2024-01-26 14:13:54 +08:00
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#include "test_utils.h"
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static void overwrite_ipv4_saddr(struct packet *pkt, uint32_t saddr)
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{
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const struct layer_record *ipv4_layer = packet_get_innermost_layer(pkt, LAYER_TYPE_IPV4);
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EXPECT_TRUE(ipv4_layer);
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2024-02-21 14:34:34 +08:00
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struct ip *hdr = (struct ip *)ipv4_layer->hdr_ptr;
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ipv4_hdr_set_src_addr(hdr, saddr);
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2024-01-26 14:13:54 +08:00
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}
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#if 1
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TEST(OVERLOAD, EVICT_TCP_OLD_SESS)
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{
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struct tuple6 key;
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struct packet pkt;
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struct session *sess = NULL;
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struct session_manager *mgr = NULL;
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char buffer[1500] = {0};
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timestamp_update();
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2024-03-08 14:20:36 +08:00
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mgr = session_manager_new(&config);
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2024-01-26 14:13:54 +08:00
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EXPECT_TRUE(mgr != NULL);
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for (uint64_t i = 0; i < config.max_tcp_session_num; i++)
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{
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// C2S SYN Packet
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printf("\n====================== new session (%lu) ======================\n\n", i + 1);
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printf("=> packet parse: TCP C2S SYN packet\n");
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memcpy(buffer, tcp_pkt1_c2s_syn, sizeof(tcp_pkt1_c2s_syn));
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packet_parse(&pkt, (const char *)buffer, sizeof(tcp_pkt1_c2s_syn));
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overwrite_ipv4_saddr(&pkt, i + 1);
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printf("<= packet parse\n\n");
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sess = session_manager_update_session(mgr, &pkt);
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EXPECT_TRUE(sess);
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__session_dispatch(sess);
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session_manager_print_status(mgr);
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if (i == config.max_tcp_session_num - 1)
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{
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__session_manager_check_counter(mgr,
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i, 0, 1, // tcp_opening_sess_num, tcp_active_sess_num, tcp_closing_sess_num,
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0, 0, 0, // udp_opening_sess_num, udp_active_sess_num, udp_closing_sess_num,
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0, 1, // tcp_overload_evict_new_sess_num, tcp_overload_evict_old_sess_num,
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0, 0); // udp_overload_evict_new_sess_num, udp_overload_evict_old_sess_num,
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}
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else
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{
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__session_manager_check_counter(mgr,
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i + 1, 0, 0, // tcp_opening_sess_num, tcp_active_sess_num, tcp_closing_sess_num,
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0, 0, 0, // udp_opening_sess_num, udp_active_sess_num, udp_closing_sess_num,
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0, 0, // tcp_overload_evict_new_sess_num, tcp_overload_evict_old_sess_num,
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0, 0); // udp_overload_evict_new_sess_num, udp_overload_evict_old_sess_num,
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}
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}
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printf("\n====================== evicted session ======================\n\n");
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// evicted oldest session
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sess = session_manager_get_evicted_session(mgr);
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EXPECT_TRUE(sess);
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EXPECT_TRUE(session_get_state(sess) == SESSION_STATE_CLOSING);
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2024-03-08 13:33:49 +08:00
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EXPECT_TRUE(session_get_closing_reason(sess) == CLOSING_BY_EVICTED);
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2024-01-26 14:13:54 +08:00
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packet_parse(&pkt, (const char *)tcp_pkt1_c2s_syn, sizeof(tcp_pkt1_c2s_syn));
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overwrite_ipv4_saddr(&pkt, 1);
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memset(&key, 0, sizeof(struct tuple6));
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packet_get_innermost_tuple6(&pkt, &key);
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EXPECT_TRUE(tuple6_cmp(session_get0_key(sess), &key) == 0);
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__session_dispatch(sess);
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session_manager_print_status(mgr);
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printf("\n====================== expired session ======================\n\n");
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__session_manager_wait(mgr, CLOSING_BY_TIMEOUT);
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__session_manager_wait(mgr, CLOSING_BY_TIMEOUT);
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printf("\n====================== end status ======================\n\n");
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session_manager_print_status(mgr);
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__session_manager_check_counter(mgr,
