- code format updates

pull/521/head
Michael Zillgith 1 year ago
parent 6971d9a304
commit 3a4d993bfa

@ -3579,6 +3579,7 @@ MmsJournalEntry_destroy(MmsJournalEntry self)
MmsValue_delete(self->occurenceTime);
LinkedList_destroyDeep(self->journalVariables,
(LinkedListValueDeleteFunction) MmsJournalVariable_destroy);
GLOBAL_FREEMEM(self);
}
}

@ -1,7 +1,7 @@
/*
* mms_client_read.c
*
* Copyright 2013-2022 Michael Zillgith
* Copyright 2013-2024 Michael Zillgith
*
* This file is part of libIEC61850.
*
@ -45,17 +45,19 @@ mmsClient_parseListOfAccessResults(AccessResult_t** accessResultList, int listSi
int i = 0;
for (i = 0; i < elementCount; i++) {
for (i = 0; i < elementCount; i++)
{
value = NULL;
AccessResult_PR presentType = accessResultList[i]->present;
if (presentType == AccessResult_PR_failure) {
if (presentType == AccessResult_PR_failure)
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: received access error!\n");
if (accessResultList[i]->choice.failure.size > 0) {
if (accessResultList[i]->choice.failure.size > 0)
{
int errorCode = (int) accessResultList[i]->choice.failure.buf[0];
MmsDataAccessError dataAccessError = DATA_ACCESS_ERROR_UNKNOWN;
@ -68,26 +70,29 @@ mmsClient_parseListOfAccessResults(AccessResult_t** accessResultList, int listSi
else
value = MmsValue_newDataAccessError(DATA_ACCESS_ERROR_UNKNOWN);
}
else if (presentType == AccessResult_PR_array) {
else if (presentType == AccessResult_PR_array)
{
int arrayElementCount =
accessResultList[i]->choice.array.list.count;
if (arrayElementCount > 0) {
if (arrayElementCount > 0)
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
value->type = MMS_ARRAY;
value->value.structure.size = arrayElementCount;
value->value.structure.components = (MmsValue**) GLOBAL_CALLOC(arrayElementCount, sizeof(MmsValue*));
if (value->value.structure.components) {
if (value->value.structure.components)
{
int j;
for (j = 0; j < arrayElementCount; j++) {
for (j = 0; j < arrayElementCount; j++)
{
value->value.structure.components[j] = mmsMsg_parseDataElement(
accessResultList[i]->choice.array.list.array[j]);
if (value->value.structure.components[j] == NULL) {
if (value->value.structure.components[j] == NULL)
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: failed to parse array element %i\n", j);
@ -98,33 +103,37 @@ mmsClient_parseListOfAccessResults(AccessResult_t** accessResultList, int listSi
}
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing access result (invalid array size)!\n");
}
}
else if (presentType == AccessResult_PR_structure) {
else if (presentType == AccessResult_PR_structure)
{
int componentCount =
accessResultList[i]->choice.structure.list.count;
if (componentCount > 0) {
if (componentCount > 0)
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
if (value) {
if (value)
{
value->type = MMS_STRUCTURE;
value->value.structure.size = componentCount;
value->value.structure.components = (MmsValue**) GLOBAL_CALLOC(componentCount, sizeof(MmsValue*));
if (value->value.structure.components) {
if (value->value.structure.components)
{
int j;
for (j = 0; j < componentCount; j++) {
for (j = 0; j < componentCount; j++)
{
value->value.structure.components[j] = mmsMsg_parseDataElement(
accessResultList[i]->choice.structure.list.array[j]);
if (value->value.structure.components[j] == NULL) {
if (value->value.structure.components[j] == NULL)
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: failed to parse struct element %i\n", j);
@ -136,213 +145,257 @@ mmsClient_parseListOfAccessResults(AccessResult_t** accessResultList, int listSi
}
