X-Git-Url: http://review.tizen.org/git/?a=blobdiff_plain;f=resource%2Fcsdk%2Fconnectivity%2Fsrc%2Ftcp_adapter%2Fcatcpserver.c;h=78b43bb72463bc7e0a3af489c9bd3fe88ae4c0d3;hb=29a0ee24ae92c50aec75e2427172cac14354e8ef;hp=4fe652f20dc3dedb34e794691be01f3bda24eb3a;hpb=9143d3d12d93f571913433b732682f03a7c851e2;p=platform%2Fupstream%2Fiotivity.git diff --git a/resource/csdk/connectivity/src/tcp_adapter/catcpserver.c b/resource/csdk/connectivity/src/tcp_adapter/catcpserver.c index 4fe652f..78b43bb 100644 --- a/resource/csdk/connectivity/src/tcp_adapter/catcpserver.c +++ b/resource/csdk/connectivity/src/tcp_adapter/catcpserver.c @@ -1,4 +1,4 @@ -/* ****************************************************************j +/* **************************************************************** * * Copyright 2015 Samsung Electronics All Rights Reserved. * @@ -20,17 +20,21 @@ #include #include +#include #include +#ifdef __TIZENRT__ +#include +#include +#else +#include +#endif #include #include -#include #include -#include #include #include #include #include -#include #ifndef WITH_ARDUINO #include @@ -39,88 +43,113 @@ #endif #include "catcpinterface.h" -#include "pdu.h" +#include "caipnwmonitor.h" +#include #include "caadapterutils.h" -#include "camutex.h" +#include "octhread.h" #include "oic_malloc.h" -#include "oic_string.h" + +#ifdef __WITH_TLS__ +#include "ca_adapter_net_ssl.h" +#endif /** * Logging tag for module name. */ -#define TAG "OIC_CA_TCP_SERVER" +//#define TAG "OIC_CA_TCP_SERVER" +#define TAG TCP_SERVER_TAG /** - * Server port number for local test. + * Maximum CoAP over TCP header length + * to know the total data length. */ -#define SERVER_PORT 8000 +#define COAP_MAX_HEADER_SIZE 6 /** - * Maximum CoAP over TCP header length - * to know the total data length. + * TLS header size + */ +#define TLS_HEADER_SIZE 5 + +/** + * Max Connection Counts. */ -#define TCP_MAX_HEADER_LEN 6 +#define MAX_CONNECTION_COUNTS 500 /** - * Accept server file descriptor. + * Thread pool. */ -static int g_acceptServerFD = -1; +static ca_thread_pool_t g_threadPool = NULL; + +/** + * An unique identifier of receive thread. + */ +static uint32_t g_recvThreadId = 0; /** * Mutex to synchronize device object list. */ -static ca_mutex g_mutexObjectList = NULL; +static oc_mutex g_mutexObjectList = NULL; /** * Conditional mutex to synchronize. */ -static ca_cond g_condObjectList = NULL; +static oc_cond g_condObjectList = NULL; /** * Maintains the callback to be notified when data received from remote device. */ -static CATCPPacketReceivedCallback g_packetReceivedCallback; +static CATCPPacketReceivedCallback g_packetReceivedCallback = NULL; /** * Error callback to update error in TCP. */ -static CATCPErrorHandleCallback g_TCPErrorHandler = NULL; +static CATCPErrorHandleCallback g_tcpErrorHandler = NULL; /** * Connected Callback to pass the connection information to RI. */ -static CATCPKeepAliveHandleCallback g_keepaliveCallback = NULL; - -static CAResult_t CATCPCreateMutex(); -static void CATCPDestroyMutex(); -static CAResult_t CATCPCreateCond(); -static void CATCPDestroyCond(); -static CAResult_t CACreateAcceptSocket(); -static void CAAcceptConnection(); +static CATCPConnectionHandleCallback g_connectionCallback = NULL; + +static CASocketFd_t CACreateAcceptSocket(int family, CASocket_t *sock); +static void CAAcceptConnection(CATransportFlags_t flag, CASocket_t *sock); static void CAFindReadyMessage(); -static void CASelectReturned(fd_set *readFds, int ret); +static void CASelectReturned(fd_set *readFds); static void CAReceiveMessage(int fd); static void CAReceiveHandler(void *data); -static int CATCPCreateSocket(int family, CATCPSessionInfo_t *tcpServerInfo); +static CAResult_t CATCPCreateSocket(int family, CATCPSessionInfo_t *svritem); +static void CATCPInitializeSocket(); #define CHECKFD(FD) \ if (FD > caglobals.tcp.maxfd) \ caglobals.tcp.maxfd = FD; -static void CATCPDestroyMutex() +#define CLOSE_SOCKET(TYPE) \ + if (caglobals.tcp.TYPE.fd != OC_INVALID_SOCKET) \ + { \ + close(caglobals.tcp.TYPE.fd); \ + caglobals.tcp.TYPE.fd = OC_INVALID_SOCKET; \ + } + +#define CA_FD_SET(TYPE, FDS) \ + if (caglobals.tcp.TYPE.fd != OC_INVALID_SOCKET) \ + { \ + FD_SET(caglobals.tcp.TYPE.fd, FDS); \ + } + +void CATCPDestroyMutex() { if (g_mutexObjectList) { - ca_mutex_free(g_mutexObjectList); + oc_mutex_free(g_mutexObjectList); g_mutexObjectList = NULL; } } -static CAResult_t CATCPCreateMutex() +CAResult_t CATCPCreateMutex() { if (!g_mutexObjectList) { - g_mutexObjectList = ca_mutex_new(); + g_mutexObjectList = oc_mutex_new(); if (!g_mutexObjectList) { OIC_LOG(ERROR, TAG, "Failed to created mutex!"); @@ -131,20 +160,20 @@ static CAResult_t CATCPCreateMutex() return CA_STATUS_OK; } -static void CATCPDestroyCond() +void CATCPDestroyCond() { if (g_condObjectList) { - ca_cond_free(g_condObjectList); + oc_cond_free(g_condObjectList); g_condObjectList = NULL; } } -static CAResult_t CATCPCreateCond() +CAResult_t CATCPCreateCond() { if (!g_condObjectList) { - g_condObjectList = ca_cond_new(); + g_condObjectList = oc_cond_new(); if (!g_condObjectList) { OIC_LOG(ERROR, TAG, "Failed to created cond!"); @@ -164,9 +193,9 @@ static void CAReceiveHandler(void *data) CAFindReadyMessage(); } - ca_mutex_lock(g_mutexObjectList); - ca_cond_signal(g_condObjectList); - ca_mutex_unlock(g_mutexObjectList); + oc_mutex_lock(g_mutexObjectList); + oc_cond_signal(g_condObjectList); + oc_mutex_unlock(g_mutexObjectList); OIC_LOG(DEBUG, TAG, "OUT - CAReceiveHandler"); } @@ -177,16 +206,17 @@ static void CAFindReadyMessage() struct timeval timeout = { .tv_sec = caglobals.tcp.selectTimeout }; FD_ZERO(&readFds); - - if (-1 != g_acceptServerFD) - { - FD_SET(g_acceptServerFD, &readFds); - } - if (-1 != caglobals.tcp.shutdownFds[0]) + CA_FD_SET(ipv4, &readFds); + CA_FD_SET(ipv4s, &readFds); + CA_FD_SET(ipv6, &readFds); + CA_FD_SET(ipv6s, &readFds); +#ifndef __TIZENRT__ + if (OC_INVALID_SOCKET != caglobals.tcp.shutdownFds[0]) { FD_SET(caglobals.tcp.shutdownFds[0], &readFds); } - if (-1 != caglobals.tcp.connectionFds[0]) +#endif + if (OC_INVALID_SOCKET != caglobals.tcp.connectionFds[0]) { FD_SET(caglobals.tcp.connectionFds[0], &readFds); } @@ -196,7 +226,7 @@ static void CAFindReadyMessage() { CATCPSessionInfo_t *svritem = (CATCPSessionInfo_t *) u_arraylist_get(caglobals.tcp.svrlist, i); - if (svritem && 0 <= svritem->fd) + if (svritem && 0 <= svritem->fd && CONNECTED == svritem->state) { FD_SET(svritem->fd, &readFds); } @@ -206,7 +236,7 @@ static void CAFindReadyMessage() if (caglobals.tcp.terminate) { - OIC_LOG_V(DEBUG, TAG, "Packet receiver Stop request received."); + OIC_LOG_V(INFO, TAG, "Packet receiver Stop request received."); return; } if (0 >= ret) @@ -218,16 +248,31 @@ static void CAFindReadyMessage() return; } - CASelectReturned(&readFds, ret); + CASelectReturned(&readFds); } -static void CASelectReturned(fd_set *readFds, int ret) +static void CASelectReturned(fd_set *readFds) { - (void)ret; + VERIFY_NON_NULL_VOID(readFds, TAG, "readFds is NULL"); - if (g_acceptServerFD != -1 && FD_ISSET(g_acceptServerFD, readFds)) + if (caglobals.tcp.ipv4.fd != -1 && FD_ISSET(caglobals.tcp.ipv4.fd, readFds)) + { + CAAcceptConnection(CA_IPV4, &caglobals.tcp.ipv4); + return; + } + else if (caglobals.tcp.ipv4s.fd != -1 && FD_ISSET(caglobals.tcp.ipv4s.fd, readFds)) + { + CAAcceptConnection(CA_IPV4 | CA_SECURE, &caglobals.tcp.ipv4s); + return; + } + else if (caglobals.tcp.ipv6.fd != -1 && FD_ISSET(caglobals.tcp.ipv6.fd, readFds)) { - CAAcceptConnection(); + CAAcceptConnection(CA_IPV6, &caglobals.tcp.ipv6); + return; + } + else if (caglobals.tcp.ipv6s.fd != -1 && FD_ISSET(caglobals.tcp.ipv6s.fd, readFds)) + { + CAAcceptConnection(CA_IPV6 | CA_SECURE, &caglobals.tcp.ipv6s); return; } else if (-1 != caglobals.tcp.connectionFds[0] && @@ -242,7 +287,6 @@ static void CASelectReturned(fd_set *readFds, int ret) return; } OIC_LOG_V(DEBUG, TAG, "Received new connection event with [%s]", buf); - FD_CLR(caglobals.tcp.connectionFds[0], readFds); return; } else @@ -257,21 +301,34 @@ static void CASelectReturned(fd_set *readFds, int ret) if (FD_ISSET(svritem->fd, readFds)) { CAReceiveMessage(svritem->fd); - FD_CLR(svritem->fd, readFds); } } } } } -static void CAAcceptConnection() +static void CAAcceptConnection(CATransportFlags_t flag, CASocket_t *sock) { + OIC_LOG_V(INFO, TAG, "In %s", __func__); + VERIFY_NON_NULL_VOID(sock, TAG, "sock is NULL"); + + if (MAX_CONNECTION_COUNTS == u_arraylist_length(caglobals.tcp.svrlist)) + { + OIC_LOG_V(INFO, TAG, "Exceeding the max connection counts limit, close listening port"); + close(sock->fd); + sock->fd = OC_INVALID_SOCKET; + return; + } + struct sockaddr_storage clientaddr; socklen_t clientlen = sizeof (struct sockaddr_in); + if (flag & CA_IPV6) + { + clientlen = sizeof(struct sockaddr_in6); + } - int sockfd = accept(g_acceptServerFD, (struct sockaddr *)&clientaddr, - &clientlen); - if (-1 != sockfd) + CASocketFd_t sockfd = accept(sock->fd, (struct sockaddr *)&clientaddr, &clientlen); + if (OC_INVALID_SOCKET != sockfd) { CATCPSessionInfo_t *svritem = (CATCPSessionInfo_t *) OICCalloc(1, sizeof (*svritem)); @@ -283,28 +340,177 @@ static void CAAcceptConnection() } svritem->fd = sockfd; + svritem->sep.endpoint.flags = flag; + svritem->sep.endpoint.adapter = CA_ADAPTER_TCP; + svritem->state = CONNECTED; + svritem->isClient = false; CAConvertAddrToName((struct sockaddr_storage *)&clientaddr, clientlen, - (char *) &svritem->sep.endpoint.addr, &svritem->sep.endpoint.port); + svritem->sep.endpoint.addr, &svritem->sep.endpoint.port); - ca_mutex_lock(g_mutexObjectList); + oc_mutex_lock(g_mutexObjectList); bool result = u_arraylist_add(caglobals.tcp.svrlist, svritem); if (!result) { OIC_LOG(ERROR, TAG, "u_arraylist_add failed."); close(sockfd); OICFree(svritem); - ca_mutex_unlock(g_mutexObjectList); + oc_mutex_unlock(g_mutexObjectList); return; } - ca_mutex_unlock(g_mutexObjectList); + oc_mutex_unlock(g_mutexObjectList); CHECKFD(sockfd); + + // pass the connection information to CA Common Layer. + if (g_connectionCallback) + { + g_connectionCallback(&(svritem->sep.endpoint), true, svritem->isClient); + } + } + OIC_LOG_V(INFO, TAG, "Out %s", __func__); +} + +/** + * Clean socket state data + * + * @param[in/out] item - socket state data + */ +void CACleanData(CATCPSessionInfo_t *svritem) +{ + if (svritem) + { + OICFree(svritem->data); + svritem->data = NULL; + svritem->len = 0; +#ifdef __WITH_TLS__ + svritem->tlsLen = 0; +#endif + svritem->totalLen = 0; + svritem->protocol = UNKNOWN; + } +} + +/** + * Construct CoAP header and payload from buffer + * + * @param[in] svritem - used socket, buffer, current received message length and protocol + * @param[in/out] data - data buffer, this value is updated as data is copied to svritem + * @param[in/out] dataLength - length of data, this value decreased as data is copied to svritem + * @return - CA_STATUS_OK or appropriate error code + */ +CAResult_t CAConstructCoAP(CATCPSessionInfo_t *svritem, unsigned char **data, + size_t *dataLength) +{ + OIC_LOG_V(DEBUG, TAG, "In %s", __func__); + + if (NULL == svritem || NULL == data || NULL == dataLength) + { + OIC_LOG(ERROR, TAG, "Invalid input parameter(NULL)"); + return CA_STATUS_INVALID_PARAM; + } + + unsigned char *inBuffer = *data; + size_t inLen = *dataLength; + OIC_LOG_V(DEBUG, TAG, "before-datalength : %u", *dataLength); + + if (NULL == svritem->data && inLen > 0) + { + // allocate memory for message header (CoAP header size because it is bigger) + svritem->data = (unsigned char *) OICCalloc(1, COAP_MAX_HEADER_SIZE); + if (NULL == svritem->data) + { + OIC_LOG(ERROR, TAG, "OICCalloc - out of memory"); + return CA_MEMORY_ALLOC_FAILED; + } + + // copy 1 byte to parse coap header length + memcpy(svritem->data, inBuffer, 1); + svritem->len = 1; + inBuffer++; + inLen--; + } + + //if not enough data received - read them on next CAFillHeader() call + if (0 == inLen) + { + return CA_STATUS_OK; + } + + //if enough data received - parse header + svritem->protocol = COAP; + + //seems CoAP data received. read full coap header. + coap_transport_t transport = coap_get_tcp_header_type_from_initbyte(svritem->data[0] >> 4); + size_t headerLen = coap_get_tcp_header_length_for_transport(transport); + size_t copyLen = 0; + + // HEADER + if (svritem->len < headerLen) + { + copyLen = headerLen - svritem->len; + if (inLen < copyLen) + { + copyLen = inLen; + } + + //read required bytes to have full CoAP header + memcpy(svritem->data + svritem->len, inBuffer, copyLen); + svritem->len += copyLen; + inBuffer += copyLen; + inLen -= copyLen; + + //if not enough data received - read them on next CAFillHeader() call + if (svritem->len < headerLen) + { + *data = inBuffer; + *dataLength = inLen; + OIC_LOG(DEBUG, TAG, "CoAP header received partially. Wait for rest header data"); + return CA_STATUS_OK; + } + + //calculate CoAP message length + svritem->totalLen = CAGetTotalLengthFromHeader(svritem->data); + + // allocate required memory + unsigned char *buffer = OICRealloc(svritem->data, svritem->totalLen); + if (NULL == buffer) + { + OIC_LOG(ERROR, TAG, "OICRealloc - out of memory"); + return CA_MEMORY_ALLOC_FAILED; + } + svritem->data = buffer; + } + + // PAYLOAD + if (inLen > 0) + { + // read required bytes to have full CoAP payload + copyLen = svritem->totalLen - svritem->len; + if (inLen < copyLen) + { + copyLen = inLen; + } + + //read required bytes to have full CoAP header + memcpy(svritem->data + svritem->len, inBuffer, copyLen); + svritem->len += copyLen; + inBuffer += copyLen; + inLen -= copyLen; } + + *data = inBuffer; + *dataLength = inLen; + + OIC_LOG_V(DEBUG, TAG, "after-datalength : %u", *dataLength); + OIC_LOG_V(DEBUG, TAG, "Out %s", __func__); + return CA_STATUS_OK; } static void CAReceiveMessage(int fd) { - // #1. get remote device information from file descriptor. + CAResult_t res = CA_STATUS_OK; + + //get remote device information from file descriptor. size_t index = 0; CATCPSessionInfo_t *svritem = CAGetSessionInfoFromFD(fd, &index); if (!svritem) @@ -313,74 +519,110 @@ static void CAReceiveMessage(int fd) return; } - // #2. get already allocated memory size. - size_t bufSize = (svritem->totalDataLen == 0) ? TCP_MAX_HEADER_LEN : svritem->totalDataLen; - if (!svritem->recvData) + // read data + int len = 0; + + if (svritem->sep.endpoint.flags & CA_SECURE) { - svritem->recvData = (unsigned char *) OICCalloc(1, bufSize); - if (!svritem->recvData) + svritem->protocol = TLS; + +#ifdef __WITH_TLS__ + size_t nbRead = 0; + size_t tlsLength = 0; + + if (TLS_HEADER_SIZE > svritem->tlsLen) { - OIC_LOG(ERROR, TAG, "out of memory"); - CADisconnectTCPSession(svritem, index); - return; + nbRead = TLS_HEADER_SIZE - svritem->tlsLen; + } + else + { + //[3][4] bytes in tls header are tls payload length + tlsLength = TLS_HEADER_SIZE + + (size_t)((svritem->tlsdata[3] << 8) | svritem->tlsdata[4]); + OIC_LOG_V(DEBUG, TAG, "total tls length = %u", tlsLength); + if (tlsLength > sizeof(svritem->tlsdata)) + { + OIC_LOG_V(ERROR, TAG, "total tls length is too big (buffer size : %u)", + sizeof(svritem->tlsdata)); + if (CA_STATUS_OK != CAcloseSslConnection(&svritem->sep.endpoint)) + { + OIC_LOG(ERROR, TAG, "Failed to close TLS session"); + } + CASearchAndDeleteTCPSession(&(svritem->sep.endpoint)); + return; + } + nbRead = tlsLength - svritem->tlsLen; } - } - // #3. receive data from remote device. - ssize_t recvLen = recv(fd, svritem->recvData + svritem->recvDataLen, - bufSize - svritem->recvDataLen, 0); - if (recvLen <= 0) - { - if(EWOULDBLOCK != errno) + len = recv(fd, svritem->tlsdata + svritem->tlsLen, nbRead, 0); + if (len < 0) { - OIC_LOG_V(ERROR, TAG, "Recvfrom failed %s", strerror(errno)); - CADisconnectTCPSession(svritem, index); + OIC_LOG_V(ERROR, TAG, "recv failed %s", strerror(errno)); + res = CA_RECEIVE_FAILED; } - return; - } - svritem->recvDataLen += recvLen; + else if (0 == len) + { + OIC_LOG(INFO, TAG, "Received disconnect from peer. Close connection"); + svritem->state = DISCONNECTED; + res = CA_DESTINATION_DISCONNECTED; + } + else + { + svritem->tlsLen += len; + OIC_LOG_V(DEBUG, TAG, "nb_read : %u bytes , recv() : %d bytes, svritem->tlsLen : %u bytes", + nbRead, len, svritem->tlsLen); + if (tlsLength > 0 && tlsLength == svritem->tlsLen) + { + //when successfully read data - pass them to callback. + res = CAdecryptSsl(&svritem->sep, (uint8_t *)svritem->tlsdata, svritem->tlsLen); + svritem->tlsLen = 0; + OIC_LOG_V(INFO, TAG, "%s: CAdecryptSsl returned %d", __func__, res); + } + } +#endif - // #4. get actual data length from coap over tcp header. - if (!svritem->totalDataLen) + } + else { - coap_transport_type transport = coap_get_tcp_header_type_from_initbyte( - ((unsigned char *) svritem->recvData)[0] >> 4); + svritem->protocol = COAP; - size_t headerLen = coap_get_tcp_header_length_for_transport(transport); - if (svritem->recvDataLen >= headerLen) + // svritem->tlsdata can also be used as receiving buffer in case of raw tcp + len = recv(fd, svritem->tlsdata, sizeof(svritem->tlsdata), 0); + if (len < 0) { - svritem->totalDataLen = CAGetTotalLengthFromHeader( - (unsigned char *) svritem->recvData); - bufSize = svritem->totalDataLen; - unsigned char *newBuf = OICRealloc(svritem->recvData, bufSize); - if (!newBuf) + OIC_LOG_V(ERROR, TAG, "recv failed %s", strerror(errno)); + res = CA_RECEIVE_FAILED; + } + else if (0 == len) + { + OIC_LOG(INFO, TAG, "Received disconnect from peer. Close connection"); + res = CA_DESTINATION_DISCONNECTED; + } + else + { + OIC_LOG_V(DEBUG, TAG, "recv() : %d bytes", len); + //when successfully read data - pass them to callback. + if (g_packetReceivedCallback) { - OIC_LOG(ERROR, TAG, "out of memory"); - CADisconnectTCPSession(svritem, index); - return; + res = g_packetReceivedCallback(&svritem->sep, svritem->tlsdata, len); } - svritem->recvData = newBuf; } } - // #5. pass the received data information to upper layer. - if ((svritem->totalDataLen == svritem->recvDataLen) && g_packetReceivedCallback) + //disconnect session and clean-up data if any error occurs + if (res != CA_STATUS_OK) { - svritem->sep.endpoint.adapter = CA_ADAPTER_TCP; - g_packetReceivedCallback(&svritem->sep, svritem->recvData, svritem->recvDataLen); - OIC_LOG_V(DEBUG, TAG, "total received data len:%d", svritem->recvDataLen); + if (CA_STATUS_OK != CATCPDisconnectSession(&svritem->sep.endpoint)) + { + OIC_LOG(ERROR, TAG, "Failed to disconnect TCP session"); + } - // initialize data info to receive next message. - OICFree(svritem->recvData); - svritem->recvData = NULL; - svritem->recvDataLen = 0; - svritem->totalDataLen = 0; + CASearchAndDeleteTCPSession(&svritem->sep.endpoint); + return; } - - return; } -static void CAWakeUpForReadFdsUpdate(const char *host) +static ssize_t CAWakeUpForReadFdsUpdate(const char *host) { if (caglobals.tcp.connectionFds[1] != -1) { @@ -394,96 +636,222 @@ static void CAWakeUpForReadFdsUpdate(const char *host) { OIC_LOG_V(DEBUG, TAG, "write failed: %s", strerror(errno)); } + return len; + } + return -1; +} + +static CAResult_t CATCPConvertNameToAddr(int family, const char *host, uint16_t port, + struct sockaddr_storage *sockaddr) +{ + struct addrinfo *addrs = NULL; + struct addrinfo hints = { .ai_family = family, + .ai_protocol = IPPROTO_TCP, + .ai_socktype = SOCK_STREAM, + .ai_flags = AI_NUMERICHOST }; + + int r = getaddrinfo(host, NULL, &hints, &addrs); + if (r) + { + if (EAI_SYSTEM == r) + { + OIC_LOG_V(ERROR, TAG, "getaddrinfo failed: errno %s", strerror(errno)); + } + else + { + OIC_LOG_V(ERROR, TAG, "getaddrinfo failed: %s", gai_strerror(r)); + } + freeaddrinfo(addrs); + return CA_STATUS_FAILED; + } + // assumption: in this case, getaddrinfo will only return one addrinfo + // or first is the one we want. + if (addrs[0].ai_family == AF_INET6) + { + memcpy(sockaddr, addrs[0].ai_addr, sizeof (struct sockaddr_in6)); + ((struct sockaddr_in6 *)sockaddr)->sin6_port = htons(port); + } + else + { + memcpy(sockaddr, addrs[0].ai_addr, sizeof (struct sockaddr_in)); + ((struct sockaddr_in *)sockaddr)->sin_port = htons(port); } + freeaddrinfo(addrs); + return CA_STATUS_OK; } -static int CATCPCreateSocket(int family, CATCPSessionInfo_t *svritem) +static CAResult_t CATCPCreateSocket(int family, CATCPSessionInfo_t *svritem) { - // create tcp socket + VERIFY_NON_NULL(svritem, TAG, "svritem is NULL"); + + OIC_LOG_V(INFO, TAG, "try to connect with [%s:%u]", + svritem->sep.endpoint.addr, svritem->sep.endpoint.port); + + // #1. create tcp socket. int fd = socket(family, SOCK_STREAM, IPPROTO_TCP); if (-1 == fd) { OIC_LOG_V(ERROR, TAG, "create socket failed: %s", strerror(errno)); - goto exit; + return CA_SOCKET_OPERATION_FAILED; } + svritem->fd = fd; + // #2. convert address from string to binary. struct sockaddr_storage sa = { .ss_family = family }; - CAConvertNameToAddr(svritem->sep.endpoint.addr, svritem->sep.endpoint.port, &sa); - socklen_t socklen = sizeof (struct sockaddr_in); + CAResult_t res = CATCPConvertNameToAddr(family, svritem->sep.endpoint.addr, + svritem->sep.endpoint.port, &sa); + if (CA_STATUS_OK != res) + { + OIC_LOG(ERROR, TAG, "convert name to sockaddr failed"); + return CA_SOCKET_OPERATION_FAILED; + } - // connect to TCP server - int ret = connect(fd, (struct sockaddr *)&sa, socklen); - if (0 == ret) + // #3. set socket length. + socklen_t socklen = 0; + if (sa.ss_family == AF_INET6) { - OIC_LOG(DEBUG, TAG, "connect socket success"); - CAWakeUpForReadFdsUpdate(svritem->sep.endpoint.addr); + struct sockaddr_in6 *sock6 = (struct sockaddr_in6 *)&sa; + if (!sock6->sin6_scope_id) + { + sock6->sin6_scope_id = svritem->sep.endpoint.ifindex; + } + socklen = sizeof(struct sockaddr_in6); } else { - OIC_LOG(ERROR, TAG, "failed to connect socket"); - goto exit; + socklen = sizeof(struct sockaddr_in); } - return fd; + // #4. connect to remote server device. + if (connect(fd, (struct sockaddr *)&sa, socklen) < 0) + { + OIC_LOG_V(ERROR, TAG, "failed to connect socket, %s", strerror(errno)); + CALogSendStateInfo(svritem->sep.endpoint.adapter, svritem->sep.endpoint.addr, + svritem->sep.endpoint.port, 0, false, strerror(errno)); + return CA_SOCKET_OPERATION_FAILED; + } -exit: - if (fd >= 0) + OIC_LOG(INFO, TAG, "connect socket success"); + svritem->state = CONNECTED; + CHECKFD(svritem->fd); + ssize_t len = CAWakeUpForReadFdsUpdate(svritem->sep.endpoint.addr); + if (-1 == len) { - close(fd); + OIC_LOG(ERROR, TAG, "wakeup receive thread failed"); + return CA_SOCKET_OPERATION_FAILED; } - return -1; + return CA_STATUS_OK; } -static CAResult_t CACreateAcceptSocket() +static CASocketFd_t CACreateAcceptSocket(int family, CASocket_t *sock) { - int reuse = 1; - struct sockaddr_in server = { .sin_addr.s_addr = INADDR_ANY, - .sin_family = AF_INET, - .sin_port = htons(SERVER_PORT), - .sin_zero = { 0 } }; + VERIFY_NON_NULL_RET(sock, TAG, "sock", -1); - g_acceptServerFD = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); - if (g_acceptServerFD < 0) + if (OC_INVALID_SOCKET != sock->fd) + { + OIC_LOG(DEBUG, TAG, "accept socket created already"); + return sock->fd; + } + + socklen_t socklen = 0; + struct sockaddr_storage server = { .ss_family = family }; + + int fd = socket(family, SOCK_STREAM, IPPROTO_TCP); + if (OC_INVALID_SOCKET == fd) { OIC_LOG(ERROR, TAG, "Failed to create socket"); goto exit; } - if (-1 == setsockopt(g_acceptServerFD, SOL_SOCKET, SO_REUSEADDR, &reuse, sizeof(reuse))) + if (family == AF_INET6) + { + // the socket is restricted to sending and receiving IPv6 packets only. + int on = 1; +//TODO: enable once IPv6 is supported +#ifndef __TIZENRT__ + if (-1 == setsockopt(fd, IPPROTO_IPV6, IPV6_V6ONLY, &on, sizeof (on))) + { + OIC_LOG_V(ERROR, TAG, "IPV6_V6ONLY failed: %s", strerror(errno)); + goto exit; + } +#endif + ((struct sockaddr_in6 *)&server)->sin6_port = htons(sock->port); + socklen = sizeof (struct sockaddr_in6); + } + else + { + ((struct sockaddr_in *)&server)->sin_port = htons(sock->port); + socklen = sizeof (struct sockaddr_in); + } + + int reuse = 1; + if (-1 == setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, &reuse, sizeof(reuse))) { OIC_LOG(ERROR, TAG, "setsockopt SO_REUSEADDR"); goto exit; } - int serverlen = sizeof(server); - if (-1 == bind(g_acceptServerFD, (struct sockaddr *)&server, serverlen)) + if (-1 == bind(fd, (struct sockaddr *)&server, socklen)) { - OIC_LOG(ERROR, TAG, "bind() error"); + OIC_LOG_V(ERROR, TAG, "bind socket failed: %s", strerror(errno)); goto exit; } - if (listen(g_acceptServerFD, caglobals.tcp.listenBacklog) != 0) + if (listen(fd, caglobals.tcp.listenBacklog) != 0) { OIC_LOG(ERROR, TAG, "listen() error"); goto exit; } - CHECKFD(g_acceptServerFD); + if (sock->port) // use the given port + { + int on = 1; + if (setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, OPTVAL_T(&on), sizeof (on))) + { + OIC_LOG_V(ERROR, TAG, "SO_REUSEADDR failed: %s", strerror(errno)); + close(fd); + return OC_INVALID_SOCKET; + } + } + else // return the assigned port + { + if (-1 == getsockname(fd, (struct sockaddr *)&server, &socklen)) + { + OIC_LOG_V(ERROR, TAG, "getsockname failed: %s", strerror(errno)); + goto exit; + } + sock->port = ntohs(family == AF_INET6 ? + ((struct sockaddr_in6 *)&server)->sin6_port : + ((struct sockaddr_in *)&server)->sin_port); + } - return CA_STATUS_OK; + return fd; exit: - if (g_acceptServerFD >= 0) + if (fd >= 0) { - close(g_acceptServerFD); - g_acceptServerFD = -1; + close(fd); } - return CA_STATUS_FAILED; + return OC_INVALID_SOCKET; } static void CAInitializePipe(int *fds) { int ret = pipe(fds); +// TODO: Remove temporary workaround once F_GETFD / F_SETFD support is in TizenRT +/* Temporary workaround: By pass F_GETFD / F_SETFD */ +#ifdef __TIZENRT__ + if (-1 == ret) + { + close(fds[1]); + close(fds[0]); + + fds[0] = -1; + fds[1] = -1; + + OIC_LOG_V(ERROR, TAG, "pipe failed: %s", strerror(errno)); + } +#else if (-1 != ret) { ret = fcntl(fds[0], F_GETFD); @@ -510,105 +878,170 @@ static void CAInitializePipe(int *fds) OIC_LOG_V(ERROR, TAG, "pipe failed: %s", strerror(errno)); } } +#endif +} + +#define NEWSOCKET(FAMILY, NAME) \ + caglobals.tcp.NAME.fd = CACreateAcceptSocket(FAMILY, &caglobals.tcp.NAME); \ + if (caglobals.tcp.NAME.fd == -1) \ + { \ + caglobals.tcp.NAME.port = 0; \ + caglobals.tcp.NAME.fd = CACreateAcceptSocket(FAMILY, &caglobals.tcp.NAME); \ + } \ + CHECKFD(caglobals.tcp.NAME.fd); + +void CATCPInitializeSocket() +{ +#ifndef __WITH_TLS__ + NEWSOCKET(AF_INET, ipv4); +#else + NEWSOCKET(AF_INET, ipv4s); +#endif + +//TODO Enable once TizenRT supports IPv6 +#ifndef __TIZENRT__ +#ifndef __WITH_TLS__ + NEWSOCKET(AF_INET6, ipv6); +#else + NEWSOCKET(AF_INET6, ipv6s); +#endif +#endif +#ifndef __WITH_TLS__ + OIC_LOG_V(DEBUG, TAG, "IPv4 socket fd=%d, port=%d", + caglobals.tcp.ipv4.fd, caglobals.tcp.ipv4.port); + OIC_LOG_V(DEBUG, TAG, "IPv6 socket fd=%d, port=%d", + caglobals.tcp.ipv6.fd, caglobals.tcp.ipv6.port); +#else + OIC_LOG_V(DEBUG, TAG, "IPv4 secure socket fd=%d, port=%d", + caglobals.tcp.ipv4s.fd, caglobals.tcp.ipv4s.port); + OIC_LOG_V(DEBUG, TAG, "IPv6 secure socket fd=%d, port=%d", + caglobals.tcp.ipv6s.fd, caglobals.tcp.ipv6s.port); +#endif } CAResult_t CATCPStartServer(const ca_thread_pool_t threadPool) { + oc_mutex_lock(g_mutexObjectList); if (caglobals.tcp.started) { + oc_mutex_unlock(g_mutexObjectList); + OIC_LOG(INFO, TAG, "Adapter is started already"); return CA_STATUS_OK; } + g_threadPool = threadPool; + if (!caglobals.tcp.ipv4tcpenabled) { caglobals.tcp.ipv4tcpenabled = true; // only needed to run CA tests } - - CAResult_t res = CATCPCreateMutex(); - if (CA_STATUS_OK == res) + if (!caglobals.tcp.ipv6tcpenabled) { - res = CATCPCreateCond(); - } - if (CA_STATUS_OK != res) - { - OIC_LOG(ERROR, TAG, "failed to create mutex/cond"); - return res; + caglobals.tcp.ipv6tcpenabled = true; // only needed to run CA tests } - ca_mutex_lock(g_mutexObjectList); + caglobals.tcp.terminate = false; if (!caglobals.tcp.svrlist) { caglobals.tcp.svrlist = u_arraylist_create(); } - ca_mutex_unlock(g_mutexObjectList); - res = CACreateAcceptSocket(); - if (CA_STATUS_OK != res) + if (caglobals.server) { - OIC_LOG(ERROR, TAG, "failed to create accept socket"); - return res; + CATCPInitializeSocket(); } - +#ifndef __TIZENRT__ // create pipe for fast shutdown CAInitializePipe(caglobals.tcp.shutdownFds); CHECKFD(caglobals.tcp.shutdownFds[0]); CHECKFD(caglobals.tcp.shutdownFds[1]); - +#endif // create pipe for connection event CAInitializePipe(caglobals.tcp.connectionFds); CHECKFD(caglobals.tcp.connectionFds[0]); CHECKFD(caglobals.tcp.connectionFds[1]); - caglobals.tcp.terminate = false; - res = ca_thread_pool_add_task(threadPool, CAReceiveHandler, NULL); + CAResult_t res = CA_STATUS_OK; +#ifndef __TIZENRT__ + res = ca_thread_pool_add_task(g_threadPool, CAReceiveHandler, NULL, &g_recvThreadId); +#else + res = ca_thread_pool_add_task(g_threadPool, CAReceiveHandler, NULL, &g_recvThreadId, + "IoT_TCPReceive", CONFIG_IOTIVITY_TCPRECEIVE_PTHREAD_STACKSIZE); +#endif if (CA_STATUS_OK != res) { + g_recvThreadId = 0; + oc_mutex_unlock(g_mutexObjectList); OIC_LOG(ERROR, TAG, "thread_pool_add_task failed"); + CATCPStopServer(); return res; } - OIC_LOG(DEBUG, TAG, "CAReceiveHandler thread started successfully."); caglobals.tcp.started = true; + oc_mutex_unlock(g_mutexObjectList); + + OIC_LOG(INFO, TAG, "CAReceiveHandler thread started successfully."); return CA_STATUS_OK; } void CATCPStopServer() { - // mutex lock - ca_mutex_lock(g_mutexObjectList); + oc_mutex_lock(g_mutexObjectList); + if (caglobals.tcp.terminate) + { + oc_mutex_unlock(g_mutexObjectList); + OIC_LOG(INFO, TAG, "Adapter is not enabled"); + return; + } - // set terminate flag + // set terminate flag. caglobals.tcp.terminate = true; - if (caglobals.tcp.shutdownFds[1] != -1) + // close accept socket. +#ifndef __WITH_TLS__ + CLOSE_SOCKET(ipv4); + CLOSE_SOCKET(ipv6); +#else + CLOSE_SOCKET(ipv4s); + CLOSE_SOCKET(ipv6s); +#endif + + close(caglobals.tcp.connectionFds[1]); + close(caglobals.tcp.connectionFds[0]); + caglobals.tcp.connectionFds[1] = OC_INVALID_SOCKET; + caglobals.tcp.connectionFds[0] = OC_INVALID_SOCKET; +#ifndef __TIZENRT__ + if (caglobals.tcp.shutdownFds[1] != OC_INVALID_SOCKET) { close(caglobals.tcp.shutdownFds[1]); + caglobals.tcp.shutdownFds[1] = OC_INVALID_SOCKET; // receive thread will stop immediately } - - if (caglobals.tcp.connectionFds[1] != -1) +#endif + if (caglobals.tcp.started) { - close(caglobals.tcp.connectionFds[1]); + oc_cond_wait(g_condObjectList, g_mutexObjectList); + caglobals.tcp.started = false; } - - if (caglobals.tcp.started) +#ifndef __TIZENRT__ + if (caglobals.tcp.shutdownFds[0] != OC_INVALID_SOCKET) { - ca_cond_wait(g_condObjectList, g_mutexObjectList); + close(caglobals.tcp.shutdownFds[0]); + caglobals.tcp.shutdownFds[0] = OC_INVALID_SOCKET; } - caglobals.tcp.started = false; - - // mutex unlock - ca_mutex_unlock(g_mutexObjectList); - - if (-1 != g_acceptServerFD) +#endif + CAResult_t res = ca_thread_pool_remove_task(g_threadPool, g_recvThreadId); + if (CA_STATUS_OK != res) { - close(g_acceptServerFD); - g_acceptServerFD = -1; + OIC_LOG(ERROR, TAG, "ca_thread_pool_remove_task failed"); } + g_recvThreadId = 0; + oc_mutex_unlock(g_mutexObjectList); CATCPDisconnectAll(); - CATCPDestroyMutex(); - CATCPDestroyCond(); + sleep(1); + + OIC_LOG(INFO, TAG, "Adapter terminated successfully"); } void CATCPSetPacketReceiveCallback(CATCPPacketReceivedCallback callback) @@ -616,26 +1049,27 @@ void CATCPSetPacketReceiveCallback(CATCPPacketReceivedCallback callback) g_packetReceivedCallback = callback; } -void CATCPSetKeepAliveCallback(CATCPKeepAliveHandleCallback keepaliveHandler) +void CATCPSetConnectionChangedCallback(CATCPConnectionHandleCallback connHandler) { - g_keepaliveCallback = keepaliveHandler; + g_connectionCallback = connHandler; } -static size_t CACheckPayloadLength(const void *data, size_t dlen) +size_t CACheckPayloadLengthFromHeader(const void *data, size_t dlen) { VERIFY_NON_NULL_RET(data, TAG, "data", -1); - coap_transport_type transport = coap_get_tcp_header_type_from_initbyte( + coap_transport_t transport = coap_get_tcp_header_type_from_initbyte( ((unsigned char *)data)[0] >> 4); - coap_pdu_t *pdu = coap_new_pdu(transport, dlen); + coap_pdu_t *pdu = coap_new_pdu2(transport, dlen); if (!pdu) { OIC_LOG(ERROR, TAG, "outpdu is null"); + OIC_LOG_V(ERROR, TAG, "data length: %zu", dlen); return 0; } - int ret = coap_pdu_parse((unsigned char *) data, dlen, pdu, transport); + int ret = coap_pdu_parse2((unsigned char *) data, dlen, pdu, transport); if (0 >= ret) { OIC_LOG(ERROR, TAG, "pdu parse failed"); @@ -645,7 +1079,7 @@ static size_t CACheckPayloadLength(const void *data, size_t dlen) size_t payloadLen = 0; size_t headerSize = coap_get_tcp_header_length_for_transport(transport); - OIC_LOG_V(DEBUG, TAG, "headerSize : %d, pdu length : %d", + OIC_LOG_V(DEBUG, TAG, "headerSize : %zu, pdu length : %d", headerSize, pdu->length); if (pdu->length > headerSize) { @@ -657,56 +1091,48 @@ static size_t CACheckPayloadLength(const void *data, size_t dlen) return payloadLen; } -static void sendData(const CAEndpoint_t *endpoint, - const void *data, size_t dlen) +static ssize_t sendData(const CAEndpoint_t *endpoint, const void *data, + size_t dlen, const char *fam) { - // #1. get TCP Server object from list - size_t index = 0; - CATCPSessionInfo_t *svritem = CAGetTCPSessionInfoFromEndpoint(endpoint, &index); - if (!svritem) + OIC_LOG_V(INFO, TAG, "The length of data that needs to be sent is %zu bytes", dlen); + + // #1. find a session info from list. + CASocketFd_t sockFd = CAGetSocketFDFromEndpoint(endpoint); + if (OC_INVALID_SOCKET == sockFd) { - // if there is no connection info, connect to TCP Server - svritem = CAConnectTCPSession(endpoint); - if (!svritem) + // if there is no connection info, connect to remote device. + sockFd = CAConnectTCPSession(endpoint); + if (OC_INVALID_SOCKET == sockFd) { - OIC_LOG(ERROR, TAG, "Failed to create TCP server object"); - g_TCPErrorHandler(endpoint, data, dlen, CA_SEND_FAILED); - return; + OIC_LOG(ERROR, TAG, "Failed to create tcp session object"); + return -1; } } - // #2. check payload length - size_t payloadLen = CACheckPayloadLength(data, dlen); - // if payload length is zero, disconnect from TCP server - if (!payloadLen) - { - OIC_LOG(DEBUG, TAG, "payload length is zero, disconnect from remote device"); - CADisconnectTCPSession(svritem, index); - return; - } - - // #3. check connection state - if (svritem->fd < 0) - { - // if file descriptor value is wrong, remove TCP Server info from list - OIC_LOG(ERROR, TAG, "Failed to connect to TCP server"); - CADisconnectTCPSession(svritem, index); - g_TCPErrorHandler(endpoint, data, dlen, CA_SEND_FAILED); - return; - } - - // #4. send data to TCP Server + // #2. send data to remote