@section OpenOCD IRC
Support can also be found on irc:
-@uref{irc://irc.freenode.net/openocd}
+@uref{irc://irc.libera.chat/openocd}
@node Developers
@chapter OpenOCD Developer Resources
connected to a PC's EPP mode parallel port.
This defines some driver-specific commands:
-@deffn {Config Command} {parport_port} number
+@deffn {Config Command} {parport port} number
Specifies either the address of the I/O port (default: 0x378 for LPT1) or
the number of the @file{/dev/parport} device.
@end deffn
The driver uses a signal abstraction to enable Tcl configuration files to
define outputs for one or several FTDI GPIO. These outputs can then be
-controlled using the @command{ftdi_set_signal} command. Special signal names
+controlled using the @command{ftdi set_signal} command. Special signal names
are reserved for nTRST, nSRST and LED (for blink) so that they, if defined,
will be used for their customary purpose. Inputs can be read using the
-@command{ftdi_get_signal} command.
+@command{ftdi get_signal} command.
To support SWD, a signal named SWD_EN must be defined. It is set to 1 when the
SWD protocol is selected. When set, the adapter should route the SWDIO pin to
These interfaces have several commands, used to configure the driver
before initializing the JTAG scan chain:
-@deffn {Config Command} {ftdi_vid_pid} [vid pid]+
+@deffn {Config Command} {ftdi vid_pid} [vid pid]+
The vendor ID and product ID of the adapter. Up to eight
[@var{vid}, @var{pid}] pairs may be given, e.g.
@example
-ftdi_vid_pid 0x0403 0xcff8 0x15ba 0x0003
+ftdi vid_pid 0x0403 0xcff8 0x15ba 0x0003
@end example
@end deffn
-@deffn {Config Command} {ftdi_device_desc} description
+@deffn {Config Command} {ftdi device_desc} description
Provides the USB device description (the @emph{iProduct string})
of the adapter. If not specified, the device description is ignored
during device selection.
@end deffn
-@deffn {Config Command} {ftdi_serial} serial-number
+@deffn {Config Command} {ftdi serial} serial-number
Specifies the @var{serial-number} of the adapter to use,
in case the vendor provides unique IDs and more than one adapter
is connected to the host.
and are not restricted to containing only decimal digits.)
@end deffn
-@deffn {Config Command} {ftdi_channel} channel
+@deffn {Config Command} {ftdi channel} channel
Selects the channel of the FTDI device to use for MPSSE operations. Most
adapters use the default, channel 0, but there are exceptions.
@end deffn
-@deffn {Config Command} {ftdi_layout_init} data direction
+@deffn {Config Command} {ftdi layout_init} data direction
Specifies the initial values of the FTDI GPIO data and direction registers.
Each value is a 16-bit number corresponding to the concatenation of the high
and low FTDI GPIO registers. The values should be selected based on the
and initially asserted reset signals.
@end deffn
-@deffn {Command} {ftdi_layout_signal} name [@option{-data}|@option{-ndata} data_mask] [@option{-input}|@option{-ninput} input_mask] [@option{-oe}|@option{-noe} oe_mask] [@option{-alias}|@option{-nalias} name]
+@deffn {Command} {ftdi layout_signal} name [@option{-data}|@option{-ndata} data_mask] [@option{-input}|@option{-ninput} input_mask] [@option{-oe}|@option{-noe} oe_mask] [@option{-alias}|@option{-nalias} name]
Creates a signal with the specified @var{name}, controlled by one or more FTDI
GPIO pins via a range of possible buffer connections. The masks are FTDI GPIO
register bitmasks to tell the driver the connection and type of the output
The @option{-oe} (or @option{-noe}) option tells where the output-enable (or
not-output-enable) input to the output buffer is connected. The options
@option{-input} and @option{-ninput} specify the bitmask for pins to be read
-with the method @command{ftdi_get_signal}.
+with the method @command{ftdi get_signal}.
