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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 All unpublished rights reserved.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 <stdio.h>
#include "cmsis_os.h"
#include "hal_uart.h"
#include "hal_timer.h"
#include "audioflinger.h"
#include "lockcqueue.h"
#include "hal_trace.h"
#include "hal_cmu.h"
#include "hal_chipid.h"
#include "analog.h"
#include "app_audio.h"
#include "app_status_ind.h"
#include "app_bt_stream.h"
#include "nvrecord.h"
#include "nvrecord_env.h"
//#include "nvrecord_dev.h"
#include "bluetooth.h"
#include "cqueue.h"
#ifdef MBED
#include "rtos.h"
#endif
#include "resources.h"
#include "app_spp_tota.h"
#include "app_tota_cmd_code.h"
#include "app_tota.h"
#include "app_spp.h"
#include "app_tota_cmd_handler.h"
#include "app_tota_data_handler.h"
#include "plat_types.h"
#include "sdp_api.h"
osMutexDef(tota_spp_gen_mutex);
static bool isTotaSppGeneralConnected = false;
static struct spp_device *tota_spp_gen_dev = NULL;
static struct spp_service *totaSppGenService = NULL;
static btif_sdp_record_t *tota_sdp_gen_record = NULL;
osThreadId tota_spp_gen_read_thread_id = NULL;
static app_spp_tota_tx_done_t app_spp_tota_gen_tx_done_func = NULL;
#if (TOTA_SHARE_TX_RX_BUF==1)
extern void app_spp_tota_share_buf_create(uint8_t** tota_tx_buf, uint8_t** tota_rx_buf);
extern bool app_spp_tota_is_to_share_buf(void);
extern uint8_t * app_spp_tota_share_tx_buf_get(void);
extern uint8_t * app_spp_tota_share_rx_buf_get(void);
extern uint16_t app_spp_tota_tx_buf_size(void);
#else
static uint8_t spp_rx_buf[SPP_RECV_BUFFER_SIZE];
static uint8_t totaSppGenTxBuf[TOTA_SPP_TX_BUF_SIZE];
#endif
static uint32_t occupiedTotaSppGenTxBufSize;
static uint32_t offsetToFillTotaSppGenTxData;
static uint8_t* ptrTotaSppGenTxBuf;
uint16_t app_spp_tota_gen_tx_buf_size(void)
{
return TOTA_SPP_TX_BUF_SIZE;
}
void app_spp_tota_gen_init_tx_buf(uint8_t* ptr)
{
ptrTotaSppGenTxBuf = ptr;
occupiedTotaSppGenTxBufSize = 0;
offsetToFillTotaSppGenTxData = 0;
}
static void app_spp_tota_gen_free_tx_buf(uint8_t* ptrData, uint32_t dataLen)
{
if (occupiedTotaSppGenTxBufSize > 0)
{
occupiedTotaSppGenTxBufSize -= dataLen;
}
TOTA_LOG_DBG(1,"occupiedTotaSppGenTxBufSize %d", occupiedTotaSppGenTxBufSize);
}
uint8_t* app_spp_tota_gen_fill_data_into_tx_buf(uint8_t* ptrData, uint32_t dataLen)
{
ASSERT((occupiedTotaSppGenTxBufSize + dataLen) < TOTA_SPP_TX_BUF_SIZE,
"Pending SPP General tx data has exceeded the tx buffer size !");
if ((offsetToFillTotaSppGenTxData + dataLen) > TOTA_SPP_TX_BUF_SIZE)
{
offsetToFillTotaSppGenTxData = 0;
}
uint8_t* filledPtr = ptrTotaSppGenTxBuf + offsetToFillTotaSppGenTxData;
memcpy(filledPtr, ptrData, dataLen);
offsetToFillTotaSppGenTxData += dataLen;
occupiedTotaSppGenTxBufSize += dataLen;
TOTA_LOG_DBG(3,"dataLen %d offsetToFillTotaSppGenTxData %d occupiedTotaSppGenTxBufSize %d",
