valib/c_bhomebus.git

			@@ -1,29 +1,304 @@
			#include "net_mod_socket.h"
			#include "socket_io.h"
			#include "net_mod_socket_io.h"
			#include <sys/types.h> /* See NOTES */
			#include <sys/socket.h>


			std::map<std::string, rio_t *> NetModSocket::connectionMap;


			NetModSocket::NetModSocket()
			{

			init_req_rep_req_resp_pool();
			}


			NetModSocket::~NetModSocket() {
			int clientfd;
			for (auto map_iter = req_resp_pool.connectionMap.begin(); map_iter != req_resp_pool.connectionMap.end(); map_iter++) {
			clientfd = map_iter->second;
			Close(clientfd);

			}
			}


			void NetModSocket::init_req_rep_req_resp_pool()
			{
			/* Initially, there are no connected descriptors */
			int i;
			req_resp_pool.maxi = -1; //line:conc:echoservers:beginempty
			for (i = 0; i < FD_SETSIZE; i++)
			req_resp_pool.connfd[i] = -1; //line:conc:echoservers:endempty

			/* Initially, listenfd is only member of select read set */
			FD_ZERO(&req_resp_pool.read_set);
			FD_ZERO(&req_resp_pool.write_set);
			FD_ZERO(&req_resp_pool.except_set);
			}

			int NetModSocket::connect( net_node_t *node) {
			std::map<std::string, int>::iterator mapIter;
			int connfd;
			int i;
			char mapKey[256];
			char portstr[32];

			sprintf(mapKey, "%s:%d", node->host, node->port);
			if( ( mapIter = req_resp_pool.connectionMap.find(mapKey)) != req_resp_pool.connectionMap.end()) {
			connfd = mapIter->second;

			} else {

			sprintf(portstr, "%d", node->port);
			connfd = open_clientfd(node->host, portstr);
			if(connfd < 0) {
			return -1;
			}
			req_resp_pool.connectionMap.insert({mapKey, connfd});
			}


			for (i = 0; i < FD_SETSIZE; i++) { /* Find an available slot */
			if (req_resp_pool.connfd[i] < 0)
			{
			/* Add connected descriptor to the req_resp_pool */
			req_resp_pool.connfd[i] = connfd;
			req_resp_pool.connfdNodeMap.insert({connfd, node});
			// Rio_readinitb(&req_resp_pool.clientrio[i], connfd); //line:conc:echoservers:endaddclient

			/* Add the descriptor to descriptor set */
			FD_SET(connfd, &req_resp_pool.read_set); //line:conc:echoservers:addconnfd
			FD_SET(connfd, &req_resp_pool.write_set);
			FD_SET(connfd, &req_resp_pool.except_set);
			/* Update max descriptor and req_resp_pool highwater mark */
			if (connfd > req_resp_pool.maxfd)
			req_resp_pool.maxfd = connfd;
			if (i > req_resp_pool.maxi)
			req_resp_pool.maxi = i;
			break;
			}
			}

			if (i == FD_SETSIZE) {
			/* Couldn't find an empty slot */
			LoggerFactory::getLogger()->error(errno, "add_client error: Too many clients");
			return -1;

			}

			return connfd;
			}

			void NetModSocket::close_connect(int connfd) {

			net_node_t *node = req_resp_pool.connfdNodeMap.find(connfd)->second;

			// std::map<std::string, int>::iterator mapIter;
			Close(connfd); //line:conc:echoservers:closeconnfd
			FD_CLR(connfd, &req_resp_pool.read_set);
			FD_CLR(connfd, &req_resp_pool.write_set);
			FD_CLR(connfd, &req_resp_pool.except_set);

			char mapKey[256];
			// char portstr[32];
			sprintf(mapKey, "%s:%d", node->host, node->port);
			req_resp_pool.connectionMap.erase(mapKey);
			LoggerFactory::getLogger()->debug("close_connect");
			}


