kolibrios-gitea/programs/network/ppp/trunk/ppp.asm
SPraid (simba) f8ca762192 in some programs set not sized changed window
git-svn-id: svn://kolibrios.org@551 a494cfbc-eb01-0410-851d-a64ba20cac60
2007-06-22 20:24:06 +00:00

2239 lines
48 KiB
NASM

;
; PPP.ASM
;
; Compile with FASM for Menuet
; This program dials into an ISP and establishes a PPP connection
;
; Version 11 26th January 2004
;
; This code is a port of the PPP dialer program by Microchip, from
; their application note AN724
; It has been ported by Mike Hibbett mikeh@oceanfree.net for Menuet
;
; 26/1/04 - Mike Hibbett - added support for com port selected by
; stackcfg
; 2/5/03 - Shrirang - Added Abort Strings To sendwait to get out early
; if modem sends abort strings like NO CARRIER etc.
;
; The original copyright statement follows
;//////////////////////////////////////////////////////////////////////////
;//
;//PING.C version 1.10 July 29/99 (C)opyright by Microchip Technology Inc
;//
;//////////////////////////////////////////////////////////////////////////
FALSE equ 0
TRUE equ 1
DEBUG_OUTPUT equ TRUE ; If FALSE, not debugging info outputted
DEBUG_PPP_OUTPUT equ TRUE ; write PPP status msgs to debug board?
DEBUG_PORT2_OUTPUT equ TRUE ; write debug data also to com2
BAUD_9600 equ 12
BAUD_57600 equ 2
; The next line sets the baud rate of the connection to the modem
BAUDRATE equ BAUD_57600
LINE_END equ 0x0D ; End of input data character
; Defines for Internet constants
REQ equ 1 ; Request options list for PPP negotiations
PPP_ACK equ 2 ; Acknowledge options list for PPP negotiations
PPP_NAK equ 3 ; Not acknowledged options list for PPP neg
REJ equ 4 ; Reject options list for PPP negotiations
TERM equ 5 ; Termination packet for LCP to close connectio
LCP_ECHO_REQ equ 9
LCP_ECHO_REP equ 10
IP equ 0x0021 ; Internet Protocol packet
IPCP equ 0x8021 ; Internet Protocol Configure Protocol packet
CCP equ 0x80FD ; Compression Configure Protocol packet
LCP equ 0xC021 ; Link Configure Protocol packet
PAP equ 0xC023 ; Password Authenication Protocol packet
MaxRx equ 1500
MaxTx equ 1500
use32
org 0x0
db 'MENUET01' ; header
dd 0x01 ; header version
dd STARTAPP ; entry point
dd I_END ; image size
dd I_END+0x10000 ; required memory
dd I_END+0x10000 ; esp
dd 0x0 , 0x0 ; I_Param , I_Path
include "lang.inc"
include "..\..\..\macros.inc"
include "chat.inc" ; Hosts modem chatting routine
STARTAPP:
; mov eax, 0x3f8
; mov [comport], eax
; mov eax, 4
; mov [comirq], eax
; Get the com port & IRQ to use from the kernel stack config option
mov eax, 52 ; Stack Interface
mov ebx, 0 ; read configuration word
mcall
mov ecx, eax
shr ecx, 16 ; get the port address
mov [comport], ecx
shr eax, 8
and eax, 0x000000FF ; get the irq
mov [comirq], eax
mov eax, [comport]
add eax, 0x01000000
mov [irqtable], eax
call enable_port
appdsp:
mov eax, welcomep
mov [prompt], eax ; set up prompt to display
mov al, [welcomep_len]
mov [prompt_len], al
red:
call draw_window ; at first, draw the window
apploop:
mov eax, 23 ; wait here for event
mov ebx, 20
mcall
cmp eax, 1 ; redraw request ?
je red
cmp eax, 2 ; key in buffer ?
je key
cmp eax, 3 ; button in buffer ?
je button
mov ebx, [comirq]
add ebx, 16
cmp eax, ebx
je flush_input ; Dont want serial data yet
jmp apploop
key: ; key - ignore
mov eax, 2 ; just read it
mcall
jmp apploop
button: ; button
mov eax, 17 ; get id
mcall
cmp ah, 1 ; close program ?
jne noclose
mov esi, hangupWait
mov edi, hangupSend
mov edx, 1000 ; Allow sendwait 10s
call sendwait
call disable_port
or eax, -1 ; close this program
mcall
jmp apploop
noclose:
cmp ah, 2 ; Dial Button pressed?
jne apploop
mov eax, conp
mov [prompt], eax ; set up prompt to display
mov al,[conp_len]
mov [prompt_len], al
call draw_window
jmp dialloop ; connect to the host
; Data received, so get it, and throw it away at this point
flush_input:
mov eax,42
mov ebx, [comirq]
mcall
mov eax,11 ; This will return 0 most of the time
mcall
mov ebx, [comirq]
add ebx, 16
cmp eax, ebx
je flush_input
jmp apploop
dialloop:
call modem_chat ; Try chatting with the modem
cmp eax, 1 ; Did it work? ( = 1)
jne appdsp
; OK, we are now connected.
mov eax, pppOnp
mov [prompt], eax ; set up prompt to display
mov al,[pppOnp_len]
mov [prompt_len], al
call draw_window
mov eax, 23
mov ebx, 100
mcall ; wait for 1s to display message
call PPPStateMachine ; This is the main code
jmp appdsp
;****************************************************************************
; Function
; PPPStateMachine
;
; Description
; Handles PPP link establishment
;
;****************************************************************************
PPPStateMachine:
; Start the timer
xor eax, eax
call settimer
PPPLoop:
mov eax, 11 ; check event
mcall
cmp eax, 3
jne PPPLred
; button pressed
mov eax, 17 ; get id
mcall
mov eax, hangp
mov [prompt], eax ; set up prompt to display
mov al,[hangp_len]
mov [prompt_len], al
call draw_window
mov esi, hangupWait
mov edi, hangupSend
mov edx, 1000 ; Allow sendwait 10s
call sendwait
call disable_port
mov eax, -1 ; close this program
mcall
jmp PPPLoop
PPPLred:
cmp eax, 1 ; redraw request ?
