Import TinyCBOR

This does not match any upstream version, but rather the "dev" branch at
https://github.com/thiagomacieira/tinycbor/. I've found myself
completely out of time to finish developing the TinyCBOR buffer
integration and zero-copy support.

Change-Id: I9741f017961b410c910dfffd150133cbf6fbe678
Reviewed-by: Lars Knoll <lars.knoll@qt.io>

8 files changed, 3653 insertions, 0 deletions

diff --git a/src/3rdparty/tinycbor/src/cbor.h b/src/3rdparty/tinycbor/src/cbor.h
new file mode 100644
index 0000000000..7a335d96ae
--- /dev/null
+++ b/src/3rdparty/tinycbor/src/cbor.h
@@ -0,0 +1,669 @@
+/****************************************************************************
+**
+** Copyright (C) 2018 Intel Corporation
+**
+** Permission is hereby granted, free of charge, to any person obtaining a copy
+** of this software and associated documentation files (the "Software"), to deal
+** in the Software without restriction, including without limitation the rights
+** to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+** copies of the Software, and to permit persons to whom the Software is
+** furnished to do so, subject to the following conditions:
+**
+** The above copyright notice and this permission notice shall be included in
+** all copies or substantial portions of the Software.
+**
+** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+** IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+** FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+** AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+** LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+** OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+** THE SOFTWARE.
+**
+****************************************************************************/
+
+#ifndef CBOR_H
+#define CBOR_H
+
+#ifndef assert
+#include <assert.h>
+#endif
+#include <limits.h>
+#include <stddef.h>
+#include <stdint.h>
+#include <string.h>
+#include <stdio.h>
+
+#include "tinycbor-version.h"
+
+#define TINYCBOR_VERSION            ((TINYCBOR_VERSION_MAJOR << 16) | (TINYCBOR_VERSION_MINOR << 8) | TINYCBOR_VERSION_PATCH)
+
+#ifdef __cplusplus
+extern "C" {
+#else
+#include <stdbool.h>
+#endif
+
+#ifndef SIZE_MAX
+/* Some systems fail to define SIZE_MAX in <stdint.h>, even though C99 requires it...
+ * Conversion from signed to unsigned is defined in 6.3.1.3 (Signed and unsigned integers) p2,
+ * which says: "the value is converted by repeatedly adding or subtracting one more than the
+ * maximum value that can be represented in the new type until the value is in the range of the
+ * new type."
+ * So -1 gets converted to size_t by adding SIZE_MAX + 1, which results in SIZE_MAX.
+ */
+#  define SIZE_MAX ((size_t)-1)
+#endif
+
+#ifndef CBOR_API
+#  define CBOR_API
+#endif
+#ifndef CBOR_PRIVATE_API
+#  define CBOR_PRIVATE_API
+#endif
+#ifndef CBOR_INLINE_API
+#  if defined(__cplusplus)
+#    define CBOR_INLINE inline
+#    define CBOR_INLINE_API inline
+#  else
+#    define CBOR_INLINE_API static CBOR_INLINE
+#    if defined(_MSC_VER)
+#      define CBOR_INLINE __inline
+#    elif defined(__GNUC__)
+#      define CBOR_INLINE __inline__
+#    elif defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L
+#      define CBOR_INLINE inline
+#    else
+#      define CBOR_INLINE
+#    endif
+#  endif
+#endif
+
+typedef enum CborType {
+    CborIntegerType     = 0x00,
+    CborByteStringType  = 0x40,
+    CborTextStringType  = 0x60,
+    CborArrayType       = 0x80,
+    CborMapType         = 0xa0,
+    CborTagType         = 0xc0,
+    CborSimpleType      = 0xe0,
+    CborBooleanType     = 0xf5,
+    CborNullType        = 0xf6,
+    CborUndefinedType   = 0xf7,
+    CborHalfFloatType   = 0xf9,
+    CborFloatType       = 0xfa,
+    CborDoubleType      = 0xfb,
+
+    CborInvalidType     = 0xff              /* equivalent to the break byte, so it will never be used */
+} CborType;
+
+typedef uint64_t CborTag;
+typedef enum CborKnownTags {
+    CborDateTimeStringTag          = 0,
+    CborUnixTime_tTag              = 1,
+    CborPositiveBignumTag          = 2,
+    CborNegativeBignumTag          = 3,
+    CborDecimalTag                 = 4,
+    CborBigfloatTag                = 5,
+    CborCOSE_Encrypt0Tag           = 16,
+    CborCOSE_Mac0Tag               = 17,
+    CborCOSE_Sign1Tag              = 18,
+    CborExpectedBase64urlTag       = 21,
+    CborExpectedBase64Tag          = 22,
+    CborExpectedBase16Tag          = 23,
+    CborEncodedCborTag             = 24,
+    CborUrlTag                     = 32,
+    CborBase64urlTag               = 33,
+    CborBase64Tag                  = 34,
+    CborRegularExpressionTag       = 35,
+    CborMimeMessageTag             = 36,
+    CborCOSE_EncryptTag            = 96,
+    CborCOSE_MacTag                = 97,
+    CborCOSE_SignTag               = 98,
+    CborSignatureTag               = 55799
+} CborKnownTags;
+
+/* #define the constants so we can check with #ifdef */
+#define CborDateTimeStringTag CborDateTimeStringTag
+#define CborUnixTime_tTag CborUnixTime_tTag
+#define CborPositiveBignumTag CborPositiveBignumTag
+#define CborNegativeBignumTag CborNegativeBignumTag
+#define CborDecimalTag CborDecimalTag
+#define CborBigfloatTag CborBigfloatTag
+#define CborCOSE_Encrypt0Tag CborCOSE_Encrypt0Tag
+#define CborCOSE_Mac0Tag CborCOSE_Mac0Tag
+#define CborCOSE_Sign1Tag CborCOSE_Sign1Tag
+#define CborExpectedBase64urlTag CborExpectedBase64urlTag
+#define CborExpectedBase64Tag CborExpectedBase64Tag
+#define CborExpectedBase16Tag CborExpectedBase16Tag
+#define CborEncodedCborTag CborEncodedCborTag
+#define CborUrlTag CborUrlTag
+#define CborBase64urlTag CborBase64urlTag
+#define CborBase64Tag CborBase64Tag
+#define CborRegularExpressionTag CborRegularExpressionTag
+#define CborMimeMessageTag CborMimeMessageTag
+#define CborCOSE_EncryptTag CborCOSE_EncryptTag
+#define CborCOSE_MacTag CborCOSE_MacTag
+#define CborCOSE_SignTag CborCOSE_SignTag
+#define CborSignatureTag CborSignatureTag
+
+/* Error API */
+
+typedef enum CborError {
+    CborNoError = 0,
+
+    /* errors in all modes */
+    CborUnknownError,
+    CborErrorUnknownLength,         /* request for length in array, map, or string with indeterminate length */
+    CborErrorAdvancePastEOF,
+    CborErrorIO,
+
+    /* parser errors streaming errors */
+    CborErrorGarbageAtEnd = 256,
+    CborErrorUnexpectedEOF,
+    CborErrorUnexpectedBreak,
+    CborErrorUnknownType,           /* can only happen in major type 7 */
+    CborErrorIllegalType,           /* type not allowed here */
+    CborErrorIllegalNumber,
+    CborErrorIllegalSimpleType,     /* types of value less than 32 encoded in two bytes */
+
+    CborErrorLastStringChunk,       /* not really an error */
+
+    /* parser errors in strict mode parsing only */
+    CborErrorUnknownSimpleType = 512,
+    CborErrorUnknownTag,
+    CborErrorInappropriateTagForType,
+    CborErrorDuplicateObjectKeys,
+    CborErrorInvalidUtf8TextString,
+    CborErrorExcludedType,
+    CborErrorExcludedValue,
+    CborErrorImproperValue,
+    CborErrorOverlongEncoding,
+    CborErrorMapKeyNotString,
+    CborErrorMapNotSorted,
+    CborErrorMapKeysNotUnique,
+
+    /* encoder errors */
+    CborErrorTooManyItems = 768,
+    CborErrorTooFewItems,
+
+    /* internal implementation errors */
+    CborErrorDataTooLarge = 1024,
+    CborErrorNestingTooDeep,
+    CborErrorUnsupportedType,
+    CborErrorUnimplementedValidation,
+
+    /* errors in converting to JSON */
+    CborErrorJsonObjectKeyIsAggregate = 1280,
+    CborErrorJsonObjectKeyNotString,
+    CborErrorJsonNotImplemented,
+
+    CborErrorOutOfMemory = (int) (~0U / 2 + 1),
+    CborErrorInternalError = (int) (~0U / 2)    /* INT_MAX on two's complement machines */
+} CborError;
+
+CBOR_API const char *cbor_error_string(CborError error);
+
+/* Encoder API */
+
+typedef enum CborEncoderAppendType
+{
+    CborEncoderAppendCborData = 0,
+    CborEncoderAppendStringData = 1
+} CborEncoderAppendType;
+
+typedef CborError (*CborEncoderWriteFunction)(void *, const void *, size_t, CborEncoderAppendType);
+
+enum CborEncoderFlags
+{
+    CborIteratorFlag_WriterFunction         = 0x01,
+    CborIteratorFlag_ContainerIsMap_        = 0x20
+};
+
+struct CborEncoder
+{
+    union {
+        uint8_t *ptr;
+        ptrdiff_t bytes_needed;
+        CborEncoderWriteFunction writer;
+    } data;
+    uint8_t *end;
+    size_t remaining;
+    int flags;
+};
+typedef struct CborEncoder CborEncoder;
+
+static const size_t CborIndefiniteLength = SIZE_MAX;
+
+CBOR_API void cbor_encoder_init(CborEncoder *encoder, uint8_t *buffer, size_t size, int flags);
+CBOR_API void cbor_encoder_init_writer(CborEncoder *encoder, CborEncoderWriteFunction writer, void *);
+CBOR_API CborError cbor_encode_uint(CborEncoder *encoder, uint64_t value);
+CBOR_API CborError cbor_encode_int(CborEncoder *encoder, int64_t value);
+CBOR_API CborError cbor_encode_negative_int(CborEncoder *encoder, uint64_t absolute_value);
+CBOR_API CborError cbor_encode_simple_value(CborEncoder *encoder, uint8_t value);
+CBOR_API CborError cbor_encode_tag(CborEncoder *encoder, CborTag tag);
+CBOR_API CborError cbor_encode_text_string(CborEncoder *encoder, const char *string, size_t length);
+CBOR_INLINE_API CborError cbor_encode_text_stringz(CborEncoder *encoder, const char *string)
+{ return cbor_encode_text_string(encoder, string, strlen(string)); }
+CBOR_API CborError cbor_encode_byte_string(CborEncoder *encoder, const uint8_t *string, size_t length);
+CBOR_API CborError cbor_encode_floating_point(CborEncoder *encoder, CborType fpType, const void *value);
+
+CBOR_INLINE_API CborError cbor_encode_boolean(CborEncoder *encoder, bool value)
+{ return cbor_encode_simple_value(encoder, (int)value - 1 + (CborBooleanType & 0x1f)); }
+CBOR_INLINE_API CborError cbor_encode_null(CborEncoder *encoder)
+{ return cbor_encode_simple_value(encoder, CborNullType & 0x1f); }
+CBOR_INLINE_API CborError cbor_encode_undefined(CborEncoder *encoder)
+{ return cbor_encode_simple_value(encoder, CborUndefinedType & 0x1f); }
+
+CBOR_INLINE_API CborError cbor_encode_half_float(CborEncoder *encoder, const void *value)
+{ return cbor_encode_floating_point(encoder, CborHalfFloatType, value); }
+CBOR_INLINE_API CborError cbor_encode_float(CborEncoder *encoder, float value)
+{ return cbor_encode_floating_point(encoder, CborFloatType, &value); }
+CBOR_INLINE_API CborError cbor_encode_double(CborEncoder *encoder, double value)
+{ return cbor_encode_floating_point(encoder, CborDoubleType, &value); }
+
+CBOR_API CborError cbor_encoder_create_array(CborEncoder *encoder, CborEncoder *arrayEncoder, size_t length);
+CBOR_API CborError cbor_encoder_create_map(CborEncoder *encoder, CborEncoder *mapEncoder, size_t length);
+CBOR_API CborError cbor_encoder_close_container(CborEncoder *encoder, const CborEncoder *containerEncoder);
+CBOR_API CborError cbor_encoder_close_container_checked(CborEncoder *encoder, const CborEncoder *containerEncoder);
+
+CBOR_INLINE_API uint8_t *_cbor_encoder_get_buffer_pointer(const CborEncoder *encoder)
+{
+    return encoder->data.ptr;
+}
+
+CBOR_INLINE_API size_t cbor_encoder_get_buffer_size(const CborEncoder *encoder, const uint8_t *buffer)
+{
+    return (size_t)(encoder->data.ptr - buffer);
+}
+
+CBOR_INLINE_API size_t cbor_encoder_get_extra_bytes_needed(const CborEncoder *encoder)
+{
+    return encoder->end ? 0 : (size_t)encoder->data.bytes_needed;
+}
+
+/* Parser API */
+
+enum CborParserGlobalFlags
+{
+    CborParserFlag_ExternalSource           = 0x01
+};
+
+enum CborParserIteratorFlags
+{
+    CborIteratorFlag_IntegerValueIs64Bit    = 0x01,
+    CborIteratorFlag_IntegerValueTooLarge   = 0x02,
+    CborIteratorFlag_NegativeInteger        = 0x04,
+    CborIteratorFlag_IteratingStringChunks  = 0x08,
+    CborIteratorFlag_UnknownLength          = 0x10,
+    CborIteratorFlag_ContainerIsMap         = 0x20,
+    CborIteratorFlag_NextIsMapKey           = 0x40
+};
+
+struct CborValue;
+struct CborParserOperations
+{
+    bool (*can_read_bytes)(void *token, size_t len);
+    void *(*read_bytes)(void *token, void *dst, size_t offset, size_t len);
+    void (*advance_bytes)(void *token, size_t len);
+    CborError (*transfer_string)(void *token, const void **userptr, size_t offset, size_t len);
+};
+
+struct CborParser
+{
+    union {
+        const uint8_t *end;
+        const struct CborParserOperations *ops;
+    } source;
+    enum CborParserGlobalFlags flags;
+};
+typedef struct CborParser CborParser;
+
+struct CborValue
+{
+    const CborParser *parser;
+    union {
+        const uint8_t *ptr;
+        void *token;
+    } source;
+    uint32_t remaining;
+    uint16_t extra;
+    uint8_t type;
+    uint8_t flags;
+};
+typedef struct CborValue CborValue;
+
+CBOR_API CborError cbor_parser_init(const uint8_t *buffer, size_t size, int flags, CborParser *parser, CborValue *it);
+CBOR_API CborError cbor_parser_init_reader(const struct CborParserOperations *ops, CborParser *parser, CborValue *it, void *token);
+
+CBOR_API CborError cbor_value_validate_basic(const CborValue *it);
+
+CBOR_INLINE_API bool cbor_value_at_end(const CborValue *it)
+{ return it->remaining == 0; }
+CBOR_INLINE_API const uint8_t *cbor_value_get_next_byte(const CborValue *it)
+{ return it->source.ptr; }
+CBOR_API CborError cbor_value_reparse(CborValue *it);
+CBOR_API CborError cbor_value_advance_fixed(CborValue *it);
+CBOR_API CborError cbor_value_advance(CborValue *it);
+CBOR_INLINE_API bool cbor_value_is_container(const CborValue *it)
+{ return it->type == CborArrayType || it->type == CborMapType; }
+CBOR_API CborError cbor_value_enter_container(const CborValue *it, CborValue *recursed);
+CBOR_API CborError cbor_value_leave_container(CborValue *it, const CborValue *recursed);
+
+CBOR_PRIVATE_API uint64_t _cbor_value_decode_int64_internal(const CborValue *value);
+CBOR_INLINE_API uint64_t _cbor_value_extract_int64_helper(const CborValue *value)
+{
+    return value->flags & CborIteratorFlag_IntegerValueTooLarge ?
