echo [format "set p15 0x%04x, 0x%08x" $regs $value]
- arm11 mcr $TARGETNAME 15 [expr ($regs>>12)&0x7] \
+ mcr 15 [expr ($regs>>12)&0x7] \
[expr ($regs>>0)&0xf] [expr ($regs>>4)&0xf] \
[expr ($regs>>8)&0x7] $value
@}
you may encounter a problem.
@end deffn
+@deffn 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{jtag_khz} configuration.
+When the optional @var{nanoseconds} parameter is given,
+that setting is changed before displaying the current value.
+
+The default setting should work reasonably well on commodity PC hardware.
+However, you may want to calibrate for your specific hardware.
+@quotation Tip
+To measure the toggling time with a logic analyzer or a digital storage
+oscilloscope, follow the procedure below:
+@example
+> parport_toggling_time 1000
+> jtag_khz 500
+@end example
+This sets the maximum JTAG clock speed of the hardware, but
+the actual speed probably deviates from the requested 500 kHz.
+Now, measure the time between the two closest spaced TCK transitions.
+You can use @command{runtest 1000} or something similar to generate a
+large set of samples.
+Update the setting to match your measurement:
+@example
+> parport_toggling_time <measured nanoseconds>
+@end example
+Now the clock speed will be a better match for @command{jtag_khz rate}
+commands given in OpenOCD scripts and event handlers.
+
+You can do something similar with many digital multimeters, but note
+that you'll probably need to run the clock continuously for several
+seconds before it decides what clock rate to show. Adjust the
+toggling time up or down until the measured clock rate is a good
+match for the jtag_khz rate you specified; be conservative.
+@end quotation
+@end deffn
+
@deffn {Config Command} {parport_write_on_exit} (on|off)
This will configure the parallel driver to write a known
cable-specific value to the parallel interface on exiting OpenOCD
@end itemize
@end deffn
+@deffn Command {nand verify} num filename offset [option...]
+@cindex NAND verification
+@cindex NAND programming
+Verify the binary data in the file has been programmed to the
+specified NAND device, starting at the specified offset.
+The @var{num} parameter is the value shown by @command{nand list}.
+
+Use a complete path name for @var{filename}, so you don't depend
+on the directory used to start the OpenOCD server.
+
+The @var{offset} must be an exact multiple of the device's page size.
+All data in the file will be read and compared to the contents of the
+flash, assuming it doesn't run past the end of the device.
+As with @command{nand write}, only full pages are verified, so any extra
+space in the last page will be filled with 0xff bytes.
+
+The same @var{options} accepted by @command{nand write},
+and the file will be processed similarly to produce the buffers that
+can be compared against the contents produced from @command{nand dump}.
+
+@b{NOTE:} This will not work when the underlying NAND controller
+driver's @code{write_page} routine must update the OOB with a
+hardward-computed ECC before the data is written. This limitation may
+be removed in a future release.
+@end deffn
+
@section Other NAND commands
@cindex NAND other commands
Display contents of address @var{addr}, as
32-bit words (@command{mdw}), 16-bit halfwords (@command{mdh}),
or 8-bit bytes (@command{mdb}).
+When the current target has an MMU which is present and active,
+@var{addr} is interpreted as a virtual address.
+Otherwise, or if the optional @var{phys} flag is specified,
+@var{addr} is interpreted as a physical address.
If @var{count} is specified, displays that many units.
-@var{phys} is an optional flag to indicate to use
-physical address and bypass MMU
(If you want to manipulate the data instead of displaying it,
see the @code{mem2array} primitives.)
@end deffn
@deffnx Command mwh [phys] addr halfword
@deffnx Command mwb [phys] addr byte
Writes the specified @var{word} (32 bits),
-@var{halfword} (16 bits), or @var{byte} (8-bit) pattern,
+@var{halfword} (16 bits), or @var{byte} (8-bit) value,
at the specified address @var{addr}.
-@var{phys} is an optional flag to indicate to use
-physical address and bypass MMU
+When the current target has an MMU which is present and active,
+@var{addr} is interpreted as a virtual address.
+Otherwise, or if the optional @var{phys} flag is specified,
+@var{addr} is interpreted as a physical address.
@end deffn
which are a function of silicon capabilties (exposed later
using @command{etm info}) and of what hardware is connected to
that port (such as an external pod, or ETB).
-The @var{width} must be either 4, 8, or 16.
-The @var{mode} must be @option{normal}, @option{multiplexted},
-or @option{demultiplexted}.
+The @var{width} must be either 4, 8, or 16,
+except with ETMv3.0 and newer modules which may also
+support 1, 2, 24, 32, 48, and 64 bit widths.
+(With those versions, @command{etm info} also shows whether
+the selected port width and mode are supported.)
+
+The @var{mode} must be @option{normal}, @option{multiplexed},
+or @option{demultiplexed}.
The @var{clocking} must be @option{half} or @option{full}.
+@quotation Warning
+With ETMv3.0 and newer, the bits set with the @var{mode} and
+@var{clocking} parameters both control the mode.
+This modified mode does not map to the values supported by
+previous ETM modules, so this syntax is subject to change.
+@end quotation
+
@quotation Note
You can see the ETM registers using the @command{reg} command.
Not all possible registers are present in every ETM.
@subsection ARM11 specific commands
@cindex ARM11
-@deffn Command {arm11 mcr} pX opc1 CRn CRm opc2 value
-Write @var{value} to a coprocessor @var{pX} register
-passing parameters @var{CRn},
-@var{CRm}, opcodes @var{opc1} and @var{opc2},
-and the MCR instruction.
-(The difference beween this and the MCR2 instruction is
-one bit in the encoding, effecively a fifth parameter.)
-@end deffn
-
@deffn Command {arm11 memwrite burst} [value]
Displays the value of the memwrite burst-enable flag,
which is enabled by default. Burst writes are only used
If @var{value} is defined, first assigns that.
@end deffn
-@deffn Command {arm11 mrc} pX opc1 CRn CRm opc2
-Read a coprocessor @var{pX} register passing parameters @var{CRn},
-@var{CRm}, opcodes @var{opc1} and @var{opc2},
-and the MRC instruction.
-(The difference beween this and the MRC2 instruction is
-one bit in the encoding, effecively a fifth parameter.)
-Displays the result.
-@end deffn
-
@deffn Command {arm11 step_irq_enable} [value]
Displays the value of the flag controlling whether
IRQs are enabled during single stepping;
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