kolibrios-gitea/data/common/fasmdep/fasmdep.asm

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; This program parses .fas file generated by fasm
; and prints the list of dependencies for make.
; Usage: fasmdep [-e] [<input file> [<output file>]].
; If input file is not given, the program reads from stdin.
; If output file is not given, the program writes to stdout.
; If the option -e is given, the program also creates an empty
; goal for every dependency, this prevents make errors when
; files are renamed.
; This definition controls the choice of platform-specific code.
;define OS WINDOWS
define OS LINUX
; Program header.
match =WINDOWS,OS { include 'windows_header.inc' }
match =LINUX,OS { include 'linux_header.inc' }
include 'fas.inc'
; Main code
start:
; 1. Setup stack frame, zero-initialize all local variables.
virtual at ebp - .localsize
.begin:
.flags dd ? ; 1 if '-e' is given
.in dd ? ; handle of input file
.out dd ? ; handle of output file
.buf dd ? ; pointer to data of .fas file
.allocated dd ? ; number of bytes allocated for .buf
.free dd ? ; number of bytes free in .buf
.outstart dd ? ; offset in .buf for start of data to output
.names dd ? ; offset in .buf for start of output names
.include dd ? ; offset in .buf to value of %INCLUDE%
.testname dd ? ; offset in .buf for start of current file name
.prevfile dd ? ; offset in .buf for previous included file name
.prevfilefrom dd ? ; offset in .buf for .asm/.inc for .prevfile
.localsize = $ - .begin
match =LINUX,OS {
.argc dd ?
.argv:
}
end virtual
mov ebp, esp
xor eax, eax
repeat .localsize / 4
push eax
end repeat
; 2. Call the parser of the command line.
call get_params
; 3. Load the input file.
; Note that stdin can be a pipe,
; useful in bash-construction "fasm input.asm -s >(fasmdep > input.Po)",
; so its size is not always known in the beginning.
; So, we must read input file in portions, reallocating memory if needed.
.readloop:
; 3a. If the size is less than 32768 bytes, reallocate buffer.
; Otherwise, goto 3c.
cmp [.free], 32768
jae .norealloc
; 3b. Reallocate buffer.
; Start with 65536 bytes and then double the size every time.
mov eax, 65536
mov ecx, [.allocated]
add ecx, ecx
jz @f
mov eax, ecx
@@:
call realloc
.norealloc:
; 3c. Read the next portion.
call read
sub [.free], eax
test eax, eax
jnz .readloop
; 4. Sanity checks.
; We don't use .section_* and .symref_*, so allow them to be absent.
mov edi, [.allocated]
sub edi, [.free]
; Note that edi = number of bytes which were read
; and simultaneously pointer to free space in the buffer relative to [.buf].
cmp edi, fas_header.section_offs
jb badfile
mov ebx, [.buf]
cmp [ebx+fas_header.signature], FAS_SIGNATURE
jnz badfile
cmp [ebx+fas_header.headersize], fas_header.section_offs
jb badfile
; 5. Get %INCLUDE% environment variable, it will be useful.
mov [.include], edi
mov esi, include_variable
sub esi, ebx
call get_environment_variable
; 6. Start writing dependencies: copy output and input files.
mov [.outstart], edi
; 6a. Copy output name.
mov esi, [ebx+fas_header.output]
call copy_asciiz_escaped
; 6b. Write ": ".
stdcall alloc_in_buf, 2
mov word [edi+ebx], ': '
inc edi
inc edi
; 6c. Copy input name.
mov [.names], edi
mov esi, [ebx+fas_header.input]
call copy_asciiz_escaped
; 7. Scan for 'include' dependencies.
; 7a. Get range for scanning.
mov edx, [ebx+fas_header.preproc_size]
mov esi, [ebx+fas_header.preproc_offs]
add edx, esi
.include_loop:
; 7b. Loop over preprocessed lines in the range.
cmp esi, edx
jae .include_done
; 7c. For every line, ignore header and do internal loop over tokens.
add esi, preproc_line_header.contents
.include_loop_int:
; There are five types of tokens:
; 1) "start preprocessor data" with code ';' <byte length> <length*byte token>
; 2) "quoted string" with code '"' <dword length> <length*byte string>
; 3) "word" with code 1Ah <byte length> <length*byte word>
; 4) one-byte tokens like "+", "(" and so on
; 5) "end-of-line" token with code 0.
mov al, [esi+ebx]
inc esi
; 7d. First, check token type parsing the first byte.
; For preprocessor tokens, continue to 7e.
; For quoted strings, go to 7g.
