test/cbor_test.c - platform/external/cn-cbor - Git at Google

 /*
  * Copyright (c) 2015 SPUDlib authors.  See LICENSE file.
  */
 #include <stdlib.h>
 #include <stdint.h>
 #include <stdbool.h>
 #include <stdio.h>
 #include <assert.h>
 #include <string.h>

 #include "cn-cbor/cn-cbor.h"

 #define CTEST_MAIN
 #include "ctest.h"

 int main(int argc, const char *argv[])
 {
     return ctest_main(argc, argv);
 }

 #ifdef USE_CBOR_CONTEXT
 #define CONTEXT_NULL , NULL
 #define CONTEXT_NULL_COMMA NULL,
 #else
 #define CONTEXT_NULL
 #define CONTEXT_NULL_COMMA
 #endif

 typedef struct _buffer {
     size_t sz;
     unsigned char *ptr;
 } buffer;

 static bool parse_hex(char *inp, buffer *b)
 {
     int len = strlen(inp);
     size_t i;
     if (len%2 != 0) {
         b->sz = -1;
         b->ptr = NULL;
         return false;
     }
     b->sz  = len / 2;
     b->ptr = malloc(b->sz);
     for (i=0; i<b->sz; i++) {
         sscanf(inp+(2*i), "%02hhx", &b->ptr[i]);
     }
     return true;
 }

 CTEST(cbor, error)
 {
     ASSERT_STR(cn_cbor_error_str[CN_CBOR_NO_ERROR], "CN_CBOR_NO_ERROR");
     ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_OUT_OF_DATA], "CN_CBOR_ERR_OUT_OF_DATA");
     ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_NOT_ALL_DATA_CONSUMED], "CN_CBOR_ERR_NOT_ALL_DATA_CONSUMED");
     ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_ODD_SIZE_INDEF_MAP], "CN_CBOR_ERR_ODD_SIZE_INDEF_MAP");
     ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_BREAK_OUTSIDE_INDEF], "CN_CBOR_ERR_BREAK_OUTSIDE_INDEF");
     ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_MT_UNDEF_FOR_INDEF], "CN_CBOR_ERR_MT_UNDEF_FOR_INDEF");
     ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_RESERVED_AI], "CN_CBOR_ERR_RESERVED_AI");
     ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_WRONG_NESTING_IN_INDEF_STRING], "CN_CBOR_ERR_WRONG_NESTING_IN_INDEF_STRING");
     ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_INVALID_PARAMETER], "CN_CBOR_ERR_INVALID_PARAMETER");
     ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_OUT_OF_MEMORY], "CN_CBOR_ERR_OUT_OF_MEMORY");
     ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_FLOAT_NOT_SUPPORTED], "CN_CBOR_ERR_FLOAT_NOT_SUPPORTED");
 }

 CTEST(cbor, parse)
 {
     cn_cbor_errback err;
     char *tests[] = {
         "00",         // 0
         "01",         // 1
         "17",         // 23
         "1818",       // 24
         "190100",     // 256
         "1a00010000", // 65536
         "1b0000000100000000", // 4294967296
         "20",         // -1
         "37",         // -24
         "3818",       // -25
         "390100",     // -257
         "3a00010000", // -65537
         "3b0000000100000000", // -4294967297
         "4161",     // h"a"
         "6161",     // "a"
         "80",       // []
         "8100",     // [0]
         "820102",   // [1,2]
         "818100",   // [[0]]
         "a1616100",	// {"a":0}
         "d8184100", // tag
         "f4",	      // false
         "f5",	      // true
         "f6",	      // null
         "f7",	      // undefined
         "f8ff",     // simple(255)
 #ifndef CBOR_NO_FLOAT
         "f93c00",     // 1.0
         "f9bc00",     // -1.0
         "f903ff",     // 6.097555160522461e-05
         "f90400",     // 6.103515625e-05
         "f907ff",     // 0.00012201070785522461
         "f90800",     // 0.0001220703125
         "fa47800000", // 65536.0
         "fb3ff199999999999a",     // 1.1
         "f97e00",   // NaN
 #endif /* CBOR_NO_FLOAT */
         "5f42010243030405ff",     // (_ h'0102', h'030405')
         "7f61616161ff",           // (_ "a", "a")
         "9fff",                   // [_ ]
         "9f9f9fffffff",           // [_ [_ [_ ]]]
         "9f009f00ff00ff",         // [_ 0, [_ 0], 0]
         "bf61610161629f0203ffff", // {_ "a": 1, "b": [_ 2, 3]}
     };
     cn_cbor *cb;
     buffer b;
     size_t i;
     unsigned char encoded[1024];
     ssize_t enc_sz;

