--- /dev/null
+# 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
+}
--- /dev/null
+# 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]
--- /dev/null
+# 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
+}
--- /dev/null
+# 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
+}
--- /dev/null
+# 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
+}
--- /dev/null
+# 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
+}
--- /dev/null
+# 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