; Zero-config ; v 1.4 ; ; DHCP code is based on that by Mike Hibbet (DHCP client for menuetos) ; ; Written by HidnPlayr & Derpenguin use32 org 0x0 db 'MENUET01' ; 8 byte id dd 0x01 ; header version dd START ; start of code dd IM_END ; size of image dd (I_END+0x100) ; memory for app dd (I_END+0x100) ; esp dd 0x0 , path ; I_Param , I_Icon ; CONFIGURATION TIMEOUT equ 60 ; in seconds BUFFER equ 1024 ; in bytes __DEBUG__ equ 1 ; enable/disable __DEBUG_LEVEL__ equ 1 ; 1 = all, 2 = errors ; CONFIGURATION FOR LINK-LOCAL PROBE_WAIT equ 1 ; second (initial random delay) PROBE_MIN equ 1 ; second (minimum delay till repeated probe) PROBE_MAX equ 2 ; seconds (maximum delay till repeated probe) PROBE_NUM equ 3 ; (number of probe packets) ANNOUNCE_NUM equ 2 ; (number of announcement packets) ANNOUNCE_INTERVAL equ 2 ; seconds (time between announcement packets) ANNOUNCE_WAIT equ 2 ; seconds (delay before announcing) MAX_CONFLICTS equ 10 ; (max conflicts before rate limiting) RATE_LIMIT_INTERVAL equ 60 ; seconds (delay between successive attempts) DEFEND_INTERVAL equ 10 ; seconds (min. wait between defensive ARPs) AF_INET4 equ 2 ;;;;; IP_PROTO_UDP equ 17 include '../proc32.inc' include '../macros.inc' include '../debug-fdo.inc' include 'dhcp.inc' include 'dll.inc' Ip2dword: push edx ; This code validates if the query is an IP containing 4 numbers and 3 dots xor al, al ; make al (dot count) zero @@: cmp byte[edx],'0' ; check if this byte is a number, if not jump to no_IP jl no_IP ; cmp byte[edx],'9' ; jg no_IP ; inc edx ; the byte was a number, so lets check the next byte cmp byte[edx],0 ; is this byte zero? (have we reached end of query?) jz @f ; jump to next @@ then cmp byte[edx],':' jz @f cmp byte[edx],'.' ; is this byte a dot? jne @r ; if not, jump to previous @@ inc al ; the byte was a dot so increment al(dot count) inc edx ; next byte jmp @r ; lets check for numbers again (jump to previous @@) @@: ; we reach this when end of query reached cmp al,3 ; check if there where 3 dots jnz no_IP ; if not, jump to no_IP ; The following code will convert this IP into a dword and output it in eax ; If there is also a port number specified, this will be returned in ebx, otherwise ebx is -1 pop esi ; edx (query address) was pushed onto stack and is now popped in esi xor edx, edx ; result xor eax, eax ; current character xor ebx, ebx ; current byte .outer_loop: shl edx, 8 add edx, ebx xor ebx, ebx .inner_loop: lodsb test eax, eax jz .finish cmp al, '.' jz .outer_loop sub eax, '0' imul ebx, 10 add ebx, eax jmp .inner_loop .finish: shl edx, 8 add edx, ebx bswap edx ; we want little endian order ret no_IP: pop edx xor edx, edx ret START: ; start of execution mcall 40, 1 shl 7 ; network event ; eth.set_network_drv 0x00000383 DEBUGF 1,">Zero-config service:\n" ; eth.status eax ; Read the Stack status ; test eax,eax ; if eax is zero, no driver was found ; jnz @f ; DEBUGF 1,"No Card found!