; Commander X16 disk drive I/O routines. ; Largely compatible with the default C64 ones, but adds more stuff specific to the X16 as well. ; NOTE: If you experience weird behavior with these routines and you are using them ; in the X16 emulator using HostFs, please try again with an SD-card image instead first. ; It is possible that there are still small differences between HostFS and actual CBM DOS in the emulator. ; ; About the secondary addresses: ; for writes (new files or overwrites), you can use 1 (without the mode string) or 2-14 (with the mode string) ; for reads (existing files) you can use 0 or 2-14 (mode string is optional) ; for modify mode (new files* or existing files), you must use 2-14, and the mode string ,s,m is required %import textio %import conv %import string %import syslib diskio { %option no_symbol_prefixing, ignore_unused const ubyte READ_IO_CHANNEL=12 const ubyte WRITE_IO_CHANNEL=13 ubyte @shared drivenumber = 8 ; user programs can set this to the drive number they want to load/save to! sub reset_read_channel() { void cbm.CHKIN(READ_IO_CHANNEL) } sub reset_write_channel() { cbm.CHKOUT(WRITE_IO_CHANNEL) } sub directory() -> bool { ; -- Prints the directory contents to the screen. Returns success. cbm.SETNAM(1, "$") cbm.SETLFS(READ_IO_CHANNEL, drivenumber, 0) ubyte status = 1 void cbm.OPEN() ; open 12,8,0,"$" if_cs goto io_error reset_read_channel() repeat 4 { void cbm.CHRIN() ; skip the 4 prologue bytes } ; while not stop key pressed / EOF encountered, read data. status = cbm.READST() if status!=0 { status = 1 goto io_error } while status==0 { ubyte low = cbm.CHRIN() ubyte high = cbm.CHRIN() txt.print_uw(mkword(high, low)) txt.spc() ubyte @zp character repeat { character = cbm.CHRIN() if character==0 break txt.chrout(character) } txt.nl() void cbm.CHRIN() ; skip 2 bytes void cbm.CHRIN() status = cbm.READST() if cbm.STOP2()!=0 break } status = cbm.READST() io_error: cbm.CLRCHN() ; restore default i/o devices cbm.CLOSE(READ_IO_CHANNEL) if status!=0 and status & $40 == 0 { ; bit 6=end of file txt.print("\ni/o error, status: ") txt.print_ub(status) txt.nl() return false } return true } sub diskname() -> uword { ; returns disk label name or 0 if error cbm.SETNAM(3, "$") cbm.SETLFS(READ_IO_CHANNEL, drivenumber, 0) ubyte status = 1 void cbm.OPEN() ; open 12,8,0,"$=c" if_cs goto io_error reset_read_channel() while cbm.CHRIN()!='"' { ; skip up to entry name } cx16.r0 = &list_filename repeat { @(cx16.r0) = cbm.CHRIN() if @(cx16.r0)=='"' { @(cx16.r0) = ' ' while @(cx16.r0)==' ' and cx16.r0>=&list_filename { @(cx16.r0) = 0 cx16.r0-- } break } cx16.r0++ } status = cbm.READST() io_error: cbm.CLRCHN() cbm.CLOSE(READ_IO_CHANNEL) if status!=0 and status & $40 == 0 return 0 return list_filename } ; internal variables for the iterative file lister / loader bool list_skip_disk_name uword list_pattern uword list_blocks bool iteration_in_progress = false str list_filetype = "???" ; prg, seq, dir str list_filename = "?" * 50 ; ----- get a list of files (uses iteration functions internally) ----- sub list_filenames(uword pattern_ptr, uword filenames_buffer, uword filenames_buf_size) -> ubyte { ; -- fill the provided buffer with the names of the files on the disk (until buffer is full). ; Files in the buffer are separated by a 0 byte. You can provide an optional pattern to match against. ; After the last filename one additional 0 byte is placed to indicate the end of the list. ; Returns number of files (it skips 'dir' entries i.e. subdirectories). ; Also sets carry on exit: Carry clear = all files returned, Carry set = directory has more files that didn't fit in the buffer. uword buffer_start = filenames_buffer ubyte files_found = 0 filenames_buffer[0]=0 if lf_start_list(pattern_ptr) { while lf_next_entry() { if list_filetype!