// Jackson Coxson #include #include #include #include #include #include using namespace IdeviceFFI; int main(int argc, char** argv) { idevice_init_logger(Debug, Disabled, NULL); bool deactivate = false; if (argc == 2 && std::string(argv[1]) == "deactivate") { deactivate = true; } else if (argc > 2) { std::cerr << "Usage:\n" << " " << argv[0] << "\n" << " " << argv[0] << " deactivate\n"; return 2; } auto mux = UsbmuxdConnection::default_new(0).expect("failed to connect to usbmuxd"); auto devices = mux.get_devices().expect("failed to list devices"); if (devices.empty()) { std::cerr << "no devices connected\n"; return 1; } auto& dev = devices[0]; auto udid = dev.get_udid(); if (udid.is_none()) { std::cerr << "device has no UDID\n"; return 1; } auto mux_id = dev.get_id(); if (mux_id.is_none()) { std::cerr << "device has no mux id\n"; return 1; } auto addr = UsbmuxdAddr::default_new(); const uint32_t tag = 0; const std::string label = "mobileactivationd-client"; auto provider = Provider::usbmuxd_new(std::move(addr), tag, udid.unwrap(), mux_id.unwrap(), label) .expect("failed to create provider"); auto mobileactivationd = MobileActivationd::connect(provider).expect("failed to connect to mobileactivationd"); auto state = mobileactivationd.get_state().expect("failed to get activation state"); auto activated = mobileactivationd.is_activated().expect("failed to get activation status"); std::cout << "Activation state: " << state << "\n"; std::cout << "Activated: " << (activated ? "true" : "false") << "\n"; if (deactivate) { mobileactivationd.deactivate().expect("failed to deactivate device"); std::cout << "Deactivation request sent\n"; } return 0; }