Azure IoT
/
serializer
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Dependents: sht15_remote_monitoring f767zi_mqtt remote_monitoring simplesample_amqp ... more
multitree.c
- Committer:
- AzureIoTClient
- Date:
- 2015-10-22
- Revision:
- 4:233dd7616d73
- Parent:
- 0:1f9b2707ec7d
- Child:
- 10:c2aee3965a83
File content as of revision 4:233dd7616d73:
// Copyright (c) Microsoft. All rights reserved.
// Licensed under the MIT license. See LICENSE file in the project root for full license information.
#include <stdlib.h>
#ifdef _CRTDBG_MAP_ALLOC
#include <crtdbg.h>
#endif
#include "gballoc.h"
#include "multitree.h"
#include <string.h>
#include "crt_abstractions.h"
#include "iot_logging.h"
/*assume a name cannot be longer than 100 characters*/
#define INNER_NODE_NAME_SIZE 128
DEFINE_ENUM_STRINGS(MULTITREE_RESULT, MULTITREE_RESULT_VALUES);
typedef struct MULTITREE_NODE_TAG
{
char* name;
void* value;
MULTITREE_CLONE_FUNCTION cloneFunction;
MULTITREE_FREE_FUNCTION freeFunction;
size_t nChildren;
struct MULTITREE_NODE_TAG** children; /*an array of nChildren count of MULTITREE_NODE* */
}MULTITREE_NODE;
MULTITREE_HANDLE MultiTree_Create(MULTITREE_CLONE_FUNCTION cloneFunction, MULTITREE_FREE_FUNCTION freeFunction)
{
MULTITREE_NODE* result;
/* Codes_SRS_MULTITREE_99_052:[If any of the arguments passed to MultiTree_Create is NULL, the call shall return NULL.]*/
if ((cloneFunction == NULL) ||
(freeFunction == NULL))
{
LogError("CloneFunction or FreeFunction is Null.\r\n");
result = NULL;
}
else
{
/*Codes_SRS_MULTITREE_99_005:[ MultiTree_Create creates a new tree.]*/
/*Codes_SRS_MULTITREE_99_006:[MultiTree_Create returns a non - NULL pointer if the tree has been successfully created.]*/
/*Codes_SRS_MULTITREE_99_007:[MultiTree_Create returns NULL if the tree has not been successfully created.]*/
result = (MULTITREE_NODE*)malloc(sizeof(MULTITREE_NODE));
if (result != NULL)
{
result->name = NULL;
result->value = NULL;
result->cloneFunction = cloneFunction;
result->freeFunction = freeFunction;
result->value = NULL;
result->nChildren = 0;
result->children = NULL;
}
else
{
LogError("MultiTree_Create failed because malloc failed\r\n");
}
}
return (MULTITREE_HANDLE)result;
}
/*return NULL if a child with the name "name" doesn't exists*/
/*returns a pointer to the existing child (if any)*/
static MULTITREE_NODE* getChildByName(MULTITREE_NODE* node, const char* name)
{
MULTITREE_NODE* result = NULL;
size_t i;
for (i = 0; i < node->nChildren; i++)
{
if (strcmp(node->children[i]->name, name) == 0)
{
result = node->children[i];
break;
}
}
return result;
}
/*helper function to create a child immediately under this node*/
/*return 0 if it created it, any other number is error*/
typedef enum CREATELEAF_RESULT_TAG
{
CREATELEAF_OK,
CREATELEAF_ALREADY_EXISTS,
CREATELEAF_EMPTY_NAME,
CREATELEAF_ERROR,
CREATELEAF_RESULT_COUNT // Used to track the number of elements in the enum
// Do not remove, or add new enum values below this one
}CREATELEAF_RESULT;
static const char* CreateLeaf_ResultAsString[CREATELEAF_RESULT_COUNT] =
{
STRINGIFY(CREATELEAF_OK),
STRINGIFY(CREATELEAF_ALREADY_EXISTS),
STRINGIFY(CREATELEAF_EMPTY_NAME),
STRINGIFY(CREATELEAF_ERROR)
};
/*name cannot be empty, value can be empty or NULL*/
#ifdef _MSC_VER
#pragma warning(disable: 4701) /* potentially uninitialized local variable 'result' used */ /* the scanner cannot track linked "newNode" and "result" therefore the warning*/
#endif
static CREATELEAF_RESULT createLeaf(MULTITREE_NODE* node, const char*name, const char*value, MULTITREE_NODE** childNode)
{
CREATELEAF_RESULT result;
/*can only create it if it doesn't exist*/
if (strlen(name) == 0)
{
/*Codes_SRS_MULTITREE_99_024:[ if a child name is empty (such as in "/child1//child12"), MULTITREE_EMPTY_CHILD_NAME shall be returned.]*/
result = CREATELEAF_EMPTY_NAME;
LogError("(result = %s)\r\n", CreateLeaf_ResultAsString[result]);