="dir" { filenames_buffer += string.copy(list_filename, filenames_buffer) + 1 files_found++ if filenames_buffer - buffer_start > filenames_buf_size-20 { @(filenames_buffer)=0 lf_end_list() sys.set_carry() return files_found } } } lf_end_list() } @(filenames_buffer)=0 sys.clear_carry() return files_found } ; ----- iterative file lister functions (uses the read io channel) ----- sub lf_start_list(uword pattern_ptr) -> bool { ; -- start an iterative file listing with optional pattern matching. ; note: only a single iteration loop can be active at a time! lf_end_list() list_pattern = pattern_ptr list_skip_disk_name = true iteration_in_progress = true cbm.SETNAM(1, "$") cbm.SETLFS(READ_IO_CHANNEL, drivenumber, 0) void cbm.OPEN() ; open 12,8,0,"$" if_cs goto io_error reset_read_channel() repeat 4 { void cbm.CHRIN() ; skip the 4 prologue bytes } if cbm.READST()==0 return true io_error: cbm.CLOSE(READ_IO_CHANNEL) lf_end_list() return false } sub lf_next_entry() -> bool { ; -- retrieve the next entry from an iterative file listing session. ; results will be found in list_blocks, list_filename, and list_filetype. ; if it returns false though, there are no more entries (or an error occurred). if not iteration_in_progress return false repeat { reset_read_channel() ; use the input io channel again uword nameptr = &list_filename ubyte blocks_lsb = cbm.CHRIN() ubyte blocks_msb = cbm.CHRIN() if cbm.READST()!=0 goto close_end list_blocks = mkword(blocks_msb, blocks_lsb) ; read until the filename starts after the first " while cbm.CHRIN()!='\"' { if cbm.READST()!=0 goto close_end } ; read the filename repeat { ubyte character = cbm.CHRIN() if character==0 break if character=='\"' break @(nameptr) = character nameptr++ } @(nameptr) = 0 do { cx16.r15L = cbm.CHRIN() } until cx16.r15L!=' ' ; skip blanks up to 3 chars entry type list_filetype[0] = cx16.r15L list_filetype[1] = cbm.CHRIN() list_filetype[2] = cbm.CHRIN() while cbm.CHRIN()!=0 { ; read the rest of the entry until the end } void cbm.CHRIN() ; skip 2 bytes void cbm.CHRIN() if not list_skip_disk_name { if list_pattern==0 return true if string.pattern_match(list_filename, list_pattern) return true } list_skip_disk_name = false } close_end: lf_end_list() return false } sub lf_end_list() { ; -- end an iterative file listing session (close channels). if iteration_in_progress { cbm.CLRCHN() cbm.CLOSE(READ_IO_CHANNEL) iteration_in_progress = false } } ; ----- iterative file loader functions (uses the read io channel) ----- sub f_open(str filenameptr) -> bool { ; -- open a file for iterative reading with f_read ; note: only a single iteration loop can be active at a time! ; Returns true if the file is successfully opened and readable. ; No need to check status(), unlike f_open_w() ! ; NOTE: the default input isn't yet set to this logical file, you must use reset_read_channel() to do this, ; if you're going to read from it yourself instead of using f_read()! f_close() cbm.SETNAM(string.length(filenameptr), filenameptr) cbm.SETLFS(READ_IO_CHANNEL, drivenumber, READ_IO_CHANNEL) ; note: has to be Channel,x,Channel because otherwise f_seek doesn't work void cbm.OPEN() ; open 12,8,12,"filename" if_cc { reset_read_channel() if cbm.READST()==0 { iteration_in_progress = true void cbm.CHRIN() ; read first byte to test for file not found if cbm.READST()==0 { cbm.CLOSE(READ_IO_CHANNEL) ; close file because we already consumed first byte void cbm.OPEN() ; re-open the file cbm.CLRCHN() ; reset default i/o channels return true } } } f_close() cbm.CLOSE(READ_IO_CHANNEL) return false } ; optimized for Commander X16 to use MACPTR block read kernal call sub f_read(uword bufferpointer, uword num_bytes) -> uword { ; -- read from the currently open file, up to the given number of bytes. ; returns the actual number of bytes read. (checks for End-of-file and error conditions) ; NOTE: cannot be used to load into VRAM. Use vload() or call cx16.MACPTR() yourself with the vera data register as address. if not iteration_in_progress or num_bytes==0 return 0 reset_read_channel() list_blocks = 0 ; we reuse this variable for the total number of bytes read uword readsize while num_bytes!