test/test.c - third_party/github/cose-wg/COSE-C - Git at Google

 // test.c : Defines the entry point for the console application.
 //

 #define _CRT_SECURE_NO_WARNINGS
 #define USE_CBOR_CONTEXT 1

 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <cose.h>
 #include <cn-cbor/cn-cbor.h>
 #include <assert.h>

 #include "json.h"

 #include "test.h"


 extern int EncryptMessage();
 int CFails = 0;


 typedef struct _NameMap {
 	char * sz;
 	int    i;
 } NameMap;

 NameMap RgAlgorithmNames[23] = {
 	{"HS256", COSE_Algorithm_HMAC_256_256},
 	{"HS256/64", COSE_Algorithm_HMAC_256_64},
 	{"HS384", COSE_Algorithm_HMAC_384_384},
 	{"HS512", COSE_Algorithm_HMAC_512_512},
 	{"direct", COSE_Algorithm_Direct},
 	{"AES-MAC-128/64", COSE_Algorithm_CBC_MAC_128_64},
 	{"AES-MAC-256/64", COSE_Algorithm_CBC_MAC_256_64},
 	{"AES-MAC-128/128", COSE_Algorithm_CBC_MAC_128_128},
 	{"AES-MAC-256/128", COSE_Algorithm_CBC_MAC_256_128},
 	{"A128KW", COSE_Algorithm_AES_KW_128},
 	{"A192KW", COSE_Algorithm_AES_KW_192},
 	{"A256KW", COSE_Algorithm_AES_KW_256},
 	{"A128GCM", COSE_Algorithm_AES_GCM_128},
 	{"A192GCM", COSE_Algorithm_AES_GCM_192},
 	{"A256GCM", COSE_Algorithm_AES_GCM_256},
 	{"AES-CCM-16-128/64", COSE_Algorithm_AES_CCM_16_64_128},
 	{"AES-CCM-16-256/64", COSE_Algorithm_AES_CCM_16_64_256},
 	{"AES-CCM-16-128/128", COSE_Algorithm_AES_CCM_16_128_128},
 	{"AES-CCM-16-256/128", COSE_Algorithm_AES_CCM_16_128_256},
 	{"AES-CCM-64-128/64", COSE_Algorithm_AES_CCM_64_64_128},
 	{"AES-CCM-64-256/64", COSE_Algorithm_AES_CCM_64_64_256},
 	{"AES-CCM-64-128/128", COSE_Algorithm_AES_CCM_64_128_128},
 	{"AES-CCM-64-256/128", COSE_Algorithm_AES_CCM_64_128_256}
 };


 NameMap RgCurveNames[3] = {
 	{"P-256", 1},
 	{"P-384", 2},
 	{"P-512", 3}
 };

 int MapName(const cn_cbor * p, NameMap * rgMap, unsigned int cMap)
 {
 	unsigned int i;

 	for (i = 0; i < cMap; i++) {
 		if (strcmp(rgMap[i].sz, p->v.str) == 0) return rgMap[i].i;
 	}

 	assert(false);

 	return 0;
 }

 int MapAlgorithmName(const cn_cbor * p)
 {
 	return MapName(p, RgAlgorithmNames, _countof(RgAlgorithmNames));
 }

 cn_cbor * cn_cbor_clone(const cn_cbor * pIn)
 {
 	cn_cbor * pOut = NULL;
 	char * sz;

 	switch (pIn->type) {
 	case CN_CBOR_TEXT:
 		sz = malloc(pIn->length + 1);
 		memcpy(sz, pIn->v.str, pIn->length);
 		sz[pIn->length] = 0;
 		pOut = cn_cbor_string_create(sz, CBOR_CONTEXT_PARAM_COMMA NULL);
 		break;

 	default:
 		break;
 	}

 	return pOut;
 }

 byte fromHex(char c)
 {
 	if (('0' <= c) && (c <= '9')) return c - '0';
 	if (('A' <= c) && (c <= 'F')) return c - 'A' + 10;
 	fprintf(stderr, "Invalid hex");
 	exit(1);
 }

 byte * GetCBOREncoding(const cn_cbor * pControl, int * pcbEncoded)
 {
 	const cn_cbor * pOutputs = cn_cbor_mapget_string(pControl, "output");
 	const cn_cbor * pCBOR;
 	byte * pb = NULL;
 	const byte * pb2;
 	int i;

 	if ((pOutputs == NULL) || (pOutputs->type != CN_CBOR_MAP)) {
 		fprintf(stderr, "Invalid output\n");
 		exit(1);
 	}

 	pCBOR = cn_cbor_mapget_string(pOutputs, "cbor");
 	if ((pCBOR == NULL) || (pCBOR->type != CN_CBOR_TEXT)) {
 		fprintf(stderr, "Invalid cbor object");
 		exit(1);
 	}

 	pb = malloc(pCBOR->length / 2);
 	pb2 = pCBOR->v.bytes;

 	for (i = 0; i < pCBOR->length; i += 2) {
 		pb[i / 2] = fromHex(pb2[i]) * 16 + fromHex(pb2[i + 1]);
 	}

