John's ethernet stack updates

NEW subfunction 52-17

ftp://hidden-player.no-ip.com:2100/fn52-sub17.txt

git-svn-id: svn://kolibrios.org@261 a494cfbc-eb01-0410-851d-a64ba20cac60
This commit is contained in:
hidnplayr 2007-01-06 01:15:21 +00:00
parent 7fe01d3053
commit 853d0ada7d
15 changed files with 9141 additions and 2558 deletions

View File

@ -0,0 +1,546 @@
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;
;; ARP.INC
;;
;; Address Resolution Protocol
;;
;; Last revision: 10.11.2006
;;
;; This file contains the following:
;; arp_table_manager - Manages an ARPTable
;; arp_request - Sends an ARP request on the ethernet
;; arp_handler - Called when an ARP packet is received
;;
;; Changes history:
;; 22.09.2003 - [Mike Hibbett] : mikeh@oceanfree.net
;; 11.11.2006 - [Johnny_B] and [smb]
;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
ARP_NO_ENTRY equ 0
ARP_VALID_MAPPING equ 1
ARP_AWAITING_RESPONSE equ 2
ARP_RESPONSE_TIMEOUT equ 3
struc ARP_ENTRY ;=14 bytes
{ .IP dd ? ;+00
.MAC dp ? ;+04
.Status dw ? ;+10
.TTL dw ? ;+12 : ( in seconds )
}
virtual at 0
ARP_ENTRY ARP_ENTRY
end virtual
; 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
; The follow is the ARP Table.
; This table must be manually updated and the kernel recompilied if
; changes are made to it.
; Empty entries are filled with zeros
ARP_ENTRY_SIZE equ 14 ; Number of bytes per entry
ARP_TABLE_SIZE equ 20 ; Size of table
ARP_TABLE_ENTRIES equ 0 ; Number of static entries in the table
;TO ADD A STATIC ENTRY, DONT FORGET, PUT "ARPTable" from "uglobal" to "iglobal"!!!
;AND ALSO - IP and MAC have net byte-order, BUT STATUS AND TTL HAVE A MIRROR BYTE-ORDER!!!
uglobal
ARPTable:
;example, static entry -> db 11,22,33,44, 0x11,0x22,0x33,0x44,0x55,0x66, 0x01,0x00, 0xFF,0xFF
times ( ARP_TABLE_SIZE - ARP_TABLE_ENTRIES ) * ARP_ENTRY_SIZE db 0
endg
iglobal
NumARP: dd ARP_TABLE_ENTRIES
ARPTable_ptr dd ARPTable ;pointer to ARPTable
endg
ARP_REQ_OPCODE equ 0x0100 ;request
ARP_REP_OPCODE equ 0x0200 ;reply
struc ARP_PACKET
{ .HardwareType dw ? ;+00
.ProtocolType dw ? ;+02
.HardwareSize db ? ;+04
.ProtocolSize db ? ;+05
.Opcode dw ? ;+06
.SenderMAC dp ? ;+08
.SenderIP dd ? ;+14
.TargetMAC dp ? ;+18
.TargetIP dd ? ;+24
}
virtual at 0
ARP_PACKET ARP_PACKET
end virtual
;***************************************************************************
; Function
; arp_table_manager [by Johnny_B]
;
; Description
; Does a most required operations with ARP-table
; IN:
; Operation: see Opcode's constants below
; Index: Index of entry in the ARP-table
; Extra: Extra parameter for some Opcodes
; OUT:
; EAX = Returned value depends on opcodes, more detailed see below
;
;***************************************************************************
;Opcode's constants
ARP_TABLE_ADD equ 1
ARP_TABLE_DEL equ 2
ARP_TABLE_GET equ 3
ARP_TABLE_GET_ENTRIES_NUMBER equ 4
ARP_TABLE_IP_TO_MAC equ 5
ARP_TABLE_TIMER equ 6
;Index's constants
EXTRA_IS_ARP_PACKET_PTR equ 0 ;if Extra contain pointer to ARP_PACKET
EXTRA_IS_ARP_ENTRY_PTR equ -1 ;if Extra contain pointer to ARP_ENTRY
align 4
proc arp_table_manager stdcall uses ebx esi edi ecx edx,\
Opcode:DWORD,Index:DWORD,Extra:DWORD
mov ebx, dword[ARPTable_ptr] ;ARPTable base
mov ecx, dword[NumARP] ;ARP-entries counter
mov eax, dword[Opcode]
cmp eax, ARP_TABLE_TIMER
je .timer
cmp eax, ARP_TABLE_ADD
je .add
cmp eax, ARP_TABLE_DEL
je .del
cmp eax, ARP_TABLE_GET
je .get
cmp eax, ARP_TABLE_IP_TO_MAC
je .ip_to_mac
cmp eax, ARP_TABLE_GET_ENTRIES_NUMBER
je .get_entries_number
jmp .exit ;if unknown opcode
;;BEGIN TIMER
;;Description: it must be callback every second. It is responsible for removing expired routes.
;;IN: Operation: ARP_TABLE_TIMER
;; Index: must be zero
;; Extra: must be zero
;;OUT:
;; EAX=not defined
;;
.timer:
test ecx, ecx
jz .exit ;if NumARP=0 nothing to do
sub ecx, ARP_TABLE_ENTRIES ;ecx=dynamic entries number
jz .exit ;if NumARP=number of static entries then exit
add ebx, ARP_TABLE_ENTRIES*ARP_ENTRY_SIZE ;ebx=dynamic entries base
.timer_loop:
movsx esi, word [ebx + ARP_ENTRY.TTL]
cmp esi, 0xFFFFFFFF
je .timer_loop_end ;if TTL==0xFFFF then it's static entry
test esi, esi
jnz .timer_loop_end_with_dec ;if TTL!=0
; Ok, TTL is 0
;if Status==AWAITING_RESPONSE and TTL==0
;then we have to change it to ARP_RESPONSE_TIMEOUT
cmp word [ebx + ARP_ENTRY.Status], ARP_AWAITING_RESPONSE
jne @f
mov word [ebx + ARP_ENTRY.Status], ARP_RESPONSE_TIMEOUT
mov word [ebx + ARP_ENTRY.TTL], word 0x000A ;10 sec
jmp .timer_loop_end
@@:
;if TTL==0 and Status==VALID_MAPPING, we have to delete it
;if TTL==0 and Status==RESPONSE_TIMEOUT, delete too
mov esi, dword[NumARP]
sub esi, ecx ;esi=index of entry, will be deleted
stdcall arp_table_manager,ARP_TABLE_DEL,esi,0 ;opcode,index,extra
jmp .timer_loop_end
.timer_loop_end_with_dec:
dec word [ebx + ARP_ENTRY.TTL] ;decrease TTL
.timer_loop_end:
add ebx, ARP_ENTRY_SIZE
loop .timer_loop
jmp .exit
;;END TIMER
;;BEGIN ADD
;;Description: it adds an entry in the table. If ARP-table already
;; contains same IP, it will be updated.
;;IN: Operation: ARP_TABLE_ADD
;; Index: specifies what contains Extra-parameter
;; Extra: if Index==EXTRA_IS_ARP_PACKET_PTR,
;; then Extra contains pointer to ARP_PACKET,
;; otherwise Extra contains pointer to ARP_ENTRY
;;OUT:
;; EAX=index of entry, that has been added
;;
.add:
sub esp, ARP_ENTRY_SIZE ;Allocate ARP_ENTRY_SIZE byte in stack
mov esi, [Extra] ;pointer
mov edi, [Index] ;opcode
cmp edi, EXTRA_IS_ARP_PACKET_PTR
je .arp_packet_to_entry ;if Extra contain ptr to ARP_PACKET and we have to form arp-entry
;else it contain ptr to arp-entry
cld
; esi already has been loaded
mov edi, esp ;ebx + eax=ARPTable_base + ARP-entry_base(where we will add)
mov ecx,ARP_ENTRY_SIZE/2 ;ARP_ENTRY_SIZE must be even number!!!
rep movsw ;copy
jmp .search
.arp_packet_to_entry:
mov edx, dword[esi + ARP_PACKET.SenderIP] ;esi=base of ARP_PACKET
mov [esp + ARP_ENTRY.IP], edx
cld
lea esi, [esi + ARP_PACKET.SenderMAC]
lea edi, [esp + ARP_ENTRY.MAC]
movsd
movsw
mov word[esp + ARP_ENTRY.Status], ARP_VALID_MAPPING ; specify the type - a valid entry
mov word[esp + ARP_ENTRY.TTL], 0x0E10 ; = 1 hour
.search:
mov edx, dword[esp + ARP_ENTRY.IP] ;edx=IP-address, which we'll search
mov ecx, dword[NumARP] ;ecx=ARP-entries counter
jecxz .add_to_end ;if ARP-entries number == 0
imul eax, ecx, ARP_ENTRY_SIZE ;eax=current table size(in bytes)
@@:
sub eax, ARP_ENTRY_SIZE
cmp dword[ebx + eax + ARP_ENTRY.IP], edx
loopnz @b
jz .replace ; found, replace existing entry, ptr to it is in eax
.add_to_end:
;else add to end
or eax,-1 ;set eax=0xFFFFFFFF if adding is impossible
mov ecx, dword[NumARP]
cmp ecx, ARP_TABLE_SIZE
je .add_exit ;if arp-entries number is equal to arp-table maxsize
imul eax, dword[NumARP], ARP_ENTRY_SIZE ;eax=ptr to end of ARPTable
inc dword [NumARP] ;increase ARP-entries counter
.replace:
cld
mov esi, esp ;esp=base of ARP-entry, that will be added
lea edi, [ebx + eax] ;ebx + eax=ARPTable_base + ARP-entry_base(where we will add)
mov ecx,ARP_ENTRY_SIZE/2 ;ARP_ENTRY_SIZE must be even number!!!
rep movsw
mov ecx, ARP_ENTRY_SIZE
xor edx, edx ;"div" takes operand from EDX:EAX
div ecx ;eax=index of entry, which has been added
.add_exit:
add esp, ARP_ENTRY_SIZE ;free stack
jmp .exit
;;END ADD
;;BEGIN DEL
;;Description: it deletes an entry in the table.
;;IN: Operation: ARP_TABLE_DEL
;; Index: index of entry, that should be deleted
;; Extra: must be zero
;;OUT:
;; EAX=not defined
;;
.del:
mov esi, [Index]
imul esi, ARP_ENTRY_SIZE
mov ecx, (ARP_TABLE_SIZE - 1) * ARP_ENTRY_SIZE
sub ecx, esi
lea edi, [ebx + esi] ;edi=ptr to entry that should be deleted
lea esi, [edi + ARP_ENTRY_SIZE] ;esi=ptr to next entry
shr ecx,1 ;ecx/2 => ARP_ENTRY_SIZE MUST BE EVEN NUMBER!
cld
rep movsw
dec dword[NumARP] ;decrease arp-entries counter
jmp .exit
;;END DEL
;;BEGIN GET
;;Description: it reads an entry of table into buffer.
;;IN: Operation: ARP_TABLE_GET
;; Index: index of entry, that should be read
;; Extra: pointer to buffer for reading(size must be equal to ARP_ENTRY_SIZE)
;;OUT:
;; EAX=not defined
;;
.get:
mov esi, [Index]
imul esi, ARP_ENTRY_SIZE ;esi=ptr to required ARP_ENTRY
mov edi, [Extra] ;edi=buffer for reading
mov ecx, ARP_ENTRY_SIZE/2 ; must be even number!!!
cld
rep movsw
jmp .exit
;;END GET
;;BEGIN IP_TO_MAC
;;Description: it gets an IP from Index, scans each entry in the table and writes
;; MAC, that relates to specified IP, into buffer specified in Extra.
;; And if it cannot find an IP-address in the table, it does an ARP-request of that.
;;IN: Operation: ARP_TABLE_IP_TO_MAC
;; Index: IP that should be transformed into MAC
;; Extra: pointer to buffer where will be written the MAC-address.
;;OUT:
;; EAX=ARP table entry status code.
;; If EAX==ARP_NO_ENTRY, IP isn't found in the table and we have sent the request.
;; If EAX==ARP_AWAITING_RESPONSE, we wait the response from remote system.
;; If EAX==ARP_RESPONSE_TIMEOUT, remote system not responds too long.
;; If EAX==ARP_VALID_MAPPING, all is ok, we've got a true MAC.
;;
;; If MAC will equal to a zero, in the buffer. It means, that IP-address was not yet
;; resolved, or that doesn't exist. I recommend you, to do at most 3-5 calls of this
;; function with 1sec delay. sure, only if it not return a valid MAC after a first call.
;;
.ip_to_mac:
xor eax, eax
mov edi, dword[Extra]
cld
stosd
stosw
cmp dword[NumARP], 0
je .ip_to_mac_send_request ;if ARP-table not contain an entries, we have to request IP.
;EAX will be containing a zero, it's equal to ARP_NO_ENTRY
; first, check destination IP to see if it is on 'this' network.
; The test is:
; if ( destIP & subnet_mask == stack_ip & subnet_mask )
; destination is local
; else
; destination is remote, so pass to gateway
mov eax, [Index] ;eax=required IP
mov esi, eax
and esi, [subnet_mask]
mov ecx, [stack_ip]
and ecx, [subnet_mask]
cmp esi, ecx
je @f ;if we and target IP are located in the same network
mov eax, [gateway_ip]
@@:
mov ecx, dword[NumARP]
imul esi, ecx, ARP_ENTRY_SIZE ;esi=current ARP-table size
@@:
sub esi, ARP_ENTRY_SIZE
cmp [ebx + esi], eax ; ebx=ARPTable base
loopnz @b ; Return back if non match
jnz .ip_to_mac_send_request ; and request IP->MAC if none found in the table
; Return the entry status in eax
movzx eax, word[ebx + esi + ARP_ENTRY.Status]
; esi holds index
cld
lea esi, [ebx + esi + ARP_ENTRY.MAC]
mov edi, [Extra] ;edi=ptr to buffer for write MAC
movsd
movsw
jmp .exit
.ip_to_mac_send_request:
stdcall arp_request,[Index],stack_ip,node_addr ;TargetIP,SenderIP_ptr,SenderMAC_ptr
mov eax, ARP_NO_ENTRY
jmp .exit
;;END IP_TO_MAC
;;BEGIN GET_ENTRIES_NUMBER
;;Description: returns an ARP-entries number in the ARPTable
;;IN: Operation: ARP_TABLE_GET_ENTRIES_NUMBER
;; Index: must be zero
;; Extra: must be zero
;;OUT:
;; EAX=ARP-entries number in the ARPTable
.get_entries_number:
mov eax, dword[NumARP]
jmp .exit
;;END GET_ENTRIES_NUMBER
.exit:
ret
endp
;***************************************************************************
; Function
; arp_handler
;
; Description
; Called when an ARP packet is received on the ethernet
; Header + Data is in Ether_buffer[]
; It looks to see if the packet is a request to resolve this Hosts
; IP address. If it is, send the ARP reply packet.
; This Hosts IP address is in dword [stack_ip] ( in network format )
; This Hosts MAC address is in node_addr[6]
; All registers may be destroyed
;
;***************************************************************************
arp_handler:
; Is this a REQUEST?
; Is this a request for My Host IP
; Yes - So construct a response message.
; Send this message to the ethernet card for transmission
stdcall arp_table_manager,ARP_TABLE_ADD,EXTRA_IS_ARP_PACKET_PTR,ETH_FRAME.Data + ARP_PACKET
inc dword[arp_rx_count] ;increase ARP-packets counter
cmp word[ETH_FRAME.Data + ARP_PACKET.Opcode], ARP_REQ_OPCODE ; Is this a request packet?
jne .exit ; No - so exit
mov eax, [stack_ip]
cmp eax, dword[ETH_FRAME.Data + ARP_PACKET.TargetIP] ; Is it looking for my IP address?
jne .exit ; No - so quit now
; OK, it is a request for my MAC address. Build the frame and send it
; We can reuse the packet.
mov word[ETH_FRAME.Data + ARP_PACKET.Opcode], ARP_REP_OPCODE
cld
mov esi, ETH_FRAME.Data + ARP_PACKET.SenderMAC
mov edi, ETH_FRAME.Data + ARP_PACKET.TargetMAC
movsd
movsw
mov esi, ETH_FRAME.Data + ARP_PACKET.SenderIP
mov edi, ETH_FRAME.Data + ARP_PACKET.TargetIP
movsd
mov esi, node_addr
mov edi, ETH_FRAME.Data + ARP_PACKET.SenderMAC
movsd
movsw
mov esi, stack_ip
mov edi, ETH_FRAME.Data + ARP_PACKET.SenderIP
movsd
; Now, send it!
mov edi, ETH_FRAME.Data + ARP_PACKET.TargetMAC ;ptr to destination MAC address
mov bx, ETHER_ARP ;type of protocol
mov ecx, 28 ;data size
mov esi, ETH_FRAME.Data + ARP_PACKET ;ptr to data
call dword [drvr_transmit] ;transmit packet
.exit:
ret
;***************************************************************************
; Function
; arp_request [by Johnny_B]
;
; Description
; Sends an ARP request on the ethernet
; IN:
; TargetIP : requested IP address
; SenderIP_ptr : POINTER to sender's IP address(our system's address)
; SenderMAC_ptr : POINTER to sender's MAC address(our system's address)
; OUT:
; EAX=0 (if all is ok), otherwise EAX is not defined
;
; EBX,ESI,EDI will be saved
;
;***************************************************************************
proc arp_request stdcall uses ebx esi edi,\
TargetIP:DWORD, SenderIP_ptr:DWORD, SenderMAC_ptr:DWORD
inc dword[arp_tx_count] ; increase counter
sub esp, 28 ; allocate memory for ARP_PACKET
mov word[esp + ARP_PACKET.HardwareType],0x0100 ;Ethernet
mov word[esp + ARP_PACKET.ProtocolType],0x0008 ;IP
mov byte[esp + ARP_PACKET.HardwareSize],0x06 ;MAC-addr length
mov byte[esp + ARP_PACKET.ProtocolSize],0x04 ;IP-addr length
mov word[esp + ARP_PACKET.Opcode],0x0100 ;Request
cld
mov esi,[SenderMAC_ptr]
lea edi,[esp + ARP_PACKET.SenderMAC] ;Our MAC-addr
movsd
movsw
mov esi,[SenderIP_ptr]
lea edi,[esp + ARP_PACKET.SenderIP] ;Our IP-addr
movsd
xor eax, eax
lea edi, [esp + ARP_PACKET.TargetMAC] ;Required MAC-addr(zeroed)
stosd
stosw
mov esi, dword[TargetIP]
mov dword[esp + ARP_PACKET.TargetIP],esi ;Required IP-addr(we get it as function parameter)
; Now, send it!
mov edi, broadcast_add ; Pointer to 48 bit destination address
mov bx, ETHER_ARP ; Type of packet
mov ecx, 28 ; size of packet
lea esi, [esp + ARP_PACKET]; pointer to packet data
call dword [drvr_transmit] ; Call the drivers transmit function
add esp, 28 ; free memory, allocated before for ARP_PACKET
; Add an entry in the ARP table, awaiting response
sub esp, ARP_ENTRY_SIZE ;allocate memory for ARP-entry
mov esi, dword[TargetIP]
mov dword[esp + ARP_ENTRY.IP],esi
lea edi, [esp + ARP_ENTRY.MAC]
xor eax, eax
stosd
stosw
mov word[esp + ARP_ENTRY.Status], ARP_AWAITING_RESPONSE
mov word[esp + ARP_ENTRY.TTL], 0x000A ; 10 seconds
stdcall arp_table_manager,ARP_TABLE_ADD,EXTRA_IS_ARP_ENTRY_PTR,esp
add esp, ARP_ENTRY_SIZE ; free memory
.exit:
ret
endp

File diff suppressed because it is too large Load Diff

View File

@ -0,0 +1,739 @@
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; I8255X.INC ;;
;; ;;
;; Ethernet driver for Menuet OS ;;
;; ;;
;; Version 0.3 11 August 2003 ;;
;; ;;
;; This driver is based on the eepro100 driver from ;;
;; the etherboot 5.0.6 project. The copyright statement is ;;
;; ;;
;; GNU GENERAL PUBLIC LICENSE ;;
;; Version 2, June 1991 ;;
;; ;;
;; remaining parts Copyright 2002 Mike Hibbett, ;;
;; mikeh@oceanfree.net ;;
;; ;;
;; See file COPYING for details ;;
;; ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;********************************************************************
; Interface
; I8255x_reset
; I8255x_probe
; I8255x_poll
; I8255x_transmit
;
; These functions are referenced in ethernet.inc
;
;********************************************************************
rxfd_status equ eth_data_start
rxfd_command equ eth_data_start + 2
rxfd_link equ eth_data_start + 4
rxfd_rx_buf_addr equ eth_data_start + 8
rxfd_count equ eth_data_start + 12
rxfd_size equ eth_data_start + 14
rxfd_packet equ eth_data_start + 16
uglobal
eeprom_data: times 16 dd 0
align 4
lstats:
tx_good_frames: dd 0
tx_coll16_errs: dd 0
tx_late_colls: dd 0
tx_underruns: dd 0
tx_lost_carrier: dd 0
tx_deferred: dd 0
tx_one_colls: dd 0
tx_multi_colls: dd 0
tx_total_colls: dd 0
rx_good_frames: dd 0
rx_crc_errs: dd 0
rx_align_errs: dd 0
rx_resource_errs: dd 0
rx_overrun_errs: dd 0
rx_colls_errs: dd 0
rx_runt_errs: dd 0
done_marker: dd 0
align 4
confcmd:
confcmd_status: dw 0
confcmd_command: dw 0
confcmd_link: dd 0
endg
iglobal
confcmd_data: db 22, 0x08, 0, 0, 0, 0x80, 0x32, 0x03, 1
db 0, 0x2e, 0, 0x60, 0, 0xf2, 0x48, 0, 0x40, 0xf2
db 0x80, 0x3f, 0x05
endg
uglobal
align 4
txfd:
txfd_status: dw 0
txfd_command: dw 0
txfd_link: dd 0
txfd_tx_desc_addr: dd 0
txfd_count: dd 0
txfd_tx_buf_addr0: dd 0
txfd_tx_buf_size0: dd 0
txfd_tx_buf_addr1: dd 0
txfd_tx_buf_size1: dd 0
align 4
hdr:
hdr_dst_addr: times 6 db 0
hdr_src_addr: times 6 db 0
hdr_type: dw 0
endg
;***************************************************************************
; Function
; wait_for_cmd_done
;
; Description
; waits for the hardware to complete a command
; port address in edx
;
; al destroyed
;***************************************************************************
wait_for_cmd_done:
in al, dx
cmp al, 0
jne wait_for_cmd_done
ret
;***************************************************************************
; Function
; mdio_read
;
; Description
; This probably reads a register in the "physical media interface chip"
; Phy_id in ebx
; location in ecx
;
; Data returned in eax
;
;***************************************************************************
mdio_read:
mov edx, [io_addr]
add edx, 16 ; SCBCtrlMDI
mov eax, 0x08000000
shl ecx, 16
or eax, ecx
shl ebx, 21
or eax, ebx
out dx, eax
mrlp:
call delay_us
in eax, dx
mov ecx, eax
and ecx, 0x10000000
jz mrlp
and eax, 0xffff
ret
;***************************************************************************
; Function
; mdio_write
;
; Description
; This probably writes a register in the "physical media interface chip"
; Phy_id in ebx
; location in ecx
; data in edx
; Data returned in eax
;
;***************************************************************************
mdio_write:
mov eax, 0x04000000
shl ecx, 16
or eax, ecx
shl ebx, 21
or eax, ebx
or eax, edx
mov edx, [io_addr]
add edx, 16 ; SCBCtrlMDI
out dx, eax
mwlp:
call delay_us
in eax, dx
mov ecx, eax
and ecx, 0x10000000
jz mwlp
and eax, 0xffff
ret
;/***********************************************************************/
;/* I82557 related defines */
;/***********************************************************************/
; Serial EEPROM section.
; A "bit" grungy, but we work our way through bit-by-bit :->.
; EEPROM_Ctrl bits.
EE_SHIFT_CLK equ 0x01 ; EEPROM shift clock.
EE_CS equ 0x02 ; EEPROM chip select.
EE_DATA_WRITE equ 0x04 ; EEPROM chip data in.
EE_DATA_READ equ 0x08 ; EEPROM chip data out.
EE_WRITE_0 equ 0x4802
EE_WRITE_1 equ 0x4806
EE_ENB equ 0x4802
; The EEPROM commands include the alway-set leading bit.
EE_READ_CMD equ 6
; The SCB accepts the following controls for the Tx and Rx units:
CU_START equ 0x0010
CU_RESUME equ 0x0020
CU_STATSADDR equ 0x0040
CU_SHOWSTATS equ 0x0050 ; Dump statistics counters.
CU_CMD_BASE equ 0x0060 ; Base address to add to add CU commands.
CU_DUMPSTATS equ 0x0070 ; Dump then reset stats counters.
RX_START equ 0x0001
RX_RESUME equ 0x0002
RX_ABORT equ 0x0004
RX_ADDR_LOAD equ 0x0006
RX_RESUMENR equ 0x0007
INT_MASK equ 0x0100
DRVR_INT equ 0x0200 ; Driver generated interrupt.
;***************************************************************************
; Function
; do_eeprom_cmd
;
; Description
; writes a cmd to the ethernet cards eeprom, by bit bashing
; cmd in ebx
; cmd length in ecx
; return in eax
;***************************************************************************
do_eeprom_cmd:
mov edx, [io_addr] ; We only require the value in dx
add dx, 14 ; the value SCBeeprom
mov ax, EE_ENB
out dx, ax
call delay_us
mov ax, 0x4803 ; EE_ENB | EE_SHIFT_CLK
out dx, ax
call delay_us
; dx holds ee_addr
; ecx holds count
; eax holds cmd
xor edi, edi ; this will be the receive data
dec_001:
mov esi, 1
dec ecx
shl esi, cl
inc ecx
and esi, ebx
mov eax, EE_WRITE_0 ; I am assuming this doesnt affect the flags..
cmp esi,0
jz dec_002
mov eax, EE_WRITE_1
dec_002:
out dx, ax
call delay_us
or ax, EE_SHIFT_CLK
out dx, ax
call delay_us
shl edi,1
in ax, dx
and ax, EE_DATA_READ
cmp ax,0
jz dec_003
inc edi
dec_003:
loop dec_001
mov ax, EE_ENB
out dx, ax
call delay_us
mov ax, 0x4800
out dx, ax
call delay_us
mov eax, edi
ret
;***************************************************************************
; Function
; I8255x_reset
; Description
; Place the chip (ie, the ethernet card) into a virgin state
; No inputs
; All registers destroyed
;
;***************************************************************************
I8255x_reset:
ret
;***************************************************************************
; Function
; I8255x_probe
; Description
; Searches for an ethernet card, enables it and clears the rx buffer
; If a card was found, it enables the ethernet -> TCPIP link
;
;***************************************************************************
I8255x_probe:
mov eax, [io_addr]
mov ebx, [pci_bus]
mov ecx, [pci_dev]
mov edx, 0x04 ; PCI_COMMAND
call pcibios_read_config_word
or ax, 0x05
mov ebx, [pci_bus]
mov ecx, [pci_dev]
mov edx, 0x04 ; PCI_COMMAND
call pcibios_write_config_word
mov ebx, 0x6000000
mov ecx, 27
call do_eeprom_cmd
and eax, 0xffe0000
cmp eax, 0xffe0000
je bige
mov ebx, 0x1800000
mov ecx, 0x40
jmp doread
bige:
mov ebx, 0x6000000
mov ecx, 0x100
doread:
; do-eeprom-cmd will destroy all registers
; we have eesize in ecx
; read_cmd in ebx
; Ignore full eeprom - just load the mac address
mov ecx, 0
drlp:
push ecx ; save count
push ebx
mov eax, ecx
shl eax, 16
or ebx, eax
mov ecx, 27
call do_eeprom_cmd
pop ebx
pop ecx
mov edx, ecx
shl edx, 2
mov esi, eeprom_data
add esi, edx
mov [esi], eax
inc ecx
cmp ecx, 16
jne drlp
; OK, we have the MAC address.
; Now reset the card
mov edx, [io_addr]
add dx, 8 ; SCBPort
xor eax, eax ; The reset cmd == 0
out dx, eax
mov esi, 10
call delay_ms ; Give the card time to warm up.
mov eax, lstats
mov edx, [io_addr]
add edx, 4 ; SCBPointer
out dx, eax
mov eax, 0x0140 ; INT_MASK | CU_STATSADDR
mov edx, [io_addr]
add edx, 2 ; SCBCmd
out dx, ax
call wait_for_cmd_done
mov eax, 0
mov edx, [io_addr]
add edx, 4 ; SCBPointer
out dx, eax
mov eax, 0x0106 ; INT_MASK | RX_ADDR_LOAD
mov edx, [io_addr]
add edx, 2 ; SCBCmd
out dx, ax
call wait_for_cmd_done
; build rxrd structure
mov ax, 0x0001
mov [rxfd_status], ax
mov ax, 0x0000
mov [rxfd_command], ax
mov eax, rxfd_status
mov [rxfd_link], eax
mov eax, Ether_buffer
mov [rxfd_rx_buf_addr], eax
mov ax, 0
mov [rxfd_count], ax
mov ax, 1528
mov [rxfd_size], ax
mov edx, [io_addr]
add edx, 4 ; SCBPointer
mov eax, rxfd_status
out dx, eax
mov edx, [io_addr]
add edx, 2 ; SCBCmd
mov ax, 0x0101 ; INT_MASK | RX_START
out dx, ax
call wait_for_cmd_done
; start the reciver
mov ax, 0
mov [rxfd_status], ax
mov ax, 0xc000
mov [rxfd_command], ax
mov edx, [io_addr]
add edx, 4 ; SCBPointer
mov eax, rxfd_status
out dx, eax
mov edx, [io_addr]
add edx, 2 ; SCBCmd
mov ax, 0x0101 ; INT_MASK | RX_START
out dx, ax
; Init TX Stuff
mov edx, [io_addr]
add edx, 4 ; SCBPointer
mov eax, 0
out dx, eax
mov edx, [io_addr]
add edx, 2 ; SCBCmd
mov ax, 0x0160 ; INT_MASK | CU_CMD_BASE
out dx, ax
call wait_for_cmd_done
; Set TX Base address
; First, set up confcmd values
mov ax, 2
mov [confcmd_command], ax
mov eax, txfd
mov [confcmd_link], eax
mov ax, 1
mov [txfd_command], ax ; CmdIASetup
mov ax, 0
mov [txfd_status], ax
mov eax, confcmd
mov [txfd_link], eax
; ETH_ALEN is 6 bytes
mov esi, eeprom_data
mov edi, node_addr
mov ecx, 3
drp000:
mov eax, [esi]
mov [edi], al
shr eax, 8
inc edi
mov [edi], al
inc edi
add esi, 4
loop drp000
; Hard code your MAC address into node_addr at this point,
; If you cannot read the MAC address from the eeprom in the previous step.
; You also have to write the mac address into txfd_tx_desc_addr, rather
; than taking data from eeprom_data
mov esi, eeprom_data
mov edi, txfd_tx_desc_addr
mov ecx, 3
drp001:
mov eax, [esi]
mov [edi], al
shr eax, 8
inc edi
mov [edi], al
inc edi
add esi, 4
loop drp001
mov esi, eeprom_data + (6 * 4)
mov eax, [esi]
shr eax, 8
and eax, 0x3f
cmp eax, 4 ; DP83840
je drp002
cmp eax, 10 ; DP83840A
je drp002
jmp drp003
drp002:
mov ebx, [esi]
and ebx, 0x1f
push ebx
mov ecx, 23
call mdio_read
pop ebx
or eax, 0x0422
mov ecx, 23
mov edx, eax
call mdio_write
drp003:
mov ax, 0x4002 ; Cmdsuspend | CmdConfigure
mov [confcmd_command], ax
mov ax, 0
mov [confcmd_status], ax
mov eax, txfd
mov [confcmd_link], eax
mov ebx, confcmd_data
mov al, 0x88 ; fifo of 8 each
mov [ebx + 1], al
mov al, 0
mov [ebx + 4], al
mov al, 0x80
mov [ebx + 5], al
mov al, 0x48
mov [ebx + 15], al
mov al, 0x80
mov [ebx + 19], al
mov al, 0x05
mov [ebx + 21], al
mov eax, txfd
mov edx, [io_addr]
add edx, 4 ; SCBPointer
out dx, eax
mov eax, 0x0110 ; INT_MASK | CU_START
mov edx, [io_addr]
add edx, 2 ; SCBCmd
out dx, ax
call wait_for_cmd_done
jmp skip
; wait for thing to start
drp004:
mov ax, [txfd_status]
cmp ax, 0
je drp004
skip:
; Indicate that we have successfully reset the card
mov eax, [pci_data]
mov [eth_status], eax
I8255x_exit:
ret
;***************************************************************************
; Function
; I8255x_poll
;
; Description
; Polls the ethernet card for a received packet
; Received data, if any, ends up in Ether_buffer
;
;***************************************************************************
I8255x_poll:
mov ax, 0 ; assume no data
mov [eth_rx_data_len], ax
mov ax, [rxfd_status]
cmp ax, 0
je i8p_exit
mov ax, 0
mov [rxfd_status], ax
mov ax, 0xc000
mov [rxfd_command], ax
mov edx, [io_addr]
add edx, 4 ; SCBPointer
mov eax, rxfd_status
out dx, eax
mov edx, [io_addr]
add edx, 2 ; SCBCmd
mov ax, 0x0101 ; INT_MASK | RX_START
out dx, ax
call wait_for_cmd_done
mov esi, rxfd_packet
mov edi, Ether_buffer
mov ecx, 1518
cld
rep movsb
mov ax, [rxfd_count]
and ax, 0x3fff
mov [eth_rx_data_len], ax
i8p_exit:
ret
;***************************************************************************
; Function
; I8255x_transmit
;
; Description
; Transmits a packet of data via the ethernet card
; Pointer to 48 bit destination address in edi
; Type of packet in bx
; size of packet in ecx
; pointer to packet data in esi
;
;***************************************************************************
I8255x_transmit:
mov [hdr_type], bx
mov eax, [edi]
mov [hdr_dst_addr], eax
mov ax, [edi+4]
mov [hdr_dst_addr+4], ax
mov eax, [node_addr]
mov [hdr_src_addr], eax
mov ax, [node_addr+4]
mov [hdr_src_addr+4], ax
mov edx, [io_addr]
in ax, dx
and ax, 0xfc00
out dx, ax
xor ax, ax
mov [txfd_status], ax
mov ax, 0x400C ; Cmdsuspend | CmdTx | CmdTxFlex
mov [txfd_command], ax
mov eax, txfd
mov [txfd_link], eax
mov eax, 0x02208000
mov [txfd_count], eax
mov eax, txfd_tx_buf_addr0
mov [txfd_tx_desc_addr], eax
mov eax, hdr
mov [txfd_tx_buf_addr0], eax
mov eax, 14 ; sizeof hdr
mov [txfd_tx_buf_size0], eax
; Copy the buffer address and size in
mov eax, esi
mov [txfd_tx_buf_addr1], eax
mov eax, ecx
mov [txfd_tx_buf_size1], eax
mov eax, txfd
mov edx, [io_addr]
add edx, 4 ; SCBPointer
out dx, eax
mov ax, 0x0110 ; INT_MASK | CU_START
mov edx, [io_addr]
add edx, 2 ; SCBCmd
out dx, ax
call wait_for_cmd_done
mov edx, [io_addr]
in ax, dx
I8t_001:
mov ax, [txfd_status]
cmp ax, 0
je I8t_001
mov edx, [io_addr]
in ax, dx
ret

