kolibrios-gitea/kernel/branches/net/network/ARP.inc

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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2009. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;; ARP.INC ;;
;; ;;
;; Part of the tcp/ip network stack for KolibriOS ;;
;; ;;
;; Based on the work of [Johnny_B] and [smb] ;;
;; ;;
;; Written by hidnplayr@kolibrios.org ;;
;; ;;
;; GNU GENERAL PUBLIC LICENSE ;;
;; Version 2, June 1991 ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
$Revision$
ARP_NO_ENTRY equ 0
ARP_VALID_MAPPING equ 1
ARP_AWAITING_RESPONSE equ 2
ARP_RESPONSE_TIMEOUT equ 3
ARP_REQUEST_TTL = 20 ; in seconds
ARP_ENTRY_TTL = 600 ; in seconds
ETHER_ARP equ 0x0608
ARP_REQ_OPCODE equ 0x0100 ; request
ARP_REP_OPCODE equ 0x0200 ; reply
ARP_TABLE_SIZE equ 20 ; Size of table
struct ARP_ENTRY
.IP dd ?
.MAC dp ?
.Status dw ?
.TTL dw ? ; in seconds
.size:
ends
struct ARP_Packet
.HardwareType dw ?
.ProtocolType dw ?
.HardwareSize db ?
.ProtocolSize db ?
.Opcode dw ?
.SenderMAC dp ?
.SenderIP dd ?
.TargetMAC dp ?
.TargetIP dd ?
ends
; The TTL field is decremented every second, and is deleted when it
; reaches 0. It is refreshed every time a packet is received
; If the TTL field is 0xFFFF it is a static entry and is never deleted
; The status field can be the following values:
; 0x0000 entry not used
; 0x0001 entry holds a valid mapping
; 0x0002 entry contains an IP address, awaiting ARP response
; 0x0003 No response received to ARP request.
; The last status value is provided to allow the network layer to delete
; a packet that is queued awaiting an ARP response
align 4
uglobal
NumARP dd ?
ARPTable rb ARP_ENTRY.size * ARP_TABLE_SIZE
ARP_PACKETS_TX rd MAX_NET_DEVICES
ARP_PACKETS_RX rd MAX_NET_DEVICES
endg
;-----------------------------------------------------------------
;
; ARP_init
;
; This function resets all ARP variables
;
; IN: /
; OUT: /
;
;-----------------------------------------------------------------
align 4
ARP_init:
xor eax, eax
mov [NumARP], eax
mov edi, ARP_PACKETS_TX
mov ecx, 2*MAX_NET_DEVICES
rep stosd
ret
;-----------------------------------------------------------------
;
; ARP_IP_to_MAC
;
; This function resets all ARP variables
;
; IN: eax = IPv4 address
; OUT: eax = -1 on error, else eax = first two bytes of mac
; ( high 16 bits are zero)
; ebx = last four bytes of mac ; TODO: special eax value for 'request send'
;
;-----------------------------------------------------------------
align 4
ARP_IP_to_MAC:
DEBUGF 1,"ARP_IP_to_MAC\n"
; first, check destination IP to see if it is on 'this' network.
