339 lines
8.4 KiB
Tcl
339 lines
8.4 KiB
Tcl
#
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# Defines basic Tcl procs that must be there for
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# OpenOCD to work.
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#
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# Embedded into OpenOCD executable
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#
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# Help text list. A list of command + help text pairs.
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#
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# Commands can be more than one word and they are stored
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# as "flash banks" "help text x x x"
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proc add_help_text {cmd cmd_help} {
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global ocd_helptext
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lappend ocd_helptext [list $cmd $cmd_help]
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}
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proc get_help_text {} {
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global ocd_helptext
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return $ocd_helptext
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}
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# Show flash in human readable form
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# This is an example of a human readable form of a low level fn
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proc flash_banks {} {
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set i 0
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set result ""
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foreach {a} [ocd_flash_banks] {
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if {$i > 0} {
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set result "$result\n"
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}
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set result [format "$result#%d: %s at 0x%08x, size 0x%08x, buswidth %d, chipwidth %d" $i $a(name) $a(base) $a(size) $a(bus_width) $a(chip_width)]
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set i [expr $i+1]
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}
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return $result
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}
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# We need to explicitly redirect this to the OpenOCD command
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# as Tcl defines the exit proc
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proc exit {} {
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ocd_throw exit
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}
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#Print help text for a command. Word wrap
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#help text that is too wide inside column.
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proc help {args} {
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global ocd_helptext
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set cmd $args
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foreach a [lsort $ocd_helptext] {
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if {[string length $cmd]==0||[string first $cmd $a]!=-1||[string first $cmd [lindex $a 1]]!=-1} {
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set w 50
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set cmdname [lindex $a 0]
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set h [lindex $a 1]
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set n 0
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while 1 {
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if {$n > [string length $h]} {break}
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set next_a [expr $n+$w]
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if {[string length $h]>$n+$w} {
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set xxxx [string range $h $n [expr $n+$w]]
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for {set lastpos [expr [string length $xxxx]-1]} {$lastpos>=0&&[string compare [string range $xxxx $lastpos $lastpos] " "]!=0} {set lastpos [expr $lastpos-1]} {
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}
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#set next_a -1
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if {$lastpos!=-1} {
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set next_a [expr $lastpos+$n+1]
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}
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}
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puts [format "%-25s %s" $cmdname [string range $h $n [expr $next_a-1]] ]
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set cmdname ""
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set n [expr $next_a]
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}
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}
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}
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}
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add_help_text help "Tcl implementation of help command"
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# If a fn is unknown to Tcl, we try to execute it as an OpenOCD command
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#
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# We also support two level commands. "flash banks" is translated to
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# flash_banks
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proc unknown {args} {
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# do the name mangling from "flash banks" to "flash_banks"
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if {[llength $args]>=2} {
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set cmd_name "[lindex $args 0]_[lindex $args 1]"
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if {[catch {info body $cmd_name}]==0} {
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# the command exists, try it...
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return [eval "$cmd_name [lrange $args 2 end]"]
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}
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}
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# This really is an unknown command.
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return -code error "Unknown command: $args"
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}
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proc new_target_name { } {
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return [target number [expr [target count] - 1 ]]
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}
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# Try flipping / and \ to find file if the filename does not
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# match the precise spelling
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proc find {filename} {
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if {[catch {ocd_find $filename} t]==0} {
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return $t
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}
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if {[catch {ocd_find [string map {\ /} $filename} t]==0} {
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return $t
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}
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if {[catch {ocd_find [string map {/ \\} $filename} t]==0} {
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return $t
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}
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# make sure error message matches original input string
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return -code error "Can't find $filename"
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}
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add_help_text find "<file> - print full path to file according to OpenOCD search rules"
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# Run script
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proc script {filename} {
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source [find $filename]
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}
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add_help_text script "<filename> - filename of OpenOCD script (tcl) to run"
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# Handle GDB 'R' packet. Can be overriden by configuration script,
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# but it's not something one would expect target scripts to do
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# normally
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proc ocd_gdb_restart {target_id} {
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# Fix!!! we're resetting all targets here! Really we should reset only
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# one target
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reset halt
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}
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# This reset logic may be overridden by board/target/... scripts as needed
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# to provide a reset that, if possible, is close to a power-up reset.
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#
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# Exit requirements include: (a) JTAG must be working, (b) the scan
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# chain was validated with "jtag arp_init" (or equivalent), (c) nothing
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# stays in reset. No TAP-specific scans were performed. It's OK if
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# some targets haven't been reset yet; they may need TAP-specific scans.
