"userLandscape":    11,
 	"userPortrait":     12,
 	"fullUser":         13,
 	"locked":           14,
 }

 // reference is an alias used to write out correct type in bin.
 type reference uint32

 // http://developer.android.com/reference/android/R.style.html
 var theme = map[string]reference{
 	"Theme":                                   0x01030005,
 	"Theme_NoTitleBar":                        0x01030006,
 	"Theme_NoTitleBar_Fullscreen":             0x01030007,
 	"Theme_Black":                             0x01030008,
 	"Theme_Black_NoTitleBar":                  0x01030009,
 	"Theme_Black_NoTitleBar_Fullscreen":       0x0103000a,
 	"Theme_Light":                             0x0103000c,
 	"Theme_Light_NoTitleBar":                  0x0103000d,
 	"Theme_Light_NoTitleBar_Fullscreen":       0x0103000e,
 	"Theme_Translucent":                       0x0103000f,
 	"Theme_Translucent_NoTitleBar":            0x01030010,
 	"Theme_Translucent_NoTitleBar_Fullscreen": 0x01030011,
 }

 type lineReader struct {
 	off   int64
 	lines []int64
 	r     io.Reader
 }

 func (r *lineReader) Read(p []byte) (n int, err error) {
 	n, err = r.r.Read(p)
 	for i := 0; i < n; i++ {
 		if p[i] == '\n' {
 			r.lines = append(r.lines, r.off+int64(i))
 		}
 	}
 	r.off += int64(n)
 	return n, err
 }

 func (r *lineReader) line(pos int64) int {
 	return sort.Search(len(r.lines), func(i int) bool {
 		return pos < r.lines[i]
 	}) + 1
 }

 type bstring struct {
 	ind uint32
 	str string
 	enc []byte // 2-byte length, utf16le, 2-byte zero
 }

 type chunk interface {
 	size() int
 	append([]byte) []byte
 }

 type binResMap struct {
 	pool *binStringPool
 }

 func (p *binResMap) append(b []byte) []byte {
 	b = appendHeader(b, headerResourceMap, p.size())
 	for _, bstr := range p.pool.s {
 		c, ok := resourceCodes[bstr.str]
 		if !ok {
 			break
 		}
 		b = appendU32(b, c)
 	}
 	return b
 }

 func (p *binResMap) size() int {
 	count := 0
 	for _, bstr := range p.pool.s {
 		if _, ok := resourceCodes[bstr.str]; !ok {
 			break
 		}
 		count++
 	}
 	return 8 + 4*count
 }

 type binStringPool struct {
 	s []*bstring
 	m map[string]*bstring
 }

 func (p *binStringPool) get(str string) *bstring {
 	if p.m == nil {
 		p.m = make(map[string]*bstring)
 	}
 	res := p.m[str]
 	if res != nil {
 		return res
 	}
 	res = &bstring{
 		ind: uint32(len(p.s)),
 		str: str,
 	}
 	p.s = append(p.s, res)
 	p.m[str] = res

 	if len(str)>>16 > 0 {
 		panic(fmt.Sprintf("string lengths over 1<<15 not yet supported, got len %d for string that starts %q", len(str), str[:100]))
 	}
 	strUTF16 := utf16.Encode([]rune(str))
 	res.enc = appendU16(nil, uint16(len(strUTF16)))
 	for _, w := range strUTF16 {
 		res.enc = appendU16(res.enc, w)
 	}
 	res.enc = appendU16(res.enc, 0)
 	return res
 }

 func (p *binStringPool) getNS(ns string) *bstring {
 	if ns == "" {
 		// Register empty string for inclusion in output (like aapt),
 		// but do not reference it from namespace elements.
 		p.get("")
 		return nil
 	}
 	return p.get(ns)
 }

 func (p *binStringPool) getAttr(attr xml.Attr) (*binAttr, error) {
 	a := &binAttr{
 		ns:   p.getNS(attr.Name.Space),
 		name: p.get(attr.Name.Local),
 	}
 	if attr.Name.Space != "http://schemas.android.com/apk/res/android" {
 		a.data = p.get(attr.Value)
 		return a, nil
 	}

