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base: drgreen:android-framework-23
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drgreen:master drgreen:autodraw drgreen:dev drgreen:includes drgreen:audiorecord_shell drgreen:list_cameras_fix drgreen:winget drgreen:pr5658 drgreen:rotate drgreen:dav1d drgreen:gamepad_fixes drgreen:gamepad_fixes.7 drgreen:cleanup drgreen:no_vd_destroy_content drgreen:main_display_events drgreen:gamepad_fixes.5 drgreen:gamepad_fixes.3 drgreen:release drgreen:tcpip_noreset drgreen:tmp drgreen:exec_path drgreen:issue5542.3 drgreen:issue5542.2 drgreen:issue5542 drgreen:macos_close_on_interrupt drgreen:linux_macos_arch drgreen:turn_screen_off_vd drgreen:static_builds drgreen:macos_build.2 drgreen:macos_build drgreen:pr5466 drgreen:new_display_resize drgreen:display_capture_fps drgreen:glfilter drgreen:glfilter.69 drgreen:glfilter.68 drgreen:pr5499 drgreen:glfilter.67 drgreen:glfilter.66 drgreen:glfilter.65 drgreen:whatsnew drgreen:server_debugger_runtime drgreen:glfilter.63 drgreen:glfilter.61 drgreen:glfilter.56.revert drgreen:glfilter.56 drgreen:glfilter.55 drgreen:glfilter.52 drgreen:content-resolver drgreen:keep_existing_display drgreen:screen_off_timeout drgreen:reset_video drgreen:per_display_screen_on drgreen:opengl_filter drgreen:newdisplay_resize drgreen:only_power_on_main_display drgreen:display_changed drgreen:video_buffer drgreen:broken_options_android_14 drgreen:display_power_android15 drgreen:codecinfo drgreen:virtual_display drgreen:ga drgreen:display_changed.3 drgreen:gamepad_usb_ids drgreen:virtual_display.5 drgreen:forward_alt_meta drgreen:horizontal_tilt drgreen:codec_mismatch drgreen:gamepad drgreen:gamepad.draft4 drgreen:gamepad.draft3 drgreen:gamepad.rumblewip drgreen:gamepad_resampler.1 drgreen:gamepad.draft2 drgreen:gamepad.draft1 drgreen:issue5182 drgreen:issue5162.2 drgreen:workarounds drgreen:pr5148 drgreen:honoroff.5 drgreen:audiodup drgreen:bindings_shift drgreen:device_disconnected drgreen:deps drgreen:hover drgreen:mouse_bind drgreen:forward_all_clicks drgreen:simplify_shortcut_mods drgreen:pr5008 drgreen:icon_decoder drgreen:nolock.2 drgreen:build_windows_doc drgreen:nolock drgreen:window drgreen:window.15 drgreen:window.14 drgreen:window.12 drgreen:window.10 drgreen:window.9 drgreen:rtmp drgreen:pr4841 drgreen:pr4822 drgreen:pr4740.3 drgreen:pr4740 drgreen:yuv drgreen:display_pause drgreen:upgrade_libusb_1_0_27 drgreen:upgrade_sdl_2_30 drgreen:uhid.38 drgreen:uhid.37 drgreen:uhid.36 drgreen:uhid.34 drgreen:uhid.32 drgreen:uhid.30 drgreen:uhid.28 drgreen:uhid.27 drgreen:pr4698 drgreen:issue4703 drgreen:uhid.26 drgreen:uhid.25 drgreen:uhid.24 drgreen:uhid.23 drgreen:uhid.20 drgreen:uhid.15 drgreen:audio_player_atomic drgreen:audio_player_atomic.16 drgreen:dynamic_cleanup drgreen:audio_player_atomic.15 drgreen:display_manager_api drgreen:audio_player_atomic.14 drgreen:audio_player_atomic.12 drgreen:audio_player_atomic.11 drgreen:audio_player_atomic.9 drgreen:uhid.10 drgreen:uhid.3 drgreen:uhid.1 drgreen:atomic.5 drgreen:issue4536 drgreen:tilt.2 drgreen:issue4492 drgreen:av1 drgreen:reschange.3 drgreen:issue4477 drgreen:issue4467 drgreen:turnscreenoff_android14_sameprocess drgreen:pr4435 drgreen:crossbuild drgreen:pr4448 drgreen:orientation drgreen:turn_screen_off_android14 drgreen:turnscreenoff_android14 drgreen:camera_noaudio drgreen:orientation.10 drgreen:wav.6 drgreen:flac.4 drgreen:flac.3 drgreen:cameraphy.3 drgreen:camerafix drgreen:camerafpsranges drgreen:cameraphy.2 drgreen:cameraphy drgreen:fix4392gizmodo drgreen:fix4392zxc.4 drgreen:fix4392zxc.3 drgreen:fix4392zxc.2 drgreen:fix4392zxc.1 drgreen:camera.38 drgreen:camera.37 drgreen:camera.36 drgreen:camera.30 drgreen:camera.29 drgreen:camera.28 drgreen:camera.26 drgreen:camera.25 drgreen:camera.24 drgreen:camera.22 drgreen:camera.21 drgreen:camera.20 drgreen:pr4373.4 drgreen:pr4373.3 drgreen:pr4373.2 drgreen:pr4373 drgreen:camera.14 drgreen:pr4371 drgreen:pr4364 drgreen:pause_on_error drgreen:camera.6 drgreen:camera.2 drgreen:camera drgreen:doc drgreen:donate drgreen:issue4120 drgreen:issue4115 drgreen:develop drgreen:honor.6 drgreen:honor.5 drgreen:honor.4 drgreen:honor.3 drgreen:honor drgreen:activity_thread drgreen:ctx drgreen:sdl_2_27_1 drgreen:timelimit drgreen:pr4075 drgreen:fix_audio_pts.4 drgreen:fix_audio_pts.2 drgreen:fix_audio_pts drgreen:no_kill_adb_before_otg drgreen:mic drgreen:pr3979 drgreen:noplayback drgreen:vivo_workaround drgreen:fix_minimize.5 drgreen:novideo drgreen:fix_minimize.3 drgreen:pr3902 drgreen:macos_opengl drgreen:window_display drgreen:android-framework-23 drgreen:clock_noslope drgreen:android14 drgreen:android11_workaround_retry drgreen:audio_output_buffer drgreen:split_workarounds drgreen:basedoc drgreen:audio drgreen:audio.158 drgreen:audio.145 drgreen:audio.124 drgreen:audio.123 drgreen:audio.119 drgreen:audio.115 drgreen:audio.107 drgreen:custom-ffmpeg drgreen:audio.89 drgreen:audio.88 drgreen:audio.87 drgreen:audio.86 drgreen:audio.85 drgreen:audio.79 drgreen:audio.76 drgreen:audio.53 drgreen:audio.50 drgreen:audio.47 drgreen:audio.46 drgreen:audio.43 drgreen:packet_merger drgreen:audio.27 drgreen:audio.26 drgreen:readme-fedora drgreen:codec drgreen:physical_displays drgreen:audio.12 drgreen:audio.10 drgreen:audio.8 drgreen:audio.7 drgreen:pts_client drgreen:fakecontext.2 drgreen:fakecontext drgreen:fix-chrome drgreen:refactor-encoder.3 drgreen:refactor-encoder.2 drgreen:refactor-encoder drgreen:rtp drgreen:feature drgreen:packet_ref drgreen:fix3568 drgreen:tcpip_anyport drgreen:pr3547.2 drgreen:pr3547 drgreen:pr3523 drgreen:install drgreen:install.10 drgreen:pr3416.5 drgreen:install.9 drgreen:pr3416.4 drgreen:pr3416.3 drgreen:pr3416.2 drgreen:pr3416 drgreen:pr3351.3 drgreen:pr3369.4 drgreen:meson_source_root drgreen:move_translations_to_wiki drgreen:getdisplayids drgreen:pr3369.3 drgreen:printf_float drgreen:pr3369.1 drgreen:install.8 drgreen:pr3351.2 drgreen:pr3351 drgreen:install.3 drgreen:install.2 drgreen:build-deps drgreen:otg_window_size drgreen:no_power_on drgreen:typos drgreen:upgrade drgreen:pr3177 drgreen:android13 drgreen:pr3151 drgreen:pr3174 drgreen:emu drgreen:android_serial drgreen:hw_dec_poc drgreen:fix_readme drgreen:exit_code drgreen:bash_completion drgreen:zsh_completion.2 drgreen:illegalargumentexception drgreen:zsh_completion drgreen:vector drgreen:otg-windows drgreen:libusb-macos drgreen:print_fps drgreen:faq_dpi_awareness drgreen:pr3026 drgreen:nocleanup drgreen:pr3023 drgreen:adb_devices drgreen:libusb-all drgreen:libusb-windows drgreen:downscale-on-error-fix drgreen:otg drgreen:open_a_terminal_here drgreen:raw_video_stream drgreen:downsize_on_error drgreen:ffmpeg_windows drgreen:pr2946 drgreen:ffmpeg5 drgreen:hidmouse drgreen:hidmouse.13 drgreen:hidmouse.10 drgreen:hidmouse.8 drgreen:hidmouse.7 drgreen:hidmouse.5 drgreen:hidmouse.4 drgreen:hidmouse.2 drgreen:input_events.6 drgreen:input_events.5 drgreen:input_events.2 drgreen:input_events drgreen:windows_dpi_awareness drgreen:pr2879 drgreen:windows_icon drgreen:fix_build_without_gradle drgreen:fix_win7 drgreen:copycut drgreen:rawkeyevents_2021 drgreen:tcpip drgreen:no_clipboard_autosync drgreen:acksync drgreen:feature_test_macros.config drgreen:feature_test_macros drgreen:process_inherit.4 drgreen:process_inherit.3 drgreen:process_inherit drgreen:pr2807 drgreen:settings drgreen:adb_serial.2 drgreen:pr2786 drgreen:windows_inherit_handles drgreen:fix_inherit_handles drgreen:sdl drgreen:process drgreen:file drgreen:strbuf.6 drgreen:strbuf.5 drgreen:strbuf.4 drgreen:strbuf drgreen:server_thread.19 drgreen:server_thread.17 drgreen:server_thread.14 drgreen:push_event drgreen:server_thread.8 drgreen:sc_socket.3 drgreen:icon.6 drgreen:icon.5 drgreen:hid.19 drgreen:hid.13 drgreen:hid.12 drgreen:hid.10 drgreen:input_traits drgreen:net_perror drgreen:fix2619.2 drgreen:scroll_mouse drgreen:wayland drgreen:wireless-section drgreen:buffering.10 drgreen:buffering drgreen:buffering.7 drgreen:buffering.6 drgreen:buffering.5 drgreen:buffering.2 drgreen:control_no_display drgreen:release-v1.18 drgreen:logv drgreen:novla drgreen:fix_android12_settings drgreen:center_on_resize drgreen:sdcard_download drgreen:scan_media drgreen:fix2382.2 drgreen:fix2382 drgreen:broadcast drgreen:pr2299 drgreen:server_thread.2 drgreen:cleanup_serialize drgreen:device_simple drgreen:nosecureflag_quickfix drgreen:settings_panel.2 drgreen:settings_panel drgreen:v4l2_sink drgreen:traits.7 drgreen:mouse_buttons drgreen:traits.4 drgreen:traits drgreen:pr2231 drgreen:issue2218 drgreen:install_release drgreen:pr2195 drgreen:issue2169 drgreen:device_id_0 drgreen:filter.12 drgreen:filter.11 drgreen:filter.7 drgreen:filter.6 drgreen:android12_nosecure drgreen:filter.5 drgreen:filter.3 drgreen:filter.2 drgreen:swscale drgreen:thread drgreen:strdup drgreen:pr2052 drgreen:feature_test_macro drgreen:display_id_range drgreen:pr2004 drgreen:racecond_on_close.2 drgreen:racecond_on_close drgreen:icon drgreen:makefile drgreen:noconsolevbs drgreen:doc-rotate drgreen:wincli drgreen:issue1875 drgreen:pr1944 drgreen:pr1960 drgreen:adbkeyboard drgreen:encoder_name drgreen:legacy_paste drgreen:l10n_id drgreen:zh-hans drgreen:issue1468 drgreen:issue1726 drgreen:pr1670 drgreen:issue1681 drgreen:pr1626 drgreen:issue1658 drgreen:issue1655 drgreen:pinch_zoom drgreen:fixrepeat drgreen:pr1577 drgreen:pr1623 drgreen:shortcutmod drgreen:shortcut.10 drgreen:pr1576 drgreen:left_ctrl drgreen:pr1559 drgreen:clipboard_manager drgreen:issue1536 drgreen:repeat drgreen:pr1502 drgreen:clipboard.3 drgreen:clipboard drgreen:meta drgreen:forward_modifiers drgreen:ctrl drgreen:copy drgreen:textpaste drgreen:verbose drgreen:seamless_copypaste drgreen:copypaste drgreen:render_rework drgreen:logical_size.15 drgreen:logical_size.14 drgreen:resize.3 drgreen:resize.2 drgreen:pr1313 drgreen:fixfullscreen drgreen:logical_size.11 drgreen:name_params drgreen:codec_options drgreen:logical_size.10 drgreen:issue15.2 drgreen:issue15 drgreen:logical_size.8 drgreen:logical_size.7 drgreen:logical_size.6 drgreen:supports_input_events drgreen:mipmaps drgreen:client_rotate.5 drgreen:logical_size.4 drgreen:Issue-and-PR-templates drgreen:pr1263.rom1v drgreen:threadwait.3 drgreen:threadwait.2 drgreen:threadwait drgreen:pr1238 drgreen:negativepos drgreen:faq drgreen:pr1188 drgreen:locked drgreen:pr1151.rom1v drgreen:adb_hint.2 drgreen:adb_hint drgreen:portrange drgreen:issue1062 drgreen:pr1002 drgreen:longlong drgreen:rotatedevice drgreen:meizu drgreen:maximized.2 drgreen:compare_version drgreen:mainlooper drgreen:textevents.2 drgreen:textevents drgreen:fixhidpi.4 drgreen:fixhidpi.3 drgreen:window-params drgreen:build_without_gradle drgreen:logical_size.3 drgreen:logical_size.2 drgreen:virtualfinger drgreen:finger.8 drgreen:finger.7 drgreen:finger.5 drgreen:finger drgreen:finger.4 drgreen:fix707 drgreen:record_duration drgreen:issue702 drgreen:cmd_macos drgreen:cmd_macos.2 drgreen:buffered_reader drgreen:portable drgreen:fps drgreen:twosockets drgreen:screenoff drgreen:headerfix drgreen:extradata drgreen:issue386 drgreen:issue362 drgreen:bumpversion drgreen:record drgreen:macos_volume drgreen:rawalpha drgreen:logicalscale drgreen:rawkeyevents drgreen:crop drgreen:cross drgreen:audio_old drgreen:api19 drgreen:arch drgreen:forward drgreen:hidpiscale drgreen:hidpi
drgreen:v3.1 drgreen:v3.0.2 drgreen:v3.0.1 drgreen:v3.0 drgreen:v2.7 drgreen:v2.6.1-install-release drgreen:v2.6.1 drgreen:v2.6 drgreen:v2.6-install-release drgreen:v2.5-install-release drgreen:v2.5 drgreen:v2.4-install-release drgreen:v2.4 drgreen:v2.3.1-install-release drgreen:v2.3.1 drgreen:v2.3-install-release drgreen:v2.3 drgreen:v2.2-install-release drgreen:v2.2 drgreen:v2.1.1-install-release drgreen:v2.1.1 drgreen:v2.1-install-release drgreen:v2.1 drgreen:v2.0-install-release drgreen:v2.0 drgreen:v1.25 drgreen:v1.24 drgreen:v1.23 drgreen:v1.22 drgreen:v1.21 drgreen:v1.20 drgreen:v1.19 drgreen:v1.18 drgreen:v1.17 drgreen:v1.16 drgreen:v1.15.1 drgreen:v1.15 drgreen:v1.14 drgreen:v1.13 drgreen:v1.12.1 drgreen:v1.12 drgreen:v1.11 drgreen:v1.10 drgreen:v1.9 drgreen:v1.8 drgreen:v1.7 drgreen:v1.6 drgreen:v1.5-fixversion drgreen:v1.5 drgreen:v1.4 drgreen:v1.3 drgreen:v1.2 drgreen:v1.1 drgreen:v1.0
..
compare: drgreen:supports_input_events
Branches Tags
drgreen:autodraw drgreen:master drgreen:dev drgreen:includes drgreen:audiorecord_shell drgreen:list_cameras_fix drgreen:winget drgreen:pr5658 drgreen:rotate drgreen:dav1d drgreen:gamepad_fixes drgreen:gamepad_fixes.7 drgreen:cleanup drgreen:no_vd_destroy_content drgreen:main_display_events drgreen:gamepad_fixes.5 drgreen:gamepad_fixes.3 drgreen:release drgreen:tcpip_noreset drgreen:tmp drgreen:exec_path drgreen:issue5542.3 drgreen:issue5542.2 drgreen:issue5542 drgreen:macos_close_on_interrupt drgreen:linux_macos_arch drgreen:turn_screen_off_vd drgreen:static_builds drgreen:macos_build.2 drgreen:macos_build drgreen:pr5466 drgreen:new_display_resize drgreen:display_capture_fps drgreen:glfilter drgreen:glfilter.69 drgreen:glfilter.68 drgreen:pr5499 drgreen:glfilter.67 drgreen:glfilter.66 drgreen:glfilter.65 drgreen:whatsnew drgreen:server_debugger_runtime drgreen:glfilter.63 drgreen:glfilter.61 drgreen:glfilter.56.revert drgreen:glfilter.56 drgreen:glfilter.55 drgreen:glfilter.52 drgreen:content-resolver drgreen:keep_existing_display drgreen:screen_off_timeout drgreen:reset_video drgreen:per_display_screen_on drgreen:opengl_filter drgreen:newdisplay_resize drgreen:only_power_on_main_display drgreen:display_changed drgreen:video_buffer drgreen:broken_options_android_14 drgreen:display_power_android15 drgreen:codecinfo drgreen:virtual_display drgreen:ga drgreen:display_changed.3 drgreen:gamepad_usb_ids drgreen:virtual_display.5 drgreen:forward_alt_meta drgreen:horizontal_tilt drgreen:codec_mismatch drgreen:gamepad drgreen:gamepad.draft4 drgreen:gamepad.draft3 drgreen:gamepad.rumblewip drgreen:gamepad_resampler.1 drgreen:gamepad.draft2 drgreen:gamepad.draft1 drgreen:issue5182 drgreen:issue5162.2 drgreen:workarounds drgreen:pr5148 drgreen:honoroff.5 drgreen:audiodup drgreen:bindings_shift drgreen:device_disconnected drgreen:deps drgreen:hover drgreen:mouse_bind drgreen:forward_all_clicks drgreen:simplify_shortcut_mods drgreen:pr5008 drgreen:icon_decoder drgreen:nolock.2 drgreen:build_windows_doc drgreen:nolock drgreen:window drgreen:window.15 drgreen:window.14 drgreen:window.12 drgreen:window.10 drgreen:window.9 drgreen:rtmp drgreen:pr4841 drgreen:pr4822 drgreen:pr4740.3 drgreen:pr4740 drgreen:yuv drgreen:display_pause drgreen:upgrade_libusb_1_0_27 drgreen:upgrade_sdl_2_30 drgreen:uhid.38 drgreen:uhid.37 drgreen:uhid.36 drgreen:uhid.34 drgreen:uhid.32 drgreen:uhid.30 drgreen:uhid.28 drgreen:uhid.27 drgreen:pr4698 drgreen:issue4703 drgreen:uhid.26 drgreen:uhid.25 drgreen:uhid.24 drgreen:uhid.23 drgreen:uhid.20 drgreen:uhid.15 drgreen:audio_player_atomic drgreen:audio_player_atomic.16 drgreen:dynamic_cleanup drgreen:audio_player_atomic.15 drgreen:display_manager_api drgreen:audio_player_atomic.14 drgreen:audio_player_atomic.12 drgreen:audio_player_atomic.11 drgreen:audio_player_atomic.9 drgreen:uhid.10 drgreen:uhid.3 drgreen:uhid.1 drgreen:atomic.5 drgreen:issue4536 drgreen:tilt.2 drgreen:issue4492 drgreen:av1 drgreen:reschange.3 drgreen:issue4477 drgreen:issue4467 drgreen:turnscreenoff_android14_sameprocess drgreen:pr4435 drgreen:crossbuild drgreen:pr4448 drgreen:orientation drgreen:turn_screen_off_android14 drgreen:turnscreenoff_android14 drgreen:camera_noaudio drgreen:orientation.10 drgreen:wav.6 drgreen:flac.4 drgreen:flac.3 drgreen:cameraphy.3 drgreen:camerafix drgreen:camerafpsranges drgreen:cameraphy.2 drgreen:cameraphy drgreen:fix4392gizmodo drgreen:fix4392zxc.4 drgreen:fix4392zxc.3 drgreen:fix4392zxc.2 drgreen:fix4392zxc.1 drgreen:camera.38 drgreen:camera.37 drgreen:camera.36 drgreen:camera.30 drgreen:camera.29 drgreen:camera.28 drgreen:camera.26 drgreen:camera.25 drgreen:camera.24 drgreen:camera.22 drgreen:camera.21 drgreen:camera.20 drgreen:pr4373.4 drgreen:pr4373.3 drgreen:pr4373.2 drgreen:pr4373 drgreen:camera.14 drgreen:pr4371 drgreen:pr4364 drgreen:pause_on_error drgreen:camera.6 drgreen:camera.2 drgreen:camera drgreen:doc drgreen:donate drgreen:issue4120 drgreen:issue4115 drgreen:develop drgreen:honor.6 drgreen:honor.5 drgreen:honor.4 drgreen:honor.3 drgreen:honor drgreen:activity_thread drgreen:ctx drgreen:sdl_2_27_1 drgreen:timelimit drgreen:pr4075 drgreen:fix_audio_pts.4 drgreen:fix_audio_pts.2 drgreen:fix_audio_pts drgreen:no_kill_adb_before_otg drgreen:mic drgreen:pr3979 drgreen:noplayback drgreen:vivo_workaround drgreen:fix_minimize.5 drgreen:novideo drgreen:fix_minimize.3 drgreen:pr3902 drgreen:macos_opengl drgreen:window_display drgreen:android-framework-23 drgreen:clock_noslope drgreen:android14 drgreen:android11_workaround_retry drgreen:audio_output_buffer drgreen:split_workarounds drgreen:basedoc drgreen:audio drgreen:audio.158 drgreen:audio.145 drgreen:audio.124 drgreen:audio.123 drgreen:audio.119 drgreen:audio.115 drgreen:audio.107 drgreen:custom-ffmpeg drgreen:audio.89 drgreen:audio.88 drgreen:audio.87 drgreen:audio.86 drgreen:audio.85 drgreen:audio.79 drgreen:audio.76 drgreen:audio.53 drgreen:audio.50 drgreen:audio.47 drgreen:audio.46 drgreen:audio.43 drgreen:packet_merger drgreen:audio.27 drgreen:audio.26 drgreen:readme-fedora drgreen:codec drgreen:physical_displays drgreen:audio.12 drgreen:audio.10 drgreen:audio.8 drgreen:audio.7 drgreen:pts_client drgreen:fakecontext.2 drgreen:fakecontext drgreen:fix-chrome drgreen:refactor-encoder.3 drgreen:refactor-encoder.2 drgreen:refactor-encoder drgreen:rtp drgreen:feature drgreen:packet_ref drgreen:fix3568 drgreen:tcpip_anyport drgreen:pr3547.2 drgreen:pr3547 drgreen:pr3523 drgreen:install drgreen:install.10 drgreen:pr3416.5 drgreen:install.9 drgreen:pr3416.4 drgreen:pr3416.3 drgreen:pr3416.2 drgreen:pr3416 drgreen:pr3351.3 drgreen:pr3369.4 drgreen:meson_source_root drgreen:move_translations_to_wiki drgreen:getdisplayids drgreen:pr3369.3 drgreen:printf_float drgreen:pr3369.1 drgreen:install.8 drgreen:pr3351.2 drgreen:pr3351 drgreen:install.3 drgreen:install.2 drgreen:build-deps drgreen:otg_window_size drgreen:no_power_on drgreen:typos drgreen:upgrade drgreen:pr3177 drgreen:android13 drgreen:pr3151 drgreen:pr3174 drgreen:emu drgreen:android_serial drgreen:hw_dec_poc drgreen:fix_readme drgreen:exit_code drgreen:bash_completion drgreen:zsh_completion.2 drgreen:illegalargumentexception drgreen:zsh_completion drgreen:vector drgreen:otg-windows drgreen:libusb-macos drgreen:print_fps drgreen:faq_dpi_awareness drgreen:pr3026 drgreen:nocleanup drgreen:pr3023 drgreen:adb_devices drgreen:libusb-all drgreen:libusb-windows drgreen:downscale-on-error-fix drgreen:otg drgreen:open_a_terminal_here drgreen:raw_video_stream drgreen:downsize_on_error drgreen:ffmpeg_windows drgreen:pr2946 drgreen:ffmpeg5 drgreen:hidmouse drgreen:hidmouse.13 drgreen:hidmouse.10 drgreen:hidmouse.8 drgreen:hidmouse.7 drgreen:hidmouse.5 drgreen:hidmouse.4 drgreen:hidmouse.2 drgreen:input_events.6 drgreen:input_events.5 drgreen:input_events.2 drgreen:input_events drgreen:windows_dpi_awareness drgreen:pr2879 drgreen:windows_icon drgreen:fix_build_without_gradle drgreen:fix_win7 drgreen:copycut drgreen:rawkeyevents_2021 drgreen:tcpip drgreen:no_clipboard_autosync drgreen:acksync drgreen:feature_test_macros.config drgreen:feature_test_macros drgreen:process_inherit.4 drgreen:process_inherit.3 drgreen:process_inherit drgreen:pr2807 drgreen:settings drgreen:adb_serial.2 drgreen:pr2786 drgreen:windows_inherit_handles drgreen:fix_inherit_handles drgreen:sdl drgreen:process drgreen:file drgreen:strbuf.6 drgreen:strbuf.5 drgreen:strbuf.4 drgreen:strbuf drgreen:server_thread.19 drgreen:server_thread.17 drgreen:server_thread.14 drgreen:push_event drgreen:server_thread.8 drgreen:sc_socket.3 drgreen:icon.6 drgreen:icon.5 drgreen:hid.19 drgreen:hid.13 drgreen:hid.12 drgreen:hid.10 drgreen:input_traits drgreen:net_perror drgreen:fix2619.2 drgreen:scroll_mouse drgreen:wayland drgreen:wireless-section drgreen:buffering.10 drgreen:buffering drgreen:buffering.7 drgreen:buffering.6 drgreen:buffering.5 drgreen:buffering.2 drgreen:control_no_display drgreen:release-v1.18 drgreen:logv drgreen:novla drgreen:fix_android12_settings drgreen:center_on_resize drgreen:sdcard_download drgreen:scan_media drgreen:fix2382.2 drgreen:fix2382 drgreen:broadcast drgreen:pr2299 drgreen:server_thread.2 drgreen:cleanup_serialize drgreen:device_simple drgreen:nosecureflag_quickfix drgreen:settings_panel.2 drgreen:settings_panel drgreen:v4l2_sink drgreen:traits.7 drgreen:mouse_buttons drgreen:traits.4 drgreen:traits drgreen:pr2231 drgreen:issue2218 drgreen:install_release drgreen:pr2195 drgreen:issue2169 drgreen:device_id_0 drgreen:filter.12 drgreen:filter.11 drgreen:filter.7 drgreen:filter.6 drgreen:android12_nosecure drgreen:filter.5 drgreen:filter.3 drgreen:filter.2 drgreen:swscale drgreen:thread drgreen:strdup drgreen:pr2052 drgreen:feature_test_macro drgreen:display_id_range drgreen:pr2004 drgreen:racecond_on_close.2 drgreen:racecond_on_close drgreen:icon drgreen:makefile drgreen:noconsolevbs drgreen:doc-rotate drgreen:wincli drgreen:issue1875 drgreen:pr1944 drgreen:pr1960 drgreen:adbkeyboard drgreen:encoder_name drgreen:legacy_paste drgreen:l10n_id drgreen:zh-hans drgreen:issue1468 drgreen:issue1726 drgreen:pr1670 drgreen:issue1681 drgreen:pr1626 drgreen:issue1658 drgreen:issue1655 drgreen:pinch_zoom drgreen:fixrepeat drgreen:pr1577 drgreen:pr1623 drgreen:shortcutmod drgreen:shortcut.10 drgreen:pr1576 drgreen:left_ctrl drgreen:pr1559 drgreen:clipboard_manager drgreen:issue1536 drgreen:repeat drgreen:pr1502 drgreen:clipboard.3 drgreen:clipboard drgreen:meta drgreen:forward_modifiers drgreen:ctrl drgreen:copy drgreen:textpaste drgreen:verbose drgreen:seamless_copypaste drgreen:copypaste drgreen:render_rework drgreen:logical_size.15 drgreen:logical_size.14 drgreen:resize.3 drgreen:resize.2 drgreen:pr1313 drgreen:fixfullscreen drgreen:logical_size.11 drgreen:name_params drgreen:codec_options drgreen:logical_size.10 drgreen:issue15.2 drgreen:issue15 drgreen:logical_size.8 drgreen:logical_size.7 drgreen:logical_size.6 drgreen:supports_input_events 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1 Commits
android-fr ... supports_i

Author SHA1 Message Date
Romain Vimont
0e272561d6 Disable input events when necessary 
Disable input events on secondary displays before Android 10, even if
FLAG_PRESENTATION is not set.

Ref #1288 <https://github.com/Genymobile/scrcpy/issues/1288>
 2020-04-15 21:11:00 +02:00
285 changed files with 8076 additions and 27813 deletions
Expand all files Collapse all files

6
.github/ISSUE_TEMPLATE/bug_report.md vendored
View File

@ -21,9 +21,5 @@ assignees: ''
A clear and concise description of what the bug is.
On errors, please provide the output of the console (and `adb logcat` if relevant).
```
Please paste terminal output in a code block.
```
Format them between code blocks (delimited by ```).
Please do not post screenshots of your terminal, just post the content as text instead.

4
.gitignore vendored
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@ -1,9 +1,5 @@
build/
/dist/
/build-*/
/build_*/
/release-*/
.idea/
.gradle/
/x/
local.properties

153
doc/build.md → BUILD.md
View File

@ -2,16 +2,24 @@
Here are the instructions to build _scrcpy_ (client and server).
If you just want to build and install the latest release, follow the simplified
process described in [doc/linux.md](linux.md).
You may want to build only the client: the server binary, which will be pushed
to the Android device, does not depend on your system and architecture. In that
case, use the [prebuilt server] (so you will not need Java or the Android SDK).
[prebuilt server]: #prebuilt-server
## Branches
There are two main branches:
- `master`: contains the latest release. It is the home page of the project on
GitHub.
- `dev`: the current development branch. Every commit present in `dev` will be
in the next release.
### `master`
The `master` branch concerns the latest release, and is the home page of the
project on Github.
### `dev`
`dev` is the current development branch. Every commit present in `dev` will be
in the next release.
If you want to contribute code, please base your commits on the latest `dev`
branch.
@ -28,8 +36,6 @@ the following files to a directory accessible from your `PATH`:
- `AdbWinApi.dll`
- `AdbWinUsbApi.dll`
It is also available in scrcpy releases.
The client requires [FFmpeg] and [LibSDL2]. Just follow the instructions.
[adb]: https://developer.android.com/studio/command-line/adb.html
@ -50,15 +56,15 @@ Install the required packages from your package manager.
```bash
# runtime dependencies
sudo apt install ffmpeg libsdl2-2.0-0 adb libusb-1.0-0
sudo apt install ffmpeg libsdl2-2.0-0 adb
# client build dependencies
sudo apt install gcc git pkg-config meson ninja-build libsdl2-dev \
libavcodec-dev libavdevice-dev libavformat-dev libavutil-dev \
libswresample-dev libusb-1.0-0-dev
sudo apt install gcc git pkg-config meson ninja-build \
libavcodec-dev libavformat-dev libavutil-dev \
libsdl2-dev
# server build dependencies
sudo apt install openjdk-11-jdk
sudo apt install openjdk-8-jdk
```
On old versions (like Ubuntu 16.04), `meson` is too old. In that case, install
@ -77,7 +83,7 @@ pip3 install meson
sudo dnf install https://download1.rpmfusion.org/free/fedora/rpmfusion-free-release-$(rpm -E %fedora).noarch.rpm
# client build dependencies
sudo dnf install SDL2-devel ffms2-devel libusb-devel meson gcc make
sudo dnf install SDL2-devel ffms2-devel meson gcc make
# server build dependencies
sudo dnf install java-devel
@ -100,13 +106,13 @@ sudo apt install mingw-w64 mingw-w64-tools
You also need the JDK to build the server:
```bash
sudo apt install openjdk-11-jdk
sudo apt install openjdk-8-jdk
```
Then generate the releases:
```bash
./release.sh
make -f Makefile.CrossWindows
```
It will generate win32 and win64 releases into `dist/`.
@ -122,8 +128,7 @@ install the required packages:
```bash
# runtime dependencies
pacman -S mingw-w64-x86_64-SDL2 \
mingw-w64-x86_64-ffmpeg \
mingw-w64-x86_64-libusb
mingw-w64-x86_64-ffmpeg
# client build dependencies
pacman -S mingw-w64-x86_64-make \
@ -137,8 +142,7 @@ For a 32 bits version, replace `x86_64` by `i686`:
```bash
# runtime dependencies
pacman -S mingw-w64-i686-SDL2 \
mingw-w64-i686-ffmpeg \
mingw-w64-i686-libusb
mingw-w64-i686-ffmpeg
# client build dependencies
pacman -S mingw-w64-i686-make \
@ -162,19 +166,19 @@ Install the packages with [Homebrew]:
```bash
# runtime dependencies
brew install sdl2 ffmpeg libusb
brew install sdl2 ffmpeg
# client build dependencies
brew install pkg-config meson
```
Additionally, if you want to build the server, install Java 8 from Caskroom, and
make it available from the `PATH`:
make it avaliable from the `PATH`:
```bash
brew tap homebrew/cask-versions
brew install adoptopenjdk/openjdk/adoptopenjdk11
export JAVA_HOME="$(/usr/libexec/java_home --version 1.11)"
brew tap caskroom/versions
brew cask install java8
export JAVA_HOME="$(/usr/libexec/java_home --version 1.8)"
export PATH="$JAVA_HOME/bin:$PATH"
```
@ -185,44 +189,29 @@ See [pierlon/scrcpy-docker](https://github.com/pierlon/scrcpy-docker).
## Common steps
**As a non-root user**, clone the project:
If you want to build the server, install the [Android SDK] (_Android Studio_),
and set `ANDROID_HOME` to its directory. For example:
[Android SDK]: https://developer.android.com/studio/index.html
```bash
export ANDROID_HOME=~/android/sdk
```
If you don't want to build the server, use the [prebuilt server].
Clone the project:
```bash
git clone https://github.com/Genymobile/scrcpy
cd scrcpy
```
### Build
You may want to build only the client: the server binary, which will be pushed
to the Android device, does not depend on your system and architecture. In that
case, use the [prebuilt server] (so you will not need Java or the Android SDK).
[prebuilt server]: #option-2-use-prebuilt-server
#### Option 1: Build everything from sources
Install the [Android SDK] (_Android Studio_), and set `ANDROID_SDK_ROOT` to its
directory. For example:
[Android SDK]: https://developer.android.com/studio/index.html
```bash
# Linux
export ANDROID_SDK_ROOT=~/Android/Sdk
# Mac
export ANDROID_SDK_ROOT=~/Library/Android/sdk
# Windows
set ANDROID_SDK_ROOT=%LOCALAPPDATA%\Android\sdk
```
Then, build:
```bash
meson setup x --buildtype=release --strip -Db_lto=true
ninja -Cx # DO NOT RUN AS ROOT
meson x --buildtype release --strip -Db_lto=true
ninja -Cx
```
_Note: `ninja` [must][ninja-user] be run as a non-root user (only `ninja
@ -231,27 +220,9 @@ install` must be run as root)._
[ninja-user]: https://github.com/Genymobile/scrcpy/commit/4c49b27e9f6be02b8e63b508b60535426bd0291a
#### Option 2: Use prebuilt server
### Run
- [`scrcpy-server-v2.0`][direct-scrcpy-server]
<sub>SHA-256: `9e241615f578cd690bb43311000debdecf6a9c50a7082b001952f18f6f21ddc2`</sub>
[direct-scrcpy-server]: https://github.com/Genymobile/scrcpy/releases/download/v2.0/scrcpy-server-v2.0
Download the prebuilt server somewhere, and specify its path during the Meson
configuration:
```bash
meson setup x --buildtype=release --strip -Db_lto=true \
-Dprebuilt_server=/path/to/scrcpy-server
ninja -Cx # DO NOT RUN AS ROOT
```
The server only works with a matching client version (this server works with the
`master` branch).
### Run without installing:
To run without installing:
```bash
./run x [options]
@ -266,20 +237,32 @@ After a successful build, you can install _scrcpy_ on the system:
sudo ninja -Cx install # without sudo on Windows
```
This installs several files:
This installs two files:
- `/usr/local/bin/scrcpy` (main app)
- `/usr/local/share/scrcpy/scrcpy-server` (server to push to the device)
- `/usr/local/share/man/man1/scrcpy.1` (manpage)
- `/usr/local/share/icons/hicolor/256x256/apps/icon.png` (app icon)
- `/usr/local/share/zsh/site-functions/_scrcpy` (zsh completion)
- `/usr/local/share/bash-completion/completions/scrcpy` (bash completion)
- `/usr/local/bin/scrcpy`
- `/usr/local/share/scrcpy/scrcpy-server`
You can then run `scrcpy`.
Just remove them to "uninstall" the application.
You can then [run](README.md#run) _scrcpy_.
### Uninstall
## Prebuilt server
- [`scrcpy-server-v1.12.1`][direct-scrcpy-server]
_(SHA-256: 63e569c8a1d0c1df31d48c4214871c479a601782945fed50c1e61167d78266ea)_
[direct-scrcpy-server]: https://github.com/Genymobile/scrcpy/releases/download/v1.12.1/scrcpy-server-v1.12.1
Download the prebuilt server somewhere, and specify its path during the Meson
configuration:
```bash
sudo ninja -Cx uninstall # without sudo on Windows
meson x --buildtype release --strip -Db_lto=true \
-Dprebuilt_server=/path/to/scrcpy-server
ninja -Cx
sudo ninja -Cx install
```
The server only works with a matching client version (this server works with the
`master` branch).

8
doc/develop.md → DEVELOP.md
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@ -76,7 +76,7 @@ The server uses 3 threads:
- the **main** thread, encoding and streaming the video to the client;
- the **controller** thread, listening for _control messages_ (typically,
keyboard and mouse events) from the client;
- the **receiver** thread (managed by the controller), sending _device messages_
- the **receiver** thread (managed by the controller), sending _device messges_
to the clients (currently, it is only used to send the device clipboard
content).
@ -211,7 +211,7 @@ There are two [frames][video_buffer] simultaneously in memory:
- the **rendering** frame, rendered in a texture from the main thread.
When a new decoded frame is available, the decoder _swaps_ the decoding and
rendering frame (with proper synchronization). Thus, it immediately starts
rendering frame (with proper synchronization). Thus, it immediatly starts
to decode a new frame while the main thread renders the last one.
If a [recorder] is present (i.e. `--record` is enabled), then it muxes the raw
@ -277,7 +277,7 @@ The server is pushed to the device by the client on startup.
To debug it, enable the server debugger during configuration:
```bash
meson setup x -Dserver_debugger=true
meson x -Dserver_debugger=true
# or, if x is already configured
meson configure x -Dserver_debugger=true
```
@ -286,7 +286,7 @@ If your device runs Android 8 or below, set the `server_debugger_method` to
`old` in addition:
```bash
meson setup x -Dserver_debugger=true -Dserver_debugger_method=old
meson x -Dserver_debugger=true -Dserver_debugger_method=old
# or, if x is already configured
meson configure x -Dserver_debugger=true -Dserver_debugger_method=old
```

84
FAQ.ko.md Normal file
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@ -0,0 +1,84 @@
# 자주하는 질문 (FAQ)
다음은 자주 제보되는 문제들과 그들의 현황입니다.
### Window 운영체제에서, 디바이스가 발견되지 않습니다.
가장 흔한 제보는 `adb`에 발견되지 않는 디바이스 혹은 권한 관련 문제입니다.
다음 명령어를 호출하여 모든 것들에 이상이 없는지 확인하세요:
adb devices
Window는 당신의 디바이스를 감지하기 위해 [drivers]가 필요할 수도 있습니다.
[drivers]: https://developer.android.com/studio/run/oem-usb.html
### 내 디바이스의 미러링만 가능하고, 디바이스와 상호작용을 할 수 없습니다.
일부 디바이스에서는, [simulating input]을 허용하기 위해서 한가지 옵션을 활성화해야 할 수도 있습니다.
개발자 옵션에서 (developer options) 다음을 활성화 하세요:
> **USB debugging (Security settings)**
> _권한 부여와 USB 디버깅을 통한 simulating input을 허용한다_
[simulating input]: https://github.com/Genymobile/scrcpy/issues/70#issuecomment-373286323
### 마우스 클릭이 다른 곳에 적용됩니다.
Mac 운영체제에서, HiDPI support 와 여러 스크린 창이 있는 경우, 입력 위치가 잘못 파악될 수 있습니다.
[issue 15]를 참고하세요.
[issue 15]: https://github.com/Genymobile/scrcpy/issues/15
차선책은 HiDPI support을 비활성화 하고 build하는 방법입니다:
```bash
meson x --buildtype release -Dhidpi_support=false
```
하지만, 동영상은 낮은 해상도로 재생될 것 입니다.
### HiDPI display의 화질이 낮습니다.
Windows에서는, [scaling behavior] 환경을 설정해야 할 수도 있습니다.
> `scrcpy.exe` > Properties > Compatibility > Change high DPI settings >
> Override high DPI scaling behavior > Scaling performed by: _Application_.
[scaling behavior]: https://github.com/Genymobile/scrcpy/issues/40#issuecomment-424466723
### KWin compositor가 실행되지 않습니다
Plasma Desktop에서는,_scrcpy_ 가 실행중에는 compositor가 비활성화 됩니다.
차석책으로는, ["Block compositing"를 비활성화하세요][kwin].
[kwin]: https://github.com/Genymobile/scrcpy/issues/114#issuecomment-378778613
###비디오 스트림을 열 수 없는 에러가 발생합니다.(Could not open video stream).
여러가지 원인이 있을 수 있습니다. 가장 흔한 원인은 디바이스의 하드웨어 인코더(hardware encoder)가
주어진 해상도를 인코딩할 수 없는 경우입니다.
```
ERROR: Exception on thread Thread[main,5,main]
android.media.MediaCodec$CodecException: Error 0xfffffc0e
...
Exit due to uncaughtException in main thread:
ERROR: Could not open video stream
INFO: Initial texture: 1080x2336
```
더 낮은 해상도로 시도 해보세요:
```
scrcpy -m 1920
scrcpy -m 1024
scrcpy -m 800
```

185
FAQ.md
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@ -1,19 +1,24 @@
# Frequently Asked Questions
[Read in another language](#translations)
Here are the common reported problems and their status.
If you encounter any error, the first step is to upgrade to the latest version.
## `adb` and USB issues
## `adb` issues
`scrcpy` execute `adb` commands to initialize the connection with the device. If
`adb` fails, then scrcpy will not work.
In that case, it will print this error:
> ERROR: "adb push" returned with value 1
This is typically not a bug in _scrcpy_, but a problem in your environment.
To find out the cause, execute:
```bash
adb devices
```
### `adb` not found
@ -23,63 +28,33 @@ On Windows, the current directory is in your `PATH`, and `adb.exe` is included
in the release, so it should work out-of-the-box.
### Device not detected
> ERROR: Could not find any ADB device
Check that you correctly enabled [adb debugging][enable-adb].
Your device must be detected by `adb`:
```
adb devices
```
If your device is not detected, you may need some [drivers] (on Windows). There is a separate [USB driver for Google devices][google-usb-driver].
[enable-adb]: https://developer.android.com/studio/command-line/adb.html#Enabling
[drivers]: https://developer.android.com/studio/run/oem-usb.html
[google-usb-driver]: https://developer.android.com/studio/run/win-usb
### Device unauthorized
> ERROR: Device is unauthorized:
> ERROR: --> (usb) 0123456789abcdef unauthorized
> ERROR: A popup should open on the device to request authorization.
When connecting, a popup should open on the device. You must authorize USB
debugging.
If it does not open, check [stackoverflow][device-unauthorized].
Check [stackoverflow][device-unauthorized].
[device-unauthorized]: https://stackoverflow.com/questions/23081263/adb-android-device-unauthorized
### Device not detected
If your device is not detected, you may need some [drivers] (on Windows).
[drivers]: https://developer.android.com/studio/run/oem-usb.html
### Several devices connected
If several devices are connected, you will encounter this error:
> ERROR: Multiple (2) ADB devices:
> ERROR: --> (usb) 0123456789abcdef device Nexus_5
> ERROR: --> (tcpip) 192.168.1.5:5555 device GM1913
> ERROR: Select a device via -s (--serial), -d (--select-usb) or -e (--select-tcpip)
> adb: error: failed to get feature set: more than one device/emulator
In that case, you can either provide the identifier of the device you want to
mirror:
the identifier of the device you want to mirror must be provided:
```bash
scrcpy -s 0123456789abcdef
scrcpy -s 01234567890abcdef
```
Or request the single USB (or TCP/IP) device:
```bash
scrcpy -d # USB device
scrcpy -e # TCP/IP device
```
Note that if your device is connected over TCP/IP, you might get this message:
Note that if your device is connected over TCP/IP, you'll get this message:
> adb: error: more than one device/emulator
> ERROR: "adb reverse" returned with value 1
@ -103,20 +78,7 @@ You could overwrite the `adb` binary in the other program, or ask _scrcpy_ to
use a specific `adb` binary, by setting the `ADB` environment variable:
```bash
# in bash
export ADB=/path/to/your/adb
scrcpy
```
```cmd
:: in cmd
set ADB=C:\path\to\your\adb.exe
scrcpy
```
```powershell
# in PowerShell
$env:ADB = 'C:\path\to\your\adb.exe'
set ADB=/path/to/your/adb
scrcpy
```
@ -133,21 +95,6 @@ Try with another USB cable or plug it into another USB port. See [#281] and
[#283]: https://github.com/Genymobile/scrcpy/issues/283
## HID/OTG issues on Windows
On Windows, if `scrcpy --otg` (or `--hid-keyboard`/`--hid-mouse`) results in:
> ERROR: Could not find any USB device
(or if only unrelated USB devices are detected), there might be drivers issues.
Please read [#3654], in particular [this comment][#3654-comment1] and [the next
one][#3654-comment2].
[#3654]: https://github.com/Genymobile/scrcpy/issues/3654
[#3654-comment1]: https://github.com/Genymobile/scrcpy/issues/3654#issuecomment-1369278232
[#3654-comment2]: https://github.com/Genymobile/scrcpy/issues/3654#issuecomment-1369295011
## Control issues
@ -162,41 +109,52 @@ In developer options, enable:
[simulating input]: https://github.com/Genymobile/scrcpy/issues/70#issuecomment-373286323
### Mouse clicks at wrong location
On MacOS, with HiDPI support and multiple screens, input location are wrongly
scaled. See [#15].
[#15]: https://github.com/Genymobile/scrcpy/issues/15
Open _scrcpy_ directly on the monitor you use it.
### Special characters do not work
The default text injection method is [limited to ASCII characters][text-input].
A trick allows to also inject some [accented characters][accented-characters],
but that's all. See [#37].
Since scrcpy v1.20, it is possible to simulate a [physical keyboard][hid] (HID).
Injecting text input is [limited to ASCII characters][text-input]. A trick
allows to also inject some [accented characters][accented-characters], but
that's all. See [#37].
[text-input]: https://github.com/Genymobile/scrcpy/issues?q=is%3Aopen+is%3Aissue+label%3Aunicode
[accented-characters]: https://blog.rom1v.com/2018/03/introducing-scrcpy/#handle-accented-characters
[#37]: https://github.com/Genymobile/scrcpy/issues/37
[hid]: README.md#physical-keyboard-simulation-hid
## Client issues
### Issue with Wayland
### The quality is low
By default, SDL uses x11 on Linux. The [video driver] can be changed via the
`SDL_VIDEODRIVER` environment variable:
If the definition of your client window is smaller than that of your device
screen, then you might get poor quality, especially visible on text (see [#40]).
[video driver]: https://wiki.libsdl.org/FAQUsingSDL#how_do_i_choose_a_specific_video_driver
[#40]: https://github.com/Genymobile/scrcpy/issues/40
```bash
export SDL_VIDEODRIVER=wayland
scrcpy
To improve downscaling quality, trilinear filtering is enabled automatically
if the renderer is OpenGL and if it supports mipmapping.
On Windows, you might want to force OpenGL:
```
scrcpy --render-driver=opengl
```
On some distributions (at least Fedora), the package `libdecor` must be
installed manually.
You may also need to configure the [scaling behavior]:
See issues [#2554] and [#2559].
> `scrcpy.exe` > Properties > Compatibility > Change high DPI settings >
> Override high DPI scaling behavior > Scaling performed by: _Application_.
[scaling behavior]: https://github.com/Genymobile/scrcpy/issues/40#issuecomment-424466723
[#2554]: https://github.com/Genymobile/scrcpy/issues/2554
[#2559]: https://github.com/Genymobile/scrcpy/issues/2559
### KWin compositor crashes
@ -212,21 +170,30 @@ As a workaround, [disable "Block compositing"][kwin].
### Exception
If you get any exception related to `MediaCodec`:
There may be many reasons. One common cause is that the hardware encoder of your
device is not able to encode at the given definition:
> ```
> ERROR: Exception on thread Thread[main,5,main]
> android.media.MediaCodec$CodecException: Error 0xfffffc0e
> ...
> Exit due to uncaughtException in main thread:
> ERROR: Could not open video stream
> INFO: Initial texture: 1080x2336
> ```
or
> ```
> ERROR: Exception on thread Thread[main,5,main]
> java.lang.IllegalStateException
> at android.media.MediaCodec.native_dequeueOutputBuffer(Native Method)
> ```
Just try with a lower definition:
```
ERROR: Exception on thread Thread[main,5,main]
java.lang.IllegalStateException
at android.media.MediaCodec.native_dequeueOutputBuffer(Native Method)
scrcpy -m 1920
scrcpy -m 1024
scrcpy -m 800
```
then try with another [encoder](doc/video.md#codec).
## Translations
Translations of this FAQ in other languages are available in the [wiki].
[wiki]: https://github.com/Genymobile/scrcpy/wiki
Only this README file is guaranteed to be up-to-date.

2
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View File

@ -188,7 +188,7 @@
identification within third-party archives.
Copyright (C) 2018 Genymobile
Copyright (C) 2018-2023 Romain Vimont
Copyright (C) 2018-2020 Romain Vimont
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.

