Mercurial > louis > kiibohd-controller
view Bootloader/ftfl.h @ 303:f9c406854bc2
Set DFU bootloader name
Fixes #22
Each (dfu) interface may have more than one a ltsetting each with their own index and name. According to the DFU_1.1 pdf section 4.2.3, "* Alternate settings can be used by an application to access additional memory segments. In this case,
it is suggested that each alternate setting employ a string descriptor to indicate the target memory
segment; e.g., 'EEPROM'." Whether or not we end up using multiple memory segments it is still good to have a descriptive name incase there are other dfu devices connected.
Edit: Fixed previous indentation
| author | Rowan Decker <Smasher816@gmail.com> |
|---|---|
| date | Sun, 08 Mar 2015 16:59:34 -0700 |
| parents | b091bb09c55f |
| children | ab4515606277 |
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/* Copyright (c) 2011,2012 Simon Schubert <2@0x2c.org>. * Modifications by Jacob Alexander 2014 <haata@kiibohd.com> * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. */ #ifndef __FTFL_H #define __FTFL_H // ----- Local Includes ----- #include "mchck-cdefs.h" // ----- Structs ----- struct FTFL_FSTAT_t { UNION_STRUCT_START(8); uint8_t mgstat0 : 1; uint8_t _rsvd0 : 3; uint8_t fpviol : 1; uint8_t accerr : 1; uint8_t rdcolerr : 1; uint8_t ccif : 1; UNION_STRUCT_END; }; CTASSERT_SIZE_BIT(struct FTFL_FSTAT_t, 8); struct FTFL_FCNFG_t { UNION_STRUCT_START(8); uint8_t eeerdy : 1; uint8_t ramrdy : 1; uint8_t pflsh : 1; uint8_t _rsvd0 : 1; uint8_t erssusp : 1; uint8_t ersareq : 1; uint8_t rdcollie : 1; uint8_t ccie : 1; UNION_STRUCT_END; }; CTASSERT_SIZE_BIT(struct FTFL_FCNFG_t, 8); struct FTFL_FSEC_t { UNION_STRUCT_START(8); enum { FTFL_FSEC_SEC_UNSECURE = 2, FTFL_FSEC_SEC_SECURE = 3 } sec : 2; enum { FTFL_FSEC_FSLACC_DENY = 1, FTFL_FSEC_FSLACC_GRANT = 3 } fslacc : 2; enum { FTFL_FSEC_MEEN_DISABLE = 2, FTFL_FSEC_MEEN_ENABLE = 3 } meen : 2; enum { FTFL_FSEC_KEYEN_DISABLE = 1, FTFL_FSEC_KEYEN_ENABLE = 2 } keyen : 2; UNION_STRUCT_END; }; CTASSERT_SIZE_BIT(struct FTFL_FSEC_t, 8); struct FTFL_FOPT_t { UNION_STRUCT_START(8); uint8_t lpboot : 1; uint8_t ezport_dis : 1; uint8_t nmi_dis : 1; uint8_t _rsvd0 : 5; UNION_STRUCT_END; }; CTASSERT_SIZE_BIT(struct FTFL_FOPT_t, 8); /** * The FCOOB is a weird register file, because it is double big endian, * which makes for odd gaps and for some data that is big endian, and for * some that is little endian. */ union FTFL_FCCOB_t { struct ftfl_generic { uint32_t addr : 24; enum FTFL_FCMD { FTFL_FCMD_READ_1s_BLOCK = 0x00, FTFL_FCMD_READ_1s_SECTION = 0x01, FTFL_FCMD_PROGRAM_CHECK = 0x02, FTFL_FCMD_READ_RESOURCE = 0x03, FTFL_FCMD_PROGRAM_LONGWORD = 0x06, FTFL_FCMD_ERASE_BLOCK = 0x08, FTFL_FCMD_ERASE_SECTOR = 0x09, FTFL_FCMD_PROGRAM_SECTION = 0x0b, FTFL_FCMD_READ_1s_ALL_BLOCKS = 0x40, FTFL_FCMD_READ_ONCE = 0x41, FTFL_FCMD_PROGRAM_ONCE = 0x43, FTFL_FCMD_ERASE_ALL_BLOCKS = 0x44, FTFL_FCMD_VERIFY_KEY = 0x45, FTFL_FCMD_PROGRAM_PARTITION = 0x80, FTFL_FCMD_SET_FLEXRAM = 0x81 } fcmd : 8; uint8_t data_be[8]; } generic; struct { uint32_t addr : 24; enum FTFL_FCMD fcmd : 8; uint8_t _rsvd0[3]; enum FTFL_MARGIN_CHOICE { FTFL_MARGIN_NORMAL = 0x00, FTFL_MARGIN_USER = 0x01, FTFL_MARGIN_FACTORY = 0x02 } margin : 8; } read_1s_block; struct ftfl_data_num_words { uint32_t addr : 24; enum FTFL_FCMD fcmd : 8; uint8_t _rsvd0; enum FTFL_MARGIN_CHOICE margin : 8; uint16_t num_words; } read_1s_section; struct { uint32_t addr : 24; enum FTFL_FCMD fcmd : 8; uint8_t _rsvd0[3]; enum FTFL_MARGIN_CHOICE margin : 8; uint8_t data_be[4]; } program_check; struct { uint32_t addr : 24; enum FTFL_FCMD fcmd : 8; uint32_t data; uint8_t _rsvd0[3]; enum FTFL_RESOURCE_SELECT { FTFL_RESOURCE_IFR = 0x00, FTFL_RESOURCE_VERSION = 0x01 } resource_select : 8; } read_resource; struct { uint32_t addr : 24; enum FTFL_FCMD fcmd : 8; uint8_t data_be[4]; } program_longword; struct { uint32_t addr : 24; enum FTFL_FCMD fcmd : 8; } erase; struct ftfl_data_num_words program_section; struct { uint8_t _rsvd0[2]; enum FTFL_MARGIN_CHOICE margin : 8; enum FTFL_FCMD fcmd : 8; } read_1s_all_blocks; struct ftfl_cmd_once { uint8_t _rsvd0[2]; uint8_t idx; enum FTFL_FCMD fcmd : 8; uint8_t data_be[4]; } read_once; struct ftfl_cmd_once program_once; struct { uint8_t _rsvd0[3]; enum FTFL_FCMD fcmd : 8; } erase_all; struct { uint8_t _rsvd0[3]; enum FTFL_FCMD fcmd : 8; uint8_t key_be[8]; } verify_key; struct { uint8_t _rsvd0[3]; enum FTFL_FCMD fcmd : 8; uint8_t _rsvd1[2]; /* the following enum is analogous to enum * SIM_FLEXNVM_PARTITION in sim.h, but this one is padded * with four 1-bits to make an 8-bit value. */ enum FTFL_FLEXNVM_PARTITION { FTFL_FLEXNVM_DATA_32_EEPROM_0 = 0xF0, FTFL_FLEXNVM_DATA_24_EEPROM_8 = 0xF1, FTFL_FLEXNVM_DATA_16_EEPROM_16 = 0xF2, FTFL_FLEXNVM_DATA_8_EEPROM_24 = 0xF9, FTFL_FLEXNVM_DATA_0_EEPROM_32 = 0xF3 } flexnvm_partition : 8; enum FTFL_EEPROM_SIZE { FTFL_EEPROM_SIZE_0 = 0x3f, FTFL_EEPROM_SIZE_32 = 0x39, FTFL_EEPROM_SIZE_64 = 0x38, FTFL_EEPROM_SIZE_128 = 0x37, FTFL_EEPROM_SIZE_256 = 0x36, FTFL_EEPROM_SIZE_512 = 0x35, FTFL_EEPROM_SIZE_1024 = 0x34, FTFL_EEPROM_SIZE_2048 = 0x33 } eeprom_size : 8; } program_partition; struct { uint8_t _rsvd0[2]; enum FTFL_FLEXRAM_FUNCTION { FTFL_FLEXRAM_EEPROM = 0x00, FTFL_FLEXRAM_RAM = 0xff } flexram_function : 8; enum FTFL_FCMD fcmd : 8; } set_flexram; }; CTASSERT_SIZE_BYTE(union FTFL_FCCOB_t, 12); struct FTFL_t { struct FTFL_FSTAT_t fstat; struct FTFL_FCNFG_t fcnfg; struct FTFL_FSEC_t fsec; struct FTFL_FOPT_t fopt; union FTFL_FCCOB_t fccob; uint8_t fprot_be[4]; uint8_t feprot; uint8_t fdprot; }; CTASSERT_SIZE_BYTE(struct FTFL_t, 0x18); /* Flash Configuration Field, see Sub-Family Reference Manual, section 28.3.1 */ struct FTFL_CONFIG_t { uint8_t key[8]; uint8_t fprot[4]; struct FTFL_FSEC_t fsec; struct FTFL_FOPT_t fopt; uint8_t feprot; uint8_t fdprot; }; CTASSERT_SIZE_BYTE(struct FTFL_CONFIG_t, 16); extern volatile struct FTFL_t FTFL; extern char FlexRAM[]; extern struct FTFL_CONFIG_t FTFL_CONFIG; #endif