/*
*
* Realtek Bluetooth USB driver
*
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/init.h>
#include <linux/slab.h>
#include <linux/types.h>
#include <linux/sched.h>
#include <linux/errno.h>
#include <linux/skbuff.h>
#include <linux/dcache.h>
#include <linux/version.h>
#include <net/sock.h>
#include <net/bluetooth/bluetooth.h>
#include <net/bluetooth/hci_core.h>
#include <net/bluetooth/l2cap.h>
#include "rtk_coex.h"
/* Software coex message can be sent to and receive from WiFi driver by
* UDP socket or exported symbol */
/* #define RTK_COEX_OVER_SYMBOL */
#if BTRTL_HCI_IF == BTRTL_HCIUSB
#include <linux/usb.h>
#include "rtk_bt.h"
#undef RTKBT_DBG
#undef RTKBT_INFO
#undef RTKBT_WARN
#undef RTKBT_ERR
#elif BTRTL_HCI_IF == BTRTL_HCIUART
/* #define HCI_VERSION_CODE KERNEL_VERSION(3, 14, 41) */
#define HCI_VERSION_CODE LINUX_VERSION_CODE
#else
#error "Please set type of HCI interface"
#endif
#define RTK_VERSION "1.2"
#define RTKBT_DBG(fmt, arg...) printk(KERN_INFO "rtk_btcoex: " fmt "\n" , ## arg)
#define RTKBT_INFO(fmt, arg...) printk(KERN_INFO "rtk_btcoex: " fmt "\n" , ## arg)
#define RTKBT_WARN(fmt, arg...) printk(KERN_WARNING "rtk_btcoex: " fmt "\n", ## arg)
#define RTKBT_ERR(fmt, arg...) printk(KERN_WARNING "rtk_btcoex: " fmt "\n", ## arg)
static struct rtl_coex_struct btrtl_coex;
#ifdef RTB_SOFTWARE_MAILBOX
#ifdef RTK_COEX_OVER_SYMBOL
static struct sk_buff_head rtw_q;
static struct workqueue_struct *rtw_wq;
static struct work_struct rtw_work;
static u8 rtw_coex_on;
#endif
#endif
#define is_profile_connected(profile) ((btrtl_coex.profile_bitmap & BIT(profile)) > 0)
#define is_profile_busy(profile) ((btrtl_coex.profile_status & BIT(profile)) > 0)
#ifdef RTB_SOFTWARE_MAILBOX
static void rtk_handle_event_from_wifi(uint8_t * msg);
#endif
static int rtl_alloc_buff(struct rtl_coex_struct *coex)
{
struct rtl_hci_ev *ev;
struct rtl_l2_buff *l2;
int i;
int order;
unsigned long addr;
unsigned long addr2;
int ev_size;
int l2_size;
int n;
spin_lock_init(&coex->buff_lock);
INIT_LIST_HEAD(&coex->ev_used_list);
INIT_LIST_HEAD(&coex->ev_free_list);
INIT_LIST_HEAD(&coex->l2_used_list);
INIT_LIST_HEAD(&coex->l2_free_list);
n = NUM_RTL_HCI_EV * sizeof(struct rtl_hci_ev);
ev_size = ALIGN(n, sizeof(unsigned long));
n = L2_MAX_PKTS * sizeof(struct rtl_l2_buff);
l2_size = ALIGN(n, sizeof(unsigned long));
RTKBT_DBG("alloc buffers %d, %d for ev and l2", ev_size, l2_size);
order = get_order(ev_size + l2_size);
addr = __get_free_pages(GFP_KERNEL, order);
if (!addr) {
RTKBT_ERR("failed to alloc buffers for ev and l2.");
return -ENOMEM;
}
memset((void *)addr, 0, ev_size + l2_size);
coex->pages_addr = addr;
coex->buff_size = ev_size + l2_size;
ev = (struct rtl_hci_ev *)addr;
for (i = 0; i < NUM_RTL_HCI_EV; i++) {
list_add_tail(&ev->list, &coex->ev_free_list);
ev++;
}
addr2 = addr + ev_size;
l2 = (struct rtl_l2_buff *)addr2;
for (i = 0; i < L2_MAX_PKTS; i++) {
list_add_tail(&l2->list, &coex->l2_free_list);
l2++;
}
return 0;
}
static void rtl_free_buff(struct rtl_coex_struct *coex)
{
struct rtl_hci_ev *ev;
struct rtl_l2_buff *l2;
unsigned long flags;
spin_lock_irqsave(&coex->buff_lock, flags);
while (!list_empty(&coex->ev_used_list)) {
ev = list_entry(coex->ev_used_list.next, struct rtl_hci_ev,
list);
list_del(&ev->list);
}
while (!list_empty(&coex->ev_free_list)) {
ev = list_entry(coex->ev_free_list.next, struct rtl_hci_ev,
list);
list_del(&ev->list);
}
while (!list_empty(&coex->l2_used_list)) {
l2 = list_entry(coex->l2_used_list.next, struct rtl_l2_buff,
list);
list_del(&l2->list);
}
while (!list_empty(&coex->l2_free_list)) {
l2 = list_entry(coex->l2_free_list.next, struct rtl_l2_buff,
list);
list_del(&l2->list);
}
spin_unlock_irqrestore(&coex->buff_lock, flags);
if (coex->buff_size > 0) {
free_pages(coex->pages_addr, get_order(coex->buff_size));
coex->pages_addr = 0;
coex->buff_size = 0;
}
}
static struct rtl_hci_ev *rtl_ev_node_get(struct rtl_coex_struct *coex)
{
struct rtl_hci_ev *ev;
unsigned long flags;
if (!coex->buff_size)
return NULL;
spin_lock_irqsave(&coex->buff_lock, flags);
if (!list_empty(&coex->ev_free_list)) {
ev = list_entry(coex->ev_free_list.next, struct rtl_hci_ev,
list);
list_del(&ev->list);
} else
ev = NULL;
spin_unlock_irqrestore(&coex->buff_lock, flags);
return ev;
}
static int rtl_ev_node_to_used(struct rtl_coex_struct *coex,
struct rtl_hci_ev *ev)
{
unsigned long flags;
spin_lock_irqsave(&coex->buff_lock, flags);
list_add_tail(&ev->list, &coex->ev_used_list);
spin_unlock_irqrestore(&coex->buff_lock, flags);
return 0;
}
static struct rtl_l2_buff *rtl_l2_node_get(struct rtl_coex_struct *coex)
{
struct rtl_l2_buff *l2;
unsigned long flags;
if (!coex->buff_size)
return NULL;
spin_lock_irqsave(&coex->buff_lock, flags);
if(!list_empty(&coex->l2_free_list)) {
l2 = list_entry(coex->l2_free_list.next, struct rtl_l2_buff,
list);
list_del(&l2->list);
} else
l2 = NULL;
spin_unlock_irqrestore(&coex->buff_lock, flags);
return l2;
}
static int rtl_l2_node_to_used(struct rtl_coex_struct *coex,
struct rtl_l2_buff *l2)
{
unsigned long flags;
spin_lock_irqsave(&coex->buff_lock, flags);
list_add_tail(&l2->list, &coex->l2_used_list);
spin_unlock_irqrestore(&coex->buff_lock, flags);
return 0;
}
static int8_t psm_to_profile_index(uint16_t psm)
{
switch (psm) {
case PSM_AVCTP:
case PSM_SDP:
return -1; //ignore
case PSM_HID:
case PSM_HID_INT:
return profile_hid;
case PSM_AVDTP:
return profile_a2dp;
case PSM_PAN:
case PSM_OPP:
case PSM_FTP:
case PSM_BIP:
case PSM_RFCOMM:
return profile_pan;
default:
return profile_pan;
}
}
static rtk_prof_info *find_by_psm(u16 psm)
{
struct list_head *head = &btrtl_coex.profile_list;
struct list_head *iter = NULL;
struct list_head *temp = NULL;
rtk_prof_info *desc = NULL;
list_for_each_safe(iter, temp, head) {
desc = list_entry(iter, rtk_prof_info, list);
if (desc->psm == psm)
return desc;
}
return NULL;
}
static void rtk_check_setup_timer(int8_t profile_index)
{
if (profile_index == profile_a2dp) {
btrtl_coex.a2dp_packet_count = 0;
btrtl_coex.a2dp_count_timer.expires =
jiffies + msecs_to_jiffies(1000);
mod_timer(&btrtl_coex.a2dp_count_timer,
btrtl_coex.a2dp_count_timer.expires);
}
if (profile_index == profile_pan) {
btrtl_coex.pan_packet_count = 0;
btrtl_coex.pan_count_timer.expires =
jiffies + msecs_to_jiffies(1000);
mod_timer(&btrtl_coex.pan_count_timer,
btrtl_coex.pan_count_timer.expires);
}
/* hogp & voice share one timer now */
if ((profile_index == profile_hogp) || (profile_index == profile_voice)) {
if ((0 == btrtl_coex.profile_refcount[profile_hogp])
&& (0 == btrtl_coex.profile_refcount[profile_voice])) {
btrtl_coex.hogp_packet_count = 0;
btrtl_coex.voice_packet_count = 0;
btrtl_coex.hogp_count_timer.expires =
jiffies + msecs_to_jiffies(1000);
mod_timer(&btrtl_coex.hogp_count_timer,
btrtl_coex.hogp_count_timer.expires);
}
}
}
static void rtk_check_del_timer(int8_t profile_index)
{
if (profile_a2dp == profile_index) {
btrtl_coex.a2dp_packet_count = 0;
del_timer_sync(&btrtl_coex.a2dp_count_timer);
}
if (profile_pan == profile_index) {
btrtl_coex.pan_packet_count = 0;
del_timer_sync(&btrtl_coex.pan_count_timer);
}
if (profile_hogp == profile_index) {
btrtl_coex.hogp_packet_count = 0;
if (btrtl_coex.profile_refcount[profile_voice] == 0) {
del_timer_sync(&btrtl_coex.hogp_count_timer);
}
}
if (profile_voice == profile_index) {
btrtl_coex.voice_packet_count = 0;
if (btrtl_coex.profile_refcount[profile_hogp] == 0) {
del_timer_sync(&btrtl_coex.hogp_count_timer);
}
}
}
static rtk_conn_prof *find_connection_by_handle(struct rtl_coex_struct * coex,
uint16_t handle)
{
struct list_head *head = &coex->conn_hash;
struct list_head *iter = NULL, *temp = NULL;
rtk_conn_prof *desc = NULL;
list_for_each_safe(iter, temp, head) {
desc = list_entry(iter, rtk_conn_prof, list);
if ((handle & 0xEFF) == desc->handle) {
return desc;
}
}
return NULL;
}
static rtk_conn_prof *allocate_connection_by_handle(uint16_t handle)
{
rtk_conn_prof *phci_conn = NULL;
phci_conn = kmalloc(sizeof(rtk_conn_prof), GFP_ATOMIC);
if (phci_conn)
phci_conn->handle = handle;
return phci_conn;
}
static void init_connection_hash(struct rtl_coex_struct * coex)
{
struct list_head *head = &coex->conn_hash;
INIT_LIST_HEAD(head);
}
static void add_connection_to_hash(struct rtl_coex_struct * coex,
rtk_conn_prof * desc)
{
struct list_head *head = &coex->conn_hash;
list_add_tail(&desc->list, head);
}
static void delete_connection_from_hash(rtk_conn_prof * desc)
{
if (desc) {
list_del(&desc->list);
kfree(desc);
}
}
static void flush_connection_hash(struct rtl_coex_struct * coex)
{
struct list_head *head = &coex->conn_hash;
struct list_head *iter = NULL, *temp = NULL;
rtk_conn_prof *desc = NULL;
list_for_each_safe(iter, temp, head) {
desc = list_entry(iter, rtk_conn_prof, list);
if (desc) {
list_del(&desc->list);
kfree(desc);
}
}
//INIT_LIST_HEAD(head);
}
static void init_profile_hash(struct rtl_coex_struct * coex)
{
struct list_head *head = &coex->profile_list;
INIT_LIST_HEAD(head);
}
static uint8_t list_allocate_add(uint16_t handle, uint16_t psm,
int8_t profile_index, uint16_t dcid,
uint16_t scid)
{
rtk_prof_info *pprof_info = NULL;
if (profile_index < 0) {
RTKBT_ERR("PSM 0x%x do not need parse", psm);
return FALSE;
}
pprof_info = kmalloc(sizeof(rtk_prof_info), GFP_ATOMIC);
if (NULL == pprof_info) {
RTKBT_ERR("list_allocate_add: allocate error");
return FALSE;
}
/* Check if it is the second l2cap connection for a2dp
* a2dp signal channel will be created first than media channel.
