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openwrt-xburst/package/boot/uboot-xburst/files/cpu/mips/usb_boot.S

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/*
* for jz4740 usb boot
*
* Copyright (c) 2009 Xiangfu Liu <xiangfu.z@gmail.com>
*
* See file CREDITS for list of people who contributed to this
* project.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
* MA 02111-1307 USA
*/
.set noreorder
.globl usb_boot
.text
//----------------------------------------------------------------------
// Both NAND and USB boot load data to D-Cache first, then transfer
// data from D-Cache to I-Cache, and jump to execute the code in I-Cache.
// So init caches first and then dispatch to a proper boot routine.
//----------------------------------------------------------------------
.macro load_addr reg addr
li \reg, 0x80000000
addiu \reg, \reg, \addr
la $2, usbboot_begin
subu \reg, \reg, $2
.endm
usb_boot:
//--------------------------------------------------------------
// Initialize PLL: set ICLK to 84MHz and HCLK to 42MHz.
//--------------------------------------------------------------
la $9, 0xB0000000 // CPCCR: Clock Control Register
la $8, 0x42041110 // I:S:M:P=1:2:2:2
sw $8, 0($9)
la $9, 0xB0000010 // CPPCR: PLL Control Register
la $8, 0x06000120 // M=12 N=0 D=0 CLK=12*(M+2)/(N+2)
sw $8, 0($9)
mtc0 $0, $26 // CP0_ERRCTL, restore WST reset state
nop
mtc0 $0, $16 // CP0_CONFIG
nop
// Relocate code to beginning of the ram
la $2, usbboot_begin
la $3, usbboot_end
li $4, 0x80000000
1:
lw $5, 0($2)
sw $5, 0($4)
addiu $2, $2, 4
bne $2, $3, 1b
addiu $4, $4, 4
li $2, 0x80000000
ori $3, $2, 0
addiu $3, $3, usbboot_end
la $4, usbboot_begin
subu $3, $3, $4
2:
cache 0x0, 0($2) // Index_Invalidate_I
cache 0x1, 0($2) // Index_Writeback_Inv_D
addiu $2, $2, 32
subu $4, $3, $2
bgtz $4, 2b
nop
load_addr $3, usb_boot_return
jr $3
usbboot_begin:
init_caches:
li $2, 3 // cacheable for kseg0 access
mtc0 $2, $16 // CP0_CONFIG
nop
li $2, 0x20000000 // enable idx-store-data cache insn
mtc0 $2, $26 // CP0_ERRCTL
ori $2, $28, 0 // start address
ori $3, $2, 0x3fe0 // end address, total 16KB
mtc0 $0, $28, 0 // CP0_TAGLO
mtc0 $0, $28, 1 // CP0_DATALO
cache_clear_a_line:
cache 0x8, 0($2) // Index_Store_Tag_I
cache 0x9, 0($2) // Index_Store_Tag_D
bne $2, $3, cache_clear_a_line
addiu $2, $2, 32 // increment CACHE_LINE_SIZE
ori $2, $28, 0 // start address
ori $3, $2, 0x3fe0 // end address, total 16KB
la $4, 0x1ffff000 // physical address and 4KB page mask
cache_alloc_a_line:
and $5, $2, $4
ori $5, $5, 1 // V bit of the physical tag
mtc0 $5, $28, 0 // CP0_TAGLO
cache 0x8, 0($2) // Index_Store_Tag_I
cache 0x9, 0($2) // Index_Store_Tag_D
bne $2, $3, cache_alloc_a_line
addiu $2, $2, 32 // increment CACHE_LINE_SIZE
nop
nop
nop
//--------------------------------------------------------------
// Transfer data from dcache to icache, then jump to icache.
//
// Input parameters:
//
// $19: data length in bytes
// $20: jump target address
//--------------------------------------------------------------
xfer_d2i:
ori $8, $20, 0
addu $9, $8, $19 // total 16KB
1:
cache 0x0, 0($8) // Index_Invalidate_I
cache 0x1, 0($8) // Index_Writeback_Inv_D
bne $8, $9, 1b
addiu $8, $8, 32
// flush write-buffer
sync
// Invalidate BTB
mfc0 $8, $16, 7 // CP0_CONFIG
nop
ori $8, 2
mtc0 $8, $16, 7
nop
// Overwrite config to disable ram initalisation
li $2, 0xff
sb $2, 20($20)
jalr $20
nop
icache_return:
//--------------------------------------------------------------
// User code can return to here after executing itself in
// icache, by jumping to $31.
