Julian Higginson
/
FXOS8700CQ_To_Azure_IoT
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Dependencies: FXOS8700CQ NTPClient azure_umqtt_c iothub_mqtt_transport mbed-rtos mbed wolfSSL Socket lwip-eth lwip-sys lwip
Fork of
FXOS8700CQ_To_Azure_IoT
by 
Mark Radbourne
azure_c_shared_utility/map.c
- Committer:
- julianhigginson
- Date:
- 2017-01-05
- Revision:
- 7:0d1a0fe537dc
- Parent:
- 3:c0556ff7b8e3
File content as of revision 7:0d1a0fe537dc:
// 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 "azure_c_shared_utility/gballoc.h"
#include "azure_c_shared_utility/map.h"
#include "azure_c_shared_utility/xlogging.h"
#include "azure_c_shared_utility/strings.h"
DEFINE_ENUM_STRINGS(MAP_RESULT, MAP_RESULT_VALUES);
typedef struct MAP_HANDLE_DATA_TAG
{
char** keys;
char** values;
size_t count;
MAP_FILTER_CALLBACK mapFilterCallback;
}MAP_HANDLE_DATA;
#define LOG_MAP_ERROR LogError("result = %s", ENUM_TO_STRING(MAP_RESULT, result));
MAP_HANDLE Map_Create(MAP_FILTER_CALLBACK mapFilterFunc)
{
/*Codes_SRS_MAP_02_001: [Map_Create shall create a new, empty map.]*/
MAP_HANDLE_DATA* result = (MAP_HANDLE_DATA*)malloc(sizeof(MAP_HANDLE_DATA));
/*Codes_SRS_MAP_02_002: [If during creation there are any error, then Map_Create shall return NULL.]*/
if (result != NULL)
{
/*Codes_SRS_MAP_02_003: [Otherwise, it shall return a non-NULL handle that can be used in subsequent calls.] */
result->keys = NULL;
result->values = NULL;
result->count = 0;
result->mapFilterCallback = mapFilterFunc;
}
return (MAP_HANDLE)result;
}
void Map_Destroy(MAP_HANDLE handle)
{
/*Codes_SRS_MAP_02_005: [If parameter handle is NULL then Map_Destroy shall take no action.] */
if (handle != NULL)
{
/*Codes_SRS_MAP_02_004: [Map_Destroy shall release all resources associated with the map.] */
MAP_HANDLE_DATA* handleData = (MAP_HANDLE_DATA*)handle;
size_t i;
for (i = 0; i < handleData->count; i++)
{
free(handleData->keys[i]);
free(handleData->values[i]);
}
free(handleData->keys);
free(handleData->values);
free(handleData);
}
}
/*makes a copy of a vector of const char*, having size "size". source cannot be NULL*/
/*returns NULL if it fails*/
static char** Map_CloneVector(const char*const * source, size_t count)
{
char** result;
result = (char**)malloc(count *sizeof(char*));
if (result == NULL)
{
/*do nothing, just return it (NULL)*/
}
else
{
size_t i;
for (i = 0; i < count; i++)
{
if (mallocAndStrcpy_s(result + i, source[i]) != 0)
{
break;
}
}
if (i == count)
{
/*it is all good, proceed to return result*/
}
else
{
size_t j;
for (j = 0; j < i; j++)
{
free(result[j]);
}
free(result);
result = NULL;
}
}
return result;
}
/*Codes_SRS_MAP_02_039: [Map_Clone shall make a copy of the map indicated by parameter handle and return a non-NULL handle to it.]*/
MAP_HANDLE Map_Clone(MAP_HANDLE handle)
{
MAP_HANDLE_DATA* result;
if (handle == NULL)
{
/*Codes_SRS_MAP_02_038: [Map_Clone returns NULL if parameter handle is NULL.]*/
result = NULL;
LogError("invalid arg to Map_Clone (NULL)");
}
else
{
MAP_HANDLE_DATA * handleData = (MAP_HANDLE_DATA *)handle;
result = (MAP_HANDLE_DATA*)malloc(sizeof(MAP_HANDLE_DATA));
if (result == NULL)
{
/*Codes_SRS_MAP_02_047: [If during cloning, any operation fails, then Map_Clone shall return NULL.] */
/*do nothing, proceed to return it, this is an error case*/
LogError("unable to malloc");
}
else
{
if (handleData->count == 0)
{
result->count = 0;
result->keys = NULL;
result->values = NULL;
result->mapFilterCallback = NULL;
