collapseos/parts/shell.asm

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; shell
;
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; Runs a shell over an block device interface.
; Status: incomplete. As it is now, it spits a welcome prompt, wait for input
; and compare the first 4 chars of the input with a command table and call the
; appropriate routine if it's found, an error if it's not.
;
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; Commands, for now, are partially implemented.
;
; See constants below for error codes.
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;
; All numerical values in the Collapse OS shell are represented and parsed in
; hexadecimal form, without prefix or suffix.
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; *** DEFINES ***
; SHELL_GETC: Macro that calls a GetC routine
; SHELL_PUTC: Macro that calls a PutC routine
; SHELL_RAMSTART
; *** CONSTS ***
; number of entries in shellCmdTbl
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SHELL_CMD_COUNT .equ 3
; The command that was type isn't known to the shell
SHELL_ERR_UNKNOWN_CMD .equ 0x01
; Arguments for the command weren't properly formatted
SHELL_ERR_BAD_ARGS .equ 0x02
; Size of the shell command buffer. If a typed command reaches this size, the
; command is flushed immediately (same as pressing return).
SHELL_BUFSIZE .equ 0x20
; *** VARIABLES ***
; Memory address that the shell is currently "pointing at" for peek and deek
; operations. Set with seek.
SHELL_MEM_PTR .equ SHELL_RAMSTART
; Used to store formatted hex values just before printing it.
SHELL_HEX_FMT .equ SHELL_MEM_PTR+2
; Command buffer. We read types chars into this buffer until return is pressed
; This buffer is null-terminated and we don't keep an index around: we look
; for the null-termination every time we write to it. Simpler that way.
SHELL_BUF .equ SHELL_HEX_FMT+2
SHELL_RAMEND .equ SHELL_BUF+SHELL_BUFSIZE
; *** CODE ***
shellInit:
xor a
ld (SHELL_MEM_PTR), a
ld (SHELL_BUF), a
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; print welcome
ld hl, .welcome
call printstr
ret
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.welcome:
.db "Collapse OS", ASCII_CR, ASCII_LF, "> ", 0
shellLoop:
; First, let's wait until something is typed.
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SHELL_GETC
; got it. Now, is it a CR or LF?
cp ASCII_CR
jr z, .do ; char is CR? do!
cp ASCII_LF
jr z, .do ; char is LF? do!
; Ok, gotta add it do the buffer
; save char for later
ex af, af'
ld hl, SHELL_BUF
call findnull ; HL points to where we need to write
; A is the number of chars in the buf
cp SHELL_BUFSIZE
jr z, .do ; A == bufsize? then our buffer is full. do!
; bring the char back in A
ex af, af'
; Buffer not full, not CR or LF. Let's put that char in our buffer and
; read again.
ld (hl), a
; Now, write a zero to the next byte to properly terminate our string.
inc hl
xor a
ld (hl), a
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jr shellLoop
.do:
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call printcrlf
ld hl, SHELL_BUF
call shellParse
; empty our buffer by writing a zero to its first char
xor a
ld (hl), a
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ld hl, .prompt
call printstr
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jr shellLoop
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.prompt:
.db "> ", 0
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printcrlf:
ld a, ASCII_CR
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SHELL_PUTC
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ld a, ASCII_LF
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SHELL_PUTC
ret
; Parse command (null terminated) at HL and calls it
shellParse:
push af
push bc
push de
push hl
ld de, shellCmdTbl
ld a, SHELL_CMD_COUNT
ld b, a
.loop:
ld a, 4 ; 4 chars to compare
call strncmp
jr z, .found
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ld a, 7
call addDE
djnz .loop
; exhausted loop? not found
ld a, SHELL_ERR_UNKNOWN_CMD
call shellPrintErr
jr .end
.found:
; all right, we're almost ready to call the cmd. Let's just have DE
; point to the cmd jump line.
ld a, 4
call addDE
; Now, let's swap HL and DE because, welll because that's how we're set.
ex hl, de ; HL = jump line, DE = cmd str pointer
; Before we call our command, we want to set up the pointer to the arg
; list. Normally, it's DE+5 (DE+4 is the space) unless DE+4 is null,
; which means no arg.
ld a, 4
call addDE
ld a, (DE)
cp 0
jr z, .noarg ; char is null? we have no arg
inc de
.noarg:
; DE points to args, HL points to jump line. Ready to roll!
call jumpHL
.end:
pop hl
pop de
pop bc
pop af
ret
; Print the error code set in A (in hex)
shellPrintErr:
push af
push hl
ld hl, .str
call printstr
ld hl, SHELL_HEX_FMT
call fmtHexPair
ld a, 2
call printnstr
call printcrlf
pop hl
pop af
ret
.str:
.db "ERR ", 0
; *** COMMANDS ***
; When these commands are called, DE points to the first character of the
; command args.
; Set memory pointer to the specified address (word).
; Example: seek 01fe
shellSeek:
push af
push de
push hl
ex de, hl
call parseHexPair
jr c, .error
; z80 is little endian. in a "ld hl, (nn)" op, L is loaded from the
; first byte, H is loaded from the second
ld (SHELL_MEM_PTR+1), a
inc hl
inc hl
call parseHexPair
jr c, .error
ld (SHELL_MEM_PTR), a
jr .success
.error:
ld a, SHELL_ERR_BAD_ARGS
call shellPrintErr
jr .end
.success:
ld a, (SHELL_MEM_PTR+1)
ld hl, SHELL_HEX_FMT
call fmtHexPair
ld a, 2
call printnstr
ld a, (SHELL_MEM_PTR)
call fmtHexPair
ld a, 2
call printnstr
call printcrlf
.end:
pop hl
pop de
pop af
ret
; peek byte where memory pointer points to any display its value. If the
; optional numerical byte arg is supplied, this number of bytes will be printed
;
; Example: peek 2 (will print 2 bytes)
shellPeek:
push af
push bc
push de
push hl
ld b, 1 ; by default, we run the loop once
ld a, (de)
cp 0
jr z, .success ; no arg? don't try to parse
ex de, hl
call parseHexPair
jr c, .error
cp 0
jr z, .error ; zero isn't a good arg, error
ld b, a ; loop the number of times specified in arg
jr .success
.error:
ld a, SHELL_ERR_BAD_ARGS
call shellPrintErr
jr .end
.success:
ld hl, (SHELL_MEM_PTR)
.loop: ld a, (hl)
ex hl, de
ld hl, SHELL_HEX_FMT
call fmtHexPair
ld a, 2
call printnstr
ex hl, de
inc hl
djnz .loop
call printcrlf
.end:
pop hl
pop de
pop bc
pop af
ret
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; Load the specified number of bytes (max 0xff) from IO and write them in the
; current memory pointer (which doesn't change). For now, we can only load from
; SHELL_GETC, but a method of selecting IO sources is coming, making this
; command much more useful.
; Control is returned to the shell only after all bytes are read.
;
; Example: load 42
shellLoad:
push af
push bc
push hl
ld a, (de)
call parseHex
jr c, .error
jr .success
.error:
ld a, SHELL_ERR_BAD_ARGS
call shellPrintErr
jr .end
.success:
ld b, a
ld hl, (SHELL_MEM_PTR)
.loop: SHELL_GETC
ld (hl), a
inc hl
djnz .loop
.end:
pop hl
pop bc
pop af
ret
; Format: 4 bytes name followed by 3 bytes jump. fill names with zeroes
shellCmdTbl:
.db "seek"
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jp shellSeek
.db "peek"
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jp shellPeek
.db "load"
jp shellLoad