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Add DisassemblerObjdump.

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This extracts the existing objdump-based disassembler engine used in
ExploitabilityLinux into a seperate reusable class, and adds support
for most common address operand formats.

This is a precursor to using DisassemblerObjdump to handle address
resolution for non-canonical address dereferences on amd64.

Bug: 901847
Change-Id: I1a06a86fc2e7c76b4d0e79eca5f8a6c501379f47
Reviewed-on: https://chromium-review.googlesource.com/c/breakpad/breakpad/+/3720740
Reviewed-by: Ivan Penkov <ivanpe@google.com>
Reviewed-by: Ivan Penkov <ivanpe@chromium.org>
This commit is contained in:
Mark Brand 2022-10-07 10:43:07 +02:00 committed by Ivan Penkov
parent bcffe4fe60
commit 6289830b67
13 changed files with 4102 additions and 2282 deletions
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20
Makefile.am
View file

@ -237,6 +237,8 @@ src_libbreakpad_a_SOURCES = \
src/processor/contained_range_map.h \
src/processor/convert_old_arm64_context.cc \
src/processor/convert_old_arm64_context.h \
src/processor/disassembler_objdump.h \
src/processor/disassembler_objdump.cc \
src/processor/disassembler_x86.h \
src/processor/disassembler_x86.cc \
src/processor/dump_context.cc \
@ -390,6 +392,7 @@ check_PROGRAMS += \
src/processor/basic_source_line_resolver_unittest \
src/processor/cfi_frame_info_unittest \
src/processor/contained_range_map_unittest \
src/processor/disassembler_objdump_unittest \
src/processor/disassembler_x86_unittest \
src/processor/exploitability_unittest \
src/processor/fast_source_line_resolver_unittest \
@ -873,6 +876,7 @@ src_processor_exploitability_unittest_LDADD = \
src/processor/convert_old_arm64_context.o \
src/processor/minidump_processor.o \
src/processor/process_state.o \
src/processor/disassembler_objdump.o \
src/processor/disassembler_x86.o \
src/processor/exploitability.o \
src/processor/exploitability_linux.o \
@ -909,6 +913,19 @@ src_processor_exploitability_unittest_LDADD = \
$(TEST_LIBS) \
$(PTHREAD_CFLAGS) $(PTHREAD_LIBS)
src_processor_disassembler_objdump_unittest_SOURCES = \
src/processor/disassembler_objdump_unittest.cc
src_processor_disassembler_objdump_unittest_CPPFLAGS = \
$(AM_CPPFLAGS) $(TEST_CFLAGS)
src_processor_disassembler_objdump_unittest_LDADD = \
src/processor/disassembler_objdump.o \
src/processor/dump_context.o \
src/processor/dump_object.o \
src/processor/logging.o \
src/processor/pathname_stripper.o \
$(TEST_LIBS) \
$(PTHREAD_CFLAGS) $(PTHREAD_LIBS)
src_processor_disassembler_x86_unittest_SOURCES = \
src/processor/disassembler_x86_unittest.cc
src_processor_disassembler_x86_unittest_CPPFLAGS = \
@ -992,6 +1009,7 @@ src_processor_minidump_processor_unittest_LDADD = \
src/processor/call_stack.o \
src/processor/cfi_frame_info.o \
src/processor/convert_old_arm64_context.o \
src/processor/disassembler_objdump.o \
src/processor/disassembler_x86.o \
src/processor/dump_context.o \
src/processor/dump_object.o \
@ -1141,6 +1159,7 @@ src_processor_stackwalker_selftest_LDADD = \
src/processor/basic_code_modules.o \
src/processor/basic_source_line_resolver.o \
src/processor/call_stack.o \
src/processor/disassembler_objdump.o \
src/processor/disassembler_x86.o \
src/processor/exploitability.o \
src/processor/exploitability_linux.o \
@ -1366,6 +1385,7 @@ src_processor_minidump_stackwalk_LDADD = \
src/processor/call_stack.o \
src/processor/cfi_frame_info.o \
src/processor/convert_old_arm64_context.o \
src/processor/disassembler_objdump.o \
src/processor/disassembler_x86.o \
src/processor/dump_context.o \
src/processor/dump_object.o \