dataLen, offsetToFillTotaSppGenTxData, occupiedTotaSppGenTxBufSize);
return filledPtr;
}
extern "C" APP_TOTA_CMD_RET_STATUS_E app_tota_data_received(uint8_t* ptrData, uint32_t dataLength);
extern "C" APP_TOTA_CMD_RET_STATUS_E app_tota_cmd_received(uint8_t* ptrData, uint32_t dataLength);
/****************************************************************************
* TOTA SPP SDP Entries
****************************************************************************/
#if 0
static const U8 TotaGenClassId[] = {
SDP_ATTRIB_HEADER_8BIT(3), /* Data Element Sequence, 6 bytes */
SDP_UUID_16BIT(SC_SERIAL_PORT), /* Hands-Free UUID in Big Endian */
};
//#else
/* 128 bit UUID in Big Endian a8b1fbc4-7855-4235-8633-ff36c8235e16 */
static const uint8_t TOTA_GENERAL_UUID_128[16] = {
0x16, 0x5e, 0x23, 0xc8, 0x36, 0xff, 0x33, 0x86, 0x35, 0x42, 0x55, 0x78, 0xc4, 0xfb, 0xb1, 0xa8};
/*---------------------------------------------------------------------------
*
* ServiceClassIDList
*/
static const U8 TotaGenClassId[] = {
SDP_ATTRIB_HEADER_8BIT(17), /* Data Element Sequence, 17 bytes */
SDP_UUID_128BIT(TOTA_GENERAL_UUID_128), /* 128 bit UUID in Big Endian */
};
#else
static const U8 TotaGenClassId[] = {
SDP_ATTRIB_HEADER_8BIT(17),
DETD_UUID + DESD_16BYTES,
0x8a,
0x48,\
0x2a,\
0x08,\
0x55,\
0x07,\
0x42,\
0xac,\
0xb6,\
0x73,\
0xa8,\
0x8d,\
0xf4,\
0x8b,\
0x3f,\
0xc7,
};
#endif
static const U8 TotaSppGenProtoDescList[] = {
SDP_ATTRIB_HEADER_8BIT(12), /* Data element sequence, 12 bytes */
/* Each element of the list is a Protocol descriptor which is a
* data element sequence. The first element is L2CAP which only
* has a UUID element.
*/
SDP_ATTRIB_HEADER_8BIT(3), /* Data element sequence for L2CAP, 3
* bytes
*/
SDP_UUID_16BIT(PROT_L2CAP), /* Uuid16 L2CAP */
/* Next protocol descriptor in the list is RFCOMM. It contains two
* elements which are the UUID and the channel. Ultimately this
* channel will need to filled in with value returned by RFCOMM.
*/
/* Data element sequence for RFCOMM, 5 bytes */
SDP_ATTRIB_HEADER_8BIT(5),
SDP_UUID_16BIT(PROT_RFCOMM), /* Uuid16 RFCOMM */
/* Uint8 RFCOMM channel number - value can vary */
SDP_UINT_8BIT(RFCOMM_CHANNEL_TOTA_GENERAL)
};
/*
* BluetoothProfileDescriptorList
*/
static const U8 TotaSppGenProfileDescList[] = {
SDP_ATTRIB_HEADER_8BIT(8), /* Data element sequence, 8 bytes */
/* Data element sequence for ProfileDescriptor, 6 bytes */
SDP_ATTRIB_HEADER_8BIT(6),
SDP_UUID_16BIT(SC_SERIAL_PORT), /* Uuid16 SPP */
SDP_UINT_16BIT(0x0102) /* As per errata 2239 */
};
/*
* * OPTIONAL * ServiceName
*/
static const U8 TotaSppGenServiceName1[] = {
SDP_TEXT_8BIT(8), /* Null terminated text string */
'S', 'p', 'p', 'G','e','n', '1','\0'
};
static const U8 TotaSppGenServiceName2[] = {
SDP_TEXT_8BIT(8), /* Null terminated text string */
'S', 'p', 'p', 'G','e','n', '2','\0'
};
/* SPP attributes.
*
* This is a ROM template for the RAM structure used to register the
* SPP SDP record.
