pinebuds/platform/drivers/bt/best2300p/bt_drv_reg_op.cpp
Ben V. Brown 75381150fd Formatting
Formatting Pass 1

Lots of fixups to adding stdint and stdbool all over the place

Formatting Pass 2
Formatting Pass 3
Formatting Pass 4

Update app_bt_stream.cpp
2023-02-02 07:56:49 +11:00

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/***************************************************************************
*
* Copyright 2015-2019 BES.
* All rights reserved. All unpublished rights reserved.
*
* No part of this work may be used or reproduced in any form or by any
* means, or stored in a database or retrieval system, without prior written
* permission of BES.
*
* Use of this work is governed by a license granted by BES.
* This work contains confidential and proprietary information of
* BES. which is protected by copyright, trade secret,
* trademark and other intellectual property rights.
*
****************************************************************************/
#include "bt_drv_reg_op.h"
#include "CrashCatcher.h"
#include "bt_drv.h"
#include "bt_drv_2300p_internal.h"
#include "bt_drv_interface.h"
#include "bt_drv_internal.h"
#include "cmsis.h"
#include "hal_chipid.h"
#include "hal_iomux.h"
#include "hal_sysfreq.h"
#include "hal_trace.h"
#include <string.h>
static uint32_t bt_ram_start_addr = 0;
static uint32_t hci_fc_env_addr = 0;
static uint32_t ld_acl_env_addr = 0;
static uint32_t bt_util_buf_env_addr = 0;
static uint32_t em_buf_env_addr = 0;
static uint32_t sniffer_env_addr = 0;
static uint32_t dbg_state_addr = 0;
static uint32_t lc_state_addr = 0;
static uint32_t task_message_buffer_addr = 0;
static uint32_t lmp_message_buffer_addr = 0;
static uint32_t ld_sco_env_addr = 0;
static uint32_t rx_monitor_addr = 0;
static uint32_t lc_env_addr = 0;
static uint32_t dbg_bt_setting_addr = 0;
static uint32_t lm_nb_sync_active_addr = 0;
static uint32_t lm_env_addr = 0;
static uint32_t pending_seq_error_link_addr = 0;
static uint32_t hci_env_addr = 0;
static uint32_t lc_sco_env_addr = 0;
static uint32_t llm_le_env_addr = 0;
static uint32_t ld_env_addr = 0;
static uint32_t rwip_env_addr = 0;
static uint32_t MIC_BUFF_addr = 0;
static uint32_t g_mem_dump_ctrl_addr = 0;
static uint32_t ble_rx_monitor_addr = 0;
static uint32_t reconnecting_flag_addr = 0;
static uint32_t link_connect_bak_addr = 0;
static uint32_t tws_link_id_addr = 0;
static uint32_t llc_env_addr = 0;
static uint32_t dbg_bt_setting_ext1_addr = 0;
static uint32_t rwip_rf_addr = 0;
void bt_drv_reg_op_global_symbols_init(void) {
bt_ram_start_addr = 0xc0000000;
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_0) {
hci_fc_env_addr = 0xC00067c4;
ld_acl_env_addr = 0xc000098c;
bt_util_buf_env_addr = 0xc00059fc;
em_buf_env_addr = 0xc000656c;
sniffer_env_addr = 0xc0006358;
dbg_state_addr = 0xc00058c4;
lc_state_addr = 0xc0005c7c;
task_message_buffer_addr = 0xc00007cc;
lmp_message_buffer_addr = 0xc0000834;
ld_sco_env_addr = 0xc0000980;
rx_monitor_addr = 0xc00058fc;
lc_env_addr = 0xc0005c70;
dbg_bt_setting_addr = 0xc0005854;
lm_nb_sync_active_addr = 0xc00007c0;
lm_env_addr = 0xc0005afc;
hci_env_addr = 0xc0006764;
lc_sco_env_addr = 0xc00007a4;
llm_le_env_addr = 0xc00063f0;
ld_env_addr = 0xc0005d34;
rwip_env_addr = 0xc00003d4;
MIC_BUFF_addr = 0xc0005920;
ble_rx_monitor_addr = 0xc00058ec;
llc_env_addr = 0xc00064f8;
rwip_rf_addr = 0xc00041a0;
} else if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_1) {
hci_fc_env_addr = 0xC0006838;
ld_acl_env_addr = 0xc0000998;
bt_util_buf_env_addr = 0xc0005a18;
em_buf_env_addr = 0xc00065e0;
sniffer_env_addr = 0xc00063c8;
dbg_state_addr = 0xc00058e0;
lc_state_addr = 0xc0005ce4;
task_message_buffer_addr = 0xc00007c4;
lmp_message_buffer_addr = 0xc000082c;
ld_sco_env_addr = 0xc000098c;
rx_monitor_addr = 0xc0005918;
lc_env_addr = 0xc0005cd8;
dbg_bt_setting_addr = 0xc0005868;
lm_nb_sync_active_addr = 0xc00007b8;
lm_env_addr = 0xc0005b64;
pending_seq_error_link_addr = 0xc0000335;
hci_env_addr = 0xc00067d8;
lc_sco_env_addr = 0xc000079c;
llm_le_env_addr = 0xc0006460;
ld_env_addr = 0xc0005d9c;
rwip_env_addr = 0xc00003c8;
MIC_BUFF_addr = 0xc000593c;
ble_rx_monitor_addr = 0xc0005908;
link_connect_bak_addr = 0xc00061c8;
llc_env_addr = 0xc0006568;
rwip_rf_addr = 0xc00041b4;
} else if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_2) {
hci_fc_env_addr = 0xC0006940;
ld_acl_env_addr = 0xc00009d4;
bt_util_buf_env_addr = 0xc0005b24;
em_buf_env_addr = 0xc00066e8;
sniffer_env_addr = 0xc00064d0;
dbg_state_addr = 0xc00059b0;
lc_state_addr = 0xc0005df0;
task_message_buffer_addr = 0xc0000820;
lmp_message_buffer_addr = 0xc0000888;
ld_sco_env_addr = 0xc00009e4;
rx_monitor_addr = 0xc0005a24;
lc_env_addr = 0xc0005de4;
dbg_bt_setting_addr = 0xc0005938;
lm_nb_sync_active_addr = 0xc0000814;
lm_env_addr = 0xc0005c70;
pending_seq_error_link_addr = 0xc000034f;
hci_env_addr = 0xc00068e0;
lc_sco_env_addr = 0xc00007f8;
llm_le_env_addr = 0xc0006568;
ld_env_addr = 0xc0005ea8;
rwip_env_addr = 0xc00003dc;
MIC_BUFF_addr = 0xc0005a48;
g_mem_dump_ctrl_addr = 0xc00059d4;
ble_rx_monitor_addr = 0xc0005a14;
reconnecting_flag_addr = 0xc0000a1c;
link_connect_bak_addr = 0xc00062d0;
tws_link_id_addr = 0xc000034e;
llc_env_addr = 0xc0006670;
dbg_bt_setting_ext1_addr = 0xc000591c;
rwip_rf_addr = 0xc0004268;
}
}
void bt_drv_reg_op_rssi_set(uint16_t rssi) {}
void bt_drv_reg_op_scan_intv_set(uint32_t scan_intv) {}
void bt_drv_reg_op_encryptchange_errcode_reset(uint16_t hci_handle) {}
void bt_drv_reg_op_sco_sniffer_checker(void) {}
void bt_drv_reg_op_trigger_time_checker(void) {
BT_DRV_REG_OP_ENTER();
BT_DRV_TRACE(1, "BT_REG_OP:0xd02201f0 = %x",
*(volatile uint32_t *)0xd02201f0);
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_tws_output_power_fix_separate(uint16_t hci_handle,
uint16_t pwr) {}
#define SNIFF_IN_SCO 2
/// BD Address structure
struct bd_addr {
/// 6-byte array address value
uint8_t addr[6];
};
/// device info structure
struct ld_device_info {
struct bd_addr bd_addr;
uint8_t link_id;
uint8_t state;
};
bool bt_drv_reg_op_ld_sniffer_env_monitored_dev_state_get(void) {
return false;
}
void bt_drv_reg_op_ld_sniffer_env_monitored_dev_state_set(bool state) {}
void bt_drv_reg_op_ibrt_env_reset(void) {
struct ld_device_info *mobile_device_info;
BT_DRV_REG_OP_ENTER();
bool status = false;
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_0) {
mobile_device_info = (struct ld_device_info *)(sniffer_env_addr + 4);
status = true;
}
if (status) {
mobile_device_info->link_id = 3;
mobile_device_info->state = 0;
}
BT_DRV_REG_OP_EXIT();
}
int bt_drv_reg_op_currentfreeaclbuf_get(void) {
BT_DRV_REG_OP_ENTER();
// ACL packert number of host set - ACL number of controller has been send to
// host hci_fc_env.host_set.acl_pkt_nb - hci_fc_env.cntr.acl_pkt_sent
if (hci_fc_env_addr != 0) {
return (*(volatile uint16_t *)(hci_fc_env_addr + 0x4) -
*(volatile uint16_t *)(hci_fc_env_addr + 0xc));
} else {
return 0;
}
BT_DRV_REG_OP_EXIT();
}
static uint16_t mobile_sync_info;
void bt_drv_reg_op_save_mobile_airpath_info(uint16_t hciHandle) {
BT_DRV_REG_OP_ENTER();
uint8_t link_id = btdrv_conhdl_to_linkid(hciHandle);
if (btdrv_is_link_index_valid(link_id)) {
mobile_sync_info =
BT_DRIVER_GET_U16_REG_VAL(EM_BT_BTADDR1_ADDR + BT_EM_SIZE * link_id);
BT_DRV_TRACE(1, "BT_REG_OP: save xfer mobile sync info 0x%x ",
mobile_sync_info);
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_block_xfer_with_mobile(uint16_t hciHandle) {
BT_DRV_REG_OP_ENTER();
uint8_t link_id = btdrv_conhdl_to_linkid(hciHandle);
if (btdrv_is_link_index_valid(link_id)) {
BT_DRIVER_PUT_U16_REG_VAL((EM_BT_BTADDR1_ADDR + BT_EM_SIZE * link_id),
mobile_sync_info ^ 0x8000);
BT_DRV_TRACE(2,
"BT_REG_OP: block xfer with mobile, save hci handle 0x%x sync "
"info as 0x%x",
hciHandle, mobile_sync_info ^ 0x8000);
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_resume_xfer_with_mobile(uint16_t hciHandle) {
BT_DRV_REG_OP_ENTER();
uint8_t link_id = btdrv_conhdl_to_linkid(hciHandle);
if (btdrv_is_link_index_valid(link_id)) {
BT_DRIVER_PUT_U16_REG_VAL((EM_BT_BTADDR1_ADDR + BT_EM_SIZE * link_id),
mobile_sync_info);
BT_DRV_TRACE(2,
"BT_REG_OP:resume xfer with mobile, hci handle 0x%x as 0x%x",
hciHandle, mobile_sync_info);
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_block_fast_ack_with_mobile(void) {
/*
* ibrt master set its fast ack sync bit wrong,let itself NACK mobile link
* always
*/
BT_DRV_REG_OP_ENTER();
bt_drv_set_fa_invert_enable(BT_FA_INVERT_DISABLE);
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_resume_fast_ack_with_mobile(void) {
/*
* old master recovery its fast ack sync bit right
*/
BT_DRV_REG_OP_ENTER();
bt_drv_set_fa_invert_enable(BT_FA_INVERT_EN);
BT_DRV_REG_OP_EXIT();
}
int bt_drv_reg_op_packet_type_checker(uint16_t hciHandle) { return 0; }
void bt_drv_reg_op_max_slot_setting_checker(uint16_t hciHandle) {}
void bt_drv_reg_op_force_task_dbg_idle(void) {}
void bt_drv_reg_op_afh_follow_mobile_mobileidx_set(uint16_t hciHandle) {}
void bt_drv_reg_op_afh_follow_mobile_twsidx_set(uint16_t hciHandle) {}
void bt_drv_reg_op_afh_bak_reset(void) {}
void bt_drv_reg_op_afh_bak_save(uint8_t role, uint16_t mobileHciHandle) {}
void bt_drv_reg_op_connection_checker(void) {}
void bt_drv_reg_op_sco_status_store(void) {}
void bt_drv_reg_op_sco_status_restore(void) {}
void bt_drv_reg_op_afh_set_default(void) {}
void bt_drv_reg_op_ld_sniffer_master_addr_set(uint8_t *addr) {}
void bt_drv_reg_op_lsto_hack(uint16_t hciHandle, uint16_t lsto) {
uint32_t acl_par_ptr = 0;
// ld_acl_env
if (ld_acl_env_addr) {
acl_par_ptr = *(uint32_t *)(ld_acl_env_addr + (hciHandle - 0x80) * 4);
}
if (acl_par_ptr) {
BT_DRV_TRACE(3,
"BT_REG_OP:Set the lsto for hciHandle=0x%x, from:0x%x to 0x%x",
hciHandle, *(uint16_t *)(acl_par_ptr + 154), lsto);
*(uint16_t *)(acl_par_ptr + 154) = lsto;
} else {
BT_DRV_TRACE(0, "BT_REG_OP:ERROR,acl par address error");
}
}
uint16_t bt_drv_reg_op_get_lsto(uint16_t hciHandle) {
uint32_t acl_par_ptr = 0;
uint16_t lsto = 0;
// ld_acl_env
if (ld_acl_env_addr) {
acl_par_ptr = *(uint32_t *)(ld_acl_env_addr + (hciHandle - 0x80) * 4);
}
if (acl_par_ptr) {
lsto = *(uint16_t *)(acl_par_ptr + 154);
BT_DRV_TRACE(2, "BT_REG_OP:lsto=0x%x for hciHandle=0x%x", lsto, hciHandle);
} else {
lsto = 0xffff;
BT_DRV_TRACE(0, "BT_REG_OP:ERROR,acl par null ptr");
}
return lsto;
}
uint8_t bt_drv_reg_opmsbc_find_tx_sync(uint8_t *buff) {
BT_DRV_REG_OP_ENTER();
uint8_t i;
for (i = 0; i < 60; i++) {
if (buff[i] == 0x1 && buff[(i + 2) % 60] == 0xad) {
// BT_DRV_TRACE(1,"MSBC tx sync find =%d",i);
return i;
}
}
BT_DRV_TRACE(0, "BT_REG_OP:TX No pACKET");
BT_DRV_REG_OP_EXIT();
return 0;
}
bool bt_drv_reg_op_sco_tx_buf_restore(uint8_t *trigger_test) {
uint8_t offset;
bool nRet = false;
BT_DRV_REG_OP_ENTER();
offset = bt_drv_reg_opmsbc_find_tx_sync((uint8_t *)EM_BT_AUDIOBUF_OFF);
if (offset != 0) {
#ifndef APB_PCM
*trigger_test = (((BTDIGITAL_REG(0xd022045c) & 0x3f)) + (60 - offset)) % 64;
#endif
BT_DRV_TRACE(2, "BT_REG_OP:TX BUF ERROR trigger_test=%p,offset=%x",
trigger_test, offset);
DUMP8("%02x ", (uint8_t *)EM_BT_AUDIOBUF_OFF, 10);
// BT_DRV_TRACE(2,"pcm reg=%x %x",*(uint32_t *)0xd0220468,*(uint32_t
// *)0x400000f0);
nRet = true;
}
BT_DRV_REG_OP_EXIT();
return nRet;
}
int bt_drv_reg_op_acl_chnmap(uint16_t hciHandle, uint8_t *chnmap,
uint8_t chnmap_len) {
uint32_t acl_evt_ptr = 0;
uint8_t *chnmap_ptr = 0;
uint8_t link_id = btdrv_conhdl_to_linkid(hciHandle);
if (!btdrv_is_link_index_valid(link_id)) {
memset(chnmap, 0, chnmap_len);
return -1;
}
if (chnmap_len < 10) {
memset(chnmap, 0, chnmap_len);
return -1;
}
if (ld_acl_env_addr) {
acl_evt_ptr = *(volatile uint32_t *)(ld_acl_env_addr + link_id * 4);
}
if (acl_evt_ptr != 0) {
chnmap_ptr = (uint8_t *)(acl_evt_ptr + 0x34);
}
if (!chnmap_ptr) {
memset(chnmap, 0, chnmap_len);
return -1;
} else {
memcpy(chnmap, chnmap_ptr, chnmap_len);
}
return 0;
}
extern "C" uint32_t hci_current_left_tx_packets_left(void);
extern "C" uint32_t hci_current_left_rx_packets_left(void);
extern "C" uint32_t hci_current_rx_packet_complete(void);
extern "C" uint8_t hci_current_rx_aclfreelist_cnt(void);
void bt_drv_reg_op_bt_info_checker(void) {
#ifdef __CLK_GATE_DISABLE__
uint32_t *rx_buf_ptr = NULL;
uint32_t *tx_buf_ptr = NULL;
uint8_t rx_free_buf_count = 0, i = 0;
uint8_t tx_free_buf_count = 0;
uint16_t em_buf;
BT_DRV_REG_OP_ENTER();
if (bt_util_buf_env_addr) {
rx_buf_ptr = (uint32_t *)(bt_util_buf_env_addr +
0x14); // bt_util_buf_env.acl_rx_free
tx_buf_ptr = (uint32_t *)(bt_util_buf_env_addr +
0x28); // bt_util_buf_env.acl_tx_free
}
while (rx_buf_ptr && *rx_buf_ptr) {
rx_free_buf_count++;
rx_buf_ptr = (uint32_t *)(*rx_buf_ptr);
}
uint8_t em_buf_count = 0;
for (i = 0; i < 4; i++) {
em_buf = BT_DRIVER_GET_U16_REG_VAL(EM_BT_RXACLBUFPTR_ADDR +
i * REG_EM_BT_RXDESC_SIZE);
if (em_buf != 0)
em_buf_count++;
}
BT_DRV_TRACE(
4,
"BT_REG_OP: rxbuff = %x,embuff =%x , host rx buff in controller = %x,%x",
rx_free_buf_count, em_buf_count, hci_current_left_rx_packets_left(),
bt_drv_reg_op_currentfreeaclbuf_get());
// check tx buff
while (tx_buf_ptr && *tx_buf_ptr) {
tx_free_buf_count++;
tx_buf_ptr = (uint32_t *)(*tx_buf_ptr);
}
BT_DRV_TRACE(2, "BT_REG_OP:txbuff = %x,acl tx host in controller = %x ",
tx_free_buf_count, hci_current_left_tx_packets_left());
bt_drv_reg_op_controller_state_checker();
BT_DRV_REG_OP_EXIT();
#endif
}
#if 0
uint32_t *rxbuff;
uint16_t *send_count;
uint16_t *free_count;
uint16_t *bt_send_count;
#endif
void bt_drv_reg_op_ble_buffer_cleanup(void) {}
struct ke_timer {
/// next ke timer
struct ke_timer *next;
/// message identifier
uint16_t id;
/// task identifier
uint16_t task;
/// time value
uint32_t time;
};
struct co_list_hdr {
/// Pointer to next co_list_hdr
struct co_list_hdr *next;
};
/// structure of a list
struct co_list_con {
/// pointer to first element of the list
struct co_list_hdr *first;
/// pointer to the last element
struct co_list_hdr *last;
/// number of element in the list
uint32_t cnt;
/// max number of element in the list
uint32_t maxcnt;
/// min number of element in the list
uint32_t mincnt;
};
struct mblock_free {
/// Next free block pointer
struct mblock_free *next;
/// Previous free block pointer
struct mblock_free *previous;
/// Size of the current free block (including delimiter)
uint16_t free_size;
/// Used to check if memory block has been corrupted or not
uint16_t corrupt_check;
};
bool bt_drv_reg_op_get_dbg_state(void) {
// dbg_state
if (dbg_state_addr) {
return (*(uint8_t *)dbg_state_addr);
} else {
return false;
}
}
uint8_t bt_drv_reg_op_get_controller_tx_free_buffer(void) {
uint32_t *tx_buf_ptr = NULL;
uint8_t tx_free_buf_count = 0;
if (bt_util_buf_env_addr) {
tx_buf_ptr = (uint32_t *)(bt_util_buf_env_addr +
0x28); // bt_util_buf_env.acl_tx_free
} else {
BT_DRV_TRACE(1, "REG_OP: please fix %s", __func__);
return 0;
}
// check tx buff
while (tx_buf_ptr && *tx_buf_ptr) {
tx_free_buf_count++;
tx_buf_ptr = (uint32_t *)(*tx_buf_ptr);
}
return tx_free_buf_count;
}
uint8_t bt_drv_reg_op_get_controller_ble_tx_free_buffer(void) {
uint32_t *tx_buf_ptr = NULL;
uint8_t tx_free_buf_count = 0;
if (em_buf_env_addr) {
tx_buf_ptr =
(uint32_t *)(em_buf_env_addr + 0x14); // em_buf_env.tx_buff_free
} else {
BT_DRV_TRACE(1, "REG_OP: please fix %s", __func__);
return 0;
}
// check tx buff
while (tx_buf_ptr && *tx_buf_ptr) {
tx_free_buf_count++;
tx_buf_ptr = (uint32_t *)(*tx_buf_ptr);
}
return tx_free_buf_count;
}
void bt_drv_reg_op_controller_state_checker(void) {
BT_DRV_REG_OP_ENTER();
if (lc_state_addr != 0) {
BT_DRV_TRACE(1, "BT_REG_OP: LC_STATE=0x%x", *(uint32_t *)lc_state_addr);
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_tx_flow_checker(void) {
BT_DRV_REG_OP_ENTER();
uint8_t link_id = 0;
uint32_t acl_par_ptr = 0;
for (link_id = 0; link_id < 3; link_id++) {
if (ld_acl_env_addr) {
acl_par_ptr = *(volatile uint32_t *)(ld_acl_env_addr + link_id * 4);
}
if (acl_par_ptr) {
BT_DRV_TRACE(2, "linkid =%d, tx flow=%d", link_id,
*(uint8_t *)(acl_par_ptr + 0xc0));
}
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_controller_ble_flow_checker(void) {
uint8_t link_id = 0;
uint32_t llc_env_tag_ptr = 0;
uint32_t ea_elt_tag_ptr = 0;
uint32_t *tx_acl_rdy_ptr = NULL;
uint32_t *tx_acl_tofree_ptr = NULL;
uint32_t tx_acl_rdy_count = 0;
uint32_t tx_acl_tofree_count = 0;
if (!llc_env_addr) {
BT_DRV_TRACE(1, "REG_OP: please fix %s", __func__);
return;
}
for (link_id = 0; link_id < 3; link_id += 1) {
llc_env_tag_ptr = *(volatile uint32_t *)(llc_env_addr + link_id * 4);
if (!llc_env_tag_ptr) {
continue;
}
ea_elt_tag_ptr = *(volatile uint32_t *)(((uint32_t)llc_env_tag_ptr) + 16);
if (!ea_elt_tag_ptr) {
continue;
}
tx_acl_rdy_ptr = (uint32_t *)(((uint32_t)ea_elt_tag_ptr) + 48);
tx_acl_rdy_count = 0;
while (tx_acl_rdy_ptr && *tx_acl_rdy_ptr) {
tx_acl_rdy_count++;
tx_acl_rdy_ptr = (uint32_t *)(*tx_acl_rdy_ptr);
}
tx_acl_tofree_ptr = (uint32_t *)(((uint32_t)ea_elt_tag_ptr) + 68);
tx_acl_tofree_count = 0;
while (tx_acl_tofree_ptr && *tx_acl_tofree_ptr) {
tx_acl_tofree_count++;
tx_acl_tofree_ptr = (uint32_t *)(*tx_acl_tofree_ptr);
}
BT_DRV_TRACE(3, "linkid =%d, ble tx alloc=%d tofree=%d", link_id,
tx_acl_rdy_count, tx_acl_tofree_count);
}
}
uint8_t bt_drv_reg_op_force_get_lc_state(uint16_t conhdl) {
if (lc_state_addr != 0) {
// BT_DRV_TRACE(1,"BT_REG_OP: read LC_STATE=0x%x",*(uint32_t
// *)lc_state_addr);
uint8_t idx = btdrv_conhdl_to_linkid(conhdl);
if (btdrv_is_link_index_valid(idx)) {
uint8_t *lc_state = (uint8_t *)lc_state_addr;
return lc_state[idx];
}
}
return 0;
}
void bt_drv_reg_op_force_set_lc_state(uint16_t conhdl, uint8_t state) {
// lc_state
if (lc_state_addr != 0) {
BT_DRV_TRACE(1, "BT_REG_OP: read LC_STATE=0x%x",
*(uint32_t *)lc_state_addr);
uint8_t idx = btdrv_conhdl_to_linkid(conhdl);
if (btdrv_is_link_index_valid(idx)) {
uint8_t *lc_state = (uint8_t *)lc_state_addr;
lc_state[idx] = state;
}
}
}
void bt_drv_reg_op_crash_dump(void) {
if (hal_get_chip_metal_id() >= HAL_CHIP_METAL_ID_0) {
uint8_t *bt_dump_mem_start = (uint8_t *)bt_ram_start_addr;
uint32_t bt_dump_len_max = 0x8000;
// uint8_t *mcu_dump_mem_start = (uint8_t*)0x20000000;
// uint32_t mcu_dump_len_max = RAM_SIZE;
// uint8_t *em_dump_area_1_start = (uint8_t*)0xd0220000;
// uint32_t em_area_1_len_max = 0x04A8;
uint8_t *em_dump_area_2_start = (uint8_t *)0xd0210000;
uint32_t em_area_2_len_max = 0x8000;
BT_DRV_TRACE(1, "BT_REG_OP:BT 2300p: metal id=%d", hal_get_chip_metal_id());
// first move R3 to R9, lost R9
BT_DRV_TRACE(1, "BT controller BusFault_Handler:\nREG:[LR] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE));
BT_DRV_TRACE(1, "REG:[R0] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 120));
BT_DRV_TRACE(1, "REG:[R1] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 124));
BT_DRV_TRACE(1, "REG:[R2] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 128));
BT_DRV_TRACE(1, "REG:[R3] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 132));
BT_DRV_TRACE(1, "REG:[R4] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 4));
BT_DRV_TRACE(1, "REG:[R5] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 8));
BT_DRV_TRACE(1, "REG:[R6] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 12));
BT_DRV_TRACE(1, "REG:[R7] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 16));
BT_DRV_TRACE(1, "REG:[R8] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 20));
hal_sys_timer_delay(MS_TO_TICKS(100));
// BT_DRV_TRACE(1,"REG:[R9] = 0x%08x",
// BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE +24));
