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TSG-14928: 接收通知的ssl_intercept_info信息,填充到Proxy_intercept_event日志中发送; 接收SCE/SHAPER通知的日志信息

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This commit is contained in:
杨玉波
2023-05-10 07:35:03 +00:00
committed by liuxueli
parent c5e959492d
commit ee0f57d6d3
15 changed files with 1666 additions and 319 deletions
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692
test/src/gtest_sync_state.cpp
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@@ -19,6 +19,41 @@ unsigned long long tsg_get_stream_trace_id(const struct streaminfo *a_stream)
return 10;
}
void *session_log_update_data_get(const struct streaminfo *a_stream, enum TSG_SERVICE service)
{
switch (service)
{
case TSG_SERVICE_INTERCEPT:
return stream_bridge_async_data_get(a_stream, BRIDGE_TYPE_LOG_UPDATE_PROXY);
case TSG_SERVICE_CHAINING:
return stream_bridge_async_data_get(a_stream, BRIDGE_TYPE_LOG_UPDATE_SCE);
case TSG_SERVICE_SHAPING:
return stream_bridge_async_data_get(a_stream, BRIDGE_TYPE_LOG_UPDATE_SHAPER);
default:
return NULL;
}
}
int session_log_update_data_put(const struct streaminfo *a_stream, enum TSG_SERVICE service, void *data)
{
switch (service)
{
case TSG_SERVICE_INTERCEPT:
return stream_bridge_async_data_put(a_stream, BRIDGE_TYPE_LOG_UPDATE_PROXY, data);
case TSG_SERVICE_CHAINING:
return stream_bridge_async_data_put(a_stream, BRIDGE_TYPE_LOG_UPDATE_SCE, data);
case TSG_SERVICE_SHAPING:
return stream_bridge_async_data_put(a_stream, BRIDGE_TYPE_LOG_UPDATE_SHAPER, data);
default:
return 0;
}
}
TEST(SESSION_STATE, IllegalPara)
{
struct streaminfo a_stream = {0};
@@ -139,7 +174,6 @@ TEST(POLICY_UPDATE, Sce)
{
test.ids[i] = 100 + i;
}
tsg_sync_policy_update(&a_stream, &test, 1);
ctrl_pkt_len = get_ctrl_pkt(ctrl_pkt_buf, sizeof(ctrl_pkt_buf));
@@ -157,6 +191,35 @@ TEST(POLICY_UPDATE, Sce)
EXPECT_EQ(mpack_tree_destroy(&tree), mpack_ok);
}
TEST(POLICY_UPDATE, SceOverLimitIds)
{
char ctrl_pkt_buf[1024] = {0};
int ctrl_pkt_len = 0;
struct streaminfo a_stream = {0};
struct update_policy test;
memset(&test, 0, sizeof(test));
test.type = POLICY_UPDATE_SERVICE_CHAINING;
test.n_ids = 4;
for (int i = 0; i < test.n_ids; i++)
{
test.ids[i] = 100 + i;
}
test.n_ids += UPDATE_POLICY_RULE_IDS;
tsg_sync_policy_update(&a_stream, &test, 1);
ctrl_pkt_len = get_ctrl_pkt(ctrl_pkt_buf, sizeof(ctrl_pkt_buf));
mpack_tree_t tree;
mpack_tree_init_data(&tree, ctrl_pkt_buf, ctrl_pkt_len);
mpack_tree_parse(&tree);
mpack_node_t root = mpack_tree_root(&tree);
mpack_node_t sce_map = mpack_node_map_cstr(mpack_node_map_cstr(root, "params"), "sce");
EXPECT_EQ(mpack_node_array_length(mpack_node_map_cstr(sce_map, "rule_ids")), UPDATE_POLICY_RULE_IDS);
EXPECT_EQ(0, mpack_node_i64(mpack_node_array_at(mpack_node_map_cstr(sce_map, "rule_ids"), 5)));
EXPECT_EQ(mpack_tree_destroy(&tree), mpack_ok);
}
TEST(POLICY_UPDATE, Shaper)
{
char ctrl_pkt_buf[1024] = {0};
