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esp-idf/components/bt/host/bluedroid/stack/btm/btm_sco.c

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/******************************************************************************
*
* Copyright (C) 2000-2012 Broadcom Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************/
/******************************************************************************
*
* This file contains functions that handle SCO connections. This includes
* operations such as connect, disconnect, change supported packet types.
*
******************************************************************************/
#include <string.h>
#include "stack/bt_types.h"
#include "common/bt_target.h"
#include "stack/bt_types.h"
#include "stack/hcimsgs.h"
#include "stack/btu.h"
#include "stack/btm_api.h"
#include "osi/allocator.h"
#include "btm_int.h"
#include "stack/hcidefs.h"
//#include "bt_utils.h"
#if BTM_SCO_INCLUDED == TRUE
/********************************************************************************/
/* L O C A L D A T A D E F I N I T I O N S */
/********************************************************************************/
#define SCO_ST_UNUSED 0
#define SCO_ST_LISTENING 1
#define SCO_ST_W4_CONN_RSP 2
#define SCO_ST_CONNECTING 3
#define SCO_ST_CONNECTED 4
#define SCO_ST_DISCONNECTING 5
#define SCO_ST_PEND_UNPARK 6
#define SCO_ST_PEND_ROLECHANGE 7
/********************************************************************************/
/* L O C A L F U N C T I O N P R O T O T Y P E S */
/********************************************************************************/
static const tBTM_ESCO_PARAMS btm_esco_defaults = {
BTM_64KBITS_RATE, /* TX Bandwidth (64 kbits/sec) */
BTM_64KBITS_RATE, /* RX Bandwidth (64 kbits/sec) */
0x000a, /* 10 ms (HS/HF can use EV3, 2-EV3, 3-EV3) */
0x0060, /* Inp Linear, Air CVSD, 2s Comp, 16bit */
(BTM_SCO_PKT_TYPES_MASK_HV1 + /* Packet Types */
BTM_SCO_PKT_TYPES_MASK_HV2 +
BTM_SCO_PKT_TYPES_MASK_HV3 +
BTM_SCO_PKT_TYPES_MASK_EV3 +
BTM_SCO_PKT_TYPES_MASK_EV4 +
BTM_SCO_PKT_TYPES_MASK_EV5),
BTM_ESCO_RETRANS_POWER /* Retransmission Effort (Power) */
};
/*******************************************************************************
**
** Function btm_sco_flush_sco_data
**
** Description This function is called to flush the SCO data for this channel.
**
** Returns void
**
*******************************************************************************/
void btm_sco_flush_sco_data(UINT16 sco_inx)
{
#if BTM_SCO_HCI_INCLUDED == TRUE
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p ;
BT_HDR *p_buf;
if (sco_inx < BTM_MAX_SCO_LINKS) {
p = &btm_cb.sco_cb.sco_db[sco_inx];
while ((p_buf = (BT_HDR *)fixed_queue_dequeue(p->xmit_data_q, 0)) != NULL) {
osi_free(p_buf);
}
}
#else
UNUSED(sco_inx);
#endif
#else
UNUSED(sco_inx);
#endif
}
/*******************************************************************************
**
** Function btm_sco_init
**
** Description This function is called at BTM startup to initialize
**
** Returns void
**
*******************************************************************************/
void btm_sco_init (void)
{
#if 0 /* cleared in btm_init; put back in if called from anywhere else! */
memset (&btm_cb.sco_cb, 0, sizeof(tSCO_CB));
#endif
#if (BTM_SCO_HCI_INCLUDED == TRUE)
for (int i = 0; i < BTM_MAX_SCO_LINKS; i++) {
btm_cb.sco_cb.sco_db[i].xmit_data_q = fixed_queue_new(QUEUE_SIZE_MAX);
}
#endif
/* Initialize nonzero defaults */
btm_cb.sco_cb.def_esco_parms = btm_esco_defaults; /* Initialize with defaults */
btm_cb.sco_cb.desired_sco_mode = BTM_DEFAULT_SCO_MODE;
}
/*******************************************************************************
**
** Function btm_sco_free
**
** Description Free sco specific fixed_queue from btm control block
**
*******************************************************************************/
void btm_sco_free(void)
{
#if (BTM_SCO_HCI_INCLUDED == TRUE)
for (int i = 0; i < BTM_MAX_SCO_LINKS; i++) {
fixed_queue_free(btm_cb.sco_cb.sco_db[i].xmit_data_q, osi_free_func);
}
#endif
}
/*******************************************************************************
**
** Function btm_esco_conn_rsp
**
** Description This function is called upon receipt of an (e)SCO connection
** request event (BTM_ESCO_CONN_REQ_EVT) to accept or reject
** the request. Parameters used to negotiate eSCO links.
** If p_parms is NULL, then default values are used.
** If the link type of the incoming request is SCO, then only
** the tx_bw, max_latency, content format, and packet_types are
** valid. The hci_status parameter should be
** ([0x0] to accept, [0x0d..0x0f] to reject)
**
** Returns void
**
*******************************************************************************/
static void btm_esco_conn_rsp (UINT16 sco_inx, UINT8 hci_status, BD_ADDR bda,
tBTM_ESCO_PARAMS *p_parms)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p_sco = NULL;
tBTM_ESCO_PARAMS *p_setup;
UINT16 temp_pkt_types;
if (sco_inx < BTM_MAX_SCO_LINKS) {
p_sco = &btm_cb.sco_cb.sco_db[sco_inx];
}
/* Reject the connect request if refused by caller or wrong state */
if (hci_status != HCI_SUCCESS || p_sco == NULL) {
if (p_sco) {
p_sco->state = (p_sco->state == SCO_ST_W4_CONN_RSP) ? SCO_ST_LISTENING
: SCO_ST_UNUSED;
}
if (!btm_cb.sco_cb.esco_supported) {
if (!btsnd_hcic_reject_conn (bda, hci_status)) {
BTM_TRACE_ERROR("Could not reject (e)SCO conn: No Buffer!!!");
}
} else {
if (!btsnd_hcic_reject_esco_conn (bda, hci_status)) {
BTM_TRACE_ERROR("Could not reject (e)SCO conn: No Buffer!!!");
}
}
} else { /* Connection is being accepted */
p_sco->state = SCO_ST_CONNECTING;
p_setup = &p_sco->esco.setup;
/* If parameters not specified use the default */
if (p_parms) {
*p_setup = *p_parms;
} else { /* Use the last setup passed thru BTM_SetEscoMode (or defaults) */
*p_setup = btm_cb.sco_cb.def_esco_parms;
}
temp_pkt_types = (p_setup->packet_types &
BTM_SCO_SUPPORTED_PKTS_MASK &
btm_cb.btm_sco_pkt_types_supported);
/* Make sure at least one eSCO packet type is sent, else might confuse peer */
/* Taking this out to confirm with BQB tests
** Real application would like to include this though, as many devices
** do not retry with SCO only if an eSCO connection fails.
if (!(temp_pkt_types & BTM_ESCO_LINK_ONLY_MASK))
{
temp_pkt_types |= BTM_SCO_PKT_TYPES_MASK_EV3;
}
*/
/* If SCO request, remove eSCO packet types (conformance) */
if (p_sco->esco.data.link_type == BTM_LINK_TYPE_SCO) {
temp_pkt_types &= BTM_SCO_LINK_ONLY_MASK;
temp_pkt_types |= BTM_SCO_EXCEPTION_PKTS_MASK;
} else {
/* OR in any exception packet types */
temp_pkt_types |= ((p_setup->packet_types & BTM_SCO_EXCEPTION_PKTS_MASK) |
(btm_cb.btm_sco_pkt_types_supported & BTM_SCO_EXCEPTION_PKTS_MASK));
}
if (btsnd_hcic_accept_esco_conn (bda, p_setup->tx_bw, p_setup->rx_bw,
p_setup->max_latency, p_setup->voice_contfmt,
p_setup->retrans_effort, temp_pkt_types)) {
p_setup->packet_types = temp_pkt_types;
} else {
BTM_TRACE_ERROR("Could not accept SCO conn: No Buffer!!!");
}
}
#endif
}
#if BTM_SCO_HCI_INCLUDED == TRUE
void btm_sco_process_num_bufs (UINT16 num_lm_sco_bufs)
{
BTM_TRACE_DEBUG("%s, %d", __FUNCTION__, num_lm_sco_bufs);
btm_cb.sco_cb.num_lm_sco_bufs = btm_cb.sco_cb.xmit_window_size = num_lm_sco_bufs;
