private CBORObject ObjectFromByteArray(byte[] data, int lengthHint)
{
CBORObject cbor = CBORObject.FromRaw(data);
if (this.stringRefs != null)
{
this.stringRefs.AddStringIfNeeded(cbor, lengthHint);
}
return(cbor);
}
internal CBORObject ParseJSONArray(int depth)
{
// Assumes that the last character read was '['
if (depth > 1000)
{
this.RaiseError("Too deeply nested");
}
var myArrayList = new List <CBORObject>();
var seenComma = false;
var nextchar = new int[1];
while (true)
{
int c = this.SkipWhitespaceJSON();
if (c == ']')
{
if (seenComma)
{
// Situation like '[0,1,]'
this.RaiseError("Trailing comma");
}
return(CBORObject.FromRaw(myArrayList));
}
if (c == ',')
{
// Situation like '[,0,1,2]' or '[0,,1]'
this.RaiseError("Empty array element");
}
myArrayList.Add(
this.NextJSONValue(
c,
nextchar,
depth));
c = nextchar[0];
switch (c)
{
case ',':
seenComma = true;
break;
case ']':
return(CBORObject.FromRaw(myArrayList));
default: this.RaiseError("Expected a ',' or ']'");
break;
}
}
}
private CBORObject ParseJSONObject(int depth)
{
// Assumes that the last character read was '{'
if (depth > 1000)
{
this.RaiseError("Too deeply nested");
}
int c;
CBORObject key = null;
CBORObject obj;
var nextchar = new int[1];
var seenComma = false;
var myHashMap = new SortedDictionary <CBORObject, CBORObject>();
while (true)
{
c = this.SkipWhitespaceJSON();
switch (c)
{
case -1:
this.RaiseError("A JSON object must end with '}'");
break;
case '}':
if (seenComma)
{
// Situation like '{"0"=>1,}'
this.RaiseError("Trailing comma");
return(null);
}
return(CBORObject.FromRaw(myHashMap));
default: {
// Read the next string
if (c < 0)
{
this.RaiseError("Unexpected end of data");
return(null);
}
if (c != '"')
{
this.RaiseError("Expected a string as a key");
return(null);
}
// Parse a string that represents the object's key
// The tokenizer already checked the string for invalid
// surrogate pairs, so just call the CBORObject
// constructor directly
obj = CBORObject.FromRawUtf8(this.NextJSONString());
key = obj;
break;
}
}
if (this.SkipWhitespaceJSON() != ':')
{
this.RaiseError("Expected a ':' after a key");
}
int oldCount = myHashMap.Count;
// NOTE: Will overwrite existing value
myHashMap[key] = this.NextJSONValue(
this.SkipWhitespaceJSON(),
nextchar,
depth);
int newCount = myHashMap.Count;
if (!this.options.AllowDuplicateKeys &&
oldCount == newCount)
{
this.RaiseError("Duplicate key already exists");
return(null);
}
switch (nextchar[0])
{
case ',':
seenComma = true;
break;
case '}':
return(CBORObject.FromRaw(myHashMap));
default: this.RaiseError("Expected a ',' or '}'");
break;
}
}
}
private CBORObject NextJSONValue(
int firstChar,
int[] nextChar,
int depth)
{
string str;
int c = firstChar;
CBORObject obj = null;
if (c < 0)
{
this.RaiseError("Unexpected end of data");
}
switch (c)
{
case '"': {
// Parse a string
// The tokenizer already checked the string for invalid
// surrogate pairs, so just call the CBORObject
// constructor directly
obj = CBORObject.FromRaw(this.NextJSONString());
nextChar[0] = this.SkipWhitespaceJSON();
return(obj);
}
case '{': {
// Parse an object
obj = this.ParseJSONObject(depth + 1);
nextChar[0] = this.SkipWhitespaceJSON();
return(obj);
}
case '[': {
// Parse an array
obj = this.ParseJSONArray(depth + 1);
nextChar[0] = this.SkipWhitespaceJSON();
return(obj);
}
case 't': {
// Parse true
if ((c = this.ReadChar()) != 'r' || (c = this.ReadChar()) != 'u' ||
(c = this.ReadChar()) != 'e')
{
this.RaiseError("Value can't be parsed.");
}
c = this.ReadChar();
if (c == 0x20 || c == 0x0a || c == 0x0d || c == 0x09)
{
nextChar[0] = this.SkipWhitespaceJSON();
}
else if (this.jsonSequenceMode && depth == 0)
{