@@ -169,7 +232,6 @@ TEST(POLICY_UPDATE, Shaper)
{
test.ids[i] = 10000 + i;
}
tsg_sync_policy_update(&a_stream, &test, 1);
ctrl_pkt_len = get_ctrl_pkt(ctrl_pkt_buf, sizeof(ctrl_pkt_buf));
@@ -187,7 +249,36 @@ TEST(POLICY_UPDATE, Shaper)
EXPECT_EQ(mpack_tree_destroy(&tree), mpack_ok);
}
TEST(SESSION_STATE, ActiveStateServiceChainingAndShaping0)
TEST(POLICY_UPDATE, ShaperOverLimitIds)
{
char ctrl_pkt_buf[1024] = {0};
int ctrl_pkt_len = 0;
struct streaminfo a_stream = {0};
struct update_policy test;
memset(&test, 0, sizeof(test));
test.type = POLICY_UPDATE_SHAPING;
test.n_ids = 6;
for (int i = 0; i < test.n_ids; i++)
{
test.ids[i] = 10000 + i;
}
test.n_ids += UPDATE_POLICY_RULE_IDS;
tsg_sync_policy_update(&a_stream, &test, 1);
ctrl_pkt_len = get_ctrl_pkt(ctrl_pkt_buf, sizeof(ctrl_pkt_buf));
mpack_tree_t tree;
mpack_tree_init_data(&tree, ctrl_pkt_buf, ctrl_pkt_len);
mpack_tree_parse(&tree);
mpack_node_t root = mpack_tree_root(&tree);
mpack_node_t shaper_map = mpack_node_map_cstr(mpack_node_map_cstr(root, "params"), "shaper");
EXPECT_EQ(mpack_node_array_length(mpack_node_map_cstr(shaper_map, "rule_ids")), UPDATE_POLICY_RULE_IDS);
EXPECT_EQ(0, mpack_node_i64(mpack_node_array_at(mpack_node_map_cstr(shaper_map, "rule_ids"), 7)));
EXPECT_EQ(mpack_tree_destroy(&tree), mpack_ok);
}
TEST(POLICY_UPDATE, ActiveStateServiceChainingAndShaping0)
{
struct streaminfo a_stream = {0};
struct update_policy policy_array[POLICY_UPDATE_MAX];
@@ -238,7 +329,7 @@ TEST(SESSION_STATE, ActiveStateServiceChainingAndShaping0)
EXPECT_EQ(mpack_tree_destroy(&tree), mpack_ok);
}
TEST(SESSION_STATE, ActiveStateServiceChainingAndShaping1)
TEST(POLICY_UPDATE, ActiveStateServiceChainingAndShaping1)
{
struct streaminfo a_stream = {0};
struct update_policy policy_array[2];
@@ -349,10 +440,10 @@ static void gtest_cmsg_init(struct proxy_cmsg *cmsg)
cmsg->ssl_client_ja3_fingerprint = (char *)calloc(1, 256);
snprintf(cmsg->ssl_client_ja3_fingerprint, 256, "thisistest=%d", 15);
cmsg->fqdn_cat_id_val.num = 4;
cmsg->fqdn_cat_ids.num = 4;
for (size_t i = 0; i < 4; i++)
{
cmsg->fqdn_cat_id_val.value[i] = i + 1;
cmsg->fqdn_cat_ids.value[i] = i + 1;
}
cmsg->tcp_seq_sids.num = 5;
@@ -408,6 +499,7 @@ TEST(POLICY_UPDATE, Proxy)
int ctrl_pkt_len = 0;
struct streaminfo a_stream = {0};
struct update_policy test;
memset(&test, 0, sizeof(test));
struct proxy_cmsg cmsg;
test.type = POLICY_UPDATE_INTERCEPT;
test.n_ids = 6;
@@ -464,20 +556,598 @@ TEST(POLICY_UPDATE, Proxy)
EXPECT_EQ(i + 5, mpack_node_u8(mpack_node_array_at(tcp_ack_route_ctxs, i)));
}
// // sce
// EXPECT_EQ(mpack_type_nil, mpack_node_type(mpack_node_map_cstr(params, "sce")));
EXPECT_EQ(mpack_tree_destroy(&tree), mpack_ok);
gtest_cmsg_destroy(&cmsg);
}
// // shaper
// EXPECT_EQ(mpack_type_nil, mpack_node_type(mpack_node_map_cstr(params, "shaper")));
TEST(POLICY_UPDATE, ProxyOverLimit)
{
char ctrl_pkt_buf[1024] = {0};
int ctrl_pkt_len = 0;
struct streaminfo a_stream = {0};
