;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; ;; ;; Copyright (C) KolibriOS team 2004-2021. All rights reserved. ;; ;; Distributed under terms of the GNU General Public License ;; ;; ;; ;; STACK.INC ;; ;; ;; ;; TCP/IP stack for KolibriOS ;; ;; ;; ;; Written by hidnplayr@kolibrios.org ;; ;; ;; ;; Some parts of code are based on the work of: ;; ;; Mike Hibbett (menuetos network stack) ;; ;; Eugen Brasoveanu (solar os network stack and drivers) ;; ;; mike.dld (kolibrios socket code) ;; ;; ;; ;; TCP part is based on 4.4BSD ;; ;; ;; ;; GNU GENERAL PUBLIC LICENSE ;; ;; Version 2, June 1991 ;; ;; ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; $Revision$ uglobal net_10ms dd ? net_tmr_count dw ? endg DEBUG_NETWORK_ERROR = 1 DEBUG_NETWORK_VERBOSE = 0 NET_DEVICES_MAX = 16 NET_BUFFERS = 512 NET_BUFFER_SIZE = 2048 ARP_BLOCK = 1 ; true or false EPHEMERAL_PORT_MIN = 49152 EPHEMERAL_PORT_MAX = 61000 MIN_EPHEMERAL_PORT_N = 0x00C0 ; same in Network byte order (FIXME) MAX_EPHEMERAL_PORT_N = 0x48EE ; same in Network byte order (FIXME) ; Ethernet protocol numbers ETHER_PROTO_ARP = 0x0608 ETHER_PROTO_IPv4 = 0x0008 ETHER_PROTO_IPv6 = 0xDD86 ETHER_PROTO_PPP_DISCOVERY = 0x6388 ETHER_PROTO_PPP_SESSION = 0x6488 ; Internet protocol numbers IP_PROTO_IP = 0 IP_PROTO_ICMP = 1 IP_PROTO_TCP = 6 IP_PROTO_UDP = 17 IP_PROTO_RAW = 255 ; IP options IP_TOS = 1 IP_TTL = 2 IP_HDRINCL = 3 ; PPP protocol numbers PPP_PROTO_IPv4 = 0x2100 PPP_PROTO_IPV6 = 0x5780 PPP_PROTO_ETHERNET = 666 ; FIXME ;Protocol family AF_UNSPEC = 0 AF_LOCAL = 1 AF_INET4 = 2 AF_INET6 = 10 AF_PPP = 777 ; FIXME ; Socket types SOCK_STREAM = 1 SOCK_DGRAM = 2 SOCK_RAW = 3 ; Socket level SOL_SOCKET = 0xffff ; Socket options SO_ACCEPTCON = 1 shl 0 SO_BROADCAST = 1 shl 1 SO_DEBUG = 1 shl 2 SO_DONTROUTE = 1 shl 3 SO_KEEPALIVE = 1 shl 4 SO_OOBINLINE = 1 shl 5 SO_REUSEADDR = 1 shl 6 SO_REUSEPORT = 1 shl 7 SO_USELOOPBACK = 1 shl 8 SO_BINDTODEVICE = 1 shl 9 SO_LINGER = 1 shl 10 SO_NONBLOCK = 1 shl 31 ; Socket flags for user calls MSG_PEEK = 0x02 MSG_DONTWAIT = 0x40 ; Socket States SS_NOFDREF = 0x0001 ; no file table ref any more SS_ISCONNECTED = 0x0002 ; socket connected to a peer SS_ISCONNECTING = 0x0004 ; in process of connecting to peer SS_ISDISCONNECTING = 0x0008 ; in process of disconnecting SS_CANTSENDMORE = 0x0010 ; can't send more data to peer SS_CANTRCVMORE = 0x0020 ; can't receive more data from peer SS_RCVATMARK = 0x0040 ; at mark on input SS_ISABORTING = 0x0080 ; aborting fd references - close() SS_RESTARTSYS = 0x0100 ; restart blocked system calls SS_ISDISCONNECTED = 0x0800 ; socket disconnected from peer SS_ASYNC = 0x1000 ; async i/o notify SS_ISCONFIRMING = 0x2000 ; deciding to accept connection req SS_MORETOCOME = 0x4000 SS_BLOCKED = 0x8000 SOCKET_BUFFER_SIZE = 4096*8 ; must be 4096*(power of 2) where 'power of 2' is at least 8 MAX_backlog = 20 ; maximum backlog for stream sockets ; Error Codes ENOBUFS = 1 EINPROGRESS = 2 EOPNOTSUPP = 4 EWOULDBLOCK = 6 ENOTCONN = 9 EALREADY = 10 EINVAL = 11 EMSGSIZE = 12 ENOMEM = 18 EADDRINUSE = 20 EADDRNOTAVAIL = 21 ECONNRESET = 52 ECONNABORTED = 53 EISCONN = 56 ETIMEDOUT = 60 ECONNREFUSED = 61 ; Api protocol numbers API_ETH = 0 API_IPv4 = 1 API_ICMP = 2 API_UDP = 3 API_TCP = 4 API_ARP = 5 API_PPPOE = 6 API_IPv6 = 7 ; Network device types NET_DEVICE_LOOPBACK = 0 NET_DEVICE_ETH = 1 NET_DEVICE_SLIP = 2 ; Network link types (link protocols) NET_LINK_LOOPBACK = 0 NET_LINK_MAC = 1 ; Media access control (ethernet, isdn, ...) NET_LINK_PPP = 2 ; Point to Point Protocol (PPPoE, ...) NET_LINK_IEEE802.11 = 3 ; IEEE 802.11 (WiFi) ; Hardware acceleration bits NET_HWACC_TCP_IPv4_IN = 1 shl 0 NET_HWACC_TCP_IPv4_OUT = 1 shl 1 ; Network frame types NET_BUFF_LOOPBACK = 0 NET_BUFF_ETH = 1 struct NET_DEVICE device_type dd ? ; Type field mtu dd ? ; Maximal Transmission Unit name dd ? ; Ptr to 0 terminated string unload dd ? ; Ptrs to driver functions reset dd ? ; transmit dd ? ; bytes_tx dq ? ; Statistics, updated by the driver bytes_rx dq ? ; packets_tx dd ? ; packets_rx dd ? ; link_state dd ? ; link state (0 = no link) hwacc dd ? ; bitmask stating enabled HW accelerations (offload engines) ends struct NET_BUFF NextPtr dd ? ; pointer to next frame in list PrevPtr dd ? ; pointer to previous frame in list device dd ? ; ptr to NET_DEVICE structure type dd ? ; encapsulation type: e.g. Ethernet length dd ? ; size of encapsulated data offset dd ? ; offset to actual data (24 bytes for default frame) data rb 0 ends ; Exactly as it says.. macro pseudo_random reg { add reg, [esp] rol reg, 5 xor reg, [timer_ticks] ; add reg, [CPU_FREQ] imul reg, 214013 xor reg, 0xdeadbeef rol reg, 9 } ; Network to Hardware byte order (dword) macro ntohd reg { rol word reg, 8 rol dword reg, 16 rol word reg , 8 } ; Network to Hardware byte order (word) macro ntohw reg { rol word reg, 8 } include "queue.inc" include "loopback.inc" include "ethernet.inc" include "PPPoE.inc" include "ARP.inc" include "IPv4.inc" include "IPv6.inc" include "icmp.inc" include "udp.inc" include "tcp.inc" include "socket.inc" uglobal align 4 net_device_count dd ? net_device_list rd NET_DEVICES_MAX net_buffs_free rd NET_BUFFERS .current dd ? endg ;-----------------------------------------------------------------; ; ; ; stack_init: Initialize all network variables ; ; ; ; IN: / ; ; OUT: / ; ; ; ;-----------------------------------------------------------------; align 4 stack_init: ; allocate network buffers stdcall kernel_alloc, NET_BUFFER_SIZE*NET_BUFFERS test eax, eax jz .fail mov edi, net_buffs_free mov ecx, NET_BUFFERS cld .loop: stosd add eax, NET_BUFFER_SIZE dec ecx jnz .loop mov eax, net_buffs_free stosd ; Init the network drivers list xor eax, eax mov edi, net_device_count mov ecx, (NET_DEVICES_MAX + 1) rep stosd eth_init pppoe_init ipv4_init ; ipv6_init icmp_init arp_init udp_init tcp_init socket_init loop_init mov [net_tmr_count], 0 ret .fail: DEBUGF DEBUG_NETWORK_ERROR, "Stack init failed!