 	*pcbEncoded = (int) (pCBOR->length / 2);
 	return pb;
 }

 #define OPERATION_NONE 0
 #define OPERATION_BASE64 1
 #define OPERATION_IGNORE 2
 #define OPERATION_STRING 3

 struct {
 	char * szKey;
 	int kty;
 	int operation;
 	int keyNew;
 } RgStringKeys[7] = {
 	{ "kty", 0, OPERATION_IGNORE, 0},
 	{ "kid", 0, OPERATION_NONE, 1},
 	{ "crv", 2, OPERATION_STRING, -1},
 	{ "x", 2, OPERATION_BASE64, -2},
 	{ "y", 2, OPERATION_BASE64, -3},
 	{ "d", 2, OPERATION_BASE64, -4},
 	{ "k", 4, OPERATION_BASE64, -1}
 };

 bool SetAttributes(HCOSE hHandle, const cn_cbor * pAttributes, int which)
 {
 	const cn_cbor * pKey;
 	const cn_cbor * pValue;
 	int keyNew;
 	cn_cbor * pValueNew;

 	if (pAttributes == NULL) return true;
 	if (pAttributes->type != CN_CBOR_MAP) return false;

 	for (pKey = pAttributes->first_child; pKey != NULL; pKey = pKey->next->next) {
 		pValue = pKey->next;

 		if (pKey->type != CN_CBOR_TEXT) return false;

 		if (strcmp(pKey->v.str, "alg") == 0) {
 			keyNew = COSE_Header_Algorithm;
 			pValueNew = cn_cbor_int_create(MapAlgorithmName(pValue), CBOR_CONTEXT_PARAM_COMMA NULL);
 		}
 		else {
 			continue;
 		}

 		switch (which) {
 		case Attributes_MAC_protected:
 			COSE_Mac_map_put((HCOSE_MAC)hHandle, keyNew, pValueNew, COSE_PROTECT_ONLY, NULL);
 			break;

 		case Attributes_MAC_unprotected:
 			COSE_Mac_map_put((HCOSE_MAC)hHandle, keyNew, pValueNew, COSE_UNPROTECT_ONLY, NULL);
 			break;

 		case Attributes_Recipient_protected:
 			COSE_Recipient_map_put((HCOSE_RECIPIENT)hHandle, keyNew, pValueNew, COSE_PROTECT_ONLY, NULL);
 			break;

 		case Attributes_Recipient_unprotected:
 			COSE_Recipient_map_put((HCOSE_RECIPIENT)hHandle, keyNew, pValueNew, COSE_UNPROTECT_ONLY, NULL);
 			break;

 		case Attributes_Recipient_unsent:
 			COSE_Recipient_map_put((HCOSE_RECIPIENT)hHandle, keyNew, pValueNew, COSE_DONT_SEND, NULL);
 			break;

 		case Attributes_Enveloped_protected:
 			COSE_Encrypt_map_put((HCOSE_ENCRYPT)hHandle, keyNew, pValueNew, COSE_PROTECT_ONLY, NULL);
 			break;

 		case Attributes_Enveloped_unprotected:
 			COSE_Encrypt_map_put((HCOSE_ENCRYPT)hHandle, keyNew, pValueNew, COSE_UNPROTECT_ONLY, NULL);
 			break;

 		case Attributes_Enveloped_unsent:
 			COSE_Encrypt_map_put((HCOSE_ENCRYPT)hHandle, keyNew, pValueNew, COSE_DONT_SEND, NULL);
 			break;
 		}
 	}

 	return true;
 }

 cn_cbor * BuildKey(const cn_cbor * pKeyIn)
 {
 	cn_cbor * pKeyOut = cn_cbor_map_create(CBOR_CONTEXT_PARAM_COMMA NULL);
 	cn_cbor * pKty = cn_cbor_mapget_string(pKeyIn, "kty");
 	cn_cbor * p;
 	cn_cbor * pKey;
 	cn_cbor * pValue;
 	int i;
 	int kty;
 	unsigned char * pb;
 	size_t cb;

 	if ((pKty == NULL) || (pKty->type != CN_CBOR_TEXT)) return NULL;
 	if (pKty->length == 2) {
 		if (strncmp(pKty->v.str, "EC", 2) == 0) kty = 2;
 		else return NULL;
 	}
 	else if (pKty->length == 3) {
 		if (strncmp(pKty->v.str, "oct", 3) == 0) kty = 4;
 		else return NULL;
 	}
 	else return NULL;

 	p = cn_cbor_int_create(kty, CBOR_CONTEXT_PARAM_COMMA NULL);
 	if (p == NULL) return NULL;
 	if (!cn_cbor_mapput_int(pKeyOut, 1, p, CBOR_CONTEXT_PARAM_COMMA NULL)) return NULL;

 	for (pKey = pKeyIn->first_child; pKey != NULL; pKey = pKey->next->next) {
 		pValue = pKey->next;

 		if (pKey->type == CN_CBOR_TEXT) {
 			for (i = 0; i < 7; i++) {
 				if ((pKey->length == strlen(RgStringKeys[i].szKey)) &&
 					(strncmp(pKey->v.str, RgStringKeys[i].szKey, strlen(RgStringKeys[i].szKey)) == 0) &&
 					((RgStringKeys[i].kty == 0) || (RgStringKeys[i].kty == kty))) {
 					switch (RgStringKeys[i].operation) {
 					case OPERATION_NONE:
 						cn_cbor_mapput_int(pKeyOut, RgStringKeys[i].keyNew, cn_cbor_clone(pValue), CBOR_CONTEXT_PARAM_COMMA NULL);
 						break;

 					case OPERATION_BASE64:
 						pb = base64_decode(pValue->v.str, pValue->length, &cb);
 						cn_cbor_mapput_int(pKeyOut, RgStringKeys[i].keyNew, cn_cbor_data_create(pb, (int) cb, CBOR_CONTEXT_PARAM_COMMA NULL), CBOR_CONTEXT_PARAM_COMMA NULL);
 						break;

 					case OPERATION_STRING:
 						cn_cbor_mapput_int(pKeyOut, RgStringKeys[i].keyNew, cn_cbor_int_create(MapName(pValue, RgCurveNames, _countof(RgCurveNames)), CBOR_CONTEXT_PARAM_COMMA NULL), CBOR_CONTEXT_PARAM_COMMA NULL);
 						break;
 					}
 					i = 99;
 				}
 			}
 		}
 	}

