internal/backport/html/template/js_test.go - website - Git at Google

 // Copyright 2011 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 template

 import (
 	"bytes"
 	"math"
 	"strings"
 	"testing"
 )

 func TestNextJsCtx(t *testing.T) {
 	tests := []struct {
 		jsCtx jsCtx
 		s     string
 	}{
 		// Statement terminators precede regexps.
 		{jsCtxRegexp, ";"},
 		// This is not airtight.
 		//     ({ valueOf: function () { return 1 } } / 2)
 		// is valid JavaScript but in practice, devs do not do this.
 		// A block followed by a statement starting with a RegExp is
 		// much more common:
 		//     while (x) {...} /foo/.test(x) || panic()
 		{jsCtxRegexp, "}"},
 		// But member, call, grouping, and array expression terminators
 		// precede div ops.
 		{jsCtxDivOp, ")"},
 		{jsCtxDivOp, "]"},
 		// At the start of a primary expression, array, or expression
 		// statement, expect a regexp.
 		{jsCtxRegexp, "("},
 		{jsCtxRegexp, "["},
 		{jsCtxRegexp, "{"},
 		// Assignment operators precede regexps as do all exclusively
 		// prefix and binary operators.
 		{jsCtxRegexp, "="},
 		{jsCtxRegexp, "+="},
 		{jsCtxRegexp, "*="},
 		{jsCtxRegexp, "*"},
 		{jsCtxRegexp, "!"},
 		// Whether the + or - is infix or prefix, it cannot precede a
 		// div op.
 		{jsCtxRegexp, "+"},
 		{jsCtxRegexp, "-"},
 		// An incr/decr op precedes a div operator.
 		// This is not airtight. In (g = ++/h/i) a regexp follows a
 		// pre-increment operator, but in practice devs do not try to
 		// increment or decrement regular expressions.
 		// (g++/h/i) where ++ is a postfix operator on g is much more
 		// common.
 		{jsCtxDivOp, "--"},
 		{jsCtxDivOp, "++"},
 		{jsCtxDivOp, "x--"},
 		// When we have many dashes or pluses, then they are grouped
 		// left to right.
 		{jsCtxRegexp, "x---"}, // A postfix -- then a -.
 		// return followed by a slash returns the regexp literal or the
 		// slash starts a regexp literal in an expression statement that
 		// is dead code.
 		{jsCtxRegexp, "return"},
 		{jsCtxRegexp, "return "},
 		{jsCtxRegexp, "return\t"},
 		{jsCtxRegexp, "return\n"},
 		{jsCtxRegexp, "return\u2028"},
 		// Identifiers can be divided and cannot validly be preceded by
 		// a regular expressions. Semicolon insertion cannot happen
 		// between an identifier and a regular expression on a new line
 		// because the one token lookahead for semicolon insertion has
 		// to conclude that it could be a div binary op and treat it as
 		// such.
 		{jsCtxDivOp, "x"},
 		{jsCtxDivOp, "x "},
 		{jsCtxDivOp, "x\t"},
 		{jsCtxDivOp, "x\n"},
 		{jsCtxDivOp, "x\u2028"},
 		{jsCtxDivOp, "preturn"},
 		// Numbers precede div ops.
 		{jsCtxDivOp, "0"},
 		// Dots that are part of a number are div preceders.
 		{jsCtxDivOp, "0."},
 	}

 	for _, test := range tests {
 		if nextJSCtx([]byte(test.s), jsCtxRegexp) != test.jsCtx {
 			t.Errorf("want %s got %q", test.jsCtx, test.s)
 		}
 		if nextJSCtx([]byte(test.s), jsCtxDivOp) != test.jsCtx {
 			t.Errorf("want %s got %q", test.jsCtx, test.s)
 		}
 	}

 	if nextJSCtx([]byte("   "), jsCtxRegexp) != jsCtxRegexp {
 		t.Error("Blank tokens")
 	}

 	if nextJSCtx([]byte("   "), jsCtxDivOp) != jsCtxDivOp {
 		t.Error("Blank tokens")
 	}
 }