View File

@ -0,0 +1,814 @@
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; PCNET32.INC ;;
;; ;;
;; Ethernet driver for Menuet OS ;;
;; ;;
;; Version 1.0 31 July 2004 ;;
;; ;;
;; This driver is based on the PCNet32 driver from ;;
;; the etherboot 5.0.6 project. The copyright statement is ;;
;; ;;
;; GNU GENERAL PUBLIC LICENSE ;;
;; Version 2, June 1991 ;;
;; ;;
;; remaining parts Copyright 2004 Jarek Pelczar, ;;
;; jpelczar@interia.pl ;;
;; ;;
;; See file COPYING for details ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;macro PutStr X
;{
; local .__xyz1
; local .__xyz2
; push esi
; mov esi,.__xyz1
; call sys_msg_board_str
; push eax
; mov eax,1
; call delay_hs
; pop eax
; jmp .__xyz2
;.__xyz1:
; db X
; db 13,10,0
;.__xyz2:
; pop esi
;}
PCNET32_PORT_AUI equ 0x00
PCNET32_PORT_10BT equ 0x01
PCNET32_PORT_GPSI equ 0x02
PCNET32_PORT_MII equ 0x03
PCNET32_PORT_PORTSEL equ 0x03
PCNET32_PORT_ASEL equ 0x04
PCNET32_PORT_100 equ 0x40
PCNET32_PORT_FD equ 0x80
PCNET32_DMA_MASK equ 0xffffffff
PCNET32_LOG_TX_BUFFERS equ 1
PCNET32_LOG_RX_BUFFERS equ 2
PCNET32_TX_RING_SIZE equ (1 shl PCNET32_LOG_TX_BUFFERS)
PCNET32_TX_RING_MOD_MASK equ (PCNET32_TX_RING_SIZE-1)
PCNET32_TX_RING_LEN_BITS equ 0
PCNET32_RX_RING_SIZE equ (1 shl PCNET32_LOG_RX_BUFFERS)
PCNET32_RX_RING_MOD_MASK equ (PCNET32_RX_RING_SIZE-1)
PCNET32_RX_RING_LEN_BITS equ (PCNET32_LOG_RX_BUFFERS shl 4)
PCNET32_PKT_BUF_SZ equ 1544
PCNET32_PKT_BUF_SZ_NEG equ 0xf9f8
pcnet32_txb equ (eth_data_start)
pcnet32_rxb equ ((pcnet32_txb+(PCNET32_PKT_BUF_SZ*PCNET32_TX_RING_SIZE)+0xf) and 0xfffffff0)
pcnet32_tx_ring equ ((pcnet32_rxb+(PCNET32_PKT_BUF_SZ*PCNET32_RX_RING_SIZE)+0xf) and 0xfffffff0)
pcnet32_rx_ring equ ((pcnet32_tx_ring+(16*PCNET32_TX_RING_SIZE)+0xf) and 0xfffffff0)
virtual at ((pcnet32_rx_ring+(16*PCNET32_RX_RING_SIZE)+0xf) and 0xfffffff0)
pcnet32_private:
.mode dw ?
.tlen_rlen dw ?
.phys_addr db ?,?,?,?,?,?
.reserved dw ?
.filter dd ?,?
.rx_ring dd ?
.tx_ring dd ?
.cur_rx dd ?
.cur_tx dd ?
.dirty_rx dd ?
.dirty_tx dd ?
.tx_full db ?
.options dd ?
.full_duplex db ?
.chip_version dd ?
.mii db ?
.ltint db ?
.dxsuflo db ?
.fset db ?
.fdx db ?
end virtual
virtual at 0
pcnet32_rx_head:
.base dd ?
.buf_length dw ?
.status dw ?
.msg_length dd ?
.reserved dd ?
end virtual
virtual at 0
pcnet32_tx_head:
.base dd ?
.length dw ?
.status dw ?
.misc dd ?
.reserved dd ?
end virtual
uglobal
pcnet32_access:
.read_csr dd ?
.write_csr dd ?
.read_bcr dd ?
.write_bcr dd ?
.read_rap dd ?
.write_rap dd ?
.reset dd ?
endg
iglobal
pcnet32_options_mapping:
dd PCNET32_PORT_ASEL ; 0 Auto-select
dd PCNET32_PORT_AUI ; 1 BNC/AUI
dd PCNET32_PORT_AUI ; 2 AUI/BNC
dd PCNET32_PORT_ASEL ; 3 not supported
dd PCNET32_PORT_10BT or PCNET32_PORT_FD ; 4 10baseT-FD
dd PCNET32_PORT_ASEL ; 5 not supported
dd PCNET32_PORT_ASEL ; 6 not supported
dd PCNET32_PORT_ASEL ; 7 not supported
dd PCNET32_PORT_ASEL ; 8 not supported
dd PCNET32_PORT_MII ; 9 MII 10baseT
dd PCNET32_PORT_MII or PCNET32_PORT_FD ; 10 MII 10baseT-FD
dd PCNET32_PORT_MII ; 11 MII (autosel)
dd PCNET32_PORT_10BT ; 12 10BaseT
dd PCNET32_PORT_MII or PCNET32_PORT_100 ; 13 MII 100BaseTx
dd PCNET32_PORT_MII or PCNET32_PORT_100 or PCNET32_PORT_FD ; 14 MII 100BaseTx-FD
dd PCNET32_PORT_ASEL ; 15 not supported
endg
PCNET32_WIO_RDP equ 0x10
PCNET32_WIO_RAP equ 0x12
PCNET32_WIO_RESET equ 0x14
PCNET32_WIO_BDP equ 0x16
PCNET32_DWIO_RDP equ 0x10
PCNET32_DWIO_RAP equ 0x14
PCNET32_DWIO_RESET equ 0x18
PCNET32_DWIO_BDP equ 0x1C
PCNET32_TOTAL_SIZE equ 0x20
; ebx - index
; return:
; eax - data
pcnet32_wio_read_csr:
push edx
lea edx,[ebp+PCNET32_WIO_RAP]
mov ax,bx
out dx,ax
lea edx,[ebp+PCNET32_WIO_RDP]
in ax,dx
and eax,0xffff
pop edx
ret
; eax - data
; ebx - index
pcnet32_wio_write_csr:
push edx
lea edx,[ebp+PCNET32_WIO_RAP]
xchg eax,ebx
out dx,ax
xchg eax,ebx
lea edx,[ebp+PCNET32_WIO_RDP]
out dx,ax
pop edx
ret
; ebx - index
; return:
; eax - data
pcnet32_wio_read_bcr:
push edx
lea edx,[ebp+PCNET32_WIO_RAP]
mov ax,bx
out dx,ax
lea edx,[ebp+PCNET32_WIO_BDP]
in ax,dx
and eax,0xffff
pop edx
ret
; eax - data
; ebx - index
pcnet32_wio_write_bcr:
push edx
lea edx,[ebp+PCNET32_WIO_RAP]
xchg eax,ebx
out dx,ax
xchg eax,ebx
lea edx,[ebp+PCNET32_WIO_BDP]
out dx,ax
pop edx
ret
pcnet32_wio_read_rap:
push edx
lea edx,[ebp+PCNET32_WIO_RAP]
in ax,dx
and eax,0xffff
pop edx
ret
; eax - val
pcnet32_wio_write_rap:
push edx
lea edx,[ebp+PCNET32_WIO_RAP]
out dx,ax
pop edx
ret
pcnet32_wio_reset:
push edx
push eax
lea edx,[ebp+PCNET32_WIO_RESET]
in ax,dx
pop eax
pop edx
ret
pcnet32_wio_check:
push edx
mov ax,88
lea edx,[ebp+PCNET32_WIO_RAP]
out dx,ax
nop
nop
in ax,dx
cmp ax,88
sete al
pop edx
ret
iglobal
pcnet32_wio:
dd pcnet32_wio_read_csr
dd pcnet32_wio_write_csr
dd pcnet32_wio_read_bcr
dd pcnet32_wio_write_bcr
dd pcnet32_wio_read_rap
dd pcnet32_wio_write_rap
dd pcnet32_wio_reset
endg
; ebx - index
; return:
; eax - data
pcnet32_dwio_read_csr:
push edx
lea edx,[ebp+PCNET32_DWIO_RAP]
mov ebx,eax
out dx,eax
lea edx,[ebp+PCNET32_DWIO_RDP]
in eax,dx
and eax,0xffff
pop edx
ret
; ebx - index
; eax - data
pcnet32_dwio_write_csr:
push edx
lea edx,[ebp+PCNET32_DWIO_RAP]
xchg eax,ebx
out dx,eax
lea edx,[ebp+PCNET32_DWIO_RDP]
xchg eax,ebx
out dx,eax
pop edx
ret
; ebx - index
; return:
; eax - data
pcnet32_dwio_read_bcr:
push edx
lea edx,[ebp+PCNET32_DWIO_RAP]
mov ebx,eax
out dx,eax
lea edx,[ebp+PCNET32_DWIO_BDP]
in eax,dx
and eax,0xffff
pop edx
ret
; ebx - index
; eax - data
pcnet32_dwio_write_bcr:
push edx
lea edx,[ebp+PCNET32_DWIO_RAP]
xchg eax,ebx
out dx,eax
lea edx,[ebp+PCNET32_DWIO_BDP]
xchg eax,ebx
out dx,eax
pop edx
ret
pcnet32_dwio_read_rap:
push edx
lea edx,[ebp+PCNET32_DWIO_RAP]
in eax,dx
and eax,0xffff
pop edx
ret
; eax - val
pcnet32_dwio_write_rap:
push edx
lea edx,[ebp+PCNET32_DWIO_RAP]
out dx,eax
pop edx
ret
pcnet32_dwio_reset:
push edx
push eax
lea edx,[ebp+PCNET32_DWIO_RESET]
in eax,dx
pop eax
pop edx
ret
pcnet32_dwio_check:
push edx
lea edx,[PCNET32_DWIO_RAP]
mov eax,88
out dx,eax
nop
nop
in eax,dx
and eax,0xffff
cmp eax,88
sete al
pop edx
ret
iglobal
pcnet32_dwio:
dd pcnet32_dwio_read_csr
dd pcnet32_dwio_write_csr
dd pcnet32_dwio_read_bcr
dd pcnet32_dwio_write_bcr
dd pcnet32_dwio_read_rap
dd pcnet32_dwio_write_rap
dd pcnet32_dwio_reset
endg
pcnet32_init_ring:
mov [pcnet32_private.tx_full],0
mov [pcnet32_private.cur_rx],0
mov [pcnet32_private.cur_tx],0
mov [pcnet32_private.dirty_rx],0
mov [pcnet32_private.dirty_tx],0
mov edi,pcnet32_rx_ring
mov ecx,PCNET32_RX_RING_SIZE
mov ebx,pcnet32_rxb
.rx_init:
mov [edi+pcnet32_rx_head.base],ebx
mov [edi+pcnet32_rx_head.buf_length],word PCNET32_PKT_BUF_SZ_NEG
mov [edi+pcnet32_rx_head.status],word 0x8000
add ebx,PCNET32_PKT_BUF_SZ
; inc ebx
add edi,16
loop .rx_init
mov edi,pcnet32_tx_ring
mov ecx,PCNET32_TX_RING_SIZE
.tx_init:
mov [edi+pcnet32_tx_head.base],dword 0
mov [edi+pcnet32_tx_head.status],word 0
add edi,16
loop .tx_init
mov [pcnet32_private.tlen_rlen],(PCNET32_TX_RING_LEN_BITS or PCNET32_RX_RING_LEN_BITS)
mov esi,node_addr
mov edi,pcnet32_private.phys_addr
cld
movsd
movsw
mov dword [pcnet32_private.rx_ring],pcnet32_rx_ring
mov dword [pcnet32_private.tx_ring],pcnet32_tx_ring
ret
pcnet32_reset:
; Reset PCNET32
mov ebp,[io_addr]
call dword [pcnet32_access.reset]
; set 32bit mode
mov ebx,20
mov eax,2
call dword [pcnet32_access.write_bcr]
; set/reset autoselect bit
mov ebx,2
call dword [pcnet32_access.read_bcr]
and eax,not 2
test [pcnet32_private.options],PCNET32_PORT_ASEL
jz .L1
or eax,2
.L1:
call dword [pcnet32_access.write_bcr]
; Handle full duplex setting
cmp byte [pcnet32_private.full_duplex],0
je .L2
mov ebx,9
call dword [pcnet32_access.read_bcr]
and eax,not 3
test [pcnet32_private.options],PCNET32_PORT_FD
jz .L3
or eax,1
cmp [pcnet32_private.options],PCNET32_PORT_FD or PCNET32_PORT_AUI
jne .L4
or eax,2
jmp .L4
.L3:
test [pcnet32_private.options],PCNET32_PORT_ASEL
jz .L4
cmp [pcnet32_private.chip_version],0x2627
jne .L4
or eax,3
.L4:
mov ebx,9
call dword [pcnet32_access.write_bcr]
.L2:
; set/reset GPSI bit
mov ebx,124
call dword [pcnet32_access.read_csr]
mov ecx,[pcnet32_private.options]
and ecx,PCNET32_PORT_PORTSEL
cmp ecx,PCNET32_PORT_GPSI
jne .L5
or eax,0x10
.L5:
call dword [pcnet32_access.write_csr]
cmp [pcnet32_private.mii],0
je .L6
test [pcnet32_private.options],PCNET32_PORT_ASEL
jnz .L6
mov ebx,32
call dword [pcnet32_access.read_bcr]
and eax,not 0x38
test [pcnet32_private.options],PCNET32_PORT_FD
jz .L7
or eax,0x10
.L7:
test [pcnet32_private.options],PCNET32_PORT_100
jz .L8
or eax,0x08
.L8:
call dword [pcnet32_access.write_bcr]
jmp .L9
.L6:
test [pcnet32_private.options],PCNET32_PORT_ASEL
jz .L9
mov ebx,32
; PutStr "ASEL, enable auto-negotiation"
call dword [pcnet32_access.read_bcr]
and eax,not 0x98
or eax,0x20
call dword [pcnet32_access.write_bcr]
.L9:
cmp [pcnet32_private.ltint],0
je .L10
mov ebx,5
call dword [pcnet32_access.read_csr]
or eax,(1 shl 14)
call dword [pcnet32_access.write_csr]
.L10:
mov eax,[pcnet32_private.options]
and eax,PCNET32_PORT_PORTSEL
shl eax,7
mov [pcnet32_private.mode],ax
mov [pcnet32_private.filter],dword 0xffffffff
mov [pcnet32_private.filter+4],dword 0xffffffff
call pcnet32_init_ring
mov ebx,1
mov eax,pcnet32_private
and eax,0xffff
call dword [pcnet32_access.write_csr]
mov eax,pcnet32_private
mov ebx,2
shr eax,16
call dword [pcnet32_access.write_csr]
mov ebx,4
mov eax,0x0915
call dword [pcnet32_access.write_csr]
mov ebx,0
mov eax,1
call dword [pcnet32_access.write_csr]
mov ecx,100
.L11:
xor ebx,ebx
call dword [pcnet32_access.read_csr]
test ax,0x100
jnz .L12
loop .L11
.L12:
; PutStr "hardware reset"
xor ebx,ebx
mov eax,0x0002
call dword [pcnet32_access.write_csr]
xor ebx,ebx
call dword [pcnet32_access.read_csr]
; PutStr "PCNET reset complete"
ret
pcnet32_adjust_pci_device:
;*******Get current setting************************
mov al, 2 ;read a word
mov bh, [pci_dev]
mov ah, [pci_bus]
mov bl, 0x04 ;from command Register
call pci_read_reg
;******see if its already set as bus master********
mov bx, ax
and bx,5
cmp bx,5
je pcnet32_adjust_pci_device_Latency
;******Make card a bus master*******
mov cx, ax ;value to write
mov bh, [pci_dev]
mov al, 2 ;write a word
or cx,5
mov ah, [pci_bus]
mov bl, 0x04 ;to command register
call pci_write_reg
;******Check latency setting***********
pcnet32_adjust_pci_device_Latency:
;*******Get current latency setting************************
; mov al, 1 ;read a byte
; mov bh, [pci_dev]
; mov ah, [pci_bus]
; mov bl, 0x0D ;from Lantency Timer Register
; call pci_read_reg
;******see if its aat least 64 clocks********
; cmp ax,64
; jge pcnet32_adjust_pci_device_Done
;******Set latency to 32 clocks*******
; mov cx, 64 ;value to write
; mov bh, [pci_dev]
; mov al, 1 ;write a byte
; mov ah, [pci_bus]
; mov bl, 0x0D ;to Lantency Timer Register
; call pci_write_reg
;******Check latency setting***********
pcnet32_adjust_pci_device_Done:
ret
pcnet32_probe:
mov ebp,[io_addr]
call pcnet32_wio_reset
xor ebx,ebx
call pcnet32_wio_read_csr
cmp eax,4
jne .try_dwio
call pcnet32_wio_check
and al,al
jz .try_dwio
; PutStr "Using WIO"
mov esi,pcnet32_wio
jmp .L1
.try_dwio:
call pcnet32_dwio_reset
xor ebx,ebx
call pcnet32_dwio_read_csr
cmp eax,4
jne .no_dev
call pcnet32_dwio_check
and al,al
jz .no_dev
; PutStr "Using DWIO"
mov esi,pcnet32_dwio
jmp .L1
.no_dev:
; PutStr "PCNET32 not found"
ret
.L1:
mov edi,pcnet32_access
mov ecx,7
cld
rep movsd
mov ebx,88
call dword [pcnet32_access.read_csr]
mov ecx,eax
mov ebx,89
call dword [pcnet32_access.read_csr]
shl eax,16
or eax,ecx
mov ecx,eax
and ecx,0xfff
cmp ecx,3
jne .no_dev
shr eax,12
and eax,0xffff
mov [pcnet32_private.chip_version],eax
; PutStr "PCNET32 chip version OK"
mov [pcnet32_private.fdx],0
mov [pcnet32_private.mii],0
mov [pcnet32_private.fset],0
mov [pcnet32_private.dxsuflo],0
mov [pcnet32_private.ltint],0
mov eax,[pcnet32_private.chip_version]
cmp eax,0x2420
je .L2
cmp eax,0x2430
je .L3
cmp eax,0x2621
je .L4
cmp eax,0x2623
je .L5
cmp eax,0x2624
je .L6
cmp eax,0x2625
je .L7
cmp eax,0x2626
je .L8
cmp eax,0x2627
je .L9
; PutStr "Invalid chip rev"
jmp .no_dev
.L2:
; PutStr "PCnet/PCI 79C970"
jmp .L10
.L3:
; PutStr "PCnet/PCI 79C970"
jmp .L10
.L4:
; PutStr "PCnet/PCI II 79C970A"
mov [pcnet32_private.fdx],1
jmp .L10
.L5:
; PutStr "PCnet/FAST 79C971"
mov [pcnet32_private.fdx],1
mov [pcnet32_private.mii],1
mov [pcnet32_private.fset],1
mov [pcnet32_private.ltint],1
jmp .L10
.L6:
; PutStr "PCnet/FAST+ 79C972"
mov [pcnet32_private.fdx],1
mov [pcnet32_private.mii],1
mov [pcnet32_private.fset],1
jmp .L10
.L7:
; PutStr "PCnet/FAST III 79C973"
mov [pcnet32_private.fdx],1
mov [pcnet32_private.mii],1
jmp .L10
.L8:
; PutStr "PCnet/Home 79C978"
mov [pcnet32_private.fdx],1
mov ebx,49
call dword [pcnet32_access.read_bcr]
call dword [pcnet32_access.write_bcr]
jmp .L10
.L9:
; PutStr "PCnet/FAST III 79C975"
mov [pcnet32_private.fdx],1
mov [pcnet32_private.mii],1
.L10:
cmp [pcnet32_private.fset],1
jne .L11
mov ebx,18
call dword [pcnet32_access.read_bcr]
or eax,0x800
call dword [pcnet32_access.write_bcr]
mov ebx,80
call dword [pcnet32_access.read_csr]
and eax,0xc00
or eax,0xc00
call dword [pcnet32_access.write_csr]
mov [pcnet32_private.dxsuflo],1
mov [pcnet32_private.ltint],1
.L11:
; read MAC
mov edi,node_addr
mov edx,ebp
mov ecx,6
.Lmac:
in al,dx
stosb
inc edx
loop .Lmac
; PutStr "MAC read"
call pcnet32_adjust_pci_device
; PutStr "PCI done"
mov eax,PCNET32_PORT_ASEL
mov [pcnet32_private.options],eax
mov [pcnet32_private.mode],word 0x0003
mov [pcnet32_private.tlen_rlen],word (PCNET32_TX_RING_LEN_BITS or PCNET32_RX_RING_LEN_BITS)
mov esi,node_addr
mov edi,pcnet32_private.phys_addr
cld
movsd
movsw
mov [pcnet32_private.filter],dword 0
mov [pcnet32_private.filter+4],dword 0
mov dword [pcnet32_private.rx_ring],pcnet32_rx_ring
mov dword [pcnet32_private.tx_ring],pcnet32_tx_ring
; PutStr "Switching to 32"
mov ebx,20
mov eax,2
call dword [pcnet32_access.write_bcr]
mov ebx,1
mov eax,(pcnet32_private and 0xffff)
call dword [pcnet32_access.write_csr]
mov ebx,2
mov eax,(pcnet32_private shr 16) and 0xffff
call dword [pcnet32_access.write_csr]
mov ebx,0
mov eax,1
call dword [pcnet32_access.write_csr]
mov esi,1
call delay_ms
call pcnet32_reset
mov eax, [pci_data]
mov [eth_status], eax
ret
pcnet32_poll:
xor eax,eax
mov [eth_rx_data_len],ax
mov eax,[pcnet32_private.cur_rx]
and eax,PCNET32_RX_RING_MOD_MASK
mov ebx,eax
imul esi,eax,PCNET32_PKT_BUF_SZ
add esi,pcnet32_rxb
shl ebx,4
add ebx,pcnet32_rx_ring
mov cx,[ebx+pcnet32_rx_head.status]
test cx,0x8000
jnz .L1
cmp ch,3
jne .L1
; PutStr "PCNETRX"
mov ecx,[ebx+pcnet32_rx_head.msg_length]
and ecx,0xfff
sub ecx,4
mov [eth_rx_data_len],cx
push ecx
shr ecx,2
mov edi,Ether_buffer
cld
rep movsd
pop ecx
and ecx,3
rep movsb
mov [ebx+pcnet32_rx_head.buf_length],word PCNET32_PKT_BUF_SZ_NEG
or [ebx+pcnet32_rx_head.status],word 0x8000
inc [pcnet32_private.cur_rx]
.L1:
ret
; Pointer to 48 bit destination address in edi
; Type of packet in bx
; size of packet in ecx
; pointer to packet data in esi
pcnet32_xmit:
push edi
push esi
push ebx
push ecx
; PutStr "PCNETTX"
mov esi,edi
mov edi,[pcnet32_private.cur_tx]
imul edi,PCNET32_PKT_BUF_SZ
add edi,pcnet32_txb ; edi=ptxb
mov eax,edi
cld ; copy MAC
movsd
movsw
mov esi,node_addr
cld
movsd
movsw
mov [edi],bx
add edi,2
mov esi,[esp+8]
mov ecx,[esp]
push ecx
shr ecx,2
cld
rep movsd
pop ecx
and ecx,3
rep movsb
; mov ecx,[esp]
; add ecx,14 ; ETH_HLEN
; xor eax,eax
; pad to min length (60=ETH_ZLEN)
; cmp ecx,60
; jae .L1
; sub ecx,60
; cld
; rep stosb
;.L1:
mov edi,pcnet32_tx_ring+0 ; entry=0
mov ecx,[esp]
add ecx,14
cmp cx,60
jae .L1
mov cx,60
.L1:
neg cx
mov [edi+pcnet32_tx_head.length],cx
mov [edi+pcnet32_tx_head.misc],dword 0
mov [edi+pcnet32_tx_head.base],eax
mov [edi+pcnet32_tx_head.status],word 0x8300
; trigger an immediate send poll
mov ebx,0
mov eax,0x0008 ; 0x0048
mov ebp,[io_addr]
call dword [pcnet32_access.write_csr]
mov dword [pcnet32_private.cur_tx],0
; wait for TX to complete
mov ecx,[timer_ticks];[0xfdf0]
add ecx,100
.L2:
mov ax,[edi+pcnet32_tx_head.status]
test ax,0x8000
jz .L3
cmp ecx,[timer_ticks];[0xfdf0]
jb .L4
mov esi,10
call delay_ms
jnz .L2
.L4:
; PutStr "PCNET: Send timeout"
.L3:
mov dword [edi+pcnet32_tx_head.base],0
pop ecx
pop ebx
pop esi
pop edi
ret