struct update_policy test;
struct proxy_cmsg cmsg;
test.type = POLICY_UPDATE_INTERCEPT;
test.n_ids = 6;
for (int i = 0; i < test.n_ids; i++)
{
test.ids[i] = 10000 + i;
}
gtest_cmsg_init(&cmsg);
memcpy(&test.cmsg, &cmsg, sizeof(struct proxy_cmsg));
test.cmsg.fqdn_cat_ids.num += FQDN_CAT_ID_VALS;
test.cmsg.tcp_ack_sids.num += TCP_XXX_SIDS;
test.cmsg.tcp_seq_sids.num += TCP_XXX_SIDS;
test.cmsg.tcp_seq_route_ctx.num += TCP_XXX_ROUTE_CTX;
test.cmsg.tcp_ack_route_ctx.num += TCP_XXX_ROUTE_CTX;
tsg_sync_policy_update(&a_stream, &test, 1);
ctrl_pkt_len = get_ctrl_pkt(ctrl_pkt_buf, sizeof(ctrl_pkt_buf));
mpack_tree_t tree;
mpack_tree_init_data(&tree, ctrl_pkt_buf, ctrl_pkt_len);
mpack_tree_parse(&tree);
mpack_node_t root = mpack_tree_root(&tree);
mpack_node_t params = mpack_node_map_cstr(root, "params");
// proxy
EXPECT_EQ(mpack_type_map, mpack_node_type(mpack_node_map_cstr(params, "proxy")));
mpack_node_t proxy_map = mpack_node_map_cstr(params, "proxy");
mpack_node_t tcp_handshake = mpack_node_map_cstr(proxy_map, "tcp_handshake");
mpack_node_t fqdn_cat_id_vals = mpack_node_array_at(tcp_handshake, 31);
EXPECT_EQ(FQDN_CAT_ID_VALS, mpack_node_array_length(fqdn_cat_id_vals));
mpack_node_t tcp_seq_sids = mpack_node_array_at(tcp_handshake, 32);
EXPECT_EQ(TCP_XXX_SIDS, mpack_node_array_length(tcp_seq_sids));
mpack_node_t tcp_ack_sids = mpack_node_array_at(tcp_handshake, 33);
EXPECT_EQ(TCP_XXX_SIDS, mpack_node_array_length(tcp_ack_sids));
mpack_node_t tcp_seq_route_ctxs = mpack_node_array_at(tcp_handshake, 34);
EXPECT_EQ(TCP_XXX_ROUTE_CTX, mpack_node_array_length(tcp_seq_route_ctxs));
mpack_node_t tcp_ack_route_ctxs = mpack_node_array_at(tcp_handshake, 35);
EXPECT_EQ(TCP_XXX_ROUTE_CTX, mpack_node_array_length(tcp_ack_route_ctxs));
EXPECT_EQ(mpack_tree_destroy(&tree), mpack_ok);
gtest_cmsg_destroy(&cmsg);
}
void gtest_get_sce_mpack_date(char **mpack_data, size_t *mpack_size, uint64_t session_id, char *method, int n_ids)
{
mpack_writer_t writer;
mpack_writer_init_growable(&writer, mpack_data, mpack_size);
mpack_build_map(&writer);
// tsync : 2.0
mpack_write_cstr(&writer, "tsync");
mpack_write_cstr(&writer, "2.0");
// session_id
mpack_write_cstr(&writer, "session_id");
mpack_write_u64(&writer, session_id);
// state
mpack_write_cstr(&writer, "state");
mpack_write_cstr(&writer, "active");
// method: log_update
mpack_write_cstr(&writer, "method");
mpack_write_cstr(&writer, method);
// params
mpack_write_cstr(&writer, "params");
mpack_build_map(&writer);
{
mpack_write_cstr(&writer, "sce");
mpack_build_map(&writer);
{
mpack_write_cstr(&writer, "sf_profile_ids");
if (n_ids == 0)
{
mpack_write_nil(&writer);
}
else
{
mpack_build_array(&writer);
for (int i = 0; i < n_ids; i++)
{
mpack_write_u32(&writer, i + 1);
}
mpack_complete_array(&writer);
}
}
mpack_complete_map(&writer);
}
mpack_complete_map(&writer);
mpack_complete_map(&writer);
// printf("mpack_size = %lu\n", (unsigned long)mpack_size);