; For words, go to 7h.
; For end-of-line, exit the internal loop, continue the external loop.
; Otherwise, just continue the internal loop.
cmp al, ';'
jnz .notprep
; 7e. For "include" tokens length=7, token is "include", the next token is
; quoted string.
; These tokens are handled in 7f, other preprocessor tokens in 7g.
cmp byte [esi+ebx], 7
jnz .notinclude
cmp dword [esi+ebx+1], 'incl'
jnz .notinclude
cmp dword [esi+ebx+5], 'ude"'
jnz .notinclude
; 7f. Skip over end of this token and the type byte of the next token;
; this gives the pointer to length-prefixed string, which should be added
; to dependencies. Note that doing that skips that string,
; so after copying just continue the internal loop.
add esi, 9
call add_separator
call copy_name_escaped
jmp .include_loop_int
.quoted:
; 7g. To skip a word, load the dword length and add it to pointer.
add esi, [esi+ebx]
add esi, 4
jmp .include_loop_int
.notinclude:
; 7h. To skip this token, load the byte length and add it to pointer.
; Note that word tokens and preprocessor tokens have a similar structure,
; so both are handled here.
movzx eax, byte [esi+ebx]
lea esi, [esi+eax+1]
jmp .include_loop_int
.notprep:
cmp al, 1Ah
jz .notinclude
cmp al, '"'
jz .quoted
test al, al
jnz .include_loop_int
jmp .include_loop
.include_done:
; 8. Scan for 'file' dependencies.
; 8a. Get range for scanning.
; Note that fas_header.asm_size can be slighly greater than the
; real size, so we break from the loop when there is no space left
; for the entire asm_row structure, not when .asm_size is exactly reached.
mov esi, [ebx+fas_header.asm_offs]
mov edx, [ebx+fas_header.asm_size]
add edx, esi
sub edx, asm_row.sizeof
push edx
jc .file_done
.file_loop:
; 8b. Loop over assembled lines in the range.
cmp esi, [esp]
ja .file_done
; 8c. For every assembled line, skip "word" and one-byte tokens
; scanning for three predefined word tokens.
; Note that lines like "a:b:c:d file 'something'" are possible and valid.
; go to 8d for token 'file',
; go to 8e for token 'format',
; go to 8f for token 'section',
; continue the loop otherwise.
mov eax, [esi+ebx+asm_row.preproc_offs]
add eax, [ebx+fas_header.preproc_offs]
; We save/restore esi since it is used for another thing in the internal loop;
; we push eax, which currently contains ebx-relative pointer to
; preproc_line_header, to be able to access it from resolve_name.
push esi eax
.file_tokens_loop:
mov cl, byte [eax+ebx+preproc_line_header.contents]
cmp cl, 1Ah
jnz .file_noword_token
movzx ecx, byte [eax+ebx+preproc_line_header.contents+1]
cmp cl, 4
jnz .file_no_file
cmp dword [eax+ebx+preproc_line_header.contents+2], 'file'
jnz .file_no_file4
; 8d. For lines starting with 'file' token, loop over tokens and get names.
; Note that there can be several names in one line.
; Parsing of tokens is similar to step 5 with the difference that
; preprocessor token stops processing: 'file' directives are processed
; in assembler stage.
lea esi, [eax+preproc_line_header.contents+6]
.file_loop_int:
mov al, [esi+ebx]
inc esi
test al, al
jz .file_next
cmp al, ';'
jz .file_next
cmp al, 1Ah
jz .fileword
cmp al, '"'
jnz .file_loop_int
call resolve_name
add esi, [esi+ebx-4]
jmp .file_loop_int
.fileword:
movzx eax, byte [esi+ebx]
lea esi, [esi+eax+1]
jmp .file_loop_int
.file_no_file4:
cmp dword [eax+ebx+preproc_line_header.contents+2], 'data'
jnz .file_word_token
jmp .file_scan_from
.file_no_file:
cmp cl, 6
jnz .file_no_format
cmp dword [eax+ebx+preproc_line_header.contents+2], 'form'
jnz .file_no_format
cmp word [eax+ebx+preproc_line_header.contents+6], 'at'
jnz .file_no_format
; 8e. For lines starting with 'format' token, loop over tokens and look for stub name.
