/** @file hal/micro/cortexm3/token-manufacturing.h * @brief Definitions for manufacturing tokens. * * This file should not be included directly. It is accessed by the other * token files. * * Please see hal/micro/token.h for a full explanation of the tokens. * * The tokens listed below are the manufacturing tokens. * * Since this file contains both the typedefs and the token defs, there are * two \#defines used to select which one is needed when this file is included. * \#define DEFINETYPES is used to select the type definitions and * \#define DEFINETOKENS is used to select the token definitions. * Refer to token.h and token.c to see how these are used. * * */ /** * @name Convenience Macros * @brief The following convenience macros are used to simplify the definition * process for commonly specified parameters to the basic TOKEN_DEF macro. * Please see hal/micro/token.h for a more complete explanation. *@{ */ #define DEFINE_MFG_TOKEN(name, type, address, ...) \ TOKEN_NEXT_ADDRESS(name,(address)) \ TOKEN_MFG(name, CREATOR_##name, 0, 0, type, 1, __VA_ARGS__) /** @} END Convenience Macros */ ////////////////////////////////////////////////////////////////////////////// // MANUFACTURING DATA // *the addresses of these tokens must not change* // MANUFACTURING CREATORS // The creator codes are here in one list instead of next to their token // definitions so comparision of the codes is easier. The only requirement // on these creator definitions is that they all must be unique. A favorite // method for picking creator codes is to use two ASCII characters in order // to make the codes more memorable. Also, the msb of Stack and Manufacturing // token creator codes is always 1, while the msb of Application token creator // codes is always 0. This distinction allows Application tokens // to freely use the lower 15 bits for creator codes without the risk of // duplicating a Stack or Manufacturing token creator code. //--- Fixed Information Block --- #define CREATOR_MFG_CHIP_DATA 0xC344 // msb+'C'+'D' #define CREATOR_MFG_PART_DATA 0xF064 // msb+'p'+'d' #define CREATOR_MFG_TESTER_DATA 0xF464 // msb+'t'+'d' #define CREATOR_MFG_ST_EUI_64 0xE545 // msb+'e'+'E' #define CREATOR_MFG_ANALOG_TRIM_NORMAL 0xF46E // msb+'t'+'n' #define CREATOR_MFG_ANALOG_TRIM_BOOST 0xF442 // msb+'t'+'B' #define CREATOR_MFG_ANALOG_TRIM_BOTH 0xF462 // msb+'t'+'b' #define CREATOR_MFG_REG_TRIM 0xF274 // msb+'r'+'t' #define CREATOR_MFG_1V8_REG_VOLTAGE 0xF276 // msb+'r'+'v' #define CREATOR_MFG_VREF_VOLTAGE 0xF676 // msb+'v'+'v' #define CREATOR_MFG_TEMP_CAL 0xF463 // msb+'t'+'c' #define CREATOR_MFG_FIB_VERSION 0xFF09 #define CREATOR_MFG_FIB_CHECKSUM 0xE663 // msb+'f'+'c' #define CREATOR_MFG_FIB_OBS 0xE66F // msb+'f'+'o' //--- Customer Information Block --- #define