kolibrios-gitea/drivers/ethernet/i8255x.asm
hidnplayr 97e49e498f Fixed eeprom reading for certain chips, detect PHY ID, improved reset.
git-svn-id: svn://kolibrios.org@6717 a494cfbc-eb01-0410-851d-a64ba20cac60
2016-11-15 21:34:09 +00:00

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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2016. 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 ;;
;; ;;
;; Some parts of this driver are based on the code of eepro100.c ;;
;; from linux. ;;
;; ;;
;; Intel's programming manual for i8255x: ;;
;; http://www.intel.com/design/network/manuals/8255x_opensdm.htm ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;TODO: use more RX buffers
format PE DLL native
entry START
CURRENT_API = 0x0200
COMPATIBLE_API = 0x0100
API_VERSION = (COMPATIBLE_API shl 16) + CURRENT_API
MAX_DEVICES = 16
TX_RING_SIZE = 16
DEBUG = 1
__DEBUG__ = 1
__DEBUG_LEVEL__ = 2 ; 1 = verbose, 2 = errors only
section '.flat' readable writable executable
include '../proc32.inc'
include '../struct.inc'
include '../macros.inc'
include '../fdo.inc'
include '../netdrv.inc'
; I/O registers
REG_SCB_STATUS = 0
REG_SCB_CMD = 2
REG_SCB_PTR = 4
REG_PORT = 8
REG_EEPROM = 14
REG_MDI_CTRL = 16
; Port commands
PORT_SOFT_RESET = 0x0
PORT_SELF_TEST = 0x1
PORT_SELECTIVE_RESET = 0x2
PORT_DUMP = 0x3
PORT_DUMP_WAKEUP = 0x7
PORT_PTR_MASK = 0xfffffff0
; Serial EEPROM
EE_SK = 1 shl 0 ; serial clock
EE_CS = 1 shl 1 ; chip select
EE_DI = 1 shl 2 ; data in
EE_DO = 1 shl 3 ; data out
EE_MASK = EE_SK + EE_CS + EE_DI + EE_DO
; opcodes, first bit is start bit and must be 1
EE_READ = 110b
EE_WRITE = 101b
EE_ERASE = 111b
; The SCB accepts the following controls for the Tx and Rx units:
CU_START = 0x0010
CU_RESUME = 0x0020
CU_STATSADDR = 0x0040
CU_SHOWSTATS = 0x0050 ; Dump statistics counters.
CU_CMD_BASE = 0x0060 ; Base address to add CU commands.
CU_DUMPSTATS = 0x0070 ; Dump then reset stats counters.
RX_START = 0x0001
RX_RESUME = 0x0002
RX_ABORT = 0x0004
RX_ADDR_LOAD = 0x0006
RX_RESUMENR = 0x0007
INT_MASK = 0x0100
DRVR_INT = 0x0200 ; Driver generated interrupt
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
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
SCB_STATUS_RUS = 111100b ; RU Status
RU_STATUS_IDLE = 0000b shl 2
RU_STATUS_SUSPENDED = 0001b shl 2
RU_STATUS_NO_RESOURCES = 0010b shl 2
RU_STATUS_READY = 0100b shl 2
SCB_STATUS_FCP = 1 shl 8 ; Flow Control Pause
SCB_STATUS_SWI = 1 shl 10 ; Software Interrupt
SCB_STATUS_MDI = 1 shl 11 ; MDI read/write complete
SCB_STATUS_RNR = 1 shl 12 ; Receiver Not Ready
SCB_STATUS_CNA = 1 shl 13 ; Command unit Not Active
SCB_STATUS_FR = 1 shl 14 ; Frame received
SCB_STATUS_CX_TNO = 1 shl 15 ; Command finished / Transmit Not Okay
struct rxfd
status dw ?
command dw ?
link dd ?
rx_buf_addr dd ?
count dw ?
size dw ?
