AutoDHCP renamed to zeroconf

zeroconf now uses zeroconf.ini for static settings
zeroconf.ini should be in the same directory as the zeroconf application

git-svn-id: svn://kolibrios.org@1009 a494cfbc-eb01-0410-851d-a64ba20cac60
This commit is contained in:
hidnplayr 2009-01-29 17:36:59 +00:00
parent 0671064716
commit 7d0bc204c7
6 changed files with 303 additions and 329 deletions

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@ -1,7 +1,7 @@
;
; ETH.INC
;
; made by hidnplayr (hidnplayr@gmail.com) for KolibriOS
; made by hidnplayr (hidnplayr@kolibrios.org) for KolibriOS
;
; The given code before every macro is only a simple example
;
@ -10,7 +10,7 @@
;
; v1.0: august 2006 original release
; v1.1: december 2006 bugfixes and improvements
; v1.2: februari 2007 more bugfixes and improvements
; v1.2: february 2007 more bugfixes and improvements
macro mov arg1,arg2 {
if arg1 eq arg2
@ -339,51 +339,12 @@ macro eth.wait_for_data socket,TIMEOUT,abort {
}
; The function 'resolve' resolves the address in edx and puts the resulting IP in eax.
; When the input is an IP-adress, the function will output this IP in eax.
; If something goes wrong, the result in eax should be 0
;
; example:
;
; resolve query1,IP,PORT
; resolve '192.168.0.1',IP,PORT
; resolve query2,IP,PORT
;
; query1 db 'www.google.com',0
; query2 db '49.78.84.45',0
; IP dd ?
; PORT dd ?
macro resolve query,result {
if query eqtype 0
mov edx,query
else
local ..string, ..label
jmp ..label
..string db query,0
..label:
mov edx,..string
end if
call __resolve
mov result,eax
}
if used __resolve
__resolve:
if __DEBUG__ eq 1
DEBUGF 1,'DNS: Resolving started\n'
end if
Ip2dword:
push edx
; This code validates if the query is an IP containing 4 numbers and 3 dots
push edx ; push edx (query address) onto stack
xor al, al ; make al (dot count) zero
@@:
@ -408,7 +369,7 @@ end if
@@: ; 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 (this is where the DNS will take over)
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
@ -438,189 +399,15 @@ end if
add edx, ebx
bswap edx ; we want little endian order
mov eax, edx
ret
no_IP:
pop edx
; The query is not an IP address, we will send the query to a DNS server and hope for answer ;)
if __DEBUG__ eq 1
DEBUGF 1,'DNS: The query is no ip, Building request string from:%u\n',edx
end if
; Build the request string
mov eax, 0x00010100
mov [dnsMsg], eax
mov eax, 0x00000100
mov [dnsMsg+4], eax
mov eax, 0x00000000
mov [dnsMsg+8], eax
; domain name goes in at dnsMsg+12
mov esi, dnsMsg + 12 ; location of label length
mov edi, dnsMsg + 13 ; label start
mov ecx, 12 ; total string length so far
td002:
mov [esi], byte 0
inc ecx
td0021:
mov al, [edx]
cmp al, 0
je td001 ; we have finished the string translation
cmp al, '.'
je td004 ; we have finished the label
inc byte [esi]
inc ecx
mov [edi], al
inc edi
inc edx
jmp td0021
td004:
mov esi, edi
inc edi
inc edx
jmp td002
; write label len + label text
td001:
mov [edi], byte 0
inc ecx
inc edi
mov [edi], dword 0x01000100
add ecx, 4
mov [dnsMsgLen], ecx ; We'll need the length of the message when we send it
; Now, lets send this and wait for an answer
eth.search_port 1024,edx ; Find a free port starting from 1025 and store in edx
eth.get_DNS esi ; Read DNS IP from stack into esi
eth.open_udp edx,53,esi,[socketNum] ; First, open socket
if __DEBUG__ eq 1
DEBUGF 1,'DNS: Socket opened: %u (port %u)\n',[socketNum],ecx
end if
eth.write_udp [socketNum],[dnsMsgLen],dnsMsg ; Write to socket ( request DNS lookup )
if __DEBUG__ eq 1
DEBUGF 1,'DNS: Data written, length:%u offset:%u\n',[dnsMsgLen],dnsMsg
DEBUGF 1,'DNS: Waiting for data: (timeout is %us)\n',TIMEOUT
end if
eth.wait_for_data [socketNum],TIMEOUT,abort ; Now, we wait for data from remote
eth.read_data dword[socketNum],dnsMsg,dword[dnsMsgLen],dnsMsg+BUFFER ; Read the data into the buffer
if __DEBUG__ eq 1
DEBUGF 1,'Data received, offset:%u buffer size:%u length:%u\n',dnsMsg,BUFFER,esi-dnsMsg
end if
eth.close_udp [socketNum] ; We're done, close the socket
if __DEBUG__ eq 1
DEBUGF 1,'Closed Socket\n'
end if
; Now parse the message to get the host IP. Man, this is complicated. It's described in RFC 1035
; 1) Validate that we have an answer with > 0 responses
; 2) Find the answer record with TYPE 0001 ( host IP )
; 3) Finally, copy the IP address to the display
; Note: The response is in dnsMsg, the end of the buffer is pointed to by [dnsMsgLen]
mov esi, dnsMsg
mov al, [esi+2] ; Is this a response to my question?
and al, 0x80
cmp al, 0x80
jne abort
if __DEBUG__ eq 1
DEBUGF 1,'DNS: It was a response to my question\n'
end if
mov al, [esi+3] ; Were there any errors?
and al, 0x0F
cmp al, 0x00
jne abort
if __DEBUG__ eq 1
DEBUGF 1,'DNS: There were no errors\n'
end if
mov ax, [esi+6] ; Is there ( at least 1 ) answer?
cmp ax, 0x00
je abort
; Header validated. Scan through and get my answer
add esi, 12 ; Skip to the question field
call skipName ; Skip through the question field
add esi, 4 ; skip past the questions qtype, qclass
ctr002z:
; Now at the answer. There may be several answers, find the right one ( TYPE = 0x0001 )
call skipName
mov ax, [esi]
cmp ax, 0x0100 ; Is this the IP address answer?
jne ctr002c
add esi, 10 ; Yes! Point eax to the first byte of the IP address
mov eax,[esi]
xor edx, edx
ret
ctr002c: ; Skip through the answer, move to the next
add esi, 8
movzx eax, byte [esi+1]
mov ah, [esi]
add esi, eax
add esi, 2
cmp esi, [dnsMsgLen] ; Have we reached the end of the msg? This is an error condition, should not happen
jl ctr002z ; Check next answer
abort:
if __DEBUG__ eq 1
DEBUGF 1,'DNS: Something went wrong, aborting\n'
end if
xor eax,eax
ret
skipName:
; Increment esi to the first byte past the name field
; Names may use compressed labels. Normally do.
; RFC 1035 page 30 gives details
mov al, [esi]
cmp al, 0
je sn_exit
and al, 0xc0
cmp al, 0xc0
je sn001
movzx eax, byte [esi]
inc eax
add esi, eax
jmp skipName
sn001:
add esi, 2 ; A pointer is always at the end
ret
sn_exit:
inc esi
ret
dnsMsgLen: dd 0
socketNum: dd 0xFFFF
if ~defined dnsMsg
dnsMsg: rb BUFFER
end if
end if

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@ -1,17 +0,0 @@
macro wait time {
mov ebx,time
mov eax,5
mcall
}
macro get_time_counter result {
mov eax,26
mov ebx,9
mcall
mov result,eax
}
macro exit {
or eax,-1
mcall
}

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@ -0,0 +1,157 @@
;-----------------------------------------------------------------------------
proc mem.Alloc size ;/////////////////////////////////////////////////////////
;-----------------------------------------------------------------------------
push ebx ecx
mov eax,[size]
lea ecx,[eax+4+4095]
and ecx,not 4095
mcall 68,12
add ecx,-4
mov [eax],ecx
add eax,4
pop ecx ebx
ret
endp
;-----------------------------------------------------------------------------
proc mem.ReAlloc mptr,size;///////////////////////////////////////////////////
;-----------------------------------------------------------------------------
push ebx ecx esi edi eax
mov eax,[mptr]
mov ebx,[size]
or eax,eax
jz @f
lea ecx,[ebx+4+4095]
and ecx,not 4095
add ecx,-4
cmp ecx,[eax-4]
je .exit
@@: mov eax,ebx
call mem.Alloc
xchg eax,[esp]
or eax,eax
jz .exit
mov esi,eax
xchg eax,[esp]
mov edi,eax
mov ecx,[esi-4]
cmp ecx,[edi-4]
jbe @f
mov ecx,[edi-4]
@@: add ecx,3
shr ecx,2
cld
rep movsd
xchg eax,[esp]
call mem.Free
.exit:
pop eax edi esi ecx ebx
ret
endp
;-----------------------------------------------------------------------------
proc mem.Free mptr ;//////////////////////////////////////////////////////////
;-----------------------------------------------------------------------------
mov eax,[mptr]
or eax,eax
jz @f
push ebx ecx
lea ecx,[eax-4]
mcall 68,13
pop ecx ebx
@@: ret
endp
proc dll.Load, import_table:dword
mov esi,[import_table]
.next_lib: mov edx,[esi]
or edx,edx
jz .exit
push esi
mov esi,[esi+4]
mov edi,s_libdir.fname
@@: lodsb
stosb
or al,al
jnz @b
mcall 68,19,s_libdir
or eax,eax
jz .fail
stdcall dll.Link,eax,edx
stdcall dll.Init,[eax+4]
pop esi
add esi,8
jmp .next_lib
.exit: xor eax,eax
ret
.fail: add esp,4
xor eax,eax
inc eax
ret
endp
proc dll.Link, exp:dword,imp:dword
push eax
mov esi,[imp]
test esi,esi
jz .done
.next: lodsd
test eax,eax
jz .done
stdcall dll.GetProcAddress,[exp],eax
or eax,eax
jz @f
mov [esi-4],eax
jmp .next
@@: mov dword[esp],0
.done: pop eax
ret
endp
proc dll.Init, dllentry:dword
pushad
mov eax,mem.Alloc
mov ebx,mem.Free
mov ecx,mem.ReAlloc
mov edx,dll.Load
stdcall [dllentry]
popad
ret
endp
proc dll.GetProcAddress, exp:dword,sz_name:dword
mov edx,[exp]
xor eax,eax
.next: or edx,edx
jz .end
cmp dword[edx],0
jz .end
stdcall strcmp,[edx],[sz_name]
test eax,eax
jz .ok
add edx,8
jmp .next
.ok: mov eax,[edx+4]
.end: ret
endp
proc strcmp, str1:dword,str2:dword
push esi edi
mov esi,[str1]
mov edi,[str2]
xor eax,eax
@@: lodsb
scasb
jne .fail
or al,al
jnz @b
jmp .ok
.fail: or eax,-1
.ok: pop edi esi
ret
endp
s_libdir:
db '/sys/lib/'
.fname rb 32

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@ -1,49 +0,0 @@
macro set_event_mask mask {
mov ebx, mask
mov eax, 40
mcall
}
