;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; ;; ;; Copyright (C) KolibriOS team 2004-2017. All rights reserved. ;; ;; Distributed under terms of the GNU General Public License ;; ;; ;; ;; Part of the TCP/IP network stack for KolibriOS ;; ;; ;; ;; Written by hidnplayr@kolibrios.org ;; ;; ;; ;; Based on the code of 4.4BSD ;; ;; ;; ;; GNU GENERAL PUBLIC LICENSE ;; ;; Version 2, June 1991 ;; ;; ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; $Revision$ align 4 iglobal TCP_backoff db 0,1,2,3,4,5,6,6,6,6,6,6,6 endg macro tcp_checksum IP1, IP2 { ;------------- ; Pseudoheader ; protocol type mov edx, IP_PROTO_TCP ; source address add dl, byte [IP1+1] adc dh, byte [IP1+0] adc dl, byte [IP1+3] adc dh, byte [IP1+2] ; destination address adc dl, byte [IP2+1] adc dh, byte [IP2+0] adc dl, byte [IP2+3] adc dh, byte [IP2+2] ; size adc dl, cl adc dh, ch adc edx, 0 ;--------------------- ; Real header and data push esi call checksum_1 call checksum_2 pop esi } ; returns in dx only macro tcp_sendseqinit ptr { push edi ;;;; FIXME: i dont like this static use of edi mov edi, [ptr + TCP_SOCKET.ISS] mov [ptr + TCP_SOCKET.SND_UP], edi mov [ptr + TCP_SOCKET.SND_MAX], edi mov [ptr + TCP_SOCKET.SND_NXT], edi mov [ptr + TCP_SOCKET.SND_UNA], edi pop edi } macro tcp_rcvseqinit ptr { push edi mov edi, [ptr + TCP_SOCKET.IRS] inc edi ; SYN ocupies a sequence number mov [ptr + TCP_SOCKET.RCV_NXT], edi mov [ptr + TCP_SOCKET.RCV_ADV], edi pop edi } macro tcp_init_socket socket { mov [socket + TCP_SOCKET.t_maxseg], TCP_mss_default mov [socket + TCP_SOCKET.t_flags], TF_REQ_SCALE or TF_REQ_TSTMP mov [socket + TCP_SOCKET.t_srtt], TCP_time_srtt_default mov [socket + TCP_SOCKET.t_rttvar], TCP_time_rtt_default * 4 mov [socket + TCP_SOCKET.t_rttmin], TCP_time_re_min ;;; TODO: TCP_time_rangeset mov [socket + TCP_SOCKET.SND_CWND], TCP_max_win shl TCP_max_winshift mov [socket + TCP_SOCKET.SND_SSTHRESH], TCP_max_win shl TCP_max_winshift } ;-----------------------------------------------------------------; ; ; ; tcp_pull_out_of_band ; ; ; ; IN: eax = ? ; ; ebx = socket ptr ; ; edx = tcp packet ptr ; ; ; ; OUT: / ; ; ; ;-----------------------------------------------------------------; align 4 tcp_pull_out_of_band: DEBUGF DEBUG_NETWORK_VERBOSE, "tcp_pull_out_of_band\n" ;;;; 1282-1305 ret ;-----------------------------------------------------------------; ; ; ; tcp_drop ; ; ; ; IN: eax = socket ptr ; ; ebx = error number ; ; ; ; OUT: eax = socket ptr ; ; ; ;-----------------------------------------------------------------; align 4 tcp_drop: ; FIXME CHECKME TODO DEBUGF DEBUG_NETWORK_VERBOSE, "tcp_drop: %x\n", eax cmp [eax + TCP_SOCKET.t_state], TCPS_SYN_RECEIVED jb .no_syn_received mov [eax + TCP_SOCKET.t_state], TCPS_CLOSED push eax call tcp_output pop eax ;;; TODO: update stats jmp tcp_close .no_syn_received: ;;; TODO: update stats ;;; TODO: check if error code is "Connection timed out' and handle accordingly ; mov [eax + SOCKET.errorcode], ebx ;-----------------------------------------------------------------; ; ; ; tcp_disconnect ; ; ; ; IN: eax = socket ptr ; ; ; ; OUT: eax = socket ptr / 0 ; ; ; ;-----------------------------------------------------------------; align 4 tcp_disconnect: DEBUGF DEBUG_NETWORK_VERBOSE, "TCP_disconnect: %x\n", eax cmp [eax + TCP_SOCKET.t_state], TCPS_ESTABLISHED jb tcp_close ; Connection not yet synchronised, just get rid of the socket ; TODO: implement LINGER call socket_is_disconnecting call tcp_usrclosed test eax, eax jz @f push eax call tcp_output pop eax @@: ret ;-----------------------------------------------------------------; ; ; ; tcp_close ; ; ; ; IN: eax = socket ptr ; ; ; ; OUT: / ; ; ; ;-----------------------------------------------------------------; align 4 tcp_close: DEBUGF DEBUG_NETWORK_VERBOSE, "TCP_close: %x\n", eax ;;; TODO: update RTT and mean deviation ;;; TODO: update slow start threshold call socket_is_disconnected call socket_free inc [TCPS_closed] xor eax, eax ret ;-----------------------------------------------------------------; ; ; ; tcp_outflags ; ; ; ; IN: eax = socket ptr ; ; ; ; OUT: edx = flags ; ; ; ;-----------------------------------------------------------------; align 4 tcp_outflags: mov edx, [eax + TCP_SOCKET.t_state] movzx edx, byte[edx + .flaglist] DEBUGF DEBUG_NETWORK_VERBOSE, "TCP_outflags: socket=%x flags=%x\n", eax, dl ret .flaglist: db TH_RST + TH_ACK ; TCPS_CLOSED db 0 ; TCPS_LISTEN db TH_SYN ; TCPS_SYN_SENT db TH_SYN + TH_ACK ; TCPS_SYN_RECEIVED db TH_ACK ; TCPS_ESTABLISHED db TH_ACK ; TCPS_CLOSE_WAIT db TH_FIN + TH_ACK ; TCPS_FIN_WAIT_1 db TH_FIN + TH_ACK ; TCPS_CLOSING db TH_FIN + TH_ACK ; TCPS_LAST_ACK db TH_ACK ; TCPS_FIN_WAIT_2 db TH_ACK ; TCPS_TIME_WAIT ;-----------------------------------------------------------------; ; ; ; TCP_respond: Fast way to send an ACK/RST/keepalive segment. ; ; ; ; IN: ebx = socket ptr ; ; cl = flags ; ; ; ; OUT: / ; ; ; ;-----------------------------------------------------------------; align 4 tcp_respond: DEBUGF DEBUG_NETWORK_VERBOSE, "TCP_respond_socket: socket=%x flags=%x\n", ebx, cl ;--------------------- ; Create the IP packet push cx ebx mov edx, [ebx + IP_SOCKET.LocalIP] mov edi, [ebx + IP_SOCKET.RemoteIP] mov al, [ebx + IP_SOCKET.ttl] mov ah, IP_PROTO_TCP mov ecx, sizeof.TCP_header mov ebx, [ebx + IP_SOCKET.device] call ipv4_output jz .error pop esi cx push eax ;----------------------------------------------- ; Fill in the TCP header by using the socket ptr mov ax, [esi + TCP_SOCKET.LocalPort] stosw mov ax, [esi + TCP_SOCKET.RemotePort] stosw mov eax, [esi + TCP_SOCKET.SND_NXT] bswap eax stosd mov eax, [esi + TCP_SOCKET.RCV_NXT] bswap eax stosd mov al, 0x50 ; Dataoffset: 20 bytes (TCP_header.DataOffset) stosb mov al, cl stosb mov eax, SOCKET_BUFFER_SIZE sub eax, [esi + STREAM_SOCKET.rcv.size] cmp eax, TCP_max_win jbe .lessthanmax mov eax, TCP_max_win .lessthanmax: mov cl, [esi + TCP_SOCKET.RCV_SCALE] shr eax, cl xchg al, ah stosw ; window xor eax, eax stosd ; checksum + urgentpointer ;--------------------- ; Fill in the checksum .checksum: sub edi, sizeof.TCP_header mov ecx, sizeof.TCP_header xchg esi, edi tcp_checksum (edi + IP_SOCKET.LocalIP), (edi + IP_SOCKET.RemoteIP) mov [esi+TCP_header.Checksum], dx ;-------------------- ; And send the segment call [ebx + NET_DEVICE.transmit] test eax, eax jnz @f call net_ptr_to_num4 inc [TCP_segments_tx + edi] @@: ret .error: DEBUGF DEBUG_NETWORK_VERBOSE, "TCP_respond_socket: failed\n" add esp, 2 + 4 ret ;-----------------------------------------------------------------; ; ; ; tcp_respond_segment ; ; ; ; IN: ebx = device ptr ; ; edx = segment ptr (a previously received segment) ; ; edi = ptr to IPv4 header ; ; cl = flags ; ; ; ; OUT: / ; ; ; ;-----------------------------------------------------------------; align 4 tcp_respond_segment: DEBUGF DEBUG_NETWORK_VERBOSE, "TCP_respond_segment: frame=%x flags=%x\n", edx, cl ;--------------------- ; Create the IP packet push cx edx mov edx, [edi + IPv4_header.DestinationAddress] mov edi, [edi + IPv4_header.SourceAddress] mov ecx, sizeof.TCP_header mov ax, IP_PROTO_TCP shl 8 + 128 call ipv4_output jz .error pop esi cx push eax ;--------------------------------------------------- ; Fill in the TCP header by using a received segment mov ax, [esi + TCP_header.DestinationPort] stosw mov ax, [esi + TCP_header.SourcePort] stosw mov eax, [esi + TCP_header.AckNumber] bswap eax stosd xor eax, eax stosd mov al, 0x50 ; Dataoffset: 20 bytes (sizeof.TCP_header/4 shl 4) stosb mov al, cl stosb mov ax, 1280 rol ax, 8 stosw ; window xor eax, eax stosd ; checksum + urgentpointer ;--------------------- ; Fill in the checksum lea esi, [edi - sizeof.TCP_header] mov ecx, sizeof.TCP_header tcp_checksum (esi - sizeof.IPv4_header + IPv4_header.DestinationAddress),\ ; FIXME (esi - sizeof.IPv4_header + IPv4_header.SourceAddress) mov [esi + TCP_header.Checksum], dx ;-------------------- ; And send the segment call [ebx + NET_DEVICE.transmit] test eax, eax jnz @f call net_ptr_to_num4 inc [TCP_segments_tx + edi] @@: ret .error: DEBUGF DEBUG_NETWORK_VERBOSE, "TCP_respond_segment: failed\n" add esp, 2+4 ret macro tcpt_rangeset timer, value, min, max { local .min local .max local .done cmp value, min jb .min cmp value, max ja .max mov timer, value jmp .done .min: mov timer, min jmp .done .max: mov timer, max .done: } ;-----------------------------------------------------------------; ; ; ; tcp_set_persist ; ; ; ;-----------------------------------------------------------------; align 4 tcp_set_persist: DEBUGF DEBUG_NETWORK_VERBOSE, "TCP_set_persist\n" ; First, check if retransmit timer is not set, retransmit and persist are mutually exclusive test [eax + TCP_SOCKET.timer_flags], timer_flag_retransmission jnz .exit ; calculate RTO push ebx mov ebx, [eax + TCP_SOCKET.t_srtt] shr ebx, 2 add ebx, [eax + TCP_SOCKET.t_rttvar] shr ebx, 1 mov cl, [eax + TCP_SOCKET.t_rxtshift] shl ebx, cl ; Start/restart persistance timer. tcpt_rangeset [eax + TCP_SOCKET.timer_persist], ebx, TCP_time_pers_min, TCP_time_pers_max or [ebx + TCP_SOCKET.timer_flags], timer_flag_persist pop ebx cmp [eax + TCP_SOCKET.t_rxtshift], TCP_max_rxtshift jae @f inc [eax + TCP_SOCKET.t_rxtshift] @@: .exit: ret ;-----------------------------------------------------------------; ; ; ; tcp_xmit_timer: Calculate new smoothed RTT. ; ; ; ; IN: eax = rtt ; ; ebx = socket ptr ; ; ; ; OUT: / ; ; ; ;-----------------------------------------------------------------; align 4 tcp_xmit_timer: DEBUGF DEBUG_NETWORK_VERBOSE, "TCP_xmit_timer: socket=0x%x rtt=%d0ms\n", ebx, eax inc [TCPS_rttupdated] cmp [ebx + TCP_SOCKET.t_rtt], 0 je .no_rtt_yet ; srtt is stored as a fixed point with 3 bits after the binary point. ; The following magic is equivalent of the smoothing algorithm in rfc793 with an alpha of .875 ; (srtt = rtt/8 + srtt*7/8 in fixed point) ; Adjust rtt to origin 0. push ecx mov ecx, [ebx + TCP_SOCKET.t_srtt] shr ecx, TCP_RTT_SHIFT sub eax, ecx dec eax pop ecx add [ebx + TCP_SOCKET.t_srtt], eax ja @f mov [ebx + TCP_SOCKET.t_srtt], 1 @@: ; We accumulate a smoothed rtt variance (actually, a smoothed mean difference), ; then set the retransmit timer to smoothed rtt + 4 times the smoothed variance. ; rttvar is stored as fixed point with 2 bits after the binary point. ; The following is equivalent to rfc793 smoothing with an alpha of .75 ; (rttvar = rttvar*3/4 + delta/4) (delta = eax) ; get abs(eax) push edx cdq xor eax, edx sub eax, edx mov edx, [ebx + TCP_SOCKET.t_rttvar] shr edx, TCP_RTTVAR_SHIFT sub eax, edx pop edx add [ebx + TCP_SOCKET.t_rttvar], eax ja @f mov [ebx + TCP_SOCKET.t_rttvar], 1 @@: ret .no_rtt_yet: push ecx mov ecx, eax shl ecx, TCP_RTT_SHIFT mov [ebx + TCP_SOCKET.t_srtt], ecx shl eax, TCP_RTTVAR_SHIFT - 1 mov [ebx + TCP_SOCKET.t_rttvar], eax pop ecx ret ;-----------------------------------------------------------------; ; ; ; tcp_mss: Update maximum segment size ; ; ; ; IN: eax = max segment size ; ; ebx = socket ptr ; ; ; ; OUT: / ; ; ; ;-----------------------------------------------------------------; align 4 tcp_mss: cmp eax, 1420 ; FIXME jbe @f mov eax, 1420 @@: mov [ebx + TCP_SOCKET.t_maxseg], eax ret ;-----------------------------------------------------------------; ; ; ; tcp_reassemble ; ; ; ; IN: ebx = socket ptr ; ; edx = segment ptr ; ; ; ; OUT: / ; ; ; ;-----------------------------------------------------------------; align 4 tcp_reassemble: ;;;;; TODO ret