Both @var{data_mask} and @var{oe_mask} need not be specified. For example, a
simple open-collector transistor driver would be specified with @option{-oe}
@var{name}.
@end deffn
-@deffn {Command} {ftdi_set_signal} name @option{0}|@option{1}|@option{z}
+@deffn {Command} {ftdi set_signal} name @option{0}|@option{1}|@option{z}
Set a previously defined signal to the specified level.
@itemize @minus
@item @option{0}, drive low
@end itemize
@end deffn
-@deffn {Command} {ftdi_get_signal} name
+@deffn {Command} {ftdi get_signal} name
Get the value of a previously defined signal.
@end deffn
-@deffn {Command} {ftdi_tdo_sample_edge} @option{rising}|@option{falling}
+@deffn {Command} {ftdi tdo_sample_edge} @option{rising}|@option{falling}
Configure TCK edge at which the adapter samples the value of the TDO signal
Due to signal propagation delays, sampling TDO on rising TCK can become quite
These interfaces have several commands, used to configure the driver
before initializing the JTAG scan chain:
-@deffn {Config Command} {ft232r_vid_pid} @var{vid} @var{pid}
+@deffn {Config Command} {ft232r vid_pid} @var{vid} @var{pid}
The vendor ID and product ID of the adapter. If not specified, default
0x0403:0x6001 is used.
@end deffn
-@deffn {Config Command} {ft232r_serial_desc} @var{serial}
+@deffn {Config Command} {ft232r serial_desc} @var{serial}
Specifies the @var{serial} of the adapter to use, in case the
vendor provides unique IDs and more than one adapter is connected to
the host. If not specified, serial numbers are not considered.
@end deffn
-@deffn {Config Command} {ft232r_jtag_nums} @var{tck} @var{tms} @var{tdi} @var{tdo}
+@deffn {Config Command} {ft232r jtag_nums} @var{tck} @var{tms} @var{tdi} @var{tdo}
Set four JTAG GPIO numbers at once.
If not specified, default 0 3 1 2 or TXD CTS RXD RTS is used.
@end deffn
-@deffn {Config Command} {ft232r_tck_num} @var{tck}
+@deffn {Config Command} {ft232r tck_num} @var{tck}
Set TCK GPIO number. If not specified, default 0 or TXD is used.
@end deffn
-@deffn {Config Command} {ft232r_tms_num} @var{tms}
+@deffn {Config Command} {ft232r tms_num} @var{tms}
Set TMS GPIO number. If not specified, default 3 or CTS is used.
@end deffn
-@deffn {Config Command} {ft232r_tdi_num} @var{tdi}
+@deffn {Config Command} {ft232r tdi_num} @var{tdi}
Set TDI GPIO number. If not specified, default 1 or RXD is used.
@end deffn
-@deffn {Config Command} {ft232r_tdo_num} @var{tdo}
+@deffn {Config Command} {ft232r tdo_num} @var{tdo}
Set TDO GPIO number. If not specified, default 2 or RTS is used.
@end deffn
-@deffn {Config Command} {ft232r_trst_num} @var{trst}
+@deffn {Config Command} {ft232r trst_num} @var{trst}
Set TRST GPIO number. If not specified, default 4 or DTR is used.
@end deffn
-@deffn {Config Command} {ft232r_srst_num} @var{srst}
+@deffn {Config Command} {ft232r srst_num} @var{srst}
Set SRST GPIO number. If not specified, default 6 or DCD is used.
@end deffn
-@deffn {Config Command} {ft232r_restore_serial} @var{word}
+@deffn {Config Command} {ft232r restore_serial} @var{word}
Restore serial port after JTAG. This USB bitmode control word
(16-bit) will be sent before quit. Lower byte should
set GPIO direction register to a "sane" state:
The remote_bitbang driver is useful for debugging software running on
processors which are being simulated.
-@deffn {Config Command} {remote_bitbang_port} number
+@deffn {Config Command} {remote_bitbang port} number
Specifies the TCP port of the remote process to connect to or 0 to use UNIX
sockets instead of TCP.