jne PPPLoop0
call draw_window
jmp PPPLoop
PPPLoop0:
mov ebx, [comirq]
add ebx, 16
cmp eax, ebx
jne ppp_002 ; check for tx to send
; we have data in the rx buffer, get it
mov eax, 42
mov ebx, [comirq] ; ecx will return 0 =data read, 1 =no data
mcall ; or 2 =not irq owner
inc dword [rxbytes]
cmp bl, 0x7E
jne ppp_001a
mov eax, [rx_ptr]
cmp eax, 0
jz ppp_001
mov eax, [checksum1]
cmp eax, 0xf0b8
jne ppp_001
movzx eax, byte [rx_str + 3]
mov ah, [rx_str + 2]
mov [packet], eax
ppp_001:
mov eax, [extended]
and eax, 0x7e
mov [extended], eax
xor eax, eax
mov [rx_ptr], eax
mov eax, 0xffff
mov [checksum1], eax
jmp ppp_003
ppp_001a:
cmp bl, 0x7D
jne ppp_001b
mov eax, [extended]
or eax, 0x01
mov [extended], eax
jmp ppp_003
ppp_001b:
mov eax, [extended]
test eax, 0x01
jz ppp_001c
xor bl, 0x20
and eax, 0xFE
mov [extended], eax
ppp_001c:
mov edx, [rx_ptr]
cmp edx, 0
jnz ppp_001d
cmp bl, 0xff
je ppp_001d
mov [rx_str + edx], byte 0xff
inc edx
ppp_001d:
cmp edx, 1
jnz ppp_001e
cmp bl, 0x03
je ppp_001e
mov [rx_str + edx], byte 0x03
inc edx
ppp_001e:
cmp edx, 2
jnz ppp_001f
test bl, 0x01
jz ppp_001f
mov [rx_str + edx], byte 0
inc edx
ppp_001f:
mov [rx_str + edx], bl
inc edx
mov [rx_ptr], edx
cmp edx, MaxRx
jle ppp_001g
mov edx, MaxRx
mov [rx_ptr], edx
ppp_001g:
; do checksum calc
mov eax, [checksum1]
xor bh, bh
xor ax, bx
call calc
mov ebx, [checksum1]
and ebx, 0xffff
shr ebx, 8
xor eax, ebx
mov [checksum1], eax
jmp ppp_003
ppp_002:
mov eax, [tx_end]
cmp eax, 0
jz ppp_003
mov ebx, [tx_ptr]
mov cl, [tx_str + ebx]
cmp ebx, eax
jne ppp_002a
mov [tx_end], dword 0
mov cl, '~'
jmp ppp_002d
ppp_002a:
mov eax, [extended]
and eax, 0x02
jz ppp_002b
xor cl, 0x20
mov eax, [extended]
and eax, 0xFD
mov [extended], eax
inc [tx_ptr]
jmp ppp_002d
ppp_002b:
cmp cl, 0x20
jl ppp_002b1
cmp cl, 0x7d
je ppp_002b1
cmp cl, 0x7e
je ppp_002b1
jmp ppp_002c
ppp_002b1:
mov eax, [extended]
or eax, 0x02
mov [extended], eax
mov cl, 0x7d
jmp ppp_002d
ppp_002c:
mov eax, [tx_ptr]
cmp eax, 0
jnz ppp_002c1
mov cl, '~'
ppp_002c1:
inc [tx_ptr]
ppp_002d:
; Test for tx ready.
push ecx
wait_txd2:
mov eax,43
mov ecx, [comport]
add ecx, 0x80000000 + 5
mcall
and bl, 0x40
cmp bl, 0
jz wait_txd2 ; loop until free
pop ebx
; send the character
inc dword [txbytes]
mov ecx, [comport]
mov eax, 43
mcall
ppp_003:
mov eax, [packet]
cmp eax, LCP
jne ppp_004
mov al, [rx_str + 4]
cmp al, REQ
jne ppp_003b
; Debugging output to debug board
pusha
mov esi, RX_LCP_REQ
call debug_output
popa
mov eax, [state]
and eax, 0xfd
mov [state], eax
mov ebx, 0xc6
push eax
call TestOptions
pop eax
cmp edx, 0
jz ppp_003g
cmp edx, 1
jle ppp_003h
mov edx, PPP_ACK
cmp eax, 3
jge ppp_003i
or eax, 0x02
mov [state], eax
jmp ppp_003i
ppp_003h:
mov bl, 0xc0
mov [rx_str + 10], bl
mov edx, PPP_NAK
jmp ppp_003i
ppp_003g:
mov edx, REJ
ppp_003i:
mov ebx, LCP
mov ecx, edx
movzx edx, byte [rx_str + 5]
mov esi, rx_str + 7
call MakePacket
mov eax, 0
call settimer
jmp ppp_003a
ppp_003b:
cmp al, PPP_ACK
jne ppp_003c
; Debugging output to debug board
pusha
mov esi, RX_LCP_ACK
call debug_output
popa
mov eax, [number]
cmp al, [rx_str+5]
jne ppp_003a
mov eax, [state]
cmp eax, 3
jge ppp_003a
or eax, 0x01
mov [state], eax
jmp ppp_003a
ppp_003c:
cmp al, PPP_NAK
jne ppp_003d
; Debugging output to debug board
pusha
mov esi, RX_LCP_NAK
call debug_output
popa
mov eax, [state]
and eax, 0xfe
mov [state], eax
jmp ppp_003a
ppp_003d:
cmp al, REJ
jne ppp_003e
; Debugging output to debug board
pusha
mov esi, RX_LCP_REJ
call debug_output
popa
mov eax, [state]
and eax, 0xfe
mov [state], eax
jmp ppp_003a
ppp_003e:
cmp al, TERM
jne ppp_003j
jmp ppp_003a
ppp_003j:
cmp al, LCP_ECHO_REQ
jne ppp_003a
; Debugging output to debug board
pusha
mov esi, RX_LCP_ECHO_REQ
call debug_output
popa
mov al, 0
mov [rx_str+8],al
mov [rx_str+9],al
mov [rx_str+10],al
mov [rx_str+11],al
mov ebx, LCP
mov ecx, LCP_ECHO_REP
movzx edx, byte [rx_str + 5]
mov esi, rx_str + 7
call MakePacket
ppp_003a:
mov eax, [state]
