; unlzsa2-6309.s - Hitachi 6309 decompression routine for raw LZSA2 - 154 bytes ; compress with lzsa -f2 -r ; ; in: x = start of compressed data ; y = start of decompression buffer ; out: y = end of decompression buffer + 1 ; ; Copyright (C) 2020 Emmanuel Marty, Doug Masten ; ; This software is provided 'as-is', without any express or implied ; warranty. In no event will the authors be held liable for any damages ; arising from the use of this software. ; ; Permission is granted to anyone to use this software for any purpose, ; including commercial applications, and to alter it and redistribute it ; freely, subject to the following restrictions: ; ; 1. The origin of this software must not be misrepresented; you must not ; claim that you wrote the original software. If you use this software ; in a product, an acknowledgment in the product documentation would be ; appreciated but is not required. ; 2. Altered source versions must be plainly marked as such, and must not be ; misrepresented as being the original software. ; 3. This notice may not be removed or altered from any source distribution. decompress_lzsa2 clr lz2nibct ; reset nibble available flag bra lz2token lz2nibct fcb 0 ; nibble ready flag lz2replg lslb ; push token's Y flag bit into carry bcs lz2rep16 ; if token's Y bit is set, rep or 16 bit offset sex ; push token's Z flag bit into reg A bsr lz2nibl ; get offset nibble in B lsla ; push token's Z flag bit into carry rolb ; shift Z flag from carry into bit 0 of B eorb #$e1 ; set bits 13-15 of offset, reverse bit 8 tfr b,a ; copy bits 8-15 of offset into A suba #$02 ; substract 512 from offset ldb ,x+ ; load low 8 bits of (negative, signed) offset bra lz2gotof lz2rep16 bmi lz2repof ; if token's Z flag bit is set, rep match ldd ,x++ ; load high then low 8 bits of offset lz2gotof std lz2moff+2 ; store match offset lz2repof ldd #$0007 ; clear MSB match length and set mask for MMM andb ,u ; isolate MMM (embedded match length) in token lz2moff leau $aaaa,y ; put backreference start address in U (dst+offset) addb #$02 ; add MIN_MATCH_SIZE_V2 cmpb #$09 ; MIN_MATCH_SIZE_V2 + MATCH_RUN_LEN_V2? bne lz2gotln ; no, we have the full match length, go copy bsr lz2nibl ; get offset nibble in B addb #$09 ; add MIN_MATCH_SIZE_V2 + MATCH_RUN_LEN_V2 cmpb #$18 ; MIN_MATCH_SIZE_V2 + MATCH_RUN_LEN_V2 + 15? bne lz2gotln ; if not, we have the full match length, go copy addb ,x+ ; add extra length byte + MIN_MATCH_SIZE_V2 + MATCH_RUN_LEN_V2 + 15 bcc lz2gotln ; if no overflow, we have the full length beq lz2done ; detect EOD code ldb ,x+ ; load 16-bit len in D (low part in B, high in A) lda ,x+ ; (little endian) lz2gotln tfr d,w ; set W with match count for TFM instruction tfm u+,y+ ; copy match bytes lz2token tfr x,u ; save token address ldb ,x+ ; load next token into B: XYZ|LL|MMM andb #$18 ; isolate LL (embedded literals count) in B beq lz2nolt ; skip if no literals cmpb #$18 ; LITERALS_RUN_LEN_V2? bne lz2declt ; if not, we have the complete count, go unshift bsr lz2nibl ; get extra literals length nibble in B addb #$03 ; add LITERALS_RUN_LEN_V2 cmpb #$12 ; LITERALS_RUN_LEN_V2 + 15 ? bne lz2gotla ; if not, we have the full literals count, go copy addb ,x+ ; add extra literals count byte + LITERALS_RUN_LEN + 15 bcc lz2gotla ; if no overflow, we got the complete count, copy ldb ,x+ ; load low 8 bits of little-endian literals count lda ,x+ ; load high 8 bits of literal count bra lz2gotlt ; we now have the complete count, go copy lz2declt lsrb ; shift literals count into place lsrb lsrb lz2gotla clra ; clear A (high part of literals count) lz2gotlt tfr d,w ; set W with literals count for TFM instruction tfm x+,y+ ; copy literal bytes lz2nolt ldb ,u ; get token again lslb ; push token's X flag bit into carry bcs lz2replg ; if token's X bit is set, rep or large offset lslb ; push token's Y flag bit into carry sex ; push token's Z flag bit into reg A (carry flag is not effected) bcs lz2offs9 ; if token's Y bit is set, 9 bits offset bsr lz2nibl ; get offset nibble in B lsla ; retrieve token's Z flag bit and push into carry rolb ; shift Z flag from carry into bit 0 of B eorb #$e1 ; set bits 5-7 of offset, reverse bit 0 sex ; set bits 8-15 of offset to $FF bra lz2gotof lz2offs9 deca ; set bits 9-15 of offset, reverse bit 8 ldb ,x+ ; load low 8 bits of (negative, signed) offset bra lz2gotof lz2nibl ldb #$aa com lz2nibct ; nibble ready? bpl lz2gotnb ldb ,x+ ; load two nibbles stb lz2nibl+1 ; store nibble for next time (low 4 bits) lsrb ; shift 4 high bits of nibble down lsrb lsrb lsrb lz2gotnb andb #$0f ; only keep low 4 bits lz2done rts