138
Makefile.CrossWindows Normal file
View File

@ -0,0 +1,138 @@
# This makefile provides recipes to build a "portable" version of scrcpy for
# Windows.
#
# Here, "portable" means that the client and server binaries are expected to be
# anywhere, but in the same directory, instead of well-defined separate
# locations (e.g. /usr/bin/scrcpy and /usr/share/scrcpy/scrcpy-server).
#
# In particular, this implies to change the location from where the client push
# the server to the device.
.PHONY: default clean \
build-server \
prepare-deps-win32 prepare-deps-win64 \
build-win32 build-win32-noconsole \
build-win64 build-win64-noconsole \
dist-win32 dist-win64 \
zip-win32 zip-win64 \
sums release
GRADLE ?= ./gradlew
SERVER_BUILD_DIR := build-server
WIN32_BUILD_DIR := build-win32
WIN32_NOCONSOLE_BUILD_DIR := build-win32-noconsole
WIN64_BUILD_DIR := build-win64
WIN64_NOCONSOLE_BUILD_DIR := build-win64-noconsole
DIST := dist
WIN32_TARGET_DIR := scrcpy-win32
WIN64_TARGET_DIR := scrcpy-win64
VERSION := $(shell git describe --tags --always)
WIN32_TARGET := $(WIN32_TARGET_DIR)-$(VERSION).zip
WIN64_TARGET := $(WIN64_TARGET_DIR)-$(VERSION).zip
release: clean zip-win32 zip-win64 sums
@echo "Windows archives generated in $(DIST)/"
clean:
$(GRADLE) clean
rm -rf "$(SERVER_BUILD_DIR)" "$(WIN32_BUILD_DIR)" "$(WIN64_BUILD_DIR)" \
"$(WIN32_NOCONSOLE_BUILD_DIR)" "$(WIN64_NOCONSOLE_BUILD_DIR)" "$(DIST)"
build-server:
[ -d "$(SERVER_BUILD_DIR)" ] || ( mkdir "$(SERVER_BUILD_DIR)" && \
meson "$(SERVER_BUILD_DIR)" \
--buildtype release -Dcompile_app=false )
ninja -C "$(SERVER_BUILD_DIR)"
prepare-deps-win32:
-$(MAKE) -C prebuilt-deps prepare-win32
build-win32: prepare-deps-win32
[ -d "$(WIN32_BUILD_DIR)" ] || ( mkdir "$(WIN32_BUILD_DIR)" && \
meson "$(WIN32_BUILD_DIR)" \
--cross-file cross_win32.txt \
--buildtype release --strip -Db_lto=true \
-Dcrossbuild_windows=true \
-Dcompile_server=false \
-Dportable=true )
ninja -C "$(WIN32_BUILD_DIR)"
build-win32-noconsole: prepare-deps-win32
[ -d "$(WIN32_NOCONSOLE_BUILD_DIR)" ] || ( mkdir "$(WIN32_NOCONSOLE_BUILD_DIR)" && \
meson "$(WIN32_NOCONSOLE_BUILD_DIR)" \
--cross-file cross_win32.txt \
--buildtype release --strip -Db_lto=true \
-Dcrossbuild_windows=true \
-Dcompile_server=false \
-Dwindows_noconsole=true \
-Dportable=true )
ninja -C "$(WIN32_NOCONSOLE_BUILD_DIR)"
prepare-deps-win64:
-$(MAKE) -C prebuilt-deps prepare-win64
build-win64: prepare-deps-win64
[ -d "$(WIN64_BUILD_DIR)" ] || ( mkdir "$(WIN64_BUILD_DIR)" && \
meson "$(WIN64_BUILD_DIR)" \
--cross-file cross_win64.txt \
--buildtype release --strip -Db_lto=true \
-Dcrossbuild_windows=true \
-Dcompile_server=false \
-Dportable=true )
ninja -C "$(WIN64_BUILD_DIR)"
build-win64-noconsole: prepare-deps-win64
[ -d "$(WIN64_NOCONSOLE_BUILD_DIR)" ] || ( mkdir "$(WIN64_NOCONSOLE_BUILD_DIR)" && \
meson "$(WIN64_NOCONSOLE_BUILD_DIR)" \
--cross-file cross_win64.txt \
--buildtype release --strip -Db_lto=true \
-Dcrossbuild_windows=true \
-Dcompile_server=false \
-Dwindows_noconsole=true \
-Dportable=true )
ninja -C "$(WIN64_NOCONSOLE_BUILD_DIR)"
dist-win32: build-server build-win32 build-win32-noconsole
mkdir -p "$(DIST)/$(WIN32_TARGET_DIR)"
cp "$(SERVER_BUILD_DIR)"/server/scrcpy-server "$(DIST)/$(WIN32_TARGET_DIR)/"
cp "$(WIN32_BUILD_DIR)"/app/scrcpy.exe "$(DIST)/$(WIN32_TARGET_DIR)/"
cp "$(WIN32_NOCONSOLE_BUILD_DIR)"/app/scrcpy.exe "$(DIST)/$(WIN32_TARGET_DIR)/scrcpy-noconsole.exe"
cp prebuilt-deps/ffmpeg-4.2.1-win32-shared/bin/avutil-56.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/ffmpeg-4.2.1-win32-shared/bin/avcodec-58.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/ffmpeg-4.2.1-win32-shared/bin/avformat-58.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/ffmpeg-4.2.1-win32-shared/bin/swresample-3.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/ffmpeg-4.2.1-win32-shared/bin/swscale-5.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/platform-tools/adb.exe "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/platform-tools/AdbWinApi.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/platform-tools/AdbWinUsbApi.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
cp prebuilt-deps/SDL2-2.0.10/i686-w64-mingw32/bin/SDL2.dll "$(DIST)/$(WIN32_TARGET_DIR)/"
dist-win64: build-server build-win64 build-win64-noconsole
mkdir -p "$(DIST)/$(WIN64_TARGET_DIR)"
cp "$(SERVER_BUILD_DIR)"/server/scrcpy-server "$(DIST)/$(WIN64_TARGET_DIR)/"
cp "$(WIN64_BUILD_DIR)"/app/scrcpy.exe "$(DIST)/$(WIN64_TARGET_DIR)/"
cp "$(WIN64_NOCONSOLE_BUILD_DIR)"/app/scrcpy.exe "$(DIST)/$(WIN64_TARGET_DIR)/scrcpy-noconsole.exe"
cp prebuilt-deps/ffmpeg-4.2.1-win64-shared/bin/avutil-56.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/ffmpeg-4.2.1-win64-shared/bin/avcodec-58.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/ffmpeg-4.2.1-win64-shared/bin/avformat-58.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/ffmpeg-4.2.1-win64-shared/bin/swresample-3.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/ffmpeg-4.2.1-win64-shared/bin/swscale-5.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/platform-tools/adb.exe "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/platform-tools/AdbWinApi.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/platform-tools/AdbWinUsbApi.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
cp prebuilt-deps/SDL2-2.0.10/x86_64-w64-mingw32/bin/SDL2.dll "$(DIST)/$(WIN64_TARGET_DIR)/"
zip-win32: dist-win32
cd "$(DIST)/$(WIN32_TARGET_DIR)"; \
zip -r "../$(WIN32_TARGET)" .
zip-win64: dist-win64
cd "$(DIST)/$(WIN64_TARGET_DIR)"; \
zip -r "../$(WIN64_TARGET)" .
sums:
cd "$(DIST)"; \
sha256sum *.zip > SHA256SUMS.txt

498
README.ko.md Normal file
View File

@ -0,0 +1,498 @@
# scrcpy (v1.11)
This document will be updated frequently along with the original Readme file
이 문서는 원어 리드미 파일의 업데이트에 따라 종종 업데이트 될 것입니다
이 어플리케이션은 UBS ( 혹은 [TCP/IP][article-tcpip] ) 로 연결된 Android 디바이스를 화면에 보여주고 관리하는 것을 제공합니다.
_GNU/Linux_, _Windows__macOS_ 상에서 작동합니다.
(아래 설명에서 디바이스는 안드로이드 핸드폰을 의미합니다.)
[article-tcpip]:https://www.genymotion.com/blog/open-source-project-scrcpy-now-works-wirelessly/
![screenshot](https://github.com/Genymobile/scrcpy/blob/master/assets/screenshot-debian-600.jpg?raw=true)
주요 기능은 다음과 같습니다.
- **가벼움** (기본적이며 디바이스의 화면만을 보여줌)
- **뛰어난 성능** (30~60fps)
- **높은 품질** (1920×1080 이상의 해상도)
- **빠른 반응 속도** ([35~70ms][lowlatency])
- **짧은 부팅 시간** (첫 사진을 보여주는데 최대 1초 소요됨)
- **장치 설치와는 무관함** (디바이스에 설치하지 않아도 됨)
[lowlatency]: https://github.com/Genymobile/scrcpy/pull/646
## 요구사항
안드로이드 장치는 최소 API 21 (Android 5.0) 을 필요로 합니다.
디바이스에 [adb debugging][enable-adb]이 가능한지 확인하십시오.
[enable-adb]: https://developer.android.com/studio/command-line/adb.html#Enabling
어떤 디바이스에서는, 키보드와 마우스를 사용하기 위해서 [추가 옵션][control] 이 필요하기도 합니다.
[control]: https://github.com/Genymobile/scrcpy/issues/70#issuecomment-373286323
## 앱 설치하기
### Linux (리눅스)
리눅스 상에서는 보통 [어플을 직접 설치][BUILD] 해야합니다. 어렵지 않으므로 걱정하지 않아도 됩니다.
[BUILD]:https://github.com/Genymobile/scrcpy/blob/master/BUILD.md
[Snap] 패키지가 가능합니다 : [`scrcpy`][snap-link].
[snap-link]: https://snapstats.org/snaps/scrcpy
[snap]: https://en.wikipedia.org/wiki/Snappy_(package_manager)
Arch Linux에서, [AUR] 패키지가 가능합니다 : [`scrcpy`][aur-link].
[AUR]: https://wiki.archlinux.org/index.php/Arch_User_Repository
[aur-link]: https://aur.archlinux.org/packages/scrcpy/
Gentoo에서 ,[Ebuild] 가 가능합니다 : [`scrcpy/`][ebuild-link].
[Ebuild]: https://wiki.gentoo.org/wiki/Ebuild
[ebuild-link]: https://github.com/maggu2810/maggu2810-overlay/tree/master/app-mobilephone/scrcpy
### Windows (윈도우)
윈도우 상에서, 간단하게 설치하기 위해 종속성이 있는 사전 구축된 아카이브가 제공됩니다 (`adb` 포함) :
해당 파일은 Readme원본 링크를 통해서 다운로드가 가능합니다.
- [`scrcpy-win`][direct-win]
[direct-win]: https://github.com/Genymobile/scrcpy/blob/master/README.md#windows
[어플을 직접 설치][BUILD] 할 수도 있습니다.
### macOS (맥 OS)
이 어플리케이션은 아래 사항을 따라 설치한다면 [Homebrew] 에서도 사용 가능합니다 :
[Homebrew]: https://brew.sh/
```bash
brew install scrcpy
```
`PATH` 로부터 접근 가능한 `adb` 가 필요합니다. 아직 설치하지 않았다면 다음을 따라 설치해야 합니다 :
```bash
brew cask install android-platform-tools
```
[어플을 직접 설치][BUILD] 할 수도 있습니다.
## 실행
안드로이드 디바이스를 연결하고 실행하십시오:
```bash
scrcpy
```
다음과 같이 명령창 옵션 기능도 제공합니다.
```bash
scrcpy --help
```
## 기능
### 캡쳐 환경 설정
###사이즈 재정의
가끔씩 성능을 향상시키기위해 안드로이드 디바이스를 낮은 해상도에서 미러링하는 것이 유용할 때도 있습니다.
너비와 높이를 제한하기 위해 특정 값으로 지정할 수 있습니다 (e.g. 1024) :
```bash
scrcpy --max-size 1024
scrcpy -m 1024 # 축약 버전
```
이 외의 크기도 디바이스의 가로 세로 비율이 유지된 상태에서 계산됩니다.
이러한 방식으로 디바이스 상에서 1920×1080 는 모니터 상에서1024×576로 미러링될 것 입니다.
### bit-rate 변경
기본 bit-rate 는 8 Mbps입니다. 비디오 bit-rate 를 변경하기 위해선 다음과 같이 입력하십시오 (e.g. 2 Mbps로 변경):
```bash
scrcpy --bit-rate 2M
scrcpy -b 2M # 축약 버전
```
###프레임 비율 제한
안드로이드 버전 10이상의 디바이스에서는, 다음의 명령어로 캡쳐 화면의 프레임 비율을 제한할 수 있습니다:
```bash
scrcpy --max-fps 15
```
### Crop (잘라내기)
디바이스 화면은 화면의 일부만 미러링하기 위해 잘라질 것입니다.
예를 들어, *Oculus Go* 의 한 쪽 눈만 미러링할 때 유용합니다 :
```bash
scrcpy --crop 1224:1440:0:0 # 1224x1440 at offset (0,0)
scrcpy -c 1224:1440:0:0 # 축약 버전
```
만약 `--max-size` 도 지정하는 경우, 잘라낸 다음에 재정의된 크기가 적용될 것입니다.
### 화면 녹화
미러링하는 동안 화면 녹화를 할 수 있습니다 :
```bash
scrcpy --record file.mp4
scrcpy -r file.mkv
```
녹화하는 동안 미러링을 멈출 수 있습니다 :
```bash
scrcpy --no-display --record file.mp4
scrcpy -Nr file.mkv
# Ctrl+C 로 녹화를 중단할 수 있습니다.
# 윈도우 상에서 Ctrl+C 는 정상정으로 종료되지 않을 수 있으므로, 디바이스 연결을 해제하십시오.
```
"skipped frames" 은 모니터 화면에 보여지지 않았지만 녹화되었습니다 ( 성능 문제로 인해 ). 프레임은 디바이스 상에서 _타임 스탬프 ( 어느 시점에 데이터가 존재했다는 사실을 증명하기 위해 특정 위치에 시각을 표시 )_ 되었으므로, [packet delay
variation] 은 녹화된 파일에 영향을 끼치지 않습니다.
[packet delay variation]: https://en.wikipedia.org/wiki/Packet_delay_variation
## 연결
### 무선연결
_Scrcpy_ 장치와 정보를 주고받기 위해 `adb` 를 사용합니다. `adb` 는 TCIP/IP 를 통해 디바이스와 [연결][connect] 할 수 있습니다 :
1. 컴퓨터와 디바이스를 동일한 Wi-Fi 에 연결합니다.
2. 디바이스의 IP address 를 확인합니다 (설정 → 내 기기 → 상태 / 혹은 인터넷에 '내 IP'검색 시 확인 가능합니다. ).
3. TCP/IP 를 통해 디바이스에서 adb 를 사용할 수 있게 합니다: `adb tcpip 5555`.
4. 디바이스 연결을 해제합니다.
5. adb 를 통해 디바이스에 연결을 합니다\: `adb connect DEVICE_IP:5555` _(`DEVICE_IP` 대신)_.
6. `scrcpy` 실행합니다.
다음은 bit-rate 와 해상도를 줄이는데 유용합니다 :
```bash
scrcpy --bit-rate 2M --max-size 800
scrcpy -b2M -m800 # 축약 버전
```
[connect]: https://developer.android.com/studio/command-line/adb.html#wireless
### 여러 디바이스 사용 가능
만약에 여러 디바이스들이 `adb devices` 목록에 표시되었다면, _serial_ 을 명시해야합니다:
```bash
scrcpy --serial 0123456789abcdef
scrcpy -s 0123456789abcdef # 축약 버전
```
_scrcpy_ 로 여러 디바이스를 연결해 사용할 수 있습니다.
#### SSH tunnel
떨어져 있는 디바이스와 연결하기 위해서는, 로컬 `adb` client와 떨어져 있는 `adb` 서버를 연결해야 합니다. (디바이스와 클라이언트가 동일한 버전의 _adb_ protocol을 사용할 경우에 제공됩니다.):
```bash
adb kill-server # 5037의 로컬 local adb server를 중단
ssh -CN -L5037:localhost:5037 -R27183:localhost:27183 your_remote_computer
# 실행 유지
```
다른 터미널에서는 :
```bash
scrcpy
```
무선 연결과 동일하게, 화질을 줄이는 것이 나을 수 있습니다:
```
scrcpy -b2M -m800 --max-fps 15
```
## Window에서의 배치
### 맞춤형 window 제목
기본적으로, window의 이름은 디바이스의 모델명 입니다.
다음의 명령어를 통해 변경하세요.
```bash
scrcpy --window-title 'My device'
```
### 배치와 크기
초기 window창의 배치와 크기는 다음과 같이 설정할 수 있습니다:
```bash
scrcpy --window-x 100 --window-y 100 --window-width 800 --window-height 600
```
### 경계 없애기
윈도우 장식(경계선 등)을 다음과 같이 제거할 수 있습니다:
```bash
scrcpy --window-borderless
```
### 항상 모든 윈도우 위에 실행창 고정
이 어플리케이션의 윈도우 창은 다음의 명령어로 다른 window 위에 디스플레이 할 수 있습니다:
```bash
scrcpy --always-on-top
scrcpy -T # 축약 버전
```
### 전체 화면
이 어플리케이션은 전체화면으로 바로 시작할 수 있습니다.
```bash
scrcpy --fullscreen
scrcpy -f # short version
```
전체 화면은 `Ctrl`+`f`키로 끄거나 켤 수 있습니다.
## 다른 미러링 옵션
### 읽기 전용(Read-only)
권한을 제한하기 위해서는 (디바이스와 관련된 모든 것: 입력 키, 마우스 이벤트 , 파일의 드래그 앤 드랍(drag&drop)):
```bash
scrcpy --no-control
scrcpy -n
```
### 화면 끄기
미러링을 실행하는 와중에 디바이스의 화면을 끌 수 있게 하기 위해서는
다음의 커맨드 라인 옵션을(command line option) 입력하세요:
```bash
scrcpy --turn-screen-off
scrcpy -S
```
혹은 `Ctrl`+`o`을 눌러 언제든지 디바이스의 화면을 끌 수 있습니다.
다시 화면을 켜기 위해서는`POWER` (혹은 `Ctrl`+`p`)를 누르세요.
### 유효기간이 지난 프레임 제공 (Render expired frames)
디폴트로, 대기시간을 최소화하기 위해 _scrcpy_ 는 항상 마지막으로 디코딩된 프레임을 제공합니다
과거의 프레임은 하나씩 삭제합니다.
모든 프레임을 강제로 렌더링하기 위해서는 (대기 시간이 증가될 수 있습니다)
다음의 명령어를 사용하세요:
```bash
scrcpy --render-expired-frames
```
### 화면에 터치 나타내기
발표를 할 때, 물리적인 기기에 한 물리적 터치를 나타내는 것이 유용할 수 있습니다.
안드로이드 운영체제는 이런 기능을 _Developers options_에서 제공합니다.
_Scrcpy_ 는 이런 기능을 시작할 때와 종료할 때 옵션으로 제공합니다.
```bash
scrcpy --show-touches
scrcpy -t
```
화면에 _물리적인 터치만_ 나타나는 것에 유의하세요 (손가락을 디바이스에 대는 행위).
### 입력 제어
#### 복사-붙여넣기
컴퓨터와 디바이스 양방향으로 클립보드를 복사하는 것이 가능합니다:
- `Ctrl`+`c` 디바이스의 클립보드를 컴퓨터로 복사합니다;
- `Ctrl`+`Shift`+`v` 컴퓨터의 클립보드를 디바이스로 복사합니다;
- `Ctrl`+`v` 컴퓨터의 클립보드를 text event 로써 _붙여넣습니다_ ( 그러나, ASCII 코드가 아닌 경우 실행되지 않습니다 )
#### 텍스트 삽입 우선 순위
텍스트를 입력할 때 생성되는 두 가지의 [events][textevents] 가 있습니다:
- _key events_, 키가 눌려있는 지에 대한 신호;
- _text events_, 텍스트가 입력되었는지에 대한 신호.
기본적으로, 글자들은 key event 를 이용해 입력되기 때문에, 키보드는 게임에서처럼 처리합니다 ( 보통 WASD 키에 대해서 ).
그러나 이는 [issues 를 발생][prefertext]시킵니다. 이와 관련된 문제를 접할 경우, 아래와 같이 피할 수 있습니다:
```bash
scrcpy --prefer-text
```
( 그러나 이는 게임에서의 처리를 중단할 수 있습니다 )
[textevents]: https://blog.rom1v.com/2018/03/introducing-scrcpy/#handle-text-input
[prefertext]: https://github.com/Genymobile/scrcpy/issues/650#issuecomment-512945343
### 파일 드랍
### APK 실행하기
APK를 실행하기 위해서는, APK file(파일명이`.apk`로 끝나는 파일)을 드래그하고 _scrcpy_ window에 드랍하세요 (drag and drop)
시각적인 피드백은 없고,log 하나가 콘솔에 출력될 것입니다.
### 디바이스에 파일 push하기
디바이스의`/sdcard/`에 파일을 push하기 위해서는,
APK파일이 아닌 파일을_scrcpy_ window에 드래그하고 드랍하세요.(drag and drop).
시각적인 피드백은 없고,log 하나가 콘솔에 출력될 것입니다.
해당 디렉토리는 시작할 때 변경이 가능합니다:
```bash
scrcpy --push-target /sdcard/foo/bar/
```
### 오디오의 전달
_scrcpy_는 오디오를 직접 전달해주지 않습니다. [USBaudio] (Linux-only)를 사용하세요.
추가적으로 [issue #14]를 참고하세요.
[USBaudio]: https://github.com/rom1v/usbaudio
[issue #14]: https://github.com/Genymobile/scrcpy/issues/14
## 단축키
| 실행내용 | 단축키 | 단축키 (macOS)
| -------------------------------------- |:----------------------------- |:-----------------------------
| 전체화면 모드로 전환 | `Ctrl`+`f` | `Cmd`+`f`
| window를 1:1비율로 전환하기(픽셀 맞춤) | `Ctrl`+`g` | `Cmd`+`g`
| 검은 공백 제거 위한 window 크기 조정 | `Ctrl`+`x` \| _Double-click¹_ | `Cmd`+`x` \| _Double-click¹_
|`HOME` 클릭 | `Ctrl`+`h` \| _Middle-click_ | `Ctrl`+`h` \| _Middle-click_
| `BACK` 클릭 | `Ctrl`+`b` \| _Right-click²_ | `Cmd`+`b` \| _Right-click²_
| `APP_SWITCH` 클릭 | `Ctrl`+`s` | `Cmd`+`s`
| `MENU` 클릭 | `Ctrl`+`m` | `Ctrl`+`m`
| `VOLUME_UP` 클릭 | `Ctrl`+`↑` _(up)_ | `Cmd`+`↑` _(up)_
| `VOLUME_DOWN` 클릭 | `Ctrl`+`↓` _(down)_ | `Cmd`+`↓` _(down)_
| `POWER` 클릭 | `Ctrl`+`p` | `Cmd`+`p`
| 전원 켜기 | _Right-click²_ | _Right-click²_
| 미러링 중 디바이스 화면 끄기 | `Ctrl`+`o` | `Cmd`+`o`
| 알림 패널 늘리기 | `Ctrl`+`n` | `Cmd`+`n`
| 알림 패널 닫기 | `Ctrl`+`Shift`+`n` | `Cmd`+`Shift`+`n`
| 디바이스의 clipboard 컴퓨터로 복사하기 | `Ctrl`+`c` | `Cmd`+`c`
| 컴퓨터의 clipboard 디바이스에 붙여넣기 | `Ctrl`+`v` | `Cmd`+`v`
| Copy computer clipboard to device | `Ctrl`+`Shift`+`v` | `Cmd`+`Shift`+`v`
| Enable/disable FPS counter (on stdout) | `Ctrl`+`i` | `Cmd`+`i`
_¹검은 공백을 제거하기 위해서는 그 부분을 더블 클릭하세요_
_²화면이 꺼진 상태에서 우클릭 시 다시 켜지며, 그 외의 상태에서는 뒤로 돌아갑니다.
## 맞춤 경로 (custom path)
특정한 _adb_ binary를 사용하기 위해서는, 그것의 경로를 환경변수로 설정하세요.
`ADB`:
ADB=/path/to/adb scrcpy
`scrcpy-server.jar`파일의 경로에 오버라이드 하기 위해서는, 그것의 경로를 `SCRCPY_SERVER_PATH`에 저장하세요.
[useful]: https://github.com/Genymobile/scrcpy/issues/278#issuecomment-429330345
## _scrcpy_ 인 이유?
한 동료가 [gnirehtet]와 같이 발음하기 어려운 이름을 찾을 수 있는지 도발했습니다.
[`strcpy`] 는 **str**ing을 copy하고; `scrcpy`는 **scr**een을 copy합니다.
[gnirehtet]: https://github.com/Genymobile/gnirehtet
[`strcpy`]: http://man7.org/linux/man-pages/man3/strcpy.3.html
## 빌드하는 방법?
[BUILD]을 참고하세요.
[BUILD]: BUILD.md
## 흔한 issue
[FAQ](FAQ.md)을 참고하세요.
## 개발자들
[developers page]를 참고하세요.
[developers page]: DEVELOP.md
## 라이선스
Copyright (C) 2018 Genymobile
Copyright (C) 2018-2020 Romain Vimont
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
## 관련 글 (articles)
- [scrcpy 소개][article-intro]
- [무선으로 연결하는 Scrcpy][article-tcpip]
[article-intro]: https://blog.rom1v.com/2018/03/introducing-scrcpy/
[article-tcpip]: https://www.genymotion.com/blog/open-source-project-scrcpy-now-works-wirelessly/

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@ -1,126 +1,595 @@
# scrcpy (v2.0)
# scrcpy (v1.12.1)
<img src="app/data/icon.svg" width="128" height="128" alt="scrcpy" align="right" />
_pronounced "**scr**een **c**o**py**"_
This application mirrors Android devices (video and audio) connected via
USB or [over TCP/IP](doc/device.md#tcpip-wireless), and allows to control the
device with the keyboard and the mouse of the computer. It does not require any
_root_ access. It works on _Linux_, _Windows_ and _macOS_.
This application provides display and control of Android devices connected on
USB (or [over TCP/IP][article-tcpip]). It does not require any _root_ access.
It works on _GNU/Linux_, _Windows_ and _macOS_.
![screenshot](assets/screenshot-debian-600.jpg)
It focuses on:
- **lightness**: native, displays only the device screen
- **performance**: 30~120fps, depending on the device
- **quality**: 1920×1080 or above
- **low latency**: [35~70ms][lowlatency]
- **low startup time**: ~1 second to display the first image
- **non-intrusiveness**: nothing is left installed on the Android device
- **user benefits**: no account, no ads, no internet required
- **freedom**: free and open source software
- **lightness** (native, displays only the device screen)
- **performance** (30~60fps)
- **quality** (1920×1080 or above)
- **low latency** ([35~70ms][lowlatency])
- **low startup time** (~1 second to display the first image)
- **non-intrusiveness** (nothing is left installed on the device)
[lowlatency]: https://github.com/Genymobile/scrcpy/pull/646
Its features include:
- [audio forwarding](doc/audio.md) (Android >= 11)
- [recording](doc/recording.md)
- mirroring with [Android device screen off](doc/device.md#turn-screen-off)
- [copy-paste](doc/control.md#copy-paste) in both directions
- [configurable quality](doc/video.md)
- Android device [as a webcam (V4L2)](doc/v4l2.md) (Linux-only)
- [physical keyboard/mouse simulation (HID)](doc/hid-otg.md)
- [OTG mode](doc/hid-otg.md#otg)
- and more…
## Prerequisites
## Requirements
The Android device requires at least API 21 (Android 5.0).
[Audio forwarding](doc/audio.md) is supported from API 30 (Android 11).
Make sure you [enabled adb debugging][enable-adb] on your device(s).
Make sure you [enabled USB debugging][enable-adb] on your device(s).
[enable-adb]: https://developer.android.com/studio/command-line/adb.html#Enabling
[enable-adb]: https://developer.android.com/studio/debug/dev-options#enable
On some devices, you also need to enable [an additional option][control] `USB
debugging (Security Settings)` (this is an item different from `USB debugging`)
to control it using a keyboard and mouse.
On some devices, you also need to enable [an additional option][control] to
control it using keyboard and mouse.
[control]: https://github.com/Genymobile/scrcpy/issues/70#issuecomment-373286323
## Get the app
- [Linux](doc/linux.md)
- [Windows](doc/windows.md)
- [macOS](doc/macos.md)
### Linux
In Debian (_testing_ and _sid_ for now):
```
apt install scrcpy
```
A [Snap] package is available: [`scrcpy`][snap-link].
[snap-link]: https://snapstats.org/snaps/scrcpy
[snap]: https://en.wikipedia.org/wiki/Snappy_(package_manager)
For Arch Linux, an [AUR] package is available: [`scrcpy`][aur-link].
[AUR]: https://wiki.archlinux.org/index.php/Arch_User_Repository
[aur-link]: https://aur.archlinux.org/packages/scrcpy/
For Gentoo, an [Ebuild] is available: [`scrcpy/`][ebuild-link].
[Ebuild]: https://wiki.gentoo.org/wiki/Ebuild
[ebuild-link]: https://github.com/maggu2810/maggu2810-overlay/tree/master/app-mobilephone/scrcpy
You could also [build the app manually][BUILD] (don't worry, it's not that
hard).
## User documentation
The application provides a lot of features and configuration options. They are
documented in the following pages:
### Windows
- [Device](doc/device.md)
- [Video](doc/video.md)
- [Audio](doc/audio.md)
- [Control](doc/control.md)
- [Window](doc/window.md)
- [Recording](doc/recording.md)
- [Tunnels](doc/tunnels.md)
- [HID/OTG](doc/hid-otg.md)
- [Video4Linux](doc/v4l2.md)
- [Shortcuts](doc/shortcuts.md)
For Windows, for simplicity, a prebuilt archive with all the dependencies
(including `adb`) is available:
- [`scrcpy-win64-v1.12.1.zip`][direct-win64]
_(SHA-256: 57d34b6d16cfd9fe169bc37c4df58ebd256d05c1ea3febc63d9cb0a027ab47c9)_
[direct-win64]: https://github.com/Genymobile/scrcpy/releases/download/v1.12.1/scrcpy-win64-v1.12.1.zip
It is also available in [Chocolatey]:
[Chocolatey]: https://chocolatey.org/
```bash
choco install scrcpy
choco install adb # if you don't have it yet
```
And in [Scoop]:
```bash
scoop install scrcpy
scoop install adb # if you don't have it yet
```
[Scoop]: https://scoop.sh
You can also [build the app manually][BUILD].
## Resources
### macOS
- [FAQ](FAQ.md)
- [Translations][wiki] (not necessarily up to date)
- [Build instructions](doc/build.md)
- [Developers](doc/develop.md)
The application is available in [Homebrew]. Just install it:
[wiki]: https://github.com/Genymobile/scrcpy/wiki
[Homebrew]: https://brew.sh/
```bash
brew install scrcpy
```
You need `adb`, accessible from your `PATH`. If you don't have it yet:
```bash
brew cask install android-platform-tools
```
You can also [build the app manually][BUILD].
## Articles
## Run
- [Introducing scrcpy][article-intro]
- [Scrcpy now works wirelessly][article-tcpip]
- [Scrcpy 2.0, with audio][article-scrcpy2]
Plug an Android device, and execute:
[article-intro]: https://blog.rom1v.com/2018/03/introducing-scrcpy/
[article-tcpip]: https://www.genymotion.com/blog/open-source-project-scrcpy-now-works-wirelessly/
[article-scrcpy2]: https://blog.rom1v.com/2023/03/scrcpy-2-0-with-audio/
```bash
scrcpy
```
## Contact
It accepts command-line arguments, listed by:
If you encounter a bug, please read the [FAQ](FAQ.md) first, then open an [issue].
```bash
scrcpy --help
```
[issue]: https://github.com/Genymobile/scrcpy/issues
## Features
For general questions or discussions, you can also use:
### Capture configuration
- Reddit: [`r/scrcpy`](https://www.reddit.com/r/scrcpy)
- Twitter: [`@scrcpy_app`](https://twitter.com/scrcpy_app)
#### Reduce size
Sometimes, it is useful to mirror an Android device at a lower definition to
increase performance.
To limit both the width and height to some value (e.g. 1024):
```bash
scrcpy --max-size 1024
scrcpy -m 1024 # short version
```
The other dimension is computed to that the device aspect ratio is preserved.
That way, a device in 1920×1080 will be mirrored at 1024×576.
## Donate
#### Change bit-rate
I'm [@rom1v](https://github.com/rom1v), the author and maintainer of _scrcpy_.
The default bit-rate is 8 Mbps. To change the video bitrate (e.g. to 2 Mbps):
If you appreciate this application, you can [support my open source
work][donate].
```bash
scrcpy --bit-rate 2M
scrcpy -b 2M # short version
```
#### Limit frame rate
The capture frame rate can be limited:
```bash
scrcpy --max-fps 15
```
This is officially supported since Android 10, but may work on earlier versions.
#### Crop
The device screen may be cropped to mirror only part of the screen.
This is useful for example to mirror only one eye of the Oculus Go:
```bash
scrcpy --crop 1224:1440:0:0 # 1224x1440 at offset (0,0)
```
If `--max-size` is also specified, resizing is applied after cropping.
#### Lock video orientation
To lock the orientation of the mirroring:
```bash
scrcpy --lock-video-orientation 0 # natural orientation
scrcpy --lock-video-orientation 1 # 90° counterclockwise
scrcpy --lock-video-orientation 2 # 180°
scrcpy --lock-video-orientation 3 # 90° clockwise
```
This affects recording orientation.
### Recording
It is possible to record the screen while mirroring:
```bash
scrcpy --record file.mp4
scrcpy -r file.mkv
```
To disable mirroring while recording:
```bash
scrcpy --no-display --record file.mp4
scrcpy -Nr file.mkv
# interrupt recording with Ctrl+C
# Ctrl+C does not terminate properly on Windows, so disconnect the device
```
"Skipped frames" are recorded, even if they are not displayed in real time (for
performance reasons). Frames are _timestamped_ on the device, so [packet delay
variation] does not impact the recorded file.
[packet delay variation]: https://en.wikipedia.org/wiki/Packet_delay_variation
### Connection
#### Wireless
_Scrcpy_ uses `adb` to communicate with the device, and `adb` can [connect] to a
device over TCP/IP:
1. Connect the device to the same Wi-Fi as your computer.
2. Get your device IP address (in Settings → About phone → Status).
3. Enable adb over TCP/IP on your device: `adb tcpip 5555`.
4. Unplug your device.
5. Connect to your device: `adb connect DEVICE_IP:5555` _(replace `DEVICE_IP`)_.
6. Run `scrcpy` as usual.
It may be useful to decrease the bit-rate and the definition:
```bash
scrcpy --bit-rate 2M --max-size 800
scrcpy -b2M -m800 # short version
```
[connect]: https://developer.android.com/studio/command-line/adb.html#wireless
#### Multi-devices
If several devices are listed in `adb devices`, you must specify the _serial_:
```bash
scrcpy --serial 0123456789abcdef
scrcpy -s 0123456789abcdef # short version
```
If the device is connected over TCP/IP:
```bash
scrcpy --serial 192.168.0.1:5555
scrcpy -s 192.168.0.1:5555 # short version
```
You can start several instances of _scrcpy_ for several devices.
#### Autostart on device connection
You could use [AutoAdb]:
```bash
autoadb scrcpy -s '{}'
```
[AutoAdb]: https://github.com/rom1v/usbaudio
#### SSH tunnel
To connect to a remote device, it is possible to connect a local `adb` client to
a remote `adb` server (provided they use the same version of the _adb_
protocol):
```bash
adb kill-server # kill the local adb server on 5037
ssh -CN -L5037:localhost:5037 -R27183:localhost:27183 your_remote_computer
# keep this open
```
From another terminal:
```bash
scrcpy
```
Like for wireless connections, it may be useful to reduce quality:
```
scrcpy -b2M -m800 --max-fps 15
```
### Window configuration
#### Title
By default, the window title is the device model. It can be changed:
```bash
scrcpy --window-title 'My device'
```
#### Position and size
The initial window position and size may be specified:
```bash
scrcpy --window-x 100 --window-y 100 --window-width 800 --window-height 600
```
#### Borderless
To disable window decorations:
```bash
scrcpy --window-borderless
```
#### Always on top
To keep the scrcpy window always on top:
```bash
scrcpy --always-on-top
```
#### Fullscreen
The app may be started directly in fullscreen:
```bash
scrcpy --fullscreen
scrcpy -f # short version
```
Fullscreen can then be toggled dynamically with `Ctrl`+`f`.
#### Rotation
The window may be rotated:
```bash
scrcpy --rotation 1
```
Possibles values are:
- `0`: no rotation
- `1`: 90 degrees counterclockwise
- `2`: 180 degrees
- `3`: 90 degrees clockwise
The rotation can also be changed dynamically with `Ctrl`+`←` _(left)_ and
`Ctrl`+`→` _(right)_.
Note that _scrcpy_ manages 3 different rotations:
- `Ctrl`+`r` requests the device to switch between portrait and landscape (the
current running app may refuse, if it does support the requested
orientation).
- `--lock-video-orientation` changes the mirroring orientation (the orientation
of the video sent from the device to the computer). This affects the
recording.
- `--rotation` (or `Ctrl`+`←`/`Ctrl`+`→`) rotates only the window content. This
affects only the display, not the recording.
### Other mirroring options
#### Read-only
To disable controls (everything which can interact with the device: input keys,
mouse events, drag&drop files):
```bash
scrcpy --no-control
scrcpy -n
```
#### Display
If several displays are available, it is possible to select the display to
mirror:
```bash
scrcpy --display 1
```
The list of display ids can be retrieved by:
```
adb shell dumpsys display # search "mDisplayId=" in the output
```
#### Turn screen off
It is possible to turn the device screen off while mirroring on start with a
command-line option:
```bash
scrcpy --turn-screen-off
scrcpy -S
```
Or by pressing `Ctrl`+`o` at any time.
To turn it back on, press `POWER` (or `Ctrl`+`p`).
#### Render expired frames
By default, to minimize latency, _scrcpy_ always renders the last decoded frame
available, and drops any previous one.
To force the rendering of all frames (at a cost of a possible increased
latency), use:
```bash
scrcpy --render-expired-frames
```
#### Show touches
For presentations, it may be useful to show physical touches (on the physical
device).
Android provides this feature in _Developers options_.
_Scrcpy_ provides an option to enable this feature on start and disable on exit:
```bash
scrcpy --show-touches
scrcpy -t
```
Note that it only shows _physical_ touches (with the finger on the device).
### Input control
#### Rotate device screen
Press `Ctrl`+`r` to switch between portrait and landscape modes.
Note that it rotates only if the application in foreground supports the
requested orientation.
#### Copy-paste
It is possible to synchronize clipboards between the computer and the device, in
both directions:
- `Ctrl`+`c` copies the device clipboard to the computer clipboard;
- `Ctrl`+`Shift`+`v` copies the computer clipboard to the device clipboard;
- `Ctrl`+`v` _pastes_ the computer clipboard as a sequence of text events (but
breaks non-ASCII characters).
#### Text injection preference
There are two kinds of [events][textevents] generated when typing text:
- _key events_, signaling that a key is pressed or released;
- _text events_, signaling that a text has been entered.
By default, letters are injected using key events, so that the keyboard behaves
as expected in games (typically for WASD keys).
But this may [cause issues][prefertext]. If you encounter such a problem, you
can avoid it by:
```bash
scrcpy --prefer-text
```
(but this will break keyboard behavior in games)
[textevents]: https://blog.rom1v.com/2018/03/introducing-scrcpy/#handle-text-input
[prefertext]: https://github.com/Genymobile/scrcpy/issues/650#issuecomment-512945343
### File drop
#### Install APK
To install an APK, drag & drop an APK file (ending with `.apk`) to the _scrcpy_
window.
There is no visual feedback, a log is printed to the console.
#### Push file to device
To push a file to `/sdcard/` on the device, drag & drop a (non-APK) file to the
_scrcpy_ window.
There is no visual feedback, a log is printed to the console.
The target directory can be changed on start:
```bash
scrcpy --push-target /sdcard/foo/bar/
```
### Audio forwarding
Audio is not forwarded by _scrcpy_. Use [USBaudio] (Linux-only).
Also see [issue #14].
[USBaudio]: https://github.com/rom1v/usbaudio
[issue #14]: https://github.com/Genymobile/scrcpy/issues/14
## Shortcuts
| Action | Shortcut | Shortcut (macOS)
| -------------------------------------- |:----------------------------- |:-----------------------------
| Switch fullscreen mode | `Ctrl`+`f` | `Cmd`+`f`
| Rotate display left | `Ctrl`+`←` _(left)_ | `Cmd`+`←` _(left)_
| Rotate display right | `Ctrl`+`→` _(right)_ | `Cmd`+`→` _(right)_
| Resize window to 1:1 (pixel-perfect) | `Ctrl`+`g` | `Cmd`+`g`
| Resize window to remove black borders | `Ctrl`+`x` \| _Double-click¹_ | `Cmd`+`x` \| _Double-click¹_
| Click on `HOME` | `Ctrl`+`h` \| _Middle-click_ | `Ctrl`+`h` \| _Middle-click_
| Click on `BACK` | `Ctrl`+`b` \| _Right-click²_ | `Cmd`+`b` \| _Right-click²_
| Click on `APP_SWITCH` | `Ctrl`+`s` | `Cmd`+`s`
| Click on `MENU` | `Ctrl`+`m` | `Ctrl`+`m`
| Click on `VOLUME_UP` | `Ctrl`+`↑` _(up)_ | `Cmd`+`↑` _(up)_
| Click on `VOLUME_DOWN` | `Ctrl`+`↓` _(down)_ | `Cmd`+`↓` _(down)_
| Click on `POWER` | `Ctrl`+`p` | `Cmd`+`p`
| Power on | _Right-click²_ | _Right-click²_
| Turn device screen off (keep mirroring)| `Ctrl`+`o` | `Cmd`+`o`
| Rotate device screen | `Ctrl`+`r` | `Cmd`+`r`
| Expand notification panel | `Ctrl`+`n` | `Cmd`+`n`
| Collapse notification panel | `Ctrl`+`Shift`+`n` | `Cmd`+`Shift`+`n`
| Copy device clipboard to computer | `Ctrl`+`c` | `Cmd`+`c`
| Paste computer clipboard to device | `Ctrl`+`v` | `Cmd`+`v`
| Copy computer clipboard to device | `Ctrl`+`Shift`+`v` | `Cmd`+`Shift`+`v`
| Enable/disable FPS counter (on stdout) | `Ctrl`+`i` | `Cmd`+`i`
_¹Double-click on black borders to remove them._
_²Right-click turns the screen on if it was off, presses BACK otherwise._
## Custom paths
To use a specific _adb_ binary, configure its path in the environment variable
`ADB`:
ADB=/path/to/adb scrcpy
To override the path of the `scrcpy-server` file, configure its path in
`SCRCPY_SERVER_PATH`.
[useful]: https://github.com/Genymobile/scrcpy/issues/278#issuecomment-429330345
## Why _scrcpy_?
A colleague challenged me to find a name as unpronounceable as [gnirehtet].
[`strcpy`] copies a **str**ing; `scrcpy` copies a **scr**een.
[gnirehtet]: https://github.com/Genymobile/gnirehtet
[`strcpy`]: http://man7.org/linux/man-pages/man3/strcpy.3.html
## How to build?
See [BUILD].
[BUILD]: BUILD.md
## Common issues
See the [FAQ](FAQ.md).
## Developers
Read the [developers page].
[developers page]: DEVELOP.md
[donate]: https://blog.rom1v.com/about/#support-my-open-source-work
## Licence
Copyright (C) 2018 Genymobile
Copyright (C) 2018-2023 Romain Vimont
Copyright (C) 2018-2020 Romain Vimont
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
@ -133,3 +602,11 @@ work][donate].
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
## Articles
- [Introducing scrcpy][article-intro]
- [Scrcpy now works wirelessly][article-tcpip]
[article-intro]: https://blog.rom1v.com/2018/03/introducing-scrcpy/
[article-tcpip]: https://www.genymotion.com/blog/open-source-project-scrcpy-now-works-wirelessly/

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_scrcpy() {
local cur prev words cword
local opts="
--always-on-top
--audio-bit-rate=
--audio-buffer=
--audio-codec=
--audio-codec-options=
--audio-encoder=
--audio-output-buffer=
-b --video-bit-rate=
--crop=
-d --select-usb
--disable-screensaver
--display=
--display-buffer=
-e --select-tcpip
--force-adb-forward
--forward-all-clicks
-f --fullscreen
-K --hid-keyboard
-h --help
--legacy-paste
--list-displays
--list-encoders
--lock-video-orientation
--lock-video-orientation=
--max-fps=
-M --hid-mouse
-m --max-size=
--no-audio
--no-cleanup
--no-clipboard-autosync
--no-downsize-on-error
-n --no-control
-N --no-display
--no-key-repeat
--no-mipmaps
--no-power-on
--otg
-p --port=
--power-off-on-close
--prefer-text
--print-fps
--push-target=
--raw-key-events
-r --record=
--record-format=
--render-driver=
--require-audio
--rotation=
-s --serial=
--shortcut-mod=
-S --turn-screen-off
-t --show-touches
--tcpip
--tcpip=
--tunnel-host=
--tunnel-port=
--v4l2-buffer=
--v4l2-sink=
-V --verbosity=
-v --version
--video-codec=
--video-codec-options=
--video-encoder=
-w --stay-awake
--window-borderless
--window-title=
--window-x=
--window-y=
--window-width=
--window-height="
_init_completion -s || return
case "$prev" in
--video-codec)
COMPREPLY=($(compgen -W 'h264 h265 av1' -- "$cur"))
return
;;
--audio-codec)
COMPREPLY=($(compgen -W 'opus aac raw' -- "$cur"))
return
;;
--lock-video-orientation)
COMPREPLY=($(compgen -W 'unlocked initial 0 1 2 3' -- "$cur"))
return
;;
-r|--record)
COMPREPLY=($(compgen -f -- "$cur"))
return
;;
--record-format)
COMPREPLY=($(compgen -W 'mkv mp4' -- "$cur"))
return
;;
--render-driver)
COMPREPLY=($(compgen -W 'direct3d opengl opengles2 opengles metal software' -- "$cur"))
return
;;
--rotation)
COMPREPLY=($(compgen -W '0 1 2 3' -- "$cur"))
return
;;
--shortcut-mod)
# Only auto-complete a single key
COMPREPLY=($(compgen -W 'lctrl rctrl lalt ralt lsuper rsuper' -- "$cur"))
return
;;
-V|--verbosity)
COMPREPLY=($(compgen -W 'verbose debug info warn error' -- "$cur"))
return
;;
-s|--serial)
# Use 'adb devices' to list serial numbers
COMPREPLY=($(compgen -W "$("${ADB:-adb}" devices | awk '$2 == "device" {print $1}')" -- ${cur}))
return
;;
--audio-bit-rate \
|--audio-buffer \
|-b|--video-bit-rate \
|--audio-codec-options \
|--audio-encoder \
|--audio-output-buffer \
|--crop \
|--display \
|--display-buffer \
|--max-fps \
|-m|--max-size \
|-p|--port \
|--push-target \
|--rotation \
|--tunnel-host \
|--tunnel-port \
|--v4l2-buffer \
|--v4l2-sink \
|--video-codec-options \
|--video-encoder \
|--tcpip \
|--window-*)
# Option accepting an argument, but nothing to auto-complete
return
;;
esac
COMPREPLY=($(compgen -W "$opts" -- "$cur"))
[[ $COMPREPLY == *= ]] && compopt -o nospace
}
complete -F _scrcpy scrcpy

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1
app/data/open_a_terminal_here.bat
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@cmd

4
app/data/scrcpy-console.bat
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@ -1,4 +0,0 @@
@echo off
scrcpy.exe %*
:: if the exit code is >= 1, then pause
if errorlevel 1 pause

13
app/data/scrcpy-console.desktop
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[Desktop Entry]
Name=scrcpy (console)
GenericName=Android Remote Control
Comment=Display and control your Android device
# For some users, the PATH or ADB environment variables are set from the shell
# startup file, like .bashrc or .zshrc… Run an interactive shell to get
# environment correctly initialized.
Exec=/bin/bash --norc --noprofile -i -c "\"\\$SHELL\" -i -c scrcpy || read -p 'Press Enter to quit...'"