+                _cbor_value_decode_int64_internal(value) : value->extra;
+}
+
+CBOR_INLINE_API bool cbor_value_is_valid(const CborValue *value)
+{ return value && value->type != CborInvalidType; }
+CBOR_INLINE_API CborType cbor_value_get_type(const CborValue *value)
+{ return (CborType)value->type; }
+
+/* Null & undefined type */
+CBOR_INLINE_API bool cbor_value_is_null(const CborValue *value)
+{ return value->type == CborNullType; }
+CBOR_INLINE_API bool cbor_value_is_undefined(const CborValue *value)
+{ return value->type == CborUndefinedType; }
+
+/* Booleans */
+CBOR_INLINE_API bool cbor_value_is_boolean(const CborValue *value)
+{ return value->type == CborBooleanType; }
+CBOR_INLINE_API CborError cbor_value_get_boolean(const CborValue *value, bool *result)
+{
+    assert(cbor_value_is_boolean(value));
+    *result = !!value->extra;
+    return CborNoError;
+}
+
+/* Simple types */
+CBOR_INLINE_API bool cbor_value_is_simple_type(const CborValue *value)
+{ return value->type == CborSimpleType; }
+CBOR_INLINE_API CborError cbor_value_get_simple_type(const CborValue *value, uint8_t *result)
+{
+    assert(cbor_value_is_simple_type(value));
+    *result = (uint8_t)value->extra;
+    return CborNoError;
+}
+
+/* Integers */
+CBOR_INLINE_API bool cbor_value_is_integer(const CborValue *value)
+{ return value->type == CborIntegerType; }
+CBOR_INLINE_API bool cbor_value_is_unsigned_integer(const CborValue *value)
+{ return cbor_value_is_integer(value) && (value->flags & CborIteratorFlag_NegativeInteger) == 0; }
+CBOR_INLINE_API bool cbor_value_is_negative_integer(const CborValue *value)
+{ return cbor_value_is_integer(value) && (value->flags & CborIteratorFlag_NegativeInteger); }
+
+CBOR_INLINE_API CborError cbor_value_get_raw_integer(const CborValue *value, uint64_t *result)
+{
+    assert(cbor_value_is_integer(value));
+    *result = _cbor_value_extract_int64_helper(value);
+    return CborNoError;
+}
+
+CBOR_INLINE_API CborError cbor_value_get_uint64(const CborValue *value, uint64_t *result)
+{
+    assert(cbor_value_is_unsigned_integer(value));
+    *result = _cbor_value_extract_int64_helper(value);
+    return CborNoError;
+}
+
+CBOR_INLINE_API CborError cbor_value_get_int64(const CborValue *value, int64_t *result)
+{
+    assert(cbor_value_is_integer(value));
+    *result = (int64_t) _cbor_value_extract_int64_helper(value);
+    if (value->flags & CborIteratorFlag_NegativeInteger)
+        *result = -*result - 1;
+    return CborNoError;
+}
+
+CBOR_INLINE_API CborError cbor_value_get_int(const CborValue *value, int *result)
+{
+    assert(cbor_value_is_integer(value));
+    *result = (int) _cbor_value_extract_int64_helper(value);
+    if (value->flags & CborIteratorFlag_NegativeInteger)
+        *result = -*result - 1;
+    return CborNoError;
+}
+
+CBOR_API CborError cbor_value_get_int64_checked(const CborValue *value, int64_t *result);
+CBOR_API CborError cbor_value_get_int_checked(const CborValue *value, int *result);
+
+CBOR_INLINE_API bool cbor_value_is_length_known(const CborValue *value)
+{ return (value->flags & CborIteratorFlag_UnknownLength) == 0; }
+
+/* Tags */
+CBOR_INLINE_API bool cbor_value_is_tag(const CborValue *value)
+{ return value->type == CborTagType; }
+CBOR_INLINE_API CborError cbor_value_get_tag(const CborValue *value, CborTag *result)
+{
+    assert(cbor_value_is_tag(value));
+    *result = _cbor_value_extract_int64_helper(value);
+    return CborNoError;
+}
+CBOR_API CborError cbor_value_skip_tag(CborValue *it);
+
+/* Strings */
+CBOR_INLINE_API bool cbor_value_is_byte_string(const CborValue *value)
+{ return value->type == CborByteStringType; }
+CBOR_INLINE_API bool cbor_value_is_text_string(const CborValue *value)
+{ return value->type == CborTextStringType; }
+
+CBOR_INLINE_API CborError cbor_value_get_string_length(const CborValue *value, size_t *length)
+{
+    assert(cbor_value_is_byte_string(value) || cbor_value_is_text_string(value));
+    if (!cbor_value_is_length_known(value))
+        return CborErrorUnknownLength;
+    uint64_t v = _cbor_value_extract_int64_helper(value);
+    *length = (size_t)v;
+    if (*length != v)
+        return CborErrorDataTooLarge;
+    return CborNoError;
+}
+
+CBOR_PRIVATE_API CborError _cbor_value_copy_string(const CborValue *value, void *buffer,
+                                                   size_t *buflen, CborValue *next);
+CBOR_PRIVATE_API CborError _cbor_value_dup_string(const CborValue *value, void **buffer,
+                                                  size_t *buflen, CborValue *next);
+
+CBOR_API CborError cbor_value_calculate_string_length(const CborValue *value, size_t *length);
+
+CBOR_INLINE_API CborError cbor_value_copy_text_string(const CborValue *value, char *buffer,
+                                                      size_t *buflen, CborValue *next)
+{
+    assert(cbor_value_is_text_string(value));
+    return _cbor_value_copy_string(value, buffer, buflen, next);
+}
+CBOR_INLINE_API CborError cbor_value_copy_byte_string(const CborValue *value, uint8_t *buffer,
+                                                      size_t *buflen, CborValue *next)
+{
+    assert(cbor_value_is_byte_string(value));
+    return _cbor_value_copy_string(value, buffer, buflen, next);
+}
+
+CBOR_INLINE_API CborError cbor_value_dup_text_string(const CborValue *value, char **buffer,
+                                                     size_t *buflen, CborValue *next)
+{
+    assert(cbor_value_is_text_string(value));
+    return _cbor_value_dup_string(value, (void **)buffer, buflen, next);
+}
+CBOR_INLINE_API CborError cbor_value_dup_byte_string(const CborValue *value, uint8_t **buffer,
+                                                     size_t *buflen, CborValue *next)
+{
+    assert(cbor_value_is_byte_string(value));
+    return _cbor_value_dup_string(value, (void **)buffer, buflen, next);
+}
+
+CBOR_PRIVATE_API CborError _cbor_value_get_string_chunk(const CborValue *value, const void **bufferptr,
+                                                        size_t *len, CborValue *next);
+CBOR_API CborError cbor_value_get_string_chunk_size(CborValue *value, size_t *len);
+CBOR_INLINE_API CborError cbor_value_get_text_string_chunk(const CborValue *value, const char **bufferptr,
+                                                           size_t *len, CborValue *next)
+{
+    assert(cbor_value_is_text_string(value));
+    return _cbor_value_get_string_chunk(value, (const void **)bufferptr, len, next);
+}
+CBOR_INLINE_API CborError cbor_value_get_byte_string_chunk(const CborValue *value, const uint8_t **bufferptr,
+                                                           size_t *len, CborValue *next)
+{
+    assert(cbor_value_is_byte_string(value));
+    return _cbor_value_get_string_chunk(value, (const void **)bufferptr, len, next);
+}
+
+CBOR_API CborError cbor_value_text_string_equals(const CborValue *value, const char *string, bool *result);
+
+/* Maps and arrays */
+CBOR_INLINE_API bool cbor_value_is_array(const CborValue *value)
+{ return value->type == CborArrayType; }
+CBOR_INLINE_API bool cbor_value_is_map(const CborValue *value)
+{ return value->type == CborMapType; }
+
+CBOR_INLINE_API CborError cbor_value_get_array_length(const CborValue *value, size_t *length)
+{
+    assert(cbor_value_is_array(value));
+    if (!cbor_value_is_length_known(value))
+        return CborErrorUnknownLength;
+    uint64_t v = _cbor_value_extract_int64_helper(value);
+    *length = (size_t)v;
+    if (*length != v)
+        return CborErrorDataTooLarge;
+    return CborNoError;
+}
+
+CBOR_INLINE_API CborError cbor_value_get_map_length(const CborValue *value, size_t *length)
+{
+    assert(cbor_value_is_map(value));
+    if (!cbor_value_is_length_known(value))
+        return CborErrorUnknownLength;
+    uint64_t v = _cbor_value_extract_int64_helper(value);
+    *length = (size_t)v;
+    if (*length != v)
+        return CborErrorDataTooLarge;
+    return CborNoError;
+}
+
+CBOR_API CborError cbor_value_map_find_value(const CborValue *map, const char *string, CborValue *element);
+
+/* Floating point */
+CBOR_INLINE_API bool cbor_value_is_half_float(const CborValue *value)
+{ return value->type == CborHalfFloatType; }
+CBOR_INLINE_API CborError cbor_value_get_half_float(const CborValue *value, void *result)
+{
+    assert(cbor_value_is_half_float(value));
+    assert((value->flags & CborIteratorFlag_IntegerValueTooLarge) == 0);
+
+    /* size has been computed already */
+    memcpy(result, &value->extra, sizeof(value->extra));
+    return CborNoError;
+}
+
+CBOR_INLINE_API bool cbor_value_is_float(const CborValue *value)
+{ return value->type == CborFloatType; }
+CBOR_INLINE_API CborError cbor_value_get_float(const CborValue *value, float *result)
+{
+    assert(cbor_value_is_float(value));
+    assert(value->flags & CborIteratorFlag_IntegerValueTooLarge);
+    uint32_t data = (uint32_t)_cbor_value_decode_int64_internal(value);
+    memcpy(result, &data, sizeof(*result));
+    return CborNoError;
+}
+
+CBOR_INLINE_API bool cbor_value_is_double(const CborValue *value)
+{ return value->type == CborDoubleType; }
+CBOR_INLINE_API CborError cbor_value_get_double(const CborValue *value, double *result)
+{
+    assert(cbor_value_is_double(value));
+    assert(value->flags & CborIteratorFlag_IntegerValueTooLarge);
+    uint64_t data = _cbor_value_decode_int64_internal(value);
+    memcpy(result, &data, sizeof(*result));
+    return CborNoError;
+}
+
+/* Validation API */
+
+enum CborValidationFlags {
+    /* Bit mapping:
+     *  bits 0-7 (8 bits):      canonical format
+     *  bits 8-11 (4 bits):     canonical format & strict mode
+     *  bits 12-20 (8 bits):    strict mode
+     *  bits 21-31 (10 bits):   other
+     */
+
+    CborValidateShortestIntegrals           = 0x0001,
+    CborValidateShortestFloatingPoint       = 0x0002,
+    CborValidateShortestNumbers             = CborValidateShortestIntegrals | CborValidateShortestFloatingPoint,
+    CborValidateNoIndeterminateLength       = 0x0100,
+    CborValidateMapIsSorted                 = 0x0200 | CborValidateNoIndeterminateLength,
+
+    CborValidateCanonicalFormat             = 0x0fff,
+
+    CborValidateMapKeysAreUnique            = 0x1000 | CborValidateMapIsSorted,
+    CborValidateTagUse                      = 0x2000,
+    CborValidateUtf8                        = 0x4000,
+
+    CborValidateStrictMode                  = 0xfff00,
+
+    CborValidateMapKeysAreString            = 0x100000,
+    CborValidateNoUndefined                 = 0x200000,
+    CborValidateNoTags                      = 0x400000,
+    CborValidateFiniteFloatingPoint         = 0x800000,
+    /* unused                               = 0x1000000, */
+    /* unused                               = 0x2000000, */
+
+    CborValidateNoUnknownSimpleTypesSA      = 0x4000000,
+    CborValidateNoUnknownSimpleTypes        = 0x8000000 | CborValidateNoUnknownSimpleTypesSA,
+    CborValidateNoUnknownTagsSA             = 0x10000000,
+    CborValidateNoUnknownTagsSR             = 0x20000000 | CborValidateNoUnknownTagsSA,
+    CborValidateNoUnknownTags               = 0x40000000 | CborValidateNoUnknownTagsSR,
+
+    CborValidateCompleteData                = (int)0x80000000,
+
+    CborValidateStrictest                   = (int)~0U,
+    CborValidateBasic                       = 0
+};
+
+CBOR_API CborError cbor_value_validate(const CborValue *it, int flags);
+
+/* Human-readable (dump) API */
+
+enum CborPrettyFlags {
+    CborPrettyNumericEncodingIndicators     = 0x01,
+    CborPrettyTextualEncodingIndicators     = 0,
+
+    CborPrettyIndicateIndeterminateLength   = 0x02,
+    CborPrettyIndicateIndetermineLength     = CborPrettyIndicateIndeterminateLength, /* deprecated */
+    CborPrettyIndicateOverlongNumbers       = 0x04,
+
+    CborPrettyShowStringFragments           = 0x100,
+    CborPrettyMergeStringFragments          = 0,
+
+    CborPrettyDefaultFlags          = CborPrettyIndicateIndeterminateLength
+};
+
+typedef CborError (*CborStreamFunction)(void *token, const char *fmt, ...)
+#ifdef __GNUC__
+    __attribute__((__format__(printf, 2, 3)))
+#endif
+;
+
+CBOR_API CborError cbor_value_to_pretty_stream(CborStreamFunction streamFunction, void *token, CborValue *value, int flags);
+
+/* The following API requires a hosted C implementation (uses FILE*) */
+#if !defined(__STDC_HOSTED__) || __STDC_HOSTED__-0 == 1
+CBOR_API CborError cbor_value_to_pretty_advance_flags(FILE *out, CborValue *value, int flags);
+CBOR_API CborError cbor_value_to_pretty_advance(FILE *out, CborValue *value);
+CBOR_INLINE_API CborError cbor_value_to_pretty(FILE *out, const CborValue *value)
+{
+    CborValue copy = *value;
+    return cbor_value_to_pretty_advance_flags(out, &copy, CborPrettyDefaultFlags);
+}
+#endif /* __STDC_HOSTED__ check */
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* CBOR_H */
+
diff --git a/src/3rdparty/tinycbor/src/cborencoder.c b/src/3rdparty/tinycbor/src/cborencoder.c
new file mode 100644
index 0000000000..423591ff65
--- /dev/null
+++ b/src/3rdparty/tinycbor/src/cborencoder.c
@@ -0,0 +1,676 @@
+/****************************************************************************
+**
+** Copyright (C) 2018 Intel Corporation
+**
+** Permission is hereby granted, free of charge, to any person obtaining a copy
+** of this software and associated documentation files (the "Software"), to deal
+** in the Software without restriction, including without limitation the rights
+** to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+** copies of the Software, and to permit persons to whom the Software is
+** furnished to do so, subject to the following conditions:
+**
+** The above copyright notice and this permission notice shall be included in
+** all copies or substantial portions of the Software.
+**
+** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+** IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+** FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+** AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+** LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+** OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+** THE SOFTWARE.
+**
+****************************************************************************/
+
+#ifndef _BSD_SOURCE
+#define _BSD_SOURCE 1
+#endif
+#ifndef _DEFAULT_SOURCE
+#define _DEFAULT_SOURCE 1
+#endif
+#ifndef __STDC_LIMIT_MACROS
+#  define __STDC_LIMIT_MACROS 1
+#endif
+
+#include "cbor.h"
+#include "cborinternal_p.h"
+#include "compilersupport_p.h"
+
+#include <stdlib.h>
+#include <string.h>
+
+/**
+ * \defgroup CborEncoding Encoding to CBOR
+ * \brief Group of functions used to encode data to CBOR.
+ *
+ * CborEncoder is used to encode data into a CBOR stream. The outermost
+ * CborEncoder is initialized by calling cbor_encoder_init(), with the buffer
+ * where the CBOR stream will be stored. The outermost CborEncoder is usually
+ * used to encode exactly one item, most often an array or map. It is possible
+ * to encode more than one item, but care must then be taken on the decoder
+ * side to ensure the state is reset after each item was decoded.
+ *
+ * Nested CborEncoder objects are created using cbor_encoder_create_array() and
+ * cbor_encoder_create_map(), later closed with cbor_encoder_close_container()
+ * or cbor_encoder_close_container_checked(). The pairs of creation and closing
+ * must be exactly matched and their parameters are always the same.
+ *
+ * CborEncoder writes directly to the user-supplied buffer, without extra
+ * buffering. CborEncoder does not allocate memory and CborEncoder objects are
+ * usually created on the stack of the encoding functions.
+ *
+ * The example below initializes a CborEncoder object with a buffer and encodes
+ * a single integer.
+ *
+ * \code
+ *      uint8_t buf[16];
+ *      CborEncoder encoder;
+ *      cbor_encoder_init(&encoder, &buf, sizeof(buf), 0);
+ *      cbor_encode_int(&encoder, some_value);
+ * \endcode
+ *
+ * As explained before, usually the outermost CborEncoder object is used to add
+ * one array or map, which in turn contains multiple elements. The example
+ * below creates a CBOR map with one element: a key "foo" and a boolean value.
+ *
+ * \code
+ *      uint8_t buf[16];
+ *      CborEncoder encoder, mapEncoder;
+ *      cbor_encoder_init(&encoder, &buf, sizeof(buf), 0);
+ *      cbor_encoder_create_map(&encoder, &mapEncoder, 1);
+ *      cbor_encode_text_stringz(&mapEncoder, "foo");
+ *      cbor_encode_boolean(&mapEncoder, some_value);
+ *      cbor_encoder_close_container(&encoder, &mapEncoder);
+ * \endcode
+ *
+ * <h3 class="groupheader">Error checking and buffer size</h3>
+ *
+ * All functions operating on CborEncoder return a condition of type CborError.
+ * If the encoding was successful, they return CborNoError. Some functions do
+ * extra checking on the input provided and may return some other error
+ * conditions (for example, cbor_encode_simple_value() checks that the type is
+ * of the correct type).
+ *
+ * In addition, all functions check whether the buffer has enough bytes to
+ * encode the item being appended. If that is not possible, they return
+ * CborErrorOutOfMemory.
+ *
+ * It is possible to continue with the encoding of data past the first function
+ * that returns CborErrorOutOfMemory. CborEncoder functions will not overrun
+ * the buffer, but will instead count how many more bytes are needed to
+ * complete the encoding. At the end, you can obtain that count by calling
+ * cbor_encoder_get_extra_bytes_needed().
+ *
+ * \section1 Finalizing the encoding
+ *
+ * Once all items have been appended and the containers have all been properly
+ * closed, the user-supplied buffer will contain the CBOR stream and may be
+ * immediately used. To obtain the size of the buffer, call
+ * cbor_encoder_get_buffer_size() with the original buffer pointer.
+ *
+ * The example below illustrates how one can encode an item with error checking
+ * and then pass on the buffer for network sending.
+ *
+ * \code
+ *      uint8_t buf[16];
+ *      CborError err;
+ *      CborEncoder encoder, mapEncoder;
+ *      cbor_encoder_init(&encoder, &buf, sizeof(buf), 0);
+ *      err = cbor_encoder_create_map(&encoder, &mapEncoder, 1);
+ *      if (!err)
+ *          return err;
+ *      err = cbor_encode_text_stringz(&mapEncoder, "foo");
+ *      if (!err)
+ *          return err;
+ *      err = cbor_encode_boolean(&mapEncoder, some_value);
+ *      if (!err)
+ *          return err;
+ *      err = cbor_encoder_close_container_checked(&encoder, &mapEncoder);
+ *      if (!err)
+ *          return err;
+ *
+ *      size_t len = cbor_encoder_get_buffer_size(&encoder, buf);
+ *      send_payload(buf, len);
+ *      return CborNoError;
+ * \endcode
+ *
+ * Finally, the example below expands on the one above and also
+ * deals with dynamically growing the buffer if the initial allocation wasn't
+ * big enough. Note the two places where the error checking was replaced with
+ * an cbor_assertion, showing where the author assumes no error can occur.