@end deffn
-@deffn {Config Command} {remote_bitbang_host} hostname
+@deffn {Config Command} {remote_bitbang host} hostname
Specifies the hostname of the remote process to connect to using TCP, or the
-name of the UNIX socket to use if remote_bitbang_port is 0.
+name of the UNIX socket to use if remote_bitbang port is 0.
@end deffn
For example, to connect remotely via TCP to the host foobar you might have
@example
adapter driver remote_bitbang
-remote_bitbang_port 3335
-remote_bitbang_host foobar
+remote_bitbang port 3335
+remote_bitbang host foobar
@end example
To connect to another process running locally via UNIX sockets with socket
@example
adapter driver remote_bitbang
-remote_bitbang_port 0
-remote_bitbang_host mysocket
+remote_bitbang port 0
+remote_bitbang host mysocket
@end example
@end deffn
for FTDI chips. These interfaces have several commands, used to
configure the driver before initializing the JTAG scan chain:
-@deffn {Config Command} {usb_blaster_device_desc} description
+@deffn {Config Command} {usb_blaster device_desc} description
Provides the USB device description (the @emph{iProduct string})
of the FTDI FT245 device. If not
specified, the FTDI default value is used. This setting is only valid
if compiled with FTD2XX support.
@end deffn
-@deffn {Config Command} {usb_blaster_vid_pid} vid pid
+@deffn {Config Command} {usb_blaster vid_pid} vid pid
The vendor ID and product ID of the FTDI FT245 device. If not specified,
default values are used.
Currently, only one @var{vid}, @var{pid} pair may be given, e.g. for
Altera USB-Blaster (default):
@example
-usb_blaster_vid_pid 0x09FB 0x6001
+usb_blaster vid_pid 0x09FB 0x6001
@end example
The following VID/PID is for Kolja Waschk's USB JTAG:
@example
-usb_blaster_vid_pid 0x16C0 0x06AD
+usb_blaster vid_pid 0x16C0 0x06AD
@end example
@end deffn
-@deffn {Command} {usb_blaster_pin} (@option{pin6}|@option{pin8}) (@option{0}|@option{1}|@option{s}|@option{t})
+@deffn {Command} {usb_blaster pin} (@option{pin6}|@option{pin8}) (@option{0}|@option{1}|@option{s}|@option{t})
Sets the state or function of the unused GPIO pins on USB-Blasters
(pins 6 and 8 on the female JTAG header). These pins can be used as
SRST and/or TRST provided the appropriate connections are made on the
For example, to use pin 6 as SRST:
@example
-usb_blaster_pin pin6 s
+usb_blaster pin pin6 s
reset_config srst_only
@end example
@end deffn
-@deffn {Config Command} {usb_blaster_lowlevel_driver} (@option{ftdi}|@option{ublast2})
+@deffn {Config Command} {usb_blaster lowlevel_driver} (@option{ftdi}|@option{ublast2})
Chooses the low level access method for the adapter. If not specified,
@option{ftdi} is selected unless it wasn't enabled during the
configure stage. USB-Blaster II needs @option{ublast2}.
@end deffn
-@deffn {Config Command} {usb_blaster_firmware} @var{path}
+@deffn {Config Command} {usb_blaster firmware} @var{path}
This command specifies @var{path} to access USB-Blaster II firmware
image. To be used with USB-Blaster II only.
@end deffn
Gateworks GW16012 JTAG programmer.
This has one driver-specific command:
-@deffn {Config Command} {parport_port} [port_number]
+@deffn {Config Command} {parport port} [port_number]
Display either the address of the I/O port
(default: 0x378 for LPT1) or the number of the @file{/dev/parport} device.
If a parameter is provided, first switch to use that port.
These interfaces have several commands, used to configure the driver
before initializing the JTAG scan chain:
-@deffn {Config Command} {parport_cable} name
+@deffn {Config Command} {parport cable} name
Set the layout of the parallel port cable used to connect to the target.
This is a write-once setting.