}
/*******************************************************************************
**
** Function BTM_ConfigScoPath
**
** Description This function enable/disable SCO over HCI and registers SCO
** data callback if SCO over HCI is enabled.
**
** Parameter path: SCO or HCI
** p_sco_data_cb: callback function or SCO data if path is set
** to transport.
** p_pcm_param: pointer to the PCM interface parameter. If a NULL
** pointer is used, PCM parameter maintained in
** the control block will be used; otherwise update
** control block value.
** err_data_rpt: Lisbon feature to enable the erroneous data report
** or not.
**
** Returns BTM_SUCCESS if the successful.
** BTM_NO_RESOURCES: no rsource to start the command.
** BTM_ILLEGAL_VALUE: invalid callback function pointer.
** BTM_CMD_STARTED :Command sent. Waiting for command cmpl event.
**
**
*******************************************************************************/
//extern
tBTM_STATUS BTM_ConfigScoPath (tBTM_SCO_ROUTE_TYPE path,
tBTM_SCO_DATA_CB *p_sco_data_cb,
tBTM_SCO_PCM_PARAM *p_pcm_param,
BOOLEAN err_data_rpt)
{
UNUSED(err_data_rpt);
UNUSED(p_pcm_param);
btm_cb.sco_cb.sco_path = path;
if (path == BTM_SCO_ROUTE_PCM) {
return BTM_SUCCESS;
} else if (path == BTM_SCO_ROUTE_HCI) {
if (p_sco_data_cb) {
btm_cb.sco_cb.p_data_cb = p_sco_data_cb;
}
}
return BTM_SUCCESS;
}
static void hci_sco_data_to_lower(BT_HDR *p_buf)
{
p_buf->event = BT_EVT_TO_LM_HCI_SCO;
if (p_buf->offset == 0) {
BTM_TRACE_ERROR("offset cannot be 0");
osi_free(p_buf);
}
bte_main_hci_send(p_buf, (UINT16)(BT_EVT_TO_LM_HCI_SCO | LOCAL_BLE_CONTROLLER_ID));
}
/*******************************************************************************
**
** Function btm_sco_check_send_pkts
**
** Description This function is called to check if it can send packets
** to the Host Controller.
**
** Returns void
**
*******************************************************************************/
void btm_sco_check_send_pkts (UINT16 sco_inx)
{
tSCO_CB *p_cb = &btm_cb.sco_cb;
tSCO_CONN *p_ccb = &p_cb->sco_db[sco_inx];
/* If there is data to send, send it now */
BT_HDR *p_buf;
while (p_cb->xmit_window_size != 0)
{
if ((p_buf = (BT_HDR *)fixed_queue_dequeue(p_ccb->xmit_data_q, 0)) == NULL) {
break;
}
#if BTM_SCO_HCI_DEBUG
BTM_TRACE_DEBUG("btm: [%d] buf in xmit_data_q",
fixed_queue_length(p_ccb->xmit_data_q) + 1);
#endif
/* Don't go negative */
p_cb->xmit_window_size -= 1;
p_ccb->sent_not_acked += 1;
// HCI_SCO_DATA_TO_LOWER(p_buf);
hci_sco_data_to_lower(p_buf);
}
}
void btm_sco_process_num_completed_pkts (UINT8 *p)
{
UINT8 num_handles, xx;
UINT16 handle;
UINT16 num_sent;
UINT16 sco_inx;
tSCO_CB *p_cb = &btm_cb.sco_cb;
tSCO_CONN * p_ccb;
STREAM_TO_UINT8 (num_handles, p);
for (xx = 0; xx < num_handles; xx++) {
STREAM_TO_UINT16 (handle, p);
STREAM_TO_UINT16 (num_sent, p);
if ((sco_inx = btm_find_scb_by_handle(handle)) == BTM_MAX_SCO_LINKS) {
continue;
}
BTM_TRACE_DEBUG("%s, %d, %u", __FUNCTION__, handle, p_cb->xmit_window_size); //debug
p_ccb = &p_cb->sco_db[sco_inx];
p_ccb->sent_not_acked -= num_sent;
// don't go negative
if (p_ccb->sent_not_acked < 0) {
BTM_TRACE_WARNING("SCO: un-acked underf: %u", p_ccb->sent_not_acked);
p_ccb->sent_not_acked = 0;
}
p_cb->xmit_window_size += num_sent;
if (p_cb->xmit_window_size > p_cb->num_lm_sco_bufs) {
BTM_TRACE_WARNING("SCO xwind: %d, max %d", p_cb->xmit_window_size, p_cb->num_lm_sco_bufs);
p_cb->xmit_window_size = p_cb->num_lm_sco_bufs;
}
btm_sco_check_send_pkts (sco_inx);
}
return;
}
/*******************************************************************************
**
** Function btm_pkt_stat_nums_update
**
** Description Update the number of received SCO data packet status.
**
** Returns void
**
*******************************************************************************/
static void btm_pkt_stat_nums_update(uint16_t sco_inx, uint8_t pkt_status)
{
tSCO_CONN *p_ccb = &btm_cb.sco_cb.sco_db[sco_inx];
p_ccb->pkt_stat_nums.rx_total++;
if (pkt_status == BTM_SCO_DATA_CORRECT) {
p_ccb->pkt_stat_nums.rx_correct++;
} else if (pkt_status == BTM_SCO_DATA_PAR_ERR) {
p_ccb->pkt_stat_nums.rx_err++;
} else if (pkt_status == BTM_SCO_DATA_NONE) {
p_ccb->pkt_stat_nums.rx_none++;
} else {
p_ccb->pkt_stat_nums.rx_lost++;
}
}
/*******************************************************************************
**
** Function btm_pkt_stat_send_nums_update
**
** Description Update the number of send packet status.
**
** Returns void
**
*******************************************************************************/
static void btm_pkt_stat_send_nums_update(uint16_t sco_inx, uint8_t pkt_status)
{
tSCO_CONN *p_ccb = &btm_cb.sco_cb.sco_db[sco_inx];
p_ccb->pkt_stat_nums.tx_total++;
if (pkt_status != BTM_SUCCESS && pkt_status != BTM_NO_RESOURCES && pkt_status != BTM_SCO_BAD_LENGTH) {
p_ccb->pkt_stat_nums.tx_discarded++;
}
}
/*******************************************************************************
**
** Function btm_pkt_stat_nums_reset
**
** Description This function is called to reset the number of packet status struct
**
** Returns void
**
*******************************************************************************/
static void btm_pkt_stat_nums_reset(uint16_t sco_inx)
{
memset(&btm_cb.sco_cb.sco_db[sco_inx].pkt_stat_nums, 0, sizeof(tBTM_SCO_PKT_STAT_NUMS));
}
/*******************************************************************************
**
** Function BTM_PktStatNumsGet
**
** Description This function is called to get the number of packet status struct
**
** Returns void
**
*******************************************************************************/
void BTM_PktStatNumsGet(uint16_t sync_conn_handle, tBTM_SCO_PKT_STAT_NUMS *p_pkt_nums)
{
uint16_t sco_inx = btm_find_scb_by_handle(sync_conn_handle);
if (sco_inx < BTM_MAX_SCO_LINKS) {
memcpy(p_pkt_nums, &btm_cb.sco_cb.sco_db[sco_inx].pkt_stat_nums, sizeof(tBTM_SCO_PKT_STAT_NUMS));
} else {
memset(p_pkt_nums, 0, sizeof(tBTM_SCO_PKT_STAT_NUMS));
}
}
#endif /* BTM_SCO_HCI_INCLUDED == TRUE */
/*******************************************************************************
**
** Function btm_route_sco_data
**
** Description Route received SCO data.
**
** Returns void
**
*******************************************************************************/
void btm_route_sco_data(BT_HDR *p_msg)
{
#if BTM_SCO_HCI_INCLUDED == TRUE
UINT16 sco_inx, handle;
UINT8 *p = (UINT8 *)(p_msg + 1) + p_msg->offset;
UINT8 pkt_size = 0;
UINT8 pkt_status = 0;
/* Extract Packet_Status_Flag and handle */
STREAM_TO_UINT16 (handle, p);
pkt_status = HCID_GET_EVENT(handle);
handle = HCID_GET_HANDLE (handle);
STREAM_TO_UINT8 (pkt_size, p);
UNUSED(pkt_size);
if ((sco_inx = btm_find_scb_by_handle(handle)) != BTM_MAX_SCO_LINKS ) {
/* send data callback */
if (!btm_cb.sco_cb.p_data_cb )
/* if no data callback registered, just free the buffer */
{
osi_free (p_msg);
} else {
btm_pkt_stat_nums_update(sco_inx, pkt_status);
(*btm_cb.sco_cb.p_data_cb)(sco_inx, p_msg, (tBTM_SCO_DATA_FLAG) pkt_status);
}
} else { /* no mapping handle SCO connection is active, free the buffer */
osi_free (p_msg);
}
BTM_TRACE_DEBUG ("SCO: hdl %x, len %d, pkt_sz %d\n", handle, p_msg->len, pkt_size);
#else
osi_free(p_msg);
