kolibrios-fun/programs/develop/libraries/http/http.asm
ashmew2 4e43c1647f Show EAI code when getaddrinfo() failed
git-svn-id: svn://kolibrios.org@7009 a494cfbc-eb01-0410-851d-a64ba20cac60
2017-09-24 21:26:43 +00:00

1936 lines
66 KiB
NASM

;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2017. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;; HTTP library for KolibriOS ;;
;; ;;
;; Written by hidnplayr@kolibrios.org ;;
;; Proxy code written by CleverMouse ;;
;; ;;
;; GNU GENERAL PUBLIC LICENSE ;;
;; Version 2, June 1991 ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; references:
; "HTTP made really easy", http://www.jmarshall.com/easy/http/
; "Hypertext Transfer Protocol -- HTTP/1.1", http://tools.ietf.org/html/rfc2616
URLMAXLEN = 65535
BUFFERSIZE = 8192
TIMEOUT = 500 ; in 1/100 s
__DEBUG__ = 1
__DEBUG_LEVEL__ = 2
format MS COFF
public @EXPORT as 'EXPORTS'
include '../../../struct.inc'
include '../../../proc32.inc'
include '../../../macros.inc'
purge section,mov,add,sub
include '../../../debug-fdo.inc'
include '../../../network.inc'
include 'http.inc'
virtual at 0
http_msg http_msg
end virtual
macro copy_till_zero {
local .copyloop, .copydone
.copyloop:
lodsb
test al, al
jz .copydone
stosb
jmp .copyloop
.copydone:
}
macro HTTP_init_buffer buffer, socketnum, flags {
mov eax, buffer
push socketnum
popd [eax + http_msg.socket]
lea esi, [eax + http_msg.http_header]
push flags
pop [eax + http_msg.flags]
or [eax + http_msg.flags], FLAG_CONNECTED
mov [eax + http_msg.write_ptr], esi
mov [eax + http_msg.buffer_length], BUFFERSIZE - http_msg.http_header
mov [eax + http_msg.chunk_ptr], 0
mov [eax + http_msg.status], 0
mov [eax + http_msg.header_length], 0
mov [eax + http_msg.content_ptr], 0
mov [eax + http_msg.content_length], 0
mov [eax + http_msg.content_received], 0
push eax ebp
mov ebp, eax
mcall 26, 9
mov [ebp + http_msg.timestamp], eax
pop ebp eax
}
section '.flat' code readable align 16
;;===========================================================================;;
lib_init: ;//////////////////////////////////////////////////////////////////;;
;;---------------------------------------------------------------------------;;
;? Library entry point (called after library load) ;;
;;---------------------------------------------------------------------------;;
;> eax = pointer to memory allocation routine ;;
;> ebx = pointer to memory freeing routine ;;
;> ecx = pointer to memory reallocation routine ;;
;> edx = pointer to library loading routine ;;
;;---------------------------------------------------------------------------;;
;< eax = 1 (fail) / 0 (ok) ;;
;;===========================================================================;;
mov [mem.alloc], eax
mov [mem.free], ebx
mov [mem.realloc], ecx
mov [dll.load], edx
invoke dll.load, @IMPORT
test eax, eax
jnz .error
; load proxy settings
pusha
invoke ini.get_str, inifile, sec_proxy, key_proxy, proxyAddr, 256, proxyAddr
invoke ini.get_int, inifile, sec_proxy, key_proxyport, 80
mov [proxyPort], eax
invoke ini.get_str, inifile, sec_proxy, key_user, proxyUser, 256, proxyUser
invoke ini.get_str, inifile, sec_proxy, key_password, proxyPassword, 256, proxyPassword
popa
DEBUGF 1, "HTTP library: init OK\n"
xor eax, eax
ret
.error:
DEBUGF 2, "ERROR loading http.obj dependencies\n"
xor eax, eax
inc eax
ret
;;================================================================================================;;
proc HTTP_disconnect identifier ;/////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Stops the open connection ;;
;;------------------------------------------------------------------------------------------------;;
;> identifier = pointer to buffer containing http_msg struct. ;;
;;------------------------------------------------------------------------------------------------;;
;< none ;;
;;================================================================================================;;
pusha
mov ebp, [identifier]
test [ebp + http_msg.flags], FLAG_CONNECTED
jz .error
and [ebp + http_msg.flags], not FLAG_CONNECTED
mcall close, [ebp + http_msg.socket]
popa
ret
.error:
DEBUGF 1, "Cannot close already closed connection!\n"
popa
ret
endp
;;================================================================================================;;
proc HTTP_free identifier ;///////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Free the http_msg structure ;;
;;------------------------------------------------------------------------------------------------;;
;> identifier = pointer to buffer containing http_msg struct. ;;
;;------------------------------------------------------------------------------------------------;;
;< none ;;
;;================================================================================================;;
DEBUGF 1, "HTTP_free: 0x%x\n", [identifier]
pusha
mov ebp, [identifier]
test [ebp + http_msg.flags], FLAG_CONNECTED
jz .not_connected
and [ebp + http_msg.flags], not FLAG_CONNECTED
mcall close, [ebp + http_msg.socket]
.not_connected:
invoke mem.free, ebp
popa
ret
endp
;;================================================================================================;;
proc HTTP_get URL, identifier, flags, add_header ;////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Initiates a HTTP connection, using 'GET' method. ;;
;;------------------------------------------------------------------------------------------------;;
;> URL = pointer to ASCIIZ URL ;;
;> identifier = Identifier of an already open connection, or NULL to create a new one. ;;
;> flags = Flags indicating how to threat the connection. ;;
;> add_header = pointer to additional header parameters (ASCIIZ), or NULL for none. ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 (error) / buffer ptr ;;
;;================================================================================================;;
locals
hostname dd ?
pageaddr dd ?
socketnum dd ?
buffer dd ?
port dd ?
endl
and [flags], 0xff00 ; filter out invalid flags
pusha
; split the URL into hostname and pageaddr
stdcall parse_url, [URL]
test eax, eax
jz .error
mov [hostname], eax
mov [pageaddr], ebx
mov [port], ecx
mov eax, [identifier]
test eax, eax
jz .open_new
test [eax + http_msg.flags], FLAG_CONNECTED
jz .error
mov eax, [eax + http_msg.socket]
mov [socketnum], eax
jmp .send_request
; Connect to the other side.
