@item @b{TI XDS110 Debug Probe}
@* The XDS110 is included as the embedded debug probe on many Texas Instruments
LaunchPad evaluation boards.
+@* The XDS110 is also available as a stand-alone USB debug probe. The XDS110
+stand-alone probe has the additional ability to supply voltage to the target
+board via its AUX FUNCTIONS port. Use the
+@command{xds110_supply_voltage <millivolts>} command to set the voltage. 0 turns
+off the supply. Otherwise, the supply can be set to any value in the range 1800
+to 3600 millivolts.
@* Link: @url{http://processors.wiki.ti.com/index.php/XDS110}
@* Link: @url{http://processors.wiki.ti.com/index.php/XDS_Emulation_Software_Package#XDS110_Support_Utilities}
@end itemize
nTRST (active-low JTAG TAP reset) before starting new JTAG operations.
@end deffn
+@anchor {reset_config}
@deffn {Command} reset_config mode_flag ...
This command displays or modifies the reset configuration
of your combination of JTAG board and target in target
CS1/CS2 is routed to on the given SoC.
@example
-flash bank $_FLASHNAME ath79 0 0 0 0 $_TARGETNAME
+flash bank $_FLASHNAME ath79 0xbf000000 0 0 0 $_TARGETNAME
# When using multiple chipselects the base should be different for each,
# otherwise the write_image command is not able to distinguish the
# banks.
-flash bank flash0 ath79 0x00000000 0 0 0 $_TARGETNAME cs0
+flash bank flash0 ath79 0xbf000000 0 0 0 $_TARGETNAME cs0
flash bank flash1 ath79 0x10000000 0 0 0 $_TARGETNAME cs1
flash bank flash2 ath79 0x20000000 0 0 0 $_TARGETNAME cs2
@end example
@deffn {Flash Driver} lpc2000
This is the driver to support internal flash of all members of the
LPC11(x)00 and LPC1300 microcontroller families and most members of
-the LPC800, LPC1500, LPC1700, LPC1800, LPC2000, LPC4000 and LPC54100
-microcontroller families from NXP.
+the LPC800, LPC1500, LPC1700, LPC1800, LPC2000, LPC4000, LPC54100,
+LPC8Nxx and NHS31xx microcontroller families from NXP.
@quotation Note
There are LPC2000 devices which are not supported by the @var{lpc2000}
The LPC29xx family is supported by the @var{lpc2900} driver.
@end quotation
-The @var{lpc2000} driver defines two mandatory and one optional parameters,
+The @var{lpc2000} driver defines two mandatory and two optional parameters,
which must appear in the following order:
@itemize
@option{lpc54100} (LPC541xx)
@option{lpc4000} (LPC40xx)
or @option{auto} - automatically detects flash variant and size for LPC11(x)00,
-LPC8xx, LPC13xx, LPC17xx and LPC40xx
+LPC8xx, LPC13xx, LPC17xx, LPC40xx, LPC8Nxx and NHS31xx
@item @var{clock_kHz} ... the frequency, in kiloHertz,
at which the core is running
@item @option{calc_checksum} ... optional (but you probably want to provide this!),
However, if you do provide it,
with most tool chains @command{verify_image} will fail.
@end quotation
+@item @option{iap_entry} ... optional telling the driver to use a different
+ROM IAP entry point.
@end itemize
LPC flashes don't require the chip and bus width to be specified.
@end deffn
@end deffn
+@deffn {Flash Driver} w600
+W60x series Wi-Fi SoC from WinnerMicro
+are designed with ARM Cortex-M3 and have 1M Byte QFLASH inside.
+The @var{w600} driver uses the @var{target} parameter to select the
+correct bank config.
+
+@example
+flash bank $_FLASHNAME w600 0x08000000 0 0 0 $_TARGETNAMEs
+@end example
+@end deffn
+
@deffn {Flash Driver} xmc1xxx
All members of the XMC1xxx microcontroller family from Infineon.
This driver does not require the chip and bus width to be specified.
This finishes by listing the current vector catch configuration.
@end deffn
-@deffn Command {cortex_m reset_config} (@option{srst}|@option{sysresetreq}|@option{vectreset})
-Control reset handling. The default @option{srst} is to use srst if fitted,
-otherwise fallback to @option{vectreset}.
+@deffn Command {cortex_m reset_config} (@option{sysresetreq}|@option{vectreset})
+Control reset handling if hardware srst is not fitted
+@xref{reset_config,,reset_config}.
+
@itemize @minus
-@item @option{srst} use hardware srst if fitted otherwise fallback to @option{vectreset}.
-@item @option{sysresetreq} use NVIC SYSRESETREQ to reset system.
-@item @option{vectreset} use NVIC VECTRESET to reset system.
+@item @option{sysresetreq} use AIRCR SYSRESETREQ to reset system.
+@item @option{vectreset} use AIRCR VECTRESET to reset system (default).
@end itemize
-Using @option{vectreset} is a safe option for all current Cortex-M cores.
+
+Using @option{vectreset} is a safe option for Cortex-M3, M4 and M7 cores.
This however has the disadvantage of only resetting the core, all peripherals
-are unaffected. A solution would be to use a @code{reset-init} event handler to manually reset
-the peripherals.
+are unaffected. A solution would be to use a @code{reset-init} event handler
+to manually reset the peripherals.
@xref{targetevents,,Target Events}.
+
+Cortex-M0, M0+ and M1 do not support @option{vectreset}, use @option{sysresetreq}
+instead.
@end deffn
@subsection ARMv8-A specific commands