//--------------------------------------------------------------
b usb_boot_return
nop
usb_boot_return:
//--------------------------------------------------------------
// Enable the USB PHY
//--------------------------------------------------------------
la $9, 0xB0000024 // CPM_SCR
lw $8, 0($9)
ori $8, 0x40 // USBPHY_ENABLE
sw $8, 0($9)
//--------------------------------------------------------------
// Initialize USB registers
//--------------------------------------------------------------
la $27, 0xb3040000 // USB registers base address
sb $0, 0x0b($27) // INTRUSBE: disable common USB interrupts
sh $0, 0x06($27) // INTRINE: disable EPIN interrutps
sh $0, 0x08($27) // INTROUTE: disable EPOUT interrutps
li $9, 0x61
sb $9, 0x01($27) // POWER: HSENAB | SUSPENDM | SOFTCONN
//--------------------------------------------------------------
// Initialize USB states
//--------------------------------------------------------------
li $22, 0 // set EP0 to IDLE state
li $23, 1 // no data stage
//--------------------------------------------------------------
// Main loop of polling the usb commands
//--------------------------------------------------------------
usb_command_loop:
lbu $9, 0x0a($27) // read INTRUSB
andi $9, 0x04 // check USB_INTR_RESET
beqz $9, check_intr_ep0in
nop
//--------------------------------------------------------------
// 1. Handle USB reset interrupt
//--------------------------------------------------------------
handle_reset_intr:
lbu $9, 0x01($27) // read POWER
andi $9, 0x10 // test HS_MODE
bnez $9, _usb_set_maxpktsize
li $9, 512 // max packet size of HS mode
li $9, 64 // max packet size of FS mode
_usb_set_maxpktsize:
li $8, 1
sb $8, 0x0e($27) // set INDEX 1
sh $9, 0x10($27) // INMAXP
sb $0, 0x13($27) // INCSRH
sh $9, 0x14($27) // OUTMAXP
sb $0, 0x17($27) // OUTCSRH
_usb_flush_fifo:
li $8, 0x48 // INCSR_CDT && INCSR_FF
sb $8, 0x12($27) // INCSR
li $8, 0x90 // OUTCSR_CDT && OUTCSR_FF
sb $8, 0x16($27) // OUTCSR
li $22, 0 // set EP0 to IDLE state
li $23, 1 // no data stage
//--------------------------------------------------------------
// 2. Check and handle EP0 interrupt
//--------------------------------------------------------------
check_intr_ep0in:
lhu $10, 0x02($27) // read INTRIN
andi $9, $10, 0x1 // check EP0 interrupt
beqz $9, check_intr_ep1in
nop
handle_ep0_intr:
sb $0, 0x0e($27) // set INDEX 0
lbu $11, 0x12($27) // read CSR0
andi $9, $11, 0x04 // check SENTSTALL
beqz $9, _ep0_setupend
nop
_ep0_sentstall:
andi $9, $11, 0xdb
sb $9, 0x12($27) // clear SENDSTALL and SENTSTALL
li $22, 0 // set EP0 to IDLE state
_ep0_setupend:
andi $9, $11, 0x10 // check SETUPEND
beqz $9, ep0_idle_state
nop
ori $9, $11, 0x80
sb $9, 0x12($27) // set SVDSETUPEND
li $22, 0 // set EP0 to IDLE state
ep0_idle_state:
bnez $22, ep0_tx_state
nop
//--------------------------------------------------------------
// 2.1 Handle EP0 IDLE state interrupt
//--------------------------------------------------------------
andi $9, $11, 0x01 // check OUTPKTRDY
beqz $9, check_intr_ep1in
nop
//--------------------------------------------------------------
// Read 8-bytes setup packet from the FIFO
//--------------------------------------------------------------
lw $25, 0x20($27) // first word of setup packet
lw $26, 0x20($27) // second word of setup packet
andi $9, $25, 0x60 // bRequestType & USB_TYPE_MASK
beqz $9, _ep0_std_req
nop
//--------------------------------------------------------------
// 2.1.1 Vendor-specific setup request
//--------------------------------------------------------------
_ep0_vend_req:
li $22, 0 // set EP0 to IDLE state
li $23, 1 // NoData = 1
andi $9, $25, 0xff00 // check bRequest
srl $9, $9, 8
beqz $9, __ep0_get_cpu_info
sub $8, $9, 0x1
beqz $8, __ep0_set_data_address
sub $8, $9, 0x2
beqz $8, __ep0_set_data_length
sub $8, $9, 0x3
beqz $8, __ep0_flush_caches
sub $8, $9, 0x4
beqz $8, __ep0_prog_start1
sub $8, $9, 0x5
beqz $8, __ep0_prog_start2
nop
b _ep0_idle_state_fini // invalid request
nop
__ep0_get_cpu_info:
load_addr $20, cpu_info_data // data pointer to transfer
li $21, 8 // bytes left to transfer
li $22, 1 // set EP0 to TX state
li $23, 0 // NoData = 0
b _ep0_idle_state_fini
nop
__ep0_set_data_address:
li $9, 0xffff0000
and $9, $25, $9
andi $8, $26, 0xffff
or $20, $9, $8 // data address of next transfer
b _ep0_idle_state_fini
nop
__ep0_set_data_length:
li $9, 0xffff0000
and $9, $25, $9
andi $8, $26, 0xffff
or $21, $9, $8 // data length of next transfer
li $9, 0x48 // SVDOUTPKTRDY and DATAEND
sb $9, 0x12($27) // CSR0
// We must write packet to FIFO before EP1-IN interrupt here.