View File

@ -0,0 +1,955 @@
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; RTL8029.INC ;;
;; ;;
;; Ethernet driver for Menuet OS ;;
;; ;;
;; Version 0.2 31 July 2002 ;;
;; ;;
;; This driver is based on the ns8390 driver from ;;
;; the etherboot 5.0.6 project. The copyright statement is ;;
;; ;;
;; GNU GENERAL PUBLIC LICENSE ;;
;; Version 2, June 1991 ;;
;; ;;
;; remaining parts Copyright 2002 Mike Hibbett, ;;
;; mikeh@oceanfree.net ;;
;; ;;
;; See file COPYING for details ;;
;; ;;
;; While this implementation handles only PCI bus RTL8029 ;;
;; hardware, it can be easily adapted to other NE2000 clone ;;
;; products. I just dont have any to try! ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;********************************************************************
; Interface
; rtl8029_reset
; rtl8029_probe
; rtl8029_poll
; rtl8029_transmit
;
;********************************************************************
;**************************************************************************
; 8390 Register Definitions
;**************************************************************************
D8390_P0_COMMAND equ 0x00
D8390_P0_PSTART equ 0x01
D8390_P0_PSTOP equ 0x02
D8390_P0_BOUND equ 0x03
D8390_P0_TSR equ 0x04
D8390_P0_TPSR equ 0x04
D8390_P0_TBCR0 equ 0x05
D8390_P0_TBCR1 equ 0x06
D8390_P0_ISR equ 0x07
D8390_P0_RSAR0 equ 0x08
D8390_P0_RSAR1 equ 0x09
D8390_P0_RBCR0 equ 0x0A
D8390_P0_RBCR1 equ 0x0B
D8390_P0_RSR equ 0x0C
D8390_P0_RCR equ 0x0C
D8390_P0_TCR equ 0x0D
D8390_P0_DCR equ 0x0E
D8390_P0_IMR equ 0x0F
D8390_P1_COMMAND equ 0x00
D8390_P1_PAR0 equ 0x01
D8390_P1_PAR1 equ 0x02
D8390_P1_PAR2 equ 0x03
D8390_P1_PAR3 equ 0x04
D8390_P1_PAR4 equ 0x05
D8390_P1_PAR5 equ 0x06
D8390_P1_CURR equ 0x07
D8390_P1_MAR0 equ 0x08
D8390_COMMAND_PS0 equ 0x0 ; Page 0 select
D8390_COMMAND_PS1 equ 0x40 ; Page 1 select
D8390_COMMAND_PS2 equ 0x80 ; Page 2 select
D8390_COMMAND_RD2 equ 0x20 ; Remote DMA control
D8390_COMMAND_RD1 equ 0x10
D8390_COMMAND_RD0 equ 0x08
D8390_COMMAND_TXP equ 0x04 ; transmit packet
D8390_COMMAND_STA equ 0x02 ; start
D8390_COMMAND_STP equ 0x01 ; stop
D8390_COMMAND_RD2_STA equ 0x22
D8390_COMMAND_RD2_STP equ 0x21
D8390_COMMAND_RD1_STA equ 0x12
D8390_COMMAND_RD0_STA equ 0x0A
D8390_COMMAND_PS0_RD2_STP equ 0x21
D8390_COMMAND_PS1_RD2_STP equ 0x61
D8390_COMMAND_PS0_RD2_STA equ 0x22
D8390_COMMAND_PS0_TXP_RD2_STA equ 0x26
D8390_RCR_MON equ 0x20 ; monitor mode
D8390_DCR_FT1 equ 0x40
D8390_DCR_LS equ 0x08 ; Loopback select
D8390_DCR_WTS equ 0x01 ; Word transfer select
D8390_DCR_FT1_LS equ 0x48
D8390_DCR_WTS_FT1_LS equ 0x49
D8390_ISR_PRX equ 0x01 ; successful recv
D8390_ISR_PTX equ 0x02 ; successful xmit
D8390_ISR_RXE equ 0x04 ; receive error
D8390_ISR_TXE equ 0x08 ; transmit error
D8390_ISR_OVW equ 0x10 ; Overflow
D8390_ISR_CNT equ 0x20 ; Counter overflow
D8390_ISR_RDC equ 0x40 ; Remote DMA complete
D8390_ISR_RST equ 0x80 ; reset
D8390_RSTAT_PRX equ 0x01 ; successful recv
D8390_RSTAT_CRC equ 0x02 ; CRC error
D8390_RSTAT_FAE equ 0x04 ; Frame alignment error
D8390_RSTAT_OVER equ 0x08 ; FIFO overrun
D8390_TXBUF_SIZE equ 6
D8390_RXBUF_END equ 32
D8390_PAGE_SIZE equ 256
ETH_ALEN equ 6
ETH_HLEN equ 14
ETH_ZLEN equ 60
ETH_FRAME_LEN equ 1514
FLAG_PIO equ 0x01
FLAG_16BIT equ 0x02
ASIC_PIO equ 0
VENDOR_NONE equ 0
VENDOR_WD equ 1
VENDOR_NOVELL equ 2
VENDOR_3COM equ 3
NE_ASIC_OFFSET equ 0x10
NE_RESET equ 0x0F ; Used to reset card
NE_DATA equ 0x00 ; Used to read/write NIC mem
MEM_8192 equ 32
MEM_16384 equ 64
MEM_32768 equ 128
ISA_MAX_ADDR equ 0x400
uglobal
eth_flags: db 0
eth_vendor: db 0
eth_nic_base: dw 0
eth_asic_base: dw 0
eth_memsize: db 0
eth_rx_start: db 0
eth_tx_start: db 0
eth_bmem: dd 0
eth_rmem: dd 0
romdata: db 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0
endg
iglobal
test_data: db 'NE*000 memory',0
test_buffer: db ' ',0
endg
uglobal
eth_type: dw 0
pkthdr: db 0,0,0,0 ; status, next, (short) len
pktoff: dw 0
eth_rx_data_ptr: dd 0
eth_tmp_len: dw 0
endg
;***************************************************************************
; Function
; eth_pio_read
;
; Description
; Read a frame from the ethernet card via Programmed I/O
; src in ebx
; cnt in ecx
; dst in edi
;***************************************************************************
eth_pio_read:
mov al, [eth_flags]
and al, FLAG_16BIT
cmp al, 0
je epr_001
inc ecx
and ecx, 0xFFFFFFFE
epr_001:
mov al, D8390_COMMAND_RD2_STA
mov dx, [eth_nic_base]
add dx, D8390_P0_COMMAND
out dx, al
mov al, cl
mov dx, [eth_nic_base]
add dx, D8390_P0_RBCR0
out dx, al
mov al, ch
mov dx, [eth_nic_base]
add dx, D8390_P0_RBCR1
out dx, al
mov al, bl
mov dx, [eth_nic_base]
add dx, D8390_P0_RSAR0
out dx, al
mov al, bh
mov dx, [eth_nic_base]
add dx, D8390_P0_RSAR1
out dx, al
mov al, D8390_COMMAND_RD0_STA
mov dx, [eth_nic_base]
add dx, D8390_P0_COMMAND
out dx, al
mov dx, [eth_asic_base]
add dx, ASIC_PIO
mov al, [eth_flags]
and al, FLAG_16BIT
cmp al, 0
je epr_003
shr ecx, 1
epr_002:
; 2 bytes at a time
in ax, dx
mov [edi], ax
add edi, 2
loop epr_002
ret
epr_003:
; 1 byte at a time
in al, dx
mov [edi], al
inc edi
loop epr_003
ret
;***************************************************************************
; Function
; eth_pio_write
;
; Description
; writes a frame to the ethernet card via Programmed I/O
; dst in ebx
; cnt in ecx
; src in esi
;***************************************************************************
eth_pio_write:
mov al, [eth_flags]
and al, FLAG_16BIT
cmp al, 0
je epw_001
inc ecx
and ecx, 0xFFFFFFFE
epw_001:
mov al, D8390_COMMAND_RD2_STA
mov dx, [eth_nic_base]
add dx, D8390_P0_COMMAND
out dx, al
mov al, D8390_ISR_RDC
mov dx, [eth_nic_base]
add dx, D8390_P0_ISR
out dx, al
mov al, cl
mov dx, [eth_nic_base]
add dx, D8390_P0_RBCR0
out dx, al
mov al, ch
mov dx, [eth_nic_base]
add dx, D8390_P0_RBCR1
out dx, al
mov al, bl
mov dx, [eth_nic_base]
add dx, D8390_P0_RSAR0
out dx, al
mov al, bh
mov dx, [eth_nic_base]
add dx, D8390_P0_RSAR1
out dx, al
mov al, D8390_COMMAND_RD1_STA
mov dx, [eth_nic_base]
add dx, D8390_P0_COMMAND
out dx, al
mov dx, [eth_asic_base]
add dx, ASIC_PIO
mov al, [eth_flags]
and al, FLAG_16BIT
cmp al, 0
je epw_003
shr ecx, 1
epw_002:
; 2 bytes at a time
mov ax, [esi]
add esi, 2
out dx, ax
loop epw_002
jmp epw_004
epw_003:
; 1 byte at a time
mov al, [esi]
inc esi
out dx, al
loop epw_003
epw_004:
mov dx, [eth_nic_base]
add dx, D8390_P0_ISR
epw_005:
in al, dx
and al, D8390_ISR_RDC
cmp al, D8390_ISR_RDC
jne epw_005
ret
;***************************************************************************
; Function
; rtl8029_reset
; Description
; Place the chip (ie, the ethernet card) into a virgin state
; No inputs
; All registers destroyed
;
;***************************************************************************
rtl8029_reset:
mov bx, [eth_nic_base]
mov dx, bx
add dx, D8390_P0_COMMAND
mov al, D8390_COMMAND_PS0_RD2_STP
out dx, al
mov dx, bx
add dx, D8390_P0_DCR
mov al, [eth_flags]
and al, FLAG_16BIT
cmp al, FLAG_16BIT
jne nsr_001
mov al, 0x49
jmp nsr_002
nsr_001:
mov al, 0x48
nsr_002:
out dx, al
xor al, al
mov dx, bx
add dx, D8390_P0_RBCR0
out dx, al
mov dx, bx
add dx, D8390_P0_RBCR1
out dx, al
mov dx, bx
add dx, D8390_P0_RCR
mov al, 0x20
out dx, al
mov dx, bx
add dx, D8390_P0_TCR
mov al, 2
out dx, al
mov dx, bx
add dx, D8390_P0_TPSR
mov al, [eth_tx_start]
out dx, al
mov dx, bx
add dx, D8390_P0_PSTART
mov al, [eth_rx_start]
out dx, al
mov dx, bx
add dx, D8390_P0_PSTOP
mov al, [eth_memsize]
out dx, al
mov dx, bx
add dx, D8390_P0_BOUND
mov al, [eth_memsize]
dec al
out dx, al
mov dx, bx
add dx, D8390_P0_ISR
mov al, 0xff
out dx, al
mov dx, bx
add dx, D8390_P0_IMR
xor al, al
out dx, al
mov dx, bx
add dx, D8390_P0_COMMAND
mov al, D8390_COMMAND_PS1_RD2_STP
out dx, al
mov dx, bx
add dx, D8390_P1_PAR0
mov esi, node_addr
mov ecx, ETH_ALEN
nsr_003:
mov al, [esi]
out dx, al
inc esi
inc dx
loop nsr_003
mov dx, bx
add dx, D8390_P1_MAR0
mov ecx, ETH_ALEN
mov al, 0xff
nsr_004:
out dx, al
inc dx
loop nsr_004
mov dx, bx
add dx, D8390_P1_CURR
mov al, [eth_rx_start]
out dx, al
mov dx, bx
add dx, D8390_P0_COMMAND
mov al, D8390_COMMAND_PS0_RD2_STA
out dx, al
mov dx, bx
add dx, D8390_P0_ISR
mov al, 0xff
out dx, al
mov dx, bx
add dx, D8390_P0_TCR
mov al, 0
out dx, al
mov dx, bx
add dx, D8390_P0_RCR
mov al, 4
out dx, al
ret
;***************************************************************************
; Function
; rtl8029_probe
; Description
; Searches for an ethernet card, enables it and clears the rx buffer
; If a card was found, it enables the ethernet -> TCPIP link
;
;***************************************************************************
rtl8029_probe:
mov eax, [io_addr]
mov [eth_nic_base], ax ; The IO address space is 16 bit only
mov al, VENDOR_NONE
mov [eth_vendor], al
mov al, [eth_vendor]
cmp al, VENDOR_NONE
jne ep_check_have_vendor
xor eax, eax
mov [eth_bmem], eax
mov al, FLAG_PIO
mov [eth_flags], al
mov ax, [eth_nic_base]
add ax, NE_ASIC_OFFSET
mov [eth_asic_base], ax
mov al, MEM_16384
mov [eth_memsize], al
mov al, 32
mov [eth_tx_start], al
add al, D8390_TXBUF_SIZE
mov [eth_rx_start], al
mov dx, [eth_asic_base]
add dx, NE_RESET
in al, dx
out dx, al
in al, 0x84
mov bx, [eth_nic_base]
mov dx, bx
add dx, D8390_P0_COMMAND
mov al, D8390_COMMAND_RD2_STP
out dx, al
mov dx, bx
add dx, D8390_P0_RCR
mov al, D8390_RCR_MON
out dx, al
mov dx, bx
add dx, D8390_P0_DCR
mov al, D8390_DCR_FT1_LS
out dx, al
mov dx, bx
add dx, D8390_P0_PSTART
mov al, MEM_8192
out dx, al
mov dx, bx
add dx, D8390_P0_PSTOP
mov al, MEM_16384
out dx, al
mov esi, test_data
mov ebx, 8192
mov ecx, 14
call eth_pio_write
mov ebx, 8192
mov ecx, 14
mov edi, test_buffer
call eth_pio_read
mov esi, test_buffer
mov edi, test_data
mov ecx, 13
cld
rep cmpsb
je ep_set_vendor
mov al, [eth_flags]
or al, FLAG_16BIT
mov [eth_flags], al
mov al, MEM_32768
mov [eth_memsize], al
mov al, 64
mov [eth_tx_start], al
add al, D8390_TXBUF_SIZE
mov [eth_rx_start], al
mov bx, [eth_nic_base]
mov dx, bx
add dx, D8390_P0_DCR
mov al, D8390_DCR_WTS_FT1_LS
out dx, al
mov dx, bx
add dx, D8390_P0_PSTART
mov al, MEM_16384
out dx, al
mov dx, bx
add dx, D8390_P0_PSTOP
mov al, MEM_32768
out dx, al
mov esi, test_data
mov ebx, 16384
mov ecx, 14
call eth_pio_write
mov ebx, 16384
mov ecx, 14
mov edi, test_buffer
call eth_pio_read
mov esi, test_buffer
mov edi, test_data
mov ecx, 13
cld
rep cmpsb
ep_set_vendor:
; this bit is odd - probably left over from my hacking
mov ax, [eth_nic_base]
cmp ax, 0
je rtl8029_exit
cmp ax, ISA_MAX_ADDR
jbe ep_001
mov al, [eth_flags]
or al, FLAG_16BIT
mov [eth_flags], al
ep_001:
mov al, VENDOR_NOVELL
mov [eth_vendor], al
mov ebx, 0
mov ecx, 16
mov edi, romdata
call eth_pio_read
mov ecx, ETH_ALEN
mov esi, romdata
mov edi, node_addr
mov bl, [eth_flags]
and bl, FLAG_16BIT
ep_002:
mov al, [esi]
mov [edi], al
inc edi
inc esi
cmp bl, FLAG_16BIT
jne ep_003
inc esi
ep_003:
loop ep_002
ep_check_have_vendor:
mov al, [eth_vendor]
cmp al, VENDOR_NONE
je rtl8029_exit
cmp al, VENDOR_3COM
je ep_reset_card
mov eax, [eth_bmem]
mov [eth_rmem], eax
ep_reset_card:
; Reset the card
call rtl8029_reset
; Indicate that we have successfully reset the card
mov eax, [pci_data]
mov [eth_status], eax
rtl8029_exit:
ret
;***************************************************************************
; Function
; rtl8029_poll
;
; Description
; Polls the ethernet card for a received packet
; Received data, if any, ends up in Ether_buffer
;
;***************************************************************************
rtl8029_poll:
mov eax, Ether_buffer
mov [eth_rx_data_ptr], eax
mov bx, [eth_nic_base]
mov dx, bx
add dx, D8390_P0_RSR
in al, dx
and al, D8390_RSTAT_PRX
cmp al, D8390_RSTAT_PRX
jne nsp_exit
mov dx, bx
add dx, D8390_P0_BOUND
in al, dx
inc al
cmp al, [eth_memsize]
jb nsp_001
mov al, [eth_rx_start]
nsp_001:
mov ch, al
mov dx, bx
add dx, D8390_P0_COMMAND
mov al, D8390_COMMAND_PS1
out dx, al
mov dx, bx
add dx, D8390_P1_CURR
in al, dx ; get current page
mov cl, al
mov dx, bx
add dx, D8390_P0_COMMAND
mov al, D8390_COMMAND_PS0
out dx, al
cmp cl, [eth_memsize]
jb nsp_002
mov cl, [eth_rx_start]
nsp_002:
cmp cl, ch
je nsp_exit
xor ax, ax
mov ah, ch
mov [pktoff], ax
mov al, [eth_flags]
and al, FLAG_PIO
cmp al, FLAG_PIO
jne nsp_003
movzx ebx, word [pktoff]
mov edi, pkthdr
mov ecx, 4
call eth_pio_read
jmp nsp_004
nsp_003:
mov edi, [eth_rmem]
movzx eax, word [pktoff]
add edi, eax
mov eax, [edi]
mov [pkthdr], eax
nsp_004:
mov ax, [pktoff]
add ax, 4
mov [pktoff], ax
mov ax, [pkthdr + 2]
sub ax, 4
mov [eth_tmp_len], ax
cmp ax, ETH_ZLEN
jb nsp_exit
cmp ax, ETH_FRAME_LEN
ja nsp_exit
mov al, [pkthdr]
and al, D8390_RSTAT_PRX
cmp al, D8390_RSTAT_PRX
jne nsp_exit
; Right, we can now get the data
mov ax, [eth_tmp_len]
mov [eth_rx_data_len], ax
xor ebx, ebx
mov bh, [eth_memsize]
sub bx, [pktoff]
cmp [eth_tmp_len], bx
jbe nsp_005
mov al, [eth_flags]
and al, FLAG_PIO
cmp al, FLAG_PIO
jne nsp_006
push ebx
mov ecx, ebx
xor ebx, ebx
mov bx, [pktoff]
mov edi, [eth_rx_data_ptr]
call eth_pio_read
pop ebx
jmp nsp_007
nsp_006:
; Not implemented, as we are using PIO mode on this card
nsp_007:
xor ax, ax
mov ah, [eth_rx_start]
mov [pktoff], ax
mov eax, [eth_rx_data_ptr]
add eax, ebx
mov [eth_rx_data_ptr], eax
mov ax, [eth_tmp_len]
sub ax, bx
mov [eth_tmp_len], ax
nsp_005:
mov al, [eth_flags]
and al, FLAG_PIO
cmp al, FLAG_PIO
jne nsp_008
xor ebx, ebx
mov bx, [pktoff]
xor ecx, ecx
mov cx, [eth_tmp_len]
mov edi, [eth_rx_data_ptr]
call eth_pio_read
jmp nsp_009
nsp_008:
; Not implemented, as we are using PIO mode on this card
nsp_009:
mov al, [pkthdr+1]
cmp al, [eth_rx_start]
jne nsp_010
mov al, [eth_memsize]
nsp_010:
mov dx, [eth_nic_base]
add dx, D8390_P0_BOUND
dec al
out dx, al
nsp_exit:
ret
;***************************************************************************
; Function
; rtl8029_transmit
;
; Description
; Transmits a packet of data via the ethernet card
; Pointer to 48 bit destination address in edi
; Type of packet in bx
; size of packet in ecx
; pointer to packet data in esi
;
;***************************************************************************
rtl8029_transmit:
mov [eth_type], bx
pusha
mov esi, edi
xor bx, bx
mov bh, [eth_tx_start]
mov ecx, ETH_ALEN
call eth_pio_write
mov esi, node_addr
xor bx, bx
mov bh, [eth_tx_start]
add bx, ETH_ALEN
mov ecx, ETH_ALEN
call eth_pio_write
mov esi, eth_type
xor bx, bx
mov bh, [eth_tx_start]
add bx, ETH_ALEN
add bx, ETH_ALEN
mov ecx, 2
call eth_pio_write
popa
xor bx, bx
mov bh, [eth_tx_start]
add bx, ETH_HLEN
push ecx
call eth_pio_write
pop ecx
add ecx, ETH_HLEN
cmp ecx, ETH_ZLEN
jae nst_001
mov ecx, ETH_ZLEN
nst_001:
push ecx
mov bx, [eth_nic_base]
mov dx, bx
add dx, D8390_P0_COMMAND
mov al, D8390_COMMAND_PS0_RD2_STA
out dx, al
mov dx, bx
add dx, D8390_P0_TPSR
mov al, [eth_tx_start]
out dx, al
pop ecx
mov dx, bx
add dx, D8390_P0_TBCR0
mov al, cl
out dx, al
mov dx, bx
add dx, D8390_P0_TBCR1
mov al, ch
out dx, al
mov dx, bx
add dx, D8390_P0_COMMAND
mov al, D8390_COMMAND_PS0_TXP_RD2_STA
out dx, al
ret