*/
if (psm == PSM_AVDTP) {
rtk_prof_info *pinfo = find_by_psm(psm);
if (!pinfo) {
pprof_info->flags = A2DP_SIGNAL;
RTKBT_INFO("%s: Add a2dp signal channel", __func__);
} else {
pprof_info->flags = A2DP_MEDIA;
RTKBT_INFO("%s: Add a2dp media channel", __func__);
}
}
pprof_info->handle = handle;
pprof_info->psm = psm;
pprof_info->scid = scid;
pprof_info->dcid = dcid;
pprof_info->profile_index = profile_index;
list_add_tail(&(pprof_info->list), &(btrtl_coex.profile_list));
return TRUE;
}
static void delete_profile_from_hash(rtk_prof_info * desc)
{
if (desc) {
RTKBT_DBG("Delete profile: hndl 0x%04x, psm 0x%04x, dcid 0x%04x, "
"scid 0x%04x", desc->handle, desc->psm, desc->dcid,
desc->scid);
list_del(&desc->list);
kfree(desc);
desc = NULL;
}
}
static void flush_profile_hash(struct rtl_coex_struct * coex)
{
struct list_head *head = &coex->profile_list;
struct list_head *iter = NULL, *temp = NULL;
rtk_prof_info *desc = NULL;
spin_lock(&btrtl_coex.spin_lock_profile);
list_for_each_safe(iter, temp, head) {
desc = list_entry(iter, rtk_prof_info, list);
delete_profile_from_hash(desc);
}
//INIT_LIST_HEAD(head);
spin_unlock(&btrtl_coex.spin_lock_profile);
}
static rtk_prof_info *find_profile_by_handle_scid(struct rtl_coex_struct *
coex, uint16_t handle,
uint16_t scid)
{
struct list_head *head = &coex->profile_list;
struct list_head *iter = NULL, *temp = NULL;
rtk_prof_info *desc = NULL;
list_for_each_safe(iter, temp, head) {
desc = list_entry(iter, rtk_prof_info, list);
if (((handle & 0xFFF) == desc->handle) && (scid == desc->scid)) {
return desc;
}
}
return NULL;
}
static rtk_prof_info *find_profile_by_handle_dcid(struct rtl_coex_struct *
coex, uint16_t handle,
uint16_t dcid)
{
struct list_head *head = &coex->profile_list;
struct list_head *iter = NULL, *temp = NULL;
rtk_prof_info *desc = NULL;
list_for_each_safe(iter, temp, head) {
desc = list_entry(iter, rtk_prof_info, list);
if (((handle & 0xFFF) == desc->handle) && (dcid == desc->dcid)) {
return desc;
}
}
return NULL;
}
static rtk_prof_info *find_profile_by_handle_dcid_scid(struct rtl_coex_struct
* coex, uint16_t handle,
uint16_t dcid,
uint16_t scid)
{
struct list_head *head = &coex->profile_list;
struct list_head *iter = NULL, *temp = NULL;
rtk_prof_info *desc = NULL;
list_for_each_safe(iter, temp, head) {
desc = list_entry(iter, rtk_prof_info, list);
if (((handle & 0xFFF) == desc->handle) && (dcid == desc->dcid)
&& (scid == desc->scid)) {
return desc;
}
}
return NULL;
}
static void rtk_vendor_cmd_to_fw(uint16_t opcode, uint8_t parameter_len,
uint8_t * parameter)
{
int len = HCI_CMD_PREAMBLE_SIZE + parameter_len;
uint8_t *p;
struct sk_buff *skb;
struct hci_dev *hdev = btrtl_coex.hdev;
if (!hdev) {
RTKBT_ERR("No HCI device");
return;
} else if (!test_bit(HCI_UP, &hdev->flags)) {
RTKBT_WARN("HCI device is down");
return;
}
skb = bt_skb_alloc(len, GFP_ATOMIC);
if (!skb) {
RTKBT_DBG("there is no room for cmd 0x%x", opcode);
return;
}
p = (uint8_t *) skb_put(skb, HCI_CMD_PREAMBLE_SIZE);
UINT16_TO_STREAM(p, opcode);
*p++ = parameter_len;
if (parameter_len)
memcpy(skb_put(skb, parameter_len), parameter, parameter_len);
bt_cb(skb)->pkt_type = HCI_COMMAND_PKT;
#if HCI_VERSION_CODE >= KERNEL_VERSION(3, 18, 0)
#if HCI_VERSION_CODE < KERNEL_VERSION(4, 4, 0)
bt_cb(skb)->opcode = opcode;
#else
bt_cb(skb)->hci.opcode = opcode;
#endif
#endif
/* Stand-alone HCI commands must be flagged as
* single-command requests.
*/
#if HCI_VERSION_CODE >= KERNEL_VERSION(3, 10, 0)
#if HCI_VERSION_CODE < KERNEL_VERSION(4, 4, 0)
bt_cb(skb)->req.start = true;
#else
#if HCI_VERSION_CODE < KERNEL_VERSION(4, 5, 0)
bt_cb(skb)->hci.req_start = true;
#else
bt_cb(skb)->hci.req_flags |= HCI_REQ_START;
#endif
#endif /* 4.4.0 */
#endif /* 3.10.0 */
RTKBT_DBG("%s: opcode 0x%x", __func__, opcode);
/* It is harmless if set skb->dev twice. The dev will be used in
* btusb_send_frame() after or equal to kernel/hci 3.13.0,
* the hdev will not come from skb->dev. */
#if HCI_VERSION_CODE < KERNEL_VERSION(3, 13, 0)
skb->dev = (void *)btrtl_coex.hdev;
#endif
/* Put the skb to the global hdev->cmd_q */
skb_queue_tail(&hdev->cmd_q, skb);
#if HCI_VERSION_CODE < KERNEL_VERSION(3, 3, 0)
tasklet_schedule(&hdev->cmd_task);
#else
queue_work(hdev->workqueue, &hdev->cmd_work);
#endif
return;
}
static void rtk_notify_profileinfo_to_fw(void)
{
struct list_head *head = NULL;
struct list_head *iter = NULL;
struct list_head *temp = NULL;
rtk_conn_prof *hci_conn = NULL;
uint8_t handle_number = 0;
uint32_t buffer_size = 0;
uint8_t *p_buf = NULL;
uint8_t *p = NULL;
head = &btrtl_coex.conn_hash;
list_for_each_safe(iter, temp, head) {
hci_conn = list_entry(iter, rtk_conn_prof, list);
if (hci_conn && hci_conn->profile_bitmap)
handle_number++;
}
buffer_size = 1 + handle_number * 3 + 1;
p_buf = kmalloc(buffer_size, GFP_ATOMIC);
if (NULL == p_buf) {
RTKBT_ERR("%s: alloc error", __func__);
return;
}
p = p_buf;
RTKBT_DBG("%s: BufferSize %u", __func__, buffer_size);
*p++ = handle_number;
RTKBT_DBG("%s: NumberOfHandles %u", __func__, handle_number);
head = &btrtl_coex.conn_hash;
list_for_each(iter, head) {
hci_conn = list_entry(iter, rtk_conn_prof, list);
if (hci_conn && hci_conn->profile_bitmap) {
UINT16_TO_STREAM(p, hci_conn->handle);
RTKBT_DBG("%s: handle 0x%04x", __func__,
hci_conn->handle);
*p++ = hci_conn->profile_bitmap;
RTKBT_DBG("%s: profile_bitmap 0x%02x", __func__,
hci_conn->profile_bitmap);
handle_number--;
}
if (0 == handle_number)
break;
}
*p++ = btrtl_coex.profile_status;
RTKBT_DBG("%s: profile_status 0x%02x", __func__,
btrtl_coex.profile_status);
rtk_vendor_cmd_to_fw(HCI_VENDOR_SET_PROFILE_REPORT_COMMAND, buffer_size,
p_buf);
kfree(p_buf);
return;
}
static void update_profile_state(uint8_t profile_index, uint8_t is_busy)
{
uint8_t need_update = FALSE;
if ((btrtl_coex.profile_bitmap & BIT(profile_index)) == 0) {
RTKBT_ERR("%s: : ERROR!!! profile(Index: %x) does not exist",
__func__, profile_index);
return;
}
if (is_busy) {
if ((btrtl_coex.profile_status & BIT(profile_index)) == 0) {
need_update = TRUE;
btrtl_coex.profile_status |= BIT(profile_index);
}
} else {
if ((btrtl_coex.profile_status & BIT(profile_index)) > 0) {
need_update = TRUE;
btrtl_coex.profile_status &= ~(BIT(profile_index));
}
}
if (need_update) {
RTKBT_DBG("%s: btrtl_coex.profie_bitmap = %x",
__func__, btrtl_coex.profile_bitmap);
RTKBT_DBG("%s: btrtl_coex.profile_status = %x",
__func__, btrtl_coex.profile_status);
rtk_notify_profileinfo_to_fw();
}
}
static void update_profile_connection(rtk_conn_prof * phci_conn,
int8_t profile_index, uint8_t is_add)
{
uint8_t need_update = FALSE;
uint8_t kk;
RTKBT_DBG("%s: is_add %d, profile_index %x", __func__,
is_add, profile_index);
if (profile_index < 0)
return;
if (is_add) {
if (btrtl_coex.profile_refcount[profile_index] == 0) {
need_update = TRUE;
btrtl_coex.profile_bitmap |= BIT(profile_index);
/* SCO is always busy */
if (profile_index == profile_sco)
btrtl_coex.profile_status |=
BIT(profile_index);
rtk_check_setup_timer(profile_index);
}
btrtl_coex.profile_refcount[profile_index]++;
if (0 == phci_conn->profile_refcount[profile_index]) {
need_update = TRUE;
phci_conn->profile_bitmap |= BIT(profile_index);
}
phci_conn->profile_refcount[profile_index]++;
} else {
if (!btrtl_coex.profile_refcount[profile_index]) {
RTKBT_WARN("profile %u refcount is already zero",
profile_index);
return;
}
btrtl_coex.profile_refcount[profile_index]--;
RTKBT_DBG("%s: btrtl_coex.profile_refcount[%x] = %x",
__func__, profile_index,
btrtl_coex.profile_refcount[profile_index]);
if (btrtl_coex.profile_refcount[profile_index] == 0) {
need_update = TRUE;
btrtl_coex.profile_bitmap &= ~(BIT(profile_index));
/* if profile does not exist, status is meaningless */
btrtl_coex.profile_status &= ~(BIT(profile_index));
rtk_check_del_timer(profile_index);
}
phci_conn->profile_refcount[profile_index]--;
if (0 == phci_conn->profile_refcount[profile_index]) {
need_update = TRUE;
phci_conn->profile_bitmap &= ~(BIT(profile_index));
/* clear profile_hid_interval if need */
if ((profile_hid == profile_index)
&& (phci_conn->
profile_bitmap & (BIT(profile_hid_interval)))) {
phci_conn->profile_bitmap &=
~(BIT(profile_hid_interval));
btrtl_coex.
profile_refcount[profile_hid_interval]--;
}
}
}
RTKBT_DBG("%s: btrtl_coex.profile_bitmap 0x%02x", __func__,
btrtl_coex.profile_bitmap);
for (kk = 0; kk < 8; kk++)
RTKBT_DBG("%s: btrtl_coex.profile_refcount[%d] = %d",
__func__, kk,
btrtl_coex.profile_refcount[kk]);
if (need_update)
rtk_notify_profileinfo_to_fw();
}
static void update_hid_active_state(uint16_t handle, uint16_t interval)
{
uint8_t need_update = 0;
rtk_conn_prof *phci_conn =
find_connection_by_handle(&btrtl_coex, handle);
if (phci_conn == NULL)
return;
RTKBT_DBG("%s: handle 0x%04x, interval %u", __func__, handle, interval);
if (((phci_conn->profile_bitmap) & (BIT(profile_hid))) == 0) {
RTKBT_DBG("HID not connected, nothing to be down");
return;
}
if (interval < 60) {
if ((phci_conn->profile_bitmap & (BIT(profile_hid_interval))) ==
0) {
need_update = 1;
phci_conn->profile_bitmap |= BIT(profile_hid_interval);
btrtl_coex.profile_refcount[profile_hid_interval]++;
if (btrtl_coex.
profile_refcount[profile_hid_interval] == 1)
btrtl_coex.profile_status |=
BIT(profile_hid);
}
} else {
if ((phci_conn->profile_bitmap & (BIT(profile_hid_interval)))) {
need_update = 1;
phci_conn->profile_bitmap &=
~(BIT(profile_hid_interval));
btrtl_coex.profile_refcount[profile_hid_interval]--;
if (btrtl_coex.
