@* Link: @url{http://www.altera.com/literature/ug/ug_usb_blstr.pdf}
@end itemize
-@section USB JLINK based
-There are several OEM versions of the Segger @b{JLINK} adapter. It is
-an example of a micro controller based JTAG adapter, it uses an
+@section USB J-Link based
+There are several OEM versions of the SEGGER @b{J-Link} adapter. It is
+an example of a microcontroller based JTAG adapter, it uses an
AT91SAM764 internally.
@itemize @bullet
-@item @b{ATMEL SAMICE} Only works with ATMEL chips!
-@* Link: @url{http://www.atmel.com/dyn/products/tools_card.asp?tool_id=3892}
-@item @b{SEGGER JLINK}
+@item @b{SEGGER J-Link}
@* Link: @url{http://www.segger.com/jlink.html}
+@item @b{Atmel SAM-ICE} (Only works with Atmel chips!)
+@* Link: @url{http://www.atmel.com/tools/atmelsam-ice.aspx}
@item @b{IAR J-Link}
-@* Link: @url{http://www.iar.com/en/products/hardware-debug-probes/iar-j-link/}
@end itemize
@section USB RLINK based
@item any search dir specified on the command line using the @option{-s} option,
@item any search dir specified using the @command{add_script_search_dir} command,
@item @file{$HOME/.openocd} (not on Windows),
+@item a directory in the @env{OPENOCD_SCRIPTS} environment variable (if set),
@item the site wide script library @file{$pkgdatadir/site} and
@item the OpenOCD-supplied script library @file{$pkgdatadir/scripts}.
@end enumerate
@cindex translation
If you have a configuration file for another hardware debugger
or toolset (Abatron, BDI2000, BDI3000, CCS,
-Lauterbach, Segger, Macraigor, etc.), translating
+Lauterbach, SEGGER, Macraigor, etc.), translating
it into OpenOCD syntax is often quite straightforward. The most tricky
part of creating a configuration script is oftentimes the reset init
sequence where e.g. PLLs, DRAM and the like is set up.
second target will listen on gdb_port + 1, and so on.
When not specified during the configuration stage,
the port @var{number} defaults to 3333.
+
+Note: when using "gdb_port pipe", increasing the default remote timeout in
+gdb (with 'set remotetimeout') is recommended. An insufficient timeout may
+cause initialization to fail with "Unknown remote qXfer reply: OK".
+
@end deffn
@deffn {Command} tcl_port [number]
@end deffn
@deffn {Interface Driver} {jlink}
-Segger J-Link family of USB adapters. It currently supports JTAG and SWD transports.
+SEGGER J-Link family of USB adapters. It currently supports JTAG and SWD
+transports.
@quotation Compatibility Note
-Segger released many firmware versions for the many harware versions they
+SEGGER released many firmware versions for the many harware versions they
produced. OpenOCD was extensively tested and intended to run on all of them,
but some combinations were reported as incompatible. As a general
recommendation, it is advisable to use the latest firmware version
available for each hardware version. However the current V8 is a moving
-target, and Segger firmware versions released after the OpenOCD was
+target, and SEGGER firmware versions released after the OpenOCD was
released may not be compatible. In such cases it is recommended to
revert to the last known functional version. For 0.5.0, this is from
"Feb 8 2012 14:30:39", packed with 4.42c. For 0.6.0, the last known
version is from "May 3 2012 18:36:22", packed with 4.46f.
@end quotation
-@deffn {Command} {jlink caps}
-Display the device firmware capabilities.
+@deffn {Command} {jlink hwstatus}
+Display various hardware related information, for example target voltage and pin
+states.
@end deffn
-@deffn {Command} {jlink info}
-Display various device information, like hardware version, firmware version, current bus status.
+@deffn {Command} {jlink freemem}
+Display free device internal memory.
@end deffn
-@deffn {Command} {jlink hw_jtag} [@option{2}|@option{3}]
-Set the JTAG protocol version to be used. Without argument, show the actual JTAG protocol version.