     for (i=0; i<sizeof(tests)/sizeof(char*); i++) {
         ASSERT_TRUE(parse_hex(tests[i], &b));
         err.err = CN_CBOR_NO_ERROR;
         cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
         //CTEST_LOG("%s: %s", tests[i], cn_cbor_error_str[err.err]);
         ASSERT_EQUAL(err.err, CN_CBOR_NO_ERROR);
         ASSERT_NOT_NULL(cb);

         enc_sz = cn_cbor_encoder_write(encoded, 0, sizeof(encoded), cb);
         ASSERT_DATA(b.ptr, b.sz, encoded, enc_sz);
         free(b.ptr);
         cn_cbor_free(cb CONTEXT_NULL);
     }
 }


 CTEST(cbor, parse_normalize)
 {
     cn_cbor_errback err;
     char *basic_tests[] = {
       "00", "00",                       // 0
       "1800", "00",
       "1818", "1818",
       "190000", "00",
       "190018", "1818",
       "1a00000000", "00",
       "1b0000000000000000", "00",
       "20", "20",                       // -1
       "3800", "20",
       "c600", "c600",                   // 6(0) (undefined tag)
       "d80600", "c600",
       "d9000600", "c600",
     };
     char *float_tests[] = {
       "fb3ff0000000000000", "f93c00",   // 1.0
       "fbbff0000000000000", "f9bc00",   // -1.0
       "fb40f86a0000000000", "fa47c35000", // 100000.0
       "fb7ff8000000000000", "f97e00",   // NaN
       "fb3e70000000000000", "f90001",   // 5.960464477539063e-08
       "fb3e78000000000000", "fa33c00000", //  8.940696716308594e-08
       "fb3e80000000000000", "f90002",   // 1.1920928955078125e-07
     };
     cn_cbor *cb;
     buffer b, b2;
     size_t i;
     unsigned char encoded[1024];
     ssize_t enc_sz;

     for (i=0; i<sizeof(basic_tests)/sizeof(char*); i+=2) {
         ASSERT_TRUE(parse_hex(basic_tests[i], &b));
         ASSERT_TRUE(parse_hex(basic_tests[i+1], &b2));
         err.err = CN_CBOR_NO_ERROR;
         cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
         CTEST_LOG("%s: %s", basic_tests[i], cn_cbor_error_str[err.err]);
         ASSERT_EQUAL(err.err, CN_CBOR_NO_ERROR);
         ASSERT_NOT_NULL(cb);

         enc_sz = cn_cbor_encoder_write(encoded, 0, sizeof(encoded), cb);
         ASSERT_DATA(b2.ptr, b2.sz, encoded, enc_sz);
         free(b.ptr);
         free(b2.ptr);
         cn_cbor_free(cb CONTEXT_NULL);
     }

     for (i=0; i<sizeof(float_tests)/sizeof(char*); i+=2) {
         ASSERT_TRUE(parse_hex(float_tests[i], &b));
         ASSERT_TRUE(parse_hex(float_tests[i+1], &b2));
         err.err = CN_CBOR_NO_ERROR;
         cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
         CTEST_LOG("%s: %s", float_tests[i], cn_cbor_error_str[err.err]);
 #ifndef CBOR_NO_FLOAT
         ASSERT_EQUAL(err.err, CN_CBOR_NO_ERROR);
         ASSERT_NOT_NULL(cb);
 #else /* CBOR_NO_FLOAT */
         ASSERT_EQUAL(err.err, CN_CBOR_ERR_FLOAT_NOT_SUPPORTED);
         ASSERT_NULL(cb);
 #endif /* CBOR_NO_FLOAT */

         /* enc_sz = cn_cbor_encoder_write(encoded, 0, sizeof(encoded), cb); */
         /* ASSERT_DATA(b2.ptr, b2.sz, encoded, enc_sz); */
         free(b.ptr);
         free(b2.ptr);
         cn_cbor_free(cb CONTEXT_NULL);
     }
 }

 typedef struct _cbor_failure
 {
     char *hex;
     cn_cbor_error err;
 } cbor_failure;

