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1097 lines
34 KiB
C++
1097 lines
34 KiB
C++
/*
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*
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* This library is free software; you can redistribute it and/or modify
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* it under the terms of the GNU Lesser General Public License as
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* published by the Free Software Foundation; either version 2.1 of
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* the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*
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* Copyright (C) 2015 Intel Corporation
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*
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*/
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#ifndef __ALSA_TOPOLOGY_H
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#define __ALSA_TOPOLOGY_H
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#include <stdint.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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/**
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* \defgroup topology Topology Interface
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* \{
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*/
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/*! \page topology ALSA Topology Interface
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*
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* The topology interface allows developers to define DSP topologies in a text
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* file format and to convert the text topology to a binary topology
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* representation that can be understood by the kernel. The topology core
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* currently recognises the following object types :-
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*
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* * Controls (mixer, enumerated and byte) including TLV data.
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* * PCMs (Front End DAI & DAI link)
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* * DAPM widgets
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* * DAPM graph elements.
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* * Physical DAI & DAI links
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* * Private data for each object type.
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* * Manifest (containing count of each object type)
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*
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* <h3>Topology File Format</h3>
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*
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* The topology text format uses the standard ALSA configuration file format to
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* describe each topology object type. This allows topology objects to include
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* other topology objects as part of their definition. i.e. a TLV data object
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* can be shared amongst many control objects that use the same TLV data.
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*
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*
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* <h4>Controls</h4>
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* Topology audio controls can belong to three different types :-
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* * Mixer control
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* * Enumerated control
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* * Byte control
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*
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* Each control type can contain TLV data, private data, operations and also
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* belong to widget objects.<br>
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*
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* <h5>Control Operations</h5>
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* Driver Kcontrol callback info(), get() and put() operations are mapped with
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* the CTL ops section in topology configuration files. The ctl ops section can
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* assign operations using the standard names (listed below) for the standard
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* kcontrol types or use ID numbers (>256) to map to bespoke driver controls.<br>
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*
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* <pre>
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*
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* ops."ctl" {
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* info "volsw"
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* get "257"
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* put "257"
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* }
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*
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* </pre>
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*
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* This mapping shows info() using the standard "volsw" info callback whilst
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* the get() and put() are mapped to bespoke driver callbacks. <br>
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*
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* The Standard operations names for control get(), put() and info calls
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* are :-
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* * volsw
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* * volsw_sx
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* * volsw_xr_sx
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* * enum
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* * bytes
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* * enum_value
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* * range
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* * strobe
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*
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* <h5>Control Access</h5>
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* Controls access can be specified using the "access" section. If no "access"
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* section is defined then default RW access flags are set for normal and TLV
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* controls.
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*
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* <pre>
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* access [
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* read
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* write
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* tlv_command
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* ]
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* </pre>
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*
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* The standard access flags are as follows :-
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* * read
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* * write
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* * read_write
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* * volatile
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* * timestamp
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* * tlv_read
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* * tlv_write
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* * tlv_read_write
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* * tlv_command
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* * inactive
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* * lock
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* * owner
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* * tlv_callback
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* * user
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*
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* <h5>Control TLV Data</h5>
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* Controls can also use TLV data to represent dB information. This can be done
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* by defining a TLV section and using the TLV section within the control.
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* The TLV data for DBScale types are defined as follows :-
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*
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* <pre>
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* scale {
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* min "-9000"
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* step "300"
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* mute "1"
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* }
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* </pre>
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*
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* Where the meanings and values for min, step and mute are exactly the same
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* as defined in driver code.
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*
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* <h5>Control Channel Mapping</h5>
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* Controls can also specify which channels they are mapped with. This is useful
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* for userspace as it allows applications to determine the correct control
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* channel for Left and Right etc. Channel maps are defined as follows :-
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*
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* <pre>
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* channel."name" {
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* reg "0"
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* shift "0"
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* }
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* </pre>
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*
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* The channel map reg is the register offset for the control, shift is the
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* bit shift within the register for the channel and the section name is the
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* channel name and can be one of the following :-
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*
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* <pre>
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* * mono # mono stream
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* * fl # front left
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* * fr # front right
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* * rl # rear left
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* * rr # rear right
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* * fc # front center
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* * lfe # LFE
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* * sl # side left
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* * sr # side right
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* * rc # rear center
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* * flc # front left center
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* * frc # front right center
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* * rlc # rear left center
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* * rrc # rear right center
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* * flw # front left wide
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* * frw # front right wide
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* * flh # front left high
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* * fch # front center high
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* * frh # front right high
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* * tc # top center
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* * tfl # top front left
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* * tfr # top front right
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* * tfc # top front center
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* * trl # top rear left
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* * trr # top rear right
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* * trc # top rear center
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* * tflc # top front left center
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* * tfrc # top front right center
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* * tsl # top side left
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* * tsr # top side right
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* * llfe # left LFE
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* * rlfe # right LFE
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* * bc # bottom center
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* * blc # bottom left center
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* * brc # bottom right center
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* </pre>
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*
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* <h5>Control Private Data</h5>
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* Controls can also have private data. This can be done by defining a private
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* data section and including the section within the control. The private data
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* section is defined as follows :-
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*
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* <pre>
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* SectionData."pdata for EQU1" {
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* file "/path/to/file"
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* bytes "0x12,0x34,0x56,0x78"
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* shorts "0x1122,0x3344,0x5566,0x7788"
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* words "0xaabbccdd,0x11223344,0x66aa77bb,0xefef1234"
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* tuples "section id of the vendor tuples"
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* };
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* </pre>
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* The file, bytes, shorts, words and tuples keywords are all mutually
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* exclusive as the private data should only be taken from one source.