}
else
{
result->mapFilterCallback = handleData->mapFilterCallback;
result->count = handleData->count;
if( (result->keys = Map_CloneVector((const char* const*)handleData->keys, handleData->count))==NULL)
{
/*Codes_SRS_MAP_02_047: [If during cloning, any operation fails, then Map_Clone shall return NULL.] */
LogError("unable to clone keys");
free(result);
result = NULL;
}
else if ((result->values = Map_CloneVector((const char* const*)handleData->values, handleData->count)) == NULL)
{
/*Codes_SRS_MAP_02_047: [If during cloning, any operation fails, then Map_Clone shall return NULL.] */
LogError("unable to clone values");
size_t i;
for (i = 0; i < result->count; i++)
{
free(result->keys[i]);
}
free(result->keys);
free(result);
result = NULL;
}
else
{
/*all fine, return it*/
}
}
}
}
return (MAP_HANDLE)result;
}
static int Map_IncreaseStorageKeysValues(MAP_HANDLE_DATA* handleData)
{
int result;
char** newKeys = (char**)realloc(handleData->keys, (handleData->count + 1) * sizeof(char*));
if (newKeys == NULL)
{
LogError("realloc error");
result = __LINE__;
}
else
{
char** newValues;
handleData->keys = newKeys;
handleData->keys[handleData->count] = NULL;
newValues = (char**)realloc(handleData->values, (handleData->count + 1) * sizeof(char*));
if (newValues == NULL)
{
LogError("realloc error");
if (handleData->count == 0) /*avoiding an implementation defined behavior */
{
free(handleData->keys);
handleData->keys = NULL;
}
else
{
char** undoneKeys = (char**)realloc(handleData->keys, (handleData->count) * sizeof(char*));
if (undoneKeys == NULL)
{
LogError("CATASTROPHIC error, unable to undo through realloc to a smaller size");
}
else
{
handleData->keys = undoneKeys;
}
}
result = __LINE__;
}
else
{
handleData->values = newValues;
handleData->values[handleData->count] = NULL;
handleData->count++;
result = 0;
}
}
return result;
}
static void Map_DecreaseStorageKeysValues(MAP_HANDLE_DATA* handleData)
{
if (handleData->count == 1)
{
free(handleData->keys);
handleData->keys = NULL;
free(handleData->values);
handleData->values = NULL;
handleData->count = 0;
handleData->mapFilterCallback = NULL;
}
else
{
/*certainly > 1...*/
char** undoneValues;
char** undoneKeys = (char**)realloc(handleData->keys, sizeof(char*)* (handleData->count - 1));
if (undoneKeys == NULL)
{
LogError("CATASTROPHIC error, unable to undo through realloc to a smaller size");
}
else
{
handleData->keys = undoneKeys;
}
undoneValues = (char**)realloc(handleData->values, sizeof(char*)* (handleData->count - 1));
if (undoneValues == NULL)
{
LogError("CATASTROPHIC error, unable to undo through realloc to a smaller size");
}
else
{
handleData->values = undoneValues;
}
handleData->count--;
}
}
static char** findKey(MAP_HANDLE_DATA* handleData, const char* key)
{
char** result;
if (handleData->keys == NULL)
{
result = NULL;
}
else
{
size_t i;
result = NULL;
for (i = 0; i < handleData->count; i++)
{
if (strcmp(handleData->keys[i], key) == 0)
{
result = handleData->keys + i;
break;
}
}
}
return result;
}
static char** findValue(MAP_HANDLE_DATA* handleData, const char* value)
{
char** result;
if (handleData->values == NULL)
{
result = NULL;
}
else
{
size_t i;
result = NULL;
for (i = 0; i < handleData->count; i++)
{
if (strcmp(handleData->values[i], value) == 0)
{
result = handleData->values + i;
break;
}
}
}
return result;
}
static int insertNewKeyValue(MAP_HANDLE_DATA* handleData, const char* key, const char* value)
{
int result;
