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Document RZ/G2E (R8A774C0) SoC bindings. Signed-off-by: Fabrizio Castro <fabrizio.castro@bp.renesas.com> Acked-by: Kuninori Morimoto <kuninori.morimoto.gx@renesas.com> Signed-off-by: Mark Brown <broonie@kernel.org>
767 lines
19 KiB
Plaintext
767 lines
19 KiB
Plaintext
Renesas R-Car sound
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=============================================
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* Modules
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=============================================
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Renesas R-Car and RZ/G sound is constructed from below modules
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(for Gen2 or later)
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SCU : Sampling Rate Converter Unit
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- SRC : Sampling Rate Converter
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- CMD
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- CTU : Channel Transfer Unit
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- MIX : Mixer
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- DVC : Digital Volume and Mute Function
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SSIU : Serial Sound Interface Unit
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SSI : Serial Sound Interface
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See detail of each module's channels, connection, limitation on datasheet
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=============================================
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* Multi channel
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=============================================
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Multi channel is supported by Multi-SSI, or TDM-SSI.
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Multi-SSI : 6ch case, you can use stereo x 3 SSI
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TDM-SSI : 6ch case, you can use TDM
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=============================================
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* Enable/Disable each modules
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=============================================
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See datasheet to check SRC/CTU/MIX/DVC connect-limitation.
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DT controls enabling/disabling module.
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${LINUX}/arch/arm/boot/dts/r8a7790-lager.dts can be good example.
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This is example of
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Playback: [MEM] -> [SRC2] -> [DVC0] -> [SSIU0/SSI0] -> [codec]
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Capture: [MEM] <- [DVC1] <- [SRC3] <- [SSIU1/SSI1] <- [codec]
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see "Example: simple sound card"
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You can use below.
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${LINUX}/arch/arm/boot/dts/r8a7790.dts can be good example.
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&src0 &ctu00 &mix0 &dvc0 &ssi0
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&src1 &ctu01 &mix1 &dvc1 &ssi1
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&src2 &ctu02 &ssi2
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&src3 &ctu03 &ssi3
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&src4 &ssi4
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&src5 &ctu10 &ssi5
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&src6 &ctu11 &ssi6
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&src7 &ctu12 &ssi7
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&src8 &ctu13 &ssi8
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&src9 &ssi9
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=============================================
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* SRC (Sampling Rate Converter)
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=============================================
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[xx]Hz [yy]Hz
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------> [SRC] ------>
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SRC can convert [xx]Hz to [yy]Hz. Then, it has below 2 modes
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Asynchronous mode: input data / output data are based on different clocks.
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you can use this mode on Playback / Capture
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Synchronous mode: input data / output data are based on same clocks.
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This mode will be used if system doesn't have its input clock,
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for example digital TV case.
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you can use this mode on Playback
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------------------
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** Asynchronous mode
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------------------
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You need to use "simple-scu-audio-card" or "audio-graph-scu-card" for it.
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see "Example: simple sound card for Asynchronous mode"
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------------------
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** Synchronous mode
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------------------
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> amixer set "SRC Out Rate" on
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> aplay xxxx.wav
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> amixer set "SRC Out Rate" 48000
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> amixer set "SRC Out Rate" 44100
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=============================================
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* CTU (Channel Transfer Unit)
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=============================================
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[xx]ch [yy]ch
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------> [CTU] -------->
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CTU can convert [xx]ch to [yy]ch, or exchange outputed channel.
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CTU conversion needs matrix settings.
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For more detail information, see below
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Renesas R-Car datasheet
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- Sampling Rate Converter Unit (SCU)
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- SCU Operation
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- CMD Block
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- Functional Blocks in CMD
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Renesas R-Car datasheet
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- Sampling Rate Converter Unit (SCU)
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- Register Description
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- CTUn Scale Value exx Register (CTUn_SVxxR)
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${LINUX}/sound/soc/sh/rcar/ctu.c
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- comment of header
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You need to use "simple-scu-audio-card" or "audio-graph-scu-card" for it.