cmp eax, 3
jne ppp_013
mov eax, 4
mov [state], eax
jmp ppp_013
ppp_004:
cmp eax, PAP
jne ppp_005
mov al, [rx_str + 4]
cmp al, PPP_ACK
jne ppp_013
; Debugging output to debug board
pusha
mov esi, RX_PAP_ACK
call debug_output
popa
mov eax, 5
mov [state],eax
jmp ppp_013
ppp_005:
cmp eax, IPCP
jne ppp_006
mov al, [rx_str + 4]
cmp al, REQ
jne ppp_005a
; Debugging output to debug board
pusha
mov esi, RX_IPCP_REQ
call debug_output
popa
mov ebx, 0x04
call TestOptions
cmp edx, 0
jz ppp_005b
mov ecx, PPP_ACK
mov eax, 6
mov [state], eax
jmp ppp_005c
ppp_005b:
mov ecx, REJ
ppp_005c:
mov ebx, IPCP
movzx edx, byte [rx_str + 5]
mov esi, rx_str + 7
call MakePacket
jmp ppp_013
ppp_005a:
cmp al, PPP_ACK
jne ppp_005d
; Debugging output to debug board
pusha
mov esi, RX_IPCP_ACK
call debug_output
popa
mov al, [rx_str + 5]
mov ecx, [number]
cmp al, cl
jne ppp_013
mov eax, 7
mov [state], eax
mov eax, 5800
call settimer
mov eax, IPOnp
mov [prompt], eax ; set up prompt to display
mov al,[IPOnp_len]
mov [prompt_len], al
call draw_window
jmp ppp_013
ppp_005d:
cmp al, PPP_NAK
jne ppp_005e
; Debugging output to debug board
pusha
mov esi, RX_IPCP_NAK
call debug_output
popa
mov al, [rx_str + 10]
mov [addr1], al
mov al, [rx_str + 11]
mov [addr2], al
mov al, [rx_str + 12]
mov [addr3], al
mov al, [rx_str + 13]
mov [addr4], al
pusha
call draw_window
mov eax,52
mov ebx,3
mov cl, [addr4]
shl ecx, 8
mov cl, [addr3]
shl ecx, 8
mov cl, [addr2]
shl ecx, 8
mov cl, [addr1]
mcall ; Set the stacks IP address
popa
mov ebx, IPCP ;; added 28/4/03
mov ecx, REQ
movzx edx, byte [rx_str + 5]
mov esi, rx_str + 7
call MakePacket
jmp ppp_013
ppp_005e:
cmp al, REJ
jne ppp_005f
jmp ppp_013
ppp_005f:
cmp al, TERM
jne ppp_013
jmp ppp_013
ppp_006:
cmp eax, IP
jne ppp_007
;;
;;
;;
;; This is where we will pass the IP packet up to the stack
;;
;;
;;
mov eax, 52
mov ebx, 6
mov edx, 1500 ; this should be exact amount
mov esi, rx_str + 4
mcall
; Debugging output to debug board
pusha
mov esi, RX_IP
call debug_output
popa
jmp ppp_013
ppp_007:
cmp eax, CCP
jne ppp_008
mov al, [rx_str + 4]
cmp al, REQ
jne ppp_013
; Debugging output to debug board
pusha
mov esi, RX_CCP_REQ
call debug_output
popa
mov ebx, 0x04
call TestOptions
cmp edx, 0
jz ppp_007b
mov ecx, PPP_ACK
jmp ppp_007c
ppp_007b:
mov ecx, REJ
ppp_007c:
mov ebx, CCP
movzx edx, byte [rx_str + 5]
mov esi, rx_str + 7
call MakePacket
jmp ppp_013
ppp_008:
cmp eax, 0
jz ppp_009
jmp ppp_013
ppp_009:
mov eax, [tx_end]
cmp eax, 0
jnz ppp_010
call gettimer
cmp eax, 100
jle ppp_010
mov eax, [state]
cmp eax, 0
je ppp_009a
cmp eax, 2
jne ppp_010
ppp_009a:
; Debugging output to debug board
pusha
mov esi, TX_LCP_REQ
call debug_output
popa
inc [number]
mov eax, 0
call settimer
mov ebx, LCP
mov ecx, REQ
mov edx, [number]
mov esi, LCPREQStr
call MakePacket
jmp ppp_013
ppp_010:
mov eax, [tx_end]
cmp eax, 0
jnz ppp_011
call gettimer
cmp eax, 100
jle ppp_011
mov eax, [state]
cmp eax, 4
jne ppp_011
mov eax, 0
call settimer
inc [number]
; Debugging output to debug board
pusha
mov esi, TX_PAP_REQ
call debug_output
popa
mov ebx, PAP
mov ecx, REQ
mov edx, [number]
mov esi, PAPREQStr
call MakePacket
jmp ppp_013
ppp_011:
mov eax, [tx_end]
cmp eax, 0
jnz ppp_012
call gettimer
cmp eax, 100
jle ppp_012
mov eax, [state]
cmp eax, 6
jne ppp_012
inc [number]
mov eax, 0
call settimer
; Debugging output to debug board
pusha
mov esi, TX_IPCP_REQ
call debug_output
popa
mov ebx, IPCP
mov ecx, REQ
mov edx, [number]
mov esi, IPCPREQStr
call MakePacket
jmp ppp_013
ppp_012:
mov eax, [tx_end]
cmp eax, 0
jnz ppp_013
mov eax, [state]
cmp eax, 7
jne ppp_013
; 10ms Delay suggested by Ville
mov eax,23 ; over here
mov ebx,1
mcall
call gettimer
cmp eax, 200
jle ppp_012a
; every 2s, when things are quiet, redraw window
call draw_window_limited
mov eax, 0
call settimer
ppp_012a:
mov eax, 52
mov ebx, 8
mov esi, ip_buff
mcall
cmp eax, 0
je ppp_013
call MakeIPPacket
; Debugging output to debug board
pusha
mov esi, TX_IP