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* The private data can either be read from a separate file or defined in
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* the topology file using the bytes, shorts, words or tuples keywords.
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* The keyword tuples is to define vendor specific tuples. Please refer to
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* section Vendor Tokens and Vendor tuples.
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*
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* <h5>How to define an element with private data</h5>
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* An element can refer to a single data section or multiple data
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* sections.
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*
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* <h6>To refer to a single data section:</h6>
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* <pre>
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* Sectionxxx."element name" {
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* ...
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* data "name of data section" # optional private data
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* }
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* </pre>
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*
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* <h6>To refer to multiple data sections:</h6>
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* <pre>
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* Sectionxxx."element name" {
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* ...
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* data [ # optional private data
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* "name of 1st data section"
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* "name of 2nd data section"
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* ...
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* ]
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* }
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* </pre>
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* And data of these sections will be merged in the same order as they are
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* in the list, as the element's private data for kernel.
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*
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* </pre>
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*
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* <h6>Vendor Tokens</h6>
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* A vendor token list is defined as a new section. Each token element is
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* a pair of string ID and integer value. And both the ID and value are
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* vendor-specific.
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*
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* <pre>
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* SectionVendorTokens."id of the vendor tokens" {
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* comment "optional comments"
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* VENDOR_TOKEN_ID1 "1"
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* VENDOR_TOKEN_ID2 "2"
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* VENDOR_TOKEN_ID3 "3"
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* ...
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* }
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* </pre>
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*
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* <h6>Vendor Tuples</h6>
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* Vendor tuples are defined as a new section. It contains a reference to
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* a vendor token list and several tuple arrays.
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* All arrays share a vendor token list, defined by the tokens keyword.
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* Each tuple array is for a specific type, defined by the string following
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* the tuples keyword. Supported types are: string, uuid, bool, byte,
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* short and word.
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*
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* <pre>
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* SectionVendorTuples."id of the vendor tuples" {
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* tokens "id of the vendor tokens"
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*
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* tuples."string" {
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* VENDOR_TOKEN_ID1 "character string"
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* ...
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* }
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*
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* tuples."uuid" { # 16 characters separated by commas
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* VENDOR_TOKEN_ID2 "0x01,0x02,...,0x0f"
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* ...
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* }
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*
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* tuples."bool" {
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* VENDOR_TOKEN_ID3 "true/false"
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* ...
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* }
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*
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* tuples."byte" {
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* VENDOR_TOKEN_ID4 "0x11"
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* VENDOR_TOKEN_ID5 "0x22"
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* ...
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* }
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*
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* tuples."short" {
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* VENDOR_TOKEN_ID6 "0x1122"
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* VENDOR_TOKEN_ID7 "0x3344"
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* ...
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* }
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*
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* tuples."word" {
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* VENDOR_TOKEN_ID8 "0x11223344"
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* VENDOR_TOKEN_ID9 "0x55667788"
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* ...
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* }
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* }
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* </pre>
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* To define multiple vendor tuples of same type, please append some
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* characters after the type string ("string", "uuid", "bool", "byte", "short"
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* or "word"), to avoid ID duplication in the SectionVendorTuples.<br>
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* The parser will check the first few characters in ID to get the tuple type.
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* Here is an example:
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* <pre>
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* SectionVendorTuples."id of the vendor tuples" {
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* ...
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* tuples."word.module0" {
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* VENDOR_TOKEN_PARAM_ID1 "0x00112233"
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* VENDOR_TOKEN_PARAM_ID2 "0x44556677"
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* ...
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* }
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*
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* tuples."word.module2" {
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* VENDOR_TOKEN_PARAM_ID1 "0x11223344"
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* VENDOR_TOKEN_PARAM_ID2 "0x55667788"
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* ...
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* }
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* ...
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* }
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*
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* </pre>
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*
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* <h5>Mixer Controls</h5>
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* A mixer control is defined as a new section that can include channel mapping,
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* TLV data, callback operations and private data. The mixer section also
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* includes a few other config options that are shown here :-
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*
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* <pre>
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* SectionControlMixer."mixer name" {
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* comment "optional comments"
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*
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* index "1" # Index number
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*
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* channel."name" { # Channel maps
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* ....
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* }
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*
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* ops."ctl" { # Ops callback functions
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* ....
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* }
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*
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* max "32" # Max control value
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* invert "0" # Whether control values are inverted
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*
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* tlv "tld_data" # optional TLV data
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*
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* data "pdata for mixer1" # optional private data
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* }
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* </pre>
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*
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* The section name is used to define the mixer name. The index number can be
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* used to identify topology objects groups. This allows driver operations on
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* objects with index number N and can be used to add/remove pipelines of
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* objects whilst other objects are unaffected.
