10,8 → 10,10 |
;; GNU GENERAL PUBLIC LICENSE ;; |
;; Version 2, June 1991 ;; |
;; ;; |
;; Some parts of this driver are based on the code of eepro100.c ;; |
;; from linux. ;; |
;; ;; |
;; Good read about how to program this family of devices: ;; |
;; Intel's programming manual for i8255x: ;; |
;; http://www.intel.com/design/network/manuals/8255x_opensdm.htm ;; |
;; ;; |
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; |
44,28 → 46,16 |
ETH_DEVICE |
|
.io_addr dd ? |
.pci_bus db ? |
.pci_dev db ? |
.pci_bus dd ? |
.pci_dev dd ? |
.irq_line db ? |
|
.rx_buffer dd ? |
.tx_buffer dd ? |
.rx_desc dd ? |
|
.ee_bus_width dd ? |
.ee_bus_width db ? |
|
rb 0x100 - (($ - device) and 0xff) |
|
rxfd: |
.status dw ? |
.command dw ? |
.link dd ? |
.rx_buf_addr dd ? |
.count dw ? |
.size dw ? |
.packet dd ? |
|
rb 0x100 - (($ - device) and 0xff) |
|
txfd: |
.status dw ? |
.command dw ? |
72,17 → 62,16 |
.link dd ? |
.tx_desc_addr dd ? |
.count dd ? |
|
.tx_buf_addr0 dd ? |
.tx_buf_size0 dd ? |
.tx_buf_addr1 dd ? |
.tx_buf_size1 dd ? |
|
rb 0x100 - (($ - device) and 0xff) |
|
confcmd: |
.status: dw ? |
.command: dw ? |
.link: dd ? |
.status dw ? |
.command dw ? |
.link dd ? |
.data rb 64 |
|
rb 0x100 - (($ - device) and 0xff) |
106,11 → 95,27 |
rx_colls_errs dd ? |
rx_runt_errs dd ? |
|
last_tx_buffer dd ? ;;; fixme |
|
sizeof.device_struct = $ - device |
|
end virtual |
|
|
virtual at 0 |
|
rxfd: |
.status dw ? |
.command dw ? |
.link dd ? |
.rx_buf_addr dd ? |
.count dw ? |
.size dw ? |
.packet: |
|
end virtual |
|
|
; Serial EEPROM |
|
EE_SK = 1 shl 0 ; serial clock |
117,7 → 122,9 |
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 |
128,7 → 135,7 |
CU_RESUME = 0x0020 |
CU_STATSADDR = 0x0040 |
CU_SHOWSTATS = 0x0050 ; Dump statistics counters. |
CU_CMD_BASE = 0x0060 ; Base address to add to add CU commands. |
CU_CMD_BASE = 0x0060 ; Base address to add CU commands. |
CU_DUMPSTATS = 0x0070 ; Dump then reset stats counters. |
|
RX_START = 0x0001 |
141,8 → 148,8 |
|
CmdIASetup = 0x0001 |
CmdConfigure = 0x0002 |
CmdTx = 0x0004 ;;;; |
CmdTxFlex = 0x0008 ;;; |
CmdTx = 0x0004 |
CmdTxFlex = 0x0008 |
Cmdsuspend = 0x4000 |
|
|
150,7 → 157,6 |
reg_scb_cmd = 2 |
reg_scb_ptr = 4 |
reg_port = 8 |
reg_eeprom_ctrl = 12 |
reg_eeprom = 14 |
reg_mdi_ctrl = 16 |
|
157,16 → 163,16 |
|
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 |
in ax, dx |
in ax, dx |
in ax, dx |
in ax, dx |
in ax, dx |
in ax, dx |
in ax, dx |
in ax, dx |
in ax, dx |
in ax, dx |
pop eax |
} |
|
247,8 → 253,11 |
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) |
cmp al, byte[device.pci_bus] |
jne @f |
cmp ah, byte[device.pci_dev] |
je .find_devicenum ; Device is already loaded, let's find it's device number |
@@: |
add esi, 4 |
loop .nextdevice |
|
272,27 → 281,27 |
; 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 |
movzx ecx, byte[eax+1] |