View File

@ -0,0 +1,595 @@
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; RTL8139.INC ;;
;; ;;
;; Ethernet driver for Menuet OS ;;
;; ;;
;; Version 0.2 11 August 2003 ;;
;; ;;
;; Driver for chips of RealTek 8139 family ;;
;; References: ;;
;; www.realtek.com.hw - data sheets ;;
;; rtl8139.c - linux driver ;;
;; 8139too.c - linux driver ;;
;; ethernet driver template by Mike Hibbett ;;
;; ;;
;; The copyright statement is ;;
;; ;;
;; GNU GENERAL PUBLIC LICENSE ;;
;; Version 2, June 1991 ;;
;; ;;
;; Copyright 2003 Endre Kozma, ;;
;; endre.kozma@axelero.hu ;;
;; ;;
;; See file COPYING for details ;;
;; ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
ETH_ALEN equ 6
ETH_HLEN equ (2 * ETH_ALEN + 2)
ETH_ZLEN equ 60 ; 60 + 4bytes auto payload for
; mininmum 64bytes frame length
PCI_REG_COMMAND equ 0x04 ; command register
PCI_BIT_PIO equ 0 ; bit0: io space control
PCI_BIT_MMIO equ 1 ; bit1: memory space control
PCI_BIT_MASTER equ 2 ; bit2: device acts as a PCI master
RTL8139_REG_MAR0 equ 0x08 ; multicast filter register 0
RTL8139_REG_MAR4 equ 0x0c ; multicast filter register 4
RTL8139_REG_TSD0 equ 0x10 ; transmit status of descriptor
RTL8139_REG_TSAD0 equ 0x20 ; transmit start address of descriptor
RTL8139_REG_RBSTART equ 0x30 ; RxBuffer start address
RTL8139_REG_COMMAND equ 0x37 ; command register
RTL8139_REG_CAPR equ 0x38 ; current address of packet read
RTL8139_REG_IMR equ 0x3c ; interrupt mask register
RTL8139_REG_ISR equ 0x3e ; interrupt status register
RTL8139_REG_TXCONFIG equ 0x40 ; transmit configuration register
RTL8139_REG_TXCONFIG_0 equ 0x40 ; transmit configuration register 0
RTL8139_REG_TXCONFIG_1 equ 0x41 ; transmit configuration register 1
RTL8139_REG_TXCONFIG_2 equ 0x42 ; transmit configuration register 2
RTL8139_REG_TXCONFIG_3 equ 0x43 ; transmit configuration register 3
RTL8139_REG_RXCONFIG equ 0x44 ; receive configuration register 0
RTL8139_REG_RXCONFIG_0 equ 0x44 ; receive configuration register 0
RTL8139_REG_RXCONFIG_1 equ 0x45 ; receive configuration register 1
RTL8139_REG_RXCONFIG_2 equ 0x46 ; receive configuration register 2
RTL8139_REG_RXCONFIG_3 equ 0x47 ; receive configuration register 3
RTL8139_REG_MPC equ 0x4c ; missed packet counter
RTL8139_REG_9346CR equ 0x50 ; serial eeprom 93C46 command register
RTL8139_REG_CONFIG1 equ 0x52 ; configuration register 1
RTL8139_REG_CONFIG4 equ 0x5a ; configuration register 4
RTL8139_REG_HLTCLK equ 0x5b ; undocumented halt clock register
RTL8139_REG_BMCR equ 0x62 ; basic mode control register
RTL8139_REG_ANAR equ 0x66 ; auto negotiation advertisement register
; 5.1 packet header
RTL8139_BIT_RUNT equ 4 ; total packet length < 64 bytes
RTL8139_BIT_LONG equ 3 ; total packet length > 4k
RTL8139_BIT_CRC equ 2 ; crc error occured
RTL8139_BIT_FAE equ 1 ; frame alignment error occured
RTL8139_BIT_ROK equ 0 ; received packet is ok
; 5.4 command register
RTL8139_BIT_RST equ 4 ; reset bit
RTL8139_BIT_RE equ 3 ; receiver enabled
RTL8139_BIT_TE equ 2 ; transmitter enabled
RTL8139_BIT_BUFE equ 0 ; rx buffer is empty, no packet stored
; 5.6 interrupt status register
RTL8139_BIT_ISR_TOK equ 2 ; transmit ok
RTL8139_BIT_ISR_RER equ 1 ; receive error interrupt
RTL8139_BIT_ISR_ROK equ 0 ; receive ok
; 5.7 transmit configyration register
RTL8139_BIT_TX_MXDMA equ 8 ; Max DMA burst size per Tx DMA burst
RTL8139_BIT_TXRR equ 4 ; Tx Retry count 16+(TXRR*16)
; 5.8 receive configuration register
RTL8139_BIT_RXFTH equ 13 ; Rx fifo threshold
RTL8139_BIT_RBLEN equ 11 ; Ring buffer length indicator
RTL8139_BIT_RX_MXDMA equ 8 ; Max DMA burst size per Rx DMA burst
RTL8139_BIT_NOWRAP equ 7 ; transfered data wrapping
RTL8139_BIT_9356SEL equ 6 ; eeprom selector 9346/9356
RTL8139_BIT_AER equ 5 ; accept error packets
RTL8139_BIT_AR equ 4 ; accept runt packets
RTL8139_BIT_AB equ 3 ; accept broadcast packets
RTL8139_BIT_AM equ 2 ; accept multicast packets
RTL8139_BIT_APM equ 1 ; accept physical match packets
RTL8139_BIT_AAP equ 0 ; accept all packets
; 5.9 93C46/93C56 command register
RTL8139_BIT_93C46_EEM1 equ 7 ; RTL8139 eeprom operating mode1
RTL8139_BIT_93C46_EEM0 equ 6 ; RTL8139 eeprom operating mode0
RTL8139_BIT_93C46_EECS equ 3 ; chip select
RTL8139_BIT_93C46_EESK equ 2 ; serial data clock
RTL8139_BIT_93C46_EEDI equ 1 ; serial data input
RTL8139_BIT_93C46_EEDO equ 0 ; serial data output
; 5.11 configuration register 1
RTL8139_BIT_LWACT equ 4 ; see RTL8139_REG_CONFIG1
RTL8139_BIT_SLEEP equ 1 ; sleep bit at older chips
RTL8139_BIT_PWRDWN equ 0 ; power down bit at older chips
RTL8139_BIT_PMEn equ 0 ; power management enabled
; 5.14 configuration register 4
RTL8139_BIT_LWPTN equ 2 ; see RTL8139_REG_CONFIG4
; 6.2 transmit status register
RTL8139_BIT_ERTXTH equ 16 ; early TX threshold
RTL8139_BIT_TOK equ 15 ; transmit ok
RTL8139_BIT_OWN equ 13 ; tx DMA operation is completed
; 6.18 basic mode control register
RTL8139_BIT_ANE equ 12 ; auto negotiation enable
; 6.20 auto negotiation advertisement register
RTL8139_BIT_TXFD equ 8 ; 100base-T full duplex
RTL8139_BIT_TX equ 7 ; 100base-T
RTL8139_BIT_10FD equ 6 ; 10base-T full duplex
RTL8139_BIT_10 equ 5 ; 10base-T
RTL8139_BIT_SELECTOR equ 0 ; binary encoded selector CSMA/CD=00001
; RX/TX buffer size
RTL8139_RBLEN equ 0 ; 0==8K 1==16k 2==32k 3==64k
RTL8139_RX_BUFFER_SIZE equ (8192 shl RTL8139_RBLEN)
MAX_ETH_FRAME_SIZE equ 1516 ; exactly 1514 wthout CRC
RTL8139_NUM_TX_DESC equ 4
RTL8139_TX_BUFFER_SIZE equ (MAX_ETH_FRAME_SIZE * RTL8139_NUM_TX_DESC)
RTL8139_TXRR equ 8 ; total retries = 16+(TXRR*16)
RTL8139_TX_MXDMA equ 6 ; 0==16 1==32 2==64 3==128
; 4==256 5==512 6==1024 7==2048
RTL8139_ERTXTH equ 8 ; in unit of 32 bytes e.g:(8*32)=256
RTL8139_RX_MXDMA equ 7 ; 0==16 1==32 2==64 3==128
; 4==256 5==512 6==1024 7==unlimited
RTL8139_RXFTH equ 7 ; 0==16 1==32 2==64 3==128
; 4==256 5==512 6==1024 7==no threshold
RTL8139_RX_CONFIG equ ((RTL8139_RBLEN shl RTL8139_BIT_RBLEN) \
or (RTL8139_RX_MXDMA shl RTL8139_BIT_RX_MXDMA) \
or (1 shl RTL8139_BIT_NOWRAP) \
or (RTL8139_RXFTH shl RTL8139_BIT_RXFTH) \
or (1 shl RTL8139_BIT_AB) or (1 shl RTL8139_BIT_APM) \
or (1 shl RTL8139_BIT_AER) or (1 shl RTL8139_BIT_AR) \
or (1 shl RTL8139_BIT_AM))
RTL8139_TX_TIMEOUT equ 30 ; 300 milliseconds timeout
EE_93C46_REG_ETH_ID equ 7 ; MAC offset
EE_93C46_READ_CMD equ (6 shl 6) ; 110b + 6bit address
EE_93C56_READ_CMD equ (6 shl 8) ; 110b + 8bit address
EE_93C46_CMD_LENGTH equ 9 ; start bit + cmd + 6bit address
EE_93C56_CMD_LENGTH equ 11 ; start bit + cmd + 8bit ddress
VER_RTL8139 equ 1100000b
VER_RTL8139A equ 1110000b
; VER_RTL8139AG equ 1110100b
VER_RTL8139B equ 1111000b
VER_RTL8130 equ VER_RTL8139B
VER_RTL8139C equ 1110100b
VER_RTL8100 equ 1111010b
VER_RTL8100B equ 1110101b
VER_RTL8139D equ VER_RTL8100B
VER_RTL8139CP equ 1110110b
VER_RTL8101 equ 1110111b
IDX_RTL8139 equ 0
IDX_RTL8139A equ 1
IDX_RTL8139B equ 2
IDX_RTL8139C equ 3
IDX_RTL8100 equ 4
IDX_RTL8139D equ 5
IDX_RTL8139D equ 6
IDX_RTL8101 equ 7
; These two must be 4 byte aligned ( which they are )
rtl8139_rx_buff equ eth_data_start
rtl8139_tx_buff equ rtl8139_rx_buff + (RTL8139_RX_BUFFER_SIZE + MAX_ETH_FRAME_SIZE)
uglobal
align 4
rtl8139_rx_buff_offset: dd 0
curr_tx_desc: dd 0
endg
iglobal
hw_ver_array: db VER_RTL8139, VER_RTL8139A, VER_RTL8139B, VER_RTL8139C
db VER_RTL8100, VER_RTL8139D, VER_RTL8139CP, VER_RTL8101
HW_VER_ARRAY_SIZE = $-hw_ver_array
endg
uglobal
hw_ver_id: db 0
endg
;***************************************************************************
; Function
; rtl8139_probe
; Description
; Searches for an ethernet card, enables it and clears the rx buffer
; If a card was found, it enables the ethernet -> TCPIP link
; Destroyed registers
; eax, ebx, ecx, edx
;
;***************************************************************************
rtl8139_probe:
; enable the device
mov al, 2
mov ah, [pci_bus]
mov bh, [pci_dev]
mov bl, PCI_REG_COMMAND
call pci_read_reg
mov cx, ax
or cl, (1 shl PCI_BIT_MASTER) or (1 shl PCI_BIT_PIO)
and cl, not (1 shl PCI_BIT_MMIO)
mov al, 2
mov ah, [pci_bus]
mov bh, [pci_dev]
mov bl, PCI_REG_COMMAND
call pci_write_reg
; get chip version
mov edx, [io_addr]
add edx, RTL8139_REG_TXCONFIG_2
in ax, dx
shr ah, 2
shr ax, 6
and al, 01111111b
mov ecx, HW_VER_ARRAY_SIZE-1
.chip_ver_loop:
cmp al, [hw_ver_array+ecx]
je .chip_ver_found
dec ecx
jns .chip_ver_loop
xor cl, cl ; default RTL8139
.chip_ver_found:
mov [hw_ver_id], cl
; wake up the chip
mov edx, [io_addr]
add edx, RTL8139_REG_HLTCLK
mov al, 'R' ; run the clock
out dx, al
; unlock config and BMCR registers
add edx, RTL8139_REG_9346CR - RTL8139_REG_HLTCLK
mov al, (1 shl RTL8139_BIT_93C46_EEM1) or (1 shl RTL8139_BIT_93C46_EEM0)
out dx, al
; enable power management
add edx, RTL8139_REG_CONFIG1 - RTL8139_REG_9346CR
in al, dx
cmp byte [hw_ver_id], IDX_RTL8139B
jl .old_chip
; set LWAKE pin to active high (default value).
; it is for Wake-On-LAN functionality of some motherboards.
; this signal is used to inform the motherboard to execute a wake-up process.
; only at newer chips.
or al, (1 shl RTL8139_BIT_PMEn)
and al, not (1 shl RTL8139_BIT_LWACT)
out dx, al
add edx, RTL8139_REG_CONFIG4 - RTL8139_REG_CONFIG1
in al, dx
and al, not (1 shl RTL8139_BIT_LWPTN)
out dx, al
jmp .finish_wake_up
.old_chip:
; wake up older chips
and al, not ((1 shl RTL8139_BIT_SLEEP) or (1 shl RTL8139_BIT_PWRDWN))
out dx, al
.finish_wake_up:
; lock config and BMCR registers
xor al, al
mov edx, [io_addr]
add edx, RTL8139_REG_9346CR
out dx, al
;***************************************************************************
; Function
; rt8139_reset
; Description
; Place the chip (ie, the ethernet card) into a virgin state
; Destroyed registers
; eax, ebx, ecx, edx
;
;***************************************************************************
rtl8139_reset:
mov edx, [io_addr]
add edx, RTL8139_REG_COMMAND
mov al, 1 shl RTL8139_BIT_RST
out dx, al
mov cx, 1000 ; wait no longer for the reset
.wait_for_reset:
in al, dx
test al, 1 shl RTL8139_BIT_RST
jz .reset_completed ; RST remains 1 during reset
dec cx
jns .wait_for_reset
.reset_completed:
; get MAC (hardware address)
mov ecx, 2
.mac_read_loop:
lea eax, [EE_93C46_REG_ETH_ID+ecx]
push ecx
call rtl8139_read_eeprom
pop ecx
mov [node_addr+ecx*2], ax
dec ecx
jns .mac_read_loop
; unlock config and BMCR registers
mov edx, [io_addr]
add edx, RTL8139_REG_9346CR
mov al, (1 shl RTL8139_BIT_93C46_EEM1) or (1 shl RTL8139_BIT_93C46_EEM0)
out dx, al
; initialize multicast registers (no filtering)
mov eax, 0xffffffff
add edx, RTL8139_REG_MAR0 - RTL8139_REG_9346CR
out dx, eax
add edx, RTL8139_REG_MAR4 - RTL8139_REG_MAR0
out dx, eax
; enable Rx/Tx
mov al, (1 shl RTL8139_BIT_RE) or (1 shl RTL8139_BIT_TE)
add edx, RTL8139_REG_COMMAND - RTL8139_REG_MAR4
out dx, al
; 32k Rxbuffer, unlimited dma burst, no wrapping, no rx threshold
; accept broadcast packets, accept physical match packets
mov ax, RTL8139_RX_CONFIG
add edx, RTL8139_REG_RXCONFIG - RTL8139_REG_COMMAND
out dx, ax
; 1024 bytes DMA burst, total retries = 16 + 8 * 16 = 144
mov ax, (RTL8139_TX_MXDMA shl RTL8139_BIT_TX_MXDMA) \
or (RTL8139_TXRR shl RTL8139_BIT_TXRR)
add edx, RTL8139_REG_TXCONFIG - RTL8139_REG_RXCONFIG
out dx, ax
; enable auto negotiation
add edx, RTL8139_REG_BMCR - RTL8139_REG_TXCONFIG
in ax, dx
or ax, (1 shl RTL8139_BIT_ANE)
out dx, ax
; set auto negotiation advertisement
add edx, RTL8139_REG_ANAR - RTL8139_REG_BMCR
in ax, dx
or ax, (1 shl RTL8139_BIT_SELECTOR) or (1 shl RTL8139_BIT_10) \
or (1 shl RTL8139_BIT_10FD) or (1 shl RTL8139_BIT_TX) \
or (1 shl RTL8139_BIT_TXFD)
out dx, ax
; lock config and BMCR registers
xor eax, eax
add edx, RTL8139_REG_9346CR - RTL8139_REG_ANAR
out dx, al
; init RX/TX pointers
mov [rtl8139_rx_buff_offset], eax
mov [curr_tx_desc], eax
; clear missing packet counter
add edx, RTL8139_REG_MPC - RTL8139_REG_9346CR
out dx, eax
; disable all interrupts
add edx, RTL8139_REG_IMR - RTL8139_REG_MPC
out dx, ax
; set RxBuffer address, init RX buffer offset, init TX ring
mov eax, rtl8139_rx_buff
add edx, RTL8139_REG_RBSTART - RTL8139_REG_IMR
out dx, eax
; Indicate that we have successfully reset the card
mov eax, [pci_data]
mov [eth_status], eax
ret
;***************************************************************************
; Function
; rtl8139_read_eeprom
; Description
; reads eeprom type 93c46 and 93c56
; Parameters
; al - word to be read (6bit in case of 93c46 and 8bit otherwise)
; Return value
; ax - word read in
; Destroyed register(s)
; eax, cx, ebx, edx
;
;***************************************************************************
rtl8139_read_eeprom:
movzx ebx, al
mov edx, [io_addr]
add edx, RTL8139_REG_RXCONFIG
in al, dx
test al, (1 shl RTL8139_BIT_9356SEL)
jz .type_93c46
; and bl, 01111111b ; don't care first bit
or bx, EE_93C56_READ_CMD ; it contains start bit
mov cx, EE_93C56_CMD_LENGTH-1 ; cmd_loop counter
jmp .read_eeprom
.type_93c46:
and bl, 00111111b
or bx, EE_93C46_READ_CMD ; it contains start bit
mov cx, EE_93C46_CMD_LENGTH-1 ; cmd_loop counter
.read_eeprom:
add edx, RTL8139_REG_9346CR - RTL8139_REG_RXCONFIG_0
; mov al, (1 shl RTL8139_BIT_93C46_EEM1)
; out dx, al
mov al, (1 shl RTL8139_BIT_93C46_EEM1) \
or (1 shl RTL8139_BIT_93C46_EECS) ; wake up the eeprom
out dx, al
.cmd_loop:
mov al, (1 shl RTL8139_BIT_93C46_EEM1) or (1 shl RTL8139_BIT_93C46_EECS)
bt bx, cx
jnc .zero_bit
or al, (1 shl RTL8139_BIT_93C46_EEDI)
.zero_bit:
out dx, al
; push eax
; in eax, dx ; eeprom delay
; pop eax
or al, (1 shl RTL8139_BIT_93C46_EESK)
out dx, al
; in eax, dx ; eeprom delay
dec cx
jns .cmd_loop
; in eax, dx ; eeprom delay
mov al, (1 shl RTL8139_BIT_93C46_EEM1) or (1 shl RTL8139_BIT_93C46_EECS)
out dx, al
mov cl, 0xf
.read_loop:
shl ebx, 1
mov al, (1 shl RTL8139_BIT_93C46_EEM1) \
or (1 shl RTL8139_BIT_93C46_EECS) \
or (1 shl RTL8139_BIT_93C46_EESK)
out dx, al
; in eax, dx ; eeprom delay
in al, dx
and al, (1 shl RTL8139_BIT_93C46_EEDO)
jz .dont_set
inc ebx
.dont_set:
mov al, (1 shl RTL8139_BIT_93C46_EEM1) \
or (1 shl RTL8139_BIT_93C46_EECS)
out dx, al
; in eax, dx ; eeprom delay
dec cl
jns .read_loop
xor al, al
out dx, al
mov ax, bx
ret
;***************************************************************************
; Function
; rtl8139_transmit
; Description
; Transmits a packet of data via the ethernet card
; Pointer to 48 bit destination address in edi
; Type of packet in bx
; size of packet in ecx
; pointer to packet data in esi
; Destroyed registers
; eax, edx, esi, edi
; ToDo
; for waiting of timeout the rtl8139 internal timer
; should be used
;
;***************************************************************************
rtl8139_transmit:
cmp ecx, MAX_ETH_FRAME_SIZE
jg .finish ; packet is too long
push ecx
; check descriptor
mov ecx, [curr_tx_desc]
mov edx, [io_addr]
lea edx, [edx+ecx*4+RTL8139_REG_TSD0]
push edx ebx
in ax, dx
and ax, (1 shl RTL8139_BIT_TOK) or (1 shl RTL8139_BIT_OWN)
cmp ax, (1 shl RTL8139_BIT_TOK) or (1 shl RTL8139_BIT_OWN)
jz .send_packet
test ax, 0x1fff ; or no size given
jz .send_packet
; wait for timeout
mov ebx, RTL8139_TX_TIMEOUT
mov eax, 0x5 ; delay x/100 secs
int 0x40
in ax, dx
and ax, (1 shl RTL8139_BIT_TOK) or (1 shl RTL8139_BIT_OWN)
cmp ax, (1 shl RTL8139_BIT_TOK) or (1 shl RTL8139_BIT_OWN)
jz .send_packet
; chip hung, reset it
call rtl8139_reset
; reset the card
.send_packet:
; calculate tx_buffer address
pop ebx
push esi
mov eax, MAX_ETH_FRAME_SIZE
mul dword [curr_tx_desc]
mov esi, edi
lea edi, [rtl8139_tx_buff+eax]
mov eax, edi
cld
; copy destination address
movsd
movsw
; copy source address
mov esi, node_addr
movsd
movsw
; copy packet type
mov [edi], bx
add edi, 2
; copy the packet data
pop esi edx ecx
push ecx
shr ecx, 2
rep movsd
pop ecx
push ecx
and ecx, 3
rep movsb
; set address
add edx, RTL8139_REG_TSAD0 - RTL8139_REG_TSD0
out dx, eax
; set size and early threshold
pop eax ; pick up the size
add eax, ETH_HLEN
cmp eax, ETH_ZLEN
jnc .no_pad
mov eax, ETH_ZLEN
.no_pad:
or eax, (RTL8139_ERTXTH shl RTL8139_BIT_ERTXTH)
add edx, RTL8139_REG_TSD0 - RTL8139_REG_TSAD0
out dx, eax
; get next descriptor 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, ...
inc dword [curr_tx_desc]
and dword [curr_tx_desc], 3
.finish:
ret
;***************************************************************************
; Function
; rtl8139_poll
;
; Description
; Polls the ethernet card for a received packet
; Received data, if any, ends up in Ether_buffer
; Destroyed register(s)
; eax, edx, ecx
;
;***************************************************************************
rtl8139_poll:
mov word [eth_rx_data_len], 0
mov edx, [io_addr]
add edx, RTL8139_REG_COMMAND
in al, dx
test al, (1 shl RTL8139_BIT_BUFE)
jnz .finish
; new packet received copy it from rx_buffer into Ether_buffer
mov eax, rtl8139_rx_buff
add eax, [rtl8139_rx_buff_offset]
; check if packet is ok
test byte [eax], (1 shl RTL8139_BIT_ROK)
jz .reset_rx
; packet is ok copy it into the Ether_buffer
movzx ecx, word [eax+2] ; packet length
sub ecx, 4 ; don't copy CRC
mov word [eth_rx_data_len], cx
push ecx
shr ecx, 2 ; first copy dword-wise
lea esi, [eax+4] ; don't copy the packet header
mov edi, Ether_buffer
cld
rep movsd ; copy the dwords
pop ecx
and ecx, 3
rep movsb ; copy the rest bytes
; update rtl8139_rx_buff_offset
movzx eax, word [eax+2] ; packet length
add eax, [rtl8139_rx_buff_offset]
add eax, 4+3 ; packet header is 4 bytes long + dword alignment
and eax, not 3 ; dword alignment
cmp eax, RTL8139_RX_BUFFER_SIZE
jl .no_wrap
sub eax, RTL8139_RX_BUFFER_SIZE
.no_wrap:
mov [rtl8139_rx_buff_offset], eax
; update CAPR register
sub eax, 0x10 ; value 0x10 is a constant for CAPR
add edx, RTL8139_REG_CAPR - RTL8139_REG_COMMAND
out dx, ax
.finish:
; clear active interrupt sources
mov edx, [io_addr]
add edx, RTL8139_REG_ISR
in ax, dx
out dx, ax
ret
.reset_rx:
in al, dx ; read command register
push eax
and al, not (1 shl RTL8139_BIT_RE)
out dx, al
pop eax
out dx, al
add edx, RTL8139_REG_RXCONFIG - RTL8139_REG_COMMAND
mov ax, RTL8139_RX_CONFIG
out dx, ax
ret