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see "Example: simple sound card for channel convert"
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Ex) Exchange output channel
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Input -> Output
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1ch -> 0ch
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0ch -> 1ch
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example of using matrix
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output 0ch = (input 0ch x 0) + (input 1ch x 1)
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output 1ch = (input 0ch x 1) + (input 1ch x 0)
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amixer set "CTU Reset" on
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amixer set "CTU Pass" 9,10
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amixer set "CTU SV0" 0,4194304
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amixer set "CTU SV1" 4194304,0
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example of changing connection
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amixer set "CTU Reset" on
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amixer set "CTU Pass" 2,1
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=============================================
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* MIX (Mixer)
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=============================================
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MIX merges 2 sounds path. You can see 2 sound interface on system,
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and these sounds will be merged by MIX.
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aplay -D plughw:0,0 xxxx.wav &
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aplay -D plughw:0,1 yyyy.wav
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You need to use "simple-scu-audio-card" or "audio-graph-scu-card" for it.
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Ex)
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[MEM] -> [SRC1] -> [CTU02] -+-> [MIX0] -> [DVC0] -> [SSI0]
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[MEM] -> [SRC2] -> [CTU03] -+
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see "Example: simple sound card for MIXer"
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=============================================
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* DVC (Digital Volume and Mute Function)
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=============================================
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DVC controls Playback/Capture volume.
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Playback Volume
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amixer set "DVC Out" 100%
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Capture Volume
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amixer set "DVC In" 100%
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Playback Mute
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amixer set "DVC Out Mute" on
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Capture Mute
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amixer set "DVC In Mute" on
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Volume Ramp
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amixer set "DVC Out Ramp Up Rate" "0.125 dB/64 steps"
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amixer set "DVC Out Ramp Down Rate" "0.125 dB/512 steps"
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amixer set "DVC Out Ramp" on
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aplay xxx.wav &
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amixer set "DVC Out" 80% // Volume Down
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amixer set "DVC Out" 100% // Volume Up
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=============================================
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* SSIU (Serial Sound Interface Unit)
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=============================================
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SSIU can avoid some under/over run error, because it has some buffer.
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But you can't use it if SSI was PIO mode.
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In DMA mode, you can select not to use SSIU by using "no-busif" via SSI.
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SSIU handles BUSIF which will be used for TDM Split mode.
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This driver is assuming that audio-graph card will be used.
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TDM Split mode merges 4 sounds. You can see 4 sound interface on system,
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and these sounds will be merged SSIU/SSI.
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aplay -D plughw:0,0 xxxx.wav &
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aplay -D plughw:0,1 xxxx.wav &
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aplay -D plughw:0,2 xxxx.wav &
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aplay -D plughw:0,3 xxxx.wav
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2ch 8ch
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[MEM] -> [SSIU 30] -+-> [SSIU 3] --> [Codec]
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2ch |
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[MEM] -> [SSIU 31] -+
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2ch |
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[MEM] -> [SSIU 32] -+
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2ch |
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[MEM] -> [SSIU 33] -+
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see "Example: simple sound card for TDM Split"
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=============================================
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* SSI (Serial Sound Interface)
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=============================================
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** PIO mode
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You can use PIO mode which is for connection check by using.
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Note: The system will drop non-SSI modules in PIO mode
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even though if DT is selecting other modules.
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&ssi0 {
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pio-transfer
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};
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** DMA mode without SSIU
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You can use DMA without SSIU.
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Note: under/over run, or noise are likely to occur
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&ssi0 {
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no-busif;
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};
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** PIN sharing
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Each SSI can share WS pin. It is based on platform.
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This is example if SSI1 want to share WS pin with SSI0
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&ssi1 {
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shared-pin;
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};
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** Multi-SSI
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You can use Multi-SSI.
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This is example of SSI0/SSI1/SSI2 (= for 6ch)
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see "Example: simple sound card for Multi channel"
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** TDM-SSI
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You can use TDM with SSI.
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This is example of TDM 6ch.
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Driver can automatically switches TDM <-> stereo mode in this case.
