Caleb Connolly | d3e0164 | 2021-10-29 21:17:02 +0100 | [diff] [blame] | 1 | <!-- This file is provided as a reference for writing config files |
| 2 | It does NOT represent any particular device and will NOT work on |
| 3 | real hardware. You must create a file with the correct settings for |
| 4 | your hardware, and the comments here will explain the layout of this |
| 5 | file and expected content. |
| 6 | On the target device this file must be located in /system/etc and named |
| 7 | audio.<device>.xml, where <device> is the string returned by the system |
| 8 | property ro.product.device |
| 9 | --> |
| 10 | |
| 11 | <audiohal> |
| 12 | |
| 13 | <!-- mixer element _must_ appear before any of the other definitions. |
| 14 | The ALSA card can be identified either by card number or by name. |
| 15 | Connect to ALSA card 0: |
| 16 | <mixer card="0"> |
| 17 | Connect to ALSA card called "FooSound" |
| 18 | <mixer name="FooSound"> |
| 19 | When the card is given by name, TinyHAL searches all /proc/asound/card*/id |
| 20 | files for a matching name. |
| 21 | --> |
| 22 | <mixer card="0"> <!-- <mixer name="sdm845" > --> |
| 23 | |
| 24 | <!-- A pre_init element lists control settings that will cause new ALSA |
| 25 | controls to be added. Typically this is used to load firmware into a |
| 26 | DSP, causing new ALSA controls to be added for controls exported by the |
| 27 | firmware. After processing a pre_init element the ALSA controls are |
| 28 | reloaded to pick up any new controls. Other elements in the |
| 29 | configuration can then use those controls. |
| 30 | Multiple pre_init elements can be used, so that a pre_init can depend |
| 31 | on controls populated by a previous pre_init. |
| 32 | All pre_init elements must appear before the init element. |
| 33 | --> |
| 34 | |
| 35 | <pre_init> |
| 36 | <!-- A list of ctl elements - see description of init element --> |
| 37 | <!-- <ctl name="DSP1 Preload Switch" val="1" /> --> |
| 38 | </pre_init> |
| 39 | |
| 40 | <!-- An init element lists control settings required to initialize the |
| 41 | hardware and driver. These settings are applied only once when the |
| 42 | library is first loaded during boot. |
| 43 | --> |
| 44 | |
| 45 | <init> |
| 46 | |
| 47 | <!-- A sequence of ctl elements. Each entry sets a mixer |
| 48 | control to a given value. The entries are applied in the |
| 49 | order they are listed here. |
| 50 | Each entry _must_ have these attributes |
| 51 | name - name of the ALSA mixer control |
| 52 | val - value to set it to |
| 53 | It can also have an index attribute giving the numeric index |
| 54 | of the control value to set. This is used where a control |
| 55 | has multiple value slots (for example a volume control |
| 56 | with two values, one for left channel and one for right), If |
| 57 | an index attribute is not given the content of the val attribute |
| 58 | will be applied to all value slots of the control. |
| 59 | The numbers in val and index attributes can be given in either |
| 60 | decimal, or hex (hex is prefixed with 0x). For a control with |
| 61 | enumerated values the val attribute must be a string |
| 62 | BYTE ARRAYS: for controls that are a byte array val must be |
| 63 | a string of comma-separated byte values. This can be shorter |
| 64 | than the total size of the control, combined with the |
| 65 | optional index attribute this allows any subset of the byte |
| 66 | array to be changed. Alternatively, a file attribute can be given |
| 67 | instead of the val attribute, and the raw byte content of the file |
| 68 | will be copied into the control. Note that the bytes in the file |
| 69 | must already be correctly formatted for writing into the ALSA |
| 70 | control. The file is read once when TinyHAL starts and this |
| 71 | cached content is used every time this <ctl> element is invoked. |
| 72 | --> |
| 73 | |
