#include "common.h" #include #include "adb/adb_device.h" #include "adb/adb_parser.h" static void test_adb_devices(void) { char output[] = "List of devices attached\n" "0123456789abcdef device usb:2-1 product:MyProduct model:MyModel " "device:MyDevice transport_id:1\n" "192.168.1.1:5555 device product:MyWifiProduct model:MyWifiModel " "device:MyWifiDevice trandport_id:2\n"; struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER; bool ok = sc_adb_parse_devices(output, &vec); assert(ok); assert(vec.size == 2); struct sc_adb_device *device = &vec.data[0]; assert(!strcmp("0123456789abcdef", device->serial)); assert(!strcmp("device", device->state)); assert(!strcmp("MyModel", device->model)); device = &vec.data[1]; assert(!strcmp("192.168.1.1:5555", device->serial)); assert(!strcmp("device", device->state)); assert(!strcmp("MyWifiModel", device->model)); sc_adb_devices_destroy(&vec); } static void test_adb_devices_cr(void) { char output[] = "List of devices attached\r\n" "0123456789abcdef device usb:2-1 product:MyProduct model:MyModel " "device:MyDevice transport_id:1\r\n" "192.168.1.1:5555 device product:MyWifiProduct model:MyWifiModel " "device:MyWifiDevice trandport_id:2\r\n"; struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER; bool ok = sc_adb_parse_devices(output, &vec); assert(ok); assert(vec.size == 2); struct sc_adb_device *device = &vec.data[0]; assert(!strcmp("0123456789abcdef", device->serial)); assert(!strcmp("device", device->state)); assert(!strcmp("MyModel", device->model)); device = &vec.data[1]; assert(!strcmp("192.168.1.1:5555", device->serial)); assert(!strcmp("device", device->state)); assert(!strcmp("MyWifiModel", device->model)); sc_adb_devices_destroy(&vec); } static void test_adb_devices_daemon_start(void) { char output[] = "* daemon not running; starting now at tcp:5037\n" "* daemon started successfully\n" "List of devices attached\n" "0123456789abcdef device usb:2-1 product:MyProduct model:MyModel " "device:MyDevice transport_id:1\n"; struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER; bool ok = sc_adb_parse_devices(output, &vec); assert(ok); assert(vec.size == 1); struct sc_adb_device *device = &vec.data[0]; assert(!strcmp("0123456789abcdef", device->serial)); assert(!strcmp("device", device->state)); assert(!strcmp("MyModel", device->model)); sc_adb_devices_destroy(&vec); } static void test_adb_devices_daemon_start_mixed(void) { char output[] = "List of devices attached\n" "adb server version (41) doesn't match this client (39); killing...\n" "* daemon started successfully *\n" "0123456789abcdef unauthorized usb:1-1\n" "87654321 device usb:2-1 product:MyProduct model:MyModel " "device:MyDevice\n"; struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER; bool ok = sc_adb_parse_devices(output, &vec); assert(ok); assert(vec.size == 2); struct sc_adb_device *device = &vec.data[0]; assert(!strcmp("0123456789abcdef", device->serial)); assert(!strcmp("unauthorized", device->state)); assert(!device->model); device = &vec.data[1]; assert(!strcmp("87654321", device->serial)); assert(!strcmp("device", device->state)); assert(!strcmp("MyModel", device->model)); sc_adb_devices_destroy(&vec); } static void test_adb_devices_without_eol(void) { char output[] = "List of devices attached\n" "0123456789abcdef device usb:2-1 product:MyProduct model:MyModel " "device:MyDevice transport_id:1"; struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER; bool ok = sc_adb_parse_devices(output, &vec); assert(ok); assert(vec.size == 1); struct sc_adb_device *device = &vec.data[0]; assert(!strcmp("0123456789abcdef", device->serial)); assert(!strcmp("device", device->state)); assert(!strcmp("MyModel", device->model)); sc_adb_devices_destroy(&vec); } static