File diff suppressed because it is too large Load Diff

File diff suppressed because it is too large Load Diff

View File

@ -0,0 +1,339 @@
;***************************************************************************
;
; PCI CODE FOLLOWS
;
; the following functions provide access to the PCI interface.
; These functions are used by scan_bus, and also some ethernet drivers
;
;***************************************************************************
; PCI Bus defines
PCI_HEADER_TYPE equ 0x0e ;8 bit
PCI_BASE_ADDRESS_0 equ 0x10 ;32 bit
PCI_BASE_ADDRESS_5 equ 0x24 ;32 bits
PCI_BASE_ADDRESS_SPACE_IO equ 0x01
PCI_VENDOR_ID equ 0x00 ;16 bit
PCI_BASE_ADDRESS_IO_MASK equ 0xFFFFFFFC
;***************************************************************************
; Function
; config_cmd
;
; Description
; creates a command dword for use with the PCI bus
; bus # in ebx
; devfn in ecx
; where in edx
;
; command dword returned in eax
; Only eax destroyed
;***************************************************************************
config_cmd:
push ecx
mov eax, ebx
shl eax, 16
or eax, 0x80000000
shl ecx, 8
or eax, ecx
pop ecx
or eax, edx
and eax, 0xFFFFFFFC
ret
;***************************************************************************
; Function
; pcibios_read_config_byte
;
; Description
; reads a byte from the PCI config space
; bus # in ebx
; devfn in ecx
; where in edx ( ls 16 bits significant )
;
; byte returned in al ( rest of eax zero )
; Only eax/edx destroyed
;***************************************************************************
pcibios_read_config_byte:
call config_cmd
push dx
mov dx, 0xCF8
out dx, eax
pop dx
xor eax, eax
and dx, 0x03
add dx, 0xCFC
; and dx, 0xFFC
in al, dx
ret
;***************************************************************************
; Function
; pcibios_read_config_word
;
; Description
; reads a word from the PCI config space
; bus # in ebx
; devfn in ecx
; where in edx ( ls 16 bits significant )
;
; word returned in ax ( rest of eax zero )
; Only eax/edx destroyed
;***************************************************************************
pcibios_read_config_word:
call config_cmd
push dx
mov dx, 0xCF8
out dx, eax
pop dx
xor eax, eax
and dx, 0x02
add dx, 0xCFC
; and dx, 0xFFC
in ax, dx
ret
;***************************************************************************
; Function
; pcibios_read_config_dword
;
; Description
; reads a dword from the PCI config space
; bus # in ebx
; devfn in ecx
; where in edx ( ls 16 bits significant )
;
; dword returned in eax
; Only eax/edx destroyed
;***************************************************************************
pcibios_read_config_dword:
push edx
call config_cmd
push dx
mov dx, 0xCF8
out dx, eax
pop dx
xor eax, eax
mov dx, 0xCFC
in eax, dx
pop edx
ret
;***************************************************************************
; Function
; pcibios_write_config_byte
;
; Description
; write a byte in al to the PCI config space
; bus # in ebx
; devfn in ecx
; where in edx ( ls 16 bits significant )
;
; Only eax/edx destroyed
;***************************************************************************
pcibios_write_config_byte:
push ax
call config_cmd
push dx
mov dx, 0xCF8
out dx, eax
pop dx
pop ax
and dx, 0x03
add dx, 0xCFC
out dx, al
ret
;***************************************************************************
; Function
; pcibios_write_config_word
;
; Description
; write a word in ax to the PCI config space
; bus # in ebx
; devfn in ecx
; where in edx ( ls 16 bits significant )
;
; Only eax/edx destroyed
;***************************************************************************
pcibios_write_config_word:
push ax
call config_cmd
push dx
mov dx, 0xCF8
out dx, eax
pop dx
pop ax
and dx, 0x02
add dx, 0xCFC
out dx, ax
ret
;***************************************************************************
; Function
; delay_us
;
; Description
; delays for 30 to 60 us
;
; I would prefer this routine to be able to delay for
; a selectable number of microseconds, but this works for now.
;
; If you know a better way to do 2us delay, pleae tell me!
;***************************************************************************
delay_us:
push eax
push ecx
mov ecx,2
in al,0x61
and al,0x10
mov ah,al
cld
dcnt1:
in al,0x61
and al,0x10
cmp al,ah
jz dcnt1
mov ah,al
loop dcnt1
pop ecx
pop eax
ret
;***************************************************************************
; Function
; scan_bus
;
; Description
; Scans the PCI bus for a supported device
; If a supported device is found, the drvr_ variables are initialised
; to that drivers functions ( as defined in the PCICards table)
;
; io_addr holds card I/O space. 32 bit, but only LS 16 bits valid
; pci_data holds the PCI vendor + device code
; pci_dev holds PCI bus dev #
; pci_bus holds PCI bus #
;
; io_addr will be zero if no card found
;
;***************************************************************************
scan_bus:
xor eax, eax
mov [hdrtype], al
mov [pci_data], eax
xor ebx, ebx ; ebx = bus# 0 .. 255
sb_bus_loop:
xor ecx, ecx ; ecx = devfn# 0 .. 254 ( not 255? )
sb_devf_loop:
mov eax, ecx
and eax, 0x07
cmp eax, 0
jne sb_001
mov edx, PCI_HEADER_TYPE
call pcibios_read_config_byte
mov [hdrtype], al
jmp sb_002
sb_001:
mov al, [hdrtype]
and al, 0x80
cmp al, 0x80
jne sb_inc_devf
sb_002:
mov edx, PCI_VENDOR_ID
call pcibios_read_config_dword
mov [vendor_device], eax
cmp eax, 0xffffffff
je sb_empty
cmp eax, 0
jne sb_check_vendor
sb_empty:
mov [hdrtype], byte 0
jmp sb_inc_devf
sb_check_vendor:
; iterate though PCICards until end or match found
mov esi, PCICards
sb_check:
cmp [esi], dword 0
je sb_inc_devf ; Quit if at last entry
cmp eax, [esi]
je sb_got_card
add esi, PCICARDS_ENTRY_SIZE
jmp sb_check
sb_got_card:
; indicate that we have found the card
mov [pci_data], eax
mov [pci_dev], ecx
mov [pci_bus], ebx
; Define the driver functions
push eax
mov eax, [esi+4]
mov [drvr_probe], eax
mov eax, [esi+8]
mov [drvr_reset], eax
mov eax, [esi+12]
mov [drvr_poll], eax
mov eax, [esi+16]
mov [drvr_transmit], eax
pop eax
mov edx, PCI_BASE_ADDRESS_0
sb_reg_check:
call pcibios_read_config_dword
mov [io_addr], eax
and eax, PCI_BASE_ADDRESS_IO_MASK
cmp eax, 0
je sb_inc_reg
mov eax, [io_addr]
and eax, PCI_BASE_ADDRESS_SPACE_IO
cmp eax, 0
je sb_inc_reg
mov eax, [io_addr]
and eax, PCI_BASE_ADDRESS_IO_MASK
mov [io_addr], eax
sb_exit1:
ret
sb_inc_reg:
add edx, 4
cmp edx, PCI_BASE_ADDRESS_5
jbe sb_reg_check
sb_inc_devf:
inc ecx
cmp ecx, 255
jb sb_devf_loop
inc ebx
cmp ebx, 256
jb sb_bus_loop
; We get here if we didn't find our card
; set io_addr to 0 as an indication
xor eax, eax
mov [io_addr], eax
sb_exit2:
ret

