tango-kni/entry/src/kni_entry.cpp

/*
intercept:  destroy_pme + send_log + del traceid2pem + del tuple2stream

bypass: drome:  pme_new_fail:    destroy_pme
				no_tfe:          destroy_pme
			    stream_error:    destroy_pme + send_log
		
		giveme: policy:          destroy_pme + send_log
				dup_traffic:     destroy_pme + send_log
*/

#include "kni_utils.h"
#include "ssl_utils.h"
#include "marsio.h"
#include "kni_maat.h"
#include "MESA/http.h"
#include "MESA/stream_inc/sapp_inject.h"
#include "kni_cmsg.h"
#include "uuid/uuid.h"
#include "cjson/cJSON.h"
#include "kni_send_logger.h"
#include <linux/if_ether.h>
#include <signal.h>
#include "tfe_mgr.h"
#ifdef __cplusplus
extern "C" {
#endif
	#include "dablooms.h"
#ifdef __cplusplus
}
#endif
#include "kni_tun.h"

struct kni_handle *g_kni_handle = NULL;
struct kni_field_stat_handle *g_kni_fs_handle = NULL;

#define HTTP_PROJECT_NAME "kni_http_tag"
#define BURST_MAX   1
#define STREAM_TRACEID_LEN 37
#define CALLER_SAPP 0
#define CALLER_TFE  1


enum kni_protocol{
    KNI_PROTOCOL_UNKNOWN = 0,
	KNI_PROTOCOL_SSL,
	KNI_PROTOCOL_HTTP,
};

enum stream_error{
	STREAM_ERROR_ASYM_ROUTING = -1,
	STREAM_ERROR_NO_SYN = -2,
	STREAM_ERROR_NO_SYN_ACK = -3,
	STREAM_ERROR_NO_DATA = -4,
	STREAM_ERROR_UNSUPPORTED_PROTOCOL = -5,
	STREAM_ERROR_INVALID_IP_HDR = -6,
	STREAM_ERROR_EXCEED_MTU = -7,
	//internal
	STREAM_ERROR_INVALID_ACTION = -8,
	STREAM_ERROR_SENDTO_TFE_FAIL = -9,
	STREAM_ERROR_TUPLE2STM_ADD_FAIL = -10,
	STREAM_ERROR_NO_TFE = -11,
	STREAM_ERROR_PME_INIT_FAIL= -12,
	STREAM_ERROR_DUP_TRAFFIC = -13,
	STREAM_ERROR_CMSG_ADD_FAIL = -14,
};

struct http_project{
	int host_len;
	char host[KNI_DOMAIN_MAX];
};

//memset 0
struct dup_traffic_dabloom_key{
	union{
		struct stream_tuple4_v4 v4;
    	struct stream_tuple4_v6 v6;
	}addr;
	uint16_t ipid;
	uint32_t seq;
	uint32_t ack_seq;
	uint32_t timestamp;	
};

struct pme_info{
	addr_type_t addr_type;
	char stream_addr[KNI_ADDR_MAX];
    int protocol;
	int do_log;
	int policy_id;
	int maat_hit;
	enum kni_action action;
	int service;
	struct kni_tcpopt_info client_tcpopt;
	struct kni_tcpopt_info server_tcpopt;
	char has_syn;
	char has_syn_ack;
	uint16_t client_window;
	uint16_t server_window;
	int tfe_id;      
	pthread_mutex_t lock;
	enum stream_error error;
	char stream_traceid[STREAM_TRACEID_LEN];
	//cjson check protocol
	union{
		char host[KNI_DOMAIN_MAX]; //http only
		char sni[KNI_DOMAIN_MAX]; //ssl only
	}domain;
	//tfe_release = 1: tfe don't need pmeinfo
	int tfe_release;
	int sapp_release;
	//kafka log
	struct layer_addr *addr;
	unsigned char dir;
	uint64_t server_bytes;
	uint64_t client_bytes;
	uint64_t server_pkts;
	uint64_t client_pkts;

	struct timespec start_time;
	struct timespec end_time;
	uint64_t con_duration_ms; 
	//from tfe, kafka log
	uint64_t intercept_state;
	uint64_t pinningst;  //defalut 0
	uint64_t ssl_server_side_latency;
	uint64_t ssl_client_side_latency;
	char ssl_server_side_version[KNI_SYMBOL_MAX];
	char ssl_client_side_version[KNI_SYMBOL_MAX];
	int64_t ssl_cert_verify;
	char ssl_error[KNI_STRING_MAX];

	//for dup traffic detect
	int has_dup_traffic;
	int has_dup_syn;
	int has_dup_syn_ack;
	struct dup_traffic_dabloom_key *syn_packet;
	struct dup_traffic_dabloom_key *syn_ack_packet;
};

struct wrapped_packet{
	char data[KNI_MTU];
};

struct tcp_option_restore{
	uint8_t kind;
	uint8_t len;
	uint16_t offset;
};

struct tfe_enabled_node{
	int tfe_id;
	struct mr_vdev *dev_eth_handler;
	struct mr_sendpath *dev_eth_sendpath;
};

struct kni_marsio_handle{ 
	struct mr_instance *instance;
	int tfe_enabled_node_count;
	struct tfe_enabled_node tfe_enabled_nodes[TFE_COUNT_MAX];
};

struct protocol_identify_result{
	int protocol;
	char domain[KNI_DOMAIN_MAX];
	int domain_len;
};

struct thread_tfe_cmsg_receiver_args{
	void *logger;
	char profile[KNI_SYMBOL_MAX];
};


struct per_thread_handle{
	MESA_htable_handle tuple2stream_htable;
	struct expiry_dablooms_handle *dabloom_handle;
};

struct tuple2stream_htable_value{
	struct streaminfo *stream;
	struct pme_info *pmeinfo;
	int route_dir;  
	int reversed;
};


struct kni_handle{
	int http_project_id;
	struct kni_marsio_handle *marsio_handle;
	struct kni_tun_handle *tun_handle;
	struct kni_maat_handle *maat_handle;
	struct kni_send_logger *send_logger;
	MESA_htable_handle traceid2pme_htable;
	struct per_thread_handle *threads_handle;
	uint32_t local_ipv4;
	void *local_logger;
	struct tfe_mgr *_tfe_mgr;
	int thread_count;
	int dup_traffic_switch;
	int dup_traffic_action;
	enum kni_deploy_mode deploy_mode;
	char src_mac_addr[6];
	char dst_mac_addr[6];
};

struct traceid2pme_search_cb_args{
	struct kni_cmsg *cmsg;
	void *logger;
};

static char* stream_errmsg_session_record(enum stream_error _errno){
	switch(_errno){
		case STREAM_ERROR_ASYM_ROUTING:
			return (char*)"e_asym_routing";
		case STREAM_ERROR_NO_SYN:
			return (char*)"e_no_syn";
		case STREAM_ERROR_NO_SYN_ACK:
			return (char*)"e_no_synack";
		case STREAM_ERROR_NO_DATA:
			return (char*)"e_no_data";
		case STREAM_ERROR_UNSUPPORTED_PROTOCOL:
			return (char*)"e_unsupported_protocol";
		case STREAM_ERROR_INVALID_IP_HDR:
			return (char*)"e_invalid_ip_hdr";
		case STREAM_ERROR_EXCEED_MTU:
			return (char*)"e_exceed_mtu";
		case STREAM_ERROR_INVALID_ACTION:
			return (char*)"e_internal_1";
		case STREAM_ERROR_SENDTO_TFE_FAIL:
			return (char*)"e_internal_2";
		case STREAM_ERROR_TUPLE2STM_ADD_FAIL:
			return (char*)"e_internal_3";
		case STREAM_ERROR_NO_TFE:
			return (char*)"e_internal_4";
		case STREAM_ERROR_PME_INIT_FAIL:
			return (char*)"e_internal_5";
		case STREAM_ERROR_DUP_TRAFFIC:
			return (char*)"e_internal_6";
		case STREAM_ERROR_CMSG_ADD_FAIL:
			return (char*)"e_internal_7";
		default:
			return (char*)"unknown error";
	}
}

static int dup_traffic_dabloom_key_get(struct pkt_info *pktinfo, struct dup_traffic_dabloom_key *key){
	//ipv6
	struct tcphdr *tcphdr = pktinfo->tcphdr;
	key->seq = tcphdr->seq;
	key->ack_seq = tcphdr->ack_seq;
	struct kni_tcpopt_info tcpopt;
	kni_get_tcpopt(&tcpopt, tcphdr, pktinfo->tcphdr_len);
	key->timestamp = tcpopt.ts_value;
	if(pktinfo->addr_type == ADDR_TYPE_IPV6){
		struct ip6_hdr *iphdr = pktinfo->iphdr.v6;
		memcpy(key->addr.v6.saddr, &(iphdr->ip6_src), sizeof(key->addr.v6.saddr));
		memcpy(key->addr.v6.daddr, &(iphdr->ip6_dst), sizeof(key->addr.v6.daddr));
		key->addr.v6.source = tcphdr->source;
		key->addr.v6.dest = tcphdr->dest;
	}
	//ipv4
	else{
		struct iphdr *iphdr = pktinfo->iphdr.v4;
		key->addr.v4.saddr = iphdr->saddr;
		key->addr.v4.daddr = iphdr->daddr;
		key->addr.v4.source = tcphdr->source;
		key->addr.v4.dest = tcphdr->dest;
		key->ipid = iphdr->id;
	}
	return 0;
}

static void pme_info_destroy(void *data){
	struct pme_info *pmeinfo = (struct pme_info *)data;
	void *logger = g_kni_handle->local_logger;
	if(pmeinfo != NULL){
		//free layer_addr
		layer_addr_free(pmeinfo->addr);
		pmeinfo->addr=NULL;
		//free lock
		pthread_mutex_destroy(&(pmeinfo->lock));
		//free syn/syn_ack
		FREE(&(pmeinfo->syn_packet));
		FREE(&(pmeinfo->syn_ack_packet));

		FREE(&pmeinfo);
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_PME_FREE], 0, FS_OP_ADD, 1);
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_PME_CNT], 0, FS_OP_ADD, -1);
	}
	else{
		KNI_LOG_ERROR(logger, "Failed at pme_info_destroy, pmeinfo = null");
	}
}

static int pme_info_init(struct pme_info *pmeinfo, const struct streaminfo *stream, int thread_seq){
	void *logger = g_kni_handle->local_logger;
	pmeinfo->addr_type = (enum addr_type_t)stream->addr.addrtype;
	pmeinfo->ssl_cert_verify = -1;
	//uuid_t uu; 
    //uuid_generate_random(uu);
    //uuid_unparse(uu, pmeinfo->stream_traceid);
	clock_gettime(CLOCK_REALTIME, &(pmeinfo->start_time));
	snprintf(pmeinfo->stream_traceid, sizeof(pmeinfo->stream_traceid), "%d%lld.%.9ld", 
					thread_seq, (long long)pmeinfo->start_time.tv_sec, pmeinfo->start_time.tv_nsec);
	pmeinfo->addr = layer_addr_dup(&(stream->addr));
	//init pme_lock
	int ret = pthread_mutex_init(&(pmeinfo->lock), NULL);
	if(ret < 0){
		KNI_LOG_ERROR(logger, "Failed at init pthread mutex, stream traceid = %s, stream addr = %s", pmeinfo->stream_traceid, pmeinfo->stream_addr);
		goto error_out;
	}
	if(pmeinfo->addr_type == ADDR_TYPE_IPV6){
		kni_addr_trans_v6(stream->addr.tuple4_v6, pmeinfo->stream_addr, sizeof(pmeinfo->stream_addr));
	}
	else{
		kni_addr_trans_v4(stream->addr.tuple4_v4, pmeinfo->stream_addr, sizeof(pmeinfo->stream_addr));
	}
	//KNI_LOG_INFO(logger, "stream addr = %s, stream traceid = %s", pmeinfo->stream_addr, pmeinfo->stream_traceid);
	return 0;

error_out:
	return -1;
}

static int log_generate(struct pme_info *pmeinfo, void *local_logger){
	//create cjson
	cJSON *log_obj = cJSON_CreateObject();
	//stream_traceid
	cJSON_AddStringToObject(log_obj, "stream_trace_id", pmeinfo->stream_traceid);
	//policy_id
	cJSON_AddNumberToObject(log_obj, "policy_id", pmeinfo->policy_id);
	//action
	cJSON_AddNumberToObject(log_obj, "action", pmeinfo->action);
	//service
	cJSON_AddNumberToObject(log_obj, "service", pmeinfo->service);
	//start_time
	cJSON_AddNumberToObject(log_obj, "start_time", pmeinfo->start_time.tv_sec);
	if(pmeinfo->error >= 0){
		//end_time
		cJSON_AddNumberToObject(log_obj, "end_time", pmeinfo->end_time.tv_sec);
		//con_duration_ms
		cJSON_AddNumberToObject(log_obj, "con_duration_ms", (pmeinfo->end_time.tv_sec - pmeinfo->start_time.tv_sec) * 1000 
					+ (pmeinfo->end_time.tv_nsec - pmeinfo->start_time.tv_nsec) / 1000000);
	}
	//stream_info: addr_type, trans_proto, client_ip, client_port, server_ip, server_port
	const struct layer_addr *addr = pmeinfo->addr;
	char client_ip_str[INET6_ADDRSTRLEN] = "";
	char server_ip_str[INET6_ADDRSTRLEN] = "";
	switch(addr->addrtype){
		case ADDR_TYPE_IPV4:
			cJSON_AddNumberToObject(log_obj, "addr_type", 4);
			inet_ntop(AF_INET, &(addr->tuple4_v4->saddr), client_ip_str, sizeof(client_ip_str));
			inet_ntop(AF_INET, &(addr->tuple4_v4->daddr), server_ip_str, sizeof(server_ip_str));
			cJSON_AddStringToObject(log_obj, "client_ip", client_ip_str);					
			cJSON_AddStringToObject(log_obj, "server_ip", server_ip_str);
			cJSON_AddNumberToObject(log_obj, "client_port", ntohs(addr->tuple4_v4->source));
			cJSON_AddNumberToObject(log_obj, "server_port", ntohs(addr->tuple4_v4->dest));
			cJSON_AddStringToObject(log_obj, "trans_proto", "IPv4_TCP");
			break;
		case ADDR_TYPE_IPV6:
			cJSON_AddNumberToObject(log_obj, "addr_type", 6);
			inet_ntop(AF_INET6, addr->tuple4_v6->saddr, client_ip_str, sizeof(client_ip_str));
			inet_ntop(AF_INET6, addr->tuple4_v6->daddr, server_ip_str, sizeof(server_ip_str));
			cJSON_AddStringToObject(log_obj, "client_ip", client_ip_str);					
			cJSON_AddStringToObject(log_obj, "server_ip", server_ip_str);
			cJSON_AddNumberToObject(log_obj, "client_port", ntohs(addr->tuple4_v6->source));
			cJSON_AddNumberToObject(log_obj, "server_port", ntohs(addr->tuple4_v6->dest));
			cJSON_AddStringToObject(log_obj, "trans_proto", "IPv6_TCP");
			break;
		default:
			break;
	}
	//entrance_id: 0
	cJSON_AddNumberToObject(log_obj, "entrance_id", 0);
	//device_id: 0
	cJSON_AddNumberToObject(log_obj, "device_id", 0);
	//link_id: 0
	cJSON_AddNumberToObject(log_obj, "link_id", 0);
	//isp: null
	cJSON_AddStringToObject(log_obj, "isp", "");
	//encap_type: from sapp, 先填0
	cJSON_AddNumberToObject(log_obj, "encap_type", 0);