profile_refcount[profile_hid_interval] == 0)
btrtl_coex.profile_status &=
~(BIT(profile_hid));
}
}
if (need_update)
rtk_notify_profileinfo_to_fw();
}
static uint8_t handle_l2cap_con_req(uint16_t handle, uint16_t psm,
uint16_t scid, uint8_t direction)
{
uint8_t status = FALSE;
rtk_prof_info *prof_info = NULL;
int8_t profile_index = psm_to_profile_index(psm);
if (profile_index < 0) {
RTKBT_DBG("PSM(0x%04x) do not need parse", psm);
return status;
}
spin_lock(&btrtl_coex.spin_lock_profile);
if (direction) //1: out
prof_info =
find_profile_by_handle_scid(&btrtl_coex, handle, scid);
else // 0:in
prof_info =
find_profile_by_handle_dcid(&btrtl_coex, handle, scid);
if (prof_info) {
RTKBT_DBG("%s: this profile is already exist!", __func__);
spin_unlock(&btrtl_coex.spin_lock_profile);
return status;
}
if (direction) //1: out
status = list_allocate_add(handle, psm, profile_index, 0, scid);
else // 0:in
status = list_allocate_add(handle, psm, profile_index, scid, 0);
spin_unlock(&btrtl_coex.spin_lock_profile);
if (!status)
RTKBT_ERR("%s: list_allocate_add failed!", __func__);
return status;
}
static uint8_t handle_l2cap_con_rsp(uint16_t handle, uint16_t dcid,
uint16_t scid, uint8_t direction,
uint8_t result)
{
rtk_prof_info *prof_info = NULL;
rtk_conn_prof *phci_conn = NULL;
spin_lock(&btrtl_coex.spin_lock_profile);
if (!direction) //0, in
prof_info =
find_profile_by_handle_scid(&btrtl_coex, handle, scid);
else //1, out
prof_info =
find_profile_by_handle_dcid(&btrtl_coex, handle, scid);
if (!prof_info) {
//RTKBT_DBG("handle_l2cap_con_rsp: prof_info Not Find!!");
spin_unlock(&btrtl_coex.spin_lock_profile);
return FALSE;
}
if (!result) { //success
RTKBT_DBG("l2cap connection success, update connection");
if (!direction) //0, in
prof_info->dcid = dcid;
else //1, out
prof_info->scid = dcid;
phci_conn = find_connection_by_handle(&btrtl_coex, handle);
if (phci_conn)
update_profile_connection(phci_conn,
prof_info->profile_index,
TRUE);
}
spin_unlock(&btrtl_coex.spin_lock_profile);
return TRUE;
}
static uint8_t handle_l2cap_discon_req(uint16_t handle, uint16_t dcid,
uint16_t scid, uint8_t direction)
{
rtk_prof_info *prof_info = NULL;
rtk_conn_prof *phci_conn = NULL;
RTKBT_DBG("%s: handle 0x%04x, dcid 0x%04x, scid 0x%04x, dir %u",
__func__, handle, dcid, scid, direction);
spin_lock(&btrtl_coex.spin_lock_profile);
if (!direction) //0: in
prof_info =
find_profile_by_handle_dcid_scid(&btrtl_coex, handle,
scid, dcid);
else //1: out
prof_info =
find_profile_by_handle_dcid_scid(&btrtl_coex, handle,
dcid, scid);
if (!prof_info) {
//LogMsg("handle_l2cap_discon_req: prof_info Not Find!");
spin_unlock(&btrtl_coex.spin_lock_profile);
return 0;
}
phci_conn = find_connection_by_handle(&btrtl_coex, handle);
if (!phci_conn) {
spin_unlock(&btrtl_coex.spin_lock_profile);
return 0;
}
update_profile_connection(phci_conn, prof_info->profile_index, FALSE);
if (prof_info->profile_index == profile_a2dp &&
(phci_conn->profile_bitmap & BIT(profile_sink)))
update_profile_connection(phci_conn, profile_sink, FALSE);
delete_profile_from_hash(prof_info);
spin_unlock(&btrtl_coex.spin_lock_profile);
return 1;
}
static const char sample_freqs[4][8] = {
"16", "32", "44.1", "48"
};
static const uint8_t sbc_blocks[4] = { 4, 8, 12, 16 };
static const char chan_modes[4][16] = {
"MONO", "DUAL_CHANNEL", "STEREO", "JOINT_STEREO"
};
static const char alloc_methods[2][12] = {
"LOUDNESS", "SNR"
};
static const uint8_t subbands[2] = { 4, 8 };
void print_sbc_header(struct sbc_frame_hdr *hdr)
{
RTKBT_DBG("syncword: %02x", hdr->syncword);
RTKBT_DBG("freq %skHz", sample_freqs[hdr->sampling_frequency]);
RTKBT_DBG("blocks %u", sbc_blocks[hdr->blocks]);
RTKBT_DBG("channel mode %s", chan_modes[hdr->channel_mode]);
RTKBT_DBG("allocation method %s",
alloc_methods[hdr->allocation_method]);
RTKBT_DBG("subbands %u", subbands[hdr->subbands]);
}
static void packets_count(uint16_t handle, uint16_t scid, uint16_t length,
uint8_t direction, u8 *user_data)
{
rtk_prof_info *prof_info = NULL;
rtk_conn_prof *hci_conn =
find_connection_by_handle(&btrtl_coex, handle);
if (NULL == hci_conn)
return;
if (0 == hci_conn->type) {
if (!direction) //0: in
prof_info =
find_profile_by_handle_scid(&btrtl_coex, handle,
scid);
else //1: out
prof_info =
find_profile_by_handle_dcid(&btrtl_coex, handle,
scid);
if (!prof_info) {
//RTKBT_DBG("packets_count: prof_info Not Find!");
return;
}
/* avdtp media data */
if (prof_info->profile_index == profile_a2dp &&
prof_info->flags == A2DP_MEDIA) {
if (!is_profile_busy(profile_a2dp)) {
struct sbc_frame_hdr *sbc_header;
struct rtp_header *rtph;
u8 bitpool;
update_profile_state(profile_a2dp, TRUE);
if (!direction) {
if (!(hci_conn->profile_bitmap & BIT(profile_sink))) {
btrtl_coex.profile_bitmap |= BIT(profile_sink);
hci_conn->profile_bitmap |= BIT(profile_sink);
update_profile_connection(hci_conn, profile_sink, 1);
}
update_profile_state(profile_sink, TRUE);
}
/* We assume it is SBC if the packet length
* is bigger than 100 bytes
*/
if (length > 100) {
RTKBT_INFO("Length %u", length);
rtph = (struct rtp_header *)user_data;
RTKBT_DBG("rtp: v %u, cc %u, pt %u",
rtph->v, rtph->cc, rtph->pt);
/* move forward */
user_data += sizeof(struct rtp_header) +
rtph->cc * 4 + 1;
/* point to the sbc frame header */
sbc_header = (struct sbc_frame_hdr *)user_data;
bitpool = sbc_header->bitpool;
print_sbc_header(sbc_header);
RTKBT_DBG("bitpool %u", bitpool);
rtk_vendor_cmd_to_fw(HCI_VENDOR_SET_BITPOOL,
1, &bitpool);
}
}
btrtl_coex.a2dp_packet_count++;
}
if (prof_info->profile_index == profile_pan)
btrtl_coex.pan_packet_count++;
}
}
#if LINUX_VERSION_CODE > KERNEL_VERSION(4, 14, 0)
static void count_a2dp_packet_timeout(struct timer_list *unused)
#else
static void count_a2dp_packet_timeout(unsigned long data)
#endif
{
if (btrtl_coex.a2dp_packet_count)
RTKBT_DBG("%s: a2dp_packet_count %d", __func__,
btrtl_coex.a2dp_packet_count);
if (btrtl_coex.a2dp_packet_count == 0) {
if (is_profile_busy(profile_a2dp)) {
RTKBT_DBG("%s: a2dp busy->idle!", __func__);
update_profile_state(profile_a2dp, FALSE);
if (btrtl_coex.profile_bitmap & BIT(profile_sink))
update_profile_state(profile_sink, FALSE);
}
}
btrtl_coex.a2dp_packet_count = 0;
mod_timer(&btrtl_coex.a2dp_count_timer,
jiffies + msecs_to_jiffies(1000));
}
#if LINUX_VERSION_CODE > KERNEL_VERSION(4, 14, 0)
static void count_pan_packet_timeout(struct timer_list *unused)
#else
static void count_pan_packet_timeout(unsigned long data)
#endif
{
if (btrtl_coex.pan_packet_count)
RTKBT_DBG("%s: pan_packet_count %d", __func__,
btrtl_coex.pan_packet_count);
if (btrtl_coex.pan_packet_count < PAN_PACKET_COUNT) {
if (is_profile_busy(profile_pan)) {
RTKBT_DBG("%s: pan busy->idle!", __func__);
update_profile_state(profile_pan, FALSE);
}
} else {
if (!is_profile_busy(profile_pan)) {
RTKBT_DBG("timeout_handler: pan idle->busy!");
update_profile_state(profile_pan, TRUE);
}
}
btrtl_coex.pan_packet_count = 0;
mod_timer(&btrtl_coex.pan_count_timer,
jiffies + msecs_to_jiffies(1000));
}
#if LINUX_VERSION_CODE > KERNEL_VERSION(4, 14, 0)
static void count_hogp_packet_timeout(struct timer_list *unused)
#else
static void count_hogp_packet_timeout(unsigned long data)
#endif
{
if (btrtl_coex.hogp_packet_count)
RTKBT_DBG("%s: hogp_packet_count %d", __func__,
btrtl_coex.hogp_packet_count);
if (btrtl_coex.hogp_packet_count == 0) {
if (is_profile_busy(profile_hogp)) {
RTKBT_DBG("%s: hogp busy->idle!", __func__);
update_profile_state(profile_hogp, FALSE);
}
}
btrtl_coex.hogp_packet_count = 0;
if (btrtl_coex.voice_packet_count)
RTKBT_DBG("%s: voice_packet_count %d", __func__,
btrtl_coex.voice_packet_count);
if (btrtl_coex.voice_packet_count == 0) {
if (is_profile_busy(profile_voice)) {
RTKBT_DBG("%s: voice busy->idle!", __func__);
update_profile_state(profile_voice, FALSE);
}
}
btrtl_coex.voice_packet_count = 0;
mod_timer(&btrtl_coex.hogp_count_timer,
jiffies + msecs_to_jiffies(1000));
}
#ifdef RTB_SOFTWARE_MAILBOX
#ifndef RTK_COEX_OVER_SYMBOL
static int udpsocket_send(char *tx_msg, int msg_size)
{
u8 error = 0;
struct msghdr udpmsg;
mm_segment_t oldfs;
struct iovec iov;
RTKBT_DBG("send msg %s with len:%d", tx_msg, msg_size);
if (btrtl_coex.sock_open) {
iov.iov_base = (void *)tx_msg;
iov.iov_len = msg_size;
udpmsg.msg_name = &btrtl_coex.wifi_addr;
udpmsg.msg_namelen = sizeof(struct sockaddr_in);
#if LINUX_VERSION_CODE < KERNEL_VERSION(3, 19, 0)
udpmsg.msg_iov = &iov;
udpmsg.msg_iovlen = 1;
#else
iov_iter_init(&udpmsg.msg_iter, WRITE, &iov, 1, msg_size);
#endif
udpmsg.msg_control = NULL;
udpmsg.msg_controllen = 0;
udpmsg.msg_flags = MSG_DONTWAIT | MSG_NOSIGNAL;
oldfs = get_fs();
set_fs(KERNEL_DS);
#if LINUX_VERSION_CODE < KERNEL_VERSION(4, 1, 0)
error = sock_sendmsg(btrtl_coex.udpsock, &udpmsg, msg_size);
#else
error = sock_sendmsg(btrtl_coex.udpsock, &udpmsg);
#endif
set_fs(oldfs);
if (error < 0)
RTKBT_DBG("Error when sendimg msg, error:%d", error);
}
return error;
}
#endif
#ifdef RTK_COEX_OVER_SYMBOL
/* Receive message from WiFi */
u8 rtw_btcoex_wifi_to_bt(u8 *msg, u8 msg_size)
{
struct sk_buff *nskb;
if (!rtw_coex_on) {
RTKBT_WARN("Bluetooth is closed");
return 0;
}
nskb = alloc_skb(msg_size, GFP_ATOMIC);
if (!nskb) {
RTKBT_ERR("Couldnt alloc skb for WiFi coex message");
return 0;
}
memcpy(skb_put(nskb, msg_size), msg, msg_size);
skb_queue_tail(&rtw_q, nskb);
queue_work(rtw_wq, &rtw_work);
return 1;
}
EXPORT_SYMBOL(rtw_btcoex_wifi_to_bt);
static int rtk_send_coexmsg2wifi(u8 *msg, u8 size)
{
u8 result;
u8 (*btmsg_to_wifi)(u8 *, u8);
btmsg_to_wifi = __symbol_get(VMLINUX_SYMBOL_STR(rtw_btcoex_bt_to_wifi));
if (!btmsg_to_wifi) {
/* RTKBT_ERR("Couldnt get symbol"); */
return -1;
}
result = btmsg_to_wifi(msg, size);
__symbol_put(VMLINUX_SYMBOL_STR(rtw_btcoex_bt_to_wifi));
if (!result) {
RTKBT_ERR("Couldnt send coex msg to WiFi");
return -1;
} else if (result == 1){
/* successful to send message */
return 0;
} else {
RTKBT_ERR("Unknown result %d", result);
return -1;
}
}
static int rtkbt_process_coexskb(struct sk_buff *skb)
{
rtk_handle_event_from_wifi(skb->data);
return 0;
}
static void rtw_work_func(struct work_struct *work)
{
struct sk_buff *skb;
while ((skb = skb_dequeue(&rtw_q))) {
rtkbt_process_coexskb(skb);
kfree_skb(skb);
}
}
#endif
static int rtkbt_coexmsg_send(char *tx_msg, int msg_size)
{
#ifdef RTK_COEX_OVER_SYMBOL
return rtk_send_coexmsg2wifi((uint8_t *)tx_msg, (u8)msg_size);
#else
return udpsocket_send(tx_msg, msg_size);
#endif
}
#ifndef RTK_COEX_OVER_SYMBOL
static void udpsocket_recv_data(void)
{
u8 recv_data[512];
u32 len = 0;
u16 recv_length;
struct sk_buff *skb;
RTKBT_DBG("-");
spin_lock(&btrtl_coex.spin_lock_sock);
len = skb_queue_len(&btrtl_coex.sk->sk_receive_queue);
while (len > 0) {
skb = skb_dequeue(&btrtl_coex.sk->sk_receive_queue);
/*important: cut the udp header from skb->data! header length is 8 byte */
recv_length = skb->len - 8;
memset(recv_data, 0, sizeof(recv_data));
memcpy(recv_data, skb->data + 8, recv_length);
//RTKBT_DBG("received data: %s :with len %u", recv_data, recv_length);
rtk_handle_event_from_wifi(recv_data);
len--;
kfree_skb(skb);
}
spin_unlock(&btrtl_coex.spin_lock_sock);
}
#if LINUX_VERSION_CODE < KERNEL_VERSION(3, 15, 0)
static void udpsocket_recv(struct sock *sk, int bytes)
#else
static void udpsocket_recv(struct sock *sk)
#endif
{
spin_lock(&btrtl_coex.spin_lock_sock);
btrtl_coex.sk = sk;
spin_unlock(&btrtl_coex.spin_lock_sock);
queue_delayed_work(btrtl_coex.sock_wq, &btrtl_coex.sock_work, 0);
}
static void create_udpsocket(void)
{
int err;
RTKBT_DBG("%s: connect_port: %d", __func__, CONNECT_PORT);
btrtl_coex.sock_open = 0;
err = sock_create(AF_INET, SOCK_DGRAM, IPPROTO_UDP,
&btrtl_coex.udpsock);
if (err < 0) {
RTKBT_ERR("%s: sock create error, err = %d", __func__, err);
return;
}
memset(&btrtl_coex.addr, 0, sizeof(struct sockaddr_in));
btrtl_coex.addr.sin_family = AF_INET;
btrtl_coex.addr.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
btrtl_coex.addr.sin_port = htons(CONNECT_PORT);
memset(&btrtl_coex.wifi_addr, 0, sizeof(struct sockaddr_in));
btrtl_coex.wifi_addr.sin_family = AF_INET;
btrtl_coex.wifi_addr.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
btrtl_coex.wifi_addr.sin_port = htons(CONNECT_PORT_WIFI);
err =
btrtl_coex.udpsock->ops->bind(btrtl_coex.udpsock,
(struct sockaddr *)&btrtl_coex.