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing access result (invalid structure size)!\n");
}
}
else if (presentType == AccessResult_PR_bitstring) {
else if (presentType == AccessResult_PR_bitstring)
{
int size = accessResultList[i]->choice.bitstring.size;
if (size > 0) {
if (size > 0)
{
int maxSize = (size * 8);
int bitSize = maxSize - accessResultList[i]->choice.bitstring.bits_unused;
if ((bitSize > 0) && (maxSize >= bitSize)) {
if ((bitSize > 0) && (maxSize >= bitSize))
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
value->type = MMS_BIT_STRING;
if (value)
{
value->type = MMS_BIT_STRING;
value->value.bitString.size = (size * 8)
- accessResultList[i]->choice.bitstring.bits_unused;
value->value.bitString.size = (size * 8)
- accessResultList[i]->choice.bitstring.bits_unused;
value->value.bitString.buf = (uint8_t*) GLOBAL_MALLOC(size);
memcpy(value->value.bitString.buf,
accessResultList[i]->choice.bitstring.buf, size);
value->value.bitString.buf = (uint8_t*) GLOBAL_MALLOC(size);
memcpy(value->value.bitString.buf,
accessResultList[i]->choice.bitstring.buf, size);
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing access result (bit string padding problem)!\n");
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing access result (bit string size 0 or negative)!\n");
}
}
else if (presentType == AccessResult_PR_integer) {
else if (presentType == AccessResult_PR_integer)
{
int size = accessResultList[i]->choice.integer.size;
if (size > 0) {
if (size > 0)
{
Asn1PrimitiveValue* berInteger =
BerInteger_createFromBuffer(accessResultList[i]->choice.integer.buf, size);
value = MmsValue_newIntegerFromBerInteger(berInteger);
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing access result (invalid integer size)!\n");
}
}
else if (presentType == AccessResult_PR_unsigned) {
else if (presentType == AccessResult_PR_unsigned)
{
int size = accessResultList[i]->choice.Unsigned.size;
if (size > 0) {
if (size > 0)
{
Asn1PrimitiveValue* berInteger =
BerInteger_createFromBuffer(accessResultList[i]->choice.Unsigned.buf,
accessResultList[i]->choice.Unsigned.size);
value = MmsValue_newUnsignedFromBerInteger(berInteger);
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing access result (invalid unsigned size)!\n");
}
}
else if (presentType == AccessResult_PR_floatingpoint) {
else if (presentType == AccessResult_PR_floatingpoint)
{
int size = accessResultList[i]->choice.floatingpoint.size;
if (size == 5) { /* FLOAT32 */
if (size == 5) /* FLOAT32 */
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
value->type = MMS_FLOAT;
value->value.floatingPoint.formatWidth = 32;
value->value.floatingPoint.exponentWidth = accessResultList[i]->choice.floatingpoint.buf[0];
if (value)
{
value->type = MMS_FLOAT;
value->value.floatingPoint.formatWidth = 32;
value->value.floatingPoint.exponentWidth = accessResultList[i]->choice.floatingpoint.buf[0];
uint8_t* floatBuf = (accessResultList[i]->choice.floatingpoint.buf + 1);
uint8_t* floatBuf = (accessResultList[i]->choice.floatingpoint.buf + 1);
#if (ORDER_LITTLE_ENDIAN == 1)
memcpyReverseByteOrder(value->value.floatingPoint.buf, floatBuf, 4);
memcpyReverseByteOrder(value->value.floatingPoint.buf, floatBuf, 4);
#else
memcpy(value->value.floatingPoint.buf, floatBuf, 4);
memcpy(value->value.floatingPoint.buf, floatBuf, 4);
#endif
}
}
else if (size == 9) { /* FLOAT64 */
else if (size == 9) /* FLOAT64 */
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
value->type = MMS_FLOAT;
value->value.floatingPoint.formatWidth = 64;
value->value.floatingPoint.exponentWidth = accessResultList[i]->choice.floatingpoint.buf[0];
