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

 #include "cn-cbor/cn-cbor.h"
 #include <stdlib.h>
 #ifndef __MBED__
 #include <memory.h>
 #endif

 #define INIT_CB(v)                                 \
 	if (errp) {                                    \
 		errp->err = CN_CBOR_NO_ERROR;              \
 	}                                              \
 	(v) = CN_CALLOC_CONTEXT();                     \
 	if (!(v)) {                                    \
 		if (errp) {                                \
 			errp->err = CN_CBOR_ERR_OUT_OF_MEMORY; \
 		}                                          \
 		return false;                              \
 	}

 #ifdef USE_CBOR_CONTEXT
 #define CBOR_CONTEXT_PARAM , context

 #define CN_CALLOC(ctx)                                           \
 	((ctx) && (ctx)->calloc_func)                                \
 		? (ctx)->calloc_func(1, sizeof(cn_cbor), (ctx)->context) \
 		: calloc(1, sizeof(cn_cbor));

 #define CN_CALLOC_CONTEXT() CN_CALLOC(context)
 #define CN_CBOR_CALLOC(c, i, ctx)                                            \
 	((ctx) && (ctx)->calloc_func) ? (ctx)->calloc_func(c, i, (ctx)->context) \
 								  : calloc(c, i)
 #else
 #define CBOR_CONTEXT_PARAM
 #define CN_CALLOC(ctx) calloc(1, sizeof(cn_cbor));
 #define CN_CALLOC_CONTEXT() CN_CALLOC(context)
 #define CN_CBOR_CALLOC(c, i, ctx) calloc(c, i);
 #endif

 /***
  * Replace the i-th element in the array.
  * Extend the array if necessary so it has enough elements.
  *
  * @param[in]   cb_array		Array to use
  * @param[in]	cb_value    	New item to be placed in the array
  * @param[in]	index			Zero based index to be used
  * @param[in]	CBOR_CONTEXT	Context based allocation structure
  * @param[in,out] errp			CBOR error return on failure
  * returns						Did we succeed?
  */

 bool cn_cbor_array_replace(cn_cbor *cb_array,
 	cn_cbor *cb_value,
 	int index,
 	CBOR_CONTEXT_COMMA cn_cbor_errback *errp)
 {
 	int i;
 	cn_cbor *cb_temp;
 	cn_cbor *cb_temp2;

 	if (!cb_array || !cb_value || cb_array->type != CN_CBOR_ARRAY) {
 		if (errp != NULL) {
 			errp->err = CN_CBOR_ERR_INVALID_PARAMETER;
 		}
 		return false;
 	}

 	if (index == 0) {
 		if (cb_array->length > 0) {
 			cb_temp = cb_array->first_child;

 			cb_value->parent = cb_array;
 			cb_value->next = cb_temp->next;
 			if (cb_array->last_child == cb_temp) {
 				cb_array->last_child = cb_value;
 			}
 			cb_array->first_child = cb_value;
 			cb_temp->parent = NULL;
 			cb_temp->next = NULL;
 			cn_cbor_free(cb_temp CBOR_CONTEXT_PARAM);
 			return true;
 		}
 		return cn_cbor_array_append(cb_array, cb_value, errp);
 	}

 	if (cb_array->first_child == NULL) {
 		INIT_CB(cb_temp2);
 		cb_array->first_child = cb_array->last_child = cb_temp2;
 		cb_temp2->parent = cb_array;
 		cb_array->length = 1;
 		cb_temp2->type = CN_CBOR_INVALID;
 	}

 	cb_temp = cb_array->first_child;
 	for (i = 1; i < index; i++) {
 		if (cb_temp->next == NULL) {
 			INIT_CB(cb_temp2);
 			cb_temp2->type = CN_CBOR_INVALID;
 			cb_temp->next = cb_temp2;
 			cb_temp2->parent = cb_array;
 			cb_array->last_child = cb_temp2;
 			cb_array->length += 1;
 		}