mov [device.pci_bus], ecx |
movzx ecx, byte[eax+2] |
mov [device.pci_dev], ecx |
|
; 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] |
PCI_find_io |
|
; We've found the io address, find IRQ now |
|
find_irq [device.pci_bus], [device.pci_dev], [device.irq_line] |
PCI_find_irq |
|
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 |
|
pushf |
cli ; disable ints until initialisation is done |
|
call probe ; this function will output in eax |
test eax, eax |
jnz .err ; If an error occured, exit |
301,6 → 310,7 |
mov [device_list+4*eax], ebx ; (IRQ handler uses this list to find device) |
inc [devices] ; |
|
popf |
|
mov [device.type], NET_TYPE_ETH |
call NetRegDev |
323,8 → 333,6 |
; 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: |
370,14 → 378,12 |
|
DEBUGF 1,"Probing i8255x\n" |
|
make_bus_master [device.pci_bus], [device.pci_dev] |
PCI_make_bus_master |
|
;--------------------------- |
; First, identify the device |
|
movzx ecx, [device.pci_bus] |
movzx edx, [device.pci_dev] |
stdcall PciRead32, ecx ,edx ,0 ; get device/vendor id |
stdcall PciRead32, [device.pci_bus], [device.pci_dev], PCI_VENDOR_ID ; get device/vendor id |
|
DEBUGF 1,"Vendor_id=0x%x\n", ax |
|
416,6 → 422,18 |
align 4 |
reset: |
|
movzx eax, [device.irq_line] |
DEBUGF 1,"Attaching int handler to irq %x\n", eax:1 |
stdcall AttachIntHandler, eax, int_handler, dword 0 |
test eax, eax |
jnz @f |
DEBUGF 1,"\nCould not attach int handler!\n" |
; or eax, -1 |
; ret |
@@: |
|
DEBUGF 1,"Resetting %s\n", my_service |
|
;--------------- |
; reset the card |
|
432,6 → 450,7 |
|
lea eax, [lstats] |
GetRealAddr |
set_io 0 |
set_io reg_scb_ptr |
out dx, eax |
|
441,70 → 460,36 |
call cmd_wait |
|
;----------------- |
; Set CU base to 0 |
; setup RX |
|
set_io reg_scb_ptr |
xor eax, eax |
set_io reg_scb_ptr |
out dx, eax |
|
set_io reg_scb_cmd |
mov ax, INT_MASK + RX_ADDR_LOAD |
set_io reg_scb_cmd |
out dx, ax |
call cmd_wait |
|
;--------------------- |
; build rxfd structure |
;----------------------------- |
; Create RX and TX descriptors |
|
mov ax, 0x0001 |
mov [rxfd.status], ax |
mov ax, 0x0000 |
mov [rxfd.command], ax |
call create_ring |
|
lea eax, [rxfd.status] |
GetRealAddr |
mov [rxfd.link], eax |
; RX start |
|
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 0 |
set_io reg_scb_ptr |
lea eax, [rxfd] |
mov eax, [device.rx_desc] |
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-up TX |
|
set_io reg_scb_ptr |
xor eax, eax |
516,22 → 501,18 |
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 |
mov [confcmd.command], CmdConfigure + Cmdsuspend |
mov [confcmd.status], 0 |
lea eax, [txfd] |
GetRealAddr |
mov [confcmd.link], eax |
|
mov esi, confcmd_data |
lea edi, [confcmd.data] |
mov ecx, 22 |
rep movsb |
|
mov byte [confcmd.data + 1], 0x88 ; fifo of 8 each |
mov byte [confcmd.data + 4], 0 |
mov byte [confcmd.data + 5], 0x80 |
539,34 → 520,81 |