if (value)
{
value->type = MMS_FLOAT;
uint8_t* floatBuf = (accessResultList[i]->choice.floatingpoint.buf + 1);
value->value.floatingPoint.formatWidth = 64;
value->value.floatingPoint.exponentWidth = accessResultList[i]->choice.floatingpoint.buf[0];
uint8_t* floatBuf = (accessResultList[i]->choice.floatingpoint.buf + 1);
#if (ORDER_LITTLE_ENDIAN == 1)
memcpyReverseByteOrder(value->value.floatingPoint.buf, floatBuf, 8);
memcpyReverseByteOrder(value->value.floatingPoint.buf, floatBuf, 8);
#else
memcpy(value->value.floatingPoint.buf, floatBuf, 8);
memcpy(value->value.floatingPoint.buf, floatBuf, 8);
#endif
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing float (size must be 5 or 9, is %i)\n", size);
}
}
else if (presentType == AccessResult_PR_visiblestring) {
else if (presentType == AccessResult_PR_visiblestring)
{
int strSize = accessResultList[i]->choice.visiblestring.size;
if (strSize >= 0) {
if (strSize >= 0)
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
value->type = MMS_VISIBLE_STRING;
value->value.visibleString.buf = (char*) GLOBAL_MALLOC(strSize + 1);
value->value.visibleString.size = strSize;
if (value)
{
value->type = MMS_VISIBLE_STRING;
value->value.visibleString.buf = (char*) GLOBAL_MALLOC(strSize + 1);
value->value.visibleString.size = strSize;
memcpy(value->value.visibleString.buf,
accessResultList[i]->choice.visiblestring.buf,
strSize);
memcpy(value->value.visibleString.buf,
accessResultList[i]->choice.visiblestring.buf,
strSize);
value->value.visibleString.buf[strSize] = 0;
value->value.visibleString.buf[strSize] = 0;
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing access result (invalid visible-string size)\n");
}
}
else if (presentType == AccessResult_PR_mMSString) {
else if (presentType == AccessResult_PR_mMSString)
{
int strSize = accessResultList[i]->choice.mMSString.size;
if (strSize >= 0) {
if (strSize >= 0)
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
value->type = MMS_STRING;
value->value.visibleString.buf = (char*) GLOBAL_MALLOC(strSize + 1);
value->value.visibleString.size = strSize;
if (value)
{
value->type = MMS_STRING;
value->value.visibleString.buf = (char*) GLOBAL_MALLOC(strSize + 1);
value->value.visibleString.size = strSize;
memcpy(value->value.visibleString.buf,
accessResultList[i]->choice.mMSString.buf, strSize);
memcpy(value->value.visibleString.buf,
accessResultList[i]->choice.mMSString.buf, strSize);
value->value.visibleString.buf[strSize] = 0;
value->value.visibleString.buf[strSize] = 0;
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing access result (invalid mms-string size)\n");
}
}
else if (presentType == AccessResult_PR_utctime) {
else if (presentType == AccessResult_PR_utctime)
{
int size = accessResultList[i]->choice.utctime.size;
if (size == 8) {
if (size == 8)
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
value->type = MMS_UTC_TIME;
memcpy(value->value.utcTime, accessResultList[i]->choice.utctime.buf, 8);
if (value)
{
value->type = MMS_UTC_TIME;
memcpy(value->value.utcTime, accessResultList[i]->choice.utctime.buf, 8);
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing UTC time (size is %i instead of 8\n", size);
}
}
else if (presentType == AccessResult_PR_boolean) {
else if (presentType == AccessResult_PR_boolean)
{
value = MmsValue_newBoolean(accessResultList[i]->choice.boolean);
}
else if (presentType == AccessResult_PR_binarytime) {
else if (presentType == AccessResult_PR_binarytime)
{
int size = accessResultList[i]->choice.binarytime.size;
if ((size == 4) || (size == 6)) {