 	return pKeyOut;
 }

 int _ValidateMAC(const cn_cbor * pControl, const byte * pbEncoded, size_t cbEncoded)
 {
 	const cn_cbor * pInput = cn_cbor_mapget_string(pControl, "input");
 	const cn_cbor * pFail;
 	const cn_cbor * pMac;
 	const cn_cbor * pRecipients;
 	HCOSE_MAC hMAC;
 	int type;
 	int iRecipient;
 	bool fFail = false;
 	bool fFailBody = false;

 	pFail = cn_cbor_mapget_string(pControl, "fail");
 	if ((pFail != NULL) && (pFail->type == CN_CBOR_TRUE)) {
 		fFailBody = true;
 	}

 	hMAC = (HCOSE_MAC) COSE_Decode(pbEncoded, cbEncoded, &type, COSE_mac_object, NULL, NULL);
 	if (hMAC == NULL) exit(1);

 	if ((pInput == NULL) || (pInput->type != CN_CBOR_MAP)) exit(1);
 	pMac = cn_cbor_mapget_string(pInput, "mac");
 	if ((pMac == NULL) || (pMac->type != CN_CBOR_MAP)) exit(1);

 	pRecipients = cn_cbor_mapget_string(pMac, "recipients");
 	if ((pRecipients == NULL) || (pRecipients->type != CN_CBOR_ARRAY)) exit(1);

 	pRecipients = pRecipients->first_child;
 	for (iRecipient = 0; pRecipients != NULL; iRecipient++,pRecipients=pRecipients->next) {
 		cn_cbor * pkey = BuildKey(cn_cbor_mapget_string(pRecipients, "key"));
 		if (pkey == NULL) {
 			fFail = true;
 			continue;
 		}

 		HCOSE_RECIPIENT hRecip = COSE_Mac_GetRecipient(hMAC, iRecipient, NULL);
 		if (hRecip == NULL) {
 			fFail = true;
 			continue;
 		}

 		if (!COSE_Recipient_SetKey(hRecip, pkey, NULL)) {
 			fFail = true;
 			continue;
 		}

 		pFail = cn_cbor_mapget_string(pRecipients, "fail");
 		if (COSE_Mac_validate(hMAC, hRecip, NULL)) {
 			if ((pFail != NULL) && (pFail->type != CN_CBOR_TRUE)) fFail = true;
 		}
 		else {
 			if ((pFail == NULL) || (pFail->type == CN_CBOR_FALSE)) fFail = true;
 		}
 	}

 	if (fFailBody) {
 		if (!fFail) fFail = true;
 		else fFail = false;
 	}

 	if (fFail) CFails += 1;
 	return 0;
 }

 int ValidateMAC(const cn_cbor * pControl)
 {
 	int cbEncoded;
 	byte * pbEncoded = GetCBOREncoding(pControl, &cbEncoded);

 	return _ValidateMAC(pControl, pbEncoded, cbEncoded);
 }

 int BuildMacMessage(const cn_cbor * pControl)
 {
 	int iRecipient;

 	//
 	//  We don't run this for all control sequences - skip those marked fail.
 	//

 	const cn_cbor * pFail = cn_cbor_mapget_string(pControl, "fail");
 	if ((pFail != NULL) && (pFail->type == CN_CBOR_TRUE)) return 0;

 	HCOSE_MAC hMacObj = COSE_Mac_Init(CBOR_CONTEXT_PARAM_COMMA NULL);

 	const cn_cbor * pInputs = cn_cbor_mapget_string(pControl, "input");
 	if (pInputs == NULL) exit(1);
 	const cn_cbor * pMac = cn_cbor_mapget_string(pInputs, "mac");
 	if (pMac == NULL) exit(1);

 	const cn_cbor * pContent = cn_cbor_mapget_string(pInputs, "plaintext");
 	if (!COSE_Mac_SetContent(hMacObj, pContent->v.bytes, pContent->length, NULL)) goto returnError;

 	if (!SetAttributes((HCOSE) hMacObj, cn_cbor_mapget_string(pMac, "protected"), Attributes_MAC_protected)) goto returnError;
 	if (!SetAttributes((HCOSE) hMacObj, cn_cbor_mapget_string(pMac, "unprotected"), Attributes_MAC_unprotected)) goto returnError;

 	const cn_cbor * pAlg = COSE_Mac_map_get_int(hMacObj, 1, COSE_BOTH, NULL);

 	const cn_cbor * pRecipients = cn_cbor_mapget_string(pMac, "recipients");
 	if ((pRecipients == NULL) || (pRecipients->type != CN_CBOR_ARRAY)) exit(1);

 	pRecipients = pRecipients->first_child;
 	for (iRecipient = 0; pRecipients != NULL; iRecipient++, pRecipients = pRecipients->next) {
 		cn_cbor * pkey = BuildKey(cn_cbor_mapget_string(pRecipients, "key"));
 		if (pkey == NULL) exit(1);