	//pinning state: from tfe
	cJSON_AddNumberToObject(log_obj, "pinningst", pmeinfo->pinningst);
	//intercept state: from tfe
	cJSON_AddNumberToObject(log_obj, "intercept_state", pmeinfo->intercept_state);
	//ssl upstream latency: from tfe
	cJSON_AddNumberToObject(log_obj, "ssl_server_side_latency", pmeinfo->ssl_server_side_latency);
	//ssl downstream latency: from tfe
	cJSON_AddNumberToObject(log_obj, "ssl_client_side_latency", pmeinfo->ssl_client_side_latency);
	//ssl upstream version: from tfe
	cJSON_AddStringToObject(log_obj, "ssl_server_side_version", pmeinfo->ssl_server_side_version);
	//ssl downstream version: from tfe
	cJSON_AddStringToObject(log_obj, "ssl_client_side_version", pmeinfo->ssl_client_side_version);
	//ssl cert verify
	if(pmeinfo->ssl_cert_verify != -1){
		cJSON_AddNumberToObject(log_obj, "ssl_cert_verify", pmeinfo->ssl_cert_verify);
	}

	//direction: 0
	cJSON_AddNumberToObject(log_obj, "direction", 0);
	//stream_dir: from sapp
	cJSON_AddNumberToObject(log_obj, "stream_dir", pmeinfo->dir);
	//cap_ip: kni ip
	char local_ipv4_str[INET6_ADDRSTRLEN];
	inet_ntop(AF_INET, &(g_kni_handle->local_ipv4), local_ipv4_str, sizeof(local_ipv4_str));
	cJSON_AddStringToObject(log_obj, "cap_ip", local_ipv4_str);
	//addr_list
	cJSON_AddStringToObject(log_obj, "addr_list", "");
	//host: http_only
	if(pmeinfo->protocol == KNI_PROTOCOL_HTTP){
		cJSON_AddStringToObject(log_obj, "host", pmeinfo->domain.host);
	}
	//sni: ssl only
	if(pmeinfo->protocol == KNI_PROTOCOL_SSL){
		cJSON_AddStringToObject(log_obj, "sni", pmeinfo->domain.sni);
	}
	//c2s_pkt_num
	cJSON_AddNumberToObject(log_obj, "c2s_pkt_num", pmeinfo->server_pkts);
	//s2c_pkt_num
	cJSON_AddNumberToObject(log_obj, "s2c_pkt_num", pmeinfo->client_pkts);
	//c2s_byte_num
	cJSON_AddNumberToObject(log_obj, "c2s_byte_num", pmeinfo->server_bytes);
	//s2c_byte_num
	cJSON_AddNumberToObject(log_obj, "s2c_byte_num", pmeinfo->client_bytes);
	//dup_traffic
	cJSON_AddNumberToObject(log_obj, "has_dup_traffic", pmeinfo->has_dup_traffic);
	//stream_error
	if(pmeinfo->error < 0){
		char *stream_errmsg = stream_errmsg_session_record(pmeinfo->error);
		cJSON_AddStringToObject(log_obj, "stream_error", stream_errmsg);
	}
	int ret = -1;
	char *log_msg = cJSON_PrintUnformatted(log_obj);
	cJSON_Delete(log_obj);
	if(log_msg == NULL){
		KNI_LOG_ERROR(local_logger, "Failed at cJSON_Print, stream_treaceid = %s", pmeinfo->stream_traceid);
		goto error_out;
	}
	//local log
	KNI_LOG_DEBUG(local_logger, "log_msg = %s\n", log_msg);
	//sendto kafka
	ret = kni_send_logger_sendlog(g_kni_handle->send_logger, log_msg, strlen(log_msg));
	if(ret < 0){
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_SENDLOG_FAIL], 0, FS_OP_ADD, 1);
		KNI_LOG_ERROR(local_logger, "Failed at sendlog_to_kafka, ret = %d, strem_traceid = %s", 
				ret, pmeinfo->stream_traceid);
		goto error_out;
	}
	FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_SENDLOG_SUCC], 0, FS_OP_ADD, 1);
	cJSON_free(log_msg);
	return 0;

error_out:
	if(log_msg != NULL){
		cJSON_free(log_msg);
	}
	return -1;
}

static void stream_destroy(struct pme_info *pmeinfo, int do_log){
	//sendlog
	void *logger = g_kni_handle->local_logger;
	int ret;
	if(do_log == 1){
		ret = log_generate(pmeinfo, logger);
		if(ret < 0){
			KNI_LOG_ERROR(logger, "Failed at log_generate, stream traceid = %s, stream addr = %s", pmeinfo->stream_traceid, pmeinfo->stream_addr);
		}
		else{
			KNI_LOG_DEBUG(logger, "Succeed at log_generate, stream traceid = %s, stream addr = %s", pmeinfo->stream_traceid, pmeinfo->stream_addr);
		}
	}
	//free pme
	pme_info_destroy(pmeinfo);
}

static int judge_stream_can_destroy(struct pme_info *pmeinfo, int caller){
	void *logger = g_kni_handle->local_logger;
	int can_destroy = 0;
	if(pmeinfo != NULL){
		pthread_mutex_lock(&(pmeinfo->lock));
		if(caller == CALLER_SAPP){
			pmeinfo->sapp_release = 1;
		}
		if(caller == CALLER_TFE){
			pmeinfo->tfe_release = 1;
		}
		if(pmeinfo->sapp_release == 1 && pmeinfo->tfe_release == 1){
			can_destroy = 1;
		}
		pthread_mutex_unlock(&(pmeinfo->lock));
	}
	else{
		KNI_LOG_ERROR(logger, "Failed at judge_stream_can_destroy, pmeinfo = null");
	}
	return can_destroy;
}

static int protocol_identify(const struct streaminfo* stream, char *buf, int len, struct protocol_identify_result *result){
	//http
	struct http_project* project = (struct http_project*)project_req_get_struct(stream, g_kni_handle->http_project_id);
	if(project != NULL){
		result->protocol = KNI_PROTOCOL_HTTP;
		result->domain_len = project->host_len;
		strncpy(result->domain, project->host, strnlen(project->host, sizeof(result->domain) - 1));
		return 0;
	}

	//ssl
	enum chello_parse_result chello_status = CHELLO_PARSE_INVALID_FORMAT;
	struct ssl_chello *chello = NULL;
	chello = ssl_chello_parse((const unsigned char*)buf, len, &chello_status);
	if(chello_status == CHELLO_PARSE_SUCCESS){
		result->protocol = KNI_PROTOCOL_SSL;
		if(chello->sni == NULL){
			result->domain_len = 0;
		}
		else{
			result->domain_len = strnlen(chello->sni, KNI_DOMAIN_MAX);
			strncpy(result->domain, chello->sni, strnlen(chello->sni, sizeof(result->domain) - 1));
		}
		ssl_chello_free(chello);
		return 0;
	}

	ssl_chello_free(chello);
	result->protocol = KNI_PROTOCOL_UNKNOWN;
	return 0;
}

static int wrapped_kni_cmsg_set(struct kni_cmsg *cmsg, uint16_t type, const unsigned char *value, uint16_t size, struct pme_info *pmeinfo){
	void *logger = g_kni_handle->local_logger;
	int ret = kni_cmsg_set(cmsg, type, value, size);
	if(ret < 0){
		KNI_LOG_ERROR(logger, "Failed set cmsg, type = %d, stream traceid = %s, stream addr = %s", type, pmeinfo->stream_traceid, pmeinfo->stream_addr);
	}
	return ret;
}

static unsigned char* kni_cmsg_serialize_header_new(struct pme_info *pmeinfo, struct streaminfo *stream, struct pkt_info *pktinfo, uint16_t *len){
	void *logger = g_kni_handle->local_logger;
	uint16_t bufflen = 0, serialize_len = 0;
	unsigned char *buff = NULL;
	uint8_t protocol_type = pmeinfo->protocol == KNI_PROTOCOL_SSL ? 0x1 : 0x0;
	struct kni_cmsg *cmsg = kni_cmsg_init();
	int policy_id = -1;
	char *trace_id = NULL;
	uint32_t seq = pktinfo->tcphdr->seq;
	uint32_t ack = pktinfo->tcphdr->ack_seq;
	uint16_t client_mss = htons(pmeinfo->client_tcpopt.mss);
	uint16_t server_mss = htons(pmeinfo->server_tcpopt.mss);
	uint16_t client_window = htons(pmeinfo->client_window);
	uint16_t server_window = htons(pmeinfo->server_window);
	char src_mac[6] = {0};
	char dst_mac[6] = {0};
	//seq
	int ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_SEQ, (const unsigned char*)&seq, 4, pmeinfo);
	if(ret < 0) goto error_out;
	//ack
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_ACK, (const unsigned char*)&ack, 4, pmeinfo);
	if(ret < 0) goto error_out;
	//client mss
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_MSS_CLIENT, (const unsigned char*)&client_mss, 2, pmeinfo);
	if(ret < 0) goto error_out;
	//server mss
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_MSS_SERVER, (const unsigned char*)&server_mss, 2, pmeinfo);
	if(ret < 0) goto error_out;
	//both = 1, send to tfe
	if(pmeinfo->client_tcpopt.wscale_set && pmeinfo->server_tcpopt.wscale_set){
		//client wscale
		ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_WSACLE_CLIENT, (const unsigned char*)&(pmeinfo->client_tcpopt.wscale), 1, pmeinfo);
		if(ret < 0) goto error_out;
		//server wscale
		ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_WSACLE_SERVER, (const unsigned char*)&(pmeinfo->server_tcpopt.wscale), 1, pmeinfo);
		if(ret < 0) goto error_out;
	}
	//client sack
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_SACK_CLIENT, (const unsigned char*)&(pmeinfo->client_tcpopt.sack), 1, pmeinfo);
	if(ret < 0) goto error_out;
	//server sack
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_SACK_SERVER, (const unsigned char*)&(pmeinfo->server_tcpopt.sack), 1, pmeinfo);
	if(ret < 0) goto error_out;
	//client timestamp
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_TS_CLIENT, (const unsigned char*)&(pmeinfo->client_tcpopt.ts_set), 1, pmeinfo);
	if(ret < 0) goto error_out;
	//server  timestamp
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_TS_SERVER, (const unsigned char*)&(pmeinfo->server_tcpopt.ts_set), 1, pmeinfo);
	if(ret < 0) goto error_out;
	//protocol
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_PROTOCOL, (const unsigned char*)&protocol_type, 1, pmeinfo);
	if(ret < 0) goto error_out;
	//client window
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_WINDOW_CLIENT, (const unsigned char*)&client_window, 2, pmeinfo);
	if(ret < 0) goto error_out;
	//server window
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_TCP_RESTORE_WINDOW_SERVER, (const unsigned char*)&server_window, 2, pmeinfo);
	if(ret < 0) goto error_out;
	//maat policy id 
	policy_id = pmeinfo->policy_id;
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_POLICY_ID, (const unsigned char*)&policy_id, sizeof(policy_id), pmeinfo);
	if(ret < 0) goto error_out;
	//stream trace id
	trace_id = pmeinfo->stream_traceid;
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_STREAM_TRACE_ID, (const unsigned char*)trace_id, 
					strnlen(pmeinfo->stream_traceid, sizeof(pmeinfo->stream_traceid)), pmeinfo);
	if(ret < 0) goto error_out;
	//src mac
	ret = get_rawpkt_opt_from_streaminfo(stream, RAW_PKT_GET_VXLAN_OUTER_GDEV_MAC, src_mac);
	if(ret < 0){
		KNI_LOG_DEBUG(logger, "Failed at get src mac from rawpkt, ret = %d, maybe two-arm mode", ret);
	}
	KNI_LOG_DEBUG(logger, "Succeed at get src mac from rawpkt, addr = %02hhx:%02hhx:%02hhx:%02hhx:%02hhx:%02hhx", 
					src_mac[0], src_mac[1], src_mac[2], src_mac[3], src_mac[4], src_mac[5]);
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_SRC_MAC, (const unsigned char*)src_mac, sizeof(src_mac), pmeinfo);
	if(ret < 0) goto error_out;
	//dst mac
	ret = get_rawpkt_opt_from_streaminfo(stream, RAW_PKT_GET_VXLAN_OUTER_LOCAL_MAC, dst_mac);
	if(ret < 0){
		KNI_LOG_DEBUG(logger, "Failed at get dst mac from rawpkt, ret = %d, maybe two-arm mode", ret);
	}
	KNI_LOG_DEBUG(logger, "Succeed at get dst mac from rawpkt, addr = %02hhx:%02hhx:%02hhx:%02hhx:%02hhx:%02hhx", 
					dst_mac[0], dst_mac[1], dst_mac[2], dst_mac[3], dst_mac[4], dst_mac[5]);
	ret = wrapped_kni_cmsg_set(cmsg, TFE_CMSG_DST_MAC, (const unsigned char*)dst_mac, sizeof(dst_mac), pmeinfo);
	if(ret < 0) goto error_out;
	
	bufflen = kni_cmsg_serialize_size_get(cmsg);
	buff = (unsigned char*)ALLOC(char, bufflen);
	serialize_len = 0;
	ret = kni_cmsg_serialize(cmsg, buff, bufflen, &serialize_len);
	if(ret < 0){
		KNI_LOG_ERROR(logger, "Failed at serialize cmsg, ret = %d, stream traceid = %s, stream addr = %s", 
					ret, pmeinfo->stream_traceid, pmeinfo->stream_addr);
		goto error_out;
	} 
	*len = serialize_len;
	kni_cmsg_destroy(cmsg);
	return buff;

error_out:
	if(buff != NULL){
		FREE(&buff);
	}
	kni_cmsg_destroy(cmsg);
	return NULL;
}

