#include "caadapterutils.h"
#include <string.h>
+#include <ctype.h>
#include "oic_malloc.h"
+#include "oic_string.h"
#define CA_ADAPTER_UTILS_TAG "CA_ADAPTER_UTILS"
+void CALogPDUData(coap_pdu_t *pdu)
+{
+ VERIFY_NON_NULL_VOID(pdu, CA_ADAPTER_UTILS_TAG, "pdu");
+ OIC_LOG_V(DEBUG, CA_ADAPTER_UTILS_TAG, "PDU Maker - payload : %s", pdu->data);
+
+ OIC_LOG_V(DEBUG, CA_ADAPTER_UTILS_TAG, "PDU Maker - type : %d", pdu->hdr->type);
+
+ OIC_LOG_V(DEBUG, CA_ADAPTER_UTILS_TAG, "PDU Maker - code : %d", pdu->hdr->code);
+
+ OIC_LOG_V(DEBUG, CA_ADAPTER_UTILS_TAG, "PDU Maker - id : %d", pdu->hdr->id);
+
+ OIC_LOG_V(DEBUG, CA_ADAPTER_UTILS_TAG, "PDU Maker - token : %s", pdu->hdr->token);
+}
+
CALocalConnectivity_t *CAAdapterCreateLocalEndpoint(CAConnectivityType_t type,
- const char *address)
+ const char *address)
{
CALocalConnectivity_t *info = (CALocalConnectivity_t *)
- OICMalloc(sizeof(CALocalConnectivity_t));
+ OICCalloc(1, sizeof(CALocalConnectivity_t));
if (NULL == info)
{
- OIC_LOG_V(ERROR, CA_ADAPTER_UTILS_TAG, "Memory allocation failed !");
+ OIC_LOG(ERROR, CA_ADAPTER_UTILS_TAG, "Memory allocation failed !");
return NULL;
}
- memset(info, 0, sizeof(CALocalConnectivity_t));
info->type = type;
if (address && strlen(address))
strncpy(info->addressInfo.IP.ipAddress, address, CA_IPADDR_SIZE - 1);
info->addressInfo.IP.ipAddress[CA_IPADDR_SIZE - 1] = '\0';
}
+ else
+ {
+ OIC_LOG(ERROR, CA_ADAPTER_UTILS_TAG, "type is not matched with any transport!");
+ OICFree(info);
+ return NULL;
+ }
}
return info;
}
-CALocalConnectivity_t *CAAdapterCopyLocalEndpoint(CALocalConnectivity_t *connectivity)
+CALocalConnectivity_t *CAAdapterCopyLocalEndpoint(const CALocalConnectivity_t *connectivity)
{
VERIFY_NON_NULL_RET(connectivity, CA_ADAPTER_UTILS_TAG, "connectivity is NULL", NULL);
CALocalConnectivity_t *info = (CALocalConnectivity_t *)
- OICMalloc(sizeof(CALocalConnectivity_t));
+ OICCalloc(1, sizeof(CALocalConnectivity_t));
if (NULL == info)
{
- OIC_LOG_V(ERROR, CA_ADAPTER_UTILS_TAG, "Memory allocation failed !");
+ OIC_LOG(ERROR, CA_ADAPTER_UTILS_TAG, "Memory allocation failed !");
return NULL;
}
- memset(info, 0, sizeof(CALocalConnectivity_t));
info->type = connectivity->type;
if (CA_EDR == info->type && strlen(connectivity->addressInfo.BT.btMacAddress))
info->addressInfo.IP.ipAddress[CA_IPADDR_SIZE - 1] = '\0';
info->addressInfo.IP.port = connectivity->addressInfo.IP.port;
}
+ else
+ {
+ OIC_LOG(ERROR, CA_ADAPTER_UTILS_TAG, "type is not matched with any transport!");
+ OICFree(info);
+ return NULL;
+ }
info->isSecured = connectivity->isSecured;
return info;
void CAAdapterFreeLocalEndpoint(CALocalConnectivity_t *localEndpoint)
{
- if (localEndpoint)
- {
- OICFree(localEndpoint);
- }
+ OICFree(localEndpoint);
}
CARemoteEndpoint_t *CAAdapterCreateRemoteEndpoint(CAConnectivityType_t type,
- const char *address,
- const char *resourceUri)
+ const char *address,