*/
static sdp_attribute_t TotaSppGenSdpAttributes1[] = {
SDP_ATTRIBUTE(AID_SERVICE_CLASS_ID_LIST, TotaGenClassId),
SDP_ATTRIBUTE(AID_PROTOCOL_DESC_LIST, TotaSppGenProtoDescList),
SDP_ATTRIBUTE(AID_BT_PROFILE_DESC_LIST, TotaSppGenProfileDescList),
// SPP service name
SDP_ATTRIBUTE((AID_SERVICE_NAME + 0x0100), TotaSppGenServiceName1),
};
/*
static sdp_attribute_t TotaSppGenSdpAttributes2[] = {
SDP_ATTRIBUTE(AID_SERVICE_CLASS_ID_LIST, TotaGenClassId),
SDP_ATTRIBUTE(AID_PROTOCOL_DESC_LIST, TotaSppGenProtoDescList),
SDP_ATTRIBUTE(AID_BT_PROFILE_DESC_LIST, TotaSppGenProfileDescList),
// SPP service name
SDP_ATTRIBUTE((AID_SERVICE_NAME + 0x0100), TotaSppGenServiceName2),
};
*/
extern "C" void reset_programmer_state(unsigned char **buf, size_t *len);
extern unsigned char *g_buf;
extern size_t g_len;
static int tota_general_spp_handle_data_event_func(void *pDev, uint8_t process, uint8_t *pData, uint16_t dataLen)
{
TOTA_LOG_DBG(2,"[%s]data receive length = %d", __func__, dataLen);
TOTA_LOG_DUMP("[0x%x]", pData, dataLen);
// the first two bytes of the data packet is the fixed value 0xFFFF
app_tota_handle_received_data(pData, dataLen);
return 0;
}
#if 0
static void tota_spp_general_read_thread(const void *arg)
{
uint8_t buffer[TOTA_SPP_MAX_PACKET_SIZE];
U16 maxBytes;
while (1)
{
maxBytes = TOTA_SPP_MAX_PACKET_SIZE;
btif_spp_read(tota_spp_gen_dev, (char *)buffer, &maxBytes);
TOTA_LOG_DBG(2,"[%s]general data receive length = %d",__func__,maxBytes);
TOTA_LOG_DUMP("[0x%x]",buffer,maxBytes);
// the first two bytes of the data packet is the fixed value 0xFFFF
app_tota_handle_received_data(buffer, maxBytes);
}
}
static void app_spp_tota_gen_create_read_thread(void)
{
TOTA_LOG_DBG(2,"%s %d\n", __func__, __LINE__);
tota_spp_gen_read_thread_id = osThreadCreate(osThread(tota_spp_general_read_thread), NULL);
}
static void app_spp_tota_gen_close_read_thread(void)
{
TOTA_LOG_DBG(2,"%s %d\n", __func__, __LINE__);
if(tota_spp_gen_read_thread_id)
{
osThreadTerminate(tota_spp_gen_read_thread_id);
tota_spp_gen_read_thread_id = NULL;
}
}
#endif
static void spp_tota_gen_callback(struct spp_device *locDev, struct spp_callback_parms *Info)
{
TOTA_LOG_DBG(1,"%s",__func__);
if (BTIF_SPP_EVENT_REMDEV_CONNECTED == Info->event)
{
TOTA_LOG_DBG(1,"::SPP_GENERAL_EVENT_REMDEV_CONNECTED %d\n", Info->event);
isTotaSppGeneralConnected = true;
// app_spp_tota_gen_create_read_thread();
app_tota_general_connected(APP_TOTA_CONNECTED);
app_tota_update_datapath(APP_TOTA_GEN_VIA_SPP);
//conn_stop_connecting_mobile_supervising();
}
else if (BTIF_SPP_EVENT_REMDEV_DISCONNECTED == Info->event)
{
TOTA_LOG_DBG(1,"::SPP_GENERAL_EVENT_REMDEV_DISCONNECTED %d\n", Info->event);
isTotaSppGeneralConnected = false;
// app_spp_tota_gen_close_read_thread();