packet rb 1500
ends
RXFD_STATUS_RC = 1 shl 0 ; Receive collision
RXFD_STATUS_IA = 1 shl 1 ; IA mismatch
RXFD_STATUS_NA = 1 shl 2 ; No address match
RXFD_STATUS_RE = 1 shl 4 ; Receive Error
RXFD_STATUS_TL = 1 shl 5 ; Type/length
RXFD_STATUS_FS = 1 shl 7 ; Frame too short
RXFD_STATUS_DMA_FAIL = 1 shl 8 ; DMA overrun failure
RXFD_STATUS_NR = 1 shl 9 ; Out of buffer space; no resources
RXFD_STATUS_MISA = 1 shl 10 ; Alignment error
RXFD_STATUS_CRC_ERR = 1 shl 11 ; CRC error in aligned frame
RXFD_STATUS_OK = 1 shl 13 ; Frame received and stored
RXFD_STATUS_C = 1 shl 15 ; Completion of frame reception
RXFD_CMD_SF = 1 shl 3
RXFD_CMD_H = 1 shl 4 ; Header RFD
RXFD_CMD_SUSPEND = 1 shl 14 ; Suspends RU after receiving the frame
RXFD_CMD_EL = 1 shl 15 ; Last RFD in RFA
struct txfd
status dw ?
command dw ?
link dd ?
desc_addr dd ?
count dd ?
buf_addr dd ?
buf_size dd ?
virt_addr dd ?
dd ? ; alignment
ends
TXFD_CMD_IA = 1 shl 0
TXFD_CMD_CFG = 1 shl 1
TXFD_CMD_TX = 1 shl 2
TXFD_CMD_TX_FLEX = 1 shl 3
TXFD_CMD_SUSPEND = 1 shl 14
struc confcmd {
.status dw ?
.command dw ?
.link dd ?
.data rb 64
}
struc 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 ?
}
struct device ETH_DEVICE
io_addr dd ?
pci_bus dd ?
pci_dev dd ?
rx_desc dd ?
cur_tx dd ?
last_tx dd ?
ee_bus_width db ?
irq_line db ?
rb 0x100 - ($ and 0xff) ; align 256
tx_ring rb TX_RING_SIZE*sizeof.txfd
rb 0x100 - ($ and 0xff) ; align 256
confcmd confcmd
rb 0x100 - ($ and 0xff) ; align 256
lstats lstats
ends
;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; proc START ;;
;; ;;
;; (standard driver proc) ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;
proc START c, state:dword
cmp [state], 1
jne .exit
.entry:
DEBUGF 1,"Loading driver\n"
invoke 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, [edx + IOCTL.io_code]
;------------------------------------------------------
cmp eax, 0 ;SRV_GETVERSION
jne @F
cmp [edx + IOCTL.out_size], 4
jb .fail
mov eax, [edx + IOCTL.output]
mov [eax], dword API_VERSION
xor eax, eax
ret
;------------------------------------------------------
@@:
cmp eax, 1 ;SRV_HOOK
jne .fail
cmp [edx + IOCTL.inp_size], 3 ; Data input must be at least 3 bytes
jb .fail
mov eax, [edx + 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, [edx + IOCTL.input] ; get the pci bus and device numbers
mov ax , [eax+1] ;
.nextdevice:
mov ebx, [esi]
cmp al, byte[ebx + device.pci_bus]
jne @f
cmp ah, byte[ebx + device.pci_dev]
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
jae .fail
allocate_and_clear ebx, sizeof.device, .fail ; Allocate the buffer for device structure
; Fill in the direct call addresses into the struct
mov [ebx + device.reset], reset
mov [ebx + device.transmit], transmit
mov [ebx + device.unload], unload
mov [ebx + device.name], devicename
; save the pci bus and device numbers
mov eax, [edx + IOCTL.input]
movzx ecx, byte[eax+1]
mov [ebx + device.pci_bus], ecx
movzx ecx, byte[eax+2]
mov [ebx + device.pci_dev], ecx
; Now, it's time to find the base io addres of the PCI device
