* TFTP:: TFTP
* GDB and OpenOCD:: Using GDB and OpenOCD
* Tcl Scripting API:: Tcl Scripting API
-* Upgrading:: Deprecated/Removed Commands
* FAQ:: Frequently Asked Questions
* Tcl Crash Course:: Tcl Crash Course
* License:: GNU Free Documentation License
looks (in part) like this:
@example
-jtag newtap $_CHIPNAME cpu -irlen 4 -ircapture 0x1 -irmask 0xf \
- -expected-id $_CPUTAPID
+jtag newtap $_CHIPNAME cpu -irlen 4 -expected-id $_CPUTAPID
@end example
A board with two such at91sam7 chips would be able
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
@}
A command like this would declare one tap and name it @code{chip1.cpu}:
@example
-jtag newtap chip1 cpu -irlen 7 -ircapture 0x01 -irmask 0x55
+jtag newtap chip1 cpu -irlen 4 -expected-id 0x3ba00477
@end example
Each target configuration file lists the TAPs provided
ID code could appear (for example, multiple versions).
Specify @var{number} as zero to suppress warnings about IDCODE
values that were found but not included in the list.
+
+Provide this value if at all possible, since it lets OpenOCD
+tell when the scan chain it sees isn't right. These values
+are provided in vendors' chip documentation, usually a technical
+reference manual. Sometimes you may need to probe the JTAG
+hardware to find these values.
+@xref{Autoprobing}.
@item @code{-ircapture} @var{NUMBER}
@*The bit pattern loaded by the TAP into the JTAG shift register
on entry to the @sc{ircapture} state, such as 0x01.
JTAG requires the two LSBs of this value to be 01.
By default, @code{-ircapture} and @code{-irmask} are set
-up to verify that two-bit value; but you may provide
-additional bits, if you know them.
+up to verify that two-bit value. You may provide
+additional bits, if you know them, or indicate that
+a TAP doesn't conform to the JTAG specification.
@item @code{-irmask} @var{NUMBER}
@*A mask used with @code{-ircapture}
to verify that instruction scans work correctly.
For example, the beginning of an SRAM block is likely to
be used by most build systems, but the end is often unused.
-@item @code{-work-area-size} @var{size} -- specify/set the work area
+@item @code{-work-area-size} @var{size} -- specify work are size,
+in bytes. The same size applies regardless of whether its physical
+or virtual address is being used.
@item @code{-work-area-phys} @var{address} -- set the work area
base @var{address} to be used when no MMU is active.
@item @code{-work-area-virt} @var{address} -- set the work area
base @var{address} to be used when an MMU is active.
+@emph{Do not specify a value for this except on targets with an MMU.}
+The value should normally correspond to a static mapping for the
+@code{-work-area-phys} address, set up by the current operating system.
@end itemize
@end deffn
@end deffn
@anchor{Flash Driver List}
-@section Flash Drivers, Options, and Commands
+@section Flash Driver List
As noted above, the @command{flash bank} command requires a driver name,
and allows driver-specific options and behaviors.
Some drivers also activate driver-specific commands.
Frequently the first such chip is used to boot the system.
Your board's @code{reset-init} handler might need to
configure additional chip selects using other commands (like: @command{mww} to
-configure a bus and its timings) , or
+configure a bus and its timings), or
perhaps configure a GPIO pin that controls the ``write protect'' pin
on the flash chip.
The CFI driver can use a target-specific working area to significantly
flash bank cfi 0x00000000 0x01000000 2 2 $_TARGETNAME
flash bank cfi 0x01000000 0x01000000 2 2 $_TARGETNAME
@end example
+
+To configure one bank of 32 MBytes
+built from two sixteen bit (two byte) wide parts wired in parallel
+to create a thirty-two bit (four byte) bus with doubled throughput:
+
+@example
+flash bank cfi 0x00000000 0x02000000 2 4 $_TARGETNAME
+@end example
+
@c "cfi part_id" disabled
@end deffn
@end deffn
@anchor{NAND Driver List}
-@section NAND Drivers, Options, and Commands
+@section NAND Driver List
As noted above, the @command{nand device} command allows
driver-specific options and behaviors.
Some controllers also activate controller-specific 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
@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;
@end deffn
@c tms_sequence (short|long)
-@c ... temporary, debug-only, probably gone before 0.2 ships
+@c ... temporary, debug-only, other than USBprog bug workaround...
@deffn Command {verify_ircapture} (@option{enable}|@option{disable})
Verify values captured during @sc{ircapture} and returned
during IR scans. Default is enabled, but this can be
overridden by @command{verify_jtag}.