addr, sizeof(struct sockaddr));
if (err < 0) {
sock_release(btrtl_coex.udpsock);
RTKBT_ERR("%s: sock bind error, err = %d",__func__, err);
return;
}
btrtl_coex.sock_open = 1;
btrtl_coex.udpsock->sk->sk_data_ready = udpsocket_recv;
}
#endif /* !RTK_COEX_OVER_SYMBOL */
static void rtk_notify_extension_version_to_wifi(void)
{
uint8_t para_length = 2;
char p_buf[2 + HCI_CMD_PREAMBLE_SIZE];
char *p = p_buf;
if (!btrtl_coex.wifi_on)
return;
UINT16_TO_STREAM(p, HCI_OP_HCI_EXTENSION_VERSION_NOTIFY);
*p++ = para_length;
UINT16_TO_STREAM(p, HCI_EXTENSION_VERSION);
RTKBT_DBG("extension version is 0x%x", HCI_EXTENSION_VERSION);
if (rtkbt_coexmsg_send(p_buf, para_length + HCI_CMD_PREAMBLE_SIZE) < 0)
RTKBT_ERR("%s: sock send error", __func__);
}
static void rtk_notify_btpatch_version_to_wifi(void)
{
uint8_t para_length = 4;
char p_buf[para_length + HCI_CMD_PREAMBLE_SIZE];
char *p = p_buf;
if (!btrtl_coex.wifi_on)
return;
UINT16_TO_STREAM(p, HCI_OP_HCI_BT_PATCH_VER_NOTIFY);
*p++ = para_length;
UINT16_TO_STREAM(p, btrtl_coex.hci_reversion);
UINT16_TO_STREAM(p, btrtl_coex.lmp_subversion);
RTKBT_DBG("btpatch ver: len %u, hci_rev 0x%04x, lmp_subver 0x%04x",
para_length, btrtl_coex.hci_reversion,
btrtl_coex.lmp_subversion);
if (rtkbt_coexmsg_send(p_buf, para_length + HCI_CMD_PREAMBLE_SIZE) < 0)
RTKBT_ERR("%s: sock send error", __func__);
}
static void rtk_notify_afhmap_to_wifi(void)
{
uint8_t para_length = 13;
char p_buf[para_length + HCI_CMD_PREAMBLE_SIZE];
char *p = p_buf;
uint8_t kk = 0;
if (!btrtl_coex.wifi_on)
return;
UINT16_TO_STREAM(p, HCI_OP_HCI_BT_AFH_MAP_NOTIFY);
*p++ = para_length;
*p++ = btrtl_coex.piconet_id;
*p++ = btrtl_coex.mode;
*p++ = 10;
memcpy(p, btrtl_coex.afh_map, 10);
RTKBT_DBG("afhmap, piconet_id is 0x%x, map type is 0x%x",
btrtl_coex.piconet_id, btrtl_coex.mode);
for (kk = 0; kk < 10; kk++)
RTKBT_DBG("afhmap data[%d] is 0x%x", kk,
btrtl_coex.afh_map[kk]);
if (rtkbt_coexmsg_send(p_buf, para_length + HCI_CMD_PREAMBLE_SIZE) < 0)
RTKBT_ERR("%s: sock send error", __func__);
}
static void rtk_notify_btcoex_to_wifi(uint8_t opcode, uint8_t status)
{
uint8_t para_length = 2;
char p_buf[para_length + HCI_CMD_PREAMBLE_SIZE];
char *p = p_buf;
if (!btrtl_coex.wifi_on)
return;
UINT16_TO_STREAM(p, HCI_OP_HCI_BT_COEX_NOTIFY);
*p++ = para_length;
*p++ = opcode;
if (!status)
*p++ = 0;
else
*p++ = 1;
RTKBT_DBG("btcoex, opcode is 0x%x, status is 0x%x", opcode, status);
if (rtkbt_coexmsg_send(p_buf, para_length + HCI_CMD_PREAMBLE_SIZE) < 0)
RTKBT_ERR("%s: sock send error", __func__);
}
static void rtk_notify_btoperation_to_wifi(uint8_t operation,
uint8_t append_data_length,
uint8_t * append_data)
{
uint8_t para_length = 3 + append_data_length;
char p_buf[para_length + HCI_CMD_PREAMBLE_SIZE];
char *p = p_buf;
uint8_t kk = 0;
if (!btrtl_coex.wifi_on)
return;
UINT16_TO_STREAM(p, HCI_OP_BT_OPERATION_NOTIFY);
*p++ = para_length;
*p++ = operation;
*p++ = append_data_length;
if (append_data_length)
memcpy(p, append_data, append_data_length);
RTKBT_DBG("btoperation: op 0x%02x, append_data_length %u",
operation, append_data_length);
if (append_data_length) {
for (kk = 0; kk < append_data_length; kk++)
RTKBT_DBG("append data is 0x%x", *(append_data + kk));
}
if (rtkbt_coexmsg_send(p_buf, para_length + HCI_CMD_PREAMBLE_SIZE) < 0)
RTKBT_ERR("%s: sock send error", __func__);
}
static void rtk_notify_info_to_wifi(uint8_t reason, uint8_t length,
uint8_t *report_info)
{
uint8_t para_length = 4 + length;
char buf[para_length + HCI_CMD_PREAMBLE_SIZE];
char *p = buf;
struct rtl_btinfo *report = (struct rtl_btinfo *)report_info;
if (length) {
RTKBT_DBG("bt info: cmd %2.2X", report->cmd);
RTKBT_DBG("bt info: len %2.2X", report->len);
RTKBT_DBG("bt info: data %2.2X %2.2X %2.2X %2.2X %2.2X %2.2X",
report->data[0], report->data[1], report->data[2],
report->data[3], report->data[4], report->data[5]);
}
RTKBT_DBG("bt info: reason 0x%2x, length 0x%2x", reason, length);
if (!btrtl_coex.wifi_on)
return;
UINT16_TO_STREAM(p, HCI_OP_HCI_BT_INFO_NOTIFY);
*p++ = para_length;
*p++ = btrtl_coex.polling_enable;
*p++ = btrtl_coex.polling_interval;
*p++ = reason;
*p++ = length;
if (length)
memcpy(p, report_info, length);
RTKBT_DBG("para length %2x, polling_enable %u, poiiling_interval %u",
para_length, btrtl_coex.polling_enable,
btrtl_coex.polling_interval);
/* send BT INFO to Wi-Fi driver */
if (rtkbt_coexmsg_send(buf, para_length + HCI_CMD_PREAMBLE_SIZE) < 0)
RTKBT_ERR("%s: sock send error", __func__);
}
static void rtk_notify_regester_to_wifi(uint8_t * reg_value)
{
uint8_t para_length = 9;
char p_buf[para_length + HCI_CMD_PREAMBLE_SIZE];
char *p = p_buf;
hci_mailbox_register *reg = (hci_mailbox_register *) reg_value;
if (!btrtl_coex.wifi_on)
return;
UINT16_TO_STREAM(p, HCI_OP_HCI_BT_REGISTER_VALUE_NOTIFY);
*p++ = para_length;
memcpy(p, reg_value, para_length);
RTKBT_DBG("bt register, register type is %x", reg->type);
RTKBT_DBG("bt register, register offset is %x", reg->offset);
RTKBT_DBG("bt register, register value is %x", reg->value);
if (rtkbt_coexmsg_send(p_buf, para_length + HCI_CMD_PREAMBLE_SIZE) < 0)
RTKBT_ERR("%s: sock send error", __func__);
}
#endif
void rtk_btcoex_parse_cmd(uint8_t *buffer, int count)
{
u16 opcode = (buffer[0]) + (buffer[1] << 8);
if (!test_bit(RTL_COEX_RUNNING, &btrtl_coex.flags)) {
RTKBT_INFO("%s: Coex is closed, ignore", __func__);
return;
}
switch (opcode) {
case HCI_OP_INQUIRY:
case HCI_OP_PERIODIC_INQ:
if (!btrtl_coex.isinquirying) {
btrtl_coex.isinquirying = 1;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("hci (periodic)inq, notify wifi "
"inquiry start");
rtk_notify_btoperation_to_wifi(BT_OPCODE_INQUIRY_START,
0, NULL);
#else
RTKBT_INFO("hci (periodic)inq start");
#endif
}
break;
case HCI_OP_INQUIRY_CANCEL:
case HCI_OP_EXIT_PERIODIC_INQ:
if (btrtl_coex.isinquirying) {
btrtl_coex.isinquirying = 0;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("hci (periodic)inq cancel/exit, notify wifi "
"inquiry stop");
rtk_notify_btoperation_to_wifi(BT_OPCODE_INQUIRY_END, 0,
NULL);
#else
RTKBT_INFO("hci (periodic)inq cancel/exit");
#endif
}
break;
case HCI_OP_ACCEPT_CONN_REQ:
if (!btrtl_coex.ispaging) {
btrtl_coex.ispaging = 1;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("hci accept connreq, notify wifi page start");
rtk_notify_btoperation_to_wifi(BT_OPCODE_PAGE_START, 0,
NULL);
#else
RTKBT_INFO("hci accept conn req");
#endif
}
break;
case HCI_OP_DISCONNECT:
RTKBT_INFO("HCI Disconnect, handle %04x, reason 0x%02x",
((u16)buffer[4] << 8 | buffer[3]), buffer[5]);
break;
default:
break;
}
}
static void rtk_handle_inquiry_complete(void)
{
if (btrtl_coex.isinquirying) {
btrtl_coex.isinquirying = 0;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("inq complete, notify wifi inquiry end");
rtk_notify_btoperation_to_wifi(BT_OPCODE_INQUIRY_END, 0, NULL);
#else
RTKBT_INFO("inquiry complete");
#endif
}
}
static void rtk_handle_pin_code_req(void)
{
if (!btrtl_coex.ispairing) {
btrtl_coex.ispairing = 1;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("pin code req, notify wifi pair start");
rtk_notify_btoperation_to_wifi(BT_OPCODE_PAIR_START, 0, NULL);
#else
RTKBT_INFO("pin code request");
#endif
}
}
static void rtk_handle_io_capa_req(void)
{
if (!btrtl_coex.ispairing) {
btrtl_coex.ispairing = 1;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("io cap req, notify wifi pair start");
rtk_notify_btoperation_to_wifi(BT_OPCODE_PAIR_START, 0, NULL);
#else
RTKBT_INFO("io capability request");
#endif
}
}
static void rtk_handle_auth_request(void)
{
if (btrtl_coex.ispairing) {
btrtl_coex.ispairing = 0;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("auth req, notify wifi pair end");
rtk_notify_btoperation_to_wifi(BT_OPCODE_PAIR_END, 0, NULL);
#else
RTKBT_INFO("authentication request");
#endif
}
}
static void rtk_handle_link_key_notify(void)
{
if (btrtl_coex.ispairing) {
btrtl_coex.ispairing = 0;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("link key notify, notify wifi pair end");
rtk_notify_btoperation_to_wifi(BT_OPCODE_PAIR_END, 0, NULL);
#else
RTKBT_INFO("link key notify");
#endif
}
}
static void rtk_handle_mode_change_evt(u8 * p)
{
u16 mode_change_handle, mode_interval;
p++;
STREAM_TO_UINT16(mode_change_handle, p);
p++;
STREAM_TO_UINT16(mode_interval, p);
update_hid_active_state(mode_change_handle, mode_interval);
}
#ifdef RTB_SOFTWARE_MAILBOX
static void rtk_parse_vendor_mailbox_cmd_evt(u8 * p, u8 total_len)
{
u8 status, subcmd;
u8 temp_cmd[10];
status = *p++;
if (total_len <= 4) {
RTKBT_DBG("receive mailbox cmd from fw, total length <= 4");
return;
}
subcmd = *p++;
RTKBT_DBG("receive mailbox cmd from fw, subcmd is 0x%x, status is 0x%x",
subcmd, status);
switch (subcmd) {
case HCI_VENDOR_SUB_CMD_BT_REPORT_CONN_SCO_INQ_INFO:
if (status == 0) //success
rtk_notify_info_to_wifi(POLLING_RESPONSE,
RTL_BTINFO_LEN, (uint8_t *)p);
break;
case HCI_VENDOR_SUB_CMD_WIFI_CHANNEL_AND_BANDWIDTH_CMD:
rtk_notify_btcoex_to_wifi(WIFI_BW_CHNL_NOTIFY, status);
break;
case HCI_VENDOR_SUB_CMD_WIFI_FORCE_TX_POWER_CMD:
rtk_notify_btcoex_to_wifi(BT_POWER_DECREASE_CONTROL, status);
break;
case HCI_VENDOR_SUB_CMD_BT_ENABLE_IGNORE_WLAN_ACT_CMD:
