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callaudiod
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File callaudiod-0.1.9.obscpio of Package callaudiod
07070100000000000081A400000000000000000000000164632D590000011C000000000000000000000000000000000000001F00000000callaudiod-0.1.9/.editorconfigroot = true [*] charset = utf-8 end_of_line = lf insert_final_newline = true [meson.build] indent_size = 2 tab_size = 2 indent_style = space [*.{c,h}] indent_size = 4 tab_size = 4 indent_style = space max_line_length = 80 [*.xml] indent_size = 2 tab_size = 2 indent_style = space 07070100000001000041ED00000000000000000000000264632D5900000000000000000000000000000000000000000000001C00000000callaudiod-0.1.9/.gitlab-ci07070100000002000041ED00000000000000000000000264632D5900000000000000000000000000000000000000000000002300000000callaudiod-0.1.9/.gitlab-ci/debian07070100000003000081A400000000000000000000000164632D5900000026000000000000000000000000000000000000003600000000callaudiod-0.1.9/.gitlab-ci/debian/callaudiod.install/usr/bin/callaudiod /usr/share/dbus-1 07070100000004000081A400000000000000000000000164632D590000007F000000000000000000000000000000000000002D00000000callaudiod-0.1.9/.gitlab-ci/debian/changelogcallaudiod (@@VERSION@@~ci-1) unstable; urgency=medium * CI build -- CI <ci@example.org> Thu, 01 Jan 1970 00:00:00 +0000 07070100000005000081A400000000000000000000000164632D5900000BDB000000000000000000000000000000000000002B00000000callaudiod-0.1.9/.gitlab-ci/debian/controlSource: callaudiod Section: comm Priority: optional Maintainer: DebianOnMobile Maintainers <debian-on-mobile-maintainers@alioth-lists.debian.net> Uploaders: Arnaud Ferraris <arnaud.ferraris@gmail.com> Build-Depends: dbus, debhelper-compat (= 13), gtk-doc-tools, jq, libasound2-dev, libglib2.0-dev, libpulse-dev, meson, pkg-config, Standards-Version: 4.5.0 Homepage: https://gitlab.com/mobian1/callaudiod Vcs-Git: https://salsa.debian.org/DebianOnMobile-team/callaudiod.git Vcs-Browser: https://salsa.debian.org/DebianOnMobile-team/callaudiod Rules-Requires-Root: no Package: callaudiod Architecture: any Depends: ${misc:Depends}, ${shlibs:Depends}, pulseaudio, Description: Call audio routing daemon callaudiod is a daemon for dealing with audio routing during phone calls. It provides a D-Bus interface allowing other programs to: * switch audio profiles * output audio to the speaker or back to its original port * mute the microphone . This package contains the daemon and D-Bus interface definition. Package: libcallaudio-0-1 Architecture: any Multi-Arch: same Section: libs Depends: ${misc:Depends}, ${shlibs:Depends}, Description: Library for audio routing during voice calls callaudiod is a daemon for dealing with audio routing during phone calls. It provides a D-Bus interface allowing other programs to: * switch audio profiles * output audio to the speaker or back to its original port * mute the microphone . This package contains the shared libraries for applications interfacing with callaudiod. Package: libcallaudio-dev Architecture: any Multi-Arch: same Section: libdevel Depends: libcallaudio-0-1 (= ${binary:Version}), libglib2.0-dev, ${misc:Depends}, ${shlibs:Depends}, Description: Development files for libcallaudio callaudiod is a daemon for dealing with audio routing during phone calls. It provides a D-Bus interface allowing other programs to: * switch audio profiles * output audio to the speaker or back to its original port * mute the microphone . This package contains development files to use when writing applications that interface with callaudiod. Package: libcallaudio-doc Architecture: all Section: doc Depends: ${misc:Depends} Suggests: devhelp Description: Documentation for libcallaudio's API callaudiod is a daemon for dealing with audio routing during phone calls. It provides a D-Bus interface allowing other programs to: * switch audio profiles * output audio to the speaker or back to its original port * mute the microphone . This package contains the API documentation. Package: libcallaudio-tools Architecture: any Depends: ${misc:Depends}, ${shlibs:Depends}, Description: Helper tools for libcallaudio callaudiod is a daemon for dealing with audio routing during phone calls. It provides a D-Bus interface allowing other programs to: * switch audio profiles * output audio to the speaker or back to its original port * mute the microphone . This package contains helper tools for libcallaudio. 07070100000006000081A400000000000000000000000164632D5900000828000000000000000000000000000000000000002D00000000callaudiod-0.1.9/.gitlab-ci/debian/copyrightFormat: https://www.debian.org/doc/packaging-manuals/copyright-format/1.0/ Upstream-Name: callaudiod Upstream-Contact: Arnaud Ferraris <arnaud.ferraris@gmail.com> Source: https://gitlab.com/mobian1/callaudiod Files: * Copyright: 2018, 2019, 2020 Purism SPC 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> License: LGPL-2.1-or-later Files: src/* tools/* Copyright: 2018, 2019, 2020 Purism SPC 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> License: GPL-3.0-or-later License: LGPL-2.1-or-later This package is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. . This package is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. . You should have received a copy of the GNU Lesser General Public License along with this program. If not, see <https://www.gnu.org/licenses/> . On Debian systems, the complete text of the GNU Lesser General Public License version 3 can be found in "/usr/share/common-licenses/LGPL-2.1". License: GPL-3.0-or-later This package is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. . This package is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. . You should have received a copy of the GNU General Public License along with this program. If not, see <https://www.gnu.org/licenses/> . On Debian systems, the complete text of the GNU General Public License version 3 can be found in "/usr/share/common-licenses/GPL-3". 07070100000007000081A400000000000000000000000164632D590000001F000000000000000000000000000000000000003C00000000callaudiod-0.1.9/.gitlab-ci/debian/libcallaudio-0-1.install/usr/lib/*/libcallaudio-*.so.0 07070100000008000081A400000000000000000000000164632D59000008FE000000000000000000000000000000000000003C00000000callaudiod-0.1.9/.gitlab-ci/debian/libcallaudio-0-1.symbolslibcallaudio-0.1.so.0 libcallaudio-0-1 #MINVER# * Build-Depends-Package: libcallaudio-dev LIBCALLAUDIO_0_0_0@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_call_enable_speaker@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_call_enable_speaker_finish@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_call_enable_speaker_sync@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_call_mute_mic@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_call_mute_mic_finish@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_call_mute_mic_sync@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_call_select_mode@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_call_select_mode_finish@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_call_select_mode_sync@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_complete_enable_speaker@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_complete_mute_mic@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_complete_select_mode@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_get_type@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_interface_info@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_override_properties@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_proxy_get_type@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_proxy_new@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_proxy_new_finish@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_proxy_new_for_bus@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_proxy_new_for_bus_finish@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_proxy_new_for_bus_sync@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_proxy_new_sync@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_skeleton_get_type@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_dbus_call_audio_skeleton_new@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_deinit@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_enable_speaker@LIBCALLAUDIO_0_0_0 0.0.4 call_audio_enable_speaker_async@LIBCALLAUDIO_0_0_0 0.0.5 call_audio_is_inited@LIBCALLAUDIO_0_0_0 0.0.4 call_audio_init@LIBCALLAUDIO_0_0_0 0.0.1 call_audio_mute_mic@LIBCALLAUDIO_0_0_0 0.0.4 call_audio_mute_mic_async@LIBCALLAUDIO_0_0_0 0.0.5 call_audio_select_mode@LIBCALLAUDIO_0_0_0 0.0.4 call_audio_select_mode_async@LIBCALLAUDIO_0_0_0 0.0.5 07070100000009000081A400000000000000000000000164632D5900000051000000000000000000000000000000000000003C00000000callaudiod-0.1.9/.gitlab-ci/debian/libcallaudio-dev.install/usr/include /usr/lib/*/libcallaudio-*.so /usr/lib/*/pkgconfig/libcallaudio-*.pc 0707010000000A000081A400000000000000000000000164632D5900000013000000000000000000000000000000000000003C00000000callaudiod-0.1.9/.gitlab-ci/debian/libcallaudio-doc.install/usr/share/gtk-doc 0707010000000B000081A400000000000000000000000164632D5900000016000000000000000000000000000000000000003E00000000callaudiod-0.1.9/.gitlab-ci/debian/libcallaudio-tools.install/usr/bin/callaudiocli 0707010000000C000081ED00000000000000000000000164632D59000000A9000000000000000000000000000000000000002900000000callaudiod-0.1.9/.gitlab-ci/debian/rules#!/usr/bin/make -f export DEB_BUILD_MAINT_OPTIONS = hardening=+all %: dh $@ --builddirectory=_build override_dh_auto_configure: dh_auto_configure -- -Dgtk_doc=true 0707010000000D000041ED00000000000000000000000264632D5900000000000000000000000000000000000000000000002A00000000callaudiod-0.1.9/.gitlab-ci/debian/source0707010000000E000081A400000000000000000000000164632D590000000C000000000000000000000000000000000000003100000000callaudiod-0.1.9/.gitlab-ci/debian/source/format3.0 (quilt) 0707010000000F000081A400000000000000000000000164632D59000000C7000000000000000000000000000000000000002900000000callaudiod-0.1.9/.gitlab-ci/debian/watchversion=4 opts=filenamemangle=s/.