View File

@ -0,0 +1,188 @@
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;
;; ICMP.INC
;;
;; Internet Control Message Protocol ( RFC 792 )
;;
;; Last revision: 11.11.2006
;;
;; This file contains the following:
;; icmp_rx - processes ICMP-packets received by the IP layer
;;
;; Changes history:
;; 22.09.2003 - [Mike Hibbett] : mikeh@oceanfree.net
;; 11.11.2006 - [Johnny_B] and [smb]
;;
;; Current status:
;; This implemetation of ICMP proto supports message of ECHO type.
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
struc ICMP_PACKET
{ .Type db ? ;+00
.Code db ? ;+01
.Checksum dw ? ;+02
.Identifier dw ? ;+04
.SequenceNumber dw ? ;+06
.Data db ? ;+08
}
virtual at 0
ICMP_PACKET ICMP_PACKET
end virtual
; Example:
; ECHO message format
;
;
; 0 1 2 3
; 0 1 2 3 4 5 6 7 0 1 2 3 4 5 6 7 0 1 2 3 4 5 6 7 0 1 2 3 4 5 6 7
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; | Type | Code | Checksum |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; | Identifier | Sequence Number |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; | Data ...
; +-+-+-+-+-
;
;
; ICMP types & codes, RFC 792 and FreeBSD's ICMP sources
;
ICMP_ECHOREPLY equ 0 ; echo reply message
ICMP_UNREACH equ 3
ICMP_UNREACH_NET equ 0 ; bad net
ICMP_UNREACH_HOST equ 1 ; bad host
ICMP_UNREACH_PROTOCOL equ 2 ; bad protocol
ICMP_UNREACH_PORT equ 3 ; bad port
ICMP_UNREACH_NEEDFRAG equ 4 ; IP_DF caused drop
ICMP_UNREACH_SRCFAIL equ 5 ; src route failed
ICMP_UNREACH_NET_UNKNOWN equ 6 ; unknown net
ICMP_UNREACH_HOST_UNKNOWN equ 7 ; unknown host
ICMP_UNREACH_ISOLATED equ 8 ; src host isolated
ICMP_UNREACH_NET_PROHIB equ 9 ; prohibited access
ICMP_UNREACH_HOST_PROHIB equ 10 ; ditto
ICMP_UNREACH_TOSNET equ 11 ; bad tos for net
ICMP_UNREACH_TOSHOST equ 12 ; bad tos for host
ICMP_UNREACH_FILTER_PROHIB equ 13 ; admin prohib
ICMP_UNREACH_HOST_PRECEDENCE equ 14 ; host prec vio.
ICMP_UNREACH_PRECEDENCE_CUTOFF equ 15 ; prec cutoff
ICMP_SOURCEQUENCH equ 4 ; packet lost, slow down
ICMP_REDIRECT equ 5 ; shorter route, codes:
ICMP_REDIRECT_NET equ 0 ; for network
ICMP_REDIRECT_HOST equ 1 ; for host
ICMP_REDIRECT_TOSNET equ 2 ; for tos and net
ICMP_REDIRECT_TOSHOST equ 3 ; for tos and host
ICMP_ALTHOSTADDR equ 6 ; alternate host address
ICMP_ECHO equ 8 ; echo service
ICMP_ROUTERADVERT equ 9 ; router advertisement
ICMP_ROUTERADVERT_NORMAL equ 0 ; normal advertisement
ICMP_ROUTERADVERT_NOROUTE_COMMON equ 16 ; selective routing
ICMP_ROUTERSOLICIT equ 10 ; router solicitation
ICMP_TIMXCEED equ 11 ; time exceeded, code:
ICMP_TIMXCEED_INTRANS equ 0 ; ttl==0 in transit
ICMP_TIMXCEED_REASS equ 1 ; ttl==0 in reass
ICMP_PARAMPROB equ 12 ; ip header bad
ICMP_PARAMPROB_ERRATPTR equ 0 ; error at param ptr
ICMP_PARAMPROB_OPTABSENT equ 1 ; req. opt. absent
ICMP_PARAMPROB_LENGTH equ 2 ; bad length
ICMP_TSTAMP equ 13 ; timestamp request
ICMP_TSTAMPREPLY equ 14 ; timestamp reply
ICMP_IREQ equ 15 ; information request
ICMP_IREQREPLY equ 16 ; information reply
ICMP_MASKREQ equ 17 ; address mask request
ICMP_MASKREPLY equ 18 ; address mask reply
ICMP_TRACEROUTE equ 30 ; traceroute
ICMP_DATACONVERR equ 31 ; data conversion error
ICMP_MOBILE_REDIRECT equ 32 ; mobile host redirect
ICMP_IPV6_WHEREAREYOU equ 33 ; IPv6 where-are-you
ICMP_IPV6_IAMHERE equ 34 ; IPv6 i-am-here
ICMP_MOBILE_REGREQUEST equ 35 ; mobile registration req
ICMP_MOBILE_REGREPLY equ 36 ; mobile registreation reply
ICMP_SKIP equ 39 ; SKIP
ICMP_PHOTURIS equ 40 ; Photuris
ICMP_PHOTURIS_UNKNOWN_INDEX equ 1 ; unknown sec index
ICMP_PHOTURIS_AUTH_FAILED equ 2 ; auth failed
ICMP_PHOTURIS_DECRYPT_FAILED equ 3 ; decrypt failed
;***************************************************************************
; Function
; icmp_rx [by Johnny_B]
;
; Description
; ICMP protocol handler
; This is a kernel function, called by ip_rx
;
; IN:
; buffer_number - # of IP-buffer. This buffer must be reused or marked as empty afterwards
; IPPacketBase - IP_PACKET base address
; IPHeaderLength - Header length of IP_PACKET
;
; OUT:
; EAX=not defined
;
; All used registers will be saved
;
;***************************************************************************
proc icmp_rx stdcall uses ebx esi edi,\
buffer_number:DWORD,IPPacketBase:DWORD,IPHeaderLength:DWORD
mov esi,[IPPacketBase] ;esi=IP_PACKET base address
mov edi, esi
add edi,[IPHeaderLength] ;edi=ICMP_PACKET base address
cmp byte[edi + ICMP_PACKET.Type], ICMP_ECHO ; Is this an echo request? discard if not
jz .icmp_echo
mov eax, [buffer_number]
call freeBuff
jmp .exit
.icmp_echo:
; swap the source and destination addresses
mov ecx, [esi + IP_PACKET.DestinationAddress]
mov ebx, [esi + IP_PACKET.SourceAddress]
mov [esi + IP_PACKET.DestinationAddress], ebx
mov [esi + IP_PACKET.SourceAddress], ecx
; recalculate the IP header checksum
mov eax,[IPHeaderLength]
stdcall checksum_jb,esi,eax ;buf_ptr,buf_size
mov byte[esi + IP_PACKET.HeaderChecksum], ah
mov byte[esi + IP_PACKET.HeaderChecksum + 1], al ; ?? correct byte order?
mov byte[edi + ICMP_PACKET.Type], ICMP_ECHOREPLY ; change the request to a response
mov word[edi + ICMP_PACKET.Checksum], 0 ; clear ICMP checksum prior to re-calc
; Calculate the length of the ICMP data ( IP payload)
xor eax, eax
mov ah, byte[esi + IP_PACKET.TotalLength]
mov al, byte[esi + IP_PACKET.TotalLength + 1]
sub ax, word[IPHeaderLength] ;ax=ICMP-packet length
stdcall checksum_jb,edi,eax ;buf_ptr,buf_size
mov byte[edi + ICMP_PACKET.Checksum], ah
mov byte[edi + ICMP_PACKET.Checksum + 1], al
; Queue packet for transmission
mov ebx, [buffer_number]
mov eax, NET1OUT_QUEUE
call queue
.exit:
ret
endp

View File

@ -12,6 +12,29 @@
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; IP underlying protocols numbers
PROTOCOL_ICMP equ 1
PROTOCOL_TCP equ 6
PROTOCOL_UDP equ 17
struc IP_PACKET
{ .VersionAndIHL db ? ;+00 - Version[0-3 bits] and IHL(header length)[4-7 bits]
.TypeOfService db ? ;+01
.TotalLength dw ? ;+02
.Identification dw ? ;+04
.FlagsAndFragmentOffset dw ? ;+06 - Flags[0-2] and FragmentOffset[3-15]
.TimeToLive db ? ;+08
.Protocol db ? ;+09
.HeaderChecksum dw ? ;+10
.SourceAddress dd ? ;+12
.DestinationAddress dd ? ;+16
.DataOrOptional dd ? ;+20
}
virtual at 0
IP_PACKET IP_PACKET
end virtual
;*******************************************************************
; Interface
@ -24,179 +47,148 @@
;*******************************************************************
;
; IP Packet after reception - Normal IP packet format
;
; 0 1 2 3
; 0 1 2 3 4 5 6 7 0 1 2 3 4 5 6 7 0 1 2 3 4 5 6 7 0 1 2 3 4 5 6 7
;
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
;0 |Version| IHL |Type of Service| Total Length |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
;4 | Identification |Flags| Fragment Offset |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
;8 | Time to Live | Protocol | Header Checksum |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
;12 | Source Address |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
;16 | Destination Address |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
;20 | Data |
; +-+-+-.......... -+
;
;
; [smb] attention! according to RFC 791 IP packet may have 'options' sections,
; so we can't simply think, that data have offset 20. We must calculate offset from
; IHL field
;
macro GET_IHL reg, header_addr
{
movzx reg, byte [header_addr]
; we need 4-7 bits, so....
and reg, 0x0000000F
; IHL keeps number of octets, so we need to << 2 'reg'
shl reg, 2
}
;***************************************************************************
; Function
; ip_rx
;
; Description
; Handles received IP packets
; This is a kernel function, called by stack_handler
; Processes all IP-packets received by the network layer
; It calls the appropriate protocol handler
;
;***************************************************************************
ip_rx:
proc ip_rx stdcall
local buffer_number dd ?
; Look for a buffer to tx
mov eax, IPIN_QUEUE
call dequeue
cmp ax, NO_BUFFER
je ipr_exit ; Exit if no buffer available
je .exit ; Exit if no buffer available
push eax
mov [buffer_number], eax ;save buffer number
; convert buffer pointer eax to the absolute address
mov ecx, IPBUFFSIZE
mul ecx
imul eax, IPBUFFSIZE
add eax, IPbuffs
mov edx, eax ; Save the address in edx for use by future processes
mov ebx, eax ; ebx=pointer to IP_PACKET
; Validate the IP checksum
mov ebx, edx
mov ah, [ebx + 10]
mov al, [ebx + 11] ; Get the checksum in intel format
mov [ebx + 10], word 0 ; clear checksum field - need to when
; recalculating checksum
mov dx, word[ebx + IP_PACKET.HeaderChecksum]
xchg dh,dl ; Get the checksum in intel format
mov [ebx + IP_PACKET.HeaderChecksum], word 0 ; clear checksum field - need to when
; recalculating checksum
; this needs two data pointers and two size #.
; 2nd pointer can be of length 0
mov ebx, edx
mov [checkAdd1], ebx
mov [checkSize1], word 20
mov [checkAdd2], dword 0
mov [checkSize2], word 0
call checksum ; Recalculate IP checksum
cmp ax, [checkResult]
jnz ipr_dump
GET_IHL ecx, ebx + IP_PACKET.VersionAndIHL ;get packet length in ecx
stdcall checksum_jb, ebx, ecx ;buf_ptr, buf_size
cmp dx, ax
mov edx, ebx ; EDX (IP-BUFFER POINTER) WILL BE USED FOR *_rx HANDLERS BELOW!!!
jnz .dump ;if CHECKSUM isn't valid then dump packet
; Validate the IP address, if it isn't broadcast
mov eax, [stack_ip]
cmp dword[ebx + IP_PACKET.DestinationAddress], eax
je @f
; If the IP address is 255.255.255.255, accept it
; - it is a broadcast packet, which we need for dhcp
mov eax, [edx + 16]
cmp eax, 0xffffffff
je ipr_p0
cmp dword[ebx + IP_PACKET.DestinationAddress], 0xffffffff
jne .dump
; Validate the IP address, if it isn't broadcast
cmp eax, [stack_ip]
jnz ipr_dump
@@:
mov al, [ebx + IP_PACKET.VersionAndIHL]
and al, 0x0f ;get IHL(header length)
cmp al, 0x05 ;if IHL!= 5*4(20 bytes)
jnz .dump ;then dump it
ipr_p0:
mov al, [edx]
and al, 0x0f
cmp al, 0x05
jnz ipr_dump
cmp byte[ebx + IP_PACKET.TimeToLive], byte 0
je .dump ;if TTL==0 then dump it
cmp [edx+8], byte 0
jz ipr_dump
mov ax, [edx + 6]
and ax, 0xFFBF
cmp ax, 0
jnz ipr_dump
mov ax, word[ebx + IP_PACKET.FlagsAndFragmentOffset]
and ax, 0xFFBF ;get flags
cmp ax, 0 ;if some flags was set then we dump this packet
jnz .dump ;the flags should be used for fragmented packets
; Check the protocol, and call the appropriate handler
; Each handler will re-use or free the queue buffer as appropriate
mov al, [edx + 9]
cmp al , PROTOCOL_ICMP
jnz ipr_p1
pop eax
call icmp_rx
jmp ipr_exit
ipr_p1:
mov al, [ebx + IP_PACKET.Protocol]
cmp al , PROTOCOL_TCP
jnz ipr_p2
pop eax
jne .not_tcp
mov eax, dword[buffer_number]
call tcp_rx
jmp ipr_exit
jmp .exit
ipr_p2:
cmp al , PROTOCOL_UDP
jnz ipr_dump
pop eax
.not_tcp:
cmp al, PROTOCOL_UDP
jne .not_udp
mov eax, dword[buffer_number]
call udp_rx
jmp ipr_exit
jmp .exit
ipr_dump:
.not_udp:
cmp al , PROTOCOL_ICMP
jne .dump ;protocol ain't supported
;GET_IHL ecx, ebx + IP_PACKET.VersionAndIHL ;get packet length in ecx
mov eax, dword[buffer_number]
stdcall icmp_rx,eax,ebx,ecx ;buffer_number,IPPacketBase,IPHeaderLength
jmp .exit
.dump:
; No protocol handler available, so
; silently dump the packet, freeing up the queue buffer
; inc dword [dumped_rx_count]
inc dword [dumped_rx_count]
pop eax
mov eax, dword[buffer_number]
call freeBuff
ipr_exit:
.exit:
ret
endp
;***************************************************************************
; Function
; icmp_rx
;
; Description
; ICMP protocol handler
; This is a kernel function, called by ip_rx
; edx contains the address of the buffer in use.
; This buffer must be reused or marked as empty afterwards
;
;***************************************************************************
icmp_rx:
cmp [edx + 20], byte 8 ; Is this an echo request? discard if not
jz icmp_echo
call freeBuff
jmp icmp_exit
icmp_echo:
push eax
mov [edx + 10], word 0 ; I think this was already done by IP rx
; swap the source and destination addresses
mov ecx, [edx + 16]
mov eax, [edx + 12]
mov [edx + 16], eax
mov [edx + 12], ecx
; recaluculate the IP header checksum
mov ebx, edx
mov [checkAdd1], ebx
mov [checkSize1], word 20
mov [checkAdd2], dword 0
mov [checkSize2], word 0
call checksum
mov ax, [checkResult]
mov [edx + 10], ah
mov [edx + 11], al ; ?? correct byte order?
mov [edx + 20], byte 0 ; change the request to a response
mov [edx + 22], word 0 ; clear ICMP checksum prior to re-calc
; Calculate the length of the ICMP data ( IP payload)
mov ah, [edx + 2]
mov al, [edx + 3]
sub ax, 20
mov [checkSize1], ax
mov ebx, edx
add ebx, 20
mov [checkAdd1], ebx
mov [checkAdd2], dword 0
mov [checkSize2], word 0
call checksum
mov ax, [checkResult]
mov [edx + 22], ah
mov [edx + 23], al
; Queue packet for transmission
pop ebx
mov eax, NET1OUT_QUEUE
call queue
icmp_exit:
ret