 func TestJSValEscaper(t *testing.T) {
 	tests := []struct {
 		x  interface{}
 		js string
 	}{
 		{int(42), " 42 "},
 		{uint(42), " 42 "},
 		{int16(42), " 42 "},
 		{uint16(42), " 42 "},
 		{int32(-42), " -42 "},
 		{uint32(42), " 42 "},
 		{int16(-42), " -42 "},
 		{uint16(42), " 42 "},
 		{int64(-42), " -42 "},
 		{uint64(42), " 42 "},
 		{uint64(1) << 53, " 9007199254740992 "},
 		// ulp(1 << 53) > 1 so this loses precision in JS
 		// but it is still a representable integer literal.
 		{uint64(1)<<53 + 1, " 9007199254740993 "},
 		{float32(1.0), " 1 "},
 		{float32(-1.0), " -1 "},
 		{float32(0.5), " 0.5 "},
 		{float32(-0.5), " -0.5 "},
 		{float32(1.0) / float32(256), " 0.00390625 "},
 		{float32(0), " 0 "},
 		{math.Copysign(0, -1), " -0 "},
 		{float64(1.0), " 1 "},
 		{float64(-1.0), " -1 "},
 		{float64(0.5), " 0.5 "},
 		{float64(-0.5), " -0.5 "},
 		{float64(0), " 0 "},
 		{math.Copysign(0, -1), " -0 "},
 		{"", `""`},
 		{"foo", `"foo"`},
 		// Newlines.
 		{"\r\n\u2028\u2029", `"\r\n\u2028\u2029"`},
 		// "\v" == "v" on IE 6 so use "\u000b" instead.
 		{"\t\x0b", `"\t\u000b"`},
 		{struct{ X, Y int }{1, 2}, `{"X":1,"Y":2}`},
 		{[]interface{}{}, "[]"},
 		{[]interface{}{42, "foo", nil}, `[42,"foo",null]`},
 		{[]string{"<!--", "</script>", "-->"}, `["\u003c!--","\u003c/script\u003e","--\u003e"]`},
 		{"<!--", `"\u003c!--"`},
 		{"-->", `"--\u003e"`},
 		{"<![CDATA[", `"\u003c![CDATA["`},
 		{"]]>", `"]]\u003e"`},
 		{"</script", `"\u003c/script"`},
 		{"\U0001D11E", "\"\U0001D11E\""}, // or "\uD834\uDD1E"
 		{nil, " null "},
 	}

 	for _, test := range tests {
 		if js := jsValEscaper(test.x); js != test.js {
 			t.Errorf("%+v: want\n\t%q\ngot\n\t%q", test.x, test.js, js)
 		}
 		// Make sure that escaping corner cases are not broken
 		// by nesting.
 		a := []interface{}{test.x}
 		want := "[" + strings.TrimSpace(test.js) + "]"
 		if js := jsValEscaper(a); js != want {
 			t.Errorf("%+v: want\n\t%q\ngot\n\t%q", a, want, js)
 		}
 	}
 }

 func TestJSStrEscaper(t *testing.T) {
 	tests := []struct {
 		x   interface{}
 		esc string
 	}{
 		{"", ``},
 		{"foo", `foo`},
 		{"\u0000", `\u0000`},
 		{"\t", `\t`},
 		{"\n", `\n`},
 		{"\r", `\r`},
 		{"\u2028", `\u2028`},
 		{"\u2029", `\u2029`},
 		{"\\", `\\`},
 		{"\\n", `\\n`},
 		{"foo\r\nbar", `foo\r\nbar`},
 		// Preserve attribute boundaries.
 		{`"`, `\u0022`},
 		{`'`, `\u0027`},
 		// Allow embedding in HTML without further escaping.
 		{`&amp;`, `\u0026amp;`},
 		// Prevent breaking out of text node and element boundaries.
 		{"</script>", `\u003c\/script\u003e`},
 		{"<![CDATA[", `\u003c![CDATA[`},
 		{"]]>", `]]\u003e`},
 		// https://dev.w3.org/html5/markup/aria/syntax.html#escaping-text-span
 		//   "The text in style, script, title, and textarea elements
 		//   must not have an escaping text span start that is not
 		//   followed by an escaping text span end."
 		// Furthermore, spoofing an escaping text span end could lead
 		// to different interpretation of a </script> sequence otherwise
 		// masked by the escaping text span, and spoofing a start could
 		// allow regular text content to be interpreted as script
 		// allowing script execution via a combination of a JS string
 		// injection followed by an HTML text injection.
 		{"<!--", `\u003c!--`},
 		{"-->", `--\u003e`},
 		// From https://code.google.com/p/doctype/wiki/ArticleUtf7
 		{"+ADw-script+AD4-alert(1)+ADw-/script+AD4-",
 			`\u002bADw-script\u002bAD4-alert(1)\u002bADw-\/script\u002bAD4-`,
 		},
 		// Invalid UTF-8 sequence
 		{"foo\xA0bar", "foo\xA0bar"},
 		// Invalid unicode scalar value.
 		{"foo\xed\xa0\x80bar", "foo\xed\xa0\x80bar"},
 	}