nextChar[0] = c;
this.RaiseError("JSON whitespace expected after top-level " +
"number in JSON sequence");
}
else
{
nextChar[0] = c;
}
return(CBORObject.True);
}
case 'f': {
// Parse false
if ((c = this.ReadChar()) != 'a' || (c = this.ReadChar()) != 'l' ||
(c = this.ReadChar()) != 's' || (c = this.ReadChar()) != 'e')
{
this.RaiseError("Value can't be parsed.");
}
c = this.ReadChar();
if (c == 0x20 || c == 0x0a || c == 0x0d || c == 0x09)
{
nextChar[0] = this.SkipWhitespaceJSON();
}
else if (this.jsonSequenceMode && depth == 0)
{
nextChar[0] = c;
this.RaiseError("JSON whitespace expected after top-level " +
"number in JSON sequence");
}
else
{
nextChar[0] = c;
}
return(CBORObject.False);
}
case 'n': {
// Parse null
if ((c = this.ReadChar()) != 'u' || (c = this.ReadChar()) != 'l' ||
(c = this.ReadChar()) != 'l')
{
this.RaiseError("Value can't be parsed.");
}
c = this.ReadChar();
if (c == 0x20 || c == 0x0a || c == 0x0d || c == 0x09)
{
nextChar[0] = this.SkipWhitespaceJSON();
}
else if (this.jsonSequenceMode && depth == 0)
{
nextChar[0] = c;
this.RaiseError("JSON whitespace expected after top-level " +
"number in JSON sequence");
}
else
{
nextChar[0] = c;
}
return(CBORObject.Null);
}
case '-': {
// Parse a negative number
return(this.NextJSONNegativeNumber(nextChar, depth));
}
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9': {
// Parse a nonnegative number
int cval = c - '0';
int cstart = c;
var needObj = true;
c = this.ReadChar();
if (!(c == '-' || c == '+' || c == '.' || (c >= '0' && c <= '9') ||
c == 'e' || c == 'E'))
{
// Optimize for common case where JSON number
// is a single digit without sign or exponent
obj = CBORDataUtilities.ParseSmallNumber(cval, this.options);
needObj = false;
}
else if (c >= '0' && c <= '9')
{
int csecond = c;
if (cstart == '0')
{
// Leading zero followed by any digit is not allowed
this.RaiseError("JSON number can't be parsed.");
}
cval = (cval * 10) + (int)(c - '0');
c = this.ReadChar();
if (c >= '0' && c <= '9')
{
var digits = 2;
var ctmp = new int[10];
ctmp[0] = cstart;
ctmp[1] = csecond;
while (digits < 9 && (c >= '0' && c <= '9'))
{
cval = (cval * 10) + (int)(c - '0');
ctmp[digits++] = c;
c = this.ReadChar();
}
if (c == 'e' || c == 'E' || c == '.' || (c >= '0' && c <= '9'))
{
// Not an all-digit number, or too long
this.sb = this.sb ?? new StringBuilder();
this.sb.Remove(0, this.sb.Length);
for (var vi = 0; vi < digits; ++vi)
{
this.sb.Append((char)ctmp[vi]);
}
}
else
{
obj = CBORDataUtilities.ParseSmallNumber(cval, this.options);
needObj = false;
}
}
else if (!(c == '-' || c == '+' || c == '.' || c == 'e' || c
== 'E'))
{
// Optimize for common case where JSON number
// is two digits without sign, decimal point, or exponent
obj = CBORDataUtilities.ParseSmallNumber(cval, this.options);
needObj = false;
}
else
{
this.sb = this.sb ?? new StringBuilder();
this.sb.Remove(0, this.sb.Length);
this.sb.Append((char)cstart);
this.sb.Append((char)csecond);
}
}
else
{
this.sb = this.sb ?? new StringBuilder();
this.sb.Remove(0, this.sb.Length);
this.sb.Append((char)cstart);
}
if (needObj)
{
var charbuf = new char[32];
var charbufptr = 0;
while (
c == '-' || c == '+' || c == '.' || (c >= '0' && c <= '9') ||
c == 'e' || c == 'E')
{
charbuf[charbufptr++] = (char)c;
if (charbufptr >= 32)
{
this.sb.Append(charbuf, 0, 32);
charbufptr = 0;
}
c = this.ReadChar();
}
if (charbufptr > 0)
{
this.sb.Append(charbuf, 0, charbufptr);
}
// check if character can validly appear after a JSON number
if (c != ',' && c != ']' && c != '}' && c != -1 &&
c != 0x20 && c != 0x0a && c != 0x0d && c != 0x09)
{
this.RaiseError("Invalid character after JSON number");
}
str = this.sb.ToString();