static char* add_cmsg_to_packet(struct pme_info *pmeinfo, struct streaminfo *stream, struct pkt_info *pktinfo, int *len){
	//tcp option: kind 88, len 4, control_info_len
	char *new_pkt = (char*)ALLOC(struct wrapped_packet, 1);
	int offset = 0;
	//iphdr
	if(pmeinfo->addr_type == ADDR_TYPE_IPV6){
		memcpy(new_pkt, (void*)pktinfo->iphdr.v6, pktinfo->iphdr_len);
	}
	else{
		memcpy(new_pkt, (void*)pktinfo->iphdr.v4, pktinfo->iphdr_len);
	}
	offset += pktinfo->iphdr_len;
	//tcphdr
	struct tcphdr *tcphdr = (struct tcphdr*)(new_pkt + offset);
	memcpy(new_pkt + offset, (void*)pktinfo->tcphdr, 20);
	offset += 20;
	tcphdr->doff = pktinfo->tcphdr->doff + 1;
	struct tcp_option_restore *opt = ALLOC(struct tcp_option_restore, 1);
	opt->kind = 88;
	opt->len = 4;
	opt->offset = htons(pktinfo->data_len);
	memcpy(new_pkt + offset, (void*)opt, 4);
	FREE(&opt);
	offset += 4;
	memcpy(new_pkt + offset, (void*)((char*)pktinfo->tcphdr + 20), pktinfo->tcphdr_len - 20);
	offset += pktinfo->tcphdr_len - 20;
	//data
	memcpy(new_pkt + offset, (void*)pktinfo->data, pktinfo->data_len);
	offset += pktinfo->data_len;
	//kni_cmsg_serialize_header
	uint16_t header_len = 0;
	unsigned char* header = kni_cmsg_serialize_header_new(pmeinfo, stream, pktinfo, &header_len);
	if(header == NULL){
		goto error_out;
	}
	memcpy(new_pkt + offset, (void*)header, header_len);
	offset += header_len;
	FREE(&header);
	//ipv6
	if(pmeinfo->addr_type == ADDR_TYPE_IPV6){
		kni_ipv6_header_parse((void*)new_pkt, pktinfo);
		pktinfo->iphdr.v6->ip6_ctlun.ip6_un1.ip6_un1_plen = htons(offset - sizeof(ip6_hdr));
		pktinfo->tcphdr->check = 0;
		pktinfo->tcphdr->check = kni_tcp_checksum_v6((void*)pktinfo->tcphdr, 
					offset - pktinfo->iphdr_len, pktinfo->iphdr.v6->ip6_src, pktinfo->iphdr.v6->ip6_dst);
	}
	else{
		struct iphdr *iphdr = (struct iphdr*)new_pkt;
		iphdr->tot_len = htons(offset);
		//must set check = 0
		iphdr->check = 0;
		iphdr->check = kni_ip_checksum((void*)iphdr, pktinfo->iphdr_len);
		//tcphdr: checkdum
		tcphdr->check = 0;
		tcphdr->check = kni_tcp_checksum((void*)tcphdr, offset - pktinfo->iphdr_len, iphdr->saddr, iphdr->daddr);	
	}
	*len = offset;
	return new_pkt;

error_out:
	if(new_pkt != NULL){
		FREE(&new_pkt);
	}
	return NULL;
}

static int add_ether_header(void *dst_data, void *raw_data, uint16_t raw_len, addr_type_t addr_type){
	char *src_mac = g_kni_handle->src_mac_addr;
	char *dst_mac = g_kni_handle->dst_mac_addr;
	//ether_header[14]
	struct ethhdr *ether_hdr = (struct ethhdr*)dst_data;
	memcpy(ether_hdr->h_dest, dst_mac, sizeof(ether_hdr->h_dest));
	memcpy(ether_hdr->h_source, src_mac, sizeof(ether_hdr->h_source));
	if(addr_type == ADDR_TYPE_IPV6){
		ether_hdr->h_proto = htons(ETH_P_IPV6);
	}
	else{
		ether_hdr->h_proto = htons(ETH_P_IP);
	}
	memcpy((char*)dst_data + sizeof(*ether_hdr), raw_data, raw_len);
	return 0;
}

static int send_to_tfe_normal_mode(char *raw_data, uint16_t raw_len, int thread_seq, int tfe_id, addr_type_t addr_type){
	void *logger = g_kni_handle->local_logger;
	struct kni_marsio_handle *handle = g_kni_handle->marsio_handle;
	marsio_buff_t *tx_buffs[BURST_MAX];
	int index = -1;
	for(int i = 0; i < handle->tfe_enabled_node_count; i++){
		if(handle->tfe_enabled_nodes[i].tfe_id == tfe_id){
			index = i;
			break;
		}
	}
	if(index == -1){
		KNI_LOG_ERROR(logger, "tfd %d = disabled");
		return -1;
	}
	struct mr_vdev *dev_eth_handler = handle->tfe_enabled_nodes[index].dev_eth_handler;
	struct mr_sendpath *dev_eth_sendpath = handle->tfe_enabled_nodes[index].dev_eth_sendpath;
	//only send one packet, alloc_ret <= nr_send <= BURST_MAX
	int nr_send = 1;
	int alloc_ret = marsio_buff_malloc_device(dev_eth_handler, tx_buffs, nr_send, 0, thread_seq);
    if (alloc_ret < 0){
		KNI_LOG_ERROR(logger, "Failed at alloc marsio buffer, ret = %d, thread_seq = %d", 
					alloc_ret, thread_seq);
		return -1;
	}
	for(int i = 0; i < nr_send; i++){
		char* dst_data = marsio_buff_append(tx_buffs[i], raw_len + sizeof(struct ethhdr));
		add_ether_header(dst_data, raw_data, raw_len, addr_type);
	}
	marsio_send_burst(dev_eth_sendpath, thread_seq, tx_buffs, nr_send);
	return 0;
}

static int send_to_tfe_tun_mode(char *raw_data, uint16_t raw_len, addr_type_t addr_type){
	struct kni_tun_handle *handle = g_kni_handle->tun_handle;
	char *dst_data = ALLOC(char, KNI_MTU);
	add_ether_header(dst_data, raw_data, raw_len, addr_type);
	int ret = kni_tun_write(handle, dst_data, raw_len + sizeof(struct ethhdr));
	FREE(&dst_data);
	if(ret < 0){
		return -1;
	}
	return 0;
}

static int send_to_tfe(char *raw_data, uint16_t raw_len, int thread_seq, int tfe_id, addr_type_t addr_type){
	int mode = g_kni_handle->deploy_mode;
	int ret;
	if(mode == KNI_DEPLOY_MODE_TUN){
		ret = send_to_tfe_tun_mode(raw_data, raw_len, addr_type);
	}
	else{
		ret = send_to_tfe_normal_mode(raw_data, raw_len, thread_seq, tfe_id, addr_type);
	}
	return ret;
}

static int wrapped_kni_header_parse(const void *a_packet, struct pme_info *pmeinfo, struct pkt_info *pktinfo){
	void *logger = g_kni_handle->local_logger;
	if(pmeinfo->addr_type == ADDR_TYPE_IPV6){
		int ret = kni_ipv6_header_parse(a_packet, pktinfo);
		if(ret < 0){
			char *errmsg = kni_ipv6_errmsg_get((enum kni_ipv6hdr_parse_error)ret);
			KNI_LOG_DEBUG(logger, "Stream error: failed at parse ipv6 header, errmsg = %s, stream treaceid = %s", 
					errmsg, pmeinfo->stream_traceid);
			//FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_IPV6HDR_PARSE_FAIL], 0, FS_OP_ADD, 1);
			return -1;
		}
	}
	else{
		int ret = kni_ipv4_header_parse(a_packet, pktinfo);
		if(ret < 0){
			char *errmsg = kni_ipv4_errmsg_get((enum kni_ipv4hdr_parse_error)ret);
			KNI_LOG_ERROR(logger, "Stream error: failed at parse ipv4 header, errmsg = %s, stream treaceid = %s", 
					errmsg, pmeinfo->stream_traceid);
			//FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_IPV4HDR_PARSE_FAIL], 0, FS_OP_ADD, 1);
			return -1;
		}
	}
	return 0;
}

static int tuple2stream_htable_key_get_v4_by_packet(struct pkt_info *pktinfo, struct stream_tuple4_v4 *key, int *reversed){
	if(pktinfo->iphdr.v4->saddr < pktinfo->iphdr.v4->daddr){
		key->saddr = pktinfo->iphdr.v4->saddr;
		key->daddr = pktinfo->iphdr.v4->daddr;
		key->source = pktinfo->tcphdr->source;
		key->dest = pktinfo->tcphdr->dest;
		*reversed = 0;
	}
	else{
		key->saddr = pktinfo->iphdr.v4->daddr;
		key->daddr = pktinfo->iphdr.v4->saddr;
		key->source = pktinfo->tcphdr->dest;
		key->dest = pktinfo->tcphdr->source;
		*reversed = 1;
	}
	return 0;
}

static int tuple2stream_htable_key_get_v6_by_packet(struct pkt_info *pktinfo, struct stream_tuple4_v6 *key, int *reversed){
	if(memcmp((void*)&(pktinfo->iphdr.v6->ip6_src), (void*)&(pktinfo->iphdr.v6->ip6_dst), sizeof(key->saddr)) < 0){
		memcpy(key->saddr, &(pktinfo->iphdr.v6->ip6_src), sizeof(key->saddr));
		memcpy(key->daddr, &(pktinfo->iphdr.v6->ip6_dst), sizeof(key->daddr));
		key->source = pktinfo->tcphdr->source;
		key->dest = pktinfo->tcphdr->dest;
		*reversed = 0;
	}
	else{
		memcpy(key->saddr, &(pktinfo->iphdr.v6->ip6_dst), sizeof(key->saddr));
		memcpy(key->daddr, &(pktinfo->iphdr.v6->ip6_src), sizeof(key->daddr));
		key->source = pktinfo->tcphdr->dest;
		key->dest = pktinfo->tcphdr->source;
		*reversed = 1;
	}
	return 0;
}

static int tuple2stream_htable_key_get_v4_by_stream(const struct streaminfo *stream, struct stream_tuple4_v4 *key, int *reversed){
	if(stream->addr.tuple4_v4->saddr < stream->addr.tuple4_v4->daddr){
		key->saddr = stream->addr.tuple4_v4->saddr;
		key->daddr = stream->addr.tuple4_v4->daddr;
		key->source = stream->addr.tuple4_v4->source;
		key->dest = stream->addr.tuple4_v4->dest;
		*reversed = 0;
	}
	else{
		key->saddr = stream->addr.tuple4_v4->daddr;
		key->daddr = stream->addr.tuple4_v4->saddr;
		key->source = stream->addr.tuple4_v4->dest;
		key->dest = stream->addr.tuple4_v4->source;
		*reversed = 1;
	}
	return 0;
}

static int tuple2stream_htable_key_get_v6_by_stream(const struct streaminfo *stream, struct stream_tuple4_v6 *key, int *reversed){
	if(memcmp(stream->addr.tuple4_v6->saddr, stream->addr.tuple4_v6->daddr, sizeof(key->saddr)) < 0){
		memcpy(key->saddr, stream->addr.tuple4_v6->saddr, sizeof(key->saddr));
		memcpy(key->daddr, stream->addr.tuple4_v6->daddr, sizeof(key->daddr));
		key->source = stream->addr.tuple4_v6->source;
		key->dest = stream->addr.tuple4_v6->dest;
		*reversed = 0;
	}
	else{
		memcpy(key->saddr, stream->addr.tuple4_v6->daddr, sizeof(key->saddr));
		memcpy(key->daddr, stream->addr.tuple4_v6->saddr, sizeof(key->daddr));
		key->source = stream->addr.tuple4_v6->dest;
		key->dest = stream->addr.tuple4_v6->source;
		*reversed = 1;
	}
	return 0;
}


static int tuple2stream_htable_add(addr_type_t addr_type, struct pkt_info *pktinfo, 
								struct streaminfo *stream, struct pme_info *pmeinfo, int thread_seq){
	MESA_htable_handle tuple2stream_htable = g_kni_handle->threads_handle[thread_seq].tuple2stream_htable;
	void *logger = g_kni_handle->local_logger;
	int ret;
	struct tuple2stream_htable_value *value = ALLOC(struct tuple2stream_htable_value, 1);
	value->stream = stream;
	value->pmeinfo = pmeinfo;
	value->route_dir = stream->routedir;
	//ipv6
	if(addr_type == ADDR_TYPE_IPV6){
		struct stream_tuple4_v6 key;
		tuple2stream_htable_key_get_v6_by_packet(pktinfo, &key, &(value->reversed));
		ret = MESA_htable_add(tuple2stream_htable, (const unsigned char *)&key, sizeof(key), (const void*)value);
		if(ret < 0){
			char key_str[KNI_ADDR_MAX];
			kni_addr_trans_v6(&key, key_str, sizeof(key_str));
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_TUPLE2STM_ADD_FAIL], 0, FS_OP_ADD, 1);
			KNI_LOG_ERROR(logger, "MESA_htable: Failed at add, table = tuple2stream_htable, key = %s, key_size = %d, ret = %d",
				key_str, sizeof(key), ret);
		}
		else{
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_TUPLE2STM_ADD_SUCC], 0, FS_OP_ADD, 1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->line_ids[1], g_kni_fs_handle->column_ids[thread_seq], FS_OP_ADD, 1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->line_ids[1], g_kni_fs_handle->column_ids[g_kni_handle->thread_count], FS_OP_ADD, 1);
		}
	}
	//ipv4
	else{
		struct stream_tuple4_v4 key;
		tuple2stream_htable_key_get_v4_by_packet(pktinfo, &key, &(value->reversed));
		ret = MESA_htable_add(tuple2stream_htable, (const unsigned char *)&key, sizeof(key), (const void*)value);
		char key_str[KNI_ADDR_MAX];
		kni_addr_trans_v4(&key, key_str, sizeof(key_str));
		if(ret < 0){
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_TUPLE2STM_ADD_FAIL], 0, FS_OP_ADD, 1);
			KNI_LOG_ERROR(logger, "MESA_htable: Failed at add, table = tuple2stream_htable, key = %s, key_size = %d, ret = %d",
				key_str, sizeof(key), ret);
		}
		else{
			//KNI_LOG_DEBUG(logger, "MESA_htable: Succeed at add, table = tuple2stream_htable, key = %s, key_size = %d, value = %p, ret = %d",
			//	key_str, sizeof(key), value, ret);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_TUPLE2STM_ADD_SUCC], 0, FS_OP_ADD, 1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->line_ids[1], g_kni_fs_handle->column_ids[thread_seq], FS_OP_ADD, 1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->line_ids[1], g_kni_fs_handle->column_ids[g_kni_handle->thread_count], FS_OP_ADD, 1);
		}
	}
	return ret;
}


static char pending_opstate(struct streaminfo *stream, struct pme_info *pmeinfo, const void *a_packet, int thread_seq){
	void *logger = g_kni_handle->local_logger;
	struct pkt_info pktinfo;
	int ret = wrapped_kni_header_parse(a_packet, pmeinfo, &pktinfo);
	if(ret < 0){
		pmeinfo->error = STREAM_ERROR_INVALID_IP_HDR;
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_INVALID_IP_HDR], 0, FS_OP_ADD, 1);
		return APP_STATE_FAWPKT | APP_STATE_DROPME;
	}
	if(!pktinfo.tcphdr->syn){
		//pending_opstate not syn, bypass and dropme
		KNI_LOG_DEBUG(logger, "Stream error: pending opstate, not syn, stream traceid = %s, stream addr = %s", 
									pmeinfo->stream_traceid, pmeinfo->stream_addr);
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_NO_SYN], 0, FS_OP_ADD, 1);
		pmeinfo->error = STREAM_ERROR_NO_SYN;
		return APP_STATE_FAWPKT | APP_STATE_DROPME;
	}

