gfwleak/tango-tsg-service-chaining-engine
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tango-tsg-service-chaining-…/common/test/gtest_session_table.cpp

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#include <gtest/gtest.h>
#include <arpa/inet.h>
#include "session_table.h"
TEST(STREAM_TABLE, INSERT)
{
// TEST Create
struct session_table *table = session_table_create();
EXPECT_TRUE(table != nullptr);
char *val_hello = strdup("HELLO");
char *val_world = strdup("WORLD");
struct four_tuple addr1;
SET_HUMAN_READABLE_IPV4_TUPLE(&addr1, "1.2.3.4", 1234, "4.3.2.1", 4321);
struct four_tuple addr2;
SET_HUMAN_READABLE_IPV6_TUPLE(&addr2, "2:3:4::5", 2345, "5:4:3::2", 5342);
// TEST Insert
EXPECT_TRUE(session_table_insert(table, 1, &addr1, val_hello, free) == 0);
EXPECT_TRUE(session_table_insert(table, 1, &addr1, val_hello, free) == -1);
EXPECT_TRUE(session_table_count(table) == 1);
EXPECT_TRUE(session_table_insert(table, 2, &addr2, val_world, free) == 0);
EXPECT_TRUE(session_table_insert(table, 2, &addr2, val_world, free) == -1);
EXPECT_TRUE(session_table_count(table) == 2);
// TEST Destory
session_table_destory(table);
}
TEST(STREAM_TABLE, SEARCH_BY_ID)
{
// TEST Create
struct session_table *table = session_table_create();
EXPECT_TRUE(table != nullptr);
char *val_hello = strdup("HELLO");
char *val_world = strdup("WORLD");
struct four_tuple addr1;
SET_HUMAN_READABLE_IPV4_TUPLE(&addr1, "1.2.3.4", 1234, "4.3.2.1", 4321);
struct four_tuple addr2;
SET_HUMAN_READABLE_IPV6_TUPLE(&addr2, "2:3:4::5", 2345, "5:4:3::2", 5342);
struct four_tuple addr3;
SET_HUMAN_READABLE_IPV4_TUPLE(&addr3, "1.1.1.1", 1111, "2.2.2.2", 2222);
// TEST Insert
EXPECT_TRUE(session_table_insert(table, 1, &addr1, val_hello, free) == 0);
EXPECT_TRUE(session_table_insert(table, 2, &addr2, val_world, free) == 0);
EXPECT_TRUE(session_table_count(table) == 2);
// TEST Search By Session ID
char *val = NULL;
val = (char *)session_table_search_by_id(table, 1);
EXPECT_TRUE(val != nullptr);
EXPECT_STREQ((const char *)val, "HELLO");
val = (char *)session_table_search_by_id(table, 2);
EXPECT_TRUE(val != nullptr);
EXPECT_STREQ((const char *)val, "WORLD");
val = (char *)session_table_search_by_id(table, 3);
EXPECT_TRUE(val == nullptr);
// TEST Destory
session_table_destory(table);
}
TEST(STREAM_TABLE, SEARCH_BY_ADDR)
{
// TEST Create
struct session_table *table = session_table_create();
EXPECT_TRUE(table != nullptr);
char *val_hello = strdup("HELLO");
char *val_world = strdup("WORLD");
struct four_tuple addr1;
SET_HUMAN_READABLE_IPV4_TUPLE(&addr1, "1.2.3.4", 1234, "4.3.2.1", 4321);
struct four_tuple addr2;
SET_HUMAN_READABLE_IPV6_TUPLE(&addr2, "2:3:4::5", 2345, "5:4:3::2", 5342);
struct four_tuple addr3;
SET_HUMAN_READABLE_IPV4_TUPLE(&addr3, "1.1.1.1", 1111, "2.2.2.2", 2222);
// TEST Insert
EXPECT_TRUE(session_table_insert(table, 1, &addr1, val_hello, free) == 0);
EXPECT_TRUE(session_table_insert(table, 2, &addr2, val_world, free) == 0);
EXPECT_TRUE(session_table_count(table) == 2);
// TEST Search By Session Addr
char *val = NULL;
val = (char *)session_table_search_by_addr(table, &addr1);
EXPECT_TRUE(val != nullptr);
EXPECT_STREQ((const char *)val, "HELLO");
val = (char *)session_table_search_by_addr(table, &addr2);
EXPECT_TRUE(val != nullptr);
EXPECT_STREQ((const char *)val, "WORLD");
val = (char *)session_table_search_by_addr(table, &addr3);
EXPECT_TRUE(val == nullptr);
// TEST Destory
session_table_destory(table);
}