call debug_output
popa
ppp_013:
mov eax, [packet]
cmp eax, 0
jz PPPLoop
mov eax, 0
mov [packet], eax
mov edi, rx_str
mov ecx, MaxRx + 1
rep stosb
jmp PPPLoop
;****************************************************************************
; Function
; calc
;
; Description
; Adds a character to the CRC checksum
; byte in lsb of eax
;
;
;****************************************************************************
calc:
and eax, 0xFF
push ecx
mov ecx, 8
calc_001:
test al, 0x01
jz calc_002
shr eax, 1
xor eax, 0x8408
and eax, 0xffff
jmp calc_003
calc_002:
shr eax, 1
calc_003:
loop calc_001
pop ecx
ret
;****************************************************************************
; Function
; add2tx
;
; Description
; Adds a character into the tx buffer
; byte in low byte of eax
;
;
;****************************************************************************
add2tx:
pusha
mov esi, tx_str
add esi, [tx_ptr]
inc [tx_ptr]
mov [esi], al ; Save byte in buffer
mov ecx, [checksum2]
and eax, 0xff
xor eax, ecx
call calc
shr ecx, 8
and ecx, 0xff
xor eax, ecx
mov [checksum2], eax
popa
ret
;****************************************************************************
; Function
; MakeIPPacket
;
; Description
; Creates a PPP packet for transmission to the host from the
; IP packet extracted from the stack
;
; IP data is in ip_buff
;
;****************************************************************************
MakeIPPacket:
mov [tx_ptr], dword 1
mov edi, tx_str
mov [edi], byte ' '
mov eax, 0xffff
mov [checksum2], eax
mov al, 0xff
call add2tx
mov al, 3
call add2tx
mov al, IP / 256
call add2tx
mov al, IP
call add2tx
movzx ecx, byte [ip_buff + 3]
mov ch, byte [ip_buff + 2]
mov esi, ip_buff
mip001:
mov al, byte [esi]
call add2tx
inc esi
loop mip001
mov eax, [checksum2]
not eax
call add2tx
shr eax, 8
call add2tx
mov eax, [tx_ptr]
mov [tx_end], eax
xor eax, eax
mov [tx_ptr], eax
ret
;****************************************************************************
; Function
; MakePacket
;
; Description
; Creates a PPP packet for transmission to the host
;
; Packet type in ebx
; Code is in ecx
; num is in edx
; str is pointed to by esi
;
;****************************************************************************
MakePacket:
mov [tx_ptr], dword 1
mov edi, tx_str
mov [edi], byte ' '
mov eax, 0xffff
mov [checksum2], eax
mov al, 0xff
call add2tx
mov al, 3
call add2tx
mov al, bh ; packet/256
call add2tx
mov al, bl ; packet&255
call add2tx
cmp ebx, IP ; is packet type IP?
jne mp_001 ; No - its a lower layer packet
; Do IP packet assembly
jmp mp_002
mp_001:
; Do PPP layer packet assembly
mov al, cl
call add2tx
mov al, dl
call add2tx
mov al, 0
call add2tx
movzx ecx, byte [esi] ; length = *str - 3
sub ecx, 3
mp_002: ; Now copy the data acros
mov al, byte [esi]
call add2tx
inc esi
loop mp_002
mov eax, [checksum2]
not eax
call add2tx
shr eax, 8
call add2tx
mov eax, [tx_ptr]
mov [tx_end], eax
xor eax, eax
mov [tx_ptr], eax
ret
;****************************************************************************
; Function
; TestOptions
;
; Description
; Test a PPP packets options fields for valid entries
;
; option ebx
;
; Returns result in edx, but may also modify rx_str
;
;****************************************************************************
TestOptions:
mov esi, 8 ; ptr1
mov edi, 8 ; ptr2
mov edx, 3 ; edx is the return value
movzx ecx, byte [rx_str + 7]
add ecx, 4 ; ecx is size
cmp ecx, MaxRx
jle to_001
mov ecx, MaxRx
to_001:
cmp esi, ecx
jge to_002
mov al, byte [esi + rx_str]
cmp al, 3
jne to_001a
mov al, byte [esi + rx_str + 2]
cmp al, 0x80
je to_001a
; bug fix for chap authenticate reject below
mov al, byte [esi + rx_str + 2]
cmp al, 0xc2
jne to_001a
and edx, 0xfd
to_001a:
push ecx
mov cl, [esi + rx_str]
dec cl
mov eax, 1
shl eax, cl
and eax, ebx
and eax, 0xffff
pop ecx
cmp eax, 0
jnz to_001b
xor edx,edx
to_001b:
movzx eax, byte [esi+rx_str+1]
add esi, eax
jmp to_001
to_002:
; if (!(pass&2))...
test edx, 2
jnz to_exit
test edx, 1
jz to_002a
mov ebx, 0xFFFB
to_002a:
mov esi, 8
to_002b: ; for loop
cmp esi, ecx
jge to_003
push ecx
mov cl, [esi + rx_str]
dec cl
mov eax, 1
shl eax, cl
and eax, ebx
and eax, 0xffff
pop ecx
cmp eax, 0
jnz to_002c
movzx edx, byte [esi+rx_str+1]
to_002d:
cmp esi, ecx
jge to_002b
cmp edx, 0
jz to_002b
mov al, [esi + rx_str]
mov [edi + rx_str], al
inc esi
inc edi
dec edx
jmp to_002d
to_002c:
movzx eax, byte [esi+rx_str+1]
add esi, eax
jmp to_002b ; end of for loop
to_003:
mov eax, edi
sub al, 4
mov [rx_str+7], al
xor edx, edx
cmp ebx, 0xfffb
jne to_exit
inc edx
to_exit:
; Return value in EDX
ret
;***************************************************************************
; Function
; disable_port
;
; Description;
; Releases this applications use of the com port
;
;***************************************************************************
disable_port:
if DEBUG_PORT2_OUTPUT = TRUE
mov eax, 46 ; free port area
mov ebx, 1
mov ecx, 0x2f8
and ecx, 0xFF0
mov edx, ecx
or edx, 0x00F
mcall
end if
mov eax, 45 ; free irq 4
mov ebx, 1
mov ecx, [comirq]
mcall
mov eax, 46 ; free port area
mov ebx, 1
mov ecx, [comport]
and ecx, 0xFF0
mov edx, ecx
or edx, 0x00F
mcall
ret
;***************************************************************************
; Function
; enable_port
;
; Description;
; Takes control of the com port, defining the IRQ table and initialising
; the uart chip.
;
;***************************************************************************
enable_port:
pusha
if DEBUG_PORT2_OUTPUT = TRUE
mov eax, 46
mov ebx, 0
mov ecx, 0x2f8
and ecx, 0xFF0
mov edx, ecx
or edx, 0x00F
mcall ; reseve port memory to this process
mov eax, 45 ; reserve irq 3
mov ebx, 0
mov ecx, 3
mcall
mov ecx, 0x2f8 ; data format register
add ecx, 3
mov bl, 0x80 ; enable access to divisor latch
mov eax, 43 ; send data to device - com port setup
mcall
mov ecx, 0x2f8 ; interrupt enable register
inc ecx
mov bl, 0 ; No interruts enabled
mov eax, 43 ; send data to device (modem)
mcall
mov ecx, 0x2f8 ; Divisor latch LSB
mov bl, BAUDRATE ; set baud rate
mov eax, 43 ; send data to device (modem)
mcall
mov ecx, 0x2f8 ; Data format register
add ecx, 3
mov bl, 3 ; 8 data bits
mov eax, 43 ; send data to device (modem)
mcall
mov ecx, 0x2f8 ; Modem control register
add ecx, 4 ; ** bl must be 0x0b for modem to dial!
mov bl, 0x0b ; 0x08 -> out2 enabled. No handshaking.
; 0xb -> out2 enabled, RTS/DTR enabled
mov eax, 43 ; send data to device (modem)
mcall
; mov ecx, 0x2f8 ; interrupt enable register
; inc ecx
; mov bl, 1 ; rx data interrupt enabled, othrs not
; mov eax, 43 ; send data to device (modem)
; mcall
end if
mov eax, 46
mov ebx, 0
mov ecx, [comport]
and ecx, 0xFF0
mov edx, ecx
or edx, 0x00F
mcall ; reseve port memory to this process
mov eax, 45 ; reserve irq 4
mov ebx, 0
mov ecx, [comirq]
mcall
mov eax, 44 ; setup irq table
mov ebx, irqtable
mov ecx, [comirq]
mcall
mov ecx, [comport] ; data format register
add ecx, 3
mov bl, 0x80 ; enable access to divisor latch
mov eax, 43 ; send data to device - com port setup
mcall
mov ecx, [comport] ; interrupt enable register
inc ecx
mov bl, 0 ; No interruts enabled
mov eax, 43 ; send data to device (modem)
mcall
mov ecx, [comport] ; Divisor latch LSB
mov bl, BAUDRATE ; set baud rate
mov eax, 43 ; send data to device (modem)
mcall
mov ecx, [comport] ; Data format register
add ecx, 3
mov bl, 3 ; 8 data bits
mov eax, 43 ; send data to device (modem)
mcall
mov ecx, [comport] ; Modem control register
add ecx, 4 ; ** bl must be 0x0b for modem to dial!
mov bl, 0x0b ; 0x08 -> out2 enabled. No handshaking.