 		HCOSE_RECIPIENT hRecip = COSE_Recipient_Init(CBOR_CONTEXT_PARAM_COMMA NULL);
 		if (hRecip == NULL) exit(1);

 		if (!SetAttributes((HCOSE) hRecip, cn_cbor_mapget_string(pRecipients, "protected"), Attributes_Recipient_protected)) goto returnError;
 		if (!SetAttributes((HCOSE) hRecip, cn_cbor_mapget_string(pRecipients, "unprotected"), Attributes_Recipient_unprotected)) goto returnError;

 		if (!COSE_Recipient_SetKey(hRecip, pkey, NULL)) exit(1);

 		if (!COSE_Mac_AddRecipient(hMacObj, hRecip, NULL)) exit(1);
 	}

 	if (!COSE_Mac_encrypt(hMacObj, NULL)) exit(1);

 	size_t cb = COSE_Encode((HCOSE)hMacObj, NULL, 0, 0) + 1;
 	byte * rgb = (byte *)malloc(cb);
 	cb = COSE_Encode((HCOSE)hMacObj, rgb, 0, cb);

 	int f = _ValidateMAC(pControl, rgb, cb);

 	free(rgb);
 	return f;

 returnError:
 	CFails += 1;
 	return 1;
 }

 int MacMessage()
 {
 	HCOSE_MAC hEncObj = COSE_Mac_Init(CBOR_CONTEXT_PARAM_COMMA NULL);
 	char * sz = "This is the content to be used";
 	byte rgbSecret[256 / 8] = { 'a', 'b', 'c' };
 	byte  rgbKid[6] = { 'a', 'b', 'c', 'd', 'e', 'f' };
 	int cbKid = 6;
 	size_t cb;
 	byte * rgb;

 	COSE_Mac_map_put(hEncObj, COSE_Header_Algorithm, cn_cbor_int_create(COSE_Algorithm_HMAC_256_256, CBOR_CONTEXT_PARAM_COMMA NULL), COSE_PROTECT_ONLY, NULL);
 	COSE_Mac_SetContent(hEncObj, (byte *) sz, strlen(sz), NULL);

 	COSE_Mac_add_shared_secret(hEncObj, COSE_Algorithm_Direct, rgbSecret, sizeof(rgbSecret), rgbKid, cbKid, NULL);

 	COSE_Mac_encrypt(hEncObj, NULL);

 	cb = COSE_Encode((HCOSE)hEncObj, NULL, 0, 0) + 1;
 	rgb = (byte *)malloc(cb);
 	cb = COSE_Encode((HCOSE)hEncObj, rgb, 0, cb);


 	FILE * fp = fopen("test.mac.cbor", "wb");
 	fwrite(rgb, cb, 1, fp);
 	fclose(fp);

 #if 0
 	char * szX;
 	int cbPrint = 0;
 	cn_cbor * cbor = COSE_get_cbor((HCOSE)hEncObj);
 	cbPrint = cn_cbor_printer_write(NULL, 0, cbor, "  ", "\r\n");
 	szX = malloc(cbPrint);
 	cn_cbor_printer_write(szX, cbPrint, cbor, "  ", "\r\n");
 	fprintf(stdout, "%s", szX);
 	fprintf(stdout, "\r\n");
 #endif

 	COSE_Mac_Free(hEncObj);

 	/* */

 	int typ;
 	hEncObj = (HCOSE_MAC) COSE_Decode(rgb,  (int) cb, &typ, COSE_mac_object, NULL, NULL);

 	int iRecipient = 0;
 	do {
 		HCOSE_RECIPIENT hRecip;

 		hRecip = COSE_Mac_GetRecipient(hEncObj, iRecipient, NULL);
 		if (hRecip == NULL) break;

 		COSE_Recipient_SetKey_secret(hRecip, rgbSecret, sizeof(rgbSecret), NULL);

 		COSE_Mac_validate(hEncObj, hRecip, NULL);

 		iRecipient += 1;

 	} while (true);

 	return 1;
 }


 bool cn_cbor_array_replace(cn_cbor * cb_array, cn_cbor * cb_value, int index, CBOR_CONTEXT_COMMA cn_cbor_errback *errp);

 bool Test_cn_cbor_array_replace()
 {
 	cn_cbor * pRoot;
 	cn_cbor * pItem;

 	//  Cases that are not currently covered
 	//  1.  Pass in invalid arguements

 	cn_cbor_array_replace(NULL, NULL, 0, CBOR_CONTEXT_PARAM_COMMA NULL);

 	//  2.  Insert 0 item with no items currently in the list
 	pRoot = cn_cbor_array_create(CBOR_CONTEXT_PARAM_COMMA NULL);
 	pItem = cn_cbor_int_create(5, CBOR_CONTEXT_PARAM_COMMA NULL);
 	cn_cbor_array_replace(pRoot, pItem, 0, CBOR_CONTEXT_PARAM_COMMA NULL);

 	//  3. Insert 0 item w/ exactly one item in the list
 	pItem = cn_cbor_int_create(6, CBOR_CONTEXT_PARAM_COMMA NULL);
 	cn_cbor_array_replace(pRoot, pItem, 0, CBOR_CONTEXT_PARAM_COMMA NULL);

 	//  4.  The last item in the array
 	pItem = cn_cbor_int_create(7, CBOR_CONTEXT_PARAM_COMMA NULL);
 	cn_cbor_array_replace(pRoot, pItem, 1, CBOR_CONTEXT_PARAM_COMMA NULL);

 	return true;
 }


 int main(int argc, char ** argv)
 {
 	int i;
 	const cn_cbor * pControl = NULL;

 	for (i = 1; i < argc; i++) {
 		if (argv[0][0] == '-') {

 		}
 		else {
 			pControl = ParseJson(argv[i]);
 		}
 	}

 	//
 	//  If we are given a file name, then process the file name
 	//

 	if (pControl != NULL) {
 		//  To find out what we are doing we need to get the correct item

 		const cn_cbor * pInput = cn_cbor_mapget_string(pControl, "input");

 		if ((pInput == NULL) || (pInput->type != CN_CBOR_MAP)) {
 			fprintf(stderr, "No or bad input section");
 			exit(1);
 		}

 		if (cn_cbor_mapget_string(pInput, "mac") != NULL) {
 			ValidateMAC(pControl);
 			BuildMacMessage(pControl);
 		}
 		else if (cn_cbor_mapget_string(pInput, "enveloped") != NULL) {
 			ValidateEnveloped(pControl);
 			BuildEncryptMessage(pControl);
 		}
 		else if (cn_cbor_mapget_string(pInput, "sign") != NULL) {
 			ValidateSigned(pControl);
 		}
 	}
 	else {
 		MacMessage();
 		SignMessage();
 		EncryptMessage();
 	}