*\/archive\/(\d\S+)\/callaudiod.*\.tar\.gz/callaudiod-$1\.tar\.gz/g \ https://gitlab.com/mobian1/callaudiod/tags?sort=updated_desc .*/archive/(\d\S+)/.*\.tar\.gz.* 07070100000010000081A400000000000000000000000164632D590000894B000000000000000000000000000000000000001900000000callaudiod-0.1.9/COPYING GNU GENERAL PUBLIC LICENSE Version 3, 29 June 2007 Copyright (C) 2007 Free Software Foundation, Inc. <http://fsf.org/> Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. 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Also add information on how to contact you by electronic and paper mail. If the program does terminal interaction, make it output a short notice like this when it starts in an interactive mode: <program> Copyright (C) <year> <name of author> This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'. This is free software, and you are welcome to redistribute it under certain conditions; type `show c' for details. The hypothetical commands `show w' and `show c' should show the appropriate parts of the General Public License. Of course, your program's commands might be different; for a GUI interface, you would use an "about box". You should also get your employer (if you work as a programmer) or school, if any, to sign a "copyright disclaimer" for the program, if necessary. For more information on this, and how to apply and follow the GNU GPL, see <http://www.gnu.org/licenses/>. The GNU General Public License does not permit incorporating your program into proprietary programs. If your program is a subroutine library, you may consider it more useful to permit linking proprietary applications with the library. If this is what you want to do, use the GNU Lesser General Public License instead of this License. But first, please read <http://www.gnu.org/philosophy/why-not-lgpl.html>. 07070100000011000081A400000000000000000000000164632D5900000362000000000000000000000000000000000000001B00000000callaudiod-0.1.9/README.md# callaudiod - Call audio routing daemon `callaudiod` is a daemon for dealing with audio routing during phone calls. It provides a D-Bus interface allowing other programs to: * switch audio profiles * output audio to the speaker or back to its original port * mute the microphone ## Dependencies `callaudiod` requires the following development libraries: - libasound2-dev - libglib2.0-dev - libpulse-dev ## Building `callaudiod` uses meson as its build system. Building and installing `callaudiod` is as simple as running the following commands: ``` $ meson ../callaudiod-build $ ninja -C ../callaudiod-build # ninja -C ../callaudiod-build install ``` ## Running `callaudiod` is usually run as a systemd user service, but can also be manually started from the command-line: ``` $ callaudiod ``` ## License `callaudiod` is licensed under the GPLv3+. 07070100000012000041ED00000000000000000000000264632D5900000000000000000000000000000000000000000000001600000000callaudiod-0.1.9/data07070100000013000081A400000000000000000000000164632D590000042D000000000000000000000000000000000000002200000000callaudiod-0.1.9/data/meson.build# # Copyright (C) 2019 Purism SPC # Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> # # SPDX-License-Identifier: LGPL-2.1-or-later # gnome = import('gnome') # DBus server interface dbus_prefix = 'org.mobian_project.' dbus_namespace = 'CallAudioDbus' generated_dbus_sources = [] dbus_interfaces = [ 'org.mobian_project.CallAudio.xml' ] generated_dbus_sources += gnome.gdbus_codegen('callaudio-dbus', sources : dbus_interfaces, object_manager : false, docbook : 'libcallaudio', interface_prefix : dbus_prefix, install_header : false, namespace : dbus_namespace) dbus_header_dir = meson.current_build_dir() dbus_inc = include_directories('.') install_data(dbus_interfaces, install_dir: ifacedir) # systemd service file service_data = configuration_data() service_data.set('bindir', bindir) service_file = 'org.mobian_project.CallAudio.service' configure_file( input : service_file + '.in', output : service_file, configuration : service_data, install : true, install_dir: servicedir, ) 07070100000014000081A400000000000000000000000164632D590000004B000000000000000000000000000000000000003E00000000callaudiod-0.1.9/data/org.mobian_project.CallAudio.service.in[D-BUS Service] Name=org.mobian_project.CallAudio Exec=@bindir@/callaudiod 07070100000015000081A400000000000000000000000164632D59000006A9000000000000000000000000000000000000003700000000callaudiod-0.1.9/data/org.mobian_project.CallAudio.xml<?xml version="1.0" encoding="UTF-8" ?> <node> <!-- org.mobian_project.CallAudio @short_description: call related audio interface This D-Bus interface is used to select audio modes and access other related audio functionality in a mobile phone context. --> <interface name="org.mobian_project.CallAudio"> <!-- SelectMode: @mode: 0 = default audio mode, 1 = voice call mode @success: operation status Sets the audio routing configuration according to the @mode parameter. If @mode isn't an authorized value, #org.freedesktop.DBus.Error.InvalidArgs error is returned. --> <method name="SelectMode"> <arg direction="in" name="mode" type="u"/> <arg direction="out" name="success" type="b"/> </method> <!-- AudioMode: 0 = default audio mode, 1 = voice call mode, 255 = unknown --> <property name="AudioMode" type="u" access="read"/> <method name="EnableSpeaker"> <arg direction="in" name="enable" type="b"/> <arg direction="out" name="success" type="b"/> </method> <!-- SpeakerState: 0 = off, 1 = on, 255 = unknown all other values should be considered the same as 'unknown' --> <property name="SpeakerState" type="u" access="read"/> <method name="MuteMic"> <arg direction="in" name="mute" type="b"/> <arg direction="out" name="success" type="b"/> </method> <!-- MicState: 0 = off, 1 = on, 255 = unknown all other values should be considered the same as 'unknown' --> <property name="MicState" type="u" access="read"/> </interface> </node> 07070100000016000041ED00000000000000000000000264632D5900000000000000000000000000000000000000000000001500000000callaudiod-0.1.9/doc07070100000017000081A400000000000000000000000164632D59000006C1000000000000000000000000000000000000002B00000000callaudiod-0.1.9/doc/libcallaudio-docs.xml<?xml version="1.0"?> <!DOCTYPE book PUBLIC "-//OASIS//DTD DocBook XML V4.3//EN" "http://www.oasis-open.org/docbook/xml/4.3/docbookx.dtd" [ <!ENTITY % local.common.attrib "xmlns:xi CDATA #FIXED 'http://www.w3.org/2003/XInclude'"> <!ENTITY % gtkdocentities SYSTEM "xml/gtkdocentities.ent"> %gtkdocentities; ]> <book id="index"> <bookinfo> <title>&package_name; Reference Manual</title> <releaseinfo> <para>This document is the API reference for &package_name; &package_version;</para> <para> <ulink type="http" url="&package_url;">Libcallaudio</ulink> is a library to allow setting audio call (f.e. mobile phone environment) related settings by your application. </para> <para> If you find any issues in this API reference, please report it using <ulink type="http" url="&package_bugreport;">the bugtracker</ulink>. </para> </releaseinfo> <copyright> <year>2020</year> <holder>Arnaud Ferraris</holder> </copyright> </bookinfo> <xi:include href="overview.xml"/> <part> <title>API Reference</title> <chapter id="core-api"> <title>Core API</title> <xi:include href="xml/libcallaudio.xml"/> </chapter> <chapter id="dbus-interface"> <title>DBus Interface</title> <xi:include href="../data/libcallaudio-org.mobian_project.CallAudio.xml"/> </chapter> </part> <index id="api-index-full"> <title>API Index</title> <xi:include href="xml/api-index-full.xml"><xi:fallback /></xi:include> </index> <index id="annotations-glossary"> <title>Annotations glossary</title> <xi:include href="xml/annotation-glossary.xml"><xi:fallback /></xi:include> </index> </book> 07070100000018000081A400000000000000000000000164632D590000057B000000000000000000000000000000000000002100000000callaudiod-0.1.9/doc/meson.buildif get_option('gtk_doc') subdir('xml') private_headers = [ ] content_files = [ 'overview.xml', ] glib_prefix = dependency('glib-2.0').get_pkgconfig_variable('prefix') glib_docpath = join_paths(glib_prefix, 'share', 'gtk-doc', 'html') docpath = join_paths(get_option('datadir'), 'gtk-doc', 'html') gnome.gtkdoc('libcallaudio', main_xml: 'libcallaudio-docs.xml', src_dir: [ join_paths(meson.source_root(), 'libcallaudio'), join_paths(meson.build_root(), 'libcallaudio'), join_paths(meson.build_root(), 'data'), ], dependencies: libcallaudio_dep, gobject_typesfile: 'libcallaudio.types', scan_args: [ '--rebuild-types', '--ignore-headers=' + ' '.join(private_headers), ], fixxref_args: [ '--html-dir=@0@'.format(docpath), '--extra-dir=@0@'.format(join_paths(glib_docpath, 'glib')), '--extra-dir=@0@'.format(join_paths(glib_docpath, 'gobject')), '--extra-dir=@0@'.format(join_paths(glib_docpath, 'gio')), '--extra-dir=@0@'.format(join_paths(glib_docpath, 'gi')), ], install_dir: 'libcallaudio', content_files: content_files, install: true) endif 07070100000019000081A400000000000000000000000164632D5900000820000000000000000000000000000000000000002200000000callaudiod-0.1.9/doc/overview.xml<?xml version="1.0"?