\n" ret ; Wakeup every tick. proc stack_handler_has_work? mov eax, [timer_ticks] cmp eax, [net_10ms] ret endp ;-----------------------------------------------------------------; ; ; ; stack_handler: Network handlers called from os_loop. ; ; ; ; IN: / ; ; OUT: / ; ; ; ;-----------------------------------------------------------------; align 4 stack_handler: ; Test for 10ms tick mov eax, [timer_ticks] cmp eax, [net_10ms] je .exit mov [net_10ms], eax cmp [net_device_count], 0 je .exit test [net_10ms], 0x0f ; 160ms jnz .exit tcp_timer_160ms test [net_10ms], 0x3f ; 640ms jnz .exit arp_decrease_entry_ttls ipv4_decrease_fragment_ttls xor edx, edx mov eax, [TCP_timer1_event] mov ebx, [eax + EVENT.id] xor esi, esi call raise_event .exit: ret align 4 proc net_buff_alloc stdcall, buffersize cmp [buffersize], NET_BUFFER_SIZE ja .too_large spin_lock_irqsave mov eax, [net_buffs_free.current] cmp eax, net_buffs_free+NET_BUFFERS*4 jae .out_of_mem mov eax, [eax] add [net_buffs_free.current], 4 spin_unlock_irqrestore DEBUGF DEBUG_NETWORK_VERBOSE, "net_buff_alloc: 0x%x\n", eax ret .out_of_mem: spin_unlock_irqrestore xor eax, eax DEBUGF DEBUG_NETWORK_ERROR, "net_buff_alloc: out of mem!\n" ret .too_large: xor eax, eax DEBUGF DEBUG_NETWORK_ERROR, "net_buff_alloc: too large!\n" ret endp align 4 proc net_buff_free stdcall, buffer DEBUGF DEBUG_NETWORK_VERBOSE, "net_buff_free: 0x%x\n", [buffer] spin_lock_irqsave sub [net_buffs_free.current], 4 mov eax, [net_buffs_free.current] push [buffer] pop dword[eax] spin_unlock_irqrestore ret endp align 4 net_link_changed: DEBUGF DEBUG_NETWORK_VERBOSE, "net_link_changed device=0x%x status=0x%x\n", ebx, [ebx + NET_DEVICE.link_state] align 4 net_send_event: DEBUGF DEBUG_NETWORK_VERBOSE, "net_send_event\n" ; Send event to all applications push edi ecx mov edi, SLOT_BASE mov ecx, [thread_count] .loop: add edi, sizeof.APPDATA or [edi + APPDATA.occurred_events], EVENT_NETWORK2 loop .loop pop ecx edi ret ;-----------------------------------------------------------------; ; ; ; net_add_device: Called by network driver to register interface. ; ; ; ; IN: ebx = ptr to device structure ; ; ; ; OUT: eax = device num on success ; ; eax = -1 on error ; ; ; ;-----------------------------------------------------------------; align 4 net_add_device: DEBUGF DEBUG_NETWORK_VERBOSE, "net_add_device: %x\n", ebx ;;; TODO: use mutex to lock net device list cmp [net_device_count], NET_DEVICES_MAX jae .error ;---------------------------------- ; Check if device is already listed mov eax, ebx mov ecx, NET_DEVICES_MAX ; We need to check whole list because a device may be removed without re-organizing list mov edi, net_device_list repne scasd ; See if device is already in the list jz .error ;---------------------------- ; Find empty slot in the list xor eax, eax mov ecx, NET_DEVICES_MAX mov edi, net_device_list repne scasd jnz .error sub edi, 4 ;----------------------------- ; Add device to the found slot mov [edi], ebx ; add device to list mov eax, edi ; Calculate device number in eax sub eax, net_device_list shr eax, 2 inc [net_device_count] ; Indicate that one more network device is up and running call net_send_event DEBUGF DEBUG_NETWORK_VERBOSE, "Device number: %u\n", eax ret .error: or eax, -1 DEBUGF DEBUG_NETWORK_ERROR, "Adding network device failed\n" ret ;-----------------------------------------------------------------; ; ; ; net_remove_device: Called by network driver to unregister dev. ; ; ; ; IN: ebx = ptr to device ; ; ; ; OUT: eax: -1 on error ; ; ; ;-----------------------------------------------------------------; align 4 net_remove_device: cmp [net_device_count], 0 je .error ;---------------------------- ; Find the driver in the list mov eax, ebx mov ecx, NET_DEVICES_MAX mov edi, net_device_list repne scasd jnz .error ;------------------------ ; Remove it from the list xor eax, eax mov dword [edi-4], eax dec [net_device_count] call net_send_event xor eax, eax ret .error: or eax, -1 ret ;-----------------------------------------------------------------; ; ; ; net_ptr_to_num ; ; ; ; IN: ebx = ptr to device struct ; ; ; ; OUT: edi = device number ; ; edi = -1 on error ; ; ; ;-----------------------------------------------------------------; align 4 net_ptr_to_num: call net_ptr_to_num4 ror edi, 2 ; If -1, stay -1 ; valid device numbers have last two bits 0, so do just shr ret align 4 net_ptr_to_num4: ; Todo, place number in device structure so we only need to verify? test ebx, ebx jz .fail push ecx mov ecx, NET_DEVICES_MAX mov edi, net_device_list .loop: cmp ebx, [edi] je .found add edi, 4 dec ecx jnz .loop pop ecx .fail: or edi, -1 ret .found: sub edi, net_device_list pop ecx ret ;-----------------------------------------------------------------; ; ; ; checksum_1: Calculate semi-checksum for network packets. ; ; ; ; IN: edx = start offset for semi-checksum ; ; esi = pointer to data ; ; ecx = data size ; ; ; ; OUT: edx = semi-checksum ; ; ; ;-----------------------------------------------------------------; align 4 checksum_1: shr ecx, 1 pushf jz .no_2 shr ecx, 1 pushf jz .no_4 shr ecx, 1 pushf jz .no_8 .loop: add dl, [esi+1] adc dh, [esi+0] adc dl, [esi+3] adc dh, [esi+2] adc dl, [esi+5] adc dh, [esi+4] adc dl, [esi+7] adc dh, [esi+6] adc edx, 0 add esi, 8 dec ecx jnz .loop adc edx, 0 .no_8: popf jnc .no_4 add dl, [esi+1] adc dh, [esi+0] adc dl, [esi+3] adc dh, [esi+2] adc edx, 0 add esi, 4 .no_4: popf jnc .no_2 add dl, [esi+1] adc dh, [esi+0] adc edx, 0 inc esi inc esi .no_2: popf jnc .end add dh, [esi+0] adc edx, 0 .end: ret ;-----------------------------------------------------------------; ; ; ; checksum_2: Calculate the final ip/tcp/udp checksum. ; ; ; ; IN: edx = semi-checksum ; ; ; ; OUT: dx = checksum (in INET byte order) ; ; ; ;-----------------------------------------------------------------; align 4 checksum_2: mov ecx, edx shr ecx, 16 and edx, 0xffff add edx, ecx mov ecx, edx shr ecx, 16 add dx, cx test dx, dx ; it seems that ZF is not set when CF is set :( not dx jnz .not_zero dec dx .not_zero: xchg dl, dh DEBUGF DEBUG_NETWORK_VERBOSE, "Checksum: %x\n", dx ret ;-----------------------------------------------------------------; ; ; ; System function 74: Low level access to network devices. ; ; ; ;-----------------------------------------------------------------; align 4 sys_network: cmp bl, 255 jne @f mov eax, [net_device_count] mov [esp+32], eax ret @@: cmp bh, NET_DEVICES_MAX ; Check if device number exists jae .doesnt_exist mov esi, ebx and esi, 0x0000ff00 shr esi, 6 cmp dword[esi + net_device_list], 0 ; check if device is running je .doesnt_exist mov eax, [esi + net_device_list] and ebx, 0x000000ff cmp ebx, .number ja .doesnt_exist jmp dword [.table + 4*ebx] .table: dd .get_type ; 0 dd .get_dev_name ; 1 dd .reset ; 2 dd .stop ; 3 dd .get_ptr ; 4 dd .get_drv_name ; 5 dd .packets_tx ; 6 dd .packets_rx ; 7 dd .bytes_tx ; 8 dd .bytes_rx ; 9 dd .state ; 10 .number = ($ - .table) / 4 - 1 .get_type: mov eax, [eax + NET_DEVICE.device_type] mov [esp+32], eax ret .get_dev_name: ; { Patch by Coldy, sanity check mov ebx, eax ; eax will used for is_region_userspace return stdcall is_region_userspace, ecx, 64 jz .bad_buffer mov esi, [ebx + NET_DEVICE.name] ;mov esi, [eax + NET_DEVICE.name] ; } End patch by Coldy, sanity check mov edi, ecx mov ecx, 64/4 ; max length rep movsd xor eax, eax mov [esp+32], eax ret .reset: call [eax + NET_DEVICE.reset] mov [esp+32], eax ret .stop: call [eax + NET_DEVICE.unload] mov [esp+32], eax ret .get_ptr: mov [esp+32], eax ret .get_drv_name: xor eax, eax mov [esp+32], eax ret .packets_tx: mov eax, [eax + NET_DEVICE.packets_tx] mov [esp+32], eax ret .packets_rx: mov eax, [eax + NET_DEVICE.packets_rx] mov [esp+32], eax ret .bytes_tx: mov ebx, dword[eax + NET_DEVICE.bytes_tx + 4] mov [esp+20], ebx mov eax, dword[eax + NET_DEVICE.bytes_tx] mov [esp+32], eax ret .bytes_rx: mov ebx, dword[eax + NET_DEVICE.bytes_rx + 4] mov [esp+20], ebx mov eax, dword[eax + NET_DEVICE.bytes_rx] mov [esp+32], eax ret .state: mov eax, [eax + NET_DEVICE.link_state] mov [esp+32], eax ret .doesnt_exist: .bad_buffer: ; Sanity check failed, exit mov dword[esp+32], -1 ret ;-----------------------------------------------------------------; ; ; ; System function 76: Low level access to protocol handlers. ; ; ; ;-----------------------------------------------------------------; align 4 sys_protocols: cmp bh, NET_DEVICES_MAX ; Check if device number exists jae .doesnt_exist mov eax, ebx and eax, 0x0000ff00 shr eax, 6 ; now we have the device num * 4 in eax cmp [eax + net_device_list], 0 ; check if device is running je .doesnt_exist push .return ; return address (we will be using jumps instead of calls) mov eax, ebx ; set ax to protocol number shr eax, 16 ; cmp ax, API_ETH je eth_api cmp ax, API_IPv4 je ipv4_api cmp ax, API_ICMP je icmp_api cmp ax, API_UDP je udp_api cmp ax, API_TCP je tcp_api cmp ax, API_ARP je arp_api cmp ax, API_PPPOE je pppoe_api cmp ax, API_IPv6 je ipv6_api add esp, 4 ; if we reached here, no function was called, so we need to balance stack .doesnt_exist: mov eax, -1 .return: mov [esp+28+4], eax ; return eax value to the program ret