 	Test_cn_cbor_array_replace();

 	if (CFails > 0) fprintf(stderr, "Failed %d tests\n", CFails);
 	else fprintf(stderr, "SUCCESS\n");

 	exit(CFails);
 }
	// test.c : Defines the entry point for the console application.
	//

	#define _CRT_SECURE_NO_WARNINGS
	#define USE_CBOR_CONTEXT 1

	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	#include <cose.h>
	#include <cn-cbor/cn-cbor.h>
	#include <assert.h>

	#include "json.h"

	#include "test.h"


	extern int EncryptMessage();
	int CFails = 0;


	typedef struct _NameMap {
	char * sz;
	int i;
	} NameMap;

	NameMap RgAlgorithmNames[23] = {
	{"HS256", COSE_Algorithm_HMAC_256_256},
	{"HS256/64", COSE_Algorithm_HMAC_256_64},
	{"HS384", COSE_Algorithm_HMAC_384_384},
	{"HS512", COSE_Algorithm_HMAC_512_512},
	{"direct", COSE_Algorithm_Direct},
	{"AES-MAC-128/64", COSE_Algorithm_CBC_MAC_128_64},
	{"AES-MAC-256/64", COSE_Algorithm_CBC_MAC_256_64},
	{"AES-MAC-128/128", COSE_Algorithm_CBC_MAC_128_128},
	{"AES-MAC-256/128", COSE_Algorithm_CBC_MAC_256_128},
	{"A128KW", COSE_Algorithm_AES_KW_128},
	{"A192KW", COSE_Algorithm_AES_KW_192},
	{"A256KW", COSE_Algorithm_AES_KW_256},
	{"A128GCM", COSE_Algorithm_AES_GCM_128},
	{"A192GCM", COSE_Algorithm_AES_GCM_192},
	{"A256GCM", COSE_Algorithm_AES_GCM_256},
	{"AES-CCM-16-128/64", COSE_Algorithm_AES_CCM_16_64_128},
	{"AES-CCM-16-256/64", COSE_Algorithm_AES_CCM_16_64_256},
	{"AES-CCM-16-128/128", COSE_Algorithm_AES_CCM_16_128_128},
	{"AES-CCM-16-256/128", COSE_Algorithm_AES_CCM_16_128_256},
	{"AES-CCM-64-128/64", COSE_Algorithm_AES_CCM_64_64_128},
	{"AES-CCM-64-256/64", COSE_Algorithm_AES_CCM_64_64_256},
	{"AES-CCM-64-128/128", COSE_Algorithm_AES_CCM_64_128_128},
	{"AES-CCM-64-256/128", COSE_Algorithm_AES_CCM_64_128_256}
	};


	NameMap RgCurveNames[3] = {
	{"P-256", 1},
	{"P-384", 2},
	{"P-512", 3}
	};

	int MapName(const cn_cbor * p, NameMap * rgMap, unsigned int cMap)
	{
	unsigned int i;

	for (i = 0; i < cMap; i++) {
	if (strcmp(rgMap[i].sz, p->v.str) == 0) return rgMap[i].i;
	}

	assert(false);

	return 0;
	}

	int MapAlgorithmName(const cn_cbor * p)
	{
	return MapName(p, RgAlgorithmNames, _countof(RgAlgorithmNames));
	}

	cn_cbor * cn_cbor_clone(const cn_cbor * pIn)
	{
	cn_cbor * pOut = NULL;
	char * sz;

	switch (pIn->type) {
	case CN_CBOR_TEXT:
	sz = malloc(pIn->length + 1);
	memcpy(sz, pIn->v.str, pIn->length);
	sz[pIn->length] = 0;
	pOut = cn_cbor_string_create(sz, CBOR_CONTEXT_PARAM_COMMA NULL);
	break;

	default:
	break;
	}

	return pOut;
	}

	byte fromHex(char c)
	{
	if (('0' <= c) && (c <= '9')) return c - '0';
	if (('A' <= c) && (c <= 'F')) return c - 'A' + 10;
	fprintf(stderr, "Invalid hex");
	exit(1);
	}

	byte * GetCBOREncoding(const cn_cbor * pControl, int * pcbEncoded)
	{
	const cn_cbor * pOutputs = cn_cbor_mapget_string(pControl, "output");
	const cn_cbor * pCBOR;
	byte * pb = NULL;
	const byte * pb2;
	int i;

	if ((pOutputs == NULL) \|\| (pOutputs->type != CN_CBOR_MAP)) {
	fprintf(stderr, "Invalid output\n");
	exit(1);
	}

	pCBOR = cn_cbor_mapget_string(pOutputs, "cbor");
	if ((pCBOR == NULL) \|\| (pCBOR->type != CN_CBOR_TEXT)) {
	fprintf(stderr, "Invalid cbor object");
	exit(1);
	}

	pb = malloc(pCBOR->length / 2);
	pb2 = pCBOR->v.bytes;

	for (i = 0; i < pCBOR->length; i += 2) {
	pb[i / 2] = fromHex(pb2[i]) * 16 + fromHex(pb2[i + 1]);
	}