BT_DRV_TRACE(1, "REG:[sl] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 28));
BT_DRV_TRACE(1, "REG:[fp] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 32));
BT_DRV_TRACE(1, "REG:[ip] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 36));
BT_DRV_TRACE(1, "REG:[SP,#0] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 40));
BT_DRV_TRACE(1, "REG:[SP,#4] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 44));
BT_DRV_TRACE(1, "REG:[SP,#8] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 48));
BT_DRV_TRACE(1, "REG:[SP,#12] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 52));
BT_DRV_TRACE(1, "REG:[SP,#16] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 56));
BT_DRV_TRACE(1, "REG:[SP,#20] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 60));
BT_DRV_TRACE(1, "REG:[SP,#24] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 64));
BT_DRV_TRACE(1, "REG:[SP,#28] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 68));
hal_sys_timer_delay(MS_TO_TICKS(100));
BT_DRV_TRACE(1, "REG:[SP,#32] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 72));
BT_DRV_TRACE(1, "REG:[SP,#36] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 76));
BT_DRV_TRACE(1, "REG:[SP,#40] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 80));
BT_DRV_TRACE(1, "REG:[SP,#44] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 84));
BT_DRV_TRACE(1, "REG:[SP,#48] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 88));
BT_DRV_TRACE(1, "REG:[SP,#52] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 92));
BT_DRV_TRACE(1, "REG:[SP,#56] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 96));
BT_DRV_TRACE(1, "REG:[SP,#60] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 100));
BT_DRV_TRACE(1, "REG:[SP,#64] = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 104));
BT_DRV_TRACE(1, "REG:SP = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 108));
BT_DRV_TRACE(1, "REG:MSP = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 112));
BT_DRV_TRACE(1, "REG:PSP = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 116));
BT_DRV_TRACE(1, "REG:CFSR = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 120));
BT_DRV_TRACE(1, "REG:BFAR = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 124));
BT_DRV_TRACE(1, "REG:HFSR = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 128));
BT_DRV_TRACE(1, "REG:ICSR = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 132));
BT_DRV_TRACE(1, "REG:AIRCR = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 136));
BT_DRV_TRACE(1, "REG:SCR = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 140));
BT_DRV_TRACE(1, "REG:CCR = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 144));
BT_DRV_TRACE(1, "REG:SHCSR = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 148));
BT_DRV_TRACE(1, "REG:AFSR = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 152));
BT_DRV_TRACE(1, "REG:MMFAR = 0x%08x",
BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 156));
hal_sys_timer_delay(MS_TO_TICKS(100));
// task_message_buffer
uint32_t buff_addr = 0;
if (task_message_buffer_addr) {
buff_addr = task_message_buffer_addr;
}
BT_DRV_TRACE(2, "0xd0330050: 0x%x, 54:0x%x", *(uint32_t *)0xd0330050,
*(uint32_t *)0xd0330054);
BT_DRV_TRACE(2, "0x400000a0: 0x%x, a4:0x%x", *(uint32_t *)0x400000a0,
*(uint32_t *)0x400000a4);
if (g_mem_dump_ctrl_addr) {
BT_DRV_TRACE(1, "LMP addr=0x%x", *(uint32_t *)(g_mem_dump_ctrl_addr + 4));
BT_DRV_TRACE(1, "STA addr=0x%x",
*(uint32_t *)(g_mem_dump_ctrl_addr + 0x10));
BT_DRV_TRACE(1, "MSG addr=0x%x",
*(uint32_t *)(g_mem_dump_ctrl_addr + 0x1c));
BT_DRV_TRACE(1, "SCH addr=0x%x",
*(uint32_t *)(g_mem_dump_ctrl_addr + 0x28));
BT_DRV_TRACE(1, "ISR addr=0x%x",
*(uint32_t *)(g_mem_dump_ctrl_addr + 0x34));
}
BT_DRV_TRACE(0, "task msg buff:");
if (buff_addr != 0) {
for (uint8_t j = 0; j < 5; j++) {
DUMP8("%02x ", (uint8_t *)(buff_addr + j * 20), 20);
}
}
hal_sys_timer_delay(MS_TO_TICKS(100));
BT_DRV_TRACE(0, " ");
BT_DRV_TRACE(0, "lmp buff:");
// lmp_message_buffer
if (lmp_message_buffer_addr) {
buff_addr = lmp_message_buffer_addr;
}
if (buff_addr != 0) {
for (uint8_t j = 0; j < 10; j++) {
DUMP8("%02x ", (uint8_t *)(buff_addr + j * 20), 20);
}
}
hal_sys_timer_delay(MS_TO_TICKS(100));
uint8_t link_id = 0;
uint32_t evt_ptr = 0;
uint32_t acl_par_ptr = 0;
for (link_id = 0; link_id < 3; link_id++) {
BT_DRV_TRACE(1, "acl_par: link id %d", link_id);
if (ld_acl_env_addr) {
evt_ptr = *(uint32_t *)(ld_acl_env_addr + link_id * 4);
}
if (evt_ptr) {
acl_par_ptr = evt_ptr;
BT_DRV_TRACE(5,
"acl_par: acl_par_ptr 0x%x, clk off 0x%x, bit off 0x%x, "
"last sync clk off 0x%x, last sync bit off 0x%x",
acl_par_ptr, *(uint32_t *)(acl_par_ptr + 140),
*(uint16_t *)(acl_par_ptr + 150),
*(uint32_t *)(acl_par_ptr + 136),
((*(uint32_t *)(acl_par_ptr + 150)) & 0xFFFF0000) >> 16);
}
}
hal_sys_timer_delay(MS_TO_TICKS(100));
// ld_sco_env
evt_ptr = 0;
if (ld_sco_env_addr) {
evt_ptr = *(uint32_t *)ld_sco_env_addr;
}
if (evt_ptr != 0) {
BT_DRV_TRACE(1, "esco linkid :%d", *(uint8_t *)(evt_ptr + 70));
for (link_id = 0; link_id < 3; link_id++) {
BT_DRV_TRACE(2, "bt_linkcntl_linklbl 0x%x: link id %d",
*(uint16_t *)(EM_BT_LINKCNTL_ADDR + link_id * BT_EM_SIZE),
link_id);
BT_DRV_TRACE(
1, "rxcount :%x",
*(uint16_t *)(EM_BT_RXDESCCNT_ADDR + link_id * BT_EM_SIZE));
}
}
btdrv_dump_mem(bt_dump_mem_start, bt_dump_len_max, BT_SUB_SYS_TYPE);
// btdrv_dump_mem(em_dump_area_1_start, em_area_1_len_max,
// BT_EM_AREA_1_TYPE);
btdrv_dump_mem(em_dump_area_2_start, em_area_2_len_max, BT_EM_AREA_2_TYPE);
// btdrv_dump_mem(mcu_dump_mem_start, mcu_dump_len_max, MCU_SYS_TYPE);
}
}
uint8_t bt_drv_reg_op_get_tx_pwr(uint16_t connHandle) {
uint8_t idx;
uint16_t localVal;
uint8_t tx_pwr = 0;
idx = btdrv_conhdl_to_linkid(connHandle);
if (btdrv_is_link_index_valid(idx)) {
localVal = BT_DRIVER_GET_U16_REG_VAL(EM_BT_PWRCNTL_ADDR + idx * BT_EM_SIZE);
tx_pwr = ((localVal & ((uint16_t)0x000000FF)) >> 0);
}
return tx_pwr;
}
void bt_drv_reg_op_set_tx_pwr(uint16_t connHandle, uint8_t txpwr) {
BT_DRV_REG_OP_ENTER();
uint8_t idx = btdrv_conhdl_to_linkid(connHandle);
if (btdrv_is_link_index_valid(idx)) {
BT_DRIVER_PUT_U16_REG_VAL(
EM_BT_PWRCNTL_ADDR + idx * BT_EM_SIZE,
(BT_DRIVER_GET_U16_REG_VAL(EM_BT_PWRCNTL_ADDR + idx * BT_EM_SIZE) &
~((uint16_t)0x000000FF)) |
((uint16_t)txpwr << 0));
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_fix_tx_pwr(uint16_t connHandle) {
BT_DRV_REG_OP_ENTER();
bt_drv_reg_op_set_tx_pwr(connHandle, LBRT_TX_PWR_FIX);
BT_DRV_REG_OP_EXIT();
}
//#define __ACCESS_MODE_ADJUST_GAIN__
//#define __SWAGC_MODE_ADJUST_GAIN__
#define __REBOOT_PAIRING_MODE_ADJUST_GAIN__
void bt_drv_reg_op_set_accessible_mode(uint8_t mode) {}
void bt_drv_reg_op_set_swagc_mode(uint8_t mode) {}
void bt_drv_reg_op_set_reboot_pairing_mode(uint8_t mode) {}
void bt_drv_reg_op_force_sco_retrans(bool enable) {
#ifdef __FORCE_SCO_MAX_RETX__
BT_DRV_REG_OP_ENTER();
if (enable) {
BTDIGITAL_REG_SET_FIELD(0xd0220468, 3, 24, 3);
} else {
BTDIGITAL_REG_SET_FIELD(0xd0220468, 3, 24, 0);
}
BT_DRV_REG_OP_EXIT();
#endif
}
void bt_drv_reg_op_enable_pcm_tx_hw_cal(void) {
BT_DRV_REG_OP_ENTER();
*(volatile uint32_t *)0xd0220468 |= 1 << 22;
*(volatile uint32_t *)0x400000f0 |= 1;
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_monitor_clk(void) {
BT_DRV_REG_OP_ENTER();
uint32_t env0 = 0;
uint32_t env1 = 0;
uint32_t env2 = 0;
if (ld_acl_env_addr) {
env0 = *(uint32_t *)ld_acl_env_addr;
env1 = *(uint32_t *)(ld_acl_env_addr + 4);
env1 = *(uint32_t *)(ld_acl_env_addr + 8);
}
if (env0 & bt_ram_start_addr) {
env0 += 0x8c;
BT_DRV_TRACE(2, "BT_REG_OP:env0 clk off=%x %x", *(uint32_t *)env0,
*(uint16_t *)EM_BT_CLKOFF0_ADDR |
(*(uint16_t *)EM_BT_CLKOFF1_ADDR << 16));
}
if (env1 & bt_ram_start_addr) {
env1 += 0x8c;
BT_DRV_TRACE(2, "BT_REG_OP:env1 clk off=%x %x", *(uint32_t *)env1,
*(uint16_t *)(EM_BT_CLKOFF0_ADDR + BT_EM_SIZE) |
(*(uint16_t *)(EM_BT_CLKOFF1_ADDR + BT_EM_SIZE) << 16));
}
if (env2 & bt_ram_start_addr) {
env2 += 0x8c;
BT_DRV_TRACE(
2, "BT_REG_OP:env2 clk off=%x %x", *(uint32_t *)env2,
*(uint16_t *)(EM_BT_CLKOFF0_ADDR + BT_EM_SIZE * 2) |
(*(uint16_t *)(EM_BT_CLKOFF1_ADDR + BT_EM_SIZE * 2) << 16));
}
BT_DRV_REG_OP_EXIT();
}
bool bt_drv_reg_op_read_rssi_in_dbm(uint16_t connHandle, rx_agc_t *rx_val) {
#ifdef BT_RSSI_MONITOR
BT_DRV_REG_OP_ENTER();
if (connHandle == 0xFFFF)
return false;
if (hal_get_chip_metal_id() >= HAL_CHIP_METAL_ID_0) {
uint8_t idx = btdrv_conhdl_to_linkid(connHandle);
/// Accumulated RSSI (to compute an average value)
int16_t rssi_acc = 0;
/// Counter of received packets used in RSSI average
uint8_t rssi_avg_cnt = 1;
rx_agc_t *rx_monitor_env = NULL;
if (!btdrv_is_link_index_valid(idx)) {
return false;
}
// rx_monitor
if (rx_monitor_addr) {
rx_monitor_env = (rx_agc_t *)rx_monitor_addr;
}
if (rx_monitor_env != NULL) {
for (int i = 0; i < rssi_avg_cnt; i++) {
rssi_acc += rx_monitor_env[idx].rssi;
}
rx_val->rssi = rssi_acc / rssi_avg_cnt;
rx_val->rxgain = rx_monitor_env[idx].rxgain;
}
}
BT_DRV_REG_OP_EXIT();
return true;
#else
return false;
#endif
}
bool bt_drv_reg_op_read_ble_rssi_in_dbm(uint16_t connHandle, rx_agc_t *rx_val) {
#ifdef BT_RSSI_MONITOR
BT_DRV_REG_OP_ENTER();
if (connHandle == 0xFFFF)
return false;
if (hal_get_chip_metal_id() >= HAL_CHIP_METAL_ID_0) {
uint8_t idx = connHandle;
/// Accumulated RSSI (to compute an average value)
int16_t rssi_acc = 0;
/// Counter of received packets used in RSSI average
uint8_t rssi_avg_cnt = 1;
rx_agc_t *rx_monitor_env = NULL;
if (idx > 2)
return false; // invalid idx
// rx_monitor
if (ble_rx_monitor_addr) {
rx_monitor_env = (rx_agc_t *)ble_rx_monitor_addr;
}
if (rx_monitor_env != NULL) {
for (int i = 0; i < rssi_avg_cnt; i++) {
rssi_acc += rx_monitor_env[idx].rssi;
}
rx_val->rssi = rssi_acc / rssi_avg_cnt;
rx_val->rxgain = rx_monitor_env[idx].rxgain;
}
}
BT_DRV_REG_OP_EXIT();
return true;
#else
return false;
#endif
}
void bt_drv_reg_op_acl_silence(uint16_t connHandle, uint8_t silence) {
BT_DRV_REG_OP_ENTER();
uint8_t idx = btdrv_conhdl_to_linkid(connHandle);
if (btdrv_is_link_index_valid(idx)) {
BT_DRIVER_PUT_U16_REG_VAL(
EM_BT_BT_EXT1_ADDR + idx * BT_EM_SIZE,
(BT_DRIVER_GET_U16_REG_VAL(EM_BT_BT_EXT1_ADDR + idx * BT_EM_SIZE) &
~((uint16_t)0x00008000)) |
((uint16_t)silence << 15));
}
BT_DRV_REG_OP_EXIT();
}
/// sniffer connect information environment structure
struct ld_sniffer_connect_env {
///
uint16_t bitoff;
///
uint32_t clk_offset;
///
uint8_t map[10];
///
uint32_t afh_instant;
///
uint8_t afh_mode;
///
uint8_t enc_mode;
///
uint8_t ltk[16];
///
uint8_t role;
};
void bt_drv_reg_op_call_monitor(uint16_t connHandle, uint8_t tws_role) {}
void bt_drv_reg_op_lock_sniffer_sco_resync(void) {}
void bt_drv_reg_op_unlock_sniffer_sco_resync(void) {}
void bt_drv_reg_op_ibrt_retx_att_nb_set(uint8_t retx_nb) {
BT_DRV_REG_OP_ENTER();
int ret = -1;
uint32_t sco_evt_ptr = 0x0;
// TODO: [ld_sco_env address] based on CHIP id
if (ld_sco_env_addr) {
sco_evt_ptr = *(volatile uint32_t *)ld_sco_env_addr;
ret = 0;
}
if (ret == 0) {
uint32_t retx_ptr = 0x0;
if (sco_evt_ptr != 0) {
// offsetof(struct ea_elt_tag, env) + sizeof(struct ld_sco_evt_params)
retx_ptr = sco_evt_ptr + 0x44;
} else {
BT_DRV_TRACE(0, "BT_REG_OP:Error, ld_sco_env[0].evt ==NULL");
ret = -2;
}
if (ret == 0) {
*(volatile uint8_t *)retx_ptr = retx_nb;
}
}
BT_DRV_TRACE(3, "BT_REG_OP:%s,ret=%d,retx nb=%d", __func__, ret, retx_nb);
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_acl_tx_type_set(uint16_t hciHandle, uint8_t slot_sel) {
uint32_t lc_ptr = 0;
uint32_t acl_par_ptr = 0;
uint32_t packet_type_addr = 0;
// lc_env and ld_acl_env
if (lc_env_addr) {
lc_ptr = *(uint32_t *)(lc_env_addr + (hciHandle - 0x80) * 4);
}
if (ld_acl_env_addr) {
acl_par_ptr = *(uint32_t *)(ld_acl_env_addr + (hciHandle - 0x80) * 4);
}
// sanity check
if (lc_ptr == 0) {
return;
} else {
packet_type_addr = (uint32_t)(acl_par_ptr + 176);
BT_DRV_TRACE(3, "BT_REG_OP:%s hdl=0x%x packet_types=0x%x", __func__,
hciHandle, *(uint16_t *)(packet_type_addr));
BT_DRV_TRACE(2, "BT_REG_OP:lc_ptr 0x%x, acl_par_ptr 0x%x", lc_ptr,
acl_par_ptr);
uint16_t edr_type = 0;
if (slot_sel == USE_1_SLOT_PACKET) {
#if defined(__3M_PACK__)
edr_type = (1 << DM1_IDX) | (1 << DH1_2_IDX) | (1 << DH1_3_IDX);
#else
edr_type = (1 << DM1_IDX) | (1 << DH1_2_IDX);
#endif
} else if (slot_sel == USE_3_SLOT_PACKET) {
#if defined(__3M_PACK__)
edr_type = (1 << DM1_IDX) | (1 << DH1_2_IDX) | (1 << DH1_3_IDX) |
(1 << DH3_2_IDX) | (1 << DH3_3_IDX);
#else
edr_type = (1 << DM1_IDX) | (1 << DH1_2_IDX) | (1 << DH3_2_IDX);
#endif
} else if (slot_sel == USE_5_SLOT_PACKET) {
#if defined(__3M_PACK__)
edr_type = (1 << DM1_IDX) | (1 << DH1_2_IDX) | (1 << DH1_3_IDX) |
(1 << DH3_2_IDX) | (1 << DH3_3_IDX) | (1 << DH5_2_IDX) |
(1 << DH5_3_IDX);
#else
edr_type = (1 << DM1_IDX) | (1 << DH1_2_IDX) | (1 << DH3_2_IDX) |
(1 << DH5_2_IDX);
#endif
}
*(uint16_t *)(packet_type_addr) =
((edr_type << 8) | (*(uint16_t *)(packet_type_addr)&0xff));
BT_DRV_TRACE(1, "BT_REG_OP:After op,packet_types 0x%x",
*(uint16_t *)(packet_type_addr));
}
}
void bt_drv_reg_op_acl_tx_type_trace(uint16_t hciHandle) {
uint32_t acl_par_ptr = 0;
uint32_t packet_type_addr = 0;
// ld_acl_env
if (ld_acl_env_addr) {
acl_par_ptr = *(uint32_t *)(ld_acl_env_addr + (hciHandle - 0x80) * 4);
}
// sanity check
if (acl_par_ptr == 0) {
return;
} else {
packet_type_addr = (uint32_t)(acl_par_ptr + 176);
BT_DRV_TRACE(1, "BT_REG_OP:tx packet_types=0x%x",
*(uint16_t *)(packet_type_addr));
}
}
uint8_t bt_drv_reg_op_acl_tx_type_get(uint16_t hciHandle, uint8_t *br_type,
uint8_t *edr_type) {
uint8_t status = 0xff;
uint32_t lc_ptr = 0;
uint32_t acl_par_ptr = 0;
uint32_t packet_type_addr = 0;
if (lc_env_addr) {
lc_ptr = *(uint32_t *)(lc_env_addr + (hciHandle - 0x80) * 4);
}
if (ld_acl_env_addr) {
acl_par_ptr = *(uint32_t *)(ld_acl_env_addr + (hciHandle - 0x80) * 4);
}
// sanity check
if (lc_ptr == 0) {
BT_DRV_TRACE(2, "BT_REG_OP:%s hdl=0x%x,lc_env_ptr = NULL", __func__,
hciHandle);
} else {
packet_type_addr = (uint32_t)(acl_par_ptr + 176);
uint16_t packet_type = *(uint16_t *)(packet_type_addr);
if (br_type) {
*br_type = packet_type & 0xff;
}
if (edr_type) {
*br_type = (packet_type >> 8) & 0xff;
}
status = 0;
BT_DRV_TRACE(3, "BT_REG_OP:%s hdl=0x%x packet_types=0x%x", __func__,
hciHandle, packet_type);
}
return status;
}
uint16_t em_bt_bitoff_getf(int elt_idx) {
uint16_t localVal = BTDIGITAL_BT_EM(EM_BT_BITOFF_ADDR + elt_idx * BT_EM_SIZE);
ASSERT_ERR((localVal & ~((uint16_t)0x000003FF)) == 0);
return (localVal >> 0);
}
void em_bt_bitoff_setf(int elt_idx, uint16_t bitoff) {
ASSERT_ERR((((uint16_t)bitoff << 0) & ~((uint16_t)0x000003FF)) == 0);
BTDIGITAL_EM_BT_WR(EM_BT_BITOFF_ADDR + elt_idx * BT_EM_SIZE,
(uint16_t)bitoff << 0);
}
void em_bt_clkoff0_setf(int elt_idx, uint16_t clkoff0) {
ASSERT_ERR((((uint16_t)clkoff0 << 0) & ~((uint16_t)0x0000FFFF)) == 0);
BTDIGITAL_EM_BT_WR(EM_BT_CLKOFF0_ADDR + elt_idx * BT_EM_SIZE,
(uint16_t)clkoff0 << 0);
}
uint16_t em_bt_clkoff0_getf(int elt_idx) {
uint16_t localVal =
BTDIGITAL_BT_EM(EM_BT_CLKOFF0_ADDR + elt_idx * BT_EM_SIZE);
ASSERT_ERR((localVal & ~((uint16_t)0x0000FFFF)) == 0);
return (localVal >> 0);
}
void em_bt_clkoff1_setf(int elt_idx, uint16_t clkoff1) {
ASSERT_ERR((((uint16_t)clkoff1 << 0) & ~((uint16_t)0x000007FF)) == 0);
BTDIGITAL_EM_BT_WR(EM_BT_CLKOFF1_ADDR + elt_idx * BT_EM_SIZE,
(uint16_t)clkoff1 << 0);
}
uint16_t em_bt_clkoff1_getf(int elt_idx) {
uint16_t localVal =
BTDIGITAL_BT_EM(EM_BT_CLKOFF1_ADDR + elt_idx * BT_EM_SIZE);
ASSERT_ERR((localVal & ~((uint16_t)0x000007FF)) == 0);
return (localVal >> 0);
}
void em_bt_wincntl_pack(int elt_idx, uint8_t rxwide, uint16_t rxwinsz) {
ASSERT_ERR((((uint16_t)rxwide << 15) & ~((uint16_t)0x00008000)) == 0);
ASSERT_ERR((((uint16_t)rxwinsz << 0) & ~((uint16_t)0x00000FFF)) == 0);
BTDIGITAL_EM_BT_WR(EM_BT_WINCNTL_ADDR + elt_idx * BT_EM_SIZE,
((uint16_t)rxwide << 15) | ((uint16_t)rxwinsz << 0));
}
void bt_drv_reg_op_update_sniffer_bitoffset(uint16_t mobile_conhdl,
uint16_t master_conhdl) {}
void bt_drv_reg_op_modify_bitoff_timer(uint16_t time_out) {}
void bt_drv_reg_op_cs_monitor(void) {
uint32_t addr;
addr = BT_EM_ADDR_BASE + 0x1e;
BT_DRV_TRACE(0, "BT_REG_OP:AFH 0:");
DUMP8("%02x ", (uint8_t *)addr, 10);
addr = BT_EM_ADDR_BASE + 0x1e + 110;
BT_DRV_TRACE(0, "AFH 1:");
DUMP8("%02x ", (uint8_t *)addr, 10);
addr = BT_EM_ADDR_BASE + 0x1e + 220;
BT_DRV_TRACE(0, "AFH 2:");
DUMP8("%02x ", (uint8_t *)addr, 10);
uint32_t tmp1, tmp2, tmp3;
tmp1 = BT_EM_ADDR_BASE + 0x8;
tmp2 = BT_EM_ADDR_BASE + 0x8 + 110;
tmp3 = BT_EM_ADDR_BASE + 0x8 + 220;
BT_DRV_TRACE(3, "AFH EN:%x %x %x ", *(uint16_t *)tmp1, *(uint16_t *)tmp2,
*(uint16_t *)tmp3);
tmp1 = BT_EM_ADDR_BASE + 0x28;
tmp2 = BT_EM_ADDR_BASE + 0x28 + 110;
tmp3 = BT_EM_ADDR_BASE + 0x28 + 220;
BT_DRV_TRACE(3, "AFH ch num:%x %x %x ", *(uint16_t *)tmp1, *(uint16_t *)tmp2,
*(uint16_t *)tmp3);
tmp1 = BT_EM_ADDR_BASE + 0x4;
tmp2 = BT_EM_ADDR_BASE + 0x4 + 110;
tmp3 = BT_EM_ADDR_BASE + 0x4 + 220;
BT_DRV_TRACE(3, "clk off:%x %x %x ", *(uint32_t *)tmp1, *(uint32_t *)tmp2,
*(uint32_t *)tmp3);
tmp1 = BT_EM_ADDR_BASE + 0x2;
tmp2 = BT_EM_ADDR_BASE + 0x2 + 110;
tmp3 = BT_EM_ADDR_BASE + 0x2 + 220;
BT_DRV_TRACE(3, "bitoff:%x %x %x ", *(uint16_t *)tmp1, *(uint16_t *)tmp2,
*(uint16_t *)tmp3);
}
void bt_drv_reg_op_ble_llm_substate_hacker(void) {}
bool bt_drv_reg_op_check_esco_acl_sniff_conflict(uint16_t hciHandle) {
return false;
}
void bt_drv_reg_op_esco_acl_sniff_delay_cal(uint16_t hciHandle, bool enable) {}
uint8_t bt_drv_reg_op_get_role(uint8_t linkid) {
uint32_t lc_evt_ptr = 0;
uint32_t role_ptr = 0;
if (lc_env_addr) {
lc_evt_ptr = *(volatile uint32_t *)(lc_env_addr + linkid * 4); // lc_env
}
if (lc_evt_ptr != 0) {
role_ptr = lc_evt_ptr + 0x40;
} else {
BT_DRV_TRACE(1, "BT_REG_OP:ERROR LINKID =%x", linkid);
return 0xFF;
}
return *(uint8_t *)role_ptr;
}
void bt_drv_reg_op_set_tpoll(uint8_t linkid, uint16_t poll_interval) {
uint32_t acl_evt_ptr = 0x0;
uint32_t poll_addr;
if (ld_acl_env_addr) {
acl_evt_ptr = *(uint32_t *)(ld_acl_env_addr + linkid * 4);
}
if (acl_evt_ptr != 0) {
poll_addr = acl_evt_ptr + 0xb8;
*(uint16_t *)poll_addr = poll_interval;
} else {
BT_DRV_TRACE(1, "BT_REG_OP:ERROR LINK ID FOR TPOLL %x", linkid);
}
}
int8_t bt_drv_reg_op_rssi_correction(int8_t rssi) {
#ifdef __HW_AGC__
if (hal_get_chip_metal_id() >= HAL_CHIP_METAL_ID_0) {
// the rssi is already corrected
return rssi;
}
#endif
return rssi;
}
void bt_drv_reg_op_set_music_link(uint8_t link_id) {
// dbg_bt_setting.music_playing_link
if (dbg_bt_setting_addr) {
*(uint8_t *)(dbg_bt_setting_addr + 0x10) = link_id;
}
}
void bt_drv_reg_op_set_music_link_duration_extra(uint8_t slot) {
if (dbg_bt_setting_addr) {
*(uint32_t *)(dbg_bt_setting_addr + 0x14) = slot * 625;
}
}
void bt_drv_reg_op_set_hwagc_read_en(uint8_t en) {}
uint32_t bt_drv_reg_op_get_reconnecting_flag() {
uint32_t ret = 0;
if (reconnecting_flag_addr) {
ret = *(uint32_t *)reconnecting_flag_addr;
}
return ret;
}
void bt_drv_reg_op_set_reconnecting_flag() {
if (reconnecting_flag_addr) {
*(uint32_t *)reconnecting_flag_addr = 1;
}
}
void bt_drv_reg_op_clear_reconnecting_flag() {
if (reconnecting_flag_addr) {
*(uint32_t *)reconnecting_flag_addr = 0;
}
}
void bt_drv_reg_op_music_link_config(uint16_t active_link, uint8_t active_role,
uint16_t inactive_link,
uint8_t inactive_role) {
BT_DRV_TRACE(4, "BT_REG_OP:bt_drv_reg_op_music_link_config %x %d %x %d",
active_link, active_role, inactive_link, inactive_role);
if (active_role == 0) // MASTER
{
bt_drv_reg_op_set_tpoll(active_link - 0x80, 0x10);
