kolibrios-gitea/kernel/branches/net/drivers/i8255x.asm

;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;                                                                 ;;
;; Copyright (C) KolibriOS team 2004-2011. All rights reserved.    ;;
;; Distributed under terms of the GNU General Public License       ;;
;;                                                                 ;;
;; i8255x (Intel eepro 100) driver for KolibriOS                   ;;
;;                                                                 ;;
;;    Written by hidnplayr@kolibrios.org                           ;;
;;                                                                 ;;
;;          GNU GENERAL PUBLIC LICENSE                             ;;
;;             Version 2, June 1991                                ;;
;;                                                                 ;;
;;                                                                 ;;
;; Good read about how to program this family of devices:          ;;
;; http://www.intel.com/design/network/manuals/8255x_opensdm.htm   ;;
;;                                                                 ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;


format MS COFF

	API_VERSION		equ 0x01000100
	DRIVER_VERSION		equ 5

	MAX_DEVICES		equ 16

	DEBUG			equ 1
	__DEBUG__		equ 1
	__DEBUG_LEVEL__ 	equ 1

include 'proc32.inc'
include 'imports.inc'
include 'fdo.inc'
include 'netdrv.inc'

public START
public service_proc
public version

virtual at ebx

	device:

	ETH_DEVICE

	.io_addr	dd ?
	.pci_bus	db ?
	.pci_dev	db ?
	.irq_line	db ?

	.rx_buffer	dd ?
	.tx_buffer	dd ?

	.ee_bus_width	dd ?

	rb 5+8 ;;;; align

	rxfd:
	.status 	dw ?
	.command	dw ?
	.link		dd ?
	.rx_buf_addr	dd ?
	.count		dw ?
	.size		dw ?
	.packet 	dd ?

	rb 12 ;;;;

	txfd:
	.status 	dw ?
	.command	dw ?
	.link		dd ?
	.tx_desc_addr	dd ?
	.count		dd ?
	.tx_buf_addr0	dd ?
	.tx_buf_size0	dd ?
	.tx_buf_addr1	dd ?
	.tx_buf_size1	dd ?

	confcmd:
	.status:	dw ?
	.command:	dw ?
	.link:		dd ?
	.data		rb 64

	lstats:
	tx_good_frames		dd ?
	tx_coll16_errs		dd ?
	tx_late_colls		dd ?
	tx_underruns		dd ?
	tx_lost_carrier 	dd ?
	tx_deferred		dd ?
	tx_one_colls		dd ?
	tx_multi_colls		dd ?
	tx_total_colls		dd ?

	rx_good_frames		dd ?
	rx_crc_errs		dd ?
	rx_align_errs		dd ?
	rx_resource_errs	dd ?
	rx_overrun_errs 	dd ?
	rx_colls_errs		dd ?
	rx_runt_errs		dd ?

	device_size = $ - device

end virtual


; Serial EEPROM

EE_SK		equ 1 shl 16   ; serial clock
EE_CS		equ 1 shl 17   ; chip select
EE_DI		equ 1 shl 18   ; data in
EE_DO		equ 1 shl 19   ; data out

EE_READ 	equ 110b
EE_WRITE	equ 101b
EE_ERASE	equ 111b

; 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

CmdIASetup	equ 0x0001
CmdConfigure	equ 0x0002
CmdTx		equ 0x0004 ;;;;
CmdTxFlex	equ 0x0008 ;;;
Cmdsuspend	equ 0x4000


reg_scb_status	equ 0
reg_scb_cmd	equ 2
reg_scb_ptr	equ 4
reg_port	equ 8
reg_eeprom_ctrl equ 12
reg_eeprom	equ 14
reg_mdi_ctrl	equ 16


macro delay {
	push	eax
	in	eax, dx
	in	eax, dx
	in	eax, dx
	in	eax, dx
	in	eax, dx
	in	eax, dx
	in	eax, dx
	in	eax, dx
	in	eax, dx
	in	eax, dx
	pop	eax
}

section '.flat' code readable align 16

;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;                        ;;
;; proc START             ;;
;;                        ;;
;; (standard driver proc) ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;

proc START stdcall, state:dword

	cmp [state], 1
	jne .exit

  .entry:

	DEBUGF 1,"Loading i8255x driver\n"
	stdcall RegService, my_service, service_proc
	ret

  .fail:
  .exit:
	xor eax, eax
	ret

endp


;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;                        ;;
;; proc SERVICE_PROC      ;;
;;                        ;;
;; (standard driver proc) ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;

align 4
proc service_proc stdcall, ioctl:dword

	mov	edx, [ioctl]
	mov	eax, [IOCTL.io_code]

;------------------------------------------------------

	cmp	eax, 0 ;SRV_GETVERSION
	jne	@F

	cmp	[IOCTL.out_size], 4
	jl	.fail
	mov	eax, [IOCTL.output]
	mov	[eax], dword API_VERSION

	xor	eax, eax
	ret

;------------------------------------------------------
  @@:
	cmp	eax, 1 ;SRV_HOOK
	jne	.fail

	cmp	[IOCTL.inp_size], 3		  ; Data input must be at least 3 bytes
	jl	.fail

	mov	eax, [IOCTL.input]
	cmp	byte [eax], 1				; 1 means device number and bus number (pci) are given
	jne	.fail					; other types arent supported for this card yet

; check if the device is already listed

	mov	esi, device_list
	mov	ecx, [devices]
	test	ecx, ecx
	jz	.firstdevice

;        mov     eax, [IOCTL.input]                      ; get the pci bus and device numbers
	mov	ax , [eax+1]				;
  .nextdevice:
	mov	ebx, [esi]
	cmp	ax , word [device.pci_bus]		; compare with pci and device num in device list (notice the usage of word instead of byte)
	je	.find_devicenum 			; Device is already loaded, let's find it's device number
	add	esi, 4
	loop	.nextdevice


; This device doesnt have its own eth_device structure yet, lets create one
  .firstdevice:
	cmp	[devices], MAX_DEVICES			; First check if the driver can handle one more card
	jge	.fail

	push	edx
	stdcall KernelAlloc, device_size
	pop	edx
	test	eax, eax
	jz	.fail
	mov	ebx, eax				; ebx is always used as a pointer to the structure (in driver, but also in kernel code)

; Fill in the direct call addresses into the struct

	mov	[device.reset], reset
	mov	[device.transmit], transmit
;        mov     [device.get_MAC], read_mac
	mov	[device.set_MAC], MAC_write
	mov	[device.unload], unload
	mov	[device.name], my_service

; save the pci bus and device numbers

	mov	eax, [IOCTL.input]
	mov	cl , [eax+1]
	mov	[device.pci_bus], cl
	mov	cl , [eax+2]
	mov	[device.pci_dev], cl

; Now, it's time to find the base io addres of the PCI device

	find_io [device.pci_bus], [device.pci_dev], [device.io_addr]

; We've found the io address, find IRQ now

	find_irq [device.pci_bus], [device.pci_dev], [device.irq_line]

	DEBUGF	2,"Hooking into device, dev:%x, bus:%x, irq:%x, addr:%x\n",\
	[device.pci_dev]:1,[device.pci_bus]:1,[device.irq_line]:1,[device.io_addr]:4

	allocate_and_clear [device.rx_buffer], (4096), .err
	allocate_and_clear [device.tx_buffer], (4096), .err

; Ok, the eth_device structure is ready, let's probe the device

	call	probe							; this function will output in eax
	test	eax, eax
	jnz	.err							; If an error occured, exit

	mov	eax, [devices]						; Add the device structure to our device list
	mov	[device_list+4*eax], ebx				; (IRQ handler uses this list to find device)
	inc	[devices]						;


	mov	[device.type], NET_TYPE_ETH
	call	NetRegDev

	cmp	eax, -1
	je	.err

	ret

; If the device was already loaded, find the device number and return it in eax

  .find_devicenum:
	DEBUGF	2,"Trying to find device number of already registered device\n"
	call	NetPtrToNum						; This kernel procedure converts a pointer to device struct in ebx
									; into a device number in edi
	mov	eax, edi						; Application wants it in eax instead
	DEBUGF	2,"Kernel says: %u\n", eax
	ret