b handle_epin1_intr
nop
__ep0_flush_caches:
// Flush dcache and invalidate icache.
li $8, 0x80000000
addi $9, $8, 0x3fe0 // total 16KB
1:
cache 0x0, 0($8) // Index_Invalidate_I
cache 0x1, 0($8) // Index_Writeback_Inv_D
bne $8, $9, 1b
addiu $8, $8, 32
// flush write-buffer
sync
// Invalidate BTB
mfc0 $8, $16, 7 // CP0_CONFIG
nop
ori $8, 2
mtc0 $8, $16, 7
nop
b _ep0_idle_state_fini
nop
__ep0_prog_start1:
li $9, 0x48 // SVDOUTPKTRDY and DATAEND
sb $9, 0x12($27) // CSR0
li $9, 0xffff0000
and $9, $25, $9
andi $8, $26, 0xffff
or $20, $9, $8 // target address
b xfer_d2i
li $19, 0x2000 // 16KB data length
__ep0_prog_start2:
li $9, 0x48 // SVDOUTPKTRDY and DATAEND
sb $9, 0x12($27) // CSR0
li $9, 0xffff0000
and $9, $25, $9
andi $8, $26, 0xffff
or $20, $9, $8 // target address
jalr $20 // jump, and place the return address in $31
nop
__ep0_prog_start2_return:
// User code can return to here after executing itself, by jumping to $31.
b usb_boot_return
nop
//--------------------------------------------------------------
// 2.1.2 Standard setup request
//--------------------------------------------------------------
_ep0_std_req:
andi $12, $25, 0xff00 // check bRequest
srl $12, $12, 8
sub $9, $12, 0x05 // check USB_REQ_SET_ADDRESS
bnez $9, __ep0_req_set_config
nop
//--------------------------------------------------------------
// Handle USB_REQ_SET_ADDRESS
//--------------------------------------------------------------
__ep0_req_set_addr:
srl $9, $25, 16 // get wValue
sb $9, 0x0($27) // set FADDR
li $23, 1 // NoData = 1
b _ep0_idle_state_fini
nop
__ep0_req_set_config:
sub $9, $12, 0x09 // check USB_REQ_SET_CONFIGURATION
bnez $9, __ep0_req_get_desc
nop
//--------------------------------------------------------------
// Handle USB_REQ_SET_CONFIGURATION
//--------------------------------------------------------------
li $23, 1 // NoData = 1
b _ep0_idle_state_fini
nop
__ep0_req_get_desc:
sub $9, $12, 0x06 // check USB_REQ_GET_DESCRIPTOR
bnez $9, _ep0_idle_state_fini
li $23, 1 // NoData = 1
//--------------------------------------------------------------
// Handle USB_REQ_GET_DESCRIPTOR
//--------------------------------------------------------------
li $23, 0 // NoData = 0
srl $9, $25, 24 // wValue >> 8
sub $8, $9, 0x01 // check USB_DT_DEVICE
beqz $8, ___ep0_get_dev_desc
srl $21, $26, 16 // get wLength
sub $8, $9, 0x02 // check USB_DT_CONFIG
beqz $8, ___ep0_get_conf_desc
sub $8, $9, 0x03 // check USB_DT_STRING
beqz $8, ___ep0_get_string_desc
sub $8, $9, 0x06 // check USB_DT_DEVICE_QUALIFIER
beqz $8, ___ep0_get_dev_qualifier
nop
b _ep0_idle_state_fini
nop
___ep0_get_dev_desc:
load_addr $20, device_desc // data pointer
li $22, 1 // set EP0 to TX state
sub $8, $21, 18
blez $8, _ep0_idle_state_fini // wLength <= 18
nop
li $21, 18 // max length of device_desc
b _ep0_idle_state_fini
nop
___ep0_get_dev_qualifier:
load_addr $20, dev_qualifier // data pointer