rtk_notify_btcoex_to_wifi(IGNORE_WLAN_ACTIVE_CONTROL, status);
break;
case HCI_VENDOR_SUB_CMD_SET_BT_PSD_MODE:
rtk_notify_btcoex_to_wifi(BT_PSD_MODE_CONTROL, status);
break;
case HCI_VENDOR_SUB_CMD_SET_BT_LNA_CONSTRAINT:
rtk_notify_btcoex_to_wifi(LNA_CONSTRAIN_CONTROL, status);
break;
case HCI_VENDOR_SUB_CMD_BT_AUTO_REPORT_ENABLE:
break;
case HCI_VENDOR_SUB_CMD_BT_SET_TXRETRY_REPORT_PARAM:
break;
case HCI_VENDOR_SUB_CMD_BT_SET_PTATABLE:
break;
case HCI_VENDOR_SUB_CMD_GET_AFH_MAP_L:
if (status == 0) {
memcpy(btrtl_coex.afh_map, p + 4, 4); /* cmd_idx, length, piconet_id, mode */
temp_cmd[0] = HCI_VENDOR_SUB_CMD_GET_AFH_MAP_M;
temp_cmd[1] = 2;
temp_cmd[2] = btrtl_coex.piconet_id;
temp_cmd[3] = btrtl_coex.mode;
rtk_vendor_cmd_to_fw(HCI_VENDOR_MAILBOX_CMD, 4,
temp_cmd);
} else {
memset(btrtl_coex.afh_map, 0, 10);
rtk_notify_afhmap_to_wifi();
}
break;
case HCI_VENDOR_SUB_CMD_GET_AFH_MAP_M:
if (status == 0) {
memcpy(btrtl_coex.afh_map + 4, p + 4, 4);
temp_cmd[0] = HCI_VENDOR_SUB_CMD_GET_AFH_MAP_H;
temp_cmd[1] = 2;
temp_cmd[2] = btrtl_coex.piconet_id;
temp_cmd[3] = btrtl_coex.mode;
rtk_vendor_cmd_to_fw(HCI_VENDOR_MAILBOX_CMD, 4,
temp_cmd);
} else {
memset(btrtl_coex.afh_map, 0, 10);
rtk_notify_afhmap_to_wifi();
}
break;
case HCI_VENDOR_SUB_CMD_GET_AFH_MAP_H:
if (status == 0)
memcpy(btrtl_coex.afh_map + 8, p + 4, 2);
else
memset(btrtl_coex.afh_map, 0, 10);
rtk_notify_afhmap_to_wifi();
break;
case HCI_VENDOR_SUB_CMD_RD_REG_REQ:
if (status == 0)
rtk_notify_regester_to_wifi(p + 3); /* cmd_idx,length,regist type */
break;
case HCI_VENDOR_SUB_CMD_WR_REG_REQ:
rtk_notify_btcoex_to_wifi(BT_REGISTER_ACCESS, status);
break;
default:
break;
}
}
#endif /* RTB_SOFTWARE_MAILBOX */
static void rtk_handle_cmd_complete_evt(u8 total_len, u8 * p)
{
u16 opcode;
p++;
STREAM_TO_UINT16(opcode, p);
//RTKBT_DBG("cmd_complete, opcode is 0x%x", opcode);
if (opcode == HCI_OP_PERIODIC_INQ) {
if (*p++ && btrtl_coex.isinquirying) {
btrtl_coex.isinquirying = 0;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("hci period inq, start error, notify wifi "
"inquiry stop");
rtk_notify_btoperation_to_wifi(BT_OPCODE_INQUIRY_END, 0,
NULL);
#else
RTKBT_INFO("hci period inquiry start error");
#endif
}
}
if (opcode == HCI_OP_READ_LOCAL_VERSION) {
if (!(*p++)) {
p++;
STREAM_TO_UINT16(btrtl_coex.hci_reversion, p);
p += 3;
STREAM_TO_UINT16(btrtl_coex.lmp_subversion, p);
RTKBT_DBG("BTCOEX hci_rev 0x%04x",
btrtl_coex.hci_reversion);
RTKBT_DBG("BTCOEX lmp_subver 0x%04x",
btrtl_coex.lmp_subversion);
}
}
#ifdef RTB_SOFTWARE_MAILBOX
if (opcode == HCI_VENDOR_MAILBOX_CMD) {
rtk_parse_vendor_mailbox_cmd_evt(p, total_len);
}
#endif
}
static void rtk_handle_cmd_status_evt(u8 * p)
{
u16 opcode;
u8 status;
status = *p++;
p++;
STREAM_TO_UINT16(opcode, p);
//RTKBT_DBG("cmd_status, opcode is 0x%x", opcode);
if ((opcode == HCI_OP_INQUIRY) && (status)) {
if (btrtl_coex.isinquirying) {
btrtl_coex.isinquirying = 0;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("hci inq, start error, notify wifi inq stop");
rtk_notify_btoperation_to_wifi(BT_OPCODE_INQUIRY_END, 0,
NULL);
#else
RTKBT_INFO("hci inquiry start error");
#endif
}
}
if (opcode == HCI_OP_CREATE_CONN) {
if (!status && !btrtl_coex.ispaging) {
btrtl_coex.ispaging = 1;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("hci create conn, notify wifi start page");
rtk_notify_btoperation_to_wifi(BT_OPCODE_PAGE_START, 0,
NULL);
#else
RTKBT_INFO("hci create connection, start paging");
#endif
}
}
}
static void rtk_handle_connection_complete_evt(u8 * p)
{
u16 handle;
u8 status, link_type;
rtk_conn_prof *hci_conn = NULL;
status = *p++;
STREAM_TO_UINT16(handle, p);
p += 6;
link_type = *p++;
RTKBT_INFO("connected, handle %04x, status 0x%02x", handle, status);
if (status == 0) {
if (btrtl_coex.ispaging) {
btrtl_coex.ispaging = 0;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("notify wifi page success end");
rtk_notify_btoperation_to_wifi
(BT_OPCODE_PAGE_SUCCESS_END, 0, NULL);
#else
RTKBT_INFO("Page success");
#endif
}
hci_conn = find_connection_by_handle(&btrtl_coex, handle);
if (hci_conn == NULL) {
hci_conn = allocate_connection_by_handle(handle);
if (hci_conn) {
add_connection_to_hash(&btrtl_coex,
hci_conn);
hci_conn->profile_bitmap = 0;
memset(hci_conn->profile_refcount, 0, 8);
if ((0 == link_type) || (2 == link_type)) { //sco or esco
hci_conn->type = 1;
update_profile_connection(hci_conn,
profile_sco,
TRUE);
} else
hci_conn->type = 0;
} else {
RTKBT_ERR("hci connection allocate fail");
}
} else {
RTKBT_DBG("hci conn handle 0x%04x already existed!",
handle);
hci_conn->profile_bitmap = 0;
memset(hci_conn->profile_refcount, 0, 8);
if ((0 == link_type) || (2 == link_type)) { //sco or esco
hci_conn->type = 1;
update_profile_connection(hci_conn, profile_sco,
TRUE);
} else
hci_conn->type = 0;
}
} else if (btrtl_coex.ispaging) {
btrtl_coex.ispaging = 0;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("notify wifi page unsuccess end");
rtk_notify_btoperation_to_wifi(BT_OPCODE_PAGE_UNSUCCESS_END, 0,
NULL);
#else
RTKBT_INFO("Page failed");
#endif
}
}
static void rtk_handle_le_connection_complete_evt(u8 enhanced, u8 * p)
{
u16 handle, interval;
u8 status;
rtk_conn_prof *hci_conn = NULL;
status = *p++;
STREAM_TO_UINT16(handle, p);
if (!enhanced)
p += 8; /* role, address type, address */
else
p += (8 + 12); /* plus two bluetooth addresses */
STREAM_TO_UINT16(interval, p);
RTKBT_INFO("LE connected, handle %04x, status 0x%02x, interval %u",
handle, status, interval);
if (status == 0) {
if (btrtl_coex.ispaging) {
btrtl_coex.ispaging = 0;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("notify wifi page success end");
rtk_notify_btoperation_to_wifi
(BT_OPCODE_PAGE_SUCCESS_END, 0, NULL);
#else
RTKBT_INFO("Page success end");
#endif
}
hci_conn = find_connection_by_handle(&btrtl_coex, handle);
if (hci_conn == NULL) {
hci_conn = allocate_connection_by_handle(handle);
if (hci_conn) {
add_connection_to_hash(&btrtl_coex,
hci_conn);
hci_conn->profile_bitmap = 0;
memset(hci_conn->profile_refcount, 0, 8);
hci_conn->type = 2;
update_profile_connection(hci_conn, profile_hid, TRUE); //for coex, le is the same as hid
update_hid_active_state(handle, interval);
} else {
RTKBT_ERR("hci connection allocate fail");
}
} else {
RTKBT_DBG("hci conn handle 0x%04x already existed!",
handle);
hci_conn->profile_bitmap = 0;
memset(hci_conn->profile_refcount, 0, 8);
hci_conn->type = 2;
update_profile_connection(hci_conn, profile_hid, TRUE);
update_hid_active_state(handle, interval);
}
} else if (btrtl_coex.ispaging) {
btrtl_coex.ispaging = 0;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("notify wifi page unsuccess end");
rtk_notify_btoperation_to_wifi(BT_OPCODE_PAGE_UNSUCCESS_END, 0,
NULL);
#else
RTKBT_INFO("Page failed");
#endif
}
}
static void rtk_handle_le_connection_update_complete_evt(u8 * p)
{
u16 handle, interval;
/* u8 status; */
/* status = *p++; */
p++;
STREAM_TO_UINT16(handle, p);
STREAM_TO_UINT16(interval, p);
update_hid_active_state(handle, interval);
}
static void rtk_handle_le_meta_evt(u8 * p)
{
u8 sub_event = *p++;
switch (sub_event) {
case HCI_EV_LE_CONN_COMPLETE:
rtk_handle_le_connection_complete_evt(0, p);
break;
case HCI_EV_LE_ENHANCED_CONN_COMPLETE:
rtk_handle_le_connection_complete_evt(1, p);
break;
case HCI_EV_LE_CONN_UPDATE_COMPLETE:
rtk_handle_le_connection_update_complete_evt(p);
break;
default:
break;
}
}
static u8 disconn_profile(struct rtl_hci_conn *conn, u8 pfe_index)
{
u8 need_update = 0;
if (!btrtl_coex.profile_refcount[pfe_index]) {
RTKBT_WARN("profile %u ref is 0", pfe_index);
return 0;
}
btrtl_coex.profile_refcount[pfe_index]--;
RTKBT_INFO("%s: profile_ref[%u] %u", __func__, pfe_index,
btrtl_coex.profile_refcount[pfe_index]);
if (!btrtl_coex.profile_refcount[pfe_index]) {
need_update = 1;
btrtl_coex.profile_bitmap &= ~(BIT(pfe_index));
/* if profile does not exist, status is meaningless */
btrtl_coex.profile_status &= ~(BIT(pfe_index));
rtk_check_del_timer(pfe_index);
}
if (conn->profile_refcount[pfe_index])
conn->profile_refcount[pfe_index]--;
else
RTKBT_INFO("%s: conn pfe ref[%u] is 0", __func__,
conn->profile_refcount[pfe_index]);
if (!conn->profile_refcount[pfe_index]) {
need_update = 1;
conn->profile_bitmap &= ~(BIT(pfe_index));
/* clear profile_hid_interval if need */
if ((profile_hid == pfe_index) &&
(conn->profile_bitmap & (BIT(profile_hid_interval)))) {
conn->profile_bitmap &= ~(BIT(profile_hid_interval));
if (btrtl_coex.profile_refcount[profile_hid_interval])
btrtl_coex.profile_refcount[profile_hid_interval]--;
}
}
return need_update;
}
static void disconn_acl(u16 handle, struct rtl_hci_conn *conn)
{
struct rtl_coex_struct *coex = &btrtl_coex;
rtk_prof_info *prof_info = NULL;
struct list_head *iter = NULL, *temp = NULL;
u8 need_update = 0;
spin_lock(&coex->spin_lock_profile);
list_for_each_safe(iter, temp, &coex->profile_list) {
prof_info = list_entry(iter, rtk_prof_info, list);
if (handle == prof_info->handle) {
RTKBT_DBG("hci disconn, hndl %x, psm %x, dcid %x, "
"scid %x, profile %u", prof_info->handle,
prof_info->psm, prof_info->dcid,
prof_info->scid, prof_info->profile_index);
//If both scid and dcid > 0, L2cap connection is exist.