+ *
+ * \code
+ * uint8_t *encode_string_array(const char **strings, int n, size_t *bufsize)
+ * {
+ *     CborError err;
+ *     CborEncoder encoder, arrayEncoder;
+ *     size_t size = 256;
+ *     uint8_t *buf = NULL;
+ *
+ *     while (1) {
+ *         int i;
+ *         size_t more_bytes;
+ *         uint8_t *nbuf = realloc(buf, size);
+ *         if (nbuf == NULL)
+ *             goto error;
+ *         buf = nbuf;
+ *
+ *         cbor_encoder_init(&encoder, &buf, size, 0);
+ *         err = cbor_encoder_create_array(&encoder, &arrayEncoder, n);
+ *         cbor_assert(err);         // can't fail, the buffer is always big enough
+ *
+ *         for (i = 0; i < n; ++i) {
+ *             err = cbor_encode_text_stringz(&arrayEncoder, strings[i]);
+ *             if (err && err != CborErrorOutOfMemory)
+ *                 goto error;
+ *         }
+ *
+ *         err = cbor_encoder_close_container_checked(&encoder, &arrayEncoder);
+ *         cbor_assert(err);         // shouldn't fail!
+ *
+ *         more_bytes = cbor_encoder_get_extra_bytes_needed(encoder);
+ *         if (more_size) {
+ *             // buffer wasn't big enough, try again
+ *             size += more_bytes;
+ *             continue;
+ *         }
+ *
+ *         *bufsize = cbor_encoder_get_buffer_size(encoder, buf);
+ *         return buf;
+ *     }
+ *  error:
+ *     free(buf);
+ *     return NULL;
+ *  }
+ * \endcode
+ */
+
+/**
+ * \addtogroup CborEncoding
+ * @{
+ */
+
+/**
+ * \struct CborEncoder
+ * Structure used to encode to CBOR.
+ */
+
+/**
+ * Initializes a CborEncoder structure \a encoder by pointing it to buffer \a
+ * buffer of size \a size. The \a flags field is currently unused and must be
+ * zero.
+ */
+void cbor_encoder_init(CborEncoder *encoder, uint8_t *buffer, size_t size, int flags)
+{
+    encoder->data.ptr = buffer;
+    encoder->end = buffer + size;
+    encoder->remaining = 2;
+    encoder->flags = flags;
+}
+
+void cbor_encoder_init_writer(CborEncoder *encoder, CborEncoderWriteFunction writer, void *token)
+{
+#ifdef CBOR_ENCODER_WRITE_FUNCTION
+    (void) writer;
+#else
+    encoder->data.writer = writer;
+#endif
+    encoder->end = (uint8_t *)token;
+    encoder->remaining = 2;
+    encoder->flags = CborIteratorFlag_WriterFunction;
+}
+
+static inline void put16(void *where, uint16_t v)
+{
+    v = cbor_htons(v);
+    memcpy(where, &v, sizeof(v));
+}
+
+/* Note: Since this is currently only used in situations where OOM is the only
+ * valid error, we KNOW this to be true.  Thus, this function now returns just 'true',
+ * but if in the future, any function starts returning a non-OOM error, this will need
+ * to be changed to the test.  At the moment, this is done to prevent more branches
+ * being created in the tinycbor output */
+static inline bool isOomError(CborError err)
+{
+    if (CBOR_ENCODER_WRITER_CONTROL < 0)
+        return true;
+
+    /* CborErrorOutOfMemory is the only negative error code, intentionally
+     * so we can write the test like this */
+    return (int)err < 0;
+}
+
+static inline void put32(void *where, uint32_t v)
+{
+    v = cbor_htonl(v);
+    memcpy(where, &v, sizeof(v));
+}
+
+static inline void put64(void *where, uint64_t v)
+{
+    v = cbor_htonll(v);
+    memcpy(where, &v, sizeof(v));
+}
+
+static inline bool would_overflow(CborEncoder *encoder, size_t len)
+{
+    ptrdiff_t remaining = (ptrdiff_t)encoder->end;
+    remaining -= remaining ? (ptrdiff_t)encoder->data.ptr : encoder->data.bytes_needed;
+    remaining -= (ptrdiff_t)len;
+    return unlikely(remaining < 0);
+}
+
+static inline void advance_ptr(CborEncoder *encoder, size_t n)
+{
+    if (encoder->end)
+        encoder->data.ptr += n;
+    else
+        encoder->data.bytes_needed += n;
+}
+
+static inline CborError append_to_buffer(CborEncoder *encoder, const void *data, size_t len,
+                                         CborEncoderAppendType appendType)
+{
+    if (CBOR_ENCODER_WRITER_CONTROL >= 0) {
+        if (encoder->flags & CborIteratorFlag_WriterFunction || CBOR_ENCODER_WRITER_CONTROL != 0) {
+#  ifdef CBOR_ENCODER_WRITE_FUNCTION
+            return CBOR_ENCODER_WRITE_FUNCTION(encoder->end, data, len, appendType);
+#  else
+            return encoder->data.writer(encoder->end, data, len, appendType);
+#  endif
+        }
+    }
+
+#if CBOR_ENCODER_WRITER_CONTROL <= 0
+    if (would_overflow(encoder, len)) {
+        if (encoder->end != NULL) {
+            len -= encoder->end - encoder->data.ptr;
+            encoder->end = NULL;
+            encoder->data.bytes_needed = 0;
+        }
+
+        advance_ptr(encoder, len);
+        return CborErrorOutOfMemory;
+    }
+
+    memcpy(encoder->data.ptr, data, len);
+    encoder->data.ptr += len;
+#endif
+    return CborNoError;
+}
+
+static inline CborError append_byte_to_buffer(CborEncoder *encoder, uint8_t byte)
+{
+    return append_to_buffer(encoder, &byte, 1, CborEncoderAppendCborData);
+}
+
+static inline CborError encode_number_no_update(CborEncoder *encoder, uint64_t ui, uint8_t shiftedMajorType)
+{
+    /* Little-endian would have been so much more convenient here:
+     * We could just write at the beginning of buf but append_to_buffer
+     * only the necessary bytes.
+     * Since it has to be big endian, do it the other way around:
+     * write from the end. */
+    uint64_t buf[2];
+    uint8_t *const bufend = (uint8_t *)buf + sizeof(buf);
+    uint8_t *bufstart = bufend - 1;
+    put64(buf + 1, ui);     /* we probably have a bunch of zeros in the beginning */
+
+    if (ui < Value8Bit) {
+        *bufstart += shiftedMajorType;
+    } else {
+        uint8_t more = 0;
+        if (ui > 0xffU)
+            ++more;
+        if (ui > 0xffffU)
+            ++more;
+        if (ui > 0xffffffffU)
+            ++more;
+        bufstart -= (size_t)1 << more;
+        *bufstart = shiftedMajorType + Value8Bit + more;
+    }
+
+    return append_to_buffer(encoder, bufstart, bufend - bufstart, CborEncoderAppendCborData);
+}
+
+static inline void saturated_decrement(CborEncoder *encoder)
+{
+    if (encoder->remaining)
+        --encoder->remaining;
+}
+
+static inline CborError encode_number(CborEncoder *encoder, uint64_t ui, uint8_t shiftedMajorType)
+{
+    saturated_decrement(encoder);
+    return encode_number_no_update(encoder, ui, shiftedMajorType);
+}
+
+/**
+ * Appends the unsigned 64-bit integer \a value to the CBOR stream provided by
+ * \a encoder.
+ *
+ * \sa cbor_encode_negative_int, cbor_encode_int
+ */
+CborError cbor_encode_uint(CborEncoder *encoder, uint64_t value)
+{
+    return encode_number(encoder, value, UnsignedIntegerType << MajorTypeShift);
+}
+
+/**
+ * Appends the negative 64-bit integer whose absolute value is \a
+ * absolute_value to the CBOR stream provided by \a encoder.
+ *
+ * If the value \a absolute_value is zero, this function encodes -2^64.
+ *
+ * \sa cbor_encode_uint, cbor_encode_int
+ */
+CborError cbor_encode_negative_int(CborEncoder *encoder, uint64_t absolute_value)
+{
+    return encode_number(encoder, absolute_value - 1, NegativeIntegerType << MajorTypeShift);
+}
+
+/**
+ * Appends the signed 64-bit integer \a value to the CBOR stream provided by
+ * \a encoder.
+ *
+ * \sa cbor_encode_negative_int, cbor_encode_uint
+ */
+CborError cbor_encode_int(CborEncoder *encoder, int64_t value)
+{
+    /* adapted from code in RFC 7049 appendix C (pseudocode) */
+    uint64_t ui = value >> 63;              /* extend sign to whole length */
+    uint8_t majorType = ui & 0x20;          /* extract major type */
+    ui ^= value;                            /* complement negatives */
+    return encode_number(encoder, ui, majorType);
+}
+
+/**
+ * Appends the CBOR Simple Type of value \a value to the CBOR stream provided by
+ * \a encoder.
+ *
+ * This function may return error CborErrorIllegalSimpleType if the \a value
+ * variable contains a number that is not a valid simple type.
+ */
+CborError cbor_encode_simple_value(CborEncoder *encoder, uint8_t value)
+{
+#ifndef CBOR_ENCODER_NO_CHECK_USER
+    /* check if this is a valid simple type */
+    if (value >= HalfPrecisionFloat && value <= Break)
+        return CborErrorIllegalSimpleType;
+#endif
+    return encode_number(encoder, value, SimpleTypesType << MajorTypeShift);
+}
+
+/**
+ * Appends the floating-point value of type \a fpType and pointed to by \a
+ * value to the CBOR stream provided by \a encoder. The value of \a fpType must
+ * be one of CborHalfFloatType, CborFloatType or CborDoubleType, otherwise the
+ * behavior of this function is undefined.
+ *
+ * This function is useful for code that needs to pass through floating point
+ * values but does not wish to have the actual floating-point code.
+ *
+ * \sa cbor_encode_half_float, cbor_encode_float, cbor_encode_double
+ */
+CborError cbor_encode_floating_point(CborEncoder *encoder, CborType fpType, const void *value)
+{
+    uint8_t buf[1 + sizeof(uint64_t)];
+    cbor_assert(fpType == CborHalfFloatType || fpType == CborFloatType || fpType == CborDoubleType);
+    buf[0] = fpType;
+
+    unsigned size = 2U << (fpType - CborHalfFloatType);
+    if (size == 8)
+        put64(buf + 1, *(const uint64_t*)value);
+    else if (size == 4)
+        put32(buf + 1, *(const uint32_t*)value);
+    else
+        put16(buf + 1, *(const uint16_t*)value);
+    saturated_decrement(encoder);
+    return append_to_buffer(encoder, buf, size + 1, CborEncoderAppendCborData);
+}
+
+/**
+ * Appends the CBOR tag \a tag to the CBOR stream provided by \a encoder.
+ *
+ * \sa CborTag
+ */
+CborError cbor_encode_tag(CborEncoder *encoder, CborTag tag)
+{
+    /* tags don't count towards the number of elements in an array or map */
+    return encode_number_no_update(encoder, tag, TagType << MajorTypeShift);
+}
+
+static CborError encode_string(CborEncoder *encoder, size_t length, uint8_t shiftedMajorType, const void *string)
+{
+    CborError err = encode_number(encoder, length, shiftedMajorType);
+    if (err && !isOomError(err))
+        return err;
+    return append_to_buffer(encoder, string, length, CborEncoderAppendStringData);
+}
+
+/**
+ * \fn CborError cbor_encode_text_stringz(CborEncoder *encoder, const char *string)
+ *
+ * Appends the null-terminated text string \a string to the CBOR stream
+ * provided by \a encoder. CBOR requires that \a string be valid UTF-8, but
+ * TinyCBOR makes no verification of correctness. The terminating null is not
+ * included in the stream.
+ *
+ * \sa cbor_encode_text_string, cbor_encode_byte_string
+ */
+
+/**
+ * Appends the text string \a string of length \a length to the CBOR stream
+ * provided by \a encoder. CBOR requires that \a string be valid UTF-8, but
+ * TinyCBOR makes no verification of correctness.
+ *
+ * \sa CborError cbor_encode_text_stringz, cbor_encode_byte_string
+ */
+CborError cbor_encode_byte_string(CborEncoder *encoder, const uint8_t *string, size_t length)
+{
+    return encode_string(encoder, length, ByteStringType << MajorTypeShift, string);
+}
+
+/**
+ * Appends the byte string \a string of length \a length to the CBOR stream
+ * provided by \a encoder. CBOR byte strings are arbitrary raw data.
+ *
+ * \sa cbor_encode_text_stringz, cbor_encode_text_string
+ */
+CborError cbor_encode_text_string(CborEncoder *encoder, const char *string, size_t length)
+{
+    return encode_string(encoder, length, TextStringType << MajorTypeShift, string);
+}
+
+#ifdef __GNUC__
+__attribute__((noinline))
+#endif
+static CborError create_container(CborEncoder *encoder, CborEncoder *container, size_t length, uint8_t shiftedMajorType)
+{
+    CborError err;
+    container->data.ptr = encoder->data.ptr;
+    container->end = encoder->end;
+    saturated_decrement(encoder);
+    container->remaining = length + 1;      /* overflow ok on CborIndefiniteLength */
+
+    cbor_static_assert((int)CborIteratorFlag_ContainerIsMap_ == (int)CborIteratorFlag_ContainerIsMap);
+    cbor_static_assert(((MapType << MajorTypeShift) & CborIteratorFlag_ContainerIsMap) == CborIteratorFlag_ContainerIsMap);
+    cbor_static_assert(((ArrayType << MajorTypeShift) & CborIteratorFlag_ContainerIsMap) == 0);
+    container->flags = shiftedMajorType & CborIteratorFlag_ContainerIsMap;
+    if (CBOR_ENCODER_WRITER_CONTROL == 0)
+        container->flags |= encoder->flags & CborIteratorFlag_WriterFunction;
+
+    if (length == CborIndefiniteLength) {
+        container->flags |= CborIteratorFlag_UnknownLength;
+        err = append_byte_to_buffer(container, shiftedMajorType + IndefiniteLength);
+    } else {
+        if (shiftedMajorType & CborIteratorFlag_ContainerIsMap)
+            container->remaining += length;
+        err = encode_number_no_update(container, length, shiftedMajorType);
+    }
+    return err;
+}
+
+/**
+ * Creates a CBOR array in the CBOR stream provided by \a encoder and
+ * initializes \a arrayEncoder so that items can be added to the array using
+ * the CborEncoder functions. The array must be terminated by calling either
+ * cbor_encoder_close_container() or cbor_encoder_close_container_checked()
+ * with the same \a encoder and \a arrayEncoder parameters.
+ *
+ * The number of items inserted into the array must be exactly \a length items,
+ * otherwise the stream is invalid. If the number of items is not known when
+ * creating the array, the constant \ref CborIndefiniteLength may be passed as
+ * length instead.
+ *
+ * \sa cbor_encoder_create_map
+ */
+CborError cbor_encoder_create_array(CborEncoder *encoder, CborEncoder *arrayEncoder, size_t length)
+{
+    return create_container(encoder, arrayEncoder, length, ArrayType << MajorTypeShift);
+}
+
+/**
+ * Creates a CBOR map in the CBOR stream provided by \a encoder and
+ * initializes \a mapEncoder so that items can be added to the map using
+ * the CborEncoder functions. The map must be terminated by calling either
+ * cbor_encoder_close_container() or cbor_encoder_close_container_checked()
+ * with the same \a encoder and \a mapEncoder parameters.
+ *
+ * The number of pair of items inserted into the map must be exactly \a length
+ * items, otherwise the stream is invalid. If the number is not known
+ * when creating the map, the constant \ref CborIndefiniteLength may be passed as
+ * length instead.
+ *
+ * \b{Implementation limitation:} TinyCBOR cannot encode more than SIZE_MAX/2
+ * key-value pairs in the stream. If the length \a length is larger than this
+ * value (and is not \ref CborIndefiniteLength), this function returns error
+ * CborErrorDataTooLarge.
+ *
+ * \sa cbor_encoder_create_array
+ */
+CborError cbor_encoder_create_map(CborEncoder *encoder, CborEncoder *mapEncoder, size_t length)
+{
+    if (length != CborIndefiniteLength && length > SIZE_MAX / 2)
+        return CborErrorDataTooLarge;
+    return create_container(encoder, mapEncoder, length, MapType << MajorTypeShift);
+}
+
+/**
+ * Closes the CBOR container (array or map) provided by \a containerEncoder and
+ * updates the CBOR stream provided by \a encoder. Both parameters must be the
+ * same as were passed to cbor_encoder_create_array() or
+ * cbor_encoder_create_map().
+ *
+ * Since version 0.5, this function verifies that the number of items (or pairs
+ * of items, in the case of a map) was correct. It is no longer necessary to call
+ * cbor_encoder_close_container_checked() instead.
+ *
+ * \sa cbor_encoder_create_array(), cbor_encoder_create_map()
+ */
+CborError cbor_encoder_close_container(CborEncoder *encoder, const CborEncoder *containerEncoder)
+{
+    if (encoder->end && !(encoder->flags & CborIteratorFlag_WriterFunction))
+        encoder->data.ptr = containerEncoder->data.ptr;
+    else
+        encoder->data.bytes_needed = containerEncoder->data.bytes_needed;
+    encoder->end = containerEncoder->end;
+    if (containerEncoder->flags & CborIteratorFlag_UnknownLength)
+        return append_byte_to_buffer(encoder, BreakByte);
+
+    if (containerEncoder->remaining != 1)
+        return containerEncoder->remaining == 0 ? CborErrorTooManyItems : CborErrorTooFewItems;
+
+    if (!encoder->end)
+        return CborErrorOutOfMemory;    /* keep the state */
+    return CborNoError;
+}
+
+/**
+ * \fn CborError cbor_encode_boolean(CborEncoder *encoder, bool value)
+ *
+ * Appends the boolean value \a value to the CBOR stream provided by \a encoder.
+ */
+
+/**
+ * \fn CborError cbor_encode_null(CborEncoder *encoder)
+ *
+ * Appends the CBOR type representing a null value to the CBOR stream provided
+ * by \a encoder.
+ *
+ * \sa cbor_encode_undefined()
+ */
+
+/**
+ * \fn CborError cbor_encode_undefined(CborEncoder *encoder)
+ *
+ * Appends the CBOR type representing an undefined value to the CBOR stream
+ * provided by \a encoder.
