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applications: nrf5340_audio: Rail the presentation delay.
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	Ensure the preferred presentation delay is within the range of the
	min and max delays, rail if not.
	Search for the presentation delay function updated to search over
	the end points for the direction.

Signed-off-by: Graham Wacey <[email protected]>
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gWacey committed May 21, 2024
1 parent 46f6922 commit 98b8007
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Showing 4 changed files with 93 additions and 42 deletions.
23 changes: 5 additions & 18 deletions applications/nrf5340_audio/src/audio/Kconfig
Original file line number Diff line number Diff line change
Expand Up @@ -34,14 +34,16 @@ config AUDIO_MIN_PRES_DLY_US
int "The minimum presentation delay"
default 3000
help
The minimum presentation delay in micro seconds determined by
the audio system processing and the minimum buffering.
The minimum allowable presentation delay in microseconds.
This needs to allow time for decoding and internal routing.
For 48kHz sampling rate and 96kbps bitrate this is about 4000 us.

config AUDIO_MAX_PRES_DLY_US
int "The maximum presentation delay"
default 60000
help
The maximum presentation delay in micro seconds.
The maximum allowable presentation delay in microseconds.
Increasing this will also increase the FIFO buffers to allow buffering.

choice AUDIO_SYSTEM_SAMPLE_RATE
prompt "System audio sample rate"
Expand Down Expand Up @@ -108,21 +110,6 @@ config AUDIO_BIT_DEPTH_OCTETS
help
Bit depth of one sample in storage given in octets.

config AUDIO_MIN_PRES_DLY_US
int "The minimum presentation delay"
default 4000
help
The minimum allowable presentation delay in microseconds.
This needs to allow time for decoding and internal routing.
For 48kHz sampling rate and 96kbps bitrate this is about 4000 us.

config AUDIO_MAX_PRES_DLY_US
int "The maximum presentation delay"
default 60000
help
The maximum allowable presentation delay in microseconds.
Increasing this will also increase the FIFO buffers to allow buffering.

choice AUDIO_SOURCE_GATEWAY
prompt "Audio source for gateway"
default AUDIO_SOURCE_I2S if WALKIE_TALKIE_DEMO
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27 changes: 27 additions & 0 deletions applications/nrf5340_audio/src/bluetooth/bt_stream/le_audio.c
Original file line number Diff line number Diff line change
Expand Up @@ -51,6 +51,33 @@ bool le_audio_ep_state_check(struct bt_bap_ep *ep, enum bt_bap_ep_state state)
return false;
}

bool le_audio_ep_qos_configured(struct bt_bap_ep const *const ep)
{
int ret;
struct bt_bap_ep_info ep_info;

if (ep == NULL) {
LOG_DBG("EP is NULL");
/* If an endpoint is NULL it is not in any of the states */
return false;
}

ret = bt_bap_ep_get_info(ep, &ep_info);
if (ret) {
LOG_WRN("Unable to get info for ep");
return false;
}

if (ep_info.state == BT_BAP_EP_STATE_QOS_CONFIGURED ||
ep_info.state == BT_BAP_EP_STATE_ENABLING ||
ep_info.state == BT_BAP_EP_STATE_STREAMING ||
ep_info.state == BT_BAP_EP_STATE_DISABLING) {
return true;
}

return false;
}

int le_audio_freq_hz_get(const struct bt_audio_codec_cfg *codec, int *freq_hz)
{
int ret;
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11 changes: 11 additions & 0 deletions applications/nrf5340_audio/src/bluetooth/bt_stream/le_audio.h
Original file line number Diff line number Diff line change
Expand Up @@ -89,6 +89,17 @@ int le_audio_ep_state_get(struct bt_bap_ep *ep, uint8_t *state);
*/
bool le_audio_ep_state_check(struct bt_bap_ep *ep, enum bt_bap_ep_state state);

/**
* @brief Check if an endpoint has had the QoS configured.
* If the endpoint is NULL, it is not in the state, and this function returns false.
*
* @param[in] ep The endpoint to check.
*
* @retval true The endpoint QoS is configured.
* @retval false Otherwise.
*/
bool le_audio_ep_qos_configured(struct bt_bap_ep const *const ep);

/**
* @brief Decode the audio sampling frequency in the codec configuration.
*
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Original file line number Diff line number Diff line change
Expand Up @@ -191,56 +191,82 @@ K_WORK_DEFINE(cap_start_work, cap_start_worker);
*/
static int device_pres_delay_find(uint8_t index, uint32_t *pres_dly_us)
{
uint32_t pres_dly_min = unicast_servers[index].sink_ep->qos_pref.pd_min;
uint32_t pres_dly_max = unicast_servers[index].sink_ep->qos_pref.pd_max;
uint32_t pref_dly_min = unicast_servers[index].sink_ep->qos_pref.pref_pd_min;
uint32_t pref_dly_max = unicast_servers[index].sink_ep->qos_pref.pref_pd_max;
uint32_t pd_min = unicast_servers[index].sink_ep->qos_pref.pd_min;
uint32_t pd_max = unicast_servers[index].sink_ep->qos_pref.pd_max;
uint32_t pref_pd_min = unicast_servers[index].sink_ep->qos_pref.pref_pd_min;
uint32_t pref_pd_max = unicast_servers[index].sink_ep->qos_pref.pref_pd_max;

