@uref{https://lists.berlios.de/mailman/listinfo/openocd-development}
Discuss and submit patches to this list.
-The @file{PATCHES} file contains basic information about how
+The @file{PATCHES.txt} file contains basic information about how
to prepare patches.
If you disable all access through TCP/IP, you will need to
use the command line @option{-pipe} option.
-@deffn {Command} gdb_port (number)
+@deffn {Command} gdb_port [number]
@cindex GDB server
Specify or query the first port used for incoming GDB connections.
The GDB port for the
first target will be gdb_port, the 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.
-When specified as zero, this port is not activated.
+When specified as zero, GDB remote access ports are not activated.
@end deffn
-@deffn {Command} tcl_port (number)
+@deffn {Command} tcl_port [number]
Specify or query the port used for a simplified RPC
connection that can be used by clients to issue TCL commands and get the
output from the Tcl engine.
When specified as zero, this port is not activated.
@end deffn
-@deffn {Command} telnet_port (number)
+@deffn {Command} telnet_port [number]
Specify or query the
port on which to listen for incoming telnet connections.
This port is intended for interaction with one human through TCL commands.
Gateworks GW16012 JTAG programmer.
This has one driver-specific command:
-@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.
+@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.
@end deffn
@end deffn
before initializing the JTAG scan chain:
@deffn {Config Command} {parport_cable} name
-The layout of the parallel port cable used to connect to the target.
+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:
@itemize @minus
@end itemize
@end deffn
-@deffn {Config Command} {parport_port} number
-Either the address of the I/O port (default: 0x378 for LPT1) or the number of
-the @file{/dev/parport} device
+@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
@end quotation
@end deffn
-@deffn {Config Command} {parport_write_on_exit} (on|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
+cable-specific value to the parallel interface on exiting OpenOCD.
@end deffn
For example, the interface configuration file for a
-classic ``Wiggler'' cable might look something like this:
+classic ``Wiggler'' cable on LPT2 might look something like this:
@example
interface parport
-parport_port 0xc8b8
+parport_port 0x278
parport_cable wiggler
@end example
@end deffn
@deffn {Interface Driver} {presto}
ASIX PRESTO USB JTAG programmer.
-@c command: presto_serial str
-@c sets serial number
+@deffn {Config Command} {presto_serial} serial_string
+Configures the USB serial number of the Presto device to use.
+@end deffn
@end deffn
@deffn {Interface Driver} {rlink}
@itemize @bullet
@item @var{name} ... may be used to reference the flash bank
-in other flash commands.
+in other flash commands. A number is also available.
@item @var{driver} ... identifies the controller driver
associated with the flash bank being declared.
This is usually @code{cfi} for external flash, or else
@command{flash erase_sector} or @command{flash erase_address} commands.
@deffn Command {at91sam7 gpnvm} bitnum (@option{set}|@option{clear})
-Set or clear a ``General Purpose Non-Volatle Memory'' (GPNVM)
+Set or clear a ``General Purpose Non-Volatile Memory'' (GPNVM)
bit for the processor. Each processor has a number of such bits,
used for controlling features such as brownout detection (so they
are not truly general purpose).
plus some additional configuration that's done after
OpenOCD has initialized.
-@deffn {Config Command} {nand device} name controller target [configparams...]
+@deffn {Config Command} {nand device} name driver target [configparams...]
Declares a NAND device, which can be read and written to
after it has been configured through @command{nand probe}.
In OpenOCD, devices are single chips; this is unlike some
@itemize @bullet
@item @var{name} ... may be used to reference the NAND bank
-in other commands.
-@item @var{controller} ... identifies the controller driver
+in most other NAND commands. A number is also available.
+@item @var{driver} ... identifies the NAND controller driver
associated with the NAND device being declared.
@xref{NAND Driver List}.
@item @var{target} ... names the target used when issuing
based on the ARM7TDMI-S integer core.
They are available in addition to the ARM and ARM7/ARM9 commands.
-@deffn Command {arm720t cp15} regnum [value]
-Display cp15 register @var{regnum};
+@deffn Command {arm720t cp15} opcode [value]
+@emph{DEPRECATED -- avoid using this.
+Use the @command{arm mrc} or @command{arm mcr} commands instead.}
+
+Display cp15 register returned by the ARM instruction @var{opcode};
else if a @var{value} is provided, that value is written to that register.
+The @var{opcode} should be the value of either an MRC or MCR instruction.
@end deffn
@subsection ARM9 specific commands
@deffn Command {arm920t cp15} regnum [value]
Display cp15 register @var{regnum};
else if a @var{value} is provided, that value is written to that register.
+This uses "physical access" and the register number is as
+shown in bits 38..33 of table 9-9 in the ARM920T TRM.
+(Not all registers can be written.)
@end deffn
@deffn Command {arm920t cp15i} opcode [value [address]]
-Interpreted access using cp15 @var{opcode}.