Icon=scrcpy
Terminal=true
Type=Application
Categories=Utility;RemoteAccess;
StartupNotify=false

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strCommand = "cmd /c scrcpy.exe"
For Each Arg In WScript.Arguments
strCommand = strCommand & " """ & replace(Arg, """", """""""""") & """"
Next
CreateObject("Wscript.Shell").Run strCommand, 0, false

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[Desktop Entry]
Name=scrcpy
GenericName=Android Remote Control
Comment=Display and control your Android device
# For some users, the PATH or ADB environment variables are set from the shell
# startup file, like .bashrc or .zshrc… Run an interactive shell to get
# environment correctly initialized.
Exec=/bin/sh -c "\"\\$SHELL\" -i -c scrcpy"
Icon=scrcpy
Terminal=false
Type=Application
Categories=Utility;RemoteAccess;
StartupNotify=false

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#compdef -N scrcpy -N scrcpy.exe
#
# name: scrcpy
# auth: hltdev [hltdev8642@gmail.com]
# desc: completion file for scrcpy (all OSes)
#
local arguments
arguments=(
'--always-on-top[Make scrcpy window always on top \(above other windows\)]'
'--audio-bit-rate=[Encode the audio at the given bit-rate]'
'--audio-buffer=[Configure the audio buffering delay (in milliseconds)]'
'--audio-codec=[Select the audio codec]:codec:(opus aac raw)'
'--audio-codec-options=[Set a list of comma-separated key\:type=value options for the device audio encoder]'
'--audio-encoder=[Use a specific MediaCodec audio encoder]'
'--audio-output-buffer=[Configure the size of the SDL audio output buffer (in milliseconds)]'
{-b,--video-bit-rate=}'[Encode the video at the given bit-rate]'
'--crop=[\[width\:height\:x\:y\] Crop the device screen on the server]'
{-d,--select-usb}'[Use USB device]'
'--disable-screensaver[Disable screensaver while scrcpy is running]'
'--display=[Specify the display id to mirror]'
'--display-buffer=[Add a buffering delay \(in milliseconds\) before displaying]'
{-e,--select-tcpip}'[Use TCP/IP device]'
'--force-adb-forward[Do not attempt to use \"adb reverse\" to connect to the device]'
'--forward-all-clicks[Forward clicks to device]'
{-f,--fullscreen}'[Start in fullscreen]'
{-K,--hid-keyboard}'[Simulate a physical keyboard by using HID over AOAv2]'
{-h,--help}'[Print the help]'
'--legacy-paste[Inject computer clipboard text as a sequence of key events on Ctrl+v]'
'--list-displays[List displays available on the device]'
'--list-encoders[List video and audio encoders available on the device]'
'--lock-video-orientation=[Lock video orientation]:orientation:(unlocked initial 0 1 2 3)'
'--max-fps=[Limit the frame rate of screen capture]'
{-M,--hid-mouse}'[Simulate a physical mouse by using HID over AOAv2]'
{-m,--max-size=}'[Limit both the width and height of the video to value]'
'--no-audio[Disable audio forwarding]'
'--no-cleanup[Disable device cleanup actions on exit]'
'--no-clipboard-autosync[Disable automatic clipboard synchronization]'
'--no-downsize-on-error[Disable lowering definition on MediaCodec error]'
{-n,--no-control}'[Disable device control \(mirror the device in read only\)]'
{-N,--no-display}'[Do not display device \(during screen recording or when V4L2 sink is enabled\)]'
'--no-key-repeat[Do not forward repeated key events when a key is held down]'
'--no-mipmaps[Disable the generation of mipmaps]'
'--no-power-on[Do not power on the device on start]'
'--otg[Run in OTG mode \(simulating physical keyboard and mouse\)]'
{-p,--port=}'[\[port\[\:port\]\] Set the TCP port \(range\) used by the client to listen]'
'--power-off-on-close[Turn the device screen off when closing scrcpy]'
'--prefer-text[Inject alpha characters and space as text events instead of key events]'
'--print-fps[Start FPS counter, to print frame logs to the console]'
'--push-target=[Set the target directory for pushing files to the device by drag and drop]'
'--raw-key-events[Inject key events for all input keys, and ignore text events]'
{-r,--record=}'[Record screen to file]:record file:_files'
'--record-format=[Force recording format]:format:(mp4 mkv)'
'--render-driver=[Request SDL to use the given render driver]:driver name:(direct3d opengl opengles2 opengles metal software)'
'--require-audio=[Make scrcpy fail if audio is enabled but does not work]'
'--rotation=[Set the initial display rotation]:rotation values:(0 1 2 3)'
{-s,--serial=}'[The device serial number \(mandatory for multiple devices only\)]:serial:($("${ADB-adb}" devices | awk '\''$2 == "device" {print $1}'\''))'
'--shortcut-mod=[\[key1,key2+key3,...\] Specify the modifiers to use for scrcpy shortcuts]:shortcut mod:(lctrl rctrl lalt ralt lsuper rsuper)'
{-S,--turn-screen-off}'[Turn the device screen off immediately]'
{-t,--show-touches}'[Show physical touches]'
'--tcpip[\(optional \[ip\:port\]\) Configure and connect the device over TCP/IP]'
'--tunnel-host=[Set the IP address of the adb tunnel to reach the scrcpy server]'
'--tunnel-port=[Set the TCP port of the adb tunnel to reach the scrcpy server]'
'--v4l2-buffer=[Add a buffering delay \(in milliseconds\) before pushing frames]'
'--v4l2-sink=[\[\/dev\/videoN\] Output to v4l2loopback device]'
{-V,--verbosity=}'[Set the log level]:verbosity:(verbose debug info warn error)'
{-v,--version}'[Print the version of scrcpy]'
'--video-codec=[Select the video codec]:codec:(h264 h265 av1)'
'--video-codec-options=[Set a list of comma-separated key\:type=value options for the device video encoder]'
'--video-encoder=[Use a specific MediaCodec video encoder]'
{-w,--stay-awake}'[Keep the device on while scrcpy is running, when the device is plugged in]'
'--window-borderless[Disable window decorations \(display borderless window\)]'
'--window-title=[Set a custom window title]'
'--window-x=[Set the initial window horizontal position]'
'--window-y=[Set the initial window vertical position]'
'--window-width=[Set the initial window width]'
'--window-height=[Set the initial window height]'
)
_arguments -s $arguments

276
app/meson.build
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@ -1,128 +1,48 @@
src = [
'src/main.c',
'src/adb/adb.c',
'src/adb/adb_device.c',
'src/adb/adb_parser.c',
'src/adb/adb_tunnel.c',
'src/audio_player.c',
'src/cli.c',
'src/clock.c',
'src/compat.c',
'src/command.c',
'src/control_msg.c',
'src/controller.c',
'src/decoder.c',
'src/delay_buffer.c',
'src/demuxer.c',
'src/device.c',
'src/device_msg.c',
'src/icon.c',
'src/file_pusher.c',
'src/event_converter.c',
'src/file_handler.c',
'src/fps_counter.c',
'src/frame_buffer.c',
'src/input_manager.c',
'src/keyboard_inject.c',
'src/mouse_inject.c',
'src/opengl.c',
'src/options.c',
'src/packet_merger.c',
'src/receiver.c',
'src/recorder.c',
'src/scrcpy.c',
'src/screen.c',
'src/server.c',
'src/version.c',
'src/trait/frame_source.c',
'src/trait/packet_source.c',
'src/util/acksync.c',
'src/util/average.c',
'src/util/bytebuf.c',
'src/util/file.c',
'src/util/intmap.c',
'src/util/intr.c',
'src/util/log.c',
'src/util/memory.c',
'src/stream.c',
'src/tiny_xpm.c',
'src/video_buffer.c',
'src/util/net.c',
'src/util/net_intr.c',
'src/util/process.c',
'src/util/process_intr.c',
'src/util/rand.c',
'src/util/strbuf.c',
'src/util/str.c',
'src/util/term.c',
'src/util/thread.c',
'src/util/tick.c',
'src/util/str_util.c'
]
conf = configuration_data()
conf.set('_POSIX_C_SOURCE', '200809L')
conf.set('_XOPEN_SOURCE', '700')
conf.set('_GNU_SOURCE', true)
if host_machine.system() == 'windows'
windows = import('windows')
src += [
'src/sys/win/file.c',
'src/sys/win/process.c',
windows.compile_resources('scrcpy-windows.rc'),
]
conf.set('_WIN32_WINNT', '0x0600')
conf.set('WINVER', '0x0600')
else
src += [
'src/sys/unix/file.c',
'src/sys/unix/process.c',
]
if host_machine.system() == 'darwin'
conf.set('_DARWIN_C_SOURCE', true)
endif
endif
v4l2_support = get_option('v4l2') and host_machine.system() == 'linux'
if v4l2_support
src += [ 'src/v4l2_sink.c' ]
endif
usb_support = get_option('usb')
if usb_support
src += [
'src/usb/aoa_hid.c',
'src/usb/hid_keyboard.c',
'src/usb/hid_mouse.c',
'src/usb/scrcpy_otg.c',
'src/usb/screen_otg.c',
'src/usb/usb.c',
]
endif
cc = meson.get_compiler('c')
crossbuild_windows = meson.is_cross_build() and host_machine.system() == 'windows'
if not crossbuild_windows
if not get_option('crossbuild_windows')
# native build
dependencies = [
dependency('libavformat', version: '>= 57.33'),
dependency('libavcodec', version: '>= 57.37'),
dependency('libavformat'),
dependency('libavcodec'),
dependency('libavutil'),
dependency('libswresample'),
dependency('sdl2', version: '>= 2.0.5'),
dependency('sdl2'),
]
if v4l2_support
dependencies += dependency('libavdevice')
endif
if usb_support
dependencies += dependency('libusb-1.0')
endif
else
# cross-compile mingw32 build (from Linux to Windows)
cc = meson.get_compiler('c')
prebuilt_sdl2 = meson.get_cross_property('prebuilt_sdl2')
sdl2_bin_dir = meson.current_source_dir() + '/prebuilt-deps/data/' + prebuilt_sdl2 + '/bin'
sdl2_lib_dir = meson.current_source_dir() + '/prebuilt-deps/data/' + prebuilt_sdl2 + '/lib'
sdl2_include_dir = 'prebuilt-deps/data/' + prebuilt_sdl2 + '/include'
sdl2_bin_dir = meson.current_source_dir() + '/../prebuilt-deps/' + prebuilt_sdl2 + '/bin'
sdl2_lib_dir = meson.current_source_dir() + '/../prebuilt-deps/' + prebuilt_sdl2 + '/lib'
sdl2_include_dir = '../prebuilt-deps/' + prebuilt_sdl2 + '/include'
sdl2 = declare_dependency(
dependencies: [
@ -132,62 +52,40 @@ else
include_directories: include_directories(sdl2_include_dir)
)
prebuilt_ffmpeg = meson.get_cross_property('prebuilt_ffmpeg')
ffmpeg_bin_dir = meson.current_source_dir() + '/prebuilt-deps/data/' + prebuilt_ffmpeg + '/bin'
ffmpeg_include_dir = 'prebuilt-deps/data/' + prebuilt_ffmpeg + '/include'
prebuilt_ffmpeg_shared = meson.get_cross_property('prebuilt_ffmpeg_shared')
prebuilt_ffmpeg_dev = meson.get_cross_property('prebuilt_ffmpeg_dev')
ffmpeg_bin_dir = meson.current_source_dir() + '/../prebuilt-deps/' + prebuilt_ffmpeg_shared + '/bin'
ffmpeg_include_dir = '../prebuilt-deps/' + prebuilt_ffmpeg_dev + '/include'
ffmpeg = declare_dependency(
dependencies: [
cc.find_library('avcodec-60', dirs: ffmpeg_bin_dir),
cc.find_library('avformat-60', dirs: ffmpeg_bin_dir),
cc.find_library('avutil-58', dirs: ffmpeg_bin_dir),
cc.find_library('swresample-4', dirs: ffmpeg_bin_dir),
cc.find_library('avcodec-58', dirs: ffmpeg_bin_dir),
cc.find_library('avformat-58', dirs: ffmpeg_bin_dir),
cc.find_library('avutil-56', dirs: ffmpeg_bin_dir),
],
include_directories: include_directories(ffmpeg_include_dir)
)
prebuilt_libusb = meson.get_cross_property('prebuilt_libusb')
libusb_bin_dir = meson.current_source_dir() + '/prebuilt-deps/data/' + prebuilt_libusb + '/bin'
libusb_include_dir = 'prebuilt-deps/data/' + prebuilt_libusb + '/include'
libusb = declare_dependency(
dependencies: [
cc.find_library('msys-usb-1.0', dirs: libusb_bin_dir),
],
include_directories: include_directories(libusb_include_dir)
)
dependencies = [
ffmpeg,
sdl2,
libusb,
cc.find_library('mingw32')
]
endif
cc = meson.get_compiler('c')
if host_machine.system() == 'windows'
src += [ 'src/sys/win/command.c' ]
dependencies += cc.find_library('ws2_32')
else
src += [ 'src/sys/unix/command.c' ]
endif
check_functions = [
'strdup',
'asprintf',
'vasprintf',
'nrand48',
'jrand48',
'reallocarray',
]
conf = configuration_data()
foreach f : check_functions
if cc.has_function(f)
define = 'HAVE_' + f.underscorify().to_upper()
conf.set(define, true)
endif
endforeach
conf.set('HAVE_SOCK_CLOEXEC', host_machine.system() != 'windows' and
cc.has_header_symbol('sys/socket.h', 'SOCK_CLOEXEC'))
# expose the build type
conf.set('NDEBUG', get_option('buildtype') != 'debug')
# the version, updated on release
conf.set_quoted('SCRCPY_VERSION', meson.project_version())
@ -204,48 +102,50 @@ conf.set('PORTABLE', get_option('portable'))
conf.set('DEFAULT_LOCAL_PORT_RANGE_FIRST', '27183')
conf.set('DEFAULT_LOCAL_PORT_RANGE_LAST', '27199')
# the default max video size for both dimensions, in pixels
# overridden by option --max-size
conf.set('DEFAULT_MAX_SIZE', '0') # 0: unlimited
# the default video orientation
# natural device orientation is 0 and each increment adds 90 degrees
# counterclockwise
# overridden by option --lock-video-orientation
conf.set('DEFAULT_LOCK_VIDEO_ORIENTATION', '-1') # -1: unlocked
# the default video bitrate, in bits/second
# overridden by option --bit-rate
conf.set('DEFAULT_BIT_RATE', '8000000') # 8Mbps
# enable High DPI support
conf.set('HIDPI_SUPPORT', get_option('hidpi_support'))
# disable console on Windows
conf.set('WINDOWS_NOCONSOLE', get_option('windows_noconsole'))
# run a server debugger and wait for a client to be attached
conf.set('SERVER_DEBUGGER', get_option('server_debugger'))
# select the debugger method ('old' for Android < 9, 'new' for Android >= 9)
conf.set('SERVER_DEBUGGER_METHOD_NEW', get_option('server_debugger_method') == 'new')
# enable V4L2 support (linux only)
conf.set('HAVE_V4L2', v4l2_support)
# enable HID over AOA support (linux only)
conf.set('HAVE_USB', usb_support)
configure_file(configuration: conf, output: 'config.h')
src_dir = include_directories('src')
if get_option('windows_noconsole')
link_args = [ '-Wl,--subsystem,windows' ]
else
link_args = []
endif
executable('scrcpy', src,
dependencies: dependencies,
include_directories: src_dir,
install: true,
c_args: [])
# <https://mesonbuild.com/Builtin-options.html#directories>
datadir = get_option('datadir') # by default 'share'
c_args: [],
link_args: link_args)
install_man('scrcpy.1')
install_data('data/icon.png',
rename: 'scrcpy.png',
install_dir: join_paths(datadir, 'icons/hicolor/256x256/apps'))
install_data('data/zsh-completion/_scrcpy',
install_dir: join_paths(datadir, 'zsh/site-functions'))
install_data('data/bash-completion/scrcpy',
install_dir: join_paths(datadir, 'bash-completion/completions'))
# Desktop entry file for application launchers
if host_machine.system() == 'linux'
# Install a launcher (ex: /usr/local/share/applications/scrcpy.desktop)
install_data('data/scrcpy.desktop',
install_dir: join_paths(datadir, 'applications'))
install_data('data/scrcpy-console.desktop',
install_dir: join_paths(datadir, 'applications'))
endif
### TESTS
@ -253,64 +153,40 @@ endif
# do not build tests in release (assertions would not be executed at all)
if get_option('buildtype') == 'debug'
tests = [
['test_adb_parser', [
'tests/test_adb_parser.c',
'src/adb/adb_device.c',
'src/adb/adb_parser.c',
'src/util/str.c',
'src/util/strbuf.c',
['test_buffer_util', [
'tests/test_buffer_util.c'
]],
['test_binary', [
'tests/test_binary.c',
]],
['test_bytebuf', [
'tests/test_bytebuf.c',
'src/util/bytebuf.c',
['test_cbuf', [
'tests/test_cbuf.c',
]],
['test_cli', [
'tests/test_cli.c',
'src/cli.c',
'src/options.c',
'src/util/log.c',
'src/util/net.c',
'src/util/str.c',
'src/util/strbuf.c',
'src/util/term.c',
'src/util/str_util.c',
]],
['test_control_msg_serialize', [
['test_control_event_serialize', [
'tests/test_control_msg_serialize.c',
'src/control_msg.c',
'src/util/str.c',
'src/util/strbuf.c',
'src/util/str_util.c',
]],
['test_device_msg_deserialize', [
['test_device_event_deserialize', [
'tests/test_device_msg_deserialize.c',
'src/device_msg.c',
]],
['test_strbuf', [
'tests/test_strbuf.c',
'src/util/strbuf.c',
['test_queue', [
'tests/test_queue.c',
]],
['test_str', [
'tests/test_str.c',
'src/util/str.c',
'src/util/strbuf.c',
]],
['test_vecdeque', [
'tests/test_vecdeque.c',
'src/util/memory.c',
]],
['test_vector', [
'tests/test_vector.c',
['test_strutil', [
'tests/test_strutil.c',
'src/util/str_util.c',
]],
]
foreach t : tests
sources = t[1] + ['src/compat.c']
exe = executable(t[0], sources,
exe = executable(t[0], t[1],
include_directories: src_dir,
dependencies: dependencies,
c_args: ['-DSDL_MAIN_HANDLED', '-DSC_TEST'])
c_args: ['-DSDL_MAIN_HANDLED'])
test(t[0], exe)
endforeach
endif

1
app/prebuilt-deps/.gitignore vendored
View File

@ -1 +0,0 @@
/data

22
app/prebuilt-deps/common
View File

@ -1,22 +0,0 @@
PREBUILT_DATA_DIR=data
checksum() {
local file="$1"
local sum="$2"
echo "$file: verifying checksum..."
echo "$sum $file" | sha256sum -c
}
get_file() {
local url="$1"
local file="$2"
local sum="$3"
if [[ -f "$file" ]]
then
echo "$file: found"
else
echo "$file: not found, downloading..."
wget "$url" -O "$file"
fi
checksum "$file" "$sum"
}

32
app/prebuilt-deps/prepare-adb.sh
View File

@ -1,32 +0,0 @@
#!/usr/bin/env bash
set -e
DIR=$(dirname ${BASH_SOURCE[0]})
cd "$DIR"
. common
mkdir -p "$PREBUILT_DATA_DIR"
cd "$PREBUILT_DATA_DIR"
DEP_DIR=platform-tools-34.0.1
FILENAME=platform-tools_r34.0.1-windows.zip
SHA256SUM=5dd9c2be744c224fa3a7cbe30ba02d2cb378c763bd0f797a7e47e9f3156a5daa
if [[ -d "$DEP_DIR" ]]
then
echo "$DEP_DIR" found
exit 0
fi
get_file "https://dl.google.com/android/repository/$FILENAME" \
"$FILENAME" "$SHA256SUM"
mkdir "$DEP_DIR"
cd "$DEP_DIR"
ZIP_PREFIX=platform-tools
unzip "../$FILENAME" \
"$ZIP_PREFIX"/AdbWinApi.dll \
"$ZIP_PREFIX"/AdbWinUsbApi.dll \
"$ZIP_PREFIX"/adb.exe
mv "$ZIP_PREFIX"/* .
rmdir "$ZIP_PREFIX"

30
app/prebuilt-deps/prepare-ffmpeg.sh
View File

@ -1,30 +0,0 @@
#!/usr/bin/env bash
set -e
DIR=$(dirname ${BASH_SOURCE[0]})
cd "$DIR"
. common
mkdir -p "$PREBUILT_DATA_DIR"
cd "$PREBUILT_DATA_DIR"
VERSION=6.0-scrcpy-2
DEP_DIR="ffmpeg-$VERSION"
FILENAME="$DEP_DIR".7z
SHA256SUM=98ef97f8607c97a5c4f9c5a0a991b78f105d002a3619145011d16ffb92501b14
if [[ -d "$DEP_DIR" ]]
then
echo "$DEP_DIR" found
exit 0
fi
get_file "https://github.com/rom1v/scrcpy-deps/releases/download/$VERSION/$FILENAME" \
"$FILENAME" "$SHA256SUM"
mkdir "$DEP_DIR"
cd "$DEP_DIR"
ZIP_PREFIX=ffmpeg
7z x "../$FILENAME"
mv "$ZIP_PREFIX"/* .
rmdir "$ZIP_PREFIX"

33
app/prebuilt-deps/prepare-libusb.sh
View File

@ -1,33 +0,0 @@
#!/usr/bin/env bash
set -e
DIR=$(dirname ${BASH_SOURCE[0]})
cd "$DIR"
. common
mkdir -p "$PREBUILT_DATA_DIR"
cd "$PREBUILT_DATA_DIR"
DEP_DIR=libusb-1.0.26
FILENAME=libusb-1.0.26-binaries.7z
SHA256SUM=9c242696342dbde9cdc47239391f71833939bf9f7aa2bbb28cdaabe890465ec5
if [[ -d "$DEP_DIR" ]]
then
echo "$DEP_DIR" found
exit 0
fi
get_file "https://github.com/libusb/libusb/releases/download/v1.0.26/$FILENAME" "$FILENAME" "$SHA256SUM"
mkdir "$DEP_DIR"
cd "$DEP_DIR"
7z x "../$FILENAME" \
libusb-1.0.26-binaries/libusb-MinGW-Win32/bin/msys-usb-1.0.dll \
libusb-1.0.26-binaries/libusb-MinGW-Win32/include/ \
libusb-1.0.26-binaries/libusb-MinGW-x64/bin/msys-usb-1.0.dll \
libusb-1.0.26-binaries/libusb-MinGW-x64/include/
mv libusb-1.0.26-binaries/libusb-MinGW-Win32 .
mv libusb-1.0.26-binaries/libusb-MinGW-x64 .
rm -rf libusb-1.0.26-binaries

32
app/prebuilt-deps/prepare-sdl.sh
View File

@ -1,32 +0,0 @@
#!/usr/bin/env bash
set -e
DIR=$(dirname ${BASH_SOURCE[0]})
cd "$DIR"
. common
mkdir -p "$PREBUILT_DATA_DIR"
cd "$PREBUILT_DATA_DIR"
DEP_DIR=SDL2-2.26.4
FILENAME=SDL2-devel-2.26.4-mingw.tar.gz
SHA256SUM=fe899c8642caac2f180b1ee6f786857ddcaa0adc1fa82474312b09dd47d74712
if [[ -d "$DEP_DIR" ]]
then
echo "$DEP_DIR" found
exit 0
fi
get_file "https://libsdl.org/release/$FILENAME" "$FILENAME" "$SHA256SUM"
mkdir "$DEP_DIR"
cd "$DEP_DIR"
TAR_PREFIX="$DEP_DIR" # root directory inside the tar has the same name
tar xf "../$FILENAME" --strip-components=1 \
"$TAR_PREFIX"/i686-w64-mingw32/bin/SDL2.dll \
"$TAR_PREFIX"/i686-w64-mingw32/include/ \
"$TAR_PREFIX"/i686-w64-mingw32/lib/ \
"$TAR_PREFIX"/x86_64-w64-mingw32/bin/SDL2.dll \
"$TAR_PREFIX"/x86_64-w64-mingw32/include/ \
"$TAR_PREFIX"/x86_64-w64-mingw32/lib/ \

9
app/scrcpy-windows.manifest
View File

@ -1,9 +0,0 @@
<?xml version="1.0" encoding="UTF-8" standalone="yes"?>
<assembly xmlns="urn:schemas-microsoft-com:asm.v1" manifestVersion="1.0" xmlns:asmv3="urn:schemas-microsoft-com:asm.v3">
<asmv3:application>
<asmv3:windowsSettings>
<dpiAware xmlns="http://schemas.microsoft.com/SMI/2005/WindowsSettings">true</dpiAware>
<dpiAwareness xmlns="http://schemas.microsoft.com/SMI/2016/WindowsSettings">PerMonitorV2</dpiAwareness>
</asmv3:windowsSettings>
</asmv3:application>
</assembly>

23
app/scrcpy-windows.rc
View File

@ -1,23 +0,0 @@
#include <winuser.h>
0 ICON "data/icon.ico"
1 RT_MANIFEST "scrcpy-windows.manifest"
2 VERSIONINFO
BEGIN
BLOCK "StringFileInfo"
BEGIN
BLOCK "040904E4"
BEGIN
VALUE "FileDescription", "Display and control your Android device"
VALUE "InternalName", "scrcpy"
VALUE "LegalCopyright", "Romain Vimont, Genymobile"
VALUE "OriginalFilename", "scrcpy.exe"
VALUE "ProductName", "scrcpy"
VALUE "ProductVersion", "2.0"
END
END
BLOCK "VarFileInfo"
BEGIN
VALUE "Translation", 0x409, 1252
END
END

365
app/scrcpy.1
View File

@ -20,54 +20,10 @@ provides display and control of Android devices connected on USB (or over TCP/IP
Make scrcpy window always on top (above other windows).
.TP
.BI "\-\-audio\-bit\-rate " value
Encode the audio at the given bit\-rate, expressed in bits/s. Unit suffixes are supported: '\fBK\fR' (x1000) and '\fBM\fR' (x1000000).
Default is 128K (128000).
.TP
.BI "\-\-audio\-buffer ms
Configure the audio buffering delay (in milliseconds).
Lower values decrease the latency, but increase the likelyhood of buffer underrun (causing audio glitches).
Default is 50.
.TP
.BI "\-\-audio\-output\-buffer ms
Configure the size of the SDL audio output buffer (in milliseconds).
If you get "robotic" audio playback, you should test with a higher value (10). Do not change this setting otherwise.
Default is 5.
.TP
.BI "\-\-audio\-codec " name
Select an audio codec (opus, aac or raw).
Default is opus.
.TP
.BI "\-\-audio\-codec\-options " key\fR[:\fItype\fR]=\fIvalue\fR[,...]
Set a list of comma-separated key:type=value options for the device audio encoder.
The possible values for 'type' are 'int' (default), 'long', 'float' and 'string'.
The list of possible codec options is available in the Android documentation
.UR https://d.android.com/reference/android/media/MediaFormat
.UE .
.TP
.BI "\-\-audio\-encoder " name
Use a specific MediaCodec audio encoder (depending on the codec provided by \fB\-\-audio\-codec\fR).
The available encoders can be listed by \-\-list\-encoders.
.TP
.BI "\-b, \-\-video\-bit\-rate " value
.BI "\-b, \-\-bit\-rate " value
Encode the video at the given bit\-rate, expressed in bits/s. Unit suffixes are supported: '\fBK\fR' (x1000) and '\fBM\fR' (x1000000).
Default is 8M (8000000).
Default is 8000000.
.TP
.BI "\-\-crop " width\fR:\fIheight\fR:\fIx\fR:\fIy
@ -77,44 +33,15 @@ The values are expressed in the device natural orientation (typically, portrait
.B \-\-max\-size
value is computed on the cropped size.
.TP
.B \-d, \-\-select\-usb
Use USB device (if there is exactly one, like adb -d).
Also see \fB\-e\fR (\fB\-\-select\-tcpip\fR).
.TP
.BI "\-\-disable-screensaver"
Disable screensaver while scrcpy is running.
.TP
.BI "\-\-display " id
Specify the device display id to mirror.
Specify the display id to mirror.
The available display ids can be listed by \-\-list\-displays.
The list of possible display ids can be listed by "adb shell dumpsys display"
(search "mDisplayId=" in the output).
Default is 0.
.TP
.BI "\-\-display\-buffer ms
Add a buffering delay (in milliseconds) before displaying. This increases latency to compensate for jitter.
Default is 0 (no buffering).
.TP
.B \-e, \-\-select\-tcpip
Use TCP/IP device (if there is exactly one, like adb -e).
Also see \fB\-d\fR (\fB\-\-select\-usb\fR).
.TP
.B \-\-force\-adb\-forward
Do not attempt to use "adb reverse" to connect to the device.
.TP
.B \-\-forward\-all\-clicks
By default, right-click triggers BACK (or POWER on) and middle-click triggers HOME. This option disables these shortcuts and forward the clicks to the device instead.
.TP
.B \-f, \-\-fullscreen
Start in fullscreen.
@ -124,42 +51,10 @@ Start in fullscreen.
Print this help.
.TP
.B \-K, \-\-hid\-keyboard
Simulate a physical keyboard by using HID over AOAv2.
.BI "\-\-lock\-video\-orientation " value
Lock video orientation to \fIvalue\fR. Possible values are -1 (unlocked), 0, 1, 2 and 3. Natural device orientation is 0, and each increment adds a 90 degrees otation counterclockwise.
This provides a better experience for IME users, and allows to generate non-ASCII characters, contrary to the default injection method.
It may only work over USB.
The keyboard layout must be configured (once and for all) on the device, via Settings -> System -> Languages and input -> Physical keyboard. This settings page can be started directly:
adb shell am start -a android.settings.HARD_KEYBOARD_SETTINGS
However, the option is only available when the HID keyboard is enabled (or a physical keyboard is connected).
Also see \fB\-\-hid\-mouse\fR.
.TP
.B \-\-legacy\-paste
Inject computer clipboard text as a sequence of key events on Ctrl+v (like MOD+Shift+v).
This is a workaround for some devices not behaving as expected when setting the device clipboard programmatically.
.TP
.B \-\-list\-encoders
List video and audio encoders available on the device.
.TP
.B \-\-list\-displays
List displays available on the device.
.TP
\fB\-\-lock\-video\-orientation\fR[=\fIvalue\fR]
Lock video orientation to \fIvalue\fR. Possible values are "unlocked", "initial" (locked to the initial orientation), 0, 1, 2 and 3. Natural device orientation is 0, and each increment adds a 90 degrees rotation counterclockwise.
Default is "unlocked".
Passing the option without argument is equivalent to passing "initial".
Default is -1 (unlocked).
.TP
.BI "\-\-max\-fps " value
@ -171,36 +66,6 @@ Limit both the width and height of the video to \fIvalue\fR. The other dimension
Default is 0 (unlimited).
.TP
.B \-M, \-\-hid\-mouse
Simulate a physical mouse by using HID over AOAv2.
In this mode, the computer mouse is captured to control the device directly (relative mouse mode).
LAlt, LSuper or RSuper toggle the capture mode, to give control of the mouse back to the computer.
It may only work over USB.
Also see \fB\-\-hid\-keyboard\fR.
.TP
.B \-\-no\-cleanup
By default, scrcpy removes the server binary from the device and restores the device state (show touches, stay awake and power mode) on exit.
This option disables this cleanup.
.TP
.B \-\-no\-clipboard\-autosync
By default, scrcpy automatically synchronizes the computer clipboard to the device clipboard before injecting Ctrl+v, and the device clipboard to the computer clipboard whenever it changes.
This option disables this automatic synchronization.
.TP
.B \-\-no\-downsize\-on\-error
By default, on MediaCodec error, scrcpy automatically tries again with a lower definition.
This option disables this behavior.
.TP
.B \-n, \-\-no\-control
Disable device control (mirror the device in read\-only).
@ -209,42 +74,16 @@ Disable device control (mirror the device in read\-only).
.B \-N, \-\-no\-display
Do not display device (only when screen recording is enabled).
.TP
.B \-\-no\-key\-repeat
Do not forward repeated key events when a key is held down.
.TP
.B \-\-no\-mipmaps
If the renderer is OpenGL 3.0+ or OpenGL ES 2.0+, then mipmaps are automatically generated to improve downscaling quality. This option disables the generation of mipmaps.
.TP
.B \-\-no\-power\-on
Do not power on the device on start.
.TP
.B \-\-otg
Run in OTG mode: simulate physical keyboard and mouse, as if the computer keyboard and mouse were plugged directly to the device via an OTG cable.
In this mode, adb (USB debugging) is not necessary, and mirroring is disabled.
LAlt, LSuper or RSuper toggle the mouse capture mode, to give control of the mouse back to the computer.
If any of \fB\-\-hid\-keyboard\fR or \fB\-\-hid\-mouse\fR is set, only enable keyboard or mouse respectively, otherwise enable both.
It may only work over USB.
See \fB\-\-hid\-keyboard\fR and \fB\-\-hid\-mouse\fR.
.TP
.BI "\-p, \-\-port " port\fR[:\fIport\fR]
.BI "\-p, \-\-port " port[:port]
Set the TCP port (range) used by the client to listen.
Default is 27183:27199.
.TP
.B \-\-power\-off\-on\-close
Turn the device screen off when closing scrcpy.
.TP
.B \-\-prefer\-text
Inject alpha characters and space as text events instead of key events.
@ -252,19 +91,11 @@ Inject alpha characters and space as text events instead of key events.
This avoids issues when combining multiple keys to enter special characters,
but breaks the expected behavior of alpha keys in games (typically WASD).
.TP
.B "\-\-print\-fps
Start FPS counter, to print framerate logs to the console. It can be started or stopped at any time with MOD+i.
.TP
.BI "\-\-push\-target " path
Set the target directory for pushing files to the device by drag & drop. It is passed as\-is to "adb push".
Default is "/sdcard/Download/".
.TP
.B \-\-raw\-key\-events
Inject key events for all input keys, and ignore text events.
Default is "/sdcard/".
.TP
.BI "\-r, \-\-record " file
@ -284,13 +115,12 @@ Force recording format (either mp4 or mkv).
Request SDL to use the given render driver (this is just a hint).
Supported names are currently "direct3d", "opengl", "opengles2", "opengles", "metal" and "software".
.UR https://wiki.libsdl.org/SDL_HINT_RENDER_DRIVER
.UE
.TP
.B \-\-require\-audio
By default, scrcpy mirrors only the video if audio capture fails on the device. This option makes scrcpy fail if audio is enabled but does not work.
.B \-\-render\-expired\-frames
By default, to minimize latency, scrcpy always renders the last available decoded frame, and drops any previous ones. This flag forces to render all frames, at a cost of a possible increased latency.
.TP
.BI "\-\-rotation " value
@ -300,96 +130,20 @@ Set the initial display rotation. Possibles values are 0, 1, 2 and 3. Each incre
.BI "\-s, \-\-serial " number
The device serial number. Mandatory only if several devices are connected to adb.
.TP
.BI "\-\-shortcut\-mod " key\fR[+...]][,...]
Specify the modifiers to use for scrcpy shortcuts. Possible keys are "lctrl", "rctrl", "lalt", "ralt", "lsuper" and "rsuper".
A shortcut can consist in several keys, separated by '+'. Several shortcuts can be specified, separated by ','.
For example, to use either LCtrl+LAlt or LSuper for scrcpy shortcuts, pass "lctrl+lalt,lsuper".
Default is "lalt,lsuper" (left-Alt or left-Super).
.TP
.BI "\-\-tcpip\fR[=\fIip\fR[:\fIport\fR]]
Configure and reconnect the device over TCP/IP.
If a destination address is provided, then scrcpy connects to this address before starting. The device must listen on the given TCP port (default is 5555).
If no destination address is provided, then scrcpy attempts to find the IP address and adb port of the current device (typically connected over USB), enables TCP/IP mode if necessary, then connects to this address before starting.
.TP
.B \-S, \-\-turn\-screen\-off
Turn the device screen off immediately.
.TP
.B \-t, \-\-show\-touches
Enable "show touches" on start, restore the initial value on exit.
Enable "show touches" on start, disable on quit.
It only shows physical touches (not clicks from scrcpy).
.TP
.BI "\-\-tunnel\-host " ip
Set the IP address of the adb tunnel to reach the scrcpy server. This option automatically enables --force-adb-forward.
Default is localhost.
.TP
.BI "\-\-tunnel\-port " port
Set the TCP port of the adb tunnel to reach the scrcpy server. This option automatically enables --force-adb-forward.
Default is 0 (not forced): the local port used for establishing the tunnel will be used.
.TP
.BI "\-\-v4l2-sink " /dev/videoN
Output to v4l2loopback device.
It requires to lock the video orientation (see \fB\-\-lock\-video\-orientation\fR).
.TP
.BI "\-\-v4l2-buffer " ms
Add a buffering delay (in milliseconds) before pushing frames. This increases latency to compensate for jitter.
This option is similar to \fB\-\-display\-buffer\fR, but specific to V4L2 sink.
Default is 0 (no buffering).
.TP
.BI "\-V, \-\-verbosity " value
Set the log level ("verbose", "debug", "info", "warn" or "error").
Default is "info" for release builds, "debug" for debug builds.
.TP
.B \-v, \-\-version
Print the version of scrcpy.
.TP
.BI "\-\-video\-codec " name
Select a video codec (h264, h265 or av1).
Default is h264.
.TP
.BI "\-\-video\-codec\-options " key\fR[:\fItype\fR]=\fIvalue\fR[,...]
Set a list of comma-separated key:type=value options for the device video encoder.
The possible values for 'type' are 'int' (default), 'long', 'float' and 'string'.
The list of possible codec options is available in the Android documentation
.UR https://d.android.com/reference/android/media/MediaFormat
.UE .
.TP
.BI "\-\-video\-encoder " name
Use a specific MediaCodec video encoder (depending on the codec provided by \fB\-\-video\-codec\fR).
The available encoders can be listed by \-\-list\-encoders.
.TP
.B \-w, \-\-stay-awake
Keep the device on while scrcpy is running, when the device is plugged in.
.TP
.B \-\-window\-borderless
Disable window decorations (display borderless window).
@ -402,83 +156,74 @@ Set a custom window title.
.BI "\-\-window\-x " value
Set the initial window horizontal position.
Default is "auto".
Default is "auto".\n
.TP
.BI "\-\-window\-y " value
Set the initial window vertical position.
Default is "auto".
Default is "auto".\n
.TP
.BI "\-\-window\-width " value
Set the initial window width.
Default is 0 (automatic).
Default is 0 (automatic).\n
.TP
.BI "\-\-window\-height " value
Set the initial window height.
Default is 0 (automatic).
.SH EXIT STATUS
.B scrcpy
will exit with code 0 on normal program termination. If an initial
connection cannot be established, the exit code 1 will be returned. If the
device disconnects while a session is active, exit code 2 will be returned.
Default is 0 (automatic).\n
.SH SHORTCUTS
In the following list, MOD is the shortcut modifier. By default, it's (left)
Alt or (left) Super, but it can be configured by \fB\-\-shortcut\-mod\fR (see above).
.TP
.B MOD+f
.B Ctrl+f
Switch fullscreen mode
.TP
.B MOD+Left
.B Ctrl+Left
Rotate display left
.TP
.B MOD+Right
.B Ctrl+Right
Rotate display right
.TP
.B MOD+g
.B Ctrl+g
Resize window to 1:1 (pixel\-perfect)
.TP
.B MOD+w, Double\-click on black borders
.B Ctrl+x, Double\-click on black borders
Resize window to remove black borders
.TP
.B MOD+h, Home, Middle\-click
.B Ctrl+h, Home, Middle\-click
Click on HOME
.TP
.B MOD+b, MOD+Backspace, Right\-click (when screen is on)
.B Ctrl+b, Ctrl+Backspace, Right\-click (when screen is on)
Click on BACK
.TP
.B MOD+s
.B Ctrl+s
Click on APP_SWITCH
.TP
.B MOD+m
.B Ctrl+m
Click on MENU
.TP
.B MOD+Up
.B Ctrl+Up
Click on VOLUME_UP
.TP
.B MOD+Down
.B Ctrl+Down
Click on VOLUME_DOWN
.TP
.B MOD+p
.B Ctrl+p
Click on POWER (turn screen on/off)
.TP
@ -486,75 +231,51 @@ Click on POWER (turn screen on/off)
Turn screen on
.TP
.B MOD+o
.B Ctrl+o
Turn device screen off (keep mirroring)
.TP
.B MOD+Shift+o
Turn device screen on
.TP
.B MOD+r
.B Ctrl+r
Rotate device screen
.TP
.B MOD+n
.B Ctrl+n
Expand notification panel
.TP
.B MOD+Shift+n
.B Ctrl+Shift+n
Collapse notification panel
.TP
.B Mod+c
Copy to clipboard (inject COPY keycode, Android >= 7 only)
.B Ctrl+c
Copy device clipboard to computer
.TP
.B Mod+x
Cut to clipboard (inject CUT keycode, Android >= 7 only)
.B Ctrl+v
Paste computer clipboard to device
.TP
.B MOD+v
Copy computer clipboard to device, then paste (inject PASTE keycode, Android >= 7 only)
.B Ctrl+Shift+v
Copy computer clipboard to device
.TP
.B MOD+Shift+v
Inject computer clipboard text as a sequence of key events
.TP
.B MOD+i
.B Ctrl+i
Enable/disable FPS counter (print frames/second in logs)
.TP
.B Ctrl+click-and-move
Pinch-to-zoom from the center of the screen
.TP
.B Drag & drop APK file
Install APK from computer
.TP
.B Drag & drop non-APK file
Push file to device (see \fB\-\-push\-target\fR)
.SH Environment variables
.TP
.B ADB
Path to adb.
.TP
.B ANDROID_SERIAL
Device serial to use if no selector (-s, -d, -e or --tcpip=<addr>) is specified.
.TP
.B SCRCPY_ICON_PATH
Path to the program icon.
Specify the path to adb.
.TP
.B SCRCPY_SERVER_PATH
Path to the server binary.
Specify the path to server binary.
.SH AUTHORS
@ -579,7 +300,7 @@ Copyright \(co 2018 Genymobile
Genymobile
.UE
Copyright \(co 2018\-2023
Copyright \(co 2018\-2020
.MT rom@rom1v.com
Romain Vimont
.ME

715
app/src/adb/adb.c
View File

@ -1,715 +0,0 @@
#include "adb.h"
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "adb_device.h"
#include "adb_parser.h"
#include "util/file.h"
#include "util/log.h"
#include "util/process_intr.h"
#include "util/str.h"
/* Convenience macro to expand:
*
* const char *const argv[] =
* SC_ADB_COMMAND("shell", "echo", "hello");
*
* to:
*
* const char *const argv[] =
* { sc_adb_get_executable(), "shell", "echo", "hello", NULL };
*/
#define SC_ADB_COMMAND(...) { sc_adb_get_executable(), __VA_ARGS__, NULL }
static const char *adb_executable;
const char *
sc_adb_get_executable(void) {
if (!adb_executable) {
adb_executable = getenv("ADB");
if (!adb_executable)
adb_executable = "adb";
}
return adb_executable;
}
// serialize argv to string "[arg1], [arg2], [arg3]"
static size_t
argv_to_string(const char *const *argv, char *buf, size_t bufsize) {
size_t idx = 0;
bool first = true;
while (*argv) {
const char *arg = *argv;
size_t len = strlen(arg);
// count space for "[], ...\0"
if (idx + len + 8 >= bufsize) {
// not enough space, truncate
assert(idx < bufsize - 4);
memcpy(&buf[idx], "...", 3);
idx += 3;
break;
}
if (first) {
first = false;
} else {
buf[idx++] = ',';
buf[idx++] = ' ';
}
buf[idx++] = '[';
memcpy(&buf[idx], arg, len);
idx += len;
buf[idx++] = ']';
argv++;
}
assert(idx < bufsize);
buf[idx] = '\0';
return idx;
}
static void
show_adb_installation_msg() {
#ifndef __WINDOWS__
static const struct {
const char *binary;
const char *command;
} pkg_managers[] = {
{"apt", "apt install adb"},
{"apt-get", "apt-get install adb"},
{"brew", "brew cask install android-platform-tools"},
{"dnf", "dnf install android-tools"},
{"emerge", "emerge dev-util/android-tools"},
{"pacman", "pacman -S android-tools"},
};
for (size_t i = 0; i < ARRAY_LEN(pkg_managers); ++i) {
if (sc_file_executable_exists(pkg_managers[i].binary)) {
LOGI("You may install 'adb' by \"%s\"", pkg_managers[i].command);
return;
}
}
#endif
}
static void
show_adb_err_msg(enum sc_process_result err, const char *const argv[]) {
#define MAX_COMMAND_STRING_LEN 1024
char *buf = malloc(MAX_COMMAND_STRING_LEN);
if (!buf) {
LOG_OOM();
LOGE("Failed to execute");
return;
}
switch (err) {
case SC_PROCESS_ERROR_GENERIC:
argv_to_string(argv, buf, MAX_COMMAND_STRING_LEN);
LOGE("Failed to execute: %s", buf);
break;
case SC_PROCESS_ERROR_MISSING_BINARY:
argv_to_string(argv, buf, MAX_COMMAND_STRING_LEN);
LOGE("Command not found: %s", buf);
LOGE("(make 'adb' accessible from your PATH or define its full"
"path in the ADB environment variable)");
show_adb_installation_msg();
break;
case SC_PROCESS_SUCCESS:
// do nothing
break;
}
free(buf);
}
static bool
process_check_success_internal(sc_pid pid, const char *name, bool close,
unsigned flags) {
bool log_errors = !(flags & SC_ADB_NO_LOGERR);
if (pid == SC_PROCESS_NONE) {
if (log_errors) {
LOGE("Could not execute \"%s\"", name);
}
return false;
}
sc_exit_code exit_code = sc_process_wait(pid, close);
if (exit_code) {
if (log_errors) {
if (exit_code != SC_EXIT_CODE_NONE) {
LOGE("\"%s\" returned with value %" SC_PRIexitcode, name,
exit_code);
} else {
LOGE("\"%s\" exited unexpectedly", name);
}
}
return false;
}
return true;
}
static bool
process_check_success_intr(struct sc_intr *intr, sc_pid pid, const char *name,
unsigned flags) {
if (intr && !sc_intr_set_process(intr, pid)) {
// Already interrupted
return false;
}
// Always pass close=false, interrupting would be racy otherwise
bool ret = process_check_success_internal(pid, name, false, flags);
if (intr) {
sc_intr_set_process(intr, SC_PROCESS_NONE);
}
// Close separately
sc_process_close(pid);
return ret;
}
static sc_pid
sc_adb_execute_p(const char *const argv[], unsigned flags, sc_pipe *pout) {
unsigned process_flags = 0;
if (flags & SC_ADB_NO_STDOUT) {
process_flags |= SC_PROCESS_NO_STDOUT;
}
if (flags & SC_ADB_NO_STDERR) {
process_flags |= SC_PROCESS_NO_STDERR;
}
sc_pid pid;
enum sc_process_result r =
sc_process_execute_p(argv, &pid, process_flags, NULL, pout, NULL);
if (r != SC_PROCESS_SUCCESS) {
// If the execution itself failed (not the command exit code), log the
// error in all cases
show_adb_err_msg(r, argv);
pid = SC_PROCESS_NONE;
}
return pid;
}
sc_pid
sc_adb_execute(const char *const argv[], unsigned flags) {
return sc_adb_execute_p(argv, flags, NULL);
}
bool
sc_adb_start_server(struct sc_intr *intr, unsigned flags) {
const char *const argv[] = SC_ADB_COMMAND("start-server");
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb start-server", flags);
}
bool
sc_adb_kill_server(struct sc_intr *intr, unsigned flags) {
const char *const argv[] = SC_ADB_COMMAND("kill-server");
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb kill-server", flags);
}
bool
sc_adb_forward(struct sc_intr *intr, const char *serial, uint16_t local_port,
const char *device_socket_name, unsigned flags) {
char local[4 + 5 + 1]; // tcp:PORT
char remote[108 + 14 + 1]; // localabstract:NAME
sprintf(local, "tcp:%" PRIu16, local_port);
snprintf(remote, sizeof(remote), "localabstract:%s", device_socket_name);
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "forward", local, remote);
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb forward", flags);
}
bool
sc_adb_forward_remove(struct sc_intr *intr, const char *serial,
uint16_t local_port, unsigned flags) {
char local[4 + 5 + 1]; // tcp:PORT
sprintf(local, "tcp:%" PRIu16, local_port);
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "forward", "--remove", local);
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb forward --remove", flags);
}
bool
sc_adb_reverse(struct sc_intr *intr, const char *serial,
const char *device_socket_name, uint16_t local_port,
unsigned flags) {
char local[4 + 5 + 1]; // tcp:PORT
char remote[108 + 14 + 1]; // localabstract:NAME
sprintf(local, "tcp:%" PRIu16, local_port);
snprintf(remote, sizeof(remote), "localabstract:%s", device_socket_name);
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "reverse", remote, local);
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb reverse", flags);
}
bool
sc_adb_reverse_remove(struct sc_intr *intr, const char *serial,
const char *device_socket_name, unsigned flags) {
char remote[108 + 14 + 1]; // localabstract:NAME
snprintf(remote, sizeof(remote), "localabstract:%s", device_socket_name);
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "reverse", "--remove", remote);
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb reverse --remove", flags);
}
bool
sc_adb_push(struct sc_intr *intr, const char *serial, const char *local,
const char *remote, unsigned flags) {
#ifdef __WINDOWS__
// Windows will parse the string, so the paths must be quoted
// (see sys/win/command.c)
local = sc_str_quote(local);
if (!local) {
return SC_PROCESS_NONE;
}
remote = sc_str_quote(remote);
if (!remote) {
free((void *) local);
return SC_PROCESS_NONE;
}
#endif
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "push", local, remote);
sc_pid pid = sc_adb_execute(argv, flags);
#ifdef __WINDOWS__
free((void *) remote);
free((void *) local);
#endif
return process_check_success_intr(intr, pid, "adb push", flags);
}
bool
sc_adb_install(struct sc_intr *intr, const char *serial, const char *local,
unsigned flags) {
#ifdef __WINDOWS__
// Windows will parse the string, so the local name must be quoted
// (see sys/win/command.c)
local = sc_str_quote(local);
if (!local) {
return SC_PROCESS_NONE;
}
#endif
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "install", "-r", local);
sc_pid pid = sc_adb_execute(argv, flags);
#ifdef __WINDOWS__
free((void *) local);
#endif
return process_check_success_intr(intr, pid, "adb install", flags);
}
bool
sc_adb_tcpip(struct sc_intr *intr, const char *serial, uint16_t port,
unsigned flags) {
char port_string[5 + 1];
sprintf(port_string, "%" PRIu16, port);
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "tcpip", port_string);
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb tcpip", flags);
}
bool
sc_adb_connect(struct sc_intr *intr, const char *ip_port, unsigned flags) {
const char *const argv[] = SC_ADB_COMMAND("connect", ip_port);
sc_pipe pout;
sc_pid pid = sc_adb_execute_p(argv, flags, &pout);
if (pid == SC_PROCESS_NONE) {
LOGE("Could not execute \"adb connect\"");
return false;
}
// "adb connect" always returns successfully (with exit code 0), even in
// case of failure. As a workaround, check if its output starts with
// "connected".
char buf[128];
ssize_t r = sc_pipe_read_all_intr(intr, pid, pout, buf, sizeof(buf) - 1);
sc_pipe_close(pout);
bool ok = process_check_success_intr(intr, pid, "adb connect", flags);
if (!ok) {
return false;
}
if (r == -1) {
return false;
}
assert((size_t) r < sizeof(buf));
buf[r] = '\0';
ok = !strncmp("connected", buf, sizeof("connected") - 1);
if (!ok && !(flags & SC_ADB_NO_STDERR)) {
// "adb connect" also prints errors to stdout. Since we capture it,
// re-print the error to stderr.
size_t len = strcspn(buf, "\r\n");
buf[len] = '\0';
fprintf(stderr, "%s\n", buf);
}
return ok;
}
bool
sc_adb_disconnect(struct sc_intr *intr, const char *ip_port, unsigned flags) {
assert(ip_port);
const char *const argv[] = SC_ADB_COMMAND("disconnect", ip_port);
sc_pid pid = sc_adb_execute(argv, flags);
return process_check_success_intr(intr, pid, "adb disconnect", flags);
}
static bool
sc_adb_list_devices(struct sc_intr *intr, unsigned flags,
struct sc_vec_adb_devices *out_vec) {
const char *const argv[] = SC_ADB_COMMAND("devices", "-l");
#define BUFSIZE 65536
char *buf = malloc(BUFSIZE);
if (!buf) {
LOG_OOM();
return false;
}
sc_pipe pout;
sc_pid pid = sc_adb_execute_p(argv, flags, &pout);
if (pid == SC_PROCESS_NONE) {
LOGE("Could not execute \"adb devices -l\"");
free(buf);
return false;
}
ssize_t r = sc_pipe_read_all_intr(intr, pid, pout, buf, BUFSIZE - 1);
sc_pipe_close(pout);
bool ok = process_check_success_intr(intr, pid, "adb devices -l", flags);
if (!ok) {
free(buf);
return false;
}
if (r == -1) {
free(buf);
return false;
}
assert((size_t) r < BUFSIZE);
if (r == BUFSIZE - 1) {
// The implementation assumes that the output of "adb devices -l" fits
// in the buffer in a single pass
LOGW("Result of \"adb devices -l\" does not fit in 64Kb. "
"Please report an issue.");
return false;
}
// It is parsed as a NUL-terminated string
buf[r] = '\0';
// List all devices to the output list directly
ok = sc_adb_parse_devices(buf, out_vec);
free(buf);
return ok;
}
static bool
sc_adb_accept_device(const struct sc_adb_device *device,
const struct sc_adb_device_selector *selector) {
switch (selector->type) {
case SC_ADB_DEVICE_SELECT_ALL:
return true;
case SC_ADB_DEVICE_SELECT_SERIAL:
assert(selector->serial);
char *device_serial_colon = strchr(device->serial, ':');
if (device_serial_colon) {
// The device serial is an IP:port...
char *serial_colon = strchr(selector->serial, ':');
if (!serial_colon) {
// But the requested serial has no ':', so only consider
// the IP part of the device serial. This allows to use
// "192.168.1.1" to match any "192.168.1.1:port".
size_t serial_len = strlen(selector->serial);
size_t device_ip_len = device_serial_colon - device->serial;
if (serial_len != device_ip_len) {
// They are not equal, they don't even have the same
// length
return false;
}
return !strncmp(selector->serial, device->serial,
device_ip_len);
}
}
return !strcmp(selector->serial, device->serial);
case SC_ADB_DEVICE_SELECT_USB:
return sc_adb_device_get_type(device->serial) ==
SC_ADB_DEVICE_TYPE_USB;
case SC_ADB_DEVICE_SELECT_TCPIP:
// Both emulators and TCP/IP devices are selected via -e
return sc_adb_device_get_type(device->serial) !=
SC_ADB_DEVICE_TYPE_USB;
default:
assert(!"Missing SC_ADB_DEVICE_SELECT_* handling");
break;
}
return false;
}
static size_t
sc_adb_devices_select(struct sc_adb_device *devices, size_t len,
const struct sc_adb_device_selector *selector,
size_t *idx_out) {
size_t count = 0;
for (size_t i = 0; i < len; ++i) {
struct sc_adb_device *device = &devices[i];
device->selected = sc_adb_accept_device(device, selector);
if (device->selected) {
if (idx_out && !count) {
*idx_out = i;
}
++count;
}
}
return count;
}
static void
sc_adb_devices_log(enum sc_log_level level, struct sc_adb_device *devices,
size_t count) {
for (size_t i = 0; i < count; ++i) {
struct sc_adb_device *d = &devices[i];
const char *selection = d->selected ? "-->" : " ";
bool is_usb =
sc_adb_device_get_type(d->serial) == SC_ADB_DEVICE_TYPE_USB;
const char *type = is_usb ? " (usb)"
: "(tcpip)";
LOG(level, " %s %s %-20s %16s %s",
selection, type, d->serial, d->state, d->model ? d->model : "");
}
}
static bool
sc_adb_device_check_state(struct sc_adb_device *device,
struct sc_adb_device *devices, size_t count) {
const char *state = device->state;
if (!strcmp("device", state)) {
return true;
}
if (!strcmp("unauthorized", state)) {
LOGE("Device is unauthorized:");
sc_adb_devices_log(SC_LOG_LEVEL_ERROR, devices, count);
LOGE("A popup should open on the device to request authorization.");
LOGE("Check the FAQ: "
"<https://github.com/Genymobile/scrcpy/blob/master/FAQ.md>");
} else {
LOGE("Device could not be connected (state=%s)", state);
}
return false;
}
bool
sc_adb_select_device(struct sc_intr *intr,
const struct sc_adb_device_selector *selector,
unsigned flags, struct sc_adb_device *out_device) {
struct sc_vec_adb_devices vec = SC_VECTOR_INITIALIZER;
bool ok = sc_adb_list_devices(intr, flags, &vec);
if (!ok) {
LOGE("Could not list ADB devices");
return false;
}
if (vec.size == 0) {
LOGE("Could not find any ADB device");
return false;
}
size_t sel_idx; // index of the single matching device if sel_count == 1
size_t sel_count =
sc_adb_devices_select(vec.data, vec.size, selector, &sel_idx);
if (sel_count == 0) {
// if count > 0 && sel_count == 0, then necessarily a selection is
// requested
assert(selector->type != SC_ADB_DEVICE_SELECT_ALL);
switch (selector->type) {
case SC_ADB_DEVICE_SELECT_SERIAL:
assert(selector->serial);
LOGE("Could not find ADB device %s:", selector->serial);
break;
case SC_ADB_DEVICE_SELECT_USB:
LOGE("Could not find any ADB device over USB:");
break;
case SC_ADB_DEVICE_SELECT_TCPIP:
LOGE("Could not find any ADB device over TCP/IP:");
break;
default:
assert(!"Unexpected selector type");
break;
}
sc_adb_devices_log(SC_LOG_LEVEL_ERROR, vec.data, vec.size);
sc_adb_devices_destroy(&vec);
return false;
}
if (sel_count > 1) {
switch (selector->type) {
case SC_ADB_DEVICE_SELECT_ALL:
LOGE("Multiple (%" SC_PRIsizet ") ADB devices:", sel_count);
break;
case SC_ADB_DEVICE_SELECT_SERIAL:
assert(selector->serial);
LOGE("Multiple (%" SC_PRIsizet ") ADB devices with serial %s:",
sel_count, selector->serial);
break;
case SC_ADB_DEVICE_SELECT_USB:
LOGE("Multiple (%" SC_PRIsizet ") ADB devices over USB:",
sel_count);
break;
case SC_ADB_DEVICE_SELECT_TCPIP:
LOGE("Multiple (%" SC_PRIsizet ") ADB devices over TCP/IP:",
sel_count);
break;
default:
assert(!"Unexpected selector type");
break;
}
sc_adb_devices_log(SC_LOG_LEVEL_ERROR, vec.data, vec.size);
LOGE("Select a device via -s (--serial), -d (--select-usb) or -e "
"(--select-tcpip)");
sc_adb_devices_destroy(&vec);
return false;
}
assert(sel_count == 1); // sel_idx is valid only if sel_count == 1
struct sc_adb_device *device = &vec.data[sel_idx];
ok = sc_adb_device_check_state(device, vec.data, vec.size);
if (!ok) {
sc_adb_devices_destroy(&vec);
return false;
}
LOGD("ADB device found:");
sc_adb_devices_log(SC_LOG_LEVEL_DEBUG, vec.data, vec.size);
// Move devics into out_device (do not destroy device)
sc_adb_device_move(out_device, device);
sc_adb_devices_destroy(&vec);
return true;
}
char *
sc_adb_getprop(struct sc_intr *intr, const char *serial, const char *prop,
unsigned flags) {
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "shell", "getprop", prop);
sc_pipe pout;
sc_pid pid = sc_adb_execute_p(argv, flags, &pout);
if (pid == SC_PROCESS_NONE) {
LOGE("Could not execute \"adb getprop\"");
return NULL;
}
char buf[128];
ssize_t r = sc_pipe_read_all_intr(intr, pid, pout, buf, sizeof(buf) - 1);
sc_pipe_close(pout);
bool ok = process_check_success_intr(intr, pid, "adb getprop", flags);
if (!ok) {
return NULL;
}
if (r == -1) {
return NULL;
}
assert((size_t) r < sizeof(buf));
buf[r] = '\0';
size_t len = strcspn(buf, " \r\n");
buf[len] = '\0';
return strdup(buf);
}
char *
sc_adb_get_device_ip(struct sc_intr *intr, const char *serial, unsigned flags) {
assert(serial);
const char *const argv[] =
SC_ADB_COMMAND("-s", serial, "shell", "ip", "route");
sc_pipe pout;
sc_pid pid = sc_adb_execute_p(argv, flags, &pout);
if (pid == SC_PROCESS_NONE) {
LOGD("Could not execute \"ip route\"");
return NULL;
}
// "adb shell ip route" output should contain only a few lines
char buf[1024];
ssize_t r = sc_pipe_read_all_intr(intr, pid, pout, buf, sizeof(buf) - 1);
sc_pipe_close(pout);
bool ok = process_check_success_intr(intr, pid, "ip route", flags);
if (!ok) {
return NULL;
}
if (r == -1) {
return NULL;
}
assert((size_t) r < sizeof(buf));
if (r == sizeof(buf) - 1) {
// The implementation assumes that the output of "ip route" fits in the
// buffer in a single pass
LOGW("Result of \"ip route\" does not fit in 1Kb. "
"Please report an issue.");
return NULL;
}
// It is parsed as a NUL-terminated string
buf[r] = '\0';
return sc_adb_parse_device_ip(buf);
}

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app/src/adb/adb.h
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#ifndef SC_ADB_H
#define SC_ADB_H
#include "common.h"
#include <stdbool.h>
#include <inttypes.h>
#include "adb_device.h"
#include "util/intr.h"
#define SC_ADB_NO_STDOUT (1 << 0)
#define SC_ADB_NO_STDERR (1 << 1)
#define SC_ADB_NO_LOGERR (1 << 2)
#define SC_ADB_SILENT (SC_ADB_NO_STDOUT | SC_ADB_NO_STDERR | SC_ADB_NO_LOGERR)
const char *
sc_adb_get_executable(void);
enum sc_adb_device_selector_type {
SC_ADB_DEVICE_SELECT_ALL,
SC_ADB_DEVICE_SELECT_SERIAL,
SC_ADB_DEVICE_SELECT_USB,
SC_ADB_DEVICE_SELECT_TCPIP,
};
struct sc_adb_device_selector {
enum sc_adb_device_selector_type type;
const char *serial;
};
sc_pid
sc_adb_execute(const char *const argv[], unsigned flags);
bool
sc_adb_start_server(struct sc_intr *intr, unsigned flags);
bool
sc_adb_kill_server(struct sc_intr *intr, unsigned flags);
bool
sc_adb_forward(struct sc_intr *intr, const char *serial, uint16_t local_port,
const char *device_socket_name, unsigned flags);
bool
sc_adb_forward_remove(struct sc_intr *intr, const char *serial,
uint16_t local_port, unsigned flags);
bool
sc_adb_reverse(struct sc_intr *intr, const char *serial,
const char *device_socket_name, uint16_t local_port,
unsigned flags);
bool
sc_adb_reverse_remove(struct sc_intr *intr, const char *serial,
const char *device_socket_name, unsigned flags);
bool
sc_adb_push(struct sc_intr *intr, const char *serial, const char *local,
const char *remote, unsigned flags);
bool
sc_adb_install(struct sc_intr *intr, const char *serial, const char *local,
unsigned flags);
/**
* Execute `adb tcpip <port>`
*/
bool
sc_adb_tcpip(struct sc_intr *intr, const char *serial, uint16_t port,
unsigned flags);
/**
* Execute `adb connect <ip_port>`
*
* `ip_port` may not be NULL.