+ *
+ * \sa cbor_encode_null()
+ */
+
+/**
+ * \fn CborError cbor_encode_half_float(CborEncoder *encoder, const void *value)
+ *
+ * Appends the IEEE 754 half-precision (16-bit) floating point value pointed to
+ * by \a value to the CBOR stream provided by \a encoder.
+ *
+ * \sa cbor_encode_floating_point(), cbor_encode_float(), cbor_encode_double()
+ */
+
+/**
+ * \fn CborError cbor_encode_float(CborEncoder *encoder, float value)
+ *
+ * Appends the IEEE 754 single-precision (32-bit) floating point value \a value
+ * to the CBOR stream provided by \a encoder.
+ *
+ * \sa cbor_encode_floating_point(), cbor_encode_half_float(), cbor_encode_double()
+ */
+
+/**
+ * \fn CborError cbor_encode_double(CborEncoder *encoder, double value)
+ *
+ * Appends the IEEE 754 double-precision (64-bit) floating point value \a value
+ * to the CBOR stream provided by \a encoder.
+ *
+ * \sa cbor_encode_floating_point(), cbor_encode_half_float(), cbor_encode_float()
+ */
+
+/**
+ * \fn size_t cbor_encoder_get_buffer_size(const CborEncoder *encoder, const uint8_t *buffer)
+ *
+ * Returns the total size of the buffer starting at \a buffer after the
+ * encoding finished without errors. The \a encoder and \a buffer arguments
+ * must be the same as supplied to cbor_encoder_init().
+ *
+ * If the encoding process had errors, the return value of this function is
+ * meaningless. If the only errors were CborErrorOutOfMemory, instead use
+ * cbor_encoder_get_extra_bytes_needed() to find out by how much to grow the
+ * buffer before encoding again.
+ *
+ * See \ref CborEncoding for an example of using this function.
+ *
+ * \sa cbor_encoder_init(), cbor_encoder_get_extra_bytes_needed(), CborEncoding
+ */
+
+/**
+ * \fn size_t cbor_encoder_get_extra_bytes_needed(const CborEncoder *encoder)
+ *
+ * Returns how many more bytes the original buffer supplied to
+ * cbor_encoder_init() needs to be extended by so that no CborErrorOutOfMemory
+ * condition will happen for the encoding. If the buffer was big enough, this
+ * function returns 0. The \a encoder must be the original argument as passed
+ * to cbor_encoder_init().
+ *
+ * This function is usually called after an encoding sequence ended with one or
+ * more CborErrorOutOfMemory errors, but no other error. If any other error
+ * happened, the return value of this function is meaningless.
+ *
+ * See \ref CborEncoding for an example of using this function.
+ *
+ * \sa cbor_encoder_init(), cbor_encoder_get_buffer_size(), CborEncoding
+ */
+
+/** @} */
diff --git a/src/3rdparty/tinycbor/src/cborerrorstrings.c b/src/3rdparty/tinycbor/src/cborerrorstrings.c
new file mode 100644
index 0000000000..4acda9dd38
--- /dev/null
+++ b/src/3rdparty/tinycbor/src/cborerrorstrings.c
@@ -0,0 +1,188 @@
+/****************************************************************************
+**
+** Copyright (C) 2018 Intel Corporation
+**
+** Permission is hereby granted, free of charge, to any person obtaining a copy
+** of this software and associated documentation files (the "Software"), to deal
+** in the Software without restriction, including without limitation the rights
+** to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+** copies of the Software, and to permit persons to whom the Software is
+** furnished to do so, subject to the following conditions:
+**
+** The above copyright notice and this permission notice shall be included in
+** all copies or substantial portions of the Software.
+**
+** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+** IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+** FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+** AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+** LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+** OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+** THE SOFTWARE.
+**
+****************************************************************************/
+
+#include "cbor.h"
+
+#ifndef _
+#  define _(msg)    msg
+#endif
+
+/**
+ * \enum CborError
+ * \ingroup CborGlobals
+ * The CborError enum contains the possible error values used by the CBOR encoder and decoder.
+ *
+ * TinyCBOR functions report success by returning CborNoError, or one error
+ * condition by returning one of the values below. One exception is the
+ * out-of-memory condition (CborErrorOutOfMemory), which the functions for \ref
+ * CborEncoding may report in bit-wise OR with other conditions.
+ *
+ * This technique allows code to determine whether the only error condition was
+ * a lack of buffer space, which may not be a fatal condition if the buffer can
+ * be resized. Additionally, the functions for \ref CborEncoding may continue
+ * to be used even after CborErrorOutOfMemory is returned, and instead they
+ * will simply calculate the extra space needed.
+ *
+ * \value CborNoError                   No error occurred
+ * \omitvalue CborUnknownError
+ * \value CborErrorUnknownLength        Request for the length of an array, map or string whose length is not provided in the CBOR stream
+ * \value CborErrorAdvancePastEOF       Not enough data in the stream to decode item (decoding would advance past end of stream)
+ * \value CborErrorIO                   An I/O error occurred, probably due to an out-of-memory situation
+ * \value CborErrorGarbageAtEnd         Bytes exist past the end of the CBOR stream
+ * \value CborErrorUnexpectedEOF        End of stream reached unexpectedly
+ * \value CborErrorUnexpectedBreak      A CBOR break byte was found where not expected
+ * \value CborErrorUnknownType          An unknown type (future extension to CBOR) was found in the stream
+ * \value CborErrorIllegalType          An invalid type was found while parsing a chunked CBOR string
+ * \value CborErrorIllegalNumber        An illegal initial byte (encoding unspecified additional information) was found
+ * \value CborErrorIllegalSimpleType    An illegal encoding of a CBOR Simple Type of value less than 32 was found
+ * \omitvalue CborErrorUnknownSimpleType
+ * \omitvalue CborErrorUnknownTag
+ * \omitvalue CborErrorInappropriateTagForType
+ * \omitvalue CborErrorDuplicateObjectKeys
+ * \value CborErrorInvalidUtf8TextString Illegal UTF-8 encoding found while parsing CBOR Text String
+ * \value CborErrorTooManyItems         Too many items were added to CBOR map or array of pre-determined length
+ * \value CborErrorTooFewItems          Too few items were added to CBOR map or array of pre-determined length
+ * \value CborErrorDataTooLarge         Data item size exceeds TinyCBOR's implementation limits
+ * \value CborErrorNestingTooDeep       Data item nesting exceeds TinyCBOR's implementation limits
+ * \omitvalue CborErrorUnsupportedType
+ * \value CborErrorJsonObjectKeyIsAggregate Conversion to JSON failed because the key in a map is a CBOR map or array
+ * \value CborErrorJsonObjectKeyNotString Conversion to JSON failed because the key in a map is not a text string
+ * \value CborErrorOutOfMemory          During CBOR encoding, the buffer provided is insufficient for encoding the data item;
+ *                                      in other situations, TinyCBOR failed to allocate memory
+ * \value CborErrorInternalError        An internal error occurred in TinyCBOR
+ */
+
+/**
+ * \ingroup CborGlobals
+ * Returns the error string corresponding to the CBOR error condition \a error.
+ */
+const char *cbor_error_string(CborError error)
+{
+    switch (error) {
+    case CborNoError:
+        return "";
+
+    case CborUnknownError:
+        return _("unknown error");
+
+    case CborErrorOutOfMemory:
+        return _("out of memory/need more memory");
+
+    case CborErrorUnknownLength:
+        return _("unknown length (attempted to get the length of a map/array/string of indeterminate length");
+
+    case CborErrorAdvancePastEOF:
+        return _("attempted to advance past EOF");
+
+    case CborErrorIO:
+        return _("I/O error");
+
+    case CborErrorGarbageAtEnd:
+        return _("garbage after the end of the content");
+
+    case CborErrorUnexpectedEOF:
+        return _("unexpected end of data");
+
+    case CborErrorUnexpectedBreak:
+        return _("unexpected 'break' byte");
+
+    case CborErrorUnknownType:
+        return _("illegal byte (encodes future extension type)");
+
+    case CborErrorIllegalType:
+        return _("mismatched string type in chunked string");
+
+    case CborErrorIllegalNumber:
+        return _("illegal initial byte (encodes unspecified additional information)");
+
+    case CborErrorIllegalSimpleType:
+        return _("illegal encoding of simple type smaller than 32");
+
+    case CborErrorLastStringChunk:
+        return _("no size available: that was the last string chunk");
+
+    case CborErrorUnknownSimpleType:
+        return _("unknown simple type");
+
+    case CborErrorUnknownTag:
+        return _("unknown tag");
+
+    case CborErrorInappropriateTagForType:
+        return _("inappropriate tag for type");
+
+    case CborErrorDuplicateObjectKeys:
+        return _("duplicate keys in object");
+
+    case CborErrorInvalidUtf8TextString:
+        return _("invalid UTF-8 content in string");
+
+    case CborErrorExcludedType:
+        return _("excluded type found");
+
+    case CborErrorExcludedValue:
+        return _("excluded value found");
+
+    case CborErrorImproperValue:
+    case CborErrorOverlongEncoding:
+        return _("value encoded in non-canonical form");
+
+    case CborErrorMapKeyNotString:
+    case CborErrorJsonObjectKeyNotString:
+        return _("key in map is not a string");
+
+    case CborErrorMapNotSorted:
+        return _("map is not sorted");
+
+    case CborErrorMapKeysNotUnique:
+        return _("map keys are not unique");
+
+    case CborErrorTooManyItems:
+        return _("too many items added to encoder");
+
+    case CborErrorTooFewItems:
+        return _("too few items added to encoder");
+
+    case CborErrorDataTooLarge:
+        return _("internal error: data too large");
+
+    case CborErrorNestingTooDeep:
+        return _("internal error: too many nested containers found in recursive function");
+
+    case CborErrorUnsupportedType:
+        return _("unsupported type");
+
+    case CborErrorUnimplementedValidation:
+        return _("validation not implemented for the current parser state");
+
+    case CborErrorJsonObjectKeyIsAggregate:
+        return _("conversion to JSON failed: key in object is an array or map");
+
+    case CborErrorJsonNotImplemented:
+        return _("conversion to JSON failed: open_memstream unavailable");
+
+    case CborErrorInternalError:
+        return _("internal error");
+    }
+    return cbor_error_string(CborUnknownError);
+}
diff --git a/src/3rdparty/tinycbor/src/cborinternal_p.h b/src/3rdparty/tinycbor/src/cborinternal_p.h
new file mode 100644
index 0000000000..16c911d26a
--- /dev/null
+++ b/src/3rdparty/tinycbor/src/cborinternal_p.h
@@ -0,0 +1,247 @@
+/****************************************************************************
+**
+** Copyright (C) 2018 Intel Corporation
+**
+** Permission is hereby granted, free of charge, to any person obtaining a copy
+** of this software and associated documentation files (the "Software"), to deal
+** in the Software without restriction, including without limitation the rights
+** to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+** copies of the Software, and to permit persons to whom the Software is
+** furnished to do so, subject to the following conditions:
+**
+** The above copyright notice and this permission notice shall be included in
+** all copies or substantial portions of the Software.
+**
+** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+** IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+** FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+** AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+** LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+** OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+** THE SOFTWARE.
+**
+****************************************************************************/
+
+#ifndef CBORINTERNAL_P_H
+#define CBORINTERNAL_P_H
+
+#include "compilersupport_p.h"
+
+#ifndef CBOR_INTERNAL_API
+#  define CBOR_INTERNAL_API
+#endif
+
+#ifndef CBOR_PARSER_MAX_RECURSIONS
+#  define CBOR_PARSER_MAX_RECURSIONS 1024
+#endif
+
+#ifndef CBOR_ENCODER_WRITER_CONTROL
+#  define CBOR_ENCODER_WRITER_CONTROL   0
+#endif
+#ifndef CBOR_PARSER_READER_CONTROL
+#  define CBOR_PARSER_READER_CONTROL    0
+#endif
+
+/*
+ * CBOR Major types
+ * Encoded in the high 3 bits of the descriptor byte
+ * See http://tools.ietf.org/html/rfc7049#section-2.1
+ */
+typedef enum CborMajorTypes {
+    UnsignedIntegerType = 0U,
+    NegativeIntegerType = 1U,
+    ByteStringType = 2U,
+    TextStringType = 3U,
+    ArrayType = 4U,
+    MapType = 5U,           /* a.k.a. object */
+    TagType = 6U,
+    SimpleTypesType = 7U
+} CborMajorTypes;
+
+/*
+ * CBOR simple and floating point types
+ * Encoded in the low 8 bits of the descriptor byte when the
+ * Major Type is 7.
+ */
+typedef enum CborSimpleTypes {
+    FalseValue              = 20,
+    TrueValue               = 21,
+    NullValue               = 22,
+    UndefinedValue          = 23,
+    SimpleTypeInNextByte    = 24,   /* not really a simple type */
+    HalfPrecisionFloat      = 25,   /* ditto */
+    SinglePrecisionFloat    = 26,   /* ditto */
+    DoublePrecisionFloat    = 27,   /* ditto */
+    Break                   = 31
+} CborSimpleTypes;
+
+enum {
+    SmallValueBitLength     = 5U,
+    SmallValueMask          = (1U << SmallValueBitLength) - 1,      /* 31 */
+    Value8Bit               = 24U,
+    Value16Bit              = 25U,
+    Value32Bit              = 26U,
+    Value64Bit              = 27U,
+    IndefiniteLength        = 31U,
+
+    MajorTypeShift          = SmallValueBitLength,
+    MajorTypeMask           = (int) (~0U << MajorTypeShift),
+
+    BreakByte               = (unsigned)Break | (SimpleTypesType << MajorTypeShift)
+};
+
+CBOR_INTERNAL_API CborError CBOR_INTERNAL_API_CC _cbor_value_prepare_string_iteration(CborValue *it);
+
+static inline void copy_current_position(CborValue *dst, const CborValue *src)
+{
+    // This "if" is here for pedantry only: the two branches should perform
+    // the same memory operation.
+    if (src->parser->flags & CborParserFlag_ExternalSource)
+        dst->source.token = src->source.token;
+    else
+        dst->source.ptr = src->source.ptr;
+}
+
+static inline bool can_read_bytes(const CborValue *it, size_t n)
+{
+    if (CBOR_PARSER_READER_CONTROL >= 0) {
+        if (it->parser->flags & CborParserFlag_ExternalSource || CBOR_PARSER_READER_CONTROL != 0) {
+#ifdef CBOR_PARSER_CAN_READ_BYTES_FUNCTION
+            return CBOR_PARSER_CAN_READ_BYTES_FUNCTION(it->source.token, n);
+#else
+            return it->parser->source.ops->can_read_bytes(it->source.token, n);
+#endif
+        }
+    }
+
+    /* Convert the pointer subtraction to size_t since end >= ptr
+     * (this prevents issues with (ptrdiff_t)n becoming negative).
+     */
+    return (size_t)(it->parser->source.end - it->source.ptr) >= n;
+}
+
+static inline void advance_bytes(CborValue *it, size_t n)
+{
+    if (CBOR_PARSER_READER_CONTROL >= 0) {
+        if (it->parser->flags & CborParserFlag_ExternalSource || CBOR_PARSER_READER_CONTROL != 0) {
+#ifdef CBOR_PARSER_ADVANCE_BYTES_FUNCTION
+            CBOR_PARSER_ADVANCE_BYTES_FUNCTION(it->source.token, n);
+#else
+            it->parser->source.ops->advance_bytes(it->source.token, n);
+#endif
+            return;
+        }
+    }
+
+    it->source.ptr += n;
+}
+
+static inline CborError transfer_string(CborValue *it, const void **ptr, size_t offset, size_t len)
+{
+    if (CBOR_PARSER_READER_CONTROL >= 0) {
+        if (it->parser->flags & CborParserFlag_ExternalSource || CBOR_PARSER_READER_CONTROL != 0) {
+#ifdef CBOR_PARSER_TRANSFER_STRING_FUNCTION
+            return CBOR_PARSER_TRANSFER_STRING_FUNCTION(it->source.token, ptr, offset, len);
+#else
+            return it->parser->source.ops->transfer_string(it->source.token, ptr, offset, len);
+#endif
+        }
+    }
+
+    it->source.ptr += offset;
+    if (can_read_bytes(it, len)) {
+        *CONST_CAST(const void **, ptr) = it->source.ptr;
+        it->source.ptr += len;
+        return CborNoError;
+    }
+    return CborErrorUnexpectedEOF;
+}
+
+static inline void *read_bytes_unchecked(const CborValue *it, void *dst, size_t offset, size_t n)
+{
+    if (CBOR_PARSER_READER_CONTROL >= 0) {
+        if (it->parser->flags & CborParserFlag_ExternalSource || CBOR_PARSER_READER_CONTROL != 0) {
+#ifdef CBOR_PARSER_READ_BYTES_FUNCTION
+            return CBOR_PARSER_READ_BYTES_FUNCTION(it->source.token, dst, offset, n);
+#else
+            return it->parser->source.ops->read_bytes(it->source.token, dst, offset, n);
+#endif
+        }
+    }
+
+    return memcpy(dst, it->source.ptr + offset, n);
+}
+
+#ifdef __GNUC__
+__attribute__((warn_unused_result))
+#endif
+static inline void *read_bytes(const CborValue *it, void *dst, size_t offset, size_t n)
+{
+    if (can_read_bytes(it, offset + n))
+        return read_bytes_unchecked(it, dst, offset, n);
+    return NULL;
+}
+
+static inline uint16_t read_uint8(const CborValue *it, size_t offset)
+{
+    uint8_t result;
+    read_bytes_unchecked(it, &result, offset, sizeof(result));
+    return result;
+}
+
+static inline uint16_t read_uint16(const CborValue *it, size_t offset)
+{
+    uint16_t result;
+    read_bytes_unchecked(it, &result, offset, sizeof(result));
+    return cbor_ntohs(result);
+}
+
+static inline uint32_t read_uint32(const CborValue *it, size_t offset)
+{
+    uint32_t result;
+    read_bytes_unchecked(it, &result, offset, sizeof(result));
+    return cbor_ntohl(result);
+}
+
+static inline uint64_t read_uint64(const CborValue *it, size_t offset)
+{
+    uint64_t result;
+    read_bytes_unchecked(it, &result, offset, sizeof(result));
+    return cbor_ntohll(result);
+}
+
+static inline CborError extract_number_checked(const CborValue *it, uint64_t *value, size_t *bytesUsed)
+{
+    uint8_t descriptor;
+    size_t bytesNeeded = 0;
+
+    /* We've already verified that there's at least one byte to be read */
+    read_bytes_unchecked(it, &descriptor, 0, 1);
+    descriptor &= SmallValueMask;
+    if (descriptor < Value8Bit) {
+        *value = descriptor;
+    } else if (unlikely(descriptor > Value64Bit)) {
+        return CborErrorIllegalNumber;
+    } else {
+        bytesNeeded = (size_t)(1 << (descriptor - Value8Bit));
+        if (!can_read_bytes(it, 1 + bytesNeeded))
+            return CborErrorUnexpectedEOF;
+        if (descriptor <= Value16Bit) {
+            if (descriptor == Value16Bit)
+                *value = read_uint16(it, 1);
+            else
+                *value = read_uint8(it, 1);
+        } else {
+            if (descriptor == Value32Bit)
+                *value = read_uint32(it, 1);
+            else
+                *value = read_uint64(it, 1);
+        }
+    }
+
+    if (bytesUsed)
+        *bytesUsed = bytesNeeded;
+    return CborNoError;
+}
+
+#endif /* CBORINTERNAL_P_H */
diff --git a/src/3rdparty/tinycbor/src/cborjson.h b/src/3rdparty/tinycbor/src/cborjson.h
new file mode 100644
index 0000000000..8ff27b9202
--- /dev/null
+++ b/src/3rdparty/tinycbor/src/cborjson.h
@@ -0,0 +1,62 @@
+/****************************************************************************
+**
+** Copyright (C) 2015 Intel Corporation
+**
+** Permission is hereby granted, free of charge, to any person obtaining a copy
+** of this software and associated documentation files (the "Software"), to deal
+** in the Software without restriction, including without limitation the rights
+** to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+** copies of the Software, and to permit persons to whom the Software is
+** furnished to do so, subject to the following conditions:
+**
+** The above copyright notice and this permission notice shall be included in
+** all copies or substantial portions of the Software.