if (inactive_role == 0) {
bt_drv_reg_op_set_tpoll(inactive_link - 0x80, 0x40);
}
} else {
bt_drv_reg_op_set_music_link(active_link - 0x80);
bt_drv_reg_op_set_music_link_duration_extra(11);
if (inactive_role == 0) {
bt_drv_reg_op_set_tpoll(inactive_link - 0x80, 0x40);
}
}
}
bool bt_drv_reg_op_check_bt_controller_state(void) {
bool ret = true;
BT_DRV_REG_OP_ENTER();
if (hal_sysfreq_get() <= HAL_CMU_FREQ_32K)
return ret;
if ((BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 0) == 0x00) &&
(BTDIGITAL_REG(BT_CONTROLLER_CRASH_DUMP_ADDR_BASE + 8) == MIC_BUFF_addr))
ret = true;
else
ret = false;
if (false == ret) {
BT_DRV_TRACE(0, "controller dead!!!");
btdrv_trigger_coredump();
}
BT_DRV_REG_OP_EXIT();
return ret;
}
void bt_drv_reg_op_piconet_clk_offset_get(uint16_t connHandle,
int32_t *clock_offset,
uint16_t *bit_offset) {
uint8_t index = 0;
uint32_t clock_offset_raw = 0;
BT_DRV_REG_OP_ENTER();
if (hal_get_chip_metal_id() >= HAL_CHIP_METAL_ID_0) {
if (connHandle) {
index = btdrv_conhdl_to_linkid(connHandle);
if (btdrv_is_link_index_valid(index)) {
*bit_offset = em_bt_bitoff_getf(index);
clock_offset_raw =
(em_bt_clkoff1_getf(index) << 16) | em_bt_clkoff0_getf(index);
*clock_offset = clock_offset_raw;
*clock_offset = (*clock_offset << 5) >> 5;
} else {
*bit_offset = 0;
*clock_offset = 0;
}
} else {
*bit_offset = 0;
*clock_offset = 0;
}
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_afh_env_reset(void) {
BT_DRV_REG_OP_ENTER();
int ret = -1;
uint32_t ld_afh_env_addr = 0x0;
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_0) {
ld_afh_env_addr = ld_env_addr + 0x198;
ret = 0;
if (ret == 0) {
struct ld_afh_env *ld_afh_env = (struct ld_afh_env *)ld_afh_env_addr;
if (ld_afh_env) {
BT_DRV_TRACE(0, "BT_REG_OP:reset ld_afh_env");
ld_afh_env->rf_rssi_interf_thr = BT_AFH_RSSI_INTERF_THR;
ld_afh_env->afh_update_period = BT_AFH_UPDATE_PERIOD;
ld_afh_env->afh_access_valid_to = BT_AFH_ASSESS_VALID_TO;
ld_afh_env->afh_reaccess_to = BT_AFH_REASSESS_TO;
ld_afh_env->afh_access_count_max = BT_AFH_ASSESS_COUNT_MAX;
ld_afh_env->afh_access_count_thr_good = BT_AFH_ASSESS_COUNT_THR_GOOD;
ld_afh_env->afh_access_count_thr_bad = BT_AFH_ASSESS_COUNT_THR_BAD;
ld_afh_env->afh_access_count_min = BT_AFH_ASSESS_COUNT_MIN;
}
}
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_dma_tc_clkcnt_get(uint32_t *btclk, uint16_t *btcnt) {
BT_DRV_REG_OP_ENTER();
*btclk = *((volatile uint32_t *)0xd02201fc);
*btcnt = *((volatile uint32_t *)0xd02201f8);
BT_DRV_REG_OP_EXIT();
}
void em_bt_bt_ext1_tx_silence_setf(int elt_idx, uint8_t txsilence) {
ASSERT_ERR((((uint16_t)txsilence << 15) & ~((uint16_t)0x00008000)) == 0);
BTDIGITAL_EM_BT_WR(
EM_BT_BT_EXT1_ADDR + elt_idx * BT_EM_SIZE,
(BTDIGITAL_BT_EM(EM_BT_BT_EXT1_ADDR + elt_idx * BT_EM_SIZE) &
~((uint16_t)0x00008000)) |
((uint16_t)txsilence << 15));
}
void em_bt_bt_ext1_bw_2m_setf(int elt_idx, uint8_t bw2m) {
ASSERT_ERR((((uint16_t)bw2m << 11) & ~((uint16_t)0x00000800)) == 0);
BTDIGITAL_EM_BT_WR(
EM_BT_BT_EXT1_ADDR + elt_idx * BT_EM_SIZE,
(BTDIGITAL_BT_EM(EM_BT_BT_EXT1_ADDR + elt_idx * BT_EM_SIZE) &
~((uint16_t)0x00000800)) |
((uint16_t)bw2m << 11));
}
void em_bt_bt_ext1_sco_tx_silence_setf(int elt_idx, uint8_t scotxsilence) {
ASSERT_ERR((((uint16_t)scotxsilence << 13) & ~((uint16_t)0x00002000)) == 0);
BTDIGITAL_EM_BT_WR(
EM_BT_BT_EXT1_ADDR + elt_idx * BT_EM_SIZE,
(BTDIGITAL_BT_EM(EM_BT_BT_EXT1_ADDR + elt_idx * BT_EM_SIZE) &
~((uint16_t)0x00002000)) |
((uint16_t)scotxsilence << 13));
}
void bt_drv_reg_op_acl_tx_silence(uint16_t connHandle, uint8_t on) {
return;
BT_DRV_REG_OP_ENTER();
uint8_t idx = btdrv_conhdl_to_linkid(connHandle);
BT_DRV_TRACE(2, "BT_REG_OP:BT ACL tx silence idx=%d,on=%d\n", idx, on);
if (btdrv_is_link_index_valid(idx)) {
if (TX_SILENCE_ON == on) {
// config ACL silence cs
em_bt_bt_ext1_tx_silence_setf(idx, TX_SILENCE_ON);
if (hal_get_chip_metal_id() >= HAL_CHIP_METAL_ID_1) {
// config SCO silence cs
em_bt_bt_ext1_sco_tx_silence_setf(idx, TX_SILENCE_ON);
// select ACL silence
BTDIGITAL_REG_SET_FIELD(0xd02204a8, 3, 2, 2);
}
} else if (TX_SILENCE_OFF == on) {
// config ACL silence cs
em_bt_bt_ext1_tx_silence_setf(idx, TX_SILENCE_OFF);
if (hal_get_chip_metal_id() >= HAL_CHIP_METAL_ID_1) {
// config SCO silence cs
em_bt_bt_ext1_sco_tx_silence_setf(idx, TX_SILENCE_OFF);
// select ACL silence
BTDIGITAL_REG_SET_FIELD(0xd02204a8, 3, 2, 3);
}
}
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_acl_tx_silence_clear(uint16_t connHandle) {
uint8_t idx = btdrv_conhdl_to_linkid(connHandle);
BT_DRV_TRACE(1, "BT_REG_OP:ACL tx silence clear idx=%d\n", idx);
if (btdrv_is_link_index_valid(idx)) {
em_bt_bt_ext1_tx_silence_setf(idx, TX_SILENCE_OFF);
if (hal_get_chip_metal_id() >= HAL_CHIP_METAL_ID_1) {
// config SCO silence cs
em_bt_bt_ext1_sco_tx_silence_setf(idx, TX_SILENCE_OFF);
// select ACL silence
BTDIGITAL_REG_SET_FIELD(0xd02204a8, 3, 2, 3);
}
}
bt_drv_reg_op_resume_fast_ack_with_mobile();
}
void bt_drv_reg_op_sw_seq_filter(uint16_t connHandle) {}
void bt_drv_reg_op_pcm_set(uint8_t en) {
if (hal_get_chip_metal_id() >= HAL_CHIP_METAL_ID_1) {
if (en)
*(volatile unsigned int *)(0xd02204a8) &= 0xffffffdf;
else
*(volatile unsigned int *)(0xd02204a8) |= 1 << 5;
}
}
uint8_t bt_drv_reg_op_pcm_get() {
uint8_t ret = 1;
if (hal_get_chip_metal_id() >= HAL_CHIP_METAL_ID_1) {
ret = (*(volatile unsigned int *)(0xd02204a8) & 0x00000020) >> 5;
}
return ~ret;
}
void bt_drv_reg_op_clear_skip_flag() {}
void bt_drv_reg_op_clean_flags_of_ble_and_sco(void) {
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_0) {
// 0xc0006a18,////sco_find_sync_flag
// 0xc000699c,///ble_sco_need_move_flag
// 0xc000693c,///prev_conflict_type_record
// 0xc000099f,///anchor_resume_flag
ASSERT(*(uint32_t *)0xc0006a14 == 0xc0006a18,
"ERROR 2300pt1 sco_find_sync_flag!");
ASSERT(*(uint32_t *)0xc0006998 == 0xc000699c,
"ERROR 2300pt1 ble_sco_need_move_flag!");
ASSERT(*(uint32_t *)0xc0006938 == 0xc000693c,
"ERROR 2300pt1 prev_conflict_type_record!");
// BT_DRV_TRACE(4,"0xc0006a18=%x,0xc000699c=%x,0xc000693c=%x,0xc000099f=%x\n",*(volatile
// uint32_t *)0xc0006a18,*(volatile uint32_t *)0xc000699c,*(volatile
// uint32_t
// *)0xc000693c,*(volatile uint32_t *)0xc000099f);
*(volatile uint32_t *)0xc0006a18 = 0;
*(volatile uint32_t *)0xc0006a88 = 0;
*(volatile uint32_t *)0xc000693c = 0;
*(volatile uint32_t *)0xc000099f = 0;
}
}
const uint8_t msbc_mute_patten[] = {
0x01, 0x38, 0xad, 0x0, 0x0, 0xc5, 0x0, 0x0, 0x0, 0x0, 0x77, 0x6d,
0xb6, 0xdd, 0xdb, 0x6d, 0xb7, 0x76, 0xdb, 0x6d, 0xdd, 0xb6, 0xdb, 0x77,
0x6d, 0xb6, 0xdd, 0xdb, 0x6d, 0xb7, 0x76, 0xdb, 0x6d, 0xdd, 0xb6, 0xdb,
0x77, 0x6d, 0xb6, 0xdd, 0xdb, 0x6d, 0xb7, 0x76, 0xdb, 0x6d, 0xdd, 0xb6,
0xdb, 0x77, 0x6d, 0xb6, 0xdd, 0xdb, 0x6d, 0xb7, 0x76, 0xdb, 0x6c, 0x00};
#define SCO_TX_FIFO_BASE (0xd0210000)
#if defined(CVSD_BYPASS)
#define SCO_TX_MUTE_PATTERN (0x5555)
#else
#define SCO_TX_MUTE_PATTERN (0x0000)
#endif
void bt_drv_reg_op_sco_txfifo_reset(uint16_t codec_id) {
uint32_t reg_val = BTDIGITAL_REG(0xd0220148);
uint32_t reg_offset0, reg_offset1;
uint16_t *patten_p = (uint16_t *)msbc_mute_patten;
reg_offset0 = (reg_val & 0xffff);
reg_offset1 = (reg_val >> 16) & 0xffff;
if (codec_id == 2) {
for (uint8_t i = 0; i < 60; i += 2) {
BTDIGITAL_BT_EM(SCO_TX_FIFO_BASE + reg_offset0 + i) = *patten_p;
BTDIGITAL_BT_EM(SCO_TX_FIFO_BASE + reg_offset1 + i) = *patten_p;
patten_p++;
}
} else {
for (uint8_t i = 0; i < 120; i += 2) {
BTDIGITAL_BT_EM(SCO_TX_FIFO_BASE + reg_offset0 + i) = SCO_TX_MUTE_PATTERN;
BTDIGITAL_BT_EM(SCO_TX_FIFO_BASE + reg_offset1 + i) = SCO_TX_MUTE_PATTERN;
}
}
}
/*****************************************************************************
Prototype : btdrv_set_tws_acl_poll_interval
Description : in ibrt mode, set tws acl poll interval
Input : uint16_t poll_interval
Output : None
Return Value :
Calls :
Called By :
History :
Date : 2019/4/19
Author : bestechnic
Modification : Created function
*****************************************************************************/
void btdrv_reg_op_set_private_tws_poll_interval(uint16_t poll_interval,
uint16_t poll_interval_in_sco) {
BT_DRV_TRACE(
2,
"BT_REG_OP:Set private tws interval,acl interv=%d,acl interv insco =%d",
poll_interval, poll_interval_in_sco);
if (dbg_bt_setting_addr) {
*(volatile uint16_t *)(dbg_bt_setting_addr + 0x40) = poll_interval;
*(volatile uint16_t *)(dbg_bt_setting_addr + 0x42) = poll_interval_in_sco;
}
}
void btdrv_reg_op_set_tws_link_duration(uint8_t slot_num) {
BT_DRV_REG_OP_ENTER();
// dbg_setting address
uint32_t op_addr = 0;
if (dbg_bt_setting_addr) {
op_addr = dbg_bt_setting_addr;
}
if (op_addr != 0) {
// uint16_t acl_slot = dbg_setting->acl_slot_in_snoop_mode;
uint16_t val = *(volatile uint16_t *)(op_addr + 0x44);
val &= 0xff00;
val |= slot_num;
*(volatile uint16_t *)(op_addr + 0x44) = val;
BT_DRV_TRACE(1, "BT_REG_OP:Set private tws link duration,val=%d",
*((volatile uint16_t *)(op_addr + 0x44)) & 0xff);
}
BT_DRV_REG_OP_EXIT();
}
void btdrv_reg_op_enable_private_tws_schedule(bool enable) {
BT_DRV_REG_OP_ENTER();
// sniffer_env
uint32_t op_addr = 0;
if (sniffer_env_addr) {
op_addr = sniffer_env_addr;
}
if (op_addr != 0) {
// sniffer_env.acl_switch_flag.in_process
uint16_t val = *((volatile uint16_t *)(op_addr + 0x7e));
val &= 0xff;
if (enable) {
val |= 1 << 8;
}
*((volatile uint16_t *)(op_addr + 0x7e)) = val;
BT_DRV_TRACE(1, "BT_REG_OP:Enable private tws function,flag=%d",
(*((volatile uint16_t *)(op_addr + 0x7e))) >> 8);
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_decrease_tx_pwr_when_reconnect(bool enable) {
if (enable) {
BT_DRV_TRACE(0, "BT_REG_OP:Decrese tx pwr");
// drease defualt TX pwr
BTDIGITAL_REG(0xd0350300) = 0x33;
} else {
BT_DRV_TRACE(0, "BT_REG_OP:Increase tx pwr");