 		cb_temp = cb_temp->next;
 	}

 	if (cb_temp->next == NULL) {
 		cb_temp->next = cb_value;
 		cb_value->parent = cb_array;
 		cb_array->last_child = cb_value;
 		cb_array->length += 1;
 		return true;
 	}

 	cb_temp2 = cb_temp->next;
 	cb_value->next = cb_temp2->next;
 	cb_temp->next = cb_value;
 	cb_value->parent = cb_array;
 	if (cb_array->last_child == cb_temp2) {
 		cb_array->last_child = cb_value;
 	}

 	cb_temp2->next = NULL;
 	cb_temp2->parent = NULL;
 	cn_cbor_free(cb_temp2 CBOR_CONTEXT_PARAM);

 	return true;
 }

 cn_cbor *cn_cbor_clone(const cn_cbor *pIn,
 	CBOR_CONTEXT_COMMA cn_cbor_errback *pcn_cbor_error)
 {
 	cn_cbor *pOut = NULL;
 	char *sz;
 	unsigned char *pb;

 	switch (pIn->type) {
 		case CN_CBOR_TEXT:
 			sz = CN_CBOR_CALLOC(pIn->length + 1, 1, context);
 			if (sz == NULL) {
 				return NULL;
 			}
 			memcpy(sz, pIn->v.str, pIn->length);
 			sz[pIn->length] = 0;
 			pOut = cn_cbor_string_create2(sz, 0 CBOR_CONTEXT_PARAM, pcn_cbor_error);
 			break;

 		case CN_CBOR_UINT:
 			pOut = cn_cbor_int_create(
 				pIn->v.sint CBOR_CONTEXT_PARAM, pcn_cbor_error);
 			break;

 		case CN_CBOR_BYTES:
 			pb = CN_CBOR_CALLOC((int)pIn->length, 1, context);
 			if (pb == NULL) {
 				return NULL;
 			}
 			memcpy(pb, pIn->v.bytes, pIn->length);
 			pOut = cn_cbor_data_create2(
 				pb, (int)pIn->length, 0 CBOR_CONTEXT_PARAM, pcn_cbor_error);
 			break;

 		default:
 			break;
 	}

 	return pOut;
 }

 #ifndef CN_CBOR_VERSION
 cn_cbor *cn_cbor_tag_create(int tag,
 	cn_cbor *child,
 	CBOR_CONTEXT_COMMA cn_cbor_errback *perr)
 {
 	cn_cbor *pcnTag = CN_CALLOC(context);
 	if (pcnTag == NULL) {
 		if (perr != NULL) {
 			perr->err = CN_CBOR_ERR_OUT_OF_MEMORY;
 		}
 		return NULL;
 	}

 	pcnTag->type = CN_CBOR_TAG;
 	pcnTag->v.sint = tag;
 	pcnTag->first_child = child;
 	child->parent = pcnTag;

 	return pcnTag;
 }

 cn_cbor *cn_cbor_bool_create(int boolValue,
 	CBOR_CONTEXT_COMMA cn_cbor_errback *errp)
 {
 	cn_cbor *pcn = CN_CALLOC(context);
 	if (pcn == NULL) {
 		if (errp != NULL) {
 			errp->err = CN_CBOR_ERR_OUT_OF_MEMORY;
 		}
 		return NULL;
 	}

 	pcn->type = CN_CBOR_FALSE + (boolValue != 0);
 	return pcn;
 }

 cn_cbor *cn_cbor_null_create(CBOR_CONTEXT_COMMA cn_cbor_errback *errp)
 {
 	cn_cbor *pcn = CN_CALLOC(context);
 	if (pcn == NULL) {
 		if (errp != NULL) {
 			errp->err = CN_CBOR_ERR_OUT_OF_MEMORY;
 		}
 		return NULL;
 	}
 	pcn->type = CN_CBOR_NULL;
 	return pcn;
 }
 #endif

 size_t cn_cbor_encode_size(cn_cbor *object)
 {
 	ssize_t size = cn_cbor_encoder_write(NULL, 0, 0, object);
 	return size >= 0 ? size : 0;
 }
	#include "cn-cbor/cn-cbor.h"
	#include <stdlib.h>
	#ifndef __MBED__
	#include <memory.h>
	#endif