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*
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* <h5>Byte Controls</h5>
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* A byte control is defined as a new section that can include channel mapping,
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* TLV data, callback operations and private data. The bytes section also
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* includes a few other config options that are shown here :-
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*
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* <pre>
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* SectionControlBytes."name" {
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* comment "optional comments"
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*
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* index "1" # Index number
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*
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* channel."name" { # Channel maps
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* ....
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* }
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*
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* ops."ctl" { # Ops callback functions
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* ....
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* }
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*
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* base "0" # Register base
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* num_regs "16" # Number of registers
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* mask "0xff" # Mask
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* max "255" # Maximum value
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*
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* tlv "tld_data" # optional TLV data
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*
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* data "pdata for mixer1" # optional private data
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* }
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* </pre>
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*
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* <h5>Enumerated Controls</h5>
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* A enumerated control is defined as a new section (like mixer and byte) that
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* can include channel mapping, callback operations, private data and
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* text strings to represent the enumerated control options.<br>
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*
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* The text strings for the enumerated controls are defined in a separate
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* section as follows :-
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*
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* <pre>
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* SectionText."name" {
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*
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* Values [
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* "value1"
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* "value2"
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"value3"
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* ]
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* }
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* </pre>
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*
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* All the enumerated text values are listed in the values list.<br>
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* The enumerated control is similar to the other controls and defined as
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* follows :-
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*
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* <pre>
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* SectionControlMixer."name" {
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* comment "optional comments"
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*
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* index "1" # Index number
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*
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* texts "EQU1" # Enumerated text items
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*
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* channel."name" { # Channel maps
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* ....
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* }
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*
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* ops."ctl" { # Ops callback functions
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* ....
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* }
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*
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* data "pdata for mixer1" # optional private data
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* }
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* </pre>
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*
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* <h4>DAPM Graph</h4>
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* DAPM graphs can easily be defined using the topology file. The format is
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* very similar to the DAPM graph kernel format. :-
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*
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* <pre>
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* SectionGraph."dsp" {
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* index "1" # Index number
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*
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* lines [
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* "sink1, control, source1"
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* "sink2, , source2"
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* ]
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* }
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* </pre>
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*
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* The lines in the graph are defined as a variable size list of sinks,
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* controls and sources. The control name is optional as some graph lines have
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* no associated controls. The section name can be used to differentiate the
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* graph with other graphs, it's not used by the kernel atm.
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*
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* <h4>DAPM Widgets</h4>
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* DAPM widgets are similar to controls in that they can include many other
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* objects. Widgets can contain private data, mixer controls and enum controls.
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*
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* The following widget types are supported and match the driver types :-
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*
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* * input
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* * output
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* * mux
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* * mixer
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* * pga
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* * out_drv
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* * adc
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* * dac
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* * switch
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* * pre
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* * post
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* * aif_in
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* * aif_out
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* * dai_in
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* * dai_out
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* * dai_link
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*
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* Widgets are defined as follows :-
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*
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* <pre>
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* SectionWidget."name" {
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*
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* index "1" # Index number
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*
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* type "aif_in" # Widget type - detailed above
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* stream_name "name" # Stream name
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*
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* no_pm "true" # No PM control bit.
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* reg "20" # PM bit register offset
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* shift "0" # PM bit register shift
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* invert "1 # PM bit is inverted
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* subseq "8" # subsequence number
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*
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* event_type "1" # DAPM widget event type
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* event_flags "1" # DAPM widget event flags
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*
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* mixer "name" # Optional Mixer Control
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* enum "name" # Optional Enum Control
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*
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* data "name" # optional private data
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* }
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* </pre>
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*
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* The section name is the widget name. The mixer and enum fields are mutually
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* exclusive and used to include controls into the widget. The index and data
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* fields are the same for widgets as they are for controls whilst the other
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* fields map on very closely to the driver widget fields.
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*
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* <h5>Widget Private Data</h5>
|
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* Widget can have private data. For the format of the private data, please
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* refer to section Control Private Data.
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*
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* <h4>PCM Capabilities</h4>
|
|
* Topology can also define the PCM capabilities of front end or physical DAIs.
|
|
* Capabilities can be defined with the following section :-
|
|
*
|
|
* <pre>
|
|
* SectionPCMCapabilities."name" {
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*
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* formats "S24_LE,S16_LE" # Supported formats
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* rate_min "48000" # Max supported sample rate
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* rate_max "48000" # Min supported sample rate
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* channels_min "2" # Min number of channels
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* channels_max "2" # max number of channels
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* }
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* </pre>
|
|
* The supported formats use the same naming convention as the driver macros.