 	// Some android attributes have interesting values.
 	switch attr.Name.Local {
 	case "versionCode", "minSdkVersion":
 		v, err := strconv.Atoi(attr.Value)
 		if err != nil {
 			return nil, err
 		}
 		a.data = int(v)
 	case "hasCode", "debuggable":
 		v, err := strconv.ParseBool(attr.Value)
 		if err != nil {
 			return nil, err
 		}
 		a.data = v
 	case "configChanges":
 		v := uint32(0)
 		for _, c := range strings.Split(attr.Value, "|") {
 			v |= configChanges[c]
 		}
 		a.data = v
 	case "screenOrientation":
 		v := 0
 		for _, c := range strings.Split(attr.Value, "|") {
 			v |= screenOrientation[c]
 		}
 		a.data = v
 	case "theme":
 		v := attr.Value
 		// strip prefix if present as only platform themes are supported
 		if idx := strings.Index(attr.Value, "/"); idx != -1 {
 			v = v[idx+1:]
 		}
 		v = strings.Replace(v, ".", "_", -1)
 		a.data = theme[v]
 	default:
 		a.data = p.get(attr.Value)
 	}
 	return a, nil
 }

 const stringPoolPreamble = 0 +
 	8 + // chunk header
 	4 + // string count
 	4 + // style count
 	4 + // flags
 	4 + // strings start
 	4 + // styles start
 	0

 func (p *binStringPool) unpaddedSize() int {
 	strLens := 0
 	for _, s := range p.s {
 		strLens += len(s.enc)
 	}
 	return stringPoolPreamble + 4*len(p.s) + strLens
 }

 func (p *binStringPool) size() int {
 	size := p.unpaddedSize()
 	size += size % 0x04
 	return size
 }

 // overloaded for testing.
 var (
 	sortPool = func(p *binStringPool) {
 		sort.Sort(p)

 		// Move resourceCodes to the front.
 		s := make([]*bstring, 0)
 		m := make(map[string]*bstring)
 		for str := range resourceCodes {
 			bstr := p.m[str]
 			if bstr == nil {
 				continue
 			}
 			bstr.ind = uint32(len(s))
 			s = append(s, bstr)
 			m[str] = bstr
 			delete(p.m, str)
 		}
 		for _, bstr := range p.m {
 			bstr.ind = uint32(len(s))
 			s = append(s, bstr)
 		}
 		p.s = s
 		p.m = m
 	}
 	sortAttr = func(e *binStartElement, p *binStringPool) {}
 )

 func (b *binStringPool) Len() int           { return len(b.s) }
 func (b *binStringPool) Less(i, j int) bool { return b.s[i].str < b.s[j].str }
 func (b *binStringPool) Swap(i, j int) {
 	b.s[i], b.s[j] = b.s[j], b.s[i]
 	b.s[i].ind, b.s[j].ind = b.s[j].ind, b.s[i].ind
 }

 func (p *binStringPool) append(b []byte) []byte {
 	stringsStart := uint32(stringPoolPreamble + 4*len(p.s))
 	b = appendU16(b, uint16(headerStringPool))
 	b = appendU16(b, 0x1c) // chunk header size
 	b = appendU16(b, uint16(p.size()))
 	b = appendU16(b, 0)
 	b = appendU32(b, uint32(len(p.s)))
 	b = appendU32(b, 0) // style count
 	b = appendU32(b, 0) // flags
 	b = appendU32(b, stringsStart)
 	b = appendU32(b, 0) // styles start

 	off := 0
 	for _, bstr := range p.s {
 		b = appendU32(b, uint32(off))
 		off += len(bstr.enc)
 	}
 	for _, bstr := range p.s {
 		b = append(b, bstr.enc...)
 	}

 	for i := p.unpaddedSize() % 0x04; i > 0; i-- {
 		b = append(b, 0)
 	}
 	return b
 }

 type binStartElement struct {
 	line int
 	ns   *bstring
 	name *bstring
 	attr []*binAttr
 }

 func (e *binStartElement) size() int {
 	return 8 + // chunk header
 		4 + // line number
 		4 + // comment
 		4 + // ns
 		4 + // name
 		2 + 2 + 2 + // attribute start, size, count
 		2 + 2 + 2 + // id/class/style index
 		len(e.attr)*(4+4+4+4+4)
 }

 func (e *binStartElement) append(b []byte) []byte {
 	b = appendU16(b, uint16(headerStartElement))
 	b = appendU16(b, 0x10) // chunk header size
 	b = appendU16(b, uint16(e.size()))
 	b = appendU16(b, 0)
 	b = appendU32(b, uint32(e.line))
 	b = appendU32(b, 0xffffffff) // comment
 	if e.ns == nil {
 		b = appendU32(b, 0xffffffff)
 	} else {
 		b = appendU32(b, e.ns.ind)
 	}
 	b = appendU32(b, e.name.ind)
 	b = appendU16(b, 0x14) // attribute start
 	b = appendU16(b, 0x14) // attribute size
 	b = appendU16(b, uint16(len(e.attr)))
 	b = appendU16(b, 0) // ID index (none)
 	b = appendU16(b, 0) // class index (none)
 	b = appendU16(b, 0) // style index (none)
 	for _, a := range e.attr {
 		b = a.append(b)
 	}
 	return b
 }