; If an error occured, remove all allocated data and exit (returning -1 in eax)

  .err:
	stdcall KernelFree, [device.rx_buffer]
	stdcall KernelFree, [device.tx_buffer]
	stdcall KernelFree, ebx

  .fail:
	or	eax, -1
	ret

;------------------------------------------------------
endp





;;/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\;;
;;                                                                        ;;
;;        Actual Hardware dependent code starts here                      ;;
;;                                                                        ;;
;;/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\;;


unload:
	; TODO: (in this particular order)
	;
	; - Stop the device
	; - Detach int handler
	; - Remove device from local list (device_list)
	; - call unregister function in kernel
	; - Remove all allocated structures and buffers the card used

	or	eax,-1

ret


;-------------
;
; Probe
;
;-------------

align 4
probe:

	DEBUGF	1,"Probing i8255x\n"

	make_bus_master [device.pci_bus], [device.pci_dev]

;---------------------------
; First, identify the device

	movzx	ecx, [device.pci_bus]
	movzx	edx, [device.pci_dev]
	stdcall PciRead32, ecx ,edx ,0				      ; get device/vendor id

	DEBUGF	1,"Vendor_id=0x%x\n", ax

	cmp	ax, 0x8086
	jne	.notfound
	shr	eax, 16

	DEBUGF	1,"Device_id=0x%x\n", ax

	mov	ecx, DEVICE_IDs
	mov	edi, device_id_list
	repne	scasw
	jne	.notfound
	jmp	.found

  .notfound:
	DEBUGF	1,"ERROR: Unsupported device!\n"
	or	eax, -1
	ret

  .found:

	call	ee_get_width
	call	MAC_read_eeprom

	;;; TODO: detect phy



;----------
;
;  Reset
;
;----------

align 4
reset:

;---------------
; reset the card

	set_io	0
	set_io	reg_port
	xor	eax, eax	; Software Reset
	out	dx, eax

	mov	esi, 10
	call	Sleep		; Give the card time to warm up.

;---------------------------------
; Tell device where to store stats

	lea	eax, [lstats]
	GetRealAddr
	set_io	reg_scb_ptr
	out	dx, eax

	mov	ax, INT_MASK + CU_STATSADDR
	set_io	reg_scb_cmd
	out	dx, ax
	call	cmd_wait

;-----------------
; Set CU base to 0

	xor	eax, eax
	set_io	reg_scb_ptr
	out	dx, eax

	mov	ax, INT_MASK + RX_ADDR_LOAD
	set_io	reg_scb_cmd
	out	dx, ax
	call	cmd_wait

;---------------------
; build rxfd structure

	mov	ax, 0x0001
	mov	[rxfd.status], ax
	mov	ax, 0x0000
	mov	[rxfd.command], ax

	lea	eax, [rxfd.status]
	GetRealAddr
	mov	[rxfd.link], eax

	lea	eax, [device.rx_buffer]
	GetRealAddr
	mov	[rxfd.rx_buf_addr], eax

	xor	ax, ax
	mov	[rxfd.count], ax

	mov	ax, 1528
	mov	[rxfd.size], ax

;-------------------------------
; Set ptr to first command block

	set_io	reg_scb_ptr
	lea	eax, [rxfd]
	GetRealAddr
	out	dx, eax

	set_io	reg_scb_cmd
	mov	ax, INT_MASK + RX_START
	out	dx, ax
	call	cmd_wait

;-------------------
; start the receiver

	mov	[rxfd.status], 0
	mov	[rxfd.command], 0xc000

	set_io	reg_scb_ptr
	lea	eax, [rxfd]
	GetRealAddr
	out	dx, eax

	set_io	reg_scb_cmd
	mov	ax, INT_MASK + RX_START
	out	dx, ax
	call	cmd_wait

;-----------------
; set CU base to 0

	set_io	reg_scb_ptr
	xor	eax, eax
	out	dx, eax

	set_io	reg_scb_cmd
	mov	ax, INT_MASK + CU_CMD_BASE
	out	dx, ax
	call	cmd_wait

;--------------------
; Set TX Base address

; First, set up confcmd values

	mov	[txfd.command], CmdIASetup
	mov	[txfd.status], 0
	lea	eax, [confcmd]
	GetRealAddr
	mov	[txfd.link], eax