85
Makefile.in
View file

@ -176,6 +176,7 @@ EXTRA_PROGRAMS = $(am__EXEEXT_1)
@DISABLE_PROCESSOR_FALSE@ src/processor/basic_source_line_resolver_unittest \
@DISABLE_PROCESSOR_FALSE@ src/processor/cfi_frame_info_unittest \
@DISABLE_PROCESSOR_FALSE@ src/processor/contained_range_map_unittest \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump_unittest \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86_unittest \
@DISABLE_PROCESSOR_FALSE@ src/processor/exploitability_unittest \
@DISABLE_PROCESSOR_FALSE@ src/processor/fast_source_line_resolver_unittest \
@ -278,6 +279,7 @@ am__installdirs = "$(DESTDIR)$(bindir)" "$(DESTDIR)$(libexecdir)" \
@DISABLE_PROCESSOR_FALSE@ src/processor/basic_source_line_resolver_unittest$(EXEEXT) \
@DISABLE_PROCESSOR_FALSE@ src/processor/cfi_frame_info_unittest$(EXEEXT) \
@DISABLE_PROCESSOR_FALSE@ src/processor/contained_range_map_unittest$(EXEEXT) \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump_unittest$(EXEEXT) \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86_unittest$(EXEEXT) \
@DISABLE_PROCESSOR_FALSE@ src/processor/exploitability_unittest$(EXEEXT) \
@DISABLE_PROCESSOR_FALSE@ src/processor/fast_source_line_resolver_unittest$(EXEEXT) \
@ -449,6 +451,8 @@ am__src_libbreakpad_a_SOURCES_DIST = \
src/processor/contained_range_map.h \
src/processor/convert_old_arm64_context.cc \
src/processor/convert_old_arm64_context.h \
src/processor/disassembler_objdump.h \
src/processor/disassembler_objdump.cc \
src/processor/disassembler_x86.h \
src/processor/disassembler_x86.cc \
src/processor/dump_context.cc src/processor/dump_object.cc \
@ -525,6 +529,7 @@ am__src_libbreakpad_a_SOURCES_DIST = \
@DISABLE_PROCESSOR_FALSE@ src/processor/call_stack.$(OBJEXT) \
@DISABLE_PROCESSOR_FALSE@ src/processor/cfi_frame_info.$(OBJEXT) \
@DISABLE_PROCESSOR_FALSE@ src/processor/convert_old_arm64_context.$(OBJEXT) \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.$(OBJEXT) \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86.$(OBJEXT) \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_context.$(OBJEXT) \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_object.$(OBJEXT) \
@ -959,6 +964,20 @@ src_processor_contained_range_map_unittest_OBJECTS = \
@DISABLE_PROCESSOR_FALSE@src_processor_contained_range_map_unittest_DEPENDENCIES = \
@DISABLE_PROCESSOR_FALSE@ src/processor/logging.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/pathname_stripper.o
am__src_processor_disassembler_objdump_unittest_SOURCES_DIST = \
src/processor/disassembler_objdump_unittest.cc
@DISABLE_PROCESSOR_FALSE@am_src_processor_disassembler_objdump_unittest_OBJECTS = src/processor/disassembler_objdump_unittest-disassembler_objdump_unittest.$(OBJEXT)
src_processor_disassembler_objdump_unittest_OBJECTS = \
$(am_src_processor_disassembler_objdump_unittest_OBJECTS)
@DISABLE_PROCESSOR_FALSE@src_processor_disassembler_objdump_unittest_DEPENDENCIES = \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_context.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_object.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/logging.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/pathname_stripper.o \
@DISABLE_PROCESSOR_FALSE@ $(am__DEPENDENCIES_2) \
@DISABLE_PROCESSOR_FALSE@ $(am__DEPENDENCIES_1) \
@DISABLE_PROCESSOR_FALSE@ $(am__DEPENDENCIES_1)
am__src_processor_disassembler_x86_unittest_SOURCES_DIST = \
src/processor/disassembler_x86_unittest.cc
@DISABLE_PROCESSOR_FALSE@am_src_processor_disassembler_x86_unittest_OBJECTS = src/processor/disassembler_x86_unittest-disassembler_x86_unittest.$(OBJEXT)
@ -978,6 +997,7 @@ src_processor_exploitability_unittest_OBJECTS = \
@DISABLE_PROCESSOR_FALSE@src_processor_exploitability_unittest_DEPENDENCIES = src/processor/convert_old_arm64_context.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/minidump_processor.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/process_state.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/exploitability.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/exploitability_linux.o \
@ -1143,6 +1163,7 @@ src_processor_minidump_processor_unittest_OBJECTS = \
@DISABLE_PROCESSOR_FALSE@ src/processor/call_stack.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/cfi_frame_info.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/convert_old_arm64_context.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_context.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_object.o \
@ -1188,6 +1209,7 @@ src_processor_minidump_stackwalk_OBJECTS = \
@DISABLE_PROCESSOR_FALSE@ src/processor/call_stack.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/cfi_frame_info.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/convert_old_arm64_context.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_context.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_object.o \
@ -1411,6 +1433,7 @@ src_processor_stackwalker_selftest_OBJECTS = \
@DISABLE_PROCESSOR_FALSE@ src/processor/basic_code_modules.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/basic_source_line_resolver.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/call_stack.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/exploitability.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/exploitability_linux.o \
@ -1885,6 +1908,8 @@ am__depfiles_remade = src/client/$(DEPDIR)/minidump_file_writer.Po \
src/processor/$(DEPDIR)/client_linux_linux_client_unittest_shlib-proc_maps_linux.Po \
src/processor/$(DEPDIR)/contained_range_map_unittest.Po \
src/processor/$(DEPDIR)/convert_old_arm64_context.Po \
src/processor/$(DEPDIR)/disassembler_objdump.Po \
src/processor/$(DEPDIR)/disassembler_objdump_unittest-disassembler_objdump_unittest.Po \
src/processor/$(DEPDIR)/disassembler_x86.Po \
src/processor/$(DEPDIR)/disassembler_x86_unittest-disassembler_x86_unittest.Po \
src/processor/$(DEPDIR)/dump_context.Po \
@ -2038,6 +2063,7 @@ SOURCES = $(src_client_linux_libbreakpad_client_a_SOURCES) \
$(src_processor_basic_source_line_resolver_unittest_SOURCES) \
$(src_processor_cfi_frame_info_unittest_SOURCES) \
$(src_processor_contained_range_map_unittest_SOURCES) \
$(src_processor_disassembler_objdump_unittest_SOURCES) \
$(src_processor_disassembler_x86_unittest_SOURCES) \
$(src_processor_exploitability_unittest_SOURCES) \
$(src_processor_fast_source_line_resolver_unittest_SOURCES) \
@ -2097,6 +2123,7 @@ DIST_SOURCES = \
$(am__src_processor_basic_source_line_resolver_unittest_SOURCES_DIST) \
$(am__src_processor_cfi_frame_info_unittest_SOURCES_DIST) \
$(am__src_processor_contained_range_map_unittest_SOURCES_DIST) \
$(am__src_processor_disassembler_objdump_unittest_SOURCES_DIST) \
