From 81aec6be045792f3ed6a2d8fdbf1f534993b5c14 Mon Sep 17 00:00:00 2001 From: David Brownell Date: Mon, 7 Dec 2009 14:55:08 -0800 Subject: ARM: list number of HW breakpoints/watchpoints When starting up, say how many hardware breakpoints and watchpoints are available on various targets. This makes it easier to tell GDB how many of those resources exist. Its remote protocol currently has no way to ask OpenOCD for that information, so it must configured by hand (or not at all). Update the docs to mention this; remove obsolete "don't do this" info. Presentation of GDB setup information is still a mess, but at least it calls out the three components that need setup. Signed-off-by: David Brownell --- doc/openocd.texi | 44 +++++++++++++++++++++++++++++++++++++------- 1 file changed, 37 insertions(+), 7 deletions(-) (limited to 'doc/openocd.texi') diff --git a/doc/openocd.texi b/doc/openocd.texi index ef395ea..a83c966 100644 --- a/doc/openocd.texi +++ b/doc/openocd.texi @@ -6497,6 +6497,21 @@ a bit of googling to find something that fits your requirements. @cindex GDB OpenOCD complies with the remote gdbserver protocol, and as such can be used to debug remote targets. +Setting up GDB to work with OpenOCD can involve several components: + +@itemize +@item OpenOCD itself may need to be configured. @xref{GDB Configuration}. +@item GDB itself may need configuration, as shown in this chapter. +@item If you have a GUI environment like Eclipse, +that also will probably need to be configured. +@end itemize + +Of course, the version of GDB you use will need to be one which has +been built to know about the target CPU you're using. It's probably +part of the tool chain you're using. For example, if you are doing +cross-development for ARM on an x86 PC, instead of using the native +x86 @command{gdb} command you might use @command{arm-none-eabi-gdb} +if that's the tool chain used to compile your code. @anchor{Connecting to GDB} @section Connecting to GDB @@ -6528,19 +6543,34 @@ session. To list the available OpenOCD commands type @command{monitor help} on the GDB command line. +@section Configuring GDB for OpenOCD + OpenOCD supports the gdb @option{qSupported} packet, this enables information to be sent by the GDB remote server (i.e. OpenOCD) to GDB. Typical information includes packet size and the device's memory map. +You do not need to configure the packet size by hand, +and the relevant parts of the memory map should be automatically +set up when you declare (NOR) flash banks. + +However, there are other things which GDB can't currently query. +You may need to set those up by hand. +As OpenOCD starts up, you will often see a line reporting +something like: -Previous versions of OpenOCD required the following GDB options to increase -the packet size and speed up GDB communication: @example -set remote memory-write-packet-size 1024 -set remote memory-write-packet-size fixed -set remote memory-read-packet-size 1024 -set remote memory-read-packet-size fixed +Info : lm3s.cpu: hardware has 6 breakpoints, 4 watchpoints @end example -This is now handled in the @option{qSupported} PacketSize and should not be required. + +You can pass that information to GDB with these commands: + +@example +set remote hardware-breakpoint-limit 6 +set remote hardware-watchpoint-limit 4 +@end example + +With that particular hardware (Cortex-M3) the hardware breakpoints +only work for code running from flash memory. Most other ARM systems +do not have such restrictions. @section Programming using GDB @cindex Programming using GDB -- cgit v1.1