#pragma once #include "hw_conf.h" #include "hw_if.h" #include #include #define CFG_TX_POWER (0x19) /* +0dBm */ #define CFG_IDENTITY_ADDRESS GAP_PUBLIC_ADDR /** * Define Advertising parameters */ #define CFG_ADV_BD_ADDRESS (0x7257acd87a6c) #define CFG_FAST_CONN_ADV_INTERVAL_MIN (0x80) /**< 80ms */ #define CFG_FAST_CONN_ADV_INTERVAL_MAX (0xa0) /**< 100ms */ #define CFG_LP_CONN_ADV_INTERVAL_MIN (0x640) /**< 1s */ #define CFG_LP_CONN_ADV_INTERVAL_MAX (0xfa0) /**< 2.5s */ /** * Define IO Authentication */ #define CFG_BONDING_MODE (1) #define CFG_FIXED_PIN (111111) #define CFG_USED_FIXED_PIN (1) #define CFG_ENCRYPTION_KEY_SIZE_MAX (16) #define CFG_ENCRYPTION_KEY_SIZE_MIN (8) /** * Define IO capabilities */ #define CFG_IO_CAPABILITY_DISPLAY_ONLY (0x00) #define CFG_IO_CAPABILITY_DISPLAY_YES_NO (0x01) #define CFG_IO_CAPABILITY_KEYBOARD_ONLY (0x02) #define CFG_IO_CAPABILITY_NO_INPUT_NO_OUTPUT (0x03) #define CFG_IO_CAPABILITY_KEYBOARD_DISPLAY (0x04) #define CFG_IO_CAPABILITY CFG_IO_CAPABILITY_DISPLAY_YES_NO /** * Define MITM modes */ #define CFG_MITM_PROTECTION_NOT_REQUIRED (0x00) #define CFG_MITM_PROTECTION_REQUIRED (0x01) #define CFG_MITM_PROTECTION CFG_MITM_PROTECTION_REQUIRED /** * Define Secure Connections Support */ #define CFG_SECURE_NOT_SUPPORTED (0x00) #define CFG_SECURE_OPTIONAL (0x01) #define CFG_SECURE_MANDATORY (0x02) #define CFG_SC_SUPPORT CFG_SECURE_OPTIONAL /** * Define Keypress Notification Support */ #define CFG_KEYPRESS_NOT_SUPPORTED (0x00) #define CFG_KEYPRESS_SUPPORTED (0x01) #define CFG_KEYPRESS_NOTIFICATION_SUPPORT CFG_KEYPRESS_NOT_SUPPORTED /** * Numeric Comparison Answers */ #define YES (0x01) #define NO (0x00) /** * Device name configuration for Generic Access Service */ #define CFG_GAP_DEVICE_NAME "TEMPLATE" #define CFG_GAP_DEVICE_NAME_LENGTH (8) /** * Define PHY */ #define ALL_PHYS_PREFERENCE 0x00 #define RX_2M_PREFERRED 0x02 #define TX_2M_PREFERRED 0x02 #define TX_1M 0x01 #define TX_2M 0x02 #define RX_1M 0x01 #define RX_2M 0x02 /** * Identity root key used to derive LTK and CSRK */ #define CFG_BLE_IRK \ { \ 0x12, 0x34, 0x56, 0x78, 0x9a, 0xbc, 0xde, 0xf0, 0x12, 0x34, 0x56, 0x78, 0x9a, 0xbc, 0xde, \ 0xf0 \ } /** * Encryption root key used to derive LTK and CSRK */ #define CFG_BLE_ERK \ { \ 0xfe, 0xdc, 0xba, 0x09, 0x87, 0x65, 0x43, 0x21, 0xfe, 0xdc, 0xba, 0x09, 0x87, 0x65, 0x43, \ 0x21 \ } /* USER CODE BEGIN Generic_Parameters */ /** * SMPS supply * SMPS not used when Set to 0 * SMPS used when Set to 1 */ #define CFG_USE_SMPS 1 /* USER CODE END Generic_Parameters */ /**< specific parameters */ /*****************************************************/ /** * AD Element - Group B Feature */ /* LSB - Second Byte */ #define CFG_FEATURE_OTA_REBOOT (0x20) /****************************************************************************** * BLE Stack ******************************************************************************/ /** * Maximum number of simultaneous connections that the device will support. * Valid values are from 1 to 8 */ #define CFG_BLE_NUM_LINK 1 /** * Maximum number of Services that can be stored in the GATT database. * Note that the GAP and GATT services are automatically added so this parameter should be 2 plus the number of user services */ #define CFG_BLE_NUM_GATT_SERVICES 8 /** * Maximum number of Attributes * (i.e. the number of characteristic + the number of characteristic values + the number of descriptors, excluding the services) * that can be stored in the GATT database. * Note that certain characteristics and relative descriptors are added automatically during device initialization * so this parameters should be 9 plus the number of user Attributes */ #define CFG_BLE_NUM_GATT_ATTRIBUTES 68 /** * Maximum supported ATT_MTU size */ #define CFG_BLE_MAX_ATT_MTU (256 + 128 + 16 + 8 + 4 + 2) /** * Size of the storage area for Attribute values * This value depends on the number of attributes used by application. In particular the sum of the following quantities (in octets) should be made for each attribute: * - attribute value length * - 5, if UUID is 16 bit; 19, if UUID is 128 bit * - 2, if server configuration descriptor is used * - 2*DTM_NUM_LINK, if client configuration descriptor is used * - 2, if extended properties is used * The total amount of memory needed is the sum of the above quantities for each attribute. */ #define CFG_BLE_ATT_VALUE_ARRAY_SIZE (1344) /** * Prepare Write List size in terms of number of packet */ #define CFG_BLE_PREPARE_WRITE_LIST_SIZE BLE_PREP_WRITE_X_ATT(CFG_BLE_MAX_ATT_MTU) /** * Number of allocated memory blocks */ #define CFG_BLE_MBLOCK_COUNT \ (BLE_MBLOCKS_CALC(CFG_BLE_PREPARE_WRITE_LIST_SIZE, CFG_BLE_MAX_ATT_MTU, CFG_BLE_NUM_LINK)) /** * Enable or disable the Extended Packet length feature. Valid values are 0 or 1. */ #define CFG_BLE_DATA_LENGTH_EXTENSION 1 /** * Sleep clock accuracy in Slave mode (ppm value) */ #define CFG_BLE_SLAVE_SCA 500 /** * Sleep clock accuracy in Master mode * 0 : 251 ppm to 500 ppm * 1 : 151 ppm to 250 ppm * 2 : 101 ppm to 150 ppm * 3 : 76 ppm to 100 ppm * 4 : 51 ppm to 75 ppm * 5 : 31 ppm to 50 ppm * 6 : 21 ppm to 30 ppm * 7 : 0 ppm to 20 ppm */ #define CFG_BLE_MASTER_SCA 0 /** * Source for the low speed clock for RF wake-up * 1 : external high speed crystal HSE/32/32 * 0 : external low speed crystal ( no calibration ) */ #define CFG_BLE_LSE_SOURCE 0 /** * Start up time of the high speed (16 or 32 MHz) crystal oscillator in units of 625/256 us (~2.44 us) */ #define CFG_BLE_HSE_STARTUP_TIME 0x148 /** * Maximum duration of the connection event when the device is in Slave mode in units of 625/256 us (~2.44 us) */ #define CFG_BLE_MAX_CONN_EVENT_LENGTH (0xFFFFFFFF) /** * Viterbi Mode * 1 : enabled * 0 : disabled */ #define CFG_BLE_VITERBI_MODE 1 /** * BLE stack Options flags to be configured with: * - SHCI_C2_BLE_INIT_OPTIONS_LL_ONLY * - SHCI_C2_BLE_INIT_OPTIONS_LL_HOST * - SHCI_C2_BLE_INIT_OPTIONS_NO_SVC_CHANGE_DESC * - SHCI_C2_BLE_INIT_OPTIONS_WITH_SVC_CHANGE_DESC * - SHCI_C2_BLE_INIT_OPTIONS_DEVICE_NAME_RO * - SHCI_C2_BLE_INIT_OPTIONS_DEVICE_NAME_RW * - SHCI_C2_BLE_INIT_OPTIONS_EXT_ADV * - SHCI_C2_BLE_INIT_OPTIONS_NO_EXT_ADV * - SHCI_C2_BLE_INIT_OPTIONS_CS_ALGO2 * - SHCI_C2_BLE_INIT_OPTIONS_NO_CS_ALGO2 * - SHCI_C2_BLE_INIT_OPTIONS_POWER_CLASS_1 * - SHCI_C2_BLE_INIT_OPTIONS_POWER_CLASS_2_3 * which are used to set following configuration bits: * (bit 0): 1: LL only * 0: LL + host * (bit 1): 1: no service change desc. * 0: with service change desc. * (bit 2): 1: device name Read-Only * 0: device name R/W * (bit 3): 1: extended advertizing supported [NOT SUPPORTED] * 0: extended advertizing not supported [NOT SUPPORTED] * (bit 4): 1: CS Algo #2 supported * 0: CS Algo #2 not supported * (bit 7): 1: LE Power Class 1 * 0: LE Power Class 2-3 * other bits: reserved (shall be set to 0) */ #define CFG_BLE_OPTIONS \ (SHCI_C2_BLE_INIT_OPTIONS_LL_HOST | SHCI_C2_BLE_INIT_OPTIONS_WITH_SVC_CHANGE_DESC | \ SHCI_C2_BLE_INIT_OPTIONS_DEVICE_NAME_RW | SHCI_C2_BLE_INIT_OPTIONS_NO_EXT_ADV | \ SHCI_C2_BLE_INIT_OPTIONS_NO_CS_ALGO2 | SHCI_C2_BLE_INIT_OPTIONS_POWER_CLASS_2_3) /** * Queue length of BLE Event * This parameter defines the number of asynchronous events that can be stored in the HCI layer before * being reported to the application. When a command is sent to the BLE core coprocessor, the HCI layer * is waiting for the event with the Num_HCI_Command_Packets set to 1. The receive queue shall be large * enough to store all asynchronous events received in between. * When CFG_TLBLE_MOST_EVENT_PAYLOAD_SIZE is set to 27, this allow to store three 255 bytes long asynchronous events * between the HCI command and its event. * This parameter depends on the value given to CFG_TLBLE_MOST_EVENT_PAYLOAD_SIZE. When the queue size is to small, * the system may hang if the queue is full with asynchronous events and the HCI layer is still waiting * for a CC/CS event, In that case, the notification TL_BLE_HCI_ToNot() is called to indicate * to the application a HCI command did not receive its command event within 30s (Default HCI Timeout). */ #define CFG_TLBLE_EVT_QUEUE_LENGTH 5 /** * This parameter should be set to fit most events received by the HCI layer. It defines the buffer size of each element * allocated in the queue of received events and can be used to optimize the amount of RAM allocated by the Memory Manager. * It should not exceed 255 which is the maximum HCI packet payload size (a greater value is a lost of memory as it will * never be used) * With the current wireless firmware implementation, this parameter shall be kept to 255 * */ #define CFG_TLBLE_MOST_EVENT_PAYLOAD_SIZE \ 255 /**< Set to 255 with the memory manager and the mailbox */ #define TL_BLE_EVENT_FRAME_SIZE (TL_EVT_HDR_SIZE + CFG_TLBLE_MOST_EVENT_PAYLOAD_SIZE) /****************************************************************************** * UART interfaces ******************************************************************************/ /** * Select UART interfaces */ #define CFG_DEBUG_TRACE_UART hw_uart1 #define CFG_CONSOLE_MENU 0 /****************************************************************************** * Low Power ******************************************************************************/ /** * When set to 1, the low power mode is enable * When set to 0, the device stays in RUN mode */ #define CFG_LPM_SUPPORTED 1 /****************************************************************************** * Timer Server ******************************************************************************/ /** * CFG_RTC_WUCKSEL_DIVIDER: This sets the RTCCLK divider to the wakeup timer. * The lower is the value, the better is the power consumption and the accuracy of the timerserver * The higher is the value, the finest is the granularity * * CFG_RTC_ASYNCH_PRESCALER: This sets the asynchronous prescaler of the RTC. It should as high as possible ( to ouput * clock as low as possible) but the output clock should be equal or higher frequency compare to the clock feeding * the wakeup timer. A lower clock speed would impact the accuracy of the timer server. * * CFG_RTC_SYNCH_PRESCALER: This sets the synchronous prescaler of the RTC. * When the 1Hz calendar clock is required, it shall be sets according to other settings * When the 1Hz calendar clock is not needed, CFG_RTC_SYNCH_PRESCALER should be set to 0x7FFF (MAX VALUE) * * CFG_RTCCLK_DIVIDER_CONF: * Shall be set to either 0,2,4,8,16 * When set to either 2,4,8,16, the 1Hhz calendar is supported * When set to 0, the user sets its own configuration * * The