imi415
/
openocd
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity

TCL scripts: add support for ST SPEAr310 

Initial support for ST SPEAr310 and for the evaluation
board EVALSPEAr310 Rev. 2.0.
Scripts are split in generic for SPEAr3xx family and
specific for SPEAr310. This should easily allow adding
new members of the family.

Signed-off-by: Antonio Borneo <borneo.antonio@gmail.com>
This commit is contained in:
Antonio Borneo 2010-11-04 16:53:28 +08:00 committed by Øyvind Harboe
parent 8f1f8e7b96
commit 074498f836
7 changed files with 428 additions and 0 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

48
tcl/board/spear310evb20.cfg Normal file
View File

@ -0,0 +1,48 @@
# Configuration for the ST SPEAr310 Evaluation board
# EVALSPEAr310 Rev. 2.0
# http://www.st.com/spear
#
# Date: 2010-08-17
# Author: Antonio Borneo <borneo.antonio@gmail.com>
# The standard board has JTAG SRST not connected.
# This script targets such boards using quirky code to bypass the issue.
#
# Check ST Application Note (FIXME: put reference) on how to fix SRST on
# the board, then use the script board/spear310evb20_mod.cfg
source [find mem_helper.tcl]
source [find target/spear3xx.cfg]
source [find chip/st/spear/spear310.tcl]
source [find chip/st/spear/spear3xx_ddr.tcl]
source [find chip/st/spear/spear3xx.tcl]
arm7_9 dcc_downloads enable
arm7_9 fast_memory_access enable
# CFI parallel NOR on EMI CS0. 2x 16bit 8M devices = 16Mbyte.
set _FLASHNAME0 $_CHIPNAME.pnor
flash bank $_FLASHNAME0 cfi 0x50000000 0x01000000 2 4 $_TARGETNAME
if { [info exists BOARD_HAS_SRST] } {
# Modified board has SRST on JTAG connector
reset_config trst_and_srst separate srst_gates_jtag \
trst_push_pull srst_open_drain
} else {
# Standard board has no SRST on JTAG connector
reset_config trst_only separate srst_gates_jtag trst_push_pull
source [find chip/st/spear/quirk_no_srst.tcl]
}
$_TARGETNAME configure -event reset-init { spear310evb20_init }
proc spear310evb20_init {} {
reg pc 0xffff0020 # loop forever
sp3xx_clock_default
sp3xx_common_init
sp3xx_ddr_init "mt47h64m16_3_333_cl5_async"
sp310_init
sp310_emi_init
}

25
tcl/board/spear310evb20_mod.cfg Normal file
View File

@ -0,0 +1,25 @@
# Configuration for the ST SPEAr310 Evaluation board
# EVALSPEAr310 Rev. 2.0, modified to enable SRST on JTAG connector
# http://www.st.com/spear
#
# List of board modifications to enable SRST, as per ST Application Note
# (FIXME: put reference to AN)
# - Modifications on the top layer:
# 1. remove R137 and C57, located near the SMII PHY U18;
# 2. remove R172 and C75, located near the SMII PHY U19;
# 3. remove R207 and C90, located near the SMII PHY U20;
# 4. remove C236, located near the SMII PHY U21;
# 5. remove U12, located near the JTAG connector;
# 6. solder together pins 7, 8 and 9 of U12;
# 7. solder together pins 11, 12, 13, 14, 15, 16, 17 and 18 of U12.
# - Modifications on the bottom layer:
# 8. replace reset chip U11 with a STM6315SDW13F;
# 9. add 0 ohm resistor R329. It is located close to JTAG connector.
#
# Date: 2009-10-31
# Author: Antonio Borneo <borneo.antonio@gmail.com>
# Modified boards has SRST on JTAG connector
set BOARD_HAS_SRST 1
source [find board/spear310evb20.cfg]

75
tcl/chip/st/spear/quirk_no_srst.tcl Normal file
View File

@ -0,0 +1,75 @@
# Quirks to bypass missing SRST on JTAG connector
# EVALSPEAr310 Rev. 2.0
# http://www.st.com/spear
#
# Date: 2010-08-17
# Author: Antonio Borneo <borneo.antonio@gmail.com>
# For boards that have JTAG SRST not connected.
# We use "arm9 vector_catch reset" to catch button reset event.
$_TARGETNAME configure -event reset-assert sp_reset_assert
$_TARGETNAME configure -event reset-deassert-post sp_reset_deassert_post
# keeps the name of the SPEAr target
global sp_target_name
set sp_target_name $_TARGETNAME
# Keeps the argument of "reset" command (run, init, halt).
global sp_reset_mode
set sp_reset_mode ""
# Helper procedure. Returns 0 is target is halted.
proc sp_is_halted {} {
global sp_target_name
return [expr [string compare [$sp_target_name curstate] "halted" ] == 0]
}
# wait for reset button to be pressed, causing CPU to get halted
proc sp_reset_deassert_post {} {
global sp_reset_mode
set bar(0) |
set bar(1) /
set bar(2) -
set bar(3) \\
poll on
puts "====> Press reset button on the board <===="
for {set i 0} { [sp_is_halted] == 0 } { set i [expr $i + 1]} {
puts -nonewline "$bar([expr $i & 3])\r"
sleep 200
}
# Remove catch reset event
arm9 vector_catch none
# CPU is halted, but we typed "reset run" ...
if { [string compare $sp_reset_mode "run"] == 0 } {
resume
}
}
# Override reset-assert, since no SRST available
# Catch reset event
proc sp_reset_assert {} {
arm9 vector_catch reset
}
# Override default init_reset{mode} to catch parameter "mode"
proc init_reset {mode} {
global sp_reset_mode
set sp_reset_mode $mode
# We need to detect CPU get halted, so exit from halt
if { [sp_is_halted] } {
echo "Resuming CPU to detect reset"
resume
}
# Execute default init_reset{mode}
jtag arp_init-reset
}

40
tcl/chip/st/spear/spear310.tcl Normal file
View File

@ -0,0 +1,40 @@
# Specific init scripts for ST SPEAr310 system on chip
# http://www.st.com/spear
#
# Date: 2010-09-23
# Author: Antonio Borneo <borneo.antonio@gmail.com>
proc sp310_init {} {
mww 0xfca80034 0x0000ffff # enable all RAS clocks
mww 0xfca80040 0x00000000 # remove all RAS resets
mww 0xb4000008 0x00002ff4 # RAS function enable
mww 0xfca8013c 0x2f7bc210 # plgpio_pad_drv
mww 0xfca80140 0x017bdef6
}
proc sp310_emi_init {} {
# set EMI pad strength
mmw 0xfca80134 0x0e000000 0x00000000
mmw 0xfca80138 0x0e739ce7 0x00000000
mmw 0xfca8013c 0x00039ce7 0x00000000
# set safe EMI timing as in BootROM
#mww 0x4f000000 0x0000000f # tAP_0_reg
#mww 0x4f000004 0x00000000 # tSDP_0_reg
#mww 0x4f000008 0x000000ff # tDPw_0_reg
#mww 0x4f00000c 0x00000111 # tDPr_0_reg
#mww 0x4f000010 0x00000002 # tDCS_0_reg
# set fast EMI timing as in Linux
mww 0x4f000000 0x00000010 # tAP_0_reg
mww 0x4f000004 0x00000005 # tSDP_0_reg
mww 0x4f000008 0x0000000a # tDPw_0_reg
mww 0x4f00000c 0x0000000a # tDPr_0_reg
mww 0x4f000010 0x00000005 # tDCS_0_re
# 32bit wide, 8/16/32bit access
mww 0x4f000014 0x0000000e # control_0_reg
mww 0x4f000094 0x0000003f # ack_reg
}

79
tcl/chip/st/spear/spear3xx.tcl Normal file
View File

@ -0,0 +1,79 @@
# Generic init scripts for all ST SPEAr3xx family
# http://www.st.com/spear
#
# Date: 2010-09-23
# Author: Antonio Borneo <borneo.antonio@gmail.com>
# Initialize internal clock
# Default:
# - Crystal = 24 MHz
# - PLL1 = 332 MHz
# - PLL2 = 332 MHz
# - CPU_CLK = 332 MHz
# - DDR_CLK = 332 MHz async
# - HCLK = 166 MHz
# - PCLK = 83 MHz
proc sp3xx_clock_default {} {
mww 0xfca00000 0x00000002 # set sysclk slow
mww 0xfca00014 0x0ffffff8 # set pll timeout to minimum (100us ?!?)
# DDRCORE disable to change frequency
set val [expr ([mrw 0xfca8002c] & ~0x20000000) | 0x40000000]
mww 0xfca8002c $val
mww 0xfca8002c $val # Yes, write twice!
# programming PLL1
mww 0xfca8000c 0xa600010c # M=166 P=1 N=12
mww 0xfca80008 0x00001c0a # power down
mww 0xfca80008 0x00001c0e # enable
mww 0xfca80008 0x00001c06 # strobe
mww 0xfca80008 0x00001c0e
while { [expr [mrw 0xfca80008] & 0x01] == 0x00 } { sleep 1 }
# programming PLL2
mww 0xfca80018 0xa600010c # M=166, P=1, N=12
mww 0xfca80014 0x00001c0a # power down
mww 0xfca80014 0x00001c0e # enable
mww 0xfca80014 0x00001c06 # strobe
mww 0xfca80014 0x00001c0e
while { [expr [mrw 0xfca80014] & 0x01] == 0x00 } { sleep 1 }
mww 0xfca80028 0x00000082 # enable plltimeen
mww 0xfca80024 0x00000511 # set hclkdiv="/2" & pclkdiv="/2"
mww 0xfca00000 0x00000004 # setting SYSCTL to NORMAL mode
while { [expr [mrw 0xfca00000] & 0x20] != 0x20 } { sleep 1 }
# Select source of DDR clock
#mmw 0xfca80020 0x10000000 0x70000000 ;# PLL1
mmw 0xfca80020 0x30000000 0x70000000 ;# PLL2
# DDRCORE enable after change frequency
mmw 0xfca8002c 0x20000000 0x00000000
}
proc sp3xx_common_init {} {
mww 0xfca8002c 0xfffffff8 # enable clock of all peripherals
mww 0xfca80038 0x00000000 # remove reset of all peripherals
mww 0xfca800e4 0x78000008 # COMP1V8_REG
mww 0xfca800ec 0x78000008 # COMP3V3_REG
mww 0xfca80050 0x00000001 # Enable clk mem port 1
mww 0xfc000000 0x10000f5f # init SMI and set HW mode
mww 0xfc000000 0x00000f5f
# Initialize Bus Interconnection Matrix
# All ports Round-Robin and lowest priority
mww 0xfca8007c 0x80000007
mww 0xfca80080 0x80000007
mww 0xfca80084 0x80000007
mww 0xfca80088 0x80000007
mww 0xfca8008c 0x80000007
mww 0xfca80090 0x80000007
mww 0xfca80094 0x80000007
mww 0xfca80098 0x80000007
mww 0xfca8009c 0x80000007
}

120
tcl/chip/st/spear/spear3xx_ddr.tcl Normal file
View File

@ -0,0 +1,120 @@
# Init scripts to configure DDR controller of SPEAr3xx
# http://www.st.com/spear
# Original values taken from XLoader source code
#
# Date: 2010-09-23
# Author: Antonio Borneo <borneo.antonio@gmail.com>
proc sp3xx_ddr_init {ddr_type} {
if { $ddr_type == "mt47h64m16_3_333_cl5_async" } {
ddr_spr3xx_mt47h64m16_3_333_cl5_async
set ddr_size 0x08000000
## add here new DDR chip definition. Prototype:
#} elseif { $ddr_type == "?????" } {
# ?????
# set ddr_size 0x?????
} else {
error "sp3xx_ddr_init: unrecognized DDR type "$ddr_type
}
# Check for single/double memory chip
# DDR starts at address 0x00000000
mww $ddr_size 0x87654321
mww 0x00000000 0x12345678
if {[expr [mrw 0x00000000] == 0x12345678 && [mrw $ddr_size] == 0x87654321]} {
puts [format \
"Double chip DDR memory. Total memory size 0x%08x byte" \
[expr 2 * $ddr_size]]
} else {
puts [format \
"Single chip DDR memory. Memory size 0x%08x byte" \
$ddr_size]
}
}
# from Xloader file ddr/spr300_mt47h64m16_3_333_cl5_async.S
proc ddr_spr3xx_mt47h64m16_3_333_cl5_async {} {
# DDR_PAD_REG
mww 0xfca800f0 0x00003aa5
# Use "1:2 sync" only when DDR clock source is PLL1 and
# HCLK is half of PLL1
mww 0xfc600000 0x00000001 # MEMCTL_AHB_SET_00 # This is async
mww 0xfc600004 0x00000000 # MEMCTL_AHB_SET_01
# mww 0xfc600000 0x02020201 # MEMCTL_AHB_SET_00 # This is 1:2 sync
# mww 0xfc600004 0x02020202 # MEMCTL_AHB_SET_01
mww 0xfc600008 0x01000000 # MEMCTL_RFSH_SET_00
mww 0xfc60000c 0x00000101 # MEMCTL_DLL_SET_00
mww 0xfc600010 0x00000101 # MEMCTL_GP_00
mww 0xfc600014 0x01000000 # MEMCTL_GP_01
mww 0xfc600018 0x00010001 # MEMCTL_GP_02
mww 0xfc60001c 0x00000100 # MEMCTL_GP_03
mww 0xfc600020 0x00010001 # MEMCTL_GP_04
mww 0xfc600024 0x01020203 # MEMCTL_GP_05
mww 0xfc600028 0x01000102 # MEMCTL_GP_06
mww 0xfc60002c 0x02000202 # MEMCTL_AHB_SET_02
mww 0xfc600030 0x04040105 # MEMCTL_AHB_SET_03
mww 0xfc600034 0x03030302 # MEMCTL_AHB_SET_04
mww 0xfc600038 0x02040101 # MEMCTL_AHB_SET_05
mww 0xfc60003c 0x00000002 # MEMCTL_AHB_SET_06
mww 0xfc600044 0x03000405 # MEMCTL_DQS_SET_0
mww 0xfc600048 0x03040002 # MEMCTL_TIME_SET_01
mww 0xfc60004c 0x04000305 # MEMCTL_TIME_SET_02
mww 0xfc600050 0x0505053f # MEMCTL_AHB_RELPR_00
mww 0xfc600054 0x05050505 # MEMCTL_AHB_RELPR_01
mww 0xfc600058 0x04040405 # MEMCTL_AHB_RELPR_02
mww 0xfc60005c 0x04040404 # MEMCTL_AHB_RELPR_03
mww 0xfc600060 0x03030304 # MEMCTL_AHB_RELPR_04
mww 0xfc600064 0x03030303 # MEMCTL_AHB_RELPR_05
mww 0xfc600068 0x02020203 # MEMCTL_AHB_RELPR_06
mww 0xfc60006c 0x02020202 # MEMCTL_AHB_RELPR_07
mww 0xfc600070 0x01010102 # MEMCTL_AHB_RELPR_08
mww 0xfc600074 0x01010101 # MEMCTL_AHB_RELPR_09
mww 0xfc600078 0x00000001 # MEMCTL_AHB_RELPR_10
mww 0xfc600088 0x0a0c0a00 # MEMCTL_DQS_SET_1
mww 0xfc60008c 0x0000023f # MEMCTL_GP_07
mww 0xfc600090 0x00050a00 # MEMCTL_GP_08
mww 0xfc600094 0x11000000 # MEMCTL_GP_09
mww 0xfc600098 0x00001302 # MEMCTL_GP_10
mww 0xfc60009c 0x00001c1c # MEMCTL_DLL_SET_01
mww 0xfc6000a0 0x7c000000 # MEMCTL_DQS_OUT_SHIFT
mww 0xfc6000a4 0x005c0000 # MEMCTL_WR_DQS_SHIFT
mww 0xfc6000a8 0x2b050e00 # MEMCTL_TIME_SET_03
mww 0xfc6000ac 0x00640064 # MEMCTL_AHB_PRRLX_00
mww 0xfc6000b0 0x00640064 # MEMCTL_AHB_PRRLX_01
mww 0xfc6000b4 0x00000064 # MEMCTL_AHB_PRRLX_02
mww 0xfc6000b8 0x00000000 # MEMCTL_OUTRANGE_LGTH
mww 0xfc6000bc 0x00200020 # MEMCTL_AHB_RW_SET_00
mww 0xfc6000c0 0x00200020 # MEMCTL_AHB_RW_SET_01
mww 0xfc6000c4 0x00200020 # MEMCTL_AHB_RW_SET_02
mww 0xfc6000c8 0x00200020 # MEMCTL_AHB_RW_SET_03
mww 0xfc6000cc 0x00200020 # MEMCTL_AHB_RW_SET_04
mww 0xfc6000d8 0x00000a24 # MEMCTL_TREF
mww 0xfc6000dc 0x00000000 # MEMCTL_EMRS3_DATA
mww 0xfc6000e0 0x5b1c00c8 # MEMCTL_TIME_SET_04
mww 0xfc6000e4 0x00c8002e # MEMCTL_TIME_SET_05
mww 0xfc6000e8 0x00000000 # MEMCTL_VERSION
mww 0xfc6000ec 0x0001046b # MEMCTL_TINIT
mww 0xfc6000f0 0x00000000 # MEMCTL_OUTRANGE_ADDR_01
mww 0xfc6000f4 0x00000000 # MEMCTL_OUTRANGE_ADDR_02
mww 0xfc600104 0x001c0000 # MEMCTL_DLL_DQS_DELAY_BYPASS_0
mww 0xfc600108 0x0019001c # MEMCTL_DLL_SET_02
mww 0xfc60010c 0x00100000 # MEMCTL_DLL_SET_03
mww 0xfc600110 0x001e007a # MEMCTL_DQS_SET_2
mww 0xfc600188 0x00000000 # MEMCTL_USER_DEF_REG_0
mww 0xfc60018c 0x00000000 # MEMCTL_USER_DEF_REG_1
mww 0xfc600190 0x01010001 # MEMCTL_GP_11
mww 0xfc600194 0x01000000 # MEMCTL_GP_12
mww 0xfc600198 0x00000001 # MEMCTL_GP_13
mww 0xfc60019c 0x00400000 # MEMCTL_GP_14
mww 0xfc6001a0 0x00000000 # MEMCTL_EMRS2_DATA_X
mww 0xfc6001a4 0x00000000 # MEMCTL_LWPWR_CNT
mww 0xfc6001a8 0x00000000 # MEMCTL_LWPWR_REG
mww 0xfc6001ac 0x00860000 # MEMCTL_GP_15
mww 0xfc6001b0 0x00000002 # MEMCTL_TPDEX
# MPMC START
mww 0xfc60001c 0x01000100
}