 CTEST(cbor, fail)
 {
     cn_cbor_errback err;
     cbor_failure tests[] = {
         {"81", CN_CBOR_ERR_OUT_OF_DATA},
         {"0000", CN_CBOR_ERR_NOT_ALL_DATA_CONSUMED},
         {"bf00ff", CN_CBOR_ERR_ODD_SIZE_INDEF_MAP},
         {"ff", CN_CBOR_ERR_BREAK_OUTSIDE_INDEF},
         {"1f", CN_CBOR_ERR_MT_UNDEF_FOR_INDEF},
         {"1c", CN_CBOR_ERR_RESERVED_AI},
         {"7f4100", CN_CBOR_ERR_WRONG_NESTING_IN_INDEF_STRING},
     };
     cn_cbor *cb;
     buffer b;
     size_t i;
     uint8_t buf[10];
     cn_cbor inv = {CN_CBOR_INVALID, 0, {0}, 0, NULL, NULL, NULL, NULL};

     ASSERT_EQUAL(-1, cn_cbor_encoder_write(buf, 0, sizeof(buf), &inv));

     for (i=0; i<sizeof(tests)/sizeof(cbor_failure); i++) {
         ASSERT_TRUE(parse_hex(tests[i].hex, &b));
         cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
         ASSERT_NULL(cb);
         ASSERT_EQUAL(err.err, tests[i].err);

         free(b.ptr);
         cn_cbor_free(cb CONTEXT_NULL);
     }
 }

 // Decoder loses float size information
 CTEST(cbor, float)
 {
 #ifndef CBOR_NO_FLOAT
     cn_cbor_errback err;
     char *tests[] = {
         "f90001", // 5.960464477539063e-08
         "f9c400", // -4.0
         "fa47c35000", // 100000.0
         "f97e00", // Half NaN, half beast
         "f9fc00", // -Inf
         "f97c00", // Inf
     };
     cn_cbor *cb;
     buffer b;
     size_t i;
     unsigned char encoded[1024];
     ssize_t enc_sz;

     for (i=0; i<sizeof(tests)/sizeof(char*); i++) {
         ASSERT_TRUE(parse_hex(tests[i], &b));
         cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
         ASSERT_NOT_NULL(cb);

         enc_sz = cn_cbor_encoder_write(encoded, 0, sizeof(encoded), cb);
         ASSERT_DATA(b.ptr, b.sz, encoded, enc_sz);

         free(b.ptr);
         cn_cbor_free(cb CONTEXT_NULL);
     }
 #endif /* CBOR_NO_FLOAT */
 }

 CTEST(cbor, getset)
 {
     buffer b;
     cn_cbor *cb;
     cn_cbor *val;
     cn_cbor_errback err;

     ASSERT_TRUE(parse_hex("a40000436363630262626201616100", &b));
     cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
     ASSERT_NOT_NULL(cb);
     val = cn_cbor_mapget_string(cb, "a");
     ASSERT_NOT_NULL(val);
     val = cn_cbor_mapget_string(cb, "bb");
     ASSERT_NOT_NULL(val);
     val = cn_cbor_mapget_string(cb, "ccc");
     ASSERT_NOT_NULL(val);
     val = cn_cbor_mapget_string(cb, "b");
     ASSERT_NULL(val);
     free(b.ptr);
     cn_cbor_free(cb CONTEXT_NULL);

     ASSERT_TRUE(parse_hex("a3616100006161206162", &b));
     cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
     ASSERT_NOT_NULL(cb);
     val = cn_cbor_mapget_int(cb, 0);
     ASSERT_NOT_NULL(val);
     val = cn_cbor_mapget_int(cb, -1);
     ASSERT_NOT_NULL(val);
     val = cn_cbor_mapget_int(cb, 1);
     ASSERT_NULL(val);
     free(b.ptr);
     cn_cbor_free(cb CONTEXT_NULL);

     ASSERT_TRUE(parse_hex("8100", &b));
     cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
     ASSERT_NOT_NULL(cb);
     val = cn_cbor_index(cb, 0);
     ASSERT_NOT_NULL(val);
     val = cn_cbor_index(cb, 1);
     ASSERT_NULL(val);
     val = cn_cbor_index(cb, -1);
     ASSERT_NULL(val);
     free(b.ptr);
     cn_cbor_free(cb CONTEXT_NULL);
 }

 CTEST(cbor, create)
 {
     cn_cbor_errback err;
     const cn_cbor* val;
     const char* data = "abc";
     cn_cbor *cb_map = cn_cbor_map_create(CONTEXT_NULL_COMMA &err);
     cn_cbor *cb_int;
     cn_cbor *cb_data;