CREATOR_MFG_CIB_OBS 0xE36F // msb+'c'+'o' #define CREATOR_MFG_CUSTOM_VERSION 0xC356 #define CREATOR_MFG_CUSTOM_EUI_64 0xE345 #define CREATOR_MFG_STRING 0xED73 #define CREATOR_MFG_BOARD_NAME 0xC24E // msb+'B'+'N' (Board Name) #define CREATOR_MFG_EUI_64 0xB634 #define CREATOR_MFG_MANUF_ID 0xC944 // msb+'I'+'D' (Id) #define CREATOR_MFG_PHY_CONFIG 0xD043 // msb+'P'+'C' (Phy Config) #define CREATOR_MFG_BOOTLOAD_AES_KEY 0xC24B // msb+'B'+'K' (Bootloader Key) #define CREATOR_MFG_EZSP_STORAGE 0xCD53 #define CREATOR_MFG_ASH_CONFIG 0xC143 // msb+'A'+'C' (ASH Config) #define CREATOR_MFG_CBKE_DATA 0xC342 // msb+'C'+'B' (CBke) #define CREATOR_MFG_INSTALLATION_CODE 0xC943 // msb+'I'+'C' (Installation Code) #define CREATOR_MFG_OSC24M_BIAS_TRIM 0xB254 // msb+'2'+'T' (2[4mHz] Trim) // The master defines indicating the verions number these definitions work with. #define CURRENT_MFG_TOKEN_VERSION 0x01FE //MSB is version, LSB is complement #define CURRENT_MFG_CUSTOM_VERSION 0x01FE //MSB is version, LSB is complement #ifndef __MFG_TYPES_DEFINED__ #define __MFG_TYPES_DEFINED__ //--- Fixed Information Block --- typedef uint8_t tokTypeMfgChipData[24]; typedef uint8_t tokTypeMfgPartData[6]; typedef uint8_t tokTypeMfgTesterData[6]; typedef uint8_t tokTypeMfgStEui64[8]; typedef struct { uint16_t iffilterL; uint16_t lna; uint16_t ifamp; uint16_t rxadcH; uint16_t prescalar; uint16_t phdet; uint16_t vco; uint16_t loopfilter; uint16_t pa; uint16_t iqmixer; } tokTypeMfgAnalogueTrim; typedef struct { uint16_t iffilterH; uint16_t biasmaster; uint16_t moddac; uint16_t auxadc; uint16_t caladc; } tokTypeMfgAnalogueTrimBoth; typedef struct { uint8_t regTrim1V2; uint8_t regTrim1V8; } tokTypeMfgRegTrim; typedef uint16_t tokTypeMfgRegVoltage1V8; typedef uint16_t tokTypeMfgAdcVrefVoltage; typedef uint16_t tokTypeMfgTempCal; typedef uint16_t tokTypeMfgFibVersion; typedef uint16_t tokTypeMfgFibChecksum; typedef struct { uint16_t ob2; uint16_t ob3; uint16_t ob0; uint16_t ob1; } tokTypeMfgFibObs; //--- Customer Information Block --- typedef struct { uint16_t ob0; uint16_t ob1; uint16_t ob2; uint16_t ob3; uint16_t ob4; uint16_t ob5; uint16_t ob6; uint16_t ob7; } tokTypeMfgCibObs; typedef uint16_t tokTypeMfgCustomVersion; typedef uint8_t tokTypeMfgCustomEui64[8]; typedef uint8_t tokTypeMfgString[16]; typedef uint8_t tokTypeMfgBoardName[16]; typedef uint16_t tokTypeMfgManufId; typedef uint16_t tokTypeMfgPhyConfig; typedef uint8_t tokTypeMfgBootloadAesKey[16]; typedef uint8_t tokTypeMfgEui64[8]; typedef uint8_t tokTypeMfgEzspStorage[8]; typedef uint16_t tokTypeMfgAshConfig; typedef struct { uint8_t certificate[48]; uint8_t caPublicKey[22]; uint8_t privateKey[21]; // The bottom flag bit is 1 for uninitialized, 0 for initialized. // The other flag bits should