| 74 | <ctl name="QUAT_MI2S_RX Audio Mixer MultiMedia1" val="1" /> |
| 75 | <ctl name="SLIMBUS_0_RX Audio Mixer MultiMedia2" val="1" /> |
| 76 | <ctl name="MultiMedia3 Mixer SLIMBUS_0_TX" val="1" /> |
| 77 | <ctl name="AIF1_CAP Mixer SLIM TX7" val="1" /> |
| 78 | <ctl name="CDC_IF TX7 MUX" val="DEC7" /> |
| 79 | <ctl name="SLIM RX0 MUX" val="AIF1_PB" /> |
| 80 | <ctl name="SLIM RX1 MUX" val="AIF1_PB" /> |
| 81 | <ctl name="SLIM RX2 MUX" val="AIF1_PB" /> |
| 82 | <ctl name="SLIM RX3 MUX" val="AIF1_PB" /> |
| 83 | <ctl name="SLIM RX4 MUX" val="ZERO" /> |
| 84 | <ctl name="SLIM RX5 MUX" val="ZERO" /> |
| 85 | <ctl name="SLIM RX6 MUX" val="ZERO" /> |
| 86 | <ctl name="SLIM RX7 MUX" val="ZERO" /> |
| 87 | <ctl name="RX INT7_1 MIX1 INP0" val="RX0" /> |
| 88 | <ctl name="RX INT8_1 MIX1 INP0" val="RX1" /> |
| 89 | <ctl name="RX INT1_2 MUX" val="RX0" /> |
| 90 | <ctl name="RX INT2_2 MUX" val="RX1" /> |
| 91 | |
| 92 | |
| 93 | </init> |
| 94 | </mixer> |
| 95 | |
| 96 | <!-- Next you must list all the devices supported by the hardware. The |
| 97 | name attribute of the <device> element identifies the device. These names are |
| 98 | recognized: |
| 99 | "global" dummy global device - see explanation below |
| 100 | "speaker" AUDIO_DEVICE_OUT_SPEAKER |
| 101 | "earpiece" AUDIO_DEVICE_OUT_EARPIECE |
| 102 | "headset" AUDIO_DEVICE_OUT_WIRED_HEADSET |
| 103 | "headset_in" AUDIO_DEVICE_IN_WIRED_HEADSET |
| 104 | "headphone" AUDIO_DEVICE_OUT_WIRED_HEADPHONE |
| 105 | "sco" AUDIO_DEVICE_OUT_ALL_SCO |
| 106 | "sco_in" AUDIO_DEVICE_IN_ALL_SCO |
| 107 | "a2dp" AUDIO_DEVICE_OUT_ALL_A2DP |
| 108 | "usb" AUDIO_DEVICE_OUT_ALL_USB |
| 109 | "mic" AUDIO_DEVICE_IN_BUILTIN_MIC |
| 110 | "back mic" AUDIO_DEVICE_IN_BACK_MIC |
| 111 | "voice" AUDIO_DEVICE_IN_VOICE_CALL |
| 112 | "aux" AUDIO_DEVICE_IN_AUX_DIGITAL |
| 113 | Within the <device> element you can declare a number of "paths", each path |
| 114 | defines a group of control settings to be applied. Each path is identified by |
| 115 | a name. The "on" and "off" paths are special and list a global enable and |
| 116 | disable setting for the device. Use of devices is reference-counted, when |
| 117 | routing of a stream is changed to use a device that is currently disabled its |
| 118 | "on" path will be applied. When no streams are using a device its "off" |
| 119 | path will be applied. |
| 120 | Other paths are user-defined and you can give them any name you choose. |
| 121 | They are used to apply custom paths when required by a stream and will |
| 122 | be used only when a stream is connected to or disconnected from a |
| 123 | device if the <stream> element has an <enable> or <disable> element requesting |
| 124 | that path. |
| 125 | It is not mandatory to provide paths. You only need to define paths |
| 126 | if there are specific control settings that must be applied. So for example |
| 127 | if no controls need be applied to enable or disable a device then you |
| 128 | do not need to define the "on" and "off" paths. |
| 129 | The <ctl> elements within each path have the same format and behaviour |
| 130 | as described under <mixer><init>. |
| 131 | The "global" device is a special device the represents the audio system as a |
| 132 | whole and is used to invoke mixer settings that are independent of any real |
| 133 | device and which apply globally to the audio system. A stream is automatically |
| 134 | connected to "global" when it is opened and disconnected when it is closed. |
| 135 | The behaviour is identical to the way paths are invoked in any other <device> |
| 136 | entry so the effect is |
| 137 | - the "on" path will be applied when a stream is opened and there are |
| 138 | no other streams already open. As an example this could be used to |
| 139 | bring the audio hardware out of a standby state |
| 140 | - the "off" path will be applied when the last open stream is closed. |