$(am__src_processor_disassembler_x86_unittest_SOURCES_DIST) \
$(am__src_processor_exploitability_unittest_SOURCES_DIST) \
$(am__src_processor_fast_source_line_resolver_unittest_SOURCES_DIST) \
@ -2649,6 +2676,8 @@ CLEANFILES = $(am__append_12)
@DISABLE_PROCESSOR_FALSE@ src/processor/contained_range_map.h \
@DISABLE_PROCESSOR_FALSE@ src/processor/convert_old_arm64_context.cc \
@DISABLE_PROCESSOR_FALSE@ src/processor/convert_old_arm64_context.h \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.h \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.cc \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86.h \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86.cc \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_context.cc \
@ -3172,6 +3201,7 @@ TESTS = $(check_PROGRAMS) $(check_SCRIPTS)
@DISABLE_PROCESSOR_FALSE@ src/processor/convert_old_arm64_context.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/minidump_processor.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/process_state.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/exploitability.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/exploitability_linux.o \
@ -3208,6 +3238,21 @@ TESTS = $(check_PROGRAMS) $(check_SCRIPTS)
@DISABLE_PROCESSOR_FALSE@ $(TEST_LIBS) \
@DISABLE_PROCESSOR_FALSE@ $(PTHREAD_CFLAGS) $(PTHREAD_LIBS)
@DISABLE_PROCESSOR_FALSE@src_processor_disassembler_objdump_unittest_SOURCES = \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump_unittest.cc
@DISABLE_PROCESSOR_FALSE@src_processor_disassembler_objdump_unittest_CPPFLAGS = \
@DISABLE_PROCESSOR_FALSE@ $(AM_CPPFLAGS) $(TEST_CFLAGS)
@DISABLE_PROCESSOR_FALSE@src_processor_disassembler_objdump_unittest_LDADD = \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_context.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_object.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/logging.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/pathname_stripper.o \
@DISABLE_PROCESSOR_FALSE@ $(TEST_LIBS) \
@DISABLE_PROCESSOR_FALSE@ $(PTHREAD_CFLAGS) $(PTHREAD_LIBS)
@DISABLE_PROCESSOR_FALSE@src_processor_disassembler_x86_unittest_SOURCES = \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86_unittest.cc
@ -3301,6 +3346,7 @@ TESTS = $(check_PROGRAMS) $(check_SCRIPTS)
@DISABLE_PROCESSOR_FALSE@ src/processor/call_stack.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/cfi_frame_info.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/convert_old_arm64_context.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_context.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_object.o \
@ -3470,6 +3516,7 @@ TESTS = $(check_PROGRAMS) $(check_SCRIPTS)
@DISABLE_PROCESSOR_FALSE@ src/processor/basic_code_modules.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/basic_source_line_resolver.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/call_stack.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/exploitability.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/exploitability_linux.o \
@ -3721,6 +3768,7 @@ TESTS = $(check_PROGRAMS) $(check_SCRIPTS)
@DISABLE_PROCESSOR_FALSE@ src/processor/call_stack.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/cfi_frame_info.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/convert_old_arm64_context.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_objdump.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/disassembler_x86.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_context.o \
@DISABLE_PROCESSOR_FALSE@ src/processor/dump_object.o \
@ -4356,6 +4404,9 @@ src/processor/cfi_frame_info.$(OBJEXT): src/processor/$(am__dirstamp) \
src/processor/convert_old_arm64_context.$(OBJEXT): \
src/processor/$(am__dirstamp) \
src/processor/$(DEPDIR)/$(am__dirstamp)
src/processor/disassembler_objdump.$(OBJEXT): \
src/processor/$(am__dirstamp) \
src/processor/$(DEPDIR)/$(am__dirstamp)
src/processor/disassembler_x86.$(OBJEXT): \
src/processor/$(am__dirstamp) \
src/processor/$(DEPDIR)/$(am__dirstamp)
@ -4970,6 +5021,13 @@ src/processor/contained_range_map_unittest.$(OBJEXT): \
src/processor/contained_range_map_unittest$(EXEEXT): $(src_processor_contained_range_map_unittest_OBJECTS) $(src_processor_contained_range_map_unittest_DEPENDENCIES) $(EXTRA_src_processor_contained_range_map_unittest_DEPENDENCIES) src/processor/$(am__dirstamp)
@rm -f src/processor/contained_range_map_unittest$(EXEEXT)
$(AM_V_CXXLD)$(CXXLINK) $(src_processor_contained_range_map_unittest_OBJECTS) $(src_processor_contained_range_map_unittest_LDADD) $(LIBS)
src/processor/disassembler_objdump_unittest-disassembler_objdump_unittest.$(OBJEXT): \
src/processor/$(am__dirstamp) \
src/processor/$(DEPDIR)/$(am__dirstamp)
src/processor/disassembler_objdump_unittest$(EXEEXT): $(src_processor_disassembler_objdump_unittest_OBJECTS) $(src_processor_disassembler_objdump_unittest_DEPENDENCIES) $(EXTRA_src_processor_disassembler_objdump_unittest_DEPENDENCIES) src/processor/$(am__dirstamp)
@rm -f src/processor/disassembler_objdump_unittest$(EXEEXT)
$(AM_V_CXXLD)$(CXXLINK) $(src_processor_disassembler_objdump_unittest_OBJECTS) $(src_processor_disassembler_objdump_unittest_LDADD) $(LIBS)
src/processor/disassembler_x86_unittest-disassembler_x86_unittest.$(OBJEXT): \
src/processor/$(am__dirstamp) \
src/processor/$(DEPDIR)/$(am__dirstamp)
@ -5704,6 +5762,8 @@ distclean-compile:
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/client_linux_linux_client_unittest_shlib-proc_maps_linux.Po@am__quote@ # am--include-marker
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/contained_range_map_unittest.Po@am__quote@ # am--include-marker
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/convert_old_arm64_context.Po@am__quote@ # am--include-marker
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/disassembler_objdump.Po@am__quote@ # am--include-marker
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/disassembler_objdump_unittest-disassembler_objdump_unittest.Po@am__quote@ # am--include-marker
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/disassembler_x86.Po@am__quote@ # am--include-marker
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/disassembler_x86_unittest-disassembler_x86_unittest.Po@am__quote@ # am--include-marker
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/dump_context.Po@am__quote@ # am--include-marker
@ -7482,6 +7542,20 @@ src/processor/cfi_frame_info_unittest-cfi_frame_info_unittest.obj: src/processor
@AMDEP_TRUE@@am__fastdepCXX_FALSE@ DEPDIR=$(DEPDIR) $(CXXDEPMODE) $(depcomp) @AMDEPBACKSLASH@