	*pcbEncoded = (int) (pCBOR->length / 2);
	return pb;
	}

	#define OPERATION_NONE 0
	#define OPERATION_BASE64 1
	#define OPERATION_IGNORE 2
	#define OPERATION_STRING 3

	struct {
	char * szKey;
	int kty;
	int operation;
	int keyNew;
	} RgStringKeys[7] = {
	{ "kty", 0, OPERATION_IGNORE, 0},
	{ "kid", 0, OPERATION_NONE, 1},
	{ "crv", 2, OPERATION_STRING, -1},
	{ "x", 2, OPERATION_BASE64, -2},
	{ "y", 2, OPERATION_BASE64, -3},
	{ "d", 2, OPERATION_BASE64, -4},
	{ "k", 4, OPERATION_BASE64, -1}
	};

	bool SetAttributes(HCOSE hHandle, const cn_cbor * pAttributes, int which)
	{
	const cn_cbor * pKey;
	const cn_cbor * pValue;
	int keyNew;
	cn_cbor * pValueNew;

	if (pAttributes == NULL) return true;
	if (pAttributes->type != CN_CBOR_MAP) return false;

	for (pKey = pAttributes->first_child; pKey != NULL; pKey = pKey->next->next) {
	pValue = pKey->next;

	if (pKey->type != CN_CBOR_TEXT) return false;

	if (strcmp(pKey->v.str, "alg") == 0) {
	keyNew = COSE_Header_Algorithm;
	pValueNew = cn_cbor_int_create(MapAlgorithmName(pValue), CBOR_CONTEXT_PARAM_COMMA NULL);
	}
	else {
	continue;
	}

	switch (which) {
	case Attributes_MAC_protected:
	COSE_Mac_map_put((HCOSE_MAC)hHandle, keyNew, pValueNew, COSE_PROTECT_ONLY, NULL);
	break;

	case Attributes_MAC_unprotected:
	COSE_Mac_map_put((HCOSE_MAC)hHandle, keyNew, pValueNew, COSE_UNPROTECT_ONLY, NULL);
	break;

	case Attributes_Recipient_protected:
	COSE_Recipient_map_put((HCOSE_RECIPIENT)hHandle, keyNew, pValueNew, COSE_PROTECT_ONLY, NULL);
	break;

	case Attributes_Recipient_unprotected:
	COSE_Recipient_map_put((HCOSE_RECIPIENT)hHandle, keyNew, pValueNew, COSE_UNPROTECT_ONLY, NULL);
	break;

	case Attributes_Recipient_unsent:
	COSE_Recipient_map_put((HCOSE_RECIPIENT)hHandle, keyNew, pValueNew, COSE_DONT_SEND, NULL);
	break;

	case Attributes_Enveloped_protected:
	COSE_Encrypt_map_put((HCOSE_ENCRYPT)hHandle, keyNew, pValueNew, COSE_PROTECT_ONLY, NULL);
	break;

	case Attributes_Enveloped_unprotected:
	COSE_Encrypt_map_put((HCOSE_ENCRYPT)hHandle, keyNew, pValueNew, COSE_UNPROTECT_ONLY, NULL);
	break;

	case Attributes_Enveloped_unsent:
	COSE_Encrypt_map_put((HCOSE_ENCRYPT)hHandle, keyNew, pValueNew, COSE_DONT_SEND, NULL);
	break;
	}
	}

	return true;
	}

	cn_cbor * BuildKey(const cn_cbor * pKeyIn)
	{
	cn_cbor * pKeyOut = cn_cbor_map_create(CBOR_CONTEXT_PARAM_COMMA NULL);
	cn_cbor * pKty = cn_cbor_mapget_string(pKeyIn, "kty");
	cn_cbor * p;
	cn_cbor * pKey;
	cn_cbor * pValue;
	int i;
	int kty;
	unsigned char * pb;
	size_t cb;

	if ((pKty == NULL) \|\| (pKty->type != CN_CBOR_TEXT)) return NULL;
	if (pKty->length == 2) {
	if (strncmp(pKty->v.str, "EC", 2) == 0) kty = 2;
	else return NULL;
	}
	else if (pKty->length == 3) {
	if (strncmp(pKty->v.str, "oct", 3) == 0) kty = 4;
	else return NULL;
	}
	else return NULL;

	p = cn_cbor_int_create(kty, CBOR_CONTEXT_PARAM_COMMA NULL);
	if (p == NULL) return NULL;
	if (!cn_cbor_mapput_int(pKeyOut, 1, p, CBOR_CONTEXT_PARAM_COMMA NULL)) return NULL;

	for (pKey = pKeyIn->first_child; pKey != NULL; pKey = pKey->next->next) {
	pValue = pKey->next;

	if (pKey->type == CN_CBOR_TEXT) {
	for (i = 0; i < 7; i++) {
	if ((pKey->length == strlen(RgStringKeys[i].szKey)) &&
	(strncmp(pKey->v.str, RgStringKeys[i].szKey, strlen(RgStringKeys[i].szKey)) == 0) &&
	((RgStringKeys[i].kty == 0) \|\| (RgStringKeys[i].kty == kty))) {
	switch (RgStringKeys[i].operation) {
	case OPERATION_NONE:
	cn_cbor_mapput_int(pKeyOut, RgStringKeys[i].keyNew, cn_cbor_clone(pValue), CBOR_CONTEXT_PARAM_COMMA NULL);
	break;

	case OPERATION_BASE64:
	pb = base64_decode(pValue->v.str, pValue->length, &cb);
	cn_cbor_mapput_int(pKeyOut, RgStringKeys[i].keyNew, cn_cbor_data_create(pb, (int) cb, CBOR_CONTEXT_PARAM_COMMA NULL), CBOR_CONTEXT_PARAM_COMMA NULL);
	break;

	case OPERATION_STRING:
	cn_cbor_mapput_int(pKeyOut, RgStringKeys[i].keyNew, cn_cbor_int_create(MapName(pValue, RgCurveNames, _countof(RgCurveNames)), CBOR_CONTEXT_PARAM_COMMA NULL), CBOR_CONTEXT_PARAM_COMMA NULL);
	break;
	}
	i = 99;
	}
	}
	}
	}