 	for _, test := range tests {
 		esc := jsStrEscaper(test.x)
 		if esc != test.esc {
 			t.Errorf("%q: want %q got %q", test.x, test.esc, esc)
 		}
 	}
 }

 func TestJSRegexpEscaper(t *testing.T) {
 	tests := []struct {
 		x   interface{}
 		esc string
 	}{
 		{"", `(?:)`},
 		{"foo", `foo`},
 		{"\u0000", `\u0000`},
 		{"\t", `\t`},
 		{"\n", `\n`},
 		{"\r", `\r`},
 		{"\u2028", `\u2028`},
 		{"\u2029", `\u2029`},
 		{"\\", `\\`},
 		{"\\n", `\\n`},
 		{"foo\r\nbar", `foo\r\nbar`},
 		// Preserve attribute boundaries.
 		{`"`, `\u0022`},
 		{`'`, `\u0027`},
 		// Allow embedding in HTML without further escaping.
 		{`&amp;`, `\u0026amp;`},
 		// Prevent breaking out of text node and element boundaries.
 		{"</script>", `\u003c\/script\u003e`},
 		{"<![CDATA[", `\u003c!\[CDATA\[`},
 		{"]]>", `\]\]\u003e`},
 		// Escaping text spans.
 		{"<!--", `\u003c!\-\-`},
 		{"-->", `\-\-\u003e`},
 		{"*", `\*`},
 		{"+", `\u002b`},
 		{"?", `\?`},
 		{"[](){}", `\[\]\(\)\{\}`},
 		{"$foo|x.y", `\$foo\|x\.y`},
 		{"x^y", `x\^y`},
 	}

 	for _, test := range tests {
 		esc := jsRegexpEscaper(test.x)
 		if esc != test.esc {
 			t.Errorf("%q: want %q got %q", test.x, test.esc, esc)
 		}
 	}
 }

 func TestEscapersOnLower7AndSelectHighCodepoints(t *testing.T) {
 	input := ("\x00\x01\x02\x03\x04\x05\x06\x07\x08\t\n\x0b\x0c\r\x0e\x0f" +
 		"\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f" +
 		` !"#$%&'()*+,-./` +
 		`0123456789:;<=>?` +
 		`@ABCDEFGHIJKLMNO` +
 		`PQRSTUVWXYZ[\]^_` +
 		"`abcdefghijklmno" +
 		"pqrstuvwxyz{|}~\x7f" +
 		"\u00A0\u0100\u2028\u2029\ufeff\U0001D11E")

 	tests := []struct {
 		name    string
 		escaper func(...interface{}) string
 		escaped string
 	}{
 		{
 			"jsStrEscaper",
 			jsStrEscaper,
 			`\u0000\u0001\u0002\u0003\u0004\u0005\u0006\u0007` +
 				`\u0008\t\n\u000b\f\r\u000e\u000f` +
 				`\u0010\u0011\u0012\u0013\u0014\u0015\u0016\u0017` +
 				`\u0018\u0019\u001a\u001b\u001c\u001d\u001e\u001f` +
 				` !\u0022#$%\u0026\u0027()*\u002b,-.\/` +
 				`0123456789:;\u003c=\u003e?` +
 				`@ABCDEFGHIJKLMNO` +
 				`PQRSTUVWXYZ[\\]^_` +
 				"`abcdefghijklmno" +
 				"pqrstuvwxyz{|}~\u007f" +
 				"\u00A0\u0100\\u2028\\u2029\ufeff\U0001D11E",
 		},
 		{
 			"jsRegexpEscaper",
 			jsRegexpEscaper,
 			`\u0000\u0001\u0002\u0003\u0004\u0005\u0006\u0007` +
 				`\u0008\t\n\u000b\f\r\u000e\u000f` +
 				`\u0010\u0011\u0012\u0013\u0014\u0015\u0016\u0017` +
 				`\u0018\u0019\u001a\u001b\u001c\u001d\u001e\u001f` +
 				` !\u0022#\$%\u0026\u0027\(\)\*\u002b,\-\.\/` +
 				`0123456789:;\u003c=\u003e\?` +
 				`@ABCDEFGHIJKLMNO` +
 				`PQRSTUVWXYZ\[\\\]\^_` +
 				"`abcdefghijklmno" +
 				`pqrstuvwxyz\{\|\}~` + "\u007f" +
 				"\u00A0\u0100\\u2028\\u2029\ufeff\U0001D11E",
 		},
 	}