     ASSERT_NOT_NULL(cb_map);
     ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);

     cb_int = cn_cbor_int_create(256 CONTEXT_NULL, &err);
     ASSERT_NOT_NULL(cb_int);
     ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);

     cb_data = cn_cbor_data_create((const uint8_t*)data, 4 CONTEXT_NULL, &err);
     ASSERT_NOT_NULL(cb_data);
     ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);

     cn_cbor_mapput_int(cb_map, 5, cb_int CONTEXT_NULL, &err);
     ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
     ASSERT_TRUE(cb_map->length == 2);

     cn_cbor_mapput_int(cb_map, -7, cb_data CONTEXT_NULL, &err);
     ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
     ASSERT_TRUE(cb_map->length == 4);

     cn_cbor_mapput_string(cb_map, "foo",
                           cn_cbor_string_create(data CONTEXT_NULL, &err)
                           CONTEXT_NULL, &err);
     ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
     ASSERT_TRUE(cb_map->length == 6);

     cn_cbor_map_put(cb_map,
                     cn_cbor_string_create("bar" CONTEXT_NULL, &err),
                     cn_cbor_string_create("qux" CONTEXT_NULL, &err),
                     &err);
     ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
     ASSERT_TRUE(cb_map->length == 8);

     val = cn_cbor_mapget_int(cb_map, 5);
     ASSERT_NOT_NULL(val);
     ASSERT_TRUE(val->v.sint == 256);

     val = cn_cbor_mapget_int(cb_map, -7);
     ASSERT_NOT_NULL(val);
     ASSERT_STR(val->v.str, "abc");

     cn_cbor_free(cb_map CONTEXT_NULL);
 }

 CTEST(cbor, map_errors)
 {
     cn_cbor_errback err;
     cn_cbor *ci;
     ci = cn_cbor_int_create(65536, CONTEXT_NULL_COMMA &err);
     cn_cbor_mapput_int(ci, -5, NULL, CONTEXT_NULL_COMMA &err);
     ASSERT_EQUAL(err.err, CN_CBOR_ERR_INVALID_PARAMETER);
     cn_cbor_mapput_string(ci, "foo", NULL, CONTEXT_NULL_COMMA &err);
     ASSERT_EQUAL(err.err, CN_CBOR_ERR_INVALID_PARAMETER);
     cn_cbor_map_put(ci, NULL, NULL, &err);
 }

 CTEST(cbor, array)
 {
     cn_cbor_errback err;
     cn_cbor *a = cn_cbor_array_create(CONTEXT_NULL_COMMA &err);
     ASSERT_NOT_NULL(a);
     ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
     ASSERT_EQUAL(a->length, 0);

     cn_cbor_array_append(a, cn_cbor_int_create(256, CONTEXT_NULL_COMMA &err), &err);
     ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
     ASSERT_EQUAL(a->length, 1);

     cn_cbor_array_append(a, cn_cbor_string_create("five", CONTEXT_NULL_COMMA &err), &err);
     ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
     ASSERT_EQUAL(a->length, 2);
 }

 CTEST(cbor, array_errors)
 {
     cn_cbor_errback err;
     cn_cbor *ci = cn_cbor_int_create(12, CONTEXT_NULL_COMMA &err);
     cn_cbor_array_append(NULL, ci, &err);
     ASSERT_EQUAL(err.err, CN_CBOR_ERR_INVALID_PARAMETER);
     cn_cbor_array_append(ci, NULL, &err);
     ASSERT_EQUAL(err.err, CN_CBOR_ERR_INVALID_PARAMETER);
 }

 CTEST(cbor, create_encode)
 {
   cn_cbor *map;
   cn_cbor *cdata;
   char data[] = "data";
   unsigned char encoded[1024];
   ssize_t enc_sz;

   map = cn_cbor_map_create(CONTEXT_NULL_COMMA NULL);
   ASSERT_NOT_NULL(map);

   cdata = cn_cbor_data_create((uint8_t*)data, sizeof(data)-1, CONTEXT_NULL_COMMA NULL);
   ASSERT_NOT_NULL(cdata);

   ASSERT_TRUE(cn_cbor_mapput_int(map, 0, cdata, CONTEXT_NULL_COMMA NULL));
   enc_sz = cn_cbor_encoder_write(encoded, 0, sizeof(encoded), map);
   ASSERT_EQUAL(7, enc_sz);
 }
	/*
	* Copyright (c) 2015 SPUDlib authors. See LICENSE file.
	*/
	#include <stdlib.h>
	#include <stdint.h>
	#include <stdbool.h>
	#include <stdio.h>
	#include <assert.h>
	#include <string.h>