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see "Example: simple sound card for TDM"
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=============================================
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Required properties:
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=============================================
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- compatible : "renesas,rcar_sound-<soctype>", fallbacks
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"renesas,rcar_sound-gen1" if generation1, and
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"renesas,rcar_sound-gen2" if generation2 (or RZ/G1)
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"renesas,rcar_sound-gen3" if generation3 (or RZ/G2)
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Examples with soctypes are:
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- "renesas,rcar_sound-r8a7743" (RZ/G1M)
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- "renesas,rcar_sound-r8a7744" (RZ/G1N)
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- "renesas,rcar_sound-r8a7745" (RZ/G1E)
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- "renesas,rcar_sound-r8a774a1" (RZ/G2M)
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- "renesas,rcar_sound-r8a774c0" (RZ/G2E)
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- "renesas,rcar_sound-r8a7778" (R-Car M1A)
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- "renesas,rcar_sound-r8a7779" (R-Car H1)
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- "renesas,rcar_sound-r8a7790" (R-Car H2)
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- "renesas,rcar_sound-r8a7791" (R-Car M2-W)
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- "renesas,rcar_sound-r8a7793" (R-Car M2-N)
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- "renesas,rcar_sound-r8a7794" (R-Car E2)
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- "renesas,rcar_sound-r8a7795" (R-Car H3)
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- "renesas,rcar_sound-r8a7796" (R-Car M3-W)
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- "renesas,rcar_sound-r8a77965" (R-Car M3-N)
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- "renesas,rcar_sound-r8a77990" (R-Car E3)
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- "renesas,rcar_sound-r8a77995" (R-Car D3)
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- reg : Should contain the register physical address.
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required register is
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SRU/ADG/SSI if generation1
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SRU/ADG/SSIU/SSI if generation2
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- rcar_sound,ssi : Should contain SSI feature.
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The number of SSI subnode should be same as HW.
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see below for detail.
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- rcar_sound,ssiu : Should contain SSIU feature.
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The number of SSIU subnode should be same as HW.
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see below for detail.
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- rcar_sound,src : Should contain SRC feature.
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The number of SRC subnode should be same as HW.
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see below for detail.
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- rcar_sound,ctu : Should contain CTU feature.
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The number of CTU subnode should be same as HW.
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see below for detail.
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- rcar_sound,mix : Should contain MIX feature.
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The number of MIX subnode should be same as HW.
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see below for detail.
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- rcar_sound,dvc : Should contain DVC feature.
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The number of DVC subnode should be same as HW.
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see below for detail.
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- rcar_sound,dai : DAI contents.
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The number of DAI subnode should be same as HW.
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see below for detail.
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- #sound-dai-cells : it must be 0 if your system is using single DAI
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it must be 1 if your system is using multi DAI
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- clocks : References to SSI/SRC/MIX/CTU/DVC/AUDIO_CLK clocks.
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- clock-names : List of necessary clock names.
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"ssi-all", "ssi.X", "src.X", "mix.X", "ctu.X",
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"dvc.X", "clk_a", "clk_b", "clk_c", "clk_i"
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Optional properties:
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- #clock-cells : it must be 0 if your system has audio_clkout
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it must be 1 if your system has audio_clkout0/1/2/3
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- clock-frequency : for all audio_clkout0/1/2/3
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- clkout-lr-asynchronous : boolean property. it indicates that audio_clkoutn
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is asynchronizes with lr-clock.
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- resets : References to SSI resets.
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- reset-names : List of valid reset names.
