134 lines
5.1 KiB
INI
134 lines
5.1 KiB
INI
# SPDX-License-Identifier: GPL-2.0-or-later
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# STMicroelectronics STM32MP15x (Single/Dual Cortex-A7 plus Cortex-M4)
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# http://www.st.com/stm32mp1
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# HLA does not support multi-cores nor custom CSW nor AP other than 0
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if { [using_hla] } {
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echo "ERROR: HLA transport cannot work with this target."
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echo "ERROR: To use STLink switch to DAP mode, as in \"board/stm32mp15x_dk2.cfg\"."
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shutdown
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}
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source [find target/swj-dp.tcl]
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if { [info exists CHIPNAME] } {
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set _CHIPNAME $CHIPNAME
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} else {
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set _CHIPNAME stm32mp15x
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}
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if { [info exists CPUTAPID] } {
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set _CPUTAPID $CPUTAPID
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} else {
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if { [using_jtag] } {
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set _CPUTAPID 0x6ba00477
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} else {
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set _CPUTAPID 0x6ba02477
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}
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}
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# Chip Level TAP Controller, only in jtag mode
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if { [info exists CLCTAPID] } {
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set _CLCTAPID $CLCTAPID
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} else {
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set _CLCTAPID 0x06500041
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}
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swj_newdap $_CHIPNAME tap -expected-id $_CPUTAPID -irlen 4
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if { [using_jtag] } {
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jtag newtap $_CHIPNAME.clc tap -expected-id $_CLCTAPID -irlen 5
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}
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dap create $_CHIPNAME.dap -chain-position $_CHIPNAME.tap -ignore-syspwrupack
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# FIXME: Cortex-M code requires target accessible during reset, but this is not possible in STM32MP1
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# so defer-examine it until the reset framework get merged
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# NOTE: keep ap-num and dbgbase to speed-up examine after reset
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# NOTE: do not change the order of target create
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target create $_CHIPNAME.ap1 mem_ap -dap $_CHIPNAME.dap -ap-num 1
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target create $_CHIPNAME.ap2 mem_ap -dap $_CHIPNAME.dap -ap-num 2
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target create $_CHIPNAME.axi mem_ap -dap $_CHIPNAME.dap -ap-num 0
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target create $_CHIPNAME.cpu0 cortex_a -dap $_CHIPNAME.dap -ap-num 1 -coreid 0 -dbgbase 0xE00D0000
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target create $_CHIPNAME.cpu1 cortex_a -dap $_CHIPNAME.dap -ap-num 1 -coreid 1 -dbgbase 0xE00D2000
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target create $_CHIPNAME.cm4 cortex_m -dap $_CHIPNAME.dap -ap-num 2 -defer-examine
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targets $_CHIPNAME.cpu0
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target smp $_CHIPNAME.cpu0 $_CHIPNAME.cpu1
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$_CHIPNAME.cpu0 cortex_a maskisr on
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$_CHIPNAME.cpu1 cortex_a maskisr on
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$_CHIPNAME.cpu0 cortex_a dacrfixup on
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$_CHIPNAME.cpu1 cortex_a dacrfixup on
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cti create $_CHIPNAME.cti.sys -dap $_CHIPNAME.dap -ap-num 1 -baseaddr 0xE0094000
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cti create $_CHIPNAME.cti.cpu0 -dap $_CHIPNAME.dap -ap-num 1 -baseaddr 0xE00D8000
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cti create $_CHIPNAME.cti.cpu1 -dap $_CHIPNAME.dap -ap-num 1 -baseaddr 0xE00D9000
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cti create $_CHIPNAME.cti.cm4 -dap $_CHIPNAME.dap -ap-num 2 -baseaddr 0xE0043000
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swo create $_CHIPNAME.swo -dap $_CHIPNAME.dap -ap-num 1 -baseaddr 0xE0083000
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tpiu create $_CHIPNAME.tpiu -dap $_CHIPNAME.dap -ap-num 1 -baseaddr 0xE0093000
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# interface does not work while srst is asserted
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# this is target specific, valid for every board
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# Errata "2.3.5 Incorrect reset of glitch-free kernel clock switch" requires
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# srst to force VDDCORE power cycle or pull srst_core. Both cases reset the
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# debug unit, behavior equivalent to "srst_pulls_trst"
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reset_config srst_gates_jtag srst_pulls_trst
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adapter speed 5000
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adapter srst pulse_width 200
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# bootrom has an internal timeout of 1 second for detecting the boot flash.