}
else if (getChildByName(node, name) != NULL)
{
result = CREATELEAF_ALREADY_EXISTS;
LogError("(result = %s)\r\n", CreateLeaf_ResultAsString[result]);
}
else
{
MULTITREE_NODE* newNode = (MULTITREE_NODE*)malloc(sizeof(MULTITREE_NODE));
if (newNode == NULL)
{
result = CREATELEAF_ERROR;
LogError("(result = %s)\r\n", CreateLeaf_ResultAsString[result]);
}
else
{
newNode->nChildren = 0;
newNode->children = NULL;
if (mallocAndStrcpy_s(&(newNode->name), name) != 0)
{
/*not nice*/
free(newNode);
newNode = NULL;
result = CREATELEAF_ERROR;
LogError("(result = %s)\r\n", CreateLeaf_ResultAsString[result]);
}
else
{
newNode->cloneFunction = node->cloneFunction;
newNode->freeFunction = node->freeFunction;
if (value == NULL)
{
newNode->value = NULL;
}
else if (node->cloneFunction(&(newNode->value), value) != 0)
{
free(newNode->name);
newNode->name = NULL;
free(newNode);
newNode = NULL;
result = CREATELEAF_ERROR;
LogError("(result = %s)\r\n", CreateLeaf_ResultAsString[result]);
}
else
{
/*all is fine until now*/
}
}
if (newNode!=NULL)
{
/*allocate space in the father node*/
MULTITREE_NODE** newChildren = (MULTITREE_NODE**)realloc(node->children, (node->nChildren + 1)*sizeof(MULTITREE_NODE*));
if (newChildren == NULL)
{
/*no space for the new node*/
newNode->value = NULL;
free(newNode->name);
newNode->name = NULL;
free(newNode);
newNode = NULL;
result = CREATELEAF_ERROR;
LogError("(result = %s)\r\n", CreateLeaf_ResultAsString[result]);
}
else
{
node->children = newChildren;
node->children[node->nChildren] = newNode;
node->nChildren++;
if (childNode != NULL)
{
*childNode = newNode;
}
result = CREATELEAF_OK;
}
}
}
}
return result;
#ifdef _MSC_VER
#pragma warning(default: 4701) /* potentially uninitialized local variable 'result' used */ /* the scanner cannot track linked "newNode" and "result" therefore the warning*/
#endif
}
MULTITREE_RESULT MultiTree_AddLeaf(MULTITREE_HANDLE treeHandle, const char* destinationPath, const void* value)
{
/*codes_SRS_MULTITREE_99_018:[ If the treeHandle parameter is NULL, MULTITREE_INVALID_ARG shall be returned.]*/
MULTITREE_RESULT result;
if (treeHandle == NULL)
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
/*Codes_SRS_MULTITREE_99_019:[ If parameter destinationPath is NULL, MULTITREE_INVALID_ARG shall be returned.]*/
else if (destinationPath == NULL)
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
/*Codes_SRS_MULTITREE_99_020:[ If parameter value is NULL, MULTITREE_INVALID_ARG shall be returned.]*/
else if (value == NULL)
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
/*Codes_SRS_MULTITREE_99_050:[ If destinationPath a string with zero characters, MULTITREE_INVALID_ARG shall be returned.]*/
else if (strlen(destinationPath) == 0)
{
result = MULTITREE_EMPTY_CHILD_NAME;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
/*break the path into components*/
/*find the first child name*/
MULTITREE_NODE * node = (MULTITREE_NODE *)treeHandle;
char * whereIsDelimiter;
/*if first character is / then skip it*/
/*Codes_SRS_MULTITREE_99_014:[DestinationPath is a string in the following format: /child1/child12 or child1/child12] */
if (destinationPath[0] == '/')
{
destinationPath++;
}
/*if there's just a string, it needs to be created here*/
whereIsDelimiter = (char*)strchr(destinationPath, '/');
if (whereIsDelimiter == NULL)
{
/*Codes_SRS_MULTITREE_99_017:[ Subsequent names designate hierarchical children in the tree. The last child designates the child that will receive the value.]*/
CREATELEAF_RESULT res = createLeaf(node, destinationPath, (const char*)value, NULL);
switch (res)
{
default:
{
/*Codes_SRS_MULTITREE_99_025:[The function shall return MULTITREE_ERROR to indicate any other error not specified here.]*/
result = MULTITREE_ERROR;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
break;
}
case CREATELEAF_ALREADY_EXISTS:
{