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"ssi-all", "ssi.X"
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SSI subnode properties:
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- interrupts : Should contain SSI interrupt for PIO transfer
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- shared-pin : if shared clock pin
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- pio-transfer : use PIO transfer mode
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- no-busif : BUSIF is not ussed when [mem -> SSI] via DMA case
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- dma : Should contain Audio DMAC entry
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- dma-names : SSI case "rx" (=playback), "tx" (=capture)
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Deprecated: see SSIU subnode properties
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SSIU case "rxu" (=playback), "txu" (=capture)
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SSIU subnode properties:
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- dma : Should contain Audio DMAC entry
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- dma-names : "rx" (=playback), "tx" (=capture)
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SRC subnode properties:
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- dma : Should contain Audio DMAC entry
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- dma-names : "rx" (=playback), "tx" (=capture)
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DVC subnode properties:
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- dma : Should contain Audio DMAC entry
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- dma-names : "tx" (=playback/capture)
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DAI subnode properties:
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- playback : list of playback modules
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- capture : list of capture modules
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=============================================
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Example:
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=============================================
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rcar_sound: sound@ec500000 {
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#sound-dai-cells = <1>;
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compatible = "renesas,rcar_sound-r8a7791", "renesas,rcar_sound-gen2";
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reg = <0 0xec500000 0 0x1000>, /* SCU */
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<0 0xec5a0000 0 0x100>, /* ADG */
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<0 0xec540000 0 0x1000>, /* SSIU */
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<0 0xec541000 0 0x1280>, /* SSI */
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<0 0xec740000 0 0x200>; /* Audio DMAC peri peri*/
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reg-names = "scu", "adg", "ssiu", "ssi", "audmapp";
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clocks = <&mstp10_clks R8A7790_CLK_SSI_ALL>,
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<&mstp10_clks R8A7790_CLK_SSI9>, <&mstp10_clks R8A7790_CLK_SSI8>,
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<&mstp10_clks R8A7790_CLK_SSI7>, <&mstp10_clks R8A7790_CLK_SSI6>,
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<&mstp10_clks R8A7790_CLK_SSI5>, <&mstp10_clks R8A7790_CLK_SSI4>,
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<&mstp10_clks R8A7790_CLK_SSI3>, <&mstp10_clks R8A7790_CLK_SSI2>,
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<&mstp10_clks R8A7790_CLK_SSI1>, <&mstp10_clks R8A7790_CLK_SSI0>,
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<&mstp10_clks R8A7790_CLK_SCU_SRC9>, <&mstp10_clks R8A7790_CLK_SCU_SRC8>,
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<&mstp10_clks R8A7790_CLK_SCU_SRC7>, <&mstp10_clks R8A7790_CLK_SCU_SRC6>,
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<&mstp10_clks R8A7790_CLK_SCU_SRC5>, <&mstp10_clks R8A7790_CLK_SCU_SRC4>,
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<&mstp10_clks R8A7790_CLK_SCU_SRC3>, <&mstp10_clks R8A7790_CLK_SCU_SRC2>,
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<&mstp10_clks R8A7790_CLK_SCU_SRC1>, <&mstp10_clks R8A7790_CLK_SCU_SRC0>,
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<&mstp10_clks R8A7790_CLK_SCU_DVC0>, <&mstp10_clks R8A7790_CLK_SCU_DVC1>,
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<&audio_clk_a>, <&audio_clk_b>, <&audio_clk_c>, <&m2_clk>;
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clock-names = "ssi-all",
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"ssi.9", "ssi.8", "ssi.7", "ssi.6", "ssi.5",
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"ssi.4", "ssi.3", "ssi.2", "ssi.1", "ssi.0",
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"src.9", "src.8", "src.7", "src.6", "src.5",
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"src.4", "src.3", "src.2", "src.1", "src.0",
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"dvc.0", "dvc.1",
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"clk_a", "clk_b", "clk_c", "clk_i";
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rcar_sound,dvc {
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dvc0: dvc-0 {
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dmas = <&audma0 0xbc>;
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dma-names = "tx";