@am__fastdepCXX_FALSE@ $(AM_V_CXX@am__nodep@)$(CXX) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(src_processor_cfi_frame_info_unittest_CPPFLAGS) $(CPPFLAGS) $(AM_CXXFLAGS) $(CXXFLAGS) -c -o src/processor/cfi_frame_info_unittest-cfi_frame_info_unittest.obj `if test -f 'src/processor/cfi_frame_info_unittest.cc'; then $(CYGPATH_W) 'src/processor/cfi_frame_info_unittest.cc'; else $(CYGPATH_W) '$(srcdir)/src/processor/cfi_frame_info_unittest.cc'; fi`
src/processor/disassembler_objdump_unittest-disassembler_objdump_unittest.o: src/processor/disassembler_objdump_unittest.cc
@am__fastdepCXX_TRUE@ $(AM_V_CXX)$(CXX) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(src_processor_disassembler_objdump_unittest_CPPFLAGS) $(CPPFLAGS) $(AM_CXXFLAGS) $(CXXFLAGS) -MT src/processor/disassembler_objdump_unittest-disassembler_objdump_unittest.o -MD -MP -MF src/processor/$(DEPDIR)/disassembler_objdump_unittest-disassembler_objdump_unittest.Tpo -c -o src/processor/disassembler_objdump_unittest-disassembler_objdump_unittest.o `test -f 'src/processor/disassembler_objdump_unittest.cc' || echo '$(srcdir)/'`src/processor/disassembler_objdump_unittest.cc
@am__fastdepCXX_TRUE@ $(AM_V_at)$(am__mv) src/processor/$(DEPDIR)/disassembler_objdump_unittest-disassembler_objdump_unittest.Tpo src/processor/$(DEPDIR)/disassembler_objdump_unittest-disassembler_objdump_unittest.Po
@AMDEP_TRUE@@am__fastdepCXX_FALSE@ $(AM_V_CXX)source='src/processor/disassembler_objdump_unittest.cc' object='src/processor/disassembler_objdump_unittest-disassembler_objdump_unittest.o' libtool=no @AMDEPBACKSLASH@
@AMDEP_TRUE@@am__fastdepCXX_FALSE@ DEPDIR=$(DEPDIR) $(CXXDEPMODE) $(depcomp) @AMDEPBACKSLASH@
@am__fastdepCXX_FALSE@ $(AM_V_CXX@am__nodep@)$(CXX) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(src_processor_disassembler_objdump_unittest_CPPFLAGS) $(CPPFLAGS) $(AM_CXXFLAGS) $(CXXFLAGS) -c -o src/processor/disassembler_objdump_unittest-disassembler_objdump_unittest.o `test -f 'src/processor/disassembler_objdump_unittest.cc' || echo '$(srcdir)/'`src/processor/disassembler_objdump_unittest.cc
src/processor/disassembler_objdump_unittest-disassembler_objdump_unittest.obj: src/processor/disassembler_objdump_unittest.cc
@am__fastdepCXX_TRUE@ $(AM_V_CXX)$(CXX) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(src_processor_disassembler_objdump_unittest_CPPFLAGS) $(CPPFLAGS) $(AM_CXXFLAGS) $(CXXFLAGS) -MT src/processor/disassembler_objdump_unittest-disassembler_objdump_unittest.obj -MD -MP -MF src/processor/$(DEPDIR)/disassembler_objdump_unittest-disassembler_objdump_unittest.Tpo -c -o src/processor/disassembler_objdump_unittest-disassembler_objdump_unittest.obj `if test -f 'src/processor/disassembler_objdump_unittest.cc'; then $(CYGPATH_W) 'src/processor/disassembler_objdump_unittest.cc'; else $(CYGPATH_W) '$(srcdir)/src/processor/disassembler_objdump_unittest.cc'; fi`
@am__fastdepCXX_TRUE@ $(AM_V_at)$(am__mv) src/processor/$(DEPDIR)/disassembler_objdump_unittest-disassembler_objdump_unittest.Tpo src/processor/$(DEPDIR)/disassembler_objdump_unittest-disassembler_objdump_unittest.Po
@AMDEP_TRUE@@am__fastdepCXX_FALSE@ $(AM_V_CXX)source='src/processor/disassembler_objdump_unittest.cc' object='src/processor/disassembler_objdump_unittest-disassembler_objdump_unittest.obj' libtool=no @AMDEPBACKSLASH@
@AMDEP_TRUE@@am__fastdepCXX_FALSE@ DEPDIR=$(DEPDIR) $(CXXDEPMODE) $(depcomp) @AMDEPBACKSLASH@
@am__fastdepCXX_FALSE@ $(AM_V_CXX@am__nodep@)$(CXX) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(src_processor_disassembler_objdump_unittest_CPPFLAGS) $(CPPFLAGS) $(AM_CXXFLAGS) $(CXXFLAGS) -c -o src/processor/disassembler_objdump_unittest-disassembler_objdump_unittest.obj `if test -f 'src/processor/disassembler_objdump_unittest.cc'; then $(CYGPATH_W) 'src/processor/disassembler_objdump_unittest.cc'; else $(CYGPATH_W) '$(srcdir)/src/processor/disassembler_objdump_unittest.cc'; fi`
src/processor/disassembler_x86_unittest-disassembler_x86_unittest.o: src/processor/disassembler_x86_unittest.cc
@am__fastdepCXX_TRUE@ $(AM_V_CXX)$(CXX) $(DEFS) $(DEFAULT_INCLUDES) $(INCLUDES) $(src_processor_disassembler_x86_unittest_CPPFLAGS) $(CPPFLAGS) $(AM_CXXFLAGS) $(CXXFLAGS) -MT src/processor/disassembler_x86_unittest-disassembler_x86_unittest.o -MD -MP -MF src/processor/$(DEPDIR)/disassembler_x86_unittest-disassembler_x86_unittest.Tpo -c -o src/processor/disassembler_x86_unittest-disassembler_x86_unittest.o `test -f 'src/processor/disassembler_x86_unittest.cc' || echo '$(srcdir)/'`src/processor/disassembler_x86_unittest.cc
@am__fastdepCXX_TRUE@ $(AM_V_at)$(am__mv) src/processor/$(DEPDIR)/disassembler_x86_unittest-disassembler_x86_unittest.Tpo src/processor/$(DEPDIR)/disassembler_x86_unittest-disassembler_x86_unittest.Po
@ -9131,6 +9205,13 @@ src/processor/contained_range_map_unittest.log: src/processor/contained_range_ma
--log-file $$b.log --trs-file $$b.trs \
$(am__common_driver_flags) $(AM_LOG_DRIVER_FLAGS) $(LOG_DRIVER_FLAGS) -- $(LOG_COMPILE) \
"$$tst" $(AM_TESTS_FD_REDIRECT)
src/processor/disassembler_objdump_unittest.log: src/processor/disassembler_objdump_unittest$(EXEEXT)
@p='src/processor/disassembler_objdump_unittest$(EXEEXT)'; \
b='src/processor/disassembler_objdump_unittest'; \
$(am__check_pre) $(LOG_DRIVER) --test-name "$$f" \
--log-file $$b.log --trs-file $$b.trs \
$(am__common_driver_flags) $(AM_LOG_DRIVER_FLAGS) $(LOG_DRIVER_FLAGS) -- $(LOG_COMPILE) \
"$$tst" $(AM_TESTS_FD_REDIRECT)
src/processor/disassembler_x86_unittest.log: src/processor/disassembler_x86_unittest$(EXEEXT)
@p='src/processor/disassembler_x86_unittest$(EXEEXT)'; \
b='src/processor/disassembler_x86_unittest'; \
@ -9887,6 +9968,8 @@ distclean: distclean-am
-rm -f src/processor/$(DEPDIR)/client_linux_linux_client_unittest_shlib-proc_maps_linux.Po
-rm -f src/processor/$(DEPDIR)/contained_range_map_unittest.Po
-rm -f src/processor/$(DEPDIR)/convert_old_arm64_context.Po
-rm -f src/processor/$(DEPDIR)/disassembler_objdump.Po
-rm -f src/processor/$(DEPDIR)/disassembler_objdump_unittest-disassembler_objdump_unittest.Po
-rm -f src/processor/$(DEPDIR)/disassembler_x86.Po
-rm -f src/processor/$(DEPDIR)/disassembler_x86_unittest-disassembler_x86_unittest.Po
-rm -f src/processor/$(DEPDIR)/dump_context.Po
@ -10239,6 +10322,8 @@ maintainer-clean: maintainer-clean-am
-rm -f src/processor/$(DEPDIR)/client_linux_linux_client_unittest_shlib-proc_maps_linux.Po
-rm -f src/processor/$(DEPDIR)/contained_range_map_unittest.Po
-rm -f src/processor/$(DEPDIR)/convert_old_arm64_context.Po
-rm -f src/processor/$(DEPDIR)/disassembler_objdump.Po
-rm -f src/processor/$(DEPDIR)/disassembler_objdump_unittest-disassembler_objdump_unittest.Po
-rm -f src/processor/$(DEPDIR)/disassembler_x86.Po
-rm -f src/processor/$(DEPDIR)/disassembler_x86_unittest-disassembler_x86_unittest.Po
-rm -f src/processor/$(DEPDIR)/dump_context.Po