> <!DOCTYPE refentry PUBLIC "-//OASIS//DTD DocBook XML V4.3//EN" "http://www.oasis-open.org/docbook/xml/4.3/docbookx.dtd" [ <!ENTITY % local.common.attrib "xmlns:xi CDATA #FIXED 'http://www.w3.org/2003/XInclude'"> <!ENTITY % gtkdocentities SYSTEM "xml/gtkdocentities.ent"> %gtkdocentities; ]> <part> <title>Libcallaudio Overview</title> <chapter> <title>Introduction</title> <para> The purpose of libcallaudio is to make it simple for other applications to control audio routing and other audio related settings in mobile phone scenarios. </para> <para> &package; provides synchronous and asynchronous APIs to switch audio profiles, change between the earpiece and the speakers and mute the microphone. </para> </chapter> <chapter> <title>Compiling libcallaudio applications</title> <simplesect> <title>Using pkg-config</title> <para> Like other GNOME libraries, <application>&package_string;</application> uses <application>pkg-config</application> to provide compiler options. The package name is "<literal>&package_ver_str;</literal>". So in your <literal>configure.ac</literal> script, you might specify something like: </para> <informalexample><programlisting> PKG_CHECK_MODULES(LIBFEEDBACK, [&package_string;-&package_api_version;]) AC_SUBST(LIBFEEDBACK_CFLAGS) AC_SUBST(LIBFEEDBACK_LIBS) </programlisting></informalexample> </simplesect> <simplesect> <title>Using Meson/Ninja</title> <para> If using Meson/Ninja use a <literal>dependency('&package_string;-&package_api_version;') </literal> dependency. </para> <para> The "<literal>&package_api_version;</literal>" in the package name is the "API version" (indicating "the version of the <application>&package_string;</application> API that first appeared in version &package_api_version;") and is essentially just part of the package name. </para> </simplesect> </chapter> </part> 0707010000001A000041ED00000000000000000000000264632D5900000000000000000000000000000000000000000000001900000000callaudiod-0.1.9/doc/xml0707010000001B000081A400000000000000000000000164632D590000021E000000000000000000000000000000000000002F00000000callaudiod-0.1.9/doc/xml/gtkdocentities.ent.in<!ENTITY package "@PACKAGE@"> <!ENTITY package_bugreport "@PACKAGE_BUGREPORT@"> <!ENTITY package_name "@PACKAGE_NAME@"> <!ENTITY package_string "@PACKAGE_STRING@"> <!ENTITY package_tarname "@PACKAGE_TARNAME@"> <!ENTITY package_url "@PACKAGE_URL@"> <!ENTITY package_version "@PACKAGE_VERSION@"> <!ENTITY package_api_version "@PACKAGE_API_VERSION@"> <!ENTITY package_ver_str "@PACKAGE_STRING@-@PACKAGE_API_VERSION@"> <!ENTITY callaudio_daemon "<ulink url='https://gitlab.com/mobian1/callaudiod/blob/master/README.md'>Callaudio Daemon</ulink>"> 0707010000001C000081A400000000000000000000000164632D5900000256000000000000000000000000000000000000002500000000callaudiod-0.1.9/doc/xml/meson.buildent_conf = configuration_data() ent_conf.set('PACKAGE', 'libcallaudio') ent_conf.set('PACKAGE_BUGREPORT', 'https://gitlab.com/mobian1/callaudiod/issues') ent_conf.set('PACKAGE_NAME', 'libcallaudio') ent_conf.set('PACKAGE_STRING', 'libcallaudio') ent_conf.set('PACKAGE_TARNAME', 'libcallaudio-' + meson.project_version()) ent_conf.set('PACKAGE_URL', 'https://gitlab.com/mobian1/callaudiod') ent_conf.set('PACKAGE_VERSION', meson.project_version()) ent_conf.set('PACKAGE_API_VERSION', apiversion) configure_file(input: 'gtkdocentities.ent.in', output: 'gtkdocentities.ent', configuration: ent_conf) 0707010000001D000041ED00000000000000000000000264632D5900000000000000000000000000000000000000000000001E00000000callaudiod-0.1.9/libcallaudio0707010000001E000081A400000000000000000000000164632D5900002DB2000000000000000000000000000000000000002D00000000callaudiod-0.1.9/libcallaudio/libcallaudio.c/* * Copyright (C) 2020 Purism SPC * Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> * * SPDX-License-Identifier: LGPL-2.1-or-later */ #include "libcallaudio.h" #include "callaudiod.h" #include "callaudio-dbus.h" /** * SECTION:libcallaudio * @Short_description: Call audio control library * @Title: libcallaudio * * To use the library call #call_audio_init(). * After initializing the library you can send audio routing requests using the * library functions. * When your application finishes call #call_audio_deinit() to free resources: * * |[<!-- language="C" --> * #include <libcallaudio.h> * * int main(void) * { * g_autoptr(GError) err = NULL; * if (call_audio_init(&err)) { * g_error("%s", err->message); * } * ... * call_audio_deinit(); * return 0; * } * ]| */ static CallAudioDbusCallAudio *_proxy; static gboolean _initted; typedef struct _CallAudioAsyncData { CallAudioCallback cb; gpointer user_data; } CallAudioAsyncData; /** * call_audio_init: * @error: Error information * * Initialize libcallaudio. This must be called before any other functions. * * Returns: %TRUE if successful, or %FALSE on error. */ gboolean call_audio_init(GError **error) { if (_initted) return TRUE; _proxy = call_audio_dbus_call_audio_proxy_new_for_bus_sync( CALLAUDIO_DBUS_TYPE, G_DBUS_PROXY_FLAGS_NONE, CALLAUDIO_DBUS_NAME, CALLAUDIO_DBUS_PATH, NULL, error); if (!_proxy) return FALSE; g_object_add_weak_pointer(G_OBJECT(_proxy), (gpointer *)&_proxy); _initted = TRUE; return TRUE; } /** * call_audio_is_inited: * * Query whether libcallaudio has been initialized before. This can be used to * ensure library calls will perform actual actions. * * Returns: %TRUE if libcallaudio has been initialized, %FALSE otherwise. */ gboolean call_audio_is_inited(void) { return _initted; } /** * call_audio_deinit: * * Uninitialize the library when no longer used. Usually called * on program shutdown. */ void call_audio_deinit(void) { _initted = FALSE; g_clear_object(&_proxy); } static void select_mode_done(GObject *object, GAsyncResult *result, gpointer data) { CallAudioDbusCallAudio *proxy = CALL_AUDIO_DBUS_CALL_AUDIO(object); CallAudioAsyncData *async_data = data; GError *error = NULL; gboolean success = FALSE; gboolean ret; g_return_if_fail(CALL_AUDIO_DBUS_IS_CALL_AUDIO(proxy)); ret = call_audio_dbus_call_audio_call_select_mode_finish(proxy, &success, result, &error); if (!ret) g_warning("SelectMode DBus method invocation failed: %s", error->message); else if (!success) g_warning("SelectMode unsuccessful"); g_debug("%s: D-bus call returned %d (success=%d)", __func__, ret, success); if (async_data && async_data->cb) async_data->cb(success, error, async_data->user_data); g_free(async_data); } /** * call_audio_select_mode_async: * @mode: Audio mode to select * @cb: Function to be called when operation completes * @data: User data to be passed to the callback function after completion. This * data is owned by the caller, which is responsible for freeing it. * * Select the audio mode to use. */ gboolean call_audio_select_mode_async(CallAudioMode mode, CallAudioCallback cb, gpointer data) { CallAudioAsyncData *async_data = g_new0(CallAudioAsyncData, 1); if (!_initted || !async_data) return FALSE; async_data->cb = cb; async_data->user_data = data; call_audio_dbus_call_audio_call_select_mode(_proxy, mode, NULL, select_mode_done, async_data); return TRUE; } /** * call_audio_select_mode: * @mode: Audio mode to select * @error: The error that will be set if the audio mode could not be selected. * * Select the audio mode to use. This function is synchronous, and will return * only once the operation has been executed. * * Returns: %TRUE if successful, or %FALSE on error. */ gboolean call_audio_select_mode(CallAudioMode mode, GError **error) { gboolean success = FALSE; gboolean ret; if (!_initted) return FALSE; ret = call_audio_dbus_call_audio_call_select_mode_sync(_proxy, mode, &success, NULL, error); if (!ret) { g_warning("SelectMode DBus method invocation failed: %s", (*error)->message); } else if (!success) { g_warning("SelectMode (%u) unsuccessful", mode); g_set_error_literal(error, G_IO_ERROR, G_IO_ERROR_FAILED, "Operation failed"); } g_debug("SelectMode %s: success=%d", ret ? "succeeded" : "failed", success); return success; } /** * call_audio_get_audio_mode: * * Returns: The selected #CallAudioMode. */ CallAudioMode call_audio_get_audio_mode(void) { if (!_initted) return CALL_AUDIO_MODE_UNKNOWN; return call_audio_dbus_call_audio_get_audio_mode(_proxy); } static void enable_speaker_done(GObject *object, GAsyncResult *result, gpointer data) { CallAudioDbusCallAudio *proxy = CALL_AUDIO_DBUS_CALL_AUDIO(object); CallAudioAsyncData *async_data = data; GError *error = NULL; gboolean success = FALSE; gboolean ret; g_return_if_fail(CALL_AUDIO_DBUS_IS_CALL_AUDIO(proxy)); ret = call_audio_dbus_call_audio_call_enable_speaker_finish(proxy, &success, result, &error); if (!ret) g_warning("EnableSpeaker DBus method invocation failed: %s", error->message); else if (!success) g_warning("EnableSpeaker unsuccessful"); g_debug("%s: D-bus call returned %d (success=%d)", __func__, ret, success); if (async_data && async_data->cb) async_data->cb(success, error, async_data->user_data); g_free(async_data); } /** * call_audio_enable_speaker_async: * @enable: Desired speaker state * @cb: Function to be called when operation completes * @data: User data to be passed to the callback function after completion. This * data is owned by the caller, which is responsible for freeing it. * * Enable or disable speaker output. */ gboolean call_audio_enable_speaker_async(gboolean enable, CallAudioCallback cb, gpointer data) { CallAudioAsyncData *async_data = g_new0(CallAudioAsyncData, 1); if (!_initted || !async_data) return FALSE; async_data->cb = cb; async_data->user_data = data; call_audio_dbus_call_audio_call_enable_speaker(_proxy, enable, NULL, enable_speaker_done, async_data); return TRUE; } /** * call_audio_get_speaker_state: * * Returns: %CALL_AUDIO_SPEAKER_ON if the speaker is on, %CALL_AUDIO_SPEAKER_OFF if it is off or * %CALL_AUDIO_SPEAKER_UNKNOWN if the state is not known. */ CallAudioSpeakerState call_audio_get_speaker_state(void) { if (!_initted) return CALL_AUDIO_SPEAKER_UNKNOWN; return call_audio_dbus_call_audio_get_speaker_state(_proxy); } /** * call_audio_enable_speaker: * @enable: Desired speaker state * @error: The error that will be set if the audio mode could not be selected. * * Enable or disable speaker output. This function is synchronous, and will * return only once the operation has been executed. * * Returns: %TRUE if successful, or %FALSE on error. */ gboolean call_audio_enable_speaker(gboolean enable, GError **error) { gboolean success = FALSE; gboolean ret; if (!