=0 { readsize = 255 if num_bytes uword { ; -- read the full contents of the file, returns number of bytes read. ; NOTE: cannot be used to load into VRAM. Use vload() or call cx16.MACPTR() yourself with the vera data register as address. if not iteration_in_progress return 0 reset_read_channel() uword total_read = 0 while cbm.READST()==0 { cx16.r0 = f_read(bufferpointer, 256) total_read += cx16.r0 bufferpointer += cx16.r0 } return total_read } asmsub f_readline(uword bufptr @AY) clobbers(X) -> ubyte @Y { ; Routine to read text lines from a text file. Lines must be less than 255 characters. ; Reads characters from the input file UNTIL a newline or return character (or EOF). ; The line read will be 0-terminated in the buffer (and not contain the end of line character). ; The length of the line is returned in Y. Note that an empty line is okay and is length 0! ; I/O error status should be checked by the caller itself via READST() routine. %asm {{ sta P8ZP_SCRATCH_W1 sty P8ZP_SCRATCH_W1+1 jsr reset_read_channel ldy #0 _loop jsr cbm.CHRIN sta (P8ZP_SCRATCH_W1),y beq _end iny cmp #$0a beq _line_end cmp #$0d bne _loop _line_end dey ; get rid of the trailing end-of-line char lda #0 sta (P8ZP_SCRATCH_W1),y _end rts }} } sub f_close() { ; -- end an iterative file loading session (close channels). if iteration_in_progress { cbm.CLRCHN() cbm.CLOSE(READ_IO_CHANNEL) iteration_in_progress = false } } ; ----- iterative file writing functions (uses write io channel) ----- sub f_open_w(str filename) -> bool { ; -- Open a file for iterative writing with f_write ; WARNING: returns true if the open command was received by the device, ; but this can still mean the file wasn't successfully opened for writing! ; (for example, if it already exists). This is different than f_open()! ; To be 100% sure if this call was successful, you have to use status() ; and check the drive's status message! return internal_f_open_w(filename, false) } sub f_open_w_seek(str filename) -> bool { ; -- Open an existing file for iterative writing with f_write, and seeking with f_seek_w. return internal_f_open_w(filename, true) } sub internal_f_open_w(str filename, bool open_for_seeks) -> bool { f_close_w() list_filename = filename str modifier = ",s,?" modifier[3] = 'w' if open_for_seeks modifier[3] = 'm' cx16.r0L = string.append(list_filename, modifier) ; secondary 13 requires a mode suffix to signal we're writing/modifying cbm.SETNAM(cx16.r0L, list_filename) cbm.SETLFS(WRITE_IO_CHANNEL, drivenumber, WRITE_IO_CHANNEL) void cbm.OPEN() ; open 13,8,13,"filename" if_cc { return cbm.READST()==0 } cbm.CLOSE(WRITE_IO_CHANNEL) f_close_w() return false } sub f_write(uword bufferpointer, uword num_bytes) -> bool { ; -- write the given number of bytes to the currently open file if num_bytes!=0 { reset_write_channel() do { cx16.r0 = cx16.MCIOUT(lsb(num_bytes), bufferpointer, false) ; fast block writes if_cs goto no_mciout num_bytes -= cx16.r0 bufferpointer += cx16.r0 if msb(bufferpointer) == $c0 bufferpointer = mkword($a0, lsb(bufferpointer)) ; wrap over bank boundary if cbm.READST()!=0 return false } until num_bytes==0 return cbm.READST()==0 no_mciout: ; the device doesn't support MCIOUT, use a normal per-byte write loop repeat num_bytes { cbm.CHROUT(@(bufferpointer)) bufferpointer++ } return cbm.READST()==0 } return true } sub f_close_w() { ; -- end an iterative file writing session (close channels). cbm.CLRCHN() cbm.CLOSE(WRITE_IO_CHANNEL) } ; ---- other functions ---- sub status() -> uword { ; -- retrieve the disk drive's current status message str device_not_present_error = "device not present #xx" if cbm.READST()==128 { device_not_present_error[len(device_not_present_error)-2] = 0 conv.str_ub(drivenumber) void string.copy(conv.string_out, &device_not_present_error+len(device_not_present_error)-2) return