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};
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dvc1: dvc-1 {
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dmas = <&audma0 0xbe>;
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dma-names = "tx";
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};
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};
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rcar_sound,mix {
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mix0: mix-0 { };
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mix1: mix-1 { };
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};
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rcar_sound,ctu {
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ctu00: ctu-0 { };
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ctu01: ctu-1 { };
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ctu02: ctu-2 { };
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ctu03: ctu-3 { };
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ctu10: ctu-4 { };
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ctu11: ctu-5 { };
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ctu12: ctu-6 { };
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ctu13: ctu-7 { };
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};
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rcar_sound,src {
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src0: src-0 {
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interrupts = <0 352 IRQ_TYPE_LEVEL_HIGH>;
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dmas = <&audma0 0x85>, <&audma1 0x9a>;
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dma-names = "rx", "tx";
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};
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src1: src-1 {
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interrupts = <0 353 IRQ_TYPE_LEVEL_HIGH>;
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dmas = <&audma0 0x87>, <&audma1 0x9c>;
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dma-names = "rx", "tx";
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};
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src2: src-2 {
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interrupts = <0 354 IRQ_TYPE_LEVEL_HIGH>;
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dmas = <&audma0 0x89>, <&audma1 0x9e>;
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dma-names = "rx", "tx";
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};
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src3: src-3 {
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interrupts = <0 355 IRQ_TYPE_LEVEL_HIGH>;
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dmas = <&audma0 0x8b>, <&audma1 0xa0>;
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dma-names = "rx", "tx";
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};
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src4: src-4 {
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interrupts = <0 356 IRQ_TYPE_LEVEL_HIGH>;
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dmas = <&audma0 0x8d>, <&audma1 0xb0>;
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dma-names = "rx", "tx";
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};
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src5: src-5 {
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interrupts = <0 357 IRQ_TYPE_LEVEL_HIGH>;
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dmas = <&audma0 0x8f>, <&audma1 0xb2>;
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dma-names = "rx", "tx";
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};
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src6: src-6 {
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interrupts = <0 358 IRQ_TYPE_LEVEL_HIGH>;
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dmas = <&audma0 0x91>, <&audma1 0xb4>;
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dma-names = "rx", "tx";
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};
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src7: src-7 {
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interrupts = <0 359 IRQ_TYPE_LEVEL_HIGH>;
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dmas = <&audma0 0x93>, <&audma1 0xb6>;
|
|
dma-names = "rx", "tx";
|
|
};
|
|
src8: src-8 {
|
|
interrupts = <0 360 IRQ_TYPE_LEVEL_HIGH>;
|
|
dmas = <&audma0 0x95>, <&audma1 0xb8>;
|
|
dma-names = "rx", "tx";
|
|
};
|
|
src9: src-9 {
|
|
interrupts = <0 361 IRQ_TYPE_LEVEL_HIGH>;
|
|
dmas = <&audma0 0x97>, <&audma1 0xba>;
|
|
dma-names = "rx", "tx";
|
|
};
|
|
};
|
|
|
|
rcar_sound,ssiu {
|
|
ssiu00: ssiu-0 {
|
|
dmas = <&audma0 0x15>, <&audma1 0x16>;
|
|
dma-names = "rx", "tx";
|
|
};
|
|
ssiu01: ssiu-1 {
|
|
dmas = <&audma0 0x35>, <&audma1 0x36>;
|
|
dma-names = "rx", "tx";
|
|
};
|
|
|
|
...
|
|
|
|
ssiu95: ssiu-49 {
|
|
dmas = <&audma0 0xA5>, <&audma1 0xA6>;
|
|
dma-names = "rx", "tx";
|
|
};
|
|
ssiu96: ssiu-50 {
|
|
dmas = <&audma0 0xA7>, <&audma1 0xA8>;
|
|
dma-names = "rx", "tx";
|
|
};
|
|
ssiu97: ssiu-51 {
|
|
dmas = <&audma0 0xA9>, <&audma1 0xAA>;
|
|
dma-names = "rx", "tx";
|
|
};
|
|
};
|
|
|
|
rcar_sound,ssi {
|
|
ssi0: ssi-0 {
|
|
interrupts = <0 370 IRQ_TYPE_LEVEL_HIGH>;
|
|
dmas = <&audma0 0x01>, <&audma1 0x02>;
|
|
dma-names = "rx", "tx";
|
|
};
|
|
ssi1: ssi-1 {
|
|
interrupts = <0 371 IRQ_TYPE_LEVEL_HIGH>;
|
|
dmas = <&audma0 0x03>, <&audma1 0x04>;
|
|
dma-names = "rx", "tx";
|
|
};
|
|
|
|
...