+This flag is ignored when validating JTAG chain configuration.
@end deffn
@deffn Command {verify_jtag} (@option{enable}|@option{disable})
@section OpenOCD specific Global Variables
-@subsection HostOS
-
Real Tcl has ::tcl_platform(), and platform::identify, and many other
-variables. JimTCL, as implemented in OpenOCD creates $HostOS which
+variables. JimTCL, as implemented in OpenOCD creates $ocd_HOSTOS which
holds one of the following values:
@itemize @bullet
is jim, not real tcl).
@end quotation
-@node Upgrading
-@chapter Deprecated/Removed Commands
-@cindex Deprecated/Removed Commands
-Certain OpenOCD commands have been deprecated or
-removed during the various revisions.
-
-Upgrade your scripts as soon as possible.
-These descriptions for old commands may be removed
-a year after the command itself was removed.
-This means that in January 2010 this chapter may
-become much shorter.
-
-@itemize @bullet
-@item @b{arm7_9 fast_writes}
-@cindex arm7_9 fast_writes
-@*Use @command{arm7_9 fast_memory_access} instead.
-@xref{arm7_9 fast_memory_access}.
-@item @b{endstate}
-@cindex endstate
-@*An buggy old command that would not really work since background polling would wipe out the global endstate
-@item @b{arm7_9 force_hw_bkpts}
-@*Use @command{gdb_breakpoint_override} instead. Note that GDB will use hardware breakpoints
-for flash if the GDB memory map has been set up(default when flash is declared in
-target configuration). @xref{gdb_breakpoint_override}.
-@item @b{arm7_9 sw_bkpts}
-@*On by default. @xref{gdb_breakpoint_override}.
-@item @b{daemon_startup}
-@*this config option has been removed, simply adding @option{init} and @option{reset halt} to
-the end of your config script will give the same behaviour as using @option{daemon_startup reset}
-and @option{target cortex_m3 little reset_halt 0}.
-@item @b{dump_binary}
-@*use @option{dump_image} command with same args. @xref{dump_image}.
-@item @b{flash erase}
-@*use @option{flash erase_sector} command with same args. @xref{flash erase_sector}.
-@item @b{flash write}
-@*use @option{flash write_bank} command with same args. @xref{flash write_bank}.
-@item @b{flash write_binary}
-@*use @option{flash write_bank} command with same args. @xref{flash write_bank}.
-@item @b{flash auto_erase}
-@*use @option{flash write_image} command passing @option{erase} as the first parameter. @xref{flash write_image}.
-
-@item @b{jtag_device}
-@*use the @command{jtag newtap} command, converting from positional syntax
-to named prefixes, and naming the TAP.
-@xref{jtag newtap}.
-Note that if you try to use the old command, a message will tell you the
-right new command to use; and that the fourth parameter in the old syntax
-was never actually used.
-@example
-OLD: jtag_device 8 0x01 0xe3 0xfe
-NEW: jtag newtap CHIPNAME TAPNAME \
- -irlen 8 -ircapture 0x01 -irmask 0xe3
-@end example
-
-@item @b{jtag_speed} value
-@*@xref{JTAG Speed}.
-Usually, a value of zero means maximum
-speed. The actual effect of this option depends on the JTAG interface used.
-@itemize @minus
-@item wiggler: maximum speed / @var{number}
-@item ft2232: 6MHz / (@var{number}+1)
-@item amt jtagaccel: 8 / 2**@var{number}
-@item jlink: maximum speed in kHz (0-12000), 0 will use RTCK
-@item rlink: 24MHz / @var{number}, but only for certain values of @var{number}
-@comment end speed list.
-@end itemize
-
-@item @b{load_binary}
-@*use @option{load_image} command with same args. @xref{load_image}.
-@item @b{run_and_halt_time}
-@*This command has been removed for simpler reset behaviour, it can be simulated with the
-following commands:
-@smallexample
-reset run
-sleep 100
-halt
-@end smallexample
-@item @b{target} <@var{type}> <@var{endian}> <@var{jtag-position}>
-@*use the create subcommand of @option{target}.
-@item @b{target_script} <@var{target#}> <@var{eventname}> <@var{scriptname}>
-@*use <@var{target_name}> configure -event <@var{eventname}> "script <@var{scriptname}>"
-@item @b{working_area}
-@*use the @option{configure} subcommand of @option{target} to set the work-area-virt, work-area-phy, work-area-size, and work-area-backup properties of the target.
-@end itemize
-
@node FAQ
@chapter FAQ
@cindex faq