diff options
Diffstat (limited to 'src/vendor/golang.org/x/crypto/cryptobyte/asn1.go')
-rw-r--r-- | src/vendor/golang.org/x/crypto/cryptobyte/asn1.go | 816 |
1 files changed, 816 insertions, 0 deletions
diff --git a/src/vendor/golang.org/x/crypto/cryptobyte/asn1.go b/src/vendor/golang.org/x/crypto/cryptobyte/asn1.go new file mode 100644 index 0000000..401414d --- /dev/null +++ b/src/vendor/golang.org/x/crypto/cryptobyte/asn1.go @@ -0,0 +1,816 @@ +// Copyright 2017 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 cryptobyte + +import ( + encoding_asn1 "encoding/asn1" + "fmt" + "math/big" + "reflect" + "time" + + "golang.org/x/crypto/cryptobyte/asn1" +) + +// This file contains ASN.1-related methods for String and Builder. + +// Builder + +// AddASN1Int64 appends a DER-encoded ASN.1 INTEGER. +func (b *Builder) AddASN1Int64(v int64) { + b.addASN1Signed(asn1.INTEGER, v) +} + +// AddASN1Int64WithTag appends a DER-encoded ASN.1 INTEGER with the +// given tag. +func (b *Builder) AddASN1Int64WithTag(v int64, tag asn1.Tag) { + b.addASN1Signed(tag, v) +} + +// AddASN1Enum appends a DER-encoded ASN.1 ENUMERATION. +func (b *Builder) AddASN1Enum(v int64) { + b.addASN1Signed(asn1.ENUM, v) +} + +func (b *Builder) addASN1Signed(tag asn1.Tag, v int64) { + b.AddASN1(tag, func(c *Builder) { + length := 1 + for i := v; i >= 0x80 || i < -0x80; i >>= 8 { + length++ + } + + for ; length > 0; length-- { + i := v >> uint((length-1)*8) & 0xff + c.AddUint8(uint8(i)) + } + }) +} + +// AddASN1Uint64 appends a DER-encoded ASN.1 INTEGER. +func (b *Builder) AddASN1Uint64(v uint64) { + b.AddASN1(asn1.INTEGER, func(c *Builder) { + length := 1 + for i := v; i >= 0x80; i >>= 8 { + length++ + } + + for ; length > 0; length-- { + i := v >> uint((length-1)*8) & 0xff + c.AddUint8(uint8(i)) + } + }) +} + +// AddASN1BigInt appends a DER-encoded ASN.1 INTEGER. +func (b *Builder) AddASN1BigInt(n *big.Int) { + if b.err != nil { + return + } + + b.AddASN1(asn1.INTEGER, func(c *Builder) { + if n.Sign() < 0 { + // A negative number has to be converted to two's-complement form. So we + // invert and subtract 1. If the most-significant-bit isn't set then + // we'll need to pad the beginning with 0xff in order to keep the number + // negative. + nMinus1 := new(big.Int).Neg(n) + nMinus1.Sub(nMinus1, bigOne) + bytes := nMinus1.Bytes() + for i := range bytes { + bytes[i] ^= 0xff + } + if len(bytes) == 0 || bytes[0]&0x80 == 0 { + c.add(0xff) + } + c.add(bytes...) + } else if n.Sign() == 0 { + c.add(0) + } else { + bytes := n.Bytes() + if bytes[0]&0x80 != 0 { + c.add(0) + } + c.add(bytes...) + } + }) +} + +// AddASN1OctetString appends a DER-encoded ASN.1 OCTET STRING. +func (b *Builder) AddASN1OctetString(bytes []byte) { + b.AddASN1(asn1.OCTET_STRING, func(c *Builder) { + c.AddBytes(bytes) + }) +} + +const generalizedTimeFormatStr = "20060102150405Z0700" + +// AddASN1GeneralizedTime appends a DER-encoded ASN.1 GENERALIZEDTIME. +func (b *Builder) AddASN1GeneralizedTime(t time.Time) { + if t.Year() < 0 || t.Year() > 9999 { + b.err = fmt.Errorf("cryptobyte: cannot represent %v as a GeneralizedTime", t) + return + } + b.AddASN1(asn1.GeneralizedTime, func(c *Builder) { + c.AddBytes([]byte(t.Format(generalizedTimeFormatStr))) + }) +} + +// AddASN1UTCTime appends a DER-encoded ASN.1 UTCTime. +func (b *Builder) AddASN1UTCTime(t time.Time) { + b.AddASN1(asn1.UTCTime, func(c *Builder) { + // As utilized by the X.509 profile, UTCTime can only + // represent the years 1950 through 2049. + if t.Year() < 1950 || t.Year() >= 2050 { + b.err = fmt.Errorf("cryptobyte: cannot represent %v as a UTCTime", t) + return + } + c.AddBytes([]byte(t.Format(defaultUTCTimeFormatStr))) + }) +} + +// AddASN1BitString appends a DER-encoded ASN.1 BIT STRING. This