/*Codes_SRS_MULTITREE_99_021:[ If the node already has a value assigned to it, MULTITREE_ALREADY_HAS_A_VALUE shall be returned and the existing value shall not be changed.]*/
result = MULTITREE_ALREADY_HAS_A_VALUE;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
break;
}
case CREATELEAF_OK:
{
/*Codes_SRS_MULTITREE_99_034:[ The function returns MULTITREE_OK when data has been stored in the tree.]*/
result = MULTITREE_OK;
break;
}
case CREATELEAF_EMPTY_NAME:
{
/*Codes_SRS_MULTITREE_99_024:[ if a child name is empty (such as in "/child1//child12"), MULTITREE_EMPTY_CHILD_NAME shall be returned.]*/
result = MULTITREE_EMPTY_CHILD_NAME;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
break;
}
}
}
else
{
/*if there's more or 1 delimiter in the path... */
/*Codes_SRS_MULTITREE_99_017:[ Subsequent names designate hierarchical children in the tree. The last child designates the child that will receive the value.]*/
char firstInnerNodeName[INNER_NODE_NAME_SIZE];
if (strncpy_s(firstInnerNodeName, INNER_NODE_NAME_SIZE, destinationPath, whereIsDelimiter - destinationPath) != 0)
{
/*Codes_SRS_MULTITREE_99_025:[ The function shall return MULTITREE_ERROR to indicate any other error not specified here.]*/
result = MULTITREE_ERROR;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
MULTITREE_NODE *child = getChildByName(node, firstInnerNodeName);
if (child == NULL)
{
/*Codes_SRS_MULTITREE_99_022:[ If a child along the path does not exist, it shall be created.] */
/*Codes_SRS_MULTITREE_99_023:[ The newly created children along the path shall have a NULL value by default.]*/
CREATELEAF_RESULT res = createLeaf(node, firstInnerNodeName, NULL, NULL);
switch (res)
{
default:
{
result = MULTITREE_ERROR;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
break;
}
case(CREATELEAF_EMPTY_NAME):
{
/*Codes_SRS_MULTITREE_99_024:[ if a child name is empty (such as in "/child1//child12"), MULTITREE_EMPTY_CHILD_NAME shall be returned.]*/
result = MULTITREE_EMPTY_CHILD_NAME;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
break;
}
case(CREATELEAF_OK):
{
MULTITREE_NODE *createdChild = getChildByName(node, firstInnerNodeName);
result = MultiTree_AddLeaf(createdChild, whereIsDelimiter, value);
break;
}
};
}
else
{
result = MultiTree_AddLeaf(child, whereIsDelimiter, value);
}
}
}
}
return result;
}
/* Codes_SRS_MULTITREE_99_053:[ MultiTree_AddChild shall add a new node with the name childName to the multi tree node identified by treeHandle] */
MULTITREE_RESULT MultiTree_AddChild(MULTITREE_HANDLE treeHandle, const char* childName, MULTITREE_HANDLE* childHandle)
{
MULTITREE_RESULT result;
/* Codes_SRS_MULTITREE_99_055:[ If any argument is NULL, MultiTree_AddChild shall return MULTITREE_INVALID_ARG.] */
if ((treeHandle == NULL) ||
(childName == NULL) ||
(childHandle == NULL))
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
MULTITREE_NODE* childNode;
/* Codes_SRS_MULTITREE_99_060:[ The value associated with the new node shall be NULL.] */
CREATELEAF_RESULT res = createLeaf((MULTITREE_NODE*)treeHandle, childName, NULL, &childNode);
switch (res)
{
default:
{
result = MULTITREE_ERROR;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
break;
}
case CREATELEAF_ALREADY_EXISTS:
{
/* Codes_SRS_MULTITREE_99_061:[ If a child node with the same name already exists, MultiTree_AddChild shall return MULTITREE_ALREADY_HAS_A_VALUE.] */
result = MULTITREE_ALREADY_HAS_A_VALUE;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
break;
}
case CREATELEAF_OK:
{
/* Codes_SRS_MULTITREE_99_062:[ The new node handle shall be returned in the childHandle argument.] */
*childHandle = childNode;
/* Codes_SRS_MULTITREE_99_054:[ On success, MultiTree_AddChild shall return MULTITREE_OK.] */
result = MULTITREE_OK;
break;
}
case CREATELEAF_EMPTY_NAME:
{
/* Tests_SRS_MULTITREE_99_066:[ If the childName argument is an empty string, MultiTree_AddChild shall return MULTITREE_EMPTY_CHILD_NAME.] */