mov byte [confcmd.data + 19], 0x80 |
mov byte [confcmd.data + 21], 0x05 |
|
mov [txfd.command], CmdIASetup |
mov [txfd.status], 0 |
lea eax, [confcmd] |
GetRealAddr |
mov [txfd.link], eax |
|
; CU start |
;;; copy in our MAC |
|
; lea eax, [txfd] |
; GetRealAddr |
set_io 0 |
lea edi, [txfd.tx_desc_addr] |
lea esi, [device.mac] |
movsd |
movsw |
|
set_io reg_scb_ptr |
lea eax, [txfd] |
GetRealAddr |
out dx, eax |
|
mov ax, INT_MASK + CU_START |
; Start CU & enable ints |
|
set_io reg_scb_cmd |
mov ax, CU_START |
out dx, ax |
call cmd_wait |
|
; wait for thing to start |
;----------------------- |
; build txfd structure (again!) |
|
; drp004: |
; |
; cmp [txfd.status], 0 |
; jz drp004 |
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 |
|
; Indicate that we have successfully reset the card |
|
DEBUGF 1,"Resetting %s complete\n", my_service |
|
;;; enable interrupts |
mov [device.mtu], 1514 |
xor eax, eax ; indicate that we have successfully reset the card |
|
xor eax, eax |
ret |
|
|
align 4 |
create_ring: |
|
DEBUGF 1,"Creating ring\n" |
|
;--------------------- |
; build rxfd structure |
|
stdcall KernelAlloc, 2000 |
mov [device.rx_desc], eax |
mov esi, eax |
GetRealAddr |
mov [esi + rxfd.status], 0x0000 |
mov [esi + rxfd.command], 0x0000 |
mov [esi + rxfd.link], eax |
mov [esi + rxfd.count], 0 |
mov [esi + rxfd.size], 1528 |
|
;----------------------- |
; build txfd structure |
|
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 |
|
ret |
|
|
593,55 → 621,54 |
[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 |
cmp dword [esp+8], 1514 |
ja .error ; packet is too long |
cmp dword [esp+8], 60 |
jb .error ; 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] |
;;; TODO: check if current descriptor is in use |
; fill in buffer address and size |
mov eax, [esp+4] |
mov [last_tx_buffer], eax ;;; FIXME |
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 |
mov [txfd.status], 0 |
mov [txfd.command], Cmdsuspend + CmdTx + CmdTxFlex + 1 shl 15 ;;; EL bit |
|
; mov [txfd.count], 0x02208000 ;;;;;;;;;;; |
|
; Inform device of the new/updated transmit descriptor |
lea eax, [txfd] |
GetRealAddr |
set_io 0 |
set_io reg_scb_ptr |
out dx, eax |
|
mov ax, INT_MASK + CU_START |
; Start the transmit |
mov ax, CU_START |
set_io reg_scb_cmd |
out dx, ax |
|
call cmd_wait |
|
in ax, dx |
; set_io 0 ;; why? |
; in ax, dx ;; |
; |
; @@: |
; cmp [txfd.status], 0 ; wait for completion? dont seems a good idea to me.. |
; je @r |
; |
; set_io 0 ;; why? |
; in ax, dx ;; |
|
.I8t_001: |
cmp [txfd.status], 0 |
je .I8t_001 |
; Update stats |
inc [device.packets_tx] |
mov eax, [esp + 8] |
add dword [device.bytes_tx], eax |
adc dword [device.bytes_tx + 4], 0 |
|
in ax, dx |
|
.finish: |
xor eax, eax |
ret 8 |
|
670,7 → 697,7 |
.nextdevice: |
mov ebx, [esi] |
|
set_io 0 |
; set_io 0 ; reg_scb_status = 0 |
set_io reg_scb_status |