does not +// support BIT STRINGs that are not a whole number of bytes. +func (b *Builder) AddASN1BitString(data []byte) { + b.AddASN1(asn1.BIT_STRING, func(b *Builder) { + b.AddUint8(0) + b.AddBytes(data) + }) +} + +func (b *Builder) addBase128Int(n int64) { + var length int + if n == 0 { + length = 1 + } else { + for i := n; i > 0; i >>= 7 { + length++ + } + } + + for i := length - 1; i >= 0; i-- { + o := byte(n >> uint(i*7)) + o &= 0x7f + if i != 0 { + o |= 0x80 + } + + b.add(o) + } +} + +func isValidOID(oid encoding_asn1.ObjectIdentifier) bool { + if len(oid) < 2 { + return false + } + + if oid[0] > 2 || (oid[0] <= 1 && oid[1] >= 40) { + return false + } + + for _, v := range oid { + if v < 0 { + return false + } + } + + return true +} + +func (b *Builder) AddASN1ObjectIdentifier(oid encoding_asn1.ObjectIdentifier) { + b.AddASN1(asn1.OBJECT_IDENTIFIER, func(b *Builder) { + if !isValidOID(oid) { + b.err = fmt.Errorf("cryptobyte: invalid OID: %v", oid) + return + } + + b.addBase128Int(int64(oid[0])*40 + int64(oid[1])) + for _, v := range oid[2:] { + b.addBase128Int(int64(v)) + } + }) +} + +func (b *Builder) AddASN1Boolean(v bool) { + b.AddASN1(asn1.BOOLEAN, func(b *Builder) { + if v { + b.AddUint8(0xff) + } else { + b.AddUint8(0) + } + }) +} + +func (b *Builder) AddASN1NULL() { + b.add(uint8(asn1.NULL), 0) +} + +// MarshalASN1 calls encoding_asn1.Marshal on its input and appends the result if +// successful or records an error if one occurred. +func (b *Builder) MarshalASN1(v interface{}) { + // NOTE(martinkr): This is somewhat of a hack to allow propagation of + // encoding_asn1.Marshal errors into Builder.err. N.B. if you call MarshalASN1 with a + // value embedded into a struct, its tag information is lost. + if b.err != nil { + return + } + bytes, err := encoding_asn1.Marshal(v) + if err != nil { + b.err = err + return + } + b.AddBytes(bytes) +} + +// AddASN1 appends an ASN.1 object. The object is prefixed with the given tag. +// Tags greater than 30 are not supported and result in an error (i.e. +// low-tag-number form only). The child builder passed to the +// BuilderContinuation can be used to build the content of the ASN.1 object. +func (b *Builder) AddASN1(tag asn1.Tag, f BuilderContinuation) { + if b.err != nil { + return + } + // Identifiers with the low five bits set indicate high-tag-number format + // (two or more octets), which we don't support. + if tag&0x1f == 0x1f { + b.err = fmt.Errorf("cryptobyte: high-tag number identifier octects not supported: 0x%x", tag) + return + } + b.AddUint8(uint8(tag)) + b.addLengthPrefixed(1, true, f) +} + +// String + +// ReadASN1Boolean decodes an ASN.1 BOOLEAN and converts it to a boolean +// representation into out and advances. It reports whether the read +// was successful. +func (s *String) ReadASN1Boolean(out *bool) bool { + var bytes String + if !s.ReadASN1(&bytes, asn1.BOOLEAN) || len(bytes) != 1 { + return false + } + + switch bytes[0] { + case 0: + *out = false + case 0xff: + *out = true + default: + return false + } + + return true +} + +// ReadASN1Integer decodes an ASN.1 INTEGER into out and advances. If out does +// not point to an integer, to a big.Int, or to a []byte it panics. Only +// positive and zero values can be decoded into []byte, and they are returned as +// big-endian binary values that share memory with s. Positive values will have +// no leading zeroes, and zero will be returned as a single zero byte. +// ReadASN1Integer reports whether the read was successful. +func (s *String) ReadASN1Integer(out interface{}) bool { + switch out := out.