 	for _, test := range tests {
 		if s := test.escaper(input); s != test.escaped {
 			t.Errorf("%s once: want\n\t%q\ngot\n\t%q", test.name, test.escaped, s)
 			continue
 		}

 		// Escape it rune by rune to make sure that any
 		// fast-path checking does not break escaping.
 		var buf bytes.Buffer
 		for _, c := range input {
 			buf.WriteString(test.escaper(string(c)))
 		}

 		if s := buf.String(); s != test.escaped {
 			t.Errorf("%s rune-wise: want\n\t%q\ngot\n\t%q", test.name, test.escaped, s)
 			continue
 		}
 	}
 }

 func TestIsJsMimeType(t *testing.T) {
 	tests := []struct {
 		in  string
 		out bool
 	}{
 		{"application/javascript;version=1.8", true},
 		{"application/javascript;version=1.8;foo=bar", true},
 		{"application/javascript/version=1.8", false},
 		{"text/javascript", true},
 		{"application/json", true},
 		{"application/ld+json", true},
 		{"module", true},
 	}

 	for _, test := range tests {
 		if isJSType(test.in) != test.out {
 			t.Errorf("isJSType(%q) = %v, want %v", test.in, !test.out, test.out)
 		}
 	}
 }

 func BenchmarkJSValEscaperWithNum(b *testing.B) {
 	for i := 0; i < b.N; i++ {
 		jsValEscaper(3.141592654)
 	}
 }

 func BenchmarkJSValEscaperWithStr(b *testing.B) {
 	for i := 0; i < b.N; i++ {
 		jsValEscaper("The <i>quick</i>,\r\n<span style='color:brown'>brown</span> fox jumps\u2028over the <canine class=\"lazy\">dog</canine>")
 	}
 }

 func BenchmarkJSValEscaperWithStrNoSpecials(b *testing.B) {
 	for i := 0; i < b.N; i++ {
 		jsValEscaper("The quick, brown fox jumps over the lazy dog")
 	}
 }

 func BenchmarkJSValEscaperWithObj(b *testing.B) {
 	o := struct {
 		S string
 		N int
 	}{
 		"The <i>quick</i>,\r\n<span style='color:brown'>brown</span> fox jumps\u2028over the <canine class=\"lazy\">dog</canine>\u2028",
 		42,
 	}
 	for i := 0; i < b.N; i++ {
 		jsValEscaper(o)
 	}
 }

 func BenchmarkJSValEscaperWithObjNoSpecials(b *testing.B) {
 	o := struct {
 		S string
 		N int
 	}{
 		"The quick, brown fox jumps over the lazy dog",
 		42,
 	}
 	for i := 0; i < b.N; i++ {
 		jsValEscaper(o)
 	}
 }

 func BenchmarkJSStrEscaperNoSpecials(b *testing.B) {
 	for i := 0; i < b.N; i++ {
 		jsStrEscaper("The quick, brown fox jumps over the lazy dog.")
 	}
 }

 func BenchmarkJSStrEscaper(b *testing.B) {
 	for i := 0; i < b.N; i++ {
 		jsStrEscaper("The <i>quick</i>,\r\n<span style='color:brown'>brown</span> fox jumps\u2028over the <canine class=\"lazy\">dog</canine>")
 	}
 }