 type binAttr struct {
 	ns   *bstring
 	name *bstring
 	data interface{} // either int (INT_DEC) or *bstring (STRING)
 }

 func (a *binAttr) append(b []byte) []byte {
 	if a.ns != nil {
 		b = appendU32(b, a.ns.ind)
 	} else {
 		b = appendU32(b, 0xffffffff)
 	}
 	b = appendU32(b, a.name.ind)
 	switch v := a.data.(type) {
 	case int:
 		b = appendU32(b, 0xffffffff) // raw value
 		b = appendU16(b, 8)          // size
 		b = append(b, 0)             // unused padding
 		b = append(b, 0x10)          // INT_DEC
 		b = appendU32(b, uint32(v))
 	case bool:
 		b = appendU32(b, 0xffffffff) // raw value
 		b = appendU16(b, 8)          // size
 		b = append(b, 0)             // unused padding
 		b = append(b, 0x12)          // INT_BOOLEAN
 		if v {
 			b = appendU32(b, 0xffffffff)
 		} else {
 			b = appendU32(b, 0)
 		}
 	case uint32:
 		b = appendU32(b, 0xffffffff) // raw value
 		b = appendU16(b, 8)          // size
 		b = append(b, 0)             // unused padding
 		b = append(b, 0x11)          // INT_HEX
 		b = appendU32(b, uint32(v))
 	case reference:
 		b = appendU32(b, 0xffffffff) // raw value
 		b = appendU16(b, 8)          // size
 		b = append(b, 0)             // unused padding
 		b = append(b, 0x01)          // REFERENCE
 		b = appendU32(b, uint32(v))
 	case *bstring:
 		b = appendU32(b, v.ind) // raw value
 		b = appendU16(b, 8)     // size
 		b = append(b, 0)        // unused padding
 		b = append(b, 0x03)     // STRING
 		b = appendU32(b, v.ind)
 	default:
 		panic(fmt.Sprintf("unexpected attr type: %T (%v)", v, v))
 	}
 	return b
 }

 type binEndElement struct {
 	line int
 	ns   *bstring
 	name *bstring
 	attr []*binAttr
 }

 func (*binEndElement) size() int {
 	return 8 + // chunk header
 		4 + // line number
 		4 + // comment
 		4 + // ns
 		4 // name
 }

 func (e *binEndElement) append(b []byte) []byte {
 	b = appendU16(b, uint16(headerEndElement))
 	b = appendU16(b, 0x10) // chunk header size
 	b = appendU16(b, uint16(e.size()))
 	b = appendU16(b, 0)
 	b = appendU32(b, uint32(e.line))
 	b = appendU32(b, 0xffffffff) // comment
 	if e.ns == nil {
 		b = appendU32(b, 0xffffffff)
 	} else {
 		b = appendU32(b, e.ns.ind)
 	}
 	b = appendU32(b, e.name.ind)
 	return b
 }

 type binStartNamespace struct {
 	line   int
 	prefix *bstring
 	url    *bstring
 }

 func (binStartNamespace) size() int {
 	return 8 + // chunk header
 		4 + // line number
 		4 + // comment
 		4 + // prefix
 		4 // url
 }

 func (e binStartNamespace) append(b []byte) []byte {
 	b = appendU16(b, uint16(headerStartNamespace))
 	b = appendU16(b, 0x10) // chunk header size
 	b = appendU16(b, uint16(e.size()))
 	b = appendU16(b, 0)
 	b = appendU32(b, uint32(e.line))
 	b = appendU32(b, 0xffffffff) // comment
 	b = appendU32(b, e.prefix.ind)
 	b = appendU32(b, e.url.ind)
 	return b
 }

 type binEndNamespace struct {
 	line   int
 	prefix *bstring
 	url    *bstring
 }

 func (binEndNamespace) size() int {
 	return 8 + // chunk header
 		4 + // line number
 		4 + // comment
 		4 + // prefix
 		4 // url
 }

 func (e binEndNamespace) append(b []byte) []byte {
 	b = appendU16(b, uint16(headerEndNamespace))
 	b = appendU16(b, 0x10) // chunk header size
 	b = appendU16(b, uint16(e.size()))
 	b = appendU16(b, 0)
 	b = appendU32(b, uint32(e.line))
 	b = appendU32(b, 0xffffffff) // comment
 	b = appendU32(b, e.prefix.ind)
 	b = appendU32(b, e.url.ind)
 	return b
 }

 type binCharData struct {
 	line int
 	data *bstring
 }

 func (*binCharData) size() int {
 	return 8 + // chunk header
 		4 + // line number
 		4 + // comment
 		4 + // data
 		8 // junk
 }

 func (e *binCharData) append(b []byte) []byte {
 	b = appendU16(b, uint16(headerCharData))
 	b = appendU16(b, 0x10) // chunk header size
 	b = appendU16(b, 0x1c) // size
 	b = appendU16(b, 0)
 	b = appendU32(b, uint32(e.line))
 	b = appendU32(b, 0xffffffff) // comment
 	b = appendU32(b, e.data.ind)
 	b = appendU16(b, 0x08)
 	b = appendU16(b, 0)
 	b = appendU16(b, 0)
 	b = appendU16(b, 0)
 	return b
 }
	// Copyright 2015 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package main

	import (
	"encoding/xml"
	"fmt"
	"io"
	"sort"
	"strconv"
	"strings"
	"unicode/utf16"
	)

