+
+@item @emph{Signal not available} ... Some boards don't wire
+SRST or TRST to the JTAG connector. Some JTAG adapters don't
+support such signals even if they are wired up.
+Use the @command{reset_config} @var{signals} options to say
+when one of those signals is not connected.
+When SRST is not available, your code might not be able to rely
+on controllers having been fully reset during code startup.
+
+@item @emph{Signals shorted} ... Sometimes a chip, board, or
+adapter will connect SRST to TRST, instead of keeping them separate.
+Use the @command{reset_config} @var{combination} options to say
+when those signals aren't properly independent.
+
+@item @emph{Timing} ... Reset circuitry like a resistor/capacitor
+delay circuit, reset supervisor, or on-chip features can extend
+the effect of a JTAG adapter's reset for some time after the adapter
+stops issuing the reset. For example, there may be chip or board
+requirements that all reset pulses last for at least a
+certain amount of time; and reset buttons commonly have
+hardware debouncing.
+Use the @command{jtag_nsrst_delay} and @command{jtag_ntrst_delay}
+commands to say when extra delays are needed.
+
+@item @emph{Drive type} ... Reset lines often have a pullup
+resistor, letting the JTAG interface treat them as open-drain
+signals. But that's not a requirement, so the adapter may need
+to use push/pull output drivers.
+Also, with weak pullups it may be advisable to drive
+signals to both levels (push/pull) to minimize rise times.
+Use the @command{reset_config} @var{trst_type} and
+@var{srst_type} parameters to say how to drive reset signals.
+@end itemize
+
+There can also be other issues.
+Some devices don't fully conform to the JTAG specifications.
+Others have chip-specific extensions like extra steps needed
+during TAP reset, or a requirement to use the normally-optional TRST
+signal.
+Trivial system-specific differences are common, such as
+SRST and TRST using slightly different names.
+
+@section Commands for Handling Resets
+
+@deffn {Command} jtag_nsrst_delay milliseconds
+How long (in milliseconds) OpenOCD should wait after deasserting
+nSRST (active-low system reset) before starting new JTAG operations.
+When a board has a reset button connected to SRST line it will
+probably have hardware debouncing, implying you should use this.
+@end deffn
+
+@deffn {Command} jtag_ntrst_delay milliseconds
+How long (in milliseconds) OpenOCD should wait after deasserting
+nTRST (active-low JTAG TAP reset) before starting new JTAG operations.
+@end deffn
+
+@deffn {Command} reset_config signals [combination [trst_type [srst_type]]]
+This command tells OpenOCD the reset configuration
+of your combination of JTAG interface, board, and target.
+If the JTAG interface provides SRST, but the board doesn't connect
+that signal properly, then OpenOCD can't use it. @var{signals} can