obj = CBORDataUtilities.ParseJSONNumber(str, this.options);
if (obj == null)
{
string errstr = (str.Length <= 100) ? str : (str.Substring(0,
100) + "...");
this.RaiseError("JSON number can't be parsed. " + errstr);
}
}
if (c == 0x20 || c == 0x0a || c == 0x0d || c == 0x09)
{
nextChar[0] = this.SkipWhitespaceJSON();
}
else if (this.jsonSequenceMode && depth == 0)
{
nextChar[0] = c;
this.RaiseError("JSON whitespace expected after top-level " +
"number in JSON sequence");
}
else
{
nextChar[0] = c;
}
return(obj);
}
default: this.RaiseError("Value can't be parsed.");
break;
}
return(null);
}
public CBORObject ReadForFirstByte(int firstbyte)
{
if (this.depth > 500)
{
throw new CBORException("Too deeply nested");
}
if (firstbyte < 0)
{
throw new CBORException("Premature end of data");
}
if (firstbyte == 0xff)
{
throw new CBORException("Unexpected break code encountered");
}
int type = (firstbyte >> 5) & 0x07;
int additional = firstbyte & 0x1f;
long uadditional;
CBORObject fixedObject;
if (this.options.Ctap2Canonical)
{
if (additional >= 0x1c)
{
// NOTE: Includes stop byte and indefinite length data items
throw new CBORException("Invalid canonical CBOR encountered");
}
// Check if this represents a fixed object (NOTE: All fixed objects
// comply with CTAP2 canonical CBOR).
fixedObject = CBORObject.GetFixedObject(firstbyte);
if (fixedObject != null)
{
return(fixedObject);
}
if (type == 6)
{
throw new CBORException("Tags not allowed in canonical CBOR");
}
uadditional = ReadDataLength(
this.stream,
firstbyte,
type,
type == 7);
if (type == 0)
{
return((uadditional >> 63) != 0 ?
CBORObject.FromObject(ToUnsignedEInteger(uadditional)) :
CBORObject.FromObject(uadditional));
}
else if (type == 1)
{
return((uadditional >> 63) != 0 ? CBORObject.FromObject(
ToUnsignedEInteger(uadditional).Add(1).Negate()) :
CBORObject.FromObject((-uadditional) - 1L));
}
else if (type == 7)
{
if (additional < 24)
{
return(CBORObject.FromSimpleValue(additional));
}
else if (additional == 24 && uadditional < 32)
{
throw new CBORException("Invalid simple value encoding");
}
else if (additional == 24)
{
return(CBORObject.FromSimpleValue((int)uadditional));
}
else if (additional == 25)
{
return(CBORObject.FromFloatingPointBits(uadditional, 2));
}
else if (additional == 26)
{
return(CBORObject.FromFloatingPointBits(uadditional, 4));
}
else if (additional == 27)
{
return(CBORObject.FromFloatingPointBits(uadditional, 8));
}
}
else if (type >= 2 && type <= 5)
{
return(this.ReadStringArrayMap(type, uadditional));
}
throw new CBORException("Unexpected data encountered");
}
int expectedLength = CBORObject.GetExpectedLength(firstbyte);
// Data checks
if (expectedLength == -1)
{
// if the head byte is invalid
throw new CBORException("Unexpected data encountered");
}
// Check if this represents a fixed object
fixedObject = CBORObject.GetFixedObject(firstbyte);
if (fixedObject != null)
{
return(fixedObject);
}
// Read fixed-length data
byte[] data = null;
if (expectedLength != 0)
{
data = new byte[expectedLength];
// include the first byte because GetFixedLengthObject
// will assume it exists for some head bytes
data[0] = unchecked ((byte)firstbyte);
if (expectedLength > 1 &&
this.stream.Read(data, 1, expectedLength - 1) != expectedLength
- 1)
{
throw new CBORException("Premature end of data");
}
CBORObject cbor = CBORObject.GetFixedLengthObject(firstbyte, data);
if (this.stringRefs != null && (type == 2 || type == 3))
{
this.stringRefs.AddStringIfNeeded(cbor, expectedLength - 1);
}
return(cbor);
}
if (additional == 31)
{
// Indefinite-length for major types 2 to 5 (other major
// types were already handled in the call to
// GetFixedLengthObject).