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|
* The PCM capabilities name can be referred to and included by PCM and
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* physical DAI sections.
|
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*
|
|
* <h4>PCM Configurations</h4>
|
|
* PCM runtime configurations can be defined for playback and capture stream
|
|
* directions with the following section :-
|
|
*
|
|
* <pre>
|
|
* SectionPCMConfig."name" {
|
|
*
|
|
* config."playback" { # playback config
|
|
* format "S16_LE" # playback format
|
|
* rate "48000" # playback sample rate
|
|
* channels "2" # playback channels
|
|
* tdm_slot "0xf" # playback TDM slot
|
|
* }
|
|
*
|
|
* config."capture" { # capture config
|
|
* format "S16_LE" # capture format
|
|
* rate "48000" # capture sample rate
|
|
* channels "2" # capture channels
|
|
* tdm_slot "0xf" # capture TDM slot
|
|
* }
|
|
* }
|
|
* </pre>
|
|
*
|
|
* The supported formats use the same naming convention as the driver macros.
|
|
* The PCM configuration name can be referred to and included by PCM and
|
|
* physical link sections.
|
|
*
|
|
* <h4>PCM (Front-end DAI & DAI link) </h4>
|
|
* PCM sections define the supported capabilities and configurations for
|
|
* supported playback and capture streams, names and flags for front end
|
|
* DAI & DAI links. Topology kernel driver will use a PCM object to create
|
|
* a pair of FE DAI & DAI links.
|
|
*
|
|
* <pre>
|
|
* SectionPCM."name" {
|
|
*
|
|
* index "1" # Index number
|
|
*
|
|
* id "0" # used for binding to the PCM
|
|
*
|
|
* dai."name of front-end DAI" {
|
|
* id "0" # used for binding to the front-end DAI
|
|
* }
|
|
*
|
|
* pcm."playback" {
|
|
* capabilities "capabilities1" # capabilities for playback
|
|
*
|
|
* configs [ # supported configs for playback
|
|
* "config1"
|
|
* "config2"
|
|
* ]
|
|
* }
|
|
*
|
|
* pcm."capture" {
|
|
* capabilities "capabilities2" # capabilities for capture
|
|
*
|
|
* configs [ # supported configs for capture
|
|
* "config1"
|
|
* "config2"
|
|
* "config3"
|
|
* ]
|
|
* }
|
|
*
|
|
* # Optional boolean flags
|
|
* symmetric_rates "true"
|
|
* symmetric_channels "true"
|
|
* symmetric_sample_bits "false"
|
|
*
|
|
* data "name" # optional private data
|
|
* }
|
|
* </pre>
|
|
*
|
|
* <h4>Physical DAI Link Configurations</h4>
|
|
* The runtime configurations of a physical DAI link can be defined by
|
|
* SectionLink. <br> Backend DAI links belong to physical links, and can
|
|
* be configured by either SectionLink or SectionBE, with same syntax.
|
|
* But SectionBE is deprecated atm since the internal processing is
|
|
* actually same.
|
|
*
|
|
* <pre>
|
|
* SectionLink."name" {
|
|
*
|
|
* index "1" # Index number
|
|
*
|
|
* id "0" # used for binding to the link
|
|
*
|
|
* stream_name "name" # used for binding to the link
|
|
*
|
|
* hw_configs [ # runtime supported HW configurations, optional
|
|
* "config1"
|
|
* "config2"
|
|
* ...
|
|
* ]
|
|
*
|
|
* default_hw_conf_id "1" #default HW config ID for init
|
|
*
|
|
* # Optional boolean flags
|
|
* symmetric_rates "true"
|
|
* symmetric_channels "false"
|
|
* symmetric_sample_bits "true"
|
|
*
|
|
* data "name" # optional private data
|
|
* }
|
|
* </pre>
|
|
*
|
|
* A physical link can refer to multiple runtime supported hardware
|
|
* configurations, which is defined by SectionHWConfig.
|
|
*
|
|
* <pre>
|
|
* SectionHWConfig."name" {
|
|
*
|
|
* id "1" # used for binding to the config
|
|
* format "I2S" # physical audio format.
|
|
* bclk "master" # Platform is master of bit clock
|
|
* fsync "slave" # Platform is slave of fsync
|
|
* }
|
|
* </pre>
|
|
*
|
|
* <h4>Physical DAI</h4>
|
|
* A physical DAI (e.g. backend DAI for DPCM) is defined as a new section
|
|
* that can include a unique ID, playback and capture stream capabilities,
|
|
* optional flags, and private data. <br>
|
|
* Its PCM stream capablities are same as those for PCM objects,
|
|
* please refer to section 'PCM Capabilities'.