View File

@ -0,0 +1,863 @@
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;
;; SOCKET.INC
;;
;; Sockets constants, structures and functions
;;
;; Last revision: 11.11.2006
;;
;; This file contains the following:
;; is_localport_unused
;; get_free_socket
;; socket_open
;; socket_open_tcp
;; socket_close
;; socket_close_tcp
;; socket_poll
;; socket_status
;; socket_read
;; socket_write
;; socket_write_tcp
;;
;;
;; Changes history:
;; 22.09.2003 - [Mike Hibbett] : mikeh@oceanfree.net
;; 11.11.2006 - [Johnny_B] and [smb]
;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;
; Socket Descriptor + Buffer
;
; 0 1 2 3
; 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
;
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 0| Status ( of this buffer ) |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 4| Application Process ID |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 8| Local IP Address |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 12| Local IP Port | Unused ( set to 0 ) |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 16| Remote IP Address |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 20| Remote IP Port | Unused ( set to 0 ) |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 24| Rx Data Count INTEL format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 28| TCB STATE INTEL format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 32| TCB Timer (seconds) INTEL format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 36| ISS (Inital Sequence # used by this connection ) INET format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 40| IRS ( Inital Receive Sequence # ) INET format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 44| SND.UNA Seq # of unack'ed sent packets INET format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 48| SND.NXT Next send seq # to use INET format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 52| SND.WND Send window INET format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 56| RCV.NXT Next expected receive sequence # INET format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 60| RCV.WND Receive window INET format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 64| SEG.LEN Segment length INTEL format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 68| SEG.WND Segment window INTEL format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 72| Retransmit queue # NOW WINDOW SIZE TIMER INTEL format|
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; 76| RX offset from
; 76| RX Data |
; +-+-+-.......... -+
; so, define struct
struc SOCKET
{ .Status dd ? ;+00 - Status ( of this buffer )
.PID dd ? ;+04 - Application Process ID
.LocalIP dd ? ;+08 - Local IP Address
.LocalPort dw ? ;+12 - Local Port
.UnusedL dw ? ;+14 - may be removed in future
.RemoteIP dd ? ;+16 - Remote IP Address
.RemotePort dw ? ;+20 - Remote Port
.UnusedR dw ? ;+22 - may be removed in future
.rxDataCount dd ? ;+24 - Rx Data Count
.TCBState dd ? ;+28 - TCB STATE
.TCBTimer dd ? ;+32 - TCB Timer (seconds)
.ISS dd ? ;+36 - Initial Send Sequence
.IRS dd ? ;+40 - Initial Receive Sequence
.SND_UNA dd ? ;+44 - Sequence number of unack'ed sent packets
.SND_NXT dd ? ;+48 - Next send sequence number to use
.SND_WND dd ? ;+52 - Send window
.RCV_NXT dd ? ;+56 - Next receive sequence number to use
.RCV_WND dd ? ;+60 - Receive window
.SEG_LEN dd ? ;+64 - Segment length
.SEG_WND dd ? ;+68 - Segment window
.wndsizeTimer dd ? ;+72 - Retransmit queue # NOW WINDOW SIZE TIMER
.rxData dd ? ;+76 - receive data buffer here
}
virtual at 0
SOCKET SOCKET
end virtual
; simple macro calcing real memory address of SOCKET struct by socket's
macro Index2RealAddr reg
{
shl reg, 12
add reg, sockets
}
;Constants
; current socket statuses
SOCK_EMPTY equ 0 ; socket not in use
SOCK_OPEN equ 1 ; open issued, but no data sent
; TCP opening modes
SOCKET_PASSIVE equ 0
SOCKET_ACTIVE equ 1
;***************************************************************************
; Function
; is_localport_unused
;
; Description
; scans through all the active sockets , looking to see if the
; port number specified in bx is in use as a localport number.
; This is useful when you want a to generate a unique local port
; number.
; On return, eax = 1 for free, 0 for in use
;
;***************************************************************************
is_localport_unused:
mov al, bh
mov ah, bl
mov bx, ax
mov edx, SOCKETBUFFSIZE * NUM_SOCKETS
mov ecx, NUM_SOCKETS
mov eax, 0 ; Assume the return value is 'in use'
ilu1:
sub edx, SOCKETBUFFSIZE
cmp [edx + sockets + SOCKET.LocalPort], bx
loopnz ilu1 ; Return back if the socket is occupied
jz ilu_exit
inc eax ; return port not in use
ilu_exit:
ret
;***************************************************************************
; Function
; get_free_socket
;
; Description
;
;***************************************************************************
get_free_socket:
push ecx
mov eax, SOCKETBUFFSIZE * NUM_SOCKETS
mov ecx, NUM_SOCKETS
gfs1:
sub eax, SOCKETBUFFSIZE
cmp [eax + sockets + SOCKET.Status], dword SOCK_EMPTY
loopnz gfs1 ; Return back if the socket is occupied
mov eax, ecx
pop ecx
jz gfs_exit
mov eax, 0xFFFFFFFF
gfs_exit:
ret
;***************************************************************************
; Function
; socket_open
;
; Description
; find a free socket
; local port in ebx
; remote port in ecx
; remote ip in edx
; return socket # in eax, -1 if none available
;
;***************************************************************************
socket_open:
call get_free_socket
cmp eax, 0xFFFFFFFF
jz so_exit
; ax holds the socket number that is free. Get real address
push eax
Index2RealAddr eax
mov [eax + SOCKET.Status], dword SOCK_OPEN
xchg bh, bl
mov [eax + SOCKET.LocalPort], bx
; mov [eax + 12], byte bh ; Local port ( LS 16 bits )
; mov [eax + 13], byte bl ; Local port ( LS 16 bits )
xchg ch, cl
mov [eax + SOCKET.RemotePort], cx
; mov [eax + 20], ch ; Remote Port ( LS 16 bits )
; mov [eax + 21], cl ; Remote Port ( LS 16 bits )
mov ebx, [stack_ip]
mov [eax + SOCKET.LocalIP], ebx
mov [eax + SOCKET.RemoteIP], edx
mov [eax + SOCKET.rxDataCount], dword 0 ; recieved data count
mov esi, [0x3010]
mov ebx, [esi+TASKDATA.pid]
mov [eax + SOCKET.PID], ebx ; save the process ID
pop eax ; Get the socket number back, so we can return it
so_exit:
ret
;***************************************************************************
; Function
; socket_open_tcp
;
; Description
; Opens a TCP socket in PASSIVE or ACTIVE mode
; find a free socket
; local port in ebx ( intel format )
; remote port in ecx ( intel format )
; remote ip in edx ( in Internet byte order )
; Socket open mode in esi ( SOCKET_PASSIVE or SOCKET_ACTIVE )
; return socket # in eax, -1 if none available
;
;***************************************************************************
socket_open_tcp:
call get_free_socket
cmp eax, 0xFFFFFFFF
jz so_exit
; ax holds the socket number that is free. Get real address
push eax
Index2RealAddr eax
mov [sktAddr], eax
mov [eax], dword SOCK_OPEN
; TODO - check this works!
mov [eax + SOCKET.wndsizeTimer], dword 0 ; Reset the window timer.
xchg bh, bl
mov [eax + SOCKET.LocalPort], bx
; mov [eax + 12], byte bh ; Local port ( LS 16 bits )
; mov [eax + 13], byte bl ; Local port ( LS 16 bits )
xchg ch, cl
mov [eax + SOCKET.RemotePort], cx
; mov [eax + 20], ch ; Remote Port ( LS 16 bits )
; mov [eax + 21], cl ; Remote Port ( LS 16 bits )
mov ebx, [stack_ip]
mov [eax + SOCKET.LocalIP], ebx
mov [eax + SOCKET.RemoteIP], edx
mov [eax + SOCKET.rxDataCount], dword 0
; Now fill in TCB state
mov ebx, TCB_LISTEN
cmp esi, SOCKET_PASSIVE
jz sot_001
mov ebx, TCB_SYN_SENT
sot_001:
mov [eax + SOCKET.TCBState], ebx ; Indicate the state of the TCB
mov esi, [0x3010]
mov ecx, [esi+TASKDATA.pid]
mov [eax + SOCKET.PID], ecx ; save the process ID
cmp ebx, TCB_LISTEN
je sot_done
; Now, if we are in active mode, then we have to send a SYN to the specified remote port
mov eax, EMPTY_QUEUE
call dequeue
cmp ax, NO_BUFFER
je sot_done
push eax
mov bl, 0x02 ; SYN
mov ecx, 0
call buildTCPPacket
mov eax, NET1OUT_QUEUE
mov edx, [stack_ip]
mov ecx, [sktAddr ]
mov ecx, [ecx + 16]
cmp edx, ecx
jne sot_notlocal
mov eax, IPIN_QUEUE
sot_notlocal:
; Send it.
pop ebx
call queue
mov esi, [sktAddr]
; increment SND.NXT in socket
add esi, 48
call inc_inet_esi
sot_done:
pop eax ; Get the socket number back, so we can return it
sot_exit:
ret
;***************************************************************************
; Function
; socket_close
;
; Description
; socket # in ebx
; returns 0 for ok, -1 for socket not open (fail)
;
;***************************************************************************
socket_close:
Index2RealAddr ebx
mov eax, 0xFFFFFFFF ; assume this operation will fail..
cmp [ebx + SOCKET.Status], dword SOCK_EMPTY
jz sc_exit
; Clear the socket varaibles
xor eax, eax
mov edi, ebx
mov ecx, SOCKETHEADERSIZE
cld
rep stosb
sc_exit:
ret
;***************************************************************************
; Function
; socket_close_tcp
;
; Description
; socket # in ebx
; returns 0 for ok, -1 for socket not open (fail)
;
;***************************************************************************
socket_close_tcp:
; first, remove any resend entries
pusha
mov esi, resendQ
mov ecx, 0
sct001:
cmp ecx, NUMRESENDENTRIES
je sct003 ; None left
cmp [esi], bl
je sct002 ; found one
inc ecx
add esi, 4
jmp sct001
sct002:
mov [esi], byte 0xFF
jmp sct001
sct003:
popa
Index2RealAddr ebx
mov [sktAddr], ebx
mov eax, 0xFFFFFFFF ; assume this operation will fail..
cmp [ebx + SOCKET.Status], dword SOCK_EMPTY
jz sct_exit
; Now construct the response, and queue for sending by IP
mov eax, EMPTY_QUEUE
call dequeue
cmp ax, NO_BUFFER
je stl_exit
push eax
mov bl, 0x11 ; FIN + ACK
mov ecx, 0
mov esi, 0
call buildTCPPacket
mov ebx, [sktAddr]
; increament SND.NXT in socket
mov esi, 48
add esi, ebx
call inc_inet_esi
; Get the socket state
mov eax, [ebx + SOCKET.TCBState]
cmp eax, TCB_LISTEN
je destroyTCB
cmp eax, TCB_SYN_SENT
je destroyTCB
cmp eax, TCB_SYN_RECEIVED
je sct_finwait1
cmp eax, TCB_ESTABLISHED
je sct_finwait1
; assume CLOSE WAIT
; Send a fin, then enter last-ack state
mov eax, TCB_LAST_ACK
mov [ebx + SOCKET.TCBState], eax
xor eax, eax
jmp sct_send
sct_finwait1:
; Send a fin, then enter finwait2 state
mov eax, TCB_FIN_WAIT_1
mov [ebx + SOCKET.TCBState], eax
xor eax, eax
sct_send:
mov eax, NET1OUT_QUEUE
mov edx, [stack_ip]
mov ecx, [sktAddr ]
mov ecx, [ecx + 16]
cmp edx, ecx
jne sct_notlocal
mov eax, IPIN_QUEUE
sct_notlocal:
; Send it.
pop ebx
call queue
jmp sct_exit
destroyTCB:
pop eax
; Clear the socket varaibles
xor eax, eax
mov edi, ebx
mov ecx, SOCKETHEADERSIZE
cld
rep stosb
sct_exit:
ret
;***************************************************************************
; Function
; socket_poll
;
; Description
; socket # in ebx
; returns count in eax.
;
;***************************************************************************
socket_poll:
Index2RealAddr ebx
mov eax, [ebx + SOCKET.rxDataCount]
ret
;***************************************************************************
; Function
; socket_status
;
; Description
; socket # in ebx
; returns TCB state in eax.
;
;***************************************************************************
socket_status:
Index2RealAddr ebx
mov eax, [ebx + SOCKET.TCBState]
ret
;***************************************************************************
; Function
; socket_read
;
; Description
; socket # in ebx
; returns # of bytes remaining in eax, data in bl
;
;***************************************************************************
socket_read:
Index2RealAddr ebx
mov eax, [ebx + SOCKET.rxDataCount] ; get count of bytes
mov ecx, 1
test eax, eax
jz sr2
dec eax
mov esi, ebx ; esi is address of socket
mov [ebx + SOCKET.rxDataCount], eax ; store new count
;movzx ebx, byte [ebx + SOCKET.rxData] ; get the byte
movzx ebx, byte [ebx + SOCKETHEADERSIZE] ; get the byte
add esi, SOCKETHEADERSIZE
mov edi, esi
inc esi
mov ecx, (SOCKETBUFFSIZE - SOCKETHEADERSIZE) / 4
cld
rep movsd
xor ecx, ecx
sr1:
jmp sor_exit
sr2:
xor bl, bl
sor_exit:
ret
;***************************************************************************
; Function
; socket_write
;
; Description
; socket in ebx
; # of bytes to write in ecx
; pointer to data in edx
; returns 0 in eax ok, -1 == failed ( invalid socket, or
; could not queue IP packet )
;
;***************************************************************************
socket_write:
Index2RealAddr ebx
mov eax, 0xFFFFFFFF
; If the socket is invalid, return with an error code
cmp [ebx], dword SOCK_EMPTY
je sw_exit
mov eax, EMPTY_QUEUE
call dequeue
cmp ax, NO_BUFFER
je sw_exit
; Save the queue entry number
push eax
; save the pointers to the data buffer & size
push edx
push ecx
; convert buffer pointer eax to the absolute address
mov ecx, IPBUFFSIZE
mul ecx
add eax, IPbuffs
mov edx, eax
; So, ebx holds the socket ptr, edx holds the IPbuffer ptr
; Fill in the IP header ( some data is in the socket descriptor)
mov eax, [ebx + 8]
mov [edx + 12], eax ; source IP
mov eax, [ebx + 16]
mov [edx + 16], eax ; Destination IP
mov al, 0x45
mov [edx], al ; Version, IHL
xor al, al
mov [edx + 1], al ; Type of service
pop eax ; Get the UDP data length
push eax
add eax, 20 + 8 ; add IP header and UDP header lengths
mov [edx + 2], ah
mov [edx + 3], al
xor al, al
mov [edx + 4], al
mov [edx + 5], al
mov al, 0x40
mov [edx + 6], al
xor al, al
mov [edx + 7], al
mov al, 0x20
mov [edx + 8], al
mov al, 17
mov [edx + 9], al
; Checksum left unfilled
xor ax, ax
mov [edx + 10], ax
; Fill in the UDP header ( some data is in the socket descriptor)
mov ax, [ebx + 12]
mov [edx + 20], ax
mov ax, [ebx + 20]
mov [edx + 20 + 2], ax
pop eax
push eax
add eax, 8
mov [edx + 20 + 4], ah
mov [edx + 20 + 5], al
; Checksum left unfilled
xor ax, ax
mov [edx + 20 + 6], ax
pop ecx ; count of bytes to send
mov ebx, ecx ; need the length later
pop eax ; get callers ptr to data to send
; Get the address of the callers data
mov edi, [0x3010]
add edi, TASKDATA.mem_start
add eax, [edi]
mov esi, eax
mov edi, edx
add edi, 28
cld
rep movsb ; copy the data across
; we have edx as IPbuffer ptr.
; Fill in the UDP checksum
; First, fill in pseudoheader
mov eax, [edx + 12]
mov [pseudoHeader], eax
mov eax, [edx + 16]
mov [pseudoHeader+4], eax
mov ax, 0x1100 ; 0 + protocol
mov [pseudoHeader+8], ax
add ebx, 8
mov eax, ebx
mov [pseudoHeader+10], ah
mov [pseudoHeader+11], al
mov eax, pseudoHeader
mov [checkAdd1], eax
mov [checkSize1], word 12
mov eax, edx
add eax, 20
mov [checkAdd2], eax
mov eax, ebx
mov [checkSize2], ax ; was eax!! mjh 8/7/02
call checksum
; store it in the UDP checksum ( in the correct order! )
mov ax, [checkResult]
; If the UDP checksum computes to 0, we must make it 0xffff
; (0 is reserved for 'not used')
cmp ax, 0
jne sw_001
mov ax, 0xffff
sw_001:
mov [edx + 20 + 6], ah
mov [edx + 20 + 7], al
; Fill in the IP header checksum
GET_IHL ecx,edx ; get IP-Header length
stdcall checksum_jb,edx,ecx ; buf_ptr, buf_size
mov [edx + 10], ah
mov [edx + 11], al
; Check destination IP address.
; If it is the local host IP, route it back to IP_RX
pop ebx
mov eax, NET1OUT_QUEUE
mov ecx, [ edx + 16]
mov edx, [stack_ip]
cmp edx, ecx
jne sw_notlocal
mov eax, IPIN_QUEUE
sw_notlocal:
; Send it.
call queue
xor eax, eax
sw_exit:
ret
;***************************************************************************
; Function
; socket_write_tcp
;
; Description
; socket in ebx
; # of bytes to write in ecx
; pointer to data in edx
; returns 0 in eax ok, -1 == failed ( invalid socket, or
; could not queue IP packet )
;
;***************************************************************************
socket_write_tcp:
Index2RealAddr ebx
mov [sktAddr], ebx
mov eax, 0xFFFFFFFF
; If the socket is invalid, return with an error code
cmp [ebx], dword SOCK_EMPTY
je swt_exit
; If the sockets window timer is nonzero, do not queue packet
; TODO - done
cmp [ebx + SOCKET.wndsizeTimer], dword 0
jne swt_exit
mov eax, EMPTY_QUEUE
call dequeue
cmp ax, NO_BUFFER
je swt_exit
push eax
mov bl, 0x10 ; ACK
; Get the address of the callers data
mov edi, [0x3010]
add edi, TASKDATA.mem_start
add edx, [edi]
mov esi, edx
pop eax
push eax
push ecx
call buildTCPPacket
pop ecx
; Check destination IP address.
; If it is the local host IP, route it back to IP_RX
pop ebx
push ecx
mov eax, NET1OUT_QUEUE
mov edx, [stack_ip]
mov ecx, [sktAddr ]
mov ecx, [ecx + 16]
cmp edx, ecx
jne swt_notlocal
mov eax, IPIN_QUEUE
swt_notlocal:
pop ecx
push ebx ; save ipbuffer number
call queue
mov esi, [sktAddr]
; increament SND.NXT in socket
; Amount to increment by is in ecx
add esi, 48
call add_inet_esi
pop ebx
; Copy the IP buffer to a resend queue
; If there isn't one, dont worry about it for now
mov esi, resendQ
mov ecx, 0
swt003:
cmp ecx, NUMRESENDENTRIES
je swt001 ; None found
cmp [esi], byte 0xFF
je swt002 ; found one
inc ecx
add esi, 4
jmp swt003
swt002:
push ebx
; OK, we have a buffer descriptor ptr in esi.
; resend entry # in ecx
; Populate it
; socket #
; retries count
; retry time
; fill IP buffer associated with this descriptor
mov eax, [sktAddr]
sub eax, sockets
shr eax, 12 ; get skt #
mov [esi], al
mov [esi + 1], byte TCP_RETRIES
mov [esi + 2], word TCP_TIMEOUT
inc ecx
; Now get buffer location, and copy buffer across. argh! more copying,,
mov edi, resendBuffer - IPBUFFSIZE
swt002a:
add edi, IPBUFFSIZE
loop swt002a
; we have dest buffer location in edi
pop eax
; convert source buffer pointer eax to the absolute address
mov ecx, IPBUFFSIZE
mul ecx
add eax, IPbuffs
mov esi, eax
; do copy
mov ecx, IPBUFFSIZE
cld
rep movsb
swt001:
xor eax, eax
swt_exit:
ret

File diff suppressed because it is too large Load Diff

View File

@ -14,6 +14,23 @@
;; gets below 1KB ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; TCP TCB states
TCB_LISTEN equ 1
TCB_SYN_SENT equ 2
TCB_SYN_RECEIVED equ 3
TCB_ESTABLISHED equ 4
TCB_FIN_WAIT_1 equ 5
TCB_FIN_WAIT_2 equ 6
TCB_CLOSE_WAIT equ 7
TCB_CLOSING equ 8
TCB_LAST_ACK equ 9
TCB_TIME_WAIT equ 10
TCB_CLOSED equ 11
TWOMSL equ 10 ; # of secs to wait before closing socket
TCP_RETRIES equ 5 ; Number of times to resend a packet
TCP_TIMEOUT equ 10 ; resend if not replied to in x hs
;*******************************************************************
; Interface
@ -27,6 +44,48 @@
;*******************************************************************
; TCP Payload ( Data field in IP datagram )
;
; 0 1 2 3
; 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
;20 | Source Port | Destination Port |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
;24 | Sequence Number |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
;28 | Acknowledgment Number |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
;32 | Data | |U|A|P|R|S|F| |
; | Offset| Reserved |R|C|S|S|Y|I| Window |
; | | |G|K|H|T|N|N| |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
;36 | Checksum | Urgent Pointer |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
;40 | Options | Padding |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; | data
struc TCP_PACKET
{ .SourcePort dw ? ;+00
.DestinationPort dw ? ;+02
.SequenceNumber dd ? ;+04
.AckNumber dd ? ;+08
.DataOffset db ? ;+12 - DataOffset[0-3 bits] and Reserved[4-7]
.Flags db ? ;+13 - Reserved[0-1 bits]|URG|ACK|PSH|RST|SYN|FIN
.Window dw ? ;+14
.Checksum dw ? ;+16
.UrgentPointer dw ? ;+18
.Options rb 3 ;+20
.Padding db ? ;+23
.Data db ? ;+24
}
virtual at 0
TCP_PACKET TCP_PACKET
end virtual
;***************************************************************************
; Function
@ -116,7 +175,7 @@ tth001:
cmp ecx, NUMRESENDENTRIES
je tth003 ; None left
cmp [esi], byte 0xFF
jne tth002 ; found one
jne tth002 ; found one
inc ecx
add esi, 4
jmp tth001
@ -126,7 +185,7 @@ tth002:
dec word [esi+2]
mov ax, [esi+2]
cmp ax, 0
je tth002a
je tth002a
inc ecx
add esi, 4
jmp tth001 ; Timer not zero, so move on
@ -494,15 +553,9 @@ btp_001:
mov [edx + 20 + 17], al
; Fill in the IP header checksum
mov eax, edx
mov [checkAdd1], eax
mov [checkSize1], word 20
mov [checkAdd2], dword 0
mov [checkSize2], word 0
GET_IHL eax,edx ; get IP-Header length
stdcall checksum_jb,edx,eax ; buf_ptr, buf_size
call checksum
mov ax, [checkResult]
mov [edx + 10], ah
mov [edx + 11], al

View File

@ -21,16 +21,43 @@
;*******************************************************************
;
; UDP Payload ( Data field in IP datagram )
;
; 0 1 2 3
; 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
;
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; | Source Port | Destination Port |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; | Length ( UDP Header + Data ) | Checksum |
; +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
; | UDP Data |
; +-+-+-.......... -+
;
struc UDP_PACKET
{ .SourcePort dw ? ;+00
.DestinationPort dw ? ;+02
.Length dw ? ;+04 - Length of (UDP Header + Data)
.Checksum dw ? ;+06
.Data db ? ;+08
}
virtual at 0
UDP_PACKET UDP_PACKET
end virtual
;***************************************************************************
; Function
; udp_rx
; udp_rx [by Johnny_B]
;
; Description
; UDP protocol handler
; This is a kernel function, called by ip_rx
; IP buffer address given in edx
; IP buffer number in eax
; Free up (or re-use) IP buffer when finished
;
;***************************************************************************
@ -134,4 +161,3 @@ udprx_001:
pop eax
call freeBuff ; Discard the packet
ret