switch (type)
{
case 2: {
// Streaming byte string
using (var ms = new MemoryStream()) {
// Requires same type as this one
while (true)
{
int nextByte = this.stream.ReadByte();
if (nextByte == 0xff)
{
// break if the "break" code was read
break;
}
long len = ReadDataLength(this.stream, nextByte, 2);
if ((len >> 63) != 0 || len > Int32.MaxValue)
{
throw new CBORException("Length" + ToUnsignedEInteger(len)
+
" is bigger than supported ");
}
if (nextByte != 0x40)
{
// NOTE: 0x40 means the empty byte string
ReadByteData(this.stream, len, ms);
}
}
if (ms.Position > Int32.MaxValue)
{
throw new
CBORException("Length of bytes to be streamed is bigger" +
"\u0020than supported ");
}
data = ms.ToArray();
return(CBORObject.FromRaw(data));
}
}
case 3: {
// Streaming text string
var builder = new StringBuilder();
while (true)
{
int nextByte = this.stream.ReadByte();
if (nextByte == 0xff)
{
// break if the "break" code was read
break;
}
long len = ReadDataLength(this.stream, nextByte, 3);
if ((len >> 63) != 0 || len > Int32.MaxValue)
{
throw new CBORException("Length" + ToUnsignedEInteger(len) +
" is bigger than supported");
}
if (nextByte != 0x60)
{
// NOTE: 0x60 means the empty string
if (PropertyMap.ExceedsKnownLength(this.stream, len))
{
throw new CBORException("Premature end of data");
}
switch (
DataUtilities.ReadUtf8(
this.stream,
(int)len,
builder,
false))
{
case -1:
throw new CBORException("Invalid UTF-8");
case -2:
throw new CBORException("Premature end of data");
}
}
}
return(CBORObject.FromRaw(builder.ToString()));
}
case 4: {
CBORObject cbor = CBORObject.NewArray();
var vtindex = 0;
// Indefinite-length array
while (true)
{
int headByte = this.stream.ReadByte();
if (headByte < 0)
{
throw new CBORException("Premature end of data");
}
if (headByte == 0xff)
{
// Break code was read
break;
}
++this.depth;
CBORObject o = this.ReadForFirstByte(
headByte);
--this.depth;
cbor.Add(o);
++vtindex;
}
return(cbor);
}
case 5: {
CBORObject cbor = CBORObject.NewMap();
// Indefinite-length map
while (true)
{
int headByte = this.stream.ReadByte();
if (headByte < 0)
{
throw new CBORException("Premature end of data");
}
if (headByte == 0xff)
{
// Break code was read
break;
}
++this.depth;
CBORObject key = this.ReadForFirstByte(headByte);
CBORObject value = this.ReadInternal();
--this.depth;
int oldCount = cbor.Count;
cbor[key] = value;
int newCount = cbor.Count;
if (!this.options.AllowDuplicateKeys && oldCount == newCount)
{
throw new CBORException("Duplicate key already exists");
}
}
return(cbor);
}
default: throw new CBORException("Unexpected data encountered");
}
}
EInteger bigintAdditional = EInteger.Zero;
uadditional = ReadDataLength(this.stream, firstbyte, type);
// The following doesn't check for major types 0 and 1,
// since all of them are fixed-length types and are
// handled in the call to GetFixedLengthObject.