li $22, 1 // set EP0 to TX state
sub $8, $21, 10
blez $8, _ep0_idle_state_fini // wLength <= 10
nop
li $21, 10 // max length of dev_qualifier
b _ep0_idle_state_fini
nop
___ep0_get_conf_desc:
load_addr $20, config_desc_fs // data pointer of FS mode
lbu $8, 0x01($27) // read POWER
andi $8, 0x10 // test HS_MODE
beqz $8, ___ep0_get_conf_desc2
nop
load_addr $20, config_desc_hs // data pointer of HS mode
___ep0_get_conf_desc2:
li $22, 1 // set EP0 to TX state
sub $8, $21, 32
blez $8, _ep0_idle_state_fini // wLength <= 32
nop
li $21, 32 // max length of config_desc
b _ep0_idle_state_fini
nop
___ep0_get_string_desc:
li $22, 1 // set EP0 to TX state
srl $9, $25, 16 // wValue & 0xff
andi $9, 0xff
sub $8, $9, 1
beqz $8, ___ep0_get_string_manufacture
sub $8, $9, 2
beqz $8, ___ep0_get_string_product
nop
___ep0_get_string_lang_ids:
load_addr $20, string_lang_ids // data pointer
b _ep0_idle_state_fini
li $21, 4 // data length
___ep0_get_string_manufacture:
load_addr $20, string_manufacture // data pointer
b _ep0_idle_state_fini
li $21, 16 // data length
___ep0_get_string_product:
load_addr $20, string_product // data pointer
b _ep0_idle_state_fini
li $21, 46 // data length
_ep0_idle_state_fini:
li $9, 0x40 // SVDOUTPKTRDY
beqz $23, _ep0_idle_state_fini2
nop
ori $9, $9, 0x08 // DATAEND
_ep0_idle_state_fini2:
sb $9, 0x12($27) // CSR0
beqz $22, check_intr_ep1in
nop
//--------------------------------------------------------------
// 2.2 Handle EP0 TX state interrupt
//--------------------------------------------------------------
ep0_tx_state:
sub $9, $22, 1
bnez $9, check_intr_ep1in
nop
sub $9, $21, 64 // max packetsize
blez $9, _ep0_tx_state2 // data count <= 64
ori $19, $21, 0
li $19, 64
_ep0_tx_state2:
beqz $19, _ep0_tx_state3 // send ZLP
ori $18, $19, 0 // record bytes to be transferred
sub $21, $21, $19 // decrement data count
_ep0_fifo_write_loop:
lbu $9, 0($20) // read data
sb $9, 0x20($27) // load FIFO
sub $19, $19, 1 // decrement counter
bnez $19, _ep0_fifo_write_loop
addi $20, $20, 1 // increment data pointer
sub $9, $18, 64 // max packetsize
beqz $9, _ep0_tx_state4
nop
_ep0_tx_state3:
// transferred bytes < max packetsize
li $9, 0x0a // set INPKTRDY and DATAEND
sb $9, 0x12($27) // CSR0
li $22, 0 // set EP0 to IDLE state
b check_intr_ep1in
nop
_ep0_tx_state4:
// transferred bytes == max packetsize
li $9, 0x02 // set INPKTRDY
sb $9, 0x12($27) // CSR0
b check_intr_ep1in
nop
//--------------------------------------------------------------
// 3. Check and handle EP1 BULK-IN interrupt
//--------------------------------------------------------------
check_intr_ep1in:
andi $9, $10, 0x2 // check EP1 IN interrupt
beqz $9, check_intr_ep1out
nop
handle_epin1_intr:
li $9, 1
sb $9, 0x0e($27) // set INDEX 1
lbu $9, 0x12($27) // read INCSR
andi $8, $9, 0x2 // check INCSR_FFNOTEMPT
bnez $8, _epin1_tx_state4
nop
_epin1_write_fifo:
lhu $9, 0x10($27) // get INMAXP
sub $8, $21, $9
