kolibrios/kernel/trunk/network/ARP.inc
hidnplayr c2bc66096c Renamed some variables and constants in network code, removed NET_set_default function, improved TCP timers
git-svn-id: svn://kolibrios.org@3600 a494cfbc-eb01-0410-851d-a64ba20cac60
2013-06-04 14:12:37 +00:00

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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2013. 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: 3386 $
ARP_NO_ENTRY = 0
ARP_VALID_MAPPING = 1
ARP_AWAITING_RESPONSE = 2
ARP_RESPONSE_TIMEOUT = 3
ARP_REQUEST_TTL = 31 ; 20 s
ARP_ENTRY_TTL = 937 ; 600 s
ARP_STATIC_ENTRY = -1
ARP_REQ_OPCODE = 0x0100 ; request
ARP_REP_OPCODE = 0x0200 ; reply
ARP_TABLE_SIZE = 20 ; Size of table
struct ARP_entry
IP dd ?
MAC dp ?
Status dw ?
TTL dw ?
ends
struct ARP_header
HardwareType dw ?
ProtocolType dw ?
HardwareSize db ?
ProtocolSize db ?
Opcode dw ?
SenderMAC dp ?
SenderIP dd ?
TargetMAC dp ?
TargetIP dd ?
ends
align 4
uglobal
NumARP dd ?
ARP_table rb ARP_TABLE_SIZE * sizeof.ARP_entry ; TODO: separate ARP table and stats per interface
ARP_PACKETS_TX rd NET_DEVICES_MAX
ARP_PACKETS_RX rd NET_DEVICES_MAX
ARP_CONFLICTS rd NET_DEVICES_MAX
endg
;-----------------------------------------------------------------
;
; ARP_init
;
; This function resets all ARP variables
;
;-----------------------------------------------------------------
macro ARP_init {
xor eax, eax
mov [NumARP], eax
mov edi, ARP_PACKETS_TX
mov ecx, 3*NET_DEVICES_MAX
rep stosd
}
;---------------------------------------------------------------------------
;
; ARP_decrease_entry_ttls
;
;---------------------------------------------------------------------------
macro ARP_decrease_entry_ttls {
local .loop
local .exit
; 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
mov ecx, [NumARP]
test ecx, ecx
jz .exit
mov esi, ARP_table
.loop:
cmp [esi + ARP_entry.TTL], ARP_STATIC_ENTRY
je .next
dec [esi + ARP_entry.TTL]
jz .time_out
.next:
add esi, sizeof.ARP_entry
dec ecx
jnz .loop
jmp .exit
.time_out:
cmp [esi + ARP_entry.Status], ARP_AWAITING_RESPONSE
je .response_timeout
push esi ecx
call ARP_del_entry
pop ecx esi
jmp .next
.response_timeout:
mov [esi + ARP_entry.Status], ARP_RESPONSE_TIMEOUT
mov [esi + ARP_entry.TTL], 10
jmp .next
.exit:
}
;-----------------------------------------------------------------
;
; ARP_input
;
; IN: Pointer to buffer in [esp]
; size of buffer in [esp+4]
; packet size (without ethernet header) in ecx
; packet ptr in edx
; device ptr in ebx
; OUT: /
;
;-----------------------------------------------------------------
align 4
ARP_input:
;-----------------------------------------
; Check validity and print some debug info
cmp ecx, sizeof.ARP_header
jb .exit
call NET_ptr_to_num
cmp edi, -1
jz .exit
inc [ARP_PACKETS_RX + 4*edi] ; update stats
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_input: got packet from %u.%u.%u.%u through device %u\n",\
[edx + ARP_header.SenderIP]:1, [edx + ARP_header.SenderIP + 1]:1,\
[edx + ARP_header.SenderIP + 2]:1, [edx + ARP_header.SenderIP + 3]:1, edi
;------------------------------
; First, check for IP collision
mov eax, [edx + ARP_header.SenderIP]
cmp eax, [IP_LIST + 4*edi]
je .collision
;---------------------
; Handle reply packets
cmp [edx + ARP_header.Opcode], ARP_REP_OPCODE
jne .maybe_request
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_input: It's a reply\n"
mov ecx, [NumARP]
test ecx, ecx
jz .exit
mov esi, ARP_table
.loop:
cmp [esi + ARP_entry.IP], eax
je .gotit
add esi, sizeof.ARP_entry
dec ecx
jnz .loop
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_input: no matching entry found\n"
jmp .exit
.gotit:
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_input: found matching entry\n"
cmp [esi + ARP_entry.TTL], ARP_STATIC_ENTRY ; if it is a static entry, dont touch it
je .exit
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_input: updating entry\n"
mov [esi + ARP_entry.Status], ARP_VALID_MAPPING
mov [esi + ARP_entry.TTL], ARP_ENTRY_TTL
mov eax, dword [edx + ARP_header.SenderMAC]
mov dword [esi + ARP_entry.MAC], eax
mov cx, word [edx + ARP_header.SenderMAC + 4]
mov word [esi + ARP_entry.MAC + 4], cx
jmp .exit
;-----------------------
; Handle request packets
.maybe_request:
cmp [edx + ARP_header.Opcode], ARP_REQ_OPCODE
jne .exit
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_input: its a request\n"
mov eax, [IP_LIST + 4*edi]
cmp eax, [edx + ARP_header.TargetIP] ; Is it looking for my IP address?
jne .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)
lea esi, [edx + ARP_header.SenderMAC]
lea edi, [edx + ARP_header.TargetMAC]
movsd ; Move Sender Mac to Dest MAC
movsw ;
movsd ; Move sender IP to Dest IP
pop esi
mov esi, [NET_DRV_LIST + 4*esi]
lea esi, [esi + ETH_DEVICE.mac]
lea edi, [edx + ARP_header.SenderMAC]
movsd ; Copy MAC address from in MAC_LIST
movsw ;
pop eax
stosd ; Write our IP
mov [edx + ARP_header.Opcode], ARP_REP_OPCODE
; Now, Fill in ETHERNET header
mov edi, [esp]
lea esi, [edx + ARP_header.TargetMAC]
movsd
movsw
lea esi, [edx + ARP_header.SenderMAC]
movsd
movsw
; mov ax , ETHER_ARP ; It's already there, I'm sure of it!
; stosw
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_input: Sending reply\n"
call [ebx + NET_DEVICE.transmit]
ret
.collision:
inc [ARP_CONFLICTS + 4*edi]
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_input: IP address conflict detected!\n"
.exit:
call kernel_free
add esp, 4 ; pop (balance stack)
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_input: exiting\n"
ret
;---------------------------------------------------------------------------
;
; ARP_output_request
;
; IN: ip in eax
; device in edi
; OUT: /
;
;---------------------------------------------------------------------------
align 4
ARP_output_request:
push eax ; DestIP
pushd [IP_LIST + edi] ; SenderIP
inc [ARP_PACKETS_TX + edi] ; assume we will succeed
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_output_request: ip=%u.%u.%u.%u\n",\
[esp + 4]:1, [esp + 5]:1, [esp + 6]:1, [esp + 7]:1
mov ebx, [NET_DRV_LIST + edi] ; device ptr
lea eax, [ebx + ETH_DEVICE.mac] ; local device mac
mov edx, ETH_BROADCAST ; broadcast mac
mov ecx, sizeof.ARP_header
mov di, ETHER_PROTO_ARP
call ETH_output
jz .exit
mov ecx, eax
mov [edi + ARP_header.HardwareType], 0x0100 ; Ethernet
mov [edi + ARP_header.ProtocolType], 0x0008 ; IP
mov [edi + ARP_header.HardwareSize], 6 ; MAC-addr length
mov [edi + ARP_header.ProtocolSize], 4 ; IP-addr length
mov [edi + ARP_header.Opcode], ARP_REQ_OPCODE ; Request
add edi, ARP_header.SenderMAC
lea esi, [ebx + ETH_DEVICE.mac] ; SenderMac
movsw ;
movsd ;
pop eax ; SenderIP
stosd ;
mov eax, -1 ; DestMac
stosd ;
stosw ;
pop eax ; DestIP
stosd ;
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_output_request: device=%x\n", ebx
push edx ecx
call [ebx + NET_DEVICE.transmit]
ret
.exit:
add esp, 4 + 4
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_output_request: failed\n"
sub eax, eax
ret
;-----------------------------------------------------------------
;
; ARP_add_entry (or update)
;
; IN: esi = ptr to entry (can easily be made on the stack)
; OUT: eax = entry #, -1 on error
; edi = ptr to newly created entry
;
;----------------------------------------------------------------- ; TODO: use a mutex
align 4
ARP_add_entry:
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_add_entry: "
mov ecx, [NumARP]
cmp ecx, ARP_TABLE_SIZE ; list full ?
jae .error
xor eax, eax
mov edi, ARP_table
mov ecx, [esi + ARP_entry.IP]
.loop:
cmp [edi + ARP_entry.Status], ARP_NO_ENTRY ; is this slot empty?
je .add
cmp [edi + ARP_entry.IP], ecx ; if not, check if it doesnt collide
jne .maybe_next
cmp [edi + ARP_entry.TTL], ARP_STATIC_ENTRY ; ok, its the same IP, update it if not static
jne .add
.maybe_next: ; try the next slot
add edi, sizeof.ARP_entry
inc eax
cmp eax, ARP_TABLE_SIZE
jae .error
jmp .loop
.add:
mov ecx, sizeof.ARP_entry/2
rep movsw
inc [NumARP]
sub edi, sizeof.ARP_entry
DEBUGF DEBUG_NETWORK_VERBOSE, "entry=%u\n", eax
ret
.error:
DEBUGF DEBUG_NETWORK_VERBOSE, "failed\n"
mov eax, -1
ret
;-----------------------------------------------------------------
;
; ARP_del_entry
;
; IN: esi = ptr to arp entry
; OUT: /
;
;-----------------------------------------------------------------
align 4
ARP_del_entry:
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_del_entry: entry=%x entrys=%u\n", esi, [NumARP]
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_del_entry: IP=%u.%u.%u.%u\n", \
[esi + ARP_entry.IP]:1, [esi + ARP_entry.IP + 1]:1, [esi + ARP_entry.IP + 2]:1, [esi + ARP_entry.IP + 3]:1
mov ecx, ARP_table + (ARP_TABLE_SIZE - 1) * sizeof.ARP_entry
sub ecx, esi
shr ecx, 1
mov edi, esi
add esi, sizeof.ARP_entry
rep movsw
xor eax, eax
mov ecx, sizeof.ARP_entry/2
rep stosw
dec [NumARP]
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_del_entry: success\n"
ret
;-----------------------------------------------------------------
;
; ARP_IP_to_MAC
;
; This function translates an IP address to a MAC address
;
; IN: eax = IPv4 address
; edi = device number
; OUT: eax = -1 on error, -2 means request send
; else, ax = first two bytes of mac (high 16 bits of eax will be 0)
; ebx = last four bytes of mac
; edi = unchanged
;
;-----------------------------------------------------------------
align 4
ARP_IP_to_MAC:
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_IP_to_MAC: %u.%u", al, ah
rol eax, 16
DEBUGF DEBUG_NETWORK_VERBOSE, ".%u.%u\n", al, ah
rol eax, 16
cmp eax, 0xffffffff
je .broadcast
;--------------------------------
; Try to find the IP in ARP_table
mov ecx, [NumARP]
test ecx, ecx
jz .not_in_list
mov esi, ARP_table + ARP_entry.IP
.scan_loop:
cmp [esi], eax
je .found_it
add esi, sizeof.ARP_entry
loop .scan_loop
.not_in_list:
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_IP_to_MAC: preparing for ARP request\n"
;--------------------
; Send an ARP request
push eax edi ; save IP for ARP_output_request
; Now create the ARP entry
pushw ARP_REQUEST_TTL ; TTL
pushw ARP_AWAITING_RESPONSE ; status
pushd 0 ; mac
pushw 0
pushd eax ; ip
mov esi, esp
call ARP_add_entry
add esp, sizeof.ARP_entry ; clear the entry from stack
cmp eax, -1 ; did ARP_add_entry fail?
je .full
mov esi, edi
pop edi eax ; IP in eax, device number in edi, for ARP_output_request
push esi edi
call ARP_output_request ; And send a request
pop edi esi
;-----------------------------------------------
; At this point, we got an ARP entry in the list
.found_it:
cmp [esi + ARP_entry.Status], ARP_VALID_MAPPING ; Does it have a MAC assigned?
je .valid
if ARP_BLOCK
cmp [esi + ARP_entry.Status], ARP_AWAITING_RESPONSE ; Are we waiting for reply from remote end?
jne .give_up
push esi
mov esi, 10 ; wait 10 ms
call delay_ms
pop esi
jmp .found_it ; now check again
else
jmp .give_up
end if
.valid:
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_IP_to_MAC: found MAC\n"
movzx eax, word[esi + ARP_entry.MAC]
mov ebx, dword[esi + ARP_entry.MAC + 2]
ret
.full:
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_IP_to_MAC: table is full!\n"
add esp, 8
.give_up:
DEBUGF DEBUG_NETWORK_VERBOSE, "ARP_IP_to_MAC: entry has no valid mapping!\n"
mov eax, -1
ret
.broadcast:
mov eax, 0x0000ffff
mov ebx, 0xffffffff
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
and ebx, 0xff
cmp ebx, .number
ja .error
jmp dword [.table + 4*ebx]
.table:
dd .packets_tx ; 0
dd .packets_rx ; 1
dd .entries ; 2
dd .read ; 3
dd .write ; 4
dd .remove ; 5
dd .send_announce ; 6
dd .conflicts ; 7
.number = ($ - .table) / 4 - 1
.error:
mov eax, -1
ret
.packets_tx:
mov eax, [ARP_PACKETS_TX + eax]
ret
.packets_rx:
mov eax, [ARP_PACKETS_RX + eax]
ret
.conflicts:
mov eax, [ARP_CONFLICTS + eax]
ret
.entries:
mov eax, [NumARP]
ret
.read:
cmp ecx, [NumARP]
jae .error
; edi = pointer to buffer
; ecx = # entry
imul ecx, sizeof.ARP_entry
add ecx, ARP_table
mov esi, ecx
mov ecx, sizeof.ARP_entry/2
rep movsw
xor eax, eax
ret
.write:
; esi = pointer to buffer
call ARP_add_entry ; out: eax = entry number, -1 on error
ret
.remove:
; ecx = # entry
cmp ecx, [NumARP]
jae .error
imul ecx, sizeof.ARP_entry
lea esi, [ARP_table + ecx]
call ARP_del_entry
ret
.send_announce:
mov edi, eax
mov eax, [IP_LIST + eax]
call ARP_output_request ; now send a gratuitous ARP
ret