macro wait_for_event {
mov eax, 10
mcall
}
macro check_for_event {
mov eax, 11
mcall
}
macro wait_for_event_timeout timeout {
mov ebx,timeout
mov eax, 23
mcall
}
event_redraw equ 1 shl 0
event_keyboard equ 1 shl 1
event_button equ 1 shl 2
event_background equ 1 shl 4
event_mouse equ 1 shl 5
event_ipc equ 1 shl 6
event_network equ 1 shl 7
event_debug equ 1 shl 8
event_irq0 equ 1 shl 15
event_irq1 equ 1 shl 16
event_irq2 equ 1 shl 17
event_irq3 equ 1 shl 18
event_irq4 equ 1 shl 19
event_irq5 equ 1 shl 20
event_irq6 equ 1 shl 21
event_irq7 equ 1 shl 22
event_irq8 equ 1 shl 23
event_irq9 equ 1 shl 24
event_irq10 equ 1 shl 25
event_irq11 equ 1 shl 26
event_irq12 equ 1 shl 27
event_irq13 equ 1 shl 28
event_irq14 equ 1 shl 29
event_irq15 equ 1 shl 30

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@ -1,9 +1,9 @@
; Automated dhcp client
; v 1.3
; Zero-config
; v 1.4
;
; with thanks to authors of DHCP client for menuetos: Mike Hibbet
; DHCP code is based on that by Mike Hibbet (DHCP client for menuetos)
;
; by HidnPlayr & Derpenguin
; Written by HidnPlayr & Derpenguin
use32
org 0x0
@ -14,7 +14,7 @@ use32
dd IM_END ; size of image
dd I_END ; memory for app
dd I_END ; esp
dd 0x0 , 0x0 ; I_Param , I_Icon
dd 0x0 , path ; I_Param , I_Icon
; CONFIGURATION
@ -41,25 +41,25 @@ RATE_LIMIT_INTERVAL equ 60 ; seconds (delay between successive attempts)
DEFEND_INTERVAL equ 10 ; seconds (min. wait between defensive ARPs)
include '..\..\..\macros.inc'
include '../../../proc32.inc'
include '../../../macros.inc'
include 'eth.inc'
include 'debug-fdo.inc'
include 'dhcp.inc'
include 'events.inc'
include 'common.inc'
include 'dll.inc'
START: ; start of execution
set_event_mask event_network
mcall 40, 0
eth.set_network_drv 0x00000383
DEBUGF 1,"Stack Initialized.\n"
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 detected\n"
DEBUGF 1,"No Card found!\n"
jmp close
@@:
@ -68,15 +68,65 @@ START: ; start of execution
eth.check_cable eax
test al,al
jnz @f
DEBUGF 1,"Ethernet Cable not connected\n"
wait 500 ; loop until cable is connected (check every 5 sec)
DEBUGF 1,"Cable disconnected!\n"
mcall 5, 500 ; loop until cable is connected (check every 5 sec)
jmp @r
@@:
DEBUGF 1,"Ethernet Cable status: %d\n",al
eth.read_mac MAC
DEBUGF 1,"MAC address: %x-%x-%x-%x-%x-%x\n",[MAC]:2,[MAC+1]:2,[MAC+2]:2,[MAC+3]:2,[MAC+4]:2,[MAC+5]:2
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
mov ecx, 5
rep movsb
mcall 64,1,I_END_2
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
eth.set_IP edx
invoke ini.get_str, path, str_ipconfig, str_gateway, inibuf, 16, 0
mov edx, inibuf
call Ip2dword
eth.set_GATEWAY edx
invoke ini.get_str, path, str_ipconfig, str_dns, inibuf, 16, 0
mov edx, inibuf
call Ip2dword
eth.set_DNS edx
invoke ini.get_str, path, str_ipconfig, str_subnet, inibuf, 16, 0
mov edx, inibuf
call Ip2dword
eth.set_SUBNET edx
mcall -1
skip_ini:
eth.check_port 68,eax ; Check if port 68 is available
cmp eax,1
@ -87,23 +137,28 @@ START: ; start of execution
@@:
eth.open_udp 68,67,-1,[socketNum] ; open socket (local,remote,ip,socket)
DEBUGF 1,"Socket opened: %d\n",eax
; Setup the first msg we will send
mov byte [dhcpMsgType], 0x01 ; DHCP discover
mov dword [dhcpLease], esi ; esi is still -1 (-1 = forever)
get_time_counter eax
mcall 26, 9
imul eax,100
mov [currTime],eax
buildRequest: ; Creates a DHCP request packet.
xor eax,eax ; Clear dhcpMsg to all zeros
mov edi,dhcpMsg
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,[dhcpMsg]
mov [edx], byte 0x01 ; Boot request
mov [edx+1], byte 0x01 ; Ethernet
@ -147,9 +202,9 @@ request_options:
mov [dhcpMsgLen], dword 268
send_request:
eth.write_udp [socketNum],[dhcpMsgLen],dhcpMsg ; write to socket ( send broadcast request )
eth.write_udp [socketNum],[dhcpMsgLen],[dhcpMsg] ; write to socket ( send broadcast request )
mov eax, dhcpMsg ; Setup the DHCP buffer to receive response
mov eax, [dhcpMsg] ; Setup the DHCP buffer to receive response
mov [dhcpMsgLen], eax ; Used as a pointer to the data
mov eax,23 ; wait here for event (data from remote)
@ -167,7 +222,7 @@ send_request:
read_data: ; we have data - this will be the response
eth.read_packet [socketNum], dhcpMsg, BUFFER
eth.read_packet [socketNum], [dhcpMsg], BUFFER
mov [dhcpMsgLen], eax
eth.close_udp [socketNum]
@ -219,7 +274,7 @@ request:
;***************************************************************************
parseResponse:
DEBUGF 1,"Data received, parsing response\n"
mov edx, dhcpMsg
mov edx, [dhcpMsg]
pusha
eth.set_IP [edx+16]
@ -313,6 +368,9 @@ pr_exit:
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
@ -322,7 +380,7 @@ apipa:
eth.set_GATEWAY 0x0
eth.set_DNS 0x0
wait PROBE_WAIT*100
mcall 5, PROBE_WAIT*100
xor esi,esi
probe_loop:
@ -340,7 +398,7 @@ apipa:
movzx ebx,al
DEBUGF 1,"Waiting %u0ms\n",ebx
wait ebx
mcall 5
DEBUGF 1,"Sending Probe\n"
; eth.ARP_PROBE MAC
@ -353,7 +411,7 @@ apipa:
; IP within this time, we should create another adress, that have to be done later
DEBUGF 1,"Waiting %us\n",ANNOUNCE_WAIT
wait ANNOUNCE_WAIT*100
mcall 5, ANNOUNCE_WAIT*100
xor esi,esi
announce_loop:
@ -365,17 +423,16 @@ apipa:
je @f
DEBUGF 1,"Waiting %us\n",ANNOUNCE_INTERVAL
wait ANNOUNCE_INTERVAL*100
mcall 5, ANNOUNCE_INTERVAL*100
jmp announce_loop
@@:
; we should, instead of closing, detect ARP conflicts and detect if cable keeps connected ;)
close:
DEBUGF 1,"Exiting\n"
exit ; at last, exit
mcall -1
random:
random: ; Pseudo random actually
mov eax,[generator]
add eax,-43ab45b5h
@ -390,22 +447,52 @@ ret
; DATA AREA
align 16
@IMPORT:
library \
libini,'libini.obj'
import libini, \
ini.get_str,'ini.get_str',\
ini.set_str,'ini.set_str',\
ini.get_int,'ini.get_int',\
ini.set_int,'ini.set_int',\
ini.enum_sections,'ini.enum_sections',\
ini.enum_keys,'ini.enum_keys'
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
IM_END:
dhcpClientIP dd 0
dhcpMsgType db 0
dhcpLease dd 0
dhcpServerIP dd 0
inibuf rb 16
dhcpMsgLen dd 0
socketNum dd 0
dhcpClientIP dd ?
dhcpMsgType db ?
dhcpLease dd ?
dhcpServerIP dd ?
MAC rb 6
currTime dd 0
renewTime dd 0
generator dd 0
dhcpMsgLen dd ?
socketNum dd ?
MAC dp ?
currTime dd ?
renewTime dd ?
generator dd ?
dhcpMsg dd ?
I_END_2:
path rb 1024+5
dhcpMsg rb BUFFER
I_END:

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@ -0,0 +1,9 @@
[ipconfig]
; type should be static or zeroconf
; zeroconf means the service first tries to contact a DHCP server
; If dhcp is not available, it switches to link-local
type = static
ip = 192.168.1.150
gateway = 192.168.1.1
dns = 192.168.1.1
subnet = 255.255.255.0