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# wait at least 1 second to guarantee we are out of bootrom
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adapter srst delay 1100
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add_help_text axi_secure "Set secure mode for following AXI accesses"
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proc axi_secure {} {
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$::_CHIPNAME.dap apsel 0
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$::_CHIPNAME.dap apcsw 0x10006000
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}
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add_help_text axi_nsecure "Set non-secure mode for following AXI accesses"
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proc axi_nsecure {} {
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$::_CHIPNAME.dap apsel 0
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$::_CHIPNAME.dap apcsw 0x30006000
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}
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axi_secure
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proc dbgmcu_enable_debug {} {
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# set debug enable bits in DBGMCU_CR to get ap2 and cm4 visible
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catch {$::_CHIPNAME.ap1 mww 0xe0081004 0x00000007}
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# freeze watchdog 1 and 2 on cores halted
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catch {$::_CHIPNAME.ap1 mww 0xe008102c 0x00000004}
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catch {$::_CHIPNAME.ap1 mww 0xe008104c 0x00000008}
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}
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proc toggle_cpu0_dbg_claim0 {} {
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# toggle CPU0 DBG_CLAIM[0]
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$::_CHIPNAME.ap1 mww 0xe00d0fa0 1
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$::_CHIPNAME.ap1 mww 0xe00d0fa4 1
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}
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proc detect_cpu1 {} {
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set cpu1_prsr [$::_CHIPNAME.ap1 read_memory 0xE00D2314 32 1]
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set dual_core [expr {$cpu1_prsr & 1}]
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if {! $dual_core} {$::_CHIPNAME.cpu1 configure -defer-examine}
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}
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proc rcc_enable_traceclk {} {
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$::_CHIPNAME.ap2 mww 0x5000080c 0x301
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}
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# FIXME: most of handler below will be removed once reset framework get merged
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$_CHIPNAME.ap1 configure -event reset-deassert-pre {adapter deassert srst deassert trst;catch {dap init};catch {$::_CHIPNAME.dap apid 1}}
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$_CHIPNAME.ap2 configure -event reset-deassert-pre {dbgmcu_enable_debug;rcc_enable_traceclk}
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$_CHIPNAME.cpu0 configure -event reset-deassert-pre {$::_CHIPNAME.cpu0 arp_examine}
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$_CHIPNAME.cpu1 configure -event reset-deassert-pre {$::_CHIPNAME.cpu1 arp_examine allow-defer}
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$_CHIPNAME.cpu0 configure -event reset-deassert-post {toggle_cpu0_dbg_claim0}
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$_CHIPNAME.cm4 configure -event reset-deassert-post {$::_CHIPNAME.cm4 arp_examine;if {[$::_CHIPNAME.ap2 curstate] == "halted"} {$::_CHIPNAME.cm4 arp_poll;$::_CHIPNAME.cm4 arp_poll;$::_CHIPNAME.cm4 arp_halt}}
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$_CHIPNAME.ap1 configure -event examine-start {dap init}
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$_CHIPNAME.ap2 configure -event examine-start {dbgmcu_enable_debug}
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$_CHIPNAME.cpu0 configure -event examine-end {detect_cpu1}
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$_CHIPNAME.ap2 configure -event examine-end {rcc_enable_traceclk;$::_CHIPNAME.cm4 arp_examine}
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