+@emph{DEPRECATED -- avoid using this.
+Use the @command{arm mrc} or @command{arm mcr} commands instead.}
+
+Interpreted access using ARM instruction @var{opcode}, which should
+be the value of either an MRC or MCR instruction
+(as shown tables 9-11, 9-12, and 9-13 in the ARM920T TRM).
If no @var{value} is provided, the result is displayed.
Else if that value is written using the specified @var{address},
-or using zero if no other address is not provided.
+or using zero if no other address is provided.
@end deffn
@deffn Command {arm920t read_cache} filename
@deffn Command {arm966e cp15} regnum [value]
Display cp15 register @var{regnum};
else if a @var{value} is provided, that value is written to that register.
+The six bit @var{regnum} values are bits 37..32 from table 7-2 of the
+ARM966E-S TRM.
+There is no current control over bits 31..30 from that table,
+as required for BIST support.
@end deffn
@subsection XScale specific commands
Changes the address used for the specified target's debug handler.
@end deffn
-@deffn Command {xscale dcache} (@option{enable}|@option{disable})
+@deffn Command {xscale dcache} [@option{enable}|@option{disable}]
Enables or disable the CPU's data cache.
@end deffn
Dumps the raw contents of the trace buffer to @file{filename}.
@end deffn
-@deffn Command {xscale icache} (@option{enable}|@option{disable})
+@deffn Command {xscale icache} [@option{enable}|@option{disable}]
Enables or disable the CPU's instruction cache.
@end deffn
-@deffn Command {xscale mmu} (@option{enable}|@option{disable})
+@deffn Command {xscale mmu} [@option{enable}|@option{disable}]
Enables or disable the CPU's memory management unit.
@end deffn
-@deffn Command {xscale trace_buffer} (@option{enable}|@option{disable}) [@option{fill} [n] | @option{wrap}]
-Enables or disables the trace buffer,
-and controls how it is emptied.
+@deffn Command {xscale trace_buffer} [@option{enable}|@option{disable} [@option{fill} [n] | @option{wrap}]]
+Displays the trace buffer status, after optionally
+enabling or disabling the trace buffer
+and modifying how it is emptied.
@end deffn
@deffn Command {xscale trace_image} filename [offset [type]]
@end deffn
@anchor{xscale vector_table}
-@deffn Command {xscale vector_table} [<low|high> <index> <value>]
+@deffn Command {xscale vector_table} [(@option{low}|@option{high}) index value]
@cindex vector_table
Set an entry in the mini-IC vector table. There are two tables: one for
@subsection ARM11 specific commands
@cindex ARM11
-@deffn Command {arm11 memwrite burst} [value]
+@deffn Command {arm11 memwrite burst} [@option{enable}|@option{disable}]
Displays the value of the memwrite burst-enable flag,
-which is enabled by default. Burst writes are only used
-for memory writes larger than 1 word. Single word writes
-are likely to be from reset init scripts and those writes
-are often to non-memory locations which could easily have
-many wait states, which could easily break burst writes.
-If @var{value} is defined, first assigns that.
+which is enabled by default.
+If a boolean parameter is provided, first assigns that flag.
+Burst writes are only used for memory writes larger than 1 word.
+They improve performance by assuming that the CPU has read each data
+word over JTAG and completed its write before the next word arrives,
+instead of polling for a status flag to verify that completion.
+This is usually safe, because JTAG runs much slower than the CPU.
@end deffn
-@deffn Command {arm11 memwrite error_fatal} [value]
+@deffn Command {arm11 memwrite error_fatal} [@option{enable}|@option{disable}]
Displays the value of the memwrite error_fatal flag,
which is enabled by default.
-If @var{value} is defined, first assigns that.
+If a boolean parameter is provided, first assigns that flag.
+When set, certain memory write errors cause earlier transfer termination.
@end deffn
-@deffn Command {arm11 step_irq_enable} [value]
+@deffn Command {arm11 step_irq_enable} [@option{enable}|@option{disable}]
Displays the value of the flag controlling whether
IRQs are enabled during single stepping;
they are disabled by default.
-If @var{value} is defined, first assigns that.
+If a boolean parameter is provided, first assigns that.
@end deffn
@deffn Command {arm11 vcr} [value]
holds one of the following values:
@itemize @bullet
-@item @b{winxx} Built using Microsoft Visual Studio
-@item @b{linux} Linux is the underlying operating sytem
-@item @b{darwin} Darwin (mac-os) is the underlying operating sytem.
@item @b{cygwin} Running under Cygwin
+@item @b{darwin} Darwin (Mac-OS) is the underlying operating sytem.
+@item @b{freebsd} Running under FreeBSD
+@item @b{linux} Linux is the underlying operating sytem
@item @b{mingw32} Running under MingW32
+@item @b{winxx} Built using Microsoft Visual Studio
@item @b{other} Unknown, none of the above.
@end itemize