stdcall PCI_find_io, [ebx + device.pci_bus], [ebx + device.pci_dev]
mov [ebx + device.io_addr], eax
; We've found the io address, find IRQ now
invoke PciRead8, [ebx + device.pci_bus], [ebx + device.pci_dev], PCI_header00.interrupt_line
mov [ebx + device.irq_line], al
DEBUGF 1,"Hooking into device, devfn:%x, bus:%x, irq:%x, addr:%x\n",\
[ebx + device.pci_dev]:2,[ebx + device.pci_bus]:2,[ebx + device.irq_line]:2,[ebx + device.io_addr]:4
; Ok, the eth_device structure is ready, let's probe the device
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] ;
call probe ; this function will output in eax
test eax, eax
jnz .err ; If an error occured, exit
mov [ebx + device.type], NET_TYPE_ETH
invoke 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"
invoke 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:
invoke 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\n"
; Make the device a bus master
invoke PciRead32, [ebx + device.pci_bus], [ebx + device.pci_dev], PCI_header00.command
or al, PCI_CMD_MASTER or PCI_CMD_PIO
invoke PciWrite32, [ebx + device.pci_bus], [ebx + device.pci_dev], PCI_header00.command, eax
;---------------------------
; First, identify the device
invoke PciRead32, [ebx + device.pci_bus], [ebx + device.pci_dev], PCI_header.vendor_id ; 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 2,"Unsupported device!\n"
or eax, -1
ret
.found:
;----------
;
; Reset
;
;----------
align 4
reset:
movzx eax, [ebx + device.irq_line]
DEBUGF 1,"Attaching int handler to irq %x\n", eax:1
invoke AttachIntHandler, eax, int_handler, ebx
test eax, eax
jnz @f
DEBUGF 2,"Could not attach int handler!\n"
or eax, -1
ret
@@:
DEBUGF 1,"Resetting\n"
;----------------
; Selective reset
set_io [ebx + device.io_addr], 0
set_io [ebx + device.io_addr], REG_EEPROM
mov eax, PORT_SELECTIVE_RESET
out dx, eax
mov esi, 1
invoke Sleep
;-----------
; Soft reset
set_io [ebx + device.io_addr], REG_PORT
mov eax, PORT_SOFT_RESET
out dx, eax
mov esi, 10
invoke Sleep
;-------------
; Read PHY IDs
mov cx, 1
mov dx, MII_PHYSID1
call mdio_read
DEBUGF 1, "PHY ID1: 0x%x\n", ax
mov cx, 1
mov dx, MII_PHYSID2
call mdio_read
DEBUGF 1, "PHY ID2: 0x%x\n", ax
;---------------------
; Read MAC from eeprom
call ee_get_width
call mac_read_eeprom
;---------------------------------
; Tell device where to store stats
lea eax, [ebx + device.lstats.tx_good_frames] ; lstats
invoke GetPhysAddr
set_io [ebx + device.io_addr], 0
set_io [ebx + device.io_addr], REG_SCB_PTR
out dx, eax
set_io [ebx + device.io_addr], REG_SCB_CMD
mov ax, CU_STATSADDR or INT_MASK
out dx, ax
call cmd_wait
;------------------------
; setup RX base addr to 0
set_io [ebx + device.io_addr], REG_SCB_PTR
xor eax, eax
out dx, eax
set_io [ebx + device.io_addr], REG_SCB_CMD
mov ax, RX_ADDR_LOAD or INT_MASK
out dx, ax
call cmd_wait
;-----------------------------
; Create RX and TX descriptors
call init_rx_ring
test eax, eax
jz .error
call init_tx_ring
;---------
; Start RX
DEBUGF 1, "Starting RX"