_initted) return FALSE; ret = call_audio_dbus_call_audio_call_enable_speaker_sync(_proxy, enable, &success, NULL, error); if (!ret) { g_warning("EnableSpeaker DBus method invocation failed: %s", (*error)->message); } else if (!success) { g_warning("EnableSpeaker (%sable) unsuccessful", enable ? "en" : "dis"); g_set_error_literal(error, G_IO_ERROR, G_IO_ERROR_FAILED, "Operation failed"); } g_debug("EnableSpeaker %s: success=%d", ret ? "succeeded" : "failed", success); return success; } static void mute_mic_done(GObject *object, GAsyncResult *result, gpointer data) { CallAudioDbusCallAudio *proxy = CALL_AUDIO_DBUS_CALL_AUDIO(object); CallAudioAsyncData *async_data = data; GError *error = NULL; gboolean success = FALSE; gboolean ret; g_return_if_fail(CALL_AUDIO_DBUS_IS_CALL_AUDIO(proxy)); ret = call_audio_dbus_call_audio_call_mute_mic_finish(proxy, &success, result, &error); if (!ret) g_warning("MuteMic DBus method invocation failed: %s", error->message); else if (!success) g_warning("MuteMic unsuccessful"); g_debug("%s: D-bus call returned %d (success=%d)", __func__, ret, success); if (async_data && async_data->cb) async_data->cb(success, error, async_data->user_data); g_free(async_data); } /** * call_audio_mute_mic_async: * @mute: %TRUE to mute the microphone, or %FALSE to unmute it * @cb: Function to be called when operation completes * @data: User data to be passed to the callback function after completion. This * data is owned by the caller, which is responsible for freeing it. * * Mute or unmute microphone. */ gboolean call_audio_mute_mic_async(gboolean mute, CallAudioCallback cb, gpointer data) { CallAudioAsyncData *async_data = g_new0(CallAudioAsyncData, 1); if (!_initted || !async_data) return FALSE; async_data->cb = cb; async_data->user_data = data; call_audio_dbus_call_audio_call_mute_mic(_proxy, mute, NULL, mute_mic_done, async_data); return TRUE; } /** * call_audio_mute_mic: * @mute: %TRUE to mute the microphone, or %FALSE to unmute it * @error: The error that will be set if the audio mode could not be selected. * * Mute or unmute microphone. This function is synchronous, and will return * only once the operation has been executed. * * Returns: %TRUE if successful, or %FALSE on error. */ gboolean call_audio_mute_mic(gboolean mute, GError **error) { gboolean success = FALSE; gboolean ret; if (!_initted) return FALSE; ret = call_audio_dbus_call_audio_call_mute_mic_sync(_proxy, mute, &success, NULL, error); if (!ret) { g_warning("MuteMic DBus method invocation failed: %s", (*error)->message); } else if (!success) { g_warning("MuteMic (%smute) unsuccessful", mute ? "" : "un"); g_set_error_literal(error, G_IO_ERROR, G_IO_ERROR_FAILED, "Operation failed"); } g_debug("MuteMic %s: success=%d", ret ? "succeeded" : "failed", success); return success; } /** * call_audio_get_mic_state: * * Returns: %CALL_AUDIO_MIC_ON if the microphone is on, %CALL_AUDIO_MIC_OFF if it is off or * %CALL_AUDIO_MIC_UNKNOWN if the state is not known. */ CallAudioMicState call_audio_get_mic_state(void) { if (!_initted) return CALL_AUDIO_MIC_UNKNOWN; return call_audio_dbus_call_audio_get_mic_state(_proxy); } 0707010000001F000081A400000000000000000000000164632D5900000946000000000000000000000000000000000000002D00000000callaudiod-0.1.9/libcallaudio/libcallaudio.h/* * Copyright (C) 2020 Purism SPC * Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> * * SPDX-License-Identifier: LGPL-2.1-or-later */ #pragma once #include "libcallaudio-enums.h" #include <glib.h> G_BEGIN_DECLS /** * CallAudioMode: * @CALL_AUDIO_MODE_DEFAULT: Default mode (used for music, alarms, ringtones...) * @CALL_AUDIO_MODE_CALL: Voice call mode * @CALL_AUDIO_MODE_UNKNOWN: Mode unknown * * Enum values to indicate the mode to be selected. */ typedef enum { CALL_AUDIO_MODE_DEFAULT = 0, CALL_AUDIO_MODE_CALL, CALL_AUDIO_MODE_UNKNOWN = 255 } CallAudioMode; /** * CallAudioSpeakerState: * @CALL_AUDIO_SPEAKER_OFF: Speaker disabled * @CALL_AUDIO_SPEAKER_ON: Speaker enabled * @CALL_AUDIO_SPEAKER_UNKNOWN: Unknown */ typedef enum { CALL_AUDIO_SPEAKER_OFF = 0, CALL_AUDIO_SPEAKER_ON = 1, CALL_AUDIO_SPEAKER_UNKNOWN = 255 } CallAudioSpeakerState; /** * CallAudioMicState: * @CALL_AUDIO_MIC_OFF: Mic disabled * @CALL_AUDIO_MIC_ON: Mic enabled * @CALL_AUDIO_MIC_UNKNOWN: Unknown */ typedef enum { CALL_AUDIO_MIC_OFF = 0, CALL_AUDIO_MIC_ON, CALL_AUDIO_MIC_UNKNOWN = 255 } CallAudioMicState; typedef void (*CallAudioCallback)(gboolean success, GError *error, gpointer data); gboolean call_audio_init (GError **error); gboolean call_audio_is_inited(void); void call_audio_deinit (void); gboolean call_audio_select_mode (CallAudioMode mode, GError **error); gboolean call_audio_select_mode_async(CallAudioMode mode, CallAudioCallback cb, gpointer data); CallAudioMode call_audio_get_audio_mode(void); gboolean call_audio_enable_speaker (gboolean enable, GError **error); gboolean call_audio_enable_speaker_async(gboolean enable, CallAudioCallback cb, gpointer data); CallAudioSpeakerState call_audio_get_speaker_state(void); gboolean call_audio_mute_mic (gboolean mute, GError **error); gboolean call_audio_mute_mic_async(gboolean mute, CallAudioCallback cb, gpointer data); CallAudioMicState call_audio_get_mic_state(void); G_END_DECLS 07070100000020000081A400000000000000000000000164632D590000003E000000000000000000000000000000000000003000000000callaudiod-0.1.9/libcallaudio/libcallaudio.symsLIBCALLAUDIO_0_0_0 { global: call_audio_*; local: *; }; 07070100000021000081A400000000000000000000000164632D590000086C000000000000000000000000000000000000002A00000000callaudiod-0.1.9/libcallaudio/meson.build# Shared library and language bindings libcallaudio_libdir = get_option('libdir') libcallaudio_header_dir = get_option('includedir') / libname libcallaudio_link_args = [] libcallaudio_symbols_file = 'libcallaudio.syms' # Check linker flags ld_version_script_arg = '-Wl,--version-script,@0@'.format(meson.current_source_dir() / libcallaudio_symbols_file) if cc.links('int main() { return 0; }', args : ld_version_script_arg, name : 'ld_supports_version_script') libcallaudio_link_args += [ld_version_script_arg] endif libcallaudio_headers = [ 'libcallaudio.h', ] libcallaudio_enum_sources = gnome.mkenums_simple( 'libcallaudio-enums', sources : libcallaudio_headers, install_header : true, install_dir : libcallaudio_header_dir, ) libcallaudio_sources = [ generated_dbus_sources, libcallaudio_enum_sources, libcallaudio_headers, 'libcallaudio.c', ] libcallaudio_deps = [ dependency('gobject-2.0'), dependency('gio-unix-2.0'), ] libcallaudio_c_args = [ '-DG_LOG_DOMAIN="libcallaudio"', ] libcallaudio_inc = include_directories('.', '../src') libtype = 'shared_library' libcallaudio = build_target( 'callaudio-' + apiversion, libcallaudio_sources, soversion : 0, c_args : libcallaudio_c_args, include_directories : libcallaudio_inc, dependencies : libcallaudio_deps, link_args : libcallaudio_link_args, install : true, install_dir : libcallaudio_libdir, target_type : libtype, ) libcallaudio_dep = declare_dependency( sources : [generated_dbus_sources, libcallaudio_enum_sources[1]], link_with : libcallaudio, dependencies: libcallaudio_deps, include_directories : libcallaudio_inc, ) install_headers(libcallaudio_headers, subdir : libname) pkgconfig = import('pkgconfig') pkgconfig.generate( libraries : [libcallaudio], subdirs : libname, version : meson.project_version(), name : 'CallAudio', filebase : 'libcallaudio-@0@'.format(apiversion), description : 'call audio library', requires : 'gio-2.0', install_dir : join_paths(libcallaudio_libdir, 'pkgconfig'), ) 07070100000022000081A400000000000000000000000164632D5900000A02000000000000000000000000000000000000001D00000000callaudiod-0.1.9/meson.build# # Copyright (C) 2019 Purism SPC # Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> # # SPDX-License-Identifier: GPL-3.0-or-later # project ( 'callaudiod', 'c', version : '0.1.9', license : 'LGPLv3+', meson_version : '>= 0.50.0', default_options : [ 'warning_level=1', 'buildtype=debugoptimized', 'c_std=gnu11' ], ) cc = meson.get_compiler('c') cc = meson.get_compiler('c') global_c_args = [] test_c_args = [ '-Wcast-align', '-Wdate-time', '-Wdeclaration-after-statement', ['-Werror=format-security', '-Werror=format=2'], '-Wendif-labels', '-Werror=incompatible-pointer-types', '-Werror=missing-declarations', '-Werror=overflow', '-Werror=return-type', '-Werror=shift-count-overflow', '-Werror=shift-overflow=2', '-Werror=implicit-fallthrough=3', '-Wfloat-equal', '-Wformat-nonliteral', '-Wformat-security', '-Winit-self', '-Wmaybe-uninitialized', '-Wmissing-field-initializers', '-Wmissing-include-dirs', '-Wmissing-noreturn', '-Wnested-externs', '-Wno-missing-field-initializers', '-Wno-sign-compare', '-Wno-strict-aliasing', '-Wno-unused-parameter', '-Wold-style-definition', '-Wpointer-arith', '-Wredundant-decls', '-Wshadow', '-Wstrict-prototypes', '-Wswitch-default', '-Wswitch-enum', '-Wtype-limits', '-Wundef', '-Wunused-function', ] foreach arg: test_c_args if cc.has_multi_arguments(arg) global_c_args += arg endif endforeach add_project_arguments( global_c_args, language: 'c' ) app_name = meson.project_name() prefix = get_option('prefix') datadir = get_option('datadir') sysconfdir = get_option('sysconfdir') bindir = join_paths(prefix, get_option('bindir')) libdir = join_paths(prefix, get_option('libdir')) ifacedir = join_paths(prefix, join_paths(datadir, 'dbus-1', 'interfaces')) servicedir = join_paths(prefix, join_paths(datadir, 'dbus-1', 'services')) if datadir.startswith('/') full_datadir = datadir else full_datadir = join_paths(prefix, datadir) endif if sysconfdir.startswith('/') full_sysconfdir = sysconfdir else full_sysconfdir = join_paths(prefix, sysconfdir) endif apiversion = '0.1' libname = 'libcallaudio-' + apiversion config_data = configuration_data() config_data.set_quoted('APP_DATA_NAME', app_name) config_data.set_quoted('DATADIR', full_datadir) config_data.set_quoted('SYSCONFDIR', full_sysconfdir) config_h = configure_file ( output: 'config.h', configuration: config_data ) subdir('data') subdir('libcallaudio') subdir('src') subdir('tools') subdir('doc') 07070100000023000081A400000000000000000000000164632D5900000083000000000000000000000000000000000000002300000000callaudiod-0.1.9/meson_options.txtoption('gtk_doc', type: 'boolean', value: false, description: 'Whether to generate the API reference for Callaudio') 07070100000024000041ED00000000000000000000000264632D5900000000000000000000000000000000000000000000001500000000callaudiod-0.1.9/src07070100000025000081A400000000000000000000000164632D59000013C9000000000000000000000000000000000000002300000000callaudiod-0.1.9/src/cad-manager.c/* * Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> * * SPDX-License-Identifier: GPL-3.0-or-later */ #define G_LOG_DOMAIN "callaudiod-manager" #include "callaudiod.h" #include "cad-manager.h" #include "cad-pulse.h" #include "libcallaudio.h" #include <gio/gio.h> #include <glib-unix.h> typedef struct _CadManager { CallAudioDbusCallAudioSkeleton parent; } CadManager; static void cad_manager_call_audio_iface_init(CallAudioDbusCallAudioIface *iface); G_DEFINE_TYPE_WITH_CODE(CadManager, cad_manager, CALL_AUDIO_DBUS_TYPE_CALL_AUDIO_SKELETON, G_IMPLEMENT_INTERFACE(CALL_AUDIO_DBUS_TYPE_CALL_AUDIO, cad_manager_call_audio_iface_init)); static void complete_command_cb(CadOperation *op) { if (!op) return; switch (op->type) { case CAD_OPERATION_SELECT_MODE: call_audio_dbus_call_audio_complete_select_mode(op->object, op->invocation, op->success); break; case CAD_OPERATION_ENABLE_SPEAKER: call_audio_dbus_call_audio_complete_enable_speaker(op->object, op->invocation, op->success); break; case CAD_OPERATION_MUTE_MIC: call_audio_dbus_call_audio_complete_mute_mic(op->object, op->invocation, op->success); break; default: g_dbus_method_invocation_return_error(op->invocation, G_DBUS_ERROR, G_DBUS_ERROR_UNKNOWN_METHOD, "Unknown operation"); g_critical("unknown operation %d", op->type); break; } } static gboolean cad_manager_handle_select_mode(CallAudioDbusCallAudio *object, GDBusMethodInvocation *invocation, guint mode) { CadOperation *op; switch ((CallAudioMode)mode) { case CALL_AUDIO_MODE_DEFAULT: case CALL_AUDIO_MODE_CALL: break; case CALL_AUDIO_MODE_UNKNOWN: default: g_dbus_method_invocation_return_error(invocation, G_DBUS_ERROR, G_DBUS_ERROR_INVALID_ARGS, "Invalid mode %u", mode); return TRUE; } op = g_new(CadOperation, 1); op->type = CAD_OPERATION_SELECT_MODE; op->value = GUINT_TO_POINTER(mode); op->object = object; op->invocation = invocation; op->callback = complete_command_cb; g_debug("Select mode: %u", mode); cad_pulse_select_mode(mode, op); return TRUE; } static CallAudioMode cad_manager_get_audio_mode(CallAudioDbusCallAudio *object) { return cad_pulse_get_audio_mode(); } static gboolean cad_manager_handle_enable_speaker(CallAudioDbusCallAudio *object, GDBusMethodInvocation *invocation, gboolean enable) { CadOperation *op; op = g_new(CadOperation, 1); op->type = CAD_OPERATION_ENABLE_SPEAKER; op->value = GUINT_TO_POINTER(enable ? CALL_AUDIO_SPEAKER_ON : CALL_AUDIO_SPEAKER_OFF); op->object = object; op->invocation = invocation; op->callback = complete_command_cb; g_debug("Enable speaker: %d", enable); cad_pulse_enable_speaker(enable, op); return TRUE; } static CallAudioSpeakerState cad_manager_get_speaker_state(CallAudioDbusCallAudio *object) { return cad_pulse_get_speaker_state(); } static gboolean cad_manager_handle_mute_mic(CallAudioDbusCallAudio *object, GDBusMethodInvocation *invocation, gboolean mute) { CadOperation *op; op = g_new(CadOperation, 1); op->type = CAD_OPERATION_MUTE_MIC; op->value = GUINT_TO_POINTER(mute ? CALL_AUDIO_MIC_OFF : CALL_AUDIO_MIC_ON); op->object = object; op->invocation = invocation; op->callback = complete_command_cb; g_debug("Mute mic: %d", mute); cad_pulse_mute_mic(mute, op); return TRUE; } static CallAudioMicState cad_manager_get_mic_state(CallAudioDbusCallAudio *object) { return cad_pulse_get_mic_state(); } static void cad_manager_call_audio_iface_init(CallAudioDbusCallAudioIface *iface) { iface->handle_select_mode = cad_manager_handle_select_mode; iface->get_audio_mode = cad_manager_get_audio_mode; iface->handle_enable_speaker = cad_manager_handle_enable_speaker; iface->get_speaker_state = cad_manager_get_speaker_state; iface->handle_mute_mic = cad_manager_handle_mute_mic; iface->get_mic_state = cad_manager_get_mic_state; } static void cad_manager_class_init(CadManagerClass *klass) { } static void cad_manager_init(CadManager *self) { } CadManager *cad_manager_get_default(void) { static CadManager *manager; if (manager == NULL) { g_debug("initializing manager..."); manager = g_object_new(CAD_TYPE_MANAGER, NULL); g_object_add_weak_pointer(G_OBJECT(manager), (gpointer *)&manager); } return manager; } 07070100000026000081A400000000000000000000000164632D59000001C7000000000000000000000000000000000000002300000000callaudiod-0.1.9/src/cad-manager.h/* * Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> * * SPDX-License-Identifier: GPL-3.0-or-later */ #pragma once #include "callaudio-dbus.h" #include "cad-operation.h" #include <glib-object.h> G_BEGIN_DECLS #define CAD_TYPE_MANAGER (cad_manager_get_type()) G_DECLARE_FINAL_TYPE(CadManager, cad_manager, CAD, MANAGER, CallAudioDbusCallAudioSkeleton); CadManager *cad_manager_get_default(void); G_END_DECLS 07070100000027000081A400000000000000000000000164632D59000003A4000000000000000000000000000000000000002500000000callaudiod-0.1.9/src/cad-operation.h/* * Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> * * SPDX-License-Identifier: GPL-3.0-or-later */ #pragma once #include "callaudio-dbus.h" #include <glib-object.h> /** * CadOperationType: * @CAD_OPERATION_SELECT_MODE: Selecting an audio mode (default mode, voice call mode) * @CAD_OPERATION_ENABLE_SPEAKER: Enable or disable the loudspeaker * @CAD_OPERATION_MUTE_MIC: Mute or unmute the microphone * * Enum values to indicate the operation to be performed. */ typedef enum { CAD_OPERATION_SELECT_MODE = 0, CAD_OPERATION_ENABLE_SPEAKER, CAD_OPERATION_MUTE_MIC, } CadOperationType; typedef struct _CadOperation CadOperation; typedef void (*CadOperationCallback)(CadOperation *op); struct _CadOperation { CadOperationType type; gpointer value; CallAudioDbusCallAudio *object; GDBusMethodInvocation *invocation; CadOperationCallback callback; gboolean success; }; 07070100000028000081A400000000000000000000000164632D5900008A1D000000000000000000000000000000000000002100000000callaudiod-0.1.9/src/cad-pulse.c/* * Copyright (C) 2018, 2019 Purism SPC * Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> * * SPDX-License-Identifier: GPL-3.0-or-later */ #define G_LOG_DOMAIN "callaudiod-pulse" #include "cad-manager.h" #include "cad-pulse.h" #include <glib/gi18n.h> #include <glib-object.h> #include <pulse/pulseaudio.h> #include <pulse/glib-mainloop.h> #include <alsa/use-case.h> #include <string.h> #include <stdio.h> #define APPLICATION_NAME "CallAudio" #define APPLICATION_ID "org.mobian-project.CallAudio" #define SINK_CLASS "sound" #define CARD_FORM_FACTOR "internal" #define CARD_MODEM_CLASS "modem" #define CARD_MODEM_NAME "Modem" struct _CadPulse { GObject parent_instance; GObject *manager; pa_glib_mainloop *loop; pa_context *ctx; int card_id; int sink_id; int source_id; gboolean has_voice_profile; gchar *speaker_port; gchar *earpiece_port; GHashTable *sink_ports; GHashTable *source_ports; CallAudioMode audio_mode; CallAudioSpeakerState speaker_state; CallAudioMicState mic_state; }; G_DEFINE_TYPE(CadPulse, cad_pulse, G_TYPE_OBJECT); typedef struct _CadPulseOperation { CadPulse *pulse; CadOperation *op; guint value; } CadPulseOperation; static void pulseaudio_cleanup(CadPulse *self); static gboolean pulseaudio_connect(CadPulse *self); static gboolean init_pulseaudio_objects(gpointer data); /****************************************************************************** * Source management * * The following functions take care of monitoring and configuring the default * source (input) ******************************************************************************/ static const gchar *get_available_source_port(const pa_source_info *source, const gchar *exclude) { pa_source_port_info *available_port = NULL; guint i; g_debug("looking for available input excluding '%s'", exclude); for (i = 0; i < source->n_ports; i++) { pa_source_port_info *port = source->ports[i]; if ((exclude && strcmp(port->name, exclude) == 0) || port->available == PA_PORT_AVAILABLE_NO) { continue; } if (!available_port || port->priority > available_port->priority) available_port = port; } if (available_port) { g_debug("found available input '%s'", available_port->name); return available_port->name; } g_warning("no available input found!"); return NULL; } static void change_source_info(pa_context *ctx, const pa_source_info *info, int eol, void *data) { CadPulse *self = data; const gchar *target_port; pa_operation *op; gboolean change = FALSE; guint i; if (eol != 0) return; if (!info) { g_critical("PA returned no source info (eol=%d)", eol); return; } if (info->index != self->source_id) return; for (i = 0; i < info->n_ports; i++) { pa_source_port_info *port = info->ports[i]; if (port->available != PA_PORT_AVAILABLE_UNKNOWN) { enum pa_port_available available; available = GPOINTER_TO_INT(g_hash_table_lookup(self->source_ports, port->name)); if (available != port->available) { g_hash_table_insert(self->source_ports, g_strdup(port->name), GINT_TO_POINTER(port->available)); change = TRUE; } } } if (change) { target_port = get_available_source_port(info, NULL); if (target_port) { op = pa_context_set_source_port_by_index(ctx, self->source_id, target_port, NULL, NULL); if (op) pa_operation_unref(op); } } } static void process_new_source(CadPulse *self, const pa_source_info *info) { const gchar *prop; int i; prop = pa_proplist_gets(info->proplist, PA_PROP_DEVICE_CLASS); if (prop && strcmp(prop, SINK_CLASS) != 0) return; if (info->monitor_of_sink != PA_INVALID_INDEX) return; if (info->card != self->card_id || self->source_id != -1) return; self->source_id = info->index; if (self->source_ports) g_hash_table_destroy(self->source_ports); self->source_ports = g_hash_table_new_full(g_str_hash, g_str_equal, g_free, NULL); for (i = 0; i < info->n_ports; i++) { pa_source_port_info *port = info->ports[i]; if (port->available != PA_PORT_AVAILABLE_UNKNOWN) { g_hash_table_insert (self->source_ports, g_strdup(port->name), GINT_TO_POINTER(port->available)); } } g_debug("SOURCE: idx=%u name='%s'", info->index, info->name); } static void init_source_info(pa_context *ctx, const pa_source_info *info, int eol, void *data) { CadPulse *self = data; const gchar *target_port; pa_operation *op; if (eol != 0) return; if (!info) { g_critical("PA returned no source info (eol=%d)", eol); return; } process_new_source(self, info); if (self->source_id < 0 || self->source_id != info->index) return; op = pa_context_set_default_source(ctx, info->name, NULL, NULL); if (op) pa_operation_unref(op); if (self->mic_state == CALL_AUDIO_MIC_UNKNOWN) { if (info->mute) self->mic_state = CALL_AUDIO_MIC_OFF; else self->mic_state = CALL_AUDIO_MIC_ON; g_object_set(self->manager, "mic-state", self->mic_state, NULL); } target_port = get_available_source_port(info, NULL); if (target_port) { op = pa_context_set_source_port_by_index(ctx, self->source_id, target_port, NULL, NULL); if (op) pa_operation_unref(op); } } /****************************************************************************** * Sink management * * The following functions take care of monitoring and configuring the default * sink (output) ******************************************************************************/ static const gchar *get_available_sink_port(const pa_sink_info *sink, const gchar *exclude) { pa_sink_port_info *available_port = NULL; guint i; g_debug("looking for available output excluding '%s'", exclude); for (i = 0; i < sink->n_ports; i++) { pa_sink_port_info *port = sink->ports[i]; if ((exclude && strcmp(port->name, exclude) == 0) || port->available == PA_PORT_AVAILABLE_NO) { continue; } if (!available_port || port->priority > available_port->priority) available_port = port; } if (available_port) { g_debug("found available output '%s'", available_port->name); return available_port->name; } g_warning("no available output found!"); return NULL; } static void change_sink_info(pa_context *ctx, const pa_sink_info *info, int eol, void *data) { CadPulse *self = data; const gchar *target_port; pa_operation *op; gboolean change = FALSE; guint i; if (eol != 0) return; if (!info) { g_critical("PA returned no sink info (eol=%d)", eol); return; } if (info->index != self->sink_id) return; for (i = 0; i < info->n_ports; i++) { pa_sink_port_info *port = info->ports[i]; if (port->available != PA_PORT_AVAILABLE_UNKNOWN) { enum pa_port_available available; available = GPOINTER_TO_INT(g_hash_table_lookup(self->sink_ports, port->name)); if (available != port->available) { g_hash_table_insert(self->sink_ports, g_strdup(port->name), GINT_TO_POINTER(port->available)); change = TRUE; } } } if (change) { target_port = get_available_sink_port(info, NULL); if (target_port) { op = pa_context_set_sink_port_by_index(ctx, self->sink_id, target_port, NULL, NULL); if (op) pa_operation_unref(op); } } } static void process_new_sink(CadPulse *self, const pa_sink_info *info) { const gchar *prop; guint i; prop = pa_proplist_gets(info->proplist, PA_PROP_DEVICE_CLASS); if (prop && strcmp(prop, SINK_CLASS) != 0) return; if (info->card != self->card_id || self->sink_id != -1) return; self->sink_id = info->index; if (self->sink_ports) g_hash_table_destroy(self->sink_ports); self->sink_ports = g_hash_table_new_full(g_str_hash, g_str_equal, g_free, NULL); g_debug("SINK: idx=%u name='%s'", info->index, info->name); for (i = 0; i < info->n_ports; i++) { pa_sink_port_info *port = info->ports[i]; switch (port->type) { case PA_DEVICE_PORT_TYPE_SPEAKER: if (self->speaker_port) { if (strcmp(port->name, self->speaker_port) != 0) { g_free(self->speaker_port); self->speaker_port = g_strdup(port->name); } } else { self->speaker_port = g_strdup(port->name); } break; case PA_DEVICE_PORT_TYPE_EARPIECE: case PA_DEVICE_PORT_TYPE_HANDSET: case PA_DEVICE_PORT_TYPE_HEADPHONES: if (self->earpiece_port) { if (strcmp(port->name, self->earpiece_port) != 0) { g_free(self->earpiece_port); self->earpiece_port = g_strdup(port->name); } } else { self->earpiece_port = g_strdup(port->name); } break; default: break; } if (port->available != PA_PORT_AVAILABLE_UNKNOWN) { g_hash_table_insert (self->sink_ports, g_strdup(port->name), GINT_TO_POINTER(port->available)); } } g_debug("SINK: speaker_port='%s'", self->speaker_port); g_debug("SINK: earpiece_port='%s'", self->earpiece_port); } static void init_sink_info(pa_context *ctx, const pa_sink_info *info, int eol, void *data) { CadPulse *self = data; const gchar *target_port; pa_operation *op; if (eol != 0) return; if (!info) { g_critical("PA returned no sink info (eol=%d)", eol); return; } process_new_sink(self, info); if (self->sink_id < 0 || self->sink_id != info->index) return; op = pa_context_set_default_sink(ctx, info->name, NULL, NULL); if (op) pa_operation_unref(op); if (self->speaker_state == CALL_AUDIO_SPEAKER_UNKNOWN) { self->speaker_state = CALL_AUDIO_SPEAKER_OFF; switch (self->audio_mode) { case CALL_AUDIO_MODE_CALL: if (g_strcmp0(info->active_port->name, self->speaker_port) == 0) { self->speaker_state = CALL_AUDIO_SPEAKER_ON; g_object_set(self->manager, "speaker-state", self->speaker_state, NULL); /* * callaudiod likely restarted after being killed during a call * during which the speaker was enabled. End processing here so * we keep the current routing and don't unexpectedly mess with * the call setup. */ return; } break; case CALL_AUDIO_MODE_UNKNOWN: /* * Let's see if we can guess the current mode: * - if current port is earpiece, we're likely in call mode * - otherwise we're either in default mode, or call mode with * speaker enabled. Let's settle for the former as both situations * are technically equivalent. * * Note: this code path is only used when the card doesn't have a * voice profile, otherwise things are easier to deal with. */ if (g_strcmp0(info->active_port->name, self->earpiece_port) == 0) { self->audio_mode = CALL_AUDIO_MODE_CALL; g_object_set(self->manager, "audio-mode", self->audio_mode, NULL); /* * Don't touch routing as we're likely in the middle of a call, * see above. */ return; } else { self->audio_mode = CALL_AUDIO_MODE_DEFAULT; g_object_set(self->manager, "audio-mode", self->audio_mode, NULL); } break; case CALL_AUDIO_MODE_DEFAULT: default: break; } g_object_set(self->manager, "speaker-state", self->speaker_state, NULL); } target_port = get_available_sink_port(info, NULL); if (target_port) { g_debug(" Using sink port '%s'", target_port); op = pa_context_set_sink_port_by_index(ctx, self->sink_id, target_port, NULL, NULL); if (op) pa_operation_unref(op); } } /****************************************************************************** * Card management * * The following functions take care of gathering information about the default * sound card ******************************************************************************/ static void init_card_info(pa_context *ctx, const pa_card_info *info, int eol, void *data) { CadPulse *self = data; pa_operation *op; const gchar *prop; gboolean has_speaker = FALSE; gboolean has_earpiece = FALSE; guint i; if (eol != 0) { if (self->card_id < 0) { g_critical("No suitable card found, stopping here..."); } return; } if (!info) { g_critical("PA returned no card info (eol=%d)", eol); return; } prop = pa_proplist_gets(info->proplist, "alsa.card_name"); g_debug("CARD: prop %s = %s", "alsa.card_name", prop); if (prop && strstr(prop, CARD_MODEM_NAME) != 0) return; prop = pa_proplist_gets(info->proplist, PA_PROP_DEVICE_CLASS); g_debug("CARD: prop %s = %s", PA_PROP_DEVICE_CLASS, prop); if (prop && strcmp(prop, CARD_MODEM_CLASS) == 0) return; for (i = 0; i < info->n_ports; i++) { pa_card_port_info *port = info->ports[i]; g_debug("CARD: port %d/%d, name=%s", i, info->n_ports-1, port->name); switch (port->type) { case PA_DEVICE_PORT_TYPE_SPEAKER: has_speaker = TRUE; break; case PA_DEVICE_PORT_TYPE_EARPIECE: case PA_DEVICE_PORT_TYPE_HANDSET: case PA_DEVICE_PORT_TYPE_HEADPHONES: has_earpiece = TRUE; break; default: break; } } if (!has_speaker || !has_earpiece) { g_message("Card '%s' lacks speaker and/or earpiece port, skipping...", info->name); return; } self->card_id = info->index; g_debug("CARD: idx=%u name='%s'", info->index, info->name); for (i = 0; i < info->n_profiles; i++) { pa_card_profile_info2 *profile = info->profiles2[i]; if (strstr(profile->name, SND_USE_CASE_VERB_VOICECALL) != NULL) { self->has_voice_profile = TRUE; if (info->active_profile2 == profile) self->audio_mode = CALL_AUDIO_MODE_CALL; else self->audio_mode = CALL_AUDIO_MODE_DEFAULT; break; } } // We were able determine the current mode, set the corresponding D-Bus property if (self->audio_mode != CALL_AUDIO_MODE_UNKNOWN) g_object_set(self->manager, "audio-mode", self->audio_mode, NULL); g_debug("CARD: %s voice profile", self->has_voice_profile ? "has" : "doesn't have"); /* Found a suitable card, let's prepare the sink/source */ op = pa_context_get_sink_info_list(self->ctx, init_sink_info, self); if (op) pa_operation_unref(op); op = pa_context_get_source_info_list(self->ctx, init_source_info, self); if (op) pa_operation_unref(op); } /****************************************************************************** * PulseAudio management * * The following functions configure the PulseAudio connection and monitor the * state of PulseAudio objects ******************************************************************************/ static void init_module_info(pa_context *ctx, const pa_module_info *info, int eol, void *data) { pa_operation *op; if (eol != 0) return; if (!info) { g_critical("PA returned no module info (eol=%d)", eol); return; } g_debug("MODULE: idx=%u name='%s'", info->index, info->name); if (strcmp(info->name, "module-switch-on-port-available") == 0) { g_debug("MODULE: unloading '%s'", info->name); op = pa_context_unload_module(ctx, info->index, NULL, NULL); if (op) pa_operation_unref(op); } } static gboolean init_pulseaudio_objects(gpointer data) { CadPulse *self = data; pa_operation *op; self->card_id = self->sink_id = self->source_id = -1; self->sink_ports = self->source_ports = NULL; op = pa_context_get_card_info_list(self->ctx, init_card_info, self); if (op) pa_operation_unref(op); op = pa_context_get_module_info_list(self->ctx, init_module_info, self); if (op) pa_operation_unref(op); return G_SOURCE_REMOVE; } static void changed_cb(pa_context *ctx, pa_subscription_event_type_t type, uint32_t idx, void *data) { CadPulse *self = data; pa_subscription_event_type_t kind = type & PA_SUBSCRIPTION_EVENT_TYPE_MASK; pa_operation *op = NULL; switch (type & PA_SUBSCRIPTION_EVENT_FACILITY_MASK) { case PA_SUBSCRIPTION_EVENT_SINK: if (idx == self->sink_id && kind == PA_SUBSCRIPTION_EVENT_REMOVE) { g_debug("sink %u removed", idx); self->sink_id = -1; g_hash_table_destroy(self->sink_ports); self->sink_ports = NULL; } else if (kind == PA_SUBSCRIPTION_EVENT_NEW) { g_debug("new sink %u", idx); op = pa_context_get_sink_info_by_index(ctx, idx, init_sink_info, self); if (op) pa_operation_unref(op); } break; case PA_SUBSCRIPTION_EVENT_SOURCE: if (idx == self->source_id && kind == PA_SUBSCRIPTION_EVENT_REMOVE) { g_debug("source %u removed", idx); self->source_id = -1; g_hash_table_destroy(self->source_ports); self->source_ports = NULL; } else if (kind == PA_SUBSCRIPTION_EVENT_NEW) { g_debug("new source %u", idx); op = pa_context_get_source_info_by_index(ctx, idx, init_source_info, self); if (op) pa_operation_unref(op); } break; case PA_SUBSCRIPTION_EVENT_CARD: if (self->card_id < 0 && kind == PA_SUBSCRIPTION_EVENT_NEW) { g_debug("card %u added, but no valid card detected yet, retrying...", idx); g_idle_add(init_pulseaudio_objects, self); } else if (idx == self->card_id && kind == PA_SUBSCRIPTION_EVENT_CHANGE) { g_debug("card %u changed", idx); if (self->sink_id != -1) { op = pa_context_get_sink_info_by_index(ctx, self->sink_id, change_sink_info, self); if (op) pa_operation_unref(op); } if (self->source_id != -1) { op = pa_context_get_source_info_by_index(ctx, self->source_id, change_source_info, self); if (op) pa_operation_unref(op); } } break; default: break; } } static void pulse_state_cb(pa_context *ctx, void *data) { CadPulse *self = data; pa_context_state_t state; state = pa_context_get_state(ctx); switch (state) { case PA_CONTEXT_UNCONNECTED: case PA_CONTEXT_CONNECTING: case PA_CONTEXT_AUTHORIZING: case PA_CONTEXT_SETTING_NAME: g_debug("PA not ready"); break; case PA_CONTEXT_FAILED: g_critical("Error in PulseAudio context: %s", pa_strerror(pa_context_errno(ctx))); pulseaudio_cleanup(self); g_idle_add(G_SOURCE_FUNC(pulseaudio_connect), self); break; case PA_CONTEXT_TERMINATED: case PA_CONTEXT_READY: pa_context_set_subscribe_callback(ctx, changed_cb, self); pa_context_subscribe(ctx, PA_SUBSCRIPTION_MASK_SINK | PA_SUBSCRIPTION_MASK_SOURCE | PA_SUBSCRIPTION_MASK_CARD, NULL, self); g_debug("PA is ready, initializing cards list"); g_idle_add(init_pulseaudio_objects, self); break; default: g_return_if_reached(); } } static void pulseaudio_cleanup(CadPulse *self) { if (self->ctx) { pa_context_disconnect(self->ctx); pa_context_unref(self->ctx); self->ctx = NULL; } } static gboolean pulseaudio_connect(CadPulse *self) { pa_proplist *props; int err; /* Meta data */ props = pa_proplist_new(); g_assert(props != NULL); err = pa_proplist_sets(props, PA_PROP_APPLICATION_NAME, APPLICATION_NAME); err = pa_proplist_sets(props, PA_PROP_APPLICATION_ID, APPLICATION_ID); if (!self->loop) self->loop = pa_glib_mainloop_new(NULL); if (!self->loop) g_error ("Error creating PulseAudio main loop"); if (!self->ctx) self->ctx = pa_context_new(pa_glib_mainloop_get_api(self->loop), APPLICATION_NAME); if (!self->ctx) g_error ("Error creating PulseAudio context"); pa_context_set_state_callback(self->ctx, (pa_context_notify_cb_t)pulse_state_cb, self); err = pa_context_connect(self->ctx, NULL, PA_CONTEXT_NOFAIL, 0); if (err < 0) g_error ("Error connecting to PulseAudio context: %s", pa_strerror(err)); return G_SOURCE_REMOVE; } /****************************************************************************** * GObject base functions ******************************************************************************/ static void constructed(GObject *object) { GObjectClass *parent_class = g_type_class_peek(G_TYPE_OBJECT); CadPulse *self = CAD_PULSE(object); pulseaudio_connect(self); parent_class->constructed(object); } static void dispose(GObject *object) { GObjectClass *parent_class = g_type_class_peek(G_TYPE_OBJECT); CadPulse *self = CAD_PULSE(object); if (self->speaker_port) g_free(self->speaker_port); if (self->earpiece_port) g_free(self->earpiece_port); pulseaudio_cleanup(self); if (self->loop) { pa_glib_mainloop_free(self->loop); self->loop = NULL; } parent_class->dispose(object); } static void cad_pulse_class_init(CadPulseClass *klass) { GObjectClass *object_class = G_OBJECT_CLASS(klass); object_class->constructed = constructed; object_class->dispose = dispose; } static void cad_pulse_init(CadPulse *self) { self->manager = G_OBJECT(cad_manager_get_default()); self->audio_mode = CALL_AUDIO_MODE_UNKNOWN; self->speaker_state = CALL_AUDIO_SPEAKER_UNKNOWN; self->mic_state = CALL_AUDIO_MIC_UNKNOWN; } CadPulse *cad_pulse_get_default(void) { static CadPulse *pulse = NULL; if (pulse == NULL) { g_debug("initializing pulseaudio backend..."); pulse = g_object_new(CAD_TYPE_PULSE, NULL); g_object_add_weak_pointer(G_OBJECT(pulse), (gpointer *)&pulse); } return pulse; } /****************************************************************************** * Commands management * * The following functions handle external requests to switch mode, output port * or microphone status ******************************************************************************/ static void operation_complete_cb(pa_context *ctx, int success, void *data) { CadPulseOperation *operation = data; g_debug("operation returned %d", success); if (operation) { if (operation->op) { operation->op->success = (gboolean)!!success; if (operation->op->callback) operation->op->callback(operation->op); if (operation->op->success) { guint new_value = GPOINTER_TO_UINT(operation->value); switch (operation->op->type) { case CAD_OPERATION_SELECT_MODE: if (operation->pulse->audio_mode != new_value) { operation->pulse->audio_mode = new_value; g_object_set(operation->pulse->manager, "audio-mode", new_value, NULL); } break; case CAD_OPERATION_ENABLE_SPEAKER: if (operation->pulse->speaker_state != new_value) { operation->pulse->speaker_state = new_value; g_object_set(operation->pulse->manager, "speaker-state", new_value, NULL); } break; case CAD_OPERATION_MUTE_MIC: /* * "Mute mic" operation's value is TRUE (1) for muting the mic, * so ensure mic_state carries the right value. */ new_value = new_value ? CALL_AUDIO_MIC_OFF : CALL_AUDIO_MIC_ON; if (operation->pulse->mic_state != new_value) { operation->pulse->mic_state = new_value; g_object_set(operation->pulse->manager, "mic-state", new_value, NULL); } break; default: break; } } free(operation->op); } free(operation); } } static void set_card_profile(pa_context *ctx, const pa_card_info *info, int eol, void *data) { CadPulseOperation *operation = data; pa_card_profile_info2 *profile; pa_operation *op = NULL; if (eol != 0) return; if (!info) { g_critical("PA returned no card info (eol=%d)", eol); return; } if (info->index != operation->pulse->card_id) return; profile = info->active_profile2; if (strcmp(profile->name, SND_USE_CASE_VERB_VOICECALL) == 0 && operation->value == 0) { g_debug("switching to default profile"); op = pa_context_set_card_profile_by_index(ctx, operation->pulse->card_id, SND_USE_CASE_VERB_HIFI, operation_complete_cb, operation); } else if (strcmp(profile->name, SND_USE_CASE_VERB_HIFI) == 0 && operation->value == 1) { g_debug("switching to voice profile"); op = pa_context_set_card_profile_by_index(ctx, operation->pulse->card_id, SND_USE_CASE_VERB_VOICECALL, operation_complete_cb, operation); } if (op) { pa_operation_unref(op); } else { g_debug("%s: nothing to be done", __func__); operation_complete_cb(ctx, 1, operation); } } static void set_output_port(pa_context *ctx, const pa_sink_info *info, int eol, void *data) { CadPulseOperation *operation = data; pa_operation *op = NULL; const gchar *target_port; if (eol != 0) return; if (!info) { g_critical("PA returned no sink info (eol=%d)", eol); return; } if (info->card != operation->pulse->card_id || info->index != operation->pulse->sink_id) return; if (operation->op && operation->op->type == CAD_OPERATION_SELECT_MODE) { /* * When switching to voice call mode, we want to switch to any port * other than the speaker; this makes sure we use the headphones if they * are connected, and the earpiece otherwise. * When switching back to normal mode, the highest priority port is to * be selected anyway. */ if (operation->value == CALL_AUDIO_MODE_CALL) target_port = get_available_sink_port(info, operation->pulse->speaker_port); else target_port = get_available_sink_port(info, NULL); } else { /* * When forcing speaker output, we simply select the speaker port. * When disabling speaker output, we want the highest priority port * other than the speaker, so that we use the headphones if connected, * and the earpiece otherwise. */ if (operation->value) target_port = operation->pulse->speaker_port; else target_port = get_available_sink_port(info, operation->pulse->speaker_port); } g_debug("active port is '%s', target port is '%s'", info->active_port->name, target_port); if (target_port && strcmp(info->active_port->name, target_port) != 0) { g_debug("switching to target port '%s'", target_port); op = pa_context_set_sink_port_by_index(ctx, operation->pulse->sink_id, target_port, operation_complete_cb, operation); } if (op) { pa_operation_unref(op); } else { g_debug("%s: nothing to be done", __func__); operation_complete_cb(ctx, 1, operation); } } /** * cad_pulse_select_mode: * @mode: * @cad_op: * */ void cad_pulse_select_mode(CallAudioMode mode, CadOperation *cad_op) { CadPulseOperation *operation = g_new(CadPulseOperation, 1); pa_operation *op = NULL; if (!cad_op) { g_critical("%s: no callaudiod operation", __func__); goto error; } /* * Make sure cad_op is of the correct type! */ g_assert(cad_op->type == CAD_OPERATION_SELECT_MODE); operation->pulse = cad_pulse_get_default(); operation->op = cad_op; operation->value = mode; if (mode != CALL_AUDIO_MODE_CALL) { /* * When ending a call, we want to make sure the mic doesn't stay muted */ CadOperation *unmute_op = g_new0(CadOperation, 1); unmute_op->type = CAD_OPERATION_MUTE_MIC; cad_pulse_mute_mic(FALSE, unmute_op); /* * If the card has a dedicated voice profile, disable speaker so it * doesn't get automatically enabled for next call. */ if (operation->pulse->has_voice_profile) { CadOperation *disable_speaker_op = g_new0(CadOperation, 1); disable_speaker_op->type = CAD_OPERATION_ENABLE_SPEAKER; cad_pulse_enable_speaker(FALSE, disable_speaker_op); } } if (operation->pulse->has_voice_profile) { /* * The pinephone f.e. has a voice profile */ g_debug("card has