	// binaryXML converts XML into Android's undocumented binary XML format.
	//
	// The best source of information on this format seems to be the source code
	// in AOSP frameworks-base. Android "resource" types seem to describe the
	// encoded bytes, in particular:
	//
	// ResChunk_header
	// ResStringPool_header
	// ResXMLTree_node
	//
	// These are defined in:
	//
	// https://android.googlesource.com/platform/frameworks/base/+/master/include/androidfw/ResourceTypes.h
	//
	// The rough format of the file is a resource chunk containing a sequence of
	// chunks. Each chunk is made up of a header and a body. The header begins with
	// the contents of the ResChunk_header struct, which includes the size of both
	// the header and the body.
	//
	// Both the header and body are 4-byte aligned.
	//
	// Values are encoded as little-endian.
	//
	// The android source code for encoding is done in the aapt tool. Its source
	// code lives in AOSP:
	//
	// https://android.googlesource.com/platform/frameworks/base.git/+/master/tools/aapt
	//
	// A sample layout:
	//
	// File Header (ResChunk_header, type XML)
	// Chunk: String Pool (type STRING_POOL)
	// Sequence of strings, each with the format:
	// uint16 length
	// uint16 extended_length -- only if top bit set on length
	// UTF-16LE string
	// two zero bytes
	// Resource Map
	// The [i]th 4-byte entry in the resource map corresponds with
	// the [i]th string from the string pool. The 4-bytes are a
	// Resource ID constant defined:
	// http://developer.android.com/reference/android/R.attr.html
	// This appears to be a way to map strings onto enum values.
	// Chunk: Namespace Start (ResXMLTree_node; ResXMLTree_namespaceExt)
	// Chunk: Element Start
	// ResXMLTree_node
	// ResXMLTree_attrExt
	// ResXMLTree_attribute (repeated attributeCount times)
	// Chunk: Element End
	// (ResXMLTree_node; ResXMLTree_endElementExt)
	// ...
	// Chunk: Namespace End
	func binaryXML(r io.Reader) ([]byte, error) {
	lr := &lineReader{r: r}
	d := xml.NewDecoder(lr)

	pool := new(binStringPool)
	depth := 0
	elements := []chunk{}
	namespaceEnds := make(map[int][]binEndNamespace)

	for {
	line := lr.line(d.InputOffset())
	tok, err := d.Token()
	if err != nil {
	if err == io.EOF {
	break
	}
	return nil, err
	}
	switch tok := tok.(type) {
	case xml.StartElement:
	// uses-sdk is synthesized by the writer, disallow declaration in manifest.
	if tok.Name.Local == "uses-sdk" {
	return nil, fmt.Errorf("unsupported manifest tag <uses-sdk .../>")
	} else if tok.Name.Local == "application" {
	// synthesize <uses-sdk/> before handling <application> token
	attr := xml.Attr{
	Name: xml.Name{
	Space: "http://schemas.android.com/apk/res/android",
	Local: "minSdkVersion",
	},
	Value: "15",
	}
	ba, err := pool.getAttr(attr)
	if err != nil {
	return nil, fmt.Errorf("failed to synthesize attr minSdkVersion=\"15\"")
	}
	elements = append(elements,
	&binStartElement{
	line: line - 1, // current testing strategy is not friendly to synthesized tags, -1 for would-be location
	ns: pool.getNS(""),
	name: pool.get("uses-sdk"),
	attr: []*binAttr{ba},
	},
	&binEndElement{
	line: line - 1,
	ns: pool.getNS(""),
	name: pool.get("uses-sdk"),
	})
	}
	// Intercept namespace definitions.
	var attr []*binAttr
	for _, a := range tok.Attr {
	if a.Name.Space == "xmlns" {
	elements = append(elements, binStartNamespace{
	line: line,
	prefix: pool.get(a.Name.Local),
	url: pool.get(a.Value),
	})
	namespaceEnds[depth] = append([]binEndNamespace{{
	line: line,
	prefix: pool.get(a.Name.Local),
	url: pool.get(a.Value),
	}}, namespaceEnds[depth]...)
	continue
	}
	ba, err := pool.getAttr(a)
	if err != nil {
	return nil, fmt.Errorf("%d: %s: %v", line, a.Name.Local, err)
	}
	attr = append(attr, ba)
	}