in ax, dx |
out dx, ax ; send it back to ACK |
685,52 → 712,82 |
|
.got_it: |
|
DEBUGF 1,"Device: %x Status: %x ", ebx, ax |
DEBUGF 1,"Device: %x Status: %x\n", ebx, ax |
|
;;; receive |
test ax, 1 shl 14 ; did we receive a frame? |
jz .no_rx |
|
cmp [rxfd.status], 0 |
push ax |
|
DEBUGF 1,"Receiving\n" |
|
push ebx |
.rx_loop: |
pop ebx |
|
mov esi, [device.rx_desc] |
cmp [esi + rxfd.status], 0 ; we could also check bits C and OK (bit 15 and 13) |
je .nodata |
|
mov [rxfd.status], 0 |
mov [rxfd.command], 0xc000 |
DEBUGF 1,"rxfd status=0x%x\n", [esi + rxfd.status]:4 |
|
movzx ecx, [esi + rxfd.count] |
and ecx, 0x3fff |
|
push ebx |
push .rx_loop |
push ecx |
add esi, rxfd.packet |
push esi |
|
; Update stats |
add dword [device.bytes_rx], ecx |
adc dword [device.bytes_rx + 4], 0 |
inc dword [device.packets_rx] |
|
; allocate new descriptor |
|
stdcall KernelAlloc, 2000 |
mov [device.rx_desc], eax |
mov esi, eax |
GetRealAddr |
mov [esi + rxfd.status], 0x0000 |
mov [esi + rxfd.command], 0xc000 ; End of list + Suspend |
mov [esi + rxfd.link], eax |
mov [esi + rxfd.count], 0 |
mov [esi + rxfd.size], 1528 |
|
; restart RX |
|
set_io 0 |
set_io reg_scb_ptr |
lea eax, [rxfd.status] |
GetRealAddr |
; lea eax, [device.rx_desc] |
; GetRealAddr |
out dx, eax |
|
set_io reg_scb_cmd |
mov ax, INT_MASK + RX_START |
mov ax, RX_START |
out dx, ax |
|
call cmd_wait |
|
movzx ecx, [rxfd.count] |
and ecx, 0x3fff |
; And give packet to kernel |
|
stdcall KernelAlloc, ecx ; Allocate a buffer to put packet into |
push ecx |
push eax |
jmp Eth_input |
|
lea esi, [device.rx_buffer] |
.nodata: |
DEBUGF 1, "no more data\n" |
pop ax |
|
.copy: |
shr ecx, 1 |
jnc .nb |
movsb |
.nb: |
shr ecx, 1 |
jnc .nw |
movsw |
.nw: |
jz .nd |
rep movsd |
.nd: |
.no_rx: |
|
jmp Eth_input |
; Cleanup after TX |
|
.nodata: |
cmp [last_tx_buffer], 0 |
je .done |
stdcall KernelFree, [last_tx_buffer] |
mov [last_tx_buffer], 0 |
|
.done: |
.fail: |
|
ret |
755,6 → 812,8 |
align 4 |
ee_read: ; esi = address to read |
|
DEBUGF 1,"Eeprom read from 0x%x", esi |
|
set_io 0 |
set_io reg_eeprom |
|
762,28 → 821,32 |
; 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] |
mov cl, 29 |
sub cl, [device.ee_bus_width] |
shl esi, cl |
or esi, EE_READ shl 28 |
or esi, EE_READ shl 29 |
|
mov ecx, [device.ee_bus_width] |
movzx ecx, [device.ee_bus_width] |
add ecx, 3 |
|
mov al, EE_CS |
out dx, al |
delay |
|
;----------------------- |
; Write this to the chip |
|
.loop: |
mov eax, EE_CS |
mov al, EE_CS + EE_SK |
shl esi, 1 |
jnc @f |
or eax, EE_DI |
or al, EE_DI |
@@: |
out dx , eax |
out dx, al |
delay |
|
or eax, EE_SK |
out dx , eax |
and al, not EE_SK |
out dx, al |
delay |
|
loop .loop |
795,19 → 858,19 |
mov ecx, 16 |
|
.loop2: |
mov eax, EE_CS + EE_SK |
out dx , eax |
shl esi, 1 |
mov al, EE_CS + EE_SK |
out dx, al |
delay |
|
in eax, dx |
test eax, EE_DO |
in al, dx |
