; -*- coding: utf-8 -*- ; forthMSP430FR_SD_INIT.asm .save .listing off ; http://patorjk.com/software/taag/#p=display&f=Banner&t=Fast Forth ; Fast Forth For Texas Instrument MSP430FRxxxx FRAM devices ; Copyright (C) <2017> ; ; 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 . ; =========================================================== ; ABOUT INIT SD_CARD AND HOW TO SELECT FAT16/FAT32 FORMAT ; =========================================================== ; FAT16/FAT32 selection is made via the ID of partition in EBP ; because SD must be always FAT16 and SDHC must be always FAT32 ; this is automatically done when we format the SD_Card ! ; ===================================================================== ; goal : accept 64 MB up to 64 GB SD_CARD ; ===================================================================== ; thus FAT and RootClus logical sectors are word addressable. ; FAT is a little endian structure. ; CMD frame is sent as big endian. ; we assume that SDSC Card (up to 2GB) is FAT16 with a byte addressing ; and that SDHC Card (4GB up to 64GB) is FAT32 with a sector addressing (sector = 512 bytes) ; for SDHC Card = 64 GB, cluster = 64 sectors ==> max clusters = 20 0000h ==> FAT size = 16384 sectors ; ==> FAT1 and FAT2 can be addressed with a single word. ; ref. https://en.wikipedia.org/wiki/Extended_boot_record ; ref. https://en.wikipedia.org/wiki/Partition_type ; Formatage FA16 d'une SDSC Card 2GB ; First sector of physical drive (sector 0) content : ; --------------------------------------------------- ; dec@| HEX@ ; 446 |0x1BE : partition table first record ==> logical drive 0 ; 462 |0x1CE : partition table 2th record ==> logical drive 1 ; 478 |0x1DE : partition table 3th record ==> logical drive 2 ; 494 |0x1EE : partition table 4th record ==> logical drive 3 ; partition of first record content : ; --------------------------------------------------- ; 450 |0x1C2 = 0x0E : type FAT16 using LBA addressing ; 454 |0x1C6 = 89 00 00 00 : FirstSector (of logical drive 0) BS_FirstSector = 137 ; Partition type Description ; 0 empty / unused ; 1 FAT12 ; 4 FAT16 for partitions <= 32 MiB ; 5 extended partition ; 6 FAT16 for partitions > 32 MiB ; 11 FAT32 for partitions <= 2 GiB ; 12 Same as type 11 (FAT32), but using LBA addressing, which removes size constraints ; 14 Same as type 6 (FAT16), but using LBA addressing ; 15 Same as type 5, but using LBA addressing ; ref. https://www.compuphase.com/mbr_fat.htm#BOOTSECTOR ; FirstSector of logical drive (sector 0) content : ; ------------------------------------------------- ; dec@| HEX@ = HEX decimal ; 11 | 0x0B = 00 02 : 512 bytes/sector BPB_BytsPerSec = 512 ; 13 | 0x0D = 40 : 64 sectors/cluster BPB_SecPerClus = 64 ; 14 | 0x0E = 01 00 : 2 reserved sectors BPB_RsvdSecCnt = 1 ; 16 | 0x10 = 02 : 2 FATs BPB_NumFATs = 2 (always 2) ; 17 | 0x11 = 00 02 : 512 entries/directory BPB_RootEntCnt = 512 ; 19 | 0x13 = 00 