 func BenchmarkJSRegexpEscaperNoSpecials(b *testing.B) {
 	for i := 0; i < b.N; i++ {
 		jsRegexpEscaper("The quick, brown fox jumps over the lazy dog")
 	}
 }

 func BenchmarkJSRegexpEscaper(b *testing.B) {
 	for i := 0; i < b.N; i++ {
 		jsRegexpEscaper("The <i>quick</i>,\r\n<span style='color:brown'>brown</span> fox jumps\u2028over the <canine class=\"lazy\">dog</canine>")
 	}
 }
	// Copyright 2011 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 template

	import (
	"bytes"
	"math"
	"strings"
	"testing"
	)

	func TestNextJsCtx(t *testing.T) {
	tests := []struct {
	jsCtx jsCtx
	s string
	}{
	// Statement terminators precede regexps.
	{jsCtxRegexp, ";"},
	// This is not airtight.
	// ({ valueOf: function () { return 1 } } / 2)
	// is valid JavaScript but in practice, devs do not do this.
	// A block followed by a statement starting with a RegExp is
	// much more common:
	// while (x) {...} /foo/.test(x) \|\| panic()
	{jsCtxRegexp, "}"},
	// But member, call, grouping, and array expression terminators
	// precede div ops.
	{jsCtxDivOp, ")"},
	{jsCtxDivOp, "]"},
	// At the start of a primary expression, array, or expression
	// statement, expect a regexp.
	{jsCtxRegexp, "("},
	{jsCtxRegexp, "["},
	{jsCtxRegexp, "{"},
	// Assignment operators precede regexps as do all exclusively
	// prefix and binary operators.
	{jsCtxRegexp, "="},
	{jsCtxRegexp, "+="},
	{jsCtxRegexp, "*="},
	{jsCtxRegexp, "*"},
	{jsCtxRegexp, "!"},
	// Whether the + or - is infix or prefix, it cannot precede a
	// div op.
	{jsCtxRegexp, "+"},
	{jsCtxRegexp, "-"},
	// An incr/decr op precedes a div operator.
	// This is not airtight. In (g = ++/h/i) a regexp follows a
	// pre-increment operator, but in practice devs do not try to
	// increment or decrement regular expressions.
	// (g++/h/i) where ++ is a postfix operator on g is much more
	// common.
	{jsCtxDivOp, "--"},
	{jsCtxDivOp, "++"},
	{jsCtxDivOp, "x--"},
	// When we have many dashes or pluses, then they are grouped
	// left to right.
	{jsCtxRegexp, "x---"}, // A postfix -- then a -.
	// return followed by a slash returns the regexp literal or the
	// slash starts a regexp literal in an expression statement that
	// is dead code.
	{jsCtxRegexp, "return"},
	{jsCtxRegexp, "return "},
	{jsCtxRegexp, "return\t"},
	{jsCtxRegexp, "return\n"},
	{jsCtxRegexp, "return\u2028"},
	// Identifiers can be divided and cannot validly be preceded by
	// a regular expressions. Semicolon insertion cannot happen
	// between an identifier and a regular expression on a new line
	// because the one token lookahead for semicolon insertion has
	// to conclude that it could be a div binary op and treat it as
	// such.
	{jsCtxDivOp, "x"},
	{jsCtxDivOp, "x "},
	{jsCtxDivOp, "x\t"},
	{jsCtxDivOp, "x\n"},
	{jsCtxDivOp, "x\u2028"},
	{jsCtxDivOp, "preturn"},
	// Numbers precede div ops.
	{jsCtxDivOp, "0"},
	// Dots that are part of a number are div preceders.
	{jsCtxDivOp, "0."},
	}

	for _, test := range tests {
	if nextJSCtx([]byte(test.s), jsCtxRegexp) != test.jsCtx {
	t.Errorf("want %s got %q", test.jsCtx, test.s)
	}
	if nextJSCtx([]byte(test.s), jsCtxDivOp) != test.jsCtx {
	t.Errorf("want %s got %q", test.jsCtx, test.s)
	}
	}

	if nextJSCtx([]byte(" "), jsCtxRegexp) != jsCtxRegexp {
	t.Error("Blank tokens")
	}

	if nextJSCtx([]byte(" "), jsCtxDivOp) != jsCtxDivOp {
	t.Error("Blank tokens")
	}
	}