// resume defualt TX pwr
BTDIGITAL_REG(0xd0350300) = 0x11;
}
}
/*
rwip_heap_env
from addr=0xc00027b8 left_length=6K
rwip_heap_non_ret
from addr=0xc00052b8 left_length=1.5K
*/
void bt_drv_reg_op_controller_mem_log_config(void) {
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_2) {
uint32_t each_log_length = 0x200; // 512Byte
uint32_t lmp_mem_addr = 0xc00027b8 + 0x64; // lmp:each_log_length
uint32_t msg_mem_addr =
lmp_mem_addr + each_log_length + 0x64; // msg:each_log_length
uint32_t sta_mem_addr =
msg_mem_addr + each_log_length + 0x64; // sta:each_log_length
uint32_t sch_mem_addr =
sta_mem_addr + each_log_length + 0x64; // sch:each_log_length
uint32_t isr_mem_addr =
sch_mem_addr + each_log_length + 0x64; // isr:each_log_length
// LMP_DUMP_TRACE
*(uint32_t *)g_mem_dump_ctrl_addr =
each_log_length; // g_mem_dump_ctrl[0].len_max default:1024
*(uint32_t *)(g_mem_dump_ctrl_addr + 4) =
lmp_mem_addr; // g_mem_dump_ctrl[0].start_addr
*(uint8_t *)(g_mem_dump_ctrl_addr + 8) =
0x01; // g_mem_dump_ctrl[0].trace_enable
// MSG_DUMP_TRACE
*(uint32_t *)(g_mem_dump_ctrl_addr + 0xc) =
each_log_length; // g_mem_dump_ctrl[1].len_max default:1024
*(uint32_t *)(g_mem_dump_ctrl_addr + 0x10) =
msg_mem_addr; // g_mem_dump_ctrl[1].start_addr
*(uint8_t *)(g_mem_dump_ctrl_addr + 0x14) =
0x01; // g_mem_dump_ctrl[1].trace_enable
// STA_DUMP_TRACE
*(uint32_t *)(g_mem_dump_ctrl_addr + 0x18) =
each_log_length; // g_mem_dump_ctrl[2].len_max default:1024
*(uint32_t *)(g_mem_dump_ctrl_addr + 0x1c) =
sta_mem_addr; // g_mem_dump_ctrl[2].start_addr
*(uint8_t *)(g_mem_dump_ctrl_addr + 0x20) =
0x01; // g_mem_dump_ctrl[2].trace_enable
// SCH_DUMP_TRACE
*(uint32_t *)(g_mem_dump_ctrl_addr + 0x24) =
each_log_length; // g_mem_dump_ctrl[3].len_max default:1024
*(uint32_t *)(g_mem_dump_ctrl_addr + 0x28) =
sch_mem_addr; // g_mem_dump_ctrl[3].start_addr
*(uint8_t *)(g_mem_dump_ctrl_addr + 0x2c) =
0x01; // g_mem_dump_ctrl[3].trace_enable
// ISR_DUMP_TRACE
*(uint32_t *)(g_mem_dump_ctrl_addr + 0x30) =
each_log_length; // g_mem_dump_ctrl[4].len_max default:1024
*(uint32_t *)(g_mem_dump_ctrl_addr + 0x34) =
isr_mem_addr; // g_mem_dump_ctrl[4].start_addr
*(uint8_t *)(g_mem_dump_ctrl_addr + 0x38) =
0x01; // g_mem_dump_ctrl[4].trace_enable
}
}
void bt_drv_reg_op_lm_nb_sync_hacker(uint8_t sco_status) {
BT_DRV_REG_OP_ENTER();
// lm_nb_sync_active
uint32_t op_addr = 0;
if (lm_nb_sync_active_addr) {
op_addr = lm_nb_sync_active_addr;
}
if (op_addr != 0) {
uint8_t org_val = *(volatile uint8_t *)(op_addr);
// sanity check
if (org_val > 0xf0)
org_val = 0;
if ((sco_status == SNIFFER_SCO_STOP || sco_status == SNIFFER_SCO_START ||
sco_status == SNIFFER_ACL_DISCONNECT_STOP_SCO) &&
(org_val >= 0 && org_val <= 2)) {
if (sco_status == SNIFFER_SCO_STOP ||
sco_status == SNIFFER_ACL_DISCONNECT_STOP_SCO) {
if (org_val > 0) {
*(volatile uint8_t *)(op_addr) = org_val - 1;
}
} else if (sco_status == SNIFFER_SCO_START) {
*(volatile uint8_t *)(op_addr) = org_val + 1;
}
BT_DRV_TRACE(
3, "BT_REG_OP:modify lm_nb_sync org val=%d, modify val=%d, status=%d",
org_val, *(volatile uint8_t *)(op_addr), sco_status);
} else {
BT_DRV_TRACE(2,
"BT_REG_OP:do not need modify lm_nb_sync val=%d, status=%d",
org_val, sco_status);
}
}
BT_DRV_REG_OP_EXIT();
}
#define BT_FASTACK_ADDR 0xD0220468
#define BT_SCO_TRIGGER_BYPASS_ADDR 0xD022046C
void bt_drv_reg_op_fastack_status_checker(uint16_t conhdl) {
BT_DRV_REG_OP_ENTER();
uint8_t elt_idx = btdrv_conhdl_to_linkid(conhdl);
if (btdrv_is_link_index_valid(elt_idx)) {
uint32_t fast_cs_addr = EM_BT_BT_EXT1_ADDR + elt_idx * BT_EM_SIZE;
BT_DRV_TRACE(
3,
"BT_DRV_REG: fastack cs=0x%x,fast ack reg=0x%x,Seq filter by pass=0x%x",
*(volatile uint16_t *)(fast_cs_addr), // fa rx bit10,tx bit9
*(volatile uint32_t *)(BT_FASTACK_ADDR), // fast ack reg bit22
*(volatile uint32_t
*)(BT_SCO_TRIGGER_BYPASS_ADDR)); // seq bypass reg bit 18
}
bt_drv_reg_op_bt_info_checker();
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_clear_ibrt_snoop_status(void) {
BT_DRV_REG_OP_ENTER();
// sniffer_env.snoop_status
uint32_t op_addr = 0;
if (sniffer_env_addr) {
op_addr = sniffer_env_addr + 0x84;
}
if (op_addr != 0) {
BT_DRV_TRACE(0, "BT_REG_OP:clear snoop_status");
*(volatile uint8_t *)(op_addr) = 0;
}
// close fastack register
bt_drv_reg_op_fa_set(0);
// clear fastack cs
for (uint8_t idx = 0; idx < 3; idx++) {
// fastack cs: rx bit10,tx bit9
uint32_t fast_cs_addr = EM_BT_BT_EXT1_ADDR + idx * BT_EM_SIZE;
*(volatile uint16_t *)(fast_cs_addr) &= ~0x600;
}
BT_DRV_REG_OP_EXIT();
}
uint8_t bt_drv_reg_op_linkcntl_aclltaddr_getf(uint16_t conhdl) {
uint8_t elt_idx = btdrv_conhdl_to_linkid(conhdl);
if (btdrv_is_link_index_valid(elt_idx)) {
uint16_t localVal =
BTDIGITAL_BT_EM(EM_BT_LINKCNTL_ADDR + elt_idx * BT_EM_SIZE);
return ((localVal & ((uint16_t)0x00000700)) >> 8);
} else {
return 0;
}
}
uint8_t bt_drv_reg_op_sync_bt_param(uint8_t *param, uint16_t len) {
uint8_t status = 0xff;
BT_DRV_REG_OP_ENTER();
// link_connect_bak
uint32_t op_addr = 0;
if (link_connect_bak_addr) {
op_addr = link_connect_bak_addr;
}
if (op_addr != 0) {
BT_DRV_TRACE(1, "BT_REG_OP:sync bt param len=%d", len);
memcpy((uint8_t *)(op_addr), param, len);
status = 0;
}
BT_DRV_REG_OP_EXIT();
return status;
}
uint32_t bt_drv_reg_op_get_lc_env_ptr(uint16_t conhdl, uint8_t type) {
uint32_t lc_ptr = 0;
uint32_t op_ptr = 0;
BT_DRV_REG_OP_ENTER();
if (lc_env_addr) {
lc_ptr = *(uint32_t *)(lc_env_addr + (conhdl - 0x80) * 4);
}
BT_DRV_TRACE(3, "BT_REG_OP:lc_env_ptr =0x%x, conhdl=0x%x,type=%d", lc_ptr,
conhdl, type);
if (lc_ptr == 0)
return 0;
switch (type) {
case LC_LINK_TAG:
// link tag len=108
op_ptr = lc_ptr;
break;
case LC_INFO_TAG:
op_ptr = lc_ptr + 0x6c;
break;
case LC_ENC_TAG:
// enc tag len=166
op_ptr = lc_ptr + 0x196;
break;
case LC_AFH_TAG:
op_ptr = lc_ptr + 0x26c;
break;
case LC_SP_TAG:
// link tag len=108
op_ptr = lc_ptr + 0x28c;
break;
case LC_EPR_TAG:
op_ptr = lc_ptr + 0x2f8;
break;
case LC_EPC_TAG:
op_ptr = lc_ptr + 0x2fc;
break;
default:
break;
}
BT_DRV_REG_OP_EXIT();
return op_ptr;
}
#ifdef __BT_ONE_BRING_TWO__
void bt_drv_reg_op_set_music_ongong_flag() {}
void bt_drv_reg_op_clear_music_ongong_flag() {}
#endif
uint16_t bt_drv_reg_op_get_ble_conn_latency(uint16_t ble_conhdl) {
uint16_t curr_conn_latency = 0xffff;
return curr_conn_latency;
}
bool bt_drv_reg_op_set_ble_conn_latency(uint16_t ble_conhdl,
uint16_t conn_latency) {
return false;
}
void bt_drv_reg_op_write_private_public_key(uint8_t *private_key,
uint8_t *public_key) {
uint8_t *lm_env_ptr = 0;
uint8_t *lm_private_key_ptr = 0;
uint8_t *lm_public_key_ptr = 0;
// lm_env
if (lm_env_addr) {
lm_env_ptr = (uint8_t *)lm_env_addr;
} else {
return;
}
lm_private_key_ptr = lm_env_ptr + 0x6c;
lm_public_key_ptr = lm_private_key_ptr + 0x18;
memcpy(lm_private_key_ptr, private_key, 24);
memcpy(lm_public_key_ptr, public_key, 48);
BT_DRV_TRACE(0, "private key");
DUMP8("%02x", lm_private_key_ptr, 24);
BT_DRV_TRACE(0, "public key");
DUMP8("%02x", lm_public_key_ptr, 48);
}
void bt_drv_reg_op_for_test_mode_disable(void) {
if (dbg_bt_setting_addr) {
*(volatile uint32_t *)(dbg_bt_setting_addr + 0x64) &=
~(1 << 8); ////sw_seq_filter_en set 0
*(volatile uint32_t *)(dbg_bt_setting_addr + 0x64) &=
~(1 << 0); ////ecc_enable set 0
*(volatile uint32_t *)(dbg_bt_setting_addr + 0x1c) &=
0x00ffffff; ////dbg_trace_level set 0
}
}
uint16_t bt_drv_reg_op_get_ibrt_sco_hdl(uint16_t acl_hdl) {
// FIXME
return acl_hdl | 0x100;
}
void bt_drv_reg_op_get_ibrt_address(uint8_t *addr) {
struct ld_device_info *mobile_device_info = 0;
BT_DRV_REG_OP_ENTER();
if (sniffer_env_addr) {
mobile_device_info = (struct ld_device_info *)(sniffer_env_addr + 4);
}
if (mobile_device_info) {
if (addr != NULL) {
memcpy(addr, (uint8_t *)mobile_device_info->bd_addr.addr, 6);
BT_DRV_TRACE(0, "BT_REG_OP:get mobile address");
DUMP8("%02x ", addr, 6);
}
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_set_tws_link_id(uint8_t link_id) {
// ASSERT();
BT_DRV_TRACE(1, "set tws link id =%x", link_id);
ASSERT(link_id < 3 || link_id == 0xff, "error tws link id set");
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_1) {
ASSERT(*(uint32_t *)0xc0006e28 == 0xc0006e2c, "PATCH ERROR!!");
*(uint32_t *)0xc0006e2c = link_id;
} else if (tws_link_id_addr) {
if (link_id == 0xff) {
link_id = 3;
}
*(uint8_t *)tws_link_id_addr = link_id;
}
}
void bt_drv_reg_op_hack_max_slot(uint8_t link_id, uint8_t slot) {
uint32_t acl_evt_ptr = 0x0;
uint32_t slot_addr;
uint32_t stop_lantency_addr = 0;
BT_DRV_TRACE(2, "hack slot id=%d,slot=%d", link_id, slot);
if (link_id >= 3)
return;
if (ld_acl_env_addr) {
acl_evt_ptr = *(uint32_t *)(ld_acl_env_addr + link_id * 4);
}
if (acl_evt_ptr) {
slot_addr = acl_evt_ptr + 0xc4;
stop_lantency_addr = acl_evt_ptr + 0x18;
*(uint8_t *)slot_addr = slot;
*(uint8_t *)stop_lantency_addr =
slot + 3 + (*(uint16_t *)(acl_evt_ptr + 150) > 128 ? 1 : 0);
}
}
void bt_drv_reg_op_rx_slot_stop_lantency_checker(void) {
uint32_t acl_evt_ptr = 0x0;
uint32_t slot_addr;
uint32_t stop_addr;
for (uint8_t i = 0; i < 3; i++) {
if (ld_acl_env_addr) {
acl_evt_ptr = *(uint32_t *)(ld_acl_env_addr + i * 4);
}
if (acl_evt_ptr) {
slot_addr = acl_evt_ptr + 0xc4;
stop_addr = acl_evt_ptr + 0x18;
BT_DRV_TRACE(
5, "id=%d,rx slot=%d stop=%d,acl_par: clk off 0x%x, bit off 0x%x", i,
*(uint8_t *)slot_addr, *(uint8_t *)stop_addr,
*(uint32_t *)(acl_evt_ptr + 140), *(uint16_t *)(acl_evt_ptr + 150));
}
}
}
void bt_drv_reg_op_fa_set(uint8_t en) {
if (hal_get_chip_metal_id() >= HAL_CHIP_METAL_ID_1) {
if (en) {
*(uint32_t *)0xd0220468 |= 0x00400000;
BT_DRV_TRACE(1, "%s", __func__);
} else {
*(uint32_t *)0xd0220468 &= ~0x00400000;
}
}
}
//////return true means controller had received a data packet
bool bt_drv_reg_op_check_seq_pending_status(void) {