+**
+** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+** IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+** FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+** AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+** LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+** OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+** THE SOFTWARE.
+**
+****************************************************************************/
+
+#ifndef CBORJSON_H
+#define CBORJSON_H
+
+#include "cbor.h"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/* Conversion to JSON */
+enum CborToJsonFlags
+{
+    CborConvertAddMetadata = 1,
+    CborConvertTagsToObjects = 2,
+    CborConvertIgnoreTags = 0,
+
+    CborConvertObeyByteStringTags = 0,
+    CborConvertByteStringsToBase64Url = 4,
+
+    CborConvertRequireMapStringKeys = 0,
+    CborConvertStringifyMapKeys = 8,
+
+    CborConvertDefaultFlags = 0
+};
+
+CBOR_API CborError cbor_value_to_json_advance(FILE *out, CborValue *value, int flags);
+CBOR_INLINE_API CborError cbor_value_to_json(FILE *out, const CborValue *value, int flags)
+{
+    CborValue copy = *value;
+    return cbor_value_to_json_advance(out, &copy, flags);
+}
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* CBORJSON_H */
+
diff --git a/src/3rdparty/tinycbor/src/cborparser.c b/src/3rdparty/tinycbor/src/cborparser.c
new file mode 100644
index 0000000000..3e12c98972
--- /dev/null
+++ b/src/3rdparty/tinycbor/src/cborparser.c
@@ -0,0 +1,1545 @@
+/****************************************************************************
+**
+** Copyright (C) 2018 Intel Corporation
+**
+** Permission is hereby granted, free of charge, to any person obtaining a copy
+** of this software and associated documentation files (the "Software"), to deal
+** in the Software without restriction, including without limitation the rights
+** to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+** copies of the Software, and to permit persons to whom the Software is
+** furnished to do so, subject to the following conditions:
+**
+** The above copyright notice and this permission notice shall be included in
+** all copies or substantial portions of the Software.
+**
+** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+** IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+** FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+** AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+** LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+** OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+** THE SOFTWARE.
+**
+****************************************************************************/
+
+#ifndef _BSD_SOURCE
+#define _BSD_SOURCE 1
+#endif
+#ifndef _DEFAULT_SOURCE
+#define _DEFAULT_SOURCE 1
+#endif
+#ifndef __STDC_LIMIT_MACROS
+#  define __STDC_LIMIT_MACROS 1
+#endif
+
+#include "cbor.h"
+#include "cborinternal_p.h"
+#include "compilersupport_p.h"
+
+#include <string.h>
+
+/**
+ * \defgroup CborParsing Parsing CBOR streams
+ * \brief Group of functions used to parse CBOR streams.
+ *
+ * TinyCBOR provides functions for pull-based stream parsing of a CBOR-encoded
+ * payload. The main data type for the parsing is a CborValue, which behaves
+ * like an iterator and can be used to extract the encoded data. It is first
+ * initialized with a call to cbor_parser_init() and is usually used to extract
+ * exactly one item, most often an array or map.
+ *
+ * Nested CborValue objects can be parsed using cbor_value_enter_container().
+ * Each call to cbor_value_enter_container() must be matched by a call to
+ * cbor_value_leave_container(), with the exact same parameters.
+ *
+ * The example below initializes a CborParser object, begins the parsing with a
+ * CborValue and decodes a single integer:
+ *
+ * \code
+ * int extract_int(const uint8_t *buffer, size_t len)
+ * {
+ *     CborParser parser;
+ *     CborValue value;
+ *     int result;
+ *     cbor_parser_init(buffer, len, 0, &parser, &value);
+ *     cbor_value_get_int(&value, &result);
+ *     return result;
+ * }
+ * \endcode
+ *
+ * The code above does no error checking, which means it assumes the data comes
+ * from a source trusted to send one properly-encoded integer. The following
+ * example does the exact same operation, but includes error checking and
+ * returns 0 on parsing failure:
+ *
+ * \code
+ * int extract_int(const uint8_t *buffer, size_t len)
+ * {
+ *     CborParser parser;
+ *     CborValue value;
+ *     int result;
+ *     if (cbor_parser_init(buffer, len, 0, &parser, &value) != CborNoError)
+ *         return 0;
+ *     if (!cbor_value_is_integer(&value) ||
+ *             cbor_value_get_int(&value, &result) != CborNoError)
+ *         return 0;
+ *     return result;
+ * }
+ * \endcode
+ *
+ * Note, in the example above, that one can't distinguish a parsing failure
+ * from an encoded value of zero. Reporting a parsing error is left as an
+ * exercise to the reader.
+ *
+ * The code above does not execute a range-check either: it is possible that
+ * the value decoded from the CBOR stream encodes a number larger than what can
+ * be represented in a variable of type \c{int}. If detecting that case is
+ * important, the code should call cbor_value_get_int_checked() instead.
+ *
+ * <h3 class="groupheader">Memory and parsing constraints</h3>
+ *
+ * TinyCBOR is designed to run with little memory and with minimal overhead.
+ * Except where otherwise noted, the parser functions always run on constant
+ * time (O(1)), do not recurse and never allocate memory (thus, stack usage is
+ * bounded and is O(1)).
+ *
+ * <h3 class="groupheader">Error handling and preconditions</h3>
+ *
+ * All functions operating on a CborValue return a CborError condition, with
+ * CborNoError standing for the normal situation in which no parsing error
+ * occurred. All functions may return parsing errors in case the stream cannot
+ * be decoded properly, be it due to corrupted data or due to reaching the end
+ * of the input buffer.
+ *
+ * Error conditions must not be ignored. All decoder functions have undefined
+ * behavior if called after an error has been reported, and may crash.
+ *
+ * Some functions are also documented to have preconditions, like
+ * cbor_value_get_int() requiring that the input be an integral value.
+ * Violation of preconditions also results in undefined behavior and the
+ * program may crash.
+ */
+
+/**
+ * \addtogroup CborParsing
+ * @{
+ */
+
+/**
+ * \struct CborValue
+ *
+ * This type contains one value parsed from the CBOR stream. Each CborValue
+ * behaves as an iterator in a StAX-style parser.
+ *
+ * \if privatedocs
+ * Implementation details: the CborValue contains these fields:
+ * \list
+ *   \li ptr: pointer to the actual data
+ *   \li flags: flags from the decoder
+ *   \li extra: partially decoded integer value (0, 1 or 2 bytes)
+ *   \li remaining: remaining items in this collection after this item or UINT32_MAX if length is unknown
+ * \endlist
+ * \endif
+ */
+
+static uint64_t extract_number_and_advance(CborValue *it)
+{
+    /* This function is only called after we've verified that the number
+     * here is valid, so we can just use _cbor_value_extract_int64_helper. */
+    uint8_t descriptor;
+    uint64_t v = _cbor_value_extract_int64_helper(it);
+
+    read_bytes_unchecked(it, &descriptor, 0, 1);
+    descriptor &= SmallValueMask;
+
+    size_t bytesNeeded = descriptor < Value8Bit ? 0 : (1 << (descriptor - Value8Bit));
+    advance_bytes(it, bytesNeeded + 1);
+
+    return v;
+}
+
+static bool is_fixed_type(uint8_t type)
+{
+    return type != CborTextStringType && type != CborByteStringType && type != CborArrayType &&
+           type != CborMapType;
+}
+
+static CborError preparse_value(CborValue *it)
+{
+    enum {
+        /* flags to keep */
+        FlagsToKeep = CborIteratorFlag_ContainerIsMap | CborIteratorFlag_NextIsMapKey
+    };
+    uint8_t descriptor;
+
+    /* are we at the end? */
+    it->type = CborInvalidType;
+    it->flags &= FlagsToKeep;
+    if (!read_bytes(it, &descriptor, 0, 1))
+        return CborErrorUnexpectedEOF;
+
+    uint8_t type = descriptor & MajorTypeMask;
+    it->type = type;
+    it->extra = (descriptor &= SmallValueMask);
+
+    if (descriptor > Value64Bit) {
+        if (unlikely(descriptor != IndefiniteLength))
+            return type == CborSimpleType ? CborErrorUnknownType : CborErrorIllegalNumber;
+        if (likely(!is_fixed_type(type))) {
+            /* special case */
+            it->flags |= CborIteratorFlag_UnknownLength;
+            it->type = type;
+            return CborNoError;
+        }
+        return type == CborSimpleType ? CborErrorUnexpectedBreak : CborErrorIllegalNumber;
+    }
+
+    size_t bytesNeeded = descriptor < Value8Bit ? 0 : (1 << (descriptor - Value8Bit));
+
+    if (bytesNeeded) {
+        if (!can_read_bytes(it, bytesNeeded + 1))
+            return CborErrorUnexpectedEOF;
+
+        it->extra = 0;
+
+        /* read up to 16 bits into it->extra */
+        if (bytesNeeded <= 2) {
+            read_bytes_unchecked(it, &it->extra, 1, bytesNeeded);
+            if (bytesNeeded == 2)
+                it->extra = cbor_ntohs(it->extra);
+        } else {
+            cbor_static_assert(CborIteratorFlag_IntegerValueTooLarge == (Value32Bit & 3));
+            cbor_static_assert((CborIteratorFlag_IntegerValueIs64Bit |
+                                CborIteratorFlag_IntegerValueTooLarge) == (Value64Bit & 3));
+            it->flags |= (descriptor & 3);
+        }
+    }
+
+    uint8_t majortype = type >> MajorTypeShift;
+    if (majortype == NegativeIntegerType) {
+        it->flags |= CborIteratorFlag_NegativeInteger;
+        it->type = CborIntegerType;
+    } else if (majortype == SimpleTypesType) {
+        switch (descriptor) {
+        case FalseValue:
+            it->extra = false;
+            it->type = CborBooleanType;
+            break;
+
+        case SinglePrecisionFloat:
+        case DoublePrecisionFloat:
+            it->flags |= CborIteratorFlag_IntegerValueTooLarge;
+            /* fall through */
+        case TrueValue:
+        case NullValue:
+        case UndefinedValue:
+        case HalfPrecisionFloat:
+            read_bytes_unchecked(it, &it->type, 0, 1);
+            break;
+
+        case SimpleTypeInNextByte:
+#ifndef CBOR_PARSER_NO_STRICT_CHECKS
+            if (unlikely(it->extra < 32)) {
+                it->type = CborInvalidType;
+                return CborErrorIllegalSimpleType;
+            }
+#endif
+            break;
+
+        case 28:
+        case 29:
+        case 30:
+        case Break:
+            cbor_assert(false);  /* these conditions can't be reached */
+            return CborErrorUnexpectedBreak;
+        }
+    }
+
+    return CborNoError;
+}
+
+static CborError preparse_next_value_nodecrement(CborValue *it)
+{
+    uint8_t byte;
+    if (it->remaining == UINT32_MAX && read_bytes(it, &byte, 0, 1) && byte == (uint8_t)BreakByte) {
+        /* end of map or array */
+        if ((it->flags & CborIteratorFlag_ContainerIsMap && it->flags & CborIteratorFlag_NextIsMapKey)
+                || it->type == CborTagType) {
+            /* but we weren't expecting it! */
+            return CborErrorUnexpectedBreak;
+        }
+        it->type = CborInvalidType;
+        it->remaining = 0;
+        it->flags |= CborIteratorFlag_UnknownLength; /* leave_container must consume the Break */
+        return CborNoError;
+    }
+
+    return preparse_value(it);
+}
+
+static CborError preparse_next_value(CborValue *it)
+{
+    /* tags don't count towards item totals or whether we've successfully
+     * read a map's key or value */
+    bool itemCounts = it->type != CborTagType;
+
+    if (it->remaining != UINT32_MAX) {
+        if (itemCounts && --it->remaining == 0) {
+            it->type = CborInvalidType;
+            it->flags &= ~CborIteratorFlag_UnknownLength; /* no Break to consume */
+            return CborNoError;
+        }
+    }
+    if (itemCounts) {
+        /* toggle the flag indicating whether this was a map key */
+        it->flags ^= CborIteratorFlag_NextIsMapKey;
+    }
+    return preparse_next_value_nodecrement(it);
+}
+
+static CborError advance_internal(CborValue *it)
+{
+    uint64_t length = extract_number_and_advance(it);
+
+    if (it->type == CborByteStringType || it->type == CborTextStringType) {
+        cbor_assert(length == (size_t)length);
+        cbor_assert((it->flags & CborIteratorFlag_UnknownLength) == 0);
+        advance_bytes(it, length);
+    }
+
+    return preparse_next_value(it);
+}
+
+/** \internal
+ *
+ * Decodes the CBOR integer value when it is larger than the 16 bits available
+ * in value->extra. This function requires that value->flags have the
+ * CborIteratorFlag_IntegerValueTooLarge flag set.
+ *
+ * This function is also used to extract single- and double-precision floating
+ * point values (SinglePrecisionFloat == Value32Bit and DoublePrecisionFloat ==
+ * Value64Bit).
+ */
+uint64_t _cbor_value_decode_int64_internal(const CborValue *value)
+{
+    cbor_assert(value->flags & CborIteratorFlag_IntegerValueTooLarge ||
+                value->type == CborFloatType || value->type == CborDoubleType);
+    if (value->flags & CborIteratorFlag_IntegerValueIs64Bit)
+        return read_uint64(value, 1);
+
+    return read_uint32(value, 1);
+}
+
+/**
+ * Initializes the CBOR parser for parsing \a size bytes beginning at \a
+ * buffer. Parsing will use flags set in \a flags. The iterator to the first
+ * element is returned in \a it.
+ *
+ * The \a parser structure needs to remain valid throughout the decoding
+ * process. It is not thread-safe to share one CborParser among multiple
+ * threads iterating at the same time, but the object can be copied so multiple
+ * threads can iterate.
+ */
+CborError cbor_parser_init(const uint8_t *buffer, size_t size, int flags, CborParser *parser, CborValue *it)
+{
+    memset(parser, 0, sizeof(*parser));
+    parser->source.end = buffer + size;
+    parser->flags = (enum CborParserGlobalFlags)flags;
+    it->parser = parser;
+    it->source.ptr = buffer;
+    it->remaining = 1;      /* there's one type altogether, usually an array or map */
+    it->flags = 0;
+    return preparse_value(it);
+}
+
+CborError cbor_parser_init_reader(const struct CborParserOperations *ops, CborParser *parser, CborValue *it, void *token)
+{
+    memset(parser, 0, sizeof(*parser));
+    parser->source.ops = ops;
+    parser->flags = CborParserFlag_ExternalSource;
+    it->parser = parser;
+    it->source.token = token;
+    it->remaining = 1;
+    return preparse_value(it);
+}
+
+/**
+ * \fn bool cbor_value_at_end(const CborValue *it)
+ *
+ * Returns true if \a it has reached the end of the iteration, usually when
+ * advancing after the last item in an array or map.
+ *
+ * In the case of the outermost CborValue object, this function returns true
+ * after decoding a single element. A pointer to the first byte of the
+ * remaining data (if any) can be obtained with cbor_value_get_next_byte().
+ *
+ * \sa cbor_value_advance(), cbor_value_is_valid(), cbor_value_get_next_byte()
+ */
+
+/**
+ * \fn const uint8_t *cbor_value_get_next_byte(const CborValue *it)
+ *
+ * Returns a pointer to the next byte that would be decoded if this CborValue
+ * object were advanced.
+ *
+ * This function is useful if cbor_value_at_end() returns true for the
+ * outermost CborValue: the pointer returned is the first byte of the data
+ * remaining in the buffer, if any. Code can decide whether to begin decoding a
+ * new CBOR data stream from this point, or parse some other data appended to
+ * the same buffer.
+ *
+ * This function may be used even after a parsing error. If that occurred,
+ * then this function returns a pointer to where the parsing error occurred.
+ * Note that the error recovery is not precise and the pointer may not indicate
+ * the exact byte containing bad data.
+ *
+ * This function makes sense only when using a linear buffer (that is, when the
+ * parser is initialize by cbor_parser_init()). If using an external source,
+ * this function may return garbage; instead, consult the external source itself
+ * to find out more details about the presence of more data.
