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stellar-stellar/src/session/test/gtest_overload_evict_udp_sess.cpp

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Refactor the session manager using session transformation 2D array & Update test case
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#include <gtest/gtest.h>
Export tuple.h / packet.h / session.h to the include directory
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#include "session_private.h"
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#include "session_manager.h"
#include "stellar.h"
#include "ipv4_utils.h"
#include "test_packets.h"
struct session_manager_options opts = {
// max session number
.max_tcp_session_num = RX_BURST_MAX * 2,
.max_udp_session_num = RX_BURST_MAX * 2,
// session overload
.tcp_overload_evict_old_sess = 1, // 1: evict old session, 0: bypass new session
.udp_overload_evict_old_sess = 1, // 1: evict old session, 0: bypass new session
// tcp timeout
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.tcp_init_timeout = 1,
.tcp_handshake_timeout = 2,
.tcp_data_timeout = 3,
.tcp_half_closed_timeout = 4,
.tcp_time_wait_timeout = 5,
.tcp_discard_timeout = 6,
.tcp_unverified_rst_timeout = 7,
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// udp timeout
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.udp_data_timeout = 8,
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// duplicate packet filter
.duplicated_packet_filter_enable = 1,
.duplicated_packet_filter_capacity = 1000,
.duplicated_packet_filter_timeout = 10,
.duplicated_packet_filter_error_rate = 0.0001,
// evicted session filter
.evicted_session_filter_enable = 1,
.evicted_session_filter_capacity = 1000,
.evicted_session_filter_timeout = 10,
.evicted_session_filter_error_rate = 0.0001,
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// TCP Reassembly
.tcp_reassembly_enable = 1,
.tcp_reassembly_max_timeout = 60000,
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.tcp_reassembly_max_segments = 16,
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};
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static void packet_set_ip_src_addr(struct packet *pkt, uint32_t addr)
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{
Export tuple.h / packet.h / session.h to the include directory
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const struct packet_layer *ipv4_layer = packet_get_innermost_layer(pkt, LAYER_TYPE_IPV4);
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EXPECT_TRUE(ipv4_layer);
update IPv4 utils
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struct ip *hdr = (struct ip *)ipv4_layer->hdr_ptr;
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ipv4_hdr_set_src_addr(hdr, addr);
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}
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#if 1
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TEST(UDP_OVERLOAD, EVICT_OLD_SESS)
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{
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struct packet pkt;
struct session *sess = NULL;
struct session_manager *mgr = NULL;
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struct session_manager_stat *stat = NULL;
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mgr = session_manager_new(&opts, 1);
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EXPECT_TRUE(mgr != NULL);
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// C2S REQ Packet
printf("\n=> Packet Parse: UDP C2S REQ packet\n");
packet_parse(&pkt, (const char *)udp_pkt1_dns_req, sizeof(udp_pkt1_dns_req));
printf("<= Packet Parse: done\n\n");
// new session
for (uint32_t i = 0; i < opts.max_udp_session_num; i++)
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{
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packet_set_ip_src_addr(&pkt, i);
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EXPECT_TRUE(session_manager_new_session(mgr, &pkt, 1));
}
printf("=> Session Manager: after add %lu new sessions\n", opts.max_udp_session_num);
session_manager_print_stat(mgr);
stat = session_manager_get_stat(mgr);
EXPECT_TRUE(stat);
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EXPECT_TRUE(stat->nr_udp_sess_used == opts.max_udp_session_num);
EXPECT_TRUE(stat->nr_udp_sess_opening == RX_BURST_MAX);
EXPECT_TRUE(stat->nr_udp_sess_active == 0);
EXPECT_TRUE(stat->nr_udp_sess_closing == 0);
EXPECT_TRUE(stat->nr_udp_sess_closed == RX_BURST_MAX); // have evicted, have't free
EXPECT_TRUE(stat->nr_udp_sess_evicted == RX_BURST_MAX);
EXPECT_TRUE(stat->nr_udp_pkts_bypass_no_space == 0);
EXPECT_TRUE(stat->nr_udp_pkts_bypass_hit_evc == 0);
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// evicted session
while (1)
{
sess = session_manager_get_evicted_session(mgr);
if (sess)
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{
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session_manager_free_session(mgr, sess);
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}
else
{
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break;
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}
}
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for (uint32_t i = 0; i < RX_BURST_MAX; i++)
{
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packet_set_ip_src_addr(&pkt, i);
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EXPECT_TRUE(session_manager_lookup_session(mgr, &pkt) == NULL);
EXPECT_TRUE(session_manager_new_session(mgr, &pkt, 1) == NULL); // hit evicted session, can't renew session
}
printf("=> Session Manager: after readd %d evicted sessions\n", RX_BURST_MAX);
rename counter -> stat
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session_manager_print_stat(mgr);