result = MULTITREE_EMPTY_CHILD_NAME;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
break;
}
}
}
return result;
}
MULTITREE_RESULT MultiTree_GetChildCount(MULTITREE_HANDLE treeHandle, size_t* count)
{
MULTITREE_RESULT result;
/*Codes_SRS_MULTITREE_99_027:[If treeHandle is NULL, the function returns MULTITREE_INVALID_ARG.]*/
if (treeHandle == NULL)
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
/*Codes_SRS_MULTITREE_99_028:[ If parameter count is NULL, the function returns MULTITREE_INVALID_ARG.]*/
else if (count == NULL)
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
/*Codes_SRS_MULTITREE_99_029:[ This function writes in *count the number of direct children for a tree node specified by the parameter treeHandle]*/
*count = ((MULTITREE_NODE*)treeHandle)->nChildren;
/*Codes_SRS_MULTITREE_99_035:[ The function shall return MULTITREE_OK when *count contains the number of children of the node pointed to be parameter treeHandle.]*/
result = MULTITREE_OK;
}
return result;
}
MULTITREE_RESULT MultiTree_GetChild(MULTITREE_HANDLE treeHandle, size_t index, MULTITREE_HANDLE *childHandle)
{
MULTITREE_RESULT result;
/*Codes_SRS_MULTITREE_99_031:[ If parameter treeHandle is NULL, the function returns MULTITREE_INVALID_ARG.]*/
if (treeHandle == NULL)
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
/*Codes_SRS_MULTITREE_99_033:[ If parameter childHandle is NULL, the function shall return MULTITREE_INVALID_ARG.]*/
else if (childHandle == NULL)
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
MULTITREE_NODE * node = (MULTITREE_NODE *)treeHandle;
/*Codes_SRS_MULTITREE_99_032:[If parameter index is out of range, the function shall return MULTITREE_OUT_OF_RANGE_INDEX]*/
if (node->nChildren <= index)
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
/*Codes_SRS_MULTITREE_99_030:[ This function writes in *childHandle parameter the "index"th child of the node pointed to by parameter treeHandle]*/
/*Codes_SRS_MULTITREE_99_035:[ The function returns MULTITREE_OK when *childHandle contains a handle to the "index"th child of the tree designated by parameter treeHandle.]*/
*childHandle = node->children[index];
result = MULTITREE_OK;
}
}
return result;
}
MULTITREE_RESULT MultiTree_GetName(MULTITREE_HANDLE treeHandle, STRING_HANDLE destination)
{
MULTITREE_RESULT result;
/*Codes_SRS_MULTITREE_99_037:[ If treeHandle is NULL, the function shall return MULTITREE_INVALID_ARG.]*/
if (treeHandle == NULL)
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
/*Codes_SRS_MULTITREE_99_038:[If destination is NULL, the function shall return MULTITREE_INVALID_ARG.]*/
else if (destination == NULL)
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
MULTITREE_NODE *node = (MULTITREE_NODE*)treeHandle;
/*Codes_SRS_MULTITREE_99_051:[ The function returns MULTITREE_EMPTY_CHILD_NAME when used with the root of the tree.]*/
if (node->name == NULL)
{
result = MULTITREE_EMPTY_CHILD_NAME;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
/*Codes_SRS_MULTITREE_99_036:[ This function fills the buffer pointed to by parameter destination with the name of the root node of the tree designated by parameter treeHandle.]*/
else if (STRING_concat(destination, node->name)!=0)
{
/*Codes_SRS_MULTITREE_99_040:[ The function returns MULTITREE_ERROR to indicate any other error.]*/
result = MULTITREE_ERROR;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
/*Codes_SRS_MULTITREE_99_039:[ The function returns MULTITREE_OK when destination contains the name of the root node of the tree designated by treeHandle parameter.]*/
result = MULTITREE_OK;
}
}
return result;
}
/* Codes_SRS_MULTITREE_99_063:[ MultiTree_GetChildByName shall retrieve the handle of the child node childName from the treeNode node.] */
MULTITREE_RESULT MultiTree_GetChildByName(MULTITREE_HANDLE treeHandle, const char* childName, MULTITREE_HANDLE *childHandle)