41
tcl/target/spear3xx.cfg Normal file
View File

@ -0,0 +1,41 @@
# Target configuration for the ST SPEAr3xx family of system on chip
# Supported SPEAr300, SPEAr310, SPEAr320
# http://www.st.com/spear
#
# Processor: ARM926ejs
# Info: JTAG tap: spear3xx.cpu tap/device found: 0x07926041
# Date: 2009-10-31
# Author: Antonio Borneo <borneo.antonio@gmail.com>
if { [info exists CHIPNAME] } {
set _CHIPNAME $CHIPNAME
} else {
set _CHIPNAME spear3xx
}
if { [info exists ENDIAN] } {
set _ENDIAN $ENDIAN
} else {
set _ENDIAN little
}
if { [info exists CPUTAPID ] } {
set _CPUTAPID $CPUTAPID
} else {
set _CPUTAPID 0x07926041
}
jtag newtap $_CHIPNAME cpu -irlen 4 -ircapture 0x01 -irmask 0x03 \
-expected-id $_CPUTAPID
set _TARGETNAME $_CHIPNAME.cpu
target create $_TARGETNAME arm926ejs -endian $_ENDIAN \
-chain-position $_TARGETNAME
# SPEAr3xx has a 8K block of sram @ 0xd280.0000
# REVISIT: what OS puts virtual address equal to phys?
$_TARGETNAME configure \
-work-area-virt 0xd2800000 \
-work-area-phys 0xd2800000 \
-work-area-size 0x2000 \
-work-area-backup 0