voice profile, using it"); op = pa_context_get_card_info_by_index(operation->pulse->ctx, operation->pulse->card_id, set_card_profile, operation); } else { if (operation->pulse->sink_id < 0) { g_warning("card has no voice profile and no usable sink"); goto error; } g_debug("card doesn't have voice profile, switching output port"); op = pa_context_get_sink_info_by_index(operation->pulse->ctx, operation->pulse->sink_id, set_output_port, operation); } if (op) pa_operation_unref(op); return; error: if (cad_op) { cad_op->success = FALSE; if (cad_op->callback) cad_op->callback(cad_op); } if (operation) free(operation); } void cad_pulse_enable_speaker(gboolean enable, CadOperation *cad_op) { CadPulseOperation *operation = g_new(CadPulseOperation, 1); pa_operation *op = NULL; if (!cad_op) { g_critical("%s: no callaudiod operation", __func__); goto error; } /* * Make sure cad_op is of the correct type! */ g_assert(cad_op->type == CAD_OPERATION_ENABLE_SPEAKER); operation->pulse = cad_pulse_get_default(); if (operation->pulse->sink_id < 0) { g_warning("card has no usable sink"); goto error; } operation->op = cad_op; operation->value = (guint)enable; op = pa_context_get_sink_info_by_index(operation->pulse->ctx, operation->pulse->sink_id, set_output_port, operation); if (op) pa_operation_unref(op); return; error: if (cad_op) { cad_op->success = FALSE; if (cad_op->callback) cad_op->callback(cad_op); } if (operation) free(operation); } void cad_pulse_mute_mic(gboolean mute, CadOperation *cad_op) { CadPulseOperation *operation = g_new(CadPulseOperation, 1); pa_operation *op = NULL; if (!cad_op) { g_critical("%s: no callaudiod operation", __func__); goto error; } /* * Make sure cad_op is of the correct type! */ g_assert(cad_op->type == CAD_OPERATION_MUTE_MIC); operation->pulse = cad_pulse_get_default(); if (operation->pulse->source_id < 0) { g_warning("card has no usable source"); goto error; } operation->op = cad_op; operation->value = (guint)mute; if (operation->pulse->mic_state == CALL_AUDIO_MIC_OFF && !operation->value) { g_debug("mic is muted, unmuting..."); op = pa_context_set_source_mute_by_index(operation->pulse->ctx, operation->pulse->source_id, 0, operation_complete_cb, operation); } else if (operation->pulse->mic_state == CALL_AUDIO_MIC_ON && operation->value) { g_debug("mic is active, muting..."); op = pa_context_set_source_mute_by_index(operation->pulse->ctx, operation->pulse->source_id, 1, operation_complete_cb, operation); } if (op) { pa_operation_unref(op); } else { g_debug("%s: nothing to be done", __func__); operation_complete_cb(operation->pulse->ctx, 1, operation); } return; error: if (cad_op) { cad_op->success = FALSE; if (cad_op->callback) cad_op->callback(cad_op); } if (operation) free(operation); } CallAudioMode cad_pulse_get_audio_mode(void) { CadPulse *self = cad_pulse_get_default(); return self->audio_mode; } CallAudioSpeakerState cad_pulse_get_speaker_state(void) { CadPulse *self = cad_pulse_get_default(); return self->speaker_state; } CallAudioMicState cad_pulse_get_mic_state(void) { CadPulse *self = cad_pulse_get_default(); return self->mic_state; } 07070100000029000081A400000000000000000000000164632D5900000309000000000000000000000000000000000000002100000000callaudiod-0.1.9/src/cad-pulse.h/* * Copyright (C) 2018, 2019 Purism SPC * Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> * * SPDX-License-Identifier: GPL-3.0-or-later */ #pragma once #include "libcallaudio.h" #include "cad-operation.h" #include <glib-object.h> G_BEGIN_DECLS #define CAD_TYPE_PULSE (cad_pulse_get_type()) G_DECLARE_FINAL_TYPE(CadPulse, cad_pulse, CAD, PULSE, GObject); CadPulse *cad_pulse_get_default(void); void cad_pulse_select_mode(CallAudioMode mode, CadOperation *op); void cad_pulse_enable_speaker(gboolean enable, CadOperation *op); void cad_pulse_mute_mic(gboolean mute, CadOperation *op); CallAudioMode cad_pulse_get_audio_mode(void); CallAudioSpeakerState cad_pulse_get_speaker_state(void); CallAudioMicState cad_pulse_get_mic_state(void); G_END_DECLS 0707010000002A000081A400000000000000000000000164632D590000086D000000000000000000000000000000000000002200000000callaudiod-0.1.9/src/callaudiod.c/* * Copyright (C) 2019 Purism SPC * Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> * * SPDX-License-Identifier: GPL-3.0-or-later */ #define G_LOG_DOMAIN "callaudiod" #include "callaudiod.h" #include "cad-manager.h" #include "cad-pulse.h" #include "config.h" #include <glib.h> #include <glib-unix.h> static GMainLoop *main_loop = NULL; static gboolean quit_cb(gpointer user_data) { g_info("Caught signal, shutting down..."); if (main_loop) g_idle_add((GSourceFunc)g_main_loop_quit, main_loop); else exit(0); return FALSE; } static void bus_acquired_cb(GDBusConnection *connection, const gchar *name, gpointer user_data) { CadManager *manager = cad_manager_get_default(); g_debug("Bus acquired, creating manager..."); g_dbus_interface_skeleton_export(G_DBUS_INTERFACE_SKELETON(manager), connection, CALLAUDIO_DBUS_PATH, NULL); } static void name_acquired_cb(GDBusConnection *connection, const gchar *name, gpointer user_data) { g_debug("Service name '%s' was acquired", name); } static void name_lost_cb(GDBusConnection *connection, const gchar *name, gpointer user_data) { if (!name) { g_warning("Could not get the session bus. Make sure " "the message bus daemon is running!"); } else { if (connection) g_warning("Could not acquire the '%s' service name", name); else g_debug("DBus connection close"); } g_main_loop_quit(main_loop); } int main(int argc, char **argv) { g_unix_signal_add(SIGTERM, quit_cb, NULL); g_unix_signal_add(SIGINT, quit_cb, NULL); main_loop = g_main_loop_new(NULL, FALSE); // Initialize the PulseAudio backend cad_pulse_get_default(); g_bus_own_name(CALLAUDIO_DBUS_TYPE, CALLAUDIO_DBUS_NAME, G_BUS_NAME_OWNER_FLAGS_NONE, bus_acquired_cb, name_acquired_cb, name_lost_cb, NULL, NULL); g_main_loop_run(main_loop); g_main_loop_unref(main_loop); return 0; } 0707010000002B000081A400000000000000000000000164632D590000012F000000000000000000000000000000000000002200000000callaudiod-0.1.9/src/callaudiod.h/* * Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> * * SPDX-License-Identifier: GPL-3.0-or-later */ #pragma once #define CALLAUDIO_DBUS_NAME "org.mobian_project.CallAudio" #define CALLAUDIO_DBUS_PATH "/org/mobian_project/CallAudio" #define CALLAUDIO_DBUS_TYPE G_BUS_TYPE_SESSION 0707010000002C000081A400000000000000000000000164632D59000002A8000000000000000000000000000000000000002100000000callaudiod-0.1.9/src/meson.build# # Copyright (C) 2019 Purism SPC # Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> # # SPDX-License-Identifier: GPL-3.0-or-later # cad_deps = [ dependency('alsa'), dependency('gobject-2.0'), dependency('gio-unix-2.0'), dependency('libpulse'), dependency('libpulse-mainloop-glib'), ] executable ( 'callaudiod', config_h, generated_dbus_sources, libcallaudio_enum_sources, [ 'callaudiod.c', 'callaudiod.h', 'cad-manager.c', 'cad-manager.h', 'cad-pulse.c', 'cad-pulse.h', ], dependencies : cad_deps, include_directories : include_directories('..', '../libcallaudio'), install : true ) 0707010000002D000041ED00000000000000000000000264632D5900000000000000000000000000000000000000000000001700000000callaudiod-0.1.9/tools0707010000002E000081A400000000000000000000000164632D5900000A17000000000000000000000000000000000000002600000000callaudiod-0.1.9/tools/callaudiocli.c/* * Copyright (C) 2019 Purism SPC * Copyright (C) 2020 Arnaud Ferraris <arnaud.ferraris@gmail.com> * * SPDX-License-Identifier: GPL-3.0-or-later */ #include "libcallaudio.h" #include "libcallaudio-enums.h" #include <glib.h> int main (int argc, char *argv[0]) { g_autoptr(GOptionContext) opt_context = NULL; g_autoptr(GError) err = NULL; int mode = -1; int speaker = -1; int mic = -1; gboolean status = FALSE; const GOptionEntry options [] = { {"select-mode", 'm', 0, G_OPTION_ARG_INT, &mode, "Select mode", NULL}, {"enable-speaker", 's', 0, G_OPTION_ARG_INT, &speaker, "Enable speaker", NULL}, {"mute-mic", 'u', 0, G_OPTION_ARG_INT, &mic, "Mute microphone", NULL}, {"status", 'S', 0, G_OPTION_ARG_NONE, &status, "Print status", NULL}, { NULL, 0, 0, G_OPTION_ARG_NONE, NULL, NULL, NULL } }; opt_context = g_option_context_new("- A helper tool for callaudiod"); g_option_context_add_main_entries(opt_context, options, NULL); if (!g_option_context_parse(opt_context, &argc, &argv, &err)) { g_warning("%s", err->message); return 1; } if (!call_audio_init(&err)) { g_print ("Failed to init libcallaudio: %s\n", err->message); return 1; } /* If there's nothing else to be done, print the current status */ if (mode == -1 && speaker == -1 && mic == -1) status = TRUE; if (mode == CALL_AUDIO_MODE_DEFAULT || mode == CALL_AUDIO_MODE_CALL) { if (!call_audio_select_mode(mode, &err)) { return 1; } } if (speaker == 0 || speaker == 1) { if (!call_audio_enable_speaker((gboolean)speaker, &err)) { return 1; } } if (mic == 0 || mic == 1) { if (!call_audio_mute_mic((gboolean)mic, &err)) { return 1; } } if (status) { CallAudioMode audio_mode = call_audio_get_audio_mode(); CallAudioSpeakerState speaker_state = call_audio_get_speaker_state(); CallAudioMicState mic_state = call_audio_get_mic_state(); const char *string_audio = g_enum_to_string(CALL_TYPE_AUDIO_MODE, audio_mode); const char *string_speaker = g_enum_to_string(CALL_TYPE_AUDIO_SPEAKER_STATE, speaker_state); const char *string_mic = g_enum_to_string(CALL_TYPE_AUDIO_MIC_STATE, mic_state); g_print("Selected mode: %s\n" "Speaker enabled: %s\n" "Mic muted: %s\n", string_audio, string_speaker, string_mic); } call_audio_deinit (); return 0; } 0707010000002F000081A400000000000000000000000164632D5900000104000000000000000000000000000000000000002300000000callaudiod-0.1.9/tools/meson.buildcallaudiocli_sources = [ 'callaudiocli.c', ] callaudiocli_deps = [ libcallaudio_dep, dependency('gobject-2.0'), dependency('gio-unix-2.0'), ] executable( 'callaudiocli', callaudiocli_sources, dependencies: callaudiocli_deps, install: true, ) 07070100000000000000000000000000000000000000010000000000000000000000000000000000000000000000000000000B00000000TRAILER!!!252 blocks
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