be set to 0 at initialization. uint8_t flags; } tokTypeMfgCbkeData; typedef struct { // The bottom flag bit is 1 for uninitialized, 0 for initialized. // Bits 1 and 2 give the size of the value string: // 0 = 6 bytes, 1 = 8 bytes, 2 = 12 bytes, 3 = 16 bytes. // The other flag bits should be set to 0 at initialization. // Special flags support. Due to a bug in the way some customers // had programmed the flags field, we will also examine the upper // bits 9 and 10 for the size field. Those bits are also reserved. uint16_t flags; uint8_t value[16]; uint16_t crc; } tokTypeMfgInstallationCode; typedef uint16_t tokTypeMfgOsc24mBiasTrim; #endif //__MFG_TYPES_DEFINED__ #ifdef DEFINETOKENS //The Manufacturing tokens need to be stored at well-defined locations. //None of these addresses should ever change without extremely great care. //All locations are OR'ed with DATA_BIG_INFO_BASE to make a full 32bit address. //--- Fixed Information Block --- // FIB Bootloader 0x0000 //1918 bytes #define MFG_CHIP_DATA_LOCATION 0x077E // 24 bytes #define MFG_PART_DATA_LOCATION 0x0796 // 6 bytes #define MFG_TESTER_DATA_LOCATION 0x079C // 6 bytes #define MFG_ST_EUI_64_LOCATION 0x07A2 // 8 bytes #define MFG_ANALOG_TRIM_NORMAL_LOCATION 0x07AA // 20 bytes #define MFG_ANALOG_TRIM_BOOST_LOCATION 0x07BE // 20 bytes #define MFG_ANALOG_TRIM_BOTH_LOCATION 0x07D2 // 10 bytes #define MFG_REG_TRIM_LOCATION 0x07DC // 2 bytes #define MFG_1V8_REG_VOLTAGE_LOCATION 0x07DE // 2 bytes #define MFG_VREF_VOLTAGE_LOCATION 0x07E0 // 2 bytes #define MFG_TEMP_CAL_LOCATION 0x07E2 // 2 bytes //reserved 0x07E4 // 16 bytes #define MFG_FIB_VERSION_LOCATION 0x07F4 // 2 bytes #define MFG_FIB_CHECKSUM_LOCATION 0x07F6 // 2 bytes #define MFG_FIB_OBS_LOCATION 0x07F8 // 8 bytes //--- Customer Information Block --- #define MFG_CIB_OBS_LOCATION 0x0800 // 16 bytes #define MFG_CUSTOM_VERSION_LOCATION 0x0810 // 2 bytes #define MFG_CUSTOM_EUI_64_LOCATION 0x0812 // 8 bytes #define MFG_STRING_LOCATION 0x081A // 16 bytes #define MFG_BOARD_NAME_LOCATION 0x082A // 16 bytes #define MFG_MANUF_ID_LOCATION 0x083A // 2 bytes #define MFG_PHY_CONFIG_LOCATION 0x083C // 2 bytes #define MFG_BOOTLOAD_AES_KEY_LOCATION 0x083E // 16 bytes #define MFG_EZSP_STORAGE_LOCATION 0x084E // 8 bytes #define MFG_ASH_CONFIG_LOCATION 0x0856 // 40 bytes #define MFG_CBKE_DATA_LOCATION 0x087E // 92 bytes #define MFG_INSTALLATION_CODE_LOCATION 0x08DA // 20 bytes #define MFG_OSC24M_BIAS_TRIM_LOCATION 0x08EE // 2 bytes // unused 0x08F0 //1808 bytes //--- Virtual MFG Tokens --- #define MFG_EUI_64_LOCATION 0x8000 // Special Trigger - see token.c // Define the size of indexed token array #define MFG_ASH_CONFIG_ARRAY_SIZE 20 #ifndef TOKEN_NEXT_ADDRESS #define TOKEN_NEXT_ADDRESS(region, address) #endif // NOTE: because of