*/
bool
sc_adb_connect(struct sc_intr *intr, const char *ip_port, unsigned flags);
/**
* Execute `adb disconnect [<ip_port>]`
*
* If `ip_port` is NULL, execute `adb disconnect`.
* Otherwise, execute `adb disconnect <ip_port>`.
*/
bool
sc_adb_disconnect(struct sc_intr *intr, const char *ip_port, unsigned flags);
/**
* Execute `adb devices` and parse the result to select a device
*
* Return true if a single matching device is found, and write it to out_device.
*/
bool
sc_adb_select_device(struct sc_intr *intr,
const struct sc_adb_device_selector *selector,
unsigned flags, struct sc_adb_device *out_device);
/**
* Execute `adb getprop <prop>`
*/
char *
sc_adb_getprop(struct sc_intr *intr, const char *serial, const char *prop,
unsigned flags);
/**
* Attempt to retrieve the device IP
*
* Return the IP as a string of the form "xxx.xxx.xxx.xxx", to be freed by the
* caller, or NULL on error.
*/
char *
sc_adb_get_device_ip(struct sc_intr *intr, const char *serial, unsigned flags);
#endif

43
app/src/adb/adb_device.c
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@ -1,43 +0,0 @@
#include "adb_device.h"
#include <stdlib.h>
#include <string.h>
void
sc_adb_device_destroy(struct sc_adb_device *device) {
free(device->serial);
free(device->state);
free(device->model);
}
void
sc_adb_device_move(struct sc_adb_device *dst, struct sc_adb_device *src) {
*dst = *src;
src->serial = NULL;
src->state = NULL;
src->model = NULL;
}
void
sc_adb_devices_destroy(struct sc_vec_adb_devices *devices) {
for (size_t i = 0; i < devices->size; ++i) {
sc_adb_device_destroy(&devices->data[i]);
}
sc_vector_destroy(devices);
}
enum sc_adb_device_type
sc_adb_device_get_type(const char *serial) {
// Starts with "emulator-"
if (!strncmp(serial, "emulator-", sizeof("emulator-") - 1)) {
return SC_ADB_DEVICE_TYPE_EMULATOR;
}
// If the serial contains a ':', then it is a TCP/IP device (it is
// sufficient to distinguish an ip:port from a real USB serial)
if (strchr(serial, ':')) {
return SC_ADB_DEVICE_TYPE_TCPIP;
}
return SC_ADB_DEVICE_TYPE_USB;
}

50
app/src/adb/adb_device.h
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#ifndef SC_ADB_DEVICE_H
#define SC_ADB_DEVICE_H
#include "common.h"
#include <stdbool.h>
#include <stddef.h>
#include "util/vector.h"
struct sc_adb_device {
char *serial;
char *state;
char *model;
bool selected;
};
enum sc_adb_device_type {
SC_ADB_DEVICE_TYPE_USB,
SC_ADB_DEVICE_TYPE_TCPIP,
SC_ADB_DEVICE_TYPE_EMULATOR,
};
struct sc_vec_adb_devices SC_VECTOR(struct sc_adb_device);
void
sc_adb_device_destroy(struct sc_adb_device *device);
/**
* Move src to dst
*
* After this call, the content of src is undefined, except that
* sc_adb_device_destroy() can be called.
*
* This is useful to take a device from a list that will be destroyed, without
* making unnecessary copies.
*/
void
sc_adb_device_move(struct sc_adb_device *dst, struct sc_adb_device *src);
void
sc_adb_devices_destroy(struct sc_vec_adb_devices *devices);
/**
* Deduce the device type from the serial
*/
enum sc_adb_device_type
sc_adb_device_get_type(const char *serial);
#endif

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app/src/adb/adb_parser.c
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#include "adb_parser.h"
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include "util/log.h"
#include "util/str.h"
bool
sc_adb_parse_device(char *line, struct sc_adb_device *device) {
// One device line looks like:
// "0123456789abcdef device usb:2-1 product:MyProduct model:MyModel "
// "device:MyDevice transport_id:1"
if (line[0] == '*') {
// Garbage lines printed by adb daemon while starting start with a '*'
return false;
}
if (!strncmp("adb server", line, sizeof("adb server") - 1)) {
// Ignore lines starting with "adb server":
// adb server version (41) doesn't match this client (39); killing...
return false;
}
char *s = line; // cursor in the line
// After the serial:
// - "adb devices" writes a single '\t'
// - "adb devices -l" writes multiple spaces
// For flexibility, accept both.
size_t serial_len = strcspn(s, " \t");
if (!serial_len) {
// empty serial
return false;
}
bool eol = s[serial_len] == '\0';
if (eol) {
// serial alone is unexpected
return false;
}
s[serial_len] = '\0';
char *serial = s;
s += serial_len + 1;
// After the serial, there might be several spaces
s += strspn(s, " \t"); // consume all separators
size_t state_len = strcspn(s, " ");
if (!state_len) {
// empty state
return false;
}
eol = s[state_len] == '\0';
s[state_len] = '\0';
char *state = s;
char *model = NULL;
if (!eol) {
s += state_len + 1;
// Iterate over all properties "key:value key:value ..."
for (;;) {
size_t token_len = strcspn(s, " ");
if (!token_len) {
break;
}
eol = s[token_len] == '\0';
s[token_len] = '\0';
char *token = s;
if (!strncmp("model:", token, sizeof("model:") - 1)) {
model = &token[sizeof("model:") - 1];
// We only need the model
break;
}
if (eol) {
break;
} else {
s+= token_len + 1;
}
}
}
device->serial = strdup(serial);
if (!device->serial) {
return false;
}
device->state = strdup(state);
if (!device->state) {
free(device->serial);
return false;
}
if (model) {
device->model = strdup(model);
if (!device->model) {
LOG_OOM();
// model is optional, do not fail
}
} else {
device->model = NULL;
}
device->selected = false;
return true;
}
bool
sc_adb_parse_devices(char *str, struct sc_vec_adb_devices *out_vec) {
#define HEADER "List of devices attached"
#define HEADER_LEN (sizeof(HEADER) - 1)
bool header_found = false;
size_t idx_line = 0;
while (str[idx_line] != '\0') {
char *line = &str[idx_line];
size_t len = strcspn(line, "\n");
// The next line starts after the '\n' (replaced by `\0`)
idx_line += len;
if (str[idx_line] != '\0') {
// The next line starts after the '\n'
++idx_line;
}
if (!header_found) {
if (!strncmp(line, HEADER, HEADER_LEN)) {
header_found = true;
}
// Skip everything until the header, there might be garbage lines
// related to daemon starting before
continue;
}
// The line, but without any trailing '\r'
size_t line_len = sc_str_remove_trailing_cr(line, len);
line[line_len] = '\0';
struct sc_adb_device device;
bool ok = sc_adb_parse_device(line, &device);
if (!ok) {
continue;
}
ok = sc_vector_push(out_vec, device);
if (!ok) {
LOG_OOM();
LOGE("Could not push adb_device to vector");
sc_adb_device_destroy(&device);
// continue anyway
continue;
}
}
assert(header_found || out_vec->size == 0);
return header_found;
}
static char *
sc_adb_parse_device_ip_from_line(char *line) {
// One line from "ip route" looks like:
// "192.168.1.0/24 dev wlan0 proto kernel scope link src 192.168.1.x"
// Get the location of the device name (index of "wlan0" in the example)
ssize_t idx_dev_name = sc_str_index_of_column(line, 2, " ");
if (idx_dev_name == -1) {
return NULL;
}
// Get the location of the ip address (column 8, but column 6 if we start
// from column 2). Must be computed before truncating individual columns.
ssize_t idx_ip = sc_str_index_of_column(&line[idx_dev_name], 6, " ");
if (idx_ip == -1) {
return NULL;
}
// idx_ip is searched from &line[idx_dev_name]
idx_ip += idx_dev_name;
char *dev_name = &line[idx_dev_name];
size_t dev_name_len = strcspn(dev_name, " \t");
dev_name[dev_name_len] = '\0';
char *ip = &line[idx_ip];
size_t ip_len = strcspn(ip, " \t");
ip[ip_len] = '\0';
// Only consider lines where the device name starts with "wlan"
if (strncmp(dev_name, "wlan", sizeof("wlan") - 1)) {
LOGD("Device ip lookup: ignoring %s (%s)", ip, dev_name);
return NULL;
}
return strdup(ip);
}
char *
sc_adb_parse_device_ip(char *str) {
size_t idx_line = 0;
while (str[idx_line] != '\0') {
char *line = &str[idx_line];
size_t len = strcspn(line, "\n");
// The same, but without any trailing '\r'
size_t line_len = sc_str_remove_trailing_cr(line, len);
line[line_len] = '\0';
char *ip = sc_adb_parse_device_ip_from_line(line);
if (ip) {
// Found
return ip;
}
idx_line += len;
if (str[idx_line] != '\0') {
// The next line starts after the '\n'
++idx_line;
}
}
return NULL;
}

30
app/src/adb/adb_parser.h
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#ifndef SC_ADB_PARSER_H
#define SC_ADB_PARSER_H
#include "common.h"
#include <stddef.h>
#include "adb_device.h"
/**
* Parse the available devices from the output of `adb devices`
*
* The parameter must be a NUL-terminated string.
*
* Warning: this function modifies the buffer for optimization purposes.
*/
bool
sc_adb_parse_devices(char *str, struct sc_vec_adb_devices *out_vec);
/**
* Parse the ip from the output of `adb shell ip route`
*
* The parameter must be a NUL-terminated string.
*
* Warning: this function modifies the buffer for optimization purposes.
*/
char *
sc_adb_parse_device_ip(char *str);
#endif

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app/src/adb/adb_tunnel.c
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#include "adb_tunnel.h"
#include <assert.h>
#include "adb.h"
#include "util/log.h"
#include "util/net_intr.h"
#include "util/process_intr.h"
static bool
listen_on_port(struct sc_intr *intr, sc_socket socket, uint16_t port) {
return net_listen_intr(intr, socket, IPV4_LOCALHOST, port, 1);
}
static bool
enable_tunnel_reverse_any_port(struct sc_adb_tunnel *tunnel,
struct sc_intr *intr, const char *serial,
const char *device_socket_name,
struct sc_port_range port_range) {
uint16_t port = port_range.first;
for (;;) {
if (!sc_adb_reverse(intr, serial, device_socket_name, port,
SC_ADB_NO_STDOUT)) {
// the command itself failed, it will fail on any port
return false;
}
// At the application level, the device part is "the server" because it
// serves video stream and control. However, at the network level, the
// client listens and the server connects to the client. That way, the
// client can listen before starting the server app, so there is no
// need to try to connect until the server socket is listening on the
// device.
sc_socket server_socket = net_socket();
if (server_socket != SC_SOCKET_NONE) {
bool ok = listen_on_port(intr, server_socket, port);
if (ok) {
// success
tunnel->server_socket = server_socket;
tunnel->local_port = port;
tunnel->enabled = true;
return true;
}
net_close(server_socket);
}
if (sc_intr_is_interrupted(intr)) {
// Stop immediately
return false;
}
// failure, disable tunnel and try another port
if (!sc_adb_reverse_remove(intr, serial, device_socket_name,
SC_ADB_NO_STDOUT)) {
LOGW("Could not remove reverse tunnel on port %" PRIu16, port);
}
// check before incrementing to avoid overflow on port 65535
if (port < port_range.last) {
LOGW("Could not listen on port %" PRIu16", retrying on %" PRIu16,
port, (uint16_t) (port + 1));
port++;
continue;
}
if (port_range.first == port_range.last) {
LOGE("Could not listen on port %" PRIu16, port_range.first);
} else {
LOGE("Could not listen on any port in range %" PRIu16 ":%" PRIu16,
port_range.first, port_range.last);
}
return false;
}
}
static bool
enable_tunnel_forward_any_port(struct sc_adb_tunnel *tunnel,
struct sc_intr *intr, const char *serial,
const char *device_socket_name,
struct sc_port_range port_range) {
tunnel->forward = true;
uint16_t port = port_range.first;
for (;;) {
if (sc_adb_forward(intr, serial, port, device_socket_name,
SC_ADB_NO_STDOUT)) {
// success
tunnel->local_port = port;
tunnel->enabled = true;
return true;
}
if (sc_intr_is_interrupted(intr)) {
// Stop immediately
return false;
}
if (port < port_range.last) {
LOGW("Could not forward port %" PRIu16", retrying on %" PRIu16,
port, (uint16_t) (port + 1));
port++;
continue;
}
if (port_range.first == port_range.last) {
LOGE("Could not forward port %" PRIu16, port_range.first);
} else {
LOGE("Could not forward any port in range %" PRIu16 ":%" PRIu16,
port_range.first, port_range.last);
}
return false;
}
}
void
sc_adb_tunnel_init(struct sc_adb_tunnel *tunnel) {
tunnel->enabled = false;
tunnel->forward = false;
tunnel->server_socket = SC_SOCKET_NONE;
tunnel->local_port = 0;
}
bool
sc_adb_tunnel_open(struct sc_adb_tunnel *tunnel, struct sc_intr *intr,
const char *serial, const char *device_socket_name,
struct sc_port_range port_range, bool force_adb_forward) {
assert(!tunnel->enabled);
if (!force_adb_forward) {
// Attempt to use "adb reverse"
if (enable_tunnel_reverse_any_port(tunnel, intr, serial,
device_socket_name, port_range)) {
return true;
}
// if "adb reverse" does not work (e.g. over "adb connect"), it
// fallbacks to "adb forward", so the app socket is the client
LOGW("'adb reverse' failed, fallback to 'adb forward'");
}
return enable_tunnel_forward_any_port(tunnel, intr, serial,
device_socket_name, port_range);
}
bool
sc_adb_tunnel_close(struct sc_adb_tunnel *tunnel, struct sc_intr *intr,
const char *serial, const char *device_socket_name) {
assert(tunnel->enabled);
bool ret;
if (tunnel->forward) {
ret = sc_adb_forward_remove(intr, serial, tunnel->local_port,
SC_ADB_NO_STDOUT);
} else {
ret = sc_adb_reverse_remove(intr, serial, device_socket_name,
SC_ADB_NO_STDOUT);
assert(tunnel->server_socket != SC_SOCKET_NONE);
if (!net_close(tunnel->server_socket)) {
LOGW("Could not close server socket");
}
// server_socket is never used anymore
}
// Consider tunnel disabled even if the command failed
tunnel->enabled = false;
return ret;
}

47
app/src/adb/adb_tunnel.h
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@ -1,47 +0,0 @@
#ifndef SC_ADB_TUNNEL_H
#define SC_ADB_TUNNEL_H
#include "common.h"
#include <stdbool.h>
#include <stdint.h>
#include "options.h"
#include "util/intr.h"
#include "util/net.h"
struct sc_adb_tunnel {
bool enabled;
bool forward; // use "adb forward" instead of "adb reverse"
sc_socket server_socket; // only used if !forward
uint16_t local_port;
};
/**
* Initialize the adb tunnel struct to default values
*/
void
sc_adb_tunnel_init(struct sc_adb_tunnel *tunnel);
/**
* Open a tunnel
*
* Blocking calls may be interrupted asynchronously via `intr`.
*
* If `force_adb_forward` is not set, then attempts to set up an "adb reverse"
* tunnel first. Only if it fails (typical on old Android version connected via
* TCP/IP), use "adb forward".
*/
bool
sc_adb_tunnel_open(struct sc_adb_tunnel *tunnel, struct sc_intr *intr,
const char *serial, const char *device_socket_name,
struct sc_port_range port_range, bool force_adb_forward);
/**
* Close the tunnel
*/
bool
sc_adb_tunnel_close(struct sc_adb_tunnel *tunnel, struct sc_intr *intr,
const char *serial, const char *device_socket_name);
#endif

2
app/src/android/input.h
View File

@ -21,7 +21,7 @@
#define _ANDROID_INPUT_H
/**
* Meta key / modifier state.
* Meta key / modifer state.
*/
enum android_metastate {
/** No meta keys are pressed. */

476
app/src/audio_player.c
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@ -1,476 +0,0 @@
#include "audio_player.h"
#include <libavcodec/avcodec.h>
#include <libavutil/opt.h>
#include "util/log.h"
#define SC_AUDIO_PLAYER_NDEBUG // comment to debug
/**
* Real-time audio player with configurable latency
*
* As input, the player regularly receives AVFrames of decoded audio samples.
* As output, an SDL callback regularly requests audio samples to be played.
* In the middle, an audio buffer stores the samples produced but not consumed
* yet.
*
* The goal of the player is to feed the audio output with a latency as low as
* possible while avoiding buffer underrun (i.e. not being able to provide
* samples when requested).
*
* The player aims to feed the audio output with as little latency as possible
* while avoiding buffer underrun. To achieve this, it attempts to maintain the
* average buffering (the number of samples present in the buffer) around a
* target value. If this target buffering is too low, then buffer underrun will
* occur frequently. If it is too high, then latency will become unacceptable.
* This target value is configured using the scrcpy option --audio-buffer.
*
* The player cannot adjust the sample input rate (it receives samples produced
* in real-time) or the sample output rate (it must provide samples as
* requested by the audio output callback). Therefore, it may only apply
* compensation by resampling (converting _m_ input samples to _n_ output
* samples).
*
* The compensation itself is applied by libswresample (FFmpeg). It is
* configured using swr_set_compensation(). An important work for the player
* is to estimate the compensation value regularly and apply it.
*
* The estimated buffering level is the result of averaging the "natural"
* buffering (samples are produced and consumed by blocks, so it must be
* smoothed), and making instant adjustments resulting of its own actions
* (explicit compensation and silence insertion on underflow), which are not
* smoothed.
*
* Buffer underflow events can occur when packets arrive too late. In that case,
* the player inserts silence. Once the packets finally arrive (late), one
* strategy could be to drop the samples that were replaced by silence, in
* order to keep a minimal latency. However, dropping samples in case of buffer
* underflow is inadvisable, as it would temporarily increase the underflow
* even more and cause very noticeable audio glitches.
*
* Therefore, the player doesn't drop any sample on underflow. The compensation
* mechanism will absorb the delay introduced by the inserted silence.
*/
/** Downcast frame_sink to sc_audio_player */
#define DOWNCAST(SINK) container_of(SINK, struct sc_audio_player, frame_sink)
#define SC_AV_SAMPLE_FMT AV_SAMPLE_FMT_FLT
#define SC_SDL_SAMPLE_FMT AUDIO_F32
#define TO_BYTES(SAMPLES) sc_audiobuf_to_bytes(&ap->buf, (SAMPLES))
#define TO_SAMPLES(BYTES) sc_audiobuf_to_samples(&ap->buf, (BYTES))
static void SDLCALL
sc_audio_player_sdl_callback(void *userdata, uint8_t *stream, int len_int) {
struct sc_audio_player *ap = userdata;
// This callback is called with the lock used by SDL_AudioDeviceLock(), so
// the audiobuf is protected
assert(len_int > 0);
size_t len = len_int;
uint32_t count = TO_SAMPLES(len);
#ifndef SC_AUDIO_PLAYER_NDEBUG
LOGD("[Audio] SDL callback requests %" PRIu32 " samples", count);
#endif
uint32_t buffered_samples = sc_audiobuf_can_read(&ap->buf);
if (!ap->played) {
// Part of the buffering is handled by inserting initial silence. The
// remaining (margin) last samples will be handled by compensation.
uint32_t margin = 30 * ap->sample_rate / 1000; // 30ms
if (buffered_samples + margin < ap->target_buffering) {
LOGV("[Audio] Inserting initial buffering silence: %" PRIu32
" samples", count);
// Delay playback starting to reach the target buffering. Fill the
// whole buffer with silence (len is small compared to the
// arbitrary margin value).
memset(stream, 0, len);
return;
}
}
uint32_t read = MIN(buffered_samples, count);
if (read) {
sc_audiobuf_read(&ap->buf, stream, read);
}
if (read < count) {
uint32_t silence = count - read;
// Insert silence. In theory, the inserted silent samples replace the
// missing real samples, which will arrive later, so they should be
// dropped to keep the latency minimal. However, this would cause very
// audible glitches, so let the clock compensation restore the target
// latency.
LOGD("[Audio] Buffer underflow, inserting silence: %" PRIu32 " samples",
silence);
memset(stream + read, 0, TO_BYTES(silence));
if (ap->received) {
// Inserting additional samples immediately increases buffering
ap->underflow += silence;
}
}
ap->played = true;
}
static uint8_t *
sc_audio_player_get_swr_buf(struct sc_audio_player *ap, uint32_t min_samples) {
size_t min_buf_size = TO_BYTES(min_samples);
if (min_buf_size > ap->swr_buf_alloc_size) {
size_t new_size = min_buf_size + 4096;
uint8_t *buf = realloc(ap->swr_buf, new_size);
if (!buf) {
LOG_OOM();
// Could not realloc to the requested size
return NULL;
}
ap->swr_buf = buf;
ap->swr_buf_alloc_size = new_size;
}
return ap->swr_buf;
}
static bool
sc_audio_player_frame_sink_push(struct sc_frame_sink *sink,
const AVFrame *frame) {
struct sc_audio_player *ap = DOWNCAST(sink);
SwrContext *swr_ctx = ap->swr_ctx;
int64_t swr_delay = swr_get_delay(swr_ctx, ap->sample_rate);
// No need to av_rescale_rnd(), input and output sample rates are the same.
// Add more space (256) for clock compensation.
int dst_nb_samples = swr_delay + frame->nb_samples + 256;
uint8_t *swr_buf = sc_audio_player_get_swr_buf(ap, dst_nb_samples);
if (!swr_buf) {
return false;
}
int ret = swr_convert(swr_ctx, &swr_buf, dst_nb_samples,
(const uint8_t **) frame->data, frame->nb_samples);
if (ret < 0) {
LOGE("Resampling failed: %d", ret);
return false;
}
// swr_convert() returns the number of samples which would have been
// written if the buffer was big enough.
uint32_t samples_written = MIN(ret, dst_nb_samples);
#ifndef SC_AUDIO_PLAYER_NDEBUG
LOGD("[Audio] %" PRIu32 " samples written to buffer", samples_written);
#endif
// Since this function is the only writer, the current available space is
// at least the previous available space. In practice, it should almost
// always be possible to write without lock.
bool lockless_write = samples_written <= ap->previous_can_write;
if (lockless_write) {
sc_audiobuf_prepare_write(&ap->buf, swr_buf, samples_written);
}
SDL_LockAudioDevice(ap->device);
uint32_t buffered_samples = sc_audiobuf_can_read(&ap->buf);
if (lockless_write) {
sc_audiobuf_commit_write(&ap->buf, samples_written);
} else {
uint32_t can_write = sc_audiobuf_can_write(&ap->buf);
if (samples_written > can_write) {
// Entering this branch is very unlikely, the audio buffer is
// allocated with a size sufficient to store 1 second more than the
// target buffering. If this happens, though, we have to skip old
// samples.
uint32_t cap = sc_audiobuf_capacity(&ap->buf);
if (samples_written > cap) {
// Very very unlikely: a single resampled frame should never
// exceed the audio buffer size (or something is very wrong).
// Ignore the first bytes in swr_buf
swr_buf += TO_BYTES(samples_written - cap);
// This change in samples_written will impact the
// instant_compensation below
samples_written = cap;
}
assert(samples_written >= can_write);
if (samples_written > can_write) {
uint32_t skip_samples = samples_written - can_write;
assert(buffered_samples >= skip_samples);
sc_audiobuf_skip(&ap->buf, skip_samples);
buffered_samples -= skip_samples;
if (ap->played) {
// Dropping input samples instantly decreases buffering
ap->avg_buffering.avg -= skip_samples;
}
}
// It should remain exactly the expected size to write the new
// samples.
assert(sc_audiobuf_can_write(&ap->buf) == samples_written);
}
sc_audiobuf_write(&ap->buf, swr_buf, samples_written);
}
buffered_samples += samples_written;
assert(buffered_samples == sc_audiobuf_can_read(&ap->buf));
// Read with lock held, to be used after unlocking
bool played = ap->played;
uint32_t underflow = ap->underflow;
if (played) {
uint32_t max_buffered_samples = ap->target_buffering
+ 12 * ap->output_buffer
+ ap->target_buffering / 10;
if (buffered_samples > max_buffered_samples) {
uint32_t skip_samples = buffered_samples - max_buffered_samples;
sc_audiobuf_skip(&ap->buf, skip_samples);
LOGD("[Audio] Buffering threshold exceeded, skipping %" PRIu32
" samples", skip_samples);
}
// reset (the current value was copied to a local variable)
ap->underflow = 0;
} else {
// SDL playback not started yet, do not accumulate more than
// max_initial_buffering samples, this would cause unnecessary delay
// (and glitches to compensate) on start.
uint32_t max_initial_buffering = ap->target_buffering
+ 2 * ap->output_buffer;
if (buffered_samples > max_initial_buffering) {
uint32_t skip_samples = buffered_samples - max_initial_buffering;
sc_audiobuf_skip(&ap->buf, skip_samples);
#ifndef SC_AUDIO_PLAYER_NDEBUG
LOGD("[Audio] Playback not started, skipping %" PRIu32 " samples",
skip_samples);
#endif
}
}
ap->previous_can_write = sc_audiobuf_can_write(&ap->buf);
ap->received = true;
SDL_UnlockAudioDevice(ap->device);
if (played) {
// Number of samples added (or removed, if negative) for compensation
int32_t instant_compensation =
(int32_t) samples_written - frame->nb_samples;
int32_t inserted_silence = (int32_t) underflow;
// The compensation must apply instantly, it must not be smoothed
ap->avg_buffering.avg += instant_compensation + inserted_silence;
// However, the buffering level must be smoothed
sc_average_push(&ap->avg_buffering, buffered_samples);
#ifndef SC_AUDIO_PLAYER_NDEBUG
LOGD("[Audio] buffered_samples=%" PRIu32 " avg_buffering=%f",
buffered_samples, sc_average_get(&ap->avg_buffering));
#endif
ap->samples_since_resync += samples_written;
if (ap->samples_since_resync >= ap->sample_rate) {
// Recompute compensation every second
ap->samples_since_resync = 0;
float avg = sc_average_get(&ap->avg_buffering);
int diff = ap->target_buffering - avg;
if (abs(diff) < (int) ap->sample_rate / 1000) {
// Do not compensate for less than 1ms, the error is just noise
diff = 0;
} else if (diff < 0 && buffered_samples < ap->target_buffering) {
// Do not accelerate if the instant buffering level is below
// the average, this would increase underflow
diff = 0;
}
// Compensate the diff over 4 seconds (but will be recomputed after
// 1 second)
int distance = 4 * ap->sample_rate;
// Limit compensation rate to 2%
int abs_max_diff = distance / 50;
diff = CLAMP(diff, -abs_max_diff, abs_max_diff);
LOGV("[Audio] Buffering: target=%" PRIu32 " avg=%f cur=%" PRIu32
" compensation=%d", ap->target_buffering, avg,
buffered_samples, diff);
if (diff != ap->compensation) {
int ret = swr_set_compensation(swr_ctx, diff, distance);
if (ret < 0) {
LOGW("Resampling compensation failed: %d", ret);
// not fatal
} else {
ap->compensation = diff;
}
}
}
}
return true;
}
static bool
sc_audio_player_frame_sink_open(struct sc_frame_sink *sink,
const AVCodecContext *ctx) {
struct sc_audio_player *ap = DOWNCAST(sink);
#ifdef SCRCPY_LAVU_HAS_CHLAYOUT
assert(ctx->ch_layout.nb_channels > 0);
unsigned nb_channels = ctx->ch_layout.nb_channels;
#else
int tmp = av_get_channel_layout_nb_channels(ctx->channel_layout);
assert(tmp > 0);
unsigned nb_channels = tmp;
#endif
assert(ctx->sample_rate > 0);
assert(!av_sample_fmt_is_planar(SC_AV_SAMPLE_FMT));
int out_bytes_per_sample = av_get_bytes_per_sample(SC_AV_SAMPLE_FMT);
assert(out_bytes_per_sample > 0);
ap->sample_rate = ctx->sample_rate;
ap->nb_channels = nb_channels;
ap->out_bytes_per_sample = out_bytes_per_sample;
ap->target_buffering = ap->target_buffering_delay * ap->sample_rate
/ SC_TICK_FREQ;
uint64_t aout_samples = ap->output_buffer_duration * ap->sample_rate
/ SC_TICK_FREQ;
assert(aout_samples <= 0xFFFF);
ap->output_buffer = (uint16_t) aout_samples;
SDL_AudioSpec desired = {
.freq = ctx->sample_rate,
.format = SC_SDL_SAMPLE_FMT,
.channels = nb_channels,
.samples = aout_samples,
.callback = sc_audio_player_sdl_callback,
.userdata = ap,
};
SDL_AudioSpec obtained;
ap->device = SDL_OpenAudioDevice(NULL, 0, &desired, &obtained, 0);
if (!ap->device) {
LOGE("Could not open audio device: %s", SDL_GetError());
return false;
}
SwrContext *swr_ctx = swr_alloc();
if (!swr_ctx) {
LOG_OOM();
goto error_close_audio_device;
}
ap->swr_ctx = swr_ctx;
#ifdef SCRCPY_LAVU_HAS_CHLAYOUT
av_opt_set_chlayout(swr_ctx, "in_chlayout", &ctx->ch_layout, 0);
av_opt_set_chlayout(swr_ctx, "out_chlayout", &ctx->ch_layout, 0);
#else
av_opt_set_channel_layout(swr_ctx, "in_channel_layout",
ctx->channel_layout, 0);
av_opt_set_channel_layout(swr_ctx, "out_channel_layout",
ctx->channel_layout, 0);
#endif
av_opt_set_int(swr_ctx, "in_sample_rate", ctx->sample_rate, 0);
av_opt_set_int(swr_ctx, "out_sample_rate", ctx->sample_rate, 0);
av_opt_set_sample_fmt(swr_ctx, "in_sample_fmt", ctx->sample_fmt, 0);
av_opt_set_sample_fmt(swr_ctx, "out_sample_fmt", SC_AV_SAMPLE_FMT, 0);
int ret = swr_init(swr_ctx);
if (ret) {
LOGE("Failed to initialize the resampling context");
goto error_free_swr_ctx;
}
// Use a ring-buffer of the target buffering size plus 1 second between the
// producer and the consumer. It's too big on purpose, to guarantee that
// the producer and the consumer will be able to access it in parallel
// without locking.
size_t audiobuf_samples = ap->target_buffering + ap->sample_rate;
size_t sample_size = ap->nb_channels * ap->out_bytes_per_sample;
bool ok = sc_audiobuf_init(&ap->buf, sample_size, audiobuf_samples);
if (!ok) {
goto error_free_swr_ctx;
}
size_t initial_swr_buf_size = TO_BYTES(4096);
ap->swr_buf = malloc(initial_swr_buf_size);
if (!ap->swr_buf) {
LOG_OOM();
goto error_destroy_audiobuf;
}
ap->swr_buf_alloc_size = initial_swr_buf_size;
ap->previous_can_write = sc_audiobuf_can_write(&ap->buf);
// Samples are produced and consumed by blocks, so the buffering must be
// smoothed to get a relatively stable value.
sc_average_init(&ap->avg_buffering, 32);
ap->samples_since_resync = 0;
ap->received = false;
ap->played = false;
ap->underflow = 0;
ap->compensation = 0;
// The thread calling open() is the thread calling push(), which fills the
// audio buffer consumed by the SDL audio thread.
ok = sc_thread_set_priority(SC_THREAD_PRIORITY_TIME_CRITICAL);
if (!ok) {
ok = sc_thread_set_priority(SC_THREAD_PRIORITY_HIGH);
(void) ok; // We don't care if it worked, at least we tried
}
SDL_PauseAudioDevice(ap->device, 0);
return true;
error_destroy_audiobuf:
sc_audiobuf_destroy(&ap->buf);
error_free_swr_ctx:
swr_free(&ap->swr_ctx);
error_close_audio_device:
SDL_CloseAudioDevice(ap->device);
return false;
}
static void
sc_audio_player_frame_sink_close(struct sc_frame_sink *sink) {
struct sc_audio_player *ap = DOWNCAST(sink);
assert(ap->device);
SDL_PauseAudioDevice(ap->device, 1);
SDL_CloseAudioDevice(ap->device);
free(ap->swr_buf);
sc_audiobuf_destroy(&ap->buf);
swr_free(&ap->swr_ctx);
}
void
sc_audio_player_init(struct sc_audio_player *ap, sc_tick target_buffering,
sc_tick output_buffer_duration) {
ap->target_buffering_delay = target_buffering;
ap->output_buffer_duration = output_buffer_duration;
static const struct sc_frame_sink_ops ops = {
.open = sc_audio_player_frame_sink_open,
.close = sc_audio_player_frame_sink_close,
.push = sc_audio_player_frame_sink_push,
};
ap->frame_sink.ops = &ops;
}

90
app/src/audio_player.h
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@ -1,90 +0,0 @@
#ifndef SC_AUDIO_PLAYER_H
#define SC_AUDIO_PLAYER_H
#include "common.h"
#include <stdbool.h>
#include "trait/frame_sink.h"
#include <util/audiobuf.h>
#include <util/average.h>
#include <util/thread.h>
#include <util/tick.h>
#include <libavformat/avformat.h>
#include <libswresample/swresample.h>
#include <SDL2/SDL.h>
struct sc_audio_player {
struct sc_frame_sink frame_sink;
SDL_AudioDeviceID device;
// The target buffering between the producer and the consumer. This value
// is directly use for compensation.
// Since audio capture and/or encoding on the device typically produce
// blocks of 960 samples (20ms) or 1024 samples (~21.3ms), this target
// value should be higher.
sc_tick target_buffering_delay;
uint32_t target_buffering; // in samples
// SDL audio output buffer size.
sc_tick output_buffer_duration;
uint16_t output_buffer;
// Audio buffer to communicate between the receiver and the SDL audio
// callback (protected by SDL_AudioDeviceLock())
struct sc_audiobuf buf;
// The previous empty space in the buffer (only used by the receiver
// thread)
uint32_t previous_can_write;
// Resampler (only used from the receiver thread)
struct SwrContext *swr_ctx;
// The sample rate is the same for input and output
unsigned sample_rate;
// The number of channels is the same for input and output
unsigned nb_channels;
// The number of bytes per sample for a single channel
unsigned out_bytes_per_sample;
// Target buffer for resampling (only used by the receiver thread)
uint8_t *swr_buf;
size_t swr_buf_alloc_size;
// Number of buffered samples (may be negative on underflow) (only used by
// the receiver thread)
struct sc_average avg_buffering;
// Count the number of samples to trigger a compensation update regularly
// (only used by the receiver thread)
uint32_t samples_since_resync;
// Number of silence samples inserted since the last received packet
// (protected by SDL_AudioDeviceLock())
uint32_t underflow;
// Current applied compensation value (only used by the receiver thread)
int compensation;
// Set to true the first time a sample is received (protected by
// SDL_AudioDeviceLock())
bool received;
// Set to true the first time the SDL callback is called (protected by
// SDL_AudioDeviceLock())
bool played;
const struct sc_audio_player_callbacks *cbs;
void *cbs_userdata;
};
struct sc_audio_player_callbacks {
void (*on_ended)(struct sc_audio_player *ap, bool success, void *userdata);
};
void
sc_audio_player_init(struct sc_audio_player *ap, sc_tick target_buffering,
sc_tick audio_output_buffer);
#endif

2019
app/src/cli.c
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File diff suppressed because it is too large Load Diff

10
app/src/cli.h
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@ -1,11 +1,10 @@
#ifndef SCRCPY_CLI_H
#define SCRCPY_CLI_H
#include "common.h"
#include <stdbool.h>
#include "options.h"
#include "config.h"
#include "scrcpy.h"
struct scrcpy_cli_args {
struct scrcpy_options opts;
@ -19,9 +18,4 @@ scrcpy_print_usage(const char *arg0);
bool
scrcpy_parse_args(struct scrcpy_cli_args *args, int argc, char *argv[]);
#ifdef SC_TEST
bool
sc_parse_shortcut_mods(const char *s, struct sc_shortcut_mods *mods);
#endif
#endif

36
app/src/clock.c
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@ -1,36 +0,0 @@
#include "clock.h"
#include <assert.h>
#include "util/log.h"
#define SC_CLOCK_NDEBUG // comment to debug
#define SC_CLOCK_RANGE 32
void
sc_clock_init(struct sc_clock *clock) {
clock->range = 0;
clock->offset = 0;
}
void
sc_clock_update(struct sc_clock *clock, sc_tick system, sc_tick stream) {
if (clock->range < SC_CLOCK_RANGE) {
++clock->range;
}
sc_tick offset = system - stream;
clock->offset = ((clock->range - 1) * clock->offset + offset)
/ clock->range;
#ifndef SC_CLOCK_NDEBUG
LOGD("Clock estimation: pts + %" PRItick, clock->offset);
#endif
}
sc_tick
sc_clock_to_system_time(struct sc_clock *clock, sc_tick stream) {
assert(clock->range); // sc_clock_update() must have been called
return stream + clock->offset;
}

43
app/src/clock.h
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@ -1,43 +0,0 @@
#ifndef SC_CLOCK_H
#define SC_CLOCK_H
#include "common.h"
#include "util/tick.h"
struct sc_clock_point {
sc_tick system;
sc_tick stream;
};
/**
* The clock aims to estimate the affine relation between the stream (device)
* time and the system time:
*
* f(stream) = slope * stream + offset
*
* Theoretically, the slope encodes the drift between the device clock and the
* computer clock. It is expected to be very close to 1.
*
* Since the clock is used to estimate very close points in the future (which
* are reestimated on every clock update, see delay_buffer), the error caused
* by clock drift is totally negligible, so it is better to assume that the
* slope is 1 than to estimate it (the estimation error would be larger).
*
* Therefore, only the offset is estimated.
*/
struct sc_clock {
unsigned range;
sc_tick offset;
};
void
sc_clock_init(struct sc_clock *clock);
void
sc_clock_update(struct sc_clock *clock, sc_tick system, sc_tick stream);
sc_tick
sc_clock_to_system_time(struct sc_clock *clock, sc_tick stream);
#endif

231
app/src/command.c Normal file
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@ -0,0 +1,231 @@
#include "command.h"
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "config.h"
#include "common.h"
#include "util/log.h"
#include "util/str_util.h"
static const char *adb_command;
static inline const char *
get_adb_command(void) {
if (!adb_command) {
adb_command = getenv("ADB");
if (!adb_command)
adb_command = "adb";
}
return adb_command;
}
// serialize argv to string "[arg1], [arg2], [arg3]"
static size_t
argv_to_string(const char *const *argv, char *buf, size_t bufsize) {
size_t idx = 0;
bool first = true;
while (*argv) {
const char *arg = *argv;
size_t len = strlen(arg);
// count space for "[], ...\0"
if (idx + len + 8 >= bufsize) {
// not enough space, truncate
assert(idx < bufsize - 4);
memcpy(&buf[idx], "...", 3);
idx += 3;
break;
}
if (first) {
first = false;
} else {
buf[idx++] = ',';
buf[idx++] = ' ';
}
buf[idx++] = '[';
memcpy(&buf[idx], arg, len);
idx += len;
buf[idx++] = ']';
argv++;
}
assert(idx < bufsize);
buf[idx] = '\0';
return idx;
}
static void
show_adb_installation_msg() {
#ifndef __WINDOWS__
static const struct {
const char *binary;
const char *command;
} pkg_managers[] = {
{"apt", "apt install adb"},
{"apt-get", "apt-get install adb"},
{"brew", "brew cask install android-platform-tools"},
{"dnf", "dnf install android-tools"},
{"emerge", "emerge dev-util/android-tools"},
{"pacman", "pacman -S android-tools"},
};
for (size_t i = 0; i < ARRAY_LEN(pkg_managers); ++i) {
if (cmd_search(pkg_managers[i].binary)) {
LOGI("You may install 'adb' by \"%s\"", pkg_managers[i].command);
return;
}
}
#endif
LOGI("You may download and install 'adb' from "
"https://developer.android.com/studio/releases/platform-tools");
}
static void
show_adb_err_msg(enum process_result err, const char *const argv[]) {
char buf[512];
switch (err) {
case PROCESS_ERROR_GENERIC:
argv_to_string(argv, buf, sizeof(buf));
LOGE("Failed to execute: %s", buf);
break;
case PROCESS_ERROR_MISSING_BINARY:
argv_to_string(argv, buf, sizeof(buf));
LOGE("Command not found: %s", buf);
LOGE("(make 'adb' accessible from your PATH or define its full"
"path in the ADB environment variable)");
show_adb_installation_msg();
break;
case PROCESS_SUCCESS:
// do nothing
break;
}
}
process_t
adb_execute(const char *serial, const char *const adb_cmd[], size_t len) {
const char *cmd[len + 4];
int i;
process_t process;
cmd[0] = get_adb_command();
if (serial) {
cmd[1] = "-s";
cmd[2] = serial;
i = 3;
} else {
i = 1;
}
memcpy(&cmd[i], adb_cmd, len * sizeof(const char *));
cmd[len + i] = NULL;
enum process_result r = cmd_execute(cmd, &process);
if (r != PROCESS_SUCCESS) {
show_adb_err_msg(r, cmd);
return PROCESS_NONE;
}
return process;
}
process_t
adb_forward(const char *serial, uint16_t local_port,
const char *device_socket_name) {
char local[4 + 5 + 1]; // tcp:PORT
char remote[108 + 14 + 1]; // localabstract:NAME
sprintf(local, "tcp:%" PRIu16, local_port);
snprintf(remote, sizeof(remote), "localabstract:%s", device_socket_name);
const char *const adb_cmd[] = {"forward", local, remote};
return adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd));
}
process_t
adb_forward_remove(const char *serial, uint16_t local_port) {
char local[4 + 5 + 1]; // tcp:PORT
sprintf(local, "tcp:%" PRIu16, local_port);
const char *const adb_cmd[] = {"forward", "--remove", local};
return adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd));
}
process_t
adb_reverse(const char *serial, const char *device_socket_name,
uint16_t local_port) {
char local[4 + 5 + 1]; // tcp:PORT
char remote[108 + 14 + 1]; // localabstract:NAME
sprintf(local, "tcp:%" PRIu16, local_port);
snprintf(remote, sizeof(remote), "localabstract:%s", device_socket_name);
const char *const adb_cmd[] = {"reverse", remote, local};
return adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd));
}
process_t
adb_reverse_remove(const char *serial, const char *device_socket_name) {
char remote[108 + 14 + 1]; // localabstract:NAME
snprintf(remote, sizeof(remote), "localabstract:%s", device_socket_name);
const char *const adb_cmd[] = {"reverse", "--remove", remote};
return adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd));
}
process_t
adb_push(const char *serial, const char *local, const char *remote) {
#ifdef __WINDOWS__
// Windows will parse the string, so the paths must be quoted
// (see sys/win/command.c)
local = strquote(local);
if (!local) {
return PROCESS_NONE;
}
remote = strquote(remote);
if (!remote) {
SDL_free((void *) local);
return PROCESS_NONE;
}
#endif
const char *const adb_cmd[] = {"push", local, remote};
process_t proc = adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd));
#ifdef __WINDOWS__
SDL_free((void *) remote);
SDL_free((void *) local);
#endif
return proc;
}
process_t
adb_install(const char *serial, const char *local) {
#ifdef __WINDOWS__
// Windows will parse the string, so the local name must be quoted
// (see sys/win/command.c)
local = strquote(local);
if (!local) {
return PROCESS_NONE;
}
#endif
const char *const adb_cmd[] = {"install", "-r", local};
process_t proc = adb_execute(serial, adb_cmd, ARRAY_LEN(adb_cmd));
#ifdef __WINDOWS__
SDL_free((void *) local);
#endif
return proc;
}
bool
process_check_success(process_t proc, const char *name) {
if (proc == PROCESS_NONE) {
LOGE("Could not execute \"%s\"", name);
return false;
}
exit_code_t exit_code;
if (!cmd_simple_wait(proc, &exit_code)) {
if (exit_code != NO_EXIT_CODE) {
LOGE("\"%s\" returned with value %" PRIexitcode, name, exit_code);
} else {
LOGE("\"%s\" exited unexpectedly", name);
}
return false;
}
return true;
}

97
app/src/command.h Normal file
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@ -0,0 +1,97 @@
#ifndef COMMAND_H
#define COMMAND_H
#include <stdbool.h>
#include <inttypes.h>
#ifdef _WIN32
// not needed here, but winsock2.h must never be included AFTER windows.h
# include <winsock2.h>
# include <windows.h>
# define PATH_SEPARATOR '\\'
# define PRIexitcode "lu"
// <https://stackoverflow.com/a/44383330/1987178>
# ifdef _WIN64
# define PRIsizet PRIu64
# else
# define PRIsizet PRIu32
# endif
# define PROCESS_NONE NULL
# define NO_EXIT_CODE -1u // max value as unsigned
typedef HANDLE process_t;
typedef DWORD exit_code_t;
#else
# include <sys/types.h>
# define PATH_SEPARATOR '/'
# define PRIsizet "zu"
# define PRIexitcode "d"
# define PROCESS_NONE -1
# define NO_EXIT_CODE -1
typedef pid_t process_t;
typedef int exit_code_t;
#endif
#include "config.h"
enum process_result {
PROCESS_SUCCESS,
PROCESS_ERROR_GENERIC,
PROCESS_ERROR_MISSING_BINARY,
};
#ifndef __WINDOWS__
bool
cmd_search(const char *file);
#endif
enum process_result
cmd_execute(const char *const argv[], process_t *process);
bool
cmd_terminate(process_t pid);
bool
cmd_simple_wait(process_t pid, exit_code_t *exit_code);
process_t
adb_execute(const char *serial, const char *const adb_cmd[], size_t len);
process_t
adb_forward(const char *serial, uint16_t local_port,
const char *device_socket_name);
process_t
adb_forward_remove(const char *serial, uint16_t local_port);
process_t
adb_reverse(const char *serial, const char *device_socket_name,
uint16_t local_port);
process_t
adb_reverse_remove(const char *serial, const char *device_socket_name);
process_t
adb_push(const char *serial, const char *local, const char *remote);
process_t
adb_install(const char *serial, const char *local);
// convenience function to wait for a successful process execution
// automatically log process errors with the provided process name
bool
process_check_success(process_t proc, const char *name);
// return the absolute path of the executable (the scrcpy binary)
// may be NULL on error; to be freed by SDL_free
char *
get_executable_path(void);
// returns true if the file exists and is not a directory
bool
is_regular_file(const char *path);
#endif

36
app/src/common.h
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@ -1,15 +1,35 @@
#ifndef SC_COMMON_H
#define SC_COMMON_H
#ifndef COMMON_H
#define COMMON_H
#include <stdint.h>
#include "config.h"
#include "compat.h"
#define ARRAY_LEN(a) (sizeof(a) / sizeof(a[0]))
#define MIN(X,Y) ((X) < (Y) ? (X) : (Y))
#define MAX(X,Y) ((X) > (Y) ? (X) : (Y))
#define CLAMP(V,X,Y) MIN( MAX((V),(X)), (Y) )
#define MIN(X,Y) (X) < (Y) ? (X) : (Y)
#define MAX(X,Y) (X) > (Y) ? (X) : (Y)
#define container_of(ptr, type, member) \
((type *) (((char *) (ptr)) - offsetof(type, member)))
struct size {
uint16_t width;
uint16_t height;
};
struct point {
int32_t x;
int32_t y;
};
struct position {
// The video screen size may be different from the real device screen size,
// so store to which size the absolute position apply, to scale it
// accordingly.
struct size screen_size;
struct point point;
};
struct port_range {
uint16_t first;
uint16_t last;
};
#endif

110
app/src/compat.c
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@ -1,110 +0,0 @@
#include "compat.h"
#include "config.h"
#include <assert.h>
#ifndef HAVE_REALLOCARRAY
# include <errno.h>
#endif
#include <stdlib.h>
#include <stdio.h>
#include <stdarg.h>
#include <string.h>
#ifndef HAVE_STRDUP
char *strdup(const char *s) {
size_t size = strlen(s) + 1;
char *dup = malloc(size);
if (dup) {
memcpy(dup, s, size);
}
return dup;
}
#endif
#ifndef HAVE_ASPRINTF
int asprintf(char **strp, const char *fmt, ...) {
va_list va;
va_start(va, fmt);
int ret = vasprintf(strp, fmt, va);
va_end(va);
return ret;
}
#endif
#ifndef HAVE_VASPRINTF
int vasprintf(char **strp, const char *fmt, va_list ap) {
va_list va;
va_copy(va, ap);
int len = vsnprintf(NULL, 0, fmt, va);
va_end(va);
char *str = malloc(len + 1);
if (!str) {
return -1;
}
va_copy(va, ap);
int len2 = vsnprintf(str, len + 1, fmt, va);
(void) len2;
assert(len == len2);
va_end(va);
*strp = str;
return len;
}
#endif
#if !defined(HAVE_NRAND48) || !defined(HAVE_JRAND48)
#define SC_RAND48_MASK UINT64_C(0xFFFFFFFFFFFF) // 48 bits
#define SC_RAND48_A UINT64_C(0x5DEECE66D)
#define SC_RAND48_C 0xB
static inline uint64_t rand_iter48(uint64_t x) {
assert((x & ~SC_RAND48_MASK) == 0);
return (x * SC_RAND48_A + SC_RAND48_C) & SC_RAND48_MASK;
}
static uint64_t rand_iter48_xsubi(unsigned short xsubi[3]) {
uint64_t x = ((uint64_t) xsubi[0] << 32)
| ((uint64_t) xsubi[1] << 16)
| xsubi[2];
x = rand_iter48(x);
xsubi[0] = (x >> 32) & 0XFFFF;
xsubi[1] = (x >> 16) & 0XFFFF;
xsubi[2] = x & 0XFFFF;
return x;
}
#ifndef HAVE_NRAND48
long nrand48(unsigned short xsubi[3]) {
// range [0, 2^31)
return rand_iter48_xsubi(xsubi) >> 17;
}
#endif
#ifndef HAVE_JRAND48
long jrand48(unsigned short xsubi[3]) {
// range [-2^31, 2^31)
union {
uint32_t u;
int32_t i;
} v;
v.u = rand_iter48_xsubi(xsubi) >> 16;
return v.i;
}
#endif
#endif
#ifndef HAVE_REALLOCARRAY
void *reallocarray(void *ptr, size_t nmemb, size_t size) {
size_t bytes;
if (__builtin_mul_overflow(nmemb, size, &bytes)) {
errno = ENOMEM;
return NULL;
}
return realloc(ptr, bytes);
}
#endif

80
app/src/compat.h
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@ -1,17 +1,17 @@
#ifndef SC_COMPAT_H
#define SC_COMPAT_H
#include "config.h"
#ifndef COMPAT_H
#define COMPAT_H
#include <libavformat/version.h>
#include <SDL2/SDL_version.h>
#ifndef __WIN32
# define PRIu64_ PRIu64
# define SC_PRIsizet "zu"
#else
# define PRIu64_ "I64u" // Windows...
# define SC_PRIsizet "Iu"
// In ffmpeg/doc/APIchanges:
// 2016-04-11 - 6f69f7a / 9200514 - lavf 57.33.100 / 57.5.0 - avformat.h
// Add AVStream.codecpar, deprecate AVStream.codec.