if ((size == 4) || (size == 6))
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
value->type = MMS_BINARY_TIME;
value->value.binaryTime.size = size;
memcpy(value->value.binaryTime.buf, accessResultList[i]->choice.binarytime.buf, size);
if (value)
{
value->type = MMS_BINARY_TIME;
value->value.binaryTime.size = size;
memcpy(value->value.binaryTime.buf, accessResultList[i]->choice.binarytime.buf, size);
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing binary time (size must be 4 or 6, is %i\n", size);
}
}
else if (presentType == AccessResult_PR_octetstring) {
else if (presentType == AccessResult_PR_octetstring)
{
int size = accessResultList[i]->choice.octetstring.size;
if (size >= 0) {
if (size >= 0)
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
value->type = MMS_OCTET_STRING;
value->value.octetString.maxSize = -size;
value->value.octetString.size = size;
value->value.octetString.buf = (uint8_t*) GLOBAL_MALLOC(size);
memcpy(value->value.octetString.buf, accessResultList[i]->choice.octetstring.buf, size);
if (value)
{
value->type = MMS_OCTET_STRING;
value->value.octetString.maxSize = -size;
value->value.octetString.size = size;
value->value.octetString.buf = (uint8_t*) GLOBAL_MALLOC(size);
memcpy(value->value.octetString.buf, accessResultList[i]->choice.octetstring.buf, size);
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing access result (invalid octet-string size)\n");
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: unknown type %i in access result\n", presentType);
value = MmsValue_newDataAccessError(DATA_ACCESS_ERROR_OBJECT_VALUE_INVALID);

@ -185,25 +185,29 @@ mmsMsg_parseDataElement(Data_t* dataElement)
{
MmsValue* value = NULL;
if (dataElement->present == Data_PR_array) {
if (dataElement->present == Data_PR_array)
{
int componentCount = dataElement->choice.array->list.count;
if (componentCount > 0) {
if (componentCount > 0)
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
if (value) {
if (value)
{
value->type = MMS_ARRAY;
value->value.structure.size = componentCount;
value->value.structure.components = (MmsValue**) GLOBAL_CALLOC(componentCount, sizeof(MmsValue*));
int i;
for (i = 0; i < componentCount; i++) {
for (i = 0; i < componentCount; i++)
{
value->value.structure.components[i] =
mmsMsg_parseDataElement(dataElement->choice.array->list.array[i]);
if (value->value.structure.components[i] == NULL) {
if (value->value.structure.components[i] == NULL)
{
MmsValue_delete(value);
value = NULL;
break;
@ -211,31 +215,35 @@ mmsMsg_parseDataElement(Data_t* dataElement)
}
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing data element (invalid array size)!\n");
}
}
else if (dataElement->present == Data_PR_structure) {
else if (dataElement->present == Data_PR_structure)
{
int componentCount = dataElement->choice.structure->list.count;
if (componentCount > 0) {
if (componentCount > 0)
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
if (value) {
if (value)
{
value->type = MMS_STRUCTURE;
value->value.structure.size = componentCount;
value->value.structure.components = (MmsValue**) GLOBAL_CALLOC(componentCount, sizeof(MmsValue*));
int i;
for (i = 0; i < componentCount; i++) {
for (i = 0; i < componentCount; i++)
{
value->value.structure.components[i] =
mmsMsg_parseDataElement(dataElement->choice.structure->list.array[i]);
if (value->value.structure.components[i] == NULL) {
if (value->value.structure.components[i] == NULL)
{
MmsValue_delete(value);
value = NULL;
break;
@ -243,112 +251,128 @@ mmsMsg_parseDataElement(Data_t* dataElement)
}