			int NetModSocket::sendandrecv(net_node_t node_arr, int arrlen, void send_buf, int send_size,
			net_mod_recv_msg_t ** recv_arr, int *recv_arr_size) {

			int i, n, clientfd;
			char portstr[32];
			int i, recv_size, connfd;
			net_node_t *node;
			char mapKey[256];
			void *recv_buf;


			int n_conn_suc = 0, n_recv_suc = 0;

			net_mod_recv_msg_t ret_arr = (net_mod_recv_msg_t )calloc(arrlen, sizeof(net_mod_recv_msg_t));

			init_req_rep_req_resp_pool();

			for (i = 0; i< arrlen; i++) {

			node = &node_arr[i];
			if(node->host == NULL) {
			// 本地发送
			shmModSocket.sendandrecv(send_buf, send_size, node->key, &recv_buf, &recv_size);
			strcpy( ret_arr[n_recv_suc].host,"localshm");
			ret_arr[n_recv_suc].port = 0;
			ret_arr[n_recv_suc].key = node->key;
			ret_arr[n_recv_suc].content = recv_buf;
			ret_arr[n_recv_suc].content_length = recv_size;
			n_recv_suc++;
			}

			if( (connfd = connect(node)) < 0 ) {
			continue;
			}


			// if(write_request(connfd, node->key, send_buf, send_size) != 0) {
			// close_connect(connfd);
			// }

			n_conn_suc++;
			// optval = 0;
			// setsockopt(clientfd, IPPROTO_TCP, TCP_CORK, &optval, sizeof(optval));
			}

			printf("n_conn_suc =%d\n", n_conn_suc);

			while(n_recv_suc < n_conn_suc)
			{
			/* Wait for listening/connected descriptor(s) to become ready */
			req_resp_pool.ready_read_set = req_resp_pool.read_set;
			req_resp_pool.ready_write_set = req_resp_pool.write_set;
			req_resp_pool.ready_except_set = req_resp_pool.except_set;
			req_resp_pool.nready = select(req_resp_pool.maxfd + 1, &req_resp_pool.ready_read_set, &req_resp_pool.ready_write_set, &req_resp_pool.ready_except_set, NULL);
			printf("req_resp_pool.nready =%d\n", req_resp_pool.nready);
			for (i = 0; (i <= req_resp_pool.maxi) && (req_resp_pool.nready > 0); i++) {
			if ( (connfd = req_resp_pool.connfd[i]) > 0 ) {
			/* If the descriptor is ready, echo a text line from it */
			node = req_resp_pool.connfdNodeMap.find(connfd)->second;
			if ( FD_ISSET(connfd, &req_resp_pool.ready_read_set))
			{
			req_resp_pool.nready--;
			if(read_response(connfd, ret_arr+n_recv_suc) == 0) {
			n_recv_suc++;
			} else {
			close_connect(connfd);
			}

			}
			if (FD_ISSET(connfd, &req_resp_pool.ready_write_set))
			{
			req_resp_pool.nready--;
			printf("write %d\n", connfd);
			if(write_request(connfd, node->key, send_buf, send_size) != 0) {
			close_connect(connfd);
			} else{
			// 一次写入完成后清空写入位
			FD_CLR(connfd, &req_resp_pool.write_set);
			}

			}
			if (FD_ISSET(connfd, &req_resp_pool.ready_except_set))
			{
			req_resp_pool.nready--;
			close_connect(connfd);
			}
			}
			}
			}

			*recv_arr = ret_arr;
			if(recv_arr_size != NULL) {
			*recv_arr_size = n_recv_suc;
			}
			return n_recv_suc;

			}

			int NetModSocket::write_request(int clientfd, int key, void *send_buf, int send_size) {
			net_mod_request_head_t request_head = {};
			static char *buf;
			static int buf_size, max_buf_size;


			if(buf == NULL) {
			buf = (char *)malloc(MAXBUF);
			max_buf_size = MAXBUF;
			LoggerFactory::getLogger()->error(errno, "NetModSocket::sendandrecv malloc");