; Note that there can be another quoted string, namely file extension;
; stub name always follows the token 'on'.
mov edx, TokenOn
call scan_after_word
jmp .file_next
.file_no_format:
cmp cl, 7
jnz .file_no_section
cmp dword [eax+ebx+preproc_line_header.contents+2], 'sect'
jnz .file_no_section
mov edx, dword [eax+ebx+preproc_line_header.contents+6]
and edx, 0FFFFFFh
cmp edx, 'ion'
jnz .file_no_section
.file_scan_from:
mov edx, TokenFrom
call scan_after_word
jmp .file_next
.file_no_section:
.file_word_token:
lea eax, [eax+ecx+2]
jmp .file_tokens_loop
.file_noword_token:
inc eax
test cl, cl
jz .file_next
cmp cl, 3Bh
jz .file_next
cmp cl, 22h
jnz .file_tokens_loop
.file_next:
pop eax esi
add esi, asm_row.sizeof
jmp .file_loop
.file_done:
pop edx
; 9. Write result.
; 9a. Append two newlines to the end of buffer.
stdcall alloc_in_buf, 2
mov word [edi+ebx], 10 * 101h
inc edi
inc edi
; 9b. If '-e' option was given, duplicate dependencies list as fake goals
; = copy all of them and append ":\n\n".
cmp [.flags], 0
jz .nodup
lea ecx, [edi+1]
mov esi, [.names]
sub ecx, esi
stdcall alloc_in_buf, ecx
add esi, ebx
add edi, ebx
rep movsb
mov byte [edi-3], ':'
mov word [edi-2], 10 * 101h
sub edi, ebx
.nodup:
; 9c. Write to output file.
mov eax, [.outstart]
sub edi, eax
add eax, ebx
call write
; 10. Exit.
xor eax, eax
call exit
; Helper procedure for steps 8e and 8f of main algorithm.
; Looks for quoted strings after given word in edx.
scan_after_word:
push esi eax
lea esi, [eax+preproc_line_header.contents+2+ecx]
.loop:
xor ecx, ecx
.loop_afterword:
mov al, [esi+ebx]
inc esi
test al, al
jz .loop_done
cmp al, ';'
jz .loop_done
cmp al, 1Ah
jz .word
cmp al, '"'
jnz .loop
test ecx, ecx
jz .skip_quoted
call resolve_name
.loop_done:
pop eax esi
ret
.skip_quoted:
add esi, [esi+ebx]
add esi, 4
jmp .loop
.word:
movzx ecx, byte [esi+ebx]
lea esi, [esi+ecx+1]
cmp cl, byte [edx]
jnz .loop
push esi edi
add esi, ebx
sub esi, ecx
lea edi, [edx+1]
repz cmpsb
pop edi esi
jnz .loop
dec ecx
jmp .loop_afterword
; Helper procedure for step 6 of the main procedure.
; Copies the ASCIIZ name from strings section to the buffer.
copy_asciiz_escaped:
add esi, [ebx+fas_header.strings_offs]
.loop:
mov al, [esi+ebx]
test al, al
jz .nothing
call copy_char_escaped
jmp .loop
.nothing:
ret
; Helper procedure for step 7 of the main procedure.
; Copies the name with known length to the buffer.
copy_name_escaped:
mov ecx, [esi+ebx]
add esi, 4
test ecx, ecx
jz .nothing
push ecx
.loop:
mov al, [esi+ebx]
call copy_char_escaped
dec dword [esp]
jnz .loop
pop ecx
.nothing:
ret
; Helper procedure for steps 7 and 8 of the main procedure.
; Writes separator of file names in output = " \\\n".
add_separator:
stdcall alloc_in_buf, 3
mov word [edi+ebx], ' \'
mov byte [edi+ebx+2], 10
add edi, 3
ret
; Helper procedure for step 7 of the main procedure.
; Resolves the path to 'file' dependency and copies
; the full name to the buffer.
resolve_name:
; FASM uses the following order to search for referenced files:
; * path of currently assembling file, which may be .asm or .inc
; * paths from %INCLUDE% for versions >= 1.70
; * current directory = file name is taken as is, without prepending dir name
; We mirror this behaviour, trying to find an existing file somewhere.
; There can be following reasons for the file can not be found anywhere:
; * it has been deleted between compilation and our actions
; * it didn't exist at all, compilation has failed
; * we are running in environment different from fasm environment.