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing data element (invalid structure size)!\n");
}
}
else {
if (dataElement->present == Data_PR_integer) {
if (dataElement->choice.integer.size > 0) {
else
{
if (dataElement->present == Data_PR_integer)
{
if (dataElement->choice.integer.size > 0)
{
Asn1PrimitiveValue* berInteger = BerInteger_createFromBuffer(
dataElement->choice.integer.buf, dataElement->choice.integer.size);
if (berInteger)
value = MmsValue_newIntegerFromBerInteger(berInteger);
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing data element (invalid integer size)!\n");
}
}
else if (dataElement->present == Data_PR_unsigned) {
if (dataElement->choice.Unsigned.size > 0) {
else if (dataElement->present == Data_PR_unsigned)
{
if (dataElement->choice.Unsigned.size > 0)
{
Asn1PrimitiveValue* berInteger = BerInteger_createFromBuffer(
dataElement->choice.Unsigned.buf, dataElement->choice.Unsigned.size);
if (berInteger)
value = MmsValue_newUnsignedFromBerInteger(berInteger);
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing data element (invalid unsigned size)!\n");
}
}
else if (dataElement->present == Data_PR_visiblestring) {
if (dataElement->choice.visiblestring.size >= 0) {
else if (dataElement->present == Data_PR_visiblestring)
{
if (dataElement->choice.visiblestring.size >= 0)
{
value = MmsValue_newVisibleStringFromByteArray(dataElement->choice.visiblestring.buf,
dataElement->choice.visiblestring.size);
}
}
else if (dataElement->present == Data_PR_mMSString) {
if ( dataElement->choice.mMSString.size >= 0) {
else if (dataElement->present == Data_PR_mMSString)
{
if ( dataElement->choice.mMSString.size >= 0)
{
value = MmsValue_newMmsStringFromByteArray(dataElement->choice.mMSString.buf,
dataElement->choice.mMSString.size);
}
}
else if (dataElement->present == Data_PR_bitstring) {
else if (dataElement->present == Data_PR_bitstring)
{
int size = dataElement->choice.bitstring.size;
if (size >= 0) {
if (size >= 0)
{
int maxSize = (size * 8);
int bitSize = maxSize - dataElement->choice.bitstring.bits_unused;
if ((bitSize > 0) && (maxSize >= bitSize)) {
if ((bitSize > 0) && (maxSize >= bitSize))
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
if (value) {
if (value)
{
value->type = MMS_BIT_STRING;
value->value.bitString.size = bitSize;
value->value.bitString.buf = (uint8_t*) GLOBAL_MALLOC(size);
if (value->value.bitString.buf) {
if (value->value.bitString.buf)
{
memcpy(value->value.bitString.buf,
dataElement->choice.bitstring.buf, size);
}
else {
else
{
GLOBAL_FREEMEM(value);
value = 0;
}
}
}
else if (bitSize == 0) {
else if (bitSize == 0)
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
if (value) {
if (value)
{
value->type = MMS_BIT_STRING;
value->value.bitString.size = 0;
value->value.bitString.buf = NULL;
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing data element (bit string padding problem)!\n");
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing data element (bit string size 0 or negative)!\n");
}
}
else if (dataElement->present == Data_PR_floatingpoint) {
else if (dataElement->present == Data_PR_floatingpoint)
{
int size = dataElement->choice.floatingpoint.size;
if (size == 5) { /* FLOAT32 */
if (size == 5) /* FLOAT32 */
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
if (value) {
if (value)
{
value->type = MMS_FLOAT;
value->value.floatingPoint.formatWidth = 32;
@ -364,11 +388,12 @@ mmsMsg_parseDataElement(Data_t* dataElement)
}
}
if (size == 9) { /* FLOAT64 */
if (size == 9) /* FLOAT64 */
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
if (value) {