	//dup traffic detect
	if(g_kni_handle->dup_traffic_switch == 1){
		if(pmeinfo->syn_packet == NULL){
			struct dup_traffic_dabloom_key *syn_packet = ALLOC(struct dup_traffic_dabloom_key, 1);
			dup_traffic_dabloom_key_get(&pktinfo, syn_packet);
			pmeinfo->syn_packet = syn_packet;
		}
		else{
			struct dup_traffic_dabloom_key *syn_packet = ALLOC(struct dup_traffic_dabloom_key, 1);
			dup_traffic_dabloom_key_get(&pktinfo, syn_packet);
			if(memcmp(pmeinfo->syn_packet, syn_packet, sizeof(*syn_packet)) == 0){
				pmeinfo->has_dup_syn = 1;
			}
			FREE(&(pmeinfo->syn_packet));
			pmeinfo->syn_packet = syn_packet;
		}
	}
	pmeinfo->client_window = ntohs(pktinfo.tcphdr->window);
	pmeinfo->has_syn = 1;
	kni_get_tcpopt(&(pmeinfo->client_tcpopt), pktinfo.tcphdr, pktinfo.tcphdr_len);
	return APP_STATE_FAWPKT | APP_STATE_GIVEME;	
}

static int traceid2pme_htable_add(struct pme_info *pmeinfo){
	void *logger = g_kni_handle->local_logger;
	int key_size =0, ret;
	key_size = strnlen(pmeinfo->stream_traceid, sizeof(pmeinfo->stream_traceid));
	ret = MESA_htable_add(g_kni_handle->traceid2pme_htable, (const unsigned char *)(pmeinfo->stream_traceid), 
		key_size, (const void*)pmeinfo);
	if(ret < 0){
		KNI_LOG_ERROR(logger, "MESA_htable: Failed at add,"
				"table = traceid2pme_htable, key = %s, ret = %d", pmeinfo->stream_traceid, ret);
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_ID2PME_ADD_FAIL], 0, FS_OP_ADD, 1);
	}
	else{
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_ID2PME_ADD_SUCC], 0, FS_OP_ADD, 1);
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_ID2PME_CNT], 0, FS_OP_ADD, 1);
	}
	return ret;
}

int tuple2stream_htable_del(const struct streaminfo *stream, int thread_seq){
	MESA_htable_handle handle = g_kni_handle->threads_handle[thread_seq].tuple2stream_htable;
	void *logger = g_kni_handle->local_logger;
	int reversed = 0, ret;
	//ipv6
	if(stream->addr.addrtype == ADDR_TYPE_IPV6){
		struct stream_tuple4_v6 key;
		tuple2stream_htable_key_get_v6_by_stream(stream, &key, &reversed);
		ret = MESA_htable_del(handle, (const unsigned char *)(&key), 
						sizeof(key), NULL);
		if(ret < 0){
			char key_str[KNI_ADDR_MAX];
			kni_addr_trans_v6(&key, key_str, sizeof(key_str));
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_TUPLE2STM_DEL_FAIL], 0, FS_OP_ADD, 1);
			KNI_LOG_ERROR(logger, "MESA_htable: Failed at del, table = %s, key = %s, key_size = %d, ret = %d",
							"tuple2stream_htable", key_str, sizeof(key), ret);
		}
		else{
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_TUPLE2STM_DEL_SUCC], 0, FS_OP_ADD, 1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->line_ids[1], g_kni_fs_handle->column_ids[thread_seq], FS_OP_ADD, -1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->line_ids[1], g_kni_fs_handle->column_ids[g_kni_handle->thread_count], FS_OP_ADD, -1);
		}
	}
	//ipv4
	else{
		struct stream_tuple4_v4 key;
		tuple2stream_htable_key_get_v4_by_stream(stream, &key, &reversed);
		ret = MESA_htable_del(handle, (const unsigned char *)(&key), sizeof(key), NULL);
		char key_str[KNI_ADDR_MAX];
		kni_addr_trans_v4(&key, key_str, sizeof(key_str));
		if(ret < 0){
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_TUPLE2STM_DEL_FAIL], 0, FS_OP_ADD, 1);
			KNI_LOG_ERROR(logger, "MESA_htable: Failed at del, table = %s, key = %s, key_size = %d, ret = %d",
							"tuple2stream_htable", key_str, sizeof(key), ret);
		}
		else{
			//KNI_LOG_DEBUG(logger, "MESA_htable: Succeed at del, table = %s, key = %s, key_size = %d, ret = %d",
			//				"tuple2stream_htable", key_str, sizeof(key), ret);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_TUPLE2STM_DEL_SUCC], 0, FS_OP_ADD, 1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->line_ids[1], g_kni_fs_handle->column_ids[thread_seq], FS_OP_ADD, -1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->line_ids[1], g_kni_fs_handle->column_ids[g_kni_handle->thread_count], FS_OP_ADD, -1);
		}
	}
	return ret;
}

static void traceid2pme_htable_del(struct pme_info *pmeinfo){
	//del traceid2pme htable
	if(pmeinfo->action == KNI_ACTION_INTERCEPT){
		void *logger = g_kni_handle->local_logger;
		int key_size = strnlen(pmeinfo->stream_traceid, sizeof(pmeinfo->stream_traceid));
		int ret;
		ret = MESA_htable_del(g_kni_handle->traceid2pme_htable, (const unsigned char *)pmeinfo->stream_traceid, 
						key_size, NULL);
		if(ret < 0){
			KNI_LOG_ERROR(logger, "MESA_htable: Failed at del, table = %s, key = %s, key_size = %d, ret = %d",
							"traceid2pme_htable", pmeinfo->stream_traceid, key_size, ret);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_ID2PME_DEL_FAIL], 0, FS_OP_ADD, 1);
		}
		else{
			//KNI_LOG_DEBUG(logger, "MESA_htable: Succeed at del, table = %s, key = %s, key_size = %d",
			//					"traceid2pme_htable", pmeinfo->stream_traceid, key_size);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_ID2PME_DEL_SUCC], 0, FS_OP_ADD, 1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_ID2PME_CNT], 0, FS_OP_ADD, -1);
		}
	}
}

static int first_data_intercept(struct streaminfo *stream, struct pme_info *pmeinfo, struct pkt_info *pktinfo, char *stream_addr, int thread_seq){
	//dup_traffic_check
	if(g_kni_handle->dup_traffic_switch == 1){
		//has dup traffic
		if(pmeinfo->has_dup_syn == 1 || pmeinfo->has_dup_syn_ack == 1){
			pmeinfo->has_dup_traffic = 1;
		}
		if(pmeinfo->has_dup_traffic == 1){
			if(g_kni_handle->dup_traffic_action == KNI_ACTION_BYPASS){
				KNI_LOG_DEBUG(g_kni_handle->local_logger, "Stream error: stream has dup traffic, dup_traffic_action = bypass, "
					"stream traceid = %s, stream addr = %s", pmeinfo->stream_traceid, pmeinfo->stream_addr);
				FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_DUP_TRAFFIC], 0, FS_OP_ADD, 1);
				pmeinfo->intercept_state=0;
				pmeinfo->error = STREAM_ERROR_DUP_TRAFFIC;
				return APP_STATE_FAWPKT | APP_STATE_DROPME;
			}
		}
	}
	void *logger = g_kni_handle->local_logger;
	int ret;
	//only intercept: add to tuple2stream_htable
	ret = tuple2stream_htable_add(pmeinfo->addr_type, pktinfo, stream, pmeinfo, thread_seq);
	if(ret < 0){
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_TUPLE2STM_ADD_FAIL], 0, FS_OP_ADD, 1);
		KNI_LOG_DEBUG(logger, "Stream error: tuple2stm add fail, stream traceid = %s, stream addr = %s", 
										pmeinfo->stream_traceid, pmeinfo->stream_addr);
		pmeinfo->intercept_state=0;
		pmeinfo->error = STREAM_ERROR_TUPLE2STM_ADD_FAIL;
		return APP_STATE_FAWPKT | APP_STATE_DROPME;
	}

	//only intercept: add to traceid2pme htable
	traceid2pme_htable_add(pmeinfo);
	//action = KNI_ACTION_INTERCEPT, sendto tfe
	int len = 0;
	//add cmsg
	char *buff = add_cmsg_to_packet(pmeinfo, stream, pktinfo, &len);
	if(buff == NULL){
		KNI_LOG_DEBUG(logger, "Stream error: failed at add cmsg to packet, stream traceid = %s, stream addr = %s", 
								pmeinfo->stream_traceid, pmeinfo->stream_addr);
		pmeinfo->error = STREAM_ERROR_CMSG_ADD_FAIL;
		pmeinfo->intercept_state=0;
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_CMSG_ADD_FAIL], 0, FS_OP_ADD, 1);
		FREE(&buff);
		return APP_STATE_FAWPKT | APP_STATE_DROPME;
	}
	//send to tfe
	ret = send_to_tfe(buff, len, thread_seq, pmeinfo->tfe_id, pmeinfo->addr_type);
	if(ret < 0){
		KNI_LOG_DEBUG(logger, "Stream error: failed at send first packet to tfe%d, stream traceid = %s, stream addr = %s", 
							pmeinfo->tfe_id, pmeinfo->stream_traceid, pmeinfo->stream_addr);
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_SENDTO_TFE_FAIL], 0, FS_OP_ADD, 1);
		pmeinfo->intercept_state=0;
		pmeinfo->error = STREAM_ERROR_SENDTO_TFE_FAIL;
		FREE(&buff);
		tuple2stream_htable_del(stream, thread_seq);
		traceid2pme_htable_del(pmeinfo);
		return APP_STATE_FAWPKT | APP_STATE_DROPME;
	}
	else{
		KNI_LOG_DEBUG(logger, "Succeed at send first packet to tfe%d, stream traceid = %s, stream addr = %s",
						 pmeinfo->tfe_id, pmeinfo->stream_traceid, pmeinfo->stream_addr);
	}
	FREE(&buff);
	//fs stat
	FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_INTCP_STM], 0, FS_OP_ADD, 1);
	FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_INTCP_BYTE], 0, FS_OP_ADD, pktinfo->ip_totlen);
	//ipv4 or ipv6
	if(stream->addr.addrtype == ADDR_TYPE_IPV6){
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_IPV6_STM], 0, FS_OP_ADD, 1);
	}
	else{
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_IPV4_STM], 0, FS_OP_ADD, 1);
	}
	//http or ssl
	if(pmeinfo->protocol == KNI_PROTOCOL_SSL){
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_SSL_STM], 0, FS_OP_ADD, 1);
	}	
	if(pmeinfo->protocol == KNI_PROTOCOL_HTTP){
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_HTTP_STM], 0, FS_OP_ADD, 1);
	}
	//dup_traffic_stm
	if(pmeinfo->has_dup_traffic == 1){
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_DUP_TFC_STM], 0, FS_OP_ADD, 1);
		KNI_LOG_DEBUG(logger, "stream has dup traffic, traceid = %s", pmeinfo->stream_traceid);
	}
	return APP_STATE_DROPPKT | APP_STATE_GIVEME;
}

static int dabloom_search(struct pkt_info *pktinfo, int thread_seq){
	void *logger = g_kni_handle->local_logger;
	struct dup_traffic_dabloom_key bloom_key;
	memset(&bloom_key, 0, sizeof(bloom_key));
	dup_traffic_dabloom_key_get(pktinfo, &bloom_key);
	int ret = expiry_dablooms_search(g_kni_handle->threads_handle[thread_seq].dabloom_handle, (const char*)&bloom_key, sizeof(bloom_key));
	//ret = 1, = dup packet, bypass the packet 
	if(ret < 0){
		KNI_LOG_ERROR(logger, "Failed at expiry_dablooms_search, errmsg = %s", expiry_dablooms_errno_trans((enum expiry_dablooms_errno)ret));
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_BLOOM_SEARCH_FAIL], 0, FS_OP_ADD, 1);
	}
	else{
		//FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_BLOOM_SEARCH_SUCC], 0, FS_OP_ADD, 1);
		if(ret == 1){
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_BLOOM_HIT], 0, FS_OP_ADD, 1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_DUP_TFC_BYTE], 0, FS_OP_ADD, pktinfo->ip_totlen);
		}
		else{
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_BLOOM_MISS], 0, FS_OP_ADD, 1);
		}
	}
	uint64_t count = 0;
	expiry_dablooms_element_count_get(g_kni_handle->threads_handle[thread_seq].dabloom_handle, &count);
	FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->line_ids[0], g_kni_fs_handle->column_ids[thread_seq], FS_OP_SET, count);
	return ret;
}

static int dabloom_add(struct pkt_info *pktinfo, int thread_seq){
	void *logger = g_kni_handle->local_logger;
	struct dup_traffic_dabloom_key bloom_key;
	memset(&bloom_key, 0, sizeof(bloom_key));
	dup_traffic_dabloom_key_get(pktinfo, &bloom_key);
	int ret = expiry_dablooms_add(g_kni_handle->threads_handle[thread_seq].dabloom_handle, (const char*)&bloom_key, sizeof(bloom_key));
	if(ret < 0){
		KNI_LOG_ERROR(logger, "Failed at expiry_dablooms_add, errmsg = %s", expiry_dablooms_errno_trans((enum expiry_dablooms_errno)ret));
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_BLOOM_ADD_FAIL], 0, FS_OP_ADD, 1);
	}
	//FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_BLOOM_ADD_SUCC], 0, FS_OP_ADD, 1);
	uint64_t count = 0;
	expiry_dablooms_element_count_get(g_kni_handle->threads_handle[thread_seq].dabloom_handle, &count);
	FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->line_ids[0], g_kni_fs_handle->column_ids[thread_seq], FS_OP_SET, count);
	return ret;
}