			}

			buf_size = send_size + NET_MODE_REQUEST_HEAD_LENGTH;
			if(max_buf_size < buf_size) {
			buf = (char *)realloc(buf, buf_size);
			max_buf_size = buf_size;
			}

			request_head.mod = REQ_REP;
			request_head.key = key;
			request_head.content_length = send_size;
			request_head.topic_length = 0;

			// optval = 1;
			// setsockopt(clientfd, IPPROTO_TCP, TCP_CORK, &optval, sizeof(optval));
			memcpy(buf, NetModSocket::encode_request_head(request_head), NET_MODE_REQUEST_HEAD_LENGTH);
			memcpy(buf + NET_MODE_REQUEST_HEAD_LENGTH, send_buf, send_size);


			if(rio_writen(clientfd, buf, buf_size) != buf_size ) {
			LoggerFactory::getLogger()->error(errno, "NetModSocket::send conent rio_writen");

			return -1;
			}
			return 0;
			}

			int NetModSocket::read_response(int connfd, net_mod_recv_msg_t *recv_msg) {
			int recv_size;
			void *recv_buf;
			char response_head_bs[NET_MODE_RESPONSE_HEAD_LENGTH];

			net_mod_response_head_t response_head;
			net_node_t *node = req_resp_pool.connfdNodeMap.find(connfd)->second;
			if ( rio_readn(connfd, response_head_bs, NET_MODE_RESPONSE_HEAD_LENGTH) != NET_MODE_RESPONSE_HEAD_LENGTH) {
			LoggerFactory::getLogger()->error(errno, "NetModSocket::send rio_readnb");

			return -1;
			}

			response_head = NetModSocket::decode_response_head(response_head_bs);

			recv_buf = malloc(response_head.content_length);
			if(recv_buf == NULL) {
			LoggerFactory::getLogger()->error(errno, "NetModSocket::send malloc");
			exit(1);
			}
			if ( (recv_size = rio_readn(connfd, recv_buf, response_head.content_length) ) != response_head.content_length) {
			LoggerFactory::getLogger()->error(errno, "NetModSocket::send rio_readnb");

			return -1;
			}


			strcpy( recv_msg->host, node->host);
			recv_msg->port = node->port;
			recv_msg->key = node->key;
			recv_msg->content = recv_buf;
			recv_msg->content_length = recv_size;
			return 0;
			}

			int NetModSocket::sendandrecv_safe(net_node_t node_arr, int arrlen, void send_buf, int send_size,
			net_mod_recv_msg_t ** recv_arr, int *recv_arr_size) {

			int i, clientfd;
			net_node_t *node;
			void *recv_buf;
			int recv_size;
			net_mod_request_head_t request_head;
			char response_head_bs[NET_MODE_RESPONSE_HEAD_LENGTH];
			net_mod_request_head_t request_head = {};
			net_mod_response_head_t response_head;
			std::map<std::string, rio_t*>::iterator mapIter;
			rio_t *rio;


			char portstr[32];
			char *buf = NULL;
			int buf_size, max_buf_size;

			if(buf == NULL) {
			buf = (char *)malloc(MAXBUF);
			max_buf_size = MAXBUF;
			LoggerFactory::getLogger()->error(errno, "NetModSocket::sendandrecv malloc");
			}

			int nsuc = 0;
			net_mod_recv_msg_t ret_arr = (net_mod_recv_msg_t )calloc(arrlen, sizeof(net_mod_recv_msg_t));

			for (i = 0; i< arrlen; i++) {
			@@ -34,63 +309,156 @@
			shmModSocket.sendandrecv(send_buf, send_size, node->key, &recv_buf, &recv_size);
			goto LABEL_ARR_PUSH;
			}
			sprintf(mapKey, "%s:%d", node->host, node->port);
			if( ( mapIter = connectionMap.find(mapKey)) != connectionMap.end()) {
			rio = mapIter->second;
			} else {
			rio = (rio_t *)malloc(sizeof(rio_t));
			sprintf(portstr, "%d", node->port);
			clientfd = Open_clientfd(node-> host, portstr);
			Rio_readinitb(rio, clientfd);
			connectionMap.insert({mapKey, rio});