+@deffn {Command} {jlink jtag} [@option{2}|@option{3}]
+Set the JTAG command version to be used. Without argument, show the actual JTAG
+command version.
@end deffn
@deffn {Command} {jlink config}
-Display the J-Link configuration.
+Display the device configuration.
@end deffn
-@deffn {Command} {jlink config kickstart} [val]
-Set the Kickstart power on JTAG-pin 19. Without argument, show the Kickstart configuration.
+@deffn {Command} {jlink config targetpower} [@option{on}|@option{off}]
+Set the target power state on JTAG-pin 19. Without argument, show the target
+power state.
@end deffn
-@deffn {Command} {jlink config mac_address} [@option{ff:ff:ff:ff:ff:ff}]
-Set the MAC address of the J-Link Pro. Without argument, show the MAC address.
+@deffn {Command} {jlink config mac} [@option{ff:ff:ff:ff:ff:ff}]
+Set the MAC address of the device. Without argument, show the MAC address.
@end deffn
@deffn {Command} {jlink config ip} [@option{A.B.C.D}(@option{/E}|@option{F.G.H.I})]
-Set the IP configuration of the J-Link Pro, where A.B.C.D is the IP address,
- E the bit of the subnet mask and
- F.G.H.I the subnet mask. Without arguments, show the IP configuration.
+Set the IP configuration of the device, where A.B.C.D is the IP address, E the
+bit of the subnet mask and F.G.H.I the subnet mask. Without arguments, show the
+IP configuration.
@end deffn
-@deffn {Command} {jlink config usb_address} [@option{0x00} to @option{0x03} or @option{0xff}]
-Set the USB address; this will also change the product id. Without argument, show the USB address.
+@deffn {Command} {jlink config usb} [@option{0} to @option{3}]
+Set the USB address of the device. This will also change the USB Product ID
+(PID) of the device. Without argument, show the USB address.
@end deffn
@deffn {Command} {jlink config reset}
Reset the current configuration.
@end deffn
-@deffn {Command} {jlink config save}
-Save the current configuration to the internal persistent storage.
-@end deffn
-@deffn {Config} {jlink pid} val
-Set the USB PID of the interface. As a configuration command, it can be used only before 'init'.
+@deffn {Command} {jlink config write}
+Write the current configuration to the internal persistent storage.
@end deffn
-@deffn {Config} {jlink serial} serial-number
-Set the @var{serial-number} of the interface, in case more than one adapter is connected to the host.
-If not specified, serial numbers are not considered.
+@deffn {Config} {jlink usb} <@option{0} to @option{3}>
+Set the USB address of the interface, in case more than one adapter is connected
+to the host. If not specified, USB addresses are not considered. Device
+selection via USB address is deprecated and the serial number should be used
+instead.
-Note that there may be leading zeros in the @var{serial-number} string
-that will not show in the Segger software, but must be specified here.
-Debug level 3 output contains serial numbers if there is a mismatch.
+As a configuration command, it can be used only before 'init'.
+@end deffn
+@deffn {Config} {jlink serial} <serial number>
+Set the serial number of the interface, in case more than one adapter is
+connected to the host. If not specified, serial numbers are not considered.
As a configuration command, it can be used only before 'init'.
@end deffn
@c "cfi part_id" disabled
@end deffn
+@deffn {Flash Driver} jtagspi
+@cindex Generic JTAG2SPI driver
+@cindex SPI
+@cindex jtagspi
+@cindex bscan_spi
+Several FPGAs and CPLDs can retrieve their configuration (bitstream) from a
+SPI flash connected to them. To access this flash from the host, the device
+is first programmed with a special proxy bitstream that
+exposes the SPI flash on the device's JTAG interface. The flash can then be
+accessed through JTAG.
+
+Since signaling between JTAG and SPI is compatible, all that is required for
+a proxy bitstream is to connect TDI-MOSI, TDO-MISO, TCK-CLK and activate
+the flash chip select when the JTAG state machine is in SHIFT-DR. Such
+a bitstream for several Xilinx FPGAs can be found in
+@file{contrib/loaders/flash/fpga/xilinx_bscan_spi.py}. It requires migen
+(@url{http://github.com/m-labs/migen}) and a Xilinx toolchain to build.