#endif
}
/*******************************************************************************
**
** Function BTM_WriteScoData
**
** Description This function write SCO data to a specified instance. The data
** to be written p_buf needs to carry an offset of
** HCI_SCO_PREAMBLE_SIZE bytes, and the data length can not
** exceed BTM_SCO_DATA_SIZE_MAX bytes, whose default value is set
** to 60 and is configurable. Data longer than the maximum bytes
** will be truncated.
**
** Returns BTM_SUCCESS: data write is successful
** BTM_ILLEGAL_VALUE: SCO data contains illegal offset value.
** BTM_SCO_BAD_LENGTH: SCO data length exceeds the max SCO packet
** size.
** BTM_NO_RESOURCES: no resources.
** BTM_UNKNOWN_ADDR: unknown SCO connection handle, or SCO is not
** routed via HCI.
** BTM_ERR_PROCESSING: transmit queue overflow
**
**
*******************************************************************************/
tBTM_STATUS BTM_WriteScoData (UINT16 sco_inx, BT_HDR *p_buf)
{
APPL_TRACE_DEBUG("%s", __FUNCTION__);
#if (BTM_SCO_HCI_INCLUDED == TRUE) && (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p_ccb = &btm_cb.sco_cb.sco_db[sco_inx];
UINT8 *p;
tBTM_STATUS status = BTM_SUCCESS;
if (sco_inx < BTM_MAX_SCO_LINKS && btm_cb.sco_cb.p_data_cb &&
p_ccb->state == SCO_ST_CONNECTED) {
/* Ensure we have enough space in the buffer for the SCO and HCI headers */
if (p_buf->offset < HCI_SCO_PREAMBLE_SIZE) {
BTM_TRACE_ERROR ("BTM SCO - cannot send buffer, offset: %d", p_buf->offset);
status = BTM_ILLEGAL_VALUE;
} else { /* write HCI header */
/* Step back 3 bytes to add the headers */
p_buf->offset -= HCI_SCO_PREAMBLE_SIZE;
/* Set the pointer to the beginning of the data */
p = (UINT8 *)(p_buf + 1) + p_buf->offset;
/* add HCI handle */
UINT16_TO_STREAM (p, p_ccb->hci_handle);
/* only sent the first BTM_SCO_DATA_SIZE_MAX bytes data if more than max,
and set warning status */
if (p_buf->len > BTM_SCO_DATA_SIZE_MAX) {
BTM_TRACE_WARNING ("BTM SCO hdl %x, bad len %u", p_ccb->hci_handle, p_buf->len);
p_buf->len = BTM_SCO_DATA_SIZE_MAX;
status = BTM_SCO_BAD_LENGTH;
}
UINT8_TO_STREAM (p, (UINT8)p_buf->len);
p_buf->len += HCI_SCO_PREAMBLE_SIZE;
if (fixed_queue_length(p_ccb->xmit_data_q) < BTM_SCO_XMIT_QUEUE_THRS) {
if (fixed_queue_length(p_ccb->xmit_data_q) >= BTM_SCO_XMIT_QUEUE_HIGH_WM) {
status = BTM_NO_RESOURCES;
}
fixed_queue_enqueue(p_ccb->xmit_data_q, p_buf, FIXED_QUEUE_MAX_TIMEOUT);
btm_sco_check_send_pkts (sco_inx);
} else {
BTM_TRACE_WARNING ("SCO xmit Q overflow, pkt dropped");
status = BTM_ERR_PROCESSING;
}
}
} else {
BTM_TRACE_WARNING ("BTM_WriteScoData, invalid sco index: %d at state [%d]",
sco_inx, btm_cb.sco_cb.sco_db[sco_inx].state);
status = BTM_UNKNOWN_ADDR;
}
if (status != BTM_SUCCESS && status!= BTM_NO_RESOURCES && status != BTM_SCO_BAD_LENGTH) {
BTM_TRACE_WARNING ("stat %d", status);
osi_free(p_buf);
}
btm_pkt_stat_send_nums_update(sco_inx, status);
return (status);
#else
UNUSED(sco_inx);
UNUSED(p_buf);
return (BTM_NO_RESOURCES);
#endif
}
#if (BTM_MAX_SCO_LINKS>0)
/*******************************************************************************
**
** Function btm_send_connect_request
**
** Description This function is called to respond to SCO connect indications
**
** Returns void
**
*******************************************************************************/
static tBTM_STATUS btm_send_connect_request(UINT16 acl_handle,
tBTM_ESCO_PARAMS *p_setup)
{
UINT16 temp_pkt_types;
tACL_CONN *p_acl;
/* Send connect request depending on version of spec */
if (!btm_cb.sco_cb.esco_supported) {
if (!btsnd_hcic_add_SCO_conn (acl_handle, BTM_ESCO_2_SCO(p_setup->packet_types))) {
return (BTM_NO_RESOURCES);
}
} else {
temp_pkt_types = (p_setup->packet_types & BTM_SCO_SUPPORTED_PKTS_MASK &
btm_cb.btm_sco_pkt_types_supported);
/* OR in any exception packet types */
temp_pkt_types |= ((p_setup->packet_types & BTM_SCO_EXCEPTION_PKTS_MASK) |
(btm_cb.btm_sco_pkt_types_supported & BTM_SCO_EXCEPTION_PKTS_MASK));
/* Finally, remove EDR eSCO if the remote device doesn't support it */
/* UPF25: Only SCO was brought up in this case */
p_acl = btm_handle_to_acl(acl_handle);
if (p_acl) {
if (!HCI_EDR_ESCO_2MPS_SUPPORTED(p_acl->peer_lmp_features[HCI_EXT_FEATURES_PAGE_0])) {
BTM_TRACE_WARNING("BTM Remote does not support 2-EDR eSCO");
temp_pkt_types |= (HCI_ESCO_PKT_TYPES_MASK_NO_2_EV3 |
HCI_ESCO_PKT_TYPES_MASK_NO_2_EV5);
}
if (!HCI_EDR_ESCO_3MPS_SUPPORTED(p_acl->peer_lmp_features[HCI_EXT_FEATURES_PAGE_0])) {
BTM_TRACE_WARNING("BTM Remote does not support 3-EDR eSCO");
temp_pkt_types |= (HCI_ESCO_PKT_TYPES_MASK_NO_3_EV3 |
HCI_ESCO_PKT_TYPES_MASK_NO_3_EV5);
}
/* Check to see if BR/EDR Secure Connections is being used
** If so, we cannot use SCO-only packet types (HFP 1.7)
*/
if (BTM_BothEndsSupportSecureConnections(p_acl->remote_addr)) {
temp_pkt_types &= ~(BTM_SCO_PKT_TYPE_MASK);
BTM_TRACE_DEBUG("%s: SCO Conn: pkt_types after removing SCO (0x%04x)", __FUNCTION__,
temp_pkt_types);
/* Return error if no packet types left */
if (temp_pkt_types == 0) {
BTM_TRACE_ERROR("%s: SCO Conn (BR/EDR SC): No packet types available",__FUNCTION__);
return (BTM_WRONG_MODE);
}
} else {
BTM_TRACE_DEBUG("%s: SCO Conn(BR/EDR SC):local or peer does not support BR/EDR SC",__FUNCTION__);
}
}
BTM_TRACE_API("txbw 0x%x, rxbw 0x%x, lat 0x%x, voice 0x%x, retrans 0x%02x, pkt 0x%04x",
p_setup->tx_bw, p_setup->rx_bw,
p_setup->max_latency, p_setup->voice_contfmt,
p_setup->retrans_effort, temp_pkt_types);
if (!btsnd_hcic_setup_esco_conn(acl_handle,
p_setup->tx_bw,
p_setup->rx_bw,
p_setup->max_latency,
p_setup->voice_contfmt,
p_setup->retrans_effort,
temp_pkt_types)) {
return (BTM_NO_RESOURCES);
} else {
p_setup->packet_types = temp_pkt_types;
}
}
return (BTM_CMD_STARTED);