need_update |= disconn_profile(conn,
prof_info->profile_index);
if ((prof_info->flags & A2DP_MEDIA) &&
(conn->profile_bitmap & BIT(profile_sink)))
need_update |= disconn_profile(conn,
profile_sink);
delete_profile_from_hash(prof_info);
}
}
if (need_update)
rtk_notify_profileinfo_to_fw();
spin_unlock(&coex->spin_lock_profile);
}
static void rtk_handle_disconnect_complete_evt(u8 * p)
{
u16 handle;
u8 status;
u8 reason;
rtk_conn_prof *hci_conn = NULL;
if (btrtl_coex.ispairing) { //for slave: connection will be disconnected if authentication fail
btrtl_coex.ispairing = 0;
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("hci disc complete, notify wifi pair end");
rtk_notify_btoperation_to_wifi(BT_OPCODE_PAIR_END, 0, NULL);
#else
RTKBT_INFO("hci disconnection complete");
#endif
}
status = *p++;
STREAM_TO_UINT16(handle, p);
reason = *p;
RTKBT_INFO("disconn cmpl evt: status 0x%02x, handle %04x, reason 0x%02x",
status, handle, reason);
if (status == 0) {
RTKBT_DBG("process disconn complete event.");
hci_conn = find_connection_by_handle(&btrtl_coex, handle);
if (hci_conn) {
switch (hci_conn->type) {
case 0:
/* FIXME: If this is interrupted by l2cap rx,
* there may be deadlock on spin_lock_profile */
disconn_acl(handle, hci_conn);
break;
case 1:
update_profile_connection(hci_conn, profile_sco,
FALSE);
break;
case 2:
update_profile_connection(hci_conn, profile_hid,
FALSE);
break;
default:
break;
}
delete_connection_from_hash(hci_conn);
} else
RTKBT_ERR("hci conn handle 0x%04x not found", handle);
}
}
static void rtk_handle_specific_evt(u8 * p)
{
u16 subcode;
STREAM_TO_UINT16(subcode, p);
if (subcode == HCI_VENDOR_PTA_AUTO_REPORT_EVENT) {
#ifdef RTB_SOFTWARE_MAILBOX
RTKBT_DBG("notify wifi driver with autoreport data");
rtk_notify_info_to_wifi(AUTO_REPORT, RTL_BTINFO_LEN,
(uint8_t *)p);
#else
RTKBT_INFO("auto report data");
#endif
}
}
static void rtk_parse_event_data(struct rtl_coex_struct *coex,
u8 *data, u16 len)
{
u8 *p = data;
u8 event_code = *p++;
u8 total_len = *p++;
(void)coex;
(void)&len;
switch (event_code) {
case HCI_EV_INQUIRY_COMPLETE:
rtk_handle_inquiry_complete();
break;
case HCI_EV_PIN_CODE_REQ:
rtk_handle_pin_code_req();
break;
case HCI_EV_IO_CAPA_REQUEST:
rtk_handle_io_capa_req();
break;
case HCI_EV_AUTH_COMPLETE:
rtk_handle_auth_request();
break;
case HCI_EV_LINK_KEY_NOTIFY:
rtk_handle_link_key_notify();
break;
case HCI_EV_MODE_CHANGE:
rtk_handle_mode_change_evt(p);
break;
case HCI_EV_CMD_COMPLETE:
rtk_handle_cmd_complete_evt(total_len, p);
break;
case HCI_EV_CMD_STATUS:
rtk_handle_cmd_status_evt(p);
break;
case HCI_EV_CONN_COMPLETE:
case HCI_EV_SYNC_CONN_COMPLETE:
rtk_handle_connection_complete_evt(p);
break;
case HCI_EV_DISCONN_COMPLETE:
rtk_handle_disconnect_complete_evt(p);
break;
case HCI_EV_LE_META:
rtk_handle_le_meta_evt(p);
break;
case HCI_EV_VENDOR_SPECIFIC:
rtk_handle_specific_evt(p);
break;
default:
break;
}
}
const char l2_dir_str[][4] = {
"RX", "TX",
};
void rtl_process_l2_sig(struct rtl_l2_buff *l2)
{
/* u8 flag; */
u8 code;
/* u8 identifier; */
u16 handle;
/* u16 total_len; */
/* u16 pdu_len, channel_id; */
/* u16 command_len; */
u16 psm, scid, dcid, result;
/* u16 status; */
u8 *pp = l2->data;
STREAM_TO_UINT16(handle, pp);
/* flag = handle >> 12; */
handle = handle & 0x0FFF;
/* STREAM_TO_UINT16(total_len, pp); */
pp += 2; /* data total length */
/* STREAM_TO_UINT16(pdu_len, pp);
* STREAM_TO_UINT16(channel_id, pp); */
pp += 4; /* l2 len and channel id */
code = *pp++;
switch (code) {
case L2CAP_CONN_REQ:
/* identifier = *pp++; */
pp++;
/* STREAM_TO_UINT16(command_len, pp); */
pp += 2;
STREAM_TO_UINT16(psm, pp);
STREAM_TO_UINT16(scid, pp);
RTKBT_DBG("%s l2cap conn req, hndl 0x%04x, PSM 0x%04x, "
"scid 0x%04x", l2_dir_str[l2->out], handle, psm,
scid);
handle_l2cap_con_req(handle, psm, scid, l2->out);
break;
case L2CAP_CONN_RSP:
/* identifier = *pp++; */
pp++;
/* STREAM_TO_UINT16(command_len, pp); */
pp += 2;
STREAM_TO_UINT16(dcid, pp);
STREAM_TO_UINT16(scid, pp);
STREAM_TO_UINT16(result, pp);
/* STREAM_TO_UINT16(status, pp); */
pp += 2;
RTKBT_DBG("%s l2cap conn rsp, hndl 0x%04x, dcid 0x%04x, "
"scid 0x%04x, result 0x%04x", l2_dir_str[l2->out],
handle, dcid, scid, result);
handle_l2cap_con_rsp(handle, dcid, scid, l2->out, result);
break;
case L2CAP_DISCONN_REQ:
/* identifier = *pp++; */
pp++;
/* STREAM_TO_UINT16(command_len, pp); */
pp += 2;
STREAM_TO_UINT16(dcid, pp);
STREAM_TO_UINT16(scid, pp);
RTKBT_DBG("%s l2cap disconn req, hndl 0x%04x, dcid 0x%04x, "
"scid 0x%04x", l2_dir_str[l2->out], handle, dcid, scid);
handle_l2cap_discon_req(handle, dcid, scid, l2->out);
break;
default:
RTKBT_DBG("undesired l2 command %u", code);
break;
}
}
static void rtl_l2_data_process(u8 *pp, u16 len, int dir)
{
u8 code;
u8 flag;
u16 handle, pdu_len, channel_id;
/* u16 total_len; */
struct rtl_l2_buff *l2 = NULL;
u8 *hd = pp;
/* RTKBT_DBG("l2 sig data %p, len %u, dir %d", pp, len, dir); */
STREAM_TO_UINT16(handle, pp);
flag = handle >> 12;
handle = handle & 0x0FFF;
/* STREAM_TO_UINT16(total_len, pp); */
pp += 2; /* data total length */
STREAM_TO_UINT16(pdu_len, pp);
STREAM_TO_UINT16(channel_id, pp);
if (channel_id == 0x0001) {
code = *pp++;
switch (code) {
case L2CAP_CONN_REQ:
case L2CAP_CONN_RSP:
case L2CAP_DISCONN_REQ:
RTKBT_DBG("l2cap op %u, len %u, out %d", code, len,
dir);
l2 = rtl_l2_node_get(&btrtl_coex);
if (l2) {
u16 n;
n = min_t(uint, len, L2_MAX_SUBSEC_LEN);
memcpy(l2->data, hd, n);
l2->out = dir;
rtl_l2_node_to_used(&btrtl_coex, l2);
queue_delayed_work(btrtl_coex.fw_wq,
&btrtl_coex.l2_work, 0);
} else
RTKBT_ERR("%s: failed to get l2 node",
__func__);
break;
case L2CAP_DISCONN_RSP:
break;
default:
break;
}
} else {
if ((flag != 0x01) && (is_profile_connected(profile_a2dp) ||
is_profile_connected(profile_pan)))
/* Do not count the continuous packets */
packets_count(handle, channel_id, pdu_len, dir, pp);
}
return;
}
static void rtl_l2_work(struct work_struct *work)
{
struct rtl_coex_struct *coex;
struct rtl_l2_buff *l2;
unsigned long flags;
coex = container_of(work, struct rtl_coex_struct, l2_work.work);
spin_lock_irqsave(&coex->buff_lock, flags);
while (!list_empty(&coex->l2_used_list)) {
l2 = list_entry(coex->l2_used_list.next, struct rtl_l2_buff,
list);
list_del(&l2->list);
spin_unlock_irqrestore(&coex->buff_lock, flags);
rtl_process_l2_sig(l2);
spin_lock_irqsave(&coex->buff_lock, flags);
list_add_tail(&l2->list, &coex->l2_free_list);
}
spin_unlock_irqrestore(&coex->buff_lock, flags);
return;
}
static void rtl_ev_work(struct work_struct *work)
{
struct rtl_coex_struct *coex;
struct rtl_hci_ev *ev;
unsigned long flags;
coex = container_of(work, struct rtl_coex_struct, fw_work.work);
spin_lock_irqsave(&coex->buff_lock, flags);
while (!list_empty(&coex->ev_used_list)) {
ev = list_entry(coex->ev_used_list.next, struct rtl_hci_ev,
list);
list_del(&ev->list);
spin_unlock_irqrestore(&coex->buff_lock, flags);
rtk_parse_event_data(coex, ev->data, ev->len);
spin_lock_irqsave(&coex->buff_lock, flags);
list_add_tail(&ev->list, &coex->ev_free_list);
}
spin_unlock_irqrestore(&coex->buff_lock, flags);
}
static inline int cmd_cmplt_filter_out(u8 *buf)
{
u16 opcode;
opcode = buf[3] | (buf[4] << 8);
switch (opcode) {
case HCI_OP_PERIODIC_INQ:
case HCI_OP_READ_LOCAL_VERSION:
#ifdef RTB_SOFTWARE_MAILBOX
case HCI_VENDOR_MAILBOX_CMD:
#endif
return 0;
default:
return 1;
}
}
static inline int cmd_status_filter_out(u8 *buf)
{
u16 opcode;
opcode = buf[4] | (buf[5] << 8);
switch (opcode) {
case HCI_OP_INQUIRY:
case HCI_OP_CREATE_CONN:
return 0;
default:
return 1;
}
}
int ev_filter_out(u8 *buf)
{
switch (buf[0]) {
case HCI_EV_INQUIRY_COMPLETE:
case HCI_EV_PIN_CODE_REQ:
case HCI_EV_IO_CAPA_REQUEST:
case HCI_EV_AUTH_COMPLETE:
case HCI_EV_LINK_KEY_NOTIFY:
case HCI_EV_MODE_CHANGE:
case HCI_EV_CONN_COMPLETE:
case HCI_EV_SYNC_CONN_COMPLETE:
case HCI_EV_DISCONN_COMPLETE:
case HCI_EV_VENDOR_SPECIFIC:
return 0;
case HCI_EV_LE_META:
/* Ignore frequent but not useful events that result in
* costing too much space.