	#define INIT_CB(v) \
	if (errp) { \
	errp->err = CN_CBOR_NO_ERROR; \
	} \
	(v) = CN_CALLOC_CONTEXT(); \
	if (!(v)) { \
	if (errp) { \
	errp->err = CN_CBOR_ERR_OUT_OF_MEMORY; \
	} \
	return false; \
	}

	#ifdef USE_CBOR_CONTEXT
	#define CBOR_CONTEXT_PARAM , context

	#define CN_CALLOC(ctx) \
	((ctx) && (ctx)->calloc_func) \
	? (ctx)->calloc_func(1, sizeof(cn_cbor), (ctx)->context) \
	: calloc(1, sizeof(cn_cbor));

	#define CN_CALLOC_CONTEXT() CN_CALLOC(context)
	#define CN_CBOR_CALLOC(c, i, ctx) \
	((ctx) && (ctx)->calloc_func) ? (ctx)->calloc_func(c, i, (ctx)->context) \
	: calloc(c, i)
	#else
	#define CBOR_CONTEXT_PARAM
	#define CN_CALLOC(ctx) calloc(1, sizeof(cn_cbor));
	#define CN_CALLOC_CONTEXT() CN_CALLOC(context)
	#define CN_CBOR_CALLOC(c, i, ctx) calloc(c, i);
	#endif

	/***
	* Replace the i-th element in the array.
	* Extend the array if necessary so it has enough elements.
	*
	* @param[in] cb_array Array to use
	* @param[in] cb_value New item to be placed in the array
	* @param[in] index Zero based index to be used
	* @param[in] CBOR_CONTEXT Context based allocation structure
	* @param[in,out] errp CBOR error return on failure
	* returns Did we succeed?
	*/

	bool cn_cbor_array_replace(cn_cbor *cb_array,
	cn_cbor *cb_value,
	int index,
	CBOR_CONTEXT_COMMA cn_cbor_errback *errp)
	{
	int i;
	cn_cbor *cb_temp;
	cn_cbor *cb_temp2;

	if (!cb_array \|\| !cb_value \|\| cb_array->type != CN_CBOR_ARRAY) {
	if (errp != NULL) {
	errp->err = CN_CBOR_ERR_INVALID_PARAMETER;
	}
	return false;
	}

	if (index == 0) {
	if (cb_array->length > 0) {
	cb_temp = cb_array->first_child;

	cb_value->parent = cb_array;
	cb_value->next = cb_temp->next;
	if (cb_array->last_child == cb_temp) {
	cb_array->last_child = cb_value;
	}
	cb_array->first_child = cb_value;
	cb_temp->parent = NULL;
	cb_temp->next = NULL;
	cn_cbor_free(cb_temp CBOR_CONTEXT_PARAM);
	return true;
	}
	return cn_cbor_array_append(cb_array, cb_value, errp);
	}

	if (cb_array->first_child == NULL) {
	INIT_CB(cb_temp2);
	cb_array->first_child = cb_array->last_child = cb_temp2;
	cb_temp2->parent = cb_array;
	cb_array->length = 1;
	cb_temp2->type = CN_CBOR_INVALID;
	}

	cb_temp = cb_array->first_child;
	for (i = 1; i < index; i++) {
	if (cb_temp->next == NULL) {
	INIT_CB(cb_temp2);
	cb_temp2->type = CN_CBOR_INVALID;
	cb_temp->next = cb_temp2;
	cb_temp2->parent = cb_array;
	cb_array->last_child = cb_temp2;
	cb_array->length += 1;
	}