|
|
*
|
|
* <pre>
|
|
* SectionDAI."name" {
|
|
*
|
|
* index "1" # Index number
|
|
*
|
|
* id "0" # used for binding to the Backend DAI
|
|
*
|
|
* pcm."playback" {
|
|
* capabilities "capabilities1" # capabilities for playback
|
|
* }
|
|
*
|
|
* pcm."capture" {
|
|
* capabilities "capabilities2" # capabilities for capture
|
|
* }
|
|
*
|
|
* symmetric_rates "true" # optional flags
|
|
* symmetric_channels "true"
|
|
* symmetric_sample_bits "false"
|
|
*
|
|
* data "name" # optional private data
|
|
* }
|
|
* </pre>
|
|
*
|
|
* <h4>Manifest Private Data</h4>
|
|
* Manfiest may have private data. Users need to define a manifest section
|
|
* and add the references to 1 or multiple data sections. Please refer to
|
|
* section 'How to define an element with private data'. <br>
|
|
* And the text conf file can have at most 1 manifest section. <br><br>
|
|
*
|
|
* Manifest section is defined as follows :-
|
|
*
|
|
* <pre>
|
|
* SectionManifest"name" {
|
|
*
|
|
* data "name" # optional private data
|
|
* }
|
|
* </pre>
|
|
*
|
|
* <h4>Include other files</h4>
|
|
* Users may include other files in a text conf file via alsaconf syntax
|
|
* <path/to/configuration-file>. This allows users to define common info
|
|
* in separate files (e.g. vendor tokens, tuples) and share them for
|
|
* different platforms, thus save the total size of config files. <br>
|
|
* Users can also specifiy additional configuraiton directories relative
|
|
* to "/usr/share/alsa/" to search the included files, via alsaconf syntax
|
|
* <searchfdir:/relative-path/to/usr/share/alsa>. <br><br>
|
|
*
|
|
* For example, file A and file B are two text conf files for platform X,
|
|
* they will be installed to /usr/share/alsa/topology/platformx. If we
|
|
* need file A to include file B, in file A we can add: <br>
|
|
*
|
|
* <searchdir:topology/platformx> <br>
|
|
* <name-of-file-B> <br><br>
|
|
*
|
|
* ALSA conf will search and open an included file in the following order
|
|
* of priority:
|
|
* 1. directly open the file by its name;
|
|
* 2. search for the file name in "/usr/share/alsa";
|
|
* 3. search for the file name in user specified subdirectories under
|
|
* "/usr/share/alsa".
|
|
*
|
|
* The order of the included files need not to be same as their
|
|
* dependencies, since the topology library will load them all before
|
|
* parsing their dependencies. <br>
|
|
*
|
|
* The configuration directories defined by a file will only be used to search
|
|
* the files included by this file.
|
|
*/
|
|
|
|
/** Maximum number of channels supported in one control */
|
|
#define SND_TPLG_MAX_CHAN 8
|
|
|
|
/** Topology context */
|
|
typedef struct snd_tplg snd_tplg_t;
|
|
|
|
/** Topology object types */
|
|
enum snd_tplg_type {
|
|
SND_TPLG_TYPE_TLV = 0, /*!< TLV Data */
|
|
SND_TPLG_TYPE_MIXER, /*!< Mixer control*/
|
|
SND_TPLG_TYPE_ENUM, /*!< Enumerated control */
|
|
SND_TPLG_TYPE_TEXT, /*!< Text data */
|
|
SND_TPLG_TYPE_DATA, /*!< Private data */
|
|
SND_TPLG_TYPE_BYTES, /*!< Byte control */
|
|
SND_TPLG_TYPE_STREAM_CONFIG, /*!< PCM Stream configuration */
|
|
SND_TPLG_TYPE_STREAM_CAPS, /*!< PCM Stream capabilities */
|
|
SND_TPLG_TYPE_PCM, /*!< PCM stream device */
|
|
SND_TPLG_TYPE_DAPM_WIDGET, /*!< DAPM widget */
|
|
SND_TPLG_TYPE_DAPM_GRAPH, /*!< DAPM graph elements */
|
|
SND_TPLG_TYPE_BE, /*!< BE DAI link */
|
|
SND_TPLG_TYPE_CC, /*!< Hostless codec <-> codec link */
|
|
SND_TPLG_TYPE_MANIFEST, /*!< Topology manifest */
|
|
SND_TPLG_TYPE_TOKEN, /*!< Vendor tokens */
|
|
SND_TPLG_TYPE_TUPLE, /*!< Vendor tuples */
|
|
SND_TPLG_TYPE_LINK, /*!< Physical DAI link */
|
|
SND_TPLG_TYPE_HW_CONFIG, /*!< Link HW config */
|
|
SND_TPLG_TYPE_DAI, /*!< Physical DAI */
|
|
};
|
|
|
|
/**
|
|
* \brief Create a new topology parser instance.
|
|
* \return New topology parser instance
|
|
*/
|
|
snd_tplg_t *snd_tplg_new(void);
|
|
|
|
/**
|
|
* \brief Free a topology parser instance.
|
|
* \param tplg Topology parser instance
|
|
*/
|
|
void snd_tplg_free(snd_tplg_t *tplg);
|
|
|
|
/**
|
|
* \brief Parse and build topology text file into binary file.
|
|
* \param tplg Topology instance.
|
|
* \param infile Topology text input file to be parsed
|
|
* \param outfile Binary topology output file.
|
|
* \return Zero on success, otherwise a negative error code
|
|
*/
|
|
int snd_tplg_build_file(snd_tplg_t *tplg, const char *infile,
|
|
const char *outfile);
|
|
|
|
/**
|
|
* \brief Enable verbose reporting of binary file output
|
|
* \param tplg Topology Instance
|
|
* \param verbose Enable verbose output level if non zero
|
|
*/
|
|
void snd_tplg_verbose(snd_tplg_t *tplg, int verbose);
|
|
|
|
/** \struct snd_tplg_tlv_template
|
|
* \brief Template type for all TLV objects.