	func TestJSValEscaper(t *testing.T) {
	tests := []struct {
	x interface{}
	js string
	}{
	{int(42), " 42 "},
	{uint(42), " 42 "},
	{int16(42), " 42 "},
	{uint16(42), " 42 "},
	{int32(-42), " -42 "},
	{uint32(42), " 42 "},
	{int16(-42), " -42 "},
	{uint16(42), " 42 "},
	{int64(-42), " -42 "},
	{uint64(42), " 42 "},
	{uint64(1) << 53, " 9007199254740992 "},
	// ulp(1 << 53) > 1 so this loses precision in JS
	// but it is still a representable integer literal.
	{uint64(1)<<53 + 1, " 9007199254740993 "},
	{float32(1.0), " 1 "},
	{float32(-1.0), " -1 "},
	{float32(0.5), " 0.5 "},
	{float32(-0.5), " -0.5 "},
	{float32(1.0) / float32(256), " 0.00390625 "},
	{float32(0), " 0 "},
	{math.Copysign(0, -1), " -0 "},
	{float64(1.0), " 1 "},
	{float64(-1.0), " -1 "},
	{float64(0.5), " 0.5 "},
	{float64(-0.5), " -0.5 "},
	{float64(0), " 0 "},
	{math.Copysign(0, -1), " -0 "},
	{"", `""`},
	{"foo", `"foo"`},
	// Newlines.
	{"\r\n\u2028\u2029", `"\r\n\u2028\u2029"`},
	// "\v" == "v" on IE 6 so use "\u000b" instead.
	{"\t\x0b", `"\t\u000b"`},
	{struct{ X, Y int }{1, 2}, `{"X":1,"Y":2}`},
	{[]interface{}{}, "[]"},
	{[]interface{}{42, "foo", nil}, `[42,"foo",null]`},
	{[]string{"<!--", "</script>", "-->"}, `["\u003c!--","\u003c/script\u003e","--\u003e"]`},
	{"<!--", `"\u003c!--"`},
	{"-->", `"--\u003e"`},
	{"<![CDATA[", `"\u003c![CDATA["`},
	{"]]>", `"]]\u003e"`},
	{"</script", `"\u003c/script"`},
	{"\U0001D11E", "\"\U0001D11E\""}, // or "\uD834\uDD1E"
	{nil, " null "},
	}

	for _, test := range tests {
	if js := jsValEscaper(test.x); js != test.js {
	t.Errorf("%+v: want\n\t%q\ngot\n\t%q", test.x, test.js, js)
	}
	// Make sure that escaping corner cases are not broken
	// by nesting.
	a := []interface{}{test.x}
	want := "[" + strings.TrimSpace(test.js) + "]"
	if js := jsValEscaper(a); js != want {
	t.Errorf("%+v: want\n\t%q\ngot\n\t%q", a, want, js)
	}
	}
	}

	func TestJSStrEscaper(t *testing.T) {
	tests := []struct {
	x interface{}
	esc string
	}{
	{"", ``},
	{"foo", `foo`},
	{"\u0000", `\u0000`},
	{"\t", `\t`},
	{"\n", `\n`},
	{"\r", `\r`},
	{"\u2028", `\u2028`},
	{"\u2029", `\u2029`},
	{"\\", `\\`},
	{"\\n", `\\n`},
	{"foo\r\nbar", `foo\r\nbar`},
	// Preserve attribute boundaries.
	{`"`, `\u0022`},
	{`'`, `\u0027`},
	// Allow embedding in HTML without further escaping.
	{`&`, `\u0026amp;`},
	// Prevent breaking out of text node and element boundaries.
	{"</script>", `\u003c\/script\u003e`},
	{"<![CDATA[", `\u003c![CDATA[`},
	{"]]>", `]]\u003e`},
	// https://dev.w3.org/html5/markup/aria/syntax.html#escaping-text-span
	// "The text in style, script, title, and textarea elements
	// must not have an escaping text span start that is not
	// followed by an escaping text span end."
	// Furthermore, spoofing an escaping text span end could lead
	// to different interpretation of a </script> sequence otherwise
	// masked by the escaping text span, and spoofing a start could
	// allow regular text content to be interpreted as script
	// allowing script execution via a combination of a JS string
	// injection followed by an HTML text injection.
	{"<!--", `\u003c!--`},
	{"-->", `--\u003e`},
	// From https://code.google.com/p/doctype/wiki/ArticleUtf7
	{"+ADw-script+AD4-alert(1)+ADw-/script+AD4-",
	`\u002bADw-script\u002bAD4-alert(1)\u002bADw-\/script\u002bAD4-`,
	},
	// Invalid UTF-8 sequence
	{"foo\xA0bar", "foo\xA0bar"},
	// Invalid unicode scalar value.
	{"foo\xed\xa0\x80bar", "foo\xed\xa0\x80bar"},
	}