app_tota_disconnected(APP_TOTA_DISCONNECTED);
app_tota_update_datapath(APP_TOTA_PATH_IDLE);
app_spp_tota_gen_tx_done_func = NULL;
}
else if (BTIF_SPP_EVENT_DATA_SENT == Info->event)
{
//app_spp_tota_gen_free_tx_buf(Info->tx_buf, Info->tx_data_len);
struct spp_tx_done *pTxDone = (struct spp_tx_done *)(Info->p.other);
app_spp_tota_gen_free_tx_buf(pTxDone->tx_buf, pTxDone->tx_data_length);
if (app_spp_tota_gen_tx_done_func)
{
app_spp_tota_gen_tx_done_func();
}
}
else
{
TOTA_LOG_DBG(1,"::spp general unknown event %d\n", Info->event);
}
}
static void app_spp_tota_gen_send_data(uint8_t* ptrData, uint16_t length)
{
if (!isTotaSppGeneralConnected)
{
return;
}
btif_spp_write(tota_spp_gen_dev, (char *)ptrData, &length);
}
void app_tota_gen_send_cmd_via_spp(uint8_t* ptrData, uint32_t length)
{
uint8_t* ptrBuf = app_spp_tota_gen_fill_data_into_tx_buf(ptrData, length);
app_spp_tota_gen_send_data(ptrBuf, (uint16_t)length);
}
void app_tota_gen_send_data_via_spp(uint8_t* ptrData, uint32_t length)
{
TOTA_LOG_DBG(2,"[%s]tota gen send data length = %d",__func__,length);
uint8_t* ptrBuf = app_spp_tota_gen_fill_data_into_tx_buf(ptrData, length);
app_spp_tota_gen_send_data(ptrBuf, (uint16_t)length);
}
void app_spp_tota_gen_init(void)
{
uint8_t *rx_buf;
uint8_t *tx_buf;
osMutexId mid;
btif_sdp_record_param_t param;
if (tota_spp_gen_dev == NULL)
{
tota_spp_gen_dev = btif_create_spp_device();
}
if(app_spp_tota_is_to_share_buf() == true){
app_spp_tota_share_buf_create(&tx_buf,&rx_buf);
}
#if (TOTA_SHARE_TX_RX_BUF==0)
else{
rx_buf = &spp_rx_buf[0];
tx_buf = &totaSppGenTxBuf[0];
}
#endif
tota_spp_gen_dev->rx_buffer = rx_buf;
app_spp_tota_gen_init_tx_buf(tx_buf);
btif_spp_init_rx_buf(tota_spp_gen_dev, rx_buf, SPP_RECV_BUFFER_SIZE);
mid = osMutexCreate(osMutex(tota_spp_gen_mutex));
if (!mid) {
ASSERT(0, "cannot create mutex");
}
if (tota_sdp_gen_record == NULL)
tota_sdp_gen_record = btif_sdp_create_record();
param.attrs = &TotaSppGenSdpAttributes1[0],
param.attr_count = ARRAY_SIZE(TotaSppGenSdpAttributes1);
param.COD = BTIF_COD_MAJOR_PERIPHERAL;
btif_sdp_record_setup(tota_sdp_gen_record, &param);
if(totaSppGenService == NULL)
totaSppGenService = btif_create_spp_service();
totaSppGenService->rf_service.serviceId = RFCOMM_CHANNEL_TOTA_GENERAL;
totaSppGenService->numPorts = 0;
btif_spp_service_setup(tota_spp_gen_dev, totaSppGenService, tota_sdp_gen_record);
tota_spp_gen_dev->portType = BTIF_SPP_SERVER_PORT;
tota_spp_gen_dev->app_id = BTIF_APP_SPP_SERVER_TOTA_GENERAL_ID;
tota_spp_gen_dev->spp_handle_data_event_func = tota_general_spp_handle_data_event_func;
btif_spp_init_device(tota_spp_gen_dev, 5, mid);
btif_spp_open(tota_spp_gen_dev, NULL,spp_tota_gen_callback);
}
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