2020-04-18 11:11:11 -04:00
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( -- n )
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: _idle 0xff _sdcSR ;
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( -- n )
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( _sdcSR 0xff until the response is something else than 0xff
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for a maximum of 20 times. Returns 0xff if no response. )
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: _wait
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0 ( cnt )
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BEGIN
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_idle
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DUP 0xff = IF DROP ELSE SWAP DROP EXIT THEN
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1+
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DUP 20 = UNTIL
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DROP 0xff
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;
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( -- )
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( The opposite of sdcWaitResp: we wait until response is 0xff.
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After a successful read or write operation, the card will be
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busy for a while. We need to give it time before interacting
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with it again. Technically, we could continue processing on
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our side while the card it busy, and maybe we will one day,
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but at the moment, I'm having random write errors if I don't
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do this right after a write, so I prefer to stay cautious
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for now. )
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: _ready BEGIN _idle 0xff = UNTIL ;
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( c n -- c )
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( Computes n into crc c with polynomial 0x09
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Note that the result is "left aligned", that is, that 8th
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bit to the "right" is insignificant (will be stop bit). )
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: _crc7
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XOR ( c )
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8 0 DO
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2 * ( <<1 )
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DUP 255 > IF
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( MSB was set, apply polynomial )
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0xff AND
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0x12 XOR ( 0x09 << 1, we apply CRC on high bits )
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THEN
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LOOP
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;
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2020-04-18 14:22:26 -04:00
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( c n -- c )
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( Computes n into crc c with polynomial 0x1021 )
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: _crc16
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SWAP DUP 256 / ( n c c>>8 )
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ROT XOR ( c x )
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DUP 16 / XOR ( c x^x>>4 )
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SWAP 256 * ( x c<<8 )
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OVER 4096 * XOR ( x c^x<<12 )
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OVER 32 * XOR ( x c^x<<5 )
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XOR ( c )
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;
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2020-04-18 11:11:11 -04:00
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( send-and-crc7 )
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( n c -- c )
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: _s+crc SWAP DUP _sdcSR DROP _crc7 ;
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( cmd arg1 arg2 -- resp )
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( Sends a command to the SD card, along with arguments and
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specified CRC fields. (CRC is only needed in initial commands
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though).
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This does *not* handle CS. You have to select/deselect the
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card outside this routine. )
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: _cmd
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_wait DROP
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ROT ( a1 a2 cmd )
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0 _s+crc ( a1 a2 crc )
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ROT 256 /MOD ( a2 crc h l )
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ROT ( a2 h l crc )
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_s+crc ( a2 h crc )
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_s+crc ( a2 crc )
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SWAP 256 /MOD ( crc h l )
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ROT ( h l crc )
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_s+crc ( h crc )
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_s+crc ( crc )
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( send CRC )
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0x01 OR ( ensure stop bit )
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_sdcSR DROP
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2020-04-18 17:06:57 -04:00
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( And now we just have to wait for a valid response... )
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2020-04-18 11:11:11 -04:00
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_wait
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;
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( cmd arg1 arg2 -- r )
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( Send a command that expects a R1 response, handling CS. )
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2020-04-18 20:33:51 -04:00
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: SDCMDR1 _sdcSel _cmd _sdcDesel ;
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2020-04-18 11:11:11 -04:00
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( cmd arg1 arg2 -- r arg1 arg2 )
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( Send a command that expects a R7 response, handling CS. A R7
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is a R1 followed by 4 bytes. arg1 contains bytes 0:1, arg2
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has 2:3 )
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: SDCMDR7
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2020-04-18 20:33:51 -04:00
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_sdcSel
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2020-04-18 11:11:11 -04:00
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_cmd ( r )
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_idle 256 * ( r h )
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_idle + ( r arg1 )
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_idle 256 * ( r arg1 h )
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_idle + ( r arg1 arg2 )
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2020-04-18 20:33:51 -04:00
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_sdcDesel
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2020-04-18 11:11:11 -04:00
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;
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2020-04-18 20:33:51 -04:00
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: _err _sdcDesel ABORT" SDerr" ;
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2020-04-18 11:11:11 -04:00
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( Initialize a SD card. This should be called at least 1ms
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2020-04-18 20:33:51 -04:00
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after the powering up of the card. )
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2020-04-18 14:22:26 -04:00
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: SDC$
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2020-04-18 11:11:11 -04:00
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( Wake the SD card up. After power up, a SD card has to
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receive at least 74 dummy clocks with CS and DI high. We
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send 80. )
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2020-04-18 20:33:51 -04:00
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10 0 DO _idle DROP LOOP
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2020-04-18 11:11:11 -04:00