	return pKeyOut;
	}

	int _ValidateMAC(const cn_cbor * pControl, const byte * pbEncoded, size_t cbEncoded)
	{
	const cn_cbor * pInput = cn_cbor_mapget_string(pControl, "input");
	const cn_cbor * pFail;
	const cn_cbor * pMac;
	const cn_cbor * pRecipients;
	HCOSE_MAC hMAC;
	int type;
	int iRecipient;
	bool fFail = false;
	bool fFailBody = false;

	pFail = cn_cbor_mapget_string(pControl, "fail");
	if ((pFail != NULL) && (pFail->type == CN_CBOR_TRUE)) {
	fFailBody = true;
	}

	hMAC = (HCOSE_MAC) COSE_Decode(pbEncoded, cbEncoded, &type, COSE_mac_object, NULL, NULL);
	if (hMAC == NULL) exit(1);

	if ((pInput == NULL) \|\| (pInput->type != CN_CBOR_MAP)) exit(1);
	pMac = cn_cbor_mapget_string(pInput, "mac");
	if ((pMac == NULL) \|\| (pMac->type != CN_CBOR_MAP)) exit(1);

	pRecipients = cn_cbor_mapget_string(pMac, "recipients");
	if ((pRecipients == NULL) \|\| (pRecipients->type != CN_CBOR_ARRAY)) exit(1);

	pRecipients = pRecipients->first_child;
	for (iRecipient = 0; pRecipients != NULL; iRecipient++,pRecipients=pRecipients->next) {
	cn_cbor * pkey = BuildKey(cn_cbor_mapget_string(pRecipients, "key"));
	if (pkey == NULL) {
	fFail = true;
	continue;
	}

	HCOSE_RECIPIENT hRecip = COSE_Mac_GetRecipient(hMAC, iRecipient, NULL);
	if (hRecip == NULL) {
	fFail = true;
	continue;
	}

	if (!COSE_Recipient_SetKey(hRecip, pkey, NULL)) {
	fFail = true;
	continue;
	}

	pFail = cn_cbor_mapget_string(pRecipients, "fail");
	if (COSE_Mac_validate(hMAC, hRecip, NULL)) {
	if ((pFail != NULL) && (pFail->type != CN_CBOR_TRUE)) fFail = true;
	}
	else {
	if ((pFail == NULL) \|\| (pFail->type == CN_CBOR_FALSE)) fFail = true;
	}
	}

	if (fFailBody) {
	if (!fFail) fFail = true;
	else fFail = false;
	}

	if (fFail) CFails += 1;
	return 0;
	}

	int ValidateMAC(const cn_cbor * pControl)
	{
	int cbEncoded;
	byte * pbEncoded = GetCBOREncoding(pControl, &cbEncoded);

	return _ValidateMAC(pControl, pbEncoded, cbEncoded);
	}

	int BuildMacMessage(const cn_cbor * pControl)
	{
	int iRecipient;

	//
	// We don't run this for all control sequences - skip those marked fail.
	//

	const cn_cbor * pFail = cn_cbor_mapget_string(pControl, "fail");
	if ((pFail != NULL) && (pFail->type == CN_CBOR_TRUE)) return 0;

	HCOSE_MAC hMacObj = COSE_Mac_Init(CBOR_CONTEXT_PARAM_COMMA NULL);

	const cn_cbor * pInputs = cn_cbor_mapget_string(pControl, "input");
	if (pInputs == NULL) exit(1);
	const cn_cbor * pMac = cn_cbor_mapget_string(pInputs, "mac");
	if (pMac == NULL) exit(1);

	const cn_cbor * pContent = cn_cbor_mapget_string(pInputs, "plaintext");
	if (!COSE_Mac_SetContent(hMacObj, pContent->v.bytes, pContent->length, NULL)) goto returnError;

	if (!SetAttributes((HCOSE) hMacObj, cn_cbor_mapget_string(pMac, "protected"), Attributes_MAC_protected)) goto returnError;
	if (!SetAttributes((HCOSE) hMacObj, cn_cbor_mapget_string(pMac, "unprotected"), Attributes_MAC_unprotected)) goto returnError;

	const cn_cbor * pAlg = COSE_Mac_map_get_int(hMacObj, 1, COSE_BOTH, NULL);

	const cn_cbor * pRecipients = cn_cbor_mapget_string(pMac, "recipients");
	if ((pRecipients == NULL) \|\| (pRecipients->type != CN_CBOR_ARRAY)) exit(1);

	pRecipients = pRecipients->first_child;
	for (iRecipient = 0; pRecipients != NULL; iRecipient++, pRecipients = pRecipients->next) {
	cn_cbor * pkey = BuildKey(cn_cbor_mapget_string(pRecipients, "key"));
	if (pkey == NULL) exit(1);

	HCOSE_RECIPIENT hRecip = COSE_Recipient_Init(CBOR_CONTEXT_PARAM_COMMA NULL);
	if (hRecip == NULL) exit(1);

	if (!SetAttributes((HCOSE) hRecip, cn_cbor_mapget_string(pRecipients, "protected"), Attributes_Recipient_protected)) goto returnError;
	if (!SetAttributes((HCOSE) hRecip, cn_cbor_mapget_string(pRecipients, "unprotected"), Attributes_Recipient_unprotected)) goto returnError;

	if (!COSE_Recipient_SetKey(hRecip, pkey, NULL)) exit(1);

	if (!COSE_Mac_AddRecipient(hMacObj, hRecip, NULL)) exit(1);
	}

	if (!COSE_Mac_encrypt(hMacObj, NULL)) exit(1);

	size_t cb = COSE_Encode((HCOSE)hMacObj, NULL, 0, 0) + 1;
	byte * rgb = (byte *)malloc(cb);
	cb = COSE_Encode((HCOSE)hMacObj, rgb, 0, cb);

	int f = _ValidateMAC(pControl, rgb, cb);

	free(rgb);
	return f;

	returnError:
	CFails += 1;
	return 1;
	}

	int MacMessage()
	{
	HCOSE_MAC hEncObj = COSE_Mac_Init(CBOR_CONTEXT_PARAM_COMMA NULL);
	char * sz = "This is the content to be used";
	byte rgbSecret[256 / 8] = { 'a', 'b', 'c' };
	byte rgbKid[6] = { 'a', 'b', 'c', 'd', 'e', 'f' };
	int cbKid = 6;
	size_t cb;
	byte * rgb;