Currently valid cable @var{name} values include:
@end itemize
@end deffn
-@deffn {Config Command} {parport_port} [port_number]
+@deffn {Config Command} {parport port} [port_number]
Display either the address of the I/O port
(default: 0x378 for LPT1) or the number of the @file{/dev/parport} device.
If a parameter is provided, first switch to use that port.
This is a write-once setting.
When using PPDEV to access the parallel port, use the number of the parallel port:
-@option{parport_port 0} (the default). If @option{parport_port 0x378} is specified
+@option{parport port 0} (the default). If @option{parport port 0x378} is specified
you may encounter a problem.
@end deffn
-@deffn {Config Command} {parport_toggling_time} [nanoseconds]
+@deffn {Config Command} {parport toggling_time} [nanoseconds]
Displays how many nanoseconds the hardware needs to toggle TCK;
the parport driver uses this value to obey the
@command{adapter speed} configuration.
To measure the toggling time with a logic analyzer or a digital storage
oscilloscope, follow the procedure below:
@example
-> parport_toggling_time 1000
+> parport toggling_time 1000
> adapter speed 500
@end example
This sets the maximum JTAG clock speed of the hardware, but
large set of samples.
Update the setting to match your measurement:
@example
-> parport_toggling_time <measured nanoseconds>
+> parport toggling_time <measured nanoseconds>
@end example
Now the clock speed will be a better match for @command{adapter speed}
command given in OpenOCD scripts and event handlers.
@end quotation
@end deffn
-@deffn {Config Command} {parport_write_on_exit} (@option{on}|@option{off})
+@deffn {Config Command} {parport write_on_exit} (@option{on}|@option{off})
This will configure the parallel driver to write a known
cable-specific value to the parallel interface on exiting OpenOCD.
@end deffn
@example
adapter driver parport
-parport_port 0x278
-parport_cable wiggler
+parport port 0x278
+parport cable wiggler
@end example
@end deffn
@deffn {Interface Driver} {presto}
ASIX PRESTO USB JTAG programmer.
-@deffn {Config Command} {presto_serial} serial_string
+@deffn {Config Command} {presto serial} serial_string
Configures the USB serial number of the Presto device to use.
@end deffn
@end deffn
For more information see Xilinx PG245 (Section on From_PCIE_to_JTAG mode).
-@deffn {Config Command} {xlnx_pcie_xvc_config} device
+@deffn {Config Command} {xlnx_pcie_xvc config} device
Specifies the PCI Express device via parameter @var{device} to use.
The correct value for @var{device} can be obtained by looking at the output
See @file{interface/raspberrypi-native.cfg} for a sample config and
pinout.
+@deffn {Config Command} {bcm2835gpio jtag_nums} @var{tck} @var{tms} @var{tdi} @var{tdo}
+Set JTAG transport GPIO numbers for TCK, TMS, TDI, and TDO (in that order).
+Must be specified to enable JTAG transport. These pins can also be specified
+individually.
+@end deffn
+
+@deffn {Config Command} {bcm2835gpio tck_num} @var{tck}
+Set TCK GPIO number. Must be specified to enable JTAG transport. Can also be
+specified using the configuration command @command{bcm2835gpio jtag_nums}.
+@end deffn
+
+@deffn {Config Command} {bcm2835gpio tms_num} @var{tms}
+Set TMS GPIO number. Must be specified to enable JTAG transport. Can also be
+specified using the configuration command @command{bcm2835gpio jtag_nums}.
+@end deffn
+
+@deffn {Config Command} {bcm2835gpio tdo_num} @var{tdo}
+Set TDO GPIO number. Must be specified to enable JTAG transport. Can also be
+specified using the configuration command @command{bcm2835gpio jtag_nums}.
+@end deffn
+
+@deffn {Config Command} {bcm2835gpio tdi_num} @var{tdi}
+Set TDI GPIO number. Must be specified to enable JTAG transport. Can also be
+specified using the configuration command @command{bcm2835gpio jtag_nums}.
