all: main/system.iso %/system.elf: %/system.o startup.o gcc -Wl,-T linker.ld $^ -m32 -static -nostdlib -Wl,--build-id=none -o $@ %/system.o: %.c mkdir -p $(shell dirname $@) gcc $< -o $@ -O2 -std=c11 -m32 -c -ffunction-sections startup.o: startup.s gcc startup.s -m32 -c -o startup.o -ffunction-sections %/system.iso: %/system.elf rm -rf $(shell dirname $<)/grub mkdir -p $(shell dirname $<)/grub/boot/grub cp grub.cfg $(shell dirname $<)/grub/boot/grub cp $< $(shell dirname $<)/grub/boot/system.elf grub-mkrescue -o $@ $(shell dirname $<)/grub @echo "****************************************************************\n\ * The next step is to trace a golden run. The golden run executes the\n\ * system-under-test (SUT) within the Bochs emulator. A trace file is \n\ * produced and saved as main/trace.pb\n\ *\n\ * $ make trace-$(shell dirname $<)\n\ ****************************************************************" trace-%: %/system.elf %/system.iso bochs-experiment-runner.py -e $< -i $(shell dirname $<)/system.iso -1 \ -V vgabios.bin -b BIOS-bochs-latest \ -f fail-x86-tracing -- \ -Wf,--start-symbol=os_main \ -Wf,--save-symbol=os_main \ -Wf,--end-symbol=stop_trace \ -Wf,--state-file=$(shell dirname $<)/state \ -Wf,--trace-file=$(shell dirname $<)/trace.pb -Wf,--elf-file=$< -q @echo "****************************************************************\n\ * The trace is now generated. It can be viewed with\n\ *\n\ * $ dump-trace $(shell dirname $<)/trace.pb\n\ *\n\ * Next, we have to import the trace into the database\n\ *\n\ * $ make import-$(shell dirname $<)\n\ ****************************************************************" import-%: %/trace.pb import-trace -t $< -i mem -e $(shell dirname $<)/system.elf -v $(shell dirname $<) -b mem import-trace -t $< -i regs -e $(shell dirname $<)/system.elf -v $(shell dirname $<) -b regs --flags import-trace -t $< -i regs -e $(shell dirname $<)/system.elf -v $(shell dirname $<) -b ip --no-gp --ip import-trace -t $< -i ElfImporter --objdump objdump -e $(shell dirname $<)/system.elf -v $(shell dirname $<) -b ip import-trace -t $< -i ElfImporter --objdump objdump -e $(shell dirname $<)/system.elf -v $(shell dirname $<) -b mem import-trace -t $< -i ElfImporter --objdump objdump -e $(shell dirname $<)/system.elf -v $(shell dirname $<) -b regs prune-trace -v $(shell dirname $<) -b %% --overwrite @echo "****************************************************************\n\ * The golden run sits now within the MySQL database. If you are interested,\n\ * use the 'mysql' command to inspect the curent state of the DB. The tables\n\ * trace, fsppilot, and fspgroup are of special interest.\n\ *\n\ * Next, we have to run the campaign sever and the injection client\n\ *\n\ * $ make server-$(shell dirname $<) &\n\ * $ make client-$(shell dirname $<) \n\ ****************************************************************" server-%: generic-experiment-server -v $(subst server-,,$@) -b % client-%: bochs-experiment-runner.py -e $(subst client-,,$@)/system.elf \ -j $(shell getconf _NPROCESSORS_ONLN) \ -i $(subst client-,,$@)/system.iso \ -V vgabios.bin -b BIOS-bochs-latest \ -f generic-experiment-client -- \ -Wf,--state-dir=$(subst client-,,$@)/state \ -Wf,--trap -Wf,--timeout=10 \ -Wf,--ok-marker=stop_trace \ -Wf,--fail-marker=fail_marker \ -Wf,--catch-write-textsegment \ -Wf,--catch-write-outerspace 2>/dev/null | grep -C 4 'INJECT' @echo "****************************************************************\n\ * Congratiulations! You've run your first FAIL* injection campaign.\n\ * The results can be viewd with\n\ * $ make result-$(subst client-,,$@)\n\ *\n\ * For a more detailed information, have a look at the web-based resultbrowser.\n\ *\n\ * $ make resultbrowser\n\ ****************************************************************" result-%: @echo "select variant, 'all', resulttype, sum(t.time2 - t.time1 + 1)\ FROM variant v \ JOIN trace t ON v.id = t.variant_id \ JOIN fspgroup g ON g.variant_id = t.variant_id AND g.instr2 = t.instr2 AND g.data_address = t.data_address\ JOIN result_GenericExperimentMessage r ON r.pilot_id = g.pilot_id \ JOIN fsppilot p ON r.pilot_id = p.id \ GROUP BY v.id, resulttype \ ORDER BY variant, sum(t.time2-t.time1+1);" | mysql -t resultbrowser: resultbrowser -s 0.0.0.0 # Do never remove implicitly generated stuff .SECONDARY: