RT-Thread-Studio
/
sdk-debugger-openocd-infineon
зеркало из https://github-proxy.rt-thread.io/RT-Thread-Studio/sdk-debugger-openocd-infineon.git


			
				
					
						
						
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							# SPDX-License-Identifier: GPL-2.0-or-later

#
# Utility code for DaVinci-family chips
#

# davinci_pinmux: assigns PINMUX$reg <== $value
proc davinci_pinmux {soc reg value} {
	mww [expr {[dict get $soc sysbase] + 4 * $reg}] $value
}

source [find mem_helper.tcl]

#
# pll_setup: initialize PLL
#  - pll_addr ... physical addr of controller
#  - mult ... pll multiplier
#  - config ... dict mapping { prediv, postdiv, div[1-9] } to dividers
#
# For PLLs that don't have a given register (e.g. plldiv8), or where a
# given divider is non-programmable, caller provides *NO* config mapping.
#

# PLL version 0x02: tested on dm355
# REVISIT: On dm6446/dm357 the PLLRST polarity is different.
proc pll_v02_setup {pll_addr mult config} {
	set pll_ctrl_addr [expr {$pll_addr + 0x100}]
	set pll_ctrl [mrw $pll_ctrl_addr]

	# 1 - clear CLKMODE (bit 8) iff using on-chip oscillator
	# NOTE: this assumes we should clear that bit
	set pll_ctrl [expr {$pll_ctrl & ~0x0100}]
	mww $pll_ctrl_addr $pll_ctrl

	# 2 - clear PLLENSRC (bit 5)
	set pll_ctrl [expr {$pll_ctrl & ~0x0020}]
	mww $pll_ctrl_addr $pll_ctrl

	# 3 - clear PLLEN (bit 0) ... enter bypass mode
	set pll_ctrl [expr {$pll_ctrl & ~0x0001}]
	mww $pll_ctrl_addr $pll_ctrl

	# 4 - wait at least 4 refclk cycles
	sleep 1

	# 5 - set PLLRST (bit 3)
	set pll_ctrl [expr {$pll_ctrl | 0x0008}]
	mww $pll_ctrl_addr $pll_ctrl

	# 6 - set PLLDIS (bit 4)
	set pll_ctrl [expr {$pll_ctrl | 0x0010}]
	mww $pll_ctrl_addr $pll_ctrl

	# 7 - clear PLLPWRDN (bit 1)
	set pll_ctrl [expr {$pll_ctrl & ~0x0002}]
	mww $pll_ctrl_addr $pll_ctrl

	# 8 - clear PLLDIS (bit 4)
	set pll_ctrl [expr {$pll_ctrl & ~0x0010}]
	mww $pll_ctrl_addr $pll_ctrl

	# 9 - optional: write prediv, postdiv, and pllm
	# NOTE: for dm355 PLL1, postdiv is controlled via MISC register
	mww [expr {$pll_addr + 0x0110}] [expr {($mult - 1) & 0xff}]
	if { [dict exists $config prediv] } {
		set div [dict get $config prediv]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0114}] $div
	}
	if { [dict exists $config postdiv] } {
		set div [dict get $config postdiv]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0128}] $div
	}

	# 10 - optional: set plldiv1, plldiv2, ...
	# NOTE:  this assumes some registers have their just-reset values:
	#	- PLLSTAT.GOSTAT is clear when we enter
	#	- ALNCTL has everything set
	set go 0
	if { [dict exists $config div1] } {
		set div [dict get $config div1]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0118}] $div
		set go 1
	}
	if { [dict exists $config div2] } {
		set div [dict get $config div2]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x011c}] $div
		set go 1
	}
	if { [dict exists $config div3] } {
		set div [dict get $config div3]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0120}] $div
		set go 1
	}
	if { [dict exists $config div4] } {
		set div [dict get $config div4]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0160}] $div
		set go 1
	}
	if { [dict exists $config div5] } {
		set div [dict get $config div5]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0164}] $div
		set go 1
	}
	if {$go != 0} {
		# write pllcmd.GO; poll pllstat.GO
		mww [expr {$pll_addr + 0x0138}] 0x01
		set pllstat [expr {$pll_addr + 0x013c}]
		while {[expr {[mrw $pllstat] & 0x01}] != 0} { sleep 1 }
	}
	mww [expr {$pll_addr + 0x0138}] 0x00

	# 11 - wait at least 5 usec for reset to finish
	# (assume covered by overheads including JTAG messaging)

	# 12 - clear PLLRST (bit 3)
	set pll_ctrl [expr {$pll_ctrl & ~0x0008}]
	mww $pll_ctrl_addr $pll_ctrl

	# 13 - wait at least 8000 refclk cycles for PLL to lock
	# if we assume 24 MHz (slowest osc), that's 1/3 msec
	sleep 3

	# 14 - set PLLEN (bit 0) ... leave bypass mode
	set pll_ctrl [expr {$pll_ctrl | 0x0001}]
	mww $pll_ctrl_addr $pll_ctrl
}

# PLL version 0x03: tested on dm365
proc pll_v03_setup {pll_addr mult config} {
	set pll_ctrl_addr [expr {$pll_addr + 0x100}]
	set pll_secctrl_addr [expr {$pll_addr + 0x108}]
	set pll_ctrl [mrw $pll_ctrl_addr]

	# 1 - power up the PLL
	set pll_ctrl [expr {$pll_ctrl & ~0x0002}]
	mww $pll_ctrl_addr $pll_ctrl

	# 2 - clear PLLENSRC (bit 5)
	set pll_ctrl [expr {$pll_ctrl & ~0x0020}]
	mww $pll_ctrl_addr $pll_ctrl

	# 2 - clear PLLEN (bit 0) ... enter bypass mode
	set pll_ctrl [expr {$pll_ctrl & ~0x0001}]
	mww $pll_ctrl_addr $pll_ctrl

	# 3 - wait at least 4 refclk cycles
	sleep 1

	# 4 - set PLLRST (bit 3)
	set pll_ctrl [expr {$pll_ctrl | 0x0008}]
	mww $pll_ctrl_addr $pll_ctrl

	# 5 - wait at least 5 usec
	sleep 1

	# 6 - clear PLLRST (bit 3)
	set pll_ctrl [expr {$pll_ctrl & ~0x0008}]
	mww $pll_ctrl_addr $pll_ctrl

	# 9 - optional: write prediv, postdiv, and pllm
	mww [expr {$pll_addr + 0x0110}] [expr {($mult / 2) & 0x1ff}]
	if { [dict exists $config prediv] } {
		set div [dict get $config prediv]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0114}] $div
	}
	if { [dict exists $config postdiv] } {
		set div [dict get $config postdiv]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0128}] $div
	}

	# 10 - write start sequence to PLLSECCTL
	mww $pll_secctrl_addr 0x00470000
	mww $pll_secctrl_addr 0x00460000
	mww $pll_secctrl_addr 0x00400000
	mww $pll_secctrl_addr 0x00410000

	# 11 - optional: set plldiv1, plldiv2, ...
	# NOTE: this assumes some registers have their just-reset values:
	#	- PLLSTAT.GOSTAT is clear when we enter
	set aln 0
	if { [dict exists $config div1] } {
		set div [dict get $config div1]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0118}] $div
		set aln [expr {$aln | 0x1}]
	} else {
		mww [expr {$pll_addr + 0x0118}] 0
	}
	if { [dict exists $config div2] } {
		set div [dict get $config div2]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x011c}] $div
		set aln [expr {$aln | 0x2}]
	} else {
		mww [expr {$pll_addr + 0x011c}] 0
	}
	if { [dict exists $config div3] } {
		set div [dict get $config div3]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0120}] $div
		set aln [expr {$aln | 0x4}]
	} else {
		mww [expr {$pll_addr + 0x0120}] 0
	}
	if { [dict exists $config oscdiv] } {
		set div [dict get $config oscdiv]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0124}] $div
	} else {
		mww [expr {$pll_addr + 0x0124}] 0
	}
	if { [dict exists $config div4] } {
		set div [dict get $config div4]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0160}] $div
		set aln [expr {$aln | 0x8}]
	} else {
		mww [expr {$pll_addr + 0x0160}] 0
	}
	if { [dict exists $config div5] } {
		set div [dict get $config div5]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0164}] $div
		set aln [expr {$aln | 0x10}]
	} else {
		mww [expr {$pll_addr + 0x0164}] 0
	}
	if { [dict exists $config div6] } {
		set div [dict get $config div6]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0168}] $div
		set aln [expr {$aln | 0x20}]
	} else {
		mww [expr {$pll_addr + 0x0168}] 0
	}
	if { [dict exists $config div7] } {
		set div [dict get $config div7]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x016c}] $div
		set aln [expr {$aln | 0x40}]
	} else {
		mww [expr {$pll_addr + 0x016c}] 0
	}
	if { [dict exists $config div8] } {
		set div [dict get $config div8]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0170}] $div
		set aln [expr {$aln | 0x80}]
	} else {
		mww [expr {$pll_addr + 0x0170}] 0
	}
	if { [dict exists $config div9] } {
		set div [dict get $config div9]
		set div [expr {0x8000 | ($div - 1)}]
		mww [expr {$pll_addr + 0x0174}] $div
		set aln [expr {$aln | 0x100}]
	} else {
		mww [expr {$pll_addr + 0x0174}] 0
	}
	if {$aln != 0} {
		# clear pllcmd.GO
		mww [expr {$pll_addr + 0x0138}] 0x00
		# write alignment flags
		mww [expr {$pll_addr + 0x0140}] $aln
		# write pllcmd.GO; poll pllstat.GO
		mww [expr {$pll_addr + 0x0138}] 0x01
		set pllstat [expr {$pll_addr + 0x013c}]
		while {[expr {[mrw $pllstat] & 0x01}] != 0} { sleep 1 }
	}
	mww [expr {$pll_addr + 0x0138}] 0x00
	set addr [dict get $config ctladdr]
	while {[expr {[mrw $addr] & 0x0e000000}] != 0x0e000000} { sleep 1 }

	# 12 - set PLLEN (bit 0) ... leave bypass mode
	set pll_ctrl [expr {$pll_ctrl | 0x0001}]
	mww $pll_ctrl_addr $pll_ctrl
}

# NOTE: dm6446 requires EMURSTIE set in MDCTL before certain
# modules can be enabled.

# prepare a non-DSP module to be enabled; finish with psc_go
proc psc_enable {module} {
	set psc_addr 0x01c41000
	# write MDCTL
	mmw [expr {$psc_addr + 0x0a00 + (4 * $module)}] 0x03 0x1f
}

# prepare a non-DSP module to be reset; finish with psc_go
proc psc_reset {module} {
	set psc_addr 0x01c41000
	# write MDCTL
	mmw [expr {$psc_addr + 0x0a00 + (4 * $module)}] 0x01 0x1f
}

# execute non-DSP PSC transition(s) set up by psc_enable, psc_reset, etc
proc psc_go {} {
	set psc_addr 0x01c41000
	set ptstat_addr [expr {$psc_addr + 0x0128}]

	# just in case PTSTAT.go isn't clear
	while { [expr {[mrw $ptstat_addr] & 0x01}] != 0 } { sleep 1 }

	# write PTCMD.go ... ignoring any DSP power domain
	mww [expr {$psc_addr + 0x0120}] 1

	# wait for PTSTAT.go to clear (again ignoring DSP power domain)
	while { [expr {[mrw $ptstat_addr] & 0x01}] != 0 } { sleep 1 }
}

#
# A reset using only SRST is a "Warm Reset", resetting everything in the
# chip except ARM emulation (and everything _outside_ the chip that hooks
# up to SRST).  But many boards don't expose SRST via their JTAG connectors
# (it's not present on TI-14 headers).
#
# From the chip-only perspective, a "Max Reset" is a "Warm" reset ... except
# without any board-wide side effects, since it's triggered using JTAG using
# either (a) ARM watchdog timer, or (b) ICEpick.
#
proc davinci_wdog_reset {} {
	set timer2_phys 0x01c21c00

	# NOTE -- on entry
	#   - JTAG communication with the ARM *must* be working OK; this
	#     may imply using adaptive clocking or disabling WFI-in-idle
	#   - current target must be the DaVinci ARM
	#   - that ARM core must be halted
	#   - timer2 clock is still enabled (PSC 29 on most chips)

	#
	# Part I -- run regardless of being halted via JTAG
	#
	# NOTE:  for now, we assume there's no DSP that could control the
	# watchdog; or, equivalently, SUSPSRC.TMR2SRC says the watchdog
	# suspend signal is controlled via ARM emulation suspend.
	#

	# EMUMGT_CLKSPEED: write FREE bit to run despite emulation halt
	mww phys [expr {$timer2_phys + 0x28}] 0x00004000

	#
	# Part II -- in case watchdog hasn't been set up
	#

	# TCR: disable, force internal clock source
	mww phys [expr {$timer2_phys + 0x20}] 0

	# TGCR: reset, force to 64-bit wdog mode, un-reset ("initial" state)
	mww phys [expr {$timer2_phys + 0x24}] 0
	mww phys [expr {$timer2_phys + 0x24}] 0x110b

	# clear counter (TIM12, TIM34) and period (PRD12, PRD34) registers
	# so watchdog triggers ASAP
	mww phys [expr {$timer2_phys + 0x10}] 0
	mww phys [expr {$timer2_phys + 0x14}] 0
	mww phys [expr {$timer2_phys + 0x18}] 0
	mww phys [expr {$timer2_phys + 0x1c}] 0

	# WDTCR: put into pre-active state, then active
	mww phys [expr {$timer2_phys + 0x28}] 0xa5c64000
	mww phys [expr {$timer2_phys + 0x28}] 0xda7e4000

	#
	# Part III -- it's ready to rumble
	#

	# WDTCR: write invalid WDKEY to trigger reset
	mww phys [expr {$timer2_phys + 0x28}] 0x00004000
}