Execute a custom adapter-specific command. The @var{command} string is
passed as is to the underlying adapter layout handler.
@end deffn
-
-@deffn {Config Command} {trace} source_clock_hz [output_file_path]
-Enable SWO tracing (if supported). The source clock rate for the
-trace port must be specified, this is typically the CPU clock rate. If
-the optional output file is specified then raw trace data is appended
-to the file, and the file is created if it does not exist.
-@end deffn
@end deffn
@deffn {Interface Driver} {opendous}
@* After all targets have resumed
@item @b{resumed}
@* Target has resumed
+@item @b{trace-config}
+@* After target hardware trace configuration was changed
@end itemize
@node Flash Commands
@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, LPC4300 and LPC54100
+the LPC800, LPC1500, LPC1700, LPC1800, LPC2000, LPC4000 and LPC54100
microcontroller families from NXP.
@quotation Note
@item @var{variant} ... required, may be
@option{lpc2000_v1} (older LPC21xx and LPC22xx)
@option{lpc2000_v2} (LPC213x, LPC214x, LPC210[123], LPC23xx and LPC24xx)
-@option{lpc1700} (LPC175x and LPC176x)
+@option{lpc1700} (LPC175x and LPC176x and LPC177x/8x)
@option{lpc4300} - available also as @option{lpc1800} alias (LPC18x[2357] and
LPC43x[2357])
@option{lpc800} (LPC8xx)
@option{lpc1100} (LPC11(x)xx and LPC13xx)
@option{lpc1500} (LPC15xx)
@option{lpc54100} (LPC541xx)
+@option{lpc4000} (LPC40xx)
or @option{auto} - automatically detects flash variant and size for LPC11(x)00,
-LPC8xx, LPC13xx and LPC17xx
+LPC8xx, LPC13xx, LPC17xx and LPC40xx
@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!),
flash bank $_FLASHNAME stellaris 0 0 0 0 $_TARGETNAME
@end example
-@deffn Command {stellaris recover bank_id}
-Performs the @emph{Recovering a "Locked" Device} procedure to
-restore the flash specified by @var{bank_id} and its associated
-nonvolatile registers to their factory default values (erased).
-This is the only way to remove flash protection or re-enable
-debugging if that capability has been disabled.
+@deffn Command {stellaris recover}
+Performs the @emph{Recovering a "Locked" Device} procedure to restore
+the flash and its associated nonvolatile registers to their factory
+default values (erased). This is the only way to remove flash
+protection or re-enable debugging if that capability has been
+disabled.
Note that the final "power cycle the chip" step in this procedure
must be performed by hand, since OpenOCD can't do it.
Defaulting to 0.
@end deffn
+@subsection ARMv7-M specific commands
+@cindex tracing
+@cindex SWO
+@cindex SWV
+@cindex TPIU
+@cindex ITM
+@cindex ETM
+
+@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}]))
+
+ARMv7-M architecture provides several modules to generate debugging
+information internally (ITM, DWT and ETM). Their output is directed
+through TPIU to be captured externally either on an SWO pin (this
+configuration is called SWV) or on a synchronous parallel trace port.
+
+This command configures the TPIU module of the target and, if internal
+capture mode is selected, starts to capture trace output by using the
+debugger adapter features.
+
+Some targets require additional actions to be performed in the
+@b{trace-config} handler for trace port to be activated.
+
+Command options:
+@itemize @minus
+@item @option{disable} disable TPIU handling;
+@item @option{external} configure TPIU to let user capture trace
+output externally (with an additional UART or logic analyzer hardware);
+@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{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
+coding;
+@item @option{uart} use asynchronous SWO mode with NRZ (same as
+regular UART 8N1) coding;
+@item @var{formatter_enable} is @option{on} or @option{off} to enable
+or disable TPIU formatter which needs to be used when both ITM and ETM
+data is to be output via SWO;
+@item @var{TRACECLKIN_freq} this should be specified to match target's
+current TRACECLKIN frequency (usually the same as HCLK);
+@item @var{trace_freq} trace port frequency. Can be omitted in
+internal mode to let the adapter driver select the maximum supported
+rate automatically.
+@end itemize
+
+Example usage:
+@enumerate
+@item STM32L152 board is programmed with an application that configures
+PLL to provide core clock with 24MHz frequency; to use ITM output it's
+enough to:
+@example
+#include <libopencm3/cm3/itm.h>
+ ...
+ ITM_STIM8(0) = c;
+ ...
+@end example
+(the most obvious way is to use the first stimulus port for printf,
+for that this ITM_STIM8 assignment can be used inside _write(); to make it
+blocking to avoid data loss, add @code{while (!(ITM_STIM8(0) &
+ITM_STIM_FIFOREADY));});
+@item An FT2232H UART is connected to the SWO pin of the board;
+@item Commands to configure UART for 12MHz baud rate:
+@example
+$ setserial /dev/ttyUSB1 spd_cust divisor 5
+$ stty -F /dev/ttyUSB1 38400
+@end example
+(FT2232H's base frequency is 60MHz, spd_cust allows to alias 38400
+baud with our custom divisor to get 12MHz)
+@item @code{itmdump -f /dev/ttyUSB1 -d1}
+@item @code{openocd -f interface/stlink-v2-1.cfg -c "transport select
+hla_swd" -f target/stm32l1.cfg -c "tpiu config external uart off
+24000000 12000000"}
+@end enumerate
+@end deffn
+
+@deffn Command {itm port} @var{port} (@option{0}|@option{1}|@option{on}|@option{off})
+Enable or disable trace output for ITM stimulus @var{port} (counting
+from 0). Port 0 is enabled on target creation automatically.
+@end deffn
+
+@deffn Command {itm ports} (@option{0}|@option{1}|@option{on}|@option{off})
+Enable or disable trace output for all ITM stimulus ports.
+@end deffn
+
@subsection Cortex-M specific commands
@cindex Cortex-M
See @file{contrib/rpc_examples/} for specific client implementations.
+@section Tcl RPC server notifications
+@cindex RPC Notifications
+
+Notifications are sent asynchronously to other commands being executed over
+the RPC server, so the port must be polled continuously.
+
+Target event, state and reset notifications are emitted as Tcl associative arrays
+in the following format.
+
+@verbatim
+type target_event event [event-name]
+type target_state state [state-name]
+type target_reset mode [reset-mode]
+@end verbatim
+
+@deffn {Command} tcl_notifications [on/off]
+Toggle output of target notifications to the current Tcl RPC server.
+Only available from the Tcl RPC server.
+Defaults to off.
+
+@end deffn
+
@node FAQ
@chapter FAQ
@cindex faq