|
|
|
|
ssi8: ssi-8 {
|
|
interrupts = <0 378 IRQ_TYPE_LEVEL_HIGH>;
|
|
dmas = <&audma0 0x11>, <&audma1 0x12>;
|
|
dma-names = "rx", "tx";
|
|
};
|
|
ssi9: ssi-9 {
|
|
interrupts = <0 379 IRQ_TYPE_LEVEL_HIGH>;
|
|
dmas = <&audma0 0x13>, <&audma1 0x14>;
|
|
dma-names = "rx", "tx";
|
|
};
|
|
};
|
|
|
|
rcar_sound,dai {
|
|
dai0 {
|
|
playback = <&ssi5 &src5>;
|
|
capture = <&ssi6>;
|
|
};
|
|
dai1 {
|
|
playback = <&ssi3>;
|
|
};
|
|
dai2 {
|
|
capture = <&ssi4>;
|
|
};
|
|
dai3 {
|
|
playback = <&ssi7>;
|
|
};
|
|
dai4 {
|
|
capture = <&ssi8>;
|
|
};
|
|
};
|
|
};
|
|
|
|
=============================================
|
|
Example: simple sound card
|
|
=============================================
|
|
|
|
rsnd_ak4643: sound {
|
|
compatible = "simple-audio-card";
|
|
|
|
simple-audio-card,format = "left_j";
|
|
simple-audio-card,bitclock-master = <&sndcodec>;
|
|
simple-audio-card,frame-master = <&sndcodec>;
|
|
|
|
sndcpu: simple-audio-card,cpu {
|
|
sound-dai = <&rcar_sound>;
|
|
};
|
|
|
|
sndcodec: simple-audio-card,codec {
|
|
sound-dai = <&ak4643>;
|
|
clocks = <&audio_clock>;
|
|
};
|
|
};
|
|
|
|
&rcar_sound {
|
|
pinctrl-0 = <&sound_pins &sound_clk_pins>;
|
|
pinctrl-names = "default";
|
|
|
|
/* Single DAI */
|
|
#sound-dai-cells = <0>;
|
|
|
|
|
|
rcar_sound,dai {
|
|
dai0 {
|
|
playback = <&ssi0 &src2 &dvc0>;
|
|
capture = <&ssi1 &src3 &dvc1>;
|
|
};
|
|
};
|
|
};
|
|
|
|
&ssi1 {
|
|
shared-pin;
|
|
};
|
|
|
|
=============================================
|
|
Example: simple sound card for Asynchronous mode
|
|
=============================================
|
|
|
|
sound {
|
|
compatible = "simple-scu-audio-card";
|
|
...
|
|
/*
|
|
* SRC Asynchronous mode setting
|
|
* Playback:
|
|
* All input data will be converted to 48kHz
|
|
* Capture:
|
|
* Inputed 48kHz data will be converted to
|
|
* system specified Hz
|
|
*/
|
|
simple-audio-card,convert-rate = <48000>;
|
|
...
|
|
simple-audio-card,cpu {
|
|
sound-dai = <&rcar_sound>;
|
|
};
|
|
simple-audio-card,codec {
|
|
...
|
|
};
|
|
};
|
|
|
|
=============================================
|
|
Example: simple sound card for channel convert
|
|
=============================================
|
|
|
|
sound {
|
|
compatible = "simple-scu-audio-card";
|
|
...
|
|
/*
|
|
* CTU setting
|
|
* All input data will be converted to 2ch
|
|
* as output data
|
|
*/
|
|
simple-audio-card,convert-channels = <2>;
|
|
...
|
|
simple-audio-card,cpu {
|
|
sound-dai = <&rcar_sound>;
|
|
};
|
|
simple-audio-card,codec {
|
|
...
|
|
};
|
|
};
|
|
|
|
=============================================
|
|
Example: simple sound card for MIXer
|
|
=============================================
|
|
|
|
sound {
|
|
compatible = "simple-scu-audio-card";
|
|
...
|
|
simple-audio-card,cpu@0 {
|
|
sound-dai = <&rcar_sound 0>;
|
|
};
|
|
simple-audio-card,cpu@1 {
|
|
sound-dai = <&rcar_sound 1>;
|
|
};
|
|
simple-audio-card,codec {
|
|
...
|
|
};
|
|
};
|
|
|
|
&rcar_sound {
|
|
...