set_io [ebx + device.io_addr], 0
set_io [ebx + device.io_addr], REG_SCB_PTR
mov eax, [ebx + device.rx_desc]
invoke GetPhysAddr
add eax, NET_BUFF.data
out dx, eax
set_io [ebx + device.io_addr], REG_SCB_CMD
mov ax, RX_START or INT_MASK
out dx, ax
call cmd_wait
;----------
; Set-up TX
set_io [ebx + device.io_addr], REG_SCB_PTR
xor eax, eax
out dx, eax
set_io [ebx + device.io_addr], REG_SCB_CMD
mov ax, CU_CMD_BASE or INT_MASK
out dx, ax
call cmd_wait
;-------------------------
; Individual address setup
mov [ebx + device.confcmd.command], TXFD_CMD_IA + TXFD_CMD_SUSPEND
mov [ebx + device.confcmd.status], 0
lea eax, [ebx + device.tx_ring]
invoke GetPhysAddr
mov [ebx + device.confcmd.link], eax
lea edi, [ebx + device.confcmd.data]
lea esi, [ebx + device.mac]
movsd
movsw
set_io [ebx + device.io_addr], REG_SCB_PTR
lea eax, [ebx + device.confcmd.status]
invoke GetPhysAddr
out dx, eax
set_io [ebx + device.io_addr], REG_SCB_CMD
mov ax, CU_START or INT_MASK
out dx, ax
call cmd_wait
;-------------
; Configure CU
mov [ebx + device.confcmd.command], TXFD_CMD_CFG + TXFD_CMD_SUSPEND
mov [ebx + device.confcmd.status], 0
lea eax, [ebx + device.confcmd.status]
invoke GetPhysAddr
mov [ebx + device.confcmd.link], eax
mov esi, confcmd_data
lea edi, [ebx + device.confcmd.data]
mov ecx, 22
rep movsb
mov byte[ebx + device.confcmd.data + 1], 0x88 ; fifo of 8 each
mov byte[ebx + device.confcmd.data + 4], 0
mov byte[ebx + device.confcmd.data + 5], 0x80
mov byte[ebx + device.confcmd.data + 15], 0x48
mov byte[ebx + device.confcmd.data + 19], 0x80
mov byte[ebx + device.confcmd.data + 21], 0x05
set_io [ebx + device.io_addr], REG_SCB_PTR
lea eax, [ebx + device.confcmd.status]
invoke GetPhysAddr
out dx, eax
set_io [ebx + device.io_addr], REG_SCB_CMD
mov ax, CU_START ; expect Interrupts from now on
out dx, ax
call cmd_wait
DEBUGF 1,"Reset complete\n"
mov [ebx + device.mtu], 1514
; Set link state to unknown
mov [ebx + device.state], ETH_LINK_UNKNOWN
xor eax, eax ; indicate that we have successfully reset the card
ret
.error:
or eax, -1
ret
align 4
init_rx_ring:
DEBUGF 1,"Creating ring\n"
;---------------------
; build rxfd structure
invoke NetAlloc, 2000
test eax, eax
jz .out_of_mem
mov [ebx + device.rx_desc], eax
mov esi, eax
invoke GetPhysAddr
add eax, NET_BUFF.data
mov [esi + sizeof.NET_BUFF + rxfd.status], 0
mov [esi + sizeof.NET_BUFF + rxfd.command], RXFD_CMD_EL or RXFD_CMD_SUSPEND
mov [esi + sizeof.NET_BUFF + rxfd.link], eax
mov [esi + sizeof.NET_BUFF + rxfd.count], 0
mov [esi + sizeof.NET_BUFF + rxfd.size], 1528
ret
.out_of_mem:
ret
align 4
init_tx_ring:
DEBUGF 1,"Creating TX ring\n"
lea esi, [ebx + device.tx_ring]
mov eax, esi
invoke GetPhysAddr
mov ecx, TX_RING_SIZE
.next_desc:
mov [esi + txfd.status], 0
mov [esi + txfd.command], 0
lea edx, [eax + txfd.buf_addr]
mov [esi + txfd.desc_addr], edx
add eax, sizeof.txfd
mov [esi + txfd.link], eax
mov [esi + txfd.count], 0x01208000 ; One buffer, 0x20 bytes of transmit threshold, end of frame
add esi, sizeof.txfd
dec ecx