.open_new:
stdcall open_connection, [hostname], [port]
test eax, eax
jz .error
mov [socketnum], eax
; Create the HTTP request.
.send_request:
invoke mem.alloc, BUFFERSIZE
test eax, eax
jz .error
mov [buffer], eax
mov edi, eax
DEBUGF 1, "Buffer allocated: 0x%x\n", eax
mov esi, str_get
copy_till_zero
; If we are using a proxy, send complete URL, otherwise send only page address.
cmp [proxyAddr], 0
je .no_proxy
mov esi, str_http ; prepend 'http://'
copy_till_zero
mov esi, [hostname]
copy_till_zero
.no_proxy:
mov esi, [pageaddr]
copy_till_zero
mov esi, str_http11
mov ecx, str_http11.length
rep movsb
mov esi, [hostname]
copy_till_zero
cmp byte[proxyUser], 0
je @f
call append_proxy_auth_header
@@:
mov ax, 0x0a0d
stosw
mov esi, [add_header]
test esi, esi
jz @f
copy_till_zero
@@:
mov esi, str_close
mov ecx, str_close.length
test [flags], FLAG_KEEPALIVE
jz @f
mov esi, str_keep
mov ecx, str_keep.length
@@:
rep movsb
mov byte[edi], 0
DEBUGF 1, "Request:\n%s", [buffer]
; Free unused memory
push edi
invoke mem.free, [pageaddr]
invoke mem.free, [hostname]
pop esi
; Send the request
sub esi, [buffer] ; length
xor edi, edi ; flags
mcall send, [socketnum], [buffer]
test eax, eax
jz .error
DEBUGF 1, "Request has been sent to server.\n"
cmp [identifier], 0
je .new_connection
invoke mem.free, [buffer]
mov eax, [identifier]
mov [buffer], eax
.new_connection:
HTTP_init_buffer [buffer], [socketnum], [flags]
popa
mov eax, [buffer] ; return buffer ptr
ret
.error:
DEBUGF 2, "HTTP GET error!\n"
popa
xor eax, eax ; return 0 = error
ret
endp
;;================================================================================================;;
proc HTTP_head URL, identifier, flags, add_header ;///////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Initiates a HTTP connection, using 'HEAD' method. ;;
;? This will only return HTTP header and status, no content ;;
;;------------------------------------------------------------------------------------------------;;
;> URL = pointer to ASCIIZ URL ;;
;> identifier = Identifier of an already open connection, or NULL to create a new one. ;;
;> flags = Flags indicating how to threat the connection. ;;
;> add_header = pointer to additional header parameters (ASCIIZ), or NULL for none. ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 (error) / buffer ptr ;;
;;================================================================================================;;
locals
hostname dd ?
pageaddr dd ?
socketnum dd ?
buffer dd ?
port dd ?
endl
and [flags], 0xff00 ; filter out invalid flags
pusha
; split the URL into hostname and pageaddr
stdcall parse_url, [URL]
test eax, eax
jz .error
mov [hostname], eax
mov [pageaddr], ebx
mov [port], ecx
mov eax, [identifier]
test eax, eax
jz .open_new
test [eax + http_msg.flags], FLAG_CONNECTED
jz .error
mov eax, [eax + http_msg.socket]
mov [socketnum], eax
jmp .send_request
; Connect to the other side.
.open_new:
stdcall open_connection, [hostname], [port]
test eax, eax
jz .error
mov [socketnum], eax
; Create the HTTP request.
.send_request:
invoke mem.alloc, BUFFERSIZE
test eax, eax
jz .error
mov [buffer], eax
mov edi, eax
DEBUGF 1, "Buffer has been allocated.\n"
mov esi, str_head
copy_till_zero
; If we are using a proxy, send complete URL, otherwise send only page address.
cmp [proxyAddr], 0
je .no_proxy
mov esi, str_http ; prepend 'http://'
copy_till_zero
mov esi, [hostname]
copy_till_zero
.no_proxy:
mov esi, [pageaddr]
copy_till_zero
mov esi, str_http11
mov ecx, str_http11.length
rep movsb
mov esi, [hostname]
copy_till_zero
cmp byte[proxyUser], 0
je @f
call append_proxy_auth_header
@@:
mov ax, 0x0a0d
stosw
mov esi, [add_header]
test esi, esi
jz @f
copy_till_zero
@@:
mov esi, str_close
mov ecx, str_close.length
test [flags], FLAG_KEEPALIVE
jz @f
mov esi, str_keep
mov ecx, str_keep.length
@@:
rep movsb
mov byte[edi], 0
DEBUGF 1, "Request:\n%s", [buffer]
; Free unused memory
push edi
invoke mem.free, [pageaddr]
invoke mem.free, [hostname]
pop esi
; Send the request
sub esi, [buffer] ; length
xor edi, edi ; flags
mcall send, [socketnum], [buffer]
test eax, eax
jz .error
DEBUGF 1, "Request has been sent to server.\n"
cmp [identifier], 0
je .new_connection
invoke mem.free, [buffer]
mov eax, [identifier]
mov [buffer], eax
.new_connection:
HTTP_init_buffer [buffer], [socketnum], [flags]
popa
mov eax, [buffer] ; return buffer ptr
ret
.error:
DEBUGF 2, "HTTP HEAD error!\n"
popa
xor eax, eax ; return 0 = error
ret
endp
;;================================================================================================;;
proc HTTP_post URL, identifier, flags, add_header, content_type, content_length ;/////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Initiates a HTTP connection, using 'POST' method. ;;
;? This method is used to send data to the HTTP server ;;
;;------------------------------------------------------------------------------------------------;;
;> URL = pointer to ASCIIZ URL ;;
;> identifier = Identifier of an already open connection, or NULL to create a new one. ;;
;> flags = Flags indicating how to threat the connection. ;;
;> add_header = pointer to additional header parameters (ASCIIZ), or NULL for none. ;;
;> content_type = pointer to ASCIIZ string containing content type ;;
;> content_length = length of content (in bytes) ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 (error) / buffer ptr (aka Identifier) ;;
;;================================================================================================;;
locals
hostname dd ?
pageaddr dd ?
socketnum dd ?
buffer dd ?
port dd ?
endl
and [flags], 0xff00 ; filter out invalid flags
pusha
; split the URL into hostname and pageaddr
stdcall parse_url, [URL]
test eax, eax
jz .error
mov [hostname], eax
mov [pageaddr], ebx
mov [port], ecx
mov eax, [identifier]
test eax, eax
jz .open_new
test [eax + http_msg.flags], FLAG_CONNECTED
jz .error
mov eax, [eax + http_msg.socket]
mov [socketnum], eax
jmp .send_request
; Connect to the other side.