(type) { + case *int, *int8, *int16, *int32, *int64: + var i int64 + if !s.readASN1Int64(&i) || reflect.ValueOf(out).Elem().OverflowInt(i) { + return false + } + reflect.ValueOf(out).Elem().SetInt(i) + return true + case *uint, *uint8, *uint16, *uint32, *uint64: + var u uint64 + if !s.readASN1Uint64(&u) || reflect.ValueOf(out).Elem().OverflowUint(u) { + return false + } + reflect.ValueOf(out).Elem().SetUint(u) + return true + case *big.Int: + return s.readASN1BigInt(out) + case *[]byte: + return s.readASN1Bytes(out) + default: + panic("out does not point to an integer type") + } +} + +func checkASN1Integer(bytes []byte) bool { + if len(bytes) == 0 { + // An INTEGER is encoded with at least one octet. + return false + } + if len(bytes) == 1 { + return true + } + if bytes[0] == 0 && bytes[1]&0x80 == 0 || bytes[0] == 0xff && bytes[1]&0x80 == 0x80 { + // Value is not minimally encoded. + return false + } + return true +} + +var bigOne = big.NewInt(1) + +func (s *String) readASN1BigInt(out *big.Int) bool { + var bytes String + if !s.ReadASN1(&bytes, asn1.INTEGER) || !checkASN1Integer(bytes) { + return false + } + if bytes[0]&0x80 == 0x80 { + // Negative number. + neg := make([]byte, len(bytes)) + for i, b := range bytes { + neg[i] = ^b + } + out.SetBytes(neg) + out.Add(out, bigOne) + out.Neg(out) + } else { + out.SetBytes(bytes) + } + return true +} + +func (s *String) readASN1Bytes(out *[]byte) bool { + var bytes String + if !s.ReadASN1(&bytes, asn1.INTEGER) || !checkASN1Integer(bytes) { + return false + } + if bytes[0]&0x80 == 0x80 { + return false + } + for len(bytes) > 1 && bytes[0] == 0 { + bytes = bytes[1:] + } + *out = bytes + return true +} + +func (s *String) readASN1Int64(out *int64) bool { + var bytes String + if !s.ReadASN1(&bytes, asn1.INTEGER) || !checkASN1Integer(bytes) || !asn1Signed(out, bytes) { + return false + } + return true +} + +func asn1Signed(out *int64, n []byte) bool { + length := len(n) + if length > 8 { + return false + } + for i := 0; i < length; i++ { + *out <<= 8 + *out |= int64(n[i]) + } + // Shift up and down in order to sign extend the result. + *out <<= 64 - uint8(length)*8 + *out >>= 64 - uint8(length)*8 + return true +} + +func (s *String) readASN1Uint64(out *uint64) bool { + var bytes String + if !s.ReadASN1(&bytes, asn1.INTEGER) || !checkASN1Integer(bytes) || !asn1Unsigned(out, bytes) { + return false + } + return true +} + +func asn1Unsigned(out *uint64, n []byte) bool { + length := len(n) + if length > 9 || length == 9 && n[0] != 0 { + // Too large for uint64. + return false + } + if n[0]&0x80 != 0 { + // Negative number. + return false + } + for i := 0; i < length; i++ { + *out <<= 8 + *out |= uint64(n[i]) + } + return true +} + +// ReadASN1Int64WithTag decodes an ASN.1 INTEGER with the given tag into out +// and advances. It reports whether the read was successful and resulted in a +// value that can be represented in an int64. +func (s *String) ReadASN1Int64WithTag(out *int64, tag asn1.Tag) bool { + var bytes String + return s.ReadASN1(&bytes, tag) && checkASN1Integer(bytes) && asn1Signed(out, bytes) +} + +// ReadASN1Enum decodes an ASN.1 ENUMERATION into out and advances. It reports +// whether the read was successful. +func (s *String) ReadASN1Enum(out *int) bool { + var bytes String + var i int64 + if !s.ReadASN1(&bytes, asn1.ENUM) || !checkASN1Integer(bytes) || !asn1Signed(&i, bytes) { + return false + } + if int64(int(i)) != i { + return false + } + *out = int(i) + return true +} + +func (s *String) readBase128Int(out *int) bool { + ret := 0 + for i := 0; len(*s) > 0; i++ { + if i == 5 { + return false + } + // Avoid overflowing int on a 32-bit platform. + // We don't want different behavior based on the architecture. + if ret >= 1<<(31-7) { + return false + } + ret <<= 7 + b := s.read(1)[0] + ret |= int(b & 0x7f) + if b&0x80 == 0 { + *out = ret + return true + } + } + return false // truncated +} + +// ReadASN1ObjectIdentifier decodes an ASN.1 OBJECT IDENTIFIER into out and +// advances. It reports whether the read was successful. +func (s *String) ReadASN1ObjectIdentifier(out *encoding_asn1.ObjectIdentifier) bool { + var bytes String + if !s.ReadASN1(&bytes, asn1.OBJECT_IDENTIFIER) || len(bytes) == 0 { + return false + } + + // In the worst case, we get two elements from the first byte (which is + // encoded differently) and then every varint is a single byte long. + components := make([]int, len(bytes)+1) + + // The first varint is 40*value1 + value2: + // According to this packing, value1 can take the values 0, 1 and 2 only. + // When value1 = 0 or value1 = 1, then value2 is <= 39. When value1 = 2, + // then there are no restrictions on value2. + var v int + if !bytes.readBase128Int(&v) { + return false + } + if v < 80 { + components[0] = v / 40 + components[1] = v % 40 + } else { + components[0] = 2 + components[1] = v - 80 + } + + i := 2 + for ; len(bytes) > 0; i++ { + if !bytes.readBase128Int(&v) { + return false + } + components[i] = v + } + *out = components[:i] + return true +} + +// ReadASN1GeneralizedTime decodes an ASN.1 GENERALIZEDTIME into out and +// advances. It reports whether the read was successful. +func (s *String) ReadASN1GeneralizedTime(out *time.Time) bool { + var bytes String + if !s.ReadASN1(&bytes, asn1.GeneralizedTime) { + return false + } + t := string(bytes) + res, err := time.Parse(generalizedTimeFormatStr, t) + if err != nil { + return false + } + if serialized := res.Format(generalizedTimeFormatStr); serialized != t { + return false + } + *out = res + return true +} + +const defaultUTCTimeFormatStr = "060102150405Z0700" + +// ReadASN1UTCTime decodes an ASN.1 UTCTime into out and advances. +// It reports whether the read was successful. +func (s *String) ReadASN1UTCTime(out *time.Time) bool { + var bytes String + if !s.ReadASN1(&bytes, asn1.UTCTime) { + return false + } + t := string(bytes) + + formatStr := defaultUTCTimeFormatStr + var err error + res, err := time.Parse(formatStr, t) + if err != nil { + // Fallback to minute precision if we can't parse second + // precision. If we are following X.509 or X.690 we shouldn't + // support this, but we do. + formatStr = "0601021504Z0700" + res, err = time.Parse(formatStr, t) + } + if err != nil { + return false + } + + if serialized := res.Format(formatStr); serialized != t { + return false + } + + if res.Year() >= 2050 { + // UTCTime interprets the low order digits 50-99 as 1950-99. + // This only applies to its use in the X.509 profile. + // See https://tools.ietf.org/html/rfc5280#section-4.1.2.5.1 + res = res.AddDate(-100, 0, 0) + } + *out = res + return true +} + +// ReadASN1BitString decodes an ASN.1 BIT STRING into out and advances. +// It reports whether the read was successful. +func (s *String) ReadASN1BitString(out *encoding_asn1.BitString) bool { + var bytes String + if !s.ReadASN1(&bytes, asn1.BIT_STRING) || len(bytes) == 0 || + len(bytes)*8/8 != len(bytes) { + return false + } + + paddingBits := bytes[0] + bytes = bytes[1:] + if paddingBits > 7 || + len(bytes) == 0 && paddingBits != 0 || + len(bytes) > 0 && bytes[len(bytes)-1]&(1<<paddingBits-1) != 0 { + return false + } + + out.BitLength = len(bytes)*8 - int(paddingBits) + out.Bytes = bytes + return true +} + +// ReadASN1BitString decodes an ASN.1 BIT STRING into out and advances. It is +// an error if the BIT STRING is not a whole number of bytes. It reports +// whether the read was successful. +func (s *String) ReadASN1BitStringAsBytes(out *[]byte) bool { + var bytes String + if !s.ReadASN1(&bytes, asn1.BIT_STRING) || len(bytes) == 0 { + return false + } + + paddingBits := bytes[0] + if paddingBits != 0 { + return false + } + *out = bytes[1:] + return true +} + +// ReadASN1Bytes reads the contents of a DER-encoded ASN.1 element (not including +// tag and length bytes) into out, and advances. The element must match the +// given tag. It reports whether the read was successful. +func (s *String) ReadASN1Bytes(out *[]byte, tag asn1.Tag) bool { + return s.ReadASN1((*String)(out), tag) +} + +// ReadASN1 reads the contents of a DER-encoded ASN.1 element (not including +// tag and length bytes) into out, and advances. The element must match the +// given tag. It reports whether the read was successful. +// +// Tags greater than 30 are not supported (i.e. low-tag-number format only). +func (s *String) ReadASN1(out *String, tag asn1.Tag) bool { + var t asn1.Tag + if !s.ReadAnyASN1(out, &t) || t != tag { + return false + } + return true +} + +// ReadASN1Element reads the contents of a DER-encoded ASN.1 element (including +// tag and length bytes) into out, and advances. The element must match the +// given tag. It reports whether the read was successful. +// +// Tags greater than 30 are not supported (i.e. low-tag-number format only). +func (s *String) ReadASN1Element(out *String, tag asn1.Tag) bool { + var t asn1.Tag + if !s.ReadAnyASN1Element(out, &t) || t != tag { + return false + } + return true +} + +// ReadAnyASN1 reads the contents of a DER-encoded ASN.1 element (not including +// tag and length bytes) into out, sets outTag to its tag, and advances. +// It reports whether the read was successful. +// +// Tags greater than 30 are not supported (i.e. low-tag-number format only). +func (s *String) ReadAnyASN1(out *String, outTag *asn1.Tag) bool { + return s.readASN1(out, outTag, true /* skip header */) +} + +// ReadAnyASN1Element reads the contents of a DER-encoded ASN.1 element +// (including tag and length bytes) into out, sets outTag to is tag, and +// advances. It reports whether the read was successful. +// +// Tags greater than 30 are not supported (i.e. low-tag-number format only). +func (s *String) ReadAnyASN1Element(out *String, outTag *asn1.Tag) bool { + return s.readASN1(out, outTag, false /* include header */) +} + +// PeekASN1Tag reports whether the next ASN.1 value on the string starts with +// the given tag. +func (s String) PeekASN1Tag(tag asn1.Tag) bool { + if len(s) == 0 { + return false + } + return asn1.Tag(s[0]) == tag +} + +// SkipASN1 reads and discards an ASN.1 element with the given tag. It +// reports whether the operation was successful. +func (s *String) SkipASN1(tag asn1.Tag) bool { + var unused String + return s.ReadASN1(&unused, tag) +} + +// ReadOptionalASN1 attempts to read the contents of a DER-encoded ASN.1 +// element (not including tag and length bytes) tagged with the given tag into +// out. It stores whether an element with the tag was found in outPresent, +// unless outPresent is nil. It reports whether the read was successful. +func (s *String) ReadOptionalASN1(out *String, outPresent *bool, tag asn1.Tag) bool { + present := s.PeekASN1Tag(tag) + if outPresent != nil { + *outPresent = present + } + if present && !s.ReadASN1(out, tag) { + return false + } + return true +} + +// SkipOptionalASN1 advances s over an ASN.1 element with the given tag, or +// else leaves s unchanged. It reports whether the operation was successful. +func (s *String) SkipOptionalASN1(tag asn1.Tag) bool { + if !s.PeekASN1Tag(tag) { + return true + } + var unused String + return s.ReadASN1(&unused, tag) +} + +// ReadOptionalASN1Integer attempts to read an optional ASN.1 INTEGER explicitly +// tagged with tag into out and advances. If no element with a matching tag is +// present, it writes defaultValue into out instead. Otherwise, it behaves like +// ReadASN1Integer. +func (s *String) ReadOptionalASN1Integer(out interface{}, tag asn1.Tag, defaultValue interface{}) bool { + var present bool + var i String + if !s.ReadOptionalASN1(&i, &present, tag) { + return false + } + if !present { + switch out.