static char data_opstate(struct streaminfo *stream, struct pme_info *pmeinfo, const void *a_packet, int thread_seq){
	//pmeinfo->tfe_release = 1: intercept, tfe end first. DO NOT droppkt and dropme
	if(pmeinfo->tfe_release == 1){
		pmeinfo->server_bytes=stream->ptcpdetail->serverbytes;
		pmeinfo->client_bytes=stream->ptcpdetail->clientbytes;
		pmeinfo->server_pkts=stream->ptcpdetail->serverpktnum;
		pmeinfo->client_pkts=stream->ptcpdetail->clientpktnum;
		pmeinfo->dir=stream->dir;
#if 0
		return APP_STATE_DROPPKT | APP_STATE_DROPME;
#endif
	}
	void *logger = g_kni_handle->local_logger;
	struct iphdr *ipv4_hdr = NULL;
	struct ip6_hdr *ipv6_hdr = NULL;
	uint16_t len = 0, ret;
	char stream_addr[KNI_SYMBOL_MAX] = "";
	if(pmeinfo->addr_type == ADDR_TYPE_IPV6){
		kni_addr_trans_v6(stream->addr.tuple4_v6, stream_addr, sizeof(stream_addr));
	}
	else{
		kni_addr_trans_v4(stream->addr.tuple4_v4, stream_addr, sizeof(stream_addr));
	}
	//parse ipv4/6 header
	struct pkt_info pktinfo;
	ret = wrapped_kni_header_parse(a_packet, pmeinfo, &pktinfo);
	if(ret < 0){
		pmeinfo->error = STREAM_ERROR_INVALID_IP_HDR;
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_INVALID_IP_HDR], 0, FS_OP_ADD, 1);
		return APP_STATE_FAWPKT | APP_STATE_DROPME;
	}
	//pmeinfo->action has only 3 value: KNI_ACTION_NONE， KNI_ACTION_INTERCEPT， KNI_ACTION_BYPASS
	if(pmeinfo->action != KNI_ACTION_NONE){
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_INTCP_READY_BYTE], 0, FS_OP_ADD, pktinfo.ip_totlen);
	}
	switch (pmeinfo->action){
		case KNI_ACTION_NONE:
			break;
		case KNI_ACTION_INTERCEPT:
			//FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_TX_TFE_BYTE], 0, FS_OP_ADD, pktinfo.ip_totlen);
			//search dabloom
			if(g_kni_handle->dup_traffic_switch == 1){
				if(pmeinfo->has_dup_traffic == 1){
					//ret = 1, = dup packet, bypass the packet 
					ret = dabloom_search(&pktinfo, thread_seq);
					if(ret == 1){
						return APP_STATE_FAWPKT | APP_STATE_GIVEME;
					}
				}
			}
			if(pmeinfo->addr_type == ADDR_TYPE_IPV6){
				ipv6_hdr = (struct ip6_hdr*)a_packet;
				len = ntohs(ipv6_hdr->ip6_ctlun.ip6_un1.ip6_un1_plen) + sizeof(struct ip6_hdr);
			}
			else{
				ipv4_hdr = (struct iphdr*)a_packet;
				len = ntohs(ipv4_hdr->tot_len);
			}
			if(pktinfo.ip_totlen > KNI_DEFAULT_MTU){
				KNI_LOG_DEBUG(logger, "Next data packet exceed MTU(1500), stream traceid = %s, stream addr = %s", 
						pmeinfo->stream_traceid, pmeinfo->stream_addr);
				return APP_STATE_DROPPKT | APP_STATE_GIVEME;
			}
			ret = send_to_tfe((char*)a_packet, len, thread_seq, pmeinfo->tfe_id, pmeinfo->addr_type);
			if(ret < 0){
				KNI_LOG_ERROR(logger, "Failed at send continue packet to tfe%d, stream traceid = %s, stream addr = %s", 
								pmeinfo->tfe_id, pmeinfo->stream_traceid, pmeinfo->stream_addr);
				FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_SENDTO_TFE_FAIL], 0, FS_OP_ADD, 1);
			}
			else{
				FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_INTCP_BYTE], 0, FS_OP_ADD, pktinfo.ip_totlen);
			}
			return APP_STATE_DROPPKT | APP_STATE_GIVEME;
		case KNI_ACTION_BYPASS:
			return APP_STATE_FAWPKT | APP_STATE_GIVEME;
		default:
			assert(0);
			break;
	}
	//first data > 1500, bypass and dropme 
	if(pktinfo.ip_totlen > KNI_DEFAULT_MTU){
		pmeinfo->error = STREAM_ERROR_EXCEED_MTU;
		KNI_LOG_DEBUG(logger, "Stream error: first data packet exceed MTU(1500), stream traceid = %s, stream addr = %s", 
						pmeinfo->stream_traceid, pmeinfo->stream_addr);
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_EXCEED_MTU], 0, FS_OP_ADD, 1);
		return APP_STATE_FAWPKT | APP_STATE_DROPME;
	}
	// syn/ack
	if(pktinfo.tcphdr->syn && pktinfo.tcphdr->ack){
		pmeinfo->server_window = ntohs(pktinfo.tcphdr->window);
		pmeinfo->has_syn_ack = 1;
		kni_get_tcpopt(&(pmeinfo->server_tcpopt), pktinfo.tcphdr, pktinfo.tcphdr_len);
		//dup traffic detect
		if(g_kni_handle->dup_traffic_switch == 1){
			if(pmeinfo->syn_ack_packet == NULL){
				struct dup_traffic_dabloom_key *syn_ack_packet = ALLOC(struct dup_traffic_dabloom_key, 1);
				dup_traffic_dabloom_key_get(&pktinfo, syn_ack_packet);
				pmeinfo->syn_ack_packet = syn_ack_packet;
			}
			else{
				struct dup_traffic_dabloom_key *syn_ack_packet = ALLOC(struct dup_traffic_dabloom_key, 1);
				dup_traffic_dabloom_key_get(&pktinfo, syn_ack_packet);
				if(memcmp(pmeinfo->syn_ack_packet, syn_ack_packet, sizeof(*syn_ack_packet)) == 0){
					pmeinfo->has_dup_syn_ack = 1;
				}
				FREE(&(pmeinfo->syn_ack_packet));
				pmeinfo->syn_ack_packet = syn_ack_packet;
			}
		}
		return APP_STATE_FAWPKT | APP_STATE_GIVEME;	
	}
	//no data, maybe ack
	if(pktinfo.data_len <= 0){
		return APP_STATE_FAWPKT | APP_STATE_GIVEME;
	}
	//not double dir, bypass and dropme
	if(stream->dir != DIR_DOUBLE){
		KNI_LOG_DEBUG(logger, "Stream error: asym routing, stream traceid = %s, stream addr = %s", pmeinfo->stream_traceid, pmeinfo->stream_addr);
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_ASYM_ROUTING], 0, FS_OP_ADD, 1);
		pmeinfo->error = STREAM_ERROR_ASYM_ROUTING;
		return APP_STATE_FAWPKT | APP_STATE_DROPME;
	}
	struct protocol_identify_result protocol_identify_res;
	memset(&protocol_identify_res, 0, sizeof(protocol_identify_res));
	protocol_identify(stream, pktinfo.data, pktinfo.data_len, &protocol_identify_res);
	pmeinfo->protocol = protocol_identify_res.protocol;
	switch(pmeinfo->protocol){
		//can not identify protocol from first data packet, bypass and dropme
		case KNI_PROTOCOL_UNKNOWN:
			KNI_LOG_DEBUG(logger, "Stream error: failed at protocol_identify, stream traceid = %s, stream addr = %s", 
								pmeinfo->stream_traceid, pmeinfo->stream_addr);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_UNSUPPORTED_PROTOCOL], 0, FS_OP_ADD, 1);
			pmeinfo->error = STREAM_ERROR_UNSUPPORTED_PROTOCOL;
			return APP_STATE_FAWPKT | APP_STATE_DROPME;
		case KNI_PROTOCOL_SSL:
			strncpy(pmeinfo->domain.sni, protocol_identify_res.domain, strnlen(protocol_identify_res.domain, sizeof(pmeinfo->domain.sni) - 1));
			break;
		case KNI_PROTOCOL_HTTP:
			strncpy(pmeinfo->domain.host, protocol_identify_res.domain, strnlen(protocol_identify_res.domain, sizeof(pmeinfo->domain.host) - 1));
			break;
		default:
			break;
	}
	//receive client hello, but no syn/ack, bypass and dropme
	if(pmeinfo->has_syn == 0 || pmeinfo->has_syn_ack == 0){
		KNI_LOG_DEBUG(logger, "Stream error: %s, %s, stream traceid = %s, stream addr = %s", pmeinfo->has_syn == 0 ? "no syn" : "have syn", 
								pmeinfo->has_syn_ack == 0 ? "no syn/ack" : "have syn/ack", pmeinfo->stream_traceid, pmeinfo->stream_addr);
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_NO_SYN_ACK], 0, FS_OP_ADD, 1);
		pmeinfo->error = STREAM_ERROR_NO_SYN_ACK;
		return APP_STATE_FAWPKT | APP_STATE_DROPME;
	}
	pmeinfo->action = intercept_policy_scan(g_kni_handle->maat_handle, (struct ipaddr*)(&stream->addr), 
				protocol_identify_res.domain, protocol_identify_res.domain_len, 
				thread_seq, &(pmeinfo->policy_id), &(pmeinfo->do_log), &(pmeinfo->maat_hit));
	//policy scan log
	char *action_str = kni_maat_action_trans(pmeinfo->action);
	KNI_LOG_INFO(logger, "intercept_policy_scan: %s, %s, policy_id = %d, action = %d(%s), maat_hit = %d, stream traceid = %s, stream addr = %s", 
			stream_addr, protocol_identify_res.domain, pmeinfo->policy_id, pmeinfo->action, action_str, pmeinfo->maat_hit, pmeinfo->stream_traceid, pmeinfo->stream_addr);
	FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_INTCP_READY_STM], 0, FS_OP_ADD, 1);
	FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_INTCP_READY_BYTE], 0, FS_OP_ADD, pktinfo.ip_totlen);
	switch(pmeinfo->action){
		case KNI_ACTION_BYPASS:
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_BYP_STM_POLICY], 0, FS_OP_ADD, 1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_BYP_STM], 0, FS_OP_ADD, 1);
			pmeinfo->intercept_state=0;
			return APP_STATE_FAWPKT | APP_STATE_GIVEME;  //GIVEME: for session record
		case KNI_ACTION_INTERCEPT:
			pmeinfo->intercept_state=1;
			return first_data_intercept(stream, pmeinfo, &pktinfo, stream_addr, thread_seq);
		default:
			//action != intercept && action != bypass，bypass and dropme
			KNI_LOG_DEBUG(logger, "Stream error: action %d(%s) = invalid: policy_id = %d, domain = %s, stream traceid = %s, stream addr = %s",
				  pmeinfo->action, action_str, pmeinfo->policy_id, protocol_identify_res.domain, pmeinfo->stream_traceid, pmeinfo->stream_addr);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_INVALID_ACTION], 0, FS_OP_ADD, 1);
			pmeinfo->error = STREAM_ERROR_INVALID_ACTION;
			return APP_STATE_FAWPKT | APP_STATE_DROPME;
	}
}


static char close_opstate(const struct streaminfo *stream, struct pme_info *pmeinfo, int thread_seq){
	//close: a_packet = null, do not sendto tfe
	clock_gettime(CLOCK_REALTIME, &(pmeinfo->end_time));
	void *logger = g_kni_handle->local_logger;
	pmeinfo->server_bytes=stream->ptcpdetail->serverbytes;
	pmeinfo->client_bytes=stream->ptcpdetail->clientbytes;
	pmeinfo->server_pkts=stream->ptcpdetail->serverpktnum;
	pmeinfo->client_pkts=stream->ptcpdetail->clientpktnum;
	pmeinfo->dir=stream->dir;
	switch(pmeinfo->action){
		case KNI_ACTION_INTERCEPT:
			//reset clock: when sapp end, start clock
			MESA_htable_search(g_kni_handle->traceid2pme_htable, (const unsigned char*)pmeinfo->stream_traceid, 
						strnlen(pmeinfo->stream_traceid, sizeof(pmeinfo->stream_traceid)));
			tuple2stream_htable_del(stream, thread_seq);
			return APP_STATE_DROPPKT | APP_STATE_DROPME;
		case KNI_ACTION_BYPASS: 
			//KNI_LOG_DEBUG(logger, "action = bypass, set tfe_release = 1, stream_trace_id = %s", pmeinfo->stream_traceid);
			pmeinfo->tfe_release = 1;
			return APP_STATE_FAWPKT | APP_STATE_DROPME;
		//stream has only syn, ack. no data.
		default:
			char *action_str = kni_maat_action_trans(pmeinfo->action);
			pmeinfo->error = STREAM_ERROR_NO_DATA;
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_NO_DATA], 0, FS_OP_ADD, 1);
			KNI_LOG_DEBUG(logger, "Stream error: close_opstate, action %d(%s) = abnormal, stream traceid = %s, stream addr = %s", 
					pmeinfo->action, action_str, pmeinfo->stream_traceid, pmeinfo->stream_addr);
			return APP_STATE_FAWPKT | APP_STATE_DROPME;
	}
}

//from syn
extern "C" char kni_tcpall_entry(struct streaminfo *stream, void** pme, int thread_seq, const void* a_packet){

	void *logger = g_kni_handle->local_logger;
	int ret;
	int can_destroy;
	struct pme_info *pmeinfo = *(struct pme_info **)pme;

	/*  a_packet == NULL && not op_state_close, continue
		close: a_packet may be null, if a_packet = null, do not send to tfe
	*/
	if(a_packet == NULL && stream->pktstate != OP_STATE_CLOSE){
		//FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_NULL_PKT], 0, FS_OP_ADD, 1);
		return APP_STATE_FAWPKT | APP_STATE_GIVEME;
	}
	switch(stream->pktstate){
		case OP_STATE_PENDING:
			//FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STATE_PENDING], 0, FS_OP_ADD, 1);
			pmeinfo = ALLOC(struct pme_info, 1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_PME_NEW_SUCC], 0, FS_OP_ADD, 1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_PME_CNT], 0, FS_OP_ADD, 1);
			*pme = pmeinfo;
			//stream error: pme init fail
			ret = pme_info_init(pmeinfo, stream, thread_seq);
			if(ret < 0){
				KNI_LOG_DEBUG(logger, "Stream error: fail at pme_info_init, stream traceid = %s, stream addr = %s", pmeinfo->stream_traceid, pmeinfo->stream_addr);
				pmeinfo->error = STREAM_ERROR_PME_INIT_FAIL;
				FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_PME_INIT_FAIL], 0, FS_OP_ADD, 1);
				goto error_out;
			}
			//stream error: no tfe
			pmeinfo->tfe_id = tfe_mgr_alive_node_get(g_kni_handle->_tfe_mgr, thread_seq);
			if(pmeinfo->tfe_id < 0){
				KNI_LOG_DEBUG(logger, "Stream error: no available tfe, stream traceid = %s, stream addr = %s", pmeinfo->stream_traceid, pmeinfo->stream_addr);
				pmeinfo->error = STREAM_ERROR_NO_TFE;
				FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STMERR_NO_TFE], 0, FS_OP_ADD, 1);
				goto error_out;
			}
			ret = pending_opstate(stream, pmeinfo, a_packet, thread_seq);
			if(pmeinfo->error < 0){
				goto error_out;
			}
			break;
		case OP_STATE_DATA:
			ret = data_opstate(stream, pmeinfo, a_packet, thread_seq);
			//exception stream, dropme and destroy pmeinfo
			if(pmeinfo->error < 0){
				goto error_out;
			}
			break;
		case OP_STATE_CLOSE:
			//sapp stream close
			//FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STATE_CLOSE], 0, FS_OP_ADD, 1);
			ret = close_opstate(stream, pmeinfo, thread_seq);
			if(pmeinfo->error < 0){
				goto error_out;
			}
			break;
		default:
			ret = APP_STATE_FAWPKT | APP_STATE_GIVEME;
			//FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_STATE_UNKNOWN], 0, FS_OP_ADD, 1);
			KNI_LOG_ERROR(logger, "Unknown stream opstate %d, stream traceid = %s, stream addr = %s", 
							stream->pktstate, pmeinfo->stream_traceid, pmeinfo->stream_addr);
			break;
	}
	//sapp release: bypass or intercept
	if((ret & APP_STATE_DROPME)){
		can_destroy = judge_stream_can_destroy(pmeinfo, CALLER_SAPP);
		if(can_destroy == 1){
			if(pmeinfo->action == KNI_ACTION_INTERCEPT){
				traceid2pme_htable_del(pmeinfo);
			}
			stream_destroy(pmeinfo, pmeinfo->do_log);
		}
	}
	return ret;