; 0xb -> out2 enabled, RTS/DTR enabled
mov eax, 43 ; send data to device (modem)
mcall
mov ecx, [comport] ; interrupt enable register
inc ecx
mov bl, 1 ; rx data interrupt enabled, othrs not
mov eax, 43 ; send data to device (modem)
mcall
mov ecx, [comirq]
add ecx, 16
mov ebx, 1
shl ebx, cl
add ebx, 111b
mov eax,40 ; enable irq 4 data
mcall
popa
ret
;**************************************************************************
; Function
; draw_window
;
; Description;
; Normal window definition and text layout for application
;**************************************************************************
draw_window:
mov eax, 12 ; function 12:tell os about windowdraw
mov ebx, 1 ; 1, start of draw
mcall
; DRAW WINDOW
mov eax, 0 ; function 0 : define and draw window
mov ebx, 100*65536+250 ; [x start] *65536 + [x size]
mov ecx, 100*65536+150 ; [y start] *65536 + [y size]
mov edx,0x14224466 ; color of work area RRGGBB
mov edi,title ; color of frames RRGGBB
mcall
; DIAL BUTTON
mov eax, 8 ; function 8 : define and draw button
mov ebx, (50)*65536+40 ; [x start] *65536 + [x size]
mov ecx, 130*65536+12 ; [y start] *65536 + [y size]
mov edx, 2 ; button id
mov esi, 0x5599cc ; button color RRGGBB
mcall
mov ebx, 55*65536+133 ; Draw button text
mov ecx, 0x00FFFFFF
mov edx, button1_text
xor eax, eax
mov al, [button1_text_len]
mov esi, eax
mov eax, 4
mcall
; DISCONNECT BUTTON
mov eax, 8 ; function 8 : define and draw button
mov ebx, (150)*65536+65 ; [x start] *65536 + [x size]
mov ecx, 130*65536+12 ; [y start] *65536 + [y size]
mov edx, 3 ; button id
mov esi, 0x5599cc ; button color RRGGBB
mcall
mov ebx, 155*65536+133 ; Draw button text
mov ecx, 0x00FFFFFF
mov edx, button3_text
xor eax, eax
mov al, [button3_text_len]
mov esi, eax
mov eax, 4
mcall
mov ebx, 5*65536+40 ; draw info text with function 4
mov ecx, 0x00FFFFFF
mov edx, [prompt]
xor eax, eax
mov al, [prompt_len]
mov esi, eax
mov eax, 4
mcall
; Draw IP address
mov edx, 10*65536+60
mov esi, 0x00FFFFFF
mov ebx, 0x00030000
movzx ecx, byte [addr1]
mov eax, 47
mcall
mov edx, 31*65536+60
mov esi, 0x00FFFFFF
mov ebx, 0x00030000
movzx ecx, byte [addr2]
mov eax, 47
mcall
mov edx, 52*65536+60
mov esi, 0x00FFFFFF
mov ebx, 0x00030000
movzx ecx, byte [addr3]
mov eax, 47
mcall
mov edx, 73*65536+60
mov esi, 0x00FFFFFF
mov ebx, 0x00030000
movzx ecx, byte [addr4]
mov eax, 47
mcall
; Status byte
mov edx, 100*65536+60
mov esi, 0x00FFFFFF
mov ebx, 0x00010000
movzx ecx, byte [state]
mov eax, 47
mcall
; bytes sent / received
mov eax, 4 ; function 4 : write text to window
mov ebx, 10*65536+80 ; [x start] *65536 + [y start]
mov ecx, 0x00ffffff ; color of text RRGGBB
mov edx, txmsg ; pointer to text beginning
mov esi, txmsglen-txmsg ; text length
mcall
mov eax, 4 ; function 4 : write text to window
mov ebx, 10*65536+100 ; [x start] *65536 + [y start]
mov ecx, 0x00ffffff ; color of text RRGGBB
mov edx, rxmsg ; pointer to text beginning
mov esi, rxmsglen-rxmsg ; text length
mcall
call draw_window_limited
mov eax, 12 ; end of redraw
mov ebx, 2
mcall
ret
draw_window_limited:
mov eax,13
mov ebx,80*65536+10*6
mov ecx,80*65536+10
mov edx,0x03224466
mcall
mov ecx,100*65536+10
mcall
mov ebx, 0x000A0000
mov ecx, [txbytes]
mov esi, 0x00ffffff ; color of text RRGGBB
mov eax, 47 ; function 47 : write number to window
mov edx, 80*65536+80 ; [x start] *65536 + [y start]
mcall
mov ebx, 0x000A0000
mov ecx, [rxbytes]
mov esi, 0x00ffffff ; color of text RRGGBB
mov eax, 47 ; function 47 : write number to window
mov edx, 80*65536+100 ; [x start] *65536 + [y start]
mcall
ret
;****************************************************************************
; Function
; settimer
;
; Description
; sets the general purpose timer to a given value in eax
; All times are in 1/100s
;
;
;****************************************************************************
settimer:
push eax
mov eax, 26
mov ebx, 9
mcall ; get 100th second counter
pop ebx
sub eax, ebx ; This could have some funny side effecs if PPP
; called within ebx seconds of startup
mov [timerValue], eax
ret
;****************************************************************************
; Function
; gettimer
;
; Description
; gets the general purpose timer count in eax
; All times are in 1/100s
;
;
;****************************************************************************
gettimer:
mov eax, 26
mov ebx, 9
mcall ; get 100th second counter
sub eax, [timerValue]
ret
;****************************************************************************
; Function
; sendwait
;
; Description
; Sends a command string to the modem, then waits for a defined rsp
;
; esi points to string to wait for
; edi points to string to send
; edx holds wait time, in ms
;
; Returns 1 if OK or 0 if timeout occurred
;
;****************************************************************************
sendwait:
mov [sendwaitTime], edx
; Shrirang 2/5/03
mov byte [abortcnt], 0 ; reset the abort counter
;--!