	depth++
	elements = append(elements, &binStartElement{
	line: line,
	ns: pool.getNS(tok.Name.Space),
	name: pool.get(tok.Name.Local),
	attr: attr,
	})
	case xml.EndElement:
	elements = append(elements, &binEndElement{
	line: line,
	ns: pool.getNS(tok.Name.Space),
	name: pool.get(tok.Name.Local),
	})
	depth--
	if nsEnds := namespaceEnds[depth]; len(nsEnds) > 0 {
	delete(namespaceEnds, depth)
	for _, nsEnd := range nsEnds {
	elements = append(elements, nsEnd)
	}
	}
	case xml.CharData:
	// The aapt tool appears to "compact" leading and
	// trailing whitepsace. See XMLNode::removeWhitespace in
	// https://android.googlesource.com/platform/frameworks/base.git/+/master/tools/aapt/XMLNode.cpp
	if len(tok) == 0 {
	continue
	}
	start, end := 0, len(tok)
	for start < len(tok) && isSpace(tok[start]) {
	start++
	}
	for end > start && isSpace(tok[end-1]) {
	end--
	}
	if start == end {
	continue // all whitespace, skip it
	}

	// Preserve one character of whitespace.
	if start > 0 {
	start--
	}
	if end < len(tok) {
	end++
	}

	elements = append(elements, &binCharData{
	line: line,
	data: pool.get(string(tok[start:end])),
	})
	case xml.Comment:
	// Ignored by Anroid Binary XML format.
	case xml.ProcInst:
	// Ignored by Anroid Binary XML format?
	case xml.Directive:
	// Ignored by Anroid Binary XML format.
	default:
	return nil, fmt.Errorf("apk: unexpected token: %v (%T)", tok, tok)
	}
	}

	sortPool(pool)
	for _, e := range elements {
	if e, ok := e.(*binStartElement); ok {
	sortAttr(e, pool)
	}
	}

	resMap := &binResMap{pool}

	size := 8 + pool.size() + resMap.size()
	for _, e := range elements {
	size += e.size()
	}

	b := make([]byte, 0, size)
	b = appendHeader(b, headerXML, size)
	b = pool.append(b)
	b = resMap.append(b)
	for _, e := range elements {
	b = e.append(b)
	}

	return b, nil
	}

	func isSpace(b byte) bool {
	switch b {
	case '\t', '\n', '\v', '\f', '\r', ' ', 0x85, 0xA0:
	return true
	}
	return false
	}

	type headerType uint16

	const (
	headerXML headerType = 0x0003
	headerStringPool = 0x0001
	headerResourceMap = 0x0180
	headerStartNamespace = 0x0100
	headerEndNamespace = 0x0101
	headerStartElement = 0x0102
	headerEndElement = 0x0103
	headerCharData = 0x0104
	)

	func appendU16(b []byte, v uint16) []byte {
	return append(b, byte(v), byte(v>>8))
	}

	func appendU32(b []byte, v uint32) []byte {
	return append(b, byte(v), byte(v>>8), byte(v>>16), byte(v>>24))
	}

	func appendHeader(b []byte, typ headerType, size int) []byte {
	b = appendU16(b, uint16(typ))
	b = appendU16(b, 8)
	b = appendU16(b, uint16(size))
	b = appendU16(b, 0)
	return b
	}

	// Attributes of the form android:key are mapped to resource IDs, which are
	// embedded into the Binary XML format.
	//
	// http://developer.android.com/reference/android/R.attr.html
	var resourceCodes = map[string]uint32{
	"versionCode": 0x0101021b,
	"versionName": 0x0101021c,
	"minSdkVersion": 0x0101020c,
	"windowFullscreen": 0x0101020d,
	"theme": 0x01010000,
	"label": 0x01010001,
	"hasCode": 0x0101000c,
	"debuggable": 0x0101000f,
	"name": 0x01010003,
	"screenOrientation": 0x0101001e,
	"configChanges": 0x0101001f,
	"value": 0x01010024,
	}

	// http://developer.android.com/reference/android/R.attr.html#configChanges
	var configChanges = map[string]uint32{
	"mcc": 0x0001,
	"mnc": 0x0002,
	"locale": 0x0004,
	"touchscreen": 0x0008,
	"keyboard": 0x0010,
	"keyboardHidden": 0x0020,
	"navigation": 0x0040,
	"orientation": 0x0080,
	"screenLayout": 0x0100,
	"uiMode": 0x0200,
	"screenSize": 0x0400,
	"smallestScreenSize": 0x0800,
	"layoutDirection": 0x2000,
	"fontScale": 0x40000000,
	}

