#include #include #include #include #include #include #include #include "graphics.h" #include "misc.h" #include "vaapi.h" #include "sunshine/main.h" #include "sunshine/platform/common.h" #ifdef __GNUC__ #define SUNSHINE_GNUC_EXTENSION __extension__ #else #define SUNSHINE_GNUC_EXTENSION #endif using namespace std::literals; namespace fs = std::filesystem; window_system_e window_system; namespace dyn { void *handle(const std::vector &libs) { void *handle; for(auto lib : libs) { handle = dlopen(lib, RTLD_LAZY | RTLD_LOCAL); if(handle) { return handle; } } std::stringstream ss; ss << "Couldn't find any of the following libraries: ["sv << libs.front(); std::for_each(std::begin(libs) + 1, std::end(libs), [&](auto lib) { ss << ", "sv << lib; }); ss << ']'; BOOST_LOG(error) << ss.str(); return nullptr; } int load(void *handle, const std::vector> &funcs, bool strict) { int err = 0; for(auto &func : funcs) { TUPLE_2D_REF(fn, name, func); *fn = SUNSHINE_GNUC_EXTENSION(apiproc) dlsym(handle, name); if(!*fn && strict) { BOOST_LOG(error) << "Couldn't find function: "sv << name; err = -1; } } return err; } } // namespace dyn namespace platf { using ifaddr_t = util::safe_ptr; ifaddr_t get_ifaddrs() { ifaddrs *p { nullptr }; getifaddrs(&p); return ifaddr_t { p }; } fs::path appdata() { const char *homedir; if((homedir = getenv("HOME")) == nullptr) { homedir = getpwuid(geteuid())->pw_dir; } return fs::path { homedir } / ".config/sunshine"sv; } std::string from_sockaddr(const sockaddr *const ip_addr) { char data[INET6_ADDRSTRLEN]; auto family = ip_addr->sa_family; if(family == AF_INET6) { inet_ntop(AF_INET6, &((sockaddr_in6 *)ip_addr)->sin6_addr, data, INET6_ADDRSTRLEN); } if(family == AF_INET) { inet_ntop(AF_INET, &((sockaddr_in *)ip_addr)->sin_addr, data, INET_ADDRSTRLEN); } return std::string { data }; } std::pair from_sockaddr_ex(const sockaddr *const ip_addr) { char data[INET6_ADDRSTRLEN]; auto family = ip_addr->sa_family; std::uint16_t port; if(family == AF_INET6) { inet_ntop(AF_INET6, &((sockaddr_in6 *)ip_addr)->sin6_addr, data, INET6_ADDRSTRLEN); port = ((sockaddr_in6 *)ip_addr)->sin6_port; } if(family == AF_INET) { inet_ntop(AF_INET, &((sockaddr_in *)ip_addr)->sin_addr, data, INET_ADDRSTRLEN); port = ((sockaddr_in *)ip_addr)->sin_port; } return { port, std::string { data } }; } std::string get_mac_address(const std::string_view &address) { auto ifaddrs = get_ifaddrs(); for(auto pos = ifaddrs.get(); pos != nullptr; pos = pos->ifa_next) { if(pos->ifa_addr && address == from_sockaddr(pos->ifa_addr)) { std::ifstream mac_file("/sys/class/net/"s + pos->ifa_name + "/address"); if(mac_file.good()) { std::string mac_address; std::getline(mac_file, mac_address); return mac_address; } } } BOOST_LOG(warning) << "Unable to find MAC address for "sv << address; return "00:00:00:00:00:00"s; } enum class source_e { #ifdef SUNSHINE_BUILD_WAYLAND WAYLAND, #endif #ifdef SUNSHINE_BUILD_DRM KMS, #endif #ifdef SUNSHINE_BUILD_X11 X11, #endif }; static source_e source; #ifdef SUNSHINE_BUILD_WAYLAND std::vector wl_display_names(); std::shared_ptr wl_display(mem_type_e hwdevice_type, const std::string &display_name, int framerate); bool verify_wl() { return window_system == window_system_e::WAYLAND && !wl_display_names().empty(); } #endif #ifdef SUNSHINE_BUILD_DRM std::vector kms_display_names(); std::shared_ptr kms_display(mem_type_e hwdevice_type, const std::string &display_name, int framerate); bool verify_kms() { return !kms_display_names().empty(); } #endif #ifdef SUNSHINE_BUILD_X11 std::vector x11_display_names(); std::shared_ptr x11_display(mem_type_e hwdevice_type, const std::string &display_name, int framerate); bool verify_x11() { return window_system == window_system_e::X11 && !x11_display_names().empty(); } #endif std::vector display_names() { switch(source) { #ifdef SUNSHINE_BUILD_WAYLAND case source_e::WAYLAND: return wl_display_names(); #endif #ifdef SUNSHINE_BUILD_DRM case source_e::KMS: return kms_display_names(); #endif #ifdef SUNSHINE_BUILD_X11 case source_e::X11: return x11_display_names(); #endif } return {}; } std::shared_ptr display(mem_type_e hwdevice_type, const std::string &display_name, int framerate) { switch(source) { #ifdef SUNSHINE_BUILD_WAYLAND case source_e::WAYLAND: return wl_display(hwdevice_type, display_name, framerate); #endif #ifdef SUNSHINE_BUILD_DRM case source_e::KMS: return kms_display(hwdevice_type, display_name, framerate); #endif #ifdef SUNSHINE_BUILD_X11 case source_e::X11: return x11_display(hwdevice_type, display_name, framerate); #endif } return nullptr; } std::unique_ptr init() { // These are allowed to fail. gbm::init(); va::init(); window_system = window_system_e::NONE; #ifdef SUNSHINE_BUILD_WAYLAND if(std::getenv("WAYLAND_DISPLAY")) { window_system = window_system_e::WAYLAND; } #endif #ifdef SUNSHINE_BUILD_X11 if(std::getenv("DISPLAY") && window_system != window_system_e::WAYLAND) { if(std::getenv("WAYLAND_DISPLAY")) { BOOST_LOG(warning) << "Wayland detected, yet sunshine will use X11 for screencasting, screencasting will only work on XWayland applications"sv; } window_system = window_system_e::X11; } #endif #ifdef SUNSHINE_BUILD_WAYLAND if(verify_wl()) { BOOST_LOG(info) << "Using Wayland for screencasting"sv; source = source_e::WAYLAND; goto found_source; } #endif #ifdef SUNSHINE_BUILD_DRM if(verify_kms()) { if(window_system == window_system_e::WAYLAND) { // On Wayland, using KMS, the cursor is unreliable. // Hide it by default display_cursor = false; } BOOST_LOG(info) << "Using KMS for screencasting"sv; source = source_e::KMS; goto found_source; } #endif #ifdef SUNSHINE_BUILD_X11 if(verify_x11()) { BOOST_LOG(info) << "Using X11 for screencasting"sv; source = source_e::X11; goto found_source; } #endif // Did not find a source return nullptr; // Normally, I would simply use if-else statements to achieve this result, // but due to the macro's, (*spits on ground*), it would be too messy found_source: if(!gladLoaderLoadEGL(EGL_NO_DISPLAY) || !eglGetPlatformDisplay) { BOOST_LOG(warning) << "Couldn't load EGL library"sv; } return std::make_unique(); } } // namespace platf