.open_new:
stdcall open_connection, [hostname], [port]
test eax, eax
jz .error
mov [socketnum], eax
; Create the HTTP request.
.send_request:
invoke mem.alloc, BUFFERSIZE
test eax, eax
jz .error
mov [buffer], eax
mov edi, eax
DEBUGF 1, "Buffer has been allocated.\n"
mov esi, str_post
copy_till_zero
; If we are using a proxy, send complete URL, otherwise send only page address.
cmp [proxyAddr], 0
je .no_proxy
mov esi, str_http ; prepend 'http://'
copy_till_zero
mov esi, [hostname]
copy_till_zero
.no_proxy:
mov esi, [pageaddr]
copy_till_zero
mov esi, str_http11
mov ecx, str_http11.length
rep movsb
mov esi, [hostname]
copy_till_zero
mov esi, str_post_cl
mov ecx, str_post_cl.length
rep movsb
mov eax, [content_length]
call eax_ascii_dec
mov esi, str_post_ct
mov ecx, str_post_ct.length
rep movsb
mov esi, [content_type]
copy_till_zero
cmp byte[proxyUser], 0
je @f
call append_proxy_auth_header
@@:
mov ax, 0x0a0d
stosw
mov esi, [add_header]
test esi, esi
jz @f
copy_till_zero
@@:
mov esi, str_close
mov ecx, str_close.length
test [flags], FLAG_KEEPALIVE
jz @f
mov esi, str_keep
mov ecx, str_keep.length
@@:
rep movsb
mov byte[edi], 0
DEBUGF 1, "Request:\n%s", [buffer]
; Free unused memory
push edi
invoke mem.free, [pageaddr]
invoke mem.free, [hostname]
pop esi
; Send the request
sub esi, [buffer] ; length
xor edi, edi ; flags
mcall send, [socketnum], [buffer]
test eax, eax
jz .error
DEBUGF 1, "Request has been sent to server.\n"
cmp [identifier], 0
je .new_connection
invoke mem.free, [buffer]
mov eax, [identifier]
mov [buffer], eax
.new_connection:
HTTP_init_buffer [buffer], [socketnum], [flags]
popa
mov eax, [buffer] ; return buffer ptr
ret
.error:
DEBUGF 2, "HTTP POST error!\n"
popa
xor eax, eax ; return 0 = error
ret
endp
;;================================================================================================;;
proc HTTP_receive identifier ;////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Receive data from the server, parse headers and put data in receive buffer(s). ;;
;? To complete a transfer, this procedure must be called over and over again untill it returns 0. ;;
;;------------------------------------------------------------------------------------------------;;
;> identifier = pointer to buffer containing http_msg struct. ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = -1 (not finished) / 0 finished ;;
;;================================================================================================;;
pusha
mov ebp, [identifier]
; If the connection is closed, return immediately
test [ebp + http_msg.flags], FLAG_CONNECTED
jz .connection_closed
; If the buffer is full, allocate a new one
cmp [ebp + http_msg.buffer_length], 0
jne .receive
test [ebp + http_msg.flags], FLAG_STREAM
jz .err_header
test [ebp + http_msg.flags], FLAG_REUSE_BUFFER
jz .new_buffer
mov eax, [ebp + http_msg.content_ptr]
mov [ebp + http_msg.write_ptr], eax
mov [ebp + http_msg.buffer_length], BUFFERSIZE
jmp .receive
.new_buffer:
invoke mem.alloc, BUFFERSIZE
test eax, eax
jz .err_no_ram
mov [ebp + http_msg.content_ptr], eax
mov [ebp + http_msg.write_ptr], eax
mov [ebp + http_msg.buffer_length], BUFFERSIZE
DEBUGF 1, "New buffer: 0x%x\n", eax
; Receive some data
.receive:
mov edi, MSG_DONTWAIT
test [ebp + http_msg.flags], FLAG_BLOCK
jz @f
xor edi, edi
@@:
mcall recv, [ebp + http_msg.socket], [ebp + http_msg.write_ptr], \
[ebp + http_msg.buffer_length]
cmp eax, 0xffffffff
je .check_socket
test eax, eax
jz .server_closed
DEBUGF 1, "Received %u bytes\n", eax
; Update timestamp
push eax
mcall 26, 9
mov [ebp + http_msg.timestamp], eax
pop eax
; Update pointers
mov edi, [ebp + http_msg.write_ptr]
add [ebp + http_msg.write_ptr], eax
sub [ebp + http_msg.buffer_length], eax
; If data is chunked, combine chunks into contiguous data.
test [ebp + http_msg.flags], FLAG_CHUNKED
jnz .chunk_loop
; Did we detect the (final) header yet?
test [ebp + http_msg.flags], FLAG_GOT_HEADER
jnz .header_parsed
;--------------------------------------------------------------
;
; Header parsing code begins here
;
; We havent found the (final) header yet, search for it..
.scan_again:
; eax = total number of bytes received so far
mov eax, [ebp + http_msg.write_ptr]
sub eax, http_msg.http_header
sub eax, ebp
sub eax, [ebp + http_msg.header_length]
; edi is ptr to begin of header
lea edi, [ebp + http_msg.http_header]
add edi, [ebp + http_msg.header_length]
; put it in esi for next proc too
mov esi, edi
sub eax, 3
jle .need_more_data_for_header
.scan_loop:
; scan for end of header (empty line)
cmp dword[edi], 0x0a0d0a0d ; end of header
je .end_of_header
cmp word[edi+2], 0x0a0a ; notice the use of offset + 2, to calculate header length correctly :)
je .end_of_header
inc edi
dec eax
jnz .scan_loop
jmp .need_more_data_for_header
.end_of_header:
add edi, 4 - http_msg.http_header
sub edi, ebp
mov [ebp + http_msg.header_length], edi ; If this isnt the final header, we'll use this as an offset to find real header.