*/
switch (buf[2]) {
case HCI_EV_LE_CONN_COMPLETE:
case HCI_EV_LE_ENHANCED_CONN_COMPLETE:
case HCI_EV_LE_CONN_UPDATE_COMPLETE:
return 0;
}
return 1;
case HCI_EV_CMD_COMPLETE:
return cmd_cmplt_filter_out(buf);
case HCI_EV_CMD_STATUS:
return cmd_status_filter_out(buf);
default:
return 1;
}
}
static void rtk_btcoex_evt_enqueue(__u8 *s, __u16 count)
{
struct rtl_hci_ev *ev;
if (ev_filter_out(s))
return;
ev = rtl_ev_node_get(&btrtl_coex);
if (!ev) {
RTKBT_ERR("%s: no free ev node.", __func__);
return;
}
if (count > MAX_LEN_OF_HCI_EV) {
memcpy(ev->data, s, MAX_LEN_OF_HCI_EV);
ev->len = MAX_LEN_OF_HCI_EV;
} else {
memcpy(ev->data, s, count);
ev->len = count;
}
rtl_ev_node_to_used(&btrtl_coex, ev);
queue_delayed_work(btrtl_coex.fw_wq, &btrtl_coex.fw_work, 0);
}
/* Context: in_interrupt() */
void rtk_btcoex_parse_event(uint8_t *buffer, int count)
{
struct rtl_coex_struct *coex = &btrtl_coex;
__u8 *tbuff;
__u16 elen = 0;
/* RTKBT_DBG("%s: parse ev.", __func__); */
if (!test_bit(RTL_COEX_RUNNING, &btrtl_coex.flags)) {
/* RTKBT_INFO("%s: Coex is closed, ignore", __func__); */
RTKBT_INFO("%s: Coex is closed, ignore %x, %x",
__func__, buffer[0], buffer[1]);
return;
}
spin_lock(&coex->rxlock);
/* coex->tbuff will be set to NULL when initializing or
* there is a complete frame or there is start of a frame */
tbuff = coex->tbuff;
while (count) {
int len;
/* Start of a frame */
if (!tbuff) {
tbuff = coex->back_buff;
coex->tbuff = NULL;
coex->elen = 0;
coex->pkt_type = HCI_EVENT_PKT;
coex->expect = HCI_EVENT_HDR_SIZE;
}
len = min_t(uint, coex->expect, count);
memcpy(tbuff, buffer, len);
tbuff += len;
coex->elen += len;
count -= len;
buffer += len;
coex->expect -= len;
if (coex->elen == HCI_EVENT_HDR_SIZE) {
/* Complete event header */
coex->expect =
((struct hci_event_hdr *)coex->back_buff)->plen;
if (coex->expect > HCI_MAX_EVENT_SIZE - coex->elen) {
tbuff = NULL;
coex->elen = 0;
RTKBT_ERR("tbuff room is not enough");
break;
}
}
if (coex->expect == 0) {
/* Complete frame */
elen = coex->elen;
spin_unlock(&coex->rxlock);
rtk_btcoex_evt_enqueue(coex->back_buff, elen);
spin_lock(&coex->rxlock);
tbuff = NULL;
coex->elen = 0;
}
}
/* coex->tbuff would be non-NULL if there isn't a complete frame
* And it will be updated next time */
coex->tbuff = tbuff;
spin_unlock(&coex->rxlock);
}
void rtk_btcoex_parse_l2cap_data_tx(uint8_t *buffer, int count)
{
if (!test_bit(RTL_COEX_RUNNING, &btrtl_coex.flags)) {
RTKBT_INFO("%s: Coex is closed, ignore", __func__);
return;
}
rtl_l2_data_process(buffer, count, 1);
//u16 handle, total_len, pdu_len, channel_ID, command_len, psm, scid,
// dcid, result, status;
//u8 flag, code, identifier;
//u8 *pp = (u8 *) (skb->data);
//STREAM_TO_UINT16(handle, pp);
//flag = handle >> 12;
//handle = handle & 0x0FFF;
//STREAM_TO_UINT16(total_len, pp);
//STREAM_TO_UINT16(pdu_len, pp);
//STREAM_TO_UINT16(channel_ID, pp);
//if (channel_ID == 0x0001) {
// code = *pp++;
// switch (code) {
// case L2CAP_CONN_REQ:
// identifier = *pp++;
// STREAM_TO_UINT16(command_len, pp);
// STREAM_TO_UINT16(psm, pp);
// STREAM_TO_UINT16(scid, pp);
// RTKBT_DBG("TX l2cap conn req, hndl %x, PSM %x, scid=%x",
// handle, psm, scid);
// handle_l2cap_con_req(handle, psm, scid, 1);
// break;
// case L2CAP_CONN_RSP:
// identifier = *pp++;
// STREAM_TO_UINT16(command_len, pp);
// STREAM_TO_UINT16(dcid, pp);
// STREAM_TO_UINT16(scid, pp);
// STREAM_TO_UINT16(result, pp);
// STREAM_TO_UINT16(status, pp);
// RTKBT_DBG("TX l2cap conn rsp, hndl %x, dcid %x, "
// "scid %x, result %x",
// handle, dcid, scid, result);
// handle_l2cap_con_rsp(handle, dcid, scid, 1, result);
// break;
// case L2CAP_DISCONN_REQ:
// identifier = *pp++;
// STREAM_TO_UINT16(command_len, pp);
// STREAM_TO_UINT16(dcid, pp);
// STREAM_TO_UINT16(scid, pp);
// RTKBT_DBG("TX l2cap disconn req, hndl %x, dcid %x, "
// "scid %x", handle, dcid, scid);
// handle_l2cap_discon_req(handle, dcid, scid, 1);
// break;
// case L2CAP_DISCONN_RSP:
// break;
// default:
// break;
// }
//} else {
// if ((flag != 0x01) && (is_profile_connected(profile_a2dp) || is_profile_connected(profile_pan))) //Do not count the continuous packets
// packets_count(handle, channel_ID, pdu_len, 1, pp);
//}
}
void rtk_btcoex_parse_l2cap_data_rx(uint8_t *buffer, int count)
{
if (!test_bit(RTL_COEX_RUNNING, &btrtl_coex.flags)) {
RTKBT_INFO("%s: Coex is closed, ignore", __func__);
return;
}
rtl_l2_data_process(buffer, count, 0);
//u16 handle, total_len, pdu_len, channel_ID, command_len, psm, scid,
// dcid, result, status;
//u8 flag, code, identifier;
//u8 *pp = urb->transfer_buffer;
//STREAM_TO_UINT16(handle, pp);
//flag = handle >> 12;
//handle = handle & 0x0FFF;
//STREAM_TO_UINT16(total_len, pp);
//STREAM_TO_UINT16(pdu_len, pp);
//STREAM_TO_UINT16(channel_ID, pp);
//if (channel_ID == 0x0001) {
// code = *pp++;
// switch (code) {
// case L2CAP_CONN_REQ:
// identifier = *pp++;
// STREAM_TO_UINT16(command_len, pp);
// STREAM_TO_UINT16(psm, pp);
// STREAM_TO_UINT16(scid, pp);
// RTKBT_DBG("RX l2cap conn req, hndl %x, PSM %x, scid %x",
// handle, psm, scid);
// handle_l2cap_con_req(handle, psm, scid, 0);
// break;
// case L2CAP_CONN_RSP:
// identifier = *pp++;
// STREAM_TO_UINT16(command_len, pp);
// STREAM_TO_UINT16(dcid, pp);
// STREAM_TO_UINT16(scid, pp);
// STREAM_TO_UINT16(result, pp);
// STREAM_TO_UINT16(status, pp);
// RTKBT_DBG("RX l2cap conn rsp, hndl %x, dcid %x, "
// "scid %x, result %x",
// handle, dcid, scid, result);
// handle_l2cap_con_rsp(handle, dcid, scid, 0, result);
// break;
// case L2CAP_DISCONN_REQ:
// identifier = *pp++;
// STREAM_TO_UINT16(command_len, pp);
// STREAM_TO_UINT16(dcid, pp);
// STREAM_TO_UINT16(scid, pp);
// RTKBT_DBG("RX l2cap disconn req, hndl %x, dcid %x, "
// "scid %x", handle, dcid, scid);
// handle_l2cap_discon_req(handle, dcid, scid, 0);
// break;
// case L2CAP_DISCONN_RSP:
// break;
// default:
// break;
// }
//} else {
// if ((flag != 0x01) && (is_profile_connected(profile_a2dp) || is_profile_connected(profile_pan))) //Do not count the continuous packets
// packets_count(handle, channel_ID, pdu_len, 0, pp);
//}
}
#ifdef RTB_SOFTWARE_MAILBOX
#if LINUX_VERSION_CODE > KERNEL_VERSION(4, 14, 0)
static void polling_bt_info(struct timer_list *unused)
#else
static void polling_bt_info(unsigned long data)
#endif
{
uint8_t temp_cmd[1];
RTKBT_DBG("polling timer");
if (btrtl_coex.polling_enable) {
//temp_cmd[0] = HCI_VENDOR_SUB_CMD_BT_REPORT_CONN_SCO_INQ_INFO;
temp_cmd[0] = HCI_VENDOR_SUB_CMD_BT_AUTO_REPORT_STATUS_INFO;
rtk_vendor_cmd_to_fw(HCI_VENDOR_MAILBOX_CMD, 1, temp_cmd);
}
mod_timer(&btrtl_coex.polling_timer,
jiffies + msecs_to_jiffies(1000 * btrtl_coex.polling_interval));
}
static void rtk_handle_bt_info_control(uint8_t *p)
{
uint8_t temp_cmd[20];
struct rtl_btinfo_ctl *ctl = (struct rtl_btinfo_ctl*)p;
RTKBT_DBG("Received polling_enable %u, polling_time %u, "
"autoreport_enable %u", ctl->polling_enable,
ctl->polling_time, ctl->autoreport_enable);
RTKBT_DBG("coex: original polling_enable %u",
btrtl_coex.polling_enable);
if (ctl->polling_enable && !btrtl_coex.polling_enable) {
/* setup polling timer for getting bt info from firmware */
btrtl_coex.polling_timer.expires =
jiffies + msecs_to_jiffies(ctl->polling_time * 1000);
mod_timer(&btrtl_coex.polling_timer,
btrtl_coex.polling_timer.expires);
}
/* Close bt info polling timer */
if (!ctl->polling_enable && btrtl_coex.polling_enable)
del_timer(&btrtl_coex.polling_timer);
if (btrtl_coex.autoreport != ctl->autoreport_enable) {
temp_cmd[0] = HCI_VENDOR_SUB_CMD_BT_AUTO_REPORT_ENABLE;
temp_cmd[1] = 1;
temp_cmd[2] = ctl->autoreport_enable;
rtk_vendor_cmd_to_fw(HCI_VENDOR_MAILBOX_CMD, 3, temp_cmd);
}
btrtl_coex.polling_enable = ctl->polling_enable;
btrtl_coex.polling_interval = ctl->polling_time;
btrtl_coex.autoreport = ctl->autoreport_enable;
rtk_notify_info_to_wifi(HOST_RESPONSE, 0, NULL);
}
static void rtk_handle_bt_coex_control(uint8_t * p)
{
uint8_t temp_cmd[20];
uint8_t opcode, opcode_len, value, power_decrease, psd_mode,
access_type;
opcode = *p++;
RTKBT_DBG("receive bt coex control event from wifi, op 0x%02x", opcode);
switch (opcode) {
case BT_PATCH_VERSION_QUERY:
rtk_notify_btpatch_version_to_wifi();
break;