jnz .next_desc
lea eax, [ebx + device.tx_ring]
invoke GetPhysAddr
mov dword[ebx + device.tx_ring + sizeof.txfd*(TX_RING_SIZE-1) + txfd.link], eax
mov [ebx + device.cur_tx], 0
mov [ebx + device.last_tx], 0
ret
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Transmit ;;
;; ;;
;; In: pointer to device structure in ebx ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
proc transmit stdcall bufferptr
pushf
cli
mov esi, [bufferptr]
DEBUGF 1,"Transmitting packet, buffer:%x, size:%u\n", [bufferptr], [esi + NET_BUFF.length]
lea eax, [esi + NET_BUFF.data]
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 [esi + NET_BUFF.length], 1514
ja .fail
cmp [esi + NET_BUFF.length], 60
jb .fail
; Get current TX descriptor
mov edi, [ebx + device.cur_tx]
mov eax, sizeof.txfd
mul edi
lea edi, [ebx + device.tx_ring + eax]
; Check if current descriptor is free or still in use
cmp [edi + txfd.status], 0
jne .fail
; Fill in status and command values
mov [edi + txfd.status], 0
mov [edi + txfd.command], TXFD_CMD_SUSPEND + TXFD_CMD_TX + TXFD_CMD_TX_FLEX
mov [edi + txfd.count], 0x01208000
; Fill in buffer address and size
mov [edi + txfd.virt_addr], esi
mov eax, esi
add eax, [esi + NET_BUFF.offset]
push edi
invoke GetPhysAddr
pop edi
mov [edi + txfd.buf_addr], eax
mov ecx, [esi + NET_BUFF.length]
mov [edi + txfd.buf_size], ecx
; Inform device of the new/updated transmit descriptor
mov eax, edi
invoke GetPhysAddr
set_io [ebx + device.io_addr], 0
set_io [ebx + device.io_addr], REG_SCB_PTR
out dx, eax
; Start the transmit
set_io [ebx + device.io_addr], REG_SCB_CMD
mov ax, CU_START
out dx, ax
; Update stats
inc [ebx + device.packets_tx]
add dword[ebx + device.bytes_tx], ecx
adc dword[ebx + device.bytes_tx + 4], 0
; Wait for command to complete
call cmd_wait
inc [ebx + device.cur_tx]
and [ebx + device.cur_tx], TX_RING_SIZE - 1
DEBUGF 1,"Transmit OK\n"
popf
xor eax, eax
ret
.fail:
DEBUGF 2,"Transmit failed!\n"
invoke NetFree, [bufferptr]
popf
or eax, -1
ret
endp
;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Interrupt handler ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;
align 4
int_handler:
push ebx esi edi
DEBUGF 1,"INT\n"
; find pointer of device wich made IRQ occur
mov ecx, [devices]
test ecx, ecx
jz .nothing
mov esi, device_list
.nextdevice:
mov ebx, [esi]
; set_io [ebx + device.io_addr], 0 ; REG_SCB_STATUS = 0
set_io [ebx + device.io_addr], REG_SCB_STATUS
in ax, dx
out dx, ax ; send it back to ACK
test ax, ax
jnz .got_it
.continue:
add esi, 4
dec ecx
jnz .nextdevice
.nothing:
pop edi esi ebx
xor eax, eax
ret ; If no device was found, abort (The irq was probably for a device, not registered to this driver)
.got_it:
DEBUGF 1,"Device: %x Status: %x\n", ebx, ax
test ax, SCB_STATUS_FR ; did we receive a frame?
jz .no_rx
push ax
DEBUGF 1,"Receiving\n"
push ebx
.rx_loop:
pop ebx
mov esi, [ebx + device.rx_desc]
test [esi + sizeof.NET_BUFF + rxfd.status], RXFD_STATUS_C ; Completed?
jz .no_rx_
test [esi + sizeof.NET_BUFF + rxfd.status], RXFD_STATUS_OK ; OK?