	mov	word [confcmd.command], Cmdsuspend + CmdConfigure
	mov	word [confcmd.status], 0
	lea	eax, [txfd]
	GetRealAddr
	mov	[confcmd.link], eax

	mov	byte [confcmd.data + 1], 0x88  ; fifo of 8 each
	mov	byte [confcmd.data + 4], 0
	mov	byte [confcmd.data + 5], 0x80
	mov	byte [confcmd.data + 15], 0x48
	mov	byte [confcmd.data + 19], 0x80
	mov	byte [confcmd.data + 21], 0x05


; CU start

;        lea     eax, [txfd]
;        GetRealAddr
	set_io	0
	set_io	reg_scb_ptr
	out	dx, eax

	mov	ax, INT_MASK + CU_START
	set_io	reg_scb_cmd
	out	dx, ax
	call	cmd_wait

; wait for thing to start

;  drp004:
;
;        cmp     [txfd.status], 0
;        jz      drp004

; Indicate that we have successfully reset the card


;;; enable interrupts

	xor	eax, eax

	ret





;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;                                         ;;
;; Transmit                                ;;
;;                                         ;;
;; In: buffer pointer in [esp+4]           ;;
;;     size of buffer in [esp+8]           ;;
;;     pointer to device structure in ebx  ;;
;;                                         ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;

align 4
transmit:

	DEBUGF	1,"Transmitting packet, buffer:%x, size:%u\n",[esp+4],[esp+8]
	mov	eax, [esp+4]
	DEBUGF	1,"To: %x-%x-%x-%x-%x-%x From: %x-%x-%x-%x-%x-%x Type:%x%x\n",\
	[eax+00]:2,[eax+01]:2,[eax+02]:2,[eax+03]:2,[eax+04]:2,[eax+05]:2,\
	[eax+06]:2,[eax+07]:2,[eax+08]:2,[eax+09]:2,[eax+10]:2,[eax+11]:2,\
	[eax+13]:2,[eax+12]:2

	cmp	dword [esp+8], 1500
	jg	.finish 			; packet is too long
	cmp	dword [esp+8], 60
	jl	.finish 			; packet is too short

	set_io	0
	in	ax, dx
	and	ax, 0xfc00
	out	dx, ax

	mov	[txfd.status], 0
	mov	[txfd.command], Cmdsuspend + CmdTx + CmdTxFlex
	lea	eax, [txfd]
	GetRealAddr
	mov	[txfd.link], eax
	mov	[txfd.count], 0x02208000
	lea	eax, [txfd.tx_buf_addr0]
	GetRealAddr
	mov	[txfd.tx_desc_addr], eax

	mov	eax, [esp+4]
	mov	[txfd.tx_buf_addr0], eax
	mov	eax, [esp+8]
	mov	[txfd.tx_buf_size0], eax

	; Copy the buffer address and size in
	mov	[txfd.tx_buf_addr1], 0
	mov	[txfd.tx_buf_size1], 0

	lea	eax, [txfd]
	GetRealAddr
	set_io	reg_scb_ptr
	out	dx, eax

	mov	ax, INT_MASK + CU_START
	set_io	reg_scb_cmd
	out	dx, ax

	call	cmd_wait

	in	ax, dx

  .I8t_001:
	cmp	[txfd.status], 0
	je	.I8t_001

	in	ax, dx

  .finish:
	ret	8



;;;;;;;;;;;;;;;;;;;;;;;
;;                   ;;
;; Interrupt handler ;;
;;                   ;;
;;;;;;;;;;;;;;;;;;;;;;;

align 4
int_handler:

	DEBUGF	1,"IRQ %x ",eax:2		    ; no, you cant replace 'eax:2' with 'al', this must be a bug in FDO

; find pointer of device wich made IRQ occur

	mov	esi, device_list
	mov	ecx, [devices]
	test	ecx, ecx
	jz	.fail
.nextdevice:
	mov	ebx, dword [esi]

	set_io	0
  ;;      set_io  REG_ISR
   ;;     in      ax , dx
    ;;    out     dx , ax                             ; send it back to ACK

	add	esi, 4

	test	ax , ax
	jnz	.got_it

	dec	ecx
	jnz	.nextdevice

	ret					    ; If no device was found, abort (The irq was probably for a device, not registered to this driver)

