my fork
Diff: src/bluenrg_utils.c
- Revision:
- 4:987b201ec4b1
diff -r f57d754b1814 -r 987b201ec4b1 src/bluenrg_utils.c --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/bluenrg_utils.c Wed Apr 08 14:17:20 2015 +0000 @@ -0,0 +1,378 @@ + +#include "hal.h" +#include "hal_types.h" +#include "ble_status.h" +#include "bluenrg_aci.h" +#include "bluenrg_utils.h" +#include "hci.h" +#include "osal.h" +#include "string.h" +//#include "SDK_EVAL_Spi_Driver.h" + +#define SUPPORTED_BOOTLOADER_VERSION_MIN 3 +#define SUPPORTED_BOOTLOADER_VERSION_MAX 5 + +#define BASE_ADDRESS 0x10010000 + +#define FW_OFFSET (2*1024) // 2 KB +#define FULL_STACK_SIZE (66*1024) // 66 KB +#define BOOTLOADER_SIZE (2*1024) // 2 kB +#define DATA_SIZE 64 // 64 bytes +#define SECTOR_SIZE (2*1024) // 2 KB + +// x**32 + x**26 + x**23 + x ** 22 + x**16 + x**12 + x**11 + +// x**10 + x**8 + x**7 + x**5 + x**4 + x**2 + x**1 + x**0 +#define CRC_POLY 0x04C11DB7 // the poly without the x**32 + +#define IFR_SIZE 192 +#define IFR_BASE_ADDRESS 0x10020000 + +typedef struct{ + uint8_t cold_ana_act_config_table[64]; +}cold_table_TypeDef; + +static uint32_t updater_calc_crc(const uint8_t* data, uint16_t nr_of_bytes) +{ + uint32_t i, j, a1; + uint32_t crc, value; + + crc = 0; + for (i = 0; i < nr_of_bytes; i += 4) { + value = data[i]|((uint32_t)data[i+1]<<8)|((uint32_t)data[i+2]<<16)|((uint32_t)data[i+3]<<24); + + crc = crc ^ value; + for (j = 0; j < 32; j ++) { + a1 = (crc >> 31) & 0x1; + crc = (crc << 1) ^ (a1 * CRC_POLY); + } + } + return crc; +} + +int program_device(const uint8_t *fw_image, uint32_t fw_size, uint8_t skip_bootloader_verif) +{ + uint8_t version; + uint8_t verify_from_sector = 0; + uint8_t number_sectors; + uint8_t last_sector[SECTOR_SIZE]; + const uint8_t *last_image, *addr_image; + uint16_t last_size; + uint32_t address; + uint32_t crc, crc2; + tBleStatus ret; + + BlueNRG_HW_Bootloader(); + HCI_Process(); + + if(aci_get_updater_version(&version)) + return BLE_UTIL_ACI_ERROR; + + if(version < SUPPORTED_BOOTLOADER_VERSION_MIN || version > SUPPORTED_BOOTLOADER_VERSION_MAX) + return BLE_UTIL_UNSUPPORTED_VERSION; + + if(skip_bootloader_verif){ + verify_from_sector = 1; + } + + if (fw_size > FULL_STACK_SIZE) + return BLE_UTIL_WRONG_IMAGE_SIZE; + + /*********************************************************************** + * Erase BLUE flag + ************************************************************************/ + + if(aci_erase_blue_flag()) + return BLE_UTIL_ACI_ERROR; + + /*********************************************************************** + * Erase sectors + ************************************************************************/ + + for(int i = FW_OFFSET; i < FULL_STACK_SIZE; i += SECTOR_SIZE){ + ret = aci_updater_erase_sector(BASE_ADDRESS + i); + if(ret) return BLE_UTIL_ACI_ERROR; + HCI_Process(); + } + + /*********************************************************************** + * Flashing firmware + ************************************************************************/ + + /* Calculate the number of sectors necessary to contain the fw image. + If the fw image is the bootloader we need to add a sector because + the flashing start with an offset of 2 KB + */ + number_sectors = (fw_size / SECTOR_SIZE); + if (skip_bootloader_verif) + number_sectors++; + + for(int i = FW_OFFSET; i < (number_sectors*SECTOR_SIZE); i += DATA_SIZE){ + /* If bootloader image we need to subtract the 2KB offset */ + if (skip_bootloader_verif) + addr_image = fw_image + i - FW_OFFSET; + else + addr_image = fw_image + i; + ret = aci_updater_program_data_block(BASE_ADDRESS+i, DATA_SIZE, addr_image); + if(ret) return BLE_UTIL_ACI_ERROR; + HCI_Process(); + } + + /* If the image is not multiple of a sector