	// http://developer.android.com/reference/android/R.attr.html#screenOrientation
	var screenOrientation = map[string]int{
	"unspecified": -1,
	"landscape": 0,
	"portrait": 1,
	"user": 2,
	"behind": 3,
	"sensor": 4,
	"nosensor": 5,
	"sensorLandscape": 6,
	"sensorPortrait": 7,
	"reverseLandscape": 8,
	"reversePortrait": 9,
	"fullSensor": 10,
	"userLandscape": 11,
	"userPortrait": 12,
	"fullUser": 13,
	"locked": 14,
	}

	// reference is an alias used to write out correct type in bin.
	type reference uint32

	// http://developer.android.com/reference/android/R.style.html
	var theme = map[string]reference{
	"Theme": 0x01030005,
	"Theme_NoTitleBar": 0x01030006,
	"Theme_NoTitleBar_Fullscreen": 0x01030007,
	"Theme_Black": 0x01030008,
	"Theme_Black_NoTitleBar": 0x01030009,
	"Theme_Black_NoTitleBar_Fullscreen": 0x0103000a,
	"Theme_Light": 0x0103000c,
	"Theme_Light_NoTitleBar": 0x0103000d,
	"Theme_Light_NoTitleBar_Fullscreen": 0x0103000e,
	"Theme_Translucent": 0x0103000f,
	"Theme_Translucent_NoTitleBar": 0x01030010,
	"Theme_Translucent_NoTitleBar_Fullscreen": 0x01030011,
	}

	type lineReader struct {
	off int64
	lines []int64
	r io.Reader
	}

	func (r *lineReader) Read(p []byte) (n int, err error) {
	n, err = r.r.Read(p)
	for i := 0; i < n; i++ {
	if p[i] == '\n' {
	r.lines = append(r.lines, r.off+int64(i))
	}
	}
	r.off += int64(n)
	return n, err
	}

	func (r *lineReader) line(pos int64) int {
	return sort.Search(len(r.lines), func(i int) bool {
	return pos < r.lines[i]
	}) + 1
	}

	type bstring struct {
	ind uint32
	str string
	enc []byte // 2-byte length, utf16le, 2-byte zero
	}

	type chunk interface {
	size() int
	append([]byte) []byte
	}

	type binResMap struct {
	pool *binStringPool
	}

	func (p *binResMap) append(b []byte) []byte {
	b = appendHeader(b, headerResourceMap, p.size())
	for _, bstr := range p.pool.s {
	c, ok := resourceCodes[bstr.str]
	if !ok {
	break
	}
	b = appendU32(b, c)
	}
	return b
	}

	func (p *binResMap) size() int {
	count := 0
	for _, bstr := range p.pool.s {
	if _, ok := resourceCodes[bstr.str]; !ok {
	break
	}
	count++
	}
	return 8 + 4*count
	}

	type binStringPool struct {
	s []*bstring
	m map[string]*bstring
	}

	func (p binStringPool) get(str string) bstring {
	if p.m == nil {
	p.m = make(map[string]*bstring)
	}
	res := p.m[str]
	if res != nil {
	return res
	}
	res = &bstring{
	ind: uint32(len(p.s)),
	str: str,
	}
	p.s = append(p.s, res)
	p.m[str] = res

	if len(str)>>16 > 0 {
	panic(fmt.Sprintf("string lengths over 1<<15 not yet supported, got len %d for string that starts %q", len(str), str[:100]))
	}
	strUTF16 := utf16.Encode([]rune(str))
	res.enc = appendU16(nil, uint16(len(strUTF16)))
	for _, w := range strUTF16 {
	res.enc = appendU16(res.enc, w)
	}
	res.enc = appendU16(res.enc, 0)
	return res
	}

	func (p binStringPool) getNS(ns string) bstring {
	if ns == "" {
	// Register empty string for inclusion in output (like aapt),
	// but do not reference it from namespace elements.
	p.get("")
	return nil
	}
	return p.get(ns)
	}

	func (p binStringPool) getAttr(attr xml.Attr) (binAttr, error) {
	a := &binAttr{
	ns: p.getNS(attr.Name.Space),
	name: p.get(attr.Name.Local),
	}
	if attr.Name.Space != "http://schemas.android.com/apk/res/android" {
	a.data = p.get(attr.Value)
	return a, nil
	}