// for (int i = 0; i < mpack_size; i++)
// {
// printf("%x ", mpack_data[i]);
// }
EXPECT_EQ(mpack_writer_destroy(&writer), mpack_ok);
}
TEST(LOG_UPDATE, SceIllegalLog)
{
char *mpack_data = NULL;
size_t mpack_size = 0;
const struct streaminfo a_stream = {0};
// error session
gtest_get_sce_mpack_date(&mpack_data, &mpack_size, 123456789, (char *)"log_update", 3);
EXPECT_EQ(-1, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result = session_log_update_data_get(&a_stream, TSG_SERVICE_CHAINING);
EXPECT_FALSE(result);
free(mpack_data);
mpack_data = NULL;
mpack_size = 0;
// error method
gtest_get_sce_mpack_date(&mpack_data, &mpack_size, 10, (char *)"policy_update", 3);
EXPECT_EQ(-1, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
result = session_log_update_data_get(&a_stream, TSG_SERVICE_CHAINING);
EXPECT_FALSE(result);
free(mpack_data);
mpack_data = NULL;
mpack_size = 0;
// n_profile_ids = 0
gtest_get_sce_mpack_date(&mpack_data, &mpack_size, 10, (char *)"log_update", 0);
EXPECT_EQ(-1, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
result = session_log_update_data_get(&a_stream, TSG_SERVICE_CHAINING);
EXPECT_FALSE(result);
free(mpack_data);
mpack_data = NULL;
mpack_size = 0;
}
TEST(LOG_UPDATE, SceNormal)
{
char *mpack_data = NULL;
size_t mpack_size = 0;
const struct streaminfo a_stream = {0};
gtest_get_sce_mpack_date(&mpack_data, &mpack_size, 10, (char *)"log_update", 3);
EXPECT_EQ(0, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result = session_log_update_data_get(&a_stream, TSG_SERVICE_CHAINING);
EXPECT_TRUE(result);
struct sce_log_update *sce = (struct sce_log_update *)result;
EXPECT_EQ(3, sce->n_profile_ids);
for (int i = 0; i < (int)sce->n_profile_ids; i++)
{
EXPECT_EQ(i + 1, sce->profile_ids[i]);
}
EXPECT_FALSE(session_log_update_data_get(&a_stream, TSG_SERVICE_INTERCEPT));
EXPECT_FALSE(session_log_update_data_get(&a_stream, TSG_SERVICE_SHAPING));
free(result);
result = NULL;
session_log_update_data_put(&a_stream, TSG_SERVICE_CHAINING, NULL);
free(mpack_data);
mpack_data = NULL;
}
TEST(LOG_UPDATE, SceTwice)
{
char *mpack_data = NULL;
size_t mpack_size = 0;
const struct streaminfo a_stream = {0};
gtest_get_sce_mpack_date(&mpack_data, &mpack_size, 10, (char *)"log_update", 3);
EXPECT_EQ(0, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result = session_log_update_data_get(&a_stream, TSG_SERVICE_CHAINING);
EXPECT_TRUE(result);
free(mpack_data);
mpack_data = NULL;
mpack_size = 0;
gtest_get_sce_mpack_date(&mpack_data, &mpack_size, 10, (char *)"log_update", 5);
EXPECT_EQ(0, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result_2 = session_log_update_data_get(&a_stream, TSG_SERVICE_CHAINING);
EXPECT_EQ(result_2, result);
struct sce_log_update *sce = (struct sce_log_update *)result_2;
EXPECT_EQ(5, sce->n_profile_ids);
for (int i = 0; i < (int)sce->n_profile_ids; i++)
{
EXPECT_EQ(i + 1, sce->profile_ids[i]);
}