|
|
rcar_sound,dai {
|
|
dai0 {
|
|
playback = <&src1 &ctu02 &mix0 &dvc0 &ssi0>;
|
|
};
|
|
dai1 {
|
|
playback = <&src2 &ctu03 &mix0 &dvc0 &ssi0>;
|
|
};
|
|
};
|
|
};
|
|
|
|
=============================================
|
|
Example: simple sound card for TDM
|
|
=============================================
|
|
|
|
rsnd_tdm: sound {
|
|
compatible = "simple-audio-card";
|
|
|
|
simple-audio-card,format = "left_j";
|
|
simple-audio-card,bitclock-master = <&sndcodec>;
|
|
simple-audio-card,frame-master = <&sndcodec>;
|
|
|
|
sndcpu: simple-audio-card,cpu {
|
|
sound-dai = <&rcar_sound>;
|
|
dai-tdm-slot-num = <6>;
|
|
};
|
|
|
|
sndcodec: simple-audio-card,codec {
|
|
sound-dai = <&xxx>;
|
|
};
|
|
};
|
|
|
|
=============================================
|
|
Example: simple sound card for TDM Split
|
|
=============================================
|
|
|
|
sound_card: sound {
|
|
compatible = "audio-graph-scu-card";
|
|
prefix = "xxxx";
|
|
routing = "xxxx Playback", "DAI0 Playback",
|
|
"xxxx Playback", "DAI1 Playback",
|
|
"xxxx Playback", "DAI2 Playback",
|
|
"xxxx Playback", "DAI3 Playback";
|
|
convert-channels = <8>; /* TDM Split */
|
|
|
|
dais = <&rsnd_port0 /* playback ch1/ch2 */
|
|
&rsnd_port1 /* playback ch3/ch4 */
|
|
&rsnd_port2 /* playback ch5/ch6 */
|
|
&rsnd_port3 /* playback ch7/ch8 */
|
|
>;
|
|
};
|
|
|
|
audio-codec {
|
|
...
|
|
port {
|
|
codec_0: endpoint@1 {
|
|
remote-endpoint = <&rsnd_ep0>;
|
|
};
|
|
codec_1: endpoint@2 {
|
|
remote-endpoint = <&rsnd_ep1>;
|
|
};
|
|
codec_2: endpoint@3 {
|
|
remote-endpoint = <&rsnd_ep2>;
|
|
};
|
|
codec_3: endpoint@4 {
|
|
remote-endpoint = <&rsnd_ep3>;
|
|
};
|
|
};
|
|
};
|
|
|
|
&rcar_sound {
|
|
...
|
|
ports {
|
|
rsnd_port0: port@0 {
|
|
rsnd_ep0: endpoint {
|
|
remote-endpoint = <&codec_0>;
|
|
...
|
|
playback = <&ssiu30 &ssi3>;
|
|
};
|
|
};
|
|
rsnd_port1: port@1 {
|
|
rsnd_ep1: endpoint {
|
|
remote-endpoint = <&codec_1>;
|
|
...
|
|
playback = <&ssiu31 &ssi3>;
|
|
};
|
|
};
|
|
rsnd_port2: port@2 {
|
|
rsnd_ep2: endpoint {
|
|
remote-endpoint = <&codec_2>;
|
|
...
|
|
playback = <&ssiu32 &ssi3>;
|
|
};
|
|
};
|
|
rsnd_port3: port@3 {
|
|
rsnd_ep3: endpoint {
|
|
remote-endpoint = <&codec_3>;
|
|
...
|
|
playback = <&ssiu33 &ssi3>;
|
|
};
|
|
};
|
|
};
|
|
};
|
|
|
|
=============================================
|
|
Example: simple sound card for Multi channel
|
|
=============================================
|
|
|
|
&rcar_sound {
|
|
pinctrl-0 = <&sound_pins &sound_clk_pins>;
|
|
pinctrl-names = "default";
|
|
|
|
/* Single DAI */
|
|
#sound-dai-cells = <0>;
|
|
|
|
|
|
rcar_sound,dai {
|
|
dai0 {
|
|
playback = <&ssi0 &ssi1 &ssi2 &src0 &dvc0>;
|
|
};
|
|
};
|
|
};
|