size */ + if (fw_size % SECTOR_SIZE) { + /* If bootloader image we need to subtract the 2KB offset */ + if (skip_bootloader_verif) { + last_image = fw_image + (number_sectors-1) * SECTOR_SIZE; + last_size = fw_size -(number_sectors-1) * SECTOR_SIZE; + } else { + last_image = fw_image + number_sectors * SECTOR_SIZE; + last_size = fw_size - number_sectors * SECTOR_SIZE; + } + memset(last_sector, 0xFF, SECTOR_SIZE); + memcpy (last_sector, last_image, last_size); + address = BASE_ADDRESS + (number_sectors * SECTOR_SIZE); + for(int i = 0; i < SECTOR_SIZE; i += DATA_SIZE){ + ret = aci_updater_program_data_block(address+i, DATA_SIZE, last_sector+i); + if(ret) return BLE_UTIL_ACI_ERROR; + HCI_Process(); + } + } + + /*********************************************************************** + * Verify firmware + ************************************************************************/ + + for(int i = (verify_from_sector*SECTOR_SIZE); i < (number_sectors*SECTOR_SIZE); i += SECTOR_SIZE){ + address = BASE_ADDRESS + i; + if(aci_updater_calc_crc(address, 1, &crc)) + return BLE_UTIL_ACI_ERROR; + + /* If bootloader image we need to subtract the 2KB offset */ + if (skip_bootloader_verif) { + crc2 = updater_calc_crc(fw_image+i-FW_OFFSET,SECTOR_SIZE); + } else { + crc2 = updater_calc_crc(fw_image+i,SECTOR_SIZE); + } + + if(crc!=crc2) + return BLE_UTIL_CRC_ERROR; + + HCI_Process(); + } + + /* If the image is not multiple of a sector size */ + if (fw_size % SECTOR_SIZE) { + address = BASE_ADDRESS + (number_sectors*SECTOR_SIZE); + if(aci_updater_calc_crc(address, 1, &crc)) + return BLE_UTIL_ACI_ERROR; + + crc2 = updater_calc_crc(last_sector,SECTOR_SIZE); + + if(crc!=crc2) + return BLE_UTIL_CRC_ERROR; + + HCI_Process(); + + } + + if(aci_reset_blue_flag()) + return BLE_UTIL_ACI_ERROR; + + BlueNRG_RST(); + + HCI_Process(); + + return 0; +} + +int read_IFR(uint8_t *data) +{ + uint8_t version; + tBleStatus ret; + + aci_updater_start(); + if(aci_get_updater_version(&version)) + return BLE_UTIL_ACI_ERROR; + + if(version < SUPPORTED_BOOTLOADER_VERSION_MIN || version > SUPPORTED_BOOTLOADER_VERSION_MAX) + return BLE_UTIL_UNSUPPORTED_VERSION; + + /*********************************************************************** + * Reading last 3 IFR 64-byte blocks + ************************************************************************/ + + for(int i = 66*1024 - 3*64; i < 66*1024; i += 64){ + ret = aci_updater_read_data_block(BASE_ADDRESS+i, 64, data); + if(ret) return BLE_UTIL_ACI_ERROR; + } + + BlueNRG_RST(); + + return 0; + +} + +void parse_IFR_data_config(const uint8_t data[64], IFR_config2_TypeDef *IFR_config) +{ + IFR_config->stack_mode = data[0]; + IFR_config->slave_sca_ppm = LE_TO_HOST_16(data+28); + IFR_config->master_sca = data[30]; + IFR_config->hs_startup_time = LE_TO_HOST_16(data+32); + IFR_config->year = BCD_TO_INT(data[41]); + IFR_config->month = BCD_TO_INT(data[42]); + IFR_config->day = BCD_TO_INT(data[43]); +} + +int IFR_validate(IFR_config2_TypeDef *IFR_config) +{ + if(IFR_config->stack_mode < 1 || IFR_config->stack_mode > 3) + return BLE_UTIL_PARSE_ERROR; // Unknown Stack Mode + if(IFR_config->master_sca > 7) + return BLE_UTIL_PARSE_ERROR; // Invalid Master SCA + if(IFR_config->month > 12 || IFR_config->month < 1) + return BLE_UTIL_PARSE_ERROR; // Invalid date + if(IFR_config->day > 31 || IFR_config->day < 1) + return BLE_UTIL_PARSE_ERROR; // Invalid date + if(IFR_config->month > 12 || IFR_config->month < 1) + return BLE_UTIL_PARSE_ERROR; // Invalid date + + return 0; +} + +/* TODO: Function to generate data from given options. */ + +void change_IFR_data_config(IFR_config2_TypeDef *IFR_config, uint8_t data[64]) +{ + data[0] = IFR_config->stack_mode; + HOST_TO_LE_16(data+28, IFR_config->slave_sca_ppm); + data[30] = IFR_config->master_sca; + HOST_TO_LE_16(data+32, IFR_config->hs_startup_time); + data[41] = INT_TO_BCD(IFR_config->year); + data[42] = INT_TO_BCD(IFR_config->month); + data[43] = INT_TO_BCD(IFR_config->day); +} + + +int program_IFR(const IFR_config_TypeDef *ifr_image) +{ + uint8_t version; + tBleStatus ret; + uint8_t ifr_data[2*1024]; + + aci_updater_start(); + if(aci_get_updater_version(&version)) + return BLE_UTIL_ACI_ERROR; + + if(version < SUPPORTED_BOOTLOADER_VERSION_MIN || version > SUPPORTED_BOOTLOADER_VERSION_MAX) + return BLE_UTIL_UNSUPPORTED_VERSION; + + /*********************************************************************** + * READ IFR data + ************************************************************************/ + for(int i = 0; i < (2*1024); i += 64){ + ret = aci_updater_read_data_block(IFR_BASE_ADDRESS+i, 64, ifr_data+i); + if(ret != BLE_STATUS_SUCCESS){ + return ret; + } + } + + /*********************************************************************** + * Erase IFR sectors + ************************************************************************/ + ret = aci_updater_erase_sector(IFR_BASE_ADDRESS); + if(ret != BLE_STATUS_SUCCESS) + return BLE_UTIL_ACI_ERROR; + + /*********************************************************************** + * Flashing IFR + ************************************************************************/ + Osal_MemCpy(&ifr_data[2*1024-IFR_SIZE], ifr_image, IFR_SIZE); + for(int i = 0; i < (2*1024); i += 64){ + ret = aci_updater_program_data_block(IFR_BASE_ADDRESS+i, 64, ifr_data+i); + if(ret != BLE_STATUS_SUCCESS) + return BLE_UTIL_ACI_ERROR; + } + + /*********************************************************************** + * Verify IFR + ************************************************************************/ + { + uint8_t ifr_updated[64]; + for(int i = 0; i < (2*1024); i += 64){ + ret = aci_updater_read_data_block(IFR_BASE_ADDRESS+i, 64, ifr_updated); + if(ret != BLE_STATUS_SUCCESS){ + return ret; + } + if (memcmp(ifr_updated, ifr_data+i, 64) != 0) + return BLE_UTIL_WRONG_VERIFY; + } + } + + BlueNRG_RST(); + + return 0; +} + +uint8_t verify_IFR(const IFR_config_TypeDef *ifr_data) +{ + uint8_t ifr_updated[64]; + uint8_t version, ret; + + aci_updater_start(); + if(aci_get_updater_version(&version)) + return BLE_UTIL_ACI_ERROR; + for(int i = 0; i < (3*64); i += 64){ + ret = aci_updater_read_data_block((IFR_BASE_ADDRESS+2048-IFR_SIZE)+i, 64, ifr_updated); + if(ret != BLE_STATUS_SUCCESS){ + return ret; + } + if (memcmp(ifr_updated, ((uint8_t*)ifr_data)+i, 64) != 0) + return BLE_UTIL_WRONG_VERIFY; + } + + BlueNRG_RST(); + + return 0; +} + +uint8_t getBlueNRGVersion(uint8_t *hwVersion, uint16_t *fwVersion) +{ + uint8_t status; + uint8_t hci_version, lmp_pal_version; + uint16_t hci_revision, manufacturer_name, lmp_pal_subversion; + + status = hci_le_read_local_version(&hci_version, &hci_revision, &lmp_pal_version, + &manufacturer_name, &lmp_pal_subversion); + + if (status == BLE_STATUS_SUCCESS) { + *hwVersion = hci_revision >> 8; + *fwVersion = (hci_revision & 0xFF) << 8; // Major Version Number + *fwVersion |= ((lmp_pal_subversion >> 4) & 0xF) << 4; // Minor Version Number + *fwVersion |= lmp_pal_subversion & 0xF; // Patch Version Number + } + + HCI_Process(); + + return status; +} + +uint8_t getBlueNRGUpdaterVersion(uint8_t *version) +{ + HCI_Process(); + + BlueNRG_HW_Bootloader(); + + HCI_Process(); + + if(aci_get_updater_version(version)) + return BLE_UTIL_ACI_ERROR; + + if(*version < SUPPORTED_BOOTLOADER_VERSION_MIN || *version > SUPPORTED_BOOTLOADER_VERSION_MAX) + return BLE_UTIL_UNSUPPORTED_VERSION; + + BlueNRG_RST(); + + HCI_Process(); + + return BLE_STATUS_SUCCESS; +} +