+@end deffn
+
+@deffn {Config Command} {bcm2835gpio swd_nums} @var{swclk} @var{swdio}
+Set SWD transport GPIO numbers for SWCLK and SWDIO (in that order). Must be
+specified to enable SWD transport. These pins can also be specified individually.
+@end deffn
+
+@deffn {Config Command} {bcm2835gpio swclk_num} @var{swclk}
+Set SWCLK GPIO number. Must be specified to enable SWD transport. Can also be
+specified using the configuration command @command{bcm2835gpio swd_nums}.
+@end deffn
+
+@deffn {Config Command} {bcm2835gpio swdio_num} @var{swdio}
+Set SWDIO GPIO number. Must be specified to enable SWD transport. Can also be
+specified using the configuration command @command{bcm2835gpio swd_nums}.
+@end deffn
+
+@deffn {Config Command} {bcm2835gpio swdio_dir_num} @var{swdio} @var{dir}
+Set SWDIO direction control pin GPIO number. If specified, this pin can be used
+to control the direction of an external buffer on the SWDIO pin (set=output
+mode, clear=input mode). If not specified, this feature is disabled.
+@end deffn
+
+@deffn {Config Command} {bcm2835gpio srst_num} @var{srst}
+Set SRST GPIO number. Must be specified to enable SRST.
+@end deffn
+
+@deffn {Config Command} {bcm2835gpio trst_num} @var{trst}
+Set TRST GPIO number. Must be specified to enable TRST.
+@end deffn
+
+@deffn {Config Command} {bcm2835gpio speed_coeffs} @var{speed_coeff} @var{speed_offset}
+Set SPEED_COEFF and SPEED_OFFSET for delay calculations. If unspecified,
+speed_coeff defaults to 113714, and speed_offset defaults to 28.
+@end deffn
+
+@deffn {Config Command} {bcm2835gpio peripheral_base} @var{base}
+Set the peripheral base register address to access GPIOs. For the RPi1, use
+0x20000000. For RPi2 and RPi3, use 0x3F000000. For RPi4, use 0xFE000000. A full
+list can be found in the
+@uref{https://www.raspberrypi.org/documentation/hardware/raspberrypi/peripheral_addresses.md, official guide}.
+@end deffn
+
@end deffn
@deffn {Interface Driver} {imx_gpio}
OpenJTAG compatible USB adapter.
This defines some driver-specific commands:
-@deffn {Config Command} {openjtag_variant} variant
+@deffn {Config Command} {openjtag variant} variant
Specifies the variant of the OpenJTAG adapter (see @uref{http://www.openjtag.org/}).
Currently valid @var{variant} values include:
@end itemize
@end deffn
-@deffn {Config Command} {openjtag_device_desc} string
+@deffn {Config Command} {openjtag device_desc} string
The USB device description string of the adapter.
This value is only used with the standard variant.
@end deffn
JTAG devices in emulation. The driver acts as a client for the SystemVerilog
DPI server interface.
-@deffn {Config Command} {jtag_dpi_set_port} port
+@deffn {Config Command} {jtag_dpi set_port} port
Specifies the TCP/IP port number of the SystemVerilog DPI server interface.
@end deffn
-@deffn {Config Command} {jtag_dpi_set_address} address
+@deffn {Config Command} {jtag_dpi set_address} address
Specifies the TCP/IP address of the SystemVerilog DPI server interface.
@end deffn
@end deffn
Most hardware development boards have a UART, a real serial port, or a virtual USB serial device, so this driver
allows you to start building your own JTAG adapter without the complexity of a custom USB connection.
-@deffn {Config Command} {buspirate_port} serial_port
+@deffn {Config Command} {buspirate port} serial_port
Specify the serial port's filename. For example:
@example
-buspirate_port /dev/ttyUSB0
+buspirate port /dev/ttyUSB0
@end example
@end deffn
-@deffn {Config Command} {buspirate_speed} (normal|fast)
+@deffn {Config Command} {buspirate speed} (normal|fast)
Set the communication speed to 115k (normal) or 1M (fast). For example:
@example
-buspirate_mode normal
+buspirate speed normal
@end example
@end deffn
-@deffn {Config Command} {buspirate_mode} (normal|open-drain)
+@deffn {Config Command} {buspirate mode} (normal|open-drain)
Set the Bus Pirate output mode.