}
#endif
/*******************************************************************************
**
** Function btm_set_sco_ind_cback
**
** Description This function is called to register for TCS SCO connect
** indications.
**
** Returns void
**
*******************************************************************************/
void btm_set_sco_ind_cback( tBTM_SCO_IND_CBACK *sco_ind_cb )
{
btm_cb.sco_cb.app_sco_ind_cb = sco_ind_cb;
}
/*******************************************************************************
**
** Function btm_accept_sco_link
**
** Description This function is called to respond to TCS SCO connect
** indications
**
** Returns void
**
*******************************************************************************/
void btm_accept_sco_link(UINT16 sco_inx, tBTM_ESCO_PARAMS *p_setup,
tBTM_SCO_CB *p_conn_cb, tBTM_SCO_CB *p_disc_cb)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p_sco;
if (sco_inx >= BTM_MAX_SCO_LINKS) {
BTM_TRACE_ERROR("btm_accept_sco_link: Invalid sco_inx(%d)", sco_inx);
return;
}
/* Link role is ignored in for this message */
p_sco = &btm_cb.sco_cb.sco_db[sco_inx];
p_sco->p_conn_cb = p_conn_cb;
p_sco->p_disc_cb = p_disc_cb;
p_sco->esco.data.link_type = BTM_LINK_TYPE_ESCO; /* Accept with all supported types */
BTM_TRACE_DEBUG("TCS accept SCO: Packet Types 0x%04x", p_setup->packet_types);
btm_esco_conn_rsp(sco_inx, HCI_SUCCESS, p_sco->esco.data.bd_addr, p_setup);
#else
btm_reject_sco_link(sco_inx);
#endif
}
/*******************************************************************************
**
** Function btm_reject_sco_link
**
** Description This function is called to respond to SCO connect indications
**
** Returns void
**
*******************************************************************************/
void btm_reject_sco_link( UINT16 sco_inx )
{
btm_esco_conn_rsp(sco_inx, HCI_ERR_HOST_REJECT_RESOURCES,
btm_cb.sco_cb.sco_db[sco_inx].esco.data.bd_addr, NULL);
}
/*******************************************************************************
**
** Function BTM_CreateSco
**
** Description This function is called to create an SCO connection. If the
** "is_orig" flag is TRUE, the connection will be originated,
** otherwise BTM will wait for the other side to connect.
**
** NOTE: If BTM_IGNORE_SCO_PKT_TYPE is passed in the pkt_types
** parameter the default packet types is used.
**
** Returns BTM_UNKNOWN_ADDR if the ACL connection is not up
** BTM_BUSY if another SCO being set up to
** the same BD address
** BTM_NO_RESOURCES if the max SCO limit has been reached
** BTM_CMD_STARTED if the connection establishment is started.
** In this case, "*p_sco_inx" is filled in
** with the sco index used for the connection.
**
*******************************************************************************/
tBTM_STATUS BTM_CreateSco (BD_ADDR remote_bda, BOOLEAN is_orig, UINT16 pkt_types,
UINT16 *p_sco_inx, tBTM_SCO_CB *p_conn_cb,
tBTM_SCO_CB *p_disc_cb)
{
#if (BTM_MAX_SCO_LINKS > 0)
tBTM_ESCO_PARAMS *p_setup;
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[0];
UINT16 xx;
UINT16 acl_handle = 0;
UINT16 temp_pkt_types;
tACL_CONN *p_acl;
#if (BTM_SCO_WAKE_PARKED_LINK == TRUE)
tBTM_PM_MODE md;
tBTM_PM_PWR_MD pm;
#else // BTM_SCO_WAKE_PARKED_LINK
UINT8 mode;
#endif // BTM_SCO_WAKE_PARKED_LINK
*p_sco_inx = BTM_INVALID_SCO_INDEX;
/* If originating, ensure that there is an ACL connection to the BD Address */
if (is_orig) {
if ((!remote_bda) || ((acl_handle = BTM_GetHCIConnHandle (remote_bda, BT_TRANSPORT_BR_EDR)) == 0xFFFF)) {
return (BTM_UNKNOWN_ADDR);
}
}
if (remote_bda) {
/* If any SCO is being established to the remote BD address, refuse this */
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if (((p->state == SCO_ST_CONNECTING) || (p->state == SCO_ST_LISTENING)
|| (p->state == SCO_ST_PEND_UNPARK))
&& (!memcmp (p->esco.data.bd_addr, remote_bda, BD_ADDR_LEN))) {
return (BTM_BUSY);
}
}
} else {
/* Support only 1 wildcard BD address at a time */
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if ((p->state == SCO_ST_LISTENING) && (!p->rem_bd_known)) {
return (BTM_BUSY);
}
}
}
/* Now, try to find an unused control block, and kick off the SCO establishment */
for (xx = 0, p = &btm_cb.sco_cb.sco_db[0]; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if (p->state == SCO_ST_UNUSED) {
if (remote_bda) {
if (is_orig) {
/* can not create SCO link if in park mode */
#if BTM_SCO_WAKE_PARKED_LINK == TRUE
if (BTM_ReadPowerMode(remote_bda, &md) == BTM_SUCCESS) {
if (md == BTM_PM_MD_PARK || md == BTM_PM_MD_SNIFF) {
memset( (void *)&pm, 0, sizeof(pm));
pm.mode = BTM_PM_MD_ACTIVE;
BTM_SetPowerMode(BTM_PM_SET_ONLY_ID, remote_bda, &pm);
p->state = SCO_ST_PEND_UNPARK;
}
}
#else // BTM_SCO_WAKE_PARKED_LINK
if ( (BTM_ReadPowerMode(remote_bda, &mode) == BTM_SUCCESS) && (mode == BTM_PM_MD_PARK) ) {
return (BTM_WRONG_MODE);
}
#endif // BTM_SCO_WAKE_PARKED_LINK
}
memcpy (p->esco.data.bd_addr, remote_bda, BD_ADDR_LEN);
p->rem_bd_known = TRUE;
} else {
p->rem_bd_known = FALSE;
}
/* Link role is ignored in for this message */
if (pkt_types == BTM_IGNORE_SCO_PKT_TYPE) {
pkt_types = btm_cb.sco_cb.def_esco_parms.packet_types;
}
p_setup = &p->esco.setup;
*p_setup = btm_cb.sco_cb.def_esco_parms;
p_setup->packet_types = (btm_cb.sco_cb.desired_sco_mode == BTM_LINK_TYPE_SCO)
? (pkt_types & BTM_SCO_LINK_ONLY_MASK) : pkt_types;
temp_pkt_types = (p_setup->packet_types & BTM_SCO_SUPPORTED_PKTS_MASK &
btm_cb.btm_sco_pkt_types_supported);
/* OR in any exception packet types */
if (btm_cb.sco_cb.desired_sco_mode == HCI_LINK_TYPE_ESCO) {
temp_pkt_types |= ((p_setup->packet_types & BTM_SCO_EXCEPTION_PKTS_MASK) |
(btm_cb.btm_sco_pkt_types_supported & BTM_SCO_EXCEPTION_PKTS_MASK));
} else { /* Only using SCO packet types; turn off EDR also */
temp_pkt_types |= BTM_SCO_EXCEPTION_PKTS_MASK;
}
p_setup->packet_types = temp_pkt_types;
p->p_conn_cb = p_conn_cb;
p->p_disc_cb = p_disc_cb;
p->hci_handle = BTM_INVALID_HCI_HANDLE;
p->is_orig = is_orig;
if ( p->state != SCO_ST_PEND_UNPARK ) {
if (is_orig) {
/* If role change is in progress, do not proceed with SCO setup
* Wait till role change is complete */
p_acl = btm_bda_to_acl(remote_bda, BT_TRANSPORT_BR_EDR);
if (p_acl && p_acl->switch_role_state != BTM_ACL_SWKEY_STATE_IDLE) {
BTM_TRACE_API("Role Change is in progress for ACL handle 0x%04x", acl_handle);
p->state = SCO_ST_PEND_ROLECHANGE;
}
}
}
if ( p->state != SCO_ST_PEND_UNPARK && p->state != SCO_ST_PEND_ROLECHANGE ) {
if (is_orig) {
BTM_TRACE_API("BTM_CreateSco -> (e)SCO Link for ACL handle 0x%04x, Desired Type %d",
acl_handle, btm_cb.sco_cb.desired_sco_mode);
if ((btm_send_connect_request(acl_handle, p_setup)) != BTM_CMD_STARTED) {
return (BTM_NO_RESOURCES);
}
p->state = SCO_ST_CONNECTING;
} else {
p->state = SCO_ST_LISTENING;
}
}
*p_sco_inx = xx;
return (BTM_CMD_STARTED);
}
}
#endif
/* If here, all SCO blocks in use */
return (BTM_NO_RESOURCES);
}
#if (BTM_SCO_WAKE_PARKED_LINK == TRUE)