; The test is:
; if ( destIP & subnet_mask == stack_ip & subnet_mask )
; destination is local
; else
; destination is remote, so pass to gateway
xor edx, edx ; TODO: find device num in edx
mov ebx, [IP_LIST+edx]
and ebx, [SUBNET_LIST+edx]
mov ecx, eax
and ecx, [SUBNET_LIST+edx]
cmp ecx, ebx
je .local
mov eax, [GATEWAY_LIST+edx]
DEBUGF 1,"requested IP is not on subnet, using gateway\n"
.local:
; try to find it on the list
mov ecx, [NumARP]
test ecx, ecx
jz .not_in_list
mov esi, ARPTable + ARP_ENTRY.IP
.scan_loop:
cmp [esi], eax
je .found_it
add esi, ARP_ENTRY.size
loop .scan_loop
.not_in_list:
DEBUGF 1,"IP not found on list, preparing for ARP request\n"
; if not, reserve an entry in list and send an ARP request packet
push eax
push word ARP_REQUEST_TTL
push word ARP_AWAITING_RESPONSE
push dword 0
push word 0
push eax
call ARP_add_entry
cmp eax, -1
je .full
pop eax
call ARP_create_request
ret
.found_it:
add esi, ARP_ENTRY.MAC
DEBUGF 1,"Found MAC! (%x-%x-%x-%x-%x-%x)\n",[esi+0]:2,[esi+1]:2,[esi+2]:2,[esi+3]:2,[esi+4]:2,[esi+5]:2
movzx eax, word [esi]
mov ebx, [esi+2]
ret
.full:
add esp, 4
mov eax, -1
ret
;---------------------------------------------------------------------------
;
; ARP_create_packet
;
; IN: ip in eax
;
; OUT: /
;
;---------------------------------------------------------------------------
align 4
ARP_create_request:
DEBUGF 1,"Create ARP Packet\n"
call IPv4_dest_to_dev
push eax ; DestIP
mov eax, [IP_LIST+4*edi] ; senderIP
push eax
mov edi, [ETH_DRV_LIST + 4*edi]
lea eax, [edi + ETH_DEVICE.mac]
mov ebx, ETH_BROADCAST
mov ecx, 60 ; minimum packet size
mov edx, edi ;;;
mov di , ETHER_ARP
call ETH_create_Packet
cmp edi, -1
je .exit
mov ecx, eax
mov [edi + ARP_Packet.HardwareType], 0x0100 ;Ethernet
mov [edi + ARP_Packet.ProtocolType], 0x0008 ;IP
mov [edi + ARP_Packet.HardwareSize], 6 ;MAC-addr length
mov [edi + ARP_Packet.ProtocolSize], 4 ;IP-addr length
mov [edi + ARP_Packet.Opcode], ARP_REQ_OPCODE ;Request
add edi, ARP_Packet.SenderMAC ; sendermac
lea esi, [ebx + ETH_DEVICE.mac] ;
movsw ;
movsd ;
pop eax ;
stosd ;
mov eax, -1 ; destmac
stosd ;
stosw ;
pop eax
stosd ;
DEBUGF 1,"ARP Packet for device %x created successfully\n", ebx
push edx ecx
jmp ETH_Sender
.exit:
add esp, 8
DEBUGF 1,"Create ARP Packet - failed\n"
mov eax, -1
ret
;---------------------------------------------------------------------------
;
; ARP_decrease_entry_ttls
;
; IN: /
; OUT: /
;
;---------------------------------------------------------------------------
align 4
ARP_decrease_entry_ttls:
mov ecx, [NumARP]
test ecx, ecx
jz .exit
mov ebx, ARPTable
.timer_loop:
cmp [ebx + ARP_ENTRY.TTL], 0xFFFF
je .timer_loop_end ;if TTL==0xFFFF then it's static entry
cmp [ebx + ARP_ENTRY.TTL], 0
jnz .timer_loop_end_with_dec ;if TTL!=0
; Ok, TTL is 0
;if Status==AWAITING_RESPONSE and TTL==0
;then we have to change it to ARP_RESPONSE_TIMEOUT
cmp [ebx + ARP_ENTRY.Status], ARP_AWAITING_RESPONSE