{
MULTITREE_RESULT result;
/* Codes_SRS_MULTITREE_99_065:[ If any argument is NULL, MultiTree_GetChildByName shall return MULTITREE_INVALID_ARG.] */
if ((treeHandle == NULL) ||
(childHandle == NULL) ||
(childName == NULL))
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
MULTITREE_NODE * node = (MULTITREE_NODE *)treeHandle;
size_t i;
for (i = 0; i < node->nChildren; i++)
{
if (strcmp(node->children[i]->name, childName) == 0)
{
break;
}
}
if (i == node->nChildren)
{
/* Codes_SRS_MULTITREE_99_068:[ If the specified child is not found, MultiTree_GetChildByName shall return MULTITREE_CHILD_NOT_FOUND.] */
result = MULTITREE_CHILD_NOT_FOUND;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
/* Codes_SRS_MULTITREE_99_067:[ The child node handle shall be returned in the childHandle argument.] */
*childHandle = node->children[i];
/* Codes_SRS_MULTITREE_99_064:[ On success, MultiTree_GetChildByName shall return MULTITREE_OK.] */
result = MULTITREE_OK;
}
}
return result;
}
MULTITREE_RESULT MultiTree_GetValue(MULTITREE_HANDLE treeHandle, const void** destination)
{
MULTITREE_RESULT result;
/*Codes_SRS_MULTITREE_99_042:[If treeHandle is NULL, the function shall return MULTITREE_INVALID_ARG.]*/
if (treeHandle == NULL)
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
/*Codes_SRS_MULTITREE_99_043:[ If destination is NULL, the function shall return MULTITREE_INVALID_ARG.]*/
else if (destination == NULL)
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
MULTITREE_NODE * node = (MULTITREE_NODE*)treeHandle;
/*Codes_SRS_MULTITREE_99_044:[ If there is no value in the node then MULTITREE_EMPTY_VALUE shall be returned.]*/
if (node->value == NULL)
{
result = MULTITREE_EMPTY_VALUE;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
/*Codes_SRS_MULTITREE_99_041:[This function updates the *destination parameter to the internally stored value.]*/
*destination = node->value;
result = MULTITREE_OK;
}
}
return result;
}
MULTITREE_RESULT MultiTree_SetValue(MULTITREE_HANDLE treeHandle, void* value)
{
MULTITREE_RESULT result;
/* Codes_SRS_MULTITREE_99_074:[ If any argument is NULL, MultiTree_SetValue shall return MULTITREE_INVALID_ARG.] */
if ((treeHandle == NULL) ||
(value == NULL))
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
MULTITREE_NODE * node = (MULTITREE_NODE*)treeHandle;
if (node->value != NULL)
{
/* Codes_SRS_MULTITREE_99_076:[ If the node already has a value then MultiTree_SetValue shall return MULTITREE_ALREADY_HAS_A_VALUE.] */
result = MULTITREE_ALREADY_HAS_A_VALUE;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
/* Codes_SRS_MULTITREE_99_072:[ MultiTree_SetValue shall set the value of the node indicated by the treeHandle argument to the value of the argument value.] */
if (node->cloneFunction(&node->value, value) != 0)
{
/* Codes_SRS_MULTITREE_99_075:[ MultiTree_SetValue shall return MULTITREE_ERROR to indicate any other error.] */
result = MULTITREE_ERROR;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
/* Codes_SRS_MULTITREE_99_073:[ On success, MultiTree_SetValue shall return MULTITREE_OK.] */
result = MULTITREE_OK;
}
}
}
return result;
}
void MultiTree_Destroy(MULTITREE_HANDLE treeHandle)
{
if (treeHandle != NULL)
{
MULTITREE_NODE* node = (MULTITREE_NODE*)treeHandle;
size_t i;
for (i = 0; i < node->nChildren;i++)
{
/*Codes_SRS_MULTITREE_99_047:[ This function frees any system resource used by the tree designated by parameter treeHandle]*/
MultiTree_Destroy(node->children[i]);
}
/*Codes_SRS_MULTITREE_99_047:[ This function frees any system resource used by the tree designated by parameter treeHandle]*/
if (node->children != NULL)
{
free(node->children);
node->children = NULL;
}
/*Codes_SRS_MULTITREE_99_047:[ This function frees any system resource used by the tree designated by parameter treeHandle]*/
if (node->name != NULL)
{
free(node->name);
node->name = NULL;
}