| 141 | As an example this could be used to put the audio hardware into a |
| 142 | standby state |
| 143 | - the custom paths will be applied when the stream that requests them |
| 144 | is opened or closed. |
| 145 | --> |
| 146 | |
| 147 | <device name="speaker"> |
| 148 | <path name="on"> |
| 149 | <!-- List of ctl element for control values to apply |
| 150 | when this device is enabled --> |
| 151 | <!-- <ctl name="Amp DSP Switch" val="1"/> --> |
| 152 | </path> |
| 153 | |
| 154 | <path name="off"> |
| 155 | <!-- List of ctl element for control values to apply |
| 156 | when this device is disabled --> |
| 157 | <!-- <ctl name="Amp DSP Switch" val="0"/> --> |
| 158 | </path> |
| 159 | |
| 160 | <!-- Following paths are user-defined and are applied when a |
| 161 | <stream> elements' routing is changed to add or remove this |
| 162 | device. If the path name matches the name given in the <stream> |
| 163 | element it will be applied. A stream could be routed to multiple |
| 164 | inputs or outputs - the paths for connecting and disconnecting |
| 165 | a stream to a device must therefore have the same name in each |
| 166 | <device>. |
| 167 | It is not mandatory to declare custom paths - depending on your |
| 168 | hardware there may not be any specific action required to route |
| 169 | a stream to a particular device. Also you do not have to define |
| 170 | the path in every device, only the devices where some action must |
| 171 | be taken to connect or disconnect a stream. |
| 172 | For this example four custom paths are defined: |
| 173 | pcm_out_en = control setting to connect PCM output to this device |
| 174 | pcm_out_dis = control setting to disconnect PCM output from this device |
| 175 | --> |
| 176 | |
| 177 | <path name="pcm_out_en"> |
| 178 | <ctl name="I2S RX0 MUX" val="AIF1_PB" /> |
| 179 | <ctl name="MI2S_RX Channels" val="One" /> |
| 180 | <ctl name="CDC_IF RX0 MUX" val="I2S RX0" /> |
| 181 | <ctl name="RX INT8_1 MIX1 INP0" val="RX0" /> |
| 182 | <ctl name="COMP8 Switch" val="1" /> |
| 183 | <ctl name="SpkrRight COMP Switch" val="1" /> |
| 184 | <ctl name="SpkrRight BOOST Switch" val="1" /> |
| 185 | <ctl name="SpkrRight VISENSE Switch" val="1" /> |
| 186 | <ctl name="SpkrRight SWR DAC_Port Switch" val="1" /> |
| 187 | </path> |
| 188 | <path name="pcm_out_dis"> |
| 189 | </path> |
| 190 | </device> |
| 191 | |
Caleb Connolly | c306b8a | 2021-11-15 16:32:22 +0000 | [diff] [blame] | 192 | <device name="headset"> |
Caleb Connolly | d3e0164 | 2021-10-29 21:17:02 +0100 | [diff] [blame] | 193 | <!-- <path name="on"> |
| 194 | <ctl name="SLIM RX2 MUX" val="AIF1_PB"/> |
| 195 | <ctl name="SLIM RX3 MUX" val="AIF1_PB"/> |
| 196 | <ctl name="RX INT1 DEM MUX" val="CLSH_DSM_OUT"/> |
| 197 | <ctl name="RX INT2 DEM MUX" val="CLSH_DSM_OUT"/> |
| 198 | <ctl name="RX INT1_1 MIX1 INP0" val="RX2"/> |
| 199 | <ctl name="RX INT2_1 MIX1 INP0" val="RX3"/> |
| 200 | <ctl name="RX INT1_1 INTERP" val="RX INT1_1 MI"/> |
| 201 | <ctl name="RX INT2_1 INTERP" val="RX INT2_1 MI"/> |
| 202 | <ctl name="RX0 Digital Volume" val="0"/> |
| 203 | <ctl name="RX1 Digital Volume" val="80"/> |
| 204 | <ctl name="RX2 Digital Volume" val="80"/> |
| 205 | </path> |
| 206 | |
| 207 | <path name="off"> |
| 208 | <ctl name="SLIM RX2 MUX" val="ZERO"/> |
| 209 | <ctl name="SLIM RX3 MUX" val="ZERO"/> |
| 210 | <ctl name="RX INT1 DEM MUX" val="ZERO"/> |
| 211 | <ctl name="RX INT2 DEM MUX" val="ZERO"/> |
| 212 | <ctl name="RX INT1_1 MIX1 INP0" val="ZERO"/> |
| 213 | <ctl name="RX INT2_1 MIX1 INP0" val="ZERO"/> |
| 214 | <ctl name="RX INT1_1 INTERP" val="ZERO"/> |
| 215 | <ctl name="RX INT2_1 INTERP" val="ZERO"/> |
| 216 | <ctl name="RX1 Digital Volume" val="0"/> |
| 217 | <ctl name="RX2 Digital Volume" val="0"/> |
| 218 | </path> --> |
| 219 | |
| 220 | |
| 221 | <path name="pcm_out_en"> |
Caleb Connolly | f756551 | 2021-11-23 18:38:28 +0000 | [diff] [blame^] | 222 | <!-- <ctl name="SLIM RX2 MUX" val="AIF4_PB" /> |