jz .not_ok
DEBUGF 1,"rxfd status=0x%x\n", [esi + sizeof.NET_BUFF + rxfd.status]:4
movzx ecx, [esi + sizeof.NET_BUFF + rxfd.count]
and ecx, 0x3fff
push ebx
push .rx_loop
push esi
mov [esi + NET_BUFF.length], ecx
mov [esi + NET_BUFF.device], ebx
mov [esi + NET_BUFF.offset], NET_BUFF.data + rxfd.packet
; Update stats
add dword [ebx + device.bytes_rx], ecx
adc dword [ebx + device.bytes_rx + 4], 0
inc dword [ebx + device.packets_rx]
; allocate new descriptor
invoke NetAlloc, 2000
test eax, eax
jz .out_of_mem
mov [ebx + device.rx_desc], eax
mov esi, eax
invoke GetPhysAddr
add eax, NET_BUFF.data
mov [esi + sizeof.NET_BUFF + rxfd.status], 0
mov [esi + sizeof.NET_BUFF + rxfd.command], RXFD_CMD_EL or RXFD_CMD_SUSPEND
mov [esi + sizeof.NET_BUFF + rxfd.link], eax
mov [esi + sizeof.NET_BUFF + rxfd.count], 0
mov [esi + sizeof.NET_BUFF + rxfd.size], 1528
; restart RX
set_io [ebx + device.io_addr], 0
set_io [ebx + device.io_addr], REG_SCB_PTR
; mov eax, [ebx + device.rx_desc]
; invoke GetPhysAddr
; add eax, NET_BUFF.data
out dx, eax
set_io [ebx + device.io_addr], REG_SCB_CMD
mov ax, RX_START
out dx, ax
call cmd_wait
.out_of_mem:
; Hand the frame over to the kernel
jmp [EthInput]
.not_ok:
; Reset the FD
mov [esi + sizeof.NET_BUFF + rxfd.status], 0
mov [esi + sizeof.NET_BUFF + rxfd.command], RXFD_CMD_EL or RXFD_CMD_SUSPEND
mov [esi + sizeof.NET_BUFF + rxfd.count], 0
; Restart RX
set_io [ebx + device.io_addr], 0
set_io [ebx + device.io_addr], REG_SCB_PTR
mov eax, esi
invoke GetPhysAddr
add eax, NET_BUFF.data
out dx, eax
set_io [ebx + device.io_addr], REG_SCB_CMD
mov ax, RX_START
out dx, ax
call cmd_wait
push ebx
jmp .rx_loop
.no_rx_:
DEBUGF 1, "no more data\n"
pop ax
.no_rx:
test ax, SCB_STATUS_CNA
jz .no_tx
DEBUGF 1, "Command completed\n"
push eax
.loop_tx:
mov edi, [ebx + device.last_tx]
mov eax, sizeof.txfd
mul eax
lea edi, [ebx + device.tx_ring + eax]
cmp [edi + txfd.status], 0
je .tx_done
cmp [edi + txfd.virt_addr], 0
je .tx_done
DEBUGF 1,"Freeing buffer 0x%x\n", [edi + txfd.virt_addr]
push [edi + txfd.virt_addr]
mov [edi + txfd.virt_addr], 0
invoke NetFree
inc [ebx + device.last_tx]
and [ebx + device.last_tx], TX_RING_SIZE - 1
jmp .loop_tx
.tx_done:
pop eax
.no_tx:
test ax, RU_STATUS_NO_RESOURCES
jne .fail
DEBUGF 2, "Out of resources!\n"
.fail:
pop edi esi ebx
xor eax, eax
inc eax
ret
align 4
cmd_wait:
in al, dx
test al, al
jnz cmd_wait
ret
align 4
ee_read: ; esi = address to read
DEBUGF 1,"Eeprom read from 0x%x\n", esi
set_io [ebx + device.io_addr], 0
set_io [ebx + device.io_addr], REG_EEPROM
;-----------------------------------------------------
; Prepend start bit + read opcode to the address field
; and shift it to the very left bits of esi
mov cl, 29
sub cl, [ebx + device.ee_bus_width]
shl esi, cl
or esi, EE_READ shl 29
movzx ecx, [ebx + device.ee_bus_width]
add ecx, 3
mov ax, 0x4800 + EE_CS
out dx, ax
call udelay
;-----------------------
; Write this to the chip
.loop:
mov al, EE_CS
shl esi, 1
jnc @f
or al, EE_DI
@@:
out dx, al
call udelay
or al, EE_SK
out dx, al
call udelay
loop .loop
;------------------------------
; Now read the data from eeprom
xor esi, esi
mov ecx, 16
.loop2:
shl esi, 1
mov al, EE_CS
out dx, al
call udelay