if (type >= 2 && type <= 5)
{
return(this.ReadStringArrayMap(type, uadditional));
}
if (type == 6) // Tagged item
{
var haveFirstByte = false;
var newFirstByte = -1;
if (this.options.ResolveReferences && (uadditional >> 32) == 0)
{
// NOTE: HandleItemTag treats only certain tags up to 256 specially
this.HandleItemTag(uadditional);
}
++this.depth;
CBORObject o = haveFirstByte ? this.ReadForFirstByte(
newFirstByte) : this.ReadInternal();
--this.depth;
if ((uadditional >> 63) != 0)
{
return(CBORObject.FromObjectAndTag(o,
ToUnsignedEInteger(uadditional)));
}
if (uadditional < 65536)
{
if (this.options.ResolveReferences)
{
int uaddl = uadditional >= 257 ? 257 : (uadditional < 0 ? 0 :
(int)uadditional);
switch (uaddl)
{
case 256:
// string tag
this.stringRefs.Pop();
break;
case 25:
// stringref tag
if (o.IsTagged || o.Type != CBORType.Integer)
{
throw new CBORException("stringref must be an unsigned" +
"\u0020integer");
}
return(this.stringRefs.GetString(o.AsEIntegerValue()));
}
}
return(CBORObject.FromObjectAndTag(
o,
(int)uadditional));
}
return(CBORObject.FromObjectAndTag(
o,
(EInteger)uadditional));
}
throw new CBORException("Unexpected data encountered");
}
private CBORObject NextJSONValue(
int firstChar,
int[] nextChar,
int depth)
{
int c = firstChar;
CBORObject obj = null;
if (c < 0)
{
this.RaiseError("Unexpected end of data");
}
switch (c)
{
case '"': {
// Parse a string
// The tokenizer already checked the string for invalid
// surrogate pairs, so just call the CBORObject
// constructor directly
obj = CBORObject.FromRaw(this.NextJSONString());
nextChar[0] = this.SkipWhitespaceJSON();
return(obj);
}
case '{': {
// Parse an object
obj = this.ParseJSONObject(depth + 1);
nextChar[0] = this.SkipWhitespaceJSON();
return(obj);
}
case '[': {
// Parse an array
obj = this.ParseJSONArray(depth + 1);
nextChar[0] = this.SkipWhitespaceJSON();
return(obj);
}
case 't': {
// Parse true
if (this.endPos - this.index <= 2 ||
(((int)this.jstring[this.index]) & 0xFF) != 'r' ||
(((int)this.jstring[this.index + 1]) & 0xFF) != 'u' ||
(((int)this.jstring[this.index + 2]) & 0xFF) != 'e')
{
this.RaiseError("Value can't be parsed.");
}
this.index += 3;
nextChar[0] = this.SkipWhitespaceJSON();
return(CBORObject.True);
}
case 'f': {
// Parse false
if (this.endPos - this.index <= 3 ||
(((int)this.jstring[this.index]) & 0xFF) != 'a' ||
(((int)this.jstring[this.index + 1]) & 0xFF) != 'l' ||
(((int)this.jstring[this.index + 2]) & 0xFF) != 's' ||
(((int)this.jstring[this.index + 3]) & 0xFF) != 'e')
{
this.RaiseError("Value can't be parsed.");
}
this.index += 4;
nextChar[0] = this.SkipWhitespaceJSON();
return(CBORObject.False);
}
case 'n': {
// Parse null
if (this.endPos - this.index <= 2 ||
(((int)this.jstring[this.index]) & 0xFF) != 'u' ||
(((int)this.jstring[this.index + 1]) & 0xFF) != 'l' ||
(((int)this.jstring[this.index + 2]) & 0xFF) != 'l')
{
this.RaiseError("Value can't be parsed.");
}
this.index += 3;
nextChar[0] = this.SkipWhitespaceJSON();
return(CBORObject.Null);
}
case '-': {
// Parse a negative number
return(this.NextJSONNegativeNumber(nextChar));
}
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9': {
// Parse a nonnegative number
return(this.NextJSONNonnegativeNumber(c, nextChar));
}
default:
this.RaiseError("Value can't be parsed.");
break;
}
return(null);
}