/*******************************************************************************
**
** Function btm_sco_chk_pend_unpark
**
** Description This function is called by BTIF when there is a mode change
** event to see if there are SCO commands waiting for the unpark.
**
** Returns void
**
*******************************************************************************/
void btm_sco_chk_pend_unpark (UINT8 hci_status, UINT16 hci_handle)
{
#if (BTM_MAX_SCO_LINKS>0)
UINT16 xx;
UINT16 acl_handle;
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[0];
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if ((p->state == SCO_ST_PEND_UNPARK) &&
((acl_handle = BTM_GetHCIConnHandle (p->esco.data.bd_addr, BT_TRANSPORT_BR_EDR)) == hci_handle))
{
BTM_TRACE_API("btm_sco_chk_pend_unpark -> (e)SCO Link for ACL handle 0x%04x, Desired Type %d, hci_status 0x%02x",
acl_handle, btm_cb.sco_cb.desired_sco_mode, hci_status);
if ((btm_send_connect_request(acl_handle, &p->esco.setup)) == BTM_CMD_STARTED) {
p->state = SCO_ST_CONNECTING;
}
}
}
#endif // BTM_MAX_SCO_LINKS
}
#endif // BTM_SCO_WAKE_PARKED_LINK
/*******************************************************************************
**
** Function btm_sco_chk_pend_rolechange
**
** Description This function is called by BTIF when there is a role change
** event to see if there are SCO commands waiting for the role change.
**
** Returns void
**
*******************************************************************************/
void btm_sco_chk_pend_rolechange (UINT16 hci_handle)
{
#if (BTM_MAX_SCO_LINKS>0)
UINT16 xx;
UINT16 acl_handle;
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[0];
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if ((p->state == SCO_ST_PEND_ROLECHANGE) &&
((acl_handle = BTM_GetHCIConnHandle (p->esco.data.bd_addr, BT_TRANSPORT_BR_EDR)) == hci_handle))
{
BTM_TRACE_API("btm_sco_chk_pend_rolechange -> (e)SCO Link for ACL handle 0x%04x", acl_handle);
if ((btm_send_connect_request(acl_handle, &p->esco.setup)) == BTM_CMD_STARTED) {
p->state = SCO_ST_CONNECTING;
}
}
}
#endif
}
/*******************************************************************************
**
** Function btm_sco_conn_req
**
** Description This function is called by BTIF when an SCO connection
** request is received from a remote.
**
** Returns void
**
*******************************************************************************/
void btm_sco_conn_req (BD_ADDR bda, DEV_CLASS dev_class, UINT8 link_type)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CB *p_sco = &btm_cb.sco_cb;
tSCO_CONN *p = &p_sco->sco_db[0];
UINT16 xx;
tBTM_ESCO_CONN_REQ_EVT_DATA evt_data;
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
/*
* If the sco state is in the SCO_ST_CONNECTING state, we still need
* to return accept sco to avoid race condition for sco creation
*/
int rem_bd_matches = p->rem_bd_known &&
!memcmp (p->esco.data.bd_addr, bda, BD_ADDR_LEN);
if (((p->state == SCO_ST_CONNECTING) && rem_bd_matches) ||
((p->state == SCO_ST_LISTENING) && (rem_bd_matches || !p->rem_bd_known))) {
/* If this guy was a wildcard, he is not one any more */
p->rem_bd_known = TRUE;
p->esco.data.link_type = link_type;
p->state = SCO_ST_W4_CONN_RSP;
memcpy (p->esco.data.bd_addr, bda, BD_ADDR_LEN);
/* If no callback, auto-accept the connection if packet types match */
if (!p->esco.p_esco_cback) {
/* If requesting eSCO reject if default parameters are SCO only */
if ((link_type == BTM_LINK_TYPE_ESCO
&& !(p_sco->def_esco_parms.packet_types & BTM_ESCO_LINK_ONLY_MASK)
&& ((p_sco->def_esco_parms.packet_types & BTM_SCO_EXCEPTION_PKTS_MASK)
== BTM_SCO_EXCEPTION_PKTS_MASK))
/* Reject request if SCO is desired but no SCO packets delected */
|| (link_type == BTM_LINK_TYPE_SCO
&& !(p_sco->def_esco_parms.packet_types & BTM_SCO_LINK_ONLY_MASK))) {
btm_esco_conn_rsp(xx, HCI_ERR_HOST_REJECT_RESOURCES, bda, NULL);
} else { /* Accept the request */
btm_esco_conn_rsp(xx, HCI_SUCCESS, bda, NULL);
}
} else { /* Notify upper layer of connect indication */
memcpy(evt_data.bd_addr, bda, BD_ADDR_LEN);
memcpy(evt_data.dev_class, dev_class, DEV_CLASS_LEN);
evt_data.link_type = link_type;
evt_data.sco_inx = xx;
p->esco.p_esco_cback(BTM_ESCO_CONN_REQ_EVT, (tBTM_ESCO_EVT_DATA *)&evt_data);
}
return;
}
}
/* TCS usage */
if (btm_cb.sco_cb.app_sco_ind_cb) {
/* Now, try to find an unused control block */
for (xx = 0, p = &btm_cb.sco_cb.sco_db[0]; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if (p->state == SCO_ST_UNUSED) {
p->is_orig = FALSE;
p->state = SCO_ST_LISTENING;
p->esco.data.link_type = link_type;
memcpy (p->esco.data.bd_addr, bda, BD_ADDR_LEN);
p->rem_bd_known = TRUE;
break;
}
}
if ( xx < BTM_MAX_SCO_LINKS) {
btm_cb.sco_cb.app_sco_ind_cb(xx);
return;
}
}
#endif
/* If here, no one wants the SCO connection. Reject it */
BTM_TRACE_WARNING("btm_sco_conn_req: No one wants this SCO connection; rejecting it");
btm_esco_conn_rsp(BTM_MAX_SCO_LINKS, HCI_ERR_HOST_REJECT_RESOURCES, bda, NULL);
}
/*******************************************************************************
**
** Function btm_sco_connected
**
** Description This function is called by BTIF when an (e)SCO connection
** is connected.
**
** Returns void
**
*******************************************************************************/
void btm_sco_connected (UINT8 hci_status, BD_ADDR bda, UINT16 hci_handle,
tBTM_ESCO_DATA *p_esco_data)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[0];
UINT16 xx;
BOOLEAN spt = FALSE;
tBTM_CHG_ESCO_PARAMS parms;
#endif
BTM_TRACE_API("%s, handle %x", __FUNCTION__, hci_handle);
#if (BTM_MAX_SCO_LINKS>0)
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if (((p->state == SCO_ST_CONNECTING) ||
(p->state == SCO_ST_LISTENING) ||
(p->state == SCO_ST_W4_CONN_RSP))
&& (p->rem_bd_known)
&& (!bda || !memcmp (p->esco.data.bd_addr, bda, BD_ADDR_LEN))) {
if (hci_status != HCI_SUCCESS) {
/* Report the error if originator, otherwise remain in Listen mode */
if (p->is_orig) {
/* If role switch is pending, we need try again after role switch is complete */
if (hci_status == HCI_ERR_ROLE_SWITCH_PENDING) {
BTM_TRACE_API("Role Change pending for HCI handle 0x%04x", hci_handle);
p->state = SCO_ST_PEND_ROLECHANGE;
}
/* avoid calling disconnect callback because of sco creation race */
else if (hci_status != HCI_ERR_LMP_ERR_TRANS_COLLISION) {
p->state = SCO_ST_UNUSED;
(*p->p_disc_cb)(xx);
}
} else {
/* Notify the upper layer that incoming sco connection has failed. */
if (p->state == SCO_ST_CONNECTING) {
p->state = SCO_ST_UNUSED;
(*p->p_disc_cb)(xx);
} else {
p->state = SCO_ST_LISTENING;
}
}
return;
}
if (p->state == SCO_ST_LISTENING) {
spt = TRUE;
}
#if BTM_SCO_HCI_INCLUDED == TRUE
p->sent_not_acked = 0;
btm_pkt_stat_nums_reset(xx);
#endif
p->state = SCO_ST_CONNECTED;
p->hci_handle = hci_handle;
if (!btm_cb.sco_cb.esco_supported) {
p->esco.data.link_type = BTM_LINK_TYPE_SCO;
if (spt) {
parms.packet_types = p->esco.setup.packet_types;
/* Keep the other parameters the same for SCO */
parms.max_latency = p->esco.setup.max_latency;
parms.retrans_effort = p->esco.setup.retrans_effort;
BTM_ChangeEScoLinkParms(xx, &parms);
}
} else {
if (p_esco_data) {
p->esco.data = *p_esco_data;
}
}
(*p->p_conn_cb)(xx);
return;
}
}
#endif
}
/*******************************************************************************
**
** Function btm_find_scb_by_handle
**
** Description Look through all active SCO connection for a match based on the
** HCI handle.
**
** Returns index to matched SCO connection CB, or BTM_MAX_SCO_LINKS if
** no match.
**
*******************************************************************************/
UINT16 btm_find_scb_by_handle (UINT16 handle)
{
int xx;
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[0];
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if ((p->state == SCO_ST_CONNECTED) && (p->hci_handle == handle)) {
return (xx);
}
}
/* If here, no match found */
return (xx);
}
/*******************************************************************************
**
** Function BTM_RemoveSco
**
** Description This function is called to remove a specific SCO connection.
**
** Returns status of the operation
**
*******************************************************************************/
tBTM_STATUS BTM_RemoveSco (UINT16 sco_inx)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[sco_inx];
UINT16 tempstate;
/* Validity check */
if ((sco_inx >= BTM_MAX_SCO_LINKS) || (p->state == SCO_ST_UNUSED)) {
return (BTM_UNKNOWN_ADDR);
}
/* If no HCI handle, simply drop the connection and return */
if (p->hci_handle == BTM_INVALID_HCI_HANDLE || p->state == SCO_ST_PEND_UNPARK) {
p->hci_handle = BTM_INVALID_HCI_HANDLE;
p->state = SCO_ST_UNUSED;
p->esco.p_esco_cback = NULL; /* Deregister the eSCO event callback */
return (BTM_SUCCESS);
}
tempstate = p->state;
p->state = SCO_ST_DISCONNECTING;
if (!btsnd_hcic_disconnect (p->hci_handle, HCI_ERR_PEER_USER)) {
p->state = tempstate;
return (BTM_NO_RESOURCES);
}
return (BTM_CMD_STARTED);
#else
return (BTM_NO_RESOURCES);
#endif
}
/*******************************************************************************
**
** Function btm_remove_sco_links
**
** Description This function is called to remove all sco links for an ACL link.
**
** Returns void
**
*******************************************************************************/
void btm_remove_sco_links (BD_ADDR bda)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[0];
UINT16 xx;
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if (p->rem_bd_known && (!memcmp (p->esco.data.bd_addr, bda, BD_ADDR_LEN))) {
BTM_RemoveSco(xx);
}
}
#endif
}
/*******************************************************************************
**
** Function btm_sco_removed
**
** Description This function is called by BTIF when an SCO connection
** is removed.
**
** Returns void
**
*******************************************************************************/
void btm_sco_removed (UINT16 hci_handle, UINT8 reason)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[0];
UINT16 xx;
p = &btm_cb.sco_cb.sco_db[0];
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if ((p->state != SCO_ST_UNUSED) && (p->state != SCO_ST_LISTENING) && (p->hci_handle == hci_handle)) {
btm_sco_flush_sco_data(xx);
p->state = SCO_ST_UNUSED;
#if BTM_SCO_HCI_INCLUDED == TRUE
btm_cb.sco_cb.xmit_window_size += p->sent_not_acked;
/* avoid overflow */
if (btm_cb.sco_cb.xmit_window_size > btm_cb.sco_cb.num_lm_sco_bufs) {
btm_cb.sco_cb.xmit_window_size = btm_cb.sco_cb.num_lm_sco_bufs;
}
p->sent_not_acked = 0;
#endif
p->hci_handle = BTM_INVALID_HCI_HANDLE;
p->rem_bd_known = FALSE;
p->esco.p_esco_cback = NULL; /* Deregister eSCO callback */
(*p->p_disc_cb)(xx);
return;
}
}
#endif
}
/*******************************************************************************
**
** Function btm_sco_acl_removed
**
** Description This function is called when an ACL connection is
** removed. If the BD address is NULL, it is assumed that
** the local device is down, and all SCO links are removed.
** If a specific BD address is passed, only SCO connections
** to that BD address are removed.
**
** Returns void
**
*******************************************************************************/
void btm_sco_acl_removed (BD_ADDR bda)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[0];
UINT16 xx;
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if (p->state != SCO_ST_UNUSED) {
if ((!bda) || (!memcmp (p->esco.data.bd_addr, bda, BD_ADDR_LEN) && p->rem_bd_known)) {
btm_sco_flush_sco_data(xx);
p->state = SCO_ST_UNUSED;
p->esco.p_esco_cback = NULL; /* Deregister eSCO callback */
(*p->p_disc_cb)(xx);
}
}
}
#endif
}
/*******************************************************************************
**
** Function BTM_SetScoPacketTypes
**
** Description This function is called to set the packet types used for
** a specific SCO connection,
**
** Parameters pkt_types - One or more of the following
** BTM_SCO_PKT_TYPES_MASK_HV1
** BTM_SCO_PKT_TYPES_MASK_HV2
** BTM_SCO_PKT_TYPES_MASK_HV3
** BTM_SCO_PKT_TYPES_MASK_EV3
** BTM_SCO_PKT_TYPES_MASK_EV4
** BTM_SCO_PKT_TYPES_MASK_EV5
** BTM_SCO_PKT_TYPES_MASK_NO_2_EV3
** BTM_SCO_PKT_TYPES_MASK_NO_3_EV3
** BTM_SCO_PKT_TYPES_MASK_NO_2_EV5
** BTM_SCO_PKT_TYPES_MASK_NO_3_EV5
**
** BTM_SCO_LINK_ALL_MASK - enables all supported types
**
** Returns status of the operation
**
*******************************************************************************/
tBTM_STATUS BTM_SetScoPacketTypes (UINT16 sco_inx, UINT16 pkt_types)
{
#if (BTM_MAX_SCO_LINKS>0)
tBTM_CHG_ESCO_PARAMS parms;
tSCO_CONN *p;
/* Validity check */
if (sco_inx >= BTM_MAX_SCO_LINKS) {
return (BTM_UNKNOWN_ADDR);
}
p = &btm_cb.sco_cb.sco_db[sco_inx];
parms.packet_types = pkt_types;
/* Keep the other parameters the same for SCO */
parms.max_latency = p->esco.setup.max_latency;
parms.retrans_effort = p->esco.setup.retrans_effort;
return (BTM_ChangeEScoLinkParms(sco_inx, &parms));
#else
return (BTM_UNKNOWN_ADDR);
#endif
}
/*******************************************************************************
**
** Function BTM_ReadScoPacketTypes
**
** Description This function is read the packet types used for a specific
** SCO connection.
**
** Returns Packet types supported for the connection
** One or more of the following (bitmask):
** BTM_SCO_PKT_TYPES_MASK_HV1
** BTM_SCO_PKT_TYPES_MASK_HV2
** BTM_SCO_PKT_TYPES_MASK_HV3
** BTM_SCO_PKT_TYPES_MASK_EV3
** BTM_SCO_PKT_TYPES_MASK_EV4
** BTM_SCO_PKT_TYPES_MASK_EV5
** BTM_SCO_PKT_TYPES_MASK_NO_2_EV3
** BTM_SCO_PKT_TYPES_MASK_NO_3_EV3
** BTM_SCO_PKT_TYPES_MASK_NO_2_EV5
** BTM_SCO_PKT_TYPES_MASK_NO_3_EV5
**
*******************************************************************************/
UINT16 BTM_ReadScoPacketTypes (UINT16 sco_inx)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[sco_inx];
/* Validity check */
if ((sco_inx < BTM_MAX_SCO_LINKS) && (p->state == SCO_ST_CONNECTED)) {
return (p->esco.setup.packet_types);
} else {
return (0);
}
#else
return (0);
#endif
}
/*******************************************************************************
**
** Function BTM_ReadDeviceScoPacketTypes
**
** Description This function is read the SCO packet types that
** the device supports.
**
** Returns Packet types supported by the device.
** One or more of the following (bitmask):
** BTM_SCO_PKT_TYPES_MASK_HV1
** BTM_SCO_PKT_TYPES_MASK_HV2
** BTM_SCO_PKT_TYPES_MASK_HV3
** BTM_SCO_PKT_TYPES_MASK_EV3
** BTM_SCO_PKT_TYPES_MASK_EV4
** BTM_SCO_PKT_TYPES_MASK_EV5
** BTM_SCO_PKT_TYPES_MASK_NO_2_EV3
** BTM_SCO_PKT_TYPES_MASK_NO_3_EV3
** BTM_SCO_PKT_TYPES_MASK_NO_2_EV5
** BTM_SCO_PKT_TYPES_MASK_NO_3_EV5
**
*******************************************************************************/
UINT16 BTM_ReadDeviceScoPacketTypes (void)
{
return (btm_cb.btm_sco_pkt_types_supported);