jne @f
mov [ebx + ARP_ENTRY.Status], ARP_RESPONSE_TIMEOUT
mov [ebx + ARP_ENTRY.TTL], word 0x000A ;10 sec
jmp .timer_loop_end
@@:
;if TTL==0 and Status==VALID_MAPPING, we have to delete it
;if TTL==0 and Status==RESPONSE_TIMEOUT, delete too
mov esi, [NumARP]
sub esi, ecx ;esi=index of entry, will be deleted
push ebx ecx
call ARP_del_entry
pop ecx ebx
jmp .timer_loop_end
.timer_loop_end_with_dec:
dec [ebx + ARP_ENTRY.TTL] ;decrease TTL
.timer_loop_end:
add ebx, ARP_ENTRY.size
loop .timer_loop
.exit:
ret
;---------------------------------------------------------------------------
;
; ARP_add_entry (or update)
;
; IN: arp entry in stack: esp .IP
; esp+4 .MAC
; esp+10 .Status
; esp+12 .TTL
; esp+14
;
; OUT: eax = entry #, -1 on error
;
;---------------------------------------------------------------------------
; TODO: use a mutex
align 4
ARP_add_entry:
DEBUGF 1,"ARP add entry: "
mov ecx, [NumARP]
test ecx, ecx
jz .add
mov eax, dword[esp + ARP_ENTRY.MAC]
mov bx , word[esp + ARP_ENTRY.MAC + 4]
mov esi, ARPTable
.loop:
cmp dword [esi + ARP_ENTRY.MAC], eax
jne .maybe_next
cmp word [esi + ARP_ENTRY.MAC + 4], bx
jne .maybe_next
cmp dword[esi + ARP_ENTRY.TTL], 0xFFFF ; static entry
jne .notstatic
cmp dword[esp + ARP_ENTRY.TTL], 0xFFFF
jne .error
.notstatic:
mov ebx, [NumARP]
xchg ebx, ecx
sub ecx, ebx
jmp .add
.maybe_next:
add esi, ARP_ENTRY.size
loop .loop
mov ecx, [NumARP]
cmp ecx, ARP_TABLE_SIZE
jge .error
.add:
push ecx
imul ecx, ARP_ENTRY.size
lea edi, [ecx + ARPTable]
lea esi, [esp + 8]
mov ecx, ARP_ENTRY.size/2
repz movsw
inc [NumARP]
pop eax
.exit:
pop ebx ; return addr
add esp, ARP_ENTRY.size
DEBUGF 1,"Exiting\n"
jmp ebx
.error:
DEBUGF 1,"error! \n"
mov eax, -1
jmp .exit
;---------------------------------------------------------------------------
;
; ARP_del_entry
;
; IN: entry # in esi
; OUT: /
;
;---------------------------------------------------------------------------
align 4
ARP_del_entry:
DEBUGF 1,"ARP del entry %u, total entrys: %u\n", esi, [NumARP]
cmp esi, [NumARP]
jge .error
DEBUGF 1,"deleting the entry..\n"
imul esi, ARP_ENTRY.size
mov ecx, (ARP_TABLE_SIZE - 1) * ARP_ENTRY.size
sub ecx, esi
lea edi, [ebx + esi] ;edi=ptr to entry that should be deleted
lea esi, [edi + ARP_ENTRY.size] ;esi=ptr to next entry
shr ecx,1 ;ecx/2 => ARP_ENTRY_SIZE MUST BE EVEN NUMBER!
rep movsw
dec [NumARP] ;decrease arp-entries counter
.error:
ret
;-----------------------------------------------------
;
; ARP_Handler:
;
; This function handles ARP protocol over ethernet
; (other protocols may follow in the future)
;
; IN: Pointer to buffer in [esp]
; size of buffer in [esp+4]
; packet size (without ethernet header) in ecx
; OUT: /
;
;-----------------------------------------------------
align 4
ARP_handler:
DEBUGF 1,"ARP_Handler - start\n"
cmp ecx, 28
jl .exit
cmp word [edx + ARP_Packet.Opcode], ARP_REP_OPCODE ; Is this a reply packet?