device. ssize_t remainLen = dlen; do { - ssize_t len = send(svritem->fd, data, remainLen, 0); + size_t sendCounter = 0; +#ifdef MSG_NOSIGNAL + ssize_t len = send(sockFd, data, remainLen, MSG_DONTWAIT | MSG_NOSIGNAL); +#else + ssize_t len = send(sockFd, data, remainLen, MSG_DONTWAIT); +#endif if (-1 == len) { - if (EWOULDBLOCK != errno) + if (EWOULDBLOCK != errno && EAGAIN != errno) { OIC_LOG_V(ERROR, TAG, "unicast ipv4tcp sendTo failed: %s", strerror(errno)); - g_TCPErrorHandler(endpoint, data, dlen, CA_SEND_FAILED); - return; + CALogSendStateInfo(endpoint->adapter, endpoint->addr, endpoint->port, + len, false, strerror(errno)); + return len; + } + sendCounter++; + OIC_LOG_V(WARNING, TAG, "send blocked. trying %zu attempt from 100", sendCounter); + if(sendCounter >= 100) + { + return len; } continue; } @@ -714,22 +1140,31 @@ static void sendData(const CAEndpoint_t *endpoint, remainLen -= len; } while (remainLen > 0); - OIC_LOG_V(INFO, TAG, "unicast ipv4tcp sendTo is successful: %zu bytes", dlen); +#ifndef TB_LOG + (void)fam; +#endif + OIC_LOG_V(INFO, TAG, "unicast %stcp sendTo is successful: %zu bytes", fam, dlen); + CALogSendStateInfo(endpoint->adapter, endpoint->addr, endpoint->port, + dlen, true, NULL); + return dlen; } -void CATCPSendData(CAEndpoint_t *endpoint, const void *data, uint32_t datalen, - bool isMulticast) +ssize_t CATCPSendData(CAEndpoint_t *endpoint, const void *data, size_t datalen) { - VERIFY_NON_NULL_VOID(endpoint, TAG, "endpoint is NULL"); - VERIFY_NON_NULL_VOID(data, TAG, "data is NULL"); + VERIFY_NON_NULL_RET(endpoint, TAG, "endpoint is NULL", -1); + VERIFY_NON_NULL_RET(data, TAG, "data is NULL", -1); - if (!isMulticast) + if (caglobals.tcp.ipv6tcpenabled && (endpoint->flags & CA_IPV6)) { - if (caglobals.tcp.ipv4tcpenabled && (endpoint->adapter & CA_ADAPTER_TCP)) - { - sendData(endpoint, data, datalen); - } + return sendData(endpoint, data, datalen, "ipv6"); + } + if (caglobals.tcp.ipv4tcpenabled && (endpoint->flags & CA_IPV4)) + { + return sendData(endpoint, data, datalen, "ipv4"); } + + OIC_LOG(ERROR, TAG, "Not supported transport flags"); + return -1; } CAResult_t CAGetTCPInterfaceInformation(CAEndpoint_t **info, uint32_t *size) @@ -740,110 +1175,125 @@ CAResult_t CAGetTCPInterfaceInformation(CAEndpoint_t **info, uint32_t *size) return CA_NOT_SUPPORTED; } -CATCPSessionInfo_t *CAConnectTCPSession(const CAEndpoint_t *endpoint) +CASocketFd_t CAConnectTCPSession(const CAEndpoint_t *endpoint) { - VERIFY_NON_NULL_RET(endpoint, TAG, "endpoint is NULL", NULL); + VERIFY_NON_NULL_RET(endpoint, TAG, "endpoint is NULL", OC_INVALID_SOCKET); // #1. create TCP server object CATCPSessionInfo_t *svritem = (CATCPSessionInfo_t *) OICCalloc(1, sizeof (*svritem)); if (!svritem) { OIC_LOG(ERROR, TAG, "Out of memory"); - return NULL; + return OC_INVALID_SOCKET; } memcpy(svritem->sep.endpoint.addr, endpoint->addr, sizeof(svritem->sep.endpoint.addr)); + svritem->sep.endpoint.adapter = endpoint->adapter; svritem->sep.endpoint.port = endpoint->port; - - // #2. create the socket and connect to TCP server - if (caglobals.tcp.ipv4tcpenabled) + svritem->sep.endpoint.flags = endpoint->flags; + svritem->sep.endpoint.ifindex = endpoint->ifindex; + svritem->state = CONNECTING; + svritem->isClient = true; + + // #2. add TCP connection info to list + oc_mutex_lock(g_mutexObjectList); + if (caglobals.tcp.svrlist) { - int fd = CATCPCreateSocket(AF_INET, svritem); - if (-1 == fd) + bool res = u_arraylist_add(caglobals.tcp.svrlist, svritem); + if (!res) { + OIC_LOG(ERROR, TAG, "u_arraylist_add failed."); + close(svritem->fd); OICFree(svritem); - return NULL; - } - - // #3. add TCP connection info to list - svritem->fd = fd; - ca_mutex_lock(g_mutexObjectList); - if (caglobals.tcp.svrlist) - { - bool res = u_arraylist_add(caglobals.tcp.svrlist, svritem); - if (!res) - { - OIC_LOG(ERROR, TAG, "u_arraylist_add failed."); - close(svritem->fd); - OICFree(svritem); - ca_mutex_unlock(g_mutexObjectList); - return NULL; - } + oc_mutex_unlock(g_mutexObjectList); + return OC_INVALID_SOCKET; } - ca_mutex_unlock(g_mutexObjectList); + } + oc_mutex_unlock(g_mutexObjectList); - CHECKFD(fd); + // #3. create the socket and connect to TCP server + int family = (svritem->sep.endpoint.flags & CA_IPV6) ? AF_INET6 : AF_INET; + if (CA_STATUS_OK != CATCPCreateSocket(family, svritem)) + { + return OC_INVALID_SOCKET; + } - // pass the connection information to RI for keepalive. - if (g_keepaliveCallback) - { - g_keepaliveCallback(svritem->sep.endpoint.addr, svritem->sep.endpoint.port, true); - } + // #4. pass the connection information to CA Common Layer. + if (g_connectionCallback) + { + g_connectionCallback(&(svritem->sep.endpoint), true, svritem->isClient); } - return svritem; + return svritem->fd; } -CAResult_t CADisconnectTCPSession(CATCPSessionInfo_t *svritem, size_t index) +CAResult_t CADisconnectTCPSession(size_t index) { - VERIFY_NON_NULL(svritem, TAG, "svritem is NULL"); - - ca_mutex_lock(g_mutexObjectList); - - // close the socket and remove TCP connection info in list - if (svritem->fd >= 0) + CATCPSessionInfo_t *removedData = u_arraylist_remove(caglobals.tcp.svrlist, index); + if (!removedData) { - close(svritem->fd); + OIC_LOG(DEBUG, TAG, "there is no data to be removed"); + return CA_STATUS_OK; } - u_arraylist_remove(caglobals.tcp.svrlist, index); - OICFree(svritem->recvData); - OICFree(svritem); - ca_mutex_unlock(g_mutexObjectList); - // pass the connection information to RI for keepalive. - if (g_keepaliveCallback) + // close the socket and remove session info in list. + if (removedData->fd >= 0) { - g_keepaliveCallback(svritem->sep.endpoint.addr, svritem->sep.endpoint.port, false); + shutdown(removedData->fd, SHUT_RDWR); + close(removedData->fd); + removedData->fd = -1; + removedData->state = (CONNECTED == removedData->state) ? + DISCONNECTED : removedData->state; + + // pass the connection information to CA Common Layer. + if (g_connectionCallback && DISCONNECTED == removedData->state) + { + g_connectionCallback(&(removedData->sep.endpoint), false, removedData->isClient); + } } + OICFree(removedData->data); + removedData->data = NULL; + + OICFree(removedData); + removedData = NULL; + OIC_LOG(DEBUG, TAG, "data is removed from session list"); + + if (caglobals.server && MAX_CONNECTION_COUNTS == u_arraylist_length(caglobals.tcp.svrlist) + 1) + { + CATCPInitializeSocket(); + } return CA_STATUS_OK; } void CATCPDisconnectAll() { - ca_mutex_lock(g_mutexObjectList); - uint32_t length = u_arraylist_length(caglobals.tcp.svrlist); + oc_mutex_lock(g_mutexObjectList); - CATCPSessionInfo_t *svritem = NULL; - for (size_t i = 0; i < length; i++) + uint32_t length = u_arraylist_length(caglobals.tcp.svrlist); + for (ssize_t index = length; index > 0; index--) { - svritem = (CATCPSessionInfo_t *) u_arraylist_get(caglobals.tcp.svrlist, i); - if (svritem && svritem->fd >= 0) - { - shutdown(svritem->fd, SHUT_RDWR); - close(svritem->fd); - OICFree(svritem->recvData); - } + // disconnect session from remote device. + CADisconnectTCPSession(index - 1); } + u_arraylist_destroy(caglobals.tcp.svrlist); - ca_mutex_unlock(g_mutexObjectList); + caglobals.tcp.svrlist = NULL; + + oc_mutex_unlock(g_mutexObjectList); + +#ifdef __WITH_TLS__ + CAcloseSslConnectionAll(CA_ADAPTER_TCP); +#endif + } -CATCPSessionInfo_t *CAGetTCPSessionInfoFromEndpoint(const CAEndpoint_t *endpoint, - size_t *index) +CATCPSessionInfo_t *CAGetTCPSessionInfoFromEndpoint(const CAEndpoint_t *endpoint, size_t *index) { VERIFY_NON_NULL_RET(endpoint, TAG, "endpoint is NULL", NULL); VERIFY_NON_NULL_RET(index, TAG, "index is NULL", NULL); + OIC_LOG_V(DEBUG, TAG, "Looking for [%s:%d]", endpoint->addr, endpoint->port); + // get connection info from list uint32_t length = u_arraylist_length(caglobals.tcp.svrlist); for (size_t i = 0; i < length; i++) @@ -857,19 +1307,56 @@ CATCPSessionInfo_t *CAGetTCPSessionInfoFromEndpoint(const CAEndpoint_t *endpoint if (!strncmp(svritem->sep.endpoint.addr, endpoint->addr, sizeof(svritem->sep.endpoint.addr)) - && (svritem->sep.endpoint.port == endpoint->port)) + && (svritem->sep.endpoint.port == endpoint->port) + && (svritem->sep.endpoint.flags & endpoint->flags)) { + OIC_LOG(DEBUG, TAG, "Found in session list"); *index = i; return svritem; } } + OIC_LOG(DEBUG, TAG, "Session not found"); return NULL; } +CASocketFd_t CAGetSocketFDFromEndpoint(const CAEndpoint_t *endpoint) +{ + VERIFY_NON_NULL_RET(endpoint, TAG, "endpoint is NULL", OC_INVALID_SOCKET); + + OIC_LOG_V(DEBUG, TAG, "Looking for [%s:%d]", endpoint->addr, endpoint->port); + + // get connection info from list. + oc_mutex_lock(g_mutexObjectList); + uint32_t length = u_arraylist_length(caglobals.tcp.svrlist); + for (size_t i = 0; i < length; i++) + { + CATCPSessionInfo_t *svritem = (CATCPSessionInfo_t *) u_arraylist_get( + caglobals.tcp.svrlist, i); + if (!svritem) + { + continue; + } + + if (!strncmp(svritem->sep.endpoint.addr, endpoint->addr, + sizeof(svritem->sep.endpoint.addr)) + && (svritem->sep.endpoint.port == endpoint->port) + && (svritem->sep.endpoint.flags & endpoint->flags)) + { + oc_mutex_unlock(g_mutexObjectList); + OIC_LOG(DEBUG, TAG, "Found in session list"); + return svritem->fd; + } + } + + oc_mutex_unlock(g_mutexObjectList); + OIC_LOG(DEBUG, TAG, "Session not found"); + return OC_INVALID_SOCKET; +} + CATCPSessionInfo_t *CAGetSessionInfoFromFD(int fd, size_t *index) { - ca_mutex_lock(g_mutexObjectList); + oc_mutex_lock(g_mutexObjectList); // check from the last item. CATCPSessionInfo_t *svritem = NULL; @@ -881,29 +1368,49 @@ CATCPSessionInfo_t *CAGetSessionInfoFromFD(int fd, size_t *index) if (svritem && svritem->fd == fd) { *index = i; - ca_mutex_unlock(g_mutexObjectList); + oc_mutex_unlock(g_mutexObjectList); return svritem; } } - ca_mutex_unlock(g_mutexObjectList); + oc_mutex_unlock(g_mutexObjectList); return NULL; } +CAResult_t CASearchAndDeleteTCPSession(const CAEndpoint_t *endpoint) +{ + oc_mutex_lock(g_mutexObjectList); + + CAResult_t result = CA_STATUS_OK; + size_t index = 0; + CATCPSessionInfo_t *svritem = CAGetTCPSessionInfoFromEndpoint(endpoint, &index); + if (svritem) + { + result = CADisconnectTCPSession(index); + if (CA_STATUS_OK != result) + { + OIC_LOG_V(ERROR, TAG, "CADisconnectTCPSession failed, result[%d]", result); + } + } + + oc_mutex_unlock(g_mutexObjectList); + return result; +} + size_t CAGetTotalLengthFromHeader(const unsigned char *recvBuffer) { OIC_LOG(DEBUG, TAG, "IN - CAGetTotalLengthFromHeader"); - coap_transport_type transport = coap_get_tcp_header_type_from_initbyte( + coap_transport_t transport = coap_get_tcp_header_type_from_initbyte( ((unsigned char *)recvBuffer)[0] >> 4); size_t optPaylaodLen = coap_get_length_from_header((unsigned char *)recvBuffer, transport); size_t headerLen = coap_get_tcp_header_length((unsigned char *)recvBuffer); - OIC_LOG_V(DEBUG, TAG, "option/paylaod length [%d]", optPaylaodLen); - OIC_LOG_V(DEBUG, TAG, "header length [%d]", headerLen); - OIC_LOG_V(DEBUG, TAG, "total data length [%d]", headerLen + optPaylaodLen); + OIC_LOG_V(DEBUG, TAG, "option/paylaod length [%zu]", optPaylaodLen); + OIC_LOG_V(DEBUG, TAG, "header length [%zu]", headerLen); + OIC_LOG_V(DEBUG, TAG, "total data length [%zu]", headerLen + optPaylaodLen); OIC_LOG(DEBUG, TAG, "OUT - CAGetTotalLengthFromHeader"); return headerLen + optPaylaodLen; @@ -911,5 +1418,5 @@ size_t CAGetTotalLengthFromHeader(const unsigned char *recvBuffer) void CATCPSetErrorHandler(CATCPErrorHandleCallback errorHandleCallback) { - g_TCPErrorHandler = errorHandleCallback; + g_tcpErrorHandler = errorHandleCallback; }