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0, 0, 0, // tcp_opening_sess_num, tcp_active_sess_num, tcp_closing_sess_num,
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0, 0, 0, // udp_opening_sess_num, udp_active_sess_num, udp_closing_sess_num,
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0, 1, // tcp_overload_evict_new_sess_num, tcp_overload_evict_old_sess_num,
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0, 0); // udp_overload_evict_new_sess_num, udp_overload_evict_old_sess_num,
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2024-03-08 14:20:36 +08:00
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session_manager_free(mgr);
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2024-01-26 14:13:54 +08:00
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}
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#endif
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#if 1
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TEST(OVERLOAD, EVICT_TCP_NEW_SESS)
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{
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struct packet pkt;
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struct session *sess = NULL;
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struct session_manager *mgr = NULL;
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char buffer[1500] = {0};
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struct session_manager_config _config;
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memcpy(&_config, &config, sizeof(struct session_manager_config));
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_config.tcp_overload_evict_old_sess = 0;
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timestamp_update();
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2024-03-08 14:20:36 +08:00
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mgr = session_manager_new(&_config);
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2024-01-26 14:13:54 +08:00
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EXPECT_TRUE(mgr != NULL);
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for (uint64_t i = 0; i <= _config.max_tcp_session_num; i++)
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{
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// C2S SYN Packet
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printf("\n====================== new session (%lu) ======================\n\n", i + 1);
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printf("=> packet parse: TCP C2S SYN packet\n");
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memcpy(buffer, tcp_pkt1_c2s_syn, sizeof(tcp_pkt1_c2s_syn));
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packet_parse(&pkt, (const char *)buffer, sizeof(tcp_pkt1_c2s_syn));
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overwrite_ipv4_saddr(&pkt, i + 1);
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printf("<= packet parse\n\n");
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sess = session_manager_update_session(mgr, &pkt);
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if (i == _config.max_tcp_session_num)
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{
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EXPECT_TRUE(sess == NULL);
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__session_manager_check_counter(mgr,
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i, 0, 0, // tcp_opening_sess_num, tcp_active_sess_num, tcp_closing_sess_num,
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0, 0, 0, // udp_opening_sess_num, udp_active_sess_num, udp_closing_sess_num,
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1, 0, // tcp_overload_evict_new_sess_num, tcp_overload_evict_old_sess_num,
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0, 0); // udp_overload_evict_new_sess_num, udp_overload_evict_old_sess_num,
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}
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else
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{
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EXPECT_TRUE(sess);
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__session_manager_check_counter(mgr,
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i + 1, 0, 0, // tcp_opening_sess_num, tcp_active_sess_num, tcp_closing_sess_num,
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0, 0, 0, // udp_opening_sess_num, udp_active_sess_num, udp_closing_sess_num,
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0, 0, // tcp_overload_evict_new_sess_num, tcp_overload_evict_old_sess_num,
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0, 0); // udp_overload_evict_new_sess_num, udp_overload_evict_old_sess_num,
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}
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__session_dispatch(sess);
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session_manager_print_status(mgr);
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}
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printf("\n====================== expired session ======================\n\n");
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__session_manager_wait(mgr, CLOSING_BY_TIMEOUT);
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__session_manager_wait(mgr, CLOSING_BY_TIMEOUT);
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printf("\n====================== end status ======================\n\n");
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session_manager_print_status(mgr);
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__session_manager_check_counter(mgr,
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0, 0, 0, // tcp_opening_sess_num, tcp_active_sess_num, tcp_closing_sess_num,
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0, 0, 0, // udp_opening_sess_num, udp_active_sess_num, udp_closing_sess_num,
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1, 0, // tcp_overload_evict_new_sess_num, tcp_overload_evict_old_sess_num,
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0, 0); // udp_overload_evict_new_sess_num, udp_overload_evict_old_sess_num,
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2024-03-08 14:20:36 +08:00
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session_manager_free(mgr);
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2024-01-26 14:13:54 +08:00
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}
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#endif
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int main(int argc, char **argv)
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{
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::testing::InitGoogleTest(&argc, argv);
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return RUN_ALL_TESTS();
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}
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