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stat = session_manager_get_stat(mgr);
EXPECT_TRUE(stat);
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EXPECT_TRUE(stat->nr_udp_sess_used == RX_BURST_MAX);
EXPECT_TRUE(stat->nr_udp_sess_opening == RX_BURST_MAX);
EXPECT_TRUE(stat->nr_udp_sess_active == 0);
EXPECT_TRUE(stat->nr_udp_sess_closing == 0);
EXPECT_TRUE(stat->nr_udp_sess_closed == 0);
EXPECT_TRUE(stat->nr_udp_sess_evicted == RX_BURST_MAX);
EXPECT_TRUE(stat->nr_udp_pkts_bypass_no_space == 0);
EXPECT_TRUE(stat->nr_udp_pkts_bypass_hit_evc == RX_BURST_MAX);
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// evicted session timeout
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packet_set_ip_src_addr(&pkt, 0);
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EXPECT_TRUE(session_manager_lookup_session(mgr, &pkt) == NULL);
EXPECT_TRUE(session_manager_new_session(mgr, &pkt, 1 + opts.evicted_session_filter_timeout));
printf("=> Session Manager: after evicted session timeout\n");
rename counter -> stat
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session_manager_print_stat(mgr);
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stat = session_manager_get_stat(mgr);
EXPECT_TRUE(stat);
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EXPECT_TRUE(stat->nr_udp_sess_used == RX_BURST_MAX + 1);
EXPECT_TRUE(stat->nr_udp_sess_opening == RX_BURST_MAX);
EXPECT_TRUE(stat->nr_udp_sess_active == 0);
EXPECT_TRUE(stat->nr_udp_sess_closing == 0);
EXPECT_TRUE(stat->nr_udp_sess_closed == 1); // have evicted, have't free
EXPECT_TRUE(stat->nr_udp_sess_evicted == RX_BURST_MAX + 1);
EXPECT_TRUE(stat->nr_udp_pkts_bypass_no_space == 0);
EXPECT_TRUE(stat->nr_udp_pkts_bypass_hit_evc == RX_BURST_MAX);
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rename xxx_create() / xxx_destory() -> xxx_new() / xxx_free()
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session_manager_free(mgr);
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}
#endif
#if 1
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TEST(UDP_OVERLOAD, EVICT_NEW_SESS)
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{
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struct packet pkt;
struct session_manager *mgr = NULL;
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struct session_manager_stat *stat = NULL;
rename config -> options
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struct session_manager_options _opts;
memcpy(&_opts, &opts, sizeof(struct session_manager_options));
_opts.udp_overload_evict_old_sess = 0;
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mgr = session_manager_new(&_opts, 1);
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EXPECT_TRUE(mgr != NULL);
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// C2S REQ Packet
printf("\n=> Packet Parse: UDP C2S REQ packet\n");
packet_parse(&pkt, (const char *)udp_pkt1_dns_req, sizeof(udp_pkt1_dns_req));
printf("<= Packet Parse: done\n\n");
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// new session
for (uint32_t i = 0; i < opts.max_udp_session_num; i++)
{
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packet_set_ip_src_addr(&pkt, i);
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EXPECT_TRUE(session_manager_new_session(mgr, &pkt, 1));
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}
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printf("=> Session Manager: after add %lu new sessions\n", opts.max_udp_session_num);
rename counter -> stat
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session_manager_print_stat(mgr);
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stat = session_manager_get_stat(mgr);
EXPECT_TRUE(stat);
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EXPECT_TRUE(stat->nr_udp_sess_used == opts.max_udp_session_num);
EXPECT_TRUE(stat->nr_udp_sess_opening == opts.max_udp_session_num);
EXPECT_TRUE(stat->nr_udp_sess_active == 0);
EXPECT_TRUE(stat->nr_udp_sess_closing == 0);
EXPECT_TRUE(stat->nr_udp_sess_closed == 0);
EXPECT_TRUE(stat->nr_udp_sess_evicted == 0);
EXPECT_TRUE(stat->nr_udp_pkts_bypass_no_space == 0);
EXPECT_TRUE(stat->nr_udp_pkts_bypass_hit_evc == 0);
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// evicted session
EXPECT_TRUE(session_manager_get_evicted_session(mgr) == NULL);
// table full, evict new session
for (uint32_t i = 0; i < RX_BURST_MAX; i++)
{
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packet_set_ip_src_addr(&pkt, opts.max_udp_session_num + i);
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EXPECT_TRUE(session_manager_lookup_session(mgr, &pkt) == NULL);
EXPECT_TRUE(session_manager_new_session(mgr, &pkt, 1) == NULL);
}
printf("=> Session Manager: after readd %d evicted session\n", RX_BURST_MAX);
session_manager_print_stat(mgr);
stat = session_manager_get_stat(mgr);
EXPECT_TRUE(stat);
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EXPECT_TRUE(stat->nr_udp_sess_used == opts.max_udp_session_num);
EXPECT_TRUE(stat->nr_udp_sess_opening == opts.max_udp_session_num);
EXPECT_TRUE(stat->nr_udp_sess_active == 0);
EXPECT_TRUE(stat->nr_udp_sess_closing == 0);
EXPECT_TRUE(stat->nr_udp_sess_closed == 0);
EXPECT_TRUE(stat->nr_udp_sess_evicted == 0);
EXPECT_TRUE(stat->nr_udp_pkts_bypass_no_space == RX_BURST_MAX);
EXPECT_TRUE(stat->nr_udp_pkts_bypass_hit_evc == 0);
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rename xxx_create() / xxx_destory() -> xxx_new() / xxx_free()
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session_manager_free(mgr);
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}
#endif
int main(int argc, char **argv)
{
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
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