4
aclocal.m4 vendored
View file

@ -14,8 +14,8 @@
m4_ifndef([AC_CONFIG_MACRO_DIRS], [m4_defun([_AM_CONFIG_MACRO_DIRS], [])m4_defun([AC_CONFIG_MACRO_DIRS], [_AM_CONFIG_MACRO_DIRS($@)])])
m4_ifndef([AC_AUTOCONF_VERSION],
[m4_copy([m4_PACKAGE_VERSION], [AC_AUTOCONF_VERSION])])dnl
m4_if(m4_defn([AC_AUTOCONF_VERSION]), [2.69],,
[m4_warning([this file was generated for autoconf 2.69.
m4_if(m4_defn([AC_AUTOCONF_VERSION]), [2.71],,
[m4_warning([this file was generated for autoconf 2.71.
You have another version of autoconf. It may work, but is not guaranteed to.
If you have problems, you may need to regenerate the build system entirely.
To do so, use the procedure documented by the package, typically 'autoreconf'.])])

4594
configure vendored
View file

File diff suppressed because it is too large Load diff

14
configure.ac
View file

@ -27,9 +27,9 @@
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
AC_PREREQ(2.69)
AC_PREREQ([2.71])
AC_INIT(breakpad, 0.1, google-breakpad-dev@googlegroups.com)
AC_INIT([breakpad],[0.1],[google-breakpad-dev@googlegroups.com])
dnl Sanity check: the argument is just a file that should exist.
AC_CONFIG_SRCDIR(README.md)
AC_CONFIG_AUX_DIR(autotools)
@ -59,7 +59,15 @@ if test "x$enable_m32" = xyes; then
CXXFLAGS="${CXXFLAGS} -m32"
fi
AC_HEADER_STDC
m4_warn([obsolete],
[The preprocessor macro `STDC_HEADERS' is obsolete.
Except in unusual embedded environments, you can safely include all
ISO C90 headers unconditionally.])dnl
# Autoupdate added the next two lines to ensure that your configure
# script's behavior did not change. They are probably safe to remove.
AC_CHECK_INCLUDES_DEFAULT
AC_PROG_EGREP
AC_SYS_LARGEFILE
AX_PTHREAD
AC_CHECK_HEADERS([a.out.h sys/mman.h sys/random.h])

21
src/config.h.in
View file

@ -18,18 +18,24 @@
/* Define to 1 if you have the <inttypes.h> header file. */
#undef HAVE_INTTYPES_H
/* Define to 1 if you have the `rustc_demangle' library (-lrustc_demangle). */
#undef HAVE_LIBRUSTC_DEMANGLE
/* Define to 1 if you have the `memfd_create' function. */
#undef HAVE_MEMFD_CREATE
/* Define to 1 if you have the <memory.h> header file. */
#undef HAVE_MEMORY_H
/* Define if you have POSIX threads libraries and header files. */
#undef HAVE_PTHREAD
/* Define to 1 if you have the <rustc_demangle.h> header file. */
#undef HAVE_RUSTC_DEMANGLE_H
/* Define to 1 if you have the <stdint.h> header file. */
#undef HAVE_STDINT_H
/* Define to 1 if you have the <stdio.h> header file. */
#undef HAVE_STDIO_H
/* Define to 1 if you have the <stdlib.h> header file. */
#undef HAVE_STDLIB_H
@ -82,17 +88,14 @@
your system. */
#undef PTHREAD_CREATE_JOINABLE
/* Define to 1 if you have the ANSI C header files. */
/* Define to 1 if all of the C90 standard headers exist (not just the ones
required in a freestanding environment). This macro is provided for
backward compatibility; new code need not use it. */
#undef STDC_HEADERS
/* Version number of package */
#undef VERSION
/* Enable large inode numbers on Mac OS X 10.5. */
#ifndef _DARWIN_USE_64_BIT_INODE
# define _DARWIN_USE_64_BIT_INODE 1
#endif
/* Number of bits in a file offset, on hosts where this is settable. */
#undef _FILE_OFFSET_BITS