Caleb Connolly | d3e0164 | 2021-10-29 21:17:02 +0100 | [diff] [blame] | 223 | <ctl name="SLIM RX3 MUX" val="AIF4_PB" /> |
| 224 | <ctl name="RX INT1_2 MUX" val="RX2" /> |
Caleb Connolly | f756551 | 2021-11-23 18:38:28 +0000 | [diff] [blame^] | 225 | <ctl name="RX INT2_2 MUX" val="RX3" /> --> |
Caleb Connolly | d3e0164 | 2021-10-29 21:17:02 +0100 | [diff] [blame] | 226 | </path> |
| 227 | |
| 228 | <path name="pcm_out_dis"> |
| 229 | <ctl name="SLIM RX2 MUX" val="ZERO" /> |
| 230 | <ctl name="SLIM RX3 MUX" val="ZERO" /> |
| 231 | <ctl name="RX INT1_2 MUX" val="ZERO" /> |
| 232 | <ctl name="RX INT2_2 MUX" val="ZERO" /> |
| 233 | </path> |
| 234 | </device> |
| 235 | |
| 236 | <!-- Following the device definitions there must be a <stream> entry |
| 237 | for every output and input stream supported by the hardware. It is also |
| 238 | possible to define a 'global' stream that is not associated with any particular |
| 239 | audio input or output but instead can be used to handle actions that are |
| 240 | global to the audio hardware. |
| 241 | There are two types of stream that can be declared here: |
| 242 | - anonymous streams, these will be used to supply playback and record |
| 243 | streams for AudioFlinger |
| 244 | - named streams, which are mainly used to declare custom streams to handle |
| 245 | special routing use-cases that are external to the normal Android audio |
| 246 | path - typically where the audio is routed entirely in hardware without |
| 247 | being passed through Android, for example the baseband audio link or |
| 248 | FM radio. |
| 249 | The global stream is a special case of a named stream and must have the |
| 250 | name "global" |
| 251 | For standard anonymous streams there are two that would normally be on |
| 252 | any device: PCM input and PCM output. It is also possible to declare a stream |
| 253 | as "compress" - this is intended for cases where a playback stream is |
| 254 | decompressed in hardware, or a record stream provides raw compressed data that |
| 255 | must be decompressed in software. |
| 256 | Named streams can be declared as type "hw", to represent a hardware-hardware |
| 257 | link. |
| 258 | The "global" named stream can be used to handle events that are not specific |
| 259 | to any particular stream. Typically this is used to implement usecase handlers |
| 260 | (see below) to handle set_parameter messages sent to the HAL's global |
| 261 | (struct audio_device*)->hw_device.set_parameters function (for example, the |
| 262 | "orientation" parameter that is sent by Android.) |
| 263 | Mandatory attributes for PCM and compressed streams: |
| 264 | type must be "pcm" or "compress" |
| 265 | dir direction of stream, either "in" (recording) or "out" (playback) |
| 266 | Mandatory for named streams: |
| 267 | type must be "pcm", "compress" or "hw" |
| 268 | dir direction of stream, either "in" (recording) or "out" (playback) |
| 269 | name a custom name for a named stream. The name you choose here must |
| 270 | match the name your HAL will use to request this stream |
| 271 | Mandatory for hw streams: |
| 272 | type must be "hw" |
| 273 | dir direction of stream, either "in" (recording) or "out" (playback) |
| 274 | name a custom name for the stream (hw streams must be named streams) |
| 275 | Mandatory for the global stream: |
| 276 | type must be "hw" |
| 277 | name must be "global" |
| 278 | Optional attributes: |
| 279 | card ALSA card number. If not given this defaults to 0 |
| 280 | device ALSA device number. If not given this defaults to 0 |
| 281 | instances limits the maximum number of instances of this stream, if not |
| 282 | specified the number of instances is unlimited |
| 283 | name a custom name for a named stream. The name you choose here must |
| 284 | match the name your HAL will use to request this stream |