; Start the timer
xor eax, eax
call settimer
; Check for incoming data
xor edx, edx
xor eax, eax
sw_001:
push eax
push edx
; Has connection timer expired?
call gettimer
cmp eax, [sendwaitTime]
jl sw_000
pop edx
pop eax
xor eax, eax
jmp sw_exit ; Exit indicating an error ( timeout )
sw_000:
; any data from modem?
mov eax,11 ; This will return 0 most of the time
mcall
mov ecx, eax
pop edx
pop eax
cmp ecx, 1 ; redraw request ?
je red1
cmp ecx, 3 ; button in buffer ?
je button1
mov ebx, [comirq]
add ebx, 16
cmp ecx,ebx
jne sw_002
jmp sw_000a
red1:
pusha
call draw_window
popa
push eax
push edx
jmp sw_000
button1:
mov eax, 0
jmp sw_exit
sw_000a:
; there was data, so get it
push edx
push eax
mov eax,42
mov ebx, [comirq]
mcall
pop eax
pop edx
; Shrirang 2/5/03
; Now that the expected response is not got we check if we
; got the abort part, before we reset the fsm
cmp bl, 0x0d ; AT commands normally start and end with \r\n
je checkabort
cmp bl, 0x0a
je checkabort
push eax
xor eax, eax
mov al, [abortcnt]
mov byte [abortres+eax], bl ; update abort response
inc byte [abortcnt]
pop eax
jmp noabort
checkabort :
cmp byte [abortcnt], 2 ; if we got valid abort this cannot happen!
jbe noabortflush
push eax
push esi
push edi
push ecx
mov esi, abortres
mov edi, aborts
xor ecx, ecx
mov cl, byte [abortcnt]
call scanaborts ; scan 'em
pop ecx
pop edi
pop esi
and eax, eax
jz noabortdec
pop eax
xor eax, eax
jmp sw_exit
noabortdec:
pop eax
noabortflush:
mov byte [abortcnt], 0
noabort:
;--!
cmp [esi+edx], bl
je sw_003
xor edx, edx
; Added 28/4/03
cmp [esi+edx], bl
je sw_003
jmp sw_001
sw_003: ; They are the same
inc edx
cmp [esi+edx], byte 0
jne sw_001
xor eax, eax
inc eax
jmp sw_exit
sw_002:
; Test for data to send to modem
cmp [ edi + eax ], byte 0
je sw_001
; Is it a '|' character?
cmp [ edi + eax ], byte '|'
jne sw_004
push eax
call gettimer
cmp eax, 100
pop eax
jl sw_001
; restart the timer
push eax
xor eax, eax
call settimer
pop eax
; Move to next character
inc eax
jmp sw_001
sw_004:
push edx
push eax
; restart the timer
xor eax, eax
call settimer
; Test for tx ready.
; OR, wait then send
push edi
mov eax, 5
mov ebx, 1
mcall ; 10ms delay
pop edi
; send the character
pop eax
mov bl, [edi + eax]
mov ecx, [comport]
inc eax
push eax
mov eax, 43
mcall
pop eax
pop edx
cmp [ edi + eax ], byte 0
jne sw_001
cmp [ esi + edx ], byte 0
jne sw_001
xor eax, eax
inc eax
sw_exit:
; return success (1) or failure (0) in eax
ret
if DEBUG_OUTPUT = TRUE
;****************************************************************************
; Function
; debug_output
;
; Description
; prints a description of the PPP protocol's data exchanges to the
; debug board
;
; esi holds ptr to msg to display
;
; Nothing preserved; I'm assuming a pusha/popa is done before calling
;
;****************************************************************************
debug_output:
cmp esi, RX_IP
jne do_001
call debug_print_string
call debug_print_rx_ip
mov esi, IP_DATA1
call debug_print_string
mov esi, CRLF
call debug_print_string
mov esi, IP_DATA2
call debug_print_string
ret
do_001:
cmp esi, TX_IP
jne do_002
call debug_print_string
call debug_print_tx_ip
mov esi, IP_DATA1
call debug_print_string
mov esi, CRLF
call debug_print_string
mov esi, IP_DATA2
call debug_print_string
ret
do_002:
; Print PPP protocol information
if DEBUG_PPP_OUTPUT = TRUE
call debug_print_string
mov esi, CRLF
call debug_print_string
end if
ret
txCom2:
push ecx
wait_txd2t:
mov eax,43
mov ecx,0x80000000 + 0x2f8 + 5
mcall
and bl, 0x40
cmp bl, 0
jz wait_txd2t ; loop until free
pop ebx
; send the character
mov ecx, 0x2f8
mov eax, 43
mcall
ret
;****************************************************************************
; Function
; debug_print_string
;
; Description
; prints a string to the debug board
;
; esi holds ptr to msg to display
;
; Nothing preserved; I'm assuming a pusha/popa is done before calling
;
;****************************************************************************
debug_print_string:
mov cl, [esi]
cmp cl, 0
jnz dps_001
ret
dps_001:
if DEBUG_PORT2_OUTPUT = TRUE
pusha
call txCom2
popa
end if
mov eax,63
mov ebx, 1
push esi
mcall
pop esi
inc esi
jmp debug_print_string
; This is used for translating hex to ASCII for display or output
hexchars db '0','1','2','3','4','5','6','7','8','9','A','B','C','D','E','F'
IP_DATA1 db 'TCP From: xxxxxxxx To: xxxxxxxx SrcP: xxxx DestP: xxxx',0
IP_DATA2 db 'Seq: xxxxxxxx Ack: xxxxxxxx Flags: xx dataLen: xxxx',13,10,0
debug_print_rx_ip:
mov esi, rx_str + 4 ; The ip buffer address start
mov edi, IP_DATA1
cmp [esi+9], byte 1
jne rnICMP
mov eax,'ICMP'
jmp drp
rnICMP:
cmp [esi+9], byte 6
jne rnTCP
mov eax,'TCP '
jmp drp
rnTCP:
cmp [esi+9], byte 17
jne rnUDP
mov eax,'UDP '
jmp drp
rnUDP:
drp:
mov [edi], eax
call fillData
ret
debug_print_tx_ip:
mov esi, ip_buff ; The ip buffer address start
mov edi, IP_DATA1
cmp [esi+9], byte 1
jne tnICMP
mov eax,'ICMP'
jmp dtp
tnICMP:
cmp [esi+9], byte 6
jne tnTCP
mov eax,'TCP '
jmp dtp
tnTCP:
cmp [esi+9], byte 17
jne tnUDP
mov eax,'UDP '
jmp dtp
tnUDP:
dtp:
mov [edi], eax
call fillData
ret
fillData:
; Display from IP
mov cl, [esi+12]
mov edx, 11
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+13]
mov edx, 13
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+14]
mov edx, 15
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+15]
mov edx, 17
call wbyte ; byte in cl, dest in edi+edx
; Display to IP
mov cl, [esi+16]
mov edx, 24
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+17]
mov edx, 26
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+18]
mov edx, 28
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+19]
mov edx, 30
call wbyte ; byte in cl, dest in edi+edx
; Only display extra data for TCP
cmp [esi+9], byte 6 ; TCP?