(type) { + case *int, *int8, *int16, *int32, *int64, + *uint, *uint8, *uint16, *uint32, *uint64, *[]byte: + reflect.ValueOf(out).Elem().Set(reflect.ValueOf(defaultValue)) + case *big.Int: + if defaultValue, ok := defaultValue.(*big.Int); ok { + out.(*big.Int).Set(defaultValue) + } else { + panic("out points to big.Int, but defaultValue does not") + } + default: + panic("invalid integer type") + } + return true + } + if !i.ReadASN1Integer(out) || !i.Empty() { + return false + } + return true +} + +// ReadOptionalASN1OctetString attempts to read an optional ASN.1 OCTET STRING +// explicitly tagged with tag into out and advances. If no element with a +// matching tag is present, it sets "out" to nil instead. It reports +// whether the read was successful. +func (s *String) ReadOptionalASN1OctetString(out *[]byte, outPresent *bool, tag asn1.Tag) bool { + var present bool + var child String + if !s.ReadOptionalASN1(&child, &present, tag) { + return false + } + if outPresent != nil { + *outPresent = present + } + if present { + var oct String + if !child.ReadASN1(&oct, asn1.OCTET_STRING) || !child.Empty() { + return false + } + *out = oct + } else { + *out = nil + } + return true +} + +// ReadOptionalASN1Boolean sets *out to the value of the next ASN.1 BOOLEAN or, +// if the next bytes are not an ASN.1 BOOLEAN, to the value of defaultValue. +// It reports whether the operation was successful. +func (s *String) ReadOptionalASN1Boolean(out *bool, defaultValue bool) bool { + var present bool + var child String + if !s.ReadOptionalASN1(&child, &present, asn1.BOOLEAN) { + return false + } + + if !present { + *out = defaultValue + return true + } + + return s.ReadASN1Boolean(out) +} + +func (s *String) readASN1(out *String, outTag *asn1.Tag, skipHeader bool) bool { + if len(*s) < 2 { + return false + } + tag, lenByte := (*s)[0], (*s)[1] + + if tag&0x1f == 0x1f { + // ITU-T X.690 section 8.1.2 + // + // An identifier octet with a tag part of 0x1f indicates a high-tag-number + // form identifier with two or more octets. We only support tags less than + // 31 (i.e. low-tag-number form, single octet identifier). + return false + } + + if outTag != nil { + *outTag = asn1.Tag(tag) + } + + // ITU-T X.690 section 8.1.3 + // + // Bit 8 of the first length byte indicates whether the length is short- or + // long-form. + var length, headerLen uint32 // length includes headerLen + if lenByte&0x80 == 0 { + // Short-form length (section 8.1.3.4), encoded in bits 1-7. + length = uint32(lenByte) + 2 + headerLen = 2 + } else { + // Long-form length (section 8.1.3.5). Bits 1-7 encode the number of octets + // used to encode the length. + lenLen := lenByte & 0x7f + var len32 uint32 + + if lenLen == 0 || lenLen > 4 || len(*s) < int(2+lenLen) { + return false + } + + lenBytes := String((*s)[2 : 2+lenLen]) + if !lenBytes.readUnsigned(&len32, int(lenLen)) { + return false + } + + // ITU-T X.690 section 10.1 (DER length forms) requires encoding the length + // with the minimum number of octets. + if len32 < 128 { + // Length should have used short-form encoding. + return false + } + if len32>>((lenLen-1)*8) == 0 { + // Leading octet is 0. Length should have been at least one byte shorter. + return false + } + + headerLen = 2 + uint32(lenLen) + if headerLen+len32 < len32 { + // Overflow. + return false + } + length = headerLen + len32 + } + + if int(length) < 0 || !s.ReadBytes((*[]byte)(out), int(length)) { + return false + } + if skipHeader && !out.Skip(int(headerLen)) { + panic("cryptobyte: internal error") + } + + return true +} |