DEBUGF 1, "Header length: %u\n", edi
; Ok, we have found the header
cmp dword[esi], 'HTTP'
jne .err_header
cmp dword[esi+4], '/1.0'
je .http_1.0
cmp dword[esi+4], '/1.1'
jne .err_header
or [ebp + http_msg.flags], FLAG_HTTP11
.http_1.0:
cmp byte[esi+8], ' '
jne .err_header
add esi, 9
xor eax, eax
xor ebx, ebx
mov ecx, 3
.statusloop:
lodsb
sub al, '0'
jb .err_header
cmp al, 9
ja .err_header
lea ebx, [ebx + 4*ebx]
shl ebx, 1
add ebx, eax
dec ecx
jnz .statusloop
; Ignore "100 - Continue" lines
cmp ebx, 100
je .scan_again
DEBUGF 1, "Status: %u\n", ebx
mov [ebp + http_msg.status], ebx
or [ebp + http_msg.flags], FLAG_GOT_HEADER
; Now, convert all header names to lowercase.
; This way, it will be much easier to find certain header fields, later on.
lea esi, [ebp + http_msg.http_header]
mov ecx, [ebp + http_msg.header_length]
.need_newline:
inc esi
dec ecx
jz .convert_done
cmp byte[esi], 10
jne .need_newline
; We have found a newline
; A line beginning with space or tabs has no header fields.
inc esi
dec ecx
jz .convert_done
cmp byte[esi], ' '
je .need_newline
cmp byte[esi], 9 ; horizontal tab
je .need_newline
jmp .convert_loop
.next_char:
inc esi
dec ecx
jz .convert_done
.convert_loop:
cmp byte[esi], ':'
je .need_newline
cmp byte[esi], 'A'
jb .next_char
cmp byte[esi], 'Z'
ja .next_char
or byte[esi], 0x20 ; convert to lowercase
jmp .next_char
.convert_done:
mov byte[esi-1], 0
lea esi, [ebp + http_msg.http_header]
DEBUGF 1, "Header names converted to lowercase:\n%s\n", esi
; Check for content-length header field.
stdcall HTTP_find_header_field, ebp, str_cl
test eax, eax
jz .no_content
or [ebp + http_msg.flags], FLAG_CONTENT_LENGTH
xor edx, edx
.cl_loop:
movzx ebx, byte[eax]
inc eax
cmp bl, 10
je .cl_ok
cmp bl, 13
je .cl_ok
cmp bl, ' '
je .cl_ok
sub bl, '0'
jb .err_header
cmp bl, 9
ja .err_header
lea edx, [edx + edx*4] ; edx = edx*10
shl edx, 1 ;
add edx, ebx
jmp .cl_loop
.cl_ok:
mov [ebp + http_msg.content_length], edx
DEBUGF 1, "Content-length: %u\n", edx
test edx, edx
jz .got_all_data
call alloc_contentbuff
test eax, eax
jz .err_no_ram
xor eax, eax
jmp .header_parsed
.no_content:
DEBUGF 1, "Content-length not found.\n"
; We didnt find 'content-length', maybe server is using chunked transfer encoding?
.multibuffer:
; Try to find 'transfer-encoding' header.
stdcall HTTP_find_header_field, ebp, str_te
test eax, eax
jnz .ct_hdr_found
.not_chunked:
mov edx, BUFFERSIZE
call alloc_contentbuff
test eax, eax
jz .err_no_ram
xor eax, eax
jmp .header_parsed
.ct_hdr_found:
mov ebx, dword[eax]
or ebx, 0x20202020
cmp ebx, 'chun'
jne .not_chunked
mov ebx, dword[eax+4]
or ebx, 0x00202020
and ebx, 0x00ffffff
cmp ebx, 'ked'
jne .not_chunked
or [ebp + http_msg.flags], FLAG_CHUNKED
DEBUGF 1, "Transfer type is: chunked\n"
mov edx, BUFFERSIZE
call alloc_contentbuff
test eax, eax
jz .err_no_ram
; Set chunk pointer where first chunk should begin.
mov eax, [ebp + http_msg.content_ptr]
mov [ebp + http_msg.chunk_ptr], eax
;--------------------------------------------------------------
;
; Chunk parsing code begins here
;
.chunk_loop:
mov ecx, [ebp + http_msg.write_ptr]
sub ecx, [ebp + http_msg.chunk_ptr]
jbe .need_more_data_chunked
; Chunkline starts here, convert the ASCII hex number into ebx
mov esi, [ebp + http_msg.chunk_ptr]
DEBUGF 1, "Chunkline begins at 0x%x\n", esi
xor ebx, ebx
cmp byte[esi], 0x0d
jne .chunk_hex_loop
dec ecx
jz .need_more_data_chunked
inc esi
cmp byte[esi], 0x0a
jne .chunk_hex_loop
dec ecx
jz .need_more_data_chunked
inc esi
.chunk_hex_loop:
lodsb
sub al, '0'
jb .chunk_hex_end
cmp al, 9
jbe .chunk_hex
sub al, 'A' - '0' - 10
jb .chunk_hex_end
cmp al, 15
jbe .chunk_hex
sub al, 'a' - 'A'
cmp al, 15
ja .chunk_hex_end
.chunk_hex:
shl ebx, 4
add bl, al
dec ecx
jnz .chunk_hex_loop
jmp .need_more_data_chunked
.chunk_hex_end:
; Chunkline ends with a CR LF or simply LF
dec esi
.end_of_chunkline?:
lodsb
cmp al, 10 ; chunkline must always end with LF
je .end_of_chunkline
dec ecx
jnz .end_of_chunkline?
xor eax, eax
jmp .need_more_data_chunked ; chunkline is incomplete, request more data
.end_of_chunkline:
DEBUGF 1, "Chunk of 0x%x bytes\n", ebx
; If chunk size is 0, all chunks have been received.
test ebx, ebx
jz .got_all_data_chunked
; Calculate how many data bytes we have received already
mov ecx, [ebp + http_msg.write_ptr]
sub ecx, [ebp + http_msg.chunk_ptr] ; ecx is now number of received data bytes
; Update content_received counter
add [ebp + http_msg.content_received], ecx
; Calculate new write ptr
mov edx, esi
sub edx, [ebp + http_msg.chunk_ptr] ; edx is now length of chunkline
sub [ebp + http_msg.write_ptr], edx
test [ebp + http_msg.flags], FLAG_STREAM
jnz .dont_resize
; Realloc buffer, make it 'chunksize' bigger.
lea edx, [ebx + BUFFERSIZE]
mov [ebp + http_msg.buffer_length], edx ; remaining space in new buffer
add edx, [ebp + http_msg.write_ptr]
sub edx, [ebp + http_msg.content_ptr]
DEBUGF 1, "Resizing buffer 0x%x, it will now be %u bytes\n", [ebp + http_msg.content_ptr], edx
invoke mem.realloc, [ebp + http_msg.content_ptr], edx
DEBUGF 1, "New buffer = 0x%x\n", eax
or eax, eax
jz .err_no_ram
call recalculate_pointers ; Because it's possible that buffer begins on another address now
add esi, eax ; recalculate esi too!
.dont_resize:
; Remove chunk header (aka chunkline) from the buffer by shifting all received data after chunkt_ptr to the left
mov edi, [ebp + http_msg.chunk_ptr]
rep movsb
; Update chunk ptr to point to next chunk
add [ebp + http_msg.chunk_ptr], ebx
; Set number of received bytes to 0, we already updated content_received
xor eax, eax
jmp .chunk_loop
;--------------------------------------------------------------
;
; end of proc code begins here
;
.header_parsed:
; Header was already parsed and connection isnt chunked.
; Update content_received
add [ebp + http_msg.content_received], eax
; If we received content-length parameter, check if we received all the data
test [ebp + http_msg.flags], FLAG_CONTENT_LENGTH
jz @f
mov eax, [ebp + http_msg.content_received]
cmp eax, [ebp + http_msg.content_length]
jae .got_all_data
@@:
cmp [ebp + http_msg.buffer_length], 0
je .buffer_full
; Need more data
popa
xor eax, eax
dec eax
ret
.buffer_full:
test [ebp + http_msg.flags], FLAG_STREAM
jnz .multibuff
mov eax, [ebp + http_msg.write_ptr]
add eax, BUFFERSIZE
sub eax, [ebp + http_msg.content_ptr]
invoke mem.realloc, [ebp + http_msg.content_ptr], eax
or eax, eax
jz .err_no_ram
call recalculate_pointers
mov [ebp + http_msg.buffer_length], BUFFERSIZE
; Need more data
popa
xor eax, eax
dec eax
ret
.multibuff:
; This buffer is full
popa
xor eax, eax
ret
.need_more_data_for_header:
cmp [ebp + http_msg.buffer_length], 0
je .err_header ; It's just too damn long!
; Need more data
popa
xor eax, eax
dec eax
ret
.need_more_data_chunked:
; We only got a partial chunk, or need more chunks, update content_received and request more data
add [ebp + http_msg.content_received], eax
popa
xor eax, eax
dec eax
ret
.got_all_data_chunked:
; Woohoo, we got all the chunked data, calculate total number of bytes received.
mov eax, [ebp + http_msg.chunk_ptr]
sub eax, [ebp + http_msg.content_ptr]
mov [ebp + http_msg.content_length], eax
mov [ebp + http_msg.content_received], eax
.got_all_data:
DEBUGF 1, "We got all the data! (%u bytes)\n", [ebp + http_msg.content_received]
or [ebp + http_msg.flags], FLAG_GOT_ALL_DATA
test [ebp + http_msg.flags], FLAG_KEEPALIVE
jnz @f
mcall close, [ebp + http_msg.socket]
and [ebp + http_msg.flags], not FLAG_CONNECTED
@@:
popa
xor eax, eax
ret
;--------------------------------------------------------------
;
; error handeling code begins here
;
.check_socket:
cmp ebx, EWOULDBLOCK
jne .err_socket
mcall 26, 9
sub eax, [ebp + http_msg.timestamp]
cmp eax, TIMEOUT
ja .err_timeout
; Need more data
popa
xor eax, eax
dec eax
ret
.server_closed:
DEBUGF 1, "server closed connection, transfer complete?\n"
test [ebp + http_msg.flags], FLAG_GOT_HEADER
jz .err_server_closed
test [ebp + http_msg.flags], FLAG_CONTENT_LENGTH
jz .got_all_data
.err_server_closed:
pop eax
DEBUGF 2, "ERROR: server closed connection unexpectedly\n"
or [ebp + http_msg.flags], FLAG_TRANSFER_FAILED
jmp .abort
.err_header:
pop eax
DEBUGF 2, "ERROR: invalid header\n"
or [ebp + http_msg.flags], FLAG_INVALID_HEADER
jmp .abort
.err_no_ram:
DEBUGF 2, "ERROR: out of RAM\n"
or [ebp + http_msg.flags], FLAG_NO_RAM
jmp .abort
.err_timeout:
DEBUGF 2, "ERROR: timeout\n"
or [ebp + http_msg.flags], FLAG_TIMEOUT_ERROR
jmp .abort
.err_socket:
DEBUGF 2, "ERROR: socket error %u\n", ebx
or [ebp + http_msg.flags], FLAG_SOCKET_ERROR
.abort:
and [ebp + http_msg.flags], not FLAG_CONNECTED
mcall close, [ebp + http_msg.socket]
.connection_closed:
popa
xor eax, eax
ret
endp
alloc_contentbuff:
test [ebp + http_msg.flags], FLAG_STREAM
jz @f
mov edx, BUFFERSIZE
@@:
; Allocate content buffer
invoke mem.alloc, edx
or eax, eax
jz .no_ram
DEBUGF 1, "Content buffer allocated: 0x%x\n", eax
; Copy already received content into content buffer
mov edi, eax
lea esi, [ebp + http_msg.http_header]
add esi, [ebp + http_msg.header_length]
mov ecx, [ebp + http_msg.write_ptr]
sub ecx, esi
mov ebx, ecx
rep movsb
; Update pointers to point to new buffer
mov [ebp + http_msg.content_ptr], eax
mov [ebp + http_msg.content_received], ebx
sub edx, ebx
mov [ebp + http_msg.buffer_length], edx
add eax, ebx
mov [ebp + http_msg.write_ptr], eax
; Shrink header buffer
mov eax, http_msg.http_header
add eax, [ebp + http_msg.header_length]
invoke mem.realloc, ebp, eax
or eax, eax
.no_ram:
ret
recalculate_pointers:
sub eax, [ebp + http_msg.content_ptr]
jz .done
add [ebp + http_msg.content_ptr], eax
add [ebp + http_msg.write_ptr], eax
add [ebp + http_msg.chunk_ptr], eax
.done:
ret
;;================================================================================================;;
proc HTTP_send identifier, dataptr, datalength ;//////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Send data to the server ;;
;;------------------------------------------------------------------------------------------------;;
;> identifier = pointer to buffer containing http_msg struct. ;;
;> dataptr = pointer to data to be sent. ;;
;> datalength = length of data (in bytes) to be sent ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = number of bytes sent, -1 on error ;;
;;================================================================================================;;
push ebx ecx edx esi edi
mov edx, [identifier]
test [edx + http_msg.flags], FLAG_CONNECTED
jz .fail
mcall send, [edx + http_msg.socket], [dataptr], [datalength], 0
pop edi esi edx ecx ebx
ret
.fail:
pop edi esi edx ecx ebx
xor eax, eax
dec eax
ret
endp
;;================================================================================================;;