void test_adb_devices_without_header(void) { char output[] = "0123456789abcdef device usb:2-1 product:MyProduct model:MyModel " "device:MyDevice transport_id:1\n"; struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER; bool ok = sc_adb_parse_devices(output, &vec); assert(!ok); } static void test_adb_devices_corrupted(void) { char output[] = "List of devices attached\n" "corrupted_garbage\n"; struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER; bool ok = sc_adb_parse_devices(output, &vec); assert(ok); assert(vec.size == 0); } static void test_adb_devices_spaces(void) { char output[] = "List of devices attached\n" "0123456789abcdef unauthorized usb:1-4 transport_id:3\n"; struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER; bool ok = sc_adb_parse_devices(output, &vec); assert(ok); assert(vec.size == 1); struct sc_adb_device *device = &vec.data[0]; assert(!strcmp("0123456789abcdef", device->serial)); assert(!strcmp("unauthorized", device->state)); assert(!device->model); sc_adb_devices_destroy(&vec); } static void test_get_ip_single_line(void) { char ip_route[] = "192.168.1.0/24 dev wlan0 proto kernel scope link src " "192.168.12.34\r\r\n"; char *ip = sc_adb_parse_device_ip_from_output(ip_route); assert(ip); assert(!strcmp(ip, "192.168.12.34")); free(ip); } static void test_get_ip_single_line_without_eol(void) { char ip_route[] = "192.168.1.0/24 dev wlan0 proto kernel scope link src " "192.168.12.34"; char *ip = sc_adb_parse_device_ip_from_output(ip_route); assert(ip); assert(!strcmp(ip, "192.168.12.34")); free(ip); } static void test_get_ip_single_line_with_trailing_space(void) { char ip_route[] = "192.168.1.0/24 dev wlan0 proto kernel scope link src " "192.168.12.34 \n"; char *ip = sc_adb_parse_device_ip_from_output(ip_route); assert(ip); assert(!strcmp(ip, "192.168.12.34")); free(ip); } static void test_get_ip_multiline_first_ok(void) { char ip_route[] = "192.168.1.0/24 dev wlan0 proto kernel scope link src " "192.168.1.2\r\n" "10.0.0.0/24 dev rmnet proto kernel scope link src " "10.0.0.2\r\n"; char *ip = sc_adb_parse_device_ip_from_output(ip_route); assert(ip); assert(!strcmp(ip, "192.168.1.2")); free(ip); } static void test_get_ip_multiline_second_ok(void) { char ip_route[] = "10.0.0.0/24 dev rmnet proto kernel scope link src " "10.0.0.3\r\n" "192.168.1.0/24 dev wlan0 proto kernel scope link src " "192.168.1.3\r\n"; char *ip = sc_adb_parse_device_ip_from_output(ip_route); assert(ip); assert(!strcmp(ip, "192.168.1.3")); free(ip); } static void test_get_ip_no_wlan(void) { char ip_route[] = "192.168.1.0/24 dev rmnet proto kernel scope link src " "192.168.12.34\r\r\n"; char *ip = sc_adb_parse_device_ip_from_output(ip_route); assert(!ip); } static void test_get_ip_no_wlan_without_eol(void) { char ip_route[] = "192.168.1.0/24 dev rmnet proto kernel scope link src " "192.168.12.34"; char *ip = sc_adb_parse_device_ip_from_output(ip_route); assert(!ip); } static void test_get_ip_truncated(void) { char ip_route[] = "192.168.1.0/24 dev rmnet proto kernel scope link src " "\n"; char *ip = sc_adb_parse_device_ip_from_output(ip_route); assert(!ip); } int main(int argc, char *argv[]) { (void) argc; (void) argv; test_adb_devices(); test_adb_devices_cr(); test_adb_devices_daemon_start(); test_adb_devices_daemon_start_mixed(); test_adb_devices_without_eol(); test_adb_devices_without_header(); test_adb_devices_corrupted(); test_adb_devices_spaces(); test_get_ip_single_line(); test_get_ip_single_line_without_eol(); test_get_ip_single_line_with_trailing_space(); test_get_ip_multiline_first_ok(); test_get_ip_multiline_second_ok(); test_get_ip_no_wlan(); test_get_ip_no_wlan_without_eol(); test_get_ip_truncated(); }