}
/*******************************************************************************
**
** Function BTM_ReadScoHandle
**
** Description This function is used to read the HCI handle used for a specific
** SCO connection,
**
** Returns handle for the connection, or 0xFFFF if invalid SCO index.
**
*******************************************************************************/
UINT16 BTM_ReadScoHandle (UINT16 sco_inx)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[sco_inx];
/* Validity check */
if ((sco_inx < BTM_MAX_SCO_LINKS) && (p->state == SCO_ST_CONNECTED)) {
return (p->hci_handle);
} else {
return (BTM_INVALID_HCI_HANDLE);
}
#else
return (BTM_INVALID_HCI_HANDLE);
#endif
}
/*******************************************************************************
**
** Function BTM_ReadScoBdAddr
**
** Description This function is read the remote BD Address for a specific
** SCO connection,
**
** Returns pointer to BD address or NULL if not known
**
*******************************************************************************/
UINT8 *BTM_ReadScoBdAddr (UINT16 sco_inx)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[sco_inx];
/* Validity check */
if ((sco_inx < BTM_MAX_SCO_LINKS) && (p->rem_bd_known)) {
return (p->esco.data.bd_addr);
} else {
return (NULL);
}
#else
return (NULL);
#endif
}
/*******************************************************************************
**
** Function BTM_SetEScoMode
**
** Description This function sets up the negotiated parameters for SCO or
** eSCO, and sets as the default mode used for outgoing calls to
** BTM_CreateSco. It does not change any currently active (e)SCO links.
** Note: Incoming (e)SCO connections will always use packet types
** supported by the controller. If eSCO is not desired the
** feature should be disabled in the controller's feature mask.
**
** Returns BTM_SUCCESS if the successful.
** BTM_BUSY if there are one or more active (e)SCO links.
**
*******************************************************************************/
tBTM_STATUS BTM_SetEScoMode (tBTM_SCO_TYPE sco_mode, tBTM_ESCO_PARAMS *p_parms)
{
tSCO_CB *p_esco = &btm_cb.sco_cb;
tBTM_ESCO_PARAMS *p_def = &p_esco->def_esco_parms;
if (p_esco->esco_supported) {
if (p_parms) {
if (sco_mode == BTM_LINK_TYPE_ESCO) {
*p_def = *p_parms; /* Save as the default parameters */
} else { /* Load only the SCO packet types */
p_def->packet_types = p_parms->packet_types;
p_def->tx_bw = BTM_64KBITS_RATE;
p_def->rx_bw = BTM_64KBITS_RATE;
p_def->max_latency = 0x000a;
p_def->voice_contfmt = 0x0060;
p_def->retrans_effort = 0;
/* OR in any exception packet types */
p_def->packet_types |= BTM_SCO_EXCEPTION_PKTS_MASK;
}
}
p_esco->desired_sco_mode = sco_mode;
BTM_TRACE_API("BTM_SetEScoMode -> mode %d", sco_mode);
} else {
p_esco->desired_sco_mode = BTM_LINK_TYPE_SCO;
p_def->packet_types &= BTM_SCO_LINK_ONLY_MASK;
p_def->retrans_effort = 0;
BTM_TRACE_API("BTM_SetEScoMode -> mode SCO (eSCO not supported)");
}
BTM_TRACE_DEBUG(" txbw 0x%08x, rxbw 0x%08x, max_lat 0x%04x, voice 0x%04x, pkt 0x%04x, rtx effort 0x%02x",
p_def->tx_bw, p_def->rx_bw, p_def->max_latency,
p_def->voice_contfmt, p_def->packet_types,
p_def->retrans_effort);
return (BTM_SUCCESS);
}
/*******************************************************************************
**
** Function BTM_RegForEScoEvts
**
** Description This function registers a SCO event callback with the
** specified instance. It should be used to received
** connection indication events and change of link parameter
** events.
**
** Returns BTM_SUCCESS if the successful.
** BTM_ILLEGAL_VALUE if there is an illegal sco_inx
** BTM_MODE_UNSUPPORTED if controller version is not BT1.2 or
** later or does not support eSCO.
**
*******************************************************************************/
tBTM_STATUS BTM_RegForEScoEvts (UINT16 sco_inx, tBTM_ESCO_CBACK *p_esco_cback)
{
#if (BTM_MAX_SCO_LINKS>0)
if (!btm_cb.sco_cb.esco_supported) {
btm_cb.sco_cb.sco_db[sco_inx].esco.p_esco_cback = NULL;
return (BTM_MODE_UNSUPPORTED);
}
if (sco_inx < BTM_MAX_SCO_LINKS &&
btm_cb.sco_cb.sco_db[sco_inx].state != SCO_ST_UNUSED) {
btm_cb.sco_cb.sco_db[sco_inx].esco.p_esco_cback = p_esco_cback;
return (BTM_SUCCESS);
}
return (BTM_ILLEGAL_VALUE);
#else
return (BTM_MODE_UNSUPPORTED);
#endif
}
/*******************************************************************************
**
** Function BTM_ReadEScoLinkParms
**
** Description This function returns the current eSCO link parameters for
** the specified handle. This can be called anytime a connection
** is active, but is typically called after receiving the SCO
** opened callback.
**
** Note: If called over a 1.1 controller, only the packet types
** field has meaning.
**
** Returns BTM_SUCCESS if returned data is valid connection.
** BTM_WRONG_MODE if no connection with a peer device or bad sco_inx.
**
*******************************************************************************/
tBTM_STATUS BTM_ReadEScoLinkParms (UINT16 sco_inx, tBTM_ESCO_DATA *p_parms)
{
#if (BTM_MAX_SCO_LINKS>0)
UINT8 index;
BTM_TRACE_API("BTM_ReadEScoLinkParms -> sco_inx 0x%04x", sco_inx);
if (sco_inx < BTM_MAX_SCO_LINKS &&
btm_cb.sco_cb.sco_db[sco_inx].state >= SCO_ST_CONNECTED) {
*p_parms = btm_cb.sco_cb.sco_db[sco_inx].esco.data;
return (BTM_SUCCESS);
}
if (sco_inx == BTM_FIRST_ACTIVE_SCO_INDEX) {
for (index = 0; index < BTM_MAX_SCO_LINKS; index++) {
if (btm_cb.sco_cb.sco_db[index].state >= SCO_ST_CONNECTED) {
BTM_TRACE_API("BTM_ReadEScoLinkParms the first active SCO index is %d", index);
*p_parms = btm_cb.sco_cb.sco_db[index].esco.data;
return (BTM_SUCCESS);
}
}
}
#endif
BTM_TRACE_API("BTM_ReadEScoLinkParms cannot find the SCO index!");
memset(p_parms, 0, sizeof(tBTM_ESCO_DATA));
return (BTM_WRONG_MODE);
}
/*******************************************************************************
**
** Function BTM_ChangeEScoLinkParms
**
** Description This function requests renegotiation of the parameters on
** the current eSCO Link. If any of the changes are accepted
** by the controllers, the BTM_ESCO_CHG_EVT event is sent in
** the tBTM_ESCO_CBACK function with the current settings of
** the link. The callback is registered through the call to
** BTM_SetEScoMode.
**
** Note: If called over a SCO link (including 1.1 controller),
** a change packet type request is sent out instead.
**
** Returns BTM_CMD_STARTED if command is successfully initiated.
** BTM_NO_RESOURCES - not enough resources to initiate command.
** BTM_WRONG_MODE if no connection with a peer device or bad sco_inx.
**
*******************************************************************************/
tBTM_STATUS BTM_ChangeEScoLinkParms (UINT16 sco_inx, tBTM_CHG_ESCO_PARAMS *p_parms)
{
#if (BTM_MAX_SCO_LINKS>0)
tBTM_ESCO_PARAMS *p_setup;
tSCO_CONN *p_sco;
UINT16 temp_pkt_types;
/* Make sure sco handle is valid and on an active link */
if (sco_inx >= BTM_MAX_SCO_LINKS ||
btm_cb.sco_cb.sco_db[sco_inx].state != SCO_ST_CONNECTED) {
return (BTM_WRONG_MODE);
}
p_sco = &btm_cb.sco_cb.sco_db[sco_inx];
p_setup = &p_sco->esco.setup;
/* If SCO connection OR eSCO not supported just send change packet types */
if (p_sco->esco.data.link_type == BTM_LINK_TYPE_SCO ||
!btm_cb.sco_cb.esco_supported) {
p_setup->packet_types = p_parms->packet_types &
(btm_cb.btm_sco_pkt_types_supported & BTM_SCO_LINK_ONLY_MASK);
BTM_TRACE_API("BTM_ChangeEScoLinkParms -> SCO Link for handle 0x%04x, pkt 0x%04x",
p_sco->hci_handle, p_setup->packet_types);
if (!btsnd_hcic_change_conn_type (p_sco->hci_handle,
BTM_ESCO_2_SCO(p_setup->packet_types))) {
return (BTM_NO_RESOURCES);
}
} else {
temp_pkt_types = (p_parms->packet_types & BTM_SCO_SUPPORTED_PKTS_MASK &
btm_cb.btm_sco_pkt_types_supported);
/* OR in any exception packet types */
temp_pkt_types |= ((p_parms->packet_types & BTM_SCO_EXCEPTION_PKTS_MASK) |
(btm_cb.btm_sco_pkt_types_supported & BTM_SCO_EXCEPTION_PKTS_MASK));
BTM_TRACE_API("BTM_ChangeEScoLinkParms -> eSCO Link for handle 0x%04x", p_sco->hci_handle);
BTM_TRACE_API(" txbw 0x%x, rxbw 0x%x, lat 0x%x, voice 0x%x, retrans 0x%02x, pkt 0x%04x",
p_setup->tx_bw, p_setup->rx_bw, p_parms->max_latency,
p_setup->voice_contfmt, p_parms->retrans_effort, temp_pkt_types);
/* When changing an existing link, only change latency, retrans, and pkts */
if (!btsnd_hcic_setup_esco_conn(p_sco->hci_handle, p_setup->tx_bw,
p_setup->rx_bw, p_parms->max_latency,
p_setup->voice_contfmt,
p_parms->retrans_effort,
temp_pkt_types)) {
return (BTM_NO_RESOURCES);
} else {
p_parms->packet_types = temp_pkt_types;
}
}
return (BTM_CMD_STARTED);
#else
return (BTM_WRONG_MODE);