if (Map_IncreaseStorageKeysValues(handleData) != 0) /*this increases handleData->count*/
{
result = __LINE__;
}
else
{
if (mallocAndStrcpy_s(&(handleData->keys[handleData->count - 1]), key) != 0)
{
Map_DecreaseStorageKeysValues(handleData);
LogError("unable to mallocAndStrcpy_s");
result = __LINE__;
}
else
{
if (mallocAndStrcpy_s(&(handleData->values[handleData->count - 1]), value) != 0)
{
free(handleData->keys[handleData->count - 1]);
Map_DecreaseStorageKeysValues(handleData);
LogError("unable to mallocAndStrcpy_s");
result = __LINE__;
}
else
{
result = 0;
}
}
}
return result;
}
MAP_RESULT Map_Add(MAP_HANDLE handle, const char* key, const char* value)
{
MAP_RESULT result;
/*Codes_SRS_MAP_02_006: [If parameter handle is NULL then Map_Add shall return MAP_INVALID_ARG.] */
/*Codes_SRS_MAP_02_007: [If parameter key is NULL then Map_Add shall return MAP_INVALID_ARG.]*/
/*Codes_SRS_MAP_02_008: [If parameter value is NULL then Map_Add shall return MAP_INVALID_ARG.] */
if (
(handle == NULL) ||
(key == NULL) ||
(value == NULL)
)
{
result = MAP_INVALIDARG;
LOG_MAP_ERROR;
}
else
{
MAP_HANDLE_DATA* handleData = (MAP_HANDLE_DATA*)handle;
/*Codes_SRS_MAP_02_009: [If the key already exists, then Map_Add shall return MAP_KEYEXISTS.] */
if (findKey(handleData, key) != NULL)
{
result = MAP_KEYEXISTS;
}
else
{
/* Codes_SRS_MAP_07_009: [If the mapFilterCallback function is not NULL, then the return value will be check and if it is not zero then Map_Add shall return MAP_FILTER_REJECT.] */
if ( (handleData->mapFilterCallback != NULL) && (handleData->mapFilterCallback(key, value) != 0) )
{
result = MAP_FILTER_REJECT;
}
else
{
/*Codes_SRS_MAP_02_010: [Otherwise, Map_Add shall add the pair <key,value> to the map.] */
if (insertNewKeyValue(handleData, key, value) != 0)
{
/*Codes_SRS_MAP_02_011: [If adding the pair <key,value> fails then Map_Add shall return MAP_ERROR.] */
result = MAP_ERROR;
LOG_MAP_ERROR;
}
else
{
/*Codes_SRS_MAP_02_012: [Otherwise, Map_Add shall return MAP_OK.] */
result = MAP_OK;
}
}
}
}
return result;
}
MAP_RESULT Map_AddOrUpdate(MAP_HANDLE handle, const char* key, const char* value)
{
MAP_RESULT result;
/*Codes_SRS_MAP_02_013: [If parameter handle is NULL then Map_AddOrUpdate shall return MAP_INVALID_ARG.]*/
/*Codes_SRS_MAP_02_014: [If parameter key is NULL then Map_AddOrUpdate shall return MAP_INVALID_ARG.]*/
/*Codes_SRS_MAP_02_015: [If parameter value is NULL then Map_AddOrUpdate shall return MAP_INVALID_ARG.] */
if (
(handle == NULL) ||
(key == NULL) ||
(value == NULL)
)
{
result = MAP_INVALIDARG;
LOG_MAP_ERROR;
}
else
{
MAP_HANDLE_DATA* handleData = (MAP_HANDLE_DATA*)handle;
/* Codes_SRS_MAP_07_008: [If the mapFilterCallback function is not NULL, then the return value will be check and if it is not zero then Map_AddOrUpdate shall return MAP_FILTER_REJECT.] */
if (handleData->mapFilterCallback != NULL && handleData->mapFilterCallback(key, value) != 0)
{
result = MAP_FILTER_REJECT;
}
else
{
char** whereIsIt = findKey(handleData, key);
if (whereIsIt == NULL)
{
/*Codes_SRS_MAP_02_017: [Otherwise, Map_AddOrUpdate shall add the pair <key,value> to the map.]*/
if (insertNewKeyValue(handleData, key, value) != 0)
{
result = MAP_ERROR;
LOG_MAP_ERROR;
}
else
{
result = MAP_OK;
}
}
else
{
/*Codes_SRS_MAP_02_016: [If the key already exists, then Map_AddOrUpdate shall overwrite the value of the existing key with parameter value.]*/
size_t index = whereIsIt - handleData->keys;
size_t valueLength = strlen(value);