+ *
+ * \sa cbor_value_at_end()
+ */
+
+CborError cbor_value_reparse(CborValue *it)
+{
+    if (it->flags & CborIteratorFlag_IteratingStringChunks)
+        return CborNoError;
+    return preparse_next_value_nodecrement(it);
+}
+
+/**
+ * \fn bool cbor_value_is_valid(const CborValue *it)
+ *
+ * Returns true if the iterator \a it contains a valid value. Invalid iterators
+ * happen when iteration reaches the end of a container (see \ref
+ * cbor_value_at_end()) or when a search function resulted in no matches.
+ *
+ * \sa cbor_value_advance(), cbor_value_at_end(), cbor_value_get_type()
+ */
+
+/**
+ * Performs a basic validation of the CBOR stream pointed by \a it and returns
+ * the error it found. If no error was found, it returns CborNoError and the
+ * application can iterate over the items with certainty that no other errors
+ * will appear during parsing.
+ *
+ * A basic validation checks for:
+ * \list
+ *   \li absence of undefined additional information bytes;
+ *   \li well-formedness of all numbers, lengths, and simple values;
+ *   \li string contents match reported sizes;
+ *   \li arrays and maps contain the number of elements they are reported to have;
+ * \endlist
+ *
+ * For further checks, see cbor_value_validate().
+ *
+ * This function has the same timing and memory requirements as
+ * cbor_value_advance().
+ *
+ * \sa cbor_value_validate(), cbor_value_advance()
+ */
+CborError cbor_value_validate_basic(const CborValue *it)
+{
+    CborValue value = *it;
+    return cbor_value_advance(&value);
+}
+
+/**
+ * Advances the CBOR value \a it by one fixed-size position. Fixed-size types
+ * are: integers, tags, simple types (including boolean, null and undefined
+ * values) and floating point types.
+ *
+ * If the type is not of fixed size, this function has undefined behavior. Code
+ * must be sure that the current type is one of the fixed-size types before
+ * calling this function. This function is provided because it can guarantee
+ * that it runs in constant time (O(1)).
+ *
+ * If the caller is not able to determine whether the type is fixed or not, code
+ * can use the cbor_value_advance() function instead.
+ *
+ * \sa cbor_value_at_end(), cbor_value_advance(), cbor_value_enter_container(), cbor_value_leave_container()
+ */
+CborError cbor_value_advance_fixed(CborValue *it)
+{
+    cbor_assert(it->type != CborInvalidType);
+    cbor_assert(is_fixed_type(it->type));
+    if (!it->remaining)
+        return CborErrorAdvancePastEOF;
+    return advance_internal(it);
+}
+
+static CborError advance_recursive(CborValue *it, int nestingLevel)
+{
+    if (is_fixed_type(it->type))
+        return advance_internal(it);
+
+    if (!cbor_value_is_container(it)) {
+        size_t len = SIZE_MAX;
+        return _cbor_value_copy_string(it, NULL, &len, it);
+    }
+
+    /* map or array */
+    if (nestingLevel == 0)
+        return CborErrorNestingTooDeep;
+
+    CborError err;
+    CborValue recursed;
+    err = cbor_value_enter_container(it, &recursed);
+    if (err)
+        return err;
+    while (!cbor_value_at_end(&recursed)) {
+        err = advance_recursive(&recursed, nestingLevel - 1);
+        if (err)
+            return err;
+    }
+    return cbor_value_leave_container(it, &recursed);
+}
+
+
+/**
+ * Advances the CBOR value \a it by one element, skipping over containers.
+ * Unlike cbor_value_advance_fixed(), this function can be called on a CBOR
+ * value of any type. However, if the type is a container (map or array) or a
+ * string with a chunked payload, this function will not run in constant time
+ * and will recurse into itself (it will run on O(n) time for the number of
+ * elements or chunks and will use O(n) memory for the number of nested
+ * containers).
+ *
+ * The number of recursions can be limited at compile time to avoid stack
+ * exhaustion in constrained systems.
+ *
+ * \sa cbor_value_at_end(), cbor_value_advance_fixed(), cbor_value_enter_container(), cbor_value_leave_container()
+ */
+CborError cbor_value_advance(CborValue *it)
+{
+    cbor_assert(it->type != CborInvalidType);
+    if (!it->remaining)
+        return CborErrorAdvancePastEOF;
+    return advance_recursive(it, CBOR_PARSER_MAX_RECURSIONS);
+}
+
+/**
+ * \fn bool cbor_value_is_tag(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR tag.
+ *
+ * \sa cbor_value_get_tag(), cbor_value_skip_tag()
+ */
+
+/**
+ * \fn CborError cbor_value_get_tag(const CborValue *value, CborTag *result)
+ *
+ * Retrieves the CBOR tag value that \a value points to and stores it in \a
+ * result. If the iterator \a value does not point to a CBOR tag value, the
+ * behavior is undefined, so checking with \ref cbor_value_get_type or with
+ * \ref cbor_value_is_tag is recommended.
+ *
+ * \sa cbor_value_get_type(), cbor_value_is_valid(), cbor_value_is_tag()
+ */
+
+/**
+ * Advances the CBOR value \a it until it no longer points to a tag. If \a it is
+ * already not pointing to a tag, then this function returns it unchanged.
+ *
+ * This function does not run in constant time: it will run on O(n) for n being
+ * the number of tags. It does use constant memory (O(1) memory requirements).
+ *
+ * \sa cbor_value_advance_fixed(), cbor_value_advance()
+ */
+CborError cbor_value_skip_tag(CborValue *it)
+{
+    while (cbor_value_is_tag(it)) {
+        CborError err = cbor_value_advance_fixed(it);
+        if (err)
+            return err;
+    }
+    return CborNoError;
+}
+
+/**
+ * \fn bool cbor_value_is_container(const CborValue *it)
+ *
+ * Returns true if the \a it value is a container and requires recursion in
+ * order to decode (maps and arrays), false otherwise.
+ */
+
+/**
+ * Creates a CborValue iterator pointing to the first element of the container
+ * represented by \a it and saves it in \a recursed. The \a it container object
+ * needs to be kept and passed again to cbor_value_leave_container() in order
+ * to continue iterating past this container.
+ *
+ * The \a it CborValue iterator must point to a container.
+ *
+ * \sa cbor_value_is_container(), cbor_value_leave_container(), cbor_value_advance()
+ */
+CborError cbor_value_enter_container(const CborValue *it, CborValue *recursed)
+{
+    cbor_static_assert(CborIteratorFlag_ContainerIsMap == (CborMapType & ~CborArrayType));
+    cbor_assert(cbor_value_is_container(it));
+    *recursed = *it;
+
+    if (it->flags & CborIteratorFlag_UnknownLength) {
+        recursed->remaining = UINT32_MAX;
+        advance_bytes(recursed, 1);
+    } else {
+        uint64_t len = extract_number_and_advance(recursed);
+
+        recursed->remaining = (uint32_t)len;
+        if (recursed->remaining != len || len == UINT32_MAX) {
+            /* back track the pointer to indicate where the error occurred */
+            copy_current_position(recursed, it);
+            return CborErrorDataTooLarge;
+        }
+        if (recursed->type == CborMapType) {
+            /* maps have keys and values, so we need to multiply by 2 */
+            if (recursed->remaining > UINT32_MAX / 2) {
+                /* back track the pointer to indicate where the error occurred */
+                copy_current_position(recursed, it);
+                return CborErrorDataTooLarge;
+            }
+            recursed->remaining *= 2;
+        }
+        if (len == 0) {
+            /* the case of the empty container */
+            recursed->type = CborInvalidType;
+            return CborNoError;
+        }
+    }
+    recursed->flags = (recursed->type & CborIteratorFlag_ContainerIsMap);
+    return preparse_next_value_nodecrement(recursed);
+}
+
+/**
+ * Updates \a it to point to the next element after the container. The \a
+ * recursed object needs to point to the element obtained either by advancing
+ * the last element of the container (via cbor_value_advance(),
+ * cbor_value_advance_fixed(), a nested cbor_value_leave_container(), or the \c
+ * next pointer from cbor_value_copy_string() or cbor_value_dup_string()).
+ *
+ * The \a it and \a recursed parameters must be the exact same as passed to
+ * cbor_value_enter_container().
+ *
+ * \sa cbor_value_enter_container(), cbor_value_at_end()
+ */
+CborError cbor_value_leave_container(CborValue *it, const CborValue *recursed)
+{
+    cbor_assert(cbor_value_is_container(it));
+    cbor_assert(recursed->type == CborInvalidType);
+
+    copy_current_position(it, recursed);
+    if (recursed->flags & CborIteratorFlag_UnknownLength)
+        advance_bytes(it, 1);
+    return preparse_next_value(it);
+}
+
+
+/**
+ * \fn CborType cbor_value_get_type(const CborValue *value)
+ *
+ * Returns the type of the CBOR value that the iterator \a value points to. If
+ * \a value does not point to a valid value, this function returns \ref
+ * CborInvalidType.
+ *
+ * TinyCBOR also provides functions to test directly if a given CborValue object
+ * is of a given type, like cbor_value_is_text_string() and cbor_value_is_null().
+ *
+ * \sa cbor_value_is_valid()
+ */
+
+/**
+ * \fn bool cbor_value_is_null(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR null type.
+ *
+ * \sa cbor_value_is_valid(), cbor_value_is_undefined()
+ */
+
+/**
+ * \fn bool cbor_value_is_undefined(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR undefined type.
+ *
+ * \sa cbor_value_is_valid(), cbor_value_is_null()
+ */
+
+/**
+ * \fn bool cbor_value_is_boolean(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR boolean
+ * type (true or false).
+ *
+ * \sa cbor_value_is_valid(), cbor_value_get_boolean()
+ */
+
+/**
+ * \fn CborError cbor_value_get_boolean(const CborValue *value, bool *result)
+ *
+ * Retrieves the boolean value that \a value points to and stores it in \a
+ * result. If the iterator \a value does not point to a boolean value, the
+ * behavior is undefined, so checking with \ref cbor_value_get_type or with
+ * \ref cbor_value_is_boolean is recommended.
+ *
+ * \sa cbor_value_get_type(), cbor_value_is_valid(), cbor_value_is_boolean()
+ */
+
+/**
+ * \fn bool cbor_value_is_simple_type(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR Simple Type
+ * type (other than true, false, null and undefined).
+ *
+ * \sa cbor_value_is_valid(), cbor_value_get_simple_type()
+ */
+
+/**
+ * \fn CborError cbor_value_get_simple_type(const CborValue *value, uint8_t *result)
+ *
+ * Retrieves the CBOR Simple Type value that \a value points to and stores it
+ * in \a result. If the iterator \a value does not point to a simple_type
+ * value, the behavior is undefined, so checking with \ref cbor_value_get_type
+ * or with \ref cbor_value_is_simple_type is recommended.
+ *
+ * \sa cbor_value_get_type(), cbor_value_is_valid(), cbor_value_is_simple_type()
+ */
+
+/**
+ * \fn bool cbor_value_is_integer(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR integer
+ * type.
+ *
+ * \sa cbor_value_is_valid(), cbor_value_get_int, cbor_value_get_int64, cbor_value_get_uint64, cbor_value_get_raw_integer
+ */
+
+/**
+ * \fn bool cbor_value_is_unsigned_integer(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR unsigned
+ * integer type (positive values or zero).
+ *
+ * \sa cbor_value_is_valid(), cbor_value_get_uint64()
+ */
+
+/**
+ * \fn bool cbor_value_is_negative_integer(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR negative
+ * integer type.
+ *
+ * \sa cbor_value_is_valid(), cbor_value_get_int, cbor_value_get_int64, cbor_value_get_raw_integer
+ */
+
+/**
+ * \fn CborError cbor_value_get_int(const CborValue *value, int *result)
+ *
+ * Retrieves the CBOR integer value that \a value points to and stores it in \a
+ * result. If the iterator \a value does not point to an integer value, the
+ * behavior is undefined, so checking with \ref cbor_value_get_type or with
+ * \ref cbor_value_is_integer is recommended.
+ *
+ * Note that this function does not do range-checking: integral values that do
+ * not fit in a variable of type \c{int} are silently truncated to fit. Use
+ * cbor_value_get_int_checked() if that is not acceptable.
+ *
+ * \sa cbor_value_get_type(), cbor_value_is_valid(), cbor_value_is_integer()
+ */
+
+/**
+ * \fn CborError cbor_value_get_int64(const CborValue *value, int64_t *result)
+ *
+ * Retrieves the CBOR integer value that \a value points to and stores it in \a
+ * result. If the iterator \a value does not point to an integer value, the
+ * behavior is undefined, so checking with \ref cbor_value_get_type or with
+ * \ref cbor_value_is_integer is recommended.
+ *
+ * Note that this function does not do range-checking: integral values that do
+ * not fit in a variable of type \c{int64_t} are silently truncated to fit. Use
+ * cbor_value_get_int64_checked() that is not acceptable.
+ *
+ * \sa cbor_value_get_type(), cbor_value_is_valid(), cbor_value_is_integer()
+ */
+
+/**
+ * \fn CborError cbor_value_get_uint64(const CborValue *value, uint64_t *result)
+ *
+ * Retrieves the CBOR integer value that \a value points to and stores it in \a
+ * result. If the iterator \a value does not point to an unsigned integer
+ * value, the behavior is undefined, so checking with \ref cbor_value_get_type
+ * or with \ref cbor_value_is_unsigned_integer is recommended.
+ *
+ * \sa cbor_value_get_type(), cbor_value_is_valid(), cbor_value_is_unsigned_integer()
+ */
+
+/**
+ * \fn CborError cbor_value_get_raw_integer(const CborValue *value, uint64_t *result)
+ *
+ * Retrieves the CBOR integer value that \a value points to and stores it in \a
+ * result. If the iterator \a value does not point to an integer value, the
+ * behavior is undefined, so checking with \ref cbor_value_get_type or with
+ * \ref cbor_value_is_integer is recommended.
+ *
+ * This function is provided because CBOR negative integers can assume values
+ * that cannot be represented with normal 64-bit integer variables.
+ *
+ * If the integer is unsigned (that is, if cbor_value_is_unsigned_integer()
+ * returns true), then \a result will contain the actual value. If the integer
+ * is negative, then \a result will contain the absolute value of that integer,
+ * minus one. That is, \c {actual = -result - 1}. On architectures using two's
+ * complement for representation of negative integers, it is equivalent to say
+ * that \a result will contain the bitwise negation of the actual value.
+ *
+ * \sa cbor_value_get_type(), cbor_value_is_valid(), cbor_value_is_integer()
+ */
+
+/**
+ * Retrieves the CBOR integer value that \a value points to and stores it in \a
+ * result. If the iterator \a value does not point to an integer value, the
+ * behavior is undefined, so checking with \ref cbor_value_get_type or with
+ * \ref cbor_value_is_integer is recommended.
+ *
+ * Unlike \ref cbor_value_get_int64(), this function performs a check to see if the
+ * stored integer fits in \a result without data loss. If the number is outside
+ * the valid range for the data type, this function returns the recoverable
+ * error CborErrorDataTooLarge. In that case, use either
+ * cbor_value_get_uint64() (if the number is positive) or
+ * cbor_value_get_raw_integer().
+ *
+ * \sa cbor_value_get_type(), cbor_value_is_valid(), cbor_value_is_integer(), cbor_value_get_int64()
+ */
+CborError cbor_value_get_int64_checked(const CborValue *value, int64_t *result)
+{
+    cbor_assert(cbor_value_is_integer(value));
+    uint64_t v = _cbor_value_extract_int64_helper(value);
+
+    /* Check before converting, as the standard says (C11 6.3.1.3 paragraph 3):
+     * "[if] the new type is signed and the value cannot be represented in it; either the
+     *  result is implementation-defined or an implementation-defined signal is raised."
+     *
+     * The range for int64_t is -2^63 to 2^63-1 (int64_t is required to be
+     * two's complement, C11 7.20.1.1 paragraph 3), which in CBOR is
+     * represented the same way, differing only on the "sign bit" (the major
+     * type).
+     */
+
+    if (unlikely(v > (uint64_t)INT64_MAX))
+        return CborErrorDataTooLarge;
+
+    *result = v;
+    if (value->flags & CborIteratorFlag_NegativeInteger)
+        *result = -*result - 1;
+    return CborNoError;
+}
+
+/**
+ * Retrieves the CBOR integer value that \a value points to and stores it in \a
+ * result. If the iterator \a value does not point to an integer value, the
+ * behavior is undefined, so checking with \ref cbor_value_get_type or with
+ * \ref cbor_value_is_integer is recommended.
+ *
+ * Unlike \ref cbor_value_get_int(), this function performs a check to see if the
+ * stored integer fits in \a result without data loss. If the number is outside
+ * the valid range for the data type, this function returns the recoverable
+ * error CborErrorDataTooLarge. In that case, use one of the other integer
+ * functions to obtain the value.
+ *
+ * \sa cbor_value_get_type(), cbor_value_is_valid(), cbor_value_is_integer(), cbor_value_get_int64(),
+ *     cbor_value_get_uint64(), cbor_value_get_int64_checked(), cbor_value_get_raw_integer()
+ */
+CborError cbor_value_get_int_checked(const CborValue *value, int *result)
+{
+    cbor_assert(cbor_value_is_integer(value));
+    uint64_t v = _cbor_value_extract_int64_helper(value);
+
+    /* Check before converting, as the standard says (C11 6.3.1.3 paragraph 3):
+     * "[if] the new type is signed and the value cannot be represented in it; either the
+     *  result is implementation-defined or an implementation-defined signal is raised."
+     *
+     * But we can convert from signed to unsigned without fault (paragraph 2).
+     *
+     * The range for int is implementation-defined and int is not guaranteed to use
+     * two's complement representation (although int32_t is).
+     */
+
+    if (value->flags & CborIteratorFlag_NegativeInteger) {
+        if (unlikely(v > (unsigned) -(INT_MIN + 1)))
+            return CborErrorDataTooLarge;
+
+        *result = (int)v;
+        *result = -*result - 1;
+    } else {
+        if (unlikely(v > (uint64_t)INT_MAX))
+            return CborErrorDataTooLarge;
+
+        *result = (int)v;
+    }
+    return CborNoError;
+
+}
+
+/**
+ * \fn bool cbor_value_is_length_known(const CborValue *value)
+ *
+ * Returns true if the length of this type is known without calculation. That
+ * is, if the length of this CBOR string, map or array is encoded in the data
+ * stream, this function returns true. If the length is not encoded, it returns
+ * false.