	for _, test := range tests {
	esc := jsStrEscaper(test.x)
	if esc != test.esc {
	t.Errorf("%q: want %q got %q", test.x, test.esc, esc)
	}
	}
	}

	func TestJSRegexpEscaper(t *testing.T) {
	tests := []struct {
	x interface{}
	esc string
	}{
	{"", `(?:)`},
	{"foo", `foo`},
	{"\u0000", `\u0000`},
	{"\t", `\t`},
	{"\n", `\n`},
	{"\r", `\r`},
	{"\u2028", `\u2028`},
	{"\u2029", `\u2029`},
	{"\\", `\\`},
	{"\\n", `\\n`},
	{"foo\r\nbar", `foo\r\nbar`},
	// Preserve attribute boundaries.
	{`"`, `\u0022`},
	{`'`, `\u0027`},
	// Allow embedding in HTML without further escaping.
	{`&`, `\u0026amp;`},
	// Prevent breaking out of text node and element boundaries.
	{"</script>", `\u003c\/script\u003e`},
	{"<![CDATA[", `\u003c!\[CDATA\[`},
	{"]]>", `\]\]\u003e`},
	// Escaping text spans.
	{"<!--", `\u003c!\-\-`},
	{"-->", `\-\-\u003e`},
	{"", `\`},
	{"+", `\u002b`},
	{"?", `\?`},
	{"[](){}", `\[\]\(\)\{\}`},
	{"$foo\|x.y", `\$foo\\|x\.y`},
	{"x^y", `x\^y`},
	}

	for _, test := range tests {
	esc := jsRegexpEscaper(test.x)
	if esc != test.esc {
	t.Errorf("%q: want %q got %q", test.x, test.esc, esc)
	}
	}
	}

	func TestEscapersOnLower7AndSelectHighCodepoints(t *testing.T) {
	input := ("\x00\x01\x02\x03\x04\x05\x06\x07\x08\t\n\x0b\x0c\r\x0e\x0f" +
	"\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f" +
	` !"#$%&'()*+,-./` +
	`0123456789:;<=>?` +
	`@ABCDEFGHIJKLMNO` +
	`PQRSTUVWXYZ[\]^_` +
	"`abcdefghijklmno" +
	"pqrstuvwxyz{\|}~\x7f" +
	"\u00A0\u0100\u2028\u2029\ufeff\U0001D11E")

	tests := []struct {
	name string
	escaper func(...interface{}) string
	escaped string
	}{
	{
	"jsStrEscaper",
	jsStrEscaper,
	`\u0000\u0001\u0002\u0003\u0004\u0005\u0006\u0007` +
	`\u0008\t\n\u000b\f\r\u000e\u000f` +
	`\u0010\u0011\u0012\u0013\u0014\u0015\u0016\u0017` +
	`\u0018\u0019\u001a\u001b\u001c\u001d\u001e\u001f` +
	` !\u0022#$%\u0026\u0027()*\u002b,-.\/` +
	`0123456789:;\u003c=\u003e?` +
	`@ABCDEFGHIJKLMNO` +
	`PQRSTUVWXYZ[\\]^_` +
	"`abcdefghijklmno" +
	"pqrstuvwxyz{\|}~\u007f" +
	"\u00A0\u0100\\u2028\\u2029\ufeff\U0001D11E",
	},
	{
	"jsRegexpEscaper",
	jsRegexpEscaper,
	`\u0000\u0001\u0002\u0003\u0004\u0005\u0006\u0007` +
	`\u0008\t\n\u000b\f\r\u000e\u000f` +
	`\u0010\u0011\u0012\u0013\u0014\u0015\u0016\u0017` +
	`\u0018\u0019\u001a\u001b\u001c\u001d\u001e\u001f` +
	` !\u0022#\$%\u0026\u0027\(\)\*\u002b,\-\.\/` +
	`0123456789:;\u003c=\u003e\?` +
	`@ABCDEFGHIJKLMNO` +
	`PQRSTUVWXYZ\[\\\]\^_` +
	"`abcdefghijklmno" +
	`pqrstuvwxyz\{\\|\}~` + "\u007f" +
	"\u00A0\u0100\\u2028\\u2029\ufeff\U0001D11E",
	},
	}