blez $8, _epin1_tx_state1 // bytes left <= INMAXP
ori $19, $21, 0
ori $19, $9, 0
_epin1_tx_state1:
beqz $19, _epin1_tx_state4 // No data
nop
sub $21, $21, $19 // decrement data count
srl $5, $19, 2 // # of word
andi $6, $19, 0x3 // # of byte
beqz $5, _epin1_tx_state2
nop
_epin1_fifo_write_word:
lw $9, 0($20) // read data from source address
sw $9, 0x24($27) // write FIFO
sub $5, $5, 1 // decrement counter
bnez $5, _epin1_fifo_write_word
addiu $20, $20, 4 // increment dest address
_epin1_tx_state2:
beqz $6, _epin1_tx_state3
nop
_epin1_fifo_write_byte:
lbu $9, 0($20) // read data from source address
sb $9, 0x24($27) // write FIFO
sub $6, $6, 1 // decrement counter
bnez $6, _epin1_fifo_write_byte
addiu $20, $20, 1 // increment dest address
_epin1_tx_state3:
li $9, 0x1
sb $9, 0x12($27) // INCSR, set INPKTRDY
_epin1_tx_state4:
// nop
//--------------------------------------------------------------
// 4. Check and handle EP1 BULK-OUT interrupt
//--------------------------------------------------------------
check_intr_ep1out:
lhu $9, 0x04($27) // read INTROUT
andi $9, 0x2
beqz $9, check_status_next
nop
handle_epout1_intr:
li $9, 1
sb $9, 0x0e($27) // set INDEX 1
lbu $9, 0x16($27) // read OUTCSR
andi $9, 0x1 // check OUTPKTRDY
beqz $9, check_status_next
nop
_epout1_read_fifo:
lhu $19, 0x18($27) // read OUTCOUNT
srl $5, $19, 2 // # of word
andi $6, $19, 0x3 // # of byte
beqz $5, _epout1_rx_state1
nop
_epout1_fifo_read_word:
lw $9, 0x24($27) // read FIFO
sw $9, 0($20) // store to dest address
sub $5, $5, 1 // decrement counter
bnez $5, _epout1_fifo_read_word
addiu $20, $20, 4 // increment dest address
_epout1_rx_state1:
beqz $6, _epout1_rx_state2
nop
_epout1_fifo_read_byte:
lbu $9, 0x24($27) // read FIFO
sb $9, 0($20) // store to dest address
sub $6, $6, 1 // decrement counter
bnez $6, _epout1_fifo_read_byte
addiu $20, $20, 1 // increment dest address
_epout1_rx_state2:
sb $0, 0x16($27) // clear OUTPKTRDY
check_status_next:
b usb_command_loop
nop
//--------------------------------------------------------------
// Device/Configuration/Interface/Endpoint/String Descriptors
//--------------------------------------------------------------
.align 2
device_desc:
.byte 0x12 // bLength
.byte 0x01 // bDescriptorType
.byte 0x00 // bcdUSB
.byte 0x02 // bcdUSB
.byte 0x00 // bDeviceClass
.byte 0x00 // bDeviceSubClass
.byte 0x00 // bDeviceProtocol
.byte 0x40 // bMaxPacketSize0
.byte 0x1a // idVendor
.byte 0x60 // idVendor
.byte 0x40 // idProduct
.byte 0x47 // idProduct
.byte 0x00 // bcdDevice
.byte 0x01 // bcdDevice
.byte 0x01 // iManufacturer
.byte 0x02 // iProduct
.byte 0x00 // iSerialNumber
.byte 0x01 // bNumConfigurations
.align 2
dev_qualifier:
.byte 0x0a // bLength
.byte 0x06 // bDescriptorType
.byte 0x00 // bcdUSB
.byte 0x02 // bcdUSB
.byte 0x00 // bDeviceClass
.byte 0x00 // bDeviceSubClass
.byte 0x00 // bDeviceProtocol
.byte 0x40 // bMaxPacketSize0
.byte 0x01 // bNumConfigurations