520
src/processor/disassembler_objdump.cc Normal file
View file

@ -0,0 +1,520 @@
// Copyright (c) 2022, Google LLC
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google LLC nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// disassembler_objdump.: Disassembler that invokes objdump for disassembly.
//
// Author: Mark Brand
#include "processor/disassembler_objdump.h"
#ifdef __linux__
#include <unistd.h>
#include <fstream>
#include <iostream>
#include <iterator>
#include <regex>
#include <sstream>
#include <vector>
#include "processor/logging.h"
namespace google_breakpad {
namespace {
const size_t kMaxX86InstructionLength = 15;
// Small RAII wrapper for temporary files.
//
// Example:
// ScopedTmpFile tmp("/tmp/tmpfile-XXXX");
// if (tmp.Create()) {
// std::cerr << tmp.path() << std::endl;
// }
class ScopedTmpFile {
public:
// Initialize the ScopedTmpFile object - this does not create the temporary
// file yet.
ScopedTmpFile(const char* path_format);
~ScopedTmpFile();
// Creates the temporary file, returns true on success.
bool Create();
// Writes bytes to the temporary file, returns true on success.
bool Write(const uint8_t* bytes, unsigned int bytes_len);
// Returns the path of the temporary file.
string path() const { return path_; }
private:
int fd_;
string path_;
};
ScopedTmpFile::ScopedTmpFile(const char* path_format) : path_(path_format) {}
ScopedTmpFile::~ScopedTmpFile() {
if (fd_) {
close(fd_);
unlink(path_.c_str());
}
}
bool ScopedTmpFile::Create() {
fd_ = mkstemp(path_.data());
if (fd_ < 0) {
unlink(path_.c_str());
fd_ = 0;
path_ = "";
return false;
}
return true;
}
bool ScopedTmpFile::Write(const uint8_t* bytes, unsigned int bytes_len) {
if (fd_) {
do {
ssize_t result = write(fd_, bytes, bytes_len);
if (result < 0) {
break;
}
bytes += result;
bytes_len -= result;
} while (bytes_len);
}
return bytes_len == 0;
}
bool IsInstructionPrefix(const string& token) {
if (token == "lock" || token == "rep" || token == "repz" ||
token == "repnz") {
return true;
}
return false;
}
bool IsOperandSize(const string& token) {
if (token == "BYTE" || token == "WORD" || token == "DWORD" ||
token == "QWORD" || token == "PTR") {
return true;
}
return false;
}
bool GetSegmentAddressX86(const DumpContext& context, string segment_name,
uint64_t& address) {
if (segment_name == "ds") {
address = context.GetContextX86()->ds;
} else if (segment_name == "es") {
address = context.GetContextX86()->es;
} else if (segment_name == "fs") {
address = context.GetContextX86()->fs;
} else if (segment_name == "gs") {
address = context.GetContextX86()->gs;
} else {
BPLOG(ERROR) << "Unsupported segment register: " << segment_name;
return false;
}
return true;
}
bool GetSegmentAddressAMD64(const DumpContext& context, string segment_name,
uint64_t& address) {
if (segment_name == "ds") {
address = 0;
} else if (segment_name == "es") {
address = 0;
} else {
BPLOG(ERROR) << "Unsupported segment register: " << segment_name;
return false;
}
return true;
}
bool GetSegmentAddress(const DumpContext& context, string segment_name,
uint64_t& address) {
if (context.GetContextCPU() == MD_CONTEXT_X86) {
return GetSegmentAddressX86(context, segment_name, address);
} else if (context.GetContextCPU() == MD_CONTEXT_AMD64) {
return GetSegmentAddressAMD64(context, segment_name, address);
} else {
BPLOG(ERROR) << "Unsupported architecture for GetSegmentAddress\n";
return false;
}
}
bool GetRegisterValueX86(const DumpContext& context, string register_name,
uint64_t& value) {
if (register_name == "eax") {
value = context.GetContextX86()->eax;
} else if (register_name == "ebx") {
value = context.GetContextX86()->ebx;
} else if (register_name == "ecx") {
value = context.GetContextX86()->ecx;
} else if (register_name == "edx") {
value = context.GetContextX86()->edx;
} else if (register_name == "edi") {
value = context.GetContextX86()->edi;
} else if (register_name == "esi") {
value = context.GetContextX86()->esi;
} else if (register_name == "ebp") {
value = context.GetContextX86()->ebp;
} else if (register_name == "esp") {
value = context.GetContextX86()->esp;
} else if (register_name == "eip") {
value = context.GetContextX86()->eip;
} else {
BPLOG(ERROR) << "Unsupported register: " << register_name;
return false;
}
return true;
}
bool GetRegisterValueAMD64(const DumpContext& context, string register_name,
uint64_t& value) {
if (register_name == "rax") {
value = context.GetContextAMD64()->rax;
} else if (register_name == "rbx") {
value = context.GetContextAMD64()->rbx;
} else if (register_name == "rcx") {
value = context.GetContextAMD64()->rcx;
} else if (register_name == "rdx") {
value = context.GetContextAMD64()->rdx;
} else if (register_name == "rdi") {
value = context.GetContextAMD64()->rdi;
} else if (register_name == "rsi") {
value = context.GetContextAMD64()->rsi;
} else if (register_name == "rbp") {
value = context.GetContextAMD64()->rbp;
} else if (register_name == "rsp") {
value = context.GetContextAMD64()->rsp;
} else if (register_name == "r8") {
value = context.GetContextAMD64()->r8;
} else if (register_name == "r9") {
value = context.GetContextAMD64()->r9;
} else if (register_name == "r10") {
value = context.GetContextAMD64()->r10;
} else if (register_name == "r11") {
value = context.GetContextAMD64()->r11;
} else if (register_name == "r12") {
value = context.GetContextAMD64()->r12;
} else if (register_name == "r13") {
value = context.GetContextAMD64()->r13;
} else if (register_name == "r14") {
value = context.GetContextAMD64()->r14;
} else if (register_name == "r15") {
value = context.GetContextAMD64()->r15;
} else if (register_name == "rip") {
value = context.GetContextAMD64()->rip;
} else {
BPLOG(ERROR) << "Unsupported register: " << register_name;
return false;
}
return true;
}
// Lookup the value of `register_name` in `context`, store it into `value` on
// success.
// Support for non-full-size registers not implemented, since we're only using
// this to evaluate address expressions.
bool GetRegisterValue(const DumpContext& context, string register_name,
uint64_t& value) {
if (context.GetContextCPU() == MD_CONTEXT_X86) {
return GetRegisterValueX86(context, register_name, value);
} else if (context.GetContextCPU() == MD_CONTEXT_AMD64) {
return GetRegisterValueAMD64(context, register_name, value);
} else {
BPLOG(ERROR) << "Unsupported architecture for GetRegisterValue\n";
return false;
}
}
} // namespace
// static
bool DisassemblerObjdump::DisassembleInstruction(uint32_t cpu,
const uint8_t* raw_bytes,
unsigned int raw_bytes_len,
string& instruction) {
// Always initialize outputs
instruction = "";
if (!raw_bytes || raw_bytes_len == 0) {
// There's no need to perform any operation in this case, as there's
// clearly no instruction there.
return false;
}
string architecture;
if (cpu == MD_CONTEXT_X86) {
architecture = "i386";
} else if (cpu == MD_CONTEXT_AMD64) {
architecture = "i386:x86-64";
} else {
BPLOG(ERROR) << "Unsupported architecture.";
return false;
}
// Create two temporary files, one for the raw instruction bytes to pass to
// objdump, and one for the output, and write the bytes to the input file.
ScopedTmpFile raw_bytes_file("/tmp/breakpad_mem_region-raw_bytes-XXXXXX");
ScopedTmpFile disassembly_file("/tmp/breakpad_mem_region-disassembly-XXXXXX");
if (!raw_bytes_file.Create() || !disassembly_file.Create() ||
!raw_bytes_file.Write(raw_bytes, raw_bytes_len)) {
BPLOG(ERROR) << "Failed creating temporary files.";
return false;
}
char cmd[1024] = {0};
snprintf(cmd, 1024,
"objdump -D --no-show-raw-insn -b binary -M intel -m %s %s > %s",
architecture.c_str(), raw_bytes_file.path().c_str(),
disassembly_file.path().c_str());
if (system(cmd)) {
BPLOG(ERROR) << "Failed to call objdump.";
return false;
}
// Pipe each output line into the string until the string contains the first
// instruction from objdump.
std::ifstream objdump_stream(disassembly_file.path());
// Match the instruction line, from:
// 0: lock cmpxchg DWORD PTR [esi+0x10],eax
// extract the string "lock cmpxchg DWORD PTR [esi+0x10],eax"
std::regex instruction_regex(
"^\\s+[0-9a-f]+:\\s+" // " 0:"
"((?:\\s*\\S*)+)$"); // "lock cmpxchg..."
std::string line;
std::smatch match;
do {
if (!getline(objdump_stream, line)) {
BPLOG(INFO) << "Failed to find instruction in objdump output.";
return false;
}
} while (!std::regex_match(line, match, instruction_regex));
instruction = match[1].str();
return true;
}
// static
bool DisassemblerObjdump::TokenizeInstruction(const string& instruction,
string& operation, string& dest,
string& src) {
// Always initialize outputs.
operation = "";
dest = "";
src = "";
// Split the instruction into tokens by either whitespace or comma.
std::regex token_regex("((?:[^\\s,]+)|,)(?:\\s)*");
std::sregex_iterator tokens_begin(instruction.begin(), instruction.end(),
token_regex);
bool found_comma = false;
for (auto tokens_iter = tokens_begin; tokens_iter != std::sregex_iterator();
++tokens_iter) {
auto token = (*tokens_iter)[1].str();
if (operation.size() == 0) {
if (IsInstructionPrefix(token))
continue;
operation = token;
} else if (dest.size() == 0) {
if (IsOperandSize(token))
continue;
dest = token;
} else if (!found_comma) {
if (token == ",") {
found_comma = true;
} else {
BPLOG(ERROR) << "Failed to parse operands from objdump output, expected"
" comma but found \""
<< token << "\"";
return false;
}
} else if (src.size() == 0) {
if (IsOperandSize(token))
continue;
src = token;
} else {
if (token == ",") {
BPLOG(ERROR) << "Failed to parse operands from objdump output, found "
"unexpected comma after last operand.";
return false;
} else {
// We just ignore other junk after the last operand unless it's a
// comma, which would indicate we're probably still in the middle
// of the operands and something has gone wrong
}
}
}
if (found_comma && src.size() == 0) {
BPLOG(ERROR) << "Failed to parse operands from objdump output, found comma "
"but no src operand.";
return false;
}
return true;
}
// static
bool DisassemblerObjdump::CalculateAddress(const DumpContext& context,
const string& expression,
uint64_t& address) {
address = 0;
// Extract the components of the expression.
// fs:[esi+edi*4+0x80] -> ["fs", "esi", "edi", "4", "-", "0x80"]
std::regex expression_regex(
"^(?:(\\ws):)?" // "fs:"
"\\[(\\w+)" // "[esi"
"(?:\\+(\\w+)(?:\\*(\\d+)))?" // "+edi*4"
"(?:([\\+-])(0x[0-9a-f]+))?" // "-0x80"
"\\]$"); // "]"
std::smatch match;
if (!std::regex_match(expression, match, expression_regex) ||
match.size() != 7) {
return false;
}
string segment_name = match[1].str();
string register_name = match[2].str();
string index_name = match[3].str();
string index_stride = match[4].str();
string offset_sign = match[5].str();
string offset = match[6].str();
uint64_t segment_address = 0;
uint64_t register_value = 0;
uint64_t index_value = 0;
uint64_t index_stride_value = 1;
uint64_t offset_value = 0;
if (segment_name.size() &&
!GetSegmentAddress(context, segment_name, segment_address)) {
return false;
}
if (!GetRegisterValue(context, register_name, register_value)) {
return false;
}
if (index_name.size() &&
!GetRegisterValue(context, index_name, index_value)) {
return false;
}
if (index_stride.size()) {
index_stride_value = strtoull(index_stride.c_str(), nullptr, 0);
}
if (offset.size()) {
offset_value = strtoull(offset.c_str(), nullptr, 0);
}
address =
segment_address + register_value + (index_value * index_stride_value);
if (offset_sign == "+") {
address += offset_value;
} else if (offset_sign == "-") {
address -= offset_value;
}
return true;
}
DisassemblerObjdump::DisassemblerObjdump(const uint32_t cpu,
const MemoryRegion* memory_region,
uint64_t address) {
if (address < memory_region->GetBase() ||
memory_region->GetBase() + memory_region->GetSize() <= address) {
return;
}
uint8_t ip_bytes[kMaxX86InstructionLength] = {0};
size_t ip_bytes_length;
for (ip_bytes_length = 0; ip_bytes_length < kMaxX86InstructionLength;
++ip_bytes_length) {
// We have to read byte-by-byte here, since we still want to try and
// disassemble an instruction even if we don't have enough bytes.
if (!memory_region->GetMemoryAtAddress(address + ip_bytes_length,
&ip_bytes[ip_bytes_length])) {
break;
}
}
string instruction;
if (!DisassembleInstruction(cpu, ip_bytes, kMaxX86InstructionLength,
instruction)) {
return;
}
if (!TokenizeInstruction(instruction, operation_, dest_, src_)) {
return;
}
}
bool DisassemblerObjdump::CalculateSrcAddress(const DumpContext& context,
uint64_t& address) {
return CalculateAddress(context, src_, address);
}
bool DisassemblerObjdump::CalculateDestAddress(const DumpContext& context,
uint64_t& address) {
return CalculateAddress(context, dest_, address);
}
} // namespace google_breakpad
#else // __linux__
namespace google_breakpad {
DisassemblerObjdump::DisassemblerObjdump(const uint32_t cpu,
const MemoryRegion* memory_region,
uint64_t address) {}
bool DisassemblerObjdump::CalculateSrcAddress(const DumpContext& context,
uint64_t* address) {
return false;
}
bool DisassemblerObjdump::CalculateDestAddress(const DumpContext& context,
uint64_t* address) {
return false;
}
} // namespace google_breakpad
#endif // __linux__