			sprintf(portstr, "%d", node->port);
			clientfd = open_clientfd(node->host, portstr);
			if(clientfd < 0) {
			continue;
			}

			buf_size = send_size + NET_MODE_REQUEST_HEAD_LENGTH;
			if(max_buf_size < buf_size) {
			buf = (char *)realloc(buf, buf_size);
			max_buf_size = buf_size;
			}


			request_head.mod = REQ_REP;
			request_head.key = node->key;
			request_head.content_length = send_size;
			if( (n = rio_writen(rio->rio_fd, &request_head, sizeof(request_head))) != sizeof(request_head)) {
			err_exit(errno, "NetModSocket::send head rio_writen");
			request_head.topic_length = 0;

			// optval = 1;
			// setsockopt(clientfd, IPPROTO_TCP, TCP_CORK, &optval, sizeof(optval));
			memcpy(buf, NetModSocket::encode_request_head(request_head), NET_MODE_REQUEST_HEAD_LENGTH);
			memcpy(buf + NET_MODE_REQUEST_HEAD_LENGTH, send_buf, send_size);


			if(rio_writen(clientfd, buf, buf_size) != buf_size ) {
			LoggerFactory::getLogger()->error(errno, "NetModSocket::send conent rio_writen");

			close(clientfd);
			continue;
			}
			// optval = 0;
			// setsockopt(clientfd, IPPROTO_TCP, TCP_CORK, &optval, sizeof(optval));

			if ( rio_readn(clientfd, response_head_bs, NET_MODE_RESPONSE_HEAD_LENGTH) != NET_MODE_RESPONSE_HEAD_LENGTH) {
			LoggerFactory::getLogger()->error(errno, "NetModSocket::send rio_readnb");

			close(clientfd);
			continue;
			}

			if( (n = rio_writen(rio->rio_fd, send_buf, send_size)) != send_size ) {
			err_exit(errno, "NetModSocket::send conent rio_writen");
			}

			if ((n = rio_readnb(rio, &response_head, sizeof(response_head))) != sizeof(response_head)) {
			err_exit(errno, "NetModSocket::send rio_readnb");
			}
			response_head = NetModSocket::decode_response_head(response_head_bs);

			recv_buf = malloc(response_head.content_length);
			if(recv_buf == NULL) {
			err_exit(errno, "NetModSocket::send malloc");
			LoggerFactory::getLogger()->error(errno, "NetModSocket::send malloc");
			exit(1);
			}
			if ( (recv_size = rio_readnb(rio, recv_buf, response_head.content_length) ) != response_head.content_length) {
			err_exit(errno, "NetModSocket::send rio_readnb");
			if ( (recv_size = rio_readn(clientfd, recv_buf, response_head.content_length) ) != response_head.content_length) {
			LoggerFactory::getLogger()->error(errno, "NetModSocket::send rio_readnb");

			close(clientfd);
			continue;
			}

			LABEL_ARR_PUSH:
			strcpy( ret_arr[i].host, node->host);
			ret_arr[i].port = node->port;
			ret_arr[i].key = node->key;
			ret_arr[i].content = recv_buf;
			ret_arr[i].content_length = recv_size;
			}
			*recv_arr = ret_arr;
			*recv_arr_size = i;
			if(node->host != NULL) {
			strcpy(ret_arr[nsuc].host, node->host);
			} else {
			strcpy(ret_arr[nsuc].host, "local");
			}

			ret_arr[nsuc].port = node->port;
			ret_arr[nsuc].key = node->key;
			ret_arr[nsuc].content = recv_buf;
			ret_arr[nsuc].content_length = recv_size;

			return i;
			nsuc++;
			}

			*recv_arr = ret_arr;
			if(recv_arr_size != NULL) {
			*recv_arr_size = nsuc;
			}

			free(buf);
			return nsuc;