test al, EE_DO |
jz @f |
inc esi |
@@: |
shl esi, 1 |
|
mov eax, EE_CS |
out dx , eax |
mov al, EE_CS |
out dx, al |
delay |
|
loop .loop2 |
815,11 → 878,11 |
;----------------------- |
; de-activate the eeprom |
|
xor eax, eax |
out dx, eax |
xor ax, ax |
out dx, ax |
|
|
DEBUGF 1,"data=%x\n", esi |
DEBUGF 1,"=0x%x\n", esi:4 |
ret |
|
|
827,6 → 890,8 |
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 0 |
set_io reg_eeprom |
|
834,28 → 899,31 |
; 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] |
mov cl, 29 |
sub cl, [device.ee_bus_width] |
shl esi, cl |
or esi, EE_WRITE shl 28 |
or esi, EE_WRITE shl 29 |
|
mov ecx, [device.ee_bus_width] |
movzx ecx, [device.ee_bus_width] |
add ecx, 3 |
|
mov al, EE_CS ; enable chip |
out dx, al |
|
;----------------------- |
; Write this to the chip |
|
.loop: |
mov eax, EE_CS |
mov al, EE_CS + EE_SK |
shl esi, 1 |
jnc @f |
or eax, EE_DI |
or al, EE_DI |
@@: |
out dx , eax |
out dx, al |
delay |
|
or eax, EE_SK |
out dx , eax |
and al, not EE_SK |
out dx, al |
delay |
|
loop .loop |
866,16 → 934,16 |
mov ecx, 16 |
|
.loop2: |
mov eax, EE_CS |
mov al, EE_CS + EE_SK |
shl di , 1 |
jnc @f |
or eax, EE_DI |
or al, EE_DI |
@@: |
out dx , eax |
out dx, al |
delay |
|
or eax, EE_SK |
out dx , eax |
and al, not EE_SK |
out dx, al |
delay |
|
loop .loop2 |
883,8 → 951,8 |
;----------------------- |
; de-activate the eeprom |
|
xor eax, eax |
out dx, eax |
xor al, al |
out dx, al |
|
|
ret |
894,30 → 962,49 |
align 4 |
ee_get_width: |
|
; DEBUGF 1,"Eeprom get width\n" |
|
set_io 0 |
set_io reg_eeprom |
|
mov si, EE_READ shl 12 |
mov al, EE_CS ; activate eeprom |
out dx, al |
delay |
|
mov si, EE_READ shl 13 |
xor ecx, ecx |
.loop: |
mov ax, EE_CS |
out dx, ax |
mov al, EE_CS + EE_SK |
shl si, 1 |
jnc @f |
or al, EE_DI |
@@: |
out dx, al |
delay |
|
or ax, EE_SK |
out dx, ax |
and al, not EE_SK |
out dx, al |
delay |
|
inc ecx |
|
in ax, dx |
test ax, EE_DO |
cmp ecx, 15 |
jae .give_up |
|
in al, dx |
test al, EE_DO |
jnz .loop |
|
mov [device.ee_bus_width], ecx |
DEBUGF 1,"ee width=%u\n", ecx |
.give_up: |
xor al, al |
out dx, al ; de-activate eeprom |
|
sub cl, 3 ; dont count the opcode bits |
|
mov [device.ee_bus_width], cl |
DEBUGF 1,"Eeprom width=%u bit\n", ecx |
|
|
;----------------------- |
; de-activate the eeprom |
|
936,6 → 1023,8 |
align 4 |
mdio_read: |
|
DEBUGF 1,"MDIO read\n" |
|
shl ecx, 21 ; PHY addr |
shl edx, 16 ; PHY reg addr |
|
964,6 → 1053,8 |
align 4 |
mdio_write: |
|
DEBUGF 1,"MDIO write\n" |
|
and eax, 0xffff |
|
shl ecx, 21 ; PHY addr |
996,17 → 1087,17 |
|
mov esi, 0 |
call ee_read |
mov word[device.mac], si |
|
mov esi, 1 |
call ee_read |
mov word[device.mac+2], si |
|
mov esi, 14 |
mov esi, 2 |
call ee_read |
mov word[device.mac+4], si |
|
mov esi, 5 |
call ee_read |
|
|
ret |
|
|
1029,7 → 1120,11 |
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 |