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// Copyright (c) 2022, Google LLC
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google LLC nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// disassembler_objdump.h: Disassembler that invokes objdump for disassembly.
//
// Author: Mark Brand
#ifndef GOOGLE_BREAKPAD_PROCESSOR_DISASSEMBLER_OBJDUMP_H_
#define GOOGLE_BREAKPAD_PROCESSOR_DISASSEMBLER_OBJDUMP_H_
#include <string>
#include "common/using_std_string.h"
#include "google_breakpad/common/breakpad_types.h"
#include "google_breakpad/processor/dump_context.h"
#include "google_breakpad/processor/memory_region.h"
namespace google_breakpad {
// Uses objdump to disassemble a single instruction.
//
// Currently supports disassembly for x86 and x86_64 on linux hosts only; on
// unsupported platform or for unsupported architectures disassembly will fail.
//
// If disassembly is successful, then this allows extracting the instruction
// opcode, source and destination operands, and computing the source and
// destination addresses for instructions that operate on memory.
//
// Example:
// DisassemblerObjdump disassembler(context->GetContextCPU(), memory_region,
// instruction_ptr);
// if (disassembler.IsValid()) {
// uint64_t src_address = 0;
// std::cerr << disassembler.operation() << " " << disassembler.src()
// << ", " << disassembler.dest() << std::endl;
// if (disassembler.CalculateSrcAddress(*context, src_address)) {
// std::cerr << "[src_address = " << std::hex << src_address << "]\n";
// }
// }
class DisassemblerObjdump {
public:
// Construct an ObjdumpDisassembler for the provided `cpu` type, where this is
// one of MD_CONTEXT_X86 or MD_CONTEXT_AMD64. Provided that `address` is
// within `memory_region`, and the memory referenced is a valid instruction,
// this will then be initialized with the disassembly for that instruction.
DisassemblerObjdump(uint32_t cpu,
const MemoryRegion* memory_region,
uint64_t address);
~DisassemblerObjdump() = default;
// If the source operand of the instruction is a memory operand, compute the
// address referred to by the operand, and store this in `address`. On success
// returns true, otherwise (if computation fails, or if the source operand is
// not a memory operand) returns false and sets `address` to 0.
bool CalculateSrcAddress(const DumpContext& context, uint64_t& address);
// If the destination operand of the instruction is a memory operand, compute
// the address referred to by the operand, and store this in `address`. On
// success returns true, otherwise (if computation fails, or if the source
// operand is not a memory operand) returns false and sets `address` to 0.
bool CalculateDestAddress(const DumpContext& context, uint64_t& address);
// If the instruction was disassembled successfully, this will be true.
bool IsValid() const { return operation_.size() != 0; }
// Returns the operation part of the disassembly, without any prefixes:
// "pop" eax
// lock "xchg" eax, edx
const string& operation() const { return operation_; }
// Returns the destination operand of the disassembly, without memory operand
// size prefixes:
// mov DWORD PTR "[rax + 16]", edx
const string& dest() const { return dest_; }
// Returns the source operand of the disassembly, without memory operand
// size prefixes:
// mov rax, QWORD PTR "[rdx]"
const string& src() const { return src_; }
private:
friend class DisassemblerObjdumpForTest;
// Writes out the provided `raw_bytes` to a temporary file, and executes objdump
// to disassemble according to `cpu`, which must be either MD_CONTEXT_X86 or
// MD_CONTEXT_AMD64. Once objdump has completed, parses out the instruction
// string from the first instruction in the output and stores it in
// `instruction`.
static bool DisassembleInstruction(uint32_t cpu, const uint8_t* raw_bytes,
unsigned int raw_bytes_len,
string& instruction);
// Splits an `instruction` into three parts, the "main" `operation` and
// the `dest` and `src` operands.
// Example:
// instruction = "lock cmpxchg QWORD PTR [rdi], rsi"
// operation = "cmpxchg", dest = "[rdi]", src = "rsi"
static bool TokenizeInstruction(const string& instruction, string& operation,
string& dest, string& src);
// Compute the address referenced by `expression` in `context`.
// Supports memory operands in the form
// (segment:)[base_reg(+index_reg*index_stride)(+-offset)]
// Returns false if evaluation fails, or if the operand is not a supported
// memory operand.
static bool CalculateAddress(const DumpContext& context,
const string& expression,
uint64_t& address);
// The parsed components of the disassembly for the instruction.
string operation_ = "";
string dest_ = "";
string src_ = "";
};
} // namespace google_breakpad
#endif // GOOGLE_BREAKPAD_PROCESSOR_DISASSEMBLER_OBJDUMP_H_