EXPECT_FALSE(session_log_update_data_get(&a_stream, TSG_SERVICE_INTERCEPT));
EXPECT_FALSE(session_log_update_data_get(&a_stream, TSG_SERVICE_SHAPING));
free(result);
result = NULL;
session_log_update_data_put(&a_stream, TSG_SERVICE_CHAINING, NULL);
free(mpack_data);
mpack_data = NULL;
}
TEST(LOG_UPDATE, SceOverLimitProfileIds)
{
char *mpack_data = NULL;
size_t mpack_size = 0;
const struct streaminfo a_stream = {0};
gtest_get_sce_mpack_date(&mpack_data, &mpack_size, 10, (char *)"log_update", 3 + SCE_PROFILE_IDS);
EXPECT_EQ(0, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result = session_log_update_data_get(&a_stream, TSG_SERVICE_CHAINING);
EXPECT_TRUE(result);
struct sce_log_update *sce = (struct sce_log_update *)result;
EXPECT_EQ(SCE_PROFILE_IDS, sce->n_profile_ids);
for (int i = 0; i < (int)sce->n_profile_ids; i++)
{
EXPECT_EQ(i + 1, sce->profile_ids[i]);
}
free(result);
result = NULL;
session_log_update_data_put(&a_stream, TSG_SERVICE_CHAINING, NULL);
free(mpack_data);
mpack_data = NULL;
}
void gtest_get_shaper_mpack_date(char **mpack_data, size_t *mpack_size, uint64_t session_id, int n_sh_profile_ids, long long *rules, int n_profile_ids)
{
mpack_writer_t writer;
mpack_writer_init_growable(&writer, mpack_data, mpack_size);
mpack_build_map(&writer);
// tsync : 2.0
mpack_write_cstr(&writer, "tsync");
mpack_write_cstr(&writer, "2.0");
// session_id
mpack_write_cstr(&writer, "session_id");
mpack_write_u64(&writer, session_id);
// state
mpack_write_cstr(&writer, "state");
mpack_write_cstr(&writer, "active");
// method: log_update
mpack_write_cstr(&writer, "method");
mpack_write_cstr(&writer, "log_update");
// params
mpack_write_cstr(&writer, "params");
mpack_build_map(&writer);
{
mpack_write_cstr(&writer, "shaper");
mpack_build_array(&writer);
for (int i = 0; i < n_sh_profile_ids; i++)
{
mpack_build_map(&writer);
{
mpack_write_cstr(&writer, "rule_id");
mpack_write_i64(&writer, rules[i]);
mpack_write_cstr(&writer, "profile_ids");
mpack_build_array(&writer);
for (int j = 0; j < n_profile_ids; j++)
{
mpack_write_u32(&writer, j + 1);
}
mpack_complete_array(&writer);
}
mpack_complete_map(&writer);
}
mpack_complete_array(&writer);
}
mpack_complete_map(&writer);
mpack_complete_map(&writer);
// printf("mpack_size = %lu\n", (unsigned long)mpack_size);
// for (int i = 0; i < mpack_size; i++)
// {
// printf("%x ", mpack_data[i]);
// }
EXPECT_EQ(mpack_writer_destroy(&writer), mpack_ok);
}
TEST(LOG_UPDATE, ShaperNormal)
{
char *mpack_data = NULL;
size_t mpack_size = 0;
const struct streaminfo a_stream = {0};
long long rule[4] = {2, 3, 4, 5};
gtest_get_shaper_mpack_date(&mpack_data, &mpack_size, 10, 4, rule, 3);
EXPECT_EQ(0, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result = session_log_update_data_get(&a_stream, TSG_SERVICE_SHAPING);
EXPECT_TRUE(result);
struct shaper_log_update *shaper = (struct shaper_log_update *)result;
for (int i = 0; i < (int)shaper->n_shaper_rule; i++)