TEST(STREAM_TABLE, SEARCH_BY_REVERSE_ADDR)
{
// TEST Create
struct session_table *table = session_table_create();
EXPECT_TRUE(table != nullptr);
char *val_hello = strdup("HELLO");
char *val_world = strdup("WORLD");
struct four_tuple addr1;
SET_HUMAN_READABLE_IPV4_TUPLE(&addr1, "1.2.3.4", 1234, "4.3.2.1", 4321);
struct four_tuple addr2;
SET_HUMAN_READABLE_IPV6_TUPLE(&addr2, "2:3:4::5", 2345, "5:4:3::2", 5342);
struct four_tuple addr1_reverse;
struct four_tuple addr2_reverse;
four_tuple_reverse(&addr1, &addr1_reverse);
four_tuple_reverse(&addr2, &addr2_reverse);
// TEST Insert
EXPECT_TRUE(session_table_insert(table, 1, &addr1, val_hello, free) == 0);
EXPECT_TRUE(session_table_insert(table, 2, &addr2, val_world, free) == 0);
EXPECT_TRUE(session_table_count(table) == 2);
// TEST Search By Session Reverse Addr
char *val = NULL;
val = (char *)session_table_search_by_addr(table, &addr1_reverse);
EXPECT_TRUE(val != nullptr);
EXPECT_STREQ((const char *)val, "HELLO");
val = (char *)session_table_search_by_addr(table, &addr2_reverse);
EXPECT_TRUE(val != nullptr);
EXPECT_STREQ((const char *)val, "WORLD");
// TEST Destory
session_table_destory(table);
}
TEST(STREAM_TABLE, DELETE_BY_ID)
{
// TEST Create
struct session_table *table = session_table_create();
EXPECT_TRUE(table != nullptr);
char *val_hello = strdup("HELLO");
char *val_world = strdup("WORLD");
struct four_tuple addr1;
SET_HUMAN_READABLE_IPV4_TUPLE(&addr1, "1.2.3.4", 1234, "4.3.2.1", 4321);
struct four_tuple addr2;
SET_HUMAN_READABLE_IPV6_TUPLE(&addr2, "2:3:4::5", 2345, "5:4:3::2", 5342);
struct four_tuple addr1_reverse;
struct four_tuple addr2_reverse;
four_tuple_reverse(&addr1, &addr1_reverse);
four_tuple_reverse(&addr2, &addr2_reverse);
// TEST Insert
EXPECT_TRUE(session_table_insert(table, 1, &addr1, val_hello, free) == 0);
EXPECT_TRUE(session_table_insert(table, 2, &addr2, val_world, free) == 0);
EXPECT_TRUE(session_table_count(table) == 2);
// TEST Delete By Session ID
EXPECT_TRUE(session_table_delete_by_id(table, 1) == 0);
EXPECT_TRUE(session_table_search_by_id(table, 1) == NULL);
EXPECT_TRUE(session_table_search_by_addr(table, &addr1) == NULL);
EXPECT_TRUE(session_table_search_by_addr(table, &addr1_reverse) == NULL);
EXPECT_TRUE(session_table_count(table) == 1);
EXPECT_TRUE(session_table_delete_by_id(table, 2) == 0);
EXPECT_TRUE(session_table_search_by_id(table, 2) == NULL);
EXPECT_TRUE(session_table_search_by_addr(table, &addr2) == NULL);
EXPECT_TRUE(session_table_search_by_addr(table, &addr2_reverse) == NULL);
EXPECT_TRUE(session_table_count(table) == 0);
// TEST Destory
session_table_destory(table);
}
TEST(STREAM_TABLE, DELETE_BY_ADDR)
{
// TEST Create
struct session_table *table = session_table_create();
EXPECT_TRUE(table != nullptr);
char *val_hello = strdup("HELLO");
char *val_world = strdup("WORLD");
struct four_tuple addr1;
SET_HUMAN_READABLE_IPV4_TUPLE(&addr1, "1.2.3.4", 1234, "4.3.2.1", 4321);
struct four_tuple addr2;
SET_HUMAN_READABLE_IPV6_TUPLE(&addr2, "2:3:4::5", 2345, "5:4:3::2", 5342);
struct four_tuple addr1_reverse;
struct four_tuple addr2_reverse;
four_tuple_reverse(&addr1, &addr1_reverse);
four_tuple_reverse(&addr2, &addr2_reverse);
// TEST Insert
EXPECT_TRUE(session_table_insert(table, 1, &addr1, val_hello, free) == 0);
EXPECT_TRUE(session_table_insert(table, 2, &addr2, val_world, free) == 0);
EXPECT_TRUE(session_table_count(table) == 2);
// TEST Delete By Session Addr
EXPECT_TRUE(session_table_delete_by_addr(table, &addr1) == 0);