//error out: stream error, send log and destroy_pme, do not need to del htable
error_out:
	FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_BYP_STM_ERR], 0, FS_OP_ADD, 1);
	FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_BYP_STM], 0, FS_OP_ADD, 1);
	if(pmeinfo != NULL){
		pmeinfo->policy_id = -1;
		stream_destroy(pmeinfo, 1);
	}
	return APP_STATE_FAWPKT | APP_STATE_DROPME;
}

void http_project_free(int thread_seq, void *project_req_value){
	FREE(&project_req_value);
}

static int http_project_init(){
	void *logger = g_kni_handle->local_logger;
	int id = project_producer_register(HTTP_PROJECT_NAME, PROJECT_VAL_TYPE_STRUCT, http_project_free);
	if(id < 0){
		KNI_LOG_ERROR(logger, "Failed at project_producer_register, project name = %s, ret = %d", HTTP_PROJECT_NAME, id);
		return -1;
	}
	id = project_customer_register(HTTP_PROJECT_NAME, PROJECT_VAL_TYPE_STRUCT);
	if(id < 0){
		KNI_LOG_ERROR(logger, "Failed at project_customer_register, project name = %s, ret = %d", HTTP_PROJECT_NAME, id);
		return -1;
	}
	return id;
}

extern "C" char kni_http_entry(stSessionInfo* session_info,  void **pme, int thread_seq, struct streaminfo *a_stream, const void *a_packet){
	http_infor* http_info = (http_infor*)(session_info->app_info);
	//only process first http session
	if(http_info->http_session_seq != 1){
		return PROT_STATE_DROPME;
	}
	if(session_info->prot_flag != HTTP_HOST){
		return PROT_STATE_GIVEME;
	}
	int host_len = MIN(session_info->buflen, KNI_DEFAULT_MTU);
	struct http_project* host_info = ALLOC(struct http_project, 1);
	host_info->host_len = host_len;
	memcpy(host_info->host, session_info->buf, host_len);
	if(project_req_add_struct(a_stream, g_kni_handle->http_project_id, host_info) < 0){
		FREE(&host_info);
		host_info = NULL;
	}
	return PROT_STATE_DROPME;
}

static void kni_marsio_destroy(struct kni_marsio_handle *handle){
	if(handle != NULL){
		if(handle->instance != NULL){
			marsio_destory(handle->instance);
		}
	}
	FREE(&handle);
	handle = NULL;
}


int tuple2stream_htable_search(MESA_htable_handle handle, struct ethhdr *ether_hdr, int thread_seq){
	void *logger = g_kni_handle->local_logger;
	if(ether_hdr->h_proto != htons(ETH_P_IP) && ether_hdr->h_proto != htons(ETH_P_IPV6)){
		return -1;
	}
	void *raw_packet = (char*)ether_hdr + sizeof(*ether_hdr);
	tuple2stream_htable_value *value = NULL;
	struct pkt_info pktinfo;
	int reversed = 0, ret;
	int key_size = 0;
	char key_str[KNI_ADDR_MAX];
	//ipv6
	if(ether_hdr->h_proto == htons(ETH_P_IPV6)){
		ret = kni_ipv6_header_parse(raw_packet, &pktinfo);
		if(ret < 0){
			char *errmsg = kni_ipv6_errmsg_get((enum kni_ipv6hdr_parse_error)ret);
			KNI_LOG_ERROR(logger, "failed at parse ipv6 header, errmsg = %s", errmsg);
			//FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_IPV6HDR_PARSE_FAIL], 0, FS_OP_ADD, 1);
			return -1;
		}
		struct stream_tuple4_v6 key;
		kni_addr_trans_v6(&key, key_str, sizeof(key_str));
		tuple2stream_htable_key_get_v6_by_packet(&pktinfo, &key, &reversed);
		value = (tuple2stream_htable_value*)MESA_htable_search(handle, (const unsigned char*)(&key), sizeof(key));
	}
	//ipv4
	else{
		ret = kni_ipv4_header_parse(raw_packet, &pktinfo);
		if(ret < 0){
			char *errmsg = kni_ipv4_errmsg_get((enum kni_ipv4hdr_parse_error)ret);
			KNI_LOG_ERROR(logger, "failed at parse ipv4 header, errmsg = %s", errmsg);
			//FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_IPV4HDR_PARSE_FAIL], 0, FS_OP_ADD, 1);
			return -1;
		}
		struct stream_tuple4_v4 key;
		key_size = sizeof(key);
		tuple2stream_htable_key_get_v4_by_packet(&pktinfo, &key, &reversed);
		kni_addr_trans_v4(&key, key_str, sizeof(key_str));
		value = (tuple2stream_htable_value*)MESA_htable_search(handle, (const unsigned char*)(&key), key_size);
	}
	if(value == NULL){
		KNI_LOG_DEBUG(logger, "MESA_htable: search not hit, table is tuple2stream_htable, key = %s, key_size = %d", key_str, key_size);
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_TUPLE2STM_SEARCH_MISS], 0, FS_OP_ADD, 1);
		return -1;
	}
	FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_TUPLE2STM_SEARCH_HIT], 0, FS_OP_ADD, 1);
	//FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_TUPLE2STM_SEARCH_SUCC], 0, FS_OP_ADD, 1);
	unsigned char dir = value->route_dir;
	if(reversed != value->reversed){
		dir = MESA_dir_reverse(dir);
	}

	ret = sapp_inject_pkt(value->stream, SIO_EXCLUDE_THIS_LAYER_HDR, raw_packet, pktinfo.ip_totlen, dir);
	if(ret < 0){
		KNI_LOG_ERROR(logger, "Failed at sapp_inject_pkt, stream addr = %s", key_str);
		FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_SAPP_INJECT_FAIL], 0, FS_OP_ADD, 1);
		return -1;
	}
	FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_SAPP_INJECT_SUCC], 0, FS_OP_ADD, 1);
	//add to dabloom
	if(g_kni_handle->dup_traffic_switch == 1){
		if(value->pmeinfo->has_dup_traffic == 1){ 
			ret = dabloom_add(&pktinfo, thread_seq);
			if(ret < 0){
				return -1;
			}
		}
	}
	return 0;
}

extern "C" char kni_polling_all_entry(const struct streaminfo *stream, void** pme, int thread_seq, const void* a_packet){
	void *logger = g_kni_handle->local_logger;
	MESA_htable_handle tuple2stream_htable = g_kni_handle->threads_handle[thread_seq].tuple2stream_htable;
	int flag = 0;
	//normal mode
	if(g_kni_handle->deploy_mode == KNI_DEPLOY_MODE_NORMAL){
		//polling tfe
		for(int i = 0; i < g_kni_handle->marsio_handle->tfe_enabled_node_count; i++){
			marsio_buff_t *rx_buffs[BURST_MAX];
			int nr_burst = 1;
			struct mr_vdev *dev_eth_handler = g_kni_handle->marsio_handle->tfe_enabled_nodes[i].dev_eth_handler;
			//receive from tfe, nr_recv <= nr_burst <= BURST_MAX
			int nr_recv = marsio_recv_burst(dev_eth_handler, thread_seq, rx_buffs, nr_burst);
			if(nr_recv <= 0){
				continue;
			}
			for(int j = 0; j < nr_recv; j++){
				struct ethhdr *ether_hdr = (struct ethhdr*)marsio_buff_mtod(rx_buffs[j]);
				tuple2stream_htable_search(tuple2stream_htable, ether_hdr, thread_seq);
				flag = 1;
			}
			marsio_buff_free(g_kni_handle->marsio_handle->instance, rx_buffs, nr_recv, 0, 0);
		}
	}
	//tun mode
	else{
		char buff[KNI_MTU];
		int ret = kni_tun_read(g_kni_handle->tun_handle, buff, sizeof(buff));
		if(ret < 0){
			KNI_LOG_ERROR(logger, "Failed at read from tun");
		}
		else{
			if(ret > 0){
				struct ethhdr *ether_hdr = (struct ethhdr*)buff;
				tuple2stream_htable_search(tuple2stream_htable, ether_hdr, thread_seq);
				flag = 1;
			}
		}
	}
	return flag;
}


static int wrapped_kni_cmsg_get(struct pme_info *pmeinfo, struct kni_cmsg *cmsg, uint16_t type, 
			uint16_t value_size_max, void *logger){
	uint16_t value_size = 0;
	unsigned char *value = NULL;
	int ret = kni_cmsg_get(cmsg, type, &value_size, &value);
	if(ret < 0){
		if(ret == KNI_CMSG_INVALID_TYPE){
			KNI_LOG_ERROR(logger, "Failed at kni_cmsg_get: type = %d, ret = %d, stream traceid = %s, stream addr = %s",
					 type, ret, pmeinfo->stream_traceid, pmeinfo->stream_addr);
		}
		return -1;
	}
	if(value_size > value_size_max){
		KNI_LOG_ERROR(logger, "kni_cmsg_get: type = %d, size = %d, which should <= %d, stream traceid = %s, stream addr = %s",
					 type, value_size, value_size_max, pmeinfo->stream_traceid, pmeinfo->stream_addr);
		return -1;
	}
	switch(type)
	{
		case TFE_CMSG_SSL_INTERCEPT_STATE:
			memcpy((char*)&(pmeinfo->intercept_state), value, value_size);
			break;
		case TFE_CMSG_SSL_UPSTREAM_LATENCY:
			memcpy((char*)&(pmeinfo->ssl_server_side_latency), value, value_size);
			break;
		case TFE_CMSG_SSL_DOWNSTREAM_LATENCY:
			memcpy((char*)&(pmeinfo->ssl_client_side_latency), value, value_size);
			break;
		case TFE_CMSG_SSL_UPSTREAM_VERSION:
			memcpy(pmeinfo->ssl_server_side_version, value, value_size);
			break;
		case TFE_CMSG_SSL_DOWNSTREAM_VERSION:
			memcpy(pmeinfo->ssl_client_side_version, value, value_size);
			break;
		case TFE_CMSG_SSL_PINNING_STATE:
			memcpy((char*)&(pmeinfo->pinningst), value, value_size);
			break;
		case TFE_CMSG_SSL_CERT_VERIFY:
			memcpy((char*)&(pmeinfo->ssl_cert_verify), value, value_size);
			break;
		case TFE_CMSG_SSL_ERROR:
			memcpy((char*)&(pmeinfo->ssl_error), value, value_size);
			break;
		default:
			break;
	}
	return 0;
}

static long traceid2pme_htable_search_cb(void *data, const uchar *key, uint size, void *user_args){
	struct traceid2pme_search_cb_args *args = (struct traceid2pme_search_cb_args*)user_args;
	void *logger = args->logger;
	struct kni_cmsg *cmsg = args->cmsg;
	struct pme_info *pmeinfo = (struct pme_info*)data;
	int can_destroy;
	if(pmeinfo != NULL){
		wrapped_kni_cmsg_get(pmeinfo, cmsg, TFE_CMSG_SSL_INTERCEPT_STATE, sizeof(pmeinfo->intercept_state), logger);
		wrapped_kni_cmsg_get(pmeinfo, cmsg, TFE_CMSG_SSL_UPSTREAM_LATENCY, sizeof(pmeinfo->ssl_server_side_latency), logger);
		wrapped_kni_cmsg_get(pmeinfo, cmsg, TFE_CMSG_SSL_DOWNSTREAM_LATENCY, sizeof(pmeinfo->ssl_client_side_latency), logger);
		wrapped_kni_cmsg_get(pmeinfo, cmsg, TFE_CMSG_SSL_UPSTREAM_VERSION, sizeof(pmeinfo->ssl_server_side_version) - 1, logger);
		wrapped_kni_cmsg_get(pmeinfo, cmsg, TFE_CMSG_SSL_DOWNSTREAM_VERSION, sizeof(pmeinfo->ssl_client_side_version) - 1, logger);
		wrapped_kni_cmsg_get(pmeinfo, cmsg, TFE_CMSG_SSL_PINNING_STATE, sizeof(pmeinfo->pinningst), logger);
		wrapped_kni_cmsg_get(pmeinfo, cmsg, TFE_CMSG_SSL_CERT_VERIFY, sizeof(pmeinfo->ssl_cert_verify), logger);
		wrapped_kni_cmsg_get(pmeinfo, cmsg, TFE_CMSG_SSL_ERROR, sizeof(pmeinfo->ssl_error), logger);
		clock_gettime(CLOCK_REALTIME, &(pmeinfo->end_time));
		KNI_LOG_DEBUG(logger, "recv cmsg from tfe, stream traceid = %s, stream addr = %s", pmeinfo->stream_traceid, pmeinfo->stream_addr);
		can_destroy = judge_stream_can_destroy(pmeinfo, CALLER_TFE);
		if(can_destroy == 1){
			traceid2pme_htable_del(pmeinfo);
			stream_destroy(pmeinfo, pmeinfo->do_log);
		}
	}
	kni_cmsg_destroy(cmsg);
	return 0;
}

static void* thread_tfe_cmsg_receiver(void *args){
	struct thread_tfe_cmsg_receiver_args *_args = (struct thread_tfe_cmsg_receiver_args*)args;
	const char *profile = _args->profile;
	const char *section = "tfe_cmsg_receiver";
	void *logger = _args->logger;
	char listen_eth[KNI_SYMBOL_MAX];
	uint32_t listen_ip;
	int listen_port = -1;
	char buff[KNI_MTU];
	int sockfd = 0;
	struct sockaddr_in server_addr, client_addr;
	int ret = MESA_load_profile_string_nodef(profile, section, "listen_eth", listen_eth, sizeof(listen_eth));
	if(ret < 0){
		KNI_LOG_ERROR(logger, "MESA_prof_load: listen_eth not set, profile = %s, section = %s", profile, section);
		goto error_out;
	}
	ret = MESA_load_profile_int_nodef(profile, section, "listen_port", &listen_port);
	if(ret < 0){
		KNI_LOG_ERROR(logger, "MESA_prof_load: listen_port not set, profile = %s, section = %s", profile, section);
		goto error_out;
	}
	KNI_LOG_ERROR(logger, "MESA_prof_load, [%s]:\n listen_eth: %s\n listen_port: %d",
					section, listen_eth, listen_port);
	FREE(&args);
	//create socket
	sockfd = socket(AF_INET, SOCK_DGRAM, 0);
	if(sockfd < 0){
		KNI_LOG_ERROR(logger, "Failed at create udp socket, errno = %d, %s", errno, strerror(errno));
		goto error_out;
	}
	memset(&server_addr, 0, sizeof(server_addr)); 
    memset(&client_addr, 0, sizeof(client_addr)); 
	ret = kni_ipv4_addr_get_by_eth(listen_eth, &listen_ip);
	if(ret < 0){
		KNI_LOG_ERROR(logger, "Failed at get bind ipv4 addr, eth = %s", listen_eth);
		goto error_out;
	}
	server_addr.sin_family = AF_INET; // IPv4 
    server_addr.sin_addr.s_addr = listen_ip; 
    server_addr.sin_port = htons(listen_port);
	//bind
	ret = bind(sockfd, (const struct sockaddr *)&server_addr, sizeof(server_addr));
	if(ret < 0){
		KNI_LOG_ERROR(logger, "Failed at bind udp socket, errno = %d, %s", errno, strerror(errno));
		goto error_out;
	}
	//receive
	while(true){
		socklen_t client_len = sizeof(client_addr);
		int recv_len = recvfrom(sockfd, (char *)buff, sizeof(buff), MSG_WAITALL,
			 (struct sockaddr*)&client_addr, &client_len);
		if(recv_len < 0){
			KNI_LOG_ERROR(logger, "Failed at recv udp data, errno = %d, %s", errno, strerror(errno));
			continue;
		}
		//KNI_LOG_DEBUG(logger, "recv udp data: recv_len = %d\n", recv_len);
		struct kni_cmsg *cmsg = NULL;
		ret = kni_cmsg_deserialize((const unsigned char*)buff, recv_len, &cmsg);
		if(ret < 0){
			KNI_LOG_ERROR(logger, "Failed at deserialize cmsg, ret = %d", ret);
			continue;
		}
		//get stream_traceid
		unsigned char *stream_traceid = NULL;
		uint16_t value_size;
		ret = kni_cmsg_get(cmsg, TFE_CMSG_STREAM_TRACE_ID, &value_size, &stream_traceid);
		if(ret < 0){
			KNI_LOG_ERROR(logger, "Failed at kni_cmsg_get: type = %d, ret = %d", TFE_CMSG_STREAM_TRACE_ID, ret);
			continue;
		}
		//get pme
		long cb_ret = -1;
		struct traceid2pme_search_cb_args cb_args;
		memset((void*)&cb_args, 0, sizeof(cb_args));
		cb_args.cmsg = cmsg;
		cb_args.logger = logger;
        MESA_htable_search_cb(g_kni_handle->traceid2pme_htable, (const unsigned char *)stream_traceid, 
			value_size, traceid2pme_htable_search_cb, &cb_args, &cb_ret);
	}
	return NULL;