proc HTTP_find_header_field identifier, headername ;//////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Find a header field in the received HTTP header ;;
;? ;;
;? NOTE: this function returns a pointer which points into the original header data. ;;
;? The header field is terminated by a CR, LF, space or maybe even tab. ;;
;? A free operation should not be operated on this pointer! ;;
;;------------------------------------------------------------------------------------------------;;
;> identifier = ptr to http_msg struct ;;
;> headername = ptr to ASCIIZ string containing field you want to find (must be in lowercase) ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 (error) / ptr to content of the HTTP header field ;;
;;================================================================================================;;
push ebx ecx edx esi edi
DEBUGF 1, "Find header field: %s\n", [headername]
mov ebx, [identifier]
test [ebx + http_msg.flags], FLAG_GOT_HEADER
jz .fail
lea edx, [ebx + http_msg.http_header]
mov ecx, edx
add ecx, [ebx + http_msg.header_length]
.restart:
mov esi, [headername]
mov edi, edx
.loop:
cmp edi, ecx
jae .fail
lodsb
scasb
je .loop
test al, al
jz .done?
.next:
inc edx
jmp .restart
.not_done:
inc edi
.done?:
cmp byte[edi-1], ':'
je .almost_done
cmp byte[edi-1], ' '
je .not_done
cmp byte[edi-1], 9 ; tab
je .not_done
jmp .next
.almost_done: ; FIXME: buffer overflow?
dec edi
DEBUGF 1, "Found header field\n"
.spaceloop:
inc edi
cmp byte[edi], ' '
je .spaceloop
cmp byte[edi], 9 ; tab
je .spaceloop
mov eax, edi
pop edi esi edx ecx ebx
ret
.fail:
DEBUGF 1, "Header field not found\n"
pop edi esi edx ecx ebx
xor eax, eax
ret
endp
;;================================================================================================;;
proc HTTP_escape URI, length ;////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? ;;
;;------------------------------------------------------------------------------------------------;;
;> URI = ptr to ASCIIZ URI/data ;;
;> length = length of URI/data ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 (error) / ptr to ASCIIZ URI/data ;;
;< ebx = length of escaped URI/data ;;
;;================================================================================================;;
DEBUGF 1, "HTTP_escape: %s\n", [URI]
pusha
invoke mem.alloc, URLMAXLEN ; FIXME: use length provided by caller to guess final size.
test eax, eax
jz .error
mov [esp + 7 * 4], eax ; return ptr in eax
mov esi, [URI]
mov edi, eax
xor ebx, ebx
xor ecx, ecx
.loop:
lodsb
test al, al
jz .done
mov cl, al
and cl, 0x1f
mov bl, al
shr bl, 3
and bl, not 3
bt dword[bits_must_escape + ebx], ecx
jc .escape
stosb
jmp .loop
.escape:
mov al, '%'
stosb
mov bl, byte[esi-1]
shr bl, 4
mov al, byte[str_hex + ebx]
stosb
mov bl, byte[esi-1]
and bl, 0x0f
mov al, byte[str_hex + ebx]
stosb
jmp .loop
.done:
stosb
sub edi, [esp + 7 * 4]
dec edi
mov [esp + 4 * 4], edi
popa
DEBUGF 1, "escaped URL: %s\n", eax
ret
.error:
DEBUGF 2, "ERROR: out of RAM!\n"
popa
xor eax, eax
ret
endp
;;================================================================================================;;
proc HTTP_unescape URI, length ;//////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? ;;
;;------------------------------------------------------------------------------------------------;;
;> URI = ptr to ASCIIZ URI ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 (error) / ptr to ASCIIZ URI ;;
;;================================================================================================;;
DEBUGF 1, "HTTP_unescape: %s\n", [URI]
pusha
invoke mem.alloc, URLMAXLEN ; FIXME: use length provided by caller
test eax, eax
jz .error
mov [esp + 7 * 4], eax ; return ptr in eax
mov esi, [URI]
mov edi, eax
.loop:
lodsb
test al, al
jz .done
cmp al, '%'
je .unescape
stosb
jmp .loop
.unescape:
xor ebx, ebx
xor ecx, ecx
.unescape_nibble:
lodsb
sub al, '0'
jb .fail
cmp al, 9
jbe .nibble_ok
sub al, 'A' - '0' - 10
jb .fail
cmp al, 15
jbe .nibble_ok
sub al, 'a' - 'A'
cmp al, 15
ja .fail
.nibble_ok:
shl bl, 8
or bl, al
dec ecx
jc .unescape_nibble
mov al, bl
stosb
jmp .loop
.fail:
DEBUGF 2, "ERROR: invalid URI!\n"
jmp .loop
.done:
stosb
popa
DEBUGF 1, "unescaped URL: %s\n", eax
ret
.error:
DEBUGF 2, "ERROR: out of RAM!\n"
popa
xor eax, eax
ret
endp
;;================================================================================================;;
;;////////////////////////////////////////////////////////////////////////////////////////////////;;
;;================================================================================================;;
;! Internal procedures section ;;
;; ;;
;; NOTICE: These procedures do not follow stdcall conventions and thus may destroy any register. ;;
;;================================================================================================;;
;;////////////////////////////////////////////////////////////////////////////////////////////////;;
;;================================================================================================;;
;;================================================================================================;;
proc open_connection hostname, port ;/////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Connects to a HTTP server ;;
;;------------------------------------------------------------------------------------------------;;
;> hostname = ptr to ASCIIZ hostname ;;
;> port = port (x86 byte order) ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 (error) / socketnum ;;
;;================================================================================================;;
locals
sockaddr dd ?