case IGNORE_WLAN_ACTIVE_CONTROL:
opcode_len = *p++;
value = *p++;
temp_cmd[0] = HCI_VENDOR_SUB_CMD_BT_ENABLE_IGNORE_WLAN_ACT_CMD;
temp_cmd[1] = 1;
temp_cmd[2] = value;
rtk_vendor_cmd_to_fw(HCI_VENDOR_MAILBOX_CMD, 3, temp_cmd);
break;
case LNA_CONSTRAIN_CONTROL:
opcode_len = *p++;
value = *p++;
temp_cmd[0] = HCI_VENDOR_SUB_CMD_SET_BT_LNA_CONSTRAINT;
temp_cmd[1] = 1;
temp_cmd[2] = value;
rtk_vendor_cmd_to_fw(HCI_VENDOR_MAILBOX_CMD, 3, temp_cmd);
break;
case BT_POWER_DECREASE_CONTROL:
opcode_len = *p++;
power_decrease = *p++;
temp_cmd[0] = HCI_VENDOR_SUB_CMD_WIFI_FORCE_TX_POWER_CMD;
temp_cmd[1] = 1;
temp_cmd[2] = power_decrease;
rtk_vendor_cmd_to_fw(HCI_VENDOR_MAILBOX_CMD, 3, temp_cmd);
break;
case BT_PSD_MODE_CONTROL:
opcode_len = *p++;
psd_mode = *p++;
temp_cmd[0] = HCI_VENDOR_SUB_CMD_SET_BT_PSD_MODE;
temp_cmd[1] = 1;
temp_cmd[2] = psd_mode;
rtk_vendor_cmd_to_fw(HCI_VENDOR_MAILBOX_CMD, 3, temp_cmd);
break;
case WIFI_BW_CHNL_NOTIFY:
opcode_len = *p++;
temp_cmd[0] = HCI_VENDOR_SUB_CMD_WIFI_CHANNEL_AND_BANDWIDTH_CMD;
temp_cmd[1] = 3;
memcpy(temp_cmd + 2, p, 3); //wifi_state, wifi_centralchannel, chnnels_btnotuse
rtk_vendor_cmd_to_fw(HCI_VENDOR_MAILBOX_CMD, 5, temp_cmd);
break;
case QUERY_BT_AFH_MAP:
opcode_len = *p++;
btrtl_coex.piconet_id = *p++;
btrtl_coex.mode = *p++;
temp_cmd[0] = HCI_VENDOR_SUB_CMD_GET_AFH_MAP_L;
temp_cmd[1] = 2;
temp_cmd[2] = btrtl_coex.piconet_id;
temp_cmd[3] = btrtl_coex.mode;
rtk_vendor_cmd_to_fw(HCI_VENDOR_MAILBOX_CMD, 4, temp_cmd);
break;
case BT_REGISTER_ACCESS:
opcode_len = *p++;
access_type = *p++;
if (access_type == 0) { //read
temp_cmd[0] = HCI_VENDOR_SUB_CMD_RD_REG_REQ;
temp_cmd[1] = 5;
temp_cmd[2] = *p++;
memcpy(temp_cmd + 3, p, 4);
rtk_vendor_cmd_to_fw(HCI_VENDOR_MAILBOX_CMD, 7,
temp_cmd);
} else { //write
temp_cmd[0] = HCI_VENDOR_SUB_CMD_RD_REG_REQ;
temp_cmd[1] = 5;
temp_cmd[2] = *p++;
memcpy(temp_cmd + 3, p, 8);
rtk_vendor_cmd_to_fw(HCI_VENDOR_MAILBOX_CMD, 11,
temp_cmd);
}
break;
default:
break;
}
}
static void rtk_handle_event_from_wifi(uint8_t * msg)
{
uint8_t *p = msg;
uint8_t event_code = *p++;
uint8_t total_length;
uint8_t extension_event;
uint8_t operation;
uint16_t wifi_opcode;
uint8_t op_status;
if (memcmp(msg, invite_rsp, sizeof(invite_rsp)) == 0) {
RTKBT_DBG("receive invite rsp from wifi, wifi is already on");
btrtl_coex.wifi_on = 1;
rtk_notify_extension_version_to_wifi();
}
if (memcmp(msg, attend_req, sizeof(attend_req)) == 0) {
RTKBT_DBG("receive attend req from wifi, wifi turn on");
btrtl_coex.wifi_on = 1;
rtkbt_coexmsg_send(attend_ack, sizeof(attend_ack));
rtk_notify_extension_version_to_wifi();
}
if (memcmp(msg, wifi_leave, sizeof(wifi_leave)) == 0) {
RTKBT_DBG("receive wifi leave from wifi, wifi turn off");
btrtl_coex.wifi_on = 0;
rtkbt_coexmsg_send(leave_ack, sizeof(leave_ack));
if (btrtl_coex.polling_enable) {
btrtl_coex.polling_enable = 0;
del_timer(&btrtl_coex.polling_timer);
}
}
if (memcmp(msg, leave_ack, sizeof(leave_ack)) == 0) {
RTKBT_DBG("receive leave ack from wifi");
}
if (event_code == 0xFE) {
total_length = *p++;
extension_event = *p++;
switch (extension_event) {
case RTK_HS_EXTENSION_EVENT_WIFI_SCAN:
operation = *p;
RTKBT_DBG("Recv WiFi scan notify event from WiFi, "
"op 0x%02x", operation);
break;
case RTK_HS_EXTENSION_EVENT_HCI_BT_INFO_CONTROL:
rtk_handle_bt_info_control(p);
break;
case RTK_HS_EXTENSION_EVENT_HCI_BT_COEX_CONTROL:
rtk_handle_bt_coex_control(p);
break;
default:
break;
}
}
if (event_code == 0x0E) {
p += 2; //length, number of complete packets
STREAM_TO_UINT16(wifi_opcode, p);
op_status = *p;
RTKBT_DBG("Recv cmd complete event from WiFi, op 0x%02x, "
"status 0x%02x", wifi_opcode, op_status);
}
}
#endif /* RTB_SOFTWARE_MAILBOX */
static inline void rtl_free_frags(struct rtl_coex_struct *coex)
{
unsigned long flags;
spin_lock_irqsave(&coex->rxlock, flags);
coex->elen = 0;
coex->tbuff = NULL;
spin_unlock_irqrestore(&coex->rxlock, flags);
}
void rtk_btcoex_open(struct hci_dev *hdev)
{
if (test_and_set_bit(RTL_COEX_RUNNING, &btrtl_coex.flags)) {
RTKBT_WARN("RTL COEX is already running.");
return;
}
RTKBT_INFO("Open BTCOEX");
/* Just for test */
//struct rtl_btinfo_ctl ctl;
INIT_DELAYED_WORK(&btrtl_coex.fw_work, (void *)rtl_ev_work);
#ifdef RTB_SOFTWARE_MAILBOX
#ifdef RTK_COEX_OVER_SYMBOL
INIT_WORK(&rtw_work, rtw_work_func);
skb_queue_head_init(&rtw_q);
rtw_coex_on = 1;
#else
INIT_DELAYED_WORK(&btrtl_coex.sock_work,
(void *)udpsocket_recv_data);
#endif
#endif /* RTB_SOFTWARE_MAILBOX */
INIT_DELAYED_WORK(&btrtl_coex.l2_work, (void *)rtl_l2_work);
#if LINUX_VERSION_CODE > KERNEL_VERSION(4, 14, 0)
#ifdef RTB_SOFTWARE_MAILBOX
timer_setup(&btrtl_coex.polling_timer, polling_bt_info, 0);
#endif
timer_setup(&btrtl_coex.a2dp_count_timer, count_a2dp_packet_timeout, 0);
timer_setup(&btrtl_coex.pan_count_timer, count_pan_packet_timeout, 0);
timer_setup(&btrtl_coex.hogp_count_timer, count_hogp_packet_timeout, 0);
#else
#ifdef RTB_SOFTWARE_MAILBOX
setup_timer(&btrtl_coex.polling_timer, polling_bt_info, 0);
#endif
setup_timer(&btrtl_coex.a2dp_count_timer, count_a2dp_packet_timeout, 0);
setup_timer(&btrtl_coex.pan_count_timer, count_pan_packet_timeout, 0);
setup_timer(&btrtl_coex.hogp_count_timer, count_hogp_packet_timeout, 0);
#endif
btrtl_coex.hdev = hdev;
#ifdef RTB_SOFTWARE_MAILBOX
btrtl_coex.wifi_on = 0;
#endif
init_profile_hash(&btrtl_coex);
init_connection_hash(&btrtl_coex);
btrtl_coex.pkt_type = 0;
btrtl_coex.expect = 0;
btrtl_coex.elen = 0;
btrtl_coex.tbuff = NULL;
#ifdef RTB_SOFTWARE_MAILBOX
#ifndef RTK_COEX_OVER_SYMBOL
create_udpsocket();
#endif
rtkbt_coexmsg_send(invite_req, sizeof(invite_req));
#endif
/* Just for test */
//ctl.polling_enable = 1;
//ctl.polling_time = 1;
//ctl.autoreport_enable = 1;
//rtk_handle_bt_info_control((u8 *)&ctl);
}
void rtk_btcoex_close(void)
{
int kk = 0;
if (!test_and_clear_bit(RTL_COEX_RUNNING, &btrtl_coex.flags)) {
RTKBT_WARN("RTL COEX is already closed.");
return;
}
RTKBT_INFO("Close BTCOEX");
#ifdef RTB_SOFTWARE_MAILBOX
/* Close coex socket */
if (btrtl_coex.wifi_on)
rtkbt_coexmsg_send(bt_leave, sizeof(bt_leave));
#ifdef RTK_COEX_OVER_SYMBOL
rtw_coex_on = 0;
skb_queue_purge(&rtw_q);
cancel_work_sync(&rtw_work);
#else
cancel_delayed_work_sync(&btrtl_coex.sock_work);
if (btrtl_coex.sock_open) {
btrtl_coex.sock_open = 0;
RTKBT_DBG("release udp socket");
sock_release(btrtl_coex.udpsock);
}
#endif
/* Delete all timers */
if (btrtl_coex.polling_enable) {
btrtl_coex.polling_enable = 0;
del_timer_sync(&(btrtl_coex.polling_timer));
}
#endif /* RTB_SOFTWARE_MAILBOX */
del_timer_sync(&btrtl_coex.a2dp_count_timer);
del_timer_sync(&btrtl_coex.pan_count_timer);
del_timer_sync(&btrtl_coex.hogp_count_timer);
cancel_delayed_work_sync(&btrtl_coex.fw_work);
cancel_delayed_work_sync(&btrtl_coex.l2_work);
flush_connection_hash(&btrtl_coex);
flush_profile_hash(&btrtl_coex);
btrtl_coex.profile_bitmap = 0;
btrtl_coex.profile_status = 0;
for (kk = 0; kk < 8; kk++)
btrtl_coex.profile_refcount[kk] = 0;
rtl_free_frags(&btrtl_coex);
RTKBT_DBG("-x");
}
void rtk_btcoex_probe(struct hci_dev *hdev)
{
btrtl_coex.hdev = hdev;
spin_lock_init(&btrtl_coex.spin_lock_sock);
spin_lock_init(&btrtl_coex.spin_lock_profile);
}
void rtk_btcoex_init(void)
{
RTKBT_DBG("%s: version: %s", __func__, RTK_VERSION);
RTKBT_DBG("create workqueue");
#ifdef RTB_SOFTWARE_MAILBOX
#ifdef RTK_COEX_OVER_SYMBOL
RTKBT_INFO("Coex over Symbol");
rtw_wq = create_workqueue("btcoexwork");
skb_queue_head_init(&rtw_q);
#else
RTKBT_INFO("Coex over UDP");
btrtl_coex.sock_wq = create_workqueue("btudpwork");
#endif
#endif /* RTB_SOFTWARE_MAILBOX */
btrtl_coex.fw_wq = create_workqueue("btfwwork");
rtl_alloc_buff(&btrtl_coex);
spin_lock_init(&btrtl_coex.rxlock);
}
void rtk_btcoex_exit(void)
{
RTKBT_DBG("%s: destroy workqueue", __func__);
#ifdef RTB_SOFTWARE_MAILBOX
#ifdef RTK_COEX_OVER_SYMBOL
flush_workqueue(rtw_wq);
destroy_workqueue(rtw_wq);
#else
flush_workqueue(btrtl_coex.sock_wq);
destroy_workqueue(btrtl_coex.sock_wq);
#endif
#endif
flush_workqueue(btrtl_coex.fw_wq);
destroy_workqueue(btrtl_coex.fw_wq);
rtl_free_buff(&btrtl_coex);
}
Orange Pi5 kernel
Deprecated Linux kernel 5.10.110 for OrangePi 5/5B/5+ boards
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