if (pending_seq_error_link_addr) {
return (*(uint8_t *)pending_seq_error_link_addr == 3);
} else {
return TRUE;
}
}
/// if the flag is not clear when disconnect happened call this function
void bt_drv_reg_op_clear_seq_pending_status(void) {
if (pending_seq_error_link_addr) {
*(uint8_t *)pending_seq_error_link_addr = 3;
}
}
void bt_drv_reg_op_rssi_checker(void) {
// BT_DRV_TRACE(1,"rssi thd=%x",*(uint32_t *)0xc00041e4);
uint32_t acl_evt_ptr = 0x0;
uint32_t rssi_acc_addr;
uint32_t rssi_count_addr;
for (uint8_t i = 0; i < 3; i++) {
if (ld_acl_env_addr) {
acl_evt_ptr = *(uint32_t *)(ld_acl_env_addr + i * 4);
}
if (acl_evt_ptr) {
rssi_acc_addr = acl_evt_ptr + 0xac;
rssi_count_addr = acl_evt_ptr + 0xae;
BT_DRV_TRACE(3, "id=%d,rssi acc=%d count=%d", i,
*(int16_t *)rssi_acc_addr, *(uint8_t *)rssi_count_addr);
}
}
uint32_t lc_evt_ptr = 0x0;
uint32_t recv_addr;
for (uint8_t i = 0; i < 3; i++) {
if (lc_env_addr) {
lc_evt_ptr = *(volatile uint32_t *)(lc_env_addr + i * 4); // lc_env
}
if (lc_evt_ptr) {
recv_addr = lc_evt_ptr + 0x60;
BT_DRV_TRACE(2, "id=%d,recv=%x", i, *(uint32_t *)recv_addr);
}
}
}
void bt_drv_reg_op_set_link_policy(uint8_t linkid, uint8_t policy) {
BT_DRV_REG_OP_ENTER();
uint32_t lc_evt_ptr = 0x0;
uint32_t policy_addr;
if (linkid >= 0x3)
return;
BT_DRV_TRACE(2, "REG_OP: set link=%d, policy=%d", linkid, policy);
if (lc_env_addr) {
lc_evt_ptr = *(volatile uint32_t *)(lc_env_addr + linkid * 4); // lc_env
}
if (lc_evt_ptr) {
policy_addr = lc_evt_ptr + 0x2c;
*(uint8_t *)policy_addr = policy;
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_voice_settings_set(uint16_t voice_settings) {
uint32_t voice_settings_addr = 0;
if (hci_env_addr) {
voice_settings_addr = hci_env_addr + 90;
}
if (voice_settings_addr != 0) {
BT_DRV_TRACE(2, "Fast_bt_init1:%s %d", __func__, voice_settings);
*(uint16_t *)voice_settings_addr = voice_settings;
}
}
uint8_t bt_drv_reg_op_lmp_sco_hdl_get(uint16_t sco_handle) {
if (sco_handle == 0xffff) {
return 0;
}
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_1) {
// uint32_t lc_sco_env_addr = 0xc000079c;
uint16_t sco_link_id = ((sco_handle >> 8) - 1);
uint32_t link_params_addr =
*((uint32_t *)(lc_sco_env_addr + sco_link_id * 8));
uint8_t sync_hdl = 0;
if (sco_link_id > 2 || link_params_addr == 0) {
return 0;
}
sync_hdl = *((uint8_t *)(link_params_addr + 4));
return sync_hdl;
} else {
BT_DRV_TRACE(0, "BT_DRV:no need to get sco hdl\n");
}
return 0;
}
bool bt_drv_reg_op_lmp_sco_hdl_set(uint16_t sco_handle, uint8_t lmp_hdl) {
if (sco_handle == 0xffff || lmp_hdl == 0x00) {
return false;
}
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_1) {
// uint32_t lc_sco_env_addr = 0xc000079c;
uint16_t sco_link_id = ((sco_handle >> 8) - 1);
uint32_t link_params_addr =
*((uint32_t *)(lc_sco_env_addr + sco_link_id * 8));
uint8_t *p_sync_hdl = 0;
if (sco_link_id > 2 || link_params_addr == 0) {
return false;
}
p_sync_hdl = (uint8_t *)(link_params_addr + 4);
*p_sync_hdl = lmp_hdl;
return true;
} else {
BT_DRV_TRACE(0, "BT_DRV:no need to set sco hdl\n");
}
return false;
}
void bt_drv_reg_op_host_buff_and_flow_ctl_set(uint16_t acl_pkt_len,
uint16_t acl_pkt_num,
uint16_t sync_pkt_len,
uint16_t sync_pkt_num,
bool flow_ctl_en) {
uint32_t acl_pkt_len_addr = 0;
uint32_t acl_pkt_num_addr = 0;
uint32_t sync_pkt_len_addr = 0;
uint32_t sync_pkt_num_addr = 0;
uint32_t flow_ctl_addr = 0;
if (hci_fc_env_addr) {
flow_ctl_addr = hci_fc_env_addr;
}
if (flow_ctl_addr != 0) {
// hci_fc_env.host_set.acl_pkt_len
acl_pkt_len_addr = flow_ctl_addr + 2;
// hci_fc_env.host_set.acl_pkt_num
acl_pkt_num_addr = flow_ctl_addr + 4;
// hci_fc_env.host_set.sync_pkt_len;
sync_pkt_len_addr = flow_ctl_addr + 9;
// hci_fc_env.host_set.sync_pkt_nb;
sync_pkt_num_addr = flow_ctl_addr + 10;
BT_DRV_TRACE(6,
"Fast_bt_init2:%s,acl len=%x,acl num=%x,sync len=%x sync "
"num=%x,fl_ctl=%d",
__func__, acl_pkt_len, acl_pkt_num, sync_pkt_len, sync_pkt_num,
flow_ctl_en);
*(uint8_t *)flow_ctl_addr = flow_ctl_en;
*(uint16_t *)acl_pkt_len_addr = acl_pkt_len;
*(uint16_t *)acl_pkt_num_addr = acl_pkt_num;
*(uint8_t *)sync_pkt_len_addr = sync_pkt_len;
*(uint16_t *)sync_pkt_num_addr = sync_pkt_num;
}
}
void bt_drv_reg_op_page_to_set(uint16_t page_to) {
BT_DRV_REG_OP_ENTER();
uint32_t page_to_addr = 0;
if (lm_env_addr) {
page_to_addr = lm_env_addr + 20;
}
if (page_to_addr != 0) {
BT_DRV_TRACE(2, "Fast_bt_init3:%s,to=%x", __func__, page_to);
*(uint16_t *)page_to_addr = page_to;
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_btdm_address_set(uint8_t *bt_addr, uint8_t *ble_addr) {
BT_DRV_REG_OP_ENTER();
uint32_t btaddr_addr = 0;
uint32_t bleaddr_addr = 0;
uint32_t bch_addr = 0;
if (llm_le_env_addr) {
bleaddr_addr = llm_le_env_addr + 0x8f;
}
if (ld_env_addr) {
btaddr_addr = ld_env_addr;
bch_addr = btaddr_addr + 451;
}
if (bleaddr_addr != 0) {
BT_DRV_TRACE(1, "Fast_bt_init4:%s", __func__);
DUMP8("%02x ", bt_addr, 6);
DUMP8("%02x ", ble_addr, 6);
for (uint8_t i = 0; i < 6; i++) {
*(uint8_t *)(bleaddr_addr + i) = ble_addr[i];
}
for (uint8_t i = 0; i < 6; i++) {
*(uint8_t *)(btaddr_addr + i) = bt_addr[i];
}
ld_util_bch_create(bt_addr, (uint8_t *)bch_addr);
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_evtmask_set(uint8_t ble_en) {
BT_DRV_REG_OP_ENTER();
uint32_t bt_evtmsk_addr = 0;
uint32_t ble_evtmask_addr = 0;
if (llm_le_env_addr) {
ble_evtmask_addr = llm_le_env_addr + 0x64;
}
if (hci_env_addr) {
bt_evtmsk_addr = hci_env_addr;
}
if (bt_evtmsk_addr != 0) {
BT_DRV_TRACE(2, "Fast_bt_init5:%s,ble enable=%x", __func__, ble_en);
uint8_t bt_mask[8] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0x1f};
if (ble_en) {
bt_mask[7] = 0x3f;
}
memcpy((uint8_t *)bt_evtmsk_addr, bt_mask, 8);
uint8_t ble_mask[8] = {0x7f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
memcpy((uint8_t *)ble_evtmask_addr, ble_mask, 8);
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_simplepair_mode_set(uint8_t en) {
BT_DRV_REG_OP_ENTER();
if (lm_env_addr) {
*(uint8_t *)(lm_env_addr + 44) = en;
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_class_of_dev_set(uint8_t *class_of_dev, uint8_t len) {
BT_DRV_REG_OP_ENTER();
uint32_t class_of_dev_addr = 0;
if (ld_env_addr) {
// ld_env.class_of_dev.A
class_of_dev_addr = ld_env_addr + 6;
}
if (class_of_dev_addr != 0) {
BT_DRV_TRACE(1, "Fast_bt_init7:%s", __func__);
DUMP8("%02x ", class_of_dev, 3);
memcpy((uint8_t *)class_of_dev_addr, class_of_dev, 3);
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_sleep_set(bool en) {
BT_DRV_REG_OP_ENTER();
uint32_t sleep_addr = 0;
if (rwip_env_addr) {
sleep_addr = rwip_env_addr + 12;
}
if (sleep_addr != 0) {
BT_DRV_TRACE(2, "Fast_bt_init:%s en=%d", __func__, en);
*(uint8_t *)(sleep_addr) = en;
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_sco_fifo_reset(void) {
uint16_t sco_ptr0 = 0, sco_ptr1 = 0;
uint8_t *em_area_base = (uint8_t *)0xd0210000;
BT_DRV_REG_OP_ENTER();
BTDIGITAL_REG_GET_FIELD(0xd02201cc, 0xffff, 0, sco_ptr0);
BTDIGITAL_REG_GET_FIELD(0xd02201cc, 0xffff, 16, sco_ptr1);
BT_DRV_TRACE(3, "bt_drv_reg_op_sco_fifo_reset %d/%d %08x", sco_ptr0, sco_ptr1,
BTDIGITAL_REG(0xd02201cc));
memset(em_area_base + sco_ptr0, 0x55, 60);
memset(em_area_base + sco_ptr1, 0x55, 60);
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_sco_fifo_dump(void) {
uint16_t sco_ptr0 = 0, sco_ptr1 = 0;
uint8_t *em_area_base = (uint8_t *)0xd0210000;
BT_DRV_REG_OP_ENTER();
BTDIGITAL_REG_GET_FIELD(0xd02201cc, 0xffff, 0, sco_ptr0);
BTDIGITAL_REG_GET_FIELD(0xd02201cc, 0xffff, 16, sco_ptr1);
BT_DRV_TRACE(3, "bt_drv_reg_op_sco_fifo_reset %d/%d %08x", sco_ptr0, sco_ptr1,
BTDIGITAL_REG(0xd02201cc));
DUMP8("%02x ", em_area_base + sco_ptr0, 10);
DUMP8("%02x ", em_area_base + sco_ptr1, 10);
BT_DRV_REG_OP_EXIT();
}
uint8_t bt_drv_reg_op_get_sync_id_op(uint8_t op, uint8_t sync_id) {
uint8_t sync_link_id = 0xff;
BT_DRV_REG_OP_ENTER();
uint32_t sync_id_addr = 0;
// only 2300P chip id =1 need this hack
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_1) {
sync_id_addr = (sniffer_env_addr + 0x3c);
}
if (sync_id_addr != 0) {
if (READ_OP == op) {
sync_link_id = *(uint8_t *)(sync_id_addr);
} else if (WRITE_OP == op) {
*(uint8_t *)(sync_id_addr) = sync_id;
}
}
BT_DRV_REG_OP_EXIT();
return sync_link_id;
}
void bt_drv_reg_op_disable_reporting_en(uint16_t conhdl) {
BT_DRV_REG_OP_ENTER();
uint32_t lc_evt_ptr = 0x0;
uint32_t report_en_addr;
uint8_t linkid = btdrv_conhdl_to_linkid(conhdl);
if (btdrv_is_link_index_valid(linkid)) {
if (lc_env_addr) {
lc_evt_ptr = *(volatile uint32_t *)(lc_env_addr + linkid * 4); // lc_env
report_en_addr = lc_evt_ptr + 0x28a;
*(uint8_t *)report_en_addr = 0;
BT_DRV_TRACE(0, "REG_OP:disable afh report");
}
}
BT_DRV_REG_OP_EXIT();
}
uint8_t bt_drv_reg_opcheck_controller_ld_lc_layer_mismatch(void) {
uint8_t cnt = 0;
BT_DRV_REG_OP_ENTER();
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_1) {
for (uint8_t link_id = 0; link_id < 3; link_id++) {
uint32_t ld_acl_evt_ptr = 0;
uint32_t lc_evt_ptr = 0;
ld_acl_evt_ptr = *(uint32_t *)(ld_acl_env_addr + link_id * 4);
lc_evt_ptr = *(volatile uint32_t *)(lc_env_addr + link_id * 4);
if ((ld_acl_evt_ptr && !lc_evt_ptr) || (!ld_acl_evt_ptr && lc_evt_ptr)) {
cnt++;
}
}
}
BT_DRV_REG_OP_EXIT();
return cnt;
}
void bt_drv_reg_op_ble_sup_timeout_set(uint16_t ble_conhdl, uint16_t sup_to) {
uint32_t llc_env_ptr = 0;
if (llc_env_addr) {
uint32_t llc_env_address = llc_env_addr + ble_conhdl * 4;
llc_env_ptr = *(volatile uint32_t *)llc_env_address;
}
if (llc_env_ptr != 0) {
uint32_t llc_env_sup_to_address = llc_env_ptr + 0x54;
*(volatile uint16_t *)llc_env_sup_to_address = sup_to;
BT_DRV_TRACE(1, "BT_DRV:set ble sup_timeout to %d", sup_to);
}
}
void bt_drv_reg_op_disable_swagc_nosync_count(void) {
if (dbg_bt_setting_ext1_addr) {
*(uint16_t *)(dbg_bt_setting_ext1_addr + 0x14) = 0xa604;
