pinebuds/services/nv_section/fpga_section/nvrecord_ble.c

/***************************************************************************
 *
 * 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 All unpublished rights reserved.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.
 *
 ****************************************************************************/
#if defined(NEW_NV_RECORD_ENABLED)
#include <string.h>
#include <stdbool.h>
#include <assert.h>
#include "nvrecord_extension.h"
#include "nvrecord_ble.h"
#include "hal_trace.h"
#include "co_math.h"
#include "tgt_hardware.h"
#include "hal_timer.h"
#include "besbt.h"

#define ble_nv_debug
#ifdef ble_nv_debug
#define ble_trace TRACE
#else
#define ble_trace
#endif

static NV_RECORD_PAIRED_BLE_DEV_INFO_T *nvrecord_ble_p = NULL;
static uint8_t INVALID_ADDR[BTIF_BD_ADDR_SIZE]         = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};

void nvrecord_rebuild_paired_ble_dev_info(NV_RECORD_PAIRED_BLE_DEV_INFO_T *pPairedBtInfo)
{
    memset(( uint8_t * )pPairedBtInfo, 0, sizeof(NV_RECORD_PAIRED_BLE_DEV_INFO_T));
    pPairedBtInfo->saved_list_num = 0;  //init saved num

    uint8_t index;
    //avoid ble irk collision low probability
    uint32_t generatedSeed = hal_sys_timer_get();
    for (uint8_t index = 0; index < sizeof(bt_addr); index++)
    {
        generatedSeed ^= (((uint32_t)(bt_addr[index])) << (hal_sys_timer_get() & 0xF));
    }
    srand(generatedSeed);

    // generate a new IRK
    for (index = 0; index < BLE_IRK_SIZE; index++)
    {
        pPairedBtInfo->self_info.ble_irk[index] = ( uint8_t )co_rand_word();
    }
}

static bool blerec_specific_value_prepare(const BleDeviceinfo *param_rec)
{
    // Preparations before adding new ble record:
    // 1. If not existing. Check the record count. If it's BLE_RECORD_NUM,
    //     move 0-(BLE_RECORD_NUM-2) right side by one slot, to discard the last one and
    //     leave slot 0, decrease the record number.
    //     If it's smaller than BLE_RECORD_NUM, move 0-(count-1) right side by one slot, leave slot 0,
    //     don't change the record number.
    // 2. If existing already and the location is entryToFree , move 0-(entryToFree-1)
    //        right side by one slot, leave slot 0. Decrease the record number for adding the new one.

    bool isEntryExisting = false;
    uint8_t entryToFree  = 0;
    NV_RECORD_PAIRED_BLE_DEV_INFO_T *dest_ptr;

    dest_ptr = nvrecord_ble_p;
    TRACE(3,"%s start search addr %p  list_num=%d", __func__, dest_ptr, dest_ptr->saved_list_num);

    if (dest_ptr->saved_list_num > 0)
    {
        for (uint8_t i = 0; i < dest_ptr->saved_list_num; i++)
        {
            if (0 == memcmp(dest_ptr->ble_nv[i].peer_bleAddr, param_rec->peer_bleAddr, BLE_ADDR_SIZE))
            {
                ble_trace(2,"%s Find the existing entry %d", __func__, i);
                DUMP8("%02x ", ( uint8_t * )param_rec, sizeof(BleDeviceinfo));
                DUMP8("%02x ", ( uint8_t * )&dest_ptr->ble_nv[i], sizeof(BleDeviceinfo));
                if (!memcmp(( uint8_t * )param_rec, ( uint8_t * )&dest_ptr->ble_nv[i], sizeof(BleDeviceinfo)))
                {
                    ble_trace(0,"The new coming BLE device info is the same as the recorded.");
                    return false;
                }
                memset(&(dest_ptr->ble_nv[i]), 0, sizeof(BleDeviceinfo));
                entryToFree = i;
                dest_ptr->saved_list_num--;
                isEntryExisting = true;
                break;
            }
        }
    }
    else
    {
        return true;
    }

    if (!isEntryExisting)
    {
        if (BLE_RECORD_NUM == dest_ptr->saved_list_num)
        {
            TRACE(0,"<=====>blerec list is full,delete the oldest and add param_rec to list");
            for (uint8_t k = 0; k < BLE_RECORD_NUM - 1; k++)
            {
                memcpy(&(dest_ptr->ble_nv[BLE_RECORD_NUM - 1 - k]),
                       &(dest_ptr->ble_nv[BLE_RECORD_NUM - 2 - k]),
                       sizeof(BleDeviceinfo));
            }
            dest_ptr->saved_list_num--;
        }
        else
        {
            for (uint8_t k = 0; k < dest_ptr->saved_list_num; k++)
            {
                memcpy(&(dest_ptr->ble_nv[dest_ptr->saved_list_num - k]),
                       &(dest_ptr->ble_nv[dest_ptr->saved_list_num - 1 - k]),
                       sizeof(BleDeviceinfo));
            }
        }
    }
    else
    {
        for (uint8_t list_updata = 0; list_updata < entryToFree; list_updata++)
        {
            memcpy(&(dest_ptr->ble_nv[entryToFree - list_updata]),
                   &(dest_ptr->ble_nv[entryToFree - list_updata - 1]),
                   sizeof(BleDeviceinfo));
        }
    }