EXPECT_TRUE(session_table_search_by_id(table, 1) == NULL);
EXPECT_TRUE(session_table_search_by_addr(table, &addr1) == NULL);
EXPECT_TRUE(session_table_search_by_addr(table, &addr1_reverse) == NULL);
EXPECT_TRUE(session_table_count(table) == 1);
EXPECT_TRUE(session_table_delete_by_addr(table, &addr2) == 0);
EXPECT_TRUE(session_table_search_by_id(table, 2) == NULL);
EXPECT_TRUE(session_table_search_by_addr(table, &addr2) == NULL);
EXPECT_TRUE(session_table_search_by_addr(table, &addr2_reverse) == NULL);
EXPECT_TRUE(session_table_count(table) == 0);
// TEST Destory
session_table_destory(table);
}
TEST(STREAM_TABLE, DELETE_BY_REVERSE_ADDR)
{
// TEST Create
struct session_table *table = session_table_create();
EXPECT_TRUE(table != nullptr);
char *val_hello = strdup("HELLO");
char *val_world = strdup("WORLD");
struct four_tuple addr1;
SET_HUMAN_READABLE_IPV4_TUPLE(&addr1, "1.2.3.4", 1234, "4.3.2.1", 4321);
struct four_tuple addr2;
SET_HUMAN_READABLE_IPV6_TUPLE(&addr2, "2:3:4::5", 2345, "5:4:3::2", 5342);
struct four_tuple addr1_reverse;
struct four_tuple addr2_reverse;
four_tuple_reverse(&addr1, &addr1_reverse);
four_tuple_reverse(&addr2, &addr2_reverse);
// TEST Insert
EXPECT_TRUE(session_table_insert(table, 1, &addr1, val_hello, free) == 0);
EXPECT_TRUE(session_table_insert(table, 2, &addr2, val_world, free) == 0);
EXPECT_TRUE(session_table_count(table) == 2);
// TEST Delete By Session Reverse Addr
EXPECT_TRUE(session_table_delete_by_addr(table, &addr1_reverse) == 0);
EXPECT_TRUE(session_table_search_by_id(table, 1) == NULL);
EXPECT_TRUE(session_table_search_by_addr(table, &addr1) == NULL);
EXPECT_TRUE(session_table_search_by_addr(table, &addr1_reverse) == NULL);
EXPECT_TRUE(session_table_count(table) == 1);
EXPECT_TRUE(session_table_delete_by_addr(table, &addr2_reverse) == 0);
EXPECT_TRUE(session_table_search_by_id(table, 2) == NULL);
EXPECT_TRUE(session_table_search_by_addr(table, &addr2) == NULL);
EXPECT_TRUE(session_table_search_by_addr(table, &addr2_reverse) == NULL);
EXPECT_TRUE(session_table_count(table) == 0);
// TEST Destory
session_table_destory(table);
}
TEST(STREAM_TABLE, RESET)
{
// TEST Create
struct session_table *table = session_table_create();
EXPECT_TRUE(table != nullptr);
char *val_hello = strdup("HELLO");
char *val_world = strdup("WORLD");
struct four_tuple addr1;
SET_HUMAN_READABLE_IPV4_TUPLE(&addr1, "1.2.3.4", 1234, "4.3.2.1", 4321);
struct four_tuple addr2;
SET_HUMAN_READABLE_IPV6_TUPLE(&addr2, "2:3:4::5", 2345, "5:4:3::2", 5342);
// TEST Insert
EXPECT_TRUE(session_table_insert(table, 1, &addr1, val_hello, free) == 0);
EXPECT_TRUE(session_table_insert(table, 1, &addr1, val_hello, free) == -1);
EXPECT_TRUE(session_table_count(table) == 1);
// TEST Reset
session_table_reset(table);
EXPECT_TRUE(session_table_search_by_id(table, 1) == nullptr);
EXPECT_TRUE(session_table_search_by_addr(table, &addr1) == nullptr);
EXPECT_TRUE(session_table_count(table) == 0);
EXPECT_TRUE(session_table_insert(table, 2, &addr2, val_world, free) == 0);
EXPECT_TRUE(session_table_insert(table, 2, &addr2, val_world, free) == -1);
EXPECT_TRUE(session_table_search_by_id(table, 2) != nullptr);
EXPECT_TRUE(session_table_search_by_addr(table, &addr2) != nullptr);
EXPECT_TRUE(session_table_count(table) == 1);
// TEST Destory
session_table_destory(table);
}
int main(int argc, char **argv)
{
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
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