; Assume that the last reason is most probable and that invalid dependency
; is better than absent dependency (it is easier to fix an explicit error
; than a silent one) and output file name without prepending dir name,
; as in the last case. Actually, we even don't need to test existence
; of the file in the current directory.
add esi, 4 ; skip string length
; 1. Get ebx-relative pointer to preproc_line_header, see the comment in start.7d
mov eax, [esp+4]
; 2. Get the path to currently processing file.
push esi
.getpath:
test byte [eax+ebx+preproc_line_header.line_number+3], 80h
jz @f
mov eax, [eax+ebx+preproc_line_header.line_offset]
add eax, [ebx+fas_header.preproc_offs]
jmp .getpath
@@:
mov edx, [eax+ebx+preproc_line_header.source_name]
test edx, edx
jz .frommain
add edx, [ebx+fas_header.preproc_offs]
jmp @f
.frommain:
mov edx, [ebx+fas_header.input]
add edx, [ebx+fas_header.strings_offs]
@@:
; 3. Check that it is not a duplicate of the previous dependency.
; 3a. Compare preprocessor units.
cmp edx, [start.prevfilefrom]
jnz .nodup
; 3b. Compare string lengths.
mov eax, [start.prevfile]
mov ecx, [eax+ebx-4]
cmp ecx, [esi+ebx-4]
jnz .nodup
; 3c. Compare string contents.
push esi edi
lea edi, [eax+ebx]
add esi, ebx
rep cmpsb
pop edi esi
jnz .nodup
; 3d. It is duplicate, just return.
pop esi
ret
.nodup:
; 3e. It is not duplicate. Output separator.
mov [start.prevfilefrom], edx
mov [start.prevfile], esi
call add_separator
; 4. Cut the last component of the path found in step 2.
mov ecx, edx
mov esi, edx
.scanpath:
mov al, [edx+ebx]
test al, al
jz .scandone
cmp al, '/'
jz .slash
cmp al, '\'
jnz .scannext
.slash:
lea ecx, [edx+1]
.scannext:
inc edx
jmp .scanpath
.scandone:
sub ecx, esi
; 5. Try path found in step 4. If found, go to step 8.
mov [start.testname], edi
stdcall copy_string, esi, ecx
pop esi
call expand_environment
call test_file_exists
test eax, eax
jns .found
call revert_testname
; 6. Try each of include paths. For every path, if file is found, go to step 8.
; Otherwise, continue loop over include path.
; Skip this step before 1.70.
cmp [ebx+fas_header.major], 1
ja .checkenv
jb .nocheckenv
cmp [ebx+fas_header.minor], 70
jb .nocheckenv
.checkenv:
mov ecx, [start.include]
.includeloop_ext:
mov eax, ecx
.includeloop_int:
cmp byte [eax+ebx], 0
jz @f
cmp byte [eax+ebx], ';'
jz @f
inc eax
jmp .includeloop_int
@@:
push eax
sub eax, ecx
jz @f
stdcall copy_string, ecx, eax
cmp byte [edi+ebx-1], '/'
jz .hasslash
@@:
stdcall alloc_in_buf, 1
mov byte [edi+ebx], '/'
inc edi
.hasslash:
call expand_environment
call test_file_exists
pop ecx
test eax, eax
jns .found
call revert_testname
cmp byte [ecx+ebx], 0
jz .notfound
inc ecx
cmp byte [ecx+ebx], 0
jnz .includeloop_ext
.nocheckenv:
.notfound:
; 7. File not found neither near the current preprocessor unit nor in %INCLUDE%.
; Assume that it is in the current directory.
call expand_environment
.found:
; 8. Currently we have file name from [start.testname] to edi;
; it is zero-terminated and not space-escaped. Fix both issues.
dec edi
inc [start.free]
push esi
mov edx, [start.testname]
.escapeloop:
cmp edx, edi
jae .escapedone
cmp byte [edx+ebx], ' '
jnz .noescape
stdcall alloc_in_buf, 1
mov ecx, edi
sub ecx, edx
push edi
add edi, ebx
lea esi, [edi-1]
std
rep movsb
cld
pop edi
inc edi
mov byte [edx+ebx], '\'
inc edx
.noescape:
inc edx
jmp .escapeloop
.escapedone:
pop esi
ret
; Helper procedure for resolve_name.
; Allocates space in the buffer and appends the given string to the buffer.
copy_string:
mov eax, [esp+8]
test eax, eax
jz .nothing
stdcall alloc_in_buf, eax
mov ecx, [esp+4]
.copy:
mov al, [ecx+ebx]
inc ecx
cmp al, '\'
jnz @f
mov al, '/'
@@:
mov [edi+ebx], al
inc edi
dec dword [esp+8]
jnz .copy
.nothing:
ret 8
; Helper procedure for resolve_name. Undoes appending of last file name.
revert_testname:
add [start.free], edi
mov edi, [start.testname]
sub [start.free], edi
ret
; Helper procedure for resolve_name. Copies string from esi to edi,
; expanding environment variables.
expand_environment:
; 1. Save esi to restore it in the end of function.
push esi
; 2. Push string length to the stack to be used as a variable.
pushd [esi+ebx-4]
; 3. Scan loop.
