$_TARGETNAME configure -work-area-phys 0x00200000 \
-work-area-size 0x4000 -work-area-backup 0
@end example
+@pxref{Define CPU targets working in SMP}
+@anchor{Define CPU targets working in SMP}
+@subsection Define CPU targets working in SMP
+@cindex SMP
+After setting targets, you can define a list of targets working in SMP.
+
+@example
+set _TARGETNAME_1 $_CHIPNAME.cpu1
+set _TARGETNAME_2 $_CHIPNAME.cpu2
+target create $_TARGETNAME_1 cortex_a8 -chain-position $_CHIPNAME.dap \
+-coreid 0 -dbgbase $_DAP_DBG1
+target create $_TARGETNAME_2 cortex_a8 -chain-position $_CHIPNAME.dap \
+-coreid 1 -dbgbase $_DAP_DBG2
+#define 2 targets working in smp.
+target smp $_CHIPNAME.cpu2 $_CHIPNAME.cpu1
+@end example
+In the above example on cortex_a8, 2 cpus are working in SMP.
+In SMP only one GDB instance is created and :
+@itemize @bullet
+@item a set of hardware breakpoint sets the same breakpoint on all targets in the list.
+@item halt command triggers the halt of all targets in the list.
+@item resume command triggers the write context and the restart of all targets in the list.
+@item following a breakpoint: the target stopped by the breakpoint is displayed to the GDB session.
+@item dedicated GDB serial protocol packets are implemented for switching/retrieving the target
+displayed by the GDB session @pxref{Using openocd SMP with GDB}.
+@end itemize
+
+The SMP behaviour can be disabled/enabled dynamically. On cortex_a8 following
+command have been implemented.
+@itemize @bullet
+@item cortex_a8 smp_on : enable SMP mode, behaviour is as described above.
+@item cortex_a8 smp_off : disable SMP mode, the current target is the one
+displayed in the GDB session, only this target is now controlled by GDB
+session. This behaviour is useful during system boot up.
+@item cortex_a8 smp_gdb : display/fix the core id displayed in GDB session see
+following example.
+@end itemize
+
+@example
+>cortex_a8 smp_gdb
+gdb coreid 0 -> -1
+#0 : coreid 0 is displayed to GDB ,
+#-> -1 : next resume triggers a real resume
+> cortex_a8 smp_gdb 1
+gdb coreid 0 -> 1
+#0 :coreid 0 is displayed to GDB ,
+#->1 : next resume displays coreid 1 to GDB
+> resume
+> cortex_a8 smp_gdb
+gdb coreid 1 -> 1
+#1 :coreid 1 is displayed to GDB ,
+#->1 : next resume displays coreid 1 to GDB
+> cortex_a8 smp_gdb -1
+gdb coreid 1 -> -1
+#1 :coreid 1 is displayed to GDB,
+#->-1 : next resume triggers a real resume
+@end example
+
@subsection Chip Reset Setup
@deffn {Interface Driver} {jlink}
Segger jlink USB adapter
-@c command: jlink_info
+@c command: jlink caps
+@c dumps jlink capabilities
+@c command: jlink config
+@c access J-Link configurationif no argument this will dump the config
+@c command: jlink config kickstart [val]
+@c set Kickstart power on JTAG-pin 19.
+@c command: jlink config mac_address [ff:ff:ff:ff:ff:ff]
+@c set the MAC Address
+@c command: jlink config ip [A.B.C.D[/E] [F.G.H.I]]
+@c set the ip address of the J-Link Pro, "
+@c where A.B.C.D is the ip,
+@c E the bit of the subnet mask
+@c F.G.H.I the subnet mask
+@c command: jlink config reset
+@c reset the current config
+@c command: jlink config save
+@c save the current config
+@c command: jlink config usb_address [0x00 to 0x03 or 0xff]
+@c set the USB-Address,
+@c This will change the product id
+@c command: jlink info
@c dumps status
-@c command: jlink_hw_jtag (2|3)
+@c command: jlink hw_jtag (2|3)
@c sets version 2 or 3
+@c command: jlink pid
+@c set the pid of the interface we want to use
@end deffn
@deffn {Interface Driver} {parport}
current target. Must be preceeded by fast_load_image.