	cb_temp = cb_temp->next;
	}

	if (cb_temp->next == NULL) {
	cb_temp->next = cb_value;
	cb_value->parent = cb_array;
	cb_array->last_child = cb_value;
	cb_array->length += 1;
	return true;
	}

	cb_temp2 = cb_temp->next;
	cb_value->next = cb_temp2->next;
	cb_temp->next = cb_value;
	cb_value->parent = cb_array;
	if (cb_array->last_child == cb_temp2) {
	cb_array->last_child = cb_value;
	}

	cb_temp2->next = NULL;
	cb_temp2->parent = NULL;
	cn_cbor_free(cb_temp2 CBOR_CONTEXT_PARAM);

	return true;
	}

	cn_cbor cn_cbor_clone(const cn_cbor pIn,
	CBOR_CONTEXT_COMMA cn_cbor_errback *pcn_cbor_error)
	{
	cn_cbor *pOut = NULL;
	char *sz;
	unsigned char *pb;

	switch (pIn->type) {
	case CN_CBOR_TEXT:
	sz = CN_CBOR_CALLOC(pIn->length + 1, 1, context);
	if (sz == NULL) {
	return NULL;
	}
	memcpy(sz, pIn->v.str, pIn->length);
	sz[pIn->length] = 0;
	pOut = cn_cbor_string_create2(sz, 0 CBOR_CONTEXT_PARAM, pcn_cbor_error);
	break;

	case CN_CBOR_UINT:
	pOut = cn_cbor_int_create(
	pIn->v.sint CBOR_CONTEXT_PARAM, pcn_cbor_error);
	break;

	case CN_CBOR_BYTES:
	pb = CN_CBOR_CALLOC((int)pIn->length, 1, context);
	if (pb == NULL) {
	return NULL;
	}
	memcpy(pb, pIn->v.bytes, pIn->length);
	pOut = cn_cbor_data_create2(
	pb, (int)pIn->length, 0 CBOR_CONTEXT_PARAM, pcn_cbor_error);
	break;

	default:
	break;
	}

	return pOut;
	}

	#ifndef CN_CBOR_VERSION
	cn_cbor *cn_cbor_tag_create(int tag,
	cn_cbor *child,
	CBOR_CONTEXT_COMMA cn_cbor_errback *perr)
	{
	cn_cbor *pcnTag = CN_CALLOC(context);
	if (pcnTag == NULL) {
	if (perr != NULL) {
	perr->err = CN_CBOR_ERR_OUT_OF_MEMORY;
	}
	return NULL;
	}

	pcnTag->type = CN_CBOR_TAG;
	pcnTag->v.sint = tag;
	pcnTag->first_child = child;
	child->parent = pcnTag;

	return pcnTag;
	}

	cn_cbor *cn_cbor_bool_create(int boolValue,
	CBOR_CONTEXT_COMMA cn_cbor_errback *errp)
	{
	cn_cbor *pcn = CN_CALLOC(context);
	if (pcn == NULL) {
	if (errp != NULL) {
	errp->err = CN_CBOR_ERR_OUT_OF_MEMORY;
	}
	return NULL;
	}

	pcn->type = CN_CBOR_FALSE + (boolValue != 0);
	return pcn;
	}

	cn_cbor cn_cbor_null_create(CBOR_CONTEXT_COMMA cn_cbor_errback errp)
	{
	cn_cbor *pcn = CN_CALLOC(context);
	if (pcn == NULL) {
	if (errp != NULL) {
	errp->err = CN_CBOR_ERR_OUT_OF_MEMORY;
	}
	return NULL;
	}
	pcn->type = CN_CBOR_NULL;
	return pcn;
	}
	#endif

	size_t cn_cbor_encode_size(cn_cbor *object)
	{
	ssize_t size = cn_cbor_encoder_write(NULL, 0, 0, object);
	return size >= 0 ? size : 0;
	}