| 285 | Anonymous PCM streams should not normally have an instance limit. |
| 286 | TinyHAL defines a specific named stream: |
| 287 | "voice recognition" - a PCM or compressed stream for voice recognition input. |
| 288 | If a stream with this name is not defined TinyHAL will |
| 289 | use the normal PCM input stream for voice recognition audio. |
| 290 | --> |
| 291 | |
| 292 | <stream type="pcm" dir="out" card="0" device="0"> |
| 293 | <!-- The <enable> and <disable> tags give the name of a path |
| 294 | to apply for each connected device when the stream is either connected |
| 295 | to (enable) or disconnected from (disable) that device. |
| 296 | The way this works is that when stream routing changes, the HAL will |
| 297 | look through the paths of each device this stream is connected to, |
| 298 | - for each device the stream is being disconnected from, if it |
| 299 | contains a path matching the path name in <disable>, that path |
| 300 | will be applied. |
| 301 | - for each device the stream is being connected to, if it |
| 302 | contains a path matching the path name in <enable>, that path |
| 303 | will be applied. |
| 304 | --> |
| 305 | <enable path="pcm_out_en"/> |
| 306 | <disable path="pcm_out_dis"/> |
| 307 | |
| 308 | <!-- The optional usecase block allows you to define custom use-cases that |
| 309 | are triggered by set_parameter() calls to the HAL. The set_parameter() |
| 310 | is a string of the form <setting>=<value>. The HAL will search for a |
| 311 | usecase block whose name attribute matches <setting> and within that |
| 312 | a case block whose name attribute matches <value>. If a matching case |
| 313 | block is found the enclosed <ctl> blocks will be applied. |
| 314 | The example below defines a use case for switching a codec algorithm |
| 315 | between wideband and narrowband response. The two cases will be |
| 316 | triggered by a set_parameter() of "bandwidth=narrow" or "bandwidth=wide". |
| 317 | --> |
| 318 | <!-- <usecase name="bandwidth"> |
| 319 | <case name="narrow"> |
| 320 | <ctl name="Codec Wideband" val="0" /> |
| 321 | </case> |
| 322 | <case name="wide"> |
| 323 | <ctl name="Codec Wideband" val="1" /> |
| 324 | </case> |
| 325 | </usecase> --> |
| 326 | |
| 327 | <!-- Constant values. These allow setting named values that can |
| 328 | be read by the audio HAL at runtime. Values are 32-bit unsigned. |
| 329 | This is useful for setting HAL-specific or hardware-specific |
| 330 | information. |
| 331 | The names have no meaning to the config manager, and are |
| 332 | entirely defined by the audio HAL. |
| 333 | If you want to set constants that are global, rather than part |
| 334 | of a stream, define a hw stream called "global". |
| 335 | to hold the values. |
| 336 | --> |
| 337 | <!-- <set name="foo" val="42"/> --> |
| 338 | |
| 339 | </stream> |
| 340 | |
Caleb Connolly | f756551 | 2021-11-23 18:38:28 +0000 | [diff] [blame^] | 341 | <!-- <stream type="pcm" dir="out" card="0" device="1"> |
Caleb Connolly | c306b8a | 2021-11-15 16:32:22 +0000 | [diff] [blame] | 342 | <enable path="pcm_out_en"/> |
| 343 | <disable path="pcm_out_dis"/> |
Caleb Connolly | f756551 | 2021-11-23 18:38:28 +0000 | [diff] [blame^] | 344 | </stream> --> |
Caleb Connolly | d3e0164 | 2021-10-29 21:17:02 +0100 | [diff] [blame] | 345 | |
| 346 | <!-- Example named stream, in this case for an FM radio path . This will not |
| 347 | be available for standard AudioFlinger playback and record paths. It must |
| 348 | be explicitly requested by the audio HAL when FM radio is enabled |
| 349 | --> |
| 350 | <!-- control paths to be enabled when this stream is enabled or disabled --> |
| 351 | <!-- <stream name="FM radio" type="pcm" dir="in" card="0" device="0"> |
| 352 | |
| 353 | <enable path="fm_radio_en"/> |
| 354 | <disable path="fm_radio_dis"/> |
| 355 | </stream> --> |
| 356 | |
| 357 | </audiohal> |