+ *
+ * If the length is known, code can call cbor_value_get_string_length(),
+ * cbor_value_get_array_length() or cbor_value_get_map_length() to obtain the
+ * length. If the length is not known but is necessary, code can use the
+ * cbor_value_calculate_string_length() function (no equivalent function is
+ * provided for maps and arrays).
+ */
+
+/**
+ * \fn bool cbor_value_is_text_string(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR text
+ * string. CBOR text strings are UTF-8 encoded and usually contain
+ * human-readable text.
+ *
+ * \sa cbor_value_is_valid(), cbor_value_get_string_length(), cbor_value_calculate_string_length(),
+ *     cbor_value_copy_text_string(), cbor_value_dup_text_string()
+ */
+
+/**
+ * \fn bool cbor_value_is_byte_string(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR text
+ * string. CBOR byte strings are binary data with no specified encoding or
+ * format.
+ *
+ * \sa cbor_value_is_valid(), cbor_value_get_string_length(), cbor_value_calculate_string_length(),
+ *     cbor_value_copy_byte_string(), cbor_value_dup_byte_string()
+ */
+
+/**
+ * \fn CborError cbor_value_get_string_length(const CborValue *value, size_t *length)
+ *
+ * Extracts the length of the byte or text string that \a value points to and
+ * stores it in \a result. If the iterator \a value does not point to a text
+ * string or a byte string, the behaviour is undefined, so checking with \ref
+ * cbor_value_get_type, with \ref cbor_value_is_text_string or \ref
+ * cbor_value_is_byte_string is recommended.
+ *
+ * If the length of this string is not encoded in the CBOR data stream, this
+ * function will return the recoverable error CborErrorUnknownLength. You may
+ * also check whether that is the case by using cbor_value_is_length_known().
+ *
+ * If the length of the string is required but the length was not encoded, use
+ * cbor_value_calculate_string_length(), but note that that function does not
+ * run in constant time.
+ *
+ * \note On 32-bit platforms, this function will return error condition of \ref
+ * CborErrorDataTooLarge if the stream indicates a length that is too big to
+ * fit in 32-bit.
+ *
+ * \sa cbor_value_is_valid(), cbor_value_is_length_known(), cbor_value_calculate_string_length()
+ */
+
+/**
+ * Calculates the length of the byte or text string that \a value points to and
+ * stores it in \a len. If the iterator \a value does not point to a text
+ * string or a byte string, the behaviour is undefined, so checking with \ref
+ * cbor_value_get_type, with \ref cbor_value_is_text_string or \ref
+ * cbor_value_is_byte_string is recommended.
+ *
+ * This function is different from cbor_value_get_string_length() in that it
+ * calculates the length even for strings sent in chunks. For that reason, this
+ * function may not run in constant time (it will run in O(n) time on the
+ * number of chunks). It does use constant memory (O(1)).
+ *
+ * \note On 32-bit platforms, this function will return error condition of \ref
+ * CborErrorDataTooLarge if the stream indicates a length that is too big to
+ * fit in 32-bit.
+ *
+ * \sa cbor_value_get_string_length(), cbor_value_copy_text_string(), cbor_value_copy_byte_string(), cbor_value_is_length_known()
+ */
+CborError cbor_value_calculate_string_length(const CborValue *value, size_t *len)
+{
+    *len = SIZE_MAX;
+    return _cbor_value_copy_string(value, NULL, len, NULL);
+}
+
+static inline void prepare_string_iteration(CborValue *it)
+{
+    if (!cbor_value_is_length_known(it)) {
+        /* chunked string: we're before the first chunk;
+         * advance to the first chunk */
+        advance_bytes(it, 1);
+        it->flags |= CborIteratorFlag_IteratingStringChunks;
+    }
+}
+
+CborError CBOR_INTERNAL_API_CC _cbor_value_prepare_string_iteration(CborValue *it)
+{
+    cbor_assert((it->flags & CborIteratorFlag_IteratingStringChunks) == 0);
+    prepare_string_iteration(it);
+
+    /* are we at the end? */
+    if (!can_read_bytes(it, 1))
+        return CborErrorUnexpectedEOF;
+    return CborNoError;
+}
+
+static CborError get_string_chunk_size(CborValue *it, size_t *offset, size_t *len)
+{
+    /* Possible states:
+     * length known | iterating | meaning
+     *     no       |    no     | before the first chunk of a chunked string
+     *     yes      |    no     | at a non-chunked string
+     *     no       |    yes    | second or later chunk
+     *     yes      |    yes    | after a non-chunked string
+     */
+    if (it->flags & CborIteratorFlag_IteratingStringChunks) {
+        /* already iterating */
+        if (cbor_value_is_length_known(it)) {
+            /* if the length was known, it wasn't chunked, so finish iteration */
+            *len = 0;
+            return CborErrorLastStringChunk;
+        }
+    } else {
+        prepare_string_iteration(it);
+    }
+
+    /* are we at the end? */
+    uint8_t descriptor;
+    if (!read_bytes(it, &descriptor, 0, 1))
+        return CborErrorUnexpectedEOF;
+
+    if (descriptor == BreakByte)
+        return CborErrorLastStringChunk;
+    if ((descriptor & MajorTypeMask) != it->type)
+        return CborErrorIllegalType;
+
+    /* find the string length */
+    size_t bytesNeeded = 1;
+
+    descriptor &= SmallValueMask;
+    if (descriptor < Value8Bit) {
+        *len = descriptor;
+    } else if (unlikely(descriptor > Value64Bit)) {
+        return CborErrorIllegalNumber;
+    } else {
+        uint64_t val;
+        bytesNeeded = (size_t)(1 << (descriptor - Value8Bit));
+        if (!can_read_bytes(it, 1 + bytesNeeded))
+            return CborErrorUnexpectedEOF;
+
+        if (descriptor <= Value16Bit) {
+            if (descriptor == Value16Bit)
+                val = read_uint16(it, 1);
+            else
+                val = read_uint8(it, 1);
+        } else {
+            if (descriptor == Value32Bit)
+                val = read_uint32(it, 1);
+            else
+                val = read_uint64(it, 1);
+        }
+
+        *len = val;
+        if (*len != val)
+            return CborErrorDataTooLarge;
+
+        ++bytesNeeded;
+    }
+
+    if (*len != (size_t)*len)
+        return CborErrorDataTooLarge;
+
+    *offset = bytesNeeded;
+    return CborNoError;
+}
+
+static CborError get_string_chunk(CborValue *it, const void **bufferptr, size_t *len)
+{
+    size_t offset;
+    CborError err = get_string_chunk_size(it, &offset, len);
+    if (err == CborErrorLastStringChunk) {
+        /* last chunk */
+        if (!cbor_value_is_length_known(it)) {
+            /* skip the break byte */
+            advance_bytes(it, 1);
+        }
+        *bufferptr = NULL;
+        *len = 0;
+        return preparse_next_value(it);
+    } else if (err) {
+        return err;
+    }
+
+    /* we're good, transfer the string now */
+    err = transfer_string(it, bufferptr, offset, *len);
+    if (err)
+        return err;
+
+    it->flags |= CborIteratorFlag_IteratingStringChunks;
+    return CborNoError;
+}
+
+CborError cbor_value_get_string_chunk_size(CborValue *value, size_t *len)
+{
+    size_t offset;
+    return get_string_chunk_size(value, &offset, len);
+}
+
+/**
+ * \fn CborError cbor_value_get_text_string_chunk(const CborValue *value, const char **bufferptr, size_t *len, CborValue *next)
+ *
+ * Extracts one text string chunk pointed to by \a value and stores a pointer
+ * to the data in \a buffer and the size in \a len, which must not be null. If
+ * no more chunks are available, then \a bufferptr will be set to null. This
+ * function may be used to iterate over any string without causing its contents
+ * to be copied to a separate buffer, like the convenience function
+ * cbor_value_copy_text_string() does.
+ *
+ * It is designed to be used in code like:
+ *
+ * \code
+ *   if (cbor_value_is_text_string(value)) {
+ *       char *ptr;
+ *       size_t len;
+ *       while (1) {
+ *           err = cbor_value_get_text_string_chunk(value, &ptr, &len, &value));
+ *           if (err) return err;
+ *           if (ptr == NULL) return CborNoError;
+ *           consume(ptr, len);
+ *       }
+ *   }
+ * \endcode
+ *
+ * If the iterator \a value does not point to a text string, the behaviour is
+ * undefined, so checking with \ref cbor_value_get_type or \ref
+ * cbor_value_is_text_string is recommended.
+ *
+ * The \a next pointer, if not null, will be updated to point to the next item
+ * after this string. During iteration, the pointer must only be passed back
+ * again to this function; passing it to any other function in this library
+ * results in undefined behavior. If there are no more chunks to be read from
+ * \a value, then \a next will be set to the next item after this string; if \a
+ * value points to the last item, then \a next will be invalid.
+ *
+ * \note This function does not perform UTF-8 validation on the incoming text
+ * string.
+ *
+ * \sa cbor_value_dup_text_string(), cbor_value_copy_text_string(), cbor_value_caculate_string_length(), cbor_value_get_byte_string_chunk()
+ */
+
+/**
+ * \fn CborError cbor_value_get_byte_string_chunk(const CborValue *value, const char **bufferptr, size_t *len, CborValue *next)
+ *
+ * Extracts one byte string chunk pointed to by \a value and stores a pointer
+ * to the data in \a buffer and the size in \a len, which must not be null. If
+ * no more chunks are available, then \a bufferptr will be set to null. This
+ * function may be used to iterate over any string without causing its contents
+ * to be copied to a separate buffer, like the convenience function
+ * cbor_value_copy_byte_string() does.
+ *
+ * It is designed to be used in code like:
+ *
+ * \code
+ *   if (cbor_value_is_byte_string(value)) {
+ *       char *ptr;
+ *       size_t len;
+ *       while (1) {
+ *           err = cbor_value_get_byte_string_chunk(value, &ptr, &len, &value));
+ *           if (err) return err;
+ *           if (ptr == NULL) return CborNoError;
+ *           consume(ptr, len);
+ *       }
+ *   }
+ * \endcode
+ *
+ * If the iterator \a value does not point to a byte string, the behaviour is
+ * undefined, so checking with \ref cbor_value_get_type or \ref
+ * cbor_value_is_byte_string is recommended.
+ *
+ * The \a next pointer, if not null, will be updated to point to the next item
+ * after this string. During iteration, the pointer must only be passed back
+ * again to this function; passing it to any other function in this library
+ * results in undefined behavior. If there are no more chunks to be read from
+ * \a value, then \a next will be set to the next item after this string; if \a
+ * value points to the last item, then \a next will be invalid.
+ *
+ * \sa cbor_value_dup_byte_string(), cbor_value_copy_byte_string(), cbor_value_caculate_string_length(), cbor_value_get_text_string_chunk()
+ */
+
+CborError _cbor_value_get_string_chunk(const CborValue *value, const void **bufferptr,
+                                                        size_t *len, CborValue *next)
+{
+    CborValue tmp;
+    if (!next)
+        next = &tmp;
+    *next = *value;
+    return get_string_chunk(next, bufferptr, len);
+}
+
+/* We return uintptr_t so that we can pass memcpy directly as the iteration
+ * function. The choice is to optimize for memcpy, which is used in the base
+ * parser API (cbor_value_copy_string), while memcmp is used in convenience API
+ * only. */
+typedef uintptr_t (*IterateFunction)(char *, const uint8_t *, size_t);
+
+static uintptr_t iterate_noop(char *dest, const uint8_t *src, size_t len)
+{
+    (void)dest;
+    (void)src;
+    (void)len;
+    return true;
+}
+
+static uintptr_t iterate_memcmp(char *s1, const uint8_t *s2, size_t len)
+{
+    return memcmp(s1, (const char *)s2, len) == 0;
+}
+
+static uintptr_t iterate_memcpy(char *dest, const uint8_t *src, size_t len)
+{
+    return (uintptr_t)memcpy(dest, src, len);
+}
+
+static CborError iterate_string_chunks(const CborValue *value, char *buffer, size_t *buflen,
+                                       bool *result, CborValue *next, IterateFunction func)
+{
+    cbor_assert(cbor_value_is_byte_string(value) || cbor_value_is_text_string(value));
+
+    CborError err;
+    CborValue tmp;
+    size_t total = 0;
+    const void *ptr;
+
+    if (!next)
+        next = &tmp;
+    *next = *value;
+    *result = true;
+
+    while (1) {
+        size_t newTotal;
+        size_t chunkLen;
+        err = get_string_chunk(next, &ptr, &chunkLen);
+        if (err)
+            return err;
+        if (!ptr)
+            break;
+
+        if (unlikely(add_check_overflow(total, chunkLen, &newTotal)))
+            return CborErrorDataTooLarge;
+
+        if (*result && *buflen >= newTotal)
+            *result = !!func(buffer + total, (const uint8_t *)ptr, chunkLen);
+        else
+            *result = false;
+
+        total = newTotal;
+    }
+
+    /* is there enough room for the ending NUL byte? */
+    if (*result && *buflen > total) {
+        uint8_t nul[] = { 0 };
+        *result = !!func(buffer + total, nul, 1);
+    }
+    *buflen = total;
+    return CborNoError;
+}
+
+/**
+ * \fn CborError cbor_value_copy_text_string(const CborValue *value, char *buffer, size_t *buflen, CborValue *next)
+ *
+ * Copies the string pointed to by \a value into the buffer provided at \a buffer
+ * of \a buflen bytes. If \a buffer is a NULL pointer, this function will not
+ * copy anything and will only update the \a next value.
+ *
+ * If the iterator \a value does not point to a text string, the behaviour is
+ * undefined, so checking with \ref cbor_value_get_type or \ref
+ * cbor_value_is_text_string is recommended.
+ *
+ * If the provided buffer length was too small, this function returns an error
+ * condition of \ref CborErrorOutOfMemory. If you need to calculate the length
+ * of the string in order to preallocate a buffer, use
+ * cbor_value_calculate_string_length().
+ *
+ * On success, this function sets the number of bytes copied to \c{*buflen}. If
+ * the buffer is large enough, this function will insert a null byte after the
+ * last copied byte, to facilitate manipulation of text strings. That byte is
+ * not included in the returned value of \c{*buflen}. If there was no space for
+ * the terminating null, no error is returned, so callers must check the value
+ * of *buflen after the call, before relying on the '\0'; if it has not been
+ * changed by the call, there is no '\0'-termination on the buffer's contents.
+ *
+ * The \a next pointer, if not null, will be updated to point to the next item
+ * after this string. If \a value points to the last item, then \a next will be
+ * invalid.
+ *
+ * This function may not run in constant time (it will run in O(n) time on the
+ * number of chunks). It requires constant memory (O(1)).
+ *
+ * \note This function does not perform UTF-8 validation on the incoming text
+ * string.
+ *
+ * \sa cbor_value_get_text_string_chunk() cbor_value_dup_text_string(), cbor_value_copy_byte_string(), cbor_value_get_string_length(), cbor_value_calculate_string_length()
+ */
+
+/**
+ * \fn CborError cbor_value_copy_byte_string(const CborValue *value, uint8_t *buffer, size_t *buflen, CborValue *next)
+ *
+ * Copies the string pointed by \a value into the buffer provided at \a buffer
+ * of \a buflen bytes. If \a buffer is a NULL pointer, this function will not
+ * copy anything and will only update the \a next value.
+ *
+ * If the iterator \a value does not point to a byte string, the behaviour is
+ * undefined, so checking with \ref cbor_value_get_type or \ref
+ * cbor_value_is_byte_string is recommended.
+ *
+ * If the provided buffer length was too small, this function returns an error
+ * condition of \ref CborErrorOutOfMemory. If you need to calculate the length
+ * of the string in order to preallocate a buffer, use
+ * cbor_value_calculate_string_length().
+ *
+ * On success, this function sets the number of bytes copied to \c{*buflen}. If
+ * the buffer is large enough, this function will insert a null byte after the
+ * last copied byte, to facilitate manipulation of null-terminated strings.
+ * That byte is not included in the returned value of \c{*buflen}.
+ *
+ * The \a next pointer, if not null, will be updated to point to the next item
+ * after this string. If \a value points to the last item, then \a next will be
+ * invalid.
+ *
+ * This function may not run in constant time (it will run in O(n) time on the
+ * number of chunks). It requires constant memory (O(1)).
+ *
+ * \sa cbor_value_get_byte_string_chunk(), cbor_value_dup_text_string(), cbor_value_copy_text_string(), cbor_value_get_string_length(), cbor_value_calculate_string_length()
+ */
+
+CborError _cbor_value_copy_string(const CborValue *value, void *buffer,
+                                 size_t *buflen, CborValue *next)
+{
+    bool copied_all;
+    CborError err = iterate_string_chunks(value, (char*)buffer, buflen, &copied_all, next,
+                                          buffer ? iterate_memcpy : iterate_noop);
+    return err ? err :
+                 copied_all ? CborNoError : CborErrorOutOfMemory;
+}
+
+/**
+ * Compares the entry \a value with the string \a string and stores the result
+ * in \a result. If the value is different from \a string \a result will
+ * contain \c false.
+ *
+ * The entry at \a value may be a tagged string. If \a value is not a string or
+ * a tagged string, the comparison result will be false.
+ *
+ * CBOR requires text strings to be encoded in UTF-8, but this function does
+ * not validate either the strings in the stream or the string \a string to be
+ * matched. Moreover, comparison is done on strict codepoint comparison,
+ * without any Unicode normalization.
+ *
+ * This function may not run in constant time (it will run in O(n) time on the
+ * number of chunks). It requires constant memory (O(1)).
+ *
+ * \sa cbor_value_skip_tag(), cbor_value_copy_text_string()
+ */
+CborError cbor_value_text_string_equals(const CborValue *value, const char *string, bool *result)
+{
+    CborValue copy = *value;
+    CborError err = cbor_value_skip_tag(&copy);
+    if (err)
+        return err;
+    if (!cbor_value_is_text_string(&copy)) {
+        *result = false;
+        return CborNoError;
+    }
+
+    size_t len = strlen(string);
+    return iterate_string_chunks(&copy, CONST_CAST(char *, string), &len, result, NULL, iterate_memcmp);
+}
+
+/**
+ * \fn bool cbor_value_is_array(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR array.