jne .maybe_request
DEBUGF 1,"ARP_Handler - it's a reply packet from %u.%u.%u.%u\n",\
[edx + ARP_Packet.SenderIP]:1,[edx + ARP_Packet.SenderIP+1]:1,[edx + ARP_Packet.SenderIP+2]:1,[edx + ARP_Packet.SenderIP+3]:1,
mov ecx, [NumARP]
test ecx, ecx
jz .exit
mov eax, [edx + ARP_Packet.SenderIP]
mov esi, ARPTable+ARP_ENTRY.IP
.loop:
cmp [esi], eax
je .gotit
add esi, ARP_ENTRY.size
loop .loop
jmp .exit
.gotit:
DEBUGF 1,"ARP_Handler - found matching entry\n"
cmp [esi+ARP_ENTRY.Status], 0x0300 ;if it is a static entry, dont touch it
je .exit
DEBUGF 1,"ARP_Handler - updating entry\n"
mov [esi+ARP_ENTRY.Status], ARP_VALID_MAPPING
mov [esi+ARP_ENTRY.TTL], ARP_ENTRY_TTL
mov eax, dword [edx + ARP_Packet.SenderMAC]
mov dword [esi+ARP_ENTRY.MAC], eax
mov ax , word [edx + ARP_Packet.SenderMAC + 4]
mov word [esi+ARP_ENTRY.MAC+4], ax
jmp .exit
;------
.maybe_request:
cmp word [edx + ARP_Packet.Opcode], ARP_REQ_OPCODE ; Is this a request packet?
jne .exit
call ETH_struc2dev
DEBUGF 1,"ARP Request packet through device: %u\n", edi
inc [ARP_PACKETS_RX+4*edi]
cmp edi, -1
jz .exit
mov eax, edi
shl eax, 2
add eax, IP_LIST
mov eax, [eax]
cmp eax, [edx + ARP_Packet.TargetIP] ; Is it looking for my IP address?
jnz .exit
push eax
push edi
; OK, it is a request for one of our MAC addresses. Build the frame and send it
; We can reuse the buffer. (faster then using ARP_create_packet)
cld
lea esi, [edx + ARP_Packet.SenderMAC]
lea edi, [edx + ARP_Packet.TargetMAC]
movsd ; Move Sender Mac to Dest MAC
movsw ;
movsd ; Move sender IP to Dest IP
pop esi
mov esi, [ETH_DRV_LIST + 4*esi]
lea esi, [esi + ETH_DEVICE.mac]
lea edi, [edx + ARP_Packet.SenderMAC]
movsd ; Copy MAC address from in MAC_LIST
movsw ;
pop eax
stosd ; Write our IP
mov word [edx + ARP_Packet.Opcode], ARP_REP_OPCODE
; Now, Fill in ETHERNET header
mov edi, [esp]
lea esi, [edx + ARP_Packet.TargetMAC]
movsd
movsw
lea esi, [edx + ARP_Packet.SenderMAC]
movsd
movsw
; mov ax , ETHER_ARP
; stosw
DEBUGF 1,"ARP_Handler - Sending reply \n"
jmp ETH_Sender ; And send it!
.exit:
call kernel_free
add esp, 4 ; pop (balance stack)
DEBUGF 1,"ARP_Handler - exiting\n"
ret
;---------------------------------------------------------------------------
;
; ARP_API
;
; This function is called by system function 75
;
; IN: subfunction number in bl
; device number in bh
; ecx, edx, .. depends on subfunction
;
; OUT:
;
;---------------------------------------------------------------------------
align 4
ARP_API:
movzx eax, bh
shl eax, 2
test bl, bl
jz .packets_tx ; 0
dec bl
jz .packets_rx ; 1
dec bl
jz .entries ; 2
dec bl
jz .read ; 3
dec bl
jz .write ; 4
dec bl
jz .remove ; 5
dec bl
.error:
mov eax, -1
ret
.packets_tx:
add eax, ARP_PACKETS_TX
mov eax, [eax]
ret
.packets_rx:
add eax, ARP_PACKETS_RX
mov eax, [eax]
ret
.entries:
mov eax, [NumARP]
ret
.read:
cmp ecx, [NumARP]
jge .error
; edi = pointer to buffer
; ecx = # entry
imul ecx, ARP_ENTRY.size
add ecx, ARPTable
mov esi, ecx
mov ecx, ARP_ENTRY.size/2
rep movsw
xor eax, eax
ret
.write:
; esi = pointer to buffer
sub esp, ARP_ENTRY.size
mov edi, esp
mov ecx, ARP_ENTRY.size/2
rep movsw
jmp ARP_add_entry ;out: eax = entry number, -1 on error
.remove:
; ecx = # entry
mov esi, ecx
call ARP_del_entry
ret