+ const char *resourceUri)
{
CARemoteEndpoint_t *info = (CARemoteEndpoint_t *)
- OICMalloc(sizeof(CARemoteEndpoint_t));
+ OICCalloc(1, sizeof(CARemoteEndpoint_t));
if (NULL == info)
{
- OIC_LOG_V(ERROR, CA_ADAPTER_UTILS_TAG, "Memory allocation failed !");
+ OIC_LOG(ERROR, CA_ADAPTER_UTILS_TAG, "Memory allocation failed !");
return NULL;
}
- memset(info, 0, sizeof(CARemoteEndpoint_t));
info->connectivityType = type;
if (address && strlen(address))
strncpy(info->addressInfo.BT.btMacAddress, address, CA_MACADDR_SIZE - 1);
info->addressInfo.BT.btMacAddress[CA_MACADDR_SIZE - 1] = '\0';
}
- else if (CA_LE == info->connectivityType)
+ else if (CA_LE == type)
{
strncpy(info->addressInfo.LE.leMacAddress, address, CA_MACADDR_SIZE - 1);
info->addressInfo.LE.leMacAddress[CA_MACADDR_SIZE - 1] = '\0';
strncpy(info->addressInfo.IP.ipAddress, address, CA_IPADDR_SIZE - 1);
info->addressInfo.IP.ipAddress[CA_IPADDR_SIZE - 1] = '\0';
}
+ else
+ {
+ OIC_LOG(ERROR, CA_ADAPTER_UTILS_TAG, "type is not matched with any transport!");
+ OICFree(info);
+ return NULL;
+ }
}
if (resourceUri && strlen(resourceUri))
VERIFY_NON_NULL_RET(remoteEndpoint, CA_ADAPTER_UTILS_TAG, "Remote endpoint is NULL", NULL);
CARemoteEndpoint_t *info = (CARemoteEndpoint_t *)
- OICMalloc(sizeof(CARemoteEndpoint_t));
+ OICCalloc(1, sizeof(CARemoteEndpoint_t));
if (NULL == info)
{
- OIC_LOG_V(ERROR, CA_ADAPTER_UTILS_TAG, "Memory allocation failed !");
+ OIC_LOG(ERROR, CA_ADAPTER_UTILS_TAG, "Memory allocation failed !");
return NULL;
}
- memset(info, 0, sizeof(CARemoteEndpoint_t));
info->connectivityType = remoteEndpoint->connectivityType;
if (CA_EDR == info->connectivityType && strlen(remoteEndpoint->addressInfo.BT.btMacAddress))
info->addressInfo.IP.ipAddress[CA_IPADDR_SIZE - 1] = '\0';
info->addressInfo.IP.port = remoteEndpoint->addressInfo.IP.port;
}
+ else
+ {
+ OIC_LOG(DEBUG, CA_ADAPTER_UTILS_TAG, "Its not matching. May be multicast.");
+ }
+
+ //For Multicast, remote address will be null while resourceUri will have the service UUID
if (remoteEndpoint->resourceUri && strlen(remoteEndpoint->resourceUri))
{
{
if (remoteEndpoint)
{
- if (remoteEndpoint->resourceUri)
+ OICFree(remoteEndpoint->resourceUri);
+ OICFree(remoteEndpoint);
+ }
+}
+
+CAResult_t CAParseIPv4AddressInternal(const char *ipAddrStr, uint8_t *ipAddr,
+ size_t ipAddrLen, uint16_t *port)
+{
+ if (!ipAddr || !isdigit(ipAddrStr[0]) || !port)
+ {
+ OIC_LOG(ERROR, CA_ADAPTER_UTILS_TAG, "invalid param");
+ return CA_STATUS_INVALID_PARAM;
+ }
+
+ size_t index = 0;
+ uint8_t dotCount = 0;
+
+ ipAddr[index] = 0;
+ *port = 0;
+ while (*ipAddrStr)
+ {
+ if (isdigit(*ipAddrStr))
{
- OICFree(remoteEndpoint->resourceUri);
+ if(index >= ipAddrLen)
+ {
+ OIC_LOG(ERROR, CA_ADAPTER_UTILS_TAG, "invalid param");
+ return CA_STATUS_INVALID_PARAM;
+ }
+ ipAddr[index] *= 10;
+ ipAddr[index] += *ipAddrStr - '0';
}
+ else if (*ipAddrStr == '.')