/*try to realloc value of this key*/
char* newValue = (char*)realloc(handleData->values[index],valueLength + 1);
if (newValue == NULL)
{
result = MAP_ERROR;
LOG_MAP_ERROR;
}
else
{
memcpy(newValue, value, valueLength + 1);
handleData->values[index] = newValue;
/*Codes_SRS_MAP_02_019: [Otherwise, Map_AddOrUpdate shall return MAP_OK.] */
result = MAP_OK;
}
}
}
}
return result;
}
MAP_RESULT Map_Delete(MAP_HANDLE handle, const char* key)
{
MAP_RESULT result;
/*Codes_SRS_MAP_02_020: [If parameter handle is NULL then Map_Delete shall return MAP_INVALIDARG.]*/
/*Codes_SRS_MAP_02_021: [If parameter key is NULL then Map_Delete shall return MAP_INVALIDARG.]*/
if (
(handle == NULL) ||
(key == NULL)
)
{
result = MAP_INVALIDARG;
LOG_MAP_ERROR;
}
else
{
MAP_HANDLE_DATA* handleData = (MAP_HANDLE_DATA*)handle;
char** whereIsIt = findKey(handleData,key);
if (whereIsIt == NULL)
{
/*Codes_SRS_MAP_02_022: [If key does not exist then Map_Delete shall return MAP_KEYNOTFOUND.]*/
result = MAP_KEYNOTFOUND;
}
else
{
/*Codes_SRS_MAP_02_023: [Otherwise, Map_Delete shall remove the key and its associated value from the map and return MAP_OK.]*/
size_t index = whereIsIt - handleData->keys;
free(handleData->keys[index]);
free(handleData->values[index]);
memmove(handleData->keys + index, handleData->keys + index + 1, (handleData->count - index - 1)*sizeof(char*)); /*if order doesn't matter... then this can be optimized*/
memmove(handleData->values + index, handleData->values + index + 1, (handleData->count - index - 1)*sizeof(char*));
Map_DecreaseStorageKeysValues(handleData);
result = MAP_OK;
}
}
return result;
}
MAP_RESULT Map_ContainsKey(MAP_HANDLE handle, const char* key, bool* keyExists)
{
MAP_RESULT result;
/*Codes_SRS_MAP_02_024: [If parameter handle, key or keyExists are NULL then Map_ContainsKey shall return MAP_INVALIDARG.]*/
if (
(handle ==NULL) ||
(key == NULL) ||
(keyExists == NULL)
)
{
result = MAP_INVALIDARG;
LOG_MAP_ERROR;
}
else
{
MAP_HANDLE_DATA* handleData = (MAP_HANDLE_DATA*)handle;
/*Codes_SRS_MAP_02_025: [Otherwise if a key exists then Map_ContainsKey shall return MAP_OK and shall write in keyExists "true".]*/
/*Codes_SRS_MAP_02_026: [If a key doesn't exist, then Map_ContainsKey shall return MAP_OK and write in keyExists "false".] */
*keyExists = (findKey(handleData, key) != NULL) ? true: false;
result = MAP_OK;
}
return result;
}
MAP_RESULT Map_ContainsValue(MAP_HANDLE handle, const char* value, bool* valueExists)
{
MAP_RESULT result;
/*Codes_SRS_MAP_02_027: [If parameter handle, value or valueExists is NULL then Map_ContainsValue shall return MAP_INVALIDARG.] */
if (
(handle == NULL) ||
(value == NULL) ||
(valueExists == NULL)
)
{
result = MAP_INVALIDARG;
LOG_MAP_ERROR;
}
else
{
MAP_HANDLE_DATA* handleData = (MAP_HANDLE_DATA*)handle;
/*Codes_SRS_MAP_02_028: [Otherwise, if a pair <key, value> has its value equal to the parameter value, the Map_ContainsValue shall return MAP_OK and shall write in valueExists "true".]*/
/*Codes_SRS_MAP_02_029: [Otherwise, if such a <key, value> does not exist, then Map_ContainsValue shall return MAP_OK and shall write in valueExists "false".] */
*valueExists = (findValue(handleData, value) != NULL) ? true : false;
result = MAP_OK;
}
return result;
}
const char* Map_GetValueFromKey(MAP_HANDLE handle, const char* key)
{
const char* result;
/*Codes_SRS_MAP_02_040: [If parameter handle or key is NULL then Map_GetValueFromKey returns NULL.]*/
if (
(handle == NULL) ||
(key == NULL)
)
{