if (value)
{
value->type = MMS_FLOAT;
value->value.floatingPoint.formatWidth = 64;
@ -384,29 +409,34 @@ mmsMsg_parseDataElement(Data_t* dataElement)
}
}
}
else if (dataElement->present == Data_PR_utctime) {
else if (dataElement->present == Data_PR_utctime)
{
int size = dataElement->choice.utctime.size;
if (size == 8) {
if (size == 8)
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
if (value) {
if (value)
{
value->type = MMS_UTC_TIME;
memcpy(value->value.utcTime, dataElement->choice.utctime.buf, 8);
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing UTC time (size is %i instead of 8\n", size);
}
}
else if (dataElement->present == Data_PR_octetstring) {
if (dataElement->choice.octetstring.size >= 0) {
else if (dataElement->present == Data_PR_octetstring)
{
if (dataElement->choice.octetstring.size >= 0)
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
if (value) {
if (value)
{
value->type = MMS_OCTET_STRING;
int size = dataElement->choice.octetstring.size;
@ -419,44 +449,51 @@ mmsMsg_parseDataElement(Data_t* dataElement)
value->value.octetString.buf = (uint8_t*) GLOBAL_MALLOC(abs(value->value.octetString.maxSize));
if (value->value.octetString.buf) {
if (value->value.octetString.buf)
{
memcpy(value->value.octetString.buf, dataElement->choice.octetstring.buf, size);
}
else {
else
{
GLOBAL_FREEMEM(value);
value = NULL;
}
}
}
}
else if (dataElement->present == Data_PR_binarytime) {
else if (dataElement->present == Data_PR_binarytime)
{
int size = dataElement->choice.binarytime.size;
if ((size == 4) || (size == 6)) {
if ((size == 4) || (size == 6))
{
value = (MmsValue*) GLOBAL_CALLOC(1, sizeof(MmsValue));
if (value) {
if (value)
{
value->type = MMS_BINARY_TIME;
value->value.binaryTime.size = size;
memcpy(value->value.binaryTime.buf, dataElement->choice.binarytime.buf, size);
}
}
else {
else
{
if (DEBUG_MMS_CLIENT)
printf("MMS CLIENT: error parsing binary time (size must be 4 or 6, is %i\n", size);
}
}
else if (dataElement->present == Data_PR_boolean) {
else if (dataElement->present == Data_PR_boolean)
{
value = MmsValue_newBoolean(dataElement->choice.boolean);
}
else if (dataElement->present == Data_PR_booleanArray) {
else if (dataElement->present == Data_PR_booleanArray)
{
/* not supported */
}
}
if (DEBUG_MMS_CLIENT) {
if (DEBUG_MMS_CLIENT)
{
if (value == NULL)
printf("MMS CLIENT: error parsing data element\n");
}
@ -472,16 +509,16 @@ mmsMsg_createStringFromAsnIdentifier(Identifier_t identifier)
return str;
}
void
mmsMsg_copyAsn1IdentifierToStringBuffer(Identifier_t identifier, char* buffer, int bufSize)
{
if (identifier.size < bufSize) {
if (identifier.size < bufSize)
{
memcpy(buffer, identifier.buf, identifier.size);
buffer[identifier.size] = 0;
}
else {
else
{
if (DEBUG_MMS_SERVER || DEBUG_MMS_CLIENT)
printf("MMS_COMMON: mms_common_msg.c: ASN1 identifier to long!\n");
@ -492,12 +529,12 @@ mmsMsg_copyAsn1IdentifierToStringBuffer(Identifier_t identifier, char* buffer, i
char*
mmsMsg_getComponentNameFromAlternateAccess(AlternateAccess_t* alternateAccess, char* componentNameBuf, int nameBufPos)
{
if (alternateAccess->list.count == 1) {
if (alternateAccess->list.array[0]->present == AlternateAccess__Member_PR_unnamed) {
if (alternateAccess->list.array[0]->choice.unnamed->present == AlternateAccessSelection_PR_selectAlternateAccess) {
if (alternateAccess->list.count == 1)
{
if (alternateAccess->list.array[0]->present == AlternateAccess__Member_PR_unnamed)
{
if (alternateAccess->list.array[0]->choice.unnamed->present == AlternateAccessSelection_PR_selectAlternateAccess)
{