+
+This flash bank driver requires a target on a JTAG tap and will access that
+tap directly. Since no support from the target is needed, the target can be a
+"testee" dummy. Since the target does not expose the flash memory
+mapping, target commands that would otherwise be expected to access the flash
+will not work. These include all @command{*_image} and
+@command{$target_name m*} commands as well as @command{program}. Equivalent
+functionality is available through the @command{flash write_bank},
+@command{flash read_bank}, and @command{flash verify_bank} commands.
+
+@itemize
+@item @var{ir} ... is loaded into the JTAG IR to map the flash as the JTAG DR.
+For the bitstreams generated from @file{xilinx_bscan_spi.py} this is the
+@var{USER1} instruction.
+@item @var{dr_length} ... is the length of the DR register. This will be 1 for
+@file{xilinx_bscan_spi.py} bitstreams and most other cases.
+@end itemize
+
+@example
+target create $_TARGETNAME testee -chain-position $_CHIPNAME.fpga
+set _XILINX_USER1 0x02
+set _DR_LENGTH 1
+flash bank $_FLASHNAME spi 0x0 0 0 0 $_TARGETNAME $_XILINX_USER1 $_DR_LENGTH
+@end example
+@end deffn
+
@deffn {Flash Driver} lpcspifi
@cindex NXP SPI Flash Interface
@cindex SPIFI
@anchor{at91samd}
@deffn {Flash Driver} at91samd
@cindex at91samd
+All members of the ATSAMD, ATSAMR, ATSAML and ATSAMC microcontroller
+families from Atmel include internal flash and use ARM's Cortex-M0+ core.
+This driver uses the same cmd names/syntax as @xref{at91sam3}.
@deffn Command {at91samd chip-erase}
Issues a complete Flash erase via the Device Service Unit (DSU). This can be
@end example
@end deffn
+@deffn Command {at91samd dsu_reset_deassert}
+This command releases internal reset held by DSU
+and prepares reset vector catch in case of reset halt.
+Command is used internally in event event reset-deassert-post.
+@end deffn
+
@end deffn
@anchor{at91sam3}
@end deffn
@end deffn
+@deffn {Flash Driver} atsamv
+@cindex atsamv
+All members of the ATSAMV, ATSAMS, and ATSAME families from
+Atmel include internal flash and use ARM's Cortex-M7 core.
+This driver uses the same cmd names/syntax as @xref{at91sam3}.
+@end deffn
+
@deffn {Flash Driver} at91sam7
All members of the AT91SAM7 microcontroller family from Atmel include
internal flash and use ARM7TDMI cores. The driver automatically
supported.}
@end deffn
+@deffn {Flash Driver} fm3
+All members of the FM3 microcontroller family from Fujitsu
+include internal flash and use ARM Cortex M3 cores.
+The @var{fm3} driver uses the @var{target} parameter to select the
+correct bank config, it can currently be one of the following:
+@code{mb9bfxx1.cpu}, @code{mb9bfxx2.cpu}, @code{mb9bfxx3.cpu},
+@code{mb9bfxx4.cpu}, @code{mb9bfxx5.cpu} or @code{mb9bfxx6.cpu}.
+
+@example
+flash bank $_FLASHNAME fm3 0 0 0 0 $_TARGETNAME
+@end example
+@end deffn
+
@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
@end deffn
@end deffn
+@deffn {Flash Driver} mdr
+This drivers handles the integrated NOR flash on Milandr Cortex-M
+based controllers. A known limitation is that the Info memory can't be
+read or verified as it's not memory mapped.
+
+@example
+flash bank <name> mdr <base> <size> \
+ 0 0 <target#> @var{type} @var{page_count} @var{sec_count}
+@end example
+
+@itemize @bullet
+@item @var{type} - 0 for main memory, 1 for info memory
+@item @var{page_count} - total number of pages
+@item @var{sec_count} - number of sector per page count
+@end itemize
+
+Example usage:
+@example
+if @{ [info exists IMEMORY] && [string equal $IMEMORY true] @} @{
+ flash bank $@{_CHIPNAME@}_info.flash mdr 0x00000000 0x01000 \
+ 0 0 $_TARGETNAME 1 1 4
+@} else @{
+ flash bank $_CHIPNAME.flash mdr 0x00000000 0x20000 \
+ 0 0 $_TARGETNAME 0 32 4
+@}
+@end example
+@end deffn
+
+@deffn {Flash Driver} niietcm4
+This drivers handles the integrated NOR flash on NIIET Cortex-M4
+based controllers. Flash size and sector layout are auto-configured by the driver.
+Main flash memory is called "Bootflash" and has main region and info region.
+Info region is NOT memory mapped by default,
+but it can replace first part of main region if needed.
+Full erase, single and block writes are supported for both main and info regions.
+There is additional not memory mapped flash called "Userflash", which
+also have division into regions: main and info.
+Purpose of userflash - to store system and user settings.
+Driver has special commands to perform operations with this memmory.
+
+@example
+flash bank $_FLASHNAME niietcm4 0 0 0 0 $_TARGETNAME
+@end example
+
+Some niietcm4-specific commands are defined:
+
+@deffn Command {niietcm4 uflash_read_byte} bank ('main'|'info') address
+Read byte from main or info userflash region.
+@end deffn
+
+@deffn Command {niietcm4 uflash_write_byte} bank ('main'|'info') address value
+Write byte to main or info userflash region.
+@end deffn
+
+@deffn Command {niietcm4 uflash_full_erase} bank
+Erase all userflash including info region.
+@end deffn
+
+@deffn Command {niietcm4 uflash_erase} bank ('main'|'info') first_sector last_sector
+Erase sectors of main or info userflash region, starting at sector first up to and including last.
+@end deffn
+
+@deffn Command {niietcm4 uflash_protect_check} bank ('main'|'info')
+Check sectors protect.
+@end deffn
+
+@deffn Command {niietcm4 uflash_protect} bank ('main'|'info') first_sector last_sector ('on'|'off')
+Protect sectors of main or info userflash region, starting at sector first up to and including last.
+@end deffn
+
+@deffn Command {niietcm4 bflash_info_remap} bank ('on'|'off')
+Enable remapping bootflash info region to 0x00000000 (or 0x40000000 if external memory boot used).
+@end deffn
+
+@deffn Command {niietcm4 extmem_cfg} bank ('gpioa'|'gpiob'|'gpioc'|'gpiod'|'gpioe'|'gpiof'|'gpiog'|'gpioh') pin_num ('func1'|'func3')
+Configure external memory interface for boot.
+@end deffn
+
+@deffn Command {niietcm4 service_mode_erase} bank
+Perform emergency erase of all flash (bootflash and userflash).
+@end deffn
+
+@deffn Command {niietcm4 driver_info} bank
+Show information about flash driver.
+@end deffn
+
+@end deffn
+
+@deffn {Flash Driver} nrf51
+All members of the nRF51 microcontroller families from Nordic Semiconductor
+include internal flash and use ARM Cortex-M0 core.
+
+@example
+flash bank $_FLASHNAME nrf51 0 0x00000000 0 0 $_TARGETNAME
+@end example
+
+Some nrf51-specific commands are defined:
+
+@deffn Command {nrf51 mass_erase}
+Erases the contents of the code memory and user information
+configuration registers as well. It must be noted that this command
+works only for chips that do not have factory pre-programmed region 0
+code.
+@end deffn
+
+@end deffn
+
@deffn {Flash Driver} ocl
This driver is an implementation of the ``on chip flash loader''
protocol proposed by Pavel Chromy.
@end deffn
@end deffn
+@deffn {Flash Driver} sim3x
+All members of the SiM3 microcontroller family from Silicon Laboratories
+include internal flash and use ARM Cortex M3 cores. It supports both JTAG
+and SWD interface.