their special handling, the manufacturing tokens // cannot use the convenience macros in their definitions, so the full // definitions are present here. //--- Fixed Information Block --- TOKEN_NEXT_ADDRESS(MFG_CHIP_DATA_ADDR,MFG_CHIP_DATA_LOCATION) TOKEN_MFG(MFG_CHIP_DATA, CREATOR_MFG_CHIP_DATA, 0, 0, tokTypeMfgChipData, 1, {0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF, 0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF, 0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF}) TOKEN_NEXT_ADDRESS(MFG_PART_DATA_ADDR,MFG_PART_DATA_LOCATION) TOKEN_MFG(MFG_PART_DATA, CREATOR_MFG_PART_DATA, 0, 0, tokTypeMfgPartData, 1, {0xFF,0xFF,0xFF,0xFF,0xFF,0xFF}) TOKEN_NEXT_ADDRESS(MFG_TESTER_DATA_ADDR,MFG_TESTER_DATA_LOCATION) TOKEN_MFG(MFG_TESTER_DATA, CREATOR_MFG_TESTER_DATA, 0, 0, tokTypeMfgTesterData, 1, {0xFF,0xFF,0xFF,0xFF,0xFF,0xFF}) TOKEN_NEXT_ADDRESS(MFG_ST_EUI_64_ADDR,MFG_ST_EUI_64_LOCATION) TOKEN_MFG(MFG_ST_EUI_64, CREATOR_MFG_ST_EUI_64, 0, 0, tokTypeMfgStEui64, 1, {3,0,0,0,0,0,0,3}) TOKEN_NEXT_ADDRESS(MFG_ANALOG_TRIM_NORMAL_ADDR,MFG_ANALOG_TRIM_NORMAL_LOCATION) TOKEN_MFG(MFG_ANALOG_TRIM_NORMAL, CREATOR_MFG_ANALOG_TRIM_NORMAL, 0, 0, tokTypeMfgAnalogueTrim, 1, {0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF, 0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF}) TOKEN_NEXT_ADDRESS(MFG_ANALOG_TRIM_BOOST_ADDR,MFG_ANALOG_TRIM_BOOST_LOCATION) TOKEN_MFG(MFG_ANALOG_TRIM_BOOST, CREATOR_MFG_ANALOG_TRIM_BOOST, 0, 0, tokTypeMfgAnalogueTrim, 1, {0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF, 0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF}) TOKEN_NEXT_ADDRESS(MFG_ANALOG_TRIM_BOTH_ADDR,MFG_ANALOG_TRIM_BOTH_LOCATION) TOKEN_MFG(MFG_ANALOG_TRIM_BOTH, CREATOR_MFG_ANALOG_TRIM_BOTH, 0, 0, tokTypeMfgAnalogueTrimBoth, 1, {0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF}) TOKEN_NEXT_ADDRESS(MFG_REG_TRIM_ADDR,MFG_REG_TRIM_LOCATION) TOKEN_MFG(MFG_REG_TRIM, CREATOR_MFG_REG_TRIM, 0, 0, tokTypeMfgRegTrim, 1, {0xFF, 0xFF}) TOKEN_NEXT_ADDRESS(MFG_1V8_REG_VOLTAGE_ADDR,MFG_1V8_REG_VOLTAGE_LOCATION) TOKEN_MFG(MFG_1V8_REG_VOLTAGE, CREATOR_MFG_1V8_REG_VOLTAGE, 0, 0, tokTypeMfgRegVoltage1V8, 1, 0xFFFF) TOKEN_NEXT_ADDRESS(MFG_VREF_VOLTAGE_ADDR,MFG_VREF_VOLTAGE_LOCATION) TOKEN_MFG(MFG_VREF_VOLTAGE, CREATOR_MFG_VREF_VOLTAGE, 0, 0, tokTypeMfgAdcVrefVoltage, 1, 0xFFFF) TOKEN_NEXT_ADDRESS(MFG_TEMP_CAL_ADDR,MFG_TEMP_CAL_LOCATION) TOKEN_MFG(MFG_TEMP_CAL, CREATOR_MFG_TEMP_CAL, 0, 0, tokTypeMfgTempCal, 1, 0xFFFF) TOKEN_NEXT_ADDRESS(MFG_FIB_VERSION_ADDR,MFG_FIB_VERSION_LOCATION) TOKEN_MFG(MFG_FIB_VERSION, CREATOR_MFG_FIB_VERSION, 0, 0, tokTypeMfgFibVersion, 1, CURRENT_MFG_TOKEN_VERSION) TOKEN_NEXT_ADDRESS(MFG_FIB_CHECKSUM_ADDR,MFG_FIB_CHECKSUM_LOCATION) TOKEN_MFG(MFG_FIB_CHECKSUM, CREATOR_MFG_FIB_CHECKSUM, 0, 