}
}
void bt_drv_reg_op_hw_sw_agc_select(uint8_t agc_mode) {
uint32_t hw_agc_select_addr = 0;
BT_DRV_REG_OP_ENTER();
if (rwip_rf_addr) {
hw_agc_select_addr = rwip_rf_addr + 0x37;
}
if (hw_agc_select_addr != 0) {
*(volatile uint8_t *)hw_agc_select_addr = agc_mode;
}
BT_DRV_REG_OP_EXIT();
}
void ble_maxevtime_set(int elt_idx, uint16_t value) {
BTDIGITAL_EM_BT_WR(BLE_MAXEVTIME_ADDR + elt_idx * BLE_EM_CS_SIZE, value);
}
uint16_t ble_maxevtime_get(int elt_idx) {
return BTDIGITAL_BT_EM(BLE_MAXEVTIME_ADDR + elt_idx * BLE_EM_CS_SIZE);
}
void bt_drv_reg_op_afh_follow_en(bool enable, uint8_t be_followed_link_id,
uint8_t follow_link_id) {
#if BT_AFH_FOLLOW
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_2) {
*(uint8_t *)(lm_env_addr + 0x168) =
be_followed_link_id; // be follow follow link id
*(uint8_t *)(lm_env_addr + 0x169) = follow_link_id; // follow link id
*(uint8_t *)(lm_env_addr + 0x167) = enable; // afh follow enable
}
#endif
}
void bt_drv_reg_op_set_agc_thd(bool isMaster, bool isSco) {
BT_DRV_REG_OP_ENTER();
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_2) {
ASSERT(*(uint32_t *)0xc00072ec == 0xc0007310,
"patch ERROR 2300p t2 bt_drv_reg_op_set_agc_thd!");
BT_DRV_TRACE(1, "isMaster: %d, isSco: %d ", isMaster, isSco);
if (isMaster) {
if (isSco) {
BTDIGITAL_REG(0xc0007310) =
0x00000020; // link_agc_thd_mobile_time<6D><65> reg address<73><73>0xc0007310
BTDIGITAL_REG(0xc0007300) =
0x00000020; // link_agc_thd_tws_time<6D><65> reg address<73><73>0xc0007300
} else {
BTDIGITAL_REG(0xc0007310) =
0x00000038; // link_agc_thd_mobile_time<6D><65> reg address<73><73>0xc0007310
BTDIGITAL_REG(0xc0007300) =
0x00000038; // link_agc_thd_tws_time<6D><65> reg address<73><73>0xc0007300
}
} else {
if (isSco) {
BTDIGITAL_REG(0xc0007310) =
0x00000020; // link_agc_thd_mobile_time<6D><65> reg address<73><73>0xc0007310
BTDIGITAL_REG(0xc0007300) =
0x00000020; // link_agc_thd_tws_time<6D><65> reg address<73><73>0xc0007300
} else {
BTDIGITAL_REG(0xc0007310) =
0x00000038; // link_agc_thd_mobile_time<6D><65> reg address<73><73>0xc0007310
BTDIGITAL_REG(0xc0007300) =
0x00000038; // link_agc_thd_tws_time<6D><65> reg address<73><73>0xc0007300
}
}
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_force_set_sniff_att(uint16_t conhdle) {
BT_DRV_REG_OP_ENTER();
uint8_t linkid = btdrv_conhdl_to_linkid(conhdle);
uint32_t acl_evt_ptr = 0x0;
if (btdrv_is_link_index_valid(linkid)) {
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_1) {
acl_evt_ptr =
*(volatile uint32_t *)(0xc0000998 + linkid * 4); // ld_acl_env
} else if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_2) {
acl_evt_ptr =
*(volatile uint32_t *)(0xc00009d4 + linkid * 4); // ld_acl_env
}
if (acl_evt_ptr != 0) {
uint32_t sniff_att_addr = acl_evt_ptr + 0xe2;
if (BT_DRIVER_GET_U16_REG_VAL(sniff_att_addr) < 3) {
BT_DRIVER_PUT_U16_REG_VAL(sniff_att_addr, 3);
}
// set sniff timeout to 0
BT_DRIVER_PUT_U16_REG_VAL(sniff_att_addr + 4, 0);
BT_DRV_TRACE(0, "BT_REG_OP:force set sniff att");
}
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_fa_gain_direct_set(uint8_t gain_idx) {
BTDIGITAL_REG(0xd0220484) =
(BTDIGITAL_REG(0xd0220484) & (~0xffff)) | 0x9401 |
(gain_idx << 1); // lxd 20191105 fixed ecc receive gain
}
uint8_t bt_drv_reg_op_fa_gain_direct_get(void) {
uint32_t raw_reg = BTDIGITAL_REG(0xd0220484);
return (raw_reg >> 1) & 0x07;
}
struct rx_gain_fixed_t {
uint8_t enable; // enable or disable
uint8_t bt_or_ble; // 0:bt 1:ble
uint8_t cs_id; // link id
uint8_t gain_idx; // gain index
};
void bt_drv_reg_op_dgb_link_gain_ctrl_set(uint16_t connHandle,
uint8_t bt_ble_mode, uint8_t gain_idx,
uint8_t enable) {
if (hal_get_chip_metal_id() <= HAL_CHIP_METAL_ID_1) {
TRACE(1, "%s to all link", __func__);
uint16_t raw_reg = *((volatile uint16_t *)0xc00041ec);
if (bt_ble_mode) {
raw_reg = raw_reg & (~0xff << 8);
raw_reg = raw_reg | (gain_idx << 8);
} else {
raw_reg = raw_reg & ~0xff;
raw_reg = raw_reg | gain_idx;
}
*((volatile uint16_t *)0xc00041ec) = raw_reg;
}
struct rx_gain_fixed_t *rx_gain_fixed_p =
(struct rx_gain_fixed_t *)0xc00004dc;
uint8_t cs_id = btdrv_conhdl_to_linkid(connHandle);
if (btdrv_is_link_index_valid(cs_id)) {
for (uint8_t i = 0; i < 3; i++) {
if ((rx_gain_fixed_p->cs_id == cs_id) &&
(rx_gain_fixed_p->bt_or_ble == bt_ble_mode)) {
rx_gain_fixed_p->enable = enable;
rx_gain_fixed_p->bt_or_ble = bt_ble_mode;
rx_gain_fixed_p->gain_idx = gain_idx;
BT_DRV_TRACE(5, "%s hdl:%x/%x mode:%d idx:%d", __func__, connHandle,
cs_id, rx_gain_fixed_p->bt_or_ble, gain_idx);
}
rx_gain_fixed_p++;
}
}
}
void bt_drv_reg_op_dgb_link_gain_ctrl_clear(uint16_t connHandle,
uint8_t bt_ble_mode) {
if (hal_get_chip_metal_id() <= HAL_CHIP_METAL_ID_1) {
BT_DRV_TRACE(1, "%s REG_OP: not support", __func__);
}
struct rx_gain_fixed_t *rx_gain_fixed_p =
(struct rx_gain_fixed_t *)0xc00004dc;
uint8_t cs_id = btdrv_conhdl_to_linkid(connHandle);
if (btdrv_is_link_index_valid(cs_id)) {
for (uint8_t i = 0; i < 3; i++) {
if ((rx_gain_fixed_p->cs_id == cs_id) &&
(rx_gain_fixed_p->bt_or_ble == bt_ble_mode)) {
rx_gain_fixed_p->enable = 0;
rx_gain_fixed_p->bt_or_ble = bt_ble_mode;
rx_gain_fixed_p->gain_idx = 0;
}
rx_gain_fixed_p++;
}
}
}
void bt_drv_reg_op_dgb_link_gain_ctrl_init(void) {
if (hal_get_chip_metal_id() <= HAL_CHIP_METAL_ID_1) {
BT_DRV_TRACE(1, "%s REG_OP: not support", __func__);
}
struct rx_gain_fixed_t *rx_gain_fixed_p =
(struct rx_gain_fixed_t *)0xc00004dc;
for (uint8_t i = 0; i < 3; i++) {
rx_gain_fixed_p->cs_id = i;
rx_gain_fixed_p++;
}
}
void bt_drv_reg_op_rx_gain_fix(uint16_t connHandle, uint8_t bt_ble_mode,
uint8_t gain_idx, uint8_t enable,
uint8_t table_idx) {
if (hal_get_chip_metal_id() <= HAL_CHIP_METAL_ID_1) {
BT_DRV_TRACE(1, "%s REG_OP: not support", __func__);
}
struct rx_gain_fixed_t *rx_gain_fixed_p =
(struct rx_gain_fixed_t *)0xc00004dc;
uint8_t cs_id;
if (bt_ble_mode == 0) // bt
{
cs_id = btdrv_conhdl_to_linkid(connHandle);
} else if (bt_ble_mode == 1) // ble
{
cs_id = connHandle;
} else {
BT_DRV_TRACE(1, "%s:fix gain fail", __func__);
return;
}
if (table_idx < 3) {
rx_gain_fixed_p[table_idx].enable = enable;
rx_gain_fixed_p[table_idx].bt_or_ble = bt_ble_mode;
rx_gain_fixed_p[table_idx].cs_id = cs_id;
rx_gain_fixed_p[table_idx].gain_idx = gain_idx;
}
}
void bt_drv_reg_op_set_ibrt_auto_accept_sco(bool en) {
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_2) {
ASSERT(*(uint32_t *)0xc0007344 == 0xc0007348,
"ibrt_auto_accept_sco PATCH ERROR!!");
if (en) {
BTDIGITAL_REG(0xc0007348) = 1;
BT_DRV_TRACE(0, "BT_REG_OP:enable ibrt_auto_accept_sco");
} else {
BTDIGITAL_REG(0xc0007348) = 0;
}
}
}
void bt_drv_reg_op_update_dbg_state(void) {
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_2) {
ASSERT(*(uint32_t *)0xc00076a0 == 0xc00076a4,
"update_dbg_state PATCH ERROR!!");
BTDIGITAL_REG(0xc00076a4) = 1;
BT_DRV_TRACE(0, "BT_REG_OP:update_dbg_state");
}
}
void bt_drv_reg_op_set_ibrt_reject_sniff_req(bool en) {
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_2) {
ASSERT(*(uint32_t *)0xc0006e6c == 0xbb5ef615,
"ibrt_reject_sniff_req PATCH ERROR!!");
BTDIGITAL_REG(0xc0006e70) = en ? 1 : 0;
// BT_DRV_TRACE(1,"BT_REG_OP:ibrt reject sniff %d", en);
}
}
uint8_t bt_drv_reg_op_get_esco_nego_airmode(uint8_t sco_link_id) {
BT_DRV_REG_OP_ENTER();
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_2) {
// uint32_t lc_sco_env_addr = 0xc000079c;
uint32_t p_nego_params_addr =
*((uint32_t *)(lc_sco_env_addr + 4 + sco_link_id * 8));
uint8_t airmode = 0;
if (sco_link_id > 2 || p_nego_params_addr == 0) {
return 0xff;
}
airmode = *((uint8_t *)(p_nego_params_addr + 0x5e));
BT_DRV_TRACE(1, "BT_REG_OP:Get nego esco airmode=%d", airmode);
return airmode;
}
BT_DRV_REG_OP_EXIT();
return 0;
}
void bt_drv_reg_op_set_max_pwr_rcv(uint16_t connHandle) {
BT_DRV_REG_OP_ENTER();
uint32_t lc_evt_ptr = 0x0;
uint32_t max_power_rcv_addr;
uint8_t linkid = btdrv_conhdl_to_linkid(connHandle);
if (lc_env_addr) {
lc_evt_ptr = *(volatile uint32_t *)(lc_env_addr + linkid * 4); // lc_env
}
if (lc_evt_ptr) {
// lc_env_ptr->link.MaxPowerRcv
max_power_rcv_addr = lc_evt_ptr + 0x61;
*(bool *)max_power_rcv_addr = true;
BT_DRV_TRACE(1, "BT_REG_OP:conhdl=%x, max pwr recieve", connHandle);
}
BT_DRV_REG_OP_EXIT();
}
void bt_drv_reg_op_set_rand_seed(uint32_t seed) {
if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_1) {
*(volatile uint32_t *)(0xc0006890) = seed;
} else if (hal_get_chip_metal_id() == HAL_CHIP_METAL_ID_2) {
*(volatile uint32_t *)(0xc0006998) = seed;
}
}
uint32_t bt_drv_reg_op_get_host_ref_clk(void) { return 0; }
void bt_drv_reg_op_hci_vender_ibrt_ll_monitor(uint8_t *ptr, uint16_t *p_sum_err,
uint16_t *p_rx_total) {
const char *monitor_str[29] = {
"TX DM1", "TX DH1", "TX DM3", "TX DH3", "TX DM5",
"TX DH5", "TX 2DH1", "TX 3DH1", "TX 2DH3", "TX 3DH3",
"TX 2DH5", "TX 3DH5",
"RX DM1", "RX DH1", "RX DM3", "RX DH3", "RX DM5",
"RX DH5", "RX 2DH1", "RX 3DH1", "RX 2DH3", "RX 3DH3",
"RX 2DH5", "RX 3DH5", "hec error", "crc error", "fec error",
"gard error", "ecc count",
};
uint32_t *p = (uint32_t *)ptr;
uint32_t sum_err = 0;
uint32_t rx_data_sum = 0;
uint32_t val;
TRACE(0, "ibrt_ui_log:ll_monitor");
for (uint8_t i = 0; i < 29; i++) {
val = co_read32p(p);
if (val) {
if (i >= 12 && i <= 23) {
rx_data_sum += val;
}
if (i > 23) {
sum_err += val;
}
TRACE(2, "%s %d", monitor_str[i], val);
}
p += 4;
}
*p_sum_err = sum_err;
*p_rx_total = rx_data_sum;
}
uint8_t bt_drv_reg_op_bt_sync_swagc_en_get(void) { return 0; }
void bt_drv_reg_op_ecc_softbit_process(uint16_t *p_conn_handle1,
uint16_t *p_conn_handle2,
uint16_t length, uint8_t *data) {}
#if defined(PCM_FAST_MODE) && defined(PCM_PRIVATE_DATA_FLAG)
void bt_drv_reg_op_set_pcm_flag() {}
#endif
void bt_drv_reg_op_key_gen_after_reset(bool enable) {}