socketnum dd ?
endl
cmp [proxyAddr], 0
je .no_proxy
mov [hostname], proxyAddr
push [proxyPort]
pop [port]
.no_proxy:
; Resolve the hostname
DEBUGF 1, "Resolving hostname\n"
push esp ; reserve stack place
invoke getaddrinfo, [hostname], 0, 0, esp
pop esi
test eax, eax
jnz .error1
; getaddrinfo returns addrinfo struct, make the pointer to sockaddr struct
push esi ; for freeaddrinfo
mov esi, [esi + addrinfo.ai_addr]
mov [sockaddr], esi
mov eax, [esi + sockaddr_in.sin_addr]
test eax, eax
jz .error2
DEBUGF 1, "Server ip=%u.%u.%u.%u\n", \
[esi + sockaddr_in.sin_addr]:1, [esi + sockaddr_in.sin_addr + 1]:1, \
[esi + sockaddr_in.sin_addr + 2]:1, [esi + sockaddr_in.sin_addr + 3]:1
mov [esi + sockaddr_in.sin_family], AF_INET4
mov eax, [port]
xchg al, ah
mov [esi + sockaddr_in.sin_port], ax
; Open a new TCP socket
mcall socket, AF_INET4, SOCK_STREAM, 0
test eax, eax
jz .error3
mov [socketnum], eax
DEBUGF 1, "Socket: 0x%x\n", eax
; Connect to the server
mcall connect, [socketnum], [sockaddr], 18
test eax, eax
jnz .error3
DEBUGF 1, "Socket is now connected.\n"
invoke freeaddrinfo ; Free allocated memory
mov eax, [socketnum]
ret
.error3:
DEBUGF 2, "Could not connect to the remote server\n"
invoke freeaddrinfo ; Free allocated memory
xor eax, eax
ret
.error2:
DEBUGF 2, "Resolving hostname failed\n"
invoke freeaddrinfo ; Free allocated memory
xor eax, eax
ret
.error1:
DEBUGF 2, "Contacting DNS server failed with EAI code: %x\n", eax
xor eax, eax
ret
endp
;;================================================================================================;;
proc parse_url URL ;//////////////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Split a given URL into hostname and pageaddr ;;
;;------------------------------------------------------------------------------------------------;;
;> URL = ptr to ASCIIZ URL ;;
;;------------------------------------------------------------------------------------------------;;
;< eax = 0 (error) / ptr to ASCIIZ hostname ;;
;< ebx = ptr to ASCIIZ pageaddr ;;
;< ecx = port number ;;
;;================================================================================================;;
locals
urlsize dd ?
hostname dd ?
pageaddr dd ?
port dd ?
endl
DEBUGF 1, "parsing URL: %s\n", [URL]
; remove any leading protocol text
mov edi, [URL]
mov ecx, URLMAXLEN
mov ax, '//'
.loop1:
cmp byte[edi], 0 ; end of URL?
je .url_ok ; yep, so not found
cmp [edi], ax
je .skip_proto
inc edi
dec ecx
jnz .loop1
jmp .invalid
.skip_proto:
inc edi ; skip the two '/'
inc edi
mov [URL], edi ; update pointer so it skips protocol
; Find the trailing 0 byte
xor al, al
repne scasb
jne .invalid ; ecx reached 0 before we reached end of string
.url_ok:
sub edi, [URL] ; calculate total length of URL
mov [urlsize], edi
; now look for page delimiter - it's a '/' character
mov ecx, edi ; URL length
mov edi, [URL]
mov al, '/'
repne scasb
jne @f
dec edi ; return one char, '/' must be part of the pageaddr
inc ecx ;
@@:
push ecx edi ; remember the pointer and length of pageaddr
; Create new buffer and put hostname in it.
mov ecx, edi
sub ecx, [URL]
inc ecx ; we will add a 0 byte at the end
invoke mem.alloc, ecx
or eax, eax
jz .no_mem
mov [hostname], eax ; copy hostname to buffer
mov edi, eax
mov esi, [URL]
dec ecx
rep movsb
xor al, al
stosb
; Check if user provided a port, and convert it if so.
mov esi, [hostname]
mov [port], 80 ; default port if user didnt provide one
.portloop:
lodsb
test al, al
jz .no_port
cmp al, ':'
jne .portloop
push esi
call ascii_dec_ebx
pop edi
cmp byte[esi-1], 0
jne .invalid
cmp [proxyAddr], 0 ; remove port number from hostname
jne @f ; unless when we are using proxy
mov byte[edi-1], 0
@@:
test ebx, ebx
je .invalid
cmp ebx, 0xffff
ja .invalid
mov [port], ebx
.no_port:
; Did user provide a pageaddr?
mov [pageaddr], str_slash ; assume there is no pageaddr
pop esi ecx
test ecx, ecx
jz .no_page
; Create new buffer and put pageaddr into it.