#if (LIBAVFORMAT_VERSION_MICRO >= 100 /* FFmpeg */ && \
LIBAVFORMAT_VERSION_INT >= AV_VERSION_INT(57, 33, 100)) \
|| (LIBAVFORMAT_VERSION_MICRO < 100 && /* Libav */ \
LIBAVFORMAT_VERSION_INT >= AV_VERSION_INT(57, 5, 0))
# define SCRCPY_LAVF_HAS_NEW_CODEC_PARAMS_API
#endif
// In ffmpeg/doc/APIchanges:
@ -25,28 +25,22 @@
# define SCRCPY_LAVF_REQUIRES_REGISTER_ALL
#endif
// In ffmpeg/doc/APIchanges:
// 2018-01-28 - ea3672b7d6 - lavf 58.7.100 - avformat.h
// Deprecate AVFormatContext filename field which had limited length, use the
// new dynamically allocated url field instead.
//
// 2018-01-28 - ea3672b7d6 - lavf 58.7.100 - avformat.h
// Add url field to AVFormatContext and add ff_format_set_url helper function.
#if LIBAVFORMAT_VERSION_INT >= AV_VERSION_INT(58, 7, 100)
# define SCRCPY_LAVF_HAS_AVFORMATCONTEXT_URL
// 2016-04-21 - 7fc329e - lavc 57.37.100 - avcodec.h
// Add a new audio/video encoding and decoding API with decoupled input
// and output -- avcodec_send_packet(), avcodec_receive_frame(),
// avcodec_send_frame() and avcodec_receive_packet().
#if LIBAVCODEC_VERSION_INT >= AV_VERSION_INT(57, 37, 100)
# define SCRCPY_LAVF_HAS_NEW_ENCODING_DECODING_API
#endif
// Not documented in ffmpeg/doc/APIchanges, but the channel_layout API
// has been replaced by chlayout in FFmpeg commit
// f423497b455da06c1337846902c770028760e094.
#if LIBAVUTIL_VERSION_INT >= AV_VERSION_INT(57, 23, 100)
# define SCRCPY_LAVU_HAS_CHLAYOUT
#endif
#if SDL_VERSION_ATLEAST(2, 0, 6)
// <https://github.com/libsdl-org/SDL/commit/d7a318de563125e5bb465b1000d6bc9576fbc6fc>
# define SCRCPY_SDL_HAS_HINT_TOUCH_MOUSE_EVENTS
#if SDL_VERSION_ATLEAST(2, 0, 5)
// <https://wiki.libsdl.org/SDL_HINT_MOUSE_FOCUS_CLICKTHROUGH>
# define SCRCPY_SDL_HAS_HINT_MOUSE_FOCUS_CLICKTHROUGH
// <https://wiki.libsdl.org/SDL_GetDisplayUsableBounds>
# define SCRCPY_SDL_HAS_GET_DISPLAY_USABLE_BOUNDS
// <https://wiki.libsdl.org/SDL_WindowFlags>
# define SCRCPY_SDL_HAS_WINDOW_ALWAYS_ON_TOP
#endif
#if SDL_VERSION_ATLEAST(2, 0, 8)
@ -54,32 +48,4 @@
# define SCRCPY_SDL_HAS_HINT_VIDEO_X11_NET_WM_BYPASS_COMPOSITOR
#endif
#if SDL_VERSION_ATLEAST(2, 0, 16)
# define SCRCPY_SDL_HAS_THREAD_PRIORITY_TIME_CRITICAL
#endif
#ifndef HAVE_STRDUP
char *strdup(const char *s);
#endif
#ifndef HAVE_ASPRINTF
int asprintf(char **strp, const char *fmt, ...);
#endif
#ifndef HAVE_VASPRINTF
int vasprintf(char **strp, const char *fmt, va_list ap);
#endif
#ifndef HAVE_NRAND48
long nrand48(unsigned short xsubi[3]);
#endif
#ifndef HAVE_JRAND48
long jrand48(unsigned short xsubi[3]);
#endif
#ifndef HAVE_REALLOCARRAY
void *reallocarray(void *ptr, size_t nmemb, size_t size);
#endif
#endif

276
app/src/control_msg.c
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@ -1,155 +1,85 @@
#include "control_msg.h"
#include <assert.h>
#include <inttypes.h>
#include <stdlib.h>
#include <string.h>
#include "util/binary.h"
#include "config.h"
#include "util/buffer_util.h"
#include "util/log.h"
#include "util/str.h"
/**
* Map an enum value to a string based on an array, without crashing on an
* out-of-bounds index.
*/
#define ENUM_TO_LABEL(labels, value) \
((size_t) (value) < ARRAY_LEN(labels) ? labels[value] : "???")
#define KEYEVENT_ACTION_LABEL(value) \
ENUM_TO_LABEL(android_keyevent_action_labels, value)
#define MOTIONEVENT_ACTION_LABEL(value) \
ENUM_TO_LABEL(android_motionevent_action_labels, value)
#define SCREEN_POWER_MODE_LABEL(value) \
ENUM_TO_LABEL(screen_power_mode_labels, value)
static const char *const android_keyevent_action_labels[] = {
"down",
"up",
"multi",
};
static const char *const android_motionevent_action_labels[] = {
"down",
"up",
"move",
"cancel",
"outside",
"pointer-down",
"pointer-up",
"hover-move",
"scroll",
"hover-enter",
"hover-exit",
"btn-press",
"btn-release",
};
static const char *const screen_power_mode_labels[] = {
"off",
"doze",
"normal",
"doze-suspend",
"suspend",
};
static const char *const copy_key_labels[] = {
"none",
"copy",
"cut",
};
static inline const char *
get_well_known_pointer_id_name(uint64_t pointer_id) {
switch (pointer_id) {
case POINTER_ID_MOUSE:
return "mouse";
case POINTER_ID_GENERIC_FINGER:
return "finger";
case POINTER_ID_VIRTUAL_MOUSE:
return "vmouse";
case POINTER_ID_VIRTUAL_FINGER:
return "vfinger";
default:
return NULL;
}
}
#include "util/str_util.h"
static void
write_position(uint8_t *buf, const struct sc_position *position) {
sc_write32be(&buf[0], position->point.x);
sc_write32be(&buf[4], position->point.y);
sc_write16be(&buf[8], position->screen_size.width);
sc_write16be(&buf[10], position->screen_size.height);
write_position(uint8_t *buf, const struct position *position) {
buffer_write32be(&buf[0], position->point.x);
buffer_write32be(&buf[4], position->point.y);
buffer_write16be(&buf[8], position->screen_size.width);
buffer_write16be(&buf[10], position->screen_size.height);
}
// write length (4 bytes) + string (non null-terminated)
// write length (2 bytes) + string (non nul-terminated)
static size_t
write_string(const char *utf8, size_t max_len, unsigned char *buf) {
size_t len = sc_str_utf8_truncation_index(utf8, max_len);
sc_write32be(buf, len);
memcpy(&buf[4], utf8, len);
return 4 + len;
size_t len = utf8_truncation_index(utf8, max_len);
buffer_write16be(buf, (uint16_t) len);
memcpy(&buf[2], utf8, len);
return 2 + len;
}
static uint16_t
to_fixed_point_16(float f) {
assert(f >= 0.0f && f <= 1.0f);
uint32_t u = f * 0x1p16f; // 2^16
if (u >= 0xffff) {
u = 0xffff;
}
return (uint16_t) u;
}
size_t
sc_control_msg_serialize(const struct sc_control_msg *msg, unsigned char *buf) {
control_msg_serialize(const struct control_msg *msg, unsigned char *buf) {
buf[0] = msg->type;
switch (msg->type) {
case SC_CONTROL_MSG_TYPE_INJECT_KEYCODE:
case CONTROL_MSG_TYPE_INJECT_KEYCODE:
buf[1] = msg->inject_keycode.action;
sc_write32be(&buf[2], msg->inject_keycode.keycode);
sc_write32be(&buf[6], msg->inject_keycode.repeat);
sc_write32be(&buf[10], msg->inject_keycode.metastate);
return 14;
case SC_CONTROL_MSG_TYPE_INJECT_TEXT: {
buffer_write32be(&buf[2], msg->inject_keycode.keycode);
buffer_write32be(&buf[6], msg->inject_keycode.metastate);
return 10;
case CONTROL_MSG_TYPE_INJECT_TEXT: {
size_t len =
write_string(msg->inject_text.text,
SC_CONTROL_MSG_INJECT_TEXT_MAX_LENGTH, &buf[1]);
CONTROL_MSG_INJECT_TEXT_MAX_LENGTH, &buf[1]);
return 1 + len;
}
case SC_CONTROL_MSG_TYPE_INJECT_TOUCH_EVENT:
case CONTROL_MSG_TYPE_INJECT_TOUCH_EVENT:
buf[1] = msg->inject_touch_event.action;
sc_write64be(&buf[2], msg->inject_touch_event.pointer_id);
buffer_write64be(&buf[2], msg->inject_touch_event.pointer_id);
write_position(&buf[10], &msg->inject_touch_event.position);
uint16_t pressure =
sc_float_to_u16fp(msg->inject_touch_event.pressure);
sc_write16be(&buf[22], pressure);
sc_write32be(&buf[24], msg->inject_touch_event.action_button);
sc_write32be(&buf[28], msg->inject_touch_event.buttons);
return 32;
case SC_CONTROL_MSG_TYPE_INJECT_SCROLL_EVENT:
to_fixed_point_16(msg->inject_touch_event.pressure);
buffer_write16be(&buf[22], pressure);
buffer_write32be(&buf[24], msg->inject_touch_event.buttons);
return 28;
case CONTROL_MSG_TYPE_INJECT_SCROLL_EVENT:
write_position(&buf[1], &msg->inject_scroll_event.position);
int16_t hscroll =
sc_float_to_i16fp(msg->inject_scroll_event.hscroll);
int16_t vscroll =
sc_float_to_i16fp(msg->inject_scroll_event.vscroll);
sc_write16be(&buf[13], (uint16_t) hscroll);
sc_write16be(&buf[15], (uint16_t) vscroll);
sc_write32be(&buf[17], msg->inject_scroll_event.buttons);
buffer_write32be(&buf[13],
(uint32_t) msg->inject_scroll_event.hscroll);
buffer_write32be(&buf[17],
(uint32_t) msg->inject_scroll_event.vscroll);
return 21;
case SC_CONTROL_MSG_TYPE_BACK_OR_SCREEN_ON:
buf[1] = msg->inject_keycode.action;
return 2;
case SC_CONTROL_MSG_TYPE_GET_CLIPBOARD:
buf[1] = msg->get_clipboard.copy_key;
return 2;
case SC_CONTROL_MSG_TYPE_SET_CLIPBOARD:
sc_write64be(&buf[1], msg->set_clipboard.sequence);
buf[9] = !!msg->set_clipboard.paste;
size_t len = write_string(msg->set_clipboard.text,
SC_CONTROL_MSG_CLIPBOARD_TEXT_MAX_LENGTH,
&buf[10]);
return 10 + len;
case SC_CONTROL_MSG_TYPE_SET_SCREEN_POWER_MODE:
case CONTROL_MSG_TYPE_SET_CLIPBOARD: {
size_t len = write_string(msg->inject_text.text,
CONTROL_MSG_CLIPBOARD_TEXT_MAX_LENGTH,
&buf[1]);
return 1 + len;
}
case CONTROL_MSG_TYPE_SET_SCREEN_POWER_MODE:
buf[1] = msg->set_screen_power_mode.mode;
return 2;
case SC_CONTROL_MSG_TYPE_EXPAND_NOTIFICATION_PANEL:
case SC_CONTROL_MSG_TYPE_EXPAND_SETTINGS_PANEL:
case SC_CONTROL_MSG_TYPE_COLLAPSE_PANELS:
case SC_CONTROL_MSG_TYPE_ROTATE_DEVICE:
case CONTROL_MSG_TYPE_BACK_OR_SCREEN_ON:
case CONTROL_MSG_TYPE_EXPAND_NOTIFICATION_PANEL:
case CONTROL_MSG_TYPE_COLLAPSE_NOTIFICATION_PANEL:
case CONTROL_MSG_TYPE_GET_CLIPBOARD:
case CONTROL_MSG_TYPE_ROTATE_DEVICE:
// no additional data
return 1;
default:
@ -159,103 +89,13 @@ sc_control_msg_serialize(const struct sc_control_msg *msg, unsigned char *buf) {
}
void
sc_control_msg_log(const struct sc_control_msg *msg) {
#define LOG_CMSG(fmt, ...) LOGV("input: " fmt, ## __VA_ARGS__)
control_msg_destroy(struct control_msg *msg) {
switch (msg->type) {
case SC_CONTROL_MSG_TYPE_INJECT_KEYCODE:
LOG_CMSG("key %-4s code=%d repeat=%" PRIu32 " meta=%06lx",
KEYEVENT_ACTION_LABEL(msg->inject_keycode.action),
(int) msg->inject_keycode.keycode,
msg->inject_keycode.repeat,
(long) msg->inject_keycode.metastate);
case CONTROL_MSG_TYPE_INJECT_TEXT:
SDL_free(msg->inject_text.text);
break;
case SC_CONTROL_MSG_TYPE_INJECT_TEXT:
LOG_CMSG("text \"%s\"", msg->inject_text.text);
break;
case SC_CONTROL_MSG_TYPE_INJECT_TOUCH_EVENT: {
int action = msg->inject_touch_event.action
& AMOTION_EVENT_ACTION_MASK;
uint64_t id = msg->inject_touch_event.pointer_id;
const char *pointer_name = get_well_known_pointer_id_name(id);
if (pointer_name) {
// string pointer id
LOG_CMSG("touch [id=%s] %-4s position=%" PRIi32 ",%" PRIi32
" pressure=%f action_button=%06lx buttons=%06lx",
pointer_name,
MOTIONEVENT_ACTION_LABEL(action),
msg->inject_touch_event.position.point.x,
msg->inject_touch_event.position.point.y,
msg->inject_touch_event.pressure,
(long) msg->inject_touch_event.action_button,
(long) msg->inject_touch_event.buttons);
} else {
// numeric pointer id
LOG_CMSG("touch [id=%" PRIu64_ "] %-4s position=%" PRIi32 ",%"
PRIi32 " pressure=%f action_button=%06lx"
" buttons=%06lx",
id,
MOTIONEVENT_ACTION_LABEL(action),
msg->inject_touch_event.position.point.x,
msg->inject_touch_event.position.point.y,
msg->inject_touch_event.pressure,
(long) msg->inject_touch_event.action_button,
(long) msg->inject_touch_event.buttons);
}
break;
}
case SC_CONTROL_MSG_TYPE_INJECT_SCROLL_EVENT:
LOG_CMSG("scroll position=%" PRIi32 ",%" PRIi32 " hscroll=%f"
" vscroll=%f buttons=%06lx",
msg->inject_scroll_event.position.point.x,
msg->inject_scroll_event.position.point.y,
msg->inject_scroll_event.hscroll,
msg->inject_scroll_event.vscroll,
(long) msg->inject_scroll_event.buttons);
break;
case SC_CONTROL_MSG_TYPE_BACK_OR_SCREEN_ON:
LOG_CMSG("back-or-screen-on %s",
KEYEVENT_ACTION_LABEL(msg->inject_keycode.action));
break;
case SC_CONTROL_MSG_TYPE_GET_CLIPBOARD:
LOG_CMSG("get clipboard copy_key=%s",
copy_key_labels[msg->get_clipboard.copy_key]);
break;
case SC_CONTROL_MSG_TYPE_SET_CLIPBOARD:
LOG_CMSG("clipboard %" PRIu64_ " %s \"%s\"",
msg->set_clipboard.sequence,
msg->set_clipboard.paste ? "paste" : "nopaste",
msg->set_clipboard.text);
break;
case SC_CONTROL_MSG_TYPE_SET_SCREEN_POWER_MODE:
LOG_CMSG("power mode %s",
SCREEN_POWER_MODE_LABEL(msg->set_screen_power_mode.mode));
break;
case SC_CONTROL_MSG_TYPE_EXPAND_NOTIFICATION_PANEL:
LOG_CMSG("expand notification panel");
break;
case SC_CONTROL_MSG_TYPE_EXPAND_SETTINGS_PANEL:
LOG_CMSG("expand settings panel");
break;
case SC_CONTROL_MSG_TYPE_COLLAPSE_PANELS:
LOG_CMSG("collapse panels");
break;
case SC_CONTROL_MSG_TYPE_ROTATE_DEVICE:
LOG_CMSG("rotate device");
break;
default:
LOG_CMSG("unknown type: %u", (unsigned) msg->type);
break;
}
}
void
sc_control_msg_destroy(struct sc_control_msg *msg) {
switch (msg->type) {
case SC_CONTROL_MSG_TYPE_INJECT_TEXT:
free(msg->inject_text.text);
break;
case SC_CONTROL_MSG_TYPE_SET_CLIPBOARD:
free(msg->set_clipboard.text);
case CONTROL_MSG_TYPE_SET_CLIPBOARD:
SDL_free(msg->set_clipboard.text);
break;
default:
// do nothing

101
app/src/control_msg.h
View File

@ -1,109 +1,80 @@
#ifndef SC_CONTROLMSG_H
#define SC_CONTROLMSG_H
#include "common.h"
#ifndef CONTROLMSG_H
#define CONTROLMSG_H
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include "config.h"
#include "android/input.h"
#include "android/keycodes.h"
#include "coords.h"
#include "common.h"
#define SC_CONTROL_MSG_MAX_SIZE (1 << 18) // 256k
#define CONTROL_MSG_INJECT_TEXT_MAX_LENGTH 300
#define CONTROL_MSG_CLIPBOARD_TEXT_MAX_LENGTH 4093
#define CONTROL_MSG_SERIALIZED_MAX_SIZE \
(3 + CONTROL_MSG_CLIPBOARD_TEXT_MAX_LENGTH)
#define SC_CONTROL_MSG_INJECT_TEXT_MAX_LENGTH 300
// type: 1 byte; sequence: 8 bytes; paste flag: 1 byte; length: 4 bytes
#define SC_CONTROL_MSG_CLIPBOARD_TEXT_MAX_LENGTH (SC_CONTROL_MSG_MAX_SIZE - 14)
#define POINTER_ID_MOUSE UINT64_C(-1);
#define POINTER_ID_MOUSE UINT64_C(-1)
#define POINTER_ID_GENERIC_FINGER UINT64_C(-2)
// Used for injecting an additional virtual pointer for pinch-to-zoom
#define POINTER_ID_VIRTUAL_MOUSE UINT64_C(-3)
#define POINTER_ID_VIRTUAL_FINGER UINT64_C(-4)
enum sc_control_msg_type {
SC_CONTROL_MSG_TYPE_INJECT_KEYCODE,
SC_CONTROL_MSG_TYPE_INJECT_TEXT,
SC_CONTROL_MSG_TYPE_INJECT_TOUCH_EVENT,
SC_CONTROL_MSG_TYPE_INJECT_SCROLL_EVENT,
SC_CONTROL_MSG_TYPE_BACK_OR_SCREEN_ON,
SC_CONTROL_MSG_TYPE_EXPAND_NOTIFICATION_PANEL,
SC_CONTROL_MSG_TYPE_EXPAND_SETTINGS_PANEL,
SC_CONTROL_MSG_TYPE_COLLAPSE_PANELS,
SC_CONTROL_MSG_TYPE_GET_CLIPBOARD,
SC_CONTROL_MSG_TYPE_SET_CLIPBOARD,
SC_CONTROL_MSG_TYPE_SET_SCREEN_POWER_MODE,
SC_CONTROL_MSG_TYPE_ROTATE_DEVICE,
enum control_msg_type {
CONTROL_MSG_TYPE_INJECT_KEYCODE,
CONTROL_MSG_TYPE_INJECT_TEXT,
CONTROL_MSG_TYPE_INJECT_TOUCH_EVENT,
CONTROL_MSG_TYPE_INJECT_SCROLL_EVENT,
CONTROL_MSG_TYPE_BACK_OR_SCREEN_ON,
CONTROL_MSG_TYPE_EXPAND_NOTIFICATION_PANEL,
CONTROL_MSG_TYPE_COLLAPSE_NOTIFICATION_PANEL,
CONTROL_MSG_TYPE_GET_CLIPBOARD,
CONTROL_MSG_TYPE_SET_CLIPBOARD,
CONTROL_MSG_TYPE_SET_SCREEN_POWER_MODE,
CONTROL_MSG_TYPE_ROTATE_DEVICE,
};
enum sc_screen_power_mode {
enum screen_power_mode {
// see <https://android.googlesource.com/platform/frameworks/base.git/+/pie-release-2/core/java/android/view/SurfaceControl.java#305>
SC_SCREEN_POWER_MODE_OFF = 0,
SC_SCREEN_POWER_MODE_NORMAL = 2,
SCREEN_POWER_MODE_OFF = 0,
SCREEN_POWER_MODE_NORMAL = 2,
};
enum sc_copy_key {
SC_COPY_KEY_NONE,
SC_COPY_KEY_COPY,
SC_COPY_KEY_CUT,
};
struct sc_control_msg {
enum sc_control_msg_type type;
struct control_msg {
enum control_msg_type type;
union {
struct {
enum android_keyevent_action action;
enum android_keycode keycode;
uint32_t repeat;
enum android_metastate metastate;
} inject_keycode;
struct {
char *text; // owned, to be freed by free()
char *text; // owned, to be freed by SDL_free()
} inject_text;
struct {
enum android_motionevent_action action;
enum android_motionevent_buttons action_button;
enum android_motionevent_buttons buttons;
uint64_t pointer_id;
struct sc_position position;
struct position position;
float pressure;
} inject_touch_event;
struct {
struct sc_position position;
float hscroll;
float vscroll;
enum android_motionevent_buttons buttons;
struct position position;
int32_t hscroll;
int32_t vscroll;
} inject_scroll_event;
struct {
enum android_keyevent_action action; // action for the BACK key
// screen may only be turned on on ACTION_DOWN
} back_or_screen_on;
struct {
enum sc_copy_key copy_key;
} get_clipboard;
struct {
uint64_t sequence;
char *text; // owned, to be freed by free()
bool paste;
char *text; // owned, to be freed by SDL_free()
} set_clipboard;
struct {
enum sc_screen_power_mode mode;
enum screen_power_mode mode;
} set_screen_power_mode;
};
};
// buf size must be at least CONTROL_MSG_MAX_SIZE
// buf size must be at least CONTROL_MSG_SERIALIZED_MAX_SIZE
// return the number of bytes written
size_t
sc_control_msg_serialize(const struct sc_control_msg *msg, unsigned char *buf);
control_msg_serialize(const struct control_msg *msg, unsigned char *buf);
void
sc_control_msg_log(const struct sc_control_msg *msg);
void
sc_control_msg_destroy(struct sc_control_msg *msg);
control_msg_destroy(struct control_msg *msg);
#endif

141
app/src/controller.c
View File

@ -2,38 +2,26 @@
#include <assert.h>
#include "config.h"
#include "util/lock.h"
#include "util/log.h"
#define SC_CONTROL_MSG_QUEUE_MAX 64
bool
sc_controller_init(struct sc_controller *controller, sc_socket control_socket,
struct sc_acksync *acksync) {
sc_vecdeque_init(&controller->queue);
controller_init(struct controller *controller, socket_t control_socket) {
cbuf_init(&controller->queue);
bool ok = sc_vecdeque_reserve(&controller->queue, SC_CONTROL_MSG_QUEUE_MAX);
if (!ok) {
if (!receiver_init(&controller->receiver, control_socket)) {
return false;
}
ok = sc_receiver_init(&controller->receiver, control_socket, acksync);
if (!ok) {
sc_vecdeque_destroy(&controller->queue);
if (!(controller->mutex = SDL_CreateMutex())) {
receiver_destroy(&controller->receiver);
return false;
}
ok = sc_mutex_init(&controller->mutex);
if (!ok) {
sc_receiver_destroy(&controller->receiver);
sc_vecdeque_destroy(&controller->queue);
return false;
}
ok = sc_cond_init(&controller->msg_cond);
if (!ok) {
sc_receiver_destroy(&controller->receiver);
sc_mutex_destroy(&controller->mutex);
sc_vecdeque_destroy(&controller->queue);
if (!(controller->msg_cond = SDL_CreateCond())) {
receiver_destroy(&controller->receiver);
SDL_DestroyMutex(controller->mutex);
return false;
}
@ -44,78 +32,65 @@ sc_controller_init(struct sc_controller *controller, sc_socket control_socket,
}
void
sc_controller_destroy(struct sc_controller *controller) {
sc_cond_destroy(&controller->msg_cond);
sc_mutex_destroy(&controller->mutex);
controller_destroy(struct controller *controller) {
SDL_DestroyCond(controller->msg_cond);
SDL_DestroyMutex(controller->mutex);
while (!sc_vecdeque_is_empty(&controller->queue)) {
struct sc_control_msg *msg = sc_vecdeque_popref(&controller->queue);
assert(msg);
sc_control_msg_destroy(msg);
struct control_msg msg;
while (cbuf_take(&controller->queue, &msg)) {
control_msg_destroy(&msg);
}
sc_vecdeque_destroy(&controller->queue);
sc_receiver_destroy(&controller->receiver);
receiver_destroy(&controller->receiver);
}
bool
sc_controller_push_msg(struct sc_controller *controller,
const struct sc_control_msg *msg) {
if (sc_get_log_level() <= SC_LOG_LEVEL_VERBOSE) {
sc_control_msg_log(msg);
controller_push_msg(struct controller *controller,
const struct control_msg *msg) {
mutex_lock(controller->mutex);
bool was_empty = cbuf_is_empty(&controller->queue);
bool res = cbuf_push(&controller->queue, *msg);
if (was_empty) {
cond_signal(controller->msg_cond);
}
sc_mutex_lock(&controller->mutex);
bool full = sc_vecdeque_is_full(&controller->queue);
if (!full) {
bool was_empty = sc_vecdeque_is_empty(&controller->queue);
sc_vecdeque_push_noresize(&controller->queue, *msg);
if (was_empty) {
sc_cond_signal(&controller->msg_cond);
}
}
// Otherwise (if the queue is full), the msg is discarded
sc_mutex_unlock(&controller->mutex);
return !full;
mutex_unlock(controller->mutex);
return res;
}
static bool
process_msg(struct sc_controller *controller,
const struct sc_control_msg *msg) {
static unsigned char serialized_msg[SC_CONTROL_MSG_MAX_SIZE];
size_t length = sc_control_msg_serialize(msg, serialized_msg);
process_msg(struct controller *controller,
const struct control_msg *msg) {
unsigned char serialized_msg[CONTROL_MSG_SERIALIZED_MAX_SIZE];
int length = control_msg_serialize(msg, serialized_msg);
if (!length) {
return false;
}
ssize_t w =
net_send_all(controller->control_socket, serialized_msg, length);
return (size_t) w == length;
int w = net_send_all(controller->control_socket, serialized_msg, length);
return w == length;
}
static int
run_controller(void *data) {
struct sc_controller *controller = data;
struct controller *controller = data;
for (;;) {
sc_mutex_lock(&controller->mutex);
while (!controller->stopped
&& sc_vecdeque_is_empty(&controller->queue)) {
sc_cond_wait(&controller->msg_cond, &controller->mutex);
mutex_lock(controller->mutex);
while (!controller->stopped && cbuf_is_empty(&controller->queue)) {
cond_wait(controller->msg_cond, controller->mutex);
}
if (controller->stopped) {
// stop immediately, do not process further msgs
sc_mutex_unlock(&controller->mutex);
mutex_unlock(controller->mutex);
break;
}
assert(!sc_vecdeque_is_empty(&controller->queue));
struct sc_control_msg msg = sc_vecdeque_pop(&controller->queue);
sc_mutex_unlock(&controller->mutex);
struct control_msg msg;
bool non_empty = cbuf_take(&controller->queue, &msg);
assert(non_empty);
(void) non_empty;
mutex_unlock(controller->mutex);
bool ok = process_msg(controller, &msg);
sc_control_msg_destroy(&msg);
control_msg_destroy(&msg);
if (!ok) {
LOGD("Could not write msg to socket");
break;
@ -125,19 +100,19 @@ run_controller(void *data) {
}
bool
sc_controller_start(struct sc_controller *controller) {
controller_start(struct controller *controller) {
LOGD("Starting controller thread");
bool ok = sc_thread_create(&controller->thread, run_controller,
"scrcpy-ctl", controller);
if (!ok) {
LOGE("Could not start controller thread");
controller->thread = SDL_CreateThread(run_controller, "controller",
controller);
if (!controller->thread) {
LOGC("Could not start controller thread");
return false;
}
if (!sc_receiver_start(&controller->receiver)) {
sc_controller_stop(controller);
sc_thread_join(&controller->thread, NULL);
if (!receiver_start(&controller->receiver)) {
controller_stop(controller);
SDL_WaitThread(controller->thread, NULL);
return false;
}
@ -145,15 +120,15 @@ sc_controller_start(struct sc_controller *controller) {
}
void
sc_controller_stop(struct sc_controller *controller) {
sc_mutex_lock(&controller->mutex);
controller_stop(struct controller *controller) {
mutex_lock(controller->mutex);
controller->stopped = true;
sc_cond_signal(&controller->msg_cond);
sc_mutex_unlock(&controller->mutex);
cond_signal(controller->msg_cond);
mutex_unlock(controller->mutex);
}
void
sc_controller_join(struct sc_controller *controller) {
sc_thread_join(&controller->thread, NULL);
sc_receiver_join(&controller->receiver);
controller_join(struct controller *controller) {
SDL_WaitThread(controller->thread, NULL);
receiver_join(&controller->receiver);
}

44
app/src/controller.h
View File

@ -1,47 +1,45 @@
#ifndef SC_CONTROLLER_H
#define SC_CONTROLLER_H
#include "common.h"
#ifndef CONTROLLER_H
#define CONTROLLER_H
#include <stdbool.h>
#include <SDL2/SDL_mutex.h>
#include <SDL2/SDL_thread.h>
#include "config.h"
#include "control_msg.h"
#include "receiver.h"
#include "util/acksync.h"
#include "util/cbuf.h"
#include "util/net.h"
#include "util/thread.h"
#include "util/vecdeque.h"
struct sc_control_msg_queue SC_VECDEQUE(struct sc_control_msg);
struct control_msg_queue CBUF(struct control_msg, 64);
struct sc_controller {
sc_socket control_socket;
sc_thread thread;
sc_mutex mutex;
sc_cond msg_cond;
struct controller {
socket_t control_socket;
SDL_Thread *thread;
SDL_mutex *mutex;
SDL_cond *msg_cond;
bool stopped;
struct sc_control_msg_queue queue;
struct sc_receiver receiver;
struct control_msg_queue queue;
struct receiver receiver;
};
bool
sc_controller_init(struct sc_controller *controller, sc_socket control_socket,
struct sc_acksync *acksync);
controller_init(struct controller *controller, socket_t control_socket);
void
sc_controller_destroy(struct sc_controller *controller);
controller_destroy(struct controller *controller);
bool
sc_controller_start(struct sc_controller *controller);
controller_start(struct controller *controller);
void
sc_controller_stop(struct sc_controller *controller);
controller_stop(struct controller *controller);
void
sc_controller_join(struct sc_controller *controller);
controller_join(struct controller *controller);
bool
sc_controller_push_msg(struct sc_controller *controller,
const struct sc_control_msg *msg);
controller_push_msg(struct controller *controller,
const struct control_msg *msg);
#endif

24
app/src/coords.h
View File

@ -1,24 +0,0 @@
#ifndef SC_COORDS
#define SC_COORDS
#include <stdint.h>
struct sc_size {
uint16_t width;
uint16_t height;
};
struct sc_point {
int32_t x;
int32_t y;
};
struct sc_position {
// The video screen size may be different from the real device screen size,
// so store to which size the absolute position apply, to scale it
// accordingly.
struct sc_size screen_size;
struct sc_point point;
};
#endif

184
app/src/decoder.c
View File

@ -1,109 +1,101 @@
#include "decoder.h"
#include <libavcodec/avcodec.h>
#include <libavformat/avformat.h>
#include <libavutil/channel_layout.h>
#include <libavutil/time.h>
#include <SDL2/SDL_events.h>
#include <SDL2/SDL_mutex.h>
#include <SDL2/SDL_thread.h>
#include <unistd.h>
#include "config.h"
#include "compat.h"
#include "events.h"
#include "trait/frame_sink.h"
#include "recorder.h"
#include "video_buffer.h"
#include "util/buffer_util.h"
#include "util/log.h"
/** Downcast packet_sink to decoder */
#define DOWNCAST(SINK) container_of(SINK, struct sc_decoder, packet_sink)
static bool
sc_decoder_open(struct sc_decoder *decoder, AVCodecContext *ctx) {
decoder->frame = av_frame_alloc();
if (!decoder->frame) {
LOG_OOM();
return false;
}
if (!sc_frame_source_sinks_open(&decoder->frame_source, ctx)) {
av_frame_free(&decoder->frame);
return false;
}
decoder->ctx = ctx;
return true;
}
// set the decoded frame as ready for rendering, and notify
static void
sc_decoder_close(struct sc_decoder *decoder) {
sc_frame_source_sinks_close(&decoder->frame_source);
av_frame_free(&decoder->frame);
}
static bool
sc_decoder_push(struct sc_decoder *decoder, const AVPacket *packet) {
bool is_config = packet->pts == AV_NOPTS_VALUE;
if (is_config) {
// nothing to do
return true;
push_frame(struct decoder *decoder) {
bool previous_frame_skipped;
video_buffer_offer_decoded_frame(decoder->video_buffer,
&previous_frame_skipped);
if (previous_frame_skipped) {
// the previous EVENT_NEW_FRAME will consume this frame
return;
}
int ret = avcodec_send_packet(decoder->ctx, packet);
if (ret < 0 && ret != AVERROR(EAGAIN)) {
LOGE("Decoder '%s': could not send video packet: %d",
decoder->name, ret);
return false;
}
for (;;) {
ret = avcodec_receive_frame(decoder->ctx, decoder->frame);
if (ret == AVERROR(EAGAIN) || ret == AVERROR_EOF) {
break;
}
if (ret) {
LOGE("Decoder '%s', could not receive video frame: %d",
decoder->name, ret);
return false;
}
// a frame was received
bool ok = sc_frame_source_sinks_push(&decoder->frame_source,
decoder->frame);
av_frame_unref(decoder->frame);
if (!ok) {
// Error already logged
return false;
}
}
return true;
}
static bool
sc_decoder_packet_sink_open(struct sc_packet_sink *sink, AVCodecContext *ctx) {
struct sc_decoder *decoder = DOWNCAST(sink);
return sc_decoder_open(decoder, ctx);
}
static void
sc_decoder_packet_sink_close(struct sc_packet_sink *sink) {
struct sc_decoder *decoder = DOWNCAST(sink);
sc_decoder_close(decoder);
}
static bool
sc_decoder_packet_sink_push(struct sc_packet_sink *sink,
const AVPacket *packet) {
struct sc_decoder *decoder = DOWNCAST(sink);
return sc_decoder_push(decoder, packet);
static SDL_Event new_frame_event = {
.type = EVENT_NEW_FRAME,
};
SDL_PushEvent(&new_frame_event);
}
void
sc_decoder_init(struct sc_decoder *decoder, const char *name) {
decoder->name = name; // statically allocated
sc_frame_source_init(&decoder->frame_source);
static const struct sc_packet_sink_ops ops = {
.open = sc_decoder_packet_sink_open,
.close = sc_decoder_packet_sink_close,
.push = sc_decoder_packet_sink_push,
};
decoder->packet_sink.ops = &ops;
decoder_init(struct decoder *decoder, struct video_buffer *vb) {
decoder->video_buffer = vb;
}
bool
decoder_open(struct decoder *decoder, const AVCodec *codec) {
decoder->codec_ctx = avcodec_alloc_context3(codec);
if (!decoder->codec_ctx) {
LOGC("Could not allocate decoder context");
return false;
}
if (avcodec_open2(decoder->codec_ctx, codec, NULL) < 0) {
LOGE("Could not open codec");
avcodec_free_context(&decoder->codec_ctx);
return false;
}
return true;
}
void
decoder_close(struct decoder *decoder) {
avcodec_close(decoder->codec_ctx);
avcodec_free_context(&decoder->codec_ctx);
}
bool
decoder_push(struct decoder *decoder, const AVPacket *packet) {
// the new decoding/encoding API has been introduced by:
// <http://git.videolan.org/?p=ffmpeg.git;a=commitdiff;h=7fc329e2dd6226dfecaa4a1d7adf353bf2773726>
#ifdef SCRCPY_LAVF_HAS_NEW_ENCODING_DECODING_API
int ret;
if ((ret = avcodec_send_packet(decoder->codec_ctx, packet)) < 0) {
LOGE("Could not send video packet: %d", ret);
return false;
}
ret = avcodec_receive_frame(decoder->codec_ctx,
decoder->video_buffer->decoding_frame);
if (!ret) {
// a frame was received
push_frame(decoder);
} else if (ret != AVERROR(EAGAIN)) {
LOGE("Could not receive video frame: %d", ret);
return false;
}
#else
int got_picture;
int len = avcodec_decode_video2(decoder->codec_ctx,
decoder->video_buffer->decoding_frame,
&got_picture,
packet);
if (len < 0) {
LOGE("Could not decode video packet: %d", len);
return false;
}
if (got_picture) {
push_frame(decoder);
}
#endif
return true;
}
void
decoder_interrupt(struct decoder *decoder) {
video_buffer_interrupt(decoder->video_buffer);
}

36
app/src/decoder.h
View File

@ -1,27 +1,31 @@
#ifndef SC_DECODER_H
#define SC_DECODER_H
#include "common.h"
#include "trait/frame_source.h"
#include "trait/packet_sink.h"
#ifndef DECODER_H
#define DECODER_H
#include <stdbool.h>
#include <libavcodec/avcodec.h>
#include <libavformat/avformat.h>
struct sc_decoder {
struct sc_packet_sink packet_sink; // packet sink trait
struct sc_frame_source frame_source; // frame source trait
#include "config.h"
const char *name; // must be statically allocated (e.g. a string literal)
struct video_buffer;
AVCodecContext *ctx;
AVFrame *frame;
struct decoder {
struct video_buffer *video_buffer;
AVCodecContext *codec_ctx;
};
// The name must be statically allocated (e.g. a string literal)
void
sc_decoder_init(struct sc_decoder *decoder, const char *name);
decoder_init(struct decoder *decoder, struct video_buffer *vb);
bool
decoder_open(struct decoder *decoder, const AVCodec *codec);
void
decoder_close(struct decoder *decoder);
bool
decoder_push(struct decoder *decoder, const AVPacket *packet);
void
decoder_interrupt(struct decoder *decoder);
#endif

244
app/src/delay_buffer.c
View File

@ -1,244 +0,0 @@
#include "delay_buffer.h"
#include <assert.h>
#include <stdlib.h>
#include <libavutil/avutil.h>
#include <libavformat/avformat.h>
#include "util/log.h"
#define SC_BUFFERING_NDEBUG // comment to debug
/** Downcast frame_sink to sc_delay_buffer */
#define DOWNCAST(SINK) container_of(SINK, struct sc_delay_buffer, frame_sink)
static bool
sc_delayed_frame_init(struct sc_delayed_frame *dframe, const AVFrame *frame) {
dframe->frame = av_frame_alloc();
if (!dframe->frame) {
LOG_OOM();
return false;
}
if (av_frame_ref(dframe->frame, frame)) {
LOG_OOM();
av_frame_free(&dframe->frame);
return false;
}
return true;
}
static void
sc_delayed_frame_destroy(struct sc_delayed_frame *dframe) {
av_frame_unref(dframe->frame);
av_frame_free(&dframe->frame);
}
static int
run_buffering(void *data) {
struct sc_delay_buffer *db = data;
assert(db->delay > 0);
for (;;) {
sc_mutex_lock(&db->mutex);
while (!db->stopped && sc_vecdeque_is_empty(&db->queue)) {
sc_cond_wait(&db->queue_cond, &db->mutex);
}
if (db->stopped) {
sc_mutex_unlock(&db->mutex);
goto stopped;
}
struct sc_delayed_frame dframe = sc_vecdeque_pop(&db->queue);
sc_tick max_deadline = sc_tick_now() + db->delay;
// PTS (written by the server) are expressed in microseconds
sc_tick pts = SC_TICK_FROM_US(dframe.frame->pts);
bool timed_out = false;
while (!db->stopped && !timed_out) {
sc_tick deadline = sc_clock_to_system_time(&db->clock, pts)
+ db->delay;
if (deadline > max_deadline) {
deadline = max_deadline;
}
timed_out =
!sc_cond_timedwait(&db->wait_cond, &db->mutex, deadline);
}
bool stopped = db->stopped;
sc_mutex_unlock(&db->mutex);
if (stopped) {
sc_delayed_frame_destroy(&dframe);
goto stopped;
}
#ifndef SC_BUFFERING_NDEBUG
LOGD("Buffering: %" PRItick ";%" PRItick ";%" PRItick,
pts, dframe.push_date, sc_tick_now());
#endif
bool ok = sc_frame_source_sinks_push(&db->frame_source, dframe.frame);
sc_delayed_frame_destroy(&dframe);
if (!ok) {
LOGE("Delayed frame could not be pushed, stopping");
sc_mutex_lock(&db->mutex);
// Prevent to push any new frame
db->stopped = true;
sc_mutex_unlock(&db->mutex);
goto stopped;
}
}
stopped:
assert(db->stopped);
// Flush queue
while (!sc_vecdeque_is_empty(&db->queue)) {
struct sc_delayed_frame *dframe = sc_vecdeque_popref(&db->queue);
sc_delayed_frame_destroy(dframe);
}
LOGD("Buffering thread ended");
return 0;
}
static bool
sc_delay_buffer_frame_sink_open(struct sc_frame_sink *sink,
const AVCodecContext *ctx) {
struct sc_delay_buffer *db = DOWNCAST(sink);
(void) ctx;
bool ok = sc_mutex_init(&db->mutex);
if (!ok) {
return false;
}
ok = sc_cond_init(&db->queue_cond);
if (!ok) {
goto error_destroy_mutex;
}
ok = sc_cond_init(&db->wait_cond);
if (!ok) {
goto error_destroy_queue_cond;
}
sc_clock_init(&db->clock);
sc_vecdeque_init(&db->queue);
if (!sc_frame_source_sinks_open(&db->frame_source, ctx)) {
goto error_destroy_wait_cond;
}
ok = sc_thread_create(&db->thread, run_buffering, "scrcpy-dbuf", db);
if (!ok) {
LOGE("Could not start buffering thread");
goto error_close_sinks;
}
return true;
error_close_sinks:
sc_frame_source_sinks_close(&db->frame_source);
error_destroy_wait_cond:
sc_cond_destroy(&db->wait_cond);
error_destroy_queue_cond:
sc_cond_destroy(&db->queue_cond);
error_destroy_mutex:
sc_mutex_destroy(&db->mutex);
return false;
}
static void
sc_delay_buffer_frame_sink_close(struct sc_frame_sink *sink) {
struct sc_delay_buffer *db = DOWNCAST(sink);
sc_mutex_lock(&db->mutex);
db->stopped = true;
sc_cond_signal(&db->queue_cond);
sc_cond_signal(&db->wait_cond);
sc_mutex_unlock(&db->mutex);
sc_thread_join(&db->thread, NULL);
sc_frame_source_sinks_close(&db->frame_source);
sc_cond_destroy(&db->wait_cond);
sc_cond_destroy(&db->queue_cond);
sc_mutex_destroy(&db->mutex);
}
static bool
sc_delay_buffer_frame_sink_push(struct sc_frame_sink *sink,
const AVFrame *frame) {
struct sc_delay_buffer *db = DOWNCAST(sink);
sc_mutex_lock(&db->mutex);
if (db->stopped) {
sc_mutex_unlock(&db->mutex);
return false;
}
sc_tick pts = SC_TICK_FROM_US(frame->pts);
sc_clock_update(&db->clock, sc_tick_now(), pts);
sc_cond_signal(&db->wait_cond);
if (db->first_frame_asap && db->clock.range == 1) {
sc_mutex_unlock(&db->mutex);
return sc_frame_source_sinks_push(&db->frame_source, frame);
}
struct sc_delayed_frame dframe;
bool ok = sc_delayed_frame_init(&dframe, frame);
if (!ok) {
sc_mutex_unlock(&db->mutex);
return false;
}
#ifndef SC_BUFFERING_NDEBUG
dframe.push_date = sc_tick_now();
#endif
ok = sc_vecdeque_push(&db->queue, dframe);
if (!ok) {
sc_mutex_unlock(&db->mutex);
LOG_OOM();
return false;
}
sc_cond_signal(&db->queue_cond);
sc_mutex_unlock(&db->mutex);
return true;
}
void
sc_delay_buffer_init(struct sc_delay_buffer *db, sc_tick delay,
bool first_frame_asap) {
assert(delay > 0);
db->delay = delay;
db->first_frame_asap = first_frame_asap;
sc_frame_source_init(&db->frame_source);
static const struct sc_frame_sink_ops ops = {
.open = sc_delay_buffer_frame_sink_open,
.close = sc_delay_buffer_frame_sink_close,
.push = sc_delay_buffer_frame_sink_push,
};
db->frame_sink.ops = &ops;
}

60
app/src/delay_buffer.h
View File

@ -1,60 +0,0 @@
#ifndef SC_DELAY_BUFFER_H
#define SC_DELAY_BUFFER_H
#include "common.h"
#include <stdbool.h>
#include "clock.h"
#include "trait/frame_source.h"
#include "trait/frame_sink.h"
#include "util/thread.h"
#include "util/tick.h"
#include "util/vecdeque.h"
// forward declarations
typedef struct AVFrame AVFrame;
struct sc_delayed_frame {
AVFrame *frame;
#ifndef NDEBUG
sc_tick push_date;
#endif
};
struct sc_delayed_frame_queue SC_VECDEQUE(struct sc_delayed_frame);
struct sc_delay_buffer {
struct sc_frame_source frame_source; // frame source trait
struct sc_frame_sink frame_sink; // frame sink trait
sc_tick delay;
bool first_frame_asap;
sc_thread thread;
sc_mutex mutex;
sc_cond queue_cond;
sc_cond wait_cond;
struct sc_clock clock;
struct sc_delayed_frame_queue queue;
bool stopped;
};
struct sc_delay_buffer_callbacks {
bool (*on_new_frame)(struct sc_delay_buffer *db, const AVFrame *frame,
void *userdata);
};
/**
* Initialize a delay buffer.
*
* \param delay a (strictly) positive delay
* \param first_frame_asap if true, do not delay the first frame (useful for
a video stream).
*/
void
sc_delay_buffer_init(struct sc_delay_buffer *db, sc_tick delay,
bool first_frame_asap);
#endif

307
app/src/demuxer.c
View File

@ -1,307 +0,0 @@
#include "demuxer.h"
#include <assert.h>
#include <libavutil/channel_layout.h>
#include <libavutil/time.h>
#include <unistd.h>
#include "decoder.h"
#include "events.h"
#include "packet_merger.h"
#include "recorder.h"
#include "util/binary.h"
#include "util/log.h"
#define SC_PACKET_HEADER_SIZE 12
#define SC_PACKET_FLAG_CONFIG (UINT64_C(1) << 63)
#define SC_PACKET_FLAG_KEY_FRAME (UINT64_C(1) << 62)
#define SC_PACKET_PTS_MASK (SC_PACKET_FLAG_KEY_FRAME - 1)
static enum AVCodecID
sc_demuxer_to_avcodec_id(uint32_t codec_id) {
#define SC_CODEC_ID_H264 UINT32_C(0x68323634) // "h264" in ASCII
#define SC_CODEC_ID_H265 UINT32_C(0x68323635) // "h265" in ASCII
#define SC_CODEC_ID_AV1 UINT32_C(0x00617631) // "av1" in ASCII
#define SC_CODEC_ID_OPUS UINT32_C(0x6f707573) // "opus" in ASCII
#define SC_CODEC_ID_AAC UINT32_C(0x00616163) // "aac in ASCII"
#define SC_CODEC_ID_RAW UINT32_C(0x00726177) // "raw" in ASCII
switch (codec_id) {
case SC_CODEC_ID_H264:
return AV_CODEC_ID_H264;
case SC_CODEC_ID_H265:
return AV_CODEC_ID_HEVC;
case SC_CODEC_ID_AV1:
return AV_CODEC_ID_AV1;
case SC_CODEC_ID_OPUS:
return AV_CODEC_ID_OPUS;
case SC_CODEC_ID_AAC:
return AV_CODEC_ID_AAC;
case SC_CODEC_ID_RAW:
return AV_CODEC_ID_PCM_S16LE;
default:
LOGE("Unknown codec id 0x%08" PRIx32, codec_id);
return AV_CODEC_ID_NONE;
}
}
static bool
sc_demuxer_recv_codec_id(struct sc_demuxer *demuxer, uint32_t *codec_id) {
uint8_t data[4];
ssize_t r = net_recv_all(demuxer->socket, data, 4);
if (r < 4) {
return false;
}
*codec_id = sc_read32be(data);
return true;
}
static bool
sc_demuxer_recv_video_size(struct sc_demuxer *demuxer, uint32_t *width,
uint32_t *height) {
uint8_t data[8];
ssize_t r = net_recv_all(demuxer->socket, data, 8);
if (r < 8) {
return false;
}
*width = sc_read32be(data);
*height = sc_read32be(data + 4);
return true;
}
static bool
sc_demuxer_recv_packet(struct sc_demuxer *demuxer, AVPacket *packet) {
// The video stream contains raw packets, without time information. When we
// record, we retrieve the timestamps separately, from a "meta" header
// added by the server before each raw packet.
//
// The "meta" header length is 12 bytes:
// [. . . . . . . .|. . . .]. . . . . . . . . . . . . . . ...
// <-------------> <-----> <-----------------------------...
// PTS packet raw packet
// size
//
// It is followed by <packet_size> bytes containing the packet/frame.
//
// The most significant bits of the PTS are used for packet flags:
//
// byte 7 byte 6 byte 5 byte 4 byte 3 byte 2 byte 1 byte 0
// CK...... ........ ........ ........ ........ ........ ........ ........