LOG_DBG("Index: %d, Pref min: %d, pref max: %d, pres_min: %d, pres_max: %d", index,
pref_dly_min, pref_dly_max, pres_dly_min, pres_dly_max);
pref_pd_min, pref_pd_max, pd_min, pd_max);

*pres_dly_us = 0;

for (int i = 0; i < ARRAY_SIZE(unicast_servers); i++) {
if (unicast_servers[i].sink_ep != NULL) {
pres_dly_min =
MAX(pres_dly_min, unicast_servers[i].sink_ep->qos_pref.pd_min);
pres_dly_max =
MIN(pres_dly_max, unicast_servers[i].sink_ep->qos_pref.pd_max);
pref_dly_min =
MAX(pref_dly_min, unicast_servers[i].sink_ep->qos_pref.pref_pd_min);
pref_dly_max =
MIN(pref_dly_max, unicast_servers[i].sink_ep->qos_pref.pref_pd_max);
if (le_audio_ep_qos_configured(unicast_servers[i].sink_ep)) {
LOG_DBG("i: %d, Pref min: %d, pref max: %d, pres_min: %d, pres_max: %d", i,
unicast_servers[i].sink_ep->qos_pref.pref_pd_min,
unicast_servers[i].sink_ep->qos_pref.pref_pd_max,
unicast_servers[i].sink_ep->qos_pref.pd_min,
unicast_servers[i].sink_ep->qos_pref.pd_max);

pd_min = MAX(pd_min, unicast_servers[i].sink_ep->qos_pref.pd_min);
pref_pd_min =
MAX(pref_pd_min, unicast_servers[i].sink_ep->qos_pref.pref_pd_min);

if (unicast_servers[i].sink_ep->qos_pref.pd_max) {
pd_max = MIN(pd_max, unicast_servers[i].sink_ep->qos_pref.pd_max);
}

if (unicast_servers[i].sink_ep->qos_pref.pref_pd_max) {
pref_pd_max = MIN(pref_pd_max,
unicast_servers[i].sink_ep->qos_pref.pref_pd_max);
}
}
}

if (IS_ENABLED(CONFIG_BT_AUDIO_PRES_DELAY_SRCH_MIN)) {
*pres_dly_us = pres_dly_min;
*pres_dly_us = pd_min;

return 0;
}

if (IS_ENABLED(CONFIG_BT_AUDIO_PRES_DELAY_SRCH_MAX)) {
*pres_dly_us = pres_dly_max;
*pres_dly_us = pd_max;

return 0;
}

if (IS_ENABLED(CONFIG_BT_AUDIO_PRES_DELAY_SRCH_PREF_MIN)) {
/* Preferred min is 0, so we set min supported */
if (pref_dly_min == 0) {
*pres_dly_us = pres_dly_min;
if (pref_pd_min == 0) {
*pres_dly_us = pd_min;
} else if (pref_pd_min < pd_min) {
*pres_dly_us = pd_min;
LOG_WRN("pref_pd_min < pd_min (%d < %d), pres delay set to %d", pref_pd_min,
pd_min, *pres_dly_us);
} else if (pref_pd_min <= pd_max) {
*pres_dly_us = pref_pd_min;
} else {
*pres_dly_us = pref_dly_min;
*pres_dly_us = pd_max;
LOG_WRN("pref_pd_min > pd_max (%d > %d), pres delay set to %d", pref_pd_min,
pd_max, *pres_dly_us);
}

return 0;
}

if (IS_ENABLED(CONFIG_BT_AUDIO_PRES_DELAY_SRCH_PREF_MAX)) {
/* Preferred max is 0, so we set max supported */
if (pref_dly_max == 0) {
*pres_dly_us = pres_dly_max;
if (pref_pd_max == 0) {
*pres_dly_us = pd_max;
} else if (pref_pd_max > pd_max) {
*pres_dly_us = pd_max;
LOG_WRN("pref_pd_max > pd_max (%d > %d), pres delay set to %d", pref_pd_max,
pd_max, *pres_dly_us);
} else if (pref_pd_max >= pd_min) {
*pres_dly_us = pref_pd_max;
} else {
*pres_dly_us = pref_dly_max;
*pres_dly_us = pd_min;
LOG_WRN("pref_pd_max < pd_min (%d < %d), pres delay set to %d", pref_pd_max,
pd_min, *pres_dly_us);
}

return 0;
Expand Down

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