#endif
}
/*******************************************************************************
**
** Function BTM_EScoConnRsp
**
** Description This function is called upon receipt of an (e)SCO connection
** request event (BTM_ESCO_CONN_REQ_EVT) to accept or reject
** the request. Parameters used to negotiate eSCO links.
** If p_parms is NULL, then values set through BTM_SetEScoMode
** are used.
** If the link type of the incoming request is SCO, then only
** the tx_bw, max_latency, content format, and packet_types are
** valid. The hci_status parameter should be
** ([0x0] to accept, [0x0d..0x0f] to reject)
**
**
** Returns void
**
*******************************************************************************/
void BTM_EScoConnRsp (UINT16 sco_inx, UINT8 hci_status, tBTM_ESCO_PARAMS *p_parms)
{
#if (BTM_MAX_SCO_LINKS>0)
if (sco_inx < BTM_MAX_SCO_LINKS &&
btm_cb.sco_cb.sco_db[sco_inx].state == SCO_ST_W4_CONN_RSP) {
btm_esco_conn_rsp(sco_inx, hci_status,
btm_cb.sco_cb.sco_db[sco_inx].esco.data.bd_addr,
p_parms);
}
#endif
}
/*******************************************************************************
**
** Function btm_read_def_esco_mode
**
** Description This function copies the current default esco settings into
** the return buffer.
**
** Returns tBTM_SCO_TYPE
**
*******************************************************************************/
tBTM_SCO_TYPE btm_read_def_esco_mode (tBTM_ESCO_PARAMS *p_parms)
{
#if (BTM_MAX_SCO_LINKS>0)
*p_parms = btm_cb.sco_cb.def_esco_parms;
return btm_cb.sco_cb.desired_sco_mode;
#else
return BTM_LINK_TYPE_SCO;
#endif
}
/*******************************************************************************
**
** Function btm_esco_proc_conn_chg
**
** Description This function is called by BTIF when an SCO connection
** is changed.
**
** Returns void
**
*******************************************************************************/
void btm_esco_proc_conn_chg (UINT8 status, UINT16 handle, UINT8 tx_interval,
UINT8 retrans_window, UINT16 rx_pkt_len,
UINT16 tx_pkt_len)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[0];
tBTM_CHG_ESCO_EVT_DATA data;
UINT16 xx;
BTM_TRACE_EVENT("btm_esco_proc_conn_chg -> handle 0x%04x, status 0x%02x",
handle, status);
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if (p->state == SCO_ST_CONNECTED && handle == p->hci_handle) {
/* If upper layer wants notification */
if (p->esco.p_esco_cback) {
memcpy(data.bd_addr, p->esco.data.bd_addr, BD_ADDR_LEN);
data.hci_status = status;
data.sco_inx = xx;
data.rx_pkt_len = p->esco.data.rx_pkt_len = rx_pkt_len;
data.tx_pkt_len = p->esco.data.tx_pkt_len = tx_pkt_len;
data.tx_interval = p->esco.data.tx_interval = tx_interval;
data.retrans_window = p->esco.data.retrans_window = retrans_window;
(*p->esco.p_esco_cback)(BTM_ESCO_CHG_EVT,
(tBTM_ESCO_EVT_DATA *)&data);
}
return;
}
}
#endif
}
/*******************************************************************************
**
** Function btm_is_sco_active
**
** Description This function is called to see if a SCO handle is already in
** use.
**
** Returns BOOLEAN
**
*******************************************************************************/
BOOLEAN btm_is_sco_active (UINT16 handle)
{
#if (BTM_MAX_SCO_LINKS>0)
UINT16 xx;
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[0];
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if (handle == p->hci_handle && p->state == SCO_ST_CONNECTED) {
return (TRUE);
}
}
#endif
return (FALSE);
}
/*******************************************************************************
**
** Function BTM_GetNumScoLinks
**
** Description This function returns the number of active sco links.
**
** Returns UINT8
**
*******************************************************************************/
UINT8 BTM_GetNumScoLinks (void)
{
#if (BTM_MAX_SCO_LINKS>0)
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[0];
UINT16 xx;
UINT8 num_scos = 0;
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
switch (p->state) {
case SCO_ST_W4_CONN_RSP:
case SCO_ST_CONNECTING:
case SCO_ST_CONNECTED:
case SCO_ST_DISCONNECTING:
case SCO_ST_PEND_UNPARK:
num_scos++;
}
}
return (num_scos);
#else
return (0);
#endif
}
/*******************************************************************************
**
** Function btm_is_sco_active_by_bdaddr
**
** Description This function is called to see if a SCO active to a bd address.
**
** Returns BOOLEAN
**
*******************************************************************************/
BOOLEAN btm_is_sco_active_by_bdaddr (BD_ADDR remote_bda)
{
#if (BTM_MAX_SCO_LINKS>0)
UINT8 xx;
tSCO_CONN *p = &btm_cb.sco_cb.sco_db[0];
/* If any SCO is being established to the remote BD address, refuse this */
for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) {
if ((!memcmp (p->esco.data.bd_addr, remote_bda, BD_ADDR_LEN)) && (p->state == SCO_ST_CONNECTED)) {
return (TRUE);
}
}
#endif
return (FALSE);
}
#else /* SCO_EXCLUDED == TRUE (Link in stubs) */
tBTM_STATUS BTM_CreateSco (BD_ADDR remote_bda, BOOLEAN is_orig,
UINT16 pkt_types, UINT16 *p_sco_inx,
tBTM_SCO_CB *p_conn_cb,
tBTM_SCO_CB *p_disc_cb)
{
return (BTM_NO_RESOURCES);
}
tBTM_STATUS BTM_RemoveSco (UINT16 sco_inx)
{
return (BTM_NO_RESOURCES);
}
tBTM_STATUS BTM_SetScoPacketTypes (UINT16 sco_inx, UINT16 pkt_types)
{
return (BTM_NO_RESOURCES);
}
UINT16 BTM_ReadScoPacketTypes (UINT16 sco_inx)
{
return (0);
}
UINT16 BTM_ReadDeviceScoPacketTypes (void)
{
return (0);
}
UINT16 BTM_ReadScoHandle (UINT16 sco_inx)
{
return (BTM_INVALID_HCI_HANDLE);
}
UINT8 *BTM_ReadScoBdAddr(UINT16 sco_inx)
{
return ((UINT8 *) NULL);
}
tBTM_STATUS BTM_SetEScoMode (tBTM_SCO_TYPE sco_mode, tBTM_ESCO_PARAMS *p_parms)
{
return (BTM_MODE_UNSUPPORTED);
}
tBTM_STATUS BTM_RegForEScoEvts (UINT16 sco_inx, tBTM_ESCO_CBACK *p_esco_cback)
{
return (BTM_ILLEGAL_VALUE);
}
tBTM_STATUS BTM_ReadEScoLinkParms (UINT16 sco_inx, tBTM_ESCO_DATA *p_parms)
{
return (BTM_MODE_UNSUPPORTED);
}
tBTM_STATUS BTM_ChangeEScoLinkParms (UINT16 sco_inx, tBTM_CHG_ESCO_PARAMS *p_parms)
{
return (BTM_MODE_UNSUPPORTED);
}
void BTM_EScoConnRsp (UINT16 sco_inx, UINT8 hci_status, tBTM_ESCO_PARAMS *p_parms) {}
UINT8 BTM_GetNumScoLinks (void)
{
return (0);
}
#endif /* If SCO is being used */
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