// ^^<------------------------------------------------------------------->
// || PTS
// | `- key frame
// `-- config packet
uint8_t header[SC_PACKET_HEADER_SIZE];
ssize_t r = net_recv_all(demuxer->socket, header, SC_PACKET_HEADER_SIZE);
if (r < SC_PACKET_HEADER_SIZE) {
return false;
}
uint64_t pts_flags = sc_read64be(header);
uint32_t len = sc_read32be(&header[8]);
assert(len);
if (av_new_packet(packet, len)) {
LOG_OOM();
return false;
}
r = net_recv_all(demuxer->socket, packet->data, len);
if (r < 0 || ((uint32_t) r) < len) {
av_packet_unref(packet);
return false;
}
if (pts_flags & SC_PACKET_FLAG_CONFIG) {
packet->pts = AV_NOPTS_VALUE;
} else {
packet->pts = pts_flags & SC_PACKET_PTS_MASK;
}
if (pts_flags & SC_PACKET_FLAG_KEY_FRAME) {
packet->flags |= AV_PKT_FLAG_KEY;
}
packet->dts = packet->pts;
return true;
}
static int
run_demuxer(void *data) {
struct sc_demuxer *demuxer = data;
// Flag to report end-of-stream (i.e. device disconnected)
enum sc_demuxer_status status = SC_DEMUXER_STATUS_ERROR;
uint32_t raw_codec_id;
bool ok = sc_demuxer_recv_codec_id(demuxer, &raw_codec_id);
if (!ok) {
LOGE("Demuxer '%s': stream disabled due to connection error",
demuxer->name);
goto end;
}
if (raw_codec_id == 0) {
LOGW("Demuxer '%s': stream explicitly disabled by the device",
demuxer->name);
sc_packet_source_sinks_disable(&demuxer->packet_source);
status = SC_DEMUXER_STATUS_DISABLED;
goto end;
}
if (raw_codec_id == 1) {
LOGE("Demuxer '%s': stream configuration error on the device",
demuxer->name);
goto end;
}
enum AVCodecID codec_id = sc_demuxer_to_avcodec_id(raw_codec_id);
if (codec_id == AV_CODEC_ID_NONE) {
LOGE("Demuxer '%s': stream disabled due to unsupported codec",
demuxer->name);
sc_packet_source_sinks_disable(&demuxer->packet_source);
goto end;
}
const AVCodec *codec = avcodec_find_decoder(codec_id);
if (!codec) {
LOGE("Demuxer '%s': stream disabled due to missing decoder",
demuxer->name);
sc_packet_source_sinks_disable(&demuxer->packet_source);
goto end;
}
AVCodecContext *codec_ctx = avcodec_alloc_context3(codec);
if (!codec_ctx) {
LOG_OOM();
goto end;
}
codec_ctx->flags |= AV_CODEC_FLAG_LOW_DELAY;
if (codec->type == AVMEDIA_TYPE_VIDEO) {
uint32_t width;
uint32_t height;
ok = sc_demuxer_recv_video_size(demuxer, &width, &height);
if (!ok) {
goto finally_free_context;
}
codec_ctx->width = width;
codec_ctx->height = height;
codec_ctx->pix_fmt = AV_PIX_FMT_YUV420P;
} else {
// Hardcoded audio properties
#ifdef SCRCPY_LAVU_HAS_CHLAYOUT
codec_ctx->ch_layout = (AVChannelLayout) AV_CHANNEL_LAYOUT_STEREO;
#else
codec_ctx->channel_layout = AV_CH_LAYOUT_STEREO;
codec_ctx->channels = 2;
#endif
codec_ctx->sample_rate = 48000;
}
if (avcodec_open2(codec_ctx, codec, NULL) < 0) {
LOGE("Demuxer '%s': could not open codec", demuxer->name);
goto finally_free_context;
}
if (!sc_packet_source_sinks_open(&demuxer->packet_source, codec_ctx)) {
goto finally_free_context;
}
// Config packets must be merged with the next non-config packet only for
// video streams
bool must_merge_config_packet = codec->type == AVMEDIA_TYPE_VIDEO;
struct sc_packet_merger merger;
if (must_merge_config_packet) {
sc_packet_merger_init(&merger);
}
AVPacket *packet = av_packet_alloc();
if (!packet) {
LOG_OOM();
goto finally_close_sinks;
}
for (;;) {
bool ok = sc_demuxer_recv_packet(demuxer, packet);
if (!ok) {
// end of stream
status = SC_DEMUXER_STATUS_EOS;
break;
}
if (must_merge_config_packet) {
// Prepend any config packet to the next media packet
ok = sc_packet_merger_merge(&merger, packet);
if (!ok) {
av_packet_unref(packet);
break;
}
}
ok = sc_packet_source_sinks_push(&demuxer->packet_source, packet);
av_packet_unref(packet);
if (!ok) {
// The sink already logged its concrete error
break;
}
}
LOGD("Demuxer '%s': end of frames", demuxer->name);
if (must_merge_config_packet) {
sc_packet_merger_destroy(&merger);
}
av_packet_free(&packet);
finally_close_sinks:
sc_packet_source_sinks_close(&demuxer->packet_source);
finally_free_context:
// This also calls avcodec_close() internally
avcodec_free_context(&codec_ctx);
end:
demuxer->cbs->on_ended(demuxer, status, demuxer->cbs_userdata);
return 0;
}
void
sc_demuxer_init(struct sc_demuxer *demuxer, const char *name, sc_socket socket,
const struct sc_demuxer_callbacks *cbs, void *cbs_userdata) {
assert(socket != SC_SOCKET_NONE);
demuxer->name = name; // statically allocated
demuxer->socket = socket;
sc_packet_source_init(&demuxer->packet_source);
assert(cbs && cbs->on_ended);
demuxer->cbs = cbs;
demuxer->cbs_userdata = cbs_userdata;
}
bool
sc_demuxer_start(struct sc_demuxer *demuxer) {
LOGD("Demuxer '%s': starting thread", demuxer->name);
bool ok = sc_thread_create(&demuxer->thread, run_demuxer, "scrcpy-demuxer",
demuxer);
if (!ok) {
LOGE("Demuxer '%s': could not start thread", demuxer->name);
return false;
}
return true;
}
void
sc_demuxer_join(struct sc_demuxer *demuxer) {
sc_thread_join(&demuxer->thread, NULL);
}

50
app/src/demuxer.h
View File

@ -1,50 +0,0 @@
#ifndef SC_DEMUXER_H
#define SC_DEMUXER_H
#include "common.h"
#include <stdbool.h>
#include <stdint.h>
#include <libavcodec/avcodec.h>
#include <libavformat/avformat.h>
#include "trait/packet_source.h"
#include "trait/packet_sink.h"
#include "util/net.h"
#include "util/thread.h"
struct sc_demuxer {
struct sc_packet_source packet_source; // packet source trait
const char *name; // must be statically allocated (e.g. a string literal)
sc_socket socket;
sc_thread thread;
const struct sc_demuxer_callbacks *cbs;
void *cbs_userdata;
};
enum sc_demuxer_status {
SC_DEMUXER_STATUS_EOS,
SC_DEMUXER_STATUS_DISABLED,
SC_DEMUXER_STATUS_ERROR,
};
struct sc_demuxer_callbacks {
void (*on_ended)(struct sc_demuxer *demuxer, enum sc_demuxer_status,
void *userdata);
};
// The name must be statically allocated (e.g. a string literal)
void
sc_demuxer_init(struct sc_demuxer *demuxer, const char *name, sc_socket socket,
const struct sc_demuxer_callbacks *cbs, void *cbs_userdata);
bool
sc_demuxer_start(struct sc_demuxer *demuxer);
void
sc_demuxer_join(struct sc_demuxer *demuxer);
#endif

24
app/src/device.c Normal file
View File

@ -0,0 +1,24 @@
#include "device.h"
#include "config.h"
#include "util/log.h"
bool
device_read_info(socket_t device_socket, char *device_name, struct size *size) {
unsigned char buf[DEVICE_NAME_FIELD_LENGTH + 4];
int r = net_recv_all(device_socket, buf, sizeof(buf));
if (r < DEVICE_NAME_FIELD_LENGTH + 4) {
LOGE("Could not retrieve device information");
return false;
}
// in case the client sends garbage
buf[DEVICE_NAME_FIELD_LENGTH - 1] = '\0';
// strcpy is safe here, since name contains at least
// DEVICE_NAME_FIELD_LENGTH bytes and strlen(buf) < DEVICE_NAME_FIELD_LENGTH
strcpy(device_name, (char *) buf);
size->width = (buf[DEVICE_NAME_FIELD_LENGTH] << 8)
| buf[DEVICE_NAME_FIELD_LENGTH + 1];
size->height = (buf[DEVICE_NAME_FIELD_LENGTH + 2] << 8)
| buf[DEVICE_NAME_FIELD_LENGTH + 3];
return true;
}

16
app/src/device.h Normal file
View File

@ -0,0 +1,16 @@
#ifndef DEVICE_H
#define DEVICE_H
#include <stdbool.h>
#include "config.h"
#include "common.h"
#include "util/net.h"
#define DEVICE_NAME_FIELD_LENGTH 64
// name must be at least DEVICE_NAME_FIELD_LENGTH bytes
bool
device_read_info(socket_t device_socket, char *device_name, struct size *size);
#endif

26
app/src/device_msg.c
View File

@ -1,16 +1,15 @@
#include "device_msg.h"
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include "util/binary.h"
#include "config.h"
#include "util/buffer_util.h"
#include "util/log.h"
ssize_t
device_msg_deserialize(const unsigned char *buf, size_t len,
struct device_msg *msg) {
if (len < 5) {
if (len < 3) {
// at least type + empty string length
return 0; // not available
}
@ -18,27 +17,22 @@ device_msg_deserialize(const unsigned char *buf, size_t len,
msg->type = buf[0];
switch (msg->type) {
case DEVICE_MSG_TYPE_CLIPBOARD: {
size_t clipboard_len = sc_read32be(&buf[1]);
if (clipboard_len > len - 5) {
uint16_t clipboard_len = buffer_read16be(&buf[1]);
if (clipboard_len > len - 3) {
return 0; // not available
}
char *text = malloc(clipboard_len + 1);
char *text = SDL_malloc(clipboard_len + 1);
if (!text) {
LOG_OOM();
LOGW("Could not allocate text for clipboard");
return -1;
}
if (clipboard_len) {
memcpy(text, &buf[5], clipboard_len);
memcpy(text, &buf[3], clipboard_len);
}
text[clipboard_len] = '\0';
msg->clipboard.text = text;
return 5 + clipboard_len;
}
case DEVICE_MSG_TYPE_ACK_CLIPBOARD: {
uint64_t sequence = sc_read64be(&buf[1]);
msg->ack_clipboard.sequence = sequence;
return 9;
return 3 + clipboard_len;
}
default:
LOGW("Unknown device message type: %d", (int) msg->type);
@ -49,6 +43,6 @@ device_msg_deserialize(const unsigned char *buf, size_t len,
void
device_msg_destroy(struct device_msg *msg) {
if (msg->type == DEVICE_MSG_TYPE_CLIPBOARD) {
free(msg->clipboard.text);
SDL_free(msg->clipboard.text);
}
}

19
app/src/device_msg.h
View File

@ -1,30 +1,25 @@
#ifndef SC_DEVICEMSG_H
#define SC_DEVICEMSG_H
#include "common.h"
#ifndef DEVICEMSG_H
#define DEVICEMSG_H
#include <stdbool.h>
#include <stdint.h>
#include <unistd.h>
#define DEVICE_MSG_MAX_SIZE (1 << 18) // 256k
// type: 1 byte; length: 4 bytes
#define DEVICE_MSG_TEXT_MAX_LENGTH (DEVICE_MSG_MAX_SIZE - 5)
#include "config.h"
#define DEVICE_MSG_TEXT_MAX_LENGTH 4093
#define DEVICE_MSG_SERIALIZED_MAX_SIZE (3 + DEVICE_MSG_TEXT_MAX_LENGTH)
enum device_msg_type {
DEVICE_MSG_TYPE_CLIPBOARD,
DEVICE_MSG_TYPE_ACK_CLIPBOARD,
};
struct device_msg {
enum device_msg_type type;
union {
struct {
char *text; // owned, to be freed by free()
char *text; // owned, to be freed by SDL_free()
} clipboard;
struct {
uint64_t sequence;
} ack_clipboard;
};
};

193
app/src/event_converter.c Normal file
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@ -0,0 +1,193 @@
#include "event_converter.h"
#include "config.h"
#define MAP(FROM, TO) case FROM: *to = TO; return true
#define FAIL default: return false
bool
convert_keycode_action(SDL_EventType from, enum android_keyevent_action *to) {
switch (from) {
MAP(SDL_KEYDOWN, AKEY_EVENT_ACTION_DOWN);
MAP(SDL_KEYUP, AKEY_EVENT_ACTION_UP);
FAIL;
}
}
static enum android_metastate
autocomplete_metastate(enum android_metastate metastate) {
// fill dependant flags
if (metastate & (AMETA_SHIFT_LEFT_ON | AMETA_SHIFT_RIGHT_ON)) {
metastate |= AMETA_SHIFT_ON;
}
if (metastate & (AMETA_CTRL_LEFT_ON | AMETA_CTRL_RIGHT_ON)) {
metastate |= AMETA_CTRL_ON;
}
if (metastate & (AMETA_ALT_LEFT_ON | AMETA_ALT_RIGHT_ON)) {
metastate |= AMETA_ALT_ON;
}
if (metastate & (AMETA_META_LEFT_ON | AMETA_META_RIGHT_ON)) {
metastate |= AMETA_META_ON;
}
return metastate;
}
enum android_metastate
convert_meta_state(SDL_Keymod mod) {
enum android_metastate metastate = 0;
if (mod & KMOD_LSHIFT) {
metastate |= AMETA_SHIFT_LEFT_ON;
}
if (mod & KMOD_RSHIFT) {
metastate |= AMETA_SHIFT_RIGHT_ON;
}
if (mod & KMOD_LCTRL) {
metastate |= AMETA_CTRL_LEFT_ON;
}
if (mod & KMOD_RCTRL) {
metastate |= AMETA_CTRL_RIGHT_ON;
}
if (mod & KMOD_LALT) {
metastate |= AMETA_ALT_LEFT_ON;
}
if (mod & KMOD_RALT) {
metastate |= AMETA_ALT_RIGHT_ON;
}
if (mod & KMOD_LGUI) { // Windows key
metastate |= AMETA_META_LEFT_ON;
}
if (mod & KMOD_RGUI) { // Windows key
metastate |= AMETA_META_RIGHT_ON;
}
if (mod & KMOD_NUM) {
metastate |= AMETA_NUM_LOCK_ON;
}
if (mod & KMOD_CAPS) {
metastate |= AMETA_CAPS_LOCK_ON;
}
if (mod & KMOD_MODE) { // Alt Gr
// no mapping?
}
// fill the dependent fields
return autocomplete_metastate(metastate);
}
bool
convert_keycode(SDL_Keycode from, enum android_keycode *to, uint16_t mod,
bool prefer_text) {
switch (from) {
MAP(SDLK_RETURN, AKEYCODE_ENTER);
MAP(SDLK_KP_ENTER, AKEYCODE_NUMPAD_ENTER);
MAP(SDLK_ESCAPE, AKEYCODE_ESCAPE);
MAP(SDLK_BACKSPACE, AKEYCODE_DEL);
MAP(SDLK_TAB, AKEYCODE_TAB);
MAP(SDLK_PAGEUP, AKEYCODE_PAGE_UP);
MAP(SDLK_DELETE, AKEYCODE_FORWARD_DEL);
MAP(SDLK_HOME, AKEYCODE_MOVE_HOME);
MAP(SDLK_END, AKEYCODE_MOVE_END);
MAP(SDLK_PAGEDOWN, AKEYCODE_PAGE_DOWN);
MAP(SDLK_RIGHT, AKEYCODE_DPAD_RIGHT);
MAP(SDLK_LEFT, AKEYCODE_DPAD_LEFT);
MAP(SDLK_DOWN, AKEYCODE_DPAD_DOWN);
MAP(SDLK_UP, AKEYCODE_DPAD_UP);
}
if (!(mod & (KMOD_NUM | KMOD_SHIFT))) {
// Handle Numpad events when Num Lock is disabled
// If SHIFT is pressed, a text event will be sent instead
switch(from) {
MAP(SDLK_KP_0, AKEYCODE_INSERT);
MAP(SDLK_KP_1, AKEYCODE_MOVE_END);
MAP(SDLK_KP_2, AKEYCODE_DPAD_DOWN);
MAP(SDLK_KP_3, AKEYCODE_PAGE_DOWN);
MAP(SDLK_KP_4, AKEYCODE_DPAD_LEFT);
MAP(SDLK_KP_6, AKEYCODE_DPAD_RIGHT);
MAP(SDLK_KP_7, AKEYCODE_MOVE_HOME);
MAP(SDLK_KP_8, AKEYCODE_DPAD_UP);
MAP(SDLK_KP_9, AKEYCODE_PAGE_UP);
MAP(SDLK_KP_PERIOD, AKEYCODE_FORWARD_DEL);
}
}
if (prefer_text) {
// do not forward alpha and space key events
return false;
}
if (mod & (KMOD_LALT | KMOD_RALT | KMOD_LGUI | KMOD_RGUI)) {
return false;
}
// if ALT and META are not pressed, also handle letters and space
switch (from) {
MAP(SDLK_a, AKEYCODE_A);
MAP(SDLK_b, AKEYCODE_B);
MAP(SDLK_c, AKEYCODE_C);
MAP(SDLK_d, AKEYCODE_D);
MAP(SDLK_e, AKEYCODE_E);
MAP(SDLK_f, AKEYCODE_F);
MAP(SDLK_g, AKEYCODE_G);
MAP(SDLK_h, AKEYCODE_H);
MAP(SDLK_i, AKEYCODE_I);
MAP(SDLK_j, AKEYCODE_J);
MAP(SDLK_k, AKEYCODE_K);
MAP(SDLK_l, AKEYCODE_L);
MAP(SDLK_m, AKEYCODE_M);
MAP(SDLK_n, AKEYCODE_N);
MAP(SDLK_o, AKEYCODE_O);
MAP(SDLK_p, AKEYCODE_P);
MAP(SDLK_q, AKEYCODE_Q);
MAP(SDLK_r, AKEYCODE_R);
MAP(SDLK_s, AKEYCODE_S);
MAP(SDLK_t, AKEYCODE_T);
MAP(SDLK_u, AKEYCODE_U);
MAP(SDLK_v, AKEYCODE_V);
MAP(SDLK_w, AKEYCODE_W);
MAP(SDLK_x, AKEYCODE_X);
MAP(SDLK_y, AKEYCODE_Y);
MAP(SDLK_z, AKEYCODE_Z);
MAP(SDLK_SPACE, AKEYCODE_SPACE);
FAIL;
}
}
enum android_motionevent_buttons
convert_mouse_buttons(uint32_t state) {
enum android_motionevent_buttons buttons = 0;
if (state & SDL_BUTTON_LMASK) {
buttons |= AMOTION_EVENT_BUTTON_PRIMARY;
}
if (state & SDL_BUTTON_RMASK) {
buttons |= AMOTION_EVENT_BUTTON_SECONDARY;
}
if (state & SDL_BUTTON_MMASK) {
buttons |= AMOTION_EVENT_BUTTON_TERTIARY;
}
if (state & SDL_BUTTON_X1MASK) {
buttons |= AMOTION_EVENT_BUTTON_BACK;
}
if (state & SDL_BUTTON_X2MASK) {
buttons |= AMOTION_EVENT_BUTTON_FORWARD;
}
return buttons;
}
bool
convert_mouse_action(SDL_EventType from, enum android_motionevent_action *to) {
switch (from) {
MAP(SDL_MOUSEBUTTONDOWN, AMOTION_EVENT_ACTION_DOWN);
MAP(SDL_MOUSEBUTTONUP, AMOTION_EVENT_ACTION_UP);
FAIL;
}
}
bool
convert_touch_action(SDL_EventType from, enum android_motionevent_action *to) {
switch (from) {
MAP(SDL_FINGERMOTION, AMOTION_EVENT_ACTION_MOVE);
MAP(SDL_FINGERDOWN, AMOTION_EVENT_ACTION_DOWN);
MAP(SDL_FINGERUP, AMOTION_EVENT_ACTION_UP);
FAIL;
}
}

29
app/src/event_converter.h Normal file
View File

@ -0,0 +1,29 @@
#ifndef CONVERT_H
#define CONVERT_H
#include <stdbool.h>
#include <SDL2/SDL_events.h>
#include "config.h"
#include "control_msg.h"
bool
convert_keycode_action(SDL_EventType from, enum android_keyevent_action *to);
enum android_metastate
convert_meta_state(SDL_Keymod mod);
bool
convert_keycode(SDL_Keycode from, enum android_keycode *to, uint16_t mod,
bool prefer_text);
enum android_motionevent_buttons
convert_mouse_buttons(uint32_t state);
bool
convert_mouse_action(SDL_EventType from, enum android_motionevent_action *to);
bool
convert_touch_action(SDL_EventType from, enum android_motionevent_action *to);
#endif

11
app/src/events.h
View File

@ -1,8 +1,3 @@
#define SC_EVENT_NEW_FRAME SDL_USEREVENT
#define SC_EVENT_DEVICE_DISCONNECTED (SDL_USEREVENT + 1)
#define SC_EVENT_SERVER_CONNECTION_FAILED (SDL_USEREVENT + 2)
#define SC_EVENT_SERVER_CONNECTED (SDL_USEREVENT + 3)
#define SC_EVENT_USB_DEVICE_DISCONNECTED (SDL_USEREVENT + 4)
#define SC_EVENT_DEMUXER_ERROR (SDL_USEREVENT + 5)
#define SC_EVENT_RECORDER_ERROR (SDL_USEREVENT + 6)
#define SC_EVENT_SCREEN_INIT_SIZE (SDL_USEREVENT + 7)
#define EVENT_NEW_SESSION SDL_USEREVENT
#define EVENT_NEW_FRAME (SDL_USEREVENT + 1)
#define EVENT_STREAM_STOPPED (SDL_USEREVENT + 2)

191
app/src/file_handler.c Normal file
View File

@ -0,0 +1,191 @@
#include "file_handler.h"
#include <assert.h>
#include <string.h>
#include "config.h"
#include "command.h"
#include "util/lock.h"
#include "util/log.h"
#define DEFAULT_PUSH_TARGET "/sdcard/"
static void
file_handler_request_destroy(struct file_handler_request *req) {
SDL_free(req->file);
}
bool
file_handler_init(struct file_handler *file_handler, const char *serial,
const char *push_target) {
cbuf_init(&file_handler->queue);
if (!(file_handler->mutex = SDL_CreateMutex())) {
return false;
}
if (!(file_handler->event_cond = SDL_CreateCond())) {
SDL_DestroyMutex(file_handler->mutex);
return false;
}
if (serial) {
file_handler->serial = SDL_strdup(serial);
if (!file_handler->serial) {
LOGW("Could not strdup serial");
SDL_DestroyCond(file_handler->event_cond);
SDL_DestroyMutex(file_handler->mutex);
return false;
}
} else {
file_handler->serial = NULL;
}
// lazy initialization
file_handler->initialized = false;
file_handler->stopped = false;
file_handler->current_process = PROCESS_NONE;
file_handler->push_target = push_target ? push_target : DEFAULT_PUSH_TARGET;
return true;
}
void
file_handler_destroy(struct file_handler *file_handler) {
SDL_DestroyCond(file_handler->event_cond);
SDL_DestroyMutex(file_handler->mutex);
SDL_free(file_handler->serial);
struct file_handler_request req;
while (cbuf_take(&file_handler->queue, &req)) {
file_handler_request_destroy(&req);
}
}
static process_t
install_apk(const char *serial, const char *file) {
return adb_install(serial, file);
}
static process_t
push_file(const char *serial, const char *file, const char *push_target) {
return adb_push(serial, file, push_target);
}
bool
file_handler_request(struct file_handler *file_handler,
file_handler_action_t action, char *file) {
// start file_handler if it's used for the first time
if (!file_handler->initialized) {
if (!file_handler_start(file_handler)) {
return false;
}
file_handler->initialized = true;
}
LOGI("Request to %s %s", action == ACTION_INSTALL_APK ? "install" : "push",
file);
struct file_handler_request req = {
.action = action,
.file = file,
};
mutex_lock(file_handler->mutex);
bool was_empty = cbuf_is_empty(&file_handler->queue);
bool res = cbuf_push(&file_handler->queue, req);
if (was_empty) {
cond_signal(file_handler->event_cond);
}
mutex_unlock(file_handler->mutex);
return res;
}
static int
run_file_handler(void *data) {
struct file_handler *file_handler = data;
for (;;) {
mutex_lock(file_handler->mutex);
file_handler->current_process = PROCESS_NONE;
while (!file_handler->stopped && cbuf_is_empty(&file_handler->queue)) {
cond_wait(file_handler->event_cond, file_handler->mutex);
}
if (file_handler->stopped) {
// stop immediately, do not process further events
mutex_unlock(file_handler->mutex);
break;
}
struct file_handler_request req;
bool non_empty = cbuf_take(&file_handler->queue, &req);
assert(non_empty);
(void) non_empty;
process_t process;
if (req.action == ACTION_INSTALL_APK) {
LOGI("Installing %s...", req.file);
process = install_apk(file_handler->serial, req.file);
} else {
LOGI("Pushing %s...", req.file);
process = push_file(file_handler->serial, req.file,
file_handler->push_target);
}
file_handler->current_process = process;
mutex_unlock(file_handler->mutex);
if (req.action == ACTION_INSTALL_APK) {
if (process_check_success(process, "adb install")) {
LOGI("%s successfully installed", req.file);
} else {
LOGE("Failed to install %s", req.file);
}
} else {
if (process_check_success(process, "adb push")) {
LOGI("%s successfully pushed to %s", req.file,
file_handler->push_target);
} else {
LOGE("Failed to push %s to %s", req.file,
file_handler->push_target);
}
}
file_handler_request_destroy(&req);
}
return 0;
}
bool
file_handler_start(struct file_handler *file_handler) {
LOGD("Starting file_handler thread");
file_handler->thread = SDL_CreateThread(run_file_handler, "file_handler",
file_handler);
if (!file_handler->thread) {
LOGC("Could not start file_handler thread");
return false;
}
return true;
}
void
file_handler_stop(struct file_handler *file_handler) {
mutex_lock(file_handler->mutex);
file_handler->stopped = true;
cond_signal(file_handler->event_cond);
if (file_handler->current_process != PROCESS_NONE) {
if (!cmd_terminate(file_handler->current_process)) {
LOGW("Could not terminate install process");
}
cmd_simple_wait(file_handler->current_process, NULL);
file_handler->current_process = PROCESS_NONE;
}
mutex_unlock(file_handler->mutex);
}
void
file_handler_join(struct file_handler *file_handler) {
SDL_WaitThread(file_handler->thread, NULL);
}

58
app/src/file_handler.h Normal file
View File

@ -0,0 +1,58 @@
#ifndef FILE_HANDLER_H
#define FILE_HANDLER_H
#include <stdbool.h>
#include <SDL2/SDL_mutex.h>
#include <SDL2/SDL_thread.h>
#include "config.h"
#include "command.h"
#include "util/cbuf.h"
typedef enum {
ACTION_INSTALL_APK,
ACTION_PUSH_FILE,
} file_handler_action_t;
struct file_handler_request {
file_handler_action_t action;
char *file;
};
struct file_handler_request_queue CBUF(struct file_handler_request, 16);
struct file_handler {
char *serial;
const char *push_target;
SDL_Thread *thread;
SDL_mutex *mutex;
SDL_cond *event_cond;
bool stopped;
bool initialized;
process_t current_process;
struct file_handler_request_queue queue;
};
bool
file_handler_init(struct file_handler *file_handler, const char *serial,
const char *push_target);
void
file_handler_destroy(struct file_handler *file_handler);
bool
file_handler_start(struct file_handler *file_handler);
void
file_handler_stop(struct file_handler *file_handler);
void
file_handler_join(struct file_handler *file_handler);
// take ownership of file, and will SDL_free() it
bool
file_handler_request(struct file_handler *file_handler,
file_handler_action_t action,
char *file);
#endif

189
app/src/file_pusher.c
View File

@ -1,189 +0,0 @@
#include "file_pusher.h"
#include <assert.h>
#include <string.h>
#include "adb/adb.h"
#include "util/log.h"
#include "util/process_intr.h"
#define DEFAULT_PUSH_TARGET "/sdcard/Download/"
static void
sc_file_pusher_request_destroy(struct sc_file_pusher_request *req) {
free(req->file);
}
bool
sc_file_pusher_init(struct sc_file_pusher *fp, const char *serial,
const char *push_target) {
assert(serial);
sc_vecdeque_init(&fp->queue);
bool ok = sc_mutex_init(&fp->mutex);
if (!ok) {
return false;
}
ok = sc_cond_init(&fp->event_cond);
if (!ok) {
sc_mutex_destroy(&fp->mutex);
return false;
}
ok = sc_intr_init(&fp->intr);
if (!ok) {
sc_cond_destroy(&fp->event_cond);
sc_mutex_destroy(&fp->mutex);
return false;
}
fp->serial = strdup(serial);
if (!fp->serial) {
LOG_OOM();
sc_intr_destroy(&fp->intr);
sc_cond_destroy(&fp->event_cond);
sc_mutex_destroy(&fp->mutex);
return false;
}
// lazy initialization
fp->initialized = false;
fp->stopped = false;
fp->push_target = push_target ? push_target : DEFAULT_PUSH_TARGET;
return true;
}
void
sc_file_pusher_destroy(struct sc_file_pusher *fp) {
sc_cond_destroy(&fp->event_cond);
sc_mutex_destroy(&fp->mutex);
sc_intr_destroy(&fp->intr);
free(fp->serial);
while (!sc_vecdeque_is_empty(&fp->queue)) {
struct sc_file_pusher_request *req = sc_vecdeque_popref(&fp->queue);
assert(req);
sc_file_pusher_request_destroy(req);
}
}
bool
sc_file_pusher_request(struct sc_file_pusher *fp,
enum sc_file_pusher_action action, char *file) {
// start file_pusher if it's used for the first time
if (!fp->initialized) {
if (!sc_file_pusher_start(fp)) {
return false;
}
fp->initialized = true;
}
LOGI("Request to %s %s", action == SC_FILE_PUSHER_ACTION_INSTALL_APK
? "install" : "push",
file);
struct sc_file_pusher_request req = {
.action = action,
.file = file,
};
sc_mutex_lock(&fp->mutex);
bool was_empty = sc_vecdeque_is_empty(&fp->queue);
bool res = sc_vecdeque_push(&fp->queue, req);
if (!res) {
LOG_OOM();
sc_mutex_unlock(&fp->mutex);
return false;
}
if (was_empty) {
sc_cond_signal(&fp->event_cond);
}
sc_mutex_unlock(&fp->mutex);
return true;
}
static int
run_file_pusher(void *data) {
struct sc_file_pusher *fp = data;
struct sc_intr *intr = &fp->intr;
const char *serial = fp->serial;
assert(serial);
const char *push_target = fp->push_target;
assert(push_target);
for (;;) {
sc_mutex_lock(&fp->mutex);
while (!fp->stopped && sc_vecdeque_is_empty(&fp->queue)) {
sc_cond_wait(&fp->event_cond, &fp->mutex);
}
if (fp->stopped) {
// stop immediately, do not process further events
sc_mutex_unlock(&fp->mutex);
break;
}
assert(!sc_vecdeque_is_empty(&fp->queue));
struct sc_file_pusher_request req = sc_vecdeque_pop(&fp->queue);
sc_mutex_unlock(&fp->mutex);
if (req.action == SC_FILE_PUSHER_ACTION_INSTALL_APK) {
LOGI("Installing %s...", req.file);
bool ok = sc_adb_install(intr, serial, req.file, 0);
if (ok) {
LOGI("%s successfully installed", req.file);
} else {
LOGE("Failed to install %s", req.file);
}
} else {
LOGI("Pushing %s...", req.file);
bool ok = sc_adb_push(intr, serial, req.file, push_target, 0);
if (ok) {
LOGI("%s successfully pushed to %s", req.file, push_target);
} else {
LOGE("Failed to push %s to %s", req.file, push_target);
}
}
sc_file_pusher_request_destroy(&req);
}
return 0;
}
bool
sc_file_pusher_start(struct sc_file_pusher *fp) {
LOGD("Starting file_pusher thread");
bool ok = sc_thread_create(&fp->thread, run_file_pusher, "scrcpy-file", fp);
if (!ok) {
LOGE("Could not start file_pusher thread");
return false;
}
return true;
}
void
sc_file_pusher_stop(struct sc_file_pusher *fp) {
if (fp->initialized) {
sc_mutex_lock(&fp->mutex);
fp->stopped = true;
sc_cond_signal(&fp->event_cond);
sc_intr_interrupt(&fp->intr);
sc_mutex_unlock(&fp->mutex);
}
}
void
sc_file_pusher_join(struct sc_file_pusher *fp) {
if (fp->initialized) {
sc_thread_join(&fp->thread, NULL);
}
}

58
app/src/file_pusher.h
View File

@ -1,58 +0,0 @@
#ifndef SC_FILE_PUSHER_H
#define SC_FILE_PUSHER_H
#include "common.h"
#include <stdbool.h>
#include "util/intr.h"
#include "util/thread.h"
#include "util/vecdeque.h"
enum sc_file_pusher_action {
SC_FILE_PUSHER_ACTION_INSTALL_APK,
SC_FILE_PUSHER_ACTION_PUSH_FILE,
};
struct sc_file_pusher_request {
enum sc_file_pusher_action action;
char *file;
};
struct sc_file_pusher_request_queue SC_VECDEQUE(struct sc_file_pusher_request);
struct sc_file_pusher {
char *serial;
const char *push_target;
sc_thread thread;
sc_mutex mutex;
sc_cond event_cond;
bool stopped;
bool initialized;
struct sc_file_pusher_request_queue queue;
struct sc_intr intr;
};
bool
sc_file_pusher_init(struct sc_file_pusher *fp, const char *serial,
const char *push_target);
void
sc_file_pusher_destroy(struct sc_file_pusher *fp);
bool
sc_file_pusher_start(struct sc_file_pusher *fp);
void
sc_file_pusher_stop(struct sc_file_pusher *fp);
void
sc_file_pusher_join(struct sc_file_pusher *fp);
// take ownership of file, and will free() it
bool
sc_file_pusher_request(struct sc_file_pusher *fp,
enum sc_file_pusher_action action, char *file);
#endif

123
app/src/fps_counter.c
View File

@ -1,25 +1,28 @@
#include "fps_counter.h"
#include <assert.h>
#include <SDL2/SDL_timer.h>
#include "config.h"
#include "util/lock.h"
#include "util/log.h"
#define SC_FPS_COUNTER_INTERVAL SC_TICK_FROM_SEC(1)
#define FPS_COUNTER_INTERVAL_MS 1000
bool
sc_fps_counter_init(struct sc_fps_counter *counter) {
bool ok = sc_mutex_init(&counter->mutex);
if (!ok) {
fps_counter_init(struct fps_counter *counter) {
counter->mutex = SDL_CreateMutex();
if (!counter->mutex) {
return false;
}
ok = sc_cond_init(&counter->state_cond);
if (!ok) {
sc_mutex_destroy(&counter->mutex);
counter->state_cond = SDL_CreateCond();
if (!counter->state_cond) {
SDL_DestroyMutex(counter->mutex);
return false;
}
counter->thread_started = false;
counter->thread = NULL;
atomic_init(&counter->started, 0);
// no need to initialize the other fields, they are unused until started
@ -27,26 +30,26 @@ sc_fps_counter_init(struct sc_fps_counter *counter) {
}
void
sc_fps_counter_destroy(struct sc_fps_counter *counter) {
sc_cond_destroy(&counter->state_cond);
sc_mutex_destroy(&counter->mutex);
fps_counter_destroy(struct fps_counter *counter) {
SDL_DestroyCond(counter->state_cond);
SDL_DestroyMutex(counter->mutex);
}
static inline bool
is_started(struct sc_fps_counter *counter) {
is_started(struct fps_counter *counter) {
return atomic_load_explicit(&counter->started, memory_order_acquire);
}
static inline void
set_started(struct sc_fps_counter *counter, bool started) {
set_started(struct fps_counter *counter, bool started) {
atomic_store_explicit(&counter->started, started, memory_order_release);
}
// must be called with mutex locked
static void
display_fps(struct sc_fps_counter *counter) {
display_fps(struct fps_counter *counter) {
unsigned rendered_per_second =
counter->nr_rendered * SC_TICK_FREQ / SC_FPS_COUNTER_INTERVAL;
counter->nr_rendered * 1000 / FPS_COUNTER_INTERVAL_MS;
if (counter->nr_skipped) {
LOGI("%u fps (+%u frames skipped)", rendered_per_second,
counter->nr_skipped);
@ -57,7 +60,7 @@ display_fps(struct sc_fps_counter *counter) {
// must be called with mutex locked
static void
check_interval_expired(struct sc_fps_counter *counter, sc_tick now) {
check_interval_expired(struct fps_counter *counter, uint32_t now) {
if (now < counter->next_timestamp) {
return;
}
@ -67,119 +70,111 @@ check_interval_expired(struct sc_fps_counter *counter, sc_tick now) {
counter->nr_skipped = 0;
// add a multiple of the interval
uint32_t elapsed_slices =
(now - counter->next_timestamp) / SC_FPS_COUNTER_INTERVAL + 1;
counter->next_timestamp += SC_FPS_COUNTER_INTERVAL * elapsed_slices;
(now - counter->next_timestamp) / FPS_COUNTER_INTERVAL_MS + 1;
counter->next_timestamp += FPS_COUNTER_INTERVAL_MS * elapsed_slices;
}
static int
run_fps_counter(void *data) {
struct sc_fps_counter *counter = data;
struct fps_counter *counter = data;
sc_mutex_lock(&counter->mutex);
mutex_lock(counter->mutex);
while (!counter->interrupted) {
while (!counter->interrupted && !is_started(counter)) {
sc_cond_wait(&counter->state_cond, &counter->mutex);
cond_wait(counter->state_cond, counter->mutex);
}
while (!counter->interrupted && is_started(counter)) {
sc_tick now = sc_tick_now();
uint32_t now = SDL_GetTicks();
check_interval_expired(counter, now);
assert(counter->next_timestamp > now);
uint32_t remaining = counter->next_timestamp - now;
// ignore the reason (timeout or signaled), we just loop anyway
sc_cond_timedwait(&counter->state_cond, &counter->mutex,
counter->next_timestamp);
cond_wait_timeout(counter->state_cond, counter->mutex, remaining);
}
}
sc_mutex_unlock(&counter->mutex);
mutex_unlock(counter->mutex);
return 0;
}
bool
sc_fps_counter_start(struct sc_fps_counter *counter) {
sc_mutex_lock(&counter->mutex);
counter->interrupted = false;
counter->next_timestamp = sc_tick_now() + SC_FPS_COUNTER_INTERVAL;
fps_counter_start(struct fps_counter *counter) {
mutex_lock(counter->mutex);
counter->next_timestamp = SDL_GetTicks() + FPS_COUNTER_INTERVAL_MS;
counter->nr_rendered = 0;
counter->nr_skipped = 0;
sc_mutex_unlock(&counter->mutex);
mutex_unlock(counter->mutex);
set_started(counter, true);
sc_cond_signal(&counter->state_cond);
cond_signal(counter->state_cond);
// counter->thread_started and counter->thread are always accessed from the
// same thread, no need to lock
if (!counter->thread_started) {
bool ok = sc_thread_create(&counter->thread, run_fps_counter,
"scrcpy-fps", counter);
if (!ok) {
// counter->thread is always accessed from the same thread, no need to lock
if (!counter->thread) {
counter->thread =
SDL_CreateThread(run_fps_counter, "fps counter", counter);
if (!counter->thread) {
LOGE("Could not start FPS counter thread");
return false;
}
counter->thread_started = true;
}
LOGI("FPS counter started");
return true;
}
void
sc_fps_counter_stop(struct sc_fps_counter *counter) {
fps_counter_stop(struct fps_counter *counter) {
set_started(counter, false);
sc_cond_signal(&counter->state_cond);
LOGI("FPS counter stopped");
cond_signal(counter->state_cond);
}
bool
sc_fps_counter_is_started(struct sc_fps_counter *counter) {
fps_counter_is_started(struct fps_counter *counter) {
return is_started(counter);
}
void
sc_fps_counter_interrupt(struct sc_fps_counter *counter) {
if (!counter->thread_started) {
fps_counter_interrupt(struct fps_counter *counter) {
if (!counter->thread) {
return;
}
sc_mutex_lock(&counter->mutex);
mutex_lock(counter->mutex);
counter->interrupted = true;
sc_mutex_unlock(&counter->mutex);
mutex_unlock(counter->mutex);
// wake up blocking wait
sc_cond_signal(&counter->state_cond);
cond_signal(counter->state_cond);
}
void
sc_fps_counter_join(struct sc_fps_counter *counter) {
if (counter->thread_started) {
// interrupted must be set by the thread calling join(), so no need to
// lock for the assertion
assert(counter->interrupted);
sc_thread_join(&counter->thread, NULL);
fps_counter_join(struct fps_counter *counter) {
if (counter->thread) {
SDL_WaitThread(counter->thread, NULL);
}
}
void
sc_fps_counter_add_rendered_frame(struct sc_fps_counter *counter) {
fps_counter_add_rendered_frame(struct fps_counter *counter) {
if (!is_started(counter)) {
return;
}
sc_mutex_lock(&counter->mutex);
sc_tick now = sc_tick_now();
mutex_lock(counter->mutex);
uint32_t now = SDL_GetTicks();
check_interval_expired(counter, now);
++counter->nr_rendered;
sc_mutex_unlock(&counter->mutex);
mutex_unlock(counter->mutex);
}
void
sc_fps_counter_add_skipped_frame(struct sc_fps_counter *counter) {
fps_counter_add_skipped_frame(struct fps_counter *counter) {
if (!is_started(counter)) {
return;
}
sc_mutex_lock(&counter->mutex);
sc_tick now = sc_tick_now();
mutex_lock(counter->mutex);
uint32_t now = SDL_GetTicks();
check_interval_expired(counter, now);
++counter->nr_skipped;
sc_mutex_unlock(&counter->mutex);
mutex_unlock(counter->mutex);
}

42
app/src/fps_counter.h
View File

@ -1,20 +1,18 @@
#ifndef SC_FPSCOUNTER_H
#define SC_FPSCOUNTER_H
#include "common.h"
#ifndef FPSCOUNTER_H
#define FPSCOUNTER_H
#include <stdatomic.h>
#include <stdbool.h>
#include <stdint.h>
#include <SDL2/SDL_mutex.h>
#include <SDL2/SDL_thread.h>
#include "util/thread.h"
#include "config.h"
struct sc_fps_counter {
sc_thread thread;
sc_mutex mutex;
sc_cond state_cond;
bool thread_started;
struct fps_counter {
SDL_Thread *thread;
SDL_mutex *mutex;
SDL_cond *state_cond;
// atomic so that we can check without locking the mutex
// if the FPS counter is disabled, we don't want to lock unnecessarily
@ -24,36 +22,36 @@ struct sc_fps_counter {
bool interrupted;
unsigned nr_rendered;
unsigned nr_skipped;
sc_tick next_timestamp;
uint32_t next_timestamp;
};
bool
sc_fps_counter_init(struct sc_fps_counter *counter);
fps_counter_init(struct fps_counter *counter);
void
sc_fps_counter_destroy(struct sc_fps_counter *counter);
fps_counter_destroy(struct fps_counter *counter);
bool
sc_fps_counter_start(struct sc_fps_counter *counter);
fps_counter_start(struct fps_counter *counter);
void
sc_fps_counter_stop(struct sc_fps_counter *counter);
fps_counter_stop(struct fps_counter *counter);
bool
sc_fps_counter_is_started(struct sc_fps_counter *counter);
fps_counter_is_started(struct fps_counter *counter);
// request to stop the thread (on quit)
// must be called before sc_fps_counter_join()
// must be called before fps_counter_join()
void
sc_fps_counter_interrupt(struct sc_fps_counter *counter);
fps_counter_interrupt(struct fps_counter *counter);
void
sc_fps_counter_join(struct sc_fps_counter *counter);
fps_counter_join(struct fps_counter *counter);
void
sc_fps_counter_add_rendered_frame(struct sc_fps_counter *counter);
fps_counter_add_rendered_frame(struct fps_counter *counter);
void
sc_fps_counter_add_skipped_frame(struct sc_fps_counter *counter);
fps_counter_add_skipped_frame(struct fps_counter *counter);
#endif

90
app/src/frame_buffer.c
View File

@ -1,90 +0,0 @@
#include "frame_buffer.h"
#include <assert.h>
#include <libavutil/avutil.h>
#include <libavformat/avformat.h>
#include "util/log.h"
bool
sc_frame_buffer_init(struct sc_frame_buffer *fb) {
fb->pending_frame = av_frame_alloc();
if (!fb->pending_frame) {
LOG_OOM();
return false;
}
fb->tmp_frame = av_frame_alloc();
if (!fb->tmp_frame) {
LOG_OOM();
av_frame_free(&fb->pending_frame);
return false;
}
bool ok = sc_mutex_init(&fb->mutex);
if (!ok) {
av_frame_free(&fb->pending_frame);
av_frame_free(&fb->tmp_frame);
return false;
}
// there is initially no frame, so consider it has already been consumed
fb->pending_frame_consumed = true;
return true;
}
void
sc_frame_buffer_destroy(struct sc_frame_buffer *fb) {
sc_mutex_destroy(&fb->mutex);
av_frame_free(&fb->pending_frame);
av_frame_free(&fb->tmp_frame);
}
static inline void
swap_frames(AVFrame **lhs, AVFrame **rhs) {
AVFrame *tmp = *lhs;
*lhs = *rhs;
*rhs = tmp;
}
bool
sc_frame_buffer_push(struct sc_frame_buffer *fb, const AVFrame *frame,
bool *previous_frame_skipped) {
// Use a temporary frame to preserve pending_frame in case of error.
// tmp_frame is an empty frame, no need to call av_frame_unref() beforehand.
int r = av_frame_ref(fb->tmp_frame, frame);
if (r) {
LOGE("Could not ref frame: %d", r);
return false;
}
sc_mutex_lock(&fb->mutex);
// Now that av_frame_ref() succeeded, we can replace the previous
// pending_frame
swap_frames(&fb->pending_frame, &fb->tmp_frame);
av_frame_unref(fb->tmp_frame);
if (previous_frame_skipped) {
*previous_frame_skipped = !fb->pending_frame_consumed;
}
fb->pending_frame_consumed = false;
sc_mutex_unlock(&fb->mutex);
return true;
}
void
sc_frame_buffer_consume(struct sc_frame_buffer *fb, AVFrame *dst) {
sc_mutex_lock(&fb->mutex);
assert(!fb->pending_frame_consumed);
fb->pending_frame_consumed = true;
av_frame_move_ref(dst, fb->pending_frame);
// av_frame_move_ref() resets its source frame, so no need to call
// av_frame_unref()
sc_mutex_unlock(&fb->mutex);
}

44
app/src/frame_buffer.h
View File

@ -1,44 +0,0 @@
#ifndef SC_FRAME_BUFFER_H
#define SC_FRAME_BUFFER_H
#include "common.h"
#include <stdbool.h>
#include "util/thread.h"
// forward declarations
typedef struct AVFrame AVFrame;
/**
* A frame buffer holds 1 pending frame, which is the last frame received from
* the producer (typically, the decoder).
*
* If a pending frame has not been consumed when the producer pushes a new
* frame, then it is lost. The intent is to always provide access to the very
* last frame to minimize latency.
*/
struct sc_frame_buffer {
AVFrame *pending_frame;
AVFrame *tmp_frame; // To preserve the pending frame on error
sc_mutex mutex;
bool pending_frame_consumed;
};
bool
sc_frame_buffer_init(struct sc_frame_buffer *fb);
void
sc_frame_buffer_destroy(struct sc_frame_buffer *fb);
bool
sc_frame_buffer_push(struct sc_frame_buffer *fb, const AVFrame *frame,
bool *skipped);
void
sc_frame_buffer_consume(struct sc_frame_buffer *fb, AVFrame *dst);
#endif

291
app/src/icon.c
View File

@ -1,291 +0,0 @@
#include "icon.h"
#include <assert.h>
#include <stdbool.h>
#include <libavcodec/avcodec.h>
#include <libavformat/avformat.h>
#include <libavutil/pixdesc.h>
#include <libavutil/pixfmt.h>
#include "config.h"
#include "compat.h"
#include "util/file.h"
#include "util/log.h"
#include "util/str.h"
#define SCRCPY_PORTABLE_ICON_FILENAME "icon.png"
#define SCRCPY_DEFAULT_ICON_PATH \
PREFIX "/share/icons/hicolor/256x256/apps/scrcpy.png"
static char *
get_icon_path(void) {
#ifdef __WINDOWS__
const wchar_t *icon_path_env = _wgetenv(L"SCRCPY_ICON_PATH");
#else
const char *icon_path_env = getenv("SCRCPY_ICON_PATH");
#endif
if (icon_path_env) {
// if the envvar is set, use it
#ifdef __WINDOWS__
char *icon_path = sc_str_from_wchars(icon_path_env);
#else
char *icon_path = strdup(icon_path_env);
#endif
if (!icon_path) {
LOG_OOM();
return NULL;
}
LOGD("Using SCRCPY_ICON_PATH: %s", icon_path);
return icon_path;
}
#ifndef PORTABLE
LOGD("Using icon: " SCRCPY_DEFAULT_ICON_PATH);
char *icon_path = strdup(SCRCPY_DEFAULT_ICON_PATH);
if (!icon_path) {
LOG_OOM();
return NULL;
}
#else
char *icon_path = sc_file_get_local_path(SCRCPY_PORTABLE_ICON_FILENAME);
if (!icon_path) {
LOGE("Could not get icon path");
return NULL;
}
LOGD("Using icon (portable): %s", icon_path);
#endif
return icon_path;
}
static AVFrame *
decode_image(const char *path) {
AVFrame *result = NULL;
AVFormatContext *ctx = avformat_alloc_context();
if (!ctx) {
LOG_OOM();
return NULL;
}
if (avformat_open_input(&ctx, path, NULL, NULL) < 0) {
LOGE("Could not open icon image: %s", path);
goto free_ctx;
}
if (avformat_find_stream_info(ctx, NULL) < 0) {
LOGE("Could not find image stream info");
goto close_input;
}
int stream = av_find_best_stream(ctx, AVMEDIA_TYPE_VIDEO, -1, -1, NULL, 0);
if (stream < 0 ) {
LOGE("Could not find best image stream");
goto close_input;
}
AVCodecParameters *params = ctx->streams[stream]->codecpar;
const AVCodec *codec = avcodec_find_decoder(params->codec_id);
if (!codec) {
LOGE("Could not find image decoder");
goto close_input;
}
AVCodecContext *codec_ctx = avcodec_alloc_context3(codec);
if (!codec_ctx) {
LOG_OOM();
goto close_input;
}
if (avcodec_parameters_to_context(codec_ctx, params) < 0) {
LOGE("Could not fill codec context");
goto free_codec_ctx;
}
if (avcodec_open2(codec_ctx, codec, NULL) < 0) {
LOGE("Could not open image codec");
goto free_codec_ctx;
}
AVFrame *frame = av_frame_alloc();
if (!frame) {
LOG_OOM();
goto close_codec;
}
AVPacket *packet = av_packet_alloc();
if (!packet) {
LOG_OOM();
av_frame_free(&frame);
goto close_codec;
}
if (av_read_frame(ctx, packet) < 0) {
LOGE("Could not read frame");
av_packet_free(&packet);
av_frame_free(&frame);
goto close_codec;
}
int ret;
if ((ret = avcodec_send_packet(codec_ctx, packet)) < 0) {
LOGE("Could not send icon packet: %d", ret);
av_packet_free(&packet);
av_frame_free(&frame);
goto close_codec;
}
if ((ret = avcodec_receive_frame(codec_ctx, frame)) != 0) {
LOGE("Could not receive icon frame: %d", ret);
av_packet_free(&packet);
av_frame_free(&frame);
goto close_codec;
}
av_packet_free(&packet);
result = frame;
close_codec:
avcodec_close(codec_ctx);
free_codec_ctx:
avcodec_free_context(&codec_ctx);
close_input:
avformat_close_input(&ctx);
free_ctx:
avformat_free_context(ctx);
return result;
}
#if !SDL_VERSION_ATLEAST(2, 0, 10)
// SDL_PixelFormatEnum has been introduced in SDL 2.0.10. Use int for older SDL
// versions.
typedef int SDL_PixelFormatEnum;
#endif
static SDL_PixelFormatEnum
to_sdl_pixel_format(enum AVPixelFormat fmt) {
switch (fmt) {
case AV_PIX_FMT_RGB24: return SDL_PIXELFORMAT_RGB24;
case AV_PIX_FMT_BGR24: return SDL_PIXELFORMAT_BGR24;
case AV_PIX_FMT_ARGB: return SDL_PIXELFORMAT_ARGB32;
case AV_PIX_FMT_RGBA: return SDL_PIXELFORMAT_RGBA32;
case AV_PIX_FMT_ABGR: return SDL_PIXELFORMAT_ABGR32;
case AV_PIX_FMT_BGRA: return SDL_PIXELFORMAT_BGRA32;
case AV_PIX_FMT_RGB565BE: return SDL_PIXELFORMAT_RGB565;
case AV_PIX_FMT_RGB555BE: return SDL_PIXELFORMAT_RGB555;
case AV_PIX_FMT_BGR565BE: return SDL_PIXELFORMAT_BGR565;
case AV_PIX_FMT_BGR555BE: return SDL_PIXELFORMAT_BGR555;
case AV_PIX_FMT_RGB444BE: return SDL_PIXELFORMAT_RGB444;
#if SDL_VERSION_ATLEAST(2, 0, 12)
case AV_PIX_FMT_BGR444BE: return SDL_PIXELFORMAT_BGR444;
#endif
case AV_PIX_FMT_PAL8: return SDL_PIXELFORMAT_INDEX8;
default: return SDL_PIXELFORMAT_UNKNOWN;
}
}
static SDL_Surface *
load_from_path(const char *path) {
AVFrame *frame = decode_image(path);
if (!frame) {
return NULL;
}
const AVPixFmtDescriptor *desc = av_pix_fmt_desc_get(frame->format);
if (!desc) {
LOGE("Could not get icon format descriptor");
goto error;
}
bool is_packed = !(desc->flags & AV_PIX_FMT_FLAG_PLANAR);
if (!is_packed) {
LOGE("Could not load non-packed icon");
goto error;
}
SDL_PixelFormatEnum format = to_sdl_pixel_format(frame->format);
if (format == SDL_PIXELFORMAT_UNKNOWN) {
LOGE("Unsupported icon pixel format: %s (%d)", desc->name,
frame->format);
goto error;
}
int bits_per_pixel = av_get_bits_per_pixel(desc);
SDL_Surface *surface =
SDL_CreateRGBSurfaceWithFormatFrom(frame->data[0],
frame->width, frame->height,
bits_per_pixel,
frame->linesize[0],
format);
if (!surface) {
LOGE("Could not create icon surface");
goto error;
}
if (frame->format == AV_PIX_FMT_PAL8) {
// Initialize the SDL palette
uint8_t *data = frame->data[1];
SDL_Color colors[256];
for (int i = 0; i < 256; ++i) {
SDL_Color *color = &colors[i];
// The palette is transported in AVFrame.data[1], is 1024 bytes
// long (256 4-byte entries) and is formatted the same as in
// AV_PIX_FMT_RGB32 described above (i.e., it is also
// endian-specific).
