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doc: documentation of failpanda

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Change-Id: I05a57942daaa66d146db754fc3ddc72707e55dd9
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Lars Rademacher
2014-01-12 21:28:02 +01:00
parent e1aae23c64
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9
doc/how-to-build.txt
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@ -38,6 +38,15 @@ Required for the gem5 simulator backend:
- python-dev - python-dev
- optional: libgoogle-perftools-dev - optional: libgoogle-perftools-dev
Required for the pandaboard (openocd) backend:
**********************************************************************
- libftdi-dev
- libjim-dev
Required for the compute-hops tool
**********************************************************************
- libprocps0-dev
For distribution/parallelization: For distribution/parallelization:
********************************************************************** **********************************************************************
- rsync - rsync

36
doc/how-to-use.txt
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@ -239,3 +239,39 @@ Steps to run an experiment with gem5:
./disks/boot.arm # the ARM bootloader (FIXME: dito) ./disks/boot.arm # the ARM bootloader (FIXME: dito)
4. Run gem5 in $FAIL_DIR/simulators/gem5/ with: 4. Run gem5 in $FAIL_DIR/simulators/gem5/ with:
$ M5_PATH=$SYSTEM build/ARM/gem5.debug configs/example/fs.py --bare-metal --kernel kernelname $ M5_PATH=$SYSTEM build/ARM/gem5.debug configs/example/fs.py --bare-metal --kernel kernelname
=========================================================================================
Steps to run an experiment with the pandaboard/openocd backend:
=========================================================================================
1. Prepare sd card for pandaboard usage. For example by installing a sd-image
of the ubuntu for pandaboard.
2. In u-boot set the option bootdelay to 0 to enable the pandaboard to directly
boot the installed kernel without any delay. (In the first partition add the
file "preEnv.txt" and edit its content to "bootdelay=0")
3. Use "lra-panda-dijkstra" from the "experiment_targets" directory of the project
svn as a template for your application development.
This gives you the needed fault handlers and startup code for bare metal
execution of code. It also delivers a minimum functionality for serial output.
Further reading in lra-panda-dijkstra/README.
4. Copy the generated files to the prepared sd card.
5. Connect flyswatter2 to the host computer and to the pandaboard.
6. As information from the executable (elf format) and from the trace file are
needed, these two must be specified with the envirenment variables
FAIL_TRACE_PATH and FAIL_ELF_PATH.
7. Execute the experiment/campaign as usual. If errors occure, "oocd.log" might
give you a hint for problem solution.
=========================================================================================
Example experiments and code snippets
=========================================================================================
Experiment "lra-simple-panda":
**********************************************************************
A campaign experiment to use with the lra-panda-dijkstra experiment-target.
- The CMake option CONFIG_INJECTIONPOINT_HOPS should be enabled for fast trace
navigation.
- The campaign uses the DatabaseCampaign module.
- It will create a result table for the possible experiment outcomes
'OK','ERR_WRONG_RESULT','ERR_TRAP','ERR_TIMEOUT' and 'ERR_OUTSIDE_TEXT'.
'ERR_OUTSIDE_TEXT' describes any memory accesses which went outside the
application memory.