  .got_it:


       ;;; receive

	cmp	[rxfd.status], 0
	je	.nodata

	mov	[rxfd.status], 0
	mov	[rxfd.command], 0xc000

	set_io	reg_scb_ptr
	lea	eax, [rxfd.status]
	GetRealAddr
	out	dx, eax

	set_io	reg_scb_cmd
	mov	ax, INT_MASK + RX_START
	out	dx, ax

	call	cmd_wait

	movzx	ecx, [rxfd.count]
	and	ecx, 0x3fff

	stdcall KernelAlloc, ecx	; Allocate a buffer to put packet into
	push	ecx
	push	eax

	lea	esi, [device.rx_buffer]

  .copy:
	shr	ecx, 1
	jnc	.nb
	movsb
  .nb:
	shr	ecx, 1
	jnc	.nw
	movsw
  .nw:
	jz	.nd
	rep	movsd
  .nd:

	jmp	EthReceiver			    ; Send it to kernel

  .nodata:
  .fail:

	ret




align 4
cmd_wait:

	in	al, dx
	test	al, al
	jnz	cmd_wait

	ret






align 4
ee_read:	; esi = address to read

	set_io	0
	set_io	reg_eeprom

;-----------------------------------------------------
; Prepend start bit + read opcode to the address field
; and shift it to the very left bits of esi

	mov	ecx, 32
	sub	ecx, [device.ee_bus_width]
	shl	esi, cl
	or	esi, EE_READ shl 28

	mov	ecx, [device.ee_bus_width]
	add	ecx, 3

;-----------------------
; Write this to the chip

  .loop:
	mov	eax, EE_CS
	shl	esi, 1
	jnc	@f
	or	eax, EE_DI
       @@:
	out	dx , eax
	delay

	or	eax, EE_SK
	out	dx , eax
	delay

	loop	.loop

;------------------------------
; Now read the data from eeprom

	xor	esi, esi
	mov	ecx, 16

  .loop2:
	mov	eax, EE_CS + EE_SK
	out	dx , eax
	delay

	in	eax, dx
	test	eax, EE_DO
	jz	@f
	inc	esi
       @@:
	shl	esi, 1

	mov	eax, EE_CS
	out	dx , eax
	delay

	loop	.loop2

;-----------------------
; de-activate the eeprom

	xor	eax, eax
	out	dx, eax


	DEBUGF	1,"data=%x\n", esi
	ret



align 4
ee_write:	; esi = address to write to, di = data

	set_io	0
	set_io	reg_eeprom

;-----------------------------------------------------
; Prepend start bit + write opcode to the address field
; and shift it to the very left bits of esi

	mov	ecx, 32
	sub	ecx, [device.ee_bus_width]
	shl	esi, cl
	or	esi, EE_WRITE shl 28

	mov	ecx, [device.ee_bus_width]
	add	ecx, 3

;-----------------------
; Write this to the chip

  .loop:
	mov	eax, EE_CS
	shl	esi, 1
	jnc	@f
	or	eax, EE_DI
       @@:
	out	dx , eax
	delay

	or	eax, EE_SK
	out	dx , eax
	delay

	loop	.loop

;-----------------------------
; Now write the data to eeprom

	mov	ecx, 16

  .loop2:
	mov	eax, EE_CS
	shl	di , 1
	jnc	@f
	or	eax, EE_DI
       @@:
	out	dx , eax
	delay

	or	eax, EE_SK
	out	dx , eax
	delay

	loop	.loop2

;-----------------------
; de-activate the eeprom

	xor	eax, eax
	out	dx, eax


	ret



align 4
ee_get_width:

	set_io	0
	set_io	reg_eeprom

	mov	esi, EE_READ shl 28
	xor	ecx, ecx

  .loop:
	mov	eax, EE_CS
	out	dx , eax
	delay

	or	eax, EE_SK
	out	dx , eax
	delay

	inc	ecx

	in	eax, dx
	test	eax, EE_DO
	jnz	.loop

	mov	[device.ee_bus_width], ecx

;------------------------------
; Now read the data from eeprom

	mov	ecx, 16
  .loop2:
	mov	eax, EE_CS + EE_SK
	out	dx , eax
	delay

	mov	eax, EE_CS
	out	dx , eax
	delay
	loop	.loop2

;-----------------------
; de-activate the eeprom

	xor	eax, eax
	out	dx, eax

	ret



; cx = phy addr
; dx = phy reg addr

; ax = data

align 4
mdio_read:

	shl	ecx, 21 		; PHY addr
	shl	edx, 16 		; PHY reg addr

	mov	eax, ecx
	or	eax, edx
	or	eax, 10b shl 26 	; read opcode

	set_io	0
	set_io	reg_mdi_ctrl
	out	dx, eax

  .wait:
	delay
	in	eax, dx
	test	eax, 1 shl 28		; ready bit
	jz	.wait

	ret

; ax = data
; cx = phy addr
; dx = phy reg addr

; ax = data

align 4
mdio_write:

	and	eax, 0xffff

	shl	ecx, 21 		; PHY addr
	shl	edx, 16 		; PHY reg addr

	or	eax, ecx
	or	eax, edx
	or	eax, 01b shl 26 	; write opcode

	set_io	0
	set_io	reg_mdi_ctrl
	out	dx, eax

  .wait:
	delay
	in	eax, dx
	test	eax, 1 shl 28		; ready bit
	jz	.wait

	ret



align 4
MAC_read_eeprom:

;;;;

	ret


align 4
MAC_write:

;;;;

	ret




; End of code

align 4 					; Place all initialised data here

devices       dd 0				; number of currently running devices
version       dd (DRIVER_VERSION shl 16) or (API_VERSION and 0xFFFF)
my_service    db 'i8255x',0			; max 16 chars include zero
devicename    db 'Intel Etherexpress pro/100',0


device_id_list:

	dw 0x1029
	dw 0x1030
	dw 0x1031
	dw 0x1032
	dw 0x1033
	dw 0x1034
	dw 0x1038
	dw 0x1039
	dw 0x103A
	dw 0x103B
	dw 0x103C
	dw 0x103D
	dw 0x103E
	dw 0x1050
	dw 0x1051
	dw 0x1052
	dw 0x1053
	dw 0x1054
	dw 0x1055
	dw 0x1056
	dw 0x1057
	dw 0x1059
	dw 0x1064
	dw 0x1065
	dw 0x1066
	dw 0x1067
	dw 0x1068
	dw 0x1069
	dw 0x106A
	dw 0x106B
	dw 0x1091
	dw 0x1092
	dw 0x1093
	dw 0x1094
	dw 0x1095
	dw 0x10fe
	dw 0x1209
	dw 0x1229
	dw 0x2449
	dw 0x2459
	dw 0x245D
	dw 0x27DC

DEVICE_IDs = ($ - device_id_list) / 2

mac_82557_D100_A  = 0
mac_82557_D100_B  = 1
mac_82557_D100_C  = 2
mac_82558_D101_A4 = 4
mac_82558_D101_B0 = 5
mac_82559_D101M   = 8
mac_82559_D101S   = 9
mac_82550_D102	  = 12
mac_82550_D102_C  = 13
mac_82551_E	  = 14
mac_82551_F	  = 15
mac_82551_10	  = 16
mac_unknown	  = 0xFF

phy_100a     = 0x000003E0
phy_100c     = 0x035002A8
phy_82555_tx = 0x015002A8
phy_nsc_tx   = 0x5C002000
phy_82562_et = 0x033002A8
phy_82562_em = 0x032002A8
phy_82562_ek = 0x031002A8
phy_82562_eh = 0x017002A8
phy_82552_v  = 0xd061004d
phy_unknown  = 0xFFFFFFFF


include_debug_strings				; All data wich FDO uses will be included here

section '.data' data readable writable align 16 ; place all uninitialized data place here

device_list   rd MAX_DEVICES			; This list contains all pointers to device structures the driver is handling