error_out:
	if(sockfd >= 0){
		close(sockfd);
	}
	return NULL;
}

static struct kni_marsio_handle* kni_marsio_init(const char* profile, int tfe_node_count){
	void *logger = g_kni_handle->local_logger;
	const char* section = "marsio";
	char appsym[KNI_SYMBOL_MAX];
	unsigned int opt_value = 1;
	int tfe_node_enabled;
	struct mr_instance *mr_inst = NULL;
	struct mr_vdev *dev_eth_handler = NULL;
	struct mr_sendpath *dev_eth_sendpath = NULL;
	struct kni_marsio_handle *handle = NULL;
	int j;
	int ret = MESA_load_profile_string_nodef(profile, section, "appsym", appsym, sizeof(appsym));
	if(ret < 0){
		KNI_LOG_ERROR(logger, "MESA_prof_load: appsym not set, profile = %s, section = %s", profile, section);
		goto error_out;
	}
	KNI_LOG_ERROR(logger, "MESA_prof_load, [%s]:\n appsym: %s", section, appsym);
	mr_inst = marsio_create();
	if(mr_inst == NULL){
		KNI_LOG_ERROR(logger, "Failed at create marsio instance");
		goto error_out;
	}
	handle = ALLOC(struct kni_marsio_handle, 1);
	handle->instance = mr_inst;
    marsio_option_set(mr_inst, MARSIO_OPT_EXIT_WHEN_ERR, &opt_value, sizeof(opt_value));
    marsio_init(mr_inst, appsym);
	j = 0;
	for(int i = 0; i < tfe_node_count; i++){
		//load tfe conf
		char _section[KNI_SYMBOL_MAX];
		char dev_eth_symbol[KNI_SYMBOL_MAX];
		snprintf(_section, sizeof(_section), "tfe%d", i);
		MESA_load_profile_int_def(profile, _section, "enabled", &tfe_node_enabled, 1);
		if(tfe_node_enabled != 1){
			continue;
		}
		struct tfe_enabled_node tfe_node;
		memset(&tfe_node, 0, sizeof(tfe_node));
		ret = MESA_load_profile_string_nodef(profile, _section, "dev_eth_symbol", dev_eth_symbol, sizeof(dev_eth_symbol));
		if(ret < 0){
			KNI_LOG_ERROR(logger, "MESA_prof_load: dev_eth_symbol not set, profile = %s, section = %s", profile, _section);
			goto error_out;
		}
		KNI_LOG_ERROR(logger, "MESA_prof_load, [%s]:\n enabled: %d\n dev_eth_symbol: %s",
					_section, tfe_node_enabled, dev_eth_symbol);
		//eth_handler receive thread = thread_count, send thread = thread_count
		dev_eth_handler = marsio_open_device(mr_inst, dev_eth_symbol, g_kni_handle->thread_count, g_kni_handle->thread_count);
		if(dev_eth_handler == NULL){
			KNI_LOG_ERROR(logger, "Failed at marsio_open_device, dev_symbol = %s", dev_eth_symbol);
			goto error_out;
		}
		//sendpath
		dev_eth_sendpath = marsio_sendpath_create_by_vdev(dev_eth_handler);
		if(dev_eth_sendpath == NULL){
			KNI_LOG_ERROR(logger, "Failed at create marsio sendpath, dev_symbol = %s", dev_eth_symbol);
			goto error_out;
		}
		//tfe_node
		tfe_node.dev_eth_handler = dev_eth_handler;
		tfe_node.dev_eth_sendpath = dev_eth_sendpath;
		tfe_node.tfe_id = i;
		handle->tfe_enabled_nodes[j++] = tfe_node;
	}
	handle->tfe_enabled_node_count = j;
	//marsio_thread_init(mr_instance); 
	return handle;

error_out:
	kni_marsio_destroy(handle);
	return NULL;
}

static void fs_destroy(struct kni_field_stat_handle *fs_handle){
	if(fs_handle != NULL){
		FS_stop(&(fs_handle->handle));
	}
	FREE(&fs_handle);
}

static struct kni_field_stat_handle * fs_init(const char *profile){
	void *logger = g_kni_handle->local_logger;
	const char *section = "field_stat";
	char local_path[KNI_PATH_MAX];
	struct kni_field_stat_handle *fs_handle = NULL;
	screen_stat_handle_t handle = NULL;
	const char *app_name = "fs2_kni";
	int value = 0, ret, stat_cycle;
	int remote_switch = 0;
	char remote_ip[INET_ADDRSTRLEN];
	int remote_port;
	MESA_load_profile_int_def(profile, section, "remote_switch", &remote_switch, 0);
	MESA_load_profile_string_def(profile, section, "local_path", local_path, sizeof(local_path), "./fs2_kni.status");
	KNI_LOG_ERROR(logger, "MESA_prof_load, [%s]:\n remote_switch: %d\n local_path: %s", section, remote_switch, local_path);
	handle = FS_create_handle();
	if(handle == NULL){
		KNI_LOG_ERROR(logger, "Failed at create FS_create_handle");
		goto error_out;
	}
	if(remote_switch == 1){
		ret = MESA_load_profile_string_nodef(profile, section, "remote_ip", remote_ip, sizeof(remote_ip));
		if(ret < 0){
			KNI_LOG_ERROR(logger, "MESA_prof_load: remote_ip not set, profile is %s, section is %s", profile, section);
			goto error_out;
		}
		ret = MESA_load_profile_int_nodef(profile, section, "remote_port", &remote_port);
		if(ret < 0){
			KNI_LOG_ERROR(logger, "MESA_prof_load: remote_port not set, profile is %s, section is %s", profile, section);
			goto error_out;
		}
		KNI_LOG_ERROR(logger, "MESA_prof_load, [%s]:\n remote_ip: %s\n remote_port: %d", section, remote_ip, remote_port);
		FS_set_para(handle, STATS_SERVER_IP, remote_ip, strlen(remote_ip));
		FS_set_para(handle, STATS_SERVER_PORT, &remote_port, sizeof(remote_port));
		value=FS_OUTPUT_STATSD;
		FS_set_para(handle, STATS_FORMAT, &value, sizeof(value));
	}
	MESA_load_profile_int_def(profile, section, "stat_cycle", &stat_cycle, 5);
	fs_handle = ALLOC(struct kni_field_stat_handle, 1);
	fs_handle->handle = handle;
	FS_set_para(handle, APP_NAME, app_name, strlen(app_name) + 1);
	FS_set_para(handle, OUTPUT_DEVICE, local_path, strlen(local_path)+1);
	value = 0;
	FS_set_para(handle, FLUSH_BY_DATE, &value, sizeof(value));
	value = 1;
	FS_set_para(handle, PRINT_MODE, &value, sizeof(value));
	value = 1;
	FS_set_para(handle, CREATE_THREAD, &value, sizeof(value));
	value = stat_cycle;
	FS_set_para(handle, STAT_CYCLE, &value, sizeof(value));
	value = 4096;
	FS_set_para(handle, MAX_STAT_FIELD_NUM, &value, sizeof(value));
	fs_handle = ALLOC(struct kni_field_stat_handle, 1);
	fs_handle->handle = handle;

	//bypass stream
	fs_handle->fields[KNI_FIELD_BYP_STM] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "byp_stm");
	fs_handle->fields[KNI_FIELD_BYP_STM_POLICY] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "byp_policy");
	fs_handle->fields[KNI_FIELD_BYP_STM_ERR] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "byp_stm_err");
	//stream error
	fs_handle->fields[KNI_FIELD_STMERR_ASYM_ROUTING] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_asym_route");
	fs_handle->fields[KNI_FIELD_STMERR_NO_SYN] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_no_syn");
	fs_handle->fields[KNI_FIELD_STMERR_NO_SYN_ACK] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_no_s/a");
	fs_handle->fields[KNI_FIELD_STMERR_NO_DATA] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_no_data");
	fs_handle->fields[KNI_FIELD_STMERR_UNSUPPORTED_PROTOCOL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_unspt_pro");
	fs_handle->fields[KNI_FIELD_STMERR_INVALID_IP_HDR] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_ip_hdr");
	fs_handle->fields[KNI_FIELD_STMERR_EXCEED_MTU] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_exc_mtu");
	//stream error: internal error
	fs_handle->fields[KNI_FIELD_STMERR_INVALID_ACTION] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_invaid_act");
	fs_handle->fields[KNI_FIELD_STMERR_SENDTO_TFE_FAIL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_tfe_tx");
	fs_handle->fields[KNI_FIELD_STMERR_TUPLE2STM_ADD_FAIL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_tup2stm_add");
	fs_handle->fields[KNI_FIELD_STMERR_NO_TFE] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_no_tfe");
	fs_handle->fields[KNI_FIELD_STMERR_PME_INIT_FAIL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_pme_init");
	fs_handle->fields[KNI_FIELD_STMERR_DUP_TRAFFIC] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_dup_tfc");
	fs_handle->fields[KNI_FIELD_STMERR_CMSG_ADD_FAIL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_cmsg_add");

	//intercept stream
	fs_handle->fields[KNI_FIELD_INTCP_STM] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "intcp_stm");
	fs_handle->fields[KNI_FIELD_INTCP_BYTE] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "intcp_B");
	fs_handle->fields[KNI_FIELD_IPV4_STM] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "ipv4_stm");
	fs_handle->fields[KNI_FIELD_IPV6_STM] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "ipv6_stm");
	fs_handle->fields[KNI_FIELD_SSL_STM] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "ssl_stm");
	fs_handle->fields[KNI_FIELD_HTTP_STM] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "http_stm");
	fs_handle->fields[KNI_FIELD_DUP_TFC_STM] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "dup_tfc_stm");
	fs_handle->fields[KNI_FIELD_DUP_TFC_BYTE] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "dup_tfc_B");
	
	//intercept ready stream
	fs_handle->fields[KNI_FIELD_INTCP_READY_STM] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "intcp_rdy_stm");
	fs_handle->fields[KNI_FIELD_INTCP_READY_BYTE] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "intcp_rdy_B");

	//pme 
	fs_handle->fields[KNI_FIELD_PME_NEW_SUCC] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "pme_new");
	fs_handle->fields[KNI_FIELD_PME_FREE] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "pme_free");
	fs_handle->fields[KNI_FIELD_PME_CNT] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "pme_cnt");

	//errors
	fs_handle->fields[KNI_FIELD_SENDLOG_FAIL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_sendlog");
	fs_handle->fields[KNI_FIELD_ID2PME_ADD_FAIL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_id2pme_add");
	fs_handle->fields[KNI_FIELD_ID2PME_DEL_FAIL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_id2pme_del");
	fs_handle->fields[KNI_FIELD_TUPLE2STM_ADD_FAIL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_tup2stm_add");
	fs_handle->fields[KNI_FIELD_TUPLE2STM_DEL_FAIL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_tup2stm_del");
	fs_handle->fields[KNI_FIELD_SAPP_INJECT_FAIL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_sapp_inject");
	fs_handle->fields[KNI_FIELD_BLOOM_SEARCH_FAIL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_bloom_srch");
	fs_handle->fields[KNI_FIELD_BLOOM_ADD_FAIL] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "e_bloom_add");

	//htable
	fs_handle->fields[KNI_FIELD_ID2PME_ADD_SUCC] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "id2pme_add_S");
	fs_handle->fields[KNI_FIELD_ID2PME_DEL_SUCC] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "id2pme_del_S");
	fs_handle->fields[KNI_FIELD_ID2PME_CNT] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "id2pme_cnt");
	fs_handle->fields[KNI_FIELD_TUPLE2STM_ADD_SUCC] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "tup2stm_add_S");
	fs_handle->fields[KNI_FIELD_TUPLE2STM_DEL_SUCC] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "tup2stm_del_S");
	fs_handle->fields[KNI_FIELD_TUPLE2STM_SEARCH_HIT] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "tup2stm_hit");
	fs_handle->fields[KNI_FIELD_TUPLE2STM_SEARCH_MISS] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "tup2stm_miss");
	//sendlog
	fs_handle->fields[KNI_FIELD_SENDLOG_SUCC] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "sendlog_S");

	//sapp_inject
	fs_handle->fields[KNI_FIELD_SAPP_INJECT_SUCC] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "sapp_inject_S");