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#
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# The "mode" values include: halt, init, run (from "reset" command);
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# startup (at OpenOCD server startup, when JTAG may not yet work); and
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# potentially more (for reset types like cold, warm, etc)
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proc init_reset { mode } {
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jtag arp_init-reset
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}
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global in_process_reset
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set in_process_reset 0
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# Catch reset recursion
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proc ocd_process_reset { MODE } {
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global in_process_reset
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if {$in_process_reset} {
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set in_process_reset 0
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return -code error "'reset' can not be invoked recursively"
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}
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set in_process_reset 1
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set success [expr [catch {ocd_process_reset_inner $MODE} result]==0]
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set in_process_reset 0
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if {$success} {
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return $result
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} else {
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return -code error $result
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}
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}
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proc ocd_process_reset_inner { MODE } {
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set targets [target names]
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# If this target must be halted...
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set halt -1
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if { 0 == [string compare $MODE halt] } {
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set halt 1
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}
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if { 0 == [string compare $MODE init] } {
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set halt 1;
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}
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if { 0 == [string compare $MODE run ] } {
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set halt 0;
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}
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if { $halt < 0 } {
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return -error "Invalid mode: $MODE, must be one of: halt, init, or run";
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}
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# Target event handlers *might* change which TAPs are enabled
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# or disabled, so we fire all of them. But don't issue any
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# target "arp_*" commands, which may issue JTAG transactions,
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# unless we know the underlying TAP is active.
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#
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# NOTE: ARP == "Advanced Reset Process" ... "advanced" is
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# relative to a previous restrictive scheme
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foreach t $targets {
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# New event script.
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$t invoke-event reset-start
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}
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# Use TRST or TMS/TCK operations to reset all the tap controllers.
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# TAP reset events get reported; they might enable some taps.
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init_reset $MODE
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# Examine all targets on enabled taps.
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foreach t $targets {
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if {[jtag tapisenabled [$t cget -chain-position]]} {
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$t arp_examine
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}
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}
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# Assert SRST, and report the pre/post events.
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# Note: no target sees SRST before "pre" or after "post".
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foreach t $targets {
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$t invoke-event reset-assert-pre
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}
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foreach t $targets {
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# C code needs to know if we expect to 'halt'
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if {[jtag tapisenabled [$t cget -chain-position]]} {
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$t arp_reset assert $halt
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}
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}
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foreach t $targets {
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$t invoke-event reset-assert-post
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}
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# Now de-assert SRST, and report the pre/post events.
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# Note: no target sees !SRST before "pre" or after "post".
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foreach t $targets {
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$t invoke-event reset-deassert-pre
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}
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foreach t $targets {
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# Again, de-assert code needs to know if we 'halt'
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if {[jtag tapisenabled [$t cget -chain-position]]} {
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$t arp_reset deassert $halt
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}
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}
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foreach t $targets {
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$t invoke-event reset-deassert-post
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}
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# Pass 1 - Now wait for any halt (requested as part of reset
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# assert/deassert) to happen. Ideally it takes effect without
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# first executing any instructions.
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if { $halt } {
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foreach t $targets {
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if {[jtag tapisenabled [$t cget -chain-position]] == 0} {
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continue
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}
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# Wait upto 1 second for target to halt. Why 1sec? Cause
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# the JTAG tap reset signal might be hooked to a slow
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# resistor/capacitor circuit - and it might take a while
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# to charge
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# Catch, but ignore any errors.
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catch { $t arp_waitstate halted 1000 }
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# Did we succeed?
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set s [$t curstate]
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if { 0 != [string compare $s "halted" ] } {
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return -error [format "TARGET: %s - Not halted" $t]
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}
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}
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}
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#Pass 2 - if needed "init"
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if { 0 == [string compare init $MODE] } {
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foreach t $targets {
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if {[jtag tapisenabled [$t cget -chain-position]] == 0} {
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continue
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}
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set err [catch "$t arp_waitstate halted 5000"]
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# Did it halt?
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if { $err == 0 } {
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$t invoke-event reset-init
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}
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}
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}
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foreach t $targets {
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$t invoke-event reset-end
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}
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}
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#########
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# REVISIT power_restore, power_dropout, srst_deasserted, srst_asserted
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# are currently neither documented nor supported except on ZY1000.
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proc power_restore {} {
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puts "Sensed power restore."
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reset init
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}
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add_help_text power_restore "Overridable procedure run when power restore is detected. Runs 'reset init' by default."
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proc power_dropout {} {
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puts "Sensed power dropout."
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}
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proc srst_deasserted {} {
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puts "Sensed nSRST deasserted."
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reset init
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}
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add_help_text srst_deasserted "Overridable procedure run when srst deassert is detected. Runs 'reset init' by default."
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proc srst_asserted {} {
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puts "Sensed nSRST asserted."
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}
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#########
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# catch any exceptions, capture output and return output
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proc capture_catch {a} {
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catch {
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capture {uplevel $a}
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} result
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return $result
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}
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# Executed during "init". Can be overridden
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# by board/target/... scripts
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proc jtag_init {} {
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if {[catch {jtag arp_init} err]!=0} {
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# try resetting additionally
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init_reset startup
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}
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}
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