// <https://ffmpeg.org/doxygen/4.1/pixfmt_8h.html#a9a8e335cf3be472042bc9f0cf80cd4c5>
#if SDL_BYTEORDER == SDL_BIG_ENDIAN
color->a = data[i * 4];
color->r = data[i * 4 + 1];
color->g = data[i * 4 + 2];
color->b = data[i * 4 + 3];
#else
color->a = data[i * 4 + 3];
color->r = data[i * 4 + 2];
color->g = data[i * 4 + 1];
color->b = data[i * 4];
#endif
}
SDL_Palette *palette = surface->format->palette;
assert(palette);
int ret = SDL_SetPaletteColors(palette, colors, 0, 256);
if (ret) {
LOGE("Could not set palette colors");
SDL_FreeSurface(surface);
goto error;
}
}
surface->userdata = frame; // frame owns the data
return surface;
error:
av_frame_free(&frame);
return NULL;
}
SDL_Surface *
scrcpy_icon_load() {
char *icon_path = get_icon_path();
if (!icon_path) {
return NULL;
}
SDL_Surface *icon = load_from_path(icon_path);
free(icon_path);
return icon;
}
void
scrcpy_icon_destroy(SDL_Surface *icon) {
AVFrame *frame = icon->userdata;
assert(frame);
av_frame_free(&frame);
SDL_FreeSurface(icon);
}

16
app/src/icon.h
View File

@ -1,16 +0,0 @@
#ifndef SC_ICON_H
#define SC_ICON_H
#include "common.h"
#include <stdbool.h>
#include <SDL2/SDL.h>
#include <libavformat/avformat.h>
SDL_Surface *
scrcpy_icon_load(void);
void
scrcpy_icon_destroy(SDL_Surface *icon);
#endif

53
app/src/icon.xpm Normal file
View File

@ -0,0 +1,53 @@
/* XPM */
static char * icon_xpm[] = {
"48 48 2 1",
" c None",
". c #96C13E",
" .. .. ",
" ... ... ",
" ... ...... ... ",
" ................ ",
" .............. ",
" ................ ",
" .................. ",
" .................... ",
" ..... ........ ..... ",
" ..... ........ ..... ",
" ...................... ",
" ........................ ",
" ........................ ",
" ........................ ",
" ",
" ",
" .... ........................ .... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" ...... ........................ ...... ",
" .... ........................ .... ",
" ........................ ",
" ...................... ",
" ...... ...... ",
" ...... ...... ",
" ...... ...... ",
" ...... ...... ",
" ...... ...... ",
" ...... ...... ",
" ...... ...... ",
" ...... ...... ",
" ...... ...... ",
" .... .... "};

454
app/src/input_events.h
View File

@ -1,454 +0,0 @@
#ifndef SC_INPUT_EVENTS_H
#define SC_INPUT_EVENTS_H
#include "common.h"
#include <assert.h>
#include <stdbool.h>
#include <stdint.h>
#include <SDL2/SDL_events.h>
#include "coords.h"
/* The representation of input events in scrcpy is very close to the SDL API,
* for simplicity.
*
* This scrcpy input events API is designed to be consumed by input event
* processors (sc_key_processor and sc_mouse_processor, see app/src/trait/).
*
* One major semantic difference between SDL input events and scrcpy input
* events is their frame of reference (for mouse and touch events): SDL events
* coordinates are expressed in SDL window coordinates (the visible UI), while
* scrcpy events are expressed in device frame coordinates.
*
* In particular, the window may be visually scaled or rotated (with --rotation
* or MOD+Left/Right), but this does not impact scrcpy input events (contrary
* to SDL input events). This allows to abstract these display details from the
* input event processors (and to make them independent from the "screen").
*
* For many enums below, the values are purposely the same as the SDL
* constants (though not all SDL values are represented), so that the
* implementation to convert from the SDL version to the scrcpy version is
* straightforward.
*
* In practice, there are 3 levels of input events:
* 1. SDL input events (as received from SDL)
* 2. scrcpy input events (this API)
* 3. the key/mouse processors input events (Android API or HID events)
*
* An input event is first received (1), then (if accepted) converted to an
* scrcpy input event (2), then submitted to the relevant key/mouse processor,
* which (if accepted) is converted to an Android event (to be sent to the
* server) or to an HID event (to be sent over USB/AOA directly).
*/
enum sc_mod {
SC_MOD_LSHIFT = KMOD_LSHIFT,
SC_MOD_RSHIFT = KMOD_RSHIFT,
SC_MOD_LCTRL = KMOD_LCTRL,
SC_MOD_RCTRL = KMOD_RCTRL,
SC_MOD_LALT = KMOD_LALT,
SC_MOD_RALT = KMOD_RALT,
SC_MOD_LGUI = KMOD_LGUI,
SC_MOD_RGUI = KMOD_RGUI,
SC_MOD_NUM = KMOD_NUM,
SC_MOD_CAPS = KMOD_CAPS,
};
enum sc_action {
SC_ACTION_DOWN, // key or button pressed
SC_ACTION_UP, // key or button released
};
enum sc_keycode {
SC_KEYCODE_UNKNOWN = SDLK_UNKNOWN,
SC_KEYCODE_RETURN = SDLK_RETURN,
SC_KEYCODE_ESCAPE = SDLK_ESCAPE,
SC_KEYCODE_BACKSPACE = SDLK_BACKSPACE,
SC_KEYCODE_TAB = SDLK_TAB,
SC_KEYCODE_SPACE = SDLK_SPACE,
SC_KEYCODE_EXCLAIM = SDLK_EXCLAIM,
SC_KEYCODE_QUOTEDBL = SDLK_QUOTEDBL,
SC_KEYCODE_HASH = SDLK_HASH,
SC_KEYCODE_PERCENT = SDLK_PERCENT,
SC_KEYCODE_DOLLAR = SDLK_DOLLAR,
SC_KEYCODE_AMPERSAND = SDLK_AMPERSAND,
SC_KEYCODE_QUOTE = SDLK_QUOTE,
SC_KEYCODE_LEFTPAREN = SDLK_LEFTPAREN,
SC_KEYCODE_RIGHTPAREN = SDLK_RIGHTPAREN,
SC_KEYCODE_ASTERISK = SDLK_ASTERISK,
SC_KEYCODE_PLUS = SDLK_PLUS,
SC_KEYCODE_COMMA = SDLK_COMMA,
SC_KEYCODE_MINUS = SDLK_MINUS,
SC_KEYCODE_PERIOD = SDLK_PERIOD,
SC_KEYCODE_SLASH = SDLK_SLASH,
SC_KEYCODE_0 = SDLK_0,
SC_KEYCODE_1 = SDLK_1,
SC_KEYCODE_2 = SDLK_2,
SC_KEYCODE_3 = SDLK_3,
SC_KEYCODE_4 = SDLK_4,
SC_KEYCODE_5 = SDLK_5,
SC_KEYCODE_6 = SDLK_6,
SC_KEYCODE_7 = SDLK_7,
SC_KEYCODE_8 = SDLK_8,
SC_KEYCODE_9 = SDLK_9,
SC_KEYCODE_COLON = SDLK_COLON,
SC_KEYCODE_SEMICOLON = SDLK_SEMICOLON,
SC_KEYCODE_LESS = SDLK_LESS,
SC_KEYCODE_EQUALS = SDLK_EQUALS,
SC_KEYCODE_GREATER = SDLK_GREATER,
SC_KEYCODE_QUESTION = SDLK_QUESTION,
SC_KEYCODE_AT = SDLK_AT,
SC_KEYCODE_LEFTBRACKET = SDLK_LEFTBRACKET,
SC_KEYCODE_BACKSLASH = SDLK_BACKSLASH,
SC_KEYCODE_RIGHTBRACKET = SDLK_RIGHTBRACKET,
SC_KEYCODE_CARET = SDLK_CARET,
SC_KEYCODE_UNDERSCORE = SDLK_UNDERSCORE,
SC_KEYCODE_BACKQUOTE = SDLK_BACKQUOTE,
SC_KEYCODE_a = SDLK_a,
SC_KEYCODE_b = SDLK_b,
SC_KEYCODE_c = SDLK_c,
SC_KEYCODE_d = SDLK_d,
SC_KEYCODE_e = SDLK_e,
SC_KEYCODE_f = SDLK_f,
SC_KEYCODE_g = SDLK_g,
SC_KEYCODE_h = SDLK_h,
SC_KEYCODE_i = SDLK_i,
SC_KEYCODE_j = SDLK_j,
SC_KEYCODE_k = SDLK_k,
SC_KEYCODE_l = SDLK_l,
SC_KEYCODE_m = SDLK_m,
SC_KEYCODE_n = SDLK_n,
SC_KEYCODE_o = SDLK_o,
SC_KEYCODE_p = SDLK_p,
SC_KEYCODE_q = SDLK_q,
SC_KEYCODE_r = SDLK_r,
SC_KEYCODE_s = SDLK_s,
SC_KEYCODE_t = SDLK_t,
SC_KEYCODE_u = SDLK_u,
SC_KEYCODE_v = SDLK_v,
SC_KEYCODE_w = SDLK_w,
SC_KEYCODE_x = SDLK_x,
SC_KEYCODE_y = SDLK_y,
SC_KEYCODE_z = SDLK_z,
SC_KEYCODE_CAPSLOCK = SDLK_CAPSLOCK,
SC_KEYCODE_F1 = SDLK_F1,
SC_KEYCODE_F2 = SDLK_F2,
SC_KEYCODE_F3 = SDLK_F3,
SC_KEYCODE_F4 = SDLK_F4,
SC_KEYCODE_F5 = SDLK_F5,
SC_KEYCODE_F6 = SDLK_F6,
SC_KEYCODE_F7 = SDLK_F7,
SC_KEYCODE_F8 = SDLK_F8,
SC_KEYCODE_F9 = SDLK_F9,
SC_KEYCODE_F10 = SDLK_F10,
SC_KEYCODE_F11 = SDLK_F11,
SC_KEYCODE_F12 = SDLK_F12,
SC_KEYCODE_PRINTSCREEN = SDLK_PRINTSCREEN,
SC_KEYCODE_SCROLLLOCK = SDLK_SCROLLLOCK,
SC_KEYCODE_PAUSE = SDLK_PAUSE,
SC_KEYCODE_INSERT = SDLK_INSERT,
SC_KEYCODE_HOME = SDLK_HOME,
SC_KEYCODE_PAGEUP = SDLK_PAGEUP,
SC_KEYCODE_DELETE = SDLK_DELETE,
SC_KEYCODE_END = SDLK_END,
SC_KEYCODE_PAGEDOWN = SDLK_PAGEDOWN,
SC_KEYCODE_RIGHT = SDLK_RIGHT,
SC_KEYCODE_LEFT = SDLK_LEFT,
SC_KEYCODE_DOWN = SDLK_DOWN,
SC_KEYCODE_UP = SDLK_UP,
SC_KEYCODE_KP_DIVIDE = SDLK_KP_DIVIDE,
SC_KEYCODE_KP_MULTIPLY = SDLK_KP_MULTIPLY,
SC_KEYCODE_KP_MINUS = SDLK_KP_MINUS,
SC_KEYCODE_KP_PLUS = SDLK_KP_PLUS,
SC_KEYCODE_KP_ENTER = SDLK_KP_ENTER,
SC_KEYCODE_KP_1 = SDLK_KP_1,
SC_KEYCODE_KP_2 = SDLK_KP_2,
SC_KEYCODE_KP_3 = SDLK_KP_3,
SC_KEYCODE_KP_4 = SDLK_KP_4,
SC_KEYCODE_KP_5 = SDLK_KP_5,
SC_KEYCODE_KP_6 = SDLK_KP_6,
SC_KEYCODE_KP_7 = SDLK_KP_7,
SC_KEYCODE_KP_8 = SDLK_KP_8,
SC_KEYCODE_KP_9 = SDLK_KP_9,
SC_KEYCODE_KP_0 = SDLK_KP_0,
SC_KEYCODE_KP_PERIOD = SDLK_KP_PERIOD,
SC_KEYCODE_KP_EQUALS = SDLK_KP_EQUALS,
SC_KEYCODE_KP_LEFTPAREN = SDLK_KP_LEFTPAREN,
SC_KEYCODE_KP_RIGHTPAREN = SDLK_KP_RIGHTPAREN,
SC_KEYCODE_LCTRL = SDLK_LCTRL,
SC_KEYCODE_LSHIFT = SDLK_LSHIFT,
SC_KEYCODE_LALT = SDLK_LALT,
SC_KEYCODE_LGUI = SDLK_LGUI,
SC_KEYCODE_RCTRL = SDLK_RCTRL,
SC_KEYCODE_RSHIFT = SDLK_RSHIFT,
SC_KEYCODE_RALT = SDLK_RALT,
SC_KEYCODE_RGUI = SDLK_RGUI,
};
enum sc_scancode {
SC_SCANCODE_UNKNOWN = SDL_SCANCODE_UNKNOWN,
SC_SCANCODE_A = SDL_SCANCODE_A,
SC_SCANCODE_B = SDL_SCANCODE_B,
SC_SCANCODE_C = SDL_SCANCODE_C,
SC_SCANCODE_D = SDL_SCANCODE_D,
SC_SCANCODE_E = SDL_SCANCODE_E,
SC_SCANCODE_F = SDL_SCANCODE_F,
SC_SCANCODE_G = SDL_SCANCODE_G,
SC_SCANCODE_H = SDL_SCANCODE_H,
SC_SCANCODE_I = SDL_SCANCODE_I,
SC_SCANCODE_J = SDL_SCANCODE_J,
SC_SCANCODE_K = SDL_SCANCODE_K,
SC_SCANCODE_L = SDL_SCANCODE_L,
SC_SCANCODE_M = SDL_SCANCODE_M,
SC_SCANCODE_N = SDL_SCANCODE_N,
SC_SCANCODE_O = SDL_SCANCODE_O,
SC_SCANCODE_P = SDL_SCANCODE_P,
SC_SCANCODE_Q = SDL_SCANCODE_Q,
SC_SCANCODE_R = SDL_SCANCODE_R,
SC_SCANCODE_S = SDL_SCANCODE_S,
SC_SCANCODE_T = SDL_SCANCODE_T,
SC_SCANCODE_U = SDL_SCANCODE_U,
SC_SCANCODE_V = SDL_SCANCODE_V,
SC_SCANCODE_W = SDL_SCANCODE_W,
SC_SCANCODE_X = SDL_SCANCODE_X,
SC_SCANCODE_Y = SDL_SCANCODE_Y,
SC_SCANCODE_Z = SDL_SCANCODE_Z,
SC_SCANCODE_1 = SDL_SCANCODE_1,
SC_SCANCODE_2 = SDL_SCANCODE_2,
SC_SCANCODE_3 = SDL_SCANCODE_3,
SC_SCANCODE_4 = SDL_SCANCODE_4,
SC_SCANCODE_5 = SDL_SCANCODE_5,
SC_SCANCODE_6 = SDL_SCANCODE_6,
SC_SCANCODE_7 = SDL_SCANCODE_7,
SC_SCANCODE_8 = SDL_SCANCODE_8,
SC_SCANCODE_9 = SDL_SCANCODE_9,
SC_SCANCODE_0 = SDL_SCANCODE_0,
SC_SCANCODE_RETURN = SDL_SCANCODE_RETURN,
SC_SCANCODE_ESCAPE = SDL_SCANCODE_ESCAPE,
SC_SCANCODE_BACKSPACE = SDL_SCANCODE_BACKSPACE,
SC_SCANCODE_TAB = SDL_SCANCODE_TAB,
SC_SCANCODE_SPACE = SDL_SCANCODE_SPACE,
SC_SCANCODE_MINUS = SDL_SCANCODE_MINUS,
SC_SCANCODE_EQUALS = SDL_SCANCODE_EQUALS,
SC_SCANCODE_LEFTBRACKET = SDL_SCANCODE_LEFTBRACKET,
SC_SCANCODE_RIGHTBRACKET = SDL_SCANCODE_RIGHTBRACKET,
SC_SCANCODE_BACKSLASH = SDL_SCANCODE_BACKSLASH,
SC_SCANCODE_NONUSHASH = SDL_SCANCODE_NONUSHASH,
SC_SCANCODE_SEMICOLON = SDL_SCANCODE_SEMICOLON,
SC_SCANCODE_APOSTROPHE = SDL_SCANCODE_APOSTROPHE,
SC_SCANCODE_GRAVE = SDL_SCANCODE_GRAVE,
SC_SCANCODE_COMMA = SDL_SCANCODE_COMMA,
SC_SCANCODE_PERIOD = SDL_SCANCODE_PERIOD,
SC_SCANCODE_SLASH = SDL_SCANCODE_SLASH,
SC_SCANCODE_CAPSLOCK = SDL_SCANCODE_CAPSLOCK,
SC_SCANCODE_F1 = SDL_SCANCODE_F1,
SC_SCANCODE_F2 = SDL_SCANCODE_F2,
SC_SCANCODE_F3 = SDL_SCANCODE_F3,
SC_SCANCODE_F4 = SDL_SCANCODE_F4,
SC_SCANCODE_F5 = SDL_SCANCODE_F5,
SC_SCANCODE_F6 = SDL_SCANCODE_F6,
SC_SCANCODE_F7 = SDL_SCANCODE_F7,
SC_SCANCODE_F8 = SDL_SCANCODE_F8,
SC_SCANCODE_F9 = SDL_SCANCODE_F9,
SC_SCANCODE_F10 = SDL_SCANCODE_F10,
SC_SCANCODE_F11 = SDL_SCANCODE_F11,
SC_SCANCODE_F12 = SDL_SCANCODE_F12,
SC_SCANCODE_PRINTSCREEN = SDL_SCANCODE_PRINTSCREEN,
SC_SCANCODE_SCROLLLOCK = SDL_SCANCODE_SCROLLLOCK,
SC_SCANCODE_PAUSE = SDL_SCANCODE_PAUSE,
SC_SCANCODE_INSERT = SDL_SCANCODE_INSERT,
SC_SCANCODE_HOME = SDL_SCANCODE_HOME,
SC_SCANCODE_PAGEUP = SDL_SCANCODE_PAGEUP,
SC_SCANCODE_DELETE = SDL_SCANCODE_DELETE,
SC_SCANCODE_END = SDL_SCANCODE_END,
SC_SCANCODE_PAGEDOWN = SDL_SCANCODE_PAGEDOWN,
SC_SCANCODE_RIGHT = SDL_SCANCODE_RIGHT,
SC_SCANCODE_LEFT = SDL_SCANCODE_LEFT,
SC_SCANCODE_DOWN = SDL_SCANCODE_DOWN,
SC_SCANCODE_UP = SDL_SCANCODE_UP,
SC_SCANCODE_NUMLOCK = SDL_SCANCODE_NUMLOCKCLEAR,
SC_SCANCODE_KP_DIVIDE = SDL_SCANCODE_KP_DIVIDE,
SC_SCANCODE_KP_MULTIPLY = SDL_SCANCODE_KP_MULTIPLY,
SC_SCANCODE_KP_MINUS = SDL_SCANCODE_KP_MINUS,
SC_SCANCODE_KP_PLUS = SDL_SCANCODE_KP_PLUS,
SC_SCANCODE_KP_ENTER = SDL_SCANCODE_KP_ENTER,
SC_SCANCODE_KP_1 = SDL_SCANCODE_KP_1,
SC_SCANCODE_KP_2 = SDL_SCANCODE_KP_2,
SC_SCANCODE_KP_3 = SDL_SCANCODE_KP_3,
SC_SCANCODE_KP_4 = SDL_SCANCODE_KP_4,
SC_SCANCODE_KP_5 = SDL_SCANCODE_KP_5,
SC_SCANCODE_KP_6 = SDL_SCANCODE_KP_6,
SC_SCANCODE_KP_7 = SDL_SCANCODE_KP_7,
SC_SCANCODE_KP_8 = SDL_SCANCODE_KP_8,
SC_SCANCODE_KP_9 = SDL_SCANCODE_KP_9,
SC_SCANCODE_KP_0 = SDL_SCANCODE_KP_0,
SC_SCANCODE_KP_PERIOD = SDL_SCANCODE_KP_PERIOD,
SC_SCANCODE_LCTRL = SDL_SCANCODE_LCTRL,
SC_SCANCODE_LSHIFT = SDL_SCANCODE_LSHIFT,
SC_SCANCODE_LALT = SDL_SCANCODE_LALT,
SC_SCANCODE_LGUI = SDL_SCANCODE_LGUI,
SC_SCANCODE_RCTRL = SDL_SCANCODE_RCTRL,
SC_SCANCODE_RSHIFT = SDL_SCANCODE_RSHIFT,
SC_SCANCODE_RALT = SDL_SCANCODE_RALT,
SC_SCANCODE_RGUI = SDL_SCANCODE_RGUI,
};
// On purpose, only use the "mask" values (1, 2, 4, 8, 16) for a single button,
// to avoid unnecessary conversions (and confusion).
enum sc_mouse_button {
SC_MOUSE_BUTTON_UNKNOWN = 0,
SC_MOUSE_BUTTON_LEFT = SDL_BUTTON(SDL_BUTTON_LEFT),
SC_MOUSE_BUTTON_RIGHT = SDL_BUTTON(SDL_BUTTON_RIGHT),
SC_MOUSE_BUTTON_MIDDLE = SDL_BUTTON(SDL_BUTTON_MIDDLE),
SC_MOUSE_BUTTON_X1 = SDL_BUTTON(SDL_BUTTON_X1),
SC_MOUSE_BUTTON_X2 = SDL_BUTTON(SDL_BUTTON_X2),
};
static_assert(sizeof(enum sc_mod) >= sizeof(SDL_Keymod),
"SDL_Keymod must be convertible to sc_mod");
static_assert(sizeof(enum sc_keycode) >= sizeof(SDL_Keycode),
"SDL_Keycode must be convertible to sc_keycode");
static_assert(sizeof(enum sc_scancode) >= sizeof(SDL_Scancode),
"SDL_Scancode must be convertible to sc_scancode");
enum sc_touch_action {
SC_TOUCH_ACTION_MOVE,
SC_TOUCH_ACTION_DOWN,
SC_TOUCH_ACTION_UP,
};
struct sc_key_event {
enum sc_action action;
enum sc_keycode keycode;
enum sc_scancode scancode;
uint16_t mods_state; // bitwise-OR of sc_mod values
bool repeat;
};
struct sc_text_event {
const char *text; // not owned
};
struct sc_mouse_click_event {
struct sc_position position;
enum sc_action action;
enum sc_mouse_button button;
uint64_t pointer_id;
uint8_t buttons_state; // bitwise-OR of sc_mouse_button values
};
struct sc_mouse_scroll_event {
struct sc_position position;
float hscroll;
float vscroll;
uint8_t buttons_state; // bitwise-OR of sc_mouse_button values
};
struct sc_mouse_motion_event {
struct sc_position position;
uint64_t pointer_id;
int32_t xrel;
int32_t yrel;
uint8_t buttons_state; // bitwise-OR of sc_mouse_button values
};
struct sc_touch_event {
struct sc_position position;
enum sc_touch_action action;
uint64_t pointer_id;
float pressure;
};
static inline uint16_t
sc_mods_state_from_sdl(uint16_t mods_state) {
return mods_state;
}
static inline enum sc_keycode
sc_keycode_from_sdl(SDL_Keycode keycode) {
return (enum sc_keycode) keycode;
}
static inline enum sc_scancode
sc_scancode_from_sdl(SDL_Scancode scancode) {
return (enum sc_scancode) scancode;
}
static inline enum sc_action
sc_action_from_sdl_keyboard_type(uint32_t type) {
assert(type == SDL_KEYDOWN || type == SDL_KEYUP);
if (type == SDL_KEYDOWN) {
return SC_ACTION_DOWN;
}
return SC_ACTION_UP;
}
static inline enum sc_action
sc_action_from_sdl_mousebutton_type(uint32_t type) {
assert(type == SDL_MOUSEBUTTONDOWN || type == SDL_MOUSEBUTTONUP);
if (type == SDL_MOUSEBUTTONDOWN) {
return SC_ACTION_DOWN;
}
return SC_ACTION_UP;
}
static inline enum sc_touch_action
sc_touch_action_from_sdl(uint32_t type) {
assert(type == SDL_FINGERMOTION || type == SDL_FINGERDOWN ||
type == SDL_FINGERUP);
if (type == SDL_FINGERMOTION) {
return SC_TOUCH_ACTION_MOVE;
}
if (type == SDL_FINGERDOWN) {
return SC_TOUCH_ACTION_DOWN;
}
return SC_TOUCH_ACTION_UP;
}
static inline enum sc_mouse_button
sc_mouse_button_from_sdl(uint8_t button) {
if (button >= SDL_BUTTON_LEFT && button <= SDL_BUTTON_X2) {
// SC_MOUSE_BUTTON_* constants are initialized from SDL_BUTTON(index)
return SDL_BUTTON(button);
}
return SC_MOUSE_BUTTON_UNKNOWN;
}
static inline uint8_t
sc_mouse_buttons_state_from_sdl(uint32_t buttons_state,
bool forward_all_clicks) {
assert(buttons_state < 0x100); // fits in uint8_t
uint8_t mask = SC_MOUSE_BUTTON_LEFT;
if (forward_all_clicks) {
mask |= SC_MOUSE_BUTTON_RIGHT
| SC_MOUSE_BUTTON_MIDDLE
| SC_MOUSE_BUTTON_X1
| SC_MOUSE_BUTTON_X2;
}
return buttons_state & mask;
}
#endif

1000
app/src/input_manager.c
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86
app/src/input_manager.h
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@ -1,66 +1,46 @@
#ifndef SC_INPUTMANAGER_H
#define SC_INPUTMANAGER_H
#include "common.h"
#ifndef INPUTMANAGER_H
#define INPUTMANAGER_H
#include <stdbool.h>
#include <SDL2/SDL.h>
#include "config.h"
#include "common.h"
#include "controller.h"
#include "file_pusher.h"
#include "fps_counter.h"
#include "options.h"
#include "trait/key_processor.h"
#include "trait/mouse_processor.h"
#include "video_buffer.h"
#include "screen.h"
struct sc_input_manager {
struct sc_controller *controller;
struct sc_file_pusher *fp;
struct sc_screen *screen;
struct sc_key_processor *kp;
struct sc_mouse_processor *mp;
bool forward_all_clicks;
bool legacy_paste;
bool clipboard_autosync;
struct {
unsigned data[SC_MAX_SHORTCUT_MODS];
unsigned count;
} sdl_shortcut_mods;
bool vfinger_down;
// Tracks the number of identical consecutive shortcut key down events.
// Not to be confused with event->repeat, which counts the number of
// system-generated repeated key presses.
unsigned key_repeat;
SDL_Keycode last_keycode;
uint16_t last_mod;
uint64_t next_sequence; // used for request acknowledgements
};
struct sc_input_manager_params {
struct sc_controller *controller;
struct sc_file_pusher *fp;
struct sc_screen *screen;
struct sc_key_processor *kp;
struct sc_mouse_processor *mp;
bool forward_all_clicks;
bool legacy_paste;
bool clipboard_autosync;
const struct sc_shortcut_mods *shortcut_mods;
struct input_manager {
struct controller *controller;
struct video_buffer *video_buffer;
struct screen *screen;
bool prefer_text;
};
void
sc_input_manager_init(struct sc_input_manager *im,
const struct sc_input_manager_params *params);
input_manager_process_text_input(struct input_manager *im,
const SDL_TextInputEvent *event);
void
sc_input_manager_handle_event(struct sc_input_manager *im, SDL_Event *event);
input_manager_process_key(struct input_manager *im,
const SDL_KeyboardEvent *event,
bool control);
void
input_manager_process_mouse_motion(struct input_manager *im,
const SDL_MouseMotionEvent *event);
void
input_manager_process_touch(struct input_manager *im,
const SDL_TouchFingerEvent *event);
void
input_manager_process_mouse_button(struct input_manager *im,
const SDL_MouseButtonEvent *event,
bool control);
void
input_manager_process_mouse_wheel(struct input_manager *im,
const SDL_MouseWheelEvent *event);
#endif

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app/src/keyboard_inject.c
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#include "keyboard_inject.h"
#include <assert.h>
#include "android/input.h"
#include "control_msg.h"
#include "controller.h"
#include "input_events.h"
#include "util/intmap.h"
#include "util/log.h"
/** Downcast key processor to sc_keyboard_inject */
#define DOWNCAST(KP) container_of(KP, struct sc_keyboard_inject, key_processor)
static enum android_keyevent_action
convert_keycode_action(enum sc_action action) {
if (action == SC_ACTION_DOWN) {
return AKEY_EVENT_ACTION_DOWN;
}
assert(action == SC_ACTION_UP);
return AKEY_EVENT_ACTION_UP;
}
static bool
convert_keycode(enum sc_keycode from, enum android_keycode *to, uint16_t mod,
enum sc_key_inject_mode key_inject_mode) {
// Navigation keys and ENTER.
// Used in all modes.
static const struct sc_intmap_entry special_keys[] = {
{SC_KEYCODE_RETURN, AKEYCODE_ENTER},
{SC_KEYCODE_KP_ENTER, AKEYCODE_NUMPAD_ENTER},
{SC_KEYCODE_ESCAPE, AKEYCODE_ESCAPE},
{SC_KEYCODE_BACKSPACE, AKEYCODE_DEL},
{SC_KEYCODE_TAB, AKEYCODE_TAB},
{SC_KEYCODE_PAGEUP, AKEYCODE_PAGE_UP},
{SC_KEYCODE_DELETE, AKEYCODE_FORWARD_DEL},
{SC_KEYCODE_HOME, AKEYCODE_MOVE_HOME},
{SC_KEYCODE_END, AKEYCODE_MOVE_END},
{SC_KEYCODE_PAGEDOWN, AKEYCODE_PAGE_DOWN},
{SC_KEYCODE_RIGHT, AKEYCODE_DPAD_RIGHT},
{SC_KEYCODE_LEFT, AKEYCODE_DPAD_LEFT},
{SC_KEYCODE_DOWN, AKEYCODE_DPAD_DOWN},
{SC_KEYCODE_UP, AKEYCODE_DPAD_UP},
{SC_KEYCODE_LCTRL, AKEYCODE_CTRL_LEFT},
{SC_KEYCODE_RCTRL, AKEYCODE_CTRL_RIGHT},
{SC_KEYCODE_LSHIFT, AKEYCODE_SHIFT_LEFT},
{SC_KEYCODE_RSHIFT, AKEYCODE_SHIFT_RIGHT},
};
// Numpad navigation keys.
// Used in all modes, when NumLock and Shift are disabled.
static const struct sc_intmap_entry kp_nav_keys[] = {
{SC_KEYCODE_KP_0, AKEYCODE_INSERT},
{SC_KEYCODE_KP_1, AKEYCODE_MOVE_END},
{SC_KEYCODE_KP_2, AKEYCODE_DPAD_DOWN},
{SC_KEYCODE_KP_3, AKEYCODE_PAGE_DOWN},
{SC_KEYCODE_KP_4, AKEYCODE_DPAD_LEFT},
{SC_KEYCODE_KP_6, AKEYCODE_DPAD_RIGHT},
{SC_KEYCODE_KP_7, AKEYCODE_MOVE_HOME},
{SC_KEYCODE_KP_8, AKEYCODE_DPAD_UP},
{SC_KEYCODE_KP_9, AKEYCODE_PAGE_UP},
{SC_KEYCODE_KP_PERIOD, AKEYCODE_FORWARD_DEL},
};
// Letters and space.
// Used in non-text mode.
static const struct sc_intmap_entry alphaspace_keys[] = {
{SC_KEYCODE_a, AKEYCODE_A},
{SC_KEYCODE_b, AKEYCODE_B},
{SC_KEYCODE_c, AKEYCODE_C},
{SC_KEYCODE_d, AKEYCODE_D},
{SC_KEYCODE_e, AKEYCODE_E},
{SC_KEYCODE_f, AKEYCODE_F},
{SC_KEYCODE_g, AKEYCODE_G},
{SC_KEYCODE_h, AKEYCODE_H},
{SC_KEYCODE_i, AKEYCODE_I},
{SC_KEYCODE_j, AKEYCODE_J},
{SC_KEYCODE_k, AKEYCODE_K},
{SC_KEYCODE_l, AKEYCODE_L},
{SC_KEYCODE_m, AKEYCODE_M},
{SC_KEYCODE_n, AKEYCODE_N},
{SC_KEYCODE_o, AKEYCODE_O},
{SC_KEYCODE_p, AKEYCODE_P},
{SC_KEYCODE_q, AKEYCODE_Q},
{SC_KEYCODE_r, AKEYCODE_R},
{SC_KEYCODE_s, AKEYCODE_S},
{SC_KEYCODE_t, AKEYCODE_T},
{SC_KEYCODE_u, AKEYCODE_U},
{SC_KEYCODE_v, AKEYCODE_V},
{SC_KEYCODE_w, AKEYCODE_W},
{SC_KEYCODE_x, AKEYCODE_X},
{SC_KEYCODE_y, AKEYCODE_Y},
{SC_KEYCODE_z, AKEYCODE_Z},
{SC_KEYCODE_SPACE, AKEYCODE_SPACE},
};
// Numbers and punctuation keys.
// Used in raw mode only.
static const struct sc_intmap_entry numbers_punct_keys[] = {
{SC_KEYCODE_HASH, AKEYCODE_POUND},
{SC_KEYCODE_PERCENT, AKEYCODE_PERIOD},
{SC_KEYCODE_QUOTE, AKEYCODE_APOSTROPHE},
{SC_KEYCODE_ASTERISK, AKEYCODE_STAR},
{SC_KEYCODE_PLUS, AKEYCODE_PLUS},
{SC_KEYCODE_COMMA, AKEYCODE_COMMA},
{SC_KEYCODE_MINUS, AKEYCODE_MINUS},
{SC_KEYCODE_PERIOD, AKEYCODE_PERIOD},
{SC_KEYCODE_SLASH, AKEYCODE_SLASH},
{SC_KEYCODE_0, AKEYCODE_0},
{SC_KEYCODE_1, AKEYCODE_1},
{SC_KEYCODE_2, AKEYCODE_2},
{SC_KEYCODE_3, AKEYCODE_3},
{SC_KEYCODE_4, AKEYCODE_4},
{SC_KEYCODE_5, AKEYCODE_5},
{SC_KEYCODE_6, AKEYCODE_6},
{SC_KEYCODE_7, AKEYCODE_7},
{SC_KEYCODE_8, AKEYCODE_8},
{SC_KEYCODE_9, AKEYCODE_9},
{SC_KEYCODE_SEMICOLON, AKEYCODE_SEMICOLON},
{SC_KEYCODE_EQUALS, AKEYCODE_EQUALS},
{SC_KEYCODE_AT, AKEYCODE_AT},
{SC_KEYCODE_LEFTBRACKET, AKEYCODE_LEFT_BRACKET},
{SC_KEYCODE_BACKSLASH, AKEYCODE_BACKSLASH},
{SC_KEYCODE_RIGHTBRACKET, AKEYCODE_RIGHT_BRACKET},
{SC_KEYCODE_BACKQUOTE, AKEYCODE_GRAVE},
{SC_KEYCODE_KP_1, AKEYCODE_NUMPAD_1},
{SC_KEYCODE_KP_2, AKEYCODE_NUMPAD_2},
{SC_KEYCODE_KP_3, AKEYCODE_NUMPAD_3},
{SC_KEYCODE_KP_4, AKEYCODE_NUMPAD_4},
{SC_KEYCODE_KP_5, AKEYCODE_NUMPAD_5},
{SC_KEYCODE_KP_6, AKEYCODE_NUMPAD_6},
{SC_KEYCODE_KP_7, AKEYCODE_NUMPAD_7},
{SC_KEYCODE_KP_8, AKEYCODE_NUMPAD_8},
{SC_KEYCODE_KP_9, AKEYCODE_NUMPAD_9},
{SC_KEYCODE_KP_0, AKEYCODE_NUMPAD_0},
{SC_KEYCODE_KP_DIVIDE, AKEYCODE_NUMPAD_DIVIDE},
{SC_KEYCODE_KP_MULTIPLY, AKEYCODE_NUMPAD_MULTIPLY},
{SC_KEYCODE_KP_MINUS, AKEYCODE_NUMPAD_SUBTRACT},
{SC_KEYCODE_KP_PLUS, AKEYCODE_NUMPAD_ADD},
{SC_KEYCODE_KP_PERIOD, AKEYCODE_NUMPAD_DOT},
{SC_KEYCODE_KP_EQUALS, AKEYCODE_NUMPAD_EQUALS},
{SC_KEYCODE_KP_LEFTPAREN, AKEYCODE_NUMPAD_LEFT_PAREN},
{SC_KEYCODE_KP_RIGHTPAREN, AKEYCODE_NUMPAD_RIGHT_PAREN},
};
const struct sc_intmap_entry *entry =
SC_INTMAP_FIND_ENTRY(special_keys, from);
if (entry) {
*to = entry->value;
return true;
}
if (!(mod & (SC_MOD_NUM | SC_MOD_LSHIFT | SC_MOD_RSHIFT))) {
// Handle Numpad events when Num Lock is disabled
// If SHIFT is pressed, a text event will be sent instead
entry = SC_INTMAP_FIND_ENTRY(kp_nav_keys, from);
if (entry) {
*to = entry->value;
return true;
}
}
if (key_inject_mode == SC_KEY_INJECT_MODE_TEXT &&
!(mod & (SC_MOD_LCTRL | SC_MOD_RCTRL))) {
// do not forward alpha and space key events (unless Ctrl is pressed)
return false;
}
if (mod & (SC_MOD_LALT | SC_MOD_RALT | SC_MOD_LGUI | SC_MOD_RGUI)) {
return false;
}
// if ALT and META are not pressed, also handle letters and space
entry = SC_INTMAP_FIND_ENTRY(alphaspace_keys, from);
if (entry) {
*to = entry->value;
return true;
}
if (key_inject_mode == SC_KEY_INJECT_MODE_RAW) {
entry = SC_INTMAP_FIND_ENTRY(numbers_punct_keys, from);
if (entry) {
*to = entry->value;
return true;
}
}
return false;
}
static enum android_metastate
autocomplete_metastate(enum android_metastate metastate) {
// fill dependent flags
if (metastate & (AMETA_SHIFT_LEFT_ON | AMETA_SHIFT_RIGHT_ON)) {
metastate |= AMETA_SHIFT_ON;
}
if (metastate & (AMETA_CTRL_LEFT_ON | AMETA_CTRL_RIGHT_ON)) {
metastate |= AMETA_CTRL_ON;
}
if (metastate & (AMETA_ALT_LEFT_ON | AMETA_ALT_RIGHT_ON)) {
metastate |= AMETA_ALT_ON;
}
if (metastate & (AMETA_META_LEFT_ON | AMETA_META_RIGHT_ON)) {
metastate |= AMETA_META_ON;
}
return metastate;
}
static enum android_metastate
convert_meta_state(uint16_t mod) {
enum android_metastate metastate = 0;
if (mod & SC_MOD_LSHIFT) {
metastate |= AMETA_SHIFT_LEFT_ON;
}
if (mod & SC_MOD_RSHIFT) {
metastate |= AMETA_SHIFT_RIGHT_ON;
}
if (mod & SC_MOD_LCTRL) {
metastate |= AMETA_CTRL_LEFT_ON;
}
if (mod & SC_MOD_RCTRL) {
metastate |= AMETA_CTRL_RIGHT_ON;
}
if (mod & SC_MOD_LALT) {
metastate |= AMETA_ALT_LEFT_ON;
}
if (mod & SC_MOD_RALT) {
metastate |= AMETA_ALT_RIGHT_ON;
}
if (mod & SC_MOD_LGUI) { // Windows key
metastate |= AMETA_META_LEFT_ON;
}
if (mod & SC_MOD_RGUI) { // Windows key
metastate |= AMETA_META_RIGHT_ON;
}
if (mod & SC_MOD_NUM) {
metastate |= AMETA_NUM_LOCK_ON;
}
if (mod & SC_MOD_CAPS) {
metastate |= AMETA_CAPS_LOCK_ON;
}
// fill the dependent fields
return autocomplete_metastate(metastate);
}
static bool
convert_input_key(const struct sc_key_event *event, struct sc_control_msg *msg,
enum sc_key_inject_mode key_inject_mode, uint32_t repeat) {
msg->type = SC_CONTROL_MSG_TYPE_INJECT_KEYCODE;
if (!convert_keycode(event->keycode, &msg->inject_keycode.keycode,
event->mods_state, key_inject_mode)) {
return false;
}
msg->inject_keycode.action = convert_keycode_action(event->action);
msg->inject_keycode.repeat = repeat;
msg->inject_keycode.metastate = convert_meta_state(event->mods_state);
return true;
}
static void
sc_key_processor_process_key(struct sc_key_processor *kp,
const struct sc_key_event *event,
uint64_t ack_to_wait) {
// The device clipboard synchronization and the key event messages are
// serialized, there is nothing special to do to ensure that the clipboard
// is set before injecting Ctrl+v.
(void) ack_to_wait;
struct sc_keyboard_inject *ki = DOWNCAST(kp);
if (event->repeat) {
if (!ki->forward_key_repeat) {
return;
}
++ki->repeat;
} else {
ki->repeat = 0;
}
struct sc_control_msg msg;
if (convert_input_key(event, &msg, ki->key_inject_mode, ki->repeat)) {
if (!sc_controller_push_msg(ki->controller, &msg)) {
LOGW("Could not request 'inject keycode'");
}
}
}
static void
sc_key_processor_process_text(struct sc_key_processor *kp,
const struct sc_text_event *event) {
struct sc_keyboard_inject *ki = DOWNCAST(kp);
if (ki->key_inject_mode == SC_KEY_INJECT_MODE_RAW) {
// Never inject text events
return;
}
if (ki->key_inject_mode == SC_KEY_INJECT_MODE_MIXED) {
char c = event->text[0];
if (isalpha(c) || c == ' ') {
assert(event->text[1] == '\0');
// Letters and space are handled as raw key events
return;
}
}
struct sc_control_msg msg;
msg.type = SC_CONTROL_MSG_TYPE_INJECT_TEXT;
msg.inject_text.text = strdup(event->text);
if (!msg.inject_text.text) {
LOGW("Could not strdup input text");
return;
}
if (!sc_controller_push_msg(ki->controller, &msg)) {
free(msg.inject_text.text);
LOGW("Could not request 'inject text'");
}
}
void
sc_keyboard_inject_init(struct sc_keyboard_inject *ki,
struct sc_controller *controller,
enum sc_key_inject_mode key_inject_mode,
bool forward_key_repeat) {
ki->controller = controller;
ki->key_inject_mode = key_inject_mode;
ki->forward_key_repeat = forward_key_repeat;
ki->repeat = 0;
static const struct sc_key_processor_ops ops = {
.process_key = sc_key_processor_process_key,
.process_text = sc_key_processor_process_text,
};
// Key injection and clipboard synchronization are serialized
ki->key_processor.async_paste = false;
ki->key_processor.ops = &ops;
}

31
app/src/keyboard_inject.h
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@ -1,31 +0,0 @@
#ifndef SC_KEYBOARD_INJECT_H
#define SC_KEYBOARD_INJECT_H
#include "common.h"
#include <stdbool.h>
#include "controller.h"
#include "options.h"
#include "trait/key_processor.h"
struct sc_keyboard_inject {
struct sc_key_processor key_processor; // key processor trait
struct sc_controller *controller;
// SDL reports repeated events as a boolean, but Android expects the actual
// number of repetitions. This variable keeps track of the count.
unsigned repeat;
enum sc_key_inject_mode key_inject_mode;
bool forward_key_repeat;
};
void
sc_keyboard_inject_init(struct sc_keyboard_inject *ki,
struct sc_controller *controller,
enum sc_key_inject_mode key_inject_mode,
bool forward_key_repeat);
#endif

137
app/src/main.c
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@ -1,137 +1,86 @@
#include "common.h"
#include "scrcpy.h"
#include <assert.h>
#include <stdbool.h>
#include <unistd.h>
#include <libavformat/avformat.h>
#ifdef HAVE_V4L2
# include <libavdevice/avdevice.h>
#endif
#define SDL_MAIN_HANDLED // avoid link error on Linux Windows Subsystem
#include <SDL2/SDL.h>
#include "config.h"
#include "cli.h"
#include "options.h"
#include "scrcpy.h"
#include "usb/scrcpy_otg.h"
#include "compat.h"
#include "util/log.h"
#include "util/net.h"
#include "version.h"
#ifdef _WIN32
#include <windows.h>
#include "util/str.h"
#endif
static void
print_version(void) {
fprintf(stderr, "scrcpy %s\n\n", SCRCPY_VERSION);
fprintf(stderr, "dependencies:\n");
fprintf(stderr, " - SDL %d.%d.%d\n", SDL_MAJOR_VERSION, SDL_MINOR_VERSION,
SDL_PATCHLEVEL);
fprintf(stderr, " - libavcodec %d.%d.%d\n", LIBAVCODEC_VERSION_MAJOR,
LIBAVCODEC_VERSION_MINOR,
LIBAVCODEC_VERSION_MICRO);
fprintf(stderr, " - libavformat %d.%d.%d\n", LIBAVFORMAT_VERSION_MAJOR,
LIBAVFORMAT_VERSION_MINOR,
LIBAVFORMAT_VERSION_MICRO);
fprintf(stderr, " - libavutil %d.%d.%d\n", LIBAVUTIL_VERSION_MAJOR,
LIBAVUTIL_VERSION_MINOR,
LIBAVUTIL_VERSION_MICRO);
}
int
main_scrcpy(int argc, char *argv[]) {
#ifdef _WIN32
main(int argc, char *argv[]) {
#ifdef __WINDOWS__
// disable buffering, we want logs immediately
// even line buffering (setvbuf() with mode _IOLBF) is not sufficient
setbuf(stdout, NULL);
setbuf(stderr, NULL);
#endif
printf("scrcpy " SCRCPY_VERSION
" <https://github.com/Genymobile/scrcpy>\n");
#ifndef NDEBUG
SDL_LogSetAllPriority(SDL_LOG_PRIORITY_DEBUG);
#endif
struct scrcpy_cli_args args = {
.opts = scrcpy_options_default,
.opts = SCRCPY_OPTIONS_DEFAULT,
.help = false,
.version = false,
};
#ifndef NDEBUG
args.opts.log_level = SC_LOG_LEVEL_DEBUG;
#endif
if (!scrcpy_parse_args(&args, argc, argv)) {
return SCRCPY_EXIT_FAILURE;
return 1;
}
sc_set_log_level(args.opts.log_level);
if (args.help) {
scrcpy_print_usage(argv[0]);
return SCRCPY_EXIT_SUCCESS;
return 0;
}
if (args.version) {
scrcpy_print_version();
return SCRCPY_EXIT_SUCCESS;
print_version();
return 0;
}
LOGI("scrcpy " SCRCPY_VERSION " <https://github.com/Genymobile/scrcpy>");
#ifdef SCRCPY_LAVF_REQUIRES_REGISTER_ALL
av_register_all();
#endif
#ifdef HAVE_V4L2
if (args.opts.v4l2_device) {
avdevice_register_all();
}
#endif
if (!net_init()) {
return SCRCPY_EXIT_FAILURE;
if (avformat_network_init()) {
return 1;
}
sc_log_configure();
int res = scrcpy(&args.opts) ? 0 : 1;
#ifdef HAVE_USB
enum scrcpy_exit_code ret = args.opts.otg ? scrcpy_otg(&args.opts)
: scrcpy(&args.opts);
#else
enum scrcpy_exit_code ret = scrcpy(&args.opts);
#endif
return ret;
}
int
main(int argc, char *argv[]) {
#ifndef _WIN32
return main_scrcpy(argc, argv);
#else
(void) argc;
(void) argv;
int wargc;
wchar_t **wargv = CommandLineToArgvW(GetCommandLineW(), &wargc);
if (!wargv) {
LOG_OOM();
return SCRCPY_EXIT_FAILURE;
}
char **argv_utf8 = malloc((wargc + 1) * sizeof(*argv_utf8));
if (!argv_utf8) {
LOG_OOM();
LocalFree(wargv);
return SCRCPY_EXIT_FAILURE;
}
argv_utf8[wargc] = NULL;
for (int i = 0; i < wargc; ++i) {
argv_utf8[i] = sc_str_from_wchars(wargv[i]);
if (!argv_utf8[i]) {
LOG_OOM();
for (int j = 0; j < i; ++j) {
free(argv_utf8[j]);
}
LocalFree(wargv);
free(argv_utf8);
return SCRCPY_EXIT_FAILURE;
}
}
LocalFree(wargv);
int ret = main_scrcpy(wargc, argv_utf8);
for (int i = 0; i < wargc; ++i) {
free(argv_utf8[i]);
}
free(argv_utf8);
return ret;
avformat_network_deinit(); // ignore failure
#if defined (__WINDOWS__) && ! defined (WINDOWS_NOCONSOLE)
if (res != 0) {
fprintf(stderr, "Press any key to continue...\n");
getchar();
}
#endif
return res;
}

162
app/src/mouse_inject.c
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@ -1,162 +0,0 @@
#include "mouse_inject.h"
#include <assert.h>
#include "android/input.h"
#include "control_msg.h"
#include "controller.h"
#include "input_events.h"
#include "util/intmap.h"
#include "util/log.h"
/** Downcast mouse processor to sc_mouse_inject */
#define DOWNCAST(MP) container_of(MP, struct sc_mouse_inject, mouse_processor)
static enum android_motionevent_buttons
convert_mouse_buttons(uint32_t state) {
enum android_motionevent_buttons buttons = 0;
if (state & SC_MOUSE_BUTTON_LEFT) {
buttons |= AMOTION_EVENT_BUTTON_PRIMARY;
}
if (state & SC_MOUSE_BUTTON_RIGHT) {
buttons |= AMOTION_EVENT_BUTTON_SECONDARY;
}
if (state & SC_MOUSE_BUTTON_MIDDLE) {
buttons |= AMOTION_EVENT_BUTTON_TERTIARY;
}
if (state & SC_MOUSE_BUTTON_X1) {
buttons |= AMOTION_EVENT_BUTTON_BACK;
}
if (state & SC_MOUSE_BUTTON_X2) {
buttons |= AMOTION_EVENT_BUTTON_FORWARD;
}
return buttons;
}
static enum android_motionevent_action
convert_mouse_action(enum sc_action action) {
if (action == SC_ACTION_DOWN) {
return AMOTION_EVENT_ACTION_DOWN;
}
assert(action == SC_ACTION_UP);
return AMOTION_EVENT_ACTION_UP;
}
static enum android_motionevent_action
convert_touch_action(enum sc_touch_action action) {
switch (action) {
case SC_TOUCH_ACTION_MOVE:
return AMOTION_EVENT_ACTION_MOVE;
case SC_TOUCH_ACTION_DOWN:
return AMOTION_EVENT_ACTION_DOWN;
default:
assert(action == SC_TOUCH_ACTION_UP);
return AMOTION_EVENT_ACTION_UP;
}
}
static void
sc_mouse_processor_process_mouse_motion(struct sc_mouse_processor *mp,
const struct sc_mouse_motion_event *event) {
if (!event->buttons_state) {
// Do not send motion events when no click is pressed
return;
}
struct sc_mouse_inject *mi = DOWNCAST(mp);
struct sc_control_msg msg = {
.type = SC_CONTROL_MSG_TYPE_INJECT_TOUCH_EVENT,
.inject_touch_event = {
.action = AMOTION_EVENT_ACTION_MOVE,
.pointer_id = event->pointer_id,
.position = event->position,
.pressure = 1.f,
.buttons = convert_mouse_buttons(event->buttons_state),
},
};
if (!sc_controller_push_msg(mi->controller, &msg)) {
LOGW("Could not request 'inject mouse motion event'");
}
}
static void
sc_mouse_processor_process_mouse_click(struct sc_mouse_processor *mp,
const struct sc_mouse_click_event *event) {
struct sc_mouse_inject *mi = DOWNCAST(mp);
struct sc_control_msg msg = {
.type = SC_CONTROL_MSG_TYPE_INJECT_TOUCH_EVENT,
.inject_touch_event = {
.action = convert_mouse_action(event->action),
.pointer_id = event->pointer_id,
.position = event->position,
.pressure = event->action == SC_ACTION_DOWN ? 1.f : 0.f,
.action_button = convert_mouse_buttons(event->button),
.buttons = convert_mouse_buttons(event->buttons_state),
},
};
if (!sc_controller_push_msg(mi->controller, &msg)) {
LOGW("Could not request 'inject mouse click event'");
}
}
static void
sc_mouse_processor_process_mouse_scroll(struct sc_mouse_processor *mp,
const struct sc_mouse_scroll_event *event) {
struct sc_mouse_inject *mi = DOWNCAST(mp);
struct sc_control_msg msg = {
.type = SC_CONTROL_MSG_TYPE_INJECT_SCROLL_EVENT,
.inject_scroll_event = {
.position = event->position,
.hscroll = event->hscroll,
.vscroll = event->vscroll,
.buttons = convert_mouse_buttons(event->buttons_state),
},
};
if (!sc_controller_push_msg(mi->controller, &msg)) {
LOGW("Could not request 'inject mouse scroll event'");
}
}
static void
sc_mouse_processor_process_touch(struct sc_mouse_processor *mp,
const struct sc_touch_event *event) {
struct sc_mouse_inject *mi = DOWNCAST(mp);
struct sc_control_msg msg = {
.type = SC_CONTROL_MSG_TYPE_INJECT_TOUCH_EVENT,
.inject_touch_event = {
.action = convert_touch_action(event->action),
.pointer_id = event->pointer_id,
.position = event->position,
.pressure = event->pressure,
.buttons = 0,
},
};
if (!sc_controller_push_msg(mi->controller, &msg)) {
LOGW("Could not request 'inject touch event'");
}
}
void
sc_mouse_inject_init(struct sc_mouse_inject *mi,
struct sc_controller *controller) {
mi->controller = controller;
static const struct sc_mouse_processor_ops ops = {
.process_mouse_motion = sc_mouse_processor_process_mouse_motion,
.process_mouse_click = sc_mouse_processor_process_mouse_click,
.process_mouse_scroll = sc_mouse_processor_process_mouse_scroll,
.process_touch = sc_mouse_processor_process_touch,
};
mi->mouse_processor.ops = &ops;
mi->mouse_processor.relative_mode = false;
}

22
app/src/mouse_inject.h
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@ -1,22 +0,0 @@
#ifndef SC_MOUSE_INJECT_H
#define SC_MOUSE_INJECT_H
#include "common.h"
#include <stdbool.h>
#include "controller.h"
#include "screen.h"
#include "trait/mouse_processor.h"
struct sc_mouse_inject {
struct sc_mouse_processor mouse_processor; // mouse processor trait
struct sc_controller *controller;
};
void
sc_mouse_inject_init(struct sc_mouse_inject *mi,
struct sc_controller *controller);
#endif

2
app/src/opengl.c
View File

@ -28,7 +28,7 @@ sc_opengl_init(struct sc_opengl *gl) {
sizeof(OPENGL_ES_PREFIX) - 1);
if (gl->is_opengles) {
/* skip the prefix */
version += sizeof(OPENGL_ES_PREFIX) - 1;
version += sizeof(PREFIX) - 1;
}
int r = sscanf(version, "%d.%d", &gl->version_major, &gl->version_minor);

4
app/src/opengl.h
View File

@ -1,11 +1,11 @@
#ifndef SC_OPENGL_H
#define SC_OPENGL_H
#include "common.h"
#include <stdbool.h>
#include <SDL2/SDL_opengl.h>
#include "config.h"
struct sc_opengl {
const char *version;
bool is_opengles;

80
app/src/options.c
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@ -1,80 +0,0 @@
#include "options.h"
const struct scrcpy_options scrcpy_options_default = {
.serial = NULL,
.crop = NULL,
.record_filename = NULL,
.window_title = NULL,
.push_target = NULL,
.render_driver = NULL,
.video_codec_options = NULL,
.audio_codec_options = NULL,
.video_encoder = NULL,
.audio_encoder = NULL,
#ifdef HAVE_V4L2
.v4l2_device = NULL,
#endif
.log_level = SC_LOG_LEVEL_INFO,
.video_codec = SC_CODEC_H264,
.audio_codec = SC_CODEC_OPUS,
.record_format = SC_RECORD_FORMAT_AUTO,
.keyboard_input_mode = SC_KEYBOARD_INPUT_MODE_INJECT,
.mouse_input_mode = SC_MOUSE_INPUT_MODE_INJECT,
.port_range = {
.first = DEFAULT_LOCAL_PORT_RANGE_FIRST,
.last = DEFAULT_LOCAL_PORT_RANGE_LAST,
},
.tunnel_host = 0,
.tunnel_port = 0,
.shortcut_mods = {
.data = {SC_SHORTCUT_MOD_LALT, SC_SHORTCUT_MOD_LSUPER},
.count = 2,
},
.max_size = 0,
.video_bit_rate = 0,
.audio_bit_rate = 0,
.max_fps = 0,
.lock_video_orientation = SC_LOCK_VIDEO_ORIENTATION_UNLOCKED,
.rotation = 0,
.window_x = SC_WINDOW_POSITION_UNDEFINED,
.window_y = SC_WINDOW_POSITION_UNDEFINED,
.window_width = 0,
.window_height = 0,
.display_id = 0,
.display_buffer = 0,
.v4l2_buffer = 0,
.audio_buffer = SC_TICK_FROM_MS(50),
.audio_output_buffer = SC_TICK_FROM_MS(5),
#ifdef HAVE_USB
.otg = false,
#endif
.show_touches = false,
.fullscreen = false,
.always_on_top = false,
.control = true,
.display = true,
.turn_screen_off = false,
.key_inject_mode = SC_KEY_INJECT_MODE_MIXED,
.window_borderless = false,
.mipmaps = true,
.stay_awake = false,
.force_adb_forward = false,
.disable_screensaver = false,
.forward_key_repeat = true,
.forward_all_clicks = false,
.legacy_paste = false,
.power_off_on_close = false,
.clipboard_autosync = true,
.downsize_on_error = true,
.tcpip = false,
.tcpip_dst = NULL,
.select_tcpip = false,
.select_usb = false,
.cleanup = true,
.start_fps_counter = false,
.power_on = true,
.audio = true,
.require_audio = false,
.list_encoders = false,
.list_displays = false,
};

167
app/src/options.h
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@ -1,167 +0,0 @@
#ifndef SCRCPY_OPTIONS_H
#define SCRCPY_OPTIONS_H
#include "common.h"
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include "util/tick.h"
enum sc_log_level {
SC_LOG_LEVEL_VERBOSE,
SC_LOG_LEVEL_DEBUG,
SC_LOG_LEVEL_INFO,
SC_LOG_LEVEL_WARN,
SC_LOG_LEVEL_ERROR,
};
enum sc_record_format {
SC_RECORD_FORMAT_AUTO,
SC_RECORD_FORMAT_MP4,
SC_RECORD_FORMAT_MKV,
};
enum sc_codec {
SC_CODEC_H264,
SC_CODEC_H265,
SC_CODEC_AV1,
SC_CODEC_OPUS,
SC_CODEC_AAC,
SC_CODEC_RAW,
};
enum sc_lock_video_orientation {
SC_LOCK_VIDEO_ORIENTATION_UNLOCKED = -1,
// lock the current orientation when scrcpy starts
SC_LOCK_VIDEO_ORIENTATION_INITIAL = -2,
SC_LOCK_VIDEO_ORIENTATION_0 = 0,
SC_LOCK_VIDEO_ORIENTATION_1,
SC_LOCK_VIDEO_ORIENTATION_2,
SC_LOCK_VIDEO_ORIENTATION_3,
};
enum sc_keyboard_input_mode {
SC_KEYBOARD_INPUT_MODE_INJECT,
SC_KEYBOARD_INPUT_MODE_HID,
};
enum sc_mouse_input_mode {
SC_MOUSE_INPUT_MODE_INJECT,
SC_MOUSE_INPUT_MODE_HID,
};
enum sc_key_inject_mode {
// Inject special keys, letters and space as key events.