	#include "cn-cbor/cn-cbor.h"

	#define CTEST_MAIN
	#include "ctest.h"

	int main(int argc, const char *argv[])
	{
	return ctest_main(argc, argv);
	}

	#ifdef USE_CBOR_CONTEXT
	#define CONTEXT_NULL , NULL
	#define CONTEXT_NULL_COMMA NULL,
	#else
	#define CONTEXT_NULL
	#define CONTEXT_NULL_COMMA
	#endif

	typedef struct _buffer {
	size_t sz;
	unsigned char *ptr;
	} buffer;

	static bool parse_hex(char inp, buffer b)
	{
	int len = strlen(inp);
	size_t i;
	if (len%2 != 0) {
	b->sz = -1;
	b->ptr = NULL;
	return false;
	}
	b->sz = len / 2;
	b->ptr = malloc(b->sz);
	for (i=0; i<b->sz; i++) {
	sscanf(inp+(2*i), "%02hhx", &b->ptr[i]);
	}
	return true;
	}

	CTEST(cbor, error)
	{
	ASSERT_STR(cn_cbor_error_str[CN_CBOR_NO_ERROR], "CN_CBOR_NO_ERROR");
	ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_OUT_OF_DATA], "CN_CBOR_ERR_OUT_OF_DATA");
	ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_NOT_ALL_DATA_CONSUMED], "CN_CBOR_ERR_NOT_ALL_DATA_CONSUMED");
	ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_ODD_SIZE_INDEF_MAP], "CN_CBOR_ERR_ODD_SIZE_INDEF_MAP");
	ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_BREAK_OUTSIDE_INDEF], "CN_CBOR_ERR_BREAK_OUTSIDE_INDEF");
	ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_MT_UNDEF_FOR_INDEF], "CN_CBOR_ERR_MT_UNDEF_FOR_INDEF");
	ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_RESERVED_AI], "CN_CBOR_ERR_RESERVED_AI");
	ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_WRONG_NESTING_IN_INDEF_STRING], "CN_CBOR_ERR_WRONG_NESTING_IN_INDEF_STRING");
	ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_INVALID_PARAMETER], "CN_CBOR_ERR_INVALID_PARAMETER");
	ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_OUT_OF_MEMORY], "CN_CBOR_ERR_OUT_OF_MEMORY");
	ASSERT_STR(cn_cbor_error_str[CN_CBOR_ERR_FLOAT_NOT_SUPPORTED], "CN_CBOR_ERR_FLOAT_NOT_SUPPORTED");
	}

	CTEST(cbor, parse)
	{
	cn_cbor_errback err;
	char *tests[] = {
	"00", // 0
	"01", // 1
	"17", // 23
	"1818", // 24
	"190100", // 256
	"1a00010000", // 65536
	"1b0000000100000000", // 4294967296
	"20", // -1
	"37", // -24
	"3818", // -25
	"390100", // -257
	"3a00010000", // -65537
	"3b0000000100000000", // -4294967297
	"4161", // h"a"
	"6161", // "a"
	"80", // []
	"8100", // [0]
	"820102", // [1,2]
	"818100", // [[0]]
	"a1616100", // {"a":0}
	"d8184100", // tag
	"f4", // false
	"f5", // true
	"f6", // null
	"f7", // undefined
	"f8ff", // simple(255)
	#ifndef CBOR_NO_FLOAT
	"f93c00", // 1.0
	"f9bc00", // -1.0
	"f903ff", // 6.097555160522461e-05
	"f90400", // 6.103515625e-05
	"f907ff", // 0.00012201070785522461
	"f90800", // 0.0001220703125
	"fa47800000", // 65536.0
	"fb3ff199999999999a", // 1.1
	"f97e00", // NaN
	#endif /* CBOR_NO_FLOAT */
	"5f42010243030405ff", // (_ h'0102', h'030405')
	"7f61616161ff", // (_ "a", "a")
	"9fff", // [_ ]
	"9f9f9fffffff", // [_ [_ [_ ]]]
	"9f009f00ff00ff", // [_ 0, [_ 0], 0]
	"bf61610161629f0203ffff", // {_ "a": 1, "b": [_ 2, 3]}
	};
	cn_cbor *cb;
	buffer b;
	size_t i;
	unsigned char encoded[1024];
	ssize_t enc_sz;