\n" ; jmp close ; @@: ; DEBUGF 1,"Detected card: %x\n",eax ; @@: ; eth.check_cable eax ; test al,al ; jnz @f ; DEBUGF 1,"Cable disconnected!\n" ; mcall 5, 500 ; loop until cable is connected (check every 5 sec) ; jmp @r ; @@: ; eth.read_mac MAC mcall 75, 1337 shl 16 + 4 cmp eax, -1 je close mov word[MAC], bx mov dword[MAC+2], eax DEBUGF 1,"->MAC: %x-%x-%x-%x-%x-%x\n",[MAC]:2,[MAC+1]:2,[MAC+2]:2,[MAC+3]:2,[MAC+4]:2,[MAC+5]:2 cld mov edi, path ; Calculate the length of zero-terminated string xor al , al mov ecx, 1024 repnz scas byte[es:edi] dec edi mov esi, filename movsd movsb DEBUGF 1,"->path to ini: %s\n", path mcall 68,11 stdcall dll.Load,@IMPORT or eax,eax jnz skip_ini invoke ini.get_str, path, str_ipconfig, str_type, inibuf, 16, 0 mov eax,dword[inibuf] cmp eax,'stat' jne skip_ini invoke ini.get_str, path, str_ipconfig, str_ip, inibuf, 16, 0 mov edx, inibuf call Ip2dword mcall 75, 3, edx invoke ini.get_str, path, str_ipconfig, str_gateway, inibuf, 16, 0 mov edx, inibuf call Ip2dword mcall 75, 9, edx invoke ini.get_str, path, str_ipconfig, str_dns, inibuf, 16, 0 mov edx, inibuf call Ip2dword mcall 75, 5, edx invoke ini.get_str, path, str_ipconfig, str_subnet, inibuf, 16, 0 mov edx, inibuf call Ip2dword mcall 75, 7, edx mcall -1 skip_ini: DEBUGF 1,"->Skip ini\n" mcall 74, 0, AF_INET4, IP_PROTO_UDP, 0 ; open socket (parameters: domain, type, reserved) cmp eax, -1 je error mov [socketNum], eax DEBUGF 1,"->socket %x opened\n", eax mcall 74, 2, [socketNum], sockaddr1, 18 ; bind socket to local port 68 cmp eax, -1 je error DEBUGF 1,"->Socket Bound to local port 68\n" mcall 74, 4, [socketNum], sockaddr2, 18 ; connect to 255.255.255.255 on port 67 cmp eax, -1 je error DEBUGF 1,"->Connected to 255.255.255.255 on port 67\n" mov byte [dhcpMsgType], 0x01 ; DHCP discover mov dword [dhcpLease], esi ; esi is still -1 (-1 = forever) mcall 26, 9 imul eax,100 mov [currTime],eax buildRequest: ; Creates a DHCP request packet. DEBUGF 1,"->Building request\n" stdcall mem.Alloc, BUFFER mov [dhcpMsg], eax test eax,eax jz apipa mov edi, eax mov ecx,BUFFER xor eax,eax cld rep stosb mov edx,[dhcpMsg] mov [edx], byte 0x01 ; Boot request mov [edx+1], byte 0x01 ; Ethernet mov [edx+2], byte 0x06 ; Ethernet h/w len mov [edx+4], dword 0x11223344 ; xid mov eax,[currTime] mov [edx+8], eax ; secs, our uptime mov [edx+10], byte 0x80 ; broadcast flag set mov eax, dword [MAC] ; first 4 bytes of MAC mov [edx+28],dword eax mov ax, word [MAC+4] ; last 2 bytes of MAC mov [edx+32],word ax mov [edx+236], dword 0x63538263 ; magic number mov [edx+240], word 0x0135 ; option DHCP msg type mov al, [dhcpMsgType] mov [edx+240+2], al mov [edx+240+3], word 0x0433 ; option Lease time = infinity mov eax, [dhcpLease] mov [edx+240+5], eax mov [edx+240+9], word 0x0432 ; option requested IP address mov eax, [dhcpClientIP] mov [edx+240+11], eax mov [edx+240+15], word 0x0437 ; option request list mov [edx+240+17], dword 