.scan:
; 3a. Scan for '%' sign.
call find_percent
.justcopy:
; 3b. Copy the part from the beginning of current portion to '%' sign,
; advance pointer to '%' sign, or end-of-string if no '%' found.
push eax
sub eax, esi
stdcall copy_string, esi, eax
pop esi
; 3c. If string has ended, break from the loop.
cmp dword [esp], 0
jz .scandone
; 3d. Advance over '%' sign.
inc esi
dec dword [esp]
; 3e. Find paired '%'.
call find_percent
; 3f. If there is no paired '%', just return to 3b and copy remaining data,
; including skipped '%'; after that, 3c would break from the loop.
dec esi
cmp dword [esp], 0
jz .justcopy
; 3g. Otherwise, get the value of environment variable.
; Since get_environment_variable requires zero-terminated string
; and returns zero-terminated string, temporarily overwrite trailing '%'
; and ignore last byte in returned string.
; Also convert any backslashes to forward slashes.
inc esi
mov byte [eax+ebx], 0
push eax
push edi
call get_environment_variable
dec edi
inc [start.free]
pop eax
.replaceslash:
cmp eax, edi
jz .replaceslash_done
cmp byte [eax+ebx], '\'
jnz @f
mov byte [eax+ebx], '/'
@@:
inc eax
jmp .replaceslash
.replaceslash_done:
pop esi
mov byte [esi+ebx], '%'
; 3h. Advance over trailing '%'.
inc esi
dec dword [esp]
; 3i. Continue the loop.
jmp .scan
.scandone:
; 4. Zero-terminate resulting string.
stdcall alloc_in_buf, 1
mov byte [edi+ebx], 0
inc edi
; 5. Pop stack variable initialized in step 2.
pop eax
; 6. Restore esi saved in step 1 and return.
pop esi
ret
; Helper procedure for expand_environment.
; Scans the string in esi with length [esp+4]
; until '%' is found or line ended.
find_percent:
mov eax, esi
cmp dword [esp+4], 0
jz .nothing
.scan:
cmp byte [eax+ebx], '%'
jz .nothing
inc eax
dec dword [esp+4]
jnz .scan
.nothing:
ret
; Helper procedure for copy_{name,asciiz}_escaped.
; Allocates space and writes one character, possibly escaped.
copy_char_escaped:
cmp al, ' '
jnz .noescape
stdcall alloc_in_buf, 1
mov byte [edi+ebx], '\'
inc edi
.noescape:
stdcall alloc_in_buf, 1
mov al, [esi+ebx]
inc esi
cmp al, '\'
jnz @f
mov al, '/'
@@:
mov [edi+ebx], al
inc edi
ret
; Helper procedure for ensuring that there is at least [esp+4]
; free bytes in the buffer.
alloc_in_buf:
mov eax, [esp+4]
sub [start.free], eax
jb .need_realloc
ret 4
.need_realloc:
mov eax, [start.allocated]
add eax, eax
push ecx edx
call realloc
pop edx ecx
cmp [start.free], 0
jl .need_realloc
mov ebx, [start.buf]
ret 4
badfile:
mov esi, badfile_string
call sayerr
mov al, 1
call exit
information:
mov esi, information_string
call sayerr
mov al, 2
call exit
nomemory:
mov esi, nomemory_string
call sayerr
mov al, 3
call exit
in_openerr:
mov esi, in_openerr_string
jmp in_err
readerr:
mov esi, readerr_string
in_err:
call sayerr
mov al, 4
call exit
out_openerr:
mov esi, out_openerr_string
jmp out_err
writeerr:
mov esi, writeerr_string
out_err:
call sayerr
mov al, 5
call exit
; Platform-specific procedures.
match =WINDOWS,OS { include 'windows_sys.inc' }
match =LINUX,OS { include 'linux_sys.inc' }
; Data
macro string a, [b] {
common
db a ## _end - a
a db b
a ## _end:
}
string information_string, 'Usage: fasmdep [-e] [<input.fas> [<output.Po>]]',10
string badfile_string, 'Not .fas file',10
string nomemory_string, 'No memory',10
string in_openerr_string, 'Cannot open input file',10
string readerr_string, 'Read error',10
string out_openerr_string, 'Cannot create output file',10
string writeerr_string, 'Write error',10
include_variable db 'INCLUDE',0
TokenOn db 2,'on'
TokenFrom db 4,'from'