    return true;
}

void nv_record_blerec_init(void)
{
    uint32_t lock = nv_record_pre_write_operation();
    if (NULL == nvrecord_ble_p)
    {
        nvrecord_ble_p = &(nvrecord_extension_p->ble_pair_info);
        if (!memcmp(nvrecord_ble_p->self_info.ble_addr, INVALID_ADDR, BTIF_BD_ADDR_SIZE))
        {
            memcpy(nvrecord_ble_p->self_info.ble_addr, bt_get_ble_local_address(), BTIF_BD_ADDR_SIZE);
        }
    }
    nv_record_post_write_operation(lock);
}

NV_RECORD_PAIRED_BLE_DEV_INFO_T* nv_record_blerec_get_ptr(void)
{
   return nvrecord_ble_p;
}

void nv_record_blerec_get_local_irk(uint8_t *pIrk)
{
    memcpy(pIrk, nvrecord_ble_p->self_info.ble_irk, BLE_IRK_SIZE);
}

bool nv_record_blerec_get_bd_addr_from_irk(uint8_t *pBdAddr, uint8_t *pIrk)
{
    if (nvrecord_ble_p->saved_list_num > 0)
    {
        for (uint8_t index = 0; index < nvrecord_ble_p->saved_list_num; index++)
        {
            if (!memcmp(pIrk, nvrecord_ble_p->ble_nv[index].IRK, BLE_IRK_SIZE))
            {
                memcpy(pBdAddr, nvrecord_ble_p->ble_nv[index].peer_bleAddr, BLE_ADDR_SIZE);
                return true;
            }
        }
        return false;
    }
    else
    {
        return false;
    }
}

int nv_record_blerec_add(const BleDeviceinfo *param_rec)
{
    int nRet = 0;

    uint8_t isNeedToUpdateNv = true;
    isNeedToUpdateNv         = blerec_specific_value_prepare(param_rec);

    if (isNeedToUpdateNv)
    {
        uint32_t lock = nv_record_pre_write_operation();

        //add device info into nv struct
        memcpy(nvrecord_ble_p->ble_nv[0].peer_bleAddr, param_rec->peer_bleAddr, BLE_ADDR_SIZE);  //addr
        nvrecord_ble_p->ble_nv[0].EDIV = param_rec->EDIV;                                        //EDIV
        memcpy(nvrecord_ble_p->ble_nv[0].RANDOM, param_rec->RANDOM, BLE_ENC_RANDOM_SIZE);        //RANDOM
        memcpy(nvrecord_ble_p->ble_nv[0].LTK, param_rec->LTK, BLE_LTK_SIZE);                     //LTK
        memcpy(nvrecord_ble_p->ble_nv[0].IRK, param_rec->IRK, BLE_IRK_SIZE);                     //IRK
        nvrecord_ble_p->ble_nv[0].bonded = param_rec->bonded;                                    //bond status
        nvrecord_ble_p->saved_list_num++;                                                        //updata saved num
        nv_record_post_write_operation(lock);

        nv_record_update_runtime_userdata();
        nv_record_execute_async_flush();
        TRACE(2,"%s CURRENT BLE LIST NUM=%d", __func__, nvrecord_ble_p->saved_list_num);
    }

#ifdef ble_nv_debug
    for (uint8_t k = 0; k < nvrecord_ble_p->saved_list_num; k++)
    {
        TRACE(0,"=========================================");
        TRACE(1,"Num %d BLE record:", k);
        TRACE(0,"BLE addr:");
        DUMP8("%02x ", ( uint8_t * )nvrecord_ble_p->ble_nv[k].peer_bleAddr, BLE_ADDR_SIZE);
        TRACE(1,"NV EDIV %d and random is:", nvrecord_ble_p->ble_nv[k].EDIV);
        DUMP8("%02x ", ( uint8_t * )nvrecord_ble_p->ble_nv[k].RANDOM, BLE_ENC_RANDOM_SIZE);
        TRACE(0,"NV LTK:");
        DUMP8("%02x ", ( uint8_t * )nvrecord_ble_p->ble_nv[k].LTK, BLE_LTK_SIZE);
        TRACE(0,"NV irk:");
        DUMP8("%02x ", ( uint8_t * )nvrecord_ble_p->ble_nv[k].IRK, BLE_IRK_SIZE);
    }
#endif
    return nRet;
}