.byte 0x00 // bRESERVED
.align 2
config_desc_hs:
.byte 0x09 // bLength
.byte 0x02 // bDescriptorType
.byte 0x20 // wTotalLength
.byte 0x00 // wTotalLength
.byte 0x01 // bNumInterfaces
.byte 0x01 // bConfigurationValue
.byte 0x00 // iConfiguration
.byte 0xc0 // bmAttributes
.byte 0x01 // MaxPower
intf_desc_hs:
.byte 0x09 // bLength
.byte 0x04 // bDescriptorType
.byte 0x00 // bInterfaceNumber
.byte 0x00 // bAlternateSetting
.byte 0x02 // bNumEndpoints
.byte 0xff // bInterfaceClass
.byte 0x00 // bInterfaceSubClass
.byte 0x50 // bInterfaceProtocol
.byte 0x00 // iInterface
ep1_desc_hs:
.byte 0x07 // bLength
.byte 0x05 // bDescriptorType
.byte 0x01 // bEndpointAddress
.byte 0x02 // bmAttributes
.byte 0x00 // wMaxPacketSize
.byte 0x02 // wMaxPacketSize
.byte 0x00 // bInterval
ep2_desc_hs:
.byte 0x07 // bLength
.byte 0x05 // bDescriptorType
.byte 0x81 // bEndpointAddress
.byte 0x02 // bmAttributes
.byte 0x00 // wMaxPacketSize
.byte 0x02 // wMaxPacketSize
.byte 0x00 // bInterval
.align 2
config_desc_fs:
.byte 0x09 // bLength
.byte 0x02 // bDescriptorType
.byte 0x20 // wTotalLength
.byte 0x00 // wTotalLength
.byte 0x01 // bNumInterfaces
.byte 0x01 // bConfigurationValue
.byte 0x00 // iConfiguration
.byte 0xc0 // bmAttributes
.byte 0x01 // MaxPower
intf_desc_fs:
.byte 0x09 // bLength
.byte 0x04 // bDescriptorType
.byte 0x00 // bInterfaceNumber
.byte 0x00 // bAlternateSetting
.byte 0x02 // bNumEndpoints
.byte 0xff // bInterfaceClass
.byte 0x00 // bInterfaceSubClass
.byte 0x50 // bInterfaceProtocol
.byte 0x00 // iInterface
ep1_desc_fs:
.byte 0x07 // bLength
.byte 0x05 // bDescriptorType
.byte 0x01 // bEndpointAddress
.byte 0x02 // bmAttributes
.byte 0x40 // wMaxPacketSize
.byte 0x00 // wMaxPacketSize
.byte 0x00 // bInterval
ep2_desc_fs:
.byte 0x07 // bLength
.byte 0x05 // bDescriptorType
.byte 0x81 // bEndpointAddress
.byte 0x02 // bmAttributes
.byte 0x40 // wMaxPacketSize
.byte 0x00 // wMaxPacketSize
.byte 0x00 // bInterval
.align 2
string_lang_ids:
.byte 0x04
.byte 0x03
.byte 0x09
.byte 0x04
.align 2
string_manufacture:
.byte 0x10
.byte 0x03
.byte 0x49
.byte 0x00
.byte 0x6e
.byte 0x00
.byte 0x67
.byte 0x00
.byte 0x65
.byte 0x00
.byte 0x6e
.byte 0x00
.byte 0x69
.byte 0x00
.byte 0x63
.byte 0x00
.align 2
string_product:
.byte 0x2e
.byte 0x03
.byte 0x4a
.byte 0x00
.byte 0x5a
.byte 0x00
.byte 0x34
.byte 0x00
.byte 0x37
.byte 0x00
.byte 0x34
.byte 0x00
.byte 0x30
.byte 0x00
.byte 0x20
.byte 0x00
.byte 0x55
.byte 0x00
.byte 0x53
.byte 0x00
.byte 0x42
.byte 0x00
.byte 0x20
.byte 0x00
.byte 0x42
.byte 0x00
.byte 0x6f
.byte 0x00
.byte 0x6f
.byte 0x00
.byte 0x74
.byte 0x00
.byte 0x20
.byte 0x00
.byte 0x44
.byte 0x00
.byte 0x65
.byte 0x00
.byte 0x76
.byte 0x00
.byte 0x69
.byte 0x00
.byte 0x63
.byte 0x00
.byte 0x65
.byte 0x00
.align 2
cpu_info_data:
.byte 0x4a
.byte 0x5a
.byte 0x34
.byte 0x37
.byte 0x34
.byte 0x30
.byte 0x56
.byte 0x31
usbboot_end:
.set reorder