or al, EE_SK
out dx, al
call udelay
in al, dx
test al, EE_DO
jz @f
inc esi
@@:
loop .loop2
;-----------------------
; de-activate the eeprom
xor al, al
out dx, al
DEBUGF 1,"0x%x\n", esi:4
ret
align 4
ee_write: ; esi = address to write to, di = data
DEBUGF 1,"Eeprom write 0x%x to 0x%x\n", di, esi
set_io [ebx + device.io_addr], 0
set_io [ebx + device.io_addr], REG_EEPROM
;-----------------------------------------------------
; Prepend start bit + write opcode to the address field
; and shift it to the very left bits of esi
mov cl, 29
sub cl, [ebx + device.ee_bus_width]
shl esi, cl
or esi, EE_WRITE shl 29
movzx ecx, [ebx + device.ee_bus_width]
add ecx, 3
mov ax, 0x4800 + EE_CS ; enable chip
out dx, ax
;-----------------------
; Write this to the chip
.loop:
mov al, EE_CS
shl esi, 1
jnc @f
or al, EE_DI
@@:
out dx, al
call udelay
or al, EE_SK
out dx, al
call udelay
loop .loop
;-----------------------------
; Now write the data to eeprom
mov ecx, 16
.loop2:
mov al, EE_CS
shl di, 1
jnc @f
or al, EE_DI
@@:
out dx, al
call udelay
or al, EE_SK
out dx, al
call udelay
loop .loop2
;-----------------------
; de-activate the eeprom
xor al, al
out dx, al
ret
align 4
ee_get_width:
set_io [ebx + device.io_addr], 0
set_io [ebx + device.io_addr], REG_EEPROM
mov ax, 0x4800 + EE_CS ; activate eeprom
out dx, ax
call udelay
mov si, EE_READ shl 13
xor ecx, ecx
.loop:
mov al, EE_CS
shl si, 1
jnc @f
or al, EE_DI
@@:
out dx, ax
call udelay
or al, EE_SK
out dx, ax
call udelay
inc ecx
cmp ecx, 15
jae .give_up
in al, dx
test al, EE_DO
jnz .loop
xor al, al
out dx, al ; de-activate eeprom
sub cl, 3 ; dont count the opcode bits
mov [ebx + device.ee_bus_width], cl
DEBUGF 1, "Eeprom width=%u bit\n", ecx
ret
.give_up:
DEBUGF 2, "Eeprom not found!\n"
xor al, al
out dx, al ; de-activate eeprom
ret
; Wait a minimum of 2<>s
udelay:
pusha
mov esi, 1
invoke Sleep
popa
ret
; cx = phy addr
; dx = phy reg addr
; ax = data
align 4
mdio_read:
DEBUGF 1,"MDIO read\n"
shl ecx, 21 ; PHY addr
mov eax, ecx
shl edx, 16 ; PHY reg addr
or eax, edx
or eax, 10b shl 26 ; read opcode
set_io [ebx + device.io_addr], 0
set_io [ebx + device.io_addr], REG_MDI_CTRL
out dx, eax
.wait:
call udelay
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:
DEBUGF 1,"MDIO write\n"
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 [ebx + device.io_addr], 0
set_io [ebx + device.io_addr], REG_MDI_CTRL
out dx, eax
.wait:
call udelay
in eax, dx
test eax, 1 shl 28 ; ready bit
jz .wait
ret
align 4
mac_read_eeprom:
mov esi, 0
call ee_read
mov word[ebx + device.mac], si
mov esi, 1
call ee_read
mov word[ebx + device.mac+2], si
mov esi, 2
call ee_read
mov word[ebx + device.mac+4], si
ret
; End of code
data fixups
end data
include '../peimport.inc'
my_service db 'I8255X', 0 ; max 16 chars include zero
devicename db 'Intel Etherexpress pro/100', 0
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 ; 22 bytes total
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
include_debug_strings ; All data wich FDO uses will be included here
align 4
devices dd 0 ; number of currently running devices
device_list rd MAX_DEVICES ; This list contains all pointers to device structures the driver is handling