	// Some android attributes have interesting values.
	switch attr.Name.Local {
	case "versionCode", "minSdkVersion":
	v, err := strconv.Atoi(attr.Value)
	if err != nil {
	return nil, err
	}
	a.data = int(v)
	case "hasCode", "debuggable":
	v, err := strconv.ParseBool(attr.Value)
	if err != nil {
	return nil, err
	}
	a.data = v
	case "configChanges":
	v := uint32(0)
	for _, c := range strings.Split(attr.Value, "\|") {
	v \|= configChanges[c]
	}
	a.data = v
	case "screenOrientation":
	v := 0
	for _, c := range strings.Split(attr.Value, "\|") {
	v \|= screenOrientation[c]
	}
	a.data = v
	case "theme":
	v := attr.Value
	// strip prefix if present as only platform themes are supported
	if idx := strings.Index(attr.Value, "/"); idx != -1 {
	v = v[idx+1:]
	}
	v = strings.Replace(v, ".", "_", -1)
	a.data = theme[v]
	default:
	a.data = p.get(attr.Value)
	}
	return a, nil
	}

	const stringPoolPreamble = 0 +
	8 + // chunk header
	4 + // string count
	4 + // style count
	4 + // flags
	4 + // strings start
	4 + // styles start
	0

	func (p *binStringPool) unpaddedSize() int {
	strLens := 0
	for _, s := range p.s {
	strLens += len(s.enc)
	}
	return stringPoolPreamble + 4*len(p.s) + strLens
	}

	func (p *binStringPool) size() int {
	size := p.unpaddedSize()
	size += size % 0x04
	return size
	}

	// overloaded for testing.
	var (
	sortPool = func(p *binStringPool) {
	sort.Sort(p)

	// Move resourceCodes to the front.
	s := make([]*bstring, 0)
	m := make(map[string]*bstring)
	for str := range resourceCodes {
	bstr := p.m[str]
	if bstr == nil {
	continue
	}
	bstr.ind = uint32(len(s))
	s = append(s, bstr)
	m[str] = bstr
	delete(p.m, str)
	}
	for _, bstr := range p.m {
	bstr.ind = uint32(len(s))
	s = append(s, bstr)
	}
	p.s = s
	p.m = m
	}
	sortAttr = func(e binStartElement, p binStringPool) {}
	)

	func (b *binStringPool) Len() int { return len(b.s) }
	func (b *binStringPool) Less(i, j int) bool { return b.s[i].str < b.s[j].str }
	func (b *binStringPool) Swap(i, j int) {
	b.s[i], b.s[j] = b.s[j], b.s[i]
	b.s[i].ind, b.s[j].ind = b.s[j].ind, b.s[i].ind
	}

	func (p *binStringPool) append(b []byte) []byte {
	stringsStart := uint32(stringPoolPreamble + 4*len(p.s))
	b = appendU16(b, uint16(headerStringPool))
	b = appendU16(b, 0x1c) // chunk header size
	b = appendU16(b, uint16(p.size()))
	b = appendU16(b, 0)
	b = appendU32(b, uint32(len(p.s)))
	b = appendU32(b, 0) // style count
	b = appendU32(b, 0) // flags
	b = appendU32(b, stringsStart)
	b = appendU32(b, 0) // styles start

	off := 0
	for _, bstr := range p.s {
	b = appendU32(b, uint32(off))
	off += len(bstr.enc)
	}
	for _, bstr := range p.s {
	b = append(b, bstr.enc...)
	}

	for i := p.unpaddedSize() % 0x04; i > 0; i-- {
	b = append(b, 0)
	}
	return b
	}

	type binStartElement struct {
	line int
	ns *bstring
	name *bstring
	attr []*binAttr
	}

	func (e *binStartElement) size() int {
	return 8 + // chunk header
	4 + // line number
	4 + // comment
	4 + // ns
	4 + // name
	2 + 2 + 2 + // attribute start, size, count
	2 + 2 + 2 + // id/class/style index
	len(e.attr)*(4+4+4+4+4)
	}

	func (e *binStartElement) append(b []byte) []byte {
	b = appendU16(b, uint16(headerStartElement))
	b = appendU16(b, 0x10) // chunk header size
	b = appendU16(b, uint16(e.size()))
	b = appendU16(b, 0)
	b = appendU32(b, uint32(e.line))
	b = appendU32(b, 0xffffffff) // comment
	if e.ns == nil {
	b = appendU32(b, 0xffffffff)
	} else {
	b = appendU32(b, e.ns.ind)
	}
	b = appendU32(b, e.name.ind)
	b = appendU16(b, 0x14) // attribute start
	b = appendU16(b, 0x14) // attribute size
	b = appendU16(b, uint16(len(e.attr)))
	b = appendU16(b, 0) // ID index (none)
	b = appendU16(b, 0) // class index (none)
	b = appendU16(b, 0) // style index (none)
	for _, a := range e.attr {
	b = a.append(b)
	}
	return b
	}

	type binAttr struct {
	ns *bstring
	name *bstring
	data interface{} // either int (INT_DEC) or *bstring (STRING)
	}