0x0f060301 cmp [dhcpMsgType], byte 0x01 ; Check which msg we are sending jne request_options mov [edx+240+21], byte 0xff ; "Discover" options mov [dhcpMsgLen], dword 262 ; end of options marker jmp send_request request_options: mov [edx+240+21], word 0x0436 ; server IP mov eax, [dhcpServerIP] mov [edx+240+23], eax mov [edx+240+27], byte 0xff ; end of options marker mov [dhcpMsgLen], dword 268 send_request: mcall 74, 6, [socketNum], [dhcpMsg], [dhcpMsgLen] ; write to socket ( send broadcast request ) mov eax, [dhcpMsg] ; Setup the DHCP buffer to receive response mov [dhcpMsgLen], eax ; Used as a pointer to the data mcall 23, TIMEOUT*10 ; wait for data read_data: ; we have data - this will be the response mcall 74, 7, [socketNum], [dhcpMsg], BUFFER ; read data from socket DEBUGF 1,"->%d bytes received\n", eax push eax mcall 74, 1, [socketNum] ; close the socket pop eax cmp eax, -1 je error mov [dhcpMsgLen], eax ; depending on which msg we sent, handle the response ; accordingly. ; If the response is to a dhcp discover, then: ; 1) If response is DHCP OFFER then ; 1.1) record server IP, lease time & IP address. ; 1.2) send a request packet ; If the response is to a dhcp request, then: ; 1) If the response is DHCP ACK then ; 1.1) extract the DNS & subnet fields. Set them in the stack cmp [dhcpMsgType], byte 0x01 ; did we send a discover? je discover cmp [dhcpMsgType], byte 0x03 ; did we send a request? je request jmp close ; really unknown, what we did discover: call parseResponse cmp [dhcpMsgType], byte 0x02 ; Was the response an offer? jne apipa ; NO - so we do zeroconf mov [dhcpMsgType], byte 0x03 ; DHCP request jmp buildRequest request: call parseResponse cmp [dhcpMsgType], byte 0x05 ; Was the response an ACK? It should be jne apipa ; NO - so we do zeroconf jmp close ;*************************************************************************** ; Function ; parseResponse ; ; Description ; extracts the fields ( client IP address and options ) from ; a DHCP response ; The values go into ; dhcpMsgType,dhcpLease,dhcpClientIP,dhcpServerIP, ; dhcpDNSIP, dhcpSubnet ; The message is stored in dhcpMsg ; ;*************************************************************************** parseResponse: DEBUGF 1,"Data received, parsing response\n" mov edx, [dhcpMsg] pusha mcall 75, 3, [edx+16] mov eax,[edx] mov [dhcpClientIP],eax DEBUGF 1,"Client: %u.%u.%u.%u\n",[edx+16]:1,[edx+17]:1,[edx+18]:1,[edx+19]:1 popa add edx, 240 ; Point to first option xor ecx, ecx next_option: add edx, ecx pr001: mov al, [edx] cmp al, 0xff ; End of options? je pr_exit cmp al, dhcp_msg_type ; Msg type is a single byte option jne @f mov al, [edx+2] mov [dhcpMsgType], al add edx, 3 jmp pr001 ; Get next option @@: inc edx movzx ecx, byte [edx] inc edx ; point to data cmp al, dhcp_dhcp_server_id ; server ip jne @f mov eax, [edx] mov [dhcpServerIP], eax DEBUGF 1,"Server: %u.%u.%u.