	for (i=0; i<sizeof(tests)/sizeof(char*); i++) {
	ASSERT_TRUE(parse_hex(tests[i], &b));
	err.err = CN_CBOR_NO_ERROR;
	cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
	//CTEST_LOG("%s: %s", tests[i], cn_cbor_error_str[err.err]);
	ASSERT_EQUAL(err.err, CN_CBOR_NO_ERROR);
	ASSERT_NOT_NULL(cb);

	enc_sz = cn_cbor_encoder_write(encoded, 0, sizeof(encoded), cb);
	ASSERT_DATA(b.ptr, b.sz, encoded, enc_sz);
	free(b.ptr);
	cn_cbor_free(cb CONTEXT_NULL);
	}
	}


	CTEST(cbor, parse_normalize)
	{
	cn_cbor_errback err;
	char *basic_tests[] = {
	"00", "00", // 0
	"1800", "00",
	"1818", "1818",
	"190000", "00",
	"190018", "1818",
	"1a00000000", "00",
	"1b0000000000000000", "00",
	"20", "20", // -1
	"3800", "20",
	"c600", "c600", // 6(0) (undefined tag)
	"d80600", "c600",
	"d9000600", "c600",
	};
	char *float_tests[] = {
	"fb3ff0000000000000", "f93c00", // 1.0
	"fbbff0000000000000", "f9bc00", // -1.0
	"fb40f86a0000000000", "fa47c35000", // 100000.0
	"fb7ff8000000000000", "f97e00", // NaN
	"fb3e70000000000000", "f90001", // 5.960464477539063e-08
	"fb3e78000000000000", "fa33c00000", // 8.940696716308594e-08
	"fb3e80000000000000", "f90002", // 1.1920928955078125e-07
	};
	cn_cbor *cb;
	buffer b, b2;
	size_t i;
	unsigned char encoded[1024];
	ssize_t enc_sz;

	for (i=0; i<sizeof(basic_tests)/sizeof(char*); i+=2) {
	ASSERT_TRUE(parse_hex(basic_tests[i], &b));
	ASSERT_TRUE(parse_hex(basic_tests[i+1], &b2));
	err.err = CN_CBOR_NO_ERROR;
	cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
	CTEST_LOG("%s: %s", basic_tests[i], cn_cbor_error_str[err.err]);
	ASSERT_EQUAL(err.err, CN_CBOR_NO_ERROR);
	ASSERT_NOT_NULL(cb);

	enc_sz = cn_cbor_encoder_write(encoded, 0, sizeof(encoded), cb);
	ASSERT_DATA(b2.ptr, b2.sz, encoded, enc_sz);
	free(b.ptr);
	free(b2.ptr);
	cn_cbor_free(cb CONTEXT_NULL);
	}

	for (i=0; i<sizeof(float_tests)/sizeof(char*); i+=2) {
	ASSERT_TRUE(parse_hex(float_tests[i], &b));
	ASSERT_TRUE(parse_hex(float_tests[i+1], &b2));
	err.err = CN_CBOR_NO_ERROR;
	cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
	CTEST_LOG("%s: %s", float_tests[i], cn_cbor_error_str[err.err]);
	#ifndef CBOR_NO_FLOAT
	ASSERT_EQUAL(err.err, CN_CBOR_NO_ERROR);
	ASSERT_NOT_NULL(cb);
	#else /* CBOR_NO_FLOAT */
	ASSERT_EQUAL(err.err, CN_CBOR_ERR_FLOAT_NOT_SUPPORTED);
	ASSERT_NULL(cb);
	#endif /* CBOR_NO_FLOAT */

	/* enc_sz = cn_cbor_encoder_write(encoded, 0, sizeof(encoded), cb); */
	/* ASSERT_DATA(b2.ptr, b2.sz, encoded, enc_sz); */
	free(b.ptr);
	free(b2.ptr);
	cn_cbor_free(cb CONTEXT_NULL);
	}
	}

	typedef struct _cbor_failure
	{
	char *hex;
	cn_cbor_error err;
	} cbor_failure;

	CTEST(cbor, fail)
	{
	cn_cbor_errback err;
	cbor_failure tests[] = {
	{"81", CN_CBOR_ERR_OUT_OF_DATA},
	{"0000", CN_CBOR_ERR_NOT_ALL_DATA_CONSUMED},
	{"bf00ff", CN_CBOR_ERR_ODD_SIZE_INDEF_MAP},
	{"ff", CN_CBOR_ERR_BREAK_OUTSIDE_INDEF},
	{"1f", CN_CBOR_ERR_MT_UNDEF_FOR_INDEF},
	{"1c", CN_CBOR_ERR_RESERVED_AI},
	{"7f4100", CN_CBOR_ERR_WRONG_NESTING_IN_INDEF_STRING},
	};
	cn_cbor *cb;
	buffer b;
	size_t i;
	uint8_t buf[10];
	cn_cbor inv = {CN_CBOR_INVALID, 0, {0}, 0, NULL, NULL, NULL, NULL};

	ASSERT_EQUAL(-1, cn_cbor_encoder_write(buf, 0, sizeof(buf), &inv));

	for (i=0; i<sizeof(tests)/sizeof(cbor_failure); i++) {
	ASSERT_TRUE(parse_hex(tests[i].hex, &b));
	cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
	ASSERT_NULL(cb);
	ASSERT_EQUAL(err.err, tests[i].err);

	free(b.ptr);
	cn_cbor_free(cb CONTEXT_NULL);
	}
	}

	// Decoder loses float size information
	CTEST(cbor, float)
	{
	#ifndef CBOR_NO_FLOAT
	cn_cbor_errback err;
	char *tests[] = {
	"f90001", // 5.960464477539063e-08
	"f9c400", // -4.0
	"fa47c35000", // 100000.0
	"f97e00", // Half NaN, half beast
	"f9fc00", // -Inf
	"f97c00", // Inf
	};
	cn_cbor *cb;
	buffer b;
	size_t i;
	unsigned char encoded[1024];
	ssize_t enc_sz;

	for (i=0; i<sizeof(tests)/sizeof(char*); i++) {
	ASSERT_TRUE(parse_hex(tests[i], &b));
	cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
	ASSERT_NOT_NULL(cb);

	enc_sz = cn_cbor_encoder_write(encoded, 0, sizeof(encoded), cb);
	ASSERT_DATA(b.ptr, b.sz, encoded, enc_sz);

	free(b.ptr);
	cn_cbor_free(cb CONTEXT_NULL);
	}
	#endif /* CBOR_NO_FLOAT */
	}

	CTEST(cbor, getset)
	{
	buffer b;
	cn_cbor *cb;
	cn_cbor *val;
	cn_cbor_errback err;

	ASSERT_TRUE(parse_hex("a40000436363630262626201616100", &b));
	cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
	ASSERT_NOT_NULL(cb);
	val = cn_cbor_mapget_string(cb, "a");
	ASSERT_NOT_NULL(val);
	val = cn_cbor_mapget_string(cb, "bb");
	ASSERT_NOT_NULL(val);
	val = cn_cbor_mapget_string(cb, "ccc");
	ASSERT_NOT_NULL(val);
	val = cn_cbor_mapget_string(cb, "b");
	ASSERT_NULL(val);
	free(b.ptr);
	cn_cbor_free(cb CONTEXT_NULL);

	ASSERT_TRUE(parse_hex("a3616100006161206162", &b));
	cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
	ASSERT_NOT_NULL(cb);
	val = cn_cbor_mapget_int(cb, 0);
	ASSERT_NOT_NULL(val);
	val = cn_cbor_mapget_int(cb, -1);
	ASSERT_NOT_NULL(val);
	val = cn_cbor_mapget_int(cb, 1);
	ASSERT_NULL(val);
	free(b.ptr);
	cn_cbor_free(cb CONTEXT_NULL);

	ASSERT_TRUE(parse_hex("8100", &b));
	cb = cn_cbor_decode(b.ptr, b.sz CONTEXT_NULL, &err);
	ASSERT_NOT_NULL(cb);
	val = cn_cbor_index(cb, 0);
	ASSERT_NOT_NULL(val);
	val = cn_cbor_index(cb, 1);
	ASSERT_NULL(val);
	val = cn_cbor_index(cb, -1);
	ASSERT_NULL(val);
	free(b.ptr);
	cn_cbor_free(cb CONTEXT_NULL);
	}

	CTEST(cbor, create)
	{
	cn_cbor_errback err;
	const cn_cbor* val;
	const char* data = "abc";
	cn_cbor *cb_map = cn_cbor_map_create(CONTEXT_NULL_COMMA &err);
	cn_cbor *cb_int;
	cn_cbor *cb_data;

	ASSERT_NOT_NULL(cb_map);
	ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);

	cb_int = cn_cbor_int_create(256 CONTEXT_NULL, &err);
	ASSERT_NOT_NULL(cb_int);
	ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);

	cb_data = cn_cbor_data_create((const uint8_t*)data, 4 CONTEXT_NULL, &err);
	ASSERT_NOT_NULL(cb_data);
	ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);

	cn_cbor_mapput_int(cb_map, 5, cb_int CONTEXT_NULL, &err);
	ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
	ASSERT_TRUE(cb_map->length == 2);

	cn_cbor_mapput_int(cb_map, -7, cb_data CONTEXT_NULL, &err);
	ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
	ASSERT_TRUE(cb_map->length == 4);

	cn_cbor_mapput_string(cb_map, "foo",
	cn_cbor_string_create(data CONTEXT_NULL, &err)
	CONTEXT_NULL, &err);
	ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
	ASSERT_TRUE(cb_map->length == 6);

	cn_cbor_map_put(cb_map,
	cn_cbor_string_create("bar" CONTEXT_NULL, &err),
	cn_cbor_string_create("qux" CONTEXT_NULL, &err),
	&err);
	ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
	ASSERT_TRUE(cb_map->length == 8);

	val = cn_cbor_mapget_int(cb_map, 5);
	ASSERT_NOT_NULL(val);
	ASSERT_TRUE(val->v.sint == 256);

	val = cn_cbor_mapget_int(cb_map, -7);
	ASSERT_NOT_NULL(val);
	ASSERT_STR(val->v.str, "abc");

	cn_cbor_free(cb_map CONTEXT_NULL);
	}

	CTEST(cbor, map_errors)
	{
	cn_cbor_errback err;
	cn_cbor *ci;
	ci = cn_cbor_int_create(65536, CONTEXT_NULL_COMMA &err);
	cn_cbor_mapput_int(ci, -5, NULL, CONTEXT_NULL_COMMA &err);
	ASSERT_EQUAL(err.err, CN_CBOR_ERR_INVALID_PARAMETER);
	cn_cbor_mapput_string(ci, "foo", NULL, CONTEXT_NULL_COMMA &err);
	ASSERT_EQUAL(err.err, CN_CBOR_ERR_INVALID_PARAMETER);
	cn_cbor_map_put(ci, NULL, NULL, &err);
	}

	CTEST(cbor, array)
	{
	cn_cbor_errback err;
	cn_cbor *a = cn_cbor_array_create(CONTEXT_NULL_COMMA &err);
	ASSERT_NOT_NULL(a);
	ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
	ASSERT_EQUAL(a->length, 0);

	cn_cbor_array_append(a, cn_cbor_int_create(256, CONTEXT_NULL_COMMA &err), &err);
	ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
	ASSERT_EQUAL(a->length, 1);

	cn_cbor_array_append(a, cn_cbor_string_create("five", CONTEXT_NULL_COMMA &err), &err);
	ASSERT_TRUE(err.err == CN_CBOR_NO_ERROR);
	ASSERT_EQUAL(a->length, 2);
	}

	CTEST(cbor, array_errors)
	{
	cn_cbor_errback err;
	cn_cbor *ci = cn_cbor_int_create(12, CONTEXT_NULL_COMMA &err);
	cn_cbor_array_append(NULL, ci, &err);
	ASSERT_EQUAL(err.err, CN_CBOR_ERR_INVALID_PARAMETER);
	cn_cbor_array_append(ci, NULL, &err);
	ASSERT_EQUAL(err.err, CN_CBOR_ERR_INVALID_PARAMETER);
	}

	CTEST(cbor, create_encode)
	{
	cn_cbor *map;
	cn_cbor *cdata;
	char data[] = "data";
	unsigned char encoded[1024];
	ssize_t enc_sz;

	map = cn_cbor_map_create(CONTEXT_NULL_COMMA NULL);
	ASSERT_NOT_NULL(map);

	cdata = cn_cbor_data_create((uint8_t*)data, sizeof(data)-1, CONTEXT_NULL_COMMA NULL);
	ASSERT_NOT_NULL(cdata);

	ASSERT_TRUE(cn_cbor_mapput_int(map, 0, cdata, CONTEXT_NULL_COMMA NULL));
	enc_sz = cn_cbor_encoder_write(encoded, 0, sizeof(encoded), map);
	ASSERT_EQUAL(7, enc_sz);
	}