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2020-04-18 17:06:57 -04:00
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( call cmd0 and expect a 0x01 response (card idle)
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2020-04-18 11:11:11 -04:00
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this should be called multiple times. we're actually
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expected to. let's call this for a maximum of 10 times. )
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0 ( dummy )
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10 0 DO ( r )
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DROP
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0b01000000 0 0 ( CMD0 )
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SDCMDR1
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DUP 0x01 = IF LEAVE THEN
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LOOP
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2020-04-18 20:33:51 -04:00
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0x01 = NOT IF _err THEN
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2020-04-18 11:11:11 -04:00
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2020-04-18 17:06:57 -04:00
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( Then comes the CMD8. We send it with a 0x01aa argument
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2020-04-18 11:11:11 -04:00
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and expect a 0x01aa argument back, along with a 0x01 R1
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response. )
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0b01001000 0 0x1aa ( CMD8 )
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SDCMDR7 ( r arg1 arg2 )
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2020-04-18 20:33:51 -04:00
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0x1aa = NOT IF _err THEN ( arg2 check )
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0 = NOT IF _err THEN ( arg1 check )
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0x01 = NOT IF _err THEN ( r check )
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2020-04-18 11:11:11 -04:00
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2020-04-18 17:06:57 -04:00
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( Now we need to repeatedly run CMD55+CMD41 (0x40000000)
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2020-04-18 11:11:11 -04:00
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until the card goes out of idle mode, that is, when
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it stops sending us 0x01 response and send us 0x00
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instead. Any other response means that initialization
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failed. )
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BEGIN
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0b01110111 0 0 ( CMD55 )
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SDCMDR1
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2020-04-18 20:33:51 -04:00
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0x01 = NOT IF _err THEN
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2020-04-18 11:11:11 -04:00
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0b01101001 0x4000 0x0000 ( CMD41 )
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SDCMDR1
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2020-04-18 20:33:51 -04:00
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DUP 0x01 > IF _err THEN
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2020-04-18 11:11:11 -04:00
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NOT UNTIL
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( Out of idle mode! Success! )
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;
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2020-04-18 14:22:26 -04:00
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2020-04-18 17:06:57 -04:00
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( dstaddr blkno -- )
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: _sdc@
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2020-04-18 20:33:51 -04:00
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_sdcSel
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2020-04-18 14:22:26 -04:00
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0x51 ( CMD17 )
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0 ROT ( a cmd 0 blkno )
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_cmd
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2020-04-18 17:06:57 -04:00
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IF _err THEN
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2020-04-18 14:22:26 -04:00
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_wait
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2020-04-18 17:06:57 -04:00
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0xfe = NOT IF _err THEN
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2020-04-18 14:22:26 -04:00
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0 SWAP ( crc a )
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512 0 DO ( crc a )
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DUP ( crc a a )
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_idle ( crc a a n )
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DUP ROT ( crc a n n a )
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C! ( crc a n )
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ROT SWAP ( a crc n )
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_crc16 ( a crc )
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SWAP 1+ ( crc a+1 )
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LOOP
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DROP ( crc1 )
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_idle 256 *
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_idle + ( crc2 )
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_wait DROP
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2020-04-18 20:33:51 -04:00
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_sdcDesel
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2020-04-18 17:06:57 -04:00
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= NOT IF _err THEN
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;
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: SDC@
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2 * DUP BLK( SWAP ( b a b )
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_sdc@
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1+ BLK( 512 + SWAP
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_sdc@
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2020-04-18 14:22:26 -04:00
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;
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2020-04-18 19:39:28 -04:00
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( srcaddr blkno -- )
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: _sdc!
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2020-04-18 20:33:51 -04:00
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_sdcSel
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2020-04-18 19:39:28 -04:00
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0x58 ( CMD24 )
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0 ROT ( a cmd 0 blkno )
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_cmd
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IF _err THEN
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_idle DROP
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0xfe _sdcSR DROP
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0 SWAP ( crc a )
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512 0 DO ( crc a )
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C@+ ( crc a+1 n )
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ROT OVER ( a n crc n )
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_crc16 ( a n crc )
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SWAP ( a crc n )
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_sdcSR DROP ( a crc )
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SWAP ( crc a )
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LOOP
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DROP ( crc )
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256 /MOD ( lsb msb )
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_sdcSR DROP ( lsb )
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_sdcSR DROP
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_wait DROP
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2020-04-18 20:33:51 -04:00
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_sdcDesel
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2020-04-18 19:39:28 -04:00
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;
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: SDC!
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2 * DUP BLK( SWAP ( b a b )
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_sdc!
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1+ BLK( 512 + SWAP
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_sdc!
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;
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