%u\n",[edx]:1,[edx+1]:1,[edx+2]:1,[edx+3]:1 jmp next_option @@: cmp al, dhcp_address_time jne @f pusha mov eax,[edx] bswap eax mov [dhcpLease],eax DEBUGF 1,"lease: %d\n",eax popa jmp next_option @@: cmp al, dhcp_subnet_mask jne @f pusha mcall 75, 7, [edx] DEBUGF 1,"Subnet: %u.%u.%u.%u\n",[edx]:1,[edx+1]:1,[edx+2]:1,[edx+3]:1 popa jmp next_option @@: cmp al, dhcp_router jne @f pusha mcall 75, 9, [edx] DEBUGF 1,"Gateway: %u.%u.%u.%u\n",[edx]:1,[edx+1]:1,[edx+2]:1,[edx+3]:1 popa jmp next_option @@: cmp al, dhcp_domain_server jne next_option pusha mcall 75, 5, [edx] DEBUGF 1,"DNS: %u.%u.%u.%u\n",[edx]:1,[edx+1]:1,[edx+2]:1,[edx+3]:1 popa jmp next_option pr_exit: ; DEBUGF 1,"Sending ARP announce\n" ; eth.ARP_ANNOUNCE [dhcpClientIP] ; send an ARP announce packet jmp close apipa: stdcall mem.Free, [dhcpMsg] link_local: call random mov ecx,0xfea9 ; IP 169.254.0.0 link local net, see RFC3927 mov cx,ax mcall 75, 3, ecx ; mask is 255.255.0.0 DEBUGF 1,"Link Local IP assinged: 169.254.%u.%u\n",[generator+2]:1,[generator+3]:1 mcall 75, 5, 0xffff mcall 75, 9, 0x0 mcall 75, 7, 0x0 mcall 5, PROBE_WAIT*100 xor esi,esi probe_loop: call random ; create a pseudo random number in eax (seeded by MAC) cmp al,PROBE_MIN*100 ; check if al is bigger then PROBE_MIN jge @f ; all ok add al,(PROBE_MAX-PROBE_MIN)*100 ; al is too small @@: cmp al,PROBE_MAX*100 jle @f sub al,(PROBE_MAX-PROBE_MIN)*100 @@: movzx ebx,al DEBUGF 1,"Waiting %u0ms\n",ebx mcall 5 DEBUGF 1,"Sending Probe\n" ; eth.ARP_PROBE MAC inc esi cmp esi,PROBE_NUM jl probe_loop ; now we wait further ANNOUNCE_WAIT seconds and send ANNOUNCE_NUM ARP announces. If any other host has assingned ; IP within this time, we should create another adress, that have to be done later DEBUGF 1,"Waiting %us\n",ANNOUNCE_WAIT mcall 5, ANNOUNCE_WAIT*100 xor esi,esi announce_loop: DEBUGF 1,"Sending Announce\n" ; eth.ARP_ANNOUNCE MAC inc esi cmp esi,ANNOUNCE_NUM je @f DEBUGF 1,"Waiting %us\n",ANNOUNCE_INTERVAL mcall 5, ANNOUNCE_INTERVAL*100 jmp announce_loop @@: ; we should, instead of closing, detect ARP conflicts and detect if cable keeps connected ;) error: close: mcall -1 random: ; Pseudo random actually mov eax,[generator] add eax,-43ab45b5h ror eax,1 bswap eax xor eax,dword[MAC] ror eax,1 xor eax,dword[MAC+2] mov [generator],eax ret ; DATA AREA align 16 @IMPORT: library \ libini,'libini.obj' import libini, \ ini.get_str,'ini_get_str' include_debug_strings filename db '.ini',0 str_ip db 'ip',0 str_subnet db 'subnet',0 str_gateway db 'gateway',0 str_dns db 'dns',0 str_ipconfig db 'ipconfig',0 str_type db 'type',0 sockaddr1: dw AF_INET4 dw 68 shl 8 ; local port dd 0 ; local IP rb 10 sockaddr2: dw AF_INET4 dw 67 shl 8 ; destination port dd -1 ; destination IP rb 10 IM_END: inibuf rb 16 dhcpClientIP dd ? dhcpMsgType db ? dhcpLease dd ? dhcpServerIP dd ? dhcpMsgLen dd ? socketNum dd ? MAC dp ? currTime dd ? renewTime dd ? generator dd ? dhcpMsg dd ? I_END_2: path rb 1024+5 I_END: