Remove unecessary flasher files

Signed-off-by: Drasko DRASKOVIC <drasko.draskovic@gmail.com>
This commit is contained in:
Drasko DRASKOVIC 2017-05-14 19:49:46 +02:00
parent 50678283f7
commit 1f7e376548
41 changed files with 0 additions and 2010 deletions

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# Main file for Ameba1 series Cortex-M3 parts
#
# !!!!!!
#
set CHIPNAME rtl8195a
set CHIPSERIES ameba1
# Adapt based on what transport is active.
source [find target/swj-dp.tcl]
if { [info exists CHIPNAME] } {
set _CHIPNAME $CHIPNAME
} else {
error "CHIPNAME not set. Please do not include ameba1.cfg directly."
}
if { [info exists CHIPSERIES] } {
# Validate chip series is supported
if { $CHIPSERIES != "ameba1" } {
error "Unsupported chip series specified."
}
set _CHIPSERIES $CHIPSERIES
} else {
error "CHIPSERIES not set. Please do not include ameba1.cfg directly."
}
if { [info exists CPUTAPID] } {
# Allow user override
set _CPUTAPID $CPUTAPID
} else {
# Ameba1 use a Cortex M3 core.
if { $_CHIPSERIES == "ameba1" } {
if { [using_jtag] } {
set _CPUTAPID 0x4ba00477
} {
set _CPUTAPID 0x2ba01477
}
}
}
swj_newdap $_CHIPNAME cpu -irlen 4 -expected-id $_CPUTAPID
set _TARGETNAME $_CHIPNAME.cpu
target create $_TARGETNAME cortex_m -chain-position $_TARGETNAME
# Run with *real slow* clock by default since the
# boot rom could have been playing with the PLL, so
# we have no idea what clock the target is running at.
adapter_khz 1000
# delays on reset lines
adapter_nsrst_delay 200
if {[using_jtag]} {
jtag_ntrst_delay 200
}
# Ameba1 (Cortex M3 core) support SYSRESETREQ
if {![using_hla]} {
# if srst is not fitted use SYSRESETREQ to
# perform a soft reset
cortex_m reset_config sysresetreq
}
$_TARGETNAME configure -event reset-init {ameba1_init}
# Ameba1 SDRAM enable
proc ameba1_init { } {
# init System
mww 0x40000014 0x00000021
sleep 10
mww 0x40000304 0x1fc00002
sleep 10
mww 0x40000250 0x00000400
sleep 10
mww 0x40000340 0x00000000
sleep 10
mww 0x40000230 0x0000dcc4
sleep 10
mww 0x40000210 0x00011117
sleep 10
mww 0x40000210 0x00011157
sleep 10
mww 0x400002c0 0x00110011
sleep 10
mww 0x40000320 0xffffffff
sleep 10
# init SDRAM
mww 0x40000040 0x00fcc702
sleep 10
mdw 0x40000040
mww 0x40005224 0x00000001
sleep 10
mww 0x40005004 0x00000208
sleep 10
mww 0x40005008 0xffffd000
sleep 13
mww 0x40005020 0x00000022
sleep 13
mww 0x40005010 0x09006201
sleep 13
mww 0x40005014 0x00002611
sleep 13
mww 0x40005018 0x00068413
sleep 13
mww 0x4000501c 0x00000042
sleep 13
mww 0x4000500c 0x700 ;# set Idle
sleep 20
mww 0x40005000 0x1 ;# start init
sleep 100
mdw 0x40005000
mww 0x4000500c 0x600 ;# enter memory mode
sleep 30
mww 0x40005008 0x00000000 ;# 0xf00
;# mww 0x40005008 0x00000f00
sleep 3
mww 0x40000300 0x0006005e ;# 0x5e
;# mww 0x40000300 0x0000005e
sleep 3
}

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proc cortex_bootstrap {start} {
# disable interrupts
reg faultmask 0x01
set vectors ""
mem2array vectors 32 $start 2
reg sp $vectors(0)
reg pc $vectors(1)
resume
}
proc cortex_reboot {} {
set ddd [ format "0x%08x" [ rtl8710_flasher_mrw [ expr 0x40000210 ] ] ]
# set aaa [ format "0x%08x" [ expr 0x40000210 ] ]
echo "CLK_CTRL1 = $ddd"
# echo "# Set processor clock to default before system reset"
set ddd [ format "0x%08x" [ rtl8710_flasher_mrw [ expr 0x40000014 ] ] ]
# set aaa [ format "0x%08x" [ expr 0x40000014 ] ]
echo "SOC_FUNC_EN = $ddd"
# mww 0x40000014 0x00000021
sleep 10
echo "# Reboot (system reset)"
mww 0xE000ED0C 0x05FA0007
}
proc init_system {} {
# Set processor clock to default before system reset
# CLK_CTRL1
# mww 0x40000014 0x00000011
mww 0x40000014 0x00000021
sleep 10
# PESOC_SOC_CTRL
# mww 0x40000304 0x1fc00001
mww 0x40000304 0x1fc00002
sleep 10
# PESOC_CLK_SEL
mww 0x40000250 0x00000400
sleep 10
# GPIO_PULL_CTRL4
mww 0x40000340 0x00000000
sleep 10
# PESOC_CLK_CTRL
# mww 0x40000230 0x0000d3c4
mww 0x40000230 0x0000dcc4
sleep 10
# SOC_FUNC_EN: FUN|OCP|LXBUS|FLASH|CPU|LOG_UART|GTIMER|SECURITY_ENGINE
# mww 0x40000210 0x00211117
mww 0x40000210 0x00011117
sleep 10
# SOC_FUNC_EN: FUN|OCP|LXBUS|FLASH|CPU|LOG_UART|GTIMER|SECURITY_ENGINE + MEM_CTRL
mww 0x40000210 0x00011157
sleep 10
# CPU_PERIPHERAL_CTRL SPI_FLASH_PIN_EN|SDR_PIN_EN|SWD_PIN_EN|LOG_UART_PIN_EN ?
# mww 0x400002c0 0x00110000
mww 0x400002c0 0x00110011
sleep 10
# GPIO_SHTDN_CTRL
# mww 0x40000320 0x00000033
mww 0x40000320 0xffffffff
sleep 10
mww 0x40005008 0x00000000
sleep 10
# PESOC_MEM_CTRL
mww 0x40000300 0x0006005e
sleep 10
# set baudrate to 38400
# mww 0x40003010 0x00000080
# mww 0x40003008 0x00000022
# mww 0x4000300C 0x00000000
# mww 0x40003010 0x00000000
}
proc boot_from_flash {} {
echo "# skip sdram init, it has been init in openocd config"
mww 0x40000210 0x211157
}
proc boot_from_ram {} {
echo "# boot from ram, igonore loading flash"
mww 0x40000210 0x8011157
}
proc restart_from_falsh {} {
init
init_system
boot_from_flash
cortex_reboot
}
proc load_ram_binary { local_filename address } {
# set address 0x10000BC8
init
reset halt
set size [file size $local_filename]
load_image $local_filename $address bin $address $size
boot_from_ram
resume
}

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@ -1,340 +0,0 @@
#
# OpenOCD script for RTL8710
# Copyright (C) 2016 Rebane, rebane@alkohol.ee
#
set CHIPNAME rtl8195a
set CHIPSERIES ameba1
# Adapt based on what transport is active.
source [find target/swj-dp.tcl]
if { [info exists CHIPNAME] } {
set _CHIPNAME $CHIPNAME
} else {
set _CHIPNAME rtl8710
}
if { [info exists ENDIAN] } {
set _ENDIAN $ENDIAN
} else {
set _ENDIAN little
}
if { [info exists WORKAREASIZE] } {
set _WORKAREASIZE $WORKAREASIZE
} else {
set _WORKAREASIZE 0x800
}
if { [info exists CPUTAPID] } {
set _CPUTAPID $CPUTAPID
} else {
set _CPUTAPID 0x2ba01477
}
swj_newdap $_CHIPNAME cpu -irlen 4 -expected-id $_CPUTAPID
set _TARGETNAME $_CHIPNAME.cpu
target create $_TARGETNAME cortex_m -endian $_ENDIAN -chain-position $_TARGETNAME
$_TARGETNAME configure -work-area-phys 0x10001000 -work-area-size $_WORKAREASIZE -work-area-backup 0
# adapter_khz 500
adapter_nsrst_delay 100
if {![using_hla]} {
cortex_m reset_config sysresetreq vectreset
}
set rtl8710_flasher_firmware_ptr 0x10001000
set rtl8710_flasher_buffer 0x10008000
set rtl8710_flasher_buffer_size 262144
set rtl8710_flasher_sector_size 4096
array set rtl8710_flasher_code {
0 0xB671B57F 1 0x25FF4B58 2 0x6B196B1A 3 0x7040F042 4 0x69D96318 5 0xF4414E55
6 0x69D97480 7 0xF8D361DC 8 0xF8C32120 9 0xF8D35120 10 0xF8C31124 11 0x47B05124
12 0x47B04E4F 13 0x47984B4F 14 0x60104A4F 15 0x484F47B0 16 0x60012100 17 0x2C006804
18 0x4D4DD0FC 19 0xB93E682E 20 0x60264C49 21 0x47B04E46 22 0x47984B46 23 0xE7ED6020
24 0x2B01682B 25 0x4E42D109 26 0x4C4647B0 27 0x47A02006 28 0x47904A45 29 0x47A020C7
30 0x682AE00D 31 0xD10E2A02 32 0x47B04E3B 33 0x20064C3F 34 0x483F47A0 35 0x493F4780
36 0x68084D3F 37 0x47B047A8 38 0x47A02004 39 0x6828E7CE 40 0xD1132803 41 0x47A04C32
42 0x24004838 43 0x4E396805 44 0x68311960 45 0xD206428C 46 0x4B384A37 47 0x221018A1
48 0x34104798 49 0x4D2AE7F3 50 0xE7B847A8 51 0x29046829 52 0x2400D11B 53 0x6806482F
54 0xD2B042B4 55 0x47A84D24 56 0x20064E28 57 0x4B2847B0 58 0x49284798 59 0x680A4B2A
60 0x18A018E1 61 0xF44F4B2A 62 0x47987280 63 0x200447A8 64 0xF50447B0 65 0x47A87480
66 0x682CE7E4 67 0xD1232C05 68 0x47984B17 69 0x4D1F2400 70 0x4294682A 71 0x481BD28F
72 0x68012210 73 0x18604E1D 74 0x47B04669 75 0x1B19682B 76 0xBF282910 77 0x23002110
78 0xD011428B 79 0xF81D4A16 80 0x18A05003 81 0x42B55CC6 82 0x3301D101 83 0x4A15E7F4
84 0x60112101 85 0xE7726054 86 0x25014E12 87 0xE76E6035 88 0x47A84D03 89 0xE7D63410
90 0x40000200 91 0x100011BD 92 0x100013DD 93 0x10001289 94 0x1000800C 95 0x10008000
96 0x10008004 97 0x1000130D 98 0x100013ED 99 0x10008010 100 0x10001335 101 0x10008014
102 0x10008020 103 0x10001221 104 0x10001375 105 0x10008008 106 0x6A5A4B03 107 0xD0FB0512
108 0x0060F893 109 0xBF004770 110 0x40006000 111 0x6B194B17 112 0xF4416B1A 113 0x63187040
114 0x69186919 115 0x0110F041 116 0xF8D36119 117 0x220000C0 118 0x0106F020 119 0x00C0F8D3
120 0x10C0F8C3 121 0x00C0F8D3 122 0x0101F040 123 0x00C0F8D3 124 0x10C0F8C3 125 0x43BCF503
126 0x609A6899 127 0x20016AD9 128 0x691962DA 129 0x69596118 130 0x61592102 131 0x619A6999
132 0x61DA69D9 133 0x64DA6CD9 134 0xBF004770 135 0x40000200 136 0x460EB570 137 0xB34A4614
138 0xF3C04B15 139 0x681A4507 140 0x7240F44F 141 0x685A601A 142 0xF3C02103 143 0x2C102207
144 0x2410BF28 145 0x605CB2C0 146 0x1060F883 147 0x5060F883 148 0xF8832101 149 0xF8832060
150 0x689A0060 151 0x60992500 152 0x47984B08 153 0x35015570 154 0x42A2B2AA 155 0x4804D3F8
156 0xF0116A81 157 0xD1FA0301 158 0x60836881 159 0xBD704620 160 0x40006000 161 0x100011A9
162 0x4C10B5F8 163 0x68232003 164 0x7340F44F 165 0x68636023 166 0x60602101 167 0x68A3229F
168 0x60A14D0B 169 0x2060F884 170 0x460647A8 171 0x460747A8 172 0x040347A8 173 0x2707EA43
174 0x0006EA47 175 0x4B036AA1 176 0x0201F011 177 0x6899D1FA 178 0xBDF8609A 179 0x40006000
180 0x100011A9 181 0x4C0BB510 182 0x68232001 183 0x7340F44F 184 0x68636023 185 0x60602105
186 0x60A068A2 187 0xF8844A06 188 0x47901060 189 0x4B036AA1 190 0x0201F011 191 0x6899D1FA
192 0xBD10609A 193 0x40006000 194 0x100011A9 195 0x21014B08 196 0xF44F681A 197 0x601A7280
198 0x6099689A 199 0x0060F883 200 0x48036A9A 201 0x0101F012 202 0x6883D1FA 203 0x47706081
204 0x40006000 205 0x21014B0E 206 0xF44F681A 207 0x601A7280 208 0x2220689A 209 0xF8836099
210 0xF3C02060 211 0xF3C04107 212 0xB2C02207 213 0x1060F883 214 0x2060F883 215 0x0060F883
216 0x4A036A99 217 0x0001F011 218 0x6893D1FA 219 0x47706090 220 0x40006000 221 0xB36AB530
222 0x25014B17 223 0xF44F681C 224 0x601C7480 225 0x2402689C 226 0xF883609D 227 0xF3C04060
228 0xF3C04507 229 0xB2C02407 230 0x5060F883 231 0x7F80F5B2 232 0xF44FBF28 233 0xF8837280
234 0xF8834060 235 0x20000060 236 0x4C095C0D 237 0xF8843001 238 0xB2855060 239 0xD3F74295
240 0x07496A99 241 0x6AA0D5FC 242 0xF0104B03 243 0xD1FA0101 244 0x60996898 245 0xBD304610
246 0x40006000 247 0x4B02B508 248 0x07C04798 249 0xBD08D4FB 250 0x100012D5 251 0x4B04B508
252 0xF0004798 253 0xB2C10002 254 0xD0F82900 255 0xBF00BD08 256 0x100012D5
}
set rtl8710_flasher_command_read_id 0
set rtl8710_flasher_command_mass_erase 1
set rtl8710_flasher_command_sector_erase 2
set rtl8710_flasher_command_read 3
set rtl8710_flasher_command_write 4
set rtl8710_flasher_command_verify 5
set rtl8710_flasher_ready 0
set rtl8710_flasher_capacity 0
set rtl8710_flasher_auto_erase 0
set rtl8710_flasher_auto_verify 0
set rtl8710_flasher_auto_erase_sector 0xFFFFFFFF
proc rtl8710_flasher_init {} {
global rtl8710_flasher_firmware_ptr
global rtl8710_flasher_buffer
global rtl8710_flasher_capacity
global rtl8710_flasher_ready
global rtl8710_flasher_code
if {[expr {$rtl8710_flasher_ready == 0}]} {
echo "initializing RTL8710 flasher"
halt
mww [expr {$rtl8710_flasher_buffer + 0x08}] 0x00000000
mww [expr {$rtl8710_flasher_buffer + 0x00}] 0x00000001
array2mem rtl8710_flasher_code 32 $rtl8710_flasher_firmware_ptr [array size rtl8710_flasher_code]
reg faultmask 0x01
reg sp 0x20000000
reg pc $rtl8710_flasher_firmware_ptr
resume
rtl8710_flasher_wait
set id [rtl8710_flasher_mrw [expr {$rtl8710_flasher_buffer + 0x0C}]]
set rtl8710_flasher_capacity [expr {2 ** [expr {($id >> 16) & 0xFF}]}]
set rtl8710_flasher_ready 1
echo "RTL8710 flasher initialized"
}
return ""
}
proc rtl8710_flasher_mrw {reg} {
set value ""
mem2array value 32 $reg 1
return $value(0)
}
proc rtl8710_flasher_wait {} {
global rtl8710_flasher_buffer
while {[rtl8710_flasher_mrw [expr {$rtl8710_flasher_buffer + 0x00}]]} { }
}
proc rtl8710_flasher_load_block {local_filename offset len} {
global rtl8710_flasher_buffer
load_image $local_filename [expr {$rtl8710_flasher_buffer + 0x20 - $offset}] bin [expr {$rtl8710_flasher_buffer + 0x20}] $len
}
proc rtl8710_flasher_read_block {offset len} {
global rtl8710_flasher_buffer
global rtl8710_flasher_command_read
mww [expr {$rtl8710_flasher_buffer + 0x04}] $rtl8710_flasher_command_read
mww [expr {$rtl8710_flasher_buffer + 0x08}] 0x00000000
mww [expr {$rtl8710_flasher_buffer + 0x10}] $offset
mww [expr {$rtl8710_flasher_buffer + 0x14}] $len
mww [expr {$rtl8710_flasher_buffer + 0x00}] 0x00000001
rtl8710_flasher_wait
set status [rtl8710_flasher_mrw [expr {$rtl8710_flasher_buffer + 0x08}]]
if {[expr {$status > 0}]} {
error "read error, offset $offset"
}
}
proc rtl8710_flasher_write_block {offset len} {
global rtl8710_flasher_buffer
global rtl8710_flasher_command_write
mww [expr {$rtl8710_flasher_buffer + 0x04}] $rtl8710_flasher_command_write
mww [expr {$rtl8710_flasher_buffer + 0x08}] 0x00000000
mww [expr {$rtl8710_flasher_buffer + 0x10}] $offset
mww [expr {$rtl8710_flasher_buffer + 0x14}] $len
mww [expr {$rtl8710_flasher_buffer + 0x00}] 0x00000001
rtl8710_flasher_wait
set status [rtl8710_flasher_mrw [expr {$rtl8710_flasher_buffer + 0x08}]]
if {[expr {$status > 0}]} {
error "write error, offset $offset"
}
}
proc rtl8710_flasher_verify_block {offset len} {
global rtl8710_flasher_buffer
global rtl8710_flasher_command_verify
mww [expr {$rtl8710_flasher_buffer + 0x04}] $rtl8710_flasher_command_verify
mww [expr {$rtl8710_flasher_buffer + 0x08}] 0x00000000
mww [expr {$rtl8710_flasher_buffer + 0x10}] $offset
mww [expr {$rtl8710_flasher_buffer + 0x14}] $len
mww [expr {$rtl8710_flasher_buffer + 0x00}] 0x00000001
rtl8710_flasher_wait
set status [rtl8710_flasher_mrw [expr {$rtl8710_flasher_buffer + 0x08}]]
if {[expr {$status > 0}]} {
set status [rtl8710_flasher_mrw [expr {$rtl8710_flasher_buffer + 0x0C}]]
set status [expr {$status + $offset}]
error "verify error, offset $status"
}
}
proc rtl8710_flash_read_id {} {
global rtl8710_flasher_buffer
global rtl8710_flasher_capacity
global rtl8710_flasher_command_read_id
rtl8710_flasher_init
mww [expr {$rtl8710_flasher_buffer + 0x04}] $rtl8710_flasher_command_read_id
mww [expr {$rtl8710_flasher_buffer + 0x08}] 0x00000000
mww [expr {$rtl8710_flasher_buffer + 0x00}] 0x00000001
rtl8710_flasher_wait
set id [rtl8710_flasher_mrw [expr {$rtl8710_flasher_buffer + 0x0C}]]
set manufacturer_id [format "0x%02X" [expr {$id & 0xFF}]]
set memory_type [format "0x%02X" [expr {($id >> 8) & 0xFF}]]
set memory_capacity [expr {2 ** [expr {($id >> 16) & 0xFF}]}]
echo "manufacturer ID: $manufacturer_id, memory type: $memory_type, memory capacity: $memory_capacity bytes"
}
proc rtl8710_flash_mass_erase {} {
global rtl8710_flasher_buffer
global rtl8710_flasher_command_mass_erase
rtl8710_flasher_init
mww [expr {$rtl8710_flasher_buffer + 0x04}] $rtl8710_flasher_command_mass_erase
mww [expr {$rtl8710_flasher_buffer + 0x08}] 0x00000000
mww [expr {$rtl8710_flasher_buffer + 0x00}] 0x00000001
rtl8710_flasher_wait
}
proc rtl8710_flash_sector_erase {offset} {
global rtl8710_flasher_buffer
global rtl8710_flasher_command_sector_erase
rtl8710_flasher_init
mww [expr {$rtl8710_flasher_buffer + 0x04}] $rtl8710_flasher_command_sector_erase
mww [expr {$rtl8710_flasher_buffer + 0x08}] 0x00000000
mww [expr {$rtl8710_flasher_buffer + 0x10}] $offset
mww [expr {$rtl8710_flasher_buffer + 0x00}] 0x00000001
rtl8710_flasher_wait
}
proc rtl8710_flash_read {local_filename loc size} {
global rtl8710_flasher_buffer
global rtl8710_flasher_buffer_size
rtl8710_flasher_init
for {set offset 0} {$offset < $size} {set offset [expr {$offset + $rtl8710_flasher_buffer_size}]} {
set len [expr {$size - $offset}]
if {[expr {$len > $rtl8710_flasher_buffer_size}]} {
set len $rtl8710_flasher_buffer_size
}
set flash_offset [expr {$loc + $offset}]
echo "read offset $flash_offset"
rtl8710_flasher_read_block $flash_offset $len
dump_image _rtl8710_flasher.bin [expr {$rtl8710_flasher_buffer + 0x20}] $len
exec dd conv=notrunc if=_rtl8710_flasher.bin "of=$local_filename" bs=1 "seek=$offset"
echo "read $len bytes"
}
}
proc rtl8710_flash_write {local_filename loc} {
global rtl8710_flasher_buffer_size
global rtl8710_flasher_sector_size
global rtl8710_flasher_auto_erase
global rtl8710_flasher_auto_verify
global rtl8710_flasher_auto_erase_sector
rtl8710_flasher_init
set sector 0
set size [file size $local_filename]
for {set offset 0} {$offset < $size} {set offset [expr {$offset + $rtl8710_flasher_buffer_size}]} {
set len [expr {$size - $offset}]
if {[expr {$len > $rtl8710_flasher_buffer_size}]} {
set len $rtl8710_flasher_buffer_size
}
set flash_offset [expr {$loc + $offset}]
echo "write offset $flash_offset"
rtl8710_flasher_load_block $local_filename $offset $len
if {[expr {$rtl8710_flasher_auto_erase != 0}]} {
for {set i $flash_offset} {$i < [expr {$flash_offset + $len}]} {incr i} {
set sector [expr {$i / $rtl8710_flasher_sector_size}]
if {[expr {$rtl8710_flasher_auto_erase_sector != $sector}]} {
echo "erase sector $sector"
rtl8710_flash_sector_erase [expr {$sector * $rtl8710_flasher_sector_size}]
set rtl8710_flasher_auto_erase_sector $sector
}
}
}
rtl8710_flasher_write_block $flash_offset $len
echo "wrote $len bytes"
if {[expr {$rtl8710_flasher_auto_verify != 0}]} {
echo "verify offset $flash_offset"
rtl8710_flasher_verify_block $flash_offset $len
}
}
}
proc rtl8710_flash_verify {local_filename loc} {
global rtl8710_flasher_buffer_size
rtl8710_flasher_init
set size [file size $local_filename]
for {set offset 0} {$offset < $size} {set offset [expr {$offset + $rtl8710_flasher_buffer_size}]} {
set len [expr {$size - $offset}]
if {[expr {$len > $rtl8710_flasher_buffer_size}]} {
set len $rtl8710_flasher_buffer_size
}
set flash_offset [expr {$loc + $offset}]
echo "read offset $flash_offset"
rtl8710_flasher_load_block $local_filename $offset $len
echo "verify offset $flash_offset"
rtl8710_flasher_verify_block $flash_offset $len
}
}
proc rtl8710_flash_auto_erase {on} {
global rtl8710_flasher_auto_erase
if {[expr {$on != 0}]} {
set rtl8710_flasher_auto_erase 1
echo "auto erase on"
} else {
set rtl8710_flasher_auto_erase 0
echo "auto erase off"
}
}
proc rtl8710_flash_auto_verify {on} {
global rtl8710_flasher_auto_verify
if {[expr {$on != 0}]} {
set rtl8710_flasher_auto_verify 1
echo "auto verify on"
} else {
set rtl8710_flasher_auto_verify 0
echo "auto verify off"
}
}
proc rtl8710_reboot {} {
echo "# Set processor clock to default before system reset"
mww 0x40000014 0x00000021
sleep 10
echo "# Reboot (system reset)"
mww 0xE000ED0C 0x05FA0007
}

Binary file not shown.

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@ -1,6 +0,0 @@
h
loadbin flasher/RTL00Console_ROM.bin 0x10000ba8
r
w4 0x40000210,0x4011117
g
q

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@ -1,119 +0,0 @@
AppVersion = 47812
[GENERAL]
ConnectMode = 0
CurrentFile = "fullflash.bin"
DataFileSAddr = 0x98000000
GUIMode = 0
HostName = ""
TargetIF = 1
USBPort = 0
USBSerialNo = 0x00000000
[JTAG]
IRLen = 0
MultipleTargets = 0
NumDevices = 0
Speed0 = 400
Speed1 = 12000
TAP_Number = 0
UseAdaptive0 = 0
UseAdaptive1 = 0
UseMaxSpeed0 = 0
UseMaxSpeed1 = 0
[CPU]
CheckCoreID = 0
ChipName = "RTL8710AF"
ClockSpeed = 0x00000000
Core = 0x030000FF
CoreID = 0x00000000
CoreIDMask = 0x0F000FFF
DeviceFamily = 0x00000003
EndianMode = 0
HasInternalFlash = 0
InitStep0_Action = "Reset"
InitStep0_Comment = "Reset and Halt"
InitStep0_Value0 = 0x00000000
InitStep0_Value1 = 0x00000005
InitStep1_Action = "Go"
InitStep1_Comment = ""
InitStep1_Value0 = 0x00000000
InitStep1_Value1 = 0x00000000
InitStep2_Action = "Reset"
InitStep2_Comment = "Reset and halt target"
InitStep2_Value0 = 0x00000000
InitStep2_Value1 = 0x00000005
InitStep3_Action = "Write Register"
InitStep3_Comment = "Only T=1"
InitStep3_Value0 = 0x00000010
InitStep3_Value1 = 0x01000000
InitStep4_Action = "Write 32bit"
InitStep4_Comment = "Setup SystemCoreClock"
InitStep4_Value0 = 0x40000014
InitStep4_Value1 = 0x00000001
InitStep5_Action = "Delay"
InitStep5_Comment = ""
InitStep5_Value0 = 0x00000000
InitStep5_Value1 = 0x00000005
InitStep6_Action = "Write 32bit"
InitStep6_Comment = "Write Page Size"
InitStep6_Value0 = 0x1FFFFFF0
InitStep6_Value1 = 0x00000100
InitStep7_Action = "Write 32bit"
InitStep7_Comment = "Write Sector Size"
InitStep7_Value0 = 0x1FFFFFF4
InitStep7_Value1 = 0x00001000
InitStep8_Action = "Write 32bit"
InitStep8_Comment = "Write Block Size"
InitStep8_Value0 = 0x1FFFFFF8
InitStep8_Value1 = 0x00010000
InitStep9_Action = "Write 32bit"
InitStep9_Comment = "Write Block Count"
InitStep9_Value0 = 0x1FFFFFFC
InitStep9_Value1 = 0x00000010
NumExitSteps = 0
NumInitSteps = 10
RAMAddr = 0x10000000
RAMSize = 0x00010000
ScriptFile = ""
UseAutoSpeed = 0x00000001
UseRAM = 1
UseScriptFile = 0
[FLASH]
aSectorSel[0] =
AutoDetect = 1
BankName = ""
BankSelMode = 1
BaseAddr = 0x98000000
CheckId = 3
CustomRAMCode = "RTL8710AF.hex"
DeviceName = "Auto detected flash memory"
EndBank = 8191
NumBanks = 1
OrgNumBits = 16
OrgNumChips = 1
StartBank = 0
UseCustomRAMCode = 1
[PRODUCTION]
AutoPerformsErase = 1
AutoPerformsHardLock = 0
AutoPerformsHardUnlock = 0
AutoPerformsProgram = 1
AutoPerformsSecure = 0
AutoPerformsSoftLock = 0
AutoPerformsSoftUnlock = 1
AutoPerformsStartApp = 0
AutoPerformsUnsecure = 0
AutoPerformsVerify = 1
EnableProductionMode = 0
EnableTargetPower = 0
EraseType = 2
ProductionDelay = 0x000001F4
ProductionThreshold = 0x00000BB8
ProgramSN = 0
SerialFile = ""
SNAddr = 0x00000000
SNInc = 0x00000001
SNLen = 0x00000004
SNListFile = ""
SNValue = 0x00000001
TargetPowerDelay = 0x00000014
VerifyType = 1

View file

@ -1,17 +0,0 @@
h
r
w4 0x40000230,0x0000D3C4
w4 0x40000210,0x00200113
w4 0x400002C0,0x00110001
w4 0x40006008,0
w4 0x4000602C,0
w4 0x40006010,1
w4 0x40006014,2
w4 0x40006018,0
w4 0x4000601C,0
w4 0x4000604C,0
savebin fullflash.bin 0x98000000 0x100000
w4 0x40000210,0x211157
r
g
q

View file

@ -1,11 +0,0 @@
r0
trst0
r1
trst1
h
r
savebin bios-rom.bin 0x00000000 0x100000
w4 0x40000210,0x211157
r
g
q

View file

@ -1,9 +0,0 @@
r0
trst0
r1
trst1
h
r
w4 0x40000210,0x111157
g
q

View file

@ -1,12 +0,0 @@
r0
trst0
r1
trst1
h
r
loadbin build/bin/ram_1.r.bin 0x10000bc8
loadbin build/bin/ram_2.bin 0x10006000
r
w4 0x40000210,0x20111157
g
q

View file

@ -1,7 +0,0 @@
@echo off
call paths.bat
cd flasher
openocd -f interface/cmsis-dap.cfg -c "adapter_khz 1000" -f rtl8710.ocd -f cortex.ocd -c "init" -c "reset halt" -c "load_ram_binary RTL00Console_ROM.bin 0x10000BA8" -c "exit"
rem -c "shutdown"

View file

@ -1,7 +0,0 @@
@echo off
call paths.bat
cd flasher
openocd -f interface/cmsis-dap.cfg -c "adapter_khz 1000" -f rtl8710.ocd -f cortex.ocd -c "init" -c "reset halt" -c "rtl8710_flash_read_id" -c "adapter_khz 5000" -c "rtl8710_flash_read ../fullflash.bin 0 1048576" -c "shutdown"
echo flash read fullflash.bin
pause

View file

@ -1,6 +0,0 @@
@echo off
call paths.bat
@cd flasher
openocd -f interface/cmsis-dap.cfg -c "adapter_khz 1000" -f rtl8710.ocd -f cortex.ocd -c "init" -c "reset halt" -c "restart_from_falsh" -c "shutdown"
rem

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@ -1,6 +0,0 @@
@echo off
call paths.bat
cd flasher
openocd -f interface/cmsis-dap.cfg -c "adapter_khz 3500" -f rtl8710.ocd -f cortex.ocd -c "init" -c "reset halt" -c "rtl8710_flash_read_id" -c "rtl8710_flash_auto_erase 1" -c "rtl8710_flash_auto_verify 1" -c "rtl8710_flash_write fullflash.bin 0" -c "shutdown"
pause

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@ -1,3 +0,0 @@
@echo off
call paths.bat
start JLink.exe -Device CORTEX-M3 -If SWD -Speed 4000 flasher\RTL00ConsoleROM.JLinkScript

View file

@ -1,3 +0,0 @@
@echo off
call paths.bat
JLink.exe -Device CORTEX-M3 -If SWD -Speed 10000 flasher/RTL_FFlash.JLinkScript

View file

@ -1,3 +0,0 @@
@echo off
call paths.bat
JLink.exe -Device CORTEX-M3 -If SWD -Speed 1000 flasher\RTL_Reset.JLinkScript

View file

@ -1,3 +0,0 @@
@echo off
call paths.bat
start JLink.exe -Device CORTEX-M3 -If SWD -Speed 4000 flasher\RTL_RunRAM.JLinkScript

View file

@ -1,6 +0,0 @@
@echo off
call paths.bat
start JLinkGDBServer.exe -device Cortex-M3 -if SWD -ir -endian little -speed 1000
arm-none-eabi-gdb.exe -x flasher/gdb_rdflash.jlink
taskkill /F /IM JLinkGDBServer.exe

View file

@ -1,15 +0,0 @@
@echo off
call paths.bat
@if exist build\obj\build.axf goto run
echo File 'build\obj\build.axf' not found!
echo Build project...
mingw32-make.exe -f Makefile all
@if not exist build\obj\build.axf goto err
:run
start JLinkGDBServer.exe -device Cortex-M3 -if SWD -ir -endian little -speed 1000
arm-none-eabi-gdb.exe -x flasher/gdb_run_ram.jlink
taskkill /F /IM JLinkGDBServer.exe
goto end
:err
echo Error!
:end

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@ -1,21 +0,0 @@
@echo off
call paths.bat
@if %1x==x goto xxx
set img_file=%1
goto run
:xxx
set img_file=build/bin/ram_all.bin
:run
echo define call1>flasher/flash_file.jlink
echo SetFirwareSize %img_file%>>flasher/flash_file.jlink
echo end>>flasher/flash_file.jlink
echo define call2>>flasher/flash_file.jlink
echo FlasherWrite %img_file% 0 $Image1Size>>flasher/flash_file.jlink
echo end>>flasher/flash_file.jlink
echo define call3>>flasher/flash_file.jlink
echo FlasherWrite %img_file% $Image2Addr $Image2Size>>flasher/flash_file.jlink
echo end>>flasher/flash_file.jlink
start JLinkGDBServer.exe -device Cortex-M3 -if SWD -ir -endian little -speed 3500
arm-none-eabi-gdb.exe -x flasher/gdb_wrflash.jlink
taskkill /F /IM JLinkGDBServer.exe

View file

@ -1,6 +0,0 @@
@echo off
call paths.bat
start JLinkGDBServer.exe -device Cortex-M3 -if SWD -ir -endian little -speed 1000
arm-none-eabi-gdb.exe -x flasher/gdb_init.jlink
taskkill /F /IM JLinkGDBServer.exe

View file

@ -1,15 +0,0 @@
@echo off
call paths.bat
@if exist build\bin\ota.bin goto run
echo File 'build\obj\ota.bin' not found!
echo Build project...
mingw32-make.exe -f Makefile all
@if not exist build\bin\ota.bin goto err
:run
start start JLinkGDBServer.exe -device Cortex-M3 -if SWD -ir -endian little -speed 1000
arm-none-eabi-gdb.exe -x flasher/gdb_ota.jlink
taskkill /F /IM JLinkGDBServer.exe
goto end
:err
echo Error!
:end

View file

@ -1,7 +0,0 @@
@echo off
call paths.bat
cd flasher
openocd -f interface/Jlink.cfg -c "adapter_khz 3500" -f rtl8710.ocd -f cortex.ocd -c "init" -c "reset halt" -c "rtl8710_flash_read_id" -c "adapter_khz 3900" -c "rtl8710_flash_read ../fullflash.bin 0 1048576" -c "shutdown"
echo flash read fullflash.bin
pause

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@ -1,6 +0,0 @@
@echo off
call paths.bat
openocd -f interface/Jlink.cfg -c "adapter_khz 1000" -f rtl8710.ocd -f cortex.ocd -c "init" -c "reset halt" -c "adapter_khz 3500" -c "rtl8710_flash_read_id" -c "rtl8710_flash_read ../fullflash.bin 0 1048576" -c "shutdown"
echo flash read fullflash.bin
pause

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@ -1,4 +0,0 @@
@echo off
call paths.bat
taskkill /F /IM openocd.exe
start openocd -f interface\Jlink.cfg -f flasher\ameba1.cfg

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@ -1,7 +0,0 @@
@echo off
call paths.bat
cd flasher
openocd -f interface/stlink-v2.cfg -c "adapter_khz 1000" -f rtl8710.ocd -f cortex.ocd -c "init" -c "reset halt" -c "rtl8710_flash_read_id" -c "adapter_khz 5000" -c "rtl8710_flash_read ../fullflash.bin 0 1048576" -c "shutdown"
echo flash read fullflash.bin
pause

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@ -1,6 +0,0 @@
@echo off
call paths.bat
@cd flasher
openocd -f interface/stlink-v2.cfg -c "adapter_khz 1000" -f rtl8710.ocd -f cortex.ocd -c "init" -c "reset halt" -c "cortex_reboot" -c "shutdown"
rem

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@ -1,40 +0,0 @@
import jlinkarm as jl
def loaddll(dll_path):
jl.loadJLinkARMdll(dll_path)
jl.open()
if jl.is_connected == 0:
raise RuntimeError('Jlink not connected')
jl.exec_command('device Cortex-M3', 0, 0)
jl.exec_command('endian little', 0, 0)
jl.tif_select(1)
jl.set_speed(1000)
jl.clear_RESET()
jl.clear_TRST()
time.sleep(0.01)
jl.set_RESET()
jl.set_TRST()
jl.reset()
jl.halt()
jl.set_speed(3500)
def ram_all(binfile, image1=True, image2=True):
bin = None
with file(binfile, 'rb') as f:
bin = f.read()
get_dword = lambda address: struct.unpack('<L', bin[address:address + 4])[0]
if image1:
i1_address = 0x0
i1_length = get_dword(0x10)
jl.write_mem(0x10000bc8, bin[i1_address + 0x20: i1_address + 0x20 + i1_length])
if image2:
i2_address = (get_dword(0x18) & 0xffff) * 1024
i2_length = get_dword(i2_address) + 0x10
jl.write_mem(0x10006000, bin[i2_address + 0x10: i2_address + 0x10 + i2_length])
jl.reset()
jl.write_u32(0x40000210, 0x20111113)
jl.go()
jl.close()

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@ -1,113 +0,0 @@
import ctypes
_jl = None
def loadJLinkARMdll(lib_str):
global _jl
_jl = ctypes.cdll.LoadLibrary(lib_str)
if _jl:
return _jl
else:
raise RuntimeError('JLink ARM dynamic library is not loaded')
def _jlink():
if _jl:
return _jl
else:
raise RuntimeError('JLink ARM dynamic library is not loaded')
def open():
r = _jlink().JLINKARM_Open()
if r != 0: raise RuntimeError('Adapter is not found')
def exec_command(cmd, a, b):
r = _jlink().JLINKARM_ExecCommand(cmd, a, b)
#if r != 0: raise RuntimeError('Unable to execute command')
def tif_select(n):
if not isinstance(n, ctypes.c_ulong):
n = ctypes.c_ulong(n)
r = _jlink().JLINKARM_TIF_Select(n)
if r != 0: raise RuntimeError('Unable to select TIF')
def set_speed(speed):
if not isinstance(speed, ctypes.c_ulong):
speed = ctypes.c_ulong(speed)
r = _jlink().JLINKARM_SetSpeed(speed)
#if r != 0: raise RuntimeError('Unable to set speed')
def reset():
r = _jlink().JLINKARM_Reset()
if r != 0: raise RuntimeError('fail')
def is_connected():
if _jlink().JLINKARM_IsConnected() != 0: return True
else: return False
def go():
r = _jlink().JLINKARM_Go()
#if r != 0: raise RuntimeError('fail')
def write_u32(r, val):
if not isinstance(val, ctypes.c_ulong):
val = ctypes.c_ulong(val)
r = _jlink().JLINKARM_WriteU32(r, val)
if r != 0: raise RuntimeError('fail')
def read_reg(r):
return _jlink().JLINKARM_ReadReg(r)
def write_reg(r, val):
if not isinstance(val, ctypes.c_ulong):
val = ctypes.c_ulong(val)
ret = _jlink().JLINKARM_WriteReg(r, val)
#if ret != 0: raise RuntimeError('fail')
def get_speed():
return _jlink().JLINKARM_GetSpeed()
def write_mem(startaddress, buf):
_jlink().JLINKARM_WriteMem.argtypes = [ctypes.c_int, ctypes.c_int, ctypes.c_char_p]
_jlink().JLINKARM_WriteMem.restype = ctypes.c_int
print "writemem addr %s size %s" % (hex(startaddress), hex(len(buf)))
r = _jlink().JLINKARM_WriteMem(startaddress, len(buf), buf)
#if r != 0: raise RuntimeError('fail')
def read_mem_U32(startaddress, count):
buftype=ctypes.c_uint32 * int(count)
buf=buftype()
r=_jlink().JLINKARM_ReadMemU32(startaddress, count, buf, 0)
#if r != 0: raise RuntimeError('fail')
return buf
def close():
r = _jlink().JLINKARM_Close()
#if r != 0: raise RuntimeError('fail')
def clear_TCK():
r = _jlink().JLINKARM_ClrTCK()
def set_TCK():
r = _jlink().JLINKARM_SetTCK()
def clear_TMS():
r = _jlink().JLINKARM_ClrTMS()
def set_TMS():
r = _jlink().JLINKARM_SetTMS()
def clear_TDI():
r = _jlink().JLINKARM_ClrTDI()
def set_TDI():
r = _jlink().JLINKARM_SetTDI()
def clear_TRST():
r = _jlink().JLINKARM_ClrTRST()
def set_TRST():
r = _jlink().JLINKARM_SetTRST()
def clear_RESET():
r = _jlink().JLINKARM_ClrRESET()
def set_RESET():
r = _jlink().JLINKARM_SetRESET()
def halt():
r = _jlink().JLINKARM_Halt()

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PATH=D:\MCU\GNU_Tools_ARM_Embedded\5.4_2016q2\bin;D:\MCU\SEGGER\JLink_V612i;%PATH%

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@ -1,53 +0,0 @@
#!/usr/bin/env python3
# -*- coding: cp1251 -*-
import jlinkarm as jl
import os, sys, time, struct
dllfilename = 'D:/MCU/SEGGER/JLink_V612i/JLinkARM.dll'
if __name__ == '__main__':
if len(sys.argv) >= 2:
if sys.argv[1] == '-h':
print 'Usage: ldram.py ram_all.bin'
exit(0)
imgfilename = 'build/bin/ram_all.bin'
if len(sys.argv) > 1:
if sys.argv[1]:
imgfilename = sys.argv[1]
try:
ff = open(imgfilename, "rb")
except:
print "Error file open " + imgfilename
exit(1)
jl.loadJLinkARMdll(dllfilename)
jl.open()
if jl.is_connected == 0:
raise RuntimeError('Jlink not connected')
jl.exec_command('device Cortex-M3', 0, 0)
jl.exec_command('endian little', 0, 0)
jl.tif_select(1)
jl.set_speed(1000)
jl.clear_RESET()
jl.clear_TRST()
time.sleep(0.01)
jl.set_RESET()
jl.set_TRST()
jl.reset()
jl.halt()
jl.set_speed(3500)
bin = ff.read()
get_dword = lambda address: struct.unpack('<L', bin[address:address + 4])[0]
i1_address = 0x0
i1_length = get_dword(0x10)
jl.write_mem(0x10000bc8, bin[i1_address + 0x20: i1_address + 0x20 + i1_length])
i2_address = (get_dword(0x18) & 0xffff) * 1024
i2_length = get_dword(i2_address) + 0x10
jl.write_mem(0x10006000, bin[i2_address + 0x10: i2_address + 0x10 + i2_length])
jl.reset()
jl.write_u32(0x40000210, 0x20111113)
jl.go()
jl.close()
ff.close()
exit(0)

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define call1
SetFirwareSize build/bin/ram_all.bin
end
define call2
FlasherWrite build/bin/ram_all.bin 0 $Image1Size
end
define call3
FlasherWrite build/bin/ram_all.bin $Image2Addr $Image2Size
end

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@ -1,198 +0,0 @@
####################################
# J-LINK GDB SERVER initialization #
####################################
define InitJlink
printf "Jlink Init:\n"
set verbose off
set complaints 0
set confirm off
set exec-done-display off
show exec-done-display
set trace-commands off
#set debug aix-thread off
#set debug dwarf2-die 0
set debug displaced off
set debug expression 0
set debug frame 0
set debug infrun 0
set debug observer 0
set debug overload 0
#set debugvarobj 0
set pagination off
set print address off
set print symbol-filename off
set print symbol off
set print pretty off
set print object off
#set debug notification off
set debug parser off
set debug remote 0
target remote localhost:2331
set remotetimeout 10000
monitor device Cortex-M3
monitor endian little
monitor reset
# Set max speed
monitor speed 4000
set mem inaccessible-by-default off
# Setup GDB FOR FASTER DOWNLOADS
set remote memory-write-packet-size 8192
set remote memory-write-packet-size fixed
end
#############
# Boot_Flash
define SetBootFlash
printf "SetBoot = Flash:\n"
monitor long 0x40000210 = 0x211157
end
# Boot RAM start_addr0() Run if ( v400001F4 & 0x8000000 ) && ( v40000210 & 0x80000000 )
define SetBootCall0
printf "SetBoot = Call0:\n"
monitor long 0x40000210 = 0x80111157
end
# Boot RAM start_addr1() Run if ( v40000210 & 0x20000000 )
define SetBootCall1
printf "SetBoot = Call1:\n"
monitor long 0x40000210 = 0x20111157
end
# Boot RAM start_addr2() Run if ( v40000210 & 0x10000000 )
define SetBootCall2
printf "SetBoot = Call2:\n"
monitor long 0x40000210 = 0x10111157
end
# Boot RAM start_addr3() Run if ( v400001F4 & 0x8000000 ) && ( v40000210 & 0x8000000 )
define SetBootCall3
printf "SetBoot = Call3:\n"
monitor long 0x40000210 = 0x8111157
end
# Boot RAM start_addr4() Init console, Run if ( v40000210 & 0x4000000 )
define SetBootCall4
printf "SetBoot = Call4:\n"
monitor long 0x40000210 = 0x4111157
end
# CPU CLK 166 MHz?
define SetClk166MHz
printf "SetCLK 166.66MHz:\n"
monitor long 0x40000014 = 0x00000011
end
# CPU CLK 83 MHz?
define SetClk83MHz
printf "SetCLK 83.33MHz:\n"
monitor long 0x40000014 = 0x00000021
end
###############
# System Init #
###############
define SystemInit
printf "System Init:\n"
monitor long 0x40000304 = 0x1FC00002
monitor long 0x40000250 = 0x400
monitor long 0x40000340 = 0x0
monitor long 0x40000230 = 0xdcc4
monitor long 0x40000210 = 0x11117
monitor long 0x40000210 = 0x11157
monitor long 0x400002c0 = 0x110011
monitor long 0x40000320 = 0xffffffff
end
############
# SPI Init #
############
define SPI_Init
printf "Init SPI:\n"
#enable spi flash peripheral clock
set $Temp = {int}(0x40000230)
set $Temp = ($Temp | 0x300)
set {int}(0x40000230) = $Temp
#enable spi flash peripheral
set $Temp = {int}(0x40000210)
set $Temp = ($Temp | 0x10)
set {int}(0x40000210) = $Temp
#select spi flash pinout (0 - internal), enable spi flash pins
set $Temp = {int}(0x400002C0)
set $Temp = (($Temp & 0xFFFFFFF8) | 1)
set {int}(0x400002C0) = $Temp
#disable SPI FLASH operation
monitor long 0x40006008 = 0
#disable all interrupts
monitor long 0x4000602C = 0
#use first "slave select" pin
monitor long 0x40006010 = 1
#baud rate, default value
monitor long 0x40006014 = 2
#tx fifo threshold
monitor long 0x40006018 = 0
#rx fifo threshold
monitor long 0x4000601C = 0
#disable DMA
monitor long 0x4000604C = 0
set $SPI_FLASH_BASE = 0x98000000
end
###################
# SetFirwareSize #
###################
define SetFirwareSize
set $rambuffer = 0x10000300
printf "Get ImagesSize:\n"
restore $arg0 binary $rambuffer 0 0x20
set $Image1Size = {int}($rambuffer+0x10) + 32
set $Image1LoadAddr = {int}($rambuffer+0x14)
set $Image2Addr = {short}($rambuffer+0x18) * 1024
if $Image1Size != 0 && $Image1Size < 0x1000000
if $Image2Addr == 0
set $Image2Addr = $Image1Size
end
printf "Image1Size = %d\n", $Image1Size
printf "Image1LoadAddr = 0x%08x\n", $Image1LoadAddr
printf "Image2FlashAddr = 0x%08x\n", $Image2Addr
set $parms1 = $rambuffer - $Image2Addr
set $parms3 = $Image2Addr + 0x08
restore $arg0 binary $parms1 $Image2Addr $parms3
set $Image2Size = {int}($rambuffer)
set $Image2LoadAddr = {int}($rambuffer+0x4)
if $Image2Size != 0xFFFFFFFF && $Image2Size != 0
set $Image2Size = $Image2Size + 16
printf "Image2Size = %d\n", $Image2Size
printf "Image2LoadAddr = 0x%08x\n", $Image2LoadAddr
set $FirmwareSize = $Image2Addr + $Image2Size
printf "FirmwareSize = %d\n", $FirmwareSize
else
set $Image2Size = 0
printf "Image2 - None\n"
set $FirmwareSize = $Image1Size
printf "FirmwareSize = %d\n", $FirmwareSize
end
else
set $Image1Size = 0
set $Image2Size = 0
set $Image2Addr = 0
set $FirmwareSize = 0
printf "Image not format Firmware!\n"
end
end
#####################
# Flash Images Info #
#####################
define FlashImagesInfo
printf "Flash Info:\n"
set $Image1Size = {int}($SPI_FLASH_BASE + 0x10) + 32
set $Image1LoadAddr = {int}($SPI_FLASH_BASE + 0x14)
if $Image1LoadAddr == 0xFFFFFFFF
printf "Image1 - None\n"
else
set $Image2FlashAddr = {short}($SPI_FLASH_BASE + 0x18) * 1024
if $Image2FlashAddr == 0
$Image2FlashAddr = $Image1Size
end
set $Image2Size = {int}($Image2FlashAddr + $SPI_FLASH_BASE)
set $Image2LoadAddr = {int}($Image2FlashAddr + $SPI_FLASH_BASE + 0x4)
printf "Image1Size = %d\n", $Image1Size
printf "Image1LoadAddr = 0x%08x\n", $Image1LoadAddr
printf "Image2FlashAddr = 0x%08x\n", $Image2FlashAddr
if $Image2Size != 0xFFFFFFFF
printf "Image2Size = %d\n", $Image2Size
printf "Image2LoadAddr = 0x%08x\n", $Image2LoadAddr
else
printf "Image2 - None\n"
end
end
end

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@ -1,30 +0,0 @@
#
# J-LINK GDB SERVER initialization
#
target remote localhost:2331
set remotetimeout 10000
monitor device Cortex-M3
monitor endian little
monitor reset
# Set max speed
monitor speed 4000
set mem inaccessible-by-default off
# Setup GDB FOR FASTER DOWNLOADS
#set remote memory-write-packet-size 4096
#set remote memory-write-packet-size fixed
# Boot Flash
monitor long 0x40000210 = 0x211157
# Boot RAM start_addr0() Run if ( v400001F4 & 0x8000000 ) && ( v40000210 & 0x80000000 )
#monitor long 0x40000210 = 0x80011117
# Boot RAM start_addr1() Run if ( v40000210 & 0x20000000 )
#monitor long 0x40000210 = 0x20011117
# Boot RAM start_addr2() Run if ( v40000210 & 0x10000000 )
#monitor long 0x40000210 = 0x10011117
# Boot RAM start_addr3() Run if ( v400001F4 & 0x8000000 ) && ( v40000210 & 0x8000000 )
#monitor long 0x40000210 = 0x8011117
# Boot RAM start_addr4() Init console, Run if ( v40000210 & 0x4000000 )
monitor long 0x40000210 = 0x4011117
# CPU CLK 166 MHz?
# monitor long 0x40000014 = 0x00000011
# CPU CLK 83 MHz?
#monitor long 0x40000014 = 0x00000021

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@ -1,374 +0,0 @@
####################################
# J-LINK GDB SERVER initialization #
####################################
define InitJlink
printf "Jlink Init:\n"
set verbose off
set complaints 0
set confirm off
set exec-done-display off
show exec-done-display
set trace-commands off
#set debug aix-thread off
#set debug dwarf2-die 0
set debug displaced off
set debug expression 0
set debug frame 0
set debug infrun 0
set debug observer 0
set debug overload 0
#set debugvarobj 0
set pagination off
set print address off
set print symbol-filename off
set print symbol off
set print pretty off
set print object off
#set debug notification off
set debug parser off
set debug remote 0
target remote localhost:2331
set remotetimeout 10000
monitor device Cortex-M3
monitor endian little
monitor reset
# Set max speed
monitor speed 4000
set mem inaccessible-by-default off
# Setup GDB FOR FASTER DOWNLOADS
set remote memory-write-packet-size 8192
set remote memory-write-packet-size fixed
end
#############
# Boot_Flash
define SetBootFlash
printf "SetBoot = Flash:\n"
monitor long 0x40000210 = 0x211157
end
# Boot RAM start_addr0() Run if ( v400001F4 & 0x8000000 ) && ( v40000210 & 0x80000000 )
define SetBootCall0
printf "SetBoot = Call0:\n"
monitor long 0x40000210 = 0x80011117
end
# Boot RAM start_addr1() Run if ( v40000210 & 0x20000000 )
define SetBootCall1
printf "SetBoot = Call1:\n"
monitor long 0x40000210 = 0x20011117
end
# Boot RAM start_addr2() Run if ( v40000210 & 0x10000000 )
define SetBootCall2
printf "SetBoot = Call2:\n"
monitor long 0x40000210 = 0x10011117
end
# Boot RAM start_addr3() Run if ( v400001F4 & 0x8000000 ) && ( v40000210 & 0x8000000 )
define SetBootCall3
printf "SetBoot = Call3:\n"
monitor long 0x40000210 = 0x8011117
end
# Boot RAM start_addr4() Init console, Run if ( v40000210 & 0x4000000 )
define SetBootCall4
printf "SetBoot = Call4:\n"
monitor long 0x40000210 = 0x4011117
end
# CPU CLK 166 MHz?
define SetClk166MHz
printf "SetCLK 166.66MHz:\n"
monitor long 0x40000014 = 0x00000011
end
# CPU CLK 83 MHz?
define SetClk83MHz
printf "SetCLK 83.33MHz:\n"
monitor long 0x40000014 = 0x00000021
end
###############
# System Init #
###############
define SystemInit
printf "System Init:\n"
monitor long 0x40000304 = 0x1FC00002
monitor long 0x40000250 = 0x400
monitor long 0x40000340 = 0x0
monitor long 0x40000230 = 0xdcc4
monitor long 0x40000210 = 0x11117
monitor long 0x40000210 = 0x11157
monitor long 0x400002c0 = 0x110011
monitor long 0x40000320 = 0xffffffff
end
############
# SPI Init #
############
define SPI_Init
printf "Init SPI:\n"
#enable spi flash peripheral clock
set $Temp = {int}(0x40000230)
set $Temp = ($Temp | 0x300)
set {int}(0x40000230) = $Temp
#enable spi flash peripheral
set $Temp = {int}(0x40000210)
set $Temp = ($Temp | 0x10)
set {int}(0x40000210) = $Temp
#select spi flash pinout (0 - internal), enable spi flash pins
set $Temp = {int}(0x400002C0)
set $Temp = (($Temp & 0xFFFFFFF8) | 1)
set {int}(0x400002C0) = $Temp
#disable SPI FLASH operation
monitor long 0x40006008 = 0
#disable all interrupts
monitor long 0x4000602C = 0
#use first "slave select" pin
monitor long 0x40006010 = 1
#baud rate, default value
monitor long 0x40006014 = 2
#tx fifo threshold
monitor long 0x40006018 = 0
#rx fifo threshold
monitor long 0x4000601C = 0
#disable DMA
monitor long 0x4000604C = 0
set $SPI_FLASH_BASE = 0x98000000
end
###################
# GetOtaSize #
###################
define GetOtaSize
set $rambuffer = 0x10000300
printf "Get ImagesSize:\n"
set $ImageOtaSize = 0
restore $arg0 binary $rambuffer 0 4
set $ImageAddSize = {int}($rambuffer+0)
if $ImageAddSize != 0
printf "Image2Size = %d\n", $ImageAddSize
set $ImageOtaSize = $ImageOtaSize + $ImageAddSize + 16
set $parms1 = $rambuffer - $ImageOtaSize
set $parms3 = $ImageOtaSize + 4
restore $arg0 binary $parms1 $ImageOtaSize $parms3
set $ImageAddSize = {int}($rambuffer+0)
if $ImageAddSize < 0x200000
printf "ImageSdramSize = %d\n", $ImageAddSize
set $ImageOtaSize = $ImageOtaSize + $ImageAddSize + 20
end
else
printf "Image2Size = %d !\n", $ImageOtaSize
end
end
#####################
# Flash Images Info #
#####################
define FlashImagesInfo
printf "Flash Info:\n"
set $Image1Size = {int}($SPI_FLASH_BASE + 0x10) + 32
set $Image1LoadAddr = {int}($SPI_FLASH_BASE + 0x14)
if $Image1LoadAddr == 0xFFFFFFFF
printf "Image1 - None\n"
else
set $Image2FlashAddr = {short}($SPI_FLASH_BASE + 0x18) * 1024
if $Image2FlashAddr == 0
$Image2FlashAddr = $Image1Size
end
set $Image2Size = {int}($Image2FlashAddr + $SPI_FLASH_BASE)
set $Image2LoadAddr = {int}($Image2FlashAddr + $SPI_FLASH_BASE + 0x4)
printf "Image1Size = %d\n", $Image1Size
printf "Image1LoadAddr = 0x%08x\n", $Image1LoadAddr
printf "Image2FlashAddr = 0x%08x\n", $Image2FlashAddr
if $Image2Size != 0xFFFFFFFF
printf "Image2Size = %d\n", $Image2Size
printf "Image2LoadAddr = 0x%08x\n", $Image2LoadAddr
else
printf "Image2 - None\n"
end
end
set $ImageOtaAddr = {int}($SPI_FLASH_BASE + 0x9000)
if $ImageOtaAddr != 0x80000
printf "ImageOtaAddr = 0x%08x - Invalid!\n", $ImageOtaAddr
else
printf "ImageOtaAddr = 0x%08x\n", $ImageOtaAddr
end
end
###############
# FlasherInit #
###############
define FlasherInit
set $rtl8710_flasher_capacity = 0
set $rtl8710_flasher_auto_erase = 1
set $rtl8710_flasher_auto_verify = 1
set $rtl8710_flasher_firmware_ptr = 0x10001000
set $rtl8710_flasher_buffer = 0x10008000
set $rtl8710_flasher_buffer_size = 421888
set $rtl8710_flasher_sector_size = 4096
set $rtl8710_flasher_auto_erase_sector = 0xFFFFFFFF
end
###############
# FlasherWait #
###############
define FlasherWait
set $fresult = {int}($rtl8710_flasher_buffer)
while ($fresult != 0)
set $fresult = {int}($rtl8710_flasher_buffer)
end
end
###############
# FlasherLoad #
###############
define FlasherLoad
if $rtl8710_flasher_capacity == 0
printf "initializing RTL8710 flasher\n"
restore $arg0 binary $rtl8710_flasher_firmware_ptr 0 968
monitor reset
set $pc = $rtl8710_flasher_firmware_ptr
set $sp = 0x1ffffffc
set {int}($rtl8710_flasher_buffer + 0x08) = 0
set {int}($rtl8710_flasher_buffer + 0x00) = 1
#continue
monitor go
FlasherWait
set $id = {int}($rtl8710_flasher_buffer + 0x0C)
set $rtl8710_flasher_capacity = 1 << (($id >> 16) & 0x0ff)
if ($id == 0x1420c2)
printf "Flash ID = 0x%08x : MX25L8006E (%d kbytes)\n", $id, $rtl8710_flasher_capacity>>10
else
printf "Flash ID = 0x%08x : (%d kbytes)\n", $id, $rtl8710_flasher_capacity>>10
end
printf "RTL8710 flasher initialized\n"
else
printf "reinitializing RTL8710 flasher\n"
end
end
##################
# FlasherRdBlock #
##################
define FlasherRdBlock
#printf "FlashRdBlock 0x%08x, 0x%08x\n", $arg0, $arg1
set {int}($rtl8710_flasher_buffer + 0x04) = 3
set {int}($rtl8710_flasher_buffer + 0x08) = 0
set {int}($rtl8710_flasher_buffer + 0x10) = $arg0
set {int}($rtl8710_flasher_buffer + 0x14) = $arg1
set {int}($rtl8710_flasher_buffer + 0x00) = 1
FlasherWait
set $status = {int}($rtl8710_flasher_buffer + 0x08)
if $status > 0
error "read error, offset 0x%08x", $arg0
end
end
##################
# FlasherWrBlock #
##################
define FlasherWrBlock
#printf "FlashWrBlock 0x%08x, 0x%08x\n", $arg0, $arg1
set {int}($rtl8710_flasher_buffer + 0x04) = 4
set {int}($rtl8710_flasher_buffer + 0x08) = 0
set {int}($rtl8710_flasher_buffer + 0x10) = $arg0
set {int}($rtl8710_flasher_buffer + 0x14) = $arg1
set {int}($rtl8710_flasher_buffer + 0x00) = 1
FlasherWait
set $status = {int}($rtl8710_flasher_buffer + 0x08)
if $status > 0
error "write error, offset 0x%08x", $arg0
end
end
##################
# FlasherVrBlock #
##################
define FlasherVrBlock
#printf "FlashVrBlock 0x%08x, 0x%08x\n", $arg0, $arg1
set {int}($rtl8710_flasher_buffer + 0x04) = 5
set {int}($rtl8710_flasher_buffer + 0x08) = 0
set {int}($rtl8710_flasher_buffer + 0x10) = $arg0
set {int}($rtl8710_flasher_buffer + 0x14) = $arg1
set {int}($rtl8710_flasher_buffer + 0x00) = 1
FlasherWait
set $status = {int}($rtl8710_flasher_buffer + 0x08)
if $status > 0
set $status = {int}($rtl8710_flasher_buffer + 0x0C)
set $status = {int}($status + $arg0)
error "verify error, offset 0x%08x", $status
end
end
#################
# FlashSecErase #
#################
define FlashSecErase
#printf "FlashSecErase 0x%08x, 0x%08x\n", $rtl8710_flasher_buffer, $arg0
set {int}($rtl8710_flasher_buffer + 0x04) = 2
set {int}($rtl8710_flasher_buffer + 0x08) = 0
set {int}($rtl8710_flasher_buffer + 0x10) = $arg0
set {int}($rtl8710_flasher_buffer + 0x00) = 1
FlasherWait
end
################
# FlasherWrite #
################
define FlasherWrite
set $sector = 0
set $offset = 0
set $size = $arg2
while $offset < $size
set $len = $size - $offset
if $len > $rtl8710_flasher_buffer_size
set $len = $rtl8710_flasher_buffer_size
end
set $flash_offset = $arg1 + $offset
printf "write offset 0x%08x\n", $flash_offset
set $parms1 = $rtl8710_flasher_buffer + 0x20 - $offset
set $parms2 = $offset
set $parms3 = $offset + $len
restore $arg0 binary $parms1 $parms2 $parms3
if $rtl8710_flasher_auto_erase != 0
set $count_i = $flash_offset
while $count_i < ($flash_offset + $len)
set $sector = $count_i/$rtl8710_flasher_sector_size
if $rtl8710_flasher_auto_erase_sector != $sector
set $parms1 = $sector * $rtl8710_flasher_sector_size
printf "erase sector %d at 0x%08x\n", $sector, $parms1
FlashSecErase $parms1
set $rtl8710_flasher_auto_erase_sector = $sector
end
set $count_i = $count_i + 1
end
end
FlasherWrBlock $flash_offset $len
printf "write %d bytes at 0x%08x\n", $len, $flash_offset
if $rtl8710_flasher_auto_verify != 0
printf "verify offset 0x%08x len %d\n", $flash_offset, $len
FlasherVrBlock $flash_offset $len
end
set $offset = $offset + $rtl8710_flasher_buffer_size
end
end
#########################################
InitJlink
SystemInit
SetClk166MHz
SPI_Init
GetOtaSize build/bin/ota.bin
if $ImageOtaSize != 0
FlasherInit
FlasherLoad flasher/rtl8710_flasher.bin
set $FixOtaAddr = 0x80000
set $pbuffer = $rtl8710_flasher_buffer + 0x20
FlasherRdBlock 0x9000 0x1000
set $ImageOtaAddr = {int}($pbuffer)
if $ImageOtaAddr != $FixOtaAddr
printf "ImageOtaAddr = 0x%08x - Invalid!\n", $ImageOtaAddr
set {int}($pbuffer) = $FixOtaAddr
set $Temp = $ImageOtaAddr & $FixOtaAddr
if $Temp != $FixOtaAddr
printf "FlashSecErase at 0x9000\n"
FlashSecErase 0x9000
printf "Write offset 0x9000 4096 bytes\n"
FlasherWrBlock 0x9000 0x1000
else
printf "Write offset 0x9000 4 bytes\n"
FlasherWrBlock 0x9000 0x0004
end
end
FlasherWrite build/bin/ota.bin $FixOtaAddr $ImageOtaSize
restore build/bin/ota.bin binary $pbuffer 0 0x1000
set {int}($pbuffer + 0x08) = 0x35393138
set {int}($pbuffer + 0x0C) = 0x31313738
FlasherWrBlock $FixOtaAddr 0x10
FlashImagesInfo
end
monitor reset
SetBootFlash
monitor go
quit

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@ -1,17 +0,0 @@
# GDB Jlink read fullflash
# Init
source -v flasher/gdb_flasher.jlink
InitJlink
SystemInit
SPI_Init
monitor speed 12000
#FlashInfo
# Read FullFlash
printf "Read FullFlash:\n"
set $dumpstartaddr = $SPI_FLASH_BASE
set $dumpendaddr = $SPI_FLASH_BASE + 0x100000
printf "Start addr of dumping = 0x%08x\n", $dumpstartaddr
printf "End addr of dumping = 0x%08x\n", $dumpendaddr
dump binary memory ../fullflash.bin $dumpstartaddr $dumpendaddr
printf "FullFlash saved in ./build/bin/fullflash.bin - OK.\n"
quit

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@ -1,11 +0,0 @@
#
# J-LINK GDB SERVER initialization
#
source -v flasher/gdb_flasher.jlink
InitJlink
load build/obj/build.axf
SetBootCall4
monitor reset
monitor go
quit

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@ -1,166 +0,0 @@
###############
# FlasherInit #
###############
define FlasherInit
set $rtl8710_flasher_capacity = 0
set $rtl8710_flasher_auto_erase = 1
set $rtl8710_flasher_auto_verify = 1
set $rtl8710_flasher_firmware_ptr = 0x10001000
set $rtl8710_flasher_buffer = 0x10008000
#262144
set $rtl8710_flasher_buffer_size = 421888
set $rtl8710_flasher_sector_size = 4096
set $rtl8710_flasher_auto_erase_sector = 0xFFFFFFFF
end
###############
# FlasherWait #
###############
define FlasherWait
set $fresult = {int}($rtl8710_flasher_buffer)
while ($fresult != 0)
set $fresult = {int}($rtl8710_flasher_buffer)
end
end
###############
# FlasherLoad #
###############
define FlasherLoad
if $rtl8710_flasher_capacity == 0
printf "initializing RTL8710 flasher\n"
restore $arg0 binary $rtl8710_flasher_firmware_ptr 0 968
monitor reset
set $pc = $rtl8710_flasher_firmware_ptr
set $sp = 0x1ffffffc
set {int}($rtl8710_flasher_buffer + 0x08) = 0
set {int}($rtl8710_flasher_buffer + 0x00) = 1
#continue
monitor go
FlasherWait
set $id = {int}($rtl8710_flasher_buffer + 0x0C)
if ($id == 0x1420c2)
set $rtl8710_flasher_capacity = 1 << (($id >> 16) & 0x0ff)
printf "Flash ID = 0x%08x : MX25L8006E (%d kbytes)\n", $id, $rtl8710_flasher_capacity>>10
else
set $rtl8710_flasher_capacity = 1024*1024)
error "Flash ID = 0x%08x : ?\n", $id
end
printf "RTL8710 flasher initialized\n"
else
printf "reinitializing RTL8710 flasher\n"
end
end
##################
# FlasherWrBlock #
##################
define FlasherWrBlock
#printf "FlashWrBlock 0x%08x, 0x%08x\n", $arg0, $arg1
set {int}($rtl8710_flasher_buffer + 0x04) = 4
set {int}($rtl8710_flasher_buffer + 0x08) = 0
set {int}($rtl8710_flasher_buffer + 0x10) = $arg0
set {int}($rtl8710_flasher_buffer + 0x14) = $arg1
set {int}($rtl8710_flasher_buffer + 0x00) = 1
FlasherWait
set $status = {int}($rtl8710_flasher_buffer + 0x08)
if $status > 0
error "write error, offset 0x%08x", $arg0
end
end
##################
# FlasherVrBlock #
##################
define FlasherVrBlock
#printf "FlashVrBlock 0x%08x, 0x%08x\n", $arg0, $arg1
set {int}($rtl8710_flasher_buffer + 0x04) = 5
set {int}($rtl8710_flasher_buffer + 0x08) = 0
set {int}($rtl8710_flasher_buffer + 0x10) = $arg0
set {int}($rtl8710_flasher_buffer + 0x14) = $arg1
set {int}($rtl8710_flasher_buffer + 0x00) = 1
FlasherWait
set $status = {int}($rtl8710_flasher_buffer + 0x08)
if $status > 0
set $status = {int}($rtl8710_flasher_buffer + 0x0C)
set $status = {int}($status + $arg0)
error "verify error, offset 0x%08x", $status
end
end
#################
# FlashSecErase #
#################
define FlashSecErase
#printf "FlashSecErase 0x%08x, 0x%08x\n", $rtl8710_flasher_buffer, $arg0
set {int}($rtl8710_flasher_buffer + 0x04) = 2
set {int}($rtl8710_flasher_buffer + 0x08) = 0
set {int}($rtl8710_flasher_buffer + 0x10) = $arg0
set {int}($rtl8710_flasher_buffer + 0x00) = 1
FlasherWait
end
################
# FlasherWrite #
################
define FlasherWrite
set $sector = 0
set $offset = 0
set $size = $arg2
while $offset < $size
set $len = $size - $offset
if $len > $rtl8710_flasher_buffer_size
set $len = $rtl8710_flasher_buffer_size
end
set $flash_offset = $arg1 + $offset
printf "write offset 0x%08x\n", $flash_offset
set $parms1 = $rtl8710_flasher_buffer + 0x20 - $offset - $arg1
set $parms2 = $offset + $arg1
set $parms3 = $offset + $len + $arg1
restore $arg0 binary $parms1 $parms2 $parms3
if $rtl8710_flasher_auto_erase != 0
set $count_i = $flash_offset
while $count_i < ($flash_offset + $len)
set $sector = $count_i/$rtl8710_flasher_sector_size
if $rtl8710_flasher_auto_erase_sector != $sector
set $parms1 = $sector * $rtl8710_flasher_sector_size
printf "erase sector %d at 0x%08x\n", $sector, $parms1
FlashSecErase $parms1
set $rtl8710_flasher_auto_erase_sector = $sector
end
set $count_i = $count_i + 1
end
end
FlasherWrBlock $flash_offset $len
printf "wrote %d bytes at 0x%08x\n", $len, $flash_offset
if $rtl8710_flasher_auto_verify != 0
printf "verify offset 0x%08x len %d\n", $flash_offset, $len
FlasherVrBlock $flash_offset $len
end
set $offset = $offset + $rtl8710_flasher_buffer_size
end
end
#########################################
source -v flasher/gdb_flasher.jlink
source -v flasher/flash_file.jlink
InitJlink
SystemInit
SetClk166MHz
SPI_Init
FlashImagesInfo
#SetFirwareSize $wr_flile
call1
if $FirmwareSize == 0
error "FirmwareSize = 0!"
end
FlasherInit
FlasherLoad flasher/rtl8710_flasher.bin
if $Image1Size != 0
printf "Write Image1 size %d to Flash addr 0x00000000:\n", $Image1Size
#FlasherWrite $wr_flile 0 $Image1Size
call2
if $Image2Size != 0 && $Image2Addr >= $Image1Size
printf "Write Image2 size %d to Flash addr 0x%08x:\n", $Image2Size, $Image2Addr
#FlasherWrite $wr_flile $Image2Addr $Image2Size
call3
end
end
FlashImagesInfo
monitor reset
SetBootFlash
monitor go
quit