tinyriscv-openocd/tcl/board/dm365evm.cfg

148 lines
3.7 KiB
INI

# DM365 EVM board -- Beta
# http://focus.ti.com/docs/toolsw/folders/print/tmdxevm365.html
# http://support.spectrumdigital.com/boards/evmdm365
source [find target/ti_dm365.cfg]
# NOTE: in Rev C boards, the CPLD ignores SRST from the ARM-20 JTAG
# connector, so it doesn't affect generation of the reset signal.
# Accordingly, resets require something else. ICEpick could do it;
# but its docs aren't generally available.
#
# At this writing, newer boards aren't available ... so assume no SRST.
# Also ICEpick docs aren't available ... so we must use watchdog reset,
# and hope the CPU isn't wedged or in a WFI loop (either of which can
# block access to CPU and thus watchdog registers).
reset_config trst_only
$_TARGETNAME configure -event reset-assert "davinci_wdog_reset"
# SW5.1 routes CS0: NAND vs OneNAND.
# SW4.6:4 controls AEMIF width (8 for NAND, 16 for OneNand)
# for boot-from-flash, those must agree with SW4.3:1 settings.
if { [info exists CS0MODE] } {
# NAND or OneNAND
set CS0 $CS0MODE
} else {
set CS0 ""
echo "WARNING: CS0 configuration not known"
proc cs0_setup {a_emif} {}
proc flashprobe {} {}
}
set a_emif [dict get $dm365 a_emif]
# As shipped: boot from NAND.
if { $CS0 == "NAND" } {
echo "CS0 NAND"
# NAND socket has two chipselects. Default MT29F16G08FAA chip
# has 1GByte on each one.
# NOTE: "hwecc4" here presumes that you're not updating anything
# that needs infix layout (e.g. UBL, old U-Boot, etc)
nand device low davinci $_TARGETNAME 0x02000000 hwecc4 $a_emif
nand device high davinci $_TARGETNAME 0x02004000 hwecc4 $a_emif
proc cs0_setup {a_emif} {
global dm365
# 8 bit EMIF
davinci_pinmux $dm365 2 0x00000016
# slow/pessimistic timings
set nand_timings 0x40400204
# fast (25% faster page reads)
#set nand_timings 0x0400008c
# CS0 == socketed NAND (default MT29F16G08FAA, 2 GBytes)
mww [expr $a_emif + 0x10] $nand_timings
# NANDFCR -- CS0 has NAND
mww [expr $a_emif + 0x60] 0x01
}
proc flashprobe {} {
nand probe 0
nand probe 1
}
} elseif { $CS0 == "OneNAND" } {
echo "CS0 OneNAND"
# No support for this OneNAND in OpenOCD (yet) or Linux ...
# REVISIT OneNAND timings not verified to work!
echo "WARNING -- OneNAND not yet tested!"
proc cs0_setup {a_emif} {
global dm365
# 16 bit EMIF
davinci_pinmux $dm365 2 0x00000055
# CS0 == OneNAND (KFG1G16U2B-DIB6, 128 KBytes)
mww [expr $a_emif + 0x10] 0x00000001
# ONENANDCTRL -- CS0 has OneNAND, enable sync reads
mww [expr $a_emif + 0x5c] 0x0441
}
proc flashprobe {} { }
}
# NOTE: disable or replace this call to dm365evm_init if you're
# debugging new UBL/NANDboot code from SRAM.
$_TARGETNAME configure -event reset-init { dm365evm_init }
#
# This post-reset init is called when the MMU isn't active, all IRQs
# are disabled, etc. It should do most of what a UBL does, except for
# loading code (like U-Boot) into DRAM and running it.
#
proc dm365evm_init {} {
global dm365
echo "Initialize DM365 EVM board"
# CLKIN = 24 MHz ... can't talk quickly to ARM yet
adapter_khz 1500
# FIXME -- PLL init
########################
# PINMUX setup
davinci_pinmux $dm365 0 0x00fd0000
davinci_pinmux $dm365 1 0x00145555
# mux2 controls AEMIF ... 8 bit for NAND, 16 for OneNand
davinci_pinmux $dm365 3 0x375affff
davinci_pinmux $dm365 4 0x55556555
########################
# PSC setup (minimal)
# DDR EMIF/13, AEMIF/14, UART0/19
psc_enable 13
psc_enable 14
psc_enable 19
psc_go
# FIXME setup DDR2 (needs PLL)
########################
# ASYNC EMIF
set a_emif [dict get $dm365 a_emif]
# AWCCR
mww [expr $a_emif + 0x04] 0xff
# CS0 == NAND or OneNAND
cs0_setup $a_emif
# CS1 == CPLD
mww [expr $a_emif + 0x14] 0x00a00505
# FIXME setup UART0
flashprobe
}