/*Codes_SRS_MULTITREE_99_047:[ This function frees any system resource used by the tree designated by parameter treeHandle]*/
if (node->value != NULL)
{
node->freeFunction(node->value);
node->value = NULL;
}
/*Codes_SRS_MULTITREE_99_047:[ This function frees any system resource used by the tree designated by parameter treeHandle]*/
free(node);
}
}
MULTITREE_RESULT MultiTree_GetLeafValue(MULTITREE_HANDLE treeHandle, const char* leafPath, const void** destination)
{
MULTITREE_RESULT result;
/* Codes_SRS_MULTITREE_99_055:[ If any argument is NULL, MultiTree_GetLeafValue shall return MULTITREE_INVALID_ARG.] */
if ((treeHandle == NULL) ||
(leafPath == NULL) ||
(destination == NULL))
{
result = MULTITREE_INVALID_ARG;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
/* Codes_SRS_MULTITREE_99_058:[ The last child designates the child that will receive the value. If a child name is empty (such as in "/child1//child12"), MULTITREE_EMPTY_CHILD_NAME shall be returned.] */
else if (strlen(leafPath) == 0)
{
result = MULTITREE_EMPTY_CHILD_NAME;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
/*break the path into components*/
/*find the first child name*/
MULTITREE_NODE* node = (MULTITREE_NODE *)treeHandle;
const char* pos = leafPath;
const char * whereIsDelimiter;
/*if first character is / then skip it*/
if (*pos == '/')
{
pos++;
}
if (*pos == '\0')
{
/* Codes_SRS_MULTITREE_99_069:[ If a child name is empty (such as in "/child1//child12"), MULTITREE_EMPTY_CHILD_NAME shall be returned.] */
result = MULTITREE_EMPTY_CHILD_NAME;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
else
{
result = MULTITREE_OK;
/* Codes_SRS_MULTITREE_99_056:[ The leafPath argument is a string in the following format: /child1/child12 or child1/child12.] */
/* Codes_SRS_MULTITREE_99_058:[ The last child designates the child that will receive the value.] */
while (*pos != '\0')
{
size_t i;
size_t childCount = node->nChildren;
whereIsDelimiter = pos;
while ((*whereIsDelimiter != '/') && (*whereIsDelimiter != '\0'))
{
whereIsDelimiter++;
}
if (whereIsDelimiter == pos)
{
/* Codes_SRS_MULTITREE_99_069:[ If a child name is empty (such as in "/child1//child12"), MULTITREE_EMPTY_CHILD_NAME shall be returned.] */
result = MULTITREE_EMPTY_CHILD_NAME;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
break;
}
else if (childCount == 0)
{
/* Codes_SRS_MULTITREE_99_071:[ When the child node is not found, MultiTree_GetLeafValue shall return MULTITREE_CHILD_NOT_FOUND.] */
result = MULTITREE_CHILD_NOT_FOUND;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
break;
}
else
{
for (i = 0; i < childCount; i++)
{
if (strncmp(node->children[i]->name, pos, whereIsDelimiter - pos) == 0)
{
/* Codes_SRS_MULTITREE_99_057:[ Subsequent names designate hierarchical children in the tree.] */
node = node->children[i];
break;
}
}
if (i == childCount)
{
/* Codes_SRS_MULTITREE_99_071:[ When the child node is not found, MultiTree_GetLeafValue shall return MULTITREE_CHILD_NOT_FOUND.] */
result = MULTITREE_CHILD_NOT_FOUND;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
break;
}
else
{
if (*whereIsDelimiter == '/')
{
pos = whereIsDelimiter + 1;
}
else
{
/* end of path */
pos = whereIsDelimiter;
break;
}
}
}
}
if (*pos == 0)
{
if (node->value == NULL)
{
/* Codes_SRS_MULTITREE_99_070:[ If an attempt is made to get the value for a node that does not have a value set, then MultiTree_GetLeafValue shall return MULTITREE_EMPTY_VALUE.] */
result = MULTITREE_EMPTY_VALUE;
LogError("(result = %s)\r\n", ENUM_TO_STRING(MULTITREE_RESULT, result));
}
/*Codes_SRS_MULTITREE_99_053:[ MultiTree_GetLeafValue shall copy into the *destination argument the value of the node identified by the leafPath argument.]*/
else
{
*destination = node->value;
/* Codes_SRS_MULTITREE_99_054:[ On success, MultiTree_GetLeafValue shall return MULTITREE_OK.] */
result = MULTITREE_OK;
}
}
}
}
return result;
}