@itemize @minus
@item In normal mode (push/pull), do not enable the pull-ups, and do not connect I/O header pin VPU to JTAG VREF.
@end itemize
For example:
@example
-buspirate_mode normal
+buspirate mode normal
@end example
@end deffn
-@deffn {Config Command} {buspirate_pullup} (0|1)
+@deffn {Config Command} {buspirate pullup} (0|1)
Whether to connect (1) or not (0) the I/O header pin VPU (JTAG VREF)
to the pull-up/pull-down resistors on MOSI (JTAG TDI), CLK (JTAG TCK), MISO (JTAG TDO) and CS (JTAG TMS).
For example:
@example
-buspirate_pullup 0
+buspirate pullup 0
@end example
@end deffn
-@deffn {Config Command} {buspirate_vreg} (0|1)
+@deffn {Config Command} {buspirate vreg} (0|1)
Whether to enable (1) or disable (0) the built-in voltage regulator,
which can be used to supply power to a test circuit through
I/O header pins +3V3 and +5V. For example:
@example
-buspirate_vreg 0
+buspirate vreg 0
@end example
@end deffn
-@deffn {Command} {buspirate_led} (0|1)
+@deffn {Command} {buspirate led} (0|1)
Turns the Bus Pirate's LED on (1) or off (0). For example:
@end deffn
@example
-buspirate_led 1
+buspirate led 1
@end example
@end deffn
@end deffn
+@deffn {Flash Driver} {npcx}
+All versions of the NPCX microcontroller families from Nuvoton include internal
+flash. The NPCX flash driver supports the NPCX family of devices. The driver
+automatically recognizes the specific version's flash parameters and
+autoconfigures itself. The flash bank starts at address 0x64000000.
+
+@example
+flash bank $_FLASHNAME npcx 0x64000000 0 0 0 $_TARGETNAME
+@end example
+@end deffn
+
@deffn {Flash Driver} {nrf5}
All members of the nRF51 microcontroller families from Nordic Semiconductor
include internal flash and use ARM Cortex-M0 core.
@end deffn
@deffn {Flash Driver} {stm32l4x}
-All members of the STM32 G0, G4, L4, L4+, L5, WB and WL
+All members of the STM32 G0, G4, L4, L4+, L5, U5, WB and WL
microcontroller families from STMicroelectronics include internal flash
and use ARM Cortex-M0+, M4 and M33 cores.
The driver automatically recognizes a number of these chips using
The @var{num} parameter is a value shown by @command{flash banks}.
@end deffn
+@deffn Command {stm32l4x flashloader} num [@option{enable} | @option{disable}]
+Enables or disables the flashloader usage (enabled by default),
+when disabled it will fall back to direct memory access to program the Flash or OTP memories.
+if neither @option{enabled} nor @option{disable} are specified, the command will display
+the current configuration.
+@end deffn
+
@deffn {Command} {stm32l4x mass_erase} num
Mass erases the entire stm32l4x device.
The @var{num} parameter is a value shown by @command{flash banks}.
Forces a re-load of the option byte registers. Will cause a system reset of the device.
The @var{num} parameter is a value shown by @command{flash banks}.
@end deffn
+
+@deffn Command {stm32l4x trustzone} num [@option{enable} | @option{disable}]
+Enables or disables Global TrustZone Security, using the TZEN option bit.
+If neither @option{enabled} nor @option{disable} are specified, the command will display
+the TrustZone status.
+@emph{Note:} This command works only with devices with TrustZone, eg. STM32L5.
+@emph{Note:} This command will perform an OBL_Launch after modifying the TZEN.
+@end deffn
@end deffn
@deffn {Flash Driver} {str7x}
projects / fw / openocd / blobdiff