following settings are computed with LSI as input to the RTC */ #define CFG_RTCCLK_DIVIDER_CONF 0 #if(CFG_RTCCLK_DIVIDER_CONF == 0) /** * Custom configuration * It does not support 1Hz calendar * It divides the RTC CLK by 16 */ #define CFG_RTCCLK_DIV (16) #define CFG_RTC_WUCKSEL_DIVIDER (0) #define CFG_RTC_ASYNCH_PRESCALER (CFG_RTCCLK_DIV - 1) #define CFG_RTC_SYNCH_PRESCALER (0x7FFF) #else #if(CFG_RTCCLK_DIVIDER_CONF == 2) /** * It divides the RTC CLK by 2 */ #define CFG_RTC_WUCKSEL_DIVIDER (3) #endif #if(CFG_RTCCLK_DIVIDER_CONF == 4) /** * It divides the RTC CLK by 4 */ #define CFG_RTC_WUCKSEL_DIVIDER (2) #endif #if(CFG_RTCCLK_DIVIDER_CONF == 8) /** * It divides the RTC CLK by 8 */ #define CFG_RTC_WUCKSEL_DIVIDER (1) #endif #if(CFG_RTCCLK_DIVIDER_CONF == 16) /** * It divides the RTC CLK by 16 */ #define CFG_RTC_WUCKSEL_DIVIDER (0) #endif #define CFG_RTCCLK_DIV CFG_RTCCLK_DIVIDER_CONF #define CFG_RTC_ASYNCH_PRESCALER (CFG_RTCCLK_DIV - 1) #define CFG_RTC_SYNCH_PRESCALER (DIVR(LSE_VALUE, (CFG_RTC_ASYNCH_PRESCALER + 1)) - 1) #endif /** tick timer value in us */ #define CFG_TS_TICK_VAL DIVR((CFG_RTCCLK_DIV * 1000000), LSE_VALUE) typedef enum { CFG_TIM_PROC_ID_ISR, /* USER CODE BEGIN CFG_TimProcID_t */ /* USER CODE END CFG_TimProcID_t */ } CFG_TimProcID_t; /****************************************************************************** * Debug ******************************************************************************/ /** * When set, this resets some hw resources to set the device in the same state than the power up * The FW resets only register that may prevent the FW to run properly * * This shall be set to 0 in a final product * */ #define CFG_HW_RESET_BY_FW 0 /** * keep debugger enabled while in any low power mode when set to 1 * should be set to 0 in production */ #define CFG_DEBUGGER_SUPPORTED 1 /** * When set to 1, the traces are enabled in the BLE services */ #define CFG_DEBUG_BLE_TRACE 0 /** * Enable or Disable traces in application */ #define CFG_DEBUG_APP_TRACE 0 #if(CFG_DEBUG_APP_TRACE != 0) #define APP_DBG_MSG PRINT_MESG_DBG #else #define APP_DBG_MSG PRINT_NO_MESG #endif #if((CFG_DEBUG_BLE_TRACE != 0) || (CFG_DEBUG_APP_TRACE != 0)) #define CFG_DEBUG_TRACE 1 #endif #if(CFG_DEBUG_TRACE != 0) #undef CFG_LPM_SUPPORTED #undef CFG_DEBUGGER_SUPPORTED #define CFG_LPM_SUPPORTED 0 #define CFG_DEBUGGER_SUPPORTED 1 #endif /** * When CFG_DEBUG_TRACE_FULL is set to 1, the trace are output with the API name, the file name and the line number * When CFG_DEBUG_TRACE_LIGHT is set to 1, only the debug message is output * * When both are set to 0, no trace are output * When both are set to 1, CFG_DEBUG_TRACE_FULL is selected */ #define CFG_DEBUG_TRACE_LIGHT 0 #define CFG_DEBUG_TRACE_FULL 0 #if((CFG_DEBUG_TRACE != 0) && (CFG_DEBUG_TRACE_LIGHT == 0) && (CFG_DEBUG_TRACE_FULL == 0)) #undef CFG_DEBUG_TRACE_FULL #undef CFG_DEBUG_TRACE_LIGHT #define CFG_DEBUG_TRACE_FULL 0 #define CFG_DEBUG_TRACE_LIGHT 1 #endif #if(CFG_DEBUG_TRACE == 0) #undef CFG_DEBUG_TRACE_FULL #undef CFG_DEBUG_TRACE_LIGHT #define CFG_DEBUG_TRACE_FULL 0 #define CFG_DEBUG_TRACE_LIGHT 0 #endif /** * When not set, the traces is looping on sending the trace over UART */ #define DBG_TRACE_USE_CIRCULAR_QUEUE 0 /** * max buffer Size to queue data traces and max data trace allowed. * Only Used if DBG_TRACE_USE_CIRCULAR_QUEUE is defined */ #define DBG_TRACE_MSG_QUEUE_SIZE 4096 #define MAX_DBG_TRACE_MSG_SIZE 1024 #define CFG_OTP_BASE_ADDRESS OTP_AREA_BASE #define CFG_OTP_END_ADRESS OTP_AREA_END_ADDR