	for _, test := range tests {
	if s := test.escaper(input); s != test.escaped {
	t.Errorf("%s once: want\n\t%q\ngot\n\t%q", test.name, test.escaped, s)
	continue
	}

	// Escape it rune by rune to make sure that any
	// fast-path checking does not break escaping.
	var buf bytes.Buffer
	for _, c := range input {
	buf.WriteString(test.escaper(string(c)))
	}

	if s := buf.String(); s != test.escaped {
	t.Errorf("%s rune-wise: want\n\t%q\ngot\n\t%q", test.name, test.escaped, s)
	continue
	}
	}
	}

	func TestIsJsMimeType(t *testing.T) {
	tests := []struct {
	in string
	out bool
	}{
	{"application/javascript;version=1.8", true},
	{"application/javascript;version=1.8;foo=bar", true},
	{"application/javascript/version=1.8", false},
	{"text/javascript", true},
	{"application/json", true},
	{"application/ld+json", true},
	{"module", true},
	}

	for _, test := range tests {
	if isJSType(test.in) != test.out {
	t.Errorf("isJSType(%q) = %v, want %v", test.in, !test.out, test.out)
	}
	}
	}

	func BenchmarkJSValEscaperWithNum(b *testing.B) {
	for i := 0; i < b.N; i++ {
	jsValEscaper(3.141592654)
	}
	}

	func BenchmarkJSValEscaperWithStr(b *testing.B) {
	for i := 0; i < b.N; i++ {
	jsValEscaper("The <i>quick</i>,\r\n<span style='color:brown'>brown</span> fox jumps\u2028over the <canine class=\"lazy\">dog</canine>")
	}
	}

	func BenchmarkJSValEscaperWithStrNoSpecials(b *testing.B) {
	for i := 0; i < b.N; i++ {
	jsValEscaper("The quick, brown fox jumps over the lazy dog")
	}
	}

	func BenchmarkJSValEscaperWithObj(b *testing.B) {
	o := struct {
	S string
	N int
	}{
	"The <i>quick</i>,\r\n<span style='color:brown'>brown</span> fox jumps\u2028over the <canine class=\"lazy\">dog</canine>\u2028",
	42,
	}
	for i := 0; i < b.N; i++ {
	jsValEscaper(o)
	}
	}

	func BenchmarkJSValEscaperWithObjNoSpecials(b *testing.B) {
	o := struct {
	S string
	N int
	}{
	"The quick, brown fox jumps over the lazy dog",
	42,
	}
	for i := 0; i < b.N; i++ {
	jsValEscaper(o)
	}
	}

	func BenchmarkJSStrEscaperNoSpecials(b *testing.B) {
	for i := 0; i < b.N; i++ {
	jsStrEscaper("The quick, brown fox jumps over the lazy dog.")
	}
	}

	func BenchmarkJSStrEscaper(b *testing.B) {
	for i := 0; i < b.N; i++ {
	jsStrEscaper("The <i>quick</i>,\r\n<span style='color:brown'>brown</span> fox jumps\u2028over the <canine class=\"lazy\">dog</canine>")
	}
	}

	func BenchmarkJSRegexpEscaperNoSpecials(b *testing.B) {
	for i := 0; i < b.N; i++ {
	jsRegexpEscaper("The quick, brown fox jumps over the lazy dog")
	}
	}

	func BenchmarkJSRegexpEscaper(b *testing.B) {
	for i := 0; i < b.N; i++ {
	jsRegexpEscaper("The <i>quick</i>,\r\n<span style='color:brown'>brown</span> fox jumps\u2028over the <canine class=\"lazy\">dog</canine>")
	}
	}