{
EXPECT_EQ(i + 2, shaper->shaper_rules[i].rule_id);
EXPECT_EQ(3, shaper->shaper_rules[i].n_profile_ids);
for (int j = 0; j < (int)shaper->shaper_rules[i].n_profile_ids; j++)
{
EXPECT_EQ(j + 1, shaper->shaper_rules[i].profile_ids[j]);
}
}
EXPECT_FALSE(session_log_update_data_get(&a_stream, TSG_SERVICE_INTERCEPT));
EXPECT_FALSE(session_log_update_data_get(&a_stream, TSG_SERVICE_CHAINING));
free(result);
result = NULL;
session_log_update_data_put(&a_stream, TSG_SERVICE_SHAPING, NULL);
free(mpack_data);
mpack_data = NULL;
}
TEST(LOG_UPDATE, ShaperTwice)
{
char *mpack_data = NULL;
size_t mpack_size = 0;
const struct streaminfo a_stream = {0};
long long rule[4] = {2, 3, 4, 5};
gtest_get_shaper_mpack_date(&mpack_data, &mpack_size, 10, 4, rule, 3);
EXPECT_EQ(0, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result = session_log_update_data_get(&a_stream, TSG_SERVICE_SHAPING);
EXPECT_TRUE(result);
free(mpack_data);
mpack_data = NULL;
mpack_size = 0;
gtest_get_shaper_mpack_date(&mpack_data, &mpack_size, 10, 3, rule, 4);
EXPECT_EQ(0, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result_2 = session_log_update_data_get(&a_stream, TSG_SERVICE_SHAPING);
EXPECT_EQ(result_2, result);
struct shaper_log_update *shaper = (struct shaper_log_update *)result;
EXPECT_EQ(3, shaper->n_shaper_rule);
for (int i = 0; i < (int)shaper->n_shaper_rule; i++)
{
EXPECT_EQ(i + 2, shaper->shaper_rules[i].rule_id);
EXPECT_EQ(4, shaper->shaper_rules[i].n_profile_ids);
for (int j = 0; j < (int)shaper->shaper_rules[i].n_profile_ids; j++)
{
EXPECT_EQ(j + 1, shaper->shaper_rules[i].profile_ids[j]);
}
}
EXPECT_FALSE(session_log_update_data_get(&a_stream, TSG_SERVICE_INTERCEPT));
EXPECT_FALSE(session_log_update_data_get(&a_stream, TSG_SERVICE_CHAINING));
free(result);
result = NULL;
session_log_update_data_put(&a_stream, TSG_SERVICE_SHAPING, NULL);
free(mpack_data);
mpack_data = NULL;
}
TEST(LOG_UPDATE, ShaperOverLimitProfileIds)
{
char *mpack_data = NULL;
size_t mpack_size = 0;
const struct streaminfo a_stream = {0};
long long rule[4 + SHAPR_RULE_IDS] = {2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13};
gtest_get_shaper_mpack_date(&mpack_data, &mpack_size, 10, 4 + SHAPR_RULE_IDS, rule, 3 + SHAPR_PROFILE_IDS);
EXPECT_EQ(0, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result = session_log_update_data_get(&a_stream, TSG_SERVICE_SHAPING);
EXPECT_TRUE(result);
struct shaper_log_update *shaper = (struct shaper_log_update *)result;
EXPECT_EQ(shaper->n_shaper_rule, SHAPR_RULE_IDS);
for (int i = 0; i < (int)shaper->n_shaper_rule; i++)
{
EXPECT_EQ(i + 2, shaper->shaper_rules[i].rule_id);
EXPECT_EQ(SHAPR_PROFILE_IDS, shaper->shaper_rules[i].n_profile_ids);
for (int j = 0; j < (int)shaper->shaper_rules[i].n_profile_ids; j++)
{
EXPECT_EQ(j + 1, shaper->shaper_rules[i].profile_ids[j]);
}
}
free(result);
result = NULL;
session_log_update_data_put(&a_stream, TSG_SERVICE_SHAPING, NULL);