if (alternateAccess->list.array[0]->choice.unnamed->choice.selectAlternateAccess.accessSelection.present ==
AlternateAccessSelection__selectAlternateAccess__accessSelection_PR_component)
{
@ -507,26 +544,30 @@ mmsMsg_getComponentNameFromAlternateAccess(AlternateAccess_t* alternateAccess, c
AlternateAccess_t* nextAlternateAccess = alternateAccess->list.array[0]->choice.unnamed->
choice.selectAlternateAccess.alternateAccess;
if (nextAlternateAccess) {
if (nameBufPos + componentIdentifier.size + 1 < 65) {
if (nextAlternateAccess)
{
if (nameBufPos + componentIdentifier.size + 1 < 65)
{
memcpy(componentNameBuf + nameBufPos, componentIdentifier.buf, componentIdentifier.size);
nameBufPos += componentIdentifier.size;
componentNameBuf[nameBufPos++] = '$';
return mmsMsg_getComponentNameFromAlternateAccess(nextAlternateAccess, componentNameBuf, nameBufPos);
}
else {
else
{
if (DEBUG_MMS_SERVER)
printf("MMS_SERVER: component identifier name too long!\n");
}
}
else {
else
{
if (DEBUG_MMS_SERVER)
printf("MMS_SERVER: next alternate access specification is missing!\n");
}
}
}
else if (alternateAccess->list.array[0]->choice.unnamed->present == AlternateAccessSelection_PR_selectAccess) {
else if (alternateAccess->list.array[0]->choice.unnamed->present == AlternateAccessSelection_PR_selectAccess)
{
/* final component part */
if (alternateAccess->list.array[0]->choice.unnamed->choice.selectAccess.present ==
@ -535,21 +576,21 @@ mmsMsg_getComponentNameFromAlternateAccess(AlternateAccess_t* alternateAccess, c
Identifier_t componentIdentifier = alternateAccess->list.array[0]->choice.unnamed->
choice.selectAccess.choice.component;
if (nameBufPos + componentIdentifier.size + 1 < 65) {
if (nameBufPos + componentIdentifier.size + 1 < 65)
{
memcpy(componentNameBuf + nameBufPos, componentIdentifier.buf, componentIdentifier.size);
nameBufPos += componentIdentifier.size;
componentNameBuf[nameBufPos++] = 0;
return componentNameBuf;
}
else {
else
{
if (DEBUG_MMS_SERVER)
printf("MMS_SERVER: component identifier name too long!\n");
}
}
}
}
}
if (DEBUG_MMS_SERVER)
@ -610,23 +651,26 @@ mmsMsg_parseFileName(char* filename, uint8_t* buffer, int* bufPos, int maxBufPos
uint8_t tag = buffer[(*bufPos)++];
if (tag != 0x19) {
mmsMsg_createMmsRejectPdu(&invokeId, MMS_ERROR_REJECT_INVALID_PDU, response);
return false;
if (tag != 0x19)
{
mmsMsg_createMmsRejectPdu(&invokeId, MMS_ERROR_REJECT_INVALID_PDU, response);
return false;
}
int length;
*bufPos = BerDecoder_decodeLength(buffer, &length, *bufPos, maxBufPos);
if (*bufPos < 0) {
mmsMsg_createMmsRejectPdu(&invokeId, MMS_ERROR_REJECT_INVALID_PDU, response);
return false;
if (*bufPos < 0)
{
mmsMsg_createMmsRejectPdu(&invokeId, MMS_ERROR_REJECT_INVALID_PDU, response);
return false;
}
if (length > 255) {
mmsMsg_createMmsRejectPdu(&invokeId, MMS_ERROR_REJECT_REQUEST_INVALID_ARGUMENT, response);
return false;
if (length > 255)
{
mmsMsg_createMmsRejectPdu(&invokeId, MMS_ERROR_REJECT_REQUEST_INVALID_ARGUMENT, response);
return false;
}
memcpy(filename, buffer + *bufPos, length);
@ -637,7 +681,8 @@ mmsMsg_parseFileName(char* filename, uint8_t* buffer, int* bufPos, int maxBufPos
* TODO this may be platform dependent. Also depending of the platform there might be other evil
* characters.
*/
if (strstr(filename, "..") != NULL) {
if (strstr(filename, "..") != NULL)
{
mmsMsg_createServiceErrorPdu(invokeId, response, MMS_ERROR_FILE_FILE_NON_EXISTENT);
return false;
}
@ -646,4 +691,3 @@ mmsMsg_parseFileName(char* filename, uint8_t* buffer, int* bufPos, int maxBufPos
}
#endif /* (MMS_FILE_SERVICE == 1) */

Loading…
Cancel
Save