|
|
*/
|
|
struct snd_tplg_tlv_template {
|
|
int type; /*!< TLV type SNDRV_CTL_TLVT_ */
|
|
};
|
|
|
|
/** \struct snd_tplg_tlv_dbscale_template
|
|
* \brief Template type for TLV Scale objects.
|
|
*/
|
|
struct snd_tplg_tlv_dbscale_template {
|
|
struct snd_tplg_tlv_template hdr; /*!< TLV type header */
|
|
int min; /*!< dB minimum value in 0.1dB */
|
|
int step; /*!< dB step size in 0.1dB */
|
|
int mute; /*!< is min dB value mute ? */
|
|
};
|
|
|
|
/** \struct snd_tplg_channel_template
|
|
* \brief Template type for single channel mapping.
|
|
*/
|
|
struct snd_tplg_channel_elem {
|
|
int size; /*!< size in bytes of this structure */
|
|
int reg; /*!< channel control register */
|
|
int shift; /*!< channel shift for control bits */
|
|
int id; /*!< ID maps to Left, Right, LFE etc */
|
|
};
|
|
|
|
/** \struct snd_tplg_channel_map_template
|
|
* \brief Template type for channel mapping.
|
|
*/
|
|
struct snd_tplg_channel_map_template {
|
|
int num_channels; /*!< number of channel mappings */
|
|
struct snd_tplg_channel_elem channel[SND_TPLG_MAX_CHAN]; /*!< mapping */
|
|
};
|
|
|
|
/** \struct snd_tplg_pdata_template
|
|
* \brief Template type for private data objects.
|
|
*/
|
|
struct snd_tplg_pdata_template {
|
|
unsigned int length; /*!< data length */
|
|
const void *data; /*!< data */
|
|
};
|
|
|
|
/** \struct snd_tplg_io_ops_template
|
|
* \brief Template type for object operations mapping.
|
|
*/
|
|
struct snd_tplg_io_ops_template {
|
|
int get; /*!< get callback ID */
|
|
int put; /*!< put callback ID */
|
|
int info; /*!< info callback ID */
|
|
};
|
|
|
|
/** \struct snd_tplg_ctl_template
|
|
* \brief Template type for control objects.
|
|
*/
|
|
struct snd_tplg_ctl_template {
|
|
int type; /*!< Control type */
|
|
const char *name; /*!< Control name */
|
|
int access; /*!< Control access */
|
|
struct snd_tplg_io_ops_template ops; /*!< operations */
|
|
struct snd_tplg_tlv_template *tlv; /*!< non NULL means we have TLV data */
|
|
};
|
|
|
|
/** \struct snd_tplg_mixer_template
|
|
* \brief Template type for mixer control objects.
|
|
*/
|
|
struct snd_tplg_mixer_template {
|
|
struct snd_tplg_ctl_template hdr; /*!< control type header */
|
|
struct snd_tplg_channel_map_template *map; /*!< channel map */
|
|
int min; /*!< min value for mixer */
|
|
int max; /*!< max value for mixer */
|
|
int platform_max; /*!< max value for platform control */
|
|
int invert; /*!< whether controls bits are inverted */
|
|
struct snd_soc_tplg_private *priv; /*!< control private data */
|
|
};
|
|
|
|
/** \struct snd_tplg_enum_template
|
|
* \brief Template type for enumerated control objects.
|
|
*/
|
|
struct snd_tplg_enum_template {
|
|
struct snd_tplg_ctl_template hdr; /*!< control type header */
|
|
struct snd_tplg_channel_map_template *map; /*!< channel map */
|
|
int items; /*!< number of enumerated items in control */
|
|
int mask; /*!< register mask size */
|
|
const char **texts; /*!< control text items */
|
|
const int **values; /*!< control value items */
|
|
struct snd_soc_tplg_private *priv; /*!< control private data */
|
|
};
|
|
|
|
/** \struct snd_tplg_bytes_template
|
|
* \brief Template type for TLV Scale objects.
|
|
*/
|
|
struct snd_tplg_bytes_template {
|
|
struct snd_tplg_ctl_template hdr; /*!< control type header */
|
|
int max; /*!< max byte control value */
|
|
int mask; /*!< byte control mask */
|
|
int base; /*!< base register */
|
|
int num_regs; /*!< number of registers */
|
|
struct snd_tplg_io_ops_template ext_ops; /*!< ops mapping */
|
|
struct snd_soc_tplg_private *priv; /*!< control private data */
|
|
};
|
|
|
|
/** \struct snd_tplg_graph_elem
|
|
* \brief Template type for single DAPM graph element.
|
|
*/
|
|
struct snd_tplg_graph_elem {
|
|
const char *src; /*!< source widget name */
|
|
const char *ctl; /*!< control name or NULL if no control */
|
|
const char *sink; /*!< sink widget name */
|
|
};
|
|
|
|
/** \struct snd_tplg_graph_template
|
|
* \brief Template type for array of DAPM graph elements.