uint8_t nv_record_ble_fill_irk(uint8_t *irkToFill)
{
    NV_RECORD_PAIRED_BLE_DEV_INFO_T *find_ptr = nvrecord_ble_p;

    if ((NULL == find_ptr) || (0 == find_ptr->saved_list_num))
    {
        return 0;
    }

    if (find_ptr->saved_list_num > 0)
    {
        for (uint8_t index = 0; index < find_ptr->saved_list_num; index++)
        {
            memcpy(irkToFill + index * BLE_IRK_SIZE, find_ptr->ble_nv[index].IRK, BLE_IRK_SIZE);
        }
        return find_ptr->saved_list_num;
    }
    else
    {
        return 0;
    }
}

//when master send encription req,if bonded,use ltk to bonding again(skip the pair step)
bool nv_record_ble_record_find_ltk_through_static_bd_addr(uint8_t *pBdAddr, uint8_t *ltk)
{
    NV_RECORD_PAIRED_BLE_DEV_INFO_T *find_ptr = nvrecord_ble_p;

    if ((NULL == find_ptr) || (0 == find_ptr->saved_list_num))
    {
        TRACE(3,"%s find data failed, ptr:%x, list_num:%d", __func__, (uint32_t)find_ptr, find_ptr->saved_list_num);
        return false;
    }

    for (uint8_t find_index = 0; find_index < find_ptr->saved_list_num; find_index++)
    {
        if (!memcmp(find_ptr->ble_nv[find_index].peer_bleAddr, pBdAddr, BLE_ADDR_SIZE))
        {
            ble_trace(2,"%s FIND LTK IN NV SUCCESS %p", __func__, find_ptr->ble_nv[find_index].LTK);
            memcpy(ltk, find_ptr->ble_nv[find_index].LTK, BLE_LTK_SIZE);
            return true;
        }
    }
    return false;
}

bool nv_record_ble_record_Once_a_device_has_been_bonded(void)
{
    NV_RECORD_PAIRED_BLE_DEV_INFO_T *find_ptr = nvrecord_ble_p;

    if ((NULL == find_ptr) || (0 == find_ptr->saved_list_num))
    {
        return false;
    }

    for (uint8_t find_index = 0; find_index < find_ptr->saved_list_num; find_index++)
    {
        if (find_ptr->ble_nv[find_index].bonded == true)
        {
            return true;
        }
    }
    return false;
}

void nv_record_ble_delete_entry(uint8_t *pBdAddr)
{
    NV_RECORD_PAIRED_BLE_DEV_INFO_T *find_ptr = nvrecord_ble_p;

    if ((NULL == find_ptr) || (0 == find_ptr->saved_list_num))
    {
        return;
    }

    int8_t indexToDelete = -1;

    for (uint8_t find_index = 0; find_index < find_ptr->saved_list_num; find_index++)
    {
        if (!memcmp(find_ptr->ble_nv[find_index].peer_bleAddr, pBdAddr, BLE_ADDR_SIZE))
        {
            indexToDelete = find_index;
            break;
        }
    }

    if (indexToDelete >= 0)
    {
        uint32_t lock = nv_record_pre_write_operation();

        uint8_t index;
        for (index = indexToDelete; index < find_ptr->saved_list_num - 1; index++)
        {
            memcpy(&(find_ptr->ble_nv[index]),
                   &(find_ptr->ble_nv[index + 1]),
                   sizeof(BleDeviceinfo));
        }

        memset(( uint8_t * )&(find_ptr->ble_nv[index]), 0, sizeof(BleDeviceinfo));
        find_ptr->saved_list_num--;
        nv_record_update_runtime_userdata();
        nv_record_post_write_operation(lock);
    }
}

#ifdef TWS_SYSTEM_ENABLED
static bool tws_use_same_ble_addr(uint8_t *peer_ble_addr)
{
    TRACE(1,"[%s] peer addr:", __func__);
    DUMP8("%x ", peer_ble_addr, BTIF_BD_ADDR_SIZE);

