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/*
Hanoh Haim
Ido Barnea
Cisco Systems, Inc.
*/
/*
Copyright (c) 2015-2016 Cisco Systems, Inc.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
#ifndef __STATEFUL_RX_CORE_H__
#define __STATEFUL_RX_CORE_H__
#include "bp_sim.h"
#include "flow_stat.h"
#include "utl_ip.h"
#define L_PKT_SUBMODE_NO_REPLY 1
#define L_PKT_SUBMODE_REPLY 2
#define L_PKT_SUBMODE_0_SEQ 3
class TrexWatchDog;
class CLatencyPktInfo {
public:
void Create(class CLatencyPktMode *m_l_pkt_info);
void Delete();
void set_ip(uint32_t src,
uint32_t dst,
uint32_t dual_port_mask);
rte_mbuf_t * generate_pkt(int port_id,uint32_t extern_ip=0);
CGenNode * getNode(){
return (&m_dummy_node);
}
uint16_t get_payload_offset(void){
return ( m_pkt_indication.getFastPayloadOffset());
}
uint16_t get_l4_offset(void){
return ( m_pkt_indication.getFastTcpOffset());
}
uint16_t get_pkt_size(void){
return ( m_packet->pkt_len );
}
private:
ipaddr_t m_client_ip;
ipaddr_t m_server_ip;
uint32_t m_dual_port_mask;
CGenNode m_dummy_node;
CFlowPktInfo m_pkt_info;
CPacketIndication m_pkt_indication;
CCapPktRaw * m_packet;
};
#define LATENCY_MAGIC 0x12345600
struct latency_header {
uint64_t time_stamp;
uint32_t magic;
uint32_t seq;
uint8_t get_id(){
return( magic & 0xff);
}
};
class CLatencyManager ;
// per port
class CCPortLatency {
public:
bool Create(CLatencyManager * parent,
uint8_t id,
uint16_t offset,
uint16_t l4_offset,
uint16_t pkt_size,
CCPortLatency * rx_port
);
void Delete();
void reset();
bool can_send_packet(int direction){
// in icmp_reply mode, can send response from server, only after we got the relevant request
// if we got request, we are sure to have NAT translation in place already.
if ((CGlobalInfo::m_options.m_l_pkt_mode == L_PKT_SUBMODE_REPLY) && (direction == 1)) {
if (m_icmp_tx_seq <= m_icmp_rx_seq)
return(true);
else
return(false);
}
if ( !CGlobalInfo::is_learn_mode() ) {
return(true);
}
return ( m_nat_can_send );
}
uint32_t external_nat_ip(){
return (m_nat_external_ip);
}
void update_packet(rte_mbuf_t * m, int port_id);
bool do_learn(uint32_t external_ip);
bool check_packet(rte_mbuf_t * m, CRx_check_header * & rx_p);
bool check_rx_check(rte_mbuf_t * m);
bool dump_packet(rte_mbuf_t * m);
void DumpCounters(FILE *fd);
void dump_counters_json(std::string & json );
void DumpShort(FILE *fd);
void dump_json(std::string & json );
void dump_json_v2(std::string & json );
uint32_t get_jitter_usec(void){
return ((uint32_t)(m_jitter.get_jitter()*1000000.0));
}
static void DumpShortHeader(FILE *fd);
bool is_any_err(){
if ( (m_tx_pkt_ok == m_rx_port->m_pkt_ok ) &&
((m_unsup_prot+
m_no_magic+
m_no_id+
m_seq_error+
m_length_error+m_no_ipv4_option+m_tx_pkt_err)==0) ) {
return (false);
}
return (true);
}
uint16_t get_icmp_tx_seq() {return m_icmp_tx_seq;}
uint16_t get_icmp_rx_seq() {return m_icmp_rx_seq;}
// Check if packet contains latency data
static inline bool IsLatencyPkt(uint8_t *p) {
if (! p)
return false;
latency_header * h=(latency_header *)(p);
if ( (h->magic & 0xffffff00) != LATENCY_MAGIC ){
return false;
}
return true;
}
private:
std::string get_field(std::string name,float f);
private:
CLatencyManager * m_parent;
CCPortLatency * m_rx_port; /* corespond rx port */
bool m_nat_learn;
bool m_nat_can_send;
uint32_t m_nat_external_ip;
uint32_t m_tx_seq;
uint32_t m_rx_seq;
uint8_t m_pad;
uint8_t m_id;
uint16_t m_payload_offset;
uint16_t m_l4_offset;
uint16_t m_pkt_size;
// following two variables are for the latency ICMP reply mode.