|
|
*/
|
|
struct snd_tplg_graph_template {
|
|
int count; /*!< Number of graph elements */
|
|
struct snd_tplg_graph_elem elem[0]; /*!< graph elements */
|
|
};
|
|
|
|
/** \struct snd_tplg_widget_template
|
|
* \brief Template type for DAPM widget objects.
|
|
*/
|
|
struct snd_tplg_widget_template {
|
|
int id; /*!< SND_SOC_DAPM_CTL */
|
|
const char *name; /*!< widget name */
|
|
const char *sname; /*!< stream name (certain widgets only) */
|
|
int reg; /*!< negative reg = no direct dapm */
|
|
int shift; /*!< bits to shift */
|
|
int mask; /*!< non-shifted mask */
|
|
int subseq; /*!< sort within widget type */
|
|
unsigned int invert; /*!< invert the power bit */
|
|
unsigned int ignore_suspend; /*!< kept enabled over suspend */
|
|
unsigned short event_flags; /*!< PM event sequence flags */
|
|
unsigned short event_type; /*!< PM event sequence type */
|
|
struct snd_soc_tplg_private *priv; /*!< widget private data */
|
|
int num_ctls; /*!< Number of controls used by widget */
|
|
struct snd_tplg_ctl_template *ctl[0]; /*!< array of widget controls */
|
|
};
|
|
|
|
/** \struct snd_tplg_stream_template
|
|
* \brief Stream configurations.
|
|
*/
|
|
struct snd_tplg_stream_template {
|
|
const char *name; /*!< name of the stream config */
|
|
int format; /*!< SNDRV_PCM_FMTBIT_* */
|
|
int rate; /*!< SNDRV_PCM_RATE_* */
|
|
int period_bytes; /*!< size of period in bytes */
|
|
int buffer_bytes; /*!< size of buffer in bytes. */
|
|
int channels; /*!< number of channels */
|
|
};
|
|
|
|
/** \struct snd_tplg_stream_caps_template
|
|
* \brief Stream Capabilities.
|
|
*/
|
|
struct snd_tplg_stream_caps_template {
|
|
const char *name; /*!< name of the stream caps */
|
|
uint64_t formats; /*!< supported formats SNDRV_PCM_FMTBIT_* */
|
|
unsigned int rates; /*!< supported rates SNDRV_PCM_RATE_* */
|
|
unsigned int rate_min; /*!< min rate */
|
|
unsigned int rate_max; /*!< max rate */
|
|
unsigned int channels_min; /*!< min channels */
|
|
unsigned int channels_max; /*!< max channels */
|
|
unsigned int periods_min; /*!< min number of periods */
|
|
unsigned int periods_max; /*!< max number of periods */
|
|
unsigned int period_size_min; /*!< min period size bytes */
|
|
unsigned int period_size_max; /*!< max period size bytes */
|
|
unsigned int buffer_size_min; /*!< min buffer size bytes */
|
|
unsigned int buffer_size_max; /*!< max buffer size bytes */
|
|
unsigned int sig_bits; /*!< number of bits of content */
|
|
};
|
|
|
|
/** \struct snd_tplg_pcm_template
|
|
* \brief Template type for PCM (FE DAI & DAI links).
|
|
*/
|
|
struct snd_tplg_pcm_template {
|
|
const char *pcm_name; /*!< PCM stream name */
|
|
const char *dai_name; /*!< DAI name */
|
|
unsigned int pcm_id; /*!< unique ID - used to match */
|
|
unsigned int dai_id; /*!< unique ID - used to match */
|
|
unsigned int playback; /*!< supports playback mode */
|
|
unsigned int capture; /*!< supports capture mode */
|
|
unsigned int compress; /*!< 1 = compressed; 0 = PCM */
|
|
struct snd_tplg_stream_caps_template *caps[2]; /*!< playback & capture for DAI */
|
|
unsigned int flag_mask; /*!< bitmask of flags to configure */
|
|
unsigned int flags; /*!< flag value SND_SOC_TPLG_LNK_FLGBIT_* */
|
|
struct snd_soc_tplg_private *priv; /*!< private data */
|
|
int num_streams; /*!< number of supported configs */
|
|
struct snd_tplg_stream_template stream[0]; /*!< supported configs */
|
|
};
|
|
|
|
/** \struct snd_tplg_hw_config_template
|
|
* \brief Template type to describe a physical link runtime supported
|
|
* hardware config, i.e. hardware audio formats.