			}

			// int pub(char topic, int topic_size, void content, int content_size, int port);

			int NetModSocket::pub(net_node_t node_arr, int arrlen, char topic, int topic_size, void *content, int content_size) {
			int i, clientfd;
			net_node_t *node;

			char *buf;
			int max_buf_size, buf_size;

			net_mod_request_head_t request_head;

			char portstr[32];

			buf = (char *)malloc(MAXBUF);
			max_buf_size = MAXBUF;
			if(buf == NULL) {
			LoggerFactory::getLogger()->error(errno, "NetModSocket::sendandrecv malloc");
			exit(1);
			}
			int nsuc = 0;
			for (i = 0; i< arrlen; i++) {

			node = &node_arr[i];
			if(node->host == NULL) {
			// 本地发送
			shmModSocket.pub(topic, topic_size, content, content_size, node->key);

			} else {
			sprintf(portstr, "%d", node->port);
			clientfd = open_clientfd(node->host, portstr);
			if(clientfd < 0) {
			continue;
			}

			request_head.mod = BUS;
			request_head.key = node->key;
			request_head.content_length = content_size;
			request_head.topic_length = strlen(topic) + 1;

			buf_size = NET_MODE_REQUEST_HEAD_LENGTH + content_size + request_head.topic_length;

			if(max_buf_size < buf_size) {
			buf = (char *)realloc(buf, buf_size);
			max_buf_size = buf_size;
			}

			memcpy(buf, NetModSocket::encode_request_head(request_head), NET_MODE_REQUEST_HEAD_LENGTH);
			memcpy(buf + NET_MODE_REQUEST_HEAD_LENGTH, content, content_size);
			memcpy(buf + NET_MODE_REQUEST_HEAD_LENGTH + content_size, topic, request_head.topic_length);

			if(rio_writen(clientfd, buf, buf_size) != buf_size ) {
			LoggerFactory::getLogger()->error(errno, "NetModSocket::pub rio_writen conent ");
			close(clientfd);
			continue;
			}
			}

			nsuc++;
			}

			free(buf);
			return nsuc;
			}

			void NetModSocket::free_recv_msg_arr(net_mod_recv_msg_t * arr, size_t size) {

			for(int i =0; i< size; i++) {
			free(arr[i].content);
			}

			free(arr);
			}

			// ssize_t recv(void *buf, size_t len) {
			@@ -99,7 +467,34 @@

			// }

			NetModSocket::~NetModSocket() {

			void * NetModSocket::encode_request_head(net_mod_request_head_t & request) {
			char * head = (char *)malloc(NET_MODE_REQUEST_HEAD_LENGTH);
			PUT(head, htonl(request.mod));
			PUT(head + 4, htonl(request.key));
			PUT(head + 8, htonl(request.content_length));
			PUT(head + 12, htonl(request.topic_length));
			return head;
			}

			net_mod_request_head_t NetModSocket::decode_request_head(void *_headbs) {
			char headbs = (char )_headbs;
			net_mod_request_head_t head;
			head.mod = ntohl(GET(headbs));
			head.key = ntohl(GET(headbs + 4));
			head.content_length = ntohl(GET(headbs + 8));
			head.topic_length = ntohl(GET(headbs + 12));
			return head;
			}

			void * NetModSocket::encode_response_head(net_mod_response_head_t & response) {
			char * head = (char *)malloc(NET_MODE_RESPONSE_HEAD_LENGTH);
			PUT(head, htonl(response.content_length));
			return head;
			}

			net_mod_response_head_t NetModSocket::decode_response_head(void *_headbs) {
			char headbs = (char )_headbs;
			net_mod_response_head_t head;
			head.content_length = ntohl(GET(headbs));
			return head;
			}