    NV_EXTENSION_RECORD_T *pNvExtRec = nv_record_get_extension_entry_ptr();

    if (!memcmp(pNvExtRec->ble_pair_info.self_info.ble_addr, peer_ble_addr, BTIF_BD_ADDR_SIZE))
    {
        return true;
    }

    return false;
}

void nv_record_extension_update_tws_ble_info(NV_RECORD_PAIRED_BLE_DEV_INFO_T *info)
{
    ASSERT(info, "null pointer received in [%s]", __func__);

    bool isNvExtentionPendingForUpdate = false;
    NV_EXTENSION_RECORD_T *pNvExtRec = nv_record_get_extension_entry_ptr();

    if (tws_use_same_ble_addr(info->self_info.ble_addr))
    {
        if (memcmp(&pNvExtRec->ble_pair_info.self_info, &info->self_info, sizeof(BLE_BASIC_INFO_T)))
        {
            TRACE(0,"save the peer ble info to self_info");
            memcpy(&pNvExtRec->ble_pair_info.self_info, &info->self_info, sizeof(BLE_BASIC_INFO_T));
            nv_record_extension_update();
            isNvExtentionPendingForUpdate = true;
        }
    }

    if (memcmp(&pNvExtRec->tws_info.ble_info, &info->self_info, sizeof(BLE_BASIC_INFO_T)))
    {
        TRACE(0,"save the peer ble info to tws_info");
        memcpy(&pNvExtRec->tws_info.ble_info, &info->self_info, sizeof(BLE_BASIC_INFO_T));
        nv_record_extension_update();
        isNvExtentionPendingForUpdate = true;
    }

    if (isNvExtentionPendingForUpdate)
    {
        nv_record_execute_async_flush();
    }

    TRACE(0,"peer addr:");
    DUMP8("0x%02x ", pNvExtRec->tws_info.ble_info.ble_addr,BTIF_BD_ADDR_SIZE);
    TRACE(0,"peer irk");
    DUMP8("0x%02x ", pNvExtRec->tws_info.ble_info.ble_irk, BLE_IRK_SIZE);
}

void nv_record_tws_exchange_ble_info(void)
{
    TRACE(1,"[%s]+++", __func__);
    return;
    NV_EXTENSION_RECORD_T *pNvExtRec = nv_record_get_extension_entry_ptr();
    uint8_t ble_address[6] = {0, 0, 0, 0, 0, 0};

    if (tws_use_same_ble_addr(pNvExtRec->tws_info.ble_info.ble_addr))
    {
        TRACE(0,"tws use same ble addr");
        return;
    }

    if (!memcmp(pNvExtRec->tws_info.ble_info.ble_addr, ble_address, BTIF_BD_ADDR_SIZE))
    {
        TRACE(0,"don't have tws ble addr");
        return;
    }

#ifdef BLE_USE_RPA
    uint8_t temp_ble_irk[BLE_IRK_SIZE];
    memcpy(temp_ble_irk, pNvExtRec->ble_pair_info.self_info.ble_irk, BLE_IRK_SIZE);
    memcpy(pNvExtRec->ble_pair_info.self_info.ble_irk, pNvExtRec->tws_info.ble_info.ble_irk, BLE_IRK_SIZE);
    memcpy(pNvExtRec->tws_info.ble_info.ble_irk, temp_ble_irk, BLE_IRK_SIZE);
    TRACE(0,"current local ble irk:");
    DUMP8("0x%02x ", pNvExtRec->ble_pair_info.self_info.ble_irk, BLE_IRK_SIZE);
#else
    uint8_t temp_ble_addr[BTIF_BD_ADDR_SIZE];
    memcpy(temp_ble_addr, pNvExtRec->ble_pair_info.self_info.ble_addr, BTIF_BD_ADDR_SIZE);
    memcpy(pNvExtRec->ble_pair_info.self_info.ble_addr, pNvExtRec->tws_info.ble_info.ble_addr, BTIF_BD_ADDR_SIZE);
    memcpy(pNvExtRec->tws_info.ble_info.ble_addr, temp_ble_addr, BTIF_BD_ADDR_SIZE);
    memcpy(bt_get_ble_local_address(), pNvExtRec->ble_pair_info.self_info.ble_addr, BTIF_BD_ADDR_SIZE);
    TRACE(0,"current local ble addr:");
    DUMP8("0x%02x ", pNvExtRec->ble_pair_info.self_info.ble_addr, BTIF_BD_ADDR_SIZE);

    bt_set_ble_local_address(pNvExtRec->ble_pair_info.self_info.ble_addr);
#endif

    nv_record_extension_update();
    TRACE(1,"[%s]---", __func__);
}

uint8_t *nv_record_tws_get_self_ble_info(void)
{
    TRACE(1,"[%s]+++", __func__);
    NV_EXTENSION_RECORD_T *pNvExtRec = nv_record_get_extension_entry_ptr();

    TRACE(0,"current local ble addr:");
    DUMP8("0x%02x ", pNvExtRec->ble_pair_info.self_info.ble_addr, BTIF_BD_ADDR_SIZE);

    TRACE(1,"[%s]---", __func__);
    return pNvExtRec->ble_pair_info.self_info.ble_addr;
}
#endif

#endif  //#if defined(NEW_NV_RECORD_ENABLED)