	COSE_Mac_map_put(hEncObj, COSE_Header_Algorithm, cn_cbor_int_create(COSE_Algorithm_HMAC_256_256, CBOR_CONTEXT_PARAM_COMMA NULL), COSE_PROTECT_ONLY, NULL);
	COSE_Mac_SetContent(hEncObj, (byte *) sz, strlen(sz), NULL);

	COSE_Mac_add_shared_secret(hEncObj, COSE_Algorithm_Direct, rgbSecret, sizeof(rgbSecret), rgbKid, cbKid, NULL);

	COSE_Mac_encrypt(hEncObj, NULL);

	cb = COSE_Encode((HCOSE)hEncObj, NULL, 0, 0) + 1;
	rgb = (byte *)malloc(cb);
	cb = COSE_Encode((HCOSE)hEncObj, rgb, 0, cb);


	FILE * fp = fopen("test.mac.cbor", "wb");
	fwrite(rgb, cb, 1, fp);
	fclose(fp);

	#if 0
	char * szX;
	int cbPrint = 0;
	cn_cbor * cbor = COSE_get_cbor((HCOSE)hEncObj);
	cbPrint = cn_cbor_printer_write(NULL, 0, cbor, " ", "\r\n");
	szX = malloc(cbPrint);
	cn_cbor_printer_write(szX, cbPrint, cbor, " ", "\r\n");
	fprintf(stdout, "%s", szX);
	fprintf(stdout, "\r\n");
	#endif

	COSE_Mac_Free(hEncObj);

	/* */

	int typ;
	hEncObj = (HCOSE_MAC) COSE_Decode(rgb, (int) cb, &typ, COSE_mac_object, NULL, NULL);

	int iRecipient = 0;
	do {
	HCOSE_RECIPIENT hRecip;

	hRecip = COSE_Mac_GetRecipient(hEncObj, iRecipient, NULL);
	if (hRecip == NULL) break;

	COSE_Recipient_SetKey_secret(hRecip, rgbSecret, sizeof(rgbSecret), NULL);

	COSE_Mac_validate(hEncObj, hRecip, NULL);

	iRecipient += 1;

	} while (true);

	return 1;
	}


	bool cn_cbor_array_replace(cn_cbor * cb_array, cn_cbor * cb_value, int index, CBOR_CONTEXT_COMMA cn_cbor_errback *errp);

	bool Test_cn_cbor_array_replace()
	{
	cn_cbor * pRoot;
	cn_cbor * pItem;

	// Cases that are not currently covered
	// 1. Pass in invalid arguements

	cn_cbor_array_replace(NULL, NULL, 0, CBOR_CONTEXT_PARAM_COMMA NULL);

	// 2. Insert 0 item with no items currently in the list
	pRoot = cn_cbor_array_create(CBOR_CONTEXT_PARAM_COMMA NULL);
	pItem = cn_cbor_int_create(5, CBOR_CONTEXT_PARAM_COMMA NULL);
	cn_cbor_array_replace(pRoot, pItem, 0, CBOR_CONTEXT_PARAM_COMMA NULL);

	// 3. Insert 0 item w/ exactly one item in the list
	pItem = cn_cbor_int_create(6, CBOR_CONTEXT_PARAM_COMMA NULL);
	cn_cbor_array_replace(pRoot, pItem, 0, CBOR_CONTEXT_PARAM_COMMA NULL);

	// 4. The last item in the array
	pItem = cn_cbor_int_create(7, CBOR_CONTEXT_PARAM_COMMA NULL);
	cn_cbor_array_replace(pRoot, pItem, 1, CBOR_CONTEXT_PARAM_COMMA NULL);

	return true;
	}


	int main(int argc, char ** argv)
	{
	int i;
	const cn_cbor * pControl = NULL;

	for (i = 1; i < argc; i++) {
	if (argv[0][0] == '-') {

	}
	else {
	pControl = ParseJson(argv[i]);
	}
	}

	//
	// If we are given a file name, then process the file name
	//

	if (pControl != NULL) {
	// To find out what we are doing we need to get the correct item

	const cn_cbor * pInput = cn_cbor_mapget_string(pControl, "input");

	if ((pInput == NULL) \|\| (pInput->type != CN_CBOR_MAP)) {
	fprintf(stderr, "No or bad input section");
	exit(1);
	}

	if (cn_cbor_mapget_string(pInput, "mac") != NULL) {
	ValidateMAC(pControl);
	BuildMacMessage(pControl);
	}
	else if (cn_cbor_mapget_string(pInput, "enveloped") != NULL) {
	ValidateEnveloped(pControl);
	BuildEncryptMessage(pControl);
	}
	else if (cn_cbor_mapget_string(pInput, "sign") != NULL) {
	ValidateSigned(pControl);
	}
	}
	else {
	MacMessage();
	SignMessage();
	EncryptMessage();
	}

	Test_cn_cbor_array_replace();

	if (CFails > 0) fprintf(stderr, "Failed %d tests\n", CFails);
	else fprintf(stderr, "SUCCESS\n");

	exit(CFails);
	}