	func (a *binAttr) append(b []byte) []byte {
	if a.ns != nil {
	b = appendU32(b, a.ns.ind)
	} else {
	b = appendU32(b, 0xffffffff)
	}
	b = appendU32(b, a.name.ind)
	switch v := a.data.(type) {
	case int:
	b = appendU32(b, 0xffffffff) // raw value
	b = appendU16(b, 8) // size
	b = append(b, 0) // unused padding
	b = append(b, 0x10) // INT_DEC
	b = appendU32(b, uint32(v))
	case bool:
	b = appendU32(b, 0xffffffff) // raw value
	b = appendU16(b, 8) // size
	b = append(b, 0) // unused padding
	b = append(b, 0x12) // INT_BOOLEAN
	if v {
	b = appendU32(b, 0xffffffff)
	} else {
	b = appendU32(b, 0)
	}
	case uint32:
	b = appendU32(b, 0xffffffff) // raw value
	b = appendU16(b, 8) // size
	b = append(b, 0) // unused padding
	b = append(b, 0x11) // INT_HEX
	b = appendU32(b, uint32(v))
	case reference:
	b = appendU32(b, 0xffffffff) // raw value
	b = appendU16(b, 8) // size
	b = append(b, 0) // unused padding
	b = append(b, 0x01) // REFERENCE
	b = appendU32(b, uint32(v))
	case *bstring:
	b = appendU32(b, v.ind) // raw value
	b = appendU16(b, 8) // size
	b = append(b, 0) // unused padding
	b = append(b, 0x03) // STRING
	b = appendU32(b, v.ind)
	default:
	panic(fmt.Sprintf("unexpected attr type: %T (%v)", v, v))
	}
	return b
	}

	type binEndElement struct {
	line int
	ns *bstring
	name *bstring
	attr []*binAttr
	}

	func (*binEndElement) size() int {
	return 8 + // chunk header
	4 + // line number
	4 + // comment
	4 + // ns
	4 // name
	}

	func (e *binEndElement) append(b []byte) []byte {
	b = appendU16(b, uint16(headerEndElement))
	b = appendU16(b, 0x10) // chunk header size
	b = appendU16(b, uint16(e.size()))
	b = appendU16(b, 0)
	b = appendU32(b, uint32(e.line))
	b = appendU32(b, 0xffffffff) // comment
	if e.ns == nil {
	b = appendU32(b, 0xffffffff)
	} else {
	b = appendU32(b, e.ns.ind)
	}
	b = appendU32(b, e.name.ind)
	return b
	}

	type binStartNamespace struct {
	line int
	prefix *bstring
	url *bstring
	}

	func (binStartNamespace) size() int {
	return 8 + // chunk header
	4 + // line number
	4 + // comment
	4 + // prefix
	4 // url
	}

	func (e binStartNamespace) append(b []byte) []byte {
	b = appendU16(b, uint16(headerStartNamespace))
	b = appendU16(b, 0x10) // chunk header size
	b = appendU16(b, uint16(e.size()))
	b = appendU16(b, 0)
	b = appendU32(b, uint32(e.line))
	b = appendU32(b, 0xffffffff) // comment
	b = appendU32(b, e.prefix.ind)
	b = appendU32(b, e.url.ind)
	return b
	}

	type binEndNamespace struct {
	line int
	prefix *bstring
	url *bstring
	}

	func (binEndNamespace) size() int {
	return 8 + // chunk header
	4 + // line number
	4 + // comment
	4 + // prefix
	4 // url
	}

	func (e binEndNamespace) append(b []byte) []byte {
	b = appendU16(b, uint16(headerEndNamespace))
	b = appendU16(b, 0x10) // chunk header size
	b = appendU16(b, uint16(e.size()))
	b = appendU16(b, 0)
	b = appendU32(b, uint32(e.line))
	b = appendU32(b, 0xffffffff) // comment
	b = appendU32(b, e.prefix.ind)
	b = appendU32(b, e.url.ind)
	return b
	}

	type binCharData struct {
	line int
	data *bstring
	}

	func (*binCharData) size() int {
	return 8 + // chunk header
	4 + // line number
	4 + // comment
	4 + // data
	8 // junk
	}

	func (e *binCharData) append(b []byte) []byte {
	b = appendU16(b, uint16(headerCharData))
	b = appendU16(b, 0x10) // chunk header size
	b = appendU16(b, 0x1c) // size
	b = appendU16(b, 0)
	b = appendU32(b, uint32(e.line))
	b = appendU32(b, 0xffffffff) // comment
	b = appendU32(b, e.data.ind)
	b = appendU16(b, 0x08)
	b = appendU16(b, 0)
	b = appendU16(b, 0)
	b = appendU16(b, 0)
	return b
	}