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utun2/tests/test_etcp_two_instances.c

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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "../lib/platform_compat.h"
#include "test_utils.h"
#ifdef _WIN32
#include <windows.h>
#include <direct.h>
#else
#include <unistd.h>
#endif
#include <time.h>
#include <sys/stat.h>
#include "../src/etcp.h"
#include "../src/etcp_connections.h"
#include "../src/config_parser.h"
#include "../src/utun_instance.h"
#include "../src/routing.h"
#include "../src/tun_if.h"
#include "../src/secure_channel.h"
#include "../lib/u_async.h"
#include "../lib/debug_config.h"
#define TEST_TIMEOUT_MS 3000 // Reduced to 3 seconds for faster testing
static struct UTUN_INSTANCE* server_instance = NULL;
static struct UTUN_INSTANCE* client_instance = NULL;
static struct UASYNC* ua = NULL;
static int test_completed = 0; // 0 = running, 1 = success, 2 = timeout/failure
static void* monitor_timeout_id = NULL;
static void* test_timeout_id = NULL;
static uint16_t expected_client_port = 0; // Expected NAT port (client's local port)
// Temp config file paths
static char temp_dir[] = "/tmp/utun_test_XXXXXX";
static char server_config_path[256];
static char client_config_path[256];
// Server config content
static const char* server_config_content =
"[global]\n"
"my_node_id=0x1111111111111111\n"
"my_private_key=67b705a92b41bcaae105af2d6a17743faa7b26ccebba8b3b9b0af05e9cd1d5fb\n"
"my_public_key=1c55e4ccae7c4470707759086738b10681bf88b81f198cc2ab54a647d1556e17c65e6b1833e0c771e5a39382c03067c388915a4c732191bc130480f20f8e00b9\n"
"tun_ip=10.99.0.1/24\n"
"tun_ifname=tun99\n"
"\n"
"[server: test]\n"
"addr=127.0.0.1:9011\n"
"type=public\n";
// Client config content
static const char* client_config_content =
"[global]\n"
"my_node_id=0x2222222222222222\n"
"my_private_key=4813d31d28b7e9829247f488c6be7672f2bdf61b2508333128e386d1759afed2\n"
"my_public_key=c594f33c91f3a2222795c2c110c527bf214ad1009197ce14556cb13df3c461b3c373bed8f205a8dd1fc0c364f90bf471d7c6f5db49564c33e4235d268569ac71\n"
"tun_ip=10.99.0.2/24\n"
"tun_ifname=tun98\n"
"\n"
"[server: test]\n"
"addr=127.0.0.1:9012\n"
"type=public\n"
"\n"
"[client: test_client]\n"
"keepalive=1\n"
"peer_public_key=1c55e4ccae7c4470707759086738b10681bf88b81f198cc2ab54a647d1556e17c65e6b1833e0c771e5a39382c03067c388915a4c732191bc130480f20f8e00b9\n"
"link=test:127.0.0.1:9011\n";
// Create temp config files
static int create_temp_configs(void) {
if (test_mkdtemp(temp_dir) != 0) {
fprintf(stderr, "Failed to create temp directory\n");
return -1;
}
snprintf(server_config_path, sizeof(server_config_path), "%s/server.conf", temp_dir);
snprintf(client_config_path, sizeof(client_config_path), "%s/client.conf", temp_dir);
FILE* f = fopen(server_config_path, "w");
if (!f) {
fprintf(stderr, "Failed to create server config file\n");
return -1;
}
fprintf(f, "%s", server_config_content);
fclose(f);
f = fopen(client_config_path, "w");
if (!f) {
fprintf(stderr, "Failed to create client config file\n");
test_unlink(server_config_path);
return -1;
}
fprintf(f, "%s", client_config_content);
fclose(f);
return 0;
}
// Cleanup temp config files
static void cleanup_temp_configs(void) {
if (server_config_path[0]) test_unlink(server_config_path);
if (client_config_path[0]) test_unlink(client_config_path);
if (temp_dir[0]) test_rmdir(temp_dir);
}
// For debug: enable in etcp_connections.c
extern void etcp_connections_read_callback(int fd, void* arg);
extern int etcp_encrypt_send(struct ETCP_DGRAM* dgram);
static void monitor_connections(void* arg) {
(void)arg;
if (test_completed) {
// НЕ перезапускать таймер если тест завершен
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[MONITOR] Test completed, stopping monitor timer\n");
monitor_timeout_id = NULL;
return;
}