	//dabloom
	fs_handle->fields[KNI_FIELD_BLOOM_HIT] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "bloom_hit");
	fs_handle->fields[KNI_FIELD_BLOOM_MISS] = FS_register(handle, FS_STYLE_FIELD, FS_CALC_CURRENT, "bloom_miss");
	if(g_kni_handle->deploy_mode == KNI_DEPLOY_MODE_NORMAL){
		for(int i = 0; i < g_kni_handle->marsio_handle->tfe_enabled_node_count; i++){
			int tfe_id = g_kni_handle->marsio_handle->tfe_enabled_nodes[i].tfe_id;
			char tfe_status[KNI_SYMBOL_MAX] = "";
			snprintf(tfe_status, sizeof(tfe_status), "tfe%d", tfe_id);
			fs_handle->fields[KNI_FIELD_TFE_STATUS_BASE + i] = FS_register(handle, FS_STYLE_STATUS, FS_CALC_CURRENT, tfe_status);
		}
	}
	//table
	char buff[KNI_PATH_MAX];
	for(int i = 0; i < g_kni_handle->thread_count; i++){
		snprintf(buff, sizeof(buff), "tid%d", i);
		fs_handle->column_ids[i] = FS_register(handle, FS_STYLE_COLUMN, FS_CALC_CURRENT, buff);
	}
	snprintf(buff, sizeof(buff), "Total");
	//lines
	fs_handle->column_ids[g_kni_handle->thread_count] = FS_register(handle, FS_STYLE_COLUMN, FS_CALC_CURRENT, buff);
	snprintf(buff, sizeof(buff), "bloom_cnt");
	fs_handle->line_ids[0] = FS_register(handle, FS_STYLE_LINE, FS_CALC_CURRENT, buff);
	snprintf(buff, sizeof(buff), "tuple2stm_cnt");
	fs_handle->line_ids[1] = FS_register(handle, FS_STYLE_LINE, FS_CALC_CURRENT, buff);
	
	fs_handle->handle = handle;
	FS_start(handle);
	return fs_handle;

error_out:
	fs_destroy(fs_handle);
	return NULL;
}


extern "C" void kni_destroy(struct kni_handle *handle){
	if(handle != NULL){

	}
	FREE(&handle);
	handle = NULL;
}

//eliminate_type: 0:FIFO; 1:LRU
//ret: 1: the item can be eliminated; 0: the item can't be eliminated
static int traceid2pme_htable_expire_notify_cb(void *data, int eliminate_type){
	struct pme_info *pmeinfo = (struct pme_info*)data;
	int can_destroy;
	if(pmeinfo->sapp_release == 1){
		can_destroy = judge_stream_can_destroy(pmeinfo, CALLER_TFE);
		if(can_destroy == 1){
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_ID2PME_DEL_SUCC], 0, FS_OP_ADD, 1);
			FS_operate(g_kni_fs_handle->handle, g_kni_fs_handle->fields[KNI_FIELD_ID2PME_CNT], 0, FS_OP_ADD, -1);
			stream_destroy(pmeinfo, pmeinfo->do_log);
			return 1;
		}
	}
	return 0;
}

static void tuple2stream_htable_data_free_cb(void *data){
	FREE(&data);
}

int dup_traffic_dabloom_init(const char *profile, void *logger){
	const char *section = "dup_traffic";
	MESA_load_profile_int_def(profile, section, "switch", &(g_kni_handle->dup_traffic_switch), 0);
	KNI_LOG_ERROR(logger, "MESA_prof_load, [%s]:\n switch: %d", section, g_kni_handle->dup_traffic_switch);
	if(g_kni_handle->dup_traffic_switch == 1){	
		unsigned int capacity = 0;
		char error_rate_str[KNI_SYMBOL_MAX];
		double error_rate = 0.05;
		int expiry_time = 0;
		MESA_load_profile_int_def(profile, section, "action", &(g_kni_handle->dup_traffic_action), KNI_ACTION_BYPASS);
		MESA_load_profile_uint_def(profile, section, "capacity", &capacity, 1000000);
    	MESA_load_profile_string_def(profile, section, "error_rate", error_rate_str, sizeof(error_rate_str), "0.05");
    	MESA_load_profile_int_def(profile, section, "expiry_time", &expiry_time, 30);
		KNI_LOG_ERROR(logger, "MESA_prof_load, [%s]:\n action: %d\n capacity: %d\n error_rate: %s\n expiry_time: %d",
					section, g_kni_handle->dup_traffic_action, capacity, error_rate_str, expiry_time);
		error_rate = atof(error_rate_str);
		for(int i = 0; i < g_kni_handle->thread_count; i++){
			struct expiry_dablooms_handle* dabloom_handle = expiry_dablooms_init(capacity, error_rate, expiry_time);
			if(dabloom_handle == NULL){
				KNI_LOG_ERROR(logger, "Failed at expiry_dablooms_init, capacity = %d,"
							"error_rate = %lf, expire_time = %d", capacity, error_rate, expiry_time);
				return -1;
			}
			g_kni_handle->threads_handle[i].dabloom_handle = dabloom_handle;
		}
		return 0;
	}
	return 0;
}

/*
void my_handler(int s){
	printf("Caught signal %d\n",s);	
	exit(1);
}
int register_signal_handle(){
	struct sigaction sigIntHandler;
	sigIntHandler.sa_handler = my_handler;
	sigemptyset(&sigIntHandler.sa_mask);
	sigIntHandler.sa_flags = 0;
	sigaction(SIGINT, &sigIntHandler, NULL);
	return 0;
}
*/

extern "C" int kni_init(){
	//register_signal_handle();
	char *kni_git_verison = (char*)KNI_GIT_VERSION;
	const char *profile = "./etc/kni/kni.conf";
	const char *section = "global";

	//init logger
	char log_path[KNI_PATH_MAX] = "";
	int tfe_node_count = 1;
	char manage_eth[KNI_SYMBOL_MAX] = "";
	struct kni_send_logger *send_logger = NULL;
	struct kni_field_stat_handle *fs_handle = NULL;
	int id = -1;
	void *local_logger = NULL;
	int log_level = -1;
	pthread_t thread_id = -1;
	struct thread_tfe_cmsg_receiver_args *cmsg_receiver_args;
	MESA_htable_handle traceid2pme_htable = NULL;
	struct tfe_mgr *_tfe_mgr = NULL;
	int ret = MESA_load_profile_string_nodef(profile, section, "log_path", log_path, sizeof(log_path));
	if(ret < 0){
		printf("MESA_prof_load: log_path not set, profile = %s, section = %s", profile, section);
		goto error_out;
	}
	ret = MESA_load_profile_int_nodef(profile, section, "log_level", &log_level);
	if(ret < 0){
		printf("MESA_prof_load: log_level not set, profile = %s, section = %s", profile, section);
		goto error_out;
	}
	local_logger = MESA_create_runtime_log_handle(log_path, log_level);
	if (unlikely(local_logger == NULL)){
		printf("Failed at create logger: %s", log_path);
		goto error_out;
	}
	g_kni_handle = ALLOC(struct kni_handle, 1);
    g_kni_handle->local_logger = local_logger;

	//kni_git_log
	KNI_LOG_ERROR(local_logger, "----------kni version = %s-----------", kni_git_verison);

	char deploy_mode[KNI_SYMBOL_MAX];
	ret = MESA_load_profile_string_def(profile, section, "deploy_mode", deploy_mode, sizeof(deploy_mode), "normal");
	g_kni_handle->deploy_mode = KNI_DEPLOY_MODE_NORMAL;
	if(strcmp(deploy_mode, "tun") == 0){
		g_kni_handle->deploy_mode = KNI_DEPLOY_MODE_TUN;
	}
	if(g_kni_handle->deploy_mode == KNI_DEPLOY_MODE_NORMAL){
		ret = MESA_load_profile_int_nodef(profile, section, "tfe_node_count", &tfe_node_count);
		if(ret < 0){
			KNI_LOG_ERROR(local_logger, "MESA_prof_load: tfe_node_count not set, profile = %s, section = %s", profile, section);
			goto error_out;
		}
		if(tfe_node_count > TFE_COUNT_MAX){
			KNI_LOG_ERROR(local_logger, "tfe_node_count = %d, exceed the max_tfe_node_count %d", tfe_node_count, TFE_COUNT_MAX);
			goto error_out;
		}
		if(tfe_node_count <= 0){
			KNI_LOG_ERROR(local_logger, "tfe_node_count = %d, <= 0", tfe_node_count);
			goto error_out;
		}
	}
	ret = MESA_load_profile_string_nodef(profile, section, "manage_eth", manage_eth, sizeof(manage_eth));
	if(ret < 0){
		printf("MESA_prof_load: manage_eth not set, profile = %s, section = %s", profile, section);
		goto error_out;
	}
	char src_mac_addr_str[KNI_SYMBOL_MAX];
	char dst_mac_addr_str[KNI_SYMBOL_MAX];
	ret = MESA_load_profile_string_nodef(profile, section, "src_mac_addr", src_mac_addr_str, sizeof(src_mac_addr_str));
	if(ret < 0){
		KNI_LOG_ERROR(local_logger, "MESA_prof_load: src_mac_addr not set, profile = %s, section = %s", profile, section);
		goto error_out;
	}
	ret = MESA_load_profile_string_nodef(profile, section, "dst_mac_addr", dst_mac_addr_str, sizeof(dst_mac_addr_str));
	if(ret < 0){
		KNI_LOG_ERROR(local_logger, "MESA_prof_load: dst_mac_addr not set, profile = %s, section = %s", profile, section);
		goto error_out;
	}
	KNI_LOG_ERROR(local_logger, "MESA_prof_load, [%s]:\n log_path: %s\n log_level: %d\n tfe_node_count: %d\n manage_eth: %s\n deploy_mode: %s\n"
			"src_mac_addr: %s\n dst_mac_addr: %s", section, log_path, log_level, tfe_node_count, manage_eth, deploy_mode, src_mac_addr_str, dst_mac_addr_str);
	//ff:ee:dd:cc:bb:aa --->  0xff 0xee 0xdd 0xcc 0xbb 0xaa
	ret = sscanf(src_mac_addr_str, "%02hhx:%02hhx:%02hhx:%02hhx:%02hhx:%02hhx",
    		&(g_kni_handle->src_mac_addr[0]), &(g_kni_handle->src_mac_addr[1]),
    		&(g_kni_handle->src_mac_addr[2]), &(g_kni_handle->src_mac_addr[3]),
    		&(g_kni_handle->src_mac_addr[4]), &(g_kni_handle->src_mac_addr[5]));
	if(ret != 6){
		KNI_LOG_ERROR(local_logger, "MESA_prof_load: src_mac_addr = invalid, ret = %d, profile = %s, section = %s", ret, profile, section);
		goto error_out;
	}
	ret = sscanf(dst_mac_addr_str, "%02hhx:%02hhx:%02hhx:%02hhx:%02hhx:%02hhx",
    		&(g_kni_handle->dst_mac_addr[0]), &(g_kni_handle->dst_mac_addr[1]),
    		&(g_kni_handle->dst_mac_addr[2]), &(g_kni_handle->dst_mac_addr[3]),
    		&(g_kni_handle->dst_mac_addr[4]), &(g_kni_handle->dst_mac_addr[5]));
	if(ret != 6){
		KNI_LOG_ERROR(local_logger, "MESA_prof_load: dst_mac_addr = invalid, ret = %d, profile = %s, section = %s", ret, profile, section);
		goto error_out;
	}
	//init http_project
	id = http_project_init();
	if(id < 0){
		KNI_LOG_ERROR(local_logger, "Failed at init http project, ret = %d", id);
		goto error_out;
	}
	g_kni_handle->http_project_id = id;

	// get thread count
	g_kni_handle->thread_count = get_thread_count();
	if(g_kni_handle->thread_count <= 0){
		KNI_LOG_ERROR(local_logger, "Failed at get_thread_count, ret = %d");
		goto error_out;
	}

	//init marsio
	if(g_kni_handle->deploy_mode == KNI_DEPLOY_MODE_NORMAL){
		g_kni_handle->marsio_handle = kni_marsio_init(profile, tfe_node_count);
		if(g_kni_handle->marsio_handle == NULL){
			KNI_LOG_ERROR(local_logger, "Failed at init marsio");
			goto error_out;
		}
	}

	//init tun
	if(g_kni_handle->deploy_mode == KNI_DEPLOY_MODE_TUN){
		if(g_kni_handle->thread_count != 1){
			KNI_LOG_ERROR(local_logger, "Tun mode, thread count must be 1, while it's %d", g_kni_handle->thread_count);
			goto error_out;
		}
		char tun_name[KNI_SYMBOL_MAX];
		ret = MESA_load_profile_string_nodef(profile, section, "tun_name", tun_name, sizeof(tun_name));
		if(ret < 0){
			KNI_LOG_ERROR(local_logger, "MESA_prof_load: tun_name not set, profile = %s, section = %s", profile, section);
			goto error_out;
		}
		KNI_LOG_ERROR(local_logger, "MESA_prof_load, [%s]:\n tun_name: %s", section, tun_name);
		g_kni_handle->tun_handle = kni_tun_init(tun_name, KNI_TUN_MODE_NOBLOCK, local_logger);
		if(g_kni_handle->tun_handle == NULL){
			KNI_LOG_ERROR(local_logger, "Failed at init kni_tun");
			goto error_out;
		}
	}

	//init maat
	g_kni_handle->maat_handle = kni_maat_init(profile, local_logger, g_kni_handle->thread_count);
	if(g_kni_handle->maat_handle == NULL){
		KNI_LOG_ERROR(local_logger, "Failed at init maat");
		goto error_out;
	}

	//init_filedstat
	fs_handle = fs_init(profile);
	if(fs_handle == NULL){
		KNI_LOG_ERROR(local_logger, "Failed at init field_stat");
		goto error_out;
	}
    g_kni_fs_handle = fs_handle;

	//init local_ipv4
	ret = kni_ipv4_addr_get_by_eth(manage_eth, &(g_kni_handle->local_ipv4));
	if(ret < 0){
		KNI_LOG_ERROR(local_logger, "Failed at get bind ipv4 addr, eth = %s", manage_eth);
		goto error_out;
	}

	//init kni_send_logger
	send_logger = kni_send_logger_init(profile, local_logger);
	if(send_logger == NULL){
		KNI_LOG_ERROR(local_logger, "Failed at init kni_send_logger", manage_eth);
		goto error_out;
	}
	g_kni_handle->send_logger = send_logger;

	//init traceid2pme_htable
	struct kni_htable_opt opt;
	memset(&opt, 0, sizeof(opt));
	kni_get_htable_opt(&opt, profile, "traceid2pme_htable", NULL, (void*)traceid2pme_htable_expire_notify_cb, local_logger);
	traceid2pme_htable = kni_create_htable((char*)"traceid2pme_htable", &opt, local_logger);
	if(traceid2pme_htable == NULL){
		KNI_LOG_ERROR(local_logger, "Failed at create traceid2pme_htable");
		goto error_out;
	}
	g_kni_handle->traceid2pme_htable = traceid2pme_htable;

	//init tuple2stream_htable
	g_kni_handle->threads_handle = ALLOC(struct per_thread_handle, g_kni_handle->thread_count);
	memset(&opt, 0, sizeof(opt));
	kni_get_htable_opt(&opt, profile, "tuple2stream_htable", (void*)tuple2stream_htable_data_free_cb, NULL, local_logger);
	for(int i = 0; i < g_kni_handle->thread_count; i++){
		MESA_htable_handle tuple2stream_htable = kni_create_htable((char*)"tuple2stream_htable", &opt, local_logger);
		if(tuple2stream_htable == NULL){
			KNI_LOG_ERROR(local_logger, "Failed at kni_create_htable, table = tuple2stream_htable");
			goto error_out;
		}
		g_kni_handle->threads_handle[i].tuple2stream_htable = tuple2stream_htable;
 	}

	//init dabloom_handle
    ret = dup_traffic_dabloom_init(profile, local_logger);
	if(ret < 0){
		goto error_out;
	}

	//init tfe_mgr
	_tfe_mgr = tfe_mgr_init(tfe_node_count, profile, g_kni_handle->deploy_mode, local_logger);
	if(_tfe_mgr == NULL){
		KNI_LOG_ERROR(local_logger, "Failed at init tfe_mgr");
		goto error_out;
	}
	g_kni_handle->_tfe_mgr = _tfe_mgr;

	//create thread_tfe_cmsg_receiver
	cmsg_receiver_args = ALLOC(struct thread_tfe_cmsg_receiver_args, 1);
	cmsg_receiver_args->logger = local_logger;
	strncpy(cmsg_receiver_args->profile, profile, strnlen(profile, sizeof(cmsg_receiver_args->profile) - 1));
	ret = pthread_create(&thread_id, NULL, thread_tfe_cmsg_receiver, (void *)cmsg_receiver_args);
	if(unlikely(ret != 0)){
		KNI_LOG_ERROR(local_logger, "Failed at pthread_create, thread_func = thread_tfe_cmsg_receiver, errno = %d, errmsg = %s", errno, strerror(errno));
		FREE(&cmsg_receiver_args);
		goto error_out;
	}
	return 0;

error_out:
	kni_destroy(g_kni_handle);
	exit(0);
}