+The @var{sim3x} driver tries to probe the device to auto detect the MCU.
+If this failes, it will use the @var{size} parameter as the size of flash bank.
+
+@example
+flash bank $_FLASHNAME sim3x 0 $_CPUROMSIZE 0 0 $_TARGETNAME
+@end example
+
+There are 2 commands defined in the @var{sim3x} driver:
+
+@deffn Command {sim3x mass_erase}
+Erases the complete flash. This is used to unlock the flash.
+And this command is only possible when using the SWD interface.
+@end deffn
+
+@deffn Command {sim3x lock}
+Lock the flash. To unlock use the @command{sim3x mass_erase} command.
+@end deffn
+@end deffn
+
@deffn {Flash Driver} stellaris
All members of the Stellaris LM3Sxxx, LM4x and Tiva C microcontroller
families from Texas Instruments include internal flash. The driver
@end deffn
@end deffn
-@deffn {Flash Driver} fm3
-All members of the FM3 microcontroller family from Fujitsu
-include internal flash and use ARM Cortex M3 cores.
-The @var{fm3} driver uses the @var{target} parameter to select the
-correct bank config, it can currently be one of the following:
-@code{mb9bfxx1.cpu}, @code{mb9bfxx2.cpu}, @code{mb9bfxx3.cpu},
-@code{mb9bfxx4.cpu}, @code{mb9bfxx5.cpu} or @code{mb9bfxx6.cpu}.
-
-@example
-flash bank $_FLASHNAME fm3 0 0 0 0 $_TARGETNAME
-@end example
-@end deffn
-
-@deffn {Flash Driver} sim3x
-All members of the SiM3 microcontroller family from Silicon Laboratories
-include internal flash and use ARM Cortex M3 cores. It supports both JTAG
-and SWD interface.
-The @var{sim3x} driver tries to probe the device to auto detect the MCU.
-If this failes, it will use the @var{size} parameter as the size of flash bank.
-
-@example
-flash bank $_FLASHNAME sim3x 0 $_CPUROMSIZE 0 0 $_TARGETNAME
-@end example
-
-There are 2 commands defined in the @var{sim3x} driver:
+@deffn {Flash Driver} xmc4xxx
+All members of the XMC4xxx microcontroller family from Infineon.
+This driver does not require the chip and bus width to be specified.
-@deffn Command {sim3x mass_erase}
-Erases the complete flash. This is used to unlock the flash.
-And this command is only possible when using the SWD interface.
-@end deffn
+Some xmc4xxx-specific commands are defined:
-@deffn Command {sim3x lock}
-Lock the flash. To unlock use the @command{sim3x mass_erase} command.
+@deffn Command {xmc4xxx flash_password} bank_id passwd1 passwd2
+Saves flash protection passwords which are used to lock the user flash
@end deffn
-@end deffn
-
-@deffn {Flash Driver} nrf51
-All members of the nRF51 microcontroller families from Nordic Semiconductor
-include internal flash and use ARM Cortex-M0 core.
-@example
-flash bank $_FLASHNAME nrf51 0 0x00000000 0 0 $_TARGETNAME
-@end example
-
-Some nrf51-specific commands are defined:
-
-@deffn Command {nrf51 mass_erase}
-Erases the contents of the code memory and user information
-configuration registers as well. It must be noted that this command
-works only for chips that do not have factory pre-programmed region 0
-code.
+@deffn Command {xmc4xxx flash_unprotect} bank_id user_level[0-1]
+Removes Flash write protection from the selected user bank
@end deffn
@end deffn
-@deffn {Flash Driver} mdr
-This drivers handles the integrated NOR flash on Milandr Cortex-M
-based controllers. A known limitation is that the Info memory can't be
-read or verified as it's not memory mapped.