// Inject numbers and punctuation as text events.
// This is the default mode.
SC_KEY_INJECT_MODE_MIXED,
// Inject special keys as key events.
// Inject letters and space, numbers and punctuation as text events.
SC_KEY_INJECT_MODE_TEXT,
// Inject everything as key events.
SC_KEY_INJECT_MODE_RAW,
};
#define SC_MAX_SHORTCUT_MODS 8
enum sc_shortcut_mod {
SC_SHORTCUT_MOD_LCTRL = 1 << 0,
SC_SHORTCUT_MOD_RCTRL = 1 << 1,
SC_SHORTCUT_MOD_LALT = 1 << 2,
SC_SHORTCUT_MOD_RALT = 1 << 3,
SC_SHORTCUT_MOD_LSUPER = 1 << 4,
SC_SHORTCUT_MOD_RSUPER = 1 << 5,
};
struct sc_shortcut_mods {
unsigned data[SC_MAX_SHORTCUT_MODS];
unsigned count;
};
struct sc_port_range {
uint16_t first;
uint16_t last;
};
#define SC_WINDOW_POSITION_UNDEFINED (-0x8000)
struct scrcpy_options {
const char *serial;
const char *crop;
const char *record_filename;
const char *window_title;
const char *push_target;
const char *render_driver;
const char *video_codec_options;
const char *audio_codec_options;
const char *video_encoder;
const char *audio_encoder;
#ifdef HAVE_V4L2
const char *v4l2_device;
#endif
enum sc_log_level log_level;
enum sc_codec video_codec;
enum sc_codec audio_codec;
enum sc_record_format record_format;
enum sc_keyboard_input_mode keyboard_input_mode;
enum sc_mouse_input_mode mouse_input_mode;
struct sc_port_range port_range;
uint32_t tunnel_host;
uint16_t tunnel_port;
struct sc_shortcut_mods shortcut_mods;
uint16_t max_size;
uint32_t video_bit_rate;
uint32_t audio_bit_rate;
uint16_t max_fps;
enum sc_lock_video_orientation lock_video_orientation;
uint8_t rotation;
int16_t window_x; // SC_WINDOW_POSITION_UNDEFINED for "auto"
int16_t window_y; // SC_WINDOW_POSITION_UNDEFINED for "auto"
uint16_t window_width;
uint16_t window_height;
uint32_t display_id;
sc_tick display_buffer;
sc_tick v4l2_buffer;
sc_tick audio_buffer;
sc_tick audio_output_buffer;
#ifdef HAVE_USB
bool otg;
#endif
bool show_touches;
bool fullscreen;
bool always_on_top;
bool control;
bool display;
bool turn_screen_off;
enum sc_key_inject_mode key_inject_mode;
bool window_borderless;
bool mipmaps;
bool stay_awake;
bool force_adb_forward;
bool disable_screensaver;
bool forward_key_repeat;
bool forward_all_clicks;
bool legacy_paste;
bool power_off_on_close;
bool clipboard_autosync;
bool downsize_on_error;
bool tcpip;
const char *tcpip_dst;
bool select_usb;
bool select_tcpip;
bool cleanup;
bool start_fps_counter;
bool power_on;
bool audio;
bool require_audio;
bool list_encoders;
bool list_displays;
};
extern const struct scrcpy_options scrcpy_options_default;
#endif

48
app/src/packet_merger.c
View File

@ -1,48 +0,0 @@
#include "packet_merger.h"
#include "util/log.h"
void
sc_packet_merger_init(struct sc_packet_merger *merger) {
merger->config = NULL;
}
void
sc_packet_merger_destroy(struct sc_packet_merger *merger) {
free(merger->config);
}
bool
sc_packet_merger_merge(struct sc_packet_merger *merger, AVPacket *packet) {
bool is_config = packet->pts == AV_NOPTS_VALUE;
if (is_config) {
free(merger->config);
merger->config = malloc(packet->size);
if (!merger->config) {
LOG_OOM();
return false;
}
memcpy(merger->config, packet->data, packet->size);
merger->config_size = packet->size;
} else if (merger->config) {
size_t config_size = merger->config_size;
size_t media_size = packet->size;
if (av_grow_packet(packet, config_size)) {
LOG_OOM();
return false;
}
memmove(packet->data + config_size, packet->data, media_size);
memcpy(packet->data, merger->config, config_size);
free(merger->config);
merger->config = NULL;
// merger->size is meaningless when merger->config is NULL
}
return true;
}

43
app/src/packet_merger.h
View File

@ -1,43 +0,0 @@
#ifndef SC_PACKET_MERGER_H
#define SC_PACKET_MERGER_H
#include "common.h"
#include <stdbool.h>
#include <stdint.h>
#include <libavcodec/avcodec.h>
/**
* Config packets (containing the SPS/PPS) are sent in-band. A new config
* packet is sent whenever a new encoding session is started (on start and on
* device orientation change).
*
* Every time a config packet is received, it must be sent alone (for recorder
* extradata), then concatenated to the next media packet (for correct decoding
* and recording).
*
* This helper reads every input packet and modifies each media packet which
* immediately follows a config packet to prepend the config packet payload.
*/
struct sc_packet_merger {
uint8_t *config;
size_t config_size;
};
void
sc_packet_merger_init(struct sc_packet_merger *merger);
void
sc_packet_merger_destroy(struct sc_packet_merger *merger);
/**
* If the packet is a config packet, then keep its data for later.
* Otherwise (if the packet is a media packet), then if a config packet is
* pending, prepend the config packet to this packet (so the packet is
* modified!).
*/
bool
sc_packet_merger_merge(struct sc_packet_merger *merger, AVPacket *packet);
#endif

68
app/src/receiver.c
View File

@ -3,55 +3,37 @@
#include <assert.h>
#include <SDL2/SDL_clipboard.h>
#include "config.h"
#include "device_msg.h"
#include "util/lock.h"
#include "util/log.h"
bool
sc_receiver_init(struct sc_receiver *receiver, sc_socket control_socket,
struct sc_acksync *acksync) {
bool ok = sc_mutex_init(&receiver->mutex);
if (!ok) {
receiver_init(struct receiver *receiver, socket_t control_socket) {
if (!(receiver->mutex = SDL_CreateMutex())) {
return false;
}
receiver->control_socket = control_socket;
receiver->acksync = acksync;
return true;
}
void
sc_receiver_destroy(struct sc_receiver *receiver) {
sc_mutex_destroy(&receiver->mutex);
receiver_destroy(struct receiver *receiver) {
SDL_DestroyMutex(receiver->mutex);
}
static void
process_msg(struct sc_receiver *receiver, struct device_msg *msg) {
process_msg(struct device_msg *msg) {
switch (msg->type) {
case DEVICE_MSG_TYPE_CLIPBOARD: {
char *current = SDL_GetClipboardText();
bool same = current && !strcmp(current, msg->clipboard.text);
SDL_free(current);
if (same) {
LOGD("Computer clipboard unchanged");
return;
}
case DEVICE_MSG_TYPE_CLIPBOARD:
LOGI("Device clipboard copied");
SDL_SetClipboardText(msg->clipboard.text);
break;
}
case DEVICE_MSG_TYPE_ACK_CLIPBOARD:
assert(receiver->acksync);
LOGD("Ack device clipboard sequence=%" PRIu64_,
msg->ack_clipboard.sequence);
sc_acksync_ack(receiver->acksync, msg->ack_clipboard.sequence);
break;
}
}
static ssize_t
process_msgs(struct sc_receiver *receiver, const unsigned char *buf, size_t len) {
process_msgs(const unsigned char *buf, size_t len) {
size_t head = 0;
for (;;) {
struct device_msg msg;
@ -63,7 +45,7 @@ process_msgs(struct sc_receiver *receiver, const unsigned char *buf, size_t len)
return head;
}
process_msg(receiver, &msg);
process_msg(&msg);
device_msg_destroy(&msg);
head += r;
@ -76,31 +58,30 @@ process_msgs(struct sc_receiver *receiver, const unsigned char *buf, size_t len)
static int
run_receiver(void *data) {
struct sc_receiver *receiver = data;
struct receiver *receiver = data;
static unsigned char buf[DEVICE_MSG_MAX_SIZE];
unsigned char buf[DEVICE_MSG_SERIALIZED_MAX_SIZE];
size_t head = 0;
for (;;) {
assert(head < DEVICE_MSG_MAX_SIZE);
ssize_t r = net_recv(receiver->control_socket, buf + head,
DEVICE_MSG_MAX_SIZE - head);
assert(head < DEVICE_MSG_SERIALIZED_MAX_SIZE);
ssize_t r = net_recv(receiver->control_socket, buf,
DEVICE_MSG_SERIALIZED_MAX_SIZE - head);
if (r <= 0) {
LOGD("Receiver stopped");
break;
}
head += r;
ssize_t consumed = process_msgs(receiver, buf, head);
ssize_t consumed = process_msgs(buf, r);
if (consumed == -1) {
// an error occurred
break;
}
if (consumed) {
head -= consumed;
// shift the remaining data in the buffer
memmove(buf, &buf[consumed], head);
memmove(buf, &buf[consumed], r - consumed);
head = r - consumed;
}
}
@ -108,13 +89,12 @@ run_receiver(void *data) {
}
bool
sc_receiver_start(struct sc_receiver *receiver) {
receiver_start(struct receiver *receiver) {
LOGD("Starting receiver thread");
bool ok = sc_thread_create(&receiver->thread, run_receiver,
"scrcpy-receiver", receiver);
if (!ok) {
LOGE("Could not start receiver thread");
receiver->thread = SDL_CreateThread(run_receiver, "receiver", receiver);
if (!receiver->thread) {
LOGC("Could not start receiver thread");
return false;
}
@ -122,6 +102,6 @@ sc_receiver_start(struct sc_receiver *receiver) {
}
void
sc_receiver_join(struct sc_receiver *receiver) {
sc_thread_join(&receiver->thread, NULL);
receiver_join(struct receiver *receiver) {
SDL_WaitThread(receiver->thread, NULL);
}

32
app/src/receiver.h
View File

@ -1,37 +1,33 @@
#ifndef SC_RECEIVER_H
#define SC_RECEIVER_H
#include "common.h"
#ifndef RECEIVER_H
#define RECEIVER_H
#include <stdbool.h>
#include <SDL2/SDL_mutex.h>
#include <SDL2/SDL_thread.h>
#include "util/acksync.h"
#include "config.h"
#include "util/net.h"
#include "util/thread.h"
// receive events from the device
// managed by the controller
struct sc_receiver {
sc_socket control_socket;
sc_thread thread;
sc_mutex mutex;
struct sc_acksync *acksync;
struct receiver {
socket_t control_socket;
SDL_Thread *thread;
SDL_mutex *mutex;
};
bool
sc_receiver_init(struct sc_receiver *receiver, sc_socket control_socket,
struct sc_acksync *acksync);
receiver_init(struct receiver *receiver, socket_t control_socket);
void
sc_receiver_destroy(struct sc_receiver *receiver);
receiver_destroy(struct receiver *receiver);
bool
sc_receiver_start(struct sc_receiver *receiver);
receiver_start(struct receiver *receiver);
// no sc_receiver_stop(), it will automatically stop on control_socket shutdown
// no receiver_stop(), it will automatically stop on control_socket shutdown
void
sc_receiver_join(struct sc_receiver *receiver);
receiver_join(struct receiver *receiver);
#endif

902
app/src/recorder.c
View File

@ -1,18 +1,12 @@
#include "recorder.h"
#include <assert.h>
#include <libavcodec/avcodec.h>
#include <libavformat/avformat.h>
#include <libavutil/time.h>
#include "config.h"
#include "compat.h"
#include "util/lock.h"
#include "util/log.h"
#include "util/str.h"
/** Downcast packet sinks to recorder */
#define DOWNCAST_VIDEO(SINK) \
container_of(SINK, struct sc_recorder, video_packet_sink)
#define DOWNCAST_AUDIO(SINK) \
container_of(SINK, struct sc_recorder, audio_packet_sink)
static const AVRational SCRCPY_TIME_BASE = {1, 1000000}; // timestamps in us
@ -28,88 +22,100 @@ find_muxer(const char *name) {
#else
oformat = av_oformat_next(oformat);
#endif
// until null or containing the requested name
} while (oformat && !sc_str_list_contains(oformat->name, ',', name));
// until null or with name "mp4"
} while (oformat && strcmp(oformat->name, name));
return oformat;
}
static AVPacket *
sc_recorder_packet_ref(const AVPacket *packet) {
AVPacket *p = av_packet_alloc();
if (!p) {
LOG_OOM();
static struct record_packet *
record_packet_new(const AVPacket *packet) {
struct record_packet *rec = SDL_malloc(sizeof(*rec));
if (!rec) {
return NULL;
}
if (av_packet_ref(p, packet)) {
av_packet_free(&p);
// av_packet_ref() does not initialize all fields in old FFmpeg versions
// See <https://github.com/Genymobile/scrcpy/issues/707>
av_init_packet(&rec->packet);
if (av_packet_ref(&rec->packet, packet)) {
SDL_free(rec);
return NULL;
}
return p;
return rec;
}
static void
sc_recorder_queue_clear(struct sc_recorder_queue *queue) {
while (!sc_vecdeque_is_empty(queue)) {
AVPacket *p = sc_vecdeque_pop(queue);
av_packet_free(&p);
record_packet_delete(struct record_packet *rec) {
av_packet_unref(&rec->packet);
SDL_free(rec);
}
static void
recorder_queue_clear(struct recorder_queue *queue) {
while (!queue_is_empty(queue)) {
struct record_packet *rec;
queue_take(queue, next, &rec);
record_packet_delete(rec);
}
}
bool
recorder_init(struct recorder *recorder,
const char *filename,
enum recorder_format format,
struct size declared_frame_size) {
recorder->filename = SDL_strdup(filename);
if (!recorder->filename) {
LOGE("Could not strdup filename");
return false;
}
recorder->mutex = SDL_CreateMutex();
if (!recorder->mutex) {
LOGC("Could not create mutex");
SDL_free(recorder->filename);
return false;
}
recorder->queue_cond = SDL_CreateCond();
if (!recorder->queue_cond) {
LOGC("Could not create cond");
SDL_DestroyMutex(recorder->mutex);
SDL_free(recorder->filename);
return false;
}
queue_init(&recorder->queue);
recorder->stopped = false;
recorder->failed = false;
recorder->format = format;
recorder->declared_frame_size = declared_frame_size;
recorder->header_written = false;
recorder->previous = NULL;
return true;
}
void
recorder_destroy(struct recorder *recorder) {
SDL_DestroyCond(recorder->queue_cond);
SDL_DestroyMutex(recorder->mutex);
SDL_free(recorder->filename);
}
static const char *
sc_recorder_get_format_name(enum sc_record_format format) {
recorder_get_format_name(enum recorder_format format) {
switch (format) {
case SC_RECORD_FORMAT_MP4: return "mp4";
case SC_RECORD_FORMAT_MKV: return "matroska";
case RECORDER_FORMAT_MP4: return "mp4";
case RECORDER_FORMAT_MKV: return "matroska";
default: return NULL;
}
}
static bool
sc_recorder_set_extradata(AVStream *ostream, const AVPacket *packet) {
uint8_t *extradata = av_malloc(packet->size * sizeof(uint8_t));
if (!extradata) {
LOG_OOM();
return false;
}
// copy the first packet to the extra data
memcpy(extradata, packet->data, packet->size);
ostream->codecpar->extradata = extradata;
ostream->codecpar->extradata_size = packet->size;
return true;
}
static inline void
sc_recorder_rescale_packet(AVStream *stream, AVPacket *packet) {
av_packet_rescale_ts(packet, SCRCPY_TIME_BASE, stream->time_base);
}
static bool
sc_recorder_write_stream(struct sc_recorder *recorder, int stream_index,
AVPacket *packet) {
AVStream *stream = recorder->ctx->streams[stream_index];
sc_recorder_rescale_packet(stream, packet);
return av_interleaved_write_frame(recorder->ctx, packet) >= 0;
}
static inline bool
sc_recorder_write_video(struct sc_recorder *recorder, AVPacket *packet) {
return sc_recorder_write_stream(recorder, recorder->video_stream_index,
packet);
}
static inline bool
sc_recorder_write_audio(struct sc_recorder *recorder, AVPacket *packet) {
return sc_recorder_write_stream(recorder, recorder->audio_stream_index,
packet);
}
static bool
sc_recorder_open_output_file(struct sc_recorder *recorder) {
const char *format_name = sc_recorder_get_format_name(recorder->format);
bool
recorder_open(struct recorder *recorder, const AVCodec *input_codec) {
const char *format_name = recorder_get_format_name(recorder->format);
assert(format_name);
const AVOutputFormat *format = find_muxer(format_name);
if (!format) {
@ -119,15 +125,7 @@ sc_recorder_open_output_file(struct sc_recorder *recorder) {
recorder->ctx = avformat_alloc_context();
if (!recorder->ctx) {
LOG_OOM();
return false;
}
int ret = avio_open(&recorder->ctx->pb, recorder->filename,
AVIO_FLAG_WRITE);
if (ret < 0) {
LOGE("Failed to open output file: %s", recorder->filename);
avformat_free_context(recorder->ctx);
LOGE("Could not allocate output context");
return false;
}
@ -140,607 +138,241 @@ sc_recorder_open_output_file(struct sc_recorder *recorder) {
av_dict_set(&recorder->ctx->metadata, "comment",
"Recorded by scrcpy " SCRCPY_VERSION, 0);
AVStream *ostream = avformat_new_stream(recorder->ctx, input_codec);
if (!ostream) {
avformat_free_context(recorder->ctx);
return false;
}
#ifdef SCRCPY_LAVF_HAS_NEW_CODEC_PARAMS_API
ostream->codecpar->codec_type = AVMEDIA_TYPE_VIDEO;
ostream->codecpar->codec_id = input_codec->id;
ostream->codecpar->format = AV_PIX_FMT_YUV420P;
ostream->codecpar->width = recorder->declared_frame_size.width;
ostream->codecpar->height = recorder->declared_frame_size.height;
#else
ostream->codec->codec_type = AVMEDIA_TYPE_VIDEO;
ostream->codec->codec_id = input_codec->id;
ostream->codec->pix_fmt = AV_PIX_FMT_YUV420P;
ostream->codec->width = recorder->declared_frame_size.width;
ostream->codec->height = recorder->declared_frame_size.height;
#endif
int ret = avio_open(&recorder->ctx->pb, recorder->filename,
AVIO_FLAG_WRITE);
if (ret < 0) {
LOGE("Failed to open output file: %s", recorder->filename);
// ostream will be cleaned up during context cleaning
avformat_free_context(recorder->ctx);
return false;
}
LOGI("Recording started to %s file: %s", format_name, recorder->filename);
return true;
}
void
recorder_close(struct recorder *recorder) {
if (recorder->header_written) {
int ret = av_write_trailer(recorder->ctx);
if (ret < 0) {
LOGE("Failed to write trailer to %s", recorder->filename);
recorder->failed = true;
}
} else {
// the recorded file is empty
recorder->failed = true;
}
avio_close(recorder->ctx->pb);
avformat_free_context(recorder->ctx);
if (recorder->failed) {
LOGE("Recording failed to %s", recorder->filename);
} else {
const char *format_name = recorder_get_format_name(recorder->format);
LOGI("Recording complete to %s file: %s", format_name, recorder->filename);
}
}
static bool
recorder_write_header(struct recorder *recorder, const AVPacket *packet) {
AVStream *ostream = recorder->ctx->streams[0];
uint8_t *extradata = av_malloc(packet->size * sizeof(uint8_t));
if (!extradata) {
LOGC("Could not allocate extradata");
return false;
}
// copy the first packet to the extra data
memcpy(extradata, packet->data, packet->size);
#ifdef SCRCPY_LAVF_HAS_NEW_CODEC_PARAMS_API
ostream->codecpar->extradata = extradata;
ostream->codecpar->extradata_size = packet->size;
#else
ostream->codec->extradata = extradata;
ostream->codec->extradata_size = packet->size;
#endif
int ret = avformat_write_header(recorder->ctx, NULL);
if (ret < 0) {
LOGE("Failed to write header to %s", recorder->filename);
return false;
}
return true;
}
static void
sc_recorder_close_output_file(struct sc_recorder *recorder) {
avio_close(recorder->ctx->pb);
avformat_free_context(recorder->ctx);
recorder_rescale_packet(struct recorder *recorder, AVPacket *packet) {
AVStream *ostream = recorder->ctx->streams[0];
av_packet_rescale_ts(packet, SCRCPY_TIME_BASE, ostream->time_base);
}
static inline bool
sc_recorder_has_empty_queues(struct sc_recorder *recorder) {
if (sc_vecdeque_is_empty(&recorder->video_queue)) {
// The video queue is empty
bool
recorder_write(struct recorder *recorder, AVPacket *packet) {
if (!recorder->header_written) {
if (packet->pts != AV_NOPTS_VALUE) {
LOGE("The first packet is not a config packet");
return false;
}
bool ok = recorder_write_header(recorder, packet);
if (!ok) {
return false;
}
recorder->header_written = true;
return true;
}
if (recorder->audio && sc_vecdeque_is_empty(&recorder->audio_queue)) {
// The audio queue is empty (when audio is enabled)
if (packet->pts == AV_NOPTS_VALUE) {
// ignore config packets
return true;
}
// No queue is empty
return false;
}
static bool
sc_recorder_process_header(struct sc_recorder *recorder) {
sc_mutex_lock(&recorder->mutex);
while (!recorder->stopped && (!recorder->video_init
|| !recorder->audio_init
|| sc_recorder_has_empty_queues(recorder))) {
sc_cond_wait(&recorder->stream_cond, &recorder->mutex);
}
if (sc_vecdeque_is_empty(&recorder->video_queue)) {
assert(recorder->stopped);
// If the recorder is stopped, don't process anything if there are not
// at least video packets
sc_mutex_unlock(&recorder->mutex);
return false;
}
AVPacket *video_pkt = sc_vecdeque_pop(&recorder->video_queue);
AVPacket *audio_pkt = NULL;
if (!sc_vecdeque_is_empty(&recorder->audio_queue)) {
assert(recorder->audio);
audio_pkt = sc_vecdeque_pop(&recorder->audio_queue);
}
sc_mutex_unlock(&recorder->mutex);
int ret = false;
if (video_pkt->pts != AV_NOPTS_VALUE) {
LOGE("The first video packet is not a config packet");
goto end;
}
assert(recorder->video_stream_index >= 0);
AVStream *video_stream =
recorder->ctx->streams[recorder->video_stream_index];
bool ok = sc_recorder_set_extradata(video_stream, video_pkt);
if (!ok) {
goto end;
}
if (audio_pkt) {
if (audio_pkt->pts != AV_NOPTS_VALUE) {
LOGE("The first audio packet is not a config packet");
goto end;
}
assert(recorder->audio_stream_index >= 0);
AVStream *audio_stream =
recorder->ctx->streams[recorder->audio_stream_index];
ok = sc_recorder_set_extradata(audio_stream, audio_pkt);
if (!ok) {
goto end;
}
}
ok = avformat_write_header(recorder->ctx, NULL) >= 0;
if (!ok) {
LOGE("Failed to write header to %s", recorder->filename);
goto end;
}
ret = true;
end:
av_packet_free(&video_pkt);
if (audio_pkt) {
av_packet_free(&audio_pkt);
}
return ret;
}
static bool
sc_recorder_process_packets(struct sc_recorder *recorder) {
int64_t pts_origin = AV_NOPTS_VALUE;
bool header_written = sc_recorder_process_header(recorder);
if (!header_written) {
return false;
}
AVPacket *video_pkt = NULL;
AVPacket *audio_pkt = NULL;
// We can write a video packet only once we received the next one so that
// we can set its duration (next_pts - current_pts)
AVPacket *video_pkt_previous = NULL;
bool error = false;
for (;;) {
sc_mutex_lock(&recorder->mutex);
while (!recorder->stopped) {
if (!video_pkt && !sc_vecdeque_is_empty(&recorder->video_queue)) {
// A new packet may be assigned to video_pkt and be processed
break;
}
if (recorder->audio && !audio_pkt
&& !sc_vecdeque_is_empty(&recorder->audio_queue)) {
// A new packet may be assigned to audio_pkt and be processed
break;
}
sc_cond_wait(&recorder->queue_cond, &recorder->mutex);
}
// If stopped is set, continue to process the remaining events (to
// finish the recording) before actually stopping.
// If there is no audio, then the audio_queue will remain empty forever
// and audio_pkt will always be NULL.
assert(recorder->audio || (!audio_pkt
&& sc_vecdeque_is_empty(&recorder->audio_queue)));
if (!video_pkt && !sc_vecdeque_is_empty(&recorder->video_queue)) {
video_pkt = sc_vecdeque_pop(&recorder->video_queue);
}
if (!audio_pkt && !sc_vecdeque_is_empty(&recorder->audio_queue)) {
audio_pkt = sc_vecdeque_pop(&recorder->audio_queue);
}
if (recorder->stopped && !video_pkt && !audio_pkt) {
assert(sc_vecdeque_is_empty(&recorder->video_queue));
assert(sc_vecdeque_is_empty(&recorder->audio_queue));
sc_mutex_unlock(&recorder->mutex);
break;
}
assert(video_pkt || audio_pkt); // at least one
sc_mutex_unlock(&recorder->mutex);
// Ignore further config packets (e.g. on device orientation
// change). The next non-config packet will have the config packet
// data prepended.
if (video_pkt && video_pkt->pts == AV_NOPTS_VALUE) {
av_packet_free(&video_pkt);
video_pkt = NULL;
}
if (audio_pkt && audio_pkt->pts == AV_NOPTS_VALUE) {
av_packet_free(&audio_pkt);
audio_pkt = NULL;
}
if (pts_origin == AV_NOPTS_VALUE) {
if (!recorder->audio) {
assert(video_pkt);
pts_origin = video_pkt->pts;
} else if (video_pkt && audio_pkt) {
pts_origin = MIN(video_pkt->pts, audio_pkt->pts);
} else if (recorder->stopped) {
if (video_pkt) {
// The recorder is stopped without audio, record the video
// packets
pts_origin = video_pkt->pts;
} else {
// Fail if there is no video
error = true;
goto end;
}
} else {
// We need both video and audio packets to initialize pts_origin
continue;
}
}
assert(pts_origin != AV_NOPTS_VALUE);
if (video_pkt) {
video_pkt->pts -= pts_origin;
video_pkt->dts = video_pkt->pts;
if (video_pkt_previous) {
// we now know the duration of the previous packet
video_pkt_previous->duration = video_pkt->pts
- video_pkt_previous->pts;
bool ok = sc_recorder_write_video(recorder, video_pkt_previous);
av_packet_free(&video_pkt_previous);
if (!ok) {
LOGE("Could not record video packet");
error = true;
goto end;
}
}
video_pkt_previous = video_pkt;
video_pkt = NULL;
}
if (audio_pkt) {
audio_pkt->pts -= pts_origin;
audio_pkt->dts = audio_pkt->pts;
bool ok = sc_recorder_write_audio(recorder, audio_pkt);
if (!ok) {
LOGE("Could not record audio packet");
error = true;
goto end;
}
av_packet_free(&audio_pkt);
audio_pkt = NULL;
}
}
// Write the last video packet
AVPacket *last = video_pkt_previous;
if (last) {
// assign an arbitrary duration to the last packet
last->duration = 100000;
bool ok = sc_recorder_write_video(recorder, last);
if (!ok) {
// failing to write the last frame is not very serious, no
// future frame may depend on it, so the resulting file
// will still be valid
LOGW("Could not record last packet");
}
av_packet_free(&last);
}
int ret = av_write_trailer(recorder->ctx);
if (ret < 0) {
LOGE("Failed to write trailer to %s", recorder->filename);
error = false;
}
end:
if (video_pkt) {
av_packet_free(&video_pkt);
}
if (audio_pkt) {
av_packet_free(&audio_pkt);
}
return !error;
}
static bool
sc_recorder_record(struct sc_recorder *recorder) {
bool ok = sc_recorder_open_output_file(recorder);
if (!ok) {
return false;
}
ok = sc_recorder_process_packets(recorder);
sc_recorder_close_output_file(recorder);
return ok;
recorder_rescale_packet(recorder, packet);
return av_write_frame(recorder->ctx, packet) >= 0;
}
static int
run_recorder(void *data) {
struct sc_recorder *recorder = data;
struct recorder *recorder = data;
// Recording is a background task
bool ok = sc_thread_set_priority(SC_THREAD_PRIORITY_LOW);
(void) ok; // We don't care if it worked
for (;;) {
mutex_lock(recorder->mutex);
bool success = sc_recorder_record(recorder);
while (!recorder->stopped && queue_is_empty(&recorder->queue)) {
cond_wait(recorder->queue_cond, recorder->mutex);
}
sc_mutex_lock(&recorder->mutex);
// Prevent the producer to push any new packet
recorder->stopped = true;
// Discard pending packets
sc_recorder_queue_clear(&recorder->video_queue);
sc_recorder_queue_clear(&recorder->audio_queue);
sc_mutex_unlock(&recorder->mutex);
// if stopped is set, continue to process the remaining events (to
// finish the recording) before actually stopping
if (recorder->stopped && queue_is_empty(&recorder->queue)) {
mutex_unlock(recorder->mutex);
struct record_packet *last = recorder->previous;
if (last) {
// assign an arbitrary duration to the last packet
last->packet.duration = 100000;
bool ok = recorder_write(recorder, &last->packet);
if (!ok) {
// failing to write the last frame is not very serious, no
// future frame may depend on it, so the resulting file
// will still be valid
LOGW("Could not record last packet");
}
record_packet_delete(last);
}
break;
}
struct record_packet *rec;
queue_take(&recorder->queue, next, &rec);
mutex_unlock(recorder->mutex);
// recorder->previous is only written from this thread, no need to lock
struct record_packet *previous = recorder->previous;
recorder->previous = rec;
if (!previous) {
// we just received the first packet
continue;
}
// config packets have no PTS, we must ignore them
if (rec->packet.pts != AV_NOPTS_VALUE
&& previous->packet.pts != AV_NOPTS_VALUE) {
// we now know the duration of the previous packet
previous->packet.duration = rec->packet.pts - previous->packet.pts;
}
bool ok = recorder_write(recorder, &previous->packet);
record_packet_delete(previous);
if (!ok) {
LOGE("Could not record packet");
mutex_lock(recorder->mutex);
recorder->failed = true;
// discard pending packets
recorder_queue_clear(&recorder->queue);
mutex_unlock(recorder->mutex);
break;
}
if (success) {
const char *format_name = sc_recorder_get_format_name(recorder->format);
LOGI("Recording complete to %s file: %s", format_name,
recorder->filename);
} else {
LOGE("Recording failed to %s", recorder->filename);
}
LOGD("Recorder thread ended");
recorder->cbs->on_ended(recorder, success, recorder->cbs_userdata);
return 0;
}
static bool
sc_recorder_video_packet_sink_open(struct sc_packet_sink *sink,
AVCodecContext *ctx) {
struct sc_recorder *recorder = DOWNCAST_VIDEO(sink);
// only written from this thread, no need to lock
assert(!recorder->video_init);
bool
recorder_start(struct recorder *recorder) {
LOGD("Starting recorder thread");
sc_mutex_lock(&recorder->mutex);
if (recorder->stopped) {
sc_mutex_unlock(&recorder->mutex);
recorder->thread = SDL_CreateThread(run_recorder, "recorder", recorder);
if (!recorder->thread) {
LOGC("Could not start recorder thread");
return false;
}
AVStream *stream = avformat_new_stream(recorder->ctx, ctx->codec);
if (!stream) {
sc_mutex_unlock(&recorder->mutex);
return false;
}
int r = avcodec_parameters_from_context(stream->codecpar, ctx);
if (r < 0) {
sc_mutex_unlock(&recorder->mutex);
return false;
}
recorder->video_stream_index = stream->index;
recorder->video_init = true;
sc_cond_signal(&recorder->stream_cond);
sc_mutex_unlock(&recorder->mutex);
return true;
}
static void
sc_recorder_video_packet_sink_close(struct sc_packet_sink *sink) {
struct sc_recorder *recorder = DOWNCAST_VIDEO(sink);
// only written from this thread, no need to lock
assert(recorder->video_init);
sc_mutex_lock(&recorder->mutex);
// EOS also stops the recorder
void
recorder_stop(struct recorder *recorder) {
mutex_lock(recorder->mutex);
recorder->stopped = true;
sc_cond_signal(&recorder->queue_cond);
sc_mutex_unlock(&recorder->mutex);
cond_signal(recorder->queue_cond);
mutex_unlock(recorder->mutex);
}
static bool
sc_recorder_video_packet_sink_push(struct sc_packet_sink *sink,
const AVPacket *packet) {
struct sc_recorder *recorder = DOWNCAST_VIDEO(sink);
// only written from this thread, no need to lock
assert(recorder->video_init);
sc_mutex_lock(&recorder->mutex);
if (recorder->stopped) {
// reject any new packet
sc_mutex_unlock(&recorder->mutex);
return false;
}
AVPacket *rec = sc_recorder_packet_ref(packet);
if (!rec) {
LOG_OOM();
sc_mutex_unlock(&recorder->mutex);
return false;
}
rec->stream_index = recorder->video_stream_index;
bool ok = sc_vecdeque_push(&recorder->video_queue, rec);
if (!ok) {
LOG_OOM();
sc_mutex_unlock(&recorder->mutex);
return false;
}
sc_cond_signal(&recorder->queue_cond);
sc_mutex_unlock(&recorder->mutex);
return true;
}
static bool
sc_recorder_audio_packet_sink_open(struct sc_packet_sink *sink,
AVCodecContext *ctx) {
struct sc_recorder *recorder = DOWNCAST_AUDIO(sink);
assert(recorder->audio);
// only written from this thread, no need to lock
assert(!recorder->audio_init);
sc_mutex_lock(&recorder->mutex);
AVStream *stream = avformat_new_stream(recorder->ctx, ctx->codec);
if (!stream) {
sc_mutex_unlock(&recorder->mutex);
return false;
}
int r = avcodec_parameters_from_context(stream->codecpar, ctx);
if (r < 0) {
sc_mutex_unlock(&recorder->mutex);
return false;
}
recorder->audio_stream_index = stream->index;
recorder->audio_init = true;
sc_cond_signal(&recorder->stream_cond);
sc_mutex_unlock(&recorder->mutex);
return true;
}
static void
sc_recorder_audio_packet_sink_close(struct sc_packet_sink *sink) {
struct sc_recorder *recorder = DOWNCAST_AUDIO(sink);
assert(recorder->audio);
// only written from this thread, no need to lock
assert(recorder->audio_init);
sc_mutex_lock(&recorder->mutex);
// EOS also stops the recorder
recorder->stopped = true;
sc_cond_signal(&recorder->queue_cond);
sc_mutex_unlock(&recorder->mutex);
}
static bool
sc_recorder_audio_packet_sink_push(struct sc_packet_sink *sink,
const AVPacket *packet) {
struct sc_recorder *recorder = DOWNCAST_AUDIO(sink);
assert(recorder->audio);
// only written from this thread, no need to lock
assert(recorder->audio_init);
sc_mutex_lock(&recorder->mutex);
if (recorder->stopped) {
// reject any new packet
sc_mutex_unlock(&recorder->mutex);
return false;
}
AVPacket *rec = sc_recorder_packet_ref(packet);
if (!rec) {
LOG_OOM();
sc_mutex_unlock(&recorder->mutex);
return false;
}
rec->stream_index = recorder->audio_stream_index;
bool ok = sc_vecdeque_push(&recorder->audio_queue, rec);
if (!ok) {
LOG_OOM();
sc_mutex_unlock(&recorder->mutex);
return false;
}
sc_cond_signal(&recorder->queue_cond);
sc_mutex_unlock(&recorder->mutex);
return true;
}
static void
sc_recorder_audio_packet_sink_disable(struct sc_packet_sink *sink) {
struct sc_recorder *recorder = DOWNCAST_AUDIO(sink);
assert(recorder->audio);
// only written from this thread, no need to lock
assert(!recorder->audio_init);
LOGW("Audio stream recording disabled");
sc_mutex_lock(&recorder->mutex);
recorder->audio = false;
recorder->audio_init = true;
sc_cond_signal(&recorder->stream_cond);
sc_mutex_unlock(&recorder->mutex);
void
recorder_join(struct recorder *recorder) {
SDL_WaitThread(recorder->thread, NULL);
}
bool
sc_recorder_init(struct sc_recorder *recorder, const char *filename,
enum sc_record_format format, bool audio,
const struct sc_recorder_callbacks *cbs, void *cbs_userdata) {
recorder->filename = strdup(filename);
if (!recorder->filename) {
LOG_OOM();
recorder_push(struct recorder *recorder, const AVPacket *packet) {
mutex_lock(recorder->mutex);
assert(!recorder->stopped);
if (recorder->failed) {
// reject any new packet (this will stop the stream)
return false;
}
bool ok = sc_mutex_init(&recorder->mutex);
if (!ok) {
goto error_free_filename;
}
ok = sc_cond_init(&recorder->queue_cond);
if (!ok) {
goto error_mutex_destroy;
}
ok = sc_cond_init(&recorder->stream_cond);
if (!ok) {
goto error_queue_cond_destroy;
}
recorder->audio = audio;
sc_vecdeque_init(&recorder->video_queue);
sc_vecdeque_init(&recorder->audio_queue);
recorder->stopped = false;
recorder->video_init = false;
recorder->audio_init = false;
recorder->video_stream_index = -1;
recorder->audio_stream_index = -1;
recorder->format = format;
assert(cbs && cbs->on_ended);
recorder->cbs = cbs;
recorder->cbs_userdata = cbs_userdata;
static const struct sc_packet_sink_ops video_ops = {
.open = sc_recorder_video_packet_sink_open,
.close = sc_recorder_video_packet_sink_close,
.push = sc_recorder_video_packet_sink_push,
};
recorder->video_packet_sink.ops = &video_ops;
if (audio) {
static const struct sc_packet_sink_ops audio_ops = {
.open = sc_recorder_audio_packet_sink_open,
.close = sc_recorder_audio_packet_sink_close,
.push = sc_recorder_audio_packet_sink_push,
.disable = sc_recorder_audio_packet_sink_disable,
};
recorder->audio_packet_sink.ops = &audio_ops;
}
return true;
error_queue_cond_destroy:
sc_cond_destroy(&recorder->queue_cond);
error_mutex_destroy:
sc_mutex_destroy(&recorder->mutex);
error_free_filename:
free(recorder->filename);
return false;
}
bool
sc_recorder_start(struct sc_recorder *recorder) {
bool ok = sc_thread_create(&recorder->thread, run_recorder,
"scrcpy-recorder", recorder);
if (!ok) {
LOGE("Could not start recorder thread");
struct record_packet *rec = record_packet_new(packet);
if (!rec) {
LOGC("Could not allocate record packet");
return false;
}
queue_push(&recorder->queue, next, rec);
cond_signal(recorder->queue_cond);
mutex_unlock(recorder->mutex);
return true;
}
void
sc_recorder_stop(struct sc_recorder *recorder) {
sc_mutex_lock(&recorder->mutex);
recorder->stopped = true;
sc_cond_signal(&recorder->queue_cond);
sc_cond_signal(&recorder->stream_cond);
sc_mutex_unlock(&recorder->mutex);
}
void
sc_recorder_join(struct sc_recorder *recorder) {
sc_thread_join(&recorder->thread, NULL);
}
void
sc_recorder_destroy(struct sc_recorder *recorder) {
sc_cond_destroy(&recorder->stream_cond);
sc_cond_destroy(&recorder->queue_cond);
sc_mutex_destroy(&recorder->mutex);
free(recorder->filename);
}

99
app/src/recorder.h
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@ -1,77 +1,72 @@
#ifndef SC_RECORDER_H
#define SC_RECORDER_H
#include "common.h"
#ifndef RECORDER_H
#define RECORDER_H
#include <stdbool.h>
#include <libavformat/avformat.h>
#include <SDL2/SDL_mutex.h>
#include <SDL2/SDL_thread.h>
#include "coords.h"
#include "options.h"
#include "trait/packet_sink.h"
#include "util/thread.h"
#include "util/vecdeque.h"
#include "config.h"
#include "common.h"
#include "util/queue.h"
struct sc_recorder_queue SC_VECDEQUE(AVPacket *);
enum recorder_format {
RECORDER_FORMAT_AUTO,
RECORDER_FORMAT_MP4,
RECORDER_FORMAT_MKV,
};
struct sc_recorder {
struct sc_packet_sink video_packet_sink;
struct sc_packet_sink audio_packet_sink;
struct record_packet {
AVPacket packet;
struct record_packet *next;
};
/* The audio flag is unprotected:
* - it is initialized from sc_recorder_init() from the main thread;
* - it may be reset once from the recorder thread if the audio is
* disabled dynamically.
*
* Therefore, once the recorder thread is started, only the recorder thread
* may access it without data races.
*/
bool audio;
struct recorder_queue QUEUE(struct record_packet);
struct recorder {
char *filename;
enum sc_record_format format;
enum recorder_format format;
AVFormatContext *ctx;
struct size declared_frame_size;
bool header_written;
sc_thread thread;
sc_mutex mutex;
sc_cond queue_cond;
// set on sc_recorder_stop(), packet_sink close or recording failure
bool stopped;
struct sc_recorder_queue video_queue;
struct sc_recorder_queue audio_queue;
SDL_Thread *thread;
SDL_mutex *mutex;
SDL_cond *queue_cond;
bool stopped; // set on recorder_stop() by the stream reader
bool failed; // set on packet write failure
struct recorder_queue queue;
// wake up the recorder thread once the video or audio codec is known
sc_cond stream_cond;
bool video_init;
bool audio_init;
int video_stream_index;
int audio_stream_index;
const struct sc_recorder_callbacks *cbs;
void *cbs_userdata;
};
struct sc_recorder_callbacks {
void (*on_ended)(struct sc_recorder *recorder, bool success,
void *userdata);
// we can write a packet only once we received the next one so that we can
// set its duration (next_pts - current_pts)
// "previous" is only accessed from the recorder thread, so it does not
// need to be protected by the mutex
struct record_packet *previous;
};
bool
sc_recorder_init(struct sc_recorder *recorder, const char *filename,
enum sc_record_format format, bool audio,
const struct sc_recorder_callbacks *cbs, void *cbs_userdata);
recorder_init(struct recorder *recorder, const char *filename,
enum recorder_format format, struct size declared_frame_size);
void
recorder_destroy(struct recorder *recorder);
bool
sc_recorder_start(struct sc_recorder *recorder);
recorder_open(struct recorder *recorder, const AVCodec *input_codec);
void
sc_recorder_stop(struct sc_recorder *recorder);
recorder_close(struct recorder *recorder);
bool
recorder_start(struct recorder *recorder);
void
sc_recorder_join(struct sc_recorder *recorder);
recorder_stop(struct recorder *recorder);
void
sc_recorder_destroy(struct sc_recorder *recorder);
recorder_join(struct recorder *recorder);
bool
recorder_push(struct recorder *recorder, const AVPacket *packet);
#endif

1031
app/src/scrcpy.c
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83
app/src/scrcpy.h
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@ -1,23 +1,80 @@
#ifndef SCRCPY_H
#define SCRCPY_H
#include "common.h"
#include <stdbool.h>
#include "options.h"
#include <stdint.h>
enum scrcpy_exit_code {
// Normal program termination
SCRCPY_EXIT_SUCCESS,
#include "config.h"
#include "common.h"
#include "input_manager.h"
#include "recorder.h"
// No connection could be established
SCRCPY_EXIT_FAILURE,
// Device was disconnected while running
SCRCPY_EXIT_DISCONNECTED,
struct scrcpy_options {
const char *serial;
const char *crop;
const char *record_filename;
const char *window_title;
const char *push_target;
const char *render_driver;
enum recorder_format record_format;
struct port_range port_range;
uint16_t max_size;
uint32_t bit_rate;
uint16_t max_fps;
int8_t lock_video_orientation;
uint8_t rotation;
int16_t window_x; // WINDOW_POSITION_UNDEFINED for "auto"
int16_t window_y; // WINDOW_POSITION_UNDEFINED for "auto"
uint16_t window_width;
uint16_t window_height;
uint16_t display_id;
bool show_touches;
bool fullscreen;
bool always_on_top;
bool control;
bool display;
bool turn_screen_off;
bool render_expired_frames;
bool prefer_text;
bool window_borderless;
bool mipmaps;
};
enum scrcpy_exit_code
scrcpy(struct scrcpy_options *options);
#define SCRCPY_OPTIONS_DEFAULT { \
.serial = NULL, \
.crop = NULL, \
.record_filename = NULL, \
.window_title = NULL, \
.push_target = NULL, \
.render_driver = NULL, \
.record_format = RECORDER_FORMAT_AUTO, \
.port_range = { \
.first = DEFAULT_LOCAL_PORT_RANGE_FIRST, \
.last = DEFAULT_LOCAL_PORT_RANGE_LAST, \
}, \
.max_size = DEFAULT_MAX_SIZE, \
.bit_rate = DEFAULT_BIT_RATE, \
.max_fps = 0, \
.lock_video_orientation = DEFAULT_LOCK_VIDEO_ORIENTATION, \
.rotation = 0, \
.window_x = WINDOW_POSITION_UNDEFINED, \
.window_y = WINDOW_POSITION_UNDEFINED, \
.window_width = 0, \
.window_height = 0, \
.display_id = 0, \
.show_touches = false, \
.fullscreen = false, \
.always_on_top = false, \
.control = true, \
.display = true, \
.turn_screen_off = false, \
.render_expired_frames = false, \
.prefer_text = false, \
.window_borderless = false, \
.mipmaps = true, \
}
bool
scrcpy(const struct scrcpy_options *options);
#endif

1020
app/src/screen.c
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