je nTCP
; display source port
mov [edi+32], byte 0
mov edi, IP_DATA2
mov [edi], byte 0
ret
nTCP:
mov [edi+32], byte ' '
mov cl, [esi+20]
mov edx, 39
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+21]
mov edx, 41
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+22]
mov edx, 51
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+23]
mov edx, 53
call wbyte ; byte in cl, dest in edi+edx
mov edi, IP_DATA2
mov [edi], byte 'S'
mov cl, [esi+24]
mov edx, 5
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+25]
mov edx, 7
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+26]
mov edx, 9
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+27]
mov edx, 11
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+28]
mov edx, 19
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+29]
mov edx, 21
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+30]
mov edx, 23
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+31]
mov edx, 25
call wbyte ; byte in cl, dest in edi+edx
mov cl, [esi+33]
and cl, 0x3F
mov edx, 35
call wbyte ; byte in cl, dest in edi+edx
; Display the size of the received packet
mov dh, [esi + 2]
mov dl, [esi + 3]
sub dx, 40
mov cl, dh
mov edx, 48
call wbyte ; byte in cl, dest in edi+edx
mov dh, [esi + 2]
mov dl, [esi + 3]
sub dx, 40
mov cl, dl
mov edx, 50
call wbyte ; byte in cl, dest in edi+edx
ret
wbyte: ; byte in cl, dest in edi+edx, edi unchanged
xor eax, eax
mov al, cl
shr al, 4
mov bl, [eax + hexchars]
mov [edi+edx], bl
inc edx
mov al, cl
and al, 0x0f
mov bl, [eax + hexchars]
mov [edi+edx], bl
ret
else
debug_output:
ret
end if
; DATA AREA
; debug msgs
RX_IP db 'R: ',0
TX_IP db 'T: ',0
CRLF db 13,10,0
RX_LCP_REQ db 'RX_LCP_REQ',0
RX_LCP_ACK db 'RX_LCP_ACK',0
RX_LCP_NAK db 'RX_LCP_NAK',0
RX_LCP_REJ db 'RX_LCP_REJ',0
RX_LCP_ECHO_REQ db 'RX_LCP_ECHO_REQ',0
RX_PAP_ACK db 'RX_PAP_ACK',0
RX_IPCP_REQ db 'RX_IPCP_REQ',0
RX_IPCP_ACK db 'RX_IPCP_ACK',0
RX_IPCP_NAK db 'RX_IPCP_NAK ( IP Address assigned )',0
RX_CCP_REQ db 'RX_CCP_REQ',0
TX_LCP_REQ db 'TX_LCP_REQ',0
TX_PAP_REQ db 'TX_PAP_REQ',0
TX_IPCP_REQ db 'TX_IPCP_REQ',0
; Labels for GUI buttons
button1_text db 'DIAL'
button1_text_len db 4
button3_text db 'DISCONNECT'
button3_text_len db 10
comport dd 0
comirq dd 0
; Pointer to prompt shown to user
prompt dd 0
prompt_len db 0
; Application Title
title db 'PPP Dialer',0
txmsg: db 'Tx bytes :'
txmsglen:
rxmsg: db 'Rx bytes :'
rxmsglen:
timerValue dd 0
sendwaitTime dd 0
; Prompts displayed to the user
welcomep db 'Select an option below, see ppp.txt'
welcomep_len db 35
dialfp db 'Connect Failed...'
dialfp_len db 17
connectedp db 'Connected to Host'
connectedp_len db 17
conp db 'Connecting to Host'
conp_len db 18
pppOnp db 'PPP Started'
pppOnp_len db 11
IPOnp db 'IP Link established'
IPOnp_len db 19
discp db 'Disconnected from Host'
discp_len db 22
hangp db 'Hanging up Modem......'
hangp_len db 22
PPPconSend db 0x7e,0xff,0x7d,0x23,0x08,0x08,0x08,0x08,0
PPPconWait db '~~',0
hangupWait db 'ATZ',0
hangupSend db '|||+++|||',10,13,'ATH',10,13,'|ATZ',10,13,0
; Shrirang 2/5/03
abortres: times(50) db 0
abortcnt db 0
;--!
LCPREQStr db 0x0e,0x02,0x06,0x00, 0x0a, 0x00, 0x00, 0x07, 0x02, 0x08, 0x02
PAPREQStr db 14, 4, 'free', 4, 'free'
IPCPREQStr db 10, 3, 6, 0, 0, 0, 0
irqtable: dd 0x3f8 + 0x01000000 ; read port 0x3f8, byte
dd 0
dd 0
dd 0
dd 0
dd 0
dd 0
dd 0
dd 0
dd 0
dd 0
dd 0
dd 0
dd 0
dd 0
dd 0
checksum1 dd 0
checksum2 dd 0
packet dd 0
state dd 0
extended dd 0
number dd 0
tx_end dd 0
tx_ptr dd 0
rx_ptr dd 0
addr1 db 0
addr2 db 0
addr3 db 0
addr4 db 0
rxbytes dd 0
txbytes dd 0
; End of application code and data marker
I_END:
rx_str: rb MaxRx + 1
tx_str: rb MaxTx + 1
ip_buff: rb 1500