-
-@example
-flash bank <name> mdr <base> <size> \
- 0 0 <target#> @var{type} @var{page_count} @var{sec_count}
-@end example
-
-@itemize @bullet
-@item @var{type} - 0 for main memory, 1 for info memory
-@item @var{page_count} - total number of pages
-@item @var{sec_count} - number of sector per page count
-@end itemize
-
-Example usage:
-@example
-if @{ [info exists IMEMORY] && [string equal $IMEMORY true] @} @{
- flash bank $@{_CHIPNAME@}_info.flash mdr 0x00000000 0x01000 \
- 0 0 $_TARGETNAME 1 1 4
-@} else @{
- flash bank $_CHIPNAME.flash mdr 0x00000000 0x20000 \
- 0 0 $_TARGETNAME 0 32 4
-@}
-@end example
-@end deffn
-
@section NAND Flash Commands
@cindex NAND
Defaulting to 0.
@end deffn
+@deffn Command {dap ti_be_32_quirks} [@option{enable}]
+Set/get quirks mode for TI TMS450/TMS570 processors
+Disabled by default
+@end deffn
+
+
+@subsection ARMv7-A specific commands
+@cindex Cortex-A
+
+@deffn Command {cortex_a cache_info}
+display information about target caches
+@end deffn
+
+@deffn Command {cortex_a dbginit}
+Initialize core debug
+Enables debug by unlocking the Software Lock and clearing sticky powerdown indications
+@end deffn
+
+@deffn Command {cortex_a smp_off}
+Disable SMP mode
+@end deffn
+
+@deffn Command {cortex_a smp_on}
+Enable SMP mode
+@end deffn
+
+@deffn Command {cortex_a smp_gdb} [core_id]
+Display/set the current core displayed in GDB
+@end deffn
+
+@deffn Command {cortex_a maskisr} [@option{on}|@option{off}]
+Selects whether interrupts will be processed when single stepping
+@end deffn
+
+@deffn Command {cache_config l2x} [base way]
+configure l2x cache
+@end deffn
+
+
+@subsection ARMv7-R specific commands
+@cindex Cortex-R
+
+@deffn Command {cortex_r dbginit}
+Initialize core debug
+Enables debug by unlocking the Software Lock and clearing sticky powerdown indications
+@end deffn
+
+@deffn Command {cortex_r maskisr} [@option{on}|@option{off}]
+Selects whether interrupts will be processed when single stepping
+@end deffn
+
+
@subsection ARMv7-M specific commands
@cindex tracing
@cindex SWO
@cindex ITM
@cindex ETM
-@deffn Command {tpiu config} (@option{disable} | ((@option{external} | @option{internal @var{filename}}) @
+@deffn Command {tpiu config} (@option{disable} | ((@option{external} | @option{internal (@var{filename} | -)}) @
(@option{sync @var{port_width}} | ((@option{manchester} | @option{uart}) @var{formatter_enable})) @
@var{TRACECLKIN_freq} [@var{trace_freq}]))
@item @option{internal @var{filename}} configure TPIU and debug adapter to
gather trace data and append it to @var{filename} (which can be
either a regular file or a named pipe);
+@item @option{internal -} configure TPIU and debug adapter to
+gather trace data, but not write to any file. Useful in conjunction with the @command{tcl_trace} command;
@item @option{sync @var{port_width}} use synchronous parallel trace output
mode, and set port width to @var{port_width};
@item @option{manchester} use asynchronous SWO mode with Manchester
@end deffn
+@section Tcl RPC server trace output
+@cindex RPC trace output
+
+Trace data is sent asynchronously to other commands being executed over
+the RPC server, so the port must be polled continuously.
+
+Target trace data is emitted as a Tcl associative array in the following format.
+
+@verbatim
+type target_trace data [trace-data-hex-encoded]
+@end verbatim
+
+@deffn {Command} tcl_trace [on/off]
+Toggle output of target trace data to the current Tcl RPC server.
+Only available from the Tcl RPC server.
+Defaults to off.
+
+See an example application here:
+@url{https://github.com/apmorton/OpenOcdTraceUtil} [OpenOcdTraceUtil]
+
+@end deffn
+
@node FAQ
@chapter FAQ
@cindex faq
Code Review / openocd.git / blobdiff