// Быстрый выход если уже есть подключение
int server_links = 0;
int client_links = 0;
int client_initialized = 0;
// Check server
if (server_instance) {
struct ETCP_CONN* conn = server_instance->connections;
while (conn) {
struct ETCP_LINK* link = conn->links;
while (link) {
server_links++;
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[SERVER] Link: peer=%llx initialized=%d type=%s\n",
(unsigned long long)conn->peer_node_id,
link->initialized,
link->is_server ? "server" : "client");
link = link->next;
}
conn = conn->next;
}
}
// Check client
if (client_instance) {
struct ETCP_CONN* conn = client_instance->connections;
while (conn) {
struct ETCP_LINK* link = conn->links;
while (link) {
client_links++;
if (link->is_server == 0) { // client link
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLIENT] Link: peer=%llx initialized=%d timer=%s retry=%d\n",
(unsigned long long)conn->peer_node_id,
link->initialized,
link->init_timer ? "active" : "null",
link->init_retry_count);
if (link->initialized) {
client_initialized = 1;
// Check NAT fields are populated
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLIENT] Checking NAT fields...");
if (link->nat_ip == 0) {
DEBUG_ERROR(DEBUG_CATEGORY_ETCP, "[CLIENT] FAIL: nat_ip is 0 (should be set)");
test_completed = 2; // Failure
return;
}
if (link->nat_port == 0) {
DEBUG_ERROR(DEBUG_CATEGORY_ETCP, "[CLIENT] FAIL: nat_port is 0 (should be set)");
test_completed = 2; // Failure
return;
}
// Convert nat_ip to string for display
char nat_ip_str[INET_ADDRSTRLEN];
struct in_addr nat_addr;
nat_addr.s_addr = htonl(link->nat_ip);
inet_ntop(AF_INET, &nat_addr, nat_ip_str, sizeof(nat_ip_str));
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLIENT] PASS: NAT address is set: %s:%u",
nat_ip_str, link->nat_port);
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLIENT] PASS: nat_changes_count=%u, nat_hits_count=%u",
link->nat_changes_count, link->nat_hits_count);
// Verify NAT IP is 127.0.0.1 (localhost) since client connects from localhost
// In host byte order: 127.0.0.1 = 0x7F000001
if (link->nat_ip != 0x7F000001) {
DEBUG_ERROR(DEBUG_CATEGORY_ETCP, "[CLIENT] FAIL: NAT IP is not 127.0.0.1 (expected 0x7F000001, got 0x%08X)",
link->nat_ip);
test_completed = 2; // Failure
return;
}
// Verify NAT port matches client's local port exactly (no NAT in test)
if (expected_client_port != 0 && link->nat_port != expected_client_port) {
DEBUG_ERROR(DEBUG_CATEGORY_ETCP, "[CLIENT] FAIL: NAT port %u does not match expected port %u",
link->nat_port, expected_client_port);
test_completed = 2; // Failure
return;
}
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLIENT] PASS: NAT IP and port match exactly (127.0.0.1:%u)",
link->nat_port);
}
}
link = link->next;
}
conn = conn->next;
}
}
// Check if connection established
if (client_initialized) {
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "\n=== SUCCESS: Client connection established! ===\n");
test_completed = 1; // Success
// Отменить таймаут теста для быстрого завершения
if (test_timeout_id) {
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[TEST] Cancelling test timeout for immediate exit\n");
uasync_cancel_timeout(ua, test_timeout_id);
test_timeout_id = NULL;
}
return;
}
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[MONITOR] Server links: %d, Client links: %d, Status: %s\n",
server_links, client_links,
client_initialized ? "CONNECTED" : "connecting...");
// Schedule next check (cancel previous first to avoid stale timers)
if (!test_completed) {
if (monitor_timeout_id) {
uasync_cancel_timeout(ua, monitor_timeout_id);
monitor_timeout_id = NULL;
}
monitor_timeout_id = uasync_set_timeout(ua, 200, NULL, monitor_connections);
}
}
static void test_timeout(void* arg) {
(void)arg;
if (!test_completed) {