0, tokTypeMfgFibChecksum, 1, 0xFFFF) TOKEN_NEXT_ADDRESS(MFG_FIB_OBS_ADDR,MFG_FIB_OBS_LOCATION) TOKEN_MFG(MFG_FIB_OBS, CREATOR_MFG_FIB_OBS, 0, 0, tokTypeMfgFibObs, 1, {0xFFFF,0x03FC,0xAA55,0xFFFF}) //--- Customer Information Block --- TOKEN_NEXT_ADDRESS(MFG_CIB_OBS_ADDR,MFG_CIB_OBS_LOCATION) TOKEN_MFG(MFG_CIB_OBS, CREATOR_MFG_CIB_OBS, 0, 0, tokTypeMfgCibObs, 1, {0x5AA5,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF,0xFFFF}) TOKEN_NEXT_ADDRESS(MFG_CUSTOM_VERSION_ADDR,MFG_CUSTOM_VERSION_LOCATION) TOKEN_MFG(MFG_CUSTOM_VERSION, CREATOR_MFG_CUSTOM_VERSION, 0, 0, tokTypeMfgCustomVersion, 1, CURRENT_MFG_CUSTOM_VERSION) TOKEN_NEXT_ADDRESS(MFG_CUSTOM_EUI_64_ADDR,MFG_CUSTOM_EUI_64_LOCATION) TOKEN_MFG(MFG_CUSTOM_EUI_64, CREATOR_MFG_CUSTOM_EUI_64, 0, 0, tokTypeMfgCustomEui64, 1, {0,3,3,3,3,3,3,0}) TOKEN_NEXT_ADDRESS(MFG_STRING_ADDR,MFG_STRING_LOCATION) TOKEN_MFG(MFG_STRING, CREATOR_MFG_STRING, 0, 0, tokTypeMfgString, 1, {0,}) TOKEN_NEXT_ADDRESS(MFG_BOARD_NAME_ADDR,MFG_BOARD_NAME_LOCATION) TOKEN_MFG(MFG_BOARD_NAME, CREATOR_MFG_BOARD_NAME, 0, 0, tokTypeMfgBoardName, 1, {0,}) TOKEN_NEXT_ADDRESS(MFG_MANUF_ID_ADDR,MFG_MANUF_ID_LOCATION) TOKEN_MFG(MFG_MANUF_ID, CREATOR_MFG_MANUF_ID, 0, 0, tokTypeMfgManufId, 1, {0x00,0x00,}) // default to 0 for st TOKEN_NEXT_ADDRESS(MFG_PHY_CONFIG_ADDR,MFG_PHY_CONFIG_LOCATION) TOKEN_MFG(MFG_PHY_CONFIG, CREATOR_MFG_PHY_CONFIG, 0, 0, tokTypeMfgPhyConfig, 1, {0x00,0x00,}) // default to non-boost mode, internal pa. TOKEN_NEXT_ADDRESS(MFG_BOOTLOAD_AES_KEY_ADDR,MFG_BOOTLOAD_AES_KEY_LOCATION) TOKEN_MFG(MFG_BOOTLOAD_AES_KEY, CREATOR_MFG_BOOTLOAD_AES_KEY, 0, 0, tokTypeMfgBootloadAesKey, 1, {0xFF,}) // default key is all f's TOKEN_NEXT_ADDRESS(MFG_EZSP_STORAGE_ADDR,MFG_EZSP_STORAGE_LOCATION) TOKEN_MFG(MFG_EZSP_STORAGE, CREATOR_MFG_EZSP_STORAGE, 0, 0, tokTypeMfgEzspStorage, 1, { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }) TOKEN_NEXT_ADDRESS(MFG_ASH_CONFIG_ADDR,MFG_ASH_CONFIG_LOCATION) TOKEN_MFG(MFG_ASH_CONFIG, CREATOR_MFG_ASH_CONFIG, 0, 1, tokTypeMfgAshConfig, MFG_ASH_CONFIG_ARRAY_SIZE, { 0xFFFF, }) TOKEN_NEXT_ADDRESS(MFG_CBKE_DATA_ADDR,MFG_CBKE_DATA_LOCATION) TOKEN_MFG(MFG_CBKE_DATA, CREATOR_MFG_CBKE_DATA, 0, 0, tokTypeMfgCbkeData, 1, {0xFF,}) TOKEN_NEXT_ADDRESS(MFG_INSTALLATION_CODE_ADDR,MFG_INSTALLATION_CODE_LOCATION) TOKEN_MFG(MFG_INSTALLATION_CODE, CREATOR_MFG_INSTALLATION_CODE, 0, 0, tokTypeMfgInstallationCode, 1, {0xFF,}) TOKEN_NEXT_ADDRESS(MFG_OSC24M_BIAS_TRIM_ADDR,MFG_OSC24M_BIAS_TRIM_LOCATION) TOKEN_MFG(MFG_OSC24M_BIAS_TRIM, CREATOR_MFG_OSC24M_BIAS_TRIM, 0, 0, tokTypeMfgOsc24mBiasTrim, 1, {0xFF,}) TOKEN_NEXT_ADDRESS(MFG_EUI_64_ADDR,MFG_EUI_64_LOCATION) TOKEN_MFG(MFG_EUI_64, CREATOR_MFG_EUI_64, 0, 0, tokTypeMfgEui64, 1, {3,3,3,3,0,0,0,0}) #undef TOKEN_NEXT_ADDRESS #endif //DEFINETOKENS