+ {
+ index++;
+ dotCount++;
+ ipAddr[index] = 0;
+ }
+ else
+ {
+ break;
+ }
+ ipAddrStr++;
+ }
- OICFree(remoteEndpoint);
+ if (*ipAddrStr == ':')
+ {
+ ipAddrStr++;
+ while (*ipAddrStr)
+ {
+ if (isdigit(*ipAddrStr))
+ {
+ *port *= 10;
+ *port += *ipAddrStr - '0';
+ }
+ else
+ {
+ break;
+ }
+ ipAddrStr++;
+ }
+ }
+
+ if (dotCount == 3)
+ {
+ return CA_STATUS_OK;
}
+ return CA_STATUS_FAILED;
+}
+
+bool CAAdapterIsSameSubnet(const char *ipAddress1, const char *ipAddress2, const char *netMask)
+{
+ VERIFY_NON_NULL_RET(ipAddress1, CA_ADAPTER_UTILS_TAG, "First address", false);
+ VERIFY_NON_NULL_RET(ipAddress2, CA_ADAPTER_UTILS_TAG, "Second address", false);
+ VERIFY_NON_NULL_RET(netMask, CA_ADAPTER_UTILS_TAG, "netMask", false);
+
+ uint8_t ipList1[IPV4_ADDR_ONE_OCTECT_LEN] = { 0 };
+ uint8_t ipList2[IPV4_ADDR_ONE_OCTECT_LEN] = { 0 };
+ uint8_t maskList[IPV4_ADDR_ONE_OCTECT_LEN] = { 0 };
+ CAResult_t ret = CA_STATUS_OK;
+
+ /* Local Loopback Address */
+ if (0 == strncmp(ipAddress1, "127.", 4) || 0 == strncmp(ipAddress2, "127.", 4))
+ {
+ return true;
+ }
+
+ uint16_t parsedPort = 0;
+ ret = CAParseIPv4AddressInternal(ipAddress1, ipList1, sizeof(ipList1), &parsedPort);
+ if (ret != CA_STATUS_OK)
+ {
+ OIC_LOG_V(ERROR, CA_ADAPTER_UTILS_TAG, "First ip address parse fail %d", ret);
+ return false;
+ }
+
+ ret = CAParseIPv4AddressInternal(ipAddress2, ipList2, sizeof(ipList2), &parsedPort);
+ if (ret != CA_STATUS_OK)
+ {
+ OIC_LOG_V(ERROR, CA_ADAPTER_UTILS_TAG, "Second ip address parse fail %d", ret);
+ return false;
+ }
+
+ ret = CAParseIPv4AddressInternal(netMask, maskList, sizeof(maskList), &parsedPort);
+ if (ret != CA_STATUS_OK)
+ {
+ OIC_LOG_V(ERROR, CA_ADAPTER_UTILS_TAG, "Net mask parse fail %d", ret);
+ return false;
+ }
+
+ return ((ipList1[0] & maskList[0]) == (ipList2[0] & maskList[0])) && ((ipList1[1] & maskList[1])
+ == (ipList2[1] & maskList[1]))
+ && ((ipList1[2] & maskList[2]) == (ipList2[2] & maskList[2]))
+ && ((ipList1[3] & maskList[3]) == (ipList2[3] & maskList[3]));
}