result = NULL;
LogError("invalid parameter to Map_GetValueFromKey");
}
else
{
MAP_HANDLE_DATA * handleData = (MAP_HANDLE_DATA *)handle;
char** whereIsIt = findKey(handleData, key);
if(whereIsIt == NULL)
{
/*Codes_SRS_MAP_02_041: [If the key is not found, then Map_GetValueFromKey returns NULL.]*/
result = NULL;
}
else
{
/*Codes_SRS_MAP_02_042: [Otherwise, Map_GetValueFromKey returns the key's value.] */
size_t index = whereIsIt - handleData->keys;
result = handleData->values[index];
}
}
return result;
}
MAP_RESULT Map_GetInternals(MAP_HANDLE handle, const char*const** keys, const char*const** values, size_t* count)
{
MAP_RESULT result;
/*Codes_SRS_MAP_02_046: [If parameter handle, keys, values or count is NULL then Map_GetInternals shall return MAP_INVALIDARG.] */
if (
(handle == NULL) ||
(keys == NULL) ||
(values == NULL) ||
(count == NULL)
)
{
result = MAP_INVALIDARG;
LOG_MAP_ERROR;
}
else
{
/*Codes_SRS_MAP_02_043: [Map_GetInternals shall produce in *keys an pointer to an array of const char* having all the keys stored so far by the map.]*/
/*Codes_SRS_MAP_02_044: [Map_GetInternals shall produce in *values a pointer to an array of const char* having all the values stored so far by the map.]*/
/*Codes_SRS_MAP_02_045: [ Map_GetInternals shall produce in *count the number of stored keys and values.]*/
MAP_HANDLE_DATA * handleData = (MAP_HANDLE_DATA *)handle;
*keys =(const char* const*)(handleData->keys);
*values = (const char* const*)(handleData->values);
*count = handleData->count;
result = MAP_OK;
}
return result;
}
STRING_HANDLE Map_ToJSON(MAP_HANDLE handle)
{
STRING_HANDLE result;
/*Codes_SRS_MAP_02_052: [If parameter handle is NULL then Map_ToJSON shall return NULL.] */
if (handle == NULL)
{
result = NULL;
LogError("invalid arg (NULL)");
}
else
{
/*Codes_SRS_MAP_02_048: [Map_ToJSON shall produce a STRING_HANDLE representing the content of the MAP.] */
result = STRING_construct("{");
if (result == NULL)
{
LogError("STRING_construct failed");
}
else
{
size_t i;
MAP_HANDLE_DATA* handleData = (MAP_HANDLE_DATA *)handle;
/*Codes_SRS_MAP_02_049: [If the MAP is empty, then Map_ToJSON shall produce the string "{}".*/
bool breakFor = false; /*used to break out of for*/
for (i = 0; (i < handleData->count) && (!breakFor); i++)
{
/*add one entry to the JSON*/
/*Codes_SRS_MAP_02_050: [If the map has properties then Map_ToJSON shall produce the following string:{"name1":"value1", "name2":"value2" ...}]*/
STRING_HANDLE key = STRING_new_JSON(handleData->keys[i]);
if (key == NULL)
{
LogError("STRING_new_JSON failed");
STRING_delete(result);
result = NULL;
breakFor = true;
}
else
{
STRING_HANDLE value = STRING_new_JSON(handleData->values[i]);
if (value == NULL)
{
LogError("STRING_new_JSON failed");
STRING_delete(result);
result = NULL;
breakFor = true;
}
else
{
if (!(
((i>0) ? (STRING_concat(result, ",") == 0) : 1) &&
(STRING_concat_with_STRING(result, key) == 0) &&
(STRING_concat(result, ":") == 0) &&
(STRING_concat_with_STRING(result, value) == 0)
))
{
LogError("failed to build the JSON");
STRING_delete(result);
result = NULL;
breakFor = true;
}
else
{
/*all nice, go to the next element in the map*/
}
STRING_delete(value);
}
STRING_delete(key);
}
}
if (breakFor)
{
LogError("error happened during JSON string builder");
}
else
{
if (STRING_concat(result, "}") != 0)
{
LogError("failed to build the JSON");
STRING_delete(result);
result = NULL;
}
else
{
/*return as is, JSON has been build*/
}
}
}
}
return result;
}