// if we want to pass through firewall, we want to send reply only after we got request with same seq num
// ICMP seq num of next packet we will transmit
uint16_t m_icmp_tx_seq;
// ICMP seq num of last request we got
uint16_t m_icmp_rx_seq;
uint16_t pad1[1];
public:
uint64_t m_tx_pkt_ok;
uint64_t m_tx_pkt_err;
uint64_t m_pkt_ok;
uint64_t m_unsup_prot;
uint64_t m_no_magic;
uint64_t m_no_id;
uint64_t m_seq_error;
uint64_t m_rx_check;
uint64_t m_no_ipv4_option;
uint64_t m_length_error;
CRXCoreIgnoreStat m_ign_stats;
CRXCoreIgnoreStat m_ign_stats_prev;
CTimeHistogram m_hist; /* all window */
CJitter m_jitter;
};
class CPortLatencyHWBase {
public:
/**
* sends a packet
*
*/
virtual int tx(rte_mbuf_t *m) = 0;
/**
* sends a latency packet
* if needed, timestamp will be updated
*
*/
virtual int tx_latency(rte_mbuf_t *m) = 0;
virtual rte_mbuf_t * rx() = 0;
virtual uint16_t rx_burst(struct rte_mbuf **rx_pkts, uint16_t nb_pkts) = 0;
};
class CLatencyManagerCfg {
public:
CLatencyManagerCfg (){
m_max_ports=0;
m_cps=0.0;
memset(m_ports, 0, sizeof(m_ports));
m_client_ip.v4=0x10000000;
m_server_ip.v4=0x20000000;
m_dual_port_mask=0x01000000;
}
public:
uint32_t m_max_ports;
double m_cps;// CPS
CPortLatencyHWBase * m_ports[TREX_MAX_PORTS];
ipaddr_t m_client_ip;
ipaddr_t m_server_ip;
uint32_t m_dual_port_mask;
};
class CLatencyManagerPerPort {
public:
CCPortLatency m_port;
CPortLatencyHWBase * m_io;
uint32_t m_flag;
};
class CLatencyPktMode {
public:
uint8_t m_submode;
CLatencyPktMode(uint8_t submode) {m_submode = submode;}
virtual uint8_t getPacketLen() = 0;
virtual const uint8_t *getPacketData() = 0;
virtual void rcv_debug_print(uint8_t *pkt) = 0;
virtual void send_debug_print(uint8_t *pkt) = 0;
virtual void update_pkt(uint8_t *pkt, bool is_client_to_server, uint16_t l4_len, uint16_t *tx_seq) = 0;
virtual bool IsLatencyPkt(IPHeader *ip) = 0;
uint8_t l4_header_len() {return 8;}
virtual void update_recv(uint8_t *pkt, uint16_t *r_seq, uint16_t *t_seq) = 0;
virtual uint8_t getProtocol() = 0;
virtual ~CLatencyPktMode() {}
};
class CLatencyPktModeICMP: public CLatencyPktMode {
public:
CLatencyPktModeICMP(uint8_t submode) : CLatencyPktMode(submode) {}
uint8_t getPacketLen();
const uint8_t *getPacketData();
void rcv_debug_print(uint8_t *);
void send_debug_print(uint8_t *);
void update_pkt(uint8_t *pkt, bool is_client_to_server, uint16_t l4_len, uint16_t *tx_seq);
bool IsLatencyPkt(IPHeader *ip);
void update_recv(uint8_t *pkt, uint16_t *r_seq, uint16_t *t_seq);
uint8_t getProtocol() {return 0x1;}
};
class CLatencyPktModeSCTP: public CLatencyPktMode {
public:
CLatencyPktModeSCTP(uint8_t submode) : CLatencyPktMode(submode) {}
uint8_t getPacketLen();
const uint8_t *getPacketData();
void rcv_debug_print(uint8_t *);
void send_debug_print(uint8_t *);
void update_pkt(uint8_t *pkt, bool is_client_to_server, uint16_t l4_len, uint16_t *tx_seq);
bool IsLatencyPkt(IPHeader *ip);
void update_recv(uint8_t *pkt, uint16_t *r_seq, uint16_t *t_seq);
uint8_t getProtocol() {return 0x84;}
};
class CLatencyManager {
public:
bool Create(CLatencyManagerCfg * cfg);
void Delete();
void reset();
void start(int iter, bool activate_watchdog);
void stop();
bool is_active();
void set_ip(uint32_t client_ip,
uint32_t server_ip,
uint32_t mask_dual_port){
m_pkt_gen.set_ip(client_ip,server_ip,mask_dual_port);
}
void Dump(FILE *fd); // dump all
void DumpShort(FILE *fd); // dump short histogram of latency
void DumpRxCheck(FILE *fd); // dump all
void DumpShortRxCheck(FILE *fd); // dump short histogram of latency
void dump_nat_flow_table(FILE *fd);
void rx_check_dump_json(std::string & json);
uint16_t get_latency_header_offset(){
return ( m_pkt_gen.get_payload_offset() );
}
void update();
void update_fast();
void dump_json(std::string & json ); // dump to json
void dump_json_v2(std::string & json );
void DumpRxCheckVerification(FILE *fd,uint64_t total_tx_rx_check);
void set_mask(uint32_t mask){
m_port_mask=mask;
}
void get_ignore_stats(int port_id, CRXCoreIgnoreStat &stat, bool get_diff);
double get_max_latency(void);
double get_avr_latency(void);
bool is_any_error();
uint64_t get_total_pkt();
uint64_t get_total_bytes();
CNatRxManager * get_nat_manager(){
return ( &m_nat_check_manager );
}
CLatencyPktMode *c_l_pkt_mode;
void add_grat_arp_src(COneIPv4Info &ip);
private:
void tickle();
void send_pkt_all_ports();
double grat_arp_timeout();
void send_one_grat_arp();
void try_rx();
void wait_for_rx_dump();
void handle_rx_pkt(CLatencyManagerPerPort * lp, rte_mbuf_t * m);
private:
pqueue_t m_p_queue; /* priorty queue */
bool m_is_active;
CLatencyPktInfo m_pkt_gen;
CLatencyManagerPerPort m_ports[TREX_MAX_PORTS];
double m_cps;
double m_delta_sec;
uint64_t m_start_time; // calc tick betwen sending
uint32_t m_port_mask;
uint32_t m_max_ports;
RxCheckManager m_rx_check_manager;
CNatRxManager m_nat_check_manager;
CCpuUtlDp m_cpu_dp_u;
CCpuUtlCp m_cpu_cp_u;
TrexMonitor m_monitor;
CManyIPInfo m_arp_info; // for grat ARP
volatile bool m_do_stop __rte_cache_aligned ;
};
#endif
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