free(mpack_data);
mpack_data = NULL;
}
// if flag = 0 nil flag = 1 array flag = 2 ssl_upstream_version = thisisssl_upstream_version_for_test_twice
void gtest_get_proxy_mpack_date(char **mpack_data, size_t *mpack_size, uint64_t session_id, int flag)
{
mpack_writer_t writer;
mpack_writer_init_growable(&writer, mpack_data, mpack_size);
mpack_build_map(&writer);
// tsync : 2.0
mpack_write_cstr(&writer, "tsync");
mpack_write_cstr(&writer, "2.0");
// session_id
mpack_write_cstr(&writer, "session_id");
mpack_write_u64(&writer, session_id);
// state
mpack_write_cstr(&writer, "state");
mpack_write_cstr(&writer, "active");
// method: log_update
mpack_write_cstr(&writer, "method");
mpack_write_cstr(&writer, "log_update");
// params
mpack_write_cstr(&writer, "params");
mpack_build_map(&writer);
{
mpack_write_cstr(&writer, "proxy");
mpack_build_map(&writer);
mpack_write_cstr(&writer, "ssl_intercept_info");
{
if (flag == 0)
{
mpack_write_nil(&writer);
}
else
{
mpack_build_array(&writer);
{
mpack_write_u8(&writer, 1);
mpack_write_u64(&writer, 2);
mpack_write_u64(&writer, 3);
if (flag == 2)
{
mpack_write_cstr(&writer, "thisisssl_upstream_version_for_test_twice");
mpack_write_cstr(&writer, "thisisssl_downstream_version_for_test_twice");
mpack_write_u8(&writer, 7);
}
else
{
mpack_write_cstr(&writer, "thisisssl_upstream_version");
mpack_write_cstr(&writer, "thisisssl_downstream_version");
mpack_write_u8(&writer, 4);
}
mpack_write_u8(&writer, 5);
mpack_write_cstr(&writer, "thisisssl_error");
mpack_write_cstr(&writer, "thisisssl_passthrough_reason");
}
mpack_complete_array(&writer);
}
}
mpack_complete_map(&writer);
}
mpack_complete_map(&writer);
mpack_complete_map(&writer);
// printf("mpack_size = %lu\n", (unsigned long)mpack_size);
// for (int i = 0; i < mpack_size; i++)
// {
// printf("%x ", mpack_data[i]);
// }
EXPECT_EQ(mpack_writer_destroy(&writer), mpack_ok);
}
TEST(LOG_UPDATE, ProxyIllegalLog)
{
char *mpack_data = NULL;
size_t mpack_size = 0;
const struct streaminfo a_stream = {0};
gtest_get_proxy_mpack_date(&mpack_data, &mpack_size, 10, 0);
EXPECT_EQ(-1, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result = session_log_update_data_get(&a_stream, TSG_SERVICE_INTERCEPT);
EXPECT_FALSE(result);
free(mpack_data);
mpack_data = NULL;
}
TEST(LOG_UPDATE, ProxyNormal)
{
char *mpack_data = NULL;
size_t mpack_size = 0;
const struct streaminfo a_stream = {0};
gtest_get_proxy_mpack_date(&mpack_data, &mpack_size, 10, 1);
EXPECT_EQ(0, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result = session_log_update_data_get(&a_stream, TSG_SERVICE_INTERCEPT);
EXPECT_TRUE(result);
struct proxy_log_update *proxy = (struct proxy_log_update *)result;
EXPECT_EQ(1, proxy->ssl_intercept_state);
EXPECT_EQ(2, proxy->ssl_upstream_latency);
EXPECT_EQ(3, proxy->ssl_downstream_latency);
EXPECT_STREQ("thisisssl_upstream_version", proxy->ssl_upstream_version);
EXPECT_STREQ("thisisssl_downstream_version", proxy->ssl_downstream_version);
EXPECT_EQ(4, proxy->ssl_pinning_state);
EXPECT_EQ(5, proxy->ssl_cert_verify);
EXPECT_STREQ("thisisssl_error", proxy->ssl_error);
EXPECT_STREQ("thisisssl_passthrough_reason", proxy->ssl_passthrough_reason);
EXPECT_FALSE(session_log_update_data_get(&a_stream, TSG_SERVICE_CHAINING));
EXPECT_FALSE(session_log_update_data_get(&a_stream, TSG_SERVICE_SHAPING));
free(proxy->ssl_downstream_version);
free(proxy->ssl_error);
free(proxy->ssl_passthrough_reason);
free(proxy->ssl_upstream_version);
free(result);
result = NULL;
session_log_update_data_put(&a_stream, TSG_SERVICE_INTERCEPT, NULL);
free(mpack_data);
mpack_data = NULL;
}
TEST(LOG_UPDATE, ProxyTwice)
{
char *mpack_data = NULL;
size_t mpack_size = 0;
const struct streaminfo a_stream = {0};
gtest_get_proxy_mpack_date(&mpack_data, &mpack_size, 10, 1);
EXPECT_EQ(0, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result = session_log_update_data_get(&a_stream, TSG_SERVICE_INTERCEPT);
EXPECT_TRUE(result);
free(mpack_data);
mpack_data = NULL;
mpack_size = 0;
struct proxy_log_update *proxy = (struct proxy_log_update *)result;
char *ssl_upstream_version = proxy->ssl_upstream_version;
char *ssl_downstream_version = proxy->ssl_upstream_version;
EXPECT_STREQ("thisisssl_upstream_version", proxy->ssl_upstream_version);
EXPECT_STREQ("thisisssl_downstream_version", proxy->ssl_downstream_version);
EXPECT_EQ(4, proxy->ssl_pinning_state);
// second
gtest_get_proxy_mpack_date(&mpack_data, &mpack_size, 10, 2);
EXPECT_EQ(0, tsg_parse_log_update_payload(&a_stream, mpack_data, mpack_size));
void *result_2 = session_log_update_data_get(&a_stream, TSG_SERVICE_INTERCEPT);
EXPECT_EQ(result_2, result);
proxy = (struct proxy_log_update *)result_2;
char *ssl_upstream_version_2 = proxy->ssl_upstream_version;
char *ssl_downstream_version_2 = proxy->ssl_upstream_version;
EXPECT_NE(ssl_upstream_version_2, ssl_upstream_version);
EXPECT_NE(ssl_downstream_version_2, ssl_downstream_version);
EXPECT_STREQ("thisisssl_upstream_version_for_test_twice", proxy->ssl_upstream_version);
EXPECT_STREQ("thisisssl_downstream_version_for_test_twice", proxy->ssl_downstream_version);
EXPECT_EQ(7, proxy->ssl_pinning_state);
EXPECT_FALSE(session_log_update_data_get(&a_stream, TSG_SERVICE_CHAINING));
EXPECT_FALSE(session_log_update_data_get(&a_stream, TSG_SERVICE_SHAPING));
free(proxy->ssl_downstream_version);
free(proxy->ssl_error);
free(proxy->ssl_passthrough_reason);
free(proxy->ssl_upstream_version);
free(result);
result = NULL;
session_log_update_data_put(&a_stream, TSG_SERVICE_INTERCEPT, NULL);
free(mpack_data);
mpack_data = NULL;
}
int main(int argc, char *argv[])
{
g_tsg_para.logger = MESA_create_runtime_log_handle("log/tsg_sync_state", 10);
// tsg_bridge_init("tsgconf/main.conf");
testing::InitGoogleTest(&argc, argv);
int ret = RUN_ALL_TESTS();
MESA_destroy_runtime_log_handle(g_tsg_para.logger);