@end deffn
-@deffn Command {fast_load_image} filename address [@option{bin}|@option{ihex}|@option{elf}]
+@deffn Command {fast_load_image} filename address [@option{bin}|@option{ihex}|@option{elf}|@option{s19}]
Normally you should be using @command{load_image} or GDB load. However, for
testing purposes or when I/O overhead is significant(OpenOCD running on an embedded
host), storing the image in memory and uploading the image to the target
@end deffn
@anchor{load_image}
-@deffn Command {load_image} filename address [[@option{bin}|@option{ihex}|@option{elf}] @option{min_addr} @option{max_length}]
+@deffn Command {load_image} filename address [[@option{bin}|@option{ihex}|@option{elf}|@option{s19}] @option{min_addr} @option{max_length}]
Load image from file @var{filename} to target memory offset by @var{address} from its load address.
The file format may optionally be specified
-(@option{bin}, @option{ihex}, or @option{elf}).
+(@option{bin}, @option{ihex}, @option{elf}, or @option{s19}).
In addition the following arguments may be specifed:
@var{min_addr} - ignore data below @var{min_addr} (this is w.r.t. to the target's load address + @var{address})
@var{max_length} - maximum number of bytes to load.
@subsection Cortex-M3 specific commands
@cindex Cortex-M3
-@deffn Command {cortex_m3 maskisr} (@option{on}|@option{off})
+@deffn Command {cortex_m3 maskisr} (@option{auto}|@option{on}|@option{off})
Control masking (disabling) interrupts during target step/resume.
+
+The @option{auto} option handles interrupts during stepping a way they get
+served but don't disturb the program flow. The step command first allows
+pending interrupt handlers to execute, then disables interrupts and steps over
+the next instruction where the core was halted. After the step interrupts
+are enabled again. If the interrupt handlers don't complete within 500ms,
+the step command leaves with the core running.
+
+Note that a free breakpoint is required for the @option{auto} option. If no
+breakpoint is available at the time of the step, then the step is taken
+with interrupts enabled, i.e. the same way the @option{off} option does.
+
+Default is @option{auto}.
@end deffn
@deffn Command {cortex_m3 vector_catch} [@option{all}|@option{none}|list]
To verify any flash programming the GDB command @option{compare-sections}
can be used.
+@anchor{Using openocd SMP with GDB}
+@section Using openocd SMP with GDB
+@cindex SMP
+For SMP support following GDB serial protocol packet have been defined :
+@itemize @bullet
+@item j - smp status request
+@item J - smp set request
+@end itemize
+
+OpenOCD implements :
+@itemize @bullet
+@item @option{jc} packet for reading core id displayed by
+GDB connection. Reply is @option{XXXXXXXX} (8 hex digits giving core id) or
+ @option{E01} for target not smp.
+@item @option{JcXXXXXXXX} (8 hex digits) packet for setting core id displayed at next GDB continue
+(core id -1 is reserved for returning to normal resume mode). Reply @option{E01}
+for target not smp or @option{OK} on success.
+@end itemize
+
+Handling of this packet within GDB can be done :
+@itemize @bullet
+@item by the creation of an internal variable (i.e @option{_core}) by mean
+of function allocate_computed_value allowing following GDB command.
+@example
+set $_core 1
+#Jc01 packet is sent
+print $_core
+#jc packet is sent and result is affected in $
+@end example
+
+@item by the usage of GDB maintenance command as described in following example (2
+cpus in SMP with core id 0 and 1 @pxref{Define CPU targets working in SMP}).
+
+@example
+# toggle0 : force display of coreid 0
+define toggle0
+maint packet Jc0
+continue
+main packet Jc-1
+end
+# toggle1 : force display of coreid 1
+define toggle1
+maint packet Jc1
+continue
+main packet Jc-1
+end
+@end example
+@end itemize
+
@node Tcl Scripting API
@chapter Tcl Scripting API
projects / fw / openocd / blobdiff