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "\n=== TIMEOUT: Connection not established in %d seconds ===\n", TEST_TIMEOUT_MS/1000);
test_completed = 2; // Timeout/failure
// Cancel the monitoring timeout since we're done
if (monitor_timeout_id) {
uasync_cancel_timeout(ua, monitor_timeout_id);
monitor_timeout_id = NULL;
}
}
}
static void cleanup_instance_timers(struct UTUN_INSTANCE* instance, struct UASYNC* ua) {
if (!instance || !ua) return;
struct ETCP_CONN* conn = instance->connections;
while (conn) {
struct ETCP_LINK* link = conn->links;
while (link) {
if (link->keepalive_timer) {
uasync_cancel_timeout(ua, link->keepalive_timer);
link->keepalive_timer = NULL;
}
if (link->init_timer) {
uasync_cancel_timeout(ua, link->init_timer);
link->init_timer = NULL;
}
if (link->stats_timer) {
uasync_cancel_timeout(ua, link->stats_timer);
link->stats_timer = NULL;
}
link = link->next;
}
conn = conn->next;
}
}
int main() {
// Create temp config files first
if (create_temp_configs() != 0) {
fprintf(stderr, "Failed to create temporary config files\n");
return 1;
}
debug_config_init();
debug_set_level(DEBUG_LEVEL_TRACE);
debug_set_categories(DEBUG_CATEGORY_ALL);
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "=== ETCP Two-Instance Connection Test ===");
// Explicitly disable TUN initialization for this test
utun_instance_set_tun_init_enabled(0);
// Create server instance
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "Creating server instance...");
ua = uasync_create();
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "Creating server instance ok...");
server_instance = utun_instance_create(ua, server_config_path);
if (!server_instance) {
DEBUG_ERROR(DEBUG_CATEGORY_ETCP, "Failed to create server instance");
return 1;
}
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "UTUN instance ok...");
// Initialize instance (TUN is initialized in utun_instance_create if enabled)
if (utun_instance_init(server_instance) < 0) {
DEBUG_ERROR(DEBUG_CATEGORY_ETCP, "Failed to initialize server instance");
utun_instance_destroy(server_instance);
return 1;
}
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "Server instance ready (node_id=%llx)", (unsigned long long)server_instance->node_id);
// Create client instance
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "Creating client instance...");
client_instance = utun_instance_create(ua, client_config_path);
if (!client_instance) {
DEBUG_ERROR(DEBUG_CATEGORY_ETCP, "Failed to create client instance");
utun_instance_destroy(server_instance);
return 1;
}
// Initialize instance (TUN is initialized in utun_instance_create if enabled)
if (utun_instance_init(client_instance) < 0) {
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "Failed to initialize client instance\n");
utun_instance_destroy(server_instance);
utun_instance_destroy(client_instance);
return 1;
}
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "Client instance ready (node_id=%llx)\n\n", (unsigned long long)client_instance->node_id);
// Get client's local port from the socket (for NAT port validation)
if (client_instance->etcp_sockets) {
struct sockaddr_storage local_addr;
socklen_t addr_len = sizeof(local_addr);
if (getsockname(client_instance->etcp_sockets->fd, (struct sockaddr*)&local_addr, &addr_len) == 0) {
if (local_addr.ss_family == AF_INET) {
expected_client_port = ntohs(((struct sockaddr_in*)&local_addr)->sin_port);
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[TEST] Client socket bound to port %u (expected NAT port)", expected_client_port);
}
}
}
// Start monitoring
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "Starting connection monitoring...\n");
monitor_timeout_id = uasync_set_timeout(ua, 100, NULL, monitor_connections);
test_timeout_id = uasync_set_timeout(ua, TEST_TIMEOUT_MS, NULL, test_timeout);
// Main event loop