00 : BPB_TotSec16 (if < 65535) BPB_TotSec16 = 0 ; 22 | 0x16 = EB 00 : 235 sectors/FAT (FAT16) BPB_FATSize = 235 ; 32 | 0x20 = 77 9F 3A 00 : ‭3841911‬ total sectors BPB_TotSec32 = ‭3841911‬ ; 54 | 0x36 = "FAT16" BS_FilSysType (not used) ; all values below are evaluated in logical sectors ; FAT1 = BPB_RsvdSecCnt = 1 ; FAT2 = BPB_RsvdSecCnt + BPB_FATSz32 = 1 + 235 = 236 ; OrgRootDirL = BPB_RsvdSecCnt + (BPB_FATSize * BPB_NumFATs) = 471 ; RootDirSize = BPB_RootEntCnt * 32 / BPB_BytsPerSec = 32 sectors ; OrgDatas = OrgRootDir + RootDirSize = 503 ; OrgCluster = OrgRootDir - 2*BPB_SecPerClus = 375 (virtual value) ; FirstSectorOfCluster(n) = OrgCluster + n*BPB_SecPerClus ==> cluster(3) = 705 ; ==================================================================================== ; Formatage FA32 d'une SDSC Card 8GB ; First sector of physical drive (sector 0) content : ; --------------------------------------------------- ; dec@| HEX@ ; 446 |0x1BE : partition table first record ==> logical drive 0 ; 462 |0x1CE : partition table 2th record ==> logical drive 1 ; 478 |0x1DE : partition table 3th record ==> logical drive 2 ; 494 |0x1EE : partition table 4th record ==> logical drive 3 ; partition record content : ; --------------------------------------------------- ; 450 |0x1C2 = 0x0C : type FAT32 using LBA addressing ; 454 |0x1C6 = 00 20 00 00 : FirstSector (of logical drive 0) = BS_FirstSector = 8192 ; ; FirstSector of logical block (sector 0) content : ; ------------------------------------------------- ; dec@| HEX@ = HEX decimal ; 11 | 0x0B = 00 02 : 512 bytes/sector BPB_BytsPerSec = 512 ; 13 | 0x0D = 08 : 8 sectors/cluster BPB_SecPerClus = 8 ; 14 | 0x0E = 20 00 : 32 reserved sectors BPB_RsvdSecCnt = 32 ; 16 | 0x10 = 02 : 2 FATs BPB_NumFATs = 2 (always 2) ; 17 | 0x11 = 00 00 : 0 BPB_RootEntCnt = 0 (always 0 for FAT32) ; 32 | 0x20 = 00 C0 EC 00 : BPB_TotSec32 BPB_TotSec32 = 15515648 ; 36 | 0x24 = 30 3B 00 00 : BPB_FATSz32 BPB_FATSz32 = 15152 ; 40 | 0x28 = 00 00 : BPB_ExtFlags BPB_ExtFlags ; 44 | 0x2C = 02 00 00 00 : BPB_RootClus BPB_RootClus = 2 ; 48 | 0x30 = 01 00 : BPB_FSInfo BPB_FSInfo = 1 ; 50 | 0x33 = 06 00 : BPB_BkBootSec BPB_BkBootSec = 6 ; 82 | 0x52 = "FAT32" : BS_FilSysType BS_FilSysType (not used) ; ; all values below are evaluated in logical sectors ; FAT1 = BPB_RsvdSecCnt = 32 ; FAT2 = BPB_RsvdSecCnt + BPB_FATSz32 = 32 + 15152 = 15184 ; OrgRootDirL = BPB_RsvdSecCnt + BPB_FATSz32 * BPB_NumFATs = 32 + 15152*2 = 30336 ; OrgCluster = OrgRootDir - 2*BPB_SecPerClus = 30320 ; RootDirSize = BPB_RootEntCnt * 32 / BPB_BytsPerSec = 0 ; OrgDatas = OrgRootDir + RootDirSize = 30336 ; FirstSectorOfCluster(n) = OrgCluster + n*BPB_SecPerClus ==> cluster(6) = 30368 ; =========================================================== ; Init SD_Card ; =========================================================== .restore SD_POWER_ON MOV #8,X ; send 64 clk on SD_clk CALL #SPI_X_GET ; BIC.B #CS_SD,&SD_CSOUT ; preset Chip Select output low to switch in SPI mode MOV #4,S ; preset error 4R1 ; ----------------------------------; INIT_CMD0 ; all SD area is 0 filled ; ----------------------------------; MOV #95h,&SD_CMD_FRM ; $(95 00 00 00 00 00) MOV #4000h,&SD_CMD_FRM+4 ; $(95 00 00 00 00 40); send CMD0 ; ----------------------------------; SEND_CMD0 ; CMD0 : GO_IDLE_STATE expected SPI_R1 response = 1 = idle state ; ----------------------------------; CALL #sendCommandIdleRet ;X JZ INIT_CMD8 ; if idle state SD_INIT_ERROR ; MOV #SD_CARD_ERROR,PC ; ReturnError = $04R1, case of defectuous card (or insufficient SD_POWER_ON clk) ; ----------------------------------; see forthMSP430FR_SD_lowLvl.asm INIT_CMD8 ; mandatory if SD_Card >= V2.x [11:8]supply voltage(VHS) ; ----------------------------------; CALL #SPI_GET ; (needed to pass SanDisk ultra 8GB "HC I") CMP.B #-1,W ; FFh expected value <==> MISO = high level JNE INIT_CMD8 ; loop back while yet busy MOV #0AA87h,&SD_CMD_FRM ; $(87 AA ...) (CRC:CHECK PATTERN) MOV #1,&SD_CMD_FRM+2 ; $(87 AA 01 00 ...) (CRC:CHECK PATTERN:VHS set as 2.7to3.6V:0) MOV #4800h,&SD_CMD_FRM+4 ; $(87 AA 01 00 00 48) ; ----------------------------------; SEND_CMD8 ; CMD8 = SEND_IF_COND; expected R1 response (first byte of SPI R7) = 01h : idle state ; ----------------------------------; CALL #sendCommandIdleRet ;X time out occurs with SD_Card V1.x (and all MMC_card) ; ----------------------------------; MOV #4,X ; skip end of SD_Card V2.x type R7 response (4 bytes), because useless CALL #SPI_X_GET ;WX ; ----------------------------------; INIT_ACMD41 ; no more CRC needed from here ; ----------------------------------; MOV #1,&SD_CMD_FRM ; $(01 00 ... set stop bit MOV #0,&SD_CMD_FRM+2 ; $(01 00 00 00 ... ; MOV.B #16,Y ; init 16 * ACMD41 repeats (power on fails with SanDisk ultra 8GB "HC I" and Transcend 2GB) ; MOV.B #32,Y ; init 32 * ACMD41 repeats ==> ~400ms time out MOV.B #-1,Y ; init 255 * ACMD41 repeats ==> ~3 s time out ; ----------------------------------; SEND_ACMD41 ; send CMD55+CMD41 ; ----------------------------------; MOV #8,S ; preset error 8R1 for ACMD41 INIT_CMD55 ; MOV #7700h,&SD_CMD_FRM+4 ; $(01 00 00 00 00 77) SEND_CMD55 ; CMD55 = APP_CMD; expected SPI_R1 response = 1 : idle CALL #sendCommandIdleRet ;X SEND_CMD41 ; CMD41 = APP OPERATING CONDITION MOV #6940h,&SD_CMD_FRM+4 ; $(01 00 00 00 40 69) (30th bit = HCS = High Capacity Support request) CALL #WaitIdleBeforeSendCMD ; wait until idle (needed to pass SanDisk ultra 8GB "HC I") then send Command CMD41 JZ SetBLockLength ; if SD_Card ready (R1=0) SUB.B #1,Y ; else decr time out delay JNZ INIT_CMD55 ; then loop back while count of repeat not reached JMP SD_INIT_ERROR ; ReturnError on time out : unusable card ; ----------------------------------; setBLockLength ; set block = 512 bytes (buffer size), usefull only for FAT16 SD Cards ; ----------------------------------; ADD S,S ; preset error $10 for CMD16 SEND_CMD16 ; CMD16 = SET_BLOCKLEN MOV #02h,&SD_CMD_FRM+2 ; $(01 00 02 00 ...) MOV #5000h,&SD_CMD_FRM+4 ; $(01 00 02 00 00 50) CALL #WaitIdleBeforeSendCMD ; wait until idle then send CMD16 JNZ SD_INIT_ERROR ; if W = R1 <> 0, ReturnError = $20R1 ; send command ko ; ----------------------------------; SetHighSpeed ; end of SD init ==> SD_CLK = SMCLK ; ----------------------------------; BIS #1,&SD_CTLW0 ; Software reset MOV #0,&SD_BRW ; UCxxBRW = 0 ==> SPI_CLK = MCLK BIC #1,&SD_CTLW0 ; release from reset ; ----------------------------------; Read_EBP_FirstSector ; W=0, BS_FirstSectorHL=0 ; ----------------------------------; CALL #readSectorW ; read physical first sector MOV #SD_BUF,Y ; MOV 454(Y),&BS_FirstSectorL ; so, sectors become logical MOV 456(Y),&BS_FirstSectorH ; MOV.B 450(Y),W ; W = partition ID ; ----------------------------------; TestPartitionID ; ; ----------------------------------; MOV #1,&FATtype ; preset FAT16 FAT16_CHS_LBA_Test ; SUB.B #6,W ; ID=06h Partition FAT16 > 32MB using CHS & LBA ? JZ Read_MBR_FirstSector ; W = 0 FAT16_LBA_Test ; SUB.B #8,W ; ID=0Eh Partition FAT16 using LBA ? JZ Read_MBR_FirstSector ; W = 0 ; ----------------------------------; MOV #2,&FATtype ; set FAT32 FAT32_LBA_Test ; ADD.B #2,W ; ID=0Ch Partition FAT32 using LBA ? JZ Read_MBR_FirstSector ; W = 0 FAT32_CHS_LBA_Test ; ADD.B #1,W ; ID=0Bh Partition FAT32 using CHS & LBA ? JZ Read_MBR_FirstSector ; W = 0 ADD.B #4,W ; ID=07h assigned to FAT 32 by MiniTools Partition Wizard.... JZ Read_MBR_FirstSector ; W = 0 ADD #0200Bh,W ; MOV W,S ; MOV #SD_CARD_ID_ERROR,PC ; S = ReturnError = $20xx with xx = partition ID ; ----------------------------------; see: https://en.wikipedia.org/wiki/Partition_type Read_MBR_FirstSector ; read first logical sector ; ----------------------------------; CALL #readSectorW ; ...with the good CMD17 bytes/sectors frame ! (good switch FAT16/FAT32) ; ----------------------------------; FATxx_SetFileSystem ; ; ----------------------------------; MOV.B 13(Y),&SecPerClus ; MOV 14(Y),X ;3 X = BPB_RsvdSecCnt MOV X,&OrgFAT1 ;3 set OrgFAT1 MOV 22(Y),W ; W = BPB_FATsize CMP #0,W ; BPB_FATsize <> 0 ? JNZ Set_FATsize ; yes MOV 36(Y),W ; W = BPB_FATSz32 Set_FATsize ; MOV W,&FATSize ; limited to 16384 sectors.... ADD W,X ; MOV X,&OrgFAT2 ; X = OrgFAT1 + FATsize = OrgFAT2 ADD W,X ; X = OrgFAT2 + FATsize = FAT16 OrgRootDir | FAT32 OrgDatas CMP #2,&FATtype ; FAT32? JZ FATxx_SetFileSystemNext ; yes FAT16_SetRootCluster ; MOV X,&OrgRootDIR ; only FAT16 use, is a sector used by ComputeClusFrstSect ADD #32,X ; OrgRootDir + RootDirSize = OrgDatas FATxx_SetFileSystemNext ; SUB &SecPerClus,X ; OrgDatas - SecPerClus*2 = OrgClusters SUB &SecPerClus,X ; no borrow expected MOV X,&OrgClusters ; X = virtual cluster 0 address (clusters 0 and 1 don't exist) MOV &FATtype,&DIRClusterL ; init DIRcluster as RootDIR ; ----------------------------------;