|
|
*/
|
|
struct snd_tplg_hw_config_template {
|
|
int id; /* unique ID - - used to match */
|
|
unsigned int fmt; /* SND_SOC_DAI_FORMAT_ format value */
|
|
unsigned char clock_gated; /* 1 if clock can be gated to save power */
|
|
unsigned char invert_bclk; /* 1 for inverted BCLK, 0 for normal */
|
|
unsigned char invert_fsync; /* 1 for inverted frame clock, 0 for normal */
|
|
unsigned char bclk_master; /* 1 for master of BCLK, 0 for slave */
|
|
unsigned char fsync_master; /* 1 for master of FSYNC, 0 for slave */
|
|
unsigned char mclk_direction; /* 0 for input, 1 for output */
|
|
unsigned short reserved; /* for 32bit alignment */
|
|
unsigned int mclk_rate; /* MCLK or SYSCLK freqency in Hz */
|
|
unsigned int bclk_rate; /* BCLK freqency in Hz */
|
|
unsigned int fsync_rate; /* frame clock in Hz */
|
|
unsigned int tdm_slots; /* number of TDM slots in use */
|
|
unsigned int tdm_slot_width; /* width in bits for each slot */
|
|
unsigned int tx_slots; /* bit mask for active Tx slots */
|
|
unsigned int rx_slots; /* bit mask for active Rx slots */
|
|
unsigned int tx_channels; /* number of Tx channels */
|
|
unsigned int *tx_chanmap; /* array of slot number */
|
|
unsigned int rx_channels; /* number of Rx channels */
|
|
unsigned int *rx_chanmap; /* array of slot number */
|
|
};
|
|
|
|
/** \struct snd_tplg_dai_template
|
|
* \brief Template type for physical DAI.
|
|
* It can be used to configure backend DAIs for DPCM.
|
|
*/
|
|
struct snd_tplg_dai_template {
|
|
const char *dai_name; /*!< DAI name */
|
|
unsigned int dai_id; /*!< unique ID - used to match */
|
|
unsigned int playback; /*!< supports playback mode */
|
|
unsigned int capture; /*!< supports capture mode */
|
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struct snd_tplg_stream_caps_template *caps[2]; /*!< playback & capture for DAI */
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unsigned int flag_mask; /*!< bitmask of flags to configure */
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unsigned int flags; /*!< SND_SOC_TPLG_DAI_FLGBIT_* */
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struct snd_soc_tplg_private *priv; /*!< private data */
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};
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/** \struct snd_tplg_link_template
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* \brief Template type for physical DAI Links.
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*/
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struct snd_tplg_link_template {
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const char *name; /*!< link name, used to match */
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int id; /*!< unique ID - used to match with existing physical links */
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const char *stream_name; /*!< link stream name, used to match */
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int num_streams; /*!< number of configs */
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struct snd_tplg_stream_template *stream; /*!< supported configs */
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struct snd_tplg_hw_config_template *hw_config; /*!< supported HW configs */
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int num_hw_configs; /* number of hw configs */
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int default_hw_config_id; /* default hw config ID for init */
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unsigned int flag_mask; /* bitmask of flags to configure */
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unsigned int flags; /* SND_SOC_TPLG_LNK_FLGBIT_* flag value */
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struct snd_soc_tplg_private *priv; /*!< private data */
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};
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/** \struct snd_tplg_obj_template
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* \brief Generic Template Object
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*/
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typedef struct snd_tplg_obj_template {
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enum snd_tplg_type type; /*!< template object type */
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int index; /*!< group index for object */
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int version; /*!< optional vendor specific version details */
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int vendor_type; /*!< optional vendor specific type info */
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union {
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struct snd_tplg_widget_template *widget; /*!< DAPM widget */
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struct snd_tplg_mixer_template *mixer; /*!< Mixer control */
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struct snd_tplg_bytes_template *bytes_ctl; /*!< Bytes control */
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struct snd_tplg_enum_template *enum_ctl; /*!< Enum control */
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struct snd_tplg_graph_template *graph; /*!< Graph elements */
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struct snd_tplg_pcm_template *pcm; /*!< PCM elements */
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struct snd_tplg_link_template *link; /*!< physical DAI Links */
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struct snd_tplg_dai_template *dai; /*!< Physical DAI */
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};
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} snd_tplg_obj_template_t;
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|
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/**
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* \brief Register topology template object.
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|
* \param tplg Topology instance.
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|
* \param t Template object.
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* \return Zero on success, otherwise a negative error code
|
|
*/
|
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int snd_tplg_add_object(snd_tplg_t *tplg, snd_tplg_obj_template_t *t);
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|
|
/**
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|
* \brief Build all registered topology data into binary file.
|
|
* \param tplg Topology instance.
|
|
* \param outfile Binary topology output file.
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|
* \return Zero on success, otherwise a negative error code
|
|
*/
|
|
int snd_tplg_build(snd_tplg_t *tplg, const char *outfile);
|
|
|
|
/**
|
|
* \brief Attach private data to topology manifest.
|
|
* \param tplg Topology instance.
|
|
* \param data Private data.
|
|
* \param len Length of data in bytes.
|
|
* \return Zero on success, otherwise a negative error code
|
|
*/
|
|
int snd_tplg_set_manifest_data(snd_tplg_t *tplg, const void *data, int len);
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|
|
|
/**
|
|
* \brief Set an optional vendor specific version number.
|
|
* \param tplg Topology instance.
|
|
* \param version Vendor specific version number.
|
|
* \return Zero on success, otherwise a negative error code
|
|
*/
|
|
int snd_tplg_set_version(snd_tplg_t *tplg, unsigned int version);
|
|
|
|
/* \} */
|
|
|
|
#ifdef __cplusplus
|
|
}
|
|
#endif
|
|
|
|
#endif /* __ALSA_TOPOLOGY_H */
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