+ *
+ * \sa cbor_value_is_valid(), cbor_value_is_map()
+ */
+
+/**
+ * \fn CborError cbor_value_get_array_length(const CborValue *value, size_t *length)
+ *
+ * Extracts the length of the CBOR array that \a value points to and stores it
+ * in \a result. If the iterator \a value does not point to a CBOR array, the
+ * behaviour is undefined, so checking with \ref cbor_value_get_type or \ref
+ * cbor_value_is_array is recommended.
+ *
+ * If the length of this array is not encoded in the CBOR data stream, this
+ * function will return the recoverable error CborErrorUnknownLength. You may
+ * also check whether that is the case by using cbor_value_is_length_known().
+ *
+ * \note On 32-bit platforms, this function will return error condition of \ref
+ * CborErrorDataTooLarge if the stream indicates a length that is too big to
+ * fit in 32-bit.
+ *
+ * \sa cbor_value_is_valid(), cbor_value_is_length_known()
+ */
+
+/**
+ * \fn bool cbor_value_is_map(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR map.
+ *
+ * \sa cbor_value_is_valid(), cbor_value_is_array()
+ */
+
+/**
+ * \fn CborError cbor_value_get_map_length(const CborValue *value, size_t *length)
+ *
+ * Extracts the length of the CBOR map that \a value points to and stores it in
+ * \a result. If the iterator \a value does not point to a CBOR map, the
+ * behaviour is undefined, so checking with \ref cbor_value_get_type or \ref
+ * cbor_value_is_map is recommended.
+ *
+ * If the length of this map is not encoded in the CBOR data stream, this
+ * function will return the recoverable error CborErrorUnknownLength. You may
+ * also check whether that is the case by using cbor_value_is_length_known().
+ *
+ * \note On 32-bit platforms, this function will return error condition of \ref
+ * CborErrorDataTooLarge if the stream indicates a length that is too big to
+ * fit in 32-bit.
+ *
+ * \sa cbor_value_is_valid(), cbor_value_is_length_known()
+ */
+
+/**
+ * Attempts to find the value in map \a map that corresponds to the text string
+ * entry \a string. If the iterator \a value does not point to a CBOR map, the
+ * behaviour is undefined, so checking with \ref cbor_value_get_type or \ref
+ * cbor_value_is_map is recommended.
+ *
+ * If the item is found, it is stored in \a result. If no item is found
+ * matching the key, then \a result will contain an element of type \ref
+ * CborInvalidType. Matching is performed using
+ * cbor_value_text_string_equals(), so tagged strings will also match.
+ *
+ * This function has a time complexity of O(n) where n is the number of
+ * elements in the map to be searched. In addition, this function is has O(n)
+ * memory requirement based on the number of nested containers (maps or arrays)
+ * found as elements of this map.
+ *
+ * \sa cbor_value_is_valid(), cbor_value_text_string_equals(), cbor_value_advance()
+ */
+CborError cbor_value_map_find_value(const CborValue *map, const char *string, CborValue *element)
+{
+    cbor_assert(cbor_value_is_map(map));
+    size_t len = strlen(string);
+    CborError err = cbor_value_enter_container(map, element);
+    if (err)
+        goto error;
+
+    while (!cbor_value_at_end(element)) {
+        /* find the non-tag so we can compare */
+        err = cbor_value_skip_tag(element);
+        if (err)
+            goto error;
+        if (cbor_value_is_text_string(element)) {
+            bool equals;
+            size_t dummyLen = len;
+            err = iterate_string_chunks(element, CONST_CAST(char *, string), &dummyLen,
+                                        &equals, element, iterate_memcmp);
+            if (err)
+                goto error;
+            if (equals)
+                return preparse_value(element);
+        } else {
+            /* skip this key */
+            err = cbor_value_advance(element);
+            if (err)
+                goto error;
+        }
+
+        /* skip this value */
+        err = cbor_value_skip_tag(element);
+        if (err)
+            goto error;
+        err = cbor_value_advance(element);
+        if (err)
+            goto error;
+    }
+
+    /* not found */
+    element->type = CborInvalidType;
+    return CborNoError;
+
+error:
+    element->type = CborInvalidType;
+    return err;
+}
+
+/**
+ * \fn bool cbor_value_is_float(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR
+ * single-precision floating point (32-bit).
+ *
+ * \sa cbor_value_is_valid(), cbor_value_is_double(), cbor_value_is_half_float()
+ */
+
+/**
+ * \fn CborError cbor_value_get_float(const CborValue *value, float *result)
+ *
+ * Retrieves the CBOR single-precision floating point (32-bit) value that \a
+ * value points to and stores it in \a result. If the iterator \a value does
+ * not point to a single-precision floating point value, the behavior is
+ * undefined, so checking with \ref cbor_value_get_type or with \ref
+ * cbor_value_is_float is recommended.
+ *
+ * \sa cbor_value_get_type(), cbor_value_is_valid(), cbor_value_is_float(), cbor_value_get_double()
+ */
+
+/**
+ * \fn bool cbor_value_is_double(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR
+ * double-precision floating point (64-bit).
+ *
+ * \sa cbor_value_is_valid(), cbor_value_is_float(), cbor_value_is_half_float()
+ */
+
+/**
+ * \fn CborError cbor_value_get_double(const CborValue *value, float *result)
+ *
+ * Retrieves the CBOR double-precision floating point (64-bit) value that \a
+ * value points to and stores it in \a result. If the iterator \a value does
+ * not point to a double-precision floating point value, the behavior is
+ * undefined, so checking with \ref cbor_value_get_type or with \ref
+ * cbor_value_is_double is recommended.
+ *
+ * \sa cbor_value_get_type(), cbor_value_is_valid(), cbor_value_is_double(), cbor_value_get_float()
+ */
+
+/**
+ * \fn bool cbor_value_is_half_float(const CborValue *value)
+ *
+ * Returns true if the iterator \a value is valid and points to a CBOR
+ * single-precision floating point (16-bit).
+ *
+ * \sa cbor_value_is_valid(), cbor_value_is_double(), cbor_value_is_float()
+ */
+
+/**
+ * \fn CborError cbor_value_get_half_float(const CborValue *value, void *result)
+ *
+ * Retrieves the CBOR half-precision floating point (16-bit) value that \a
+ * value points to and stores it in \a result. If the iterator \a value does
+ * not point to a half-precision floating point value, the behavior is
+ * undefined, so checking with \ref cbor_value_get_type or with \ref
+ * cbor_value_is_half_float is recommended.
+ *
+ * Note: since the C language does not have a standard type for half-precision
+ * floating point, this function takes a \c{void *} as a parameter for the
+ * storage area, which must be at least 16 bits wide.
+ *
+ * \sa cbor_value_get_type(), cbor_value_is_valid(), cbor_value_is_half_float(), cbor_value_get_float()
+ */
+
+/** @} */
diff --git a/src/3rdparty/tinycbor/src/compilersupport_p.h b/src/3rdparty/tinycbor/src/compilersupport_p.h
new file mode 100644
index 0000000000..d9c8c1f82e
--- /dev/null
+++ b/src/3rdparty/tinycbor/src/compilersupport_p.h
@@ -0,0 +1,263 @@
+/****************************************************************************
+**
+** Copyright (C) 2017 Intel Corporation
+**
+** Permission is hereby granted, free of charge, to any person obtaining a copy
+** of this software and associated documentation files (the "Software"), to deal
+** in the Software without restriction, including without limitation the rights
+** to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+** copies of the Software, and to permit persons to whom the Software is
+** furnished to do so, subject to the following conditions:
+**
+** The above copyright notice and this permission notice shall be included in
+** all copies or substantial portions of the Software.
+**
+** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+** IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+** FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+** AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+** LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+** OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+** THE SOFTWARE.
+**
+****************************************************************************/
+
+#ifndef COMPILERSUPPORT_H
+#define COMPILERSUPPORT_H
+
+#include "cbor.h"
+
+#ifndef _BSD_SOURCE
+#  define _BSD_SOURCE
+#endif
+#ifndef _DEFAULT_SOURCE
+#  define _DEFAULT_SOURCE
+#endif
+#ifndef assert
+#  include <assert.h>
+#endif
+#include <float.h>
+#include <math.h>
+#include <stddef.h>
+#include <stdint.h>
+#include <string.h>
+
+#ifndef __cplusplus
+#  include <stdbool.h>
+#endif
+
+#ifdef __F16C__
+#  include <immintrin.h>
+#endif
+
+#if __STDC_VERSION__ >= 201112L || __cplusplus >= 201103L || __cpp_static_assert >= 200410
+#  define cbor_static_assert(x)         static_assert(x, #x)
+#elif !defined(__cplusplus) && defined(__GNUC__) && (__GNUC__ * 100 + __GNUC_MINOR__ >= 406) && (__STDC_VERSION__ > 199901L)
+#  define cbor_static_assert(x)         _Static_assert(x, #x)
+#else
+#  define cbor_static_assert(x)         ((void)sizeof(char[2*!!(x) - 1]))
+#endif
+#if __STDC_VERSION__ >= 199901L || defined(__cplusplus)
+/* inline is a keyword */
+#else
+/* use the definition from cbor.h */
+#  define inline    CBOR_INLINE
+#endif
+
+#ifdef NDEBUG
+#  define cbor_assert(cond)     do { if (!(cond)) unreachable(); } while (0)
+#else
+#  define cbor_assert(cond)     assert(cond)
+#endif
+
+#ifndef STRINGIFY
+#define STRINGIFY(x)            STRINGIFY2(x)
+#endif
+#define STRINGIFY2(x)           #x
+
+#if !defined(UINT32_MAX) || !defined(INT64_MAX)
+/* C89? We can define UINT32_MAX portably, but not INT64_MAX */
+#  error "Your system has stdint.h but that doesn't define UINT32_MAX or INT64_MAX"
+#endif
+
+#ifndef DBL_DECIMAL_DIG
+/* DBL_DECIMAL_DIG is C11 */
+#  define DBL_DECIMAL_DIG       17
+#endif
+#define DBL_DECIMAL_DIG_STR     STRINGIFY(DBL_DECIMAL_DIG)
+
+#if defined(__GNUC__) && defined(__i386__) && !defined(__iamcu__)
+#  define CBOR_INTERNAL_API_CC          __attribute__((regparm(3)))
+#elif defined(_MSC_VER) && defined(_M_IX86)
+#  define CBOR_INTERNAL_API_CC          __fastcall
+#else
+#  define CBOR_INTERNAL_API_CC
+#endif
+
+#ifndef __has_builtin
+#  define __has_builtin(x)  0
+#endif
+
+#if (defined(__GNUC__) && (__GNUC__ * 100 + __GNUC_MINOR__ >= 403)) || \
+    (__has_builtin(__builtin_bswap64) && __has_builtin(__builtin_bswap32))
+#  if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__
+#    define cbor_ntohll     __builtin_bswap64
+#    define cbor_htonll     __builtin_bswap64
+#    define cbor_ntohl      __builtin_bswap32
+#    define cbor_htonl      __builtin_bswap32
+#    ifdef __INTEL_COMPILER
+#      define cbor_ntohs    _bswap16
+#      define cbor_htons    _bswap16
+#    elif (__GNUC__ * 100 + __GNUC_MINOR__ >= 608) || __has_builtin(__builtin_bswap16)
+#      define cbor_ntohs    __builtin_bswap16
+#      define cbor_htons    __builtin_bswap16
+#    else
+#      define cbor_ntohs(x) (((uint16_t)x >> 8) | ((uint16_t)x << 8))
+#      define cbor_htons    cbor_ntohs
+#    endif
+#  else
+#    define cbor_ntohll
+#    define cbor_htonll
+#    define cbor_ntohl
+#    define cbor_htonl
+#    define cbor_ntohs
+#    define cbor_htons
+#  endif
+#elif defined(__sun)
+#  include <sys/byteorder.h>
+#elif defined(_MSC_VER)
+/* MSVC, which implies Windows, which implies little-endian and sizeof(long) == 4 */
+#  include <stdlib.h>
+#  define cbor_ntohll       _byteswap_uint64
+#  define cbor_htonll       _byteswap_uint64
+#  define cbor_ntohl        _byteswap_ulong
+#  define cbor_htonl        _byteswap_ulong
+#  define cbor_ntohs        _byteswap_ushort
+#  define cbor_htons        _byteswap_ushort
+#endif
+#ifndef cbor_ntohs
+#  include <arpa/inet.h>
+#  define cbor_ntohs        ntohs
+#  define cbor_htons        htons
+#endif
+#ifndef cbor_ntohl
+#  include <arpa/inet.h>
+#  define cbor_ntohl        ntohl
+#  define cbor_htonl        htonl
+#endif
+#ifndef cbor_ntohll
+#  define cbor_ntohll       ntohll
+#  define cbor_htonll       htonll
+/* ntohll isn't usually defined */
+#  ifndef ntohll
+#    if (defined(__BYTE_ORDER__) && defined(__ORDER_BIG_ENDIAN__) && __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__) || \
+    (defined(__BYTE_ORDER) && defined(__BIG_ENDIAN) && __BYTE_ORDER == __BIG_ENDIAN) || \
+    (defined(BYTE_ORDER) && defined(BIG_ENDIAN) && BYTE_ORDER == BIG_ENDIAN) || \
+    (defined(_BIG_ENDIAN) && !defined(_LITTLE_ENDIAN)) || (defined(__BIG_ENDIAN__) && !defined(__LITTLE_ENDIAN__)) || \
+    defined(__ARMEB__) || defined(__MIPSEB__) || defined(__s390__) || defined(__sparc__)
+#      define ntohll
+#      define htonll
+#    elif (defined(__BYTE_ORDER__) && defined(__ORDER_LITTLE_ENDIAN__) && __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__) || \
+    (defined(__BYTE_ORDER) && defined(__LITTLE_ENDIAN) && __BYTE_ORDER == __LITTLE_ENDIAN) || \
+    (defined(BYTE_ORDER) && defined(LITTLE_ENDIAN) && BYTE_ORDER == LITTLE_ENDIAN) || \
+    defined(_LITTLE_ENDIAN) || defined(__LITTLE_ENDIAN__) || defined(__ARMEL__) || defined(__MIPSEL__) || \
+    defined(__i386) || defined(__i386__) || defined(__x86_64) || defined(__x86_64__) || defined(__amd64)
+#      define ntohll(x)       ((ntohl((uint32_t)(x)) * UINT64_C(0x100000000)) + (ntohl((x) >> 32)))
+#      define htonll          ntohll
+#    else
+#      error "Unable to determine byte order!"
+#    endif
+#  endif
+#endif
+
+
+#ifdef __cplusplus
+#  define CONST_CAST(t, v)  const_cast<t>(v)
+#else
+/* C-style const_cast without triggering a warning with -Wcast-qual */
+#  define CONST_CAST(t, v)  (t)(uintptr_t)(v)
+#endif
+
+#ifdef __GNUC__
+#ifndef likely
+#  define likely(x)     __builtin_expect(!!(x), 1)
+#endif
+#ifndef unlikely
+#  define unlikely(x)   __builtin_expect(!!(x), 0)
+#endif
+#  define unreachable() __builtin_unreachable()
+#elif defined(_MSC_VER)
+#  define likely(x)     (x)
+#  define unlikely(x)   (x)
+#  define unreachable() __assume(0)
+#else
+#  define likely(x)     (x)
+#  define unlikely(x)   (x)
+#  define unreachable() do {} while (0)
+#endif
+
+static inline bool add_check_overflow(size_t v1, size_t v2, size_t *r)
+{
+#if ((defined(__GNUC__) && (__GNUC__ >= 5)) && !defined(__INTEL_COMPILER)) || __has_builtin(__builtin_add_overflow)
+    return __builtin_add_overflow(v1, v2, r);
+#else
+    /* unsigned additions are well-defined */
+    *r = v1 + v2;
+    return v1 > v1 + v2;
+#endif
+}
+
+static inline unsigned short encode_half(double val)
+{
+#ifdef __F16C__
+    return _cvtss_sh((float)val, 3);
+#else
+    uint64_t v;
+    memcpy(&v, &val, sizeof(v));
+    int sign = v >> 63 << 15;
+    int exp = (v >> 52) & 0x7ff;
+    int mant = v << 12 >> 12 >> (53-11);    /* keep only the 11 most significant bits of the mantissa */
+    exp -= 1023;
+    if (exp == 1024) {
+        /* infinity or NaN */
+        exp = 16;
+        mant >>= 1;
+    } else if (exp >= 16) {
+        /* overflow, as largest number */
+        exp = 15;
+        mant = 1023;
+    } else if (exp >= -14) {
+        /* regular normal */
+    } else if (exp >= -24) {
+        /* subnormal */
+        mant |= 1024;
+        mant >>= -(exp + 14);
+        exp = -15;
+    } else {
+        /* underflow, make zero */
+        return 0;
+    }
+
+    /* safe cast here as bit operations above guarantee not to overflow */
+    return (unsigned short)(sign | ((exp + 15) << 10) | mant);
+#endif
+}
+
+/* this function was copied & adapted from RFC 7049 Appendix D */
+static inline double decode_half(unsigned short half)
+{
+#ifdef __F16C__
+    return _cvtsh_ss(half);
+#else
+    int exp = (half >> 10) & 0x1f;
+    int mant = half & 0x3ff;
+    double val;
+    if (exp == 0) val = ldexp(mant, -24);
+    else if (exp != 31) val = ldexp(mant + 1024, exp - 25);
+    else val = mant == 0 ? INFINITY : NAN;
+    return half & 0x8000 ? -val : val;
+#endif
+}
+
+#endif /* COMPILERSUPPORT_H */
+
diff --git a/src/3rdparty/tinycbor/src/tinycbor-version.h b/src/3rdparty/tinycbor/src/tinycbor-version.h
new file mode 100644
index 0000000000..c26560cce8
--- /dev/null
+++ b/src/3rdparty/tinycbor/src/tinycbor-version.h
@@ -0,0 +1,3 @@
+#define TINYCBOR_VERSION_MAJOR      0
+#define TINYCBOR_VERSION_MINOR      6
+#define TINYCBOR_VERSION_PATCH      0