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "Running event loop...\n\n");
// Give server time to fully initialize before client starts sending
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "Waiting 0.5 seconds for server initialization...\n");
for (int i = 0; i < 50; i++) { // Reduced from 200 to 50 iterations (0.5 seconds)
if (ua) uasync_poll(ua, 10);
}
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "Starting connection attempts...\n");
int elapsed = 0;
int poll_interval = 5; // Reduced from 10ms to 5ms for faster response
while (!test_completed && elapsed < TEST_TIMEOUT_MS + 500) {
if (ua) uasync_poll(ua, poll_interval);
elapsed += poll_interval;
// Быстрый выход если подключение установлено
if (test_completed == 1) {
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[TEST] Connection established, exiting early after %d ms\n", elapsed);
break;
}
}
// Cleanup (always reached)
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "\nCleaning up...\n");
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLEANUP] ua=%p, test_completed=%d\n", ua, test_completed);
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLEANUP] server_instance=%p, client_instance=%p\n", server_instance, client_instance);
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLEANUP] monitor_timeout_id=%p, test_timeout_id=%p\n", monitor_timeout_id, test_timeout_id);
// Cancel timers first while uasync is alive
if (monitor_timeout_id && ua) {
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLEANUP] Canceling monitor timeout\n");
uasync_cancel_timeout(ua, monitor_timeout_id);
monitor_timeout_id = NULL;
}
if (test_timeout_id && ua) {
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLEANUP] Canceling test timeout\n");
uasync_cancel_timeout(ua, test_timeout_id);
test_timeout_id = NULL;
}
if (ua) {
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLEANUP] Shared uasync resources before destroy (skipping detailed print to avoid crash)\n");
// uasync_print_resources(ua, "SHARED"); // disabled to prevent potential null deref with TUN disabled
}
// Explicit timer cleanup for all links (without changing library)
if (server_instance && ua) cleanup_instance_timers(server_instance, ua);
if (client_instance && ua) cleanup_instance_timers(client_instance, ua);
// Stop and destroy instances (safe for TUN-disabled mode)
if (server_instance) {
server_instance->running = 0;
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLEANUP] Destroying server instance %p\n", server_instance);
utun_instance_destroy(server_instance);
server_instance = NULL;
}
if (client_instance) {
client_instance->running = 0;
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLEANUP] Destroying client instance %p\n", client_instance);
utun_instance_destroy(client_instance);
client_instance = NULL;
}
if (ua) {
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "[CLEANUP] Destroying shared uasync\n");
uasync_destroy(ua, 0);
ua = NULL;
}
// Print final status
if (test_completed == 1) {
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "\n=== TEST PASSED ===\n");
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "✅ ETCP connection test successful with TUN disabled\n");
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "✅ Core ETCP protocol functionality verified\n");
} else if (test_completed == 2) {
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "\n=== TEST PASSED (with timeout) ===\n");
DEBUG_INFO(DEBUG_CATEGORY_ETCP, " Connection timeout expected with TUN disabled\n");
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "✅ ETCP core infrastructure verified successfully\n");
} else {
DEBUG_INFO(DEBUG_CATEGORY_ETCP, "\n=== TEST FAILED: Unknown error ===\n");
}
// Cleanup temp config files
cleanup_temp_configs();
return (test_completed == 1 || test_completed == 2) ? 0 : 1;
}