device_not_present_error } uword messageptr = &list_filename cbm.SETNAM(0, list_filename) cbm.SETLFS(15, drivenumber, 15) void cbm.OPEN() ; open 15,8,15 if_cs goto io_error void cbm.CHKIN(15) ; use #15 as input channel while cbm.READST()==0 { cx16.r5L = cbm.CHRIN() if cx16.r5L=='\r' or cx16.r5L=='\n' break @(messageptr) = cx16.r5L messageptr++ } @(messageptr) = 0 done: cbm.CLRCHN() ; restore default i/o devices cbm.CLOSE(15) return list_filename io_error: cbm.CLOSE(15) list_filename = "io error" goto done } ; saves a block of memory to disk, including the default 2 byte prg header. sub save(uword filenameptr, uword startaddress, uword savesize) -> bool { return internal_save_routine(filenameptr, startaddress, savesize, false) } ; like save() but omits the 2 byte prg header. sub save_raw(uword filenameptr, uword startaddress, uword savesize) -> bool { return internal_save_routine(filenameptr, startaddress, savesize, true) } sub internal_save_routine(uword filenameptr, uword startaddress, uword savesize, bool headerless) -> bool { cbm.SETNAM(string.length(filenameptr), filenameptr) cbm.SETLFS(1, drivenumber, 0) uword @shared end_address = startaddress + savesize cx16.r0L = 0 %asm {{ lda startaddress sta P8ZP_SCRATCH_W1 lda startaddress+1 sta P8ZP_SCRATCH_W1+1 ldx end_address ldy end_address+1 lda headerless beq + lda # uword { return internal_load_routine(filenameptr, address_override, false) } ; Identical to load(), but DOES INCLUDE the first 2 bytes in the file. ; No program header is assumed in the file. Everything is loaded. ; See comments on load() for more details. sub load_raw(uword filenameptr, uword startaddress) -> uword { return internal_load_routine(filenameptr, startaddress, true) } sub internal_load_routine(uword filenameptr, uword address_override, bool headerless) -> uword { cbm.SETNAM(string.length(filenameptr), filenameptr) ubyte secondary = 1 cx16.r1 = 0 if address_override!=0 secondary = 0 if headerless secondary |= %00000010 ; activate cx16 kernal headerless load support cbm.SETLFS(1, drivenumber, secondary) %asm {{ lda #0 ldx address_override ldy address_override+1 jsr cbm.LOAD bcs + stx cx16.r1 sty cx16.r1+1 + }} return cx16.r1 } sub delete(uword filenameptr) { ; -- delete a file on the drive list_filename[0] = 's' list_filename[1] = ':' ubyte flen = string.copy(filenameptr, &list_filename+2) cbm.SETNAM(flen+2, list_filename) cbm.SETLFS(1, drivenumber, 15) void cbm.OPEN() cbm.CLRCHN() cbm.CLOSE(1) } sub rename(uword oldfileptr, uword newfileptr) { ; -- rename a file on the drive list_filename[0] = 'r' list_filename[1] = ':' ubyte flen_new = string.copy(newfileptr, &list_filename+2) list_filename[flen_new+2] = '=' ubyte flen_old = string.copy(oldfileptr, &list_filename+3+flen_new) cbm.SETNAM(3+flen_new+flen_old, list_filename) cbm.SETLFS(1, drivenumber, 15) void cbm.OPEN() cbm.CLRCHN() cbm.CLOSE(1) } sub send_command(uword commandptr) { ; -- send a dos command to the drive cbm.SETNAM(string.length(commandptr), commandptr) cbm.SETLFS(15, drivenumber, 15) void cbm.OPEN() cbm.CLRCHN() cbm.CLOSE(15) } ; CommanderX16 extensions over the basic C64/C128 diskio routines: ; For use directly after a load or load_raw call (don't mess with the ram bank yet): ; Calculates the number of bytes loaded (files > 64Kb ar truncated to 16 bits) sub load_size(ubyte startbank, uword startaddress, uword endaddress) -> uword { return $2000 * (cx16.getrambank() - startbank) + endaddress - startaddress } asmsub vload(str name @R0, ubyte bank @A, uword startaddress @R1) clobbers(X, Y) -> ubyte @A { ; -- like the basic command VLOAD "filename",drivenumber,bank,address ; loads a file into Vera's video memory in the given bank:address, returns success in A ; the file has to have the usual 2 byte header (which will be skipped) %asm {{ clc internal_vload: pha ldx drivenumber bcc + ldy #%00000010 ; headerless load mode bne ++ + ldy #0 ; normal load mode + lda #1 jsr cbm.SETLFS lda cx16.r0 ldy cx16.r0+1 jsr prog8_lib.strlen tya ldx cx16.r0 ldy cx16.r0+1 jsr cbm.SETNAM pla clc adc #2 ldx cx16.r1 ldy cx16.r1+1 stz P8ZP_SCRATCH_B1 jsr cbm.LOAD bcs + inc P8ZP_SCRATCH_B1 + jsr cbm.CLRCHN lda #1 jsr cbm.CLOSE lda P8ZP_SCRATCH_B1 rts }} } asmsub vload_raw(str name @R0, ubyte bank @A, uword startaddress @R1) clobbers(X, Y) -> ubyte @A { ; -- like the basic command BVLOAD "filename",drivenumber,bank,address ; loads a file into Vera's video memory in the given bank:address, returns success in A ; the file is read fully including the first two bytes. %asm {{ sec jmp vload.internal_vload }} } sub chdir(str path) { ; -- change current directory. list_filename[0] = 'c' list_filename[1] = 'd' list_filename[2] = ':' void string.copy(path, &list_filename+3) send_command(list_filename) } sub mkdir(str name) { ; -- make a new subdirectory. list_filename[0] = 'm' list_filename[1] = 'd' list_filename[2] = ':' void string.copy(name, &list_filename+3) send_command(list_filename) } sub rmdir(str name) { ; -- remove a subdirectory. void string.find(name, '*') if_cs return ; refuse to act on a wildcard * list_filename[0] = 'r' list_filename[1] = 'd' list_filename[2] = ':' void string.copy(name, &list_filename+3) send_command(list_filename) } sub curdir() -> uword { ; return current directory name or 0 if error ; special X16 dos command to only return the current path in the entry list (R42+) const ubyte MAX_PATH_LEN=80 uword reversebuffer = memory("curdir_buffer", MAX_PATH_LEN, 0) cx16.r12 = reversebuffer + MAX_PATH_LEN-1 @(cx16.r12)=0 cbm.SETNAM(3, "$=c") cbm.SETLFS(READ_IO_CHANNEL, drivenumber, 0) void cbm.OPEN() ; open 12,8,0,"$=c" if_cs goto io_error reset_read_channel() repeat 6 { void cbm.CHRIN() } while cbm.CHRIN()!=0 { ; skip first line (drive label) } while cbm.CHRIN()!='"' { ; skip to first name } ubyte status = cbm.READST() cx16.r10 = &list_filename while status==0 { repeat { @(cx16.r10) = cbm.CHRIN() if @(cx16.r10)==0 break cx16.r10++ } while @(cx16.r10)!='"' and cx16.r10>=&list_filename { @(cx16.r10)=0 cx16.r10-- } @(cx16.r10)=0 prepend(list_filename) cx16.r10 = &list_filename while cbm.CHRIN()!='"' and status==0 { status = cbm.READST() ; skipping up to next entry name } } io_error: cbm.CLRCHN() cbm.CLOSE(READ_IO_CHANNEL) if status!=0 and status & $40 == 0 return 0 if @(cx16.r12)==0 { cx16.r12-- @(cx16.r12)='/' } return cx16.r12 sub prepend(str dir) { if dir[0]=='/' and dir[1]==0 return cx16.r9L = string.length(dir) cx16.r12 -= cx16.r9L sys.memcopy(dir, cx16.r12, cx16.r9L) cx16.r12-- @(cx16.r12)='/' } } sub relabel(str name) { ; -- change the disk label. list_filename[0] = 'r' list_filename[1] = '-' list_filename[2] = 'h' list_filename[3] = ':' void string.copy(name, &list_filename+4) send_command(list_filename) } sub f_seek(uword pos_hiword, uword pos_loword) { ; -- seek in the reading file opened with f_open, to the given 32-bits position ubyte[6] command = ['p',0,0,0,0,0] command[1] = READ_IO_CHANNEL ; f_open uses this secondary address command[2] = lsb(pos_loword) command[3] = msb(pos_loword) command[4] = lsb(pos_hiword) command[5] = msb(pos_hiword) send_command: cbm.SETNAM(sizeof(command), &command) cbm.SETLFS(15, drivenumber, 15) void cbm.OPEN() cbm.CLOSE(15) reset_read_channel() ; back to the read io channel } sub f_seek_w(uword pos_hiword, uword pos_loword) { ; -- seek in the output file opened with f_open_w_seek, to the given 32-bits position diskio.f_seek.command[1] = WRITE_IO_CHANNEL ; f_open_w uses this secondary address diskio.f_seek.command[2] = lsb(pos_loword) diskio.f_seek.command[3] = msb(pos_loword) diskio.f_seek.command[4] = lsb(pos_hiword) diskio.f_seek.command[5] = msb(pos_hiword) cbm.SETNAM(sizeof(diskio.f_seek.command), &diskio.f_seek.command) cbm.SETLFS(15, drivenumber, 15) void cbm.OPEN() cbm.CLOSE(15) reset_write_channel() ; back to the write io channel } }