inc ecx ; we will add a 0 byte at the end
invoke mem.alloc, ecx
or eax, eax
jz .no_mem
mov [pageaddr], eax ; copy pageaddr to buffer
mov edi, eax
dec ecx
rep movsb
xor al, al
stosb
.no_page:
mov eax, [hostname]
mov ebx, [pageaddr]
mov ecx, [port]
DEBUGF 1, "hostname: %s\n", eax
DEBUGF 1, "pageaddr: %s\n", ebx
DEBUGF 1, "port: %u\n", ecx
ret
.no_mem:
DEBUGF 2, "Out of memory!\n"
xor eax, eax
ret
.invalid:
DEBUGF 2, "Invalid URL!\n"
xor eax, eax
ret
endp
;;================================================================================================;;
proc append_proxy_auth_header ;///////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Appends the proxy authentication header ;;
;;------------------------------------------------------------------------------------------------;;
;> / ;;
;;------------------------------------------------------------------------------------------------;;
;< / ;;
;;================================================================================================;;
mov esi, str_proxy_auth
mov ecx, str_proxy_auth.length
rep movsb
; base64-encode string <user>:<password>
mov esi, proxyUser
apah000:
lodsb
test al, al
jz apah001
call encode_base64_byte
jmp apah000
apah001:
mov al, ':'
call encode_base64_byte
mov esi, proxyPassword
apah002:
lodsb
test al, al
jz apah003
call encode_base64_byte
jmp apah002
apah003:
call encode_base64_final
ret
encode_base64_byte:
inc ecx
shl edx, 8
mov dl, al
cmp ecx, 3
je ebb001
ret
ebb001:
shl edx, 8
inc ecx
ebb002:
rol edx, 6
xor eax, eax
xchg al, dl
mov al, [base64_table+eax]
stosb
loop ebb002
ret
encode_base64_final:
mov al, 0
test ecx, ecx
jz ebf000
call encode_base64_byte
test ecx, ecx
jz ebf001
call encode_base64_byte
mov byte [edi-2], '='
ebf001:
mov byte [edi-1], '='
ebf000:
ret
endp
;;================================================================================================;;
proc eax_ascii_dec ;//////////////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Convert eax to ASCII decimal number ;;
;;------------------------------------------------------------------------------------------------;;
;> eax = number ;;
;> edi = ptr where to write ASCII decimal number ;;
;;------------------------------------------------------------------------------------------------;;
;< / ;;
;;================================================================================================;;
push -'0'
mov ecx, 10
.loop:
xor edx, edx
div ecx
push edx
test eax, eax
jnz .loop
.loop2:
pop eax
add al, '0'
jz .done
stosb
jmp .loop2
.done:
ret
endp
;;================================================================================================;;
proc ascii_dec_ebx ;//////////////////////////////////////////////////////////////////////////////;;
;;------------------------------------------------------------------------------------------------;;
;? Convert ASCII decimal number to ebx ;;
;;------------------------------------------------------------------------------------------------;;
;> esi = ptr where to read ASCII decimal number ;;
;;------------------------------------------------------------------------------------------------;;
;> ebx = number ;;
;;================================================================================================;;
xor eax, eax
xor ebx, ebx
.loop:
lodsb
sub al, '0'
jb .done
cmp al, 9
ja .done
lea ebx, [ebx + 4*ebx]
shl ebx, 1
add ebx, eax
jmp .loop
.done:
ret
endp
;;================================================================================================;;
;;////////////////////////////////////////////////////////////////////////////////////////////////;;
;;================================================================================================;;
;! Imported functions section ;;
;;================================================================================================;;
;;////////////////////////////////////////////////////////////////////////////////////////////////;;
;;================================================================================================;;
align 16
@IMPORT:
library \
libini, 'libini.obj', \
network, 'network.obj'
import libini, \
ini.get_str, 'ini_get_str', \
ini.get_int, 'ini_get_int'
import network,\
getaddrinfo, 'getaddrinfo',\
freeaddrinfo, 'freeaddrinfo',\
inet_ntoa, 'inet_ntoa'
;;===========================================================================;;
;;///////////////////////////////////////////////////////////////////////////;;
;;===========================================================================;;
;! Exported functions section ;;
;;===========================================================================;;
;;///////////////////////////////////////////////////////////////////////////;;
;;===========================================================================;;
HTTP_stop = HTTP_disconnect
HTTP_process = HTTP_receive
align 4
@EXPORT:
export \
lib_init , 'lib_init' , \
0x00010001 , 'version' , \
HTTP_get , 'get' , \
HTTP_head , 'head' , \
HTTP_post , 'post' , \
HTTP_find_header_field , 'find_header_field' , \
HTTP_process , 'process' , \ ; To be removed
HTTP_send , 'send' , \
HTTP_receive , 'receive' , \
HTTP_disconnect , 'disconnect' , \
HTTP_free , 'free' , \
HTTP_stop , 'stop' , \ ; To be removed
HTTP_escape , 'escape' , \
HTTP_unescape , 'unescape'
; HTTP_put , 'put' , \
; HTTP_delete , 'delete' , \
; HTTP_trace , 'trace' , \
; HTTP_connect , 'connect' , \
section '.data' data readable writable align 16
inifile db '/sys/settings/network.ini', 0
sec_proxy:
key_proxy db 'proxy', 0
key_proxyport db 'port', 0
key_user db 'user', 0
key_password db 'password', 0
str_http11 db ' HTTP/1.1', 13, 10, 'Host: '
.length = $ - str_http11
str_post_cl db 13, 10, 'Content-Length: '
.length = $ - str_post_cl
str_post_ct db 13, 10, 'Content-Type: '
.length = $ - str_post_ct
str_proxy_auth db 13, 10, 'Proxy-Authorization: Basic '
.length = $ - str_proxy_auth
str_close db 'User-Agent: KolibriOS libHTTP/1.1', 13, 10, 'Connection: Close', 13, 10, 13, 10
.length = $ - str_close
str_keep db 'User-Agent: KolibriOS libHTTP/1.1', 13, 10, 'Connection: Keepalive', 13, 10, 13, 10
.length = $ - str_keep
str_http db 'http://', 0
base64_table db 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz'
db '0123456789+/'
str_cl db 'content-length', 0
str_slash db '/', 0
str_te db 'transfer-encoding', 0
str_get db 'GET ', 0
str_head db 'HEAD ', 0
str_post db 'POST ', 0
bits_must_escape:
dd 0xffffffff ; 00-1F
dd 1 shl 0 + 1 shl 2 + 1 shl 3 + 1 shl 5 + 1 shl 28 + 1 shl 30 ; "#%<>
dd 1 shl 27 + 1 shl 28 + 1 shl 29 + 1 shl 30 ;[\]^
dd 1 shl 0 + 1 shl 27 + 1 shl 28 + 1 shl 29 + 1 shl 31 ;`{|} DEL
dd 0xffffffff
dd 0xffffffff
dd 0xffffffff
dd 0xffffffff
str_hex:
db '0123456789ABCDEF'
include_debug_strings
; uninitialized data
mem.alloc dd ?
mem.free dd ?
mem.realloc dd ?
dll.load dd ?
proxyAddr rb 256
proxyUser rb 256
proxyPassword rb 256
proxyPort dd ?