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// Copyright (c) 2022, Google LLC
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google LLC nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include <unistd.h>
#include <vector>
#include "breakpad_googletest_includes.h"
#include "google_breakpad/common/breakpad_types.h"
#include "google_breakpad/common/minidump_cpu_amd64.h"
#include "google_breakpad/common/minidump_cpu_x86.h"
#include "google_breakpad/processor/dump_context.h"
#include "google_breakpad/processor/memory_region.h"
#include "processor/disassembler_objdump.h"
namespace google_breakpad {
class DisassemblerObjdumpForTest : public DisassemblerObjdump {
public:
using DisassemblerObjdump::CalculateAddress;
using DisassemblerObjdump::DisassembleInstruction;
using DisassemblerObjdump::TokenizeInstruction;
};
class TestMemoryRegion : public MemoryRegion {
public:
TestMemoryRegion(uint64_t base, std::vector<uint8_t> bytes);
~TestMemoryRegion() override = default;
uint64_t GetBase() const override;
uint32_t GetSize() const override;
bool GetMemoryAtAddress(uint64_t address, uint8_t* value) const override;
bool GetMemoryAtAddress(uint64_t address, uint16_t* value) const override;
bool GetMemoryAtAddress(uint64_t address, uint32_t* value) const override;
bool GetMemoryAtAddress(uint64_t address, uint64_t* value) const override;
void Print() const override;
private:
uint64_t base_;
std::vector<uint8_t> bytes_;
};
TestMemoryRegion::TestMemoryRegion(uint64_t address, std::vector<uint8_t> bytes)
: base_(address), bytes_(bytes) {}
uint64_t TestMemoryRegion::GetBase() const {
return base_;
}
uint32_t TestMemoryRegion::GetSize() const {
return static_cast<uint32_t>(bytes_.size());
}
bool TestMemoryRegion::GetMemoryAtAddress(uint64_t address,
uint8_t* value) const {
if (address < GetBase() ||
address + sizeof(uint8_t) > GetBase() + GetSize()) {
return false;
}
memcpy(value, &bytes_[address - GetBase()], sizeof(uint8_t));
return true;
}
// We don't use the following functions, so no need to implement.
bool TestMemoryRegion::GetMemoryAtAddress(uint64_t address,
uint16_t* value) const {
return false;
}
bool TestMemoryRegion::GetMemoryAtAddress(uint64_t address,
uint32_t* value) const {
return false;
}
bool TestMemoryRegion::GetMemoryAtAddress(uint64_t address,
uint64_t* value) const {
return false;
}
void TestMemoryRegion::Print() const {}
const uint32_t kX86TestDs = 0x01000000;
const uint32_t kX86TestEs = 0x02000000;
const uint32_t kX86TestFs = 0x03000000;
const uint32_t kX86TestGs = 0x04000000;
const uint32_t kX86TestEax = 0x00010101;
const uint32_t kX86TestEbx = 0x00020202;
const uint32_t kX86TestEcx = 0x00030303;
const uint32_t kX86TestEdx = 0x00040404;
const uint32_t kX86TestEsi = 0x00050505;
const uint32_t kX86TestEdi = 0x00060606;
const uint32_t kX86TestEsp = 0x00070707;
const uint32_t kX86TestEbp = 0x00080808;
const uint32_t kX86TestEip = 0x23230000;
const uint64_t kAMD64TestRax = 0x0000010101010101ul;
const uint64_t kAMD64TestRbx = 0x0000020202020202ul;
const uint64_t kAMD64TestRcx = 0x0000030303030303ul;
const uint64_t kAMD64TestRdx = 0x0000040404040404ul;
const uint64_t kAMD64TestRsi = 0x0000050505050505ul;
const uint64_t kAMD64TestRdi = 0x0000060606060606ul;
const uint64_t kAMD64TestRsp = 0x0000070707070707ul;
const uint64_t kAMD64TestRbp = 0x0000080808080808ul;
const uint64_t kAMD64TestR8 = 0x0000090909090909ul;
const uint64_t kAMD64TestR9 = 0x00000a0a0a0a0a0aul;
const uint64_t kAMD64TestR10 = 0x00000b0b0b0b0b0bul;
const uint64_t kAMD64TestR11 = 0x00000c0c0c0c0c0cul;
const uint64_t kAMD64TestR12 = 0x00000d0d0d0d0d0dul;
const uint64_t kAMD64TestR13 = 0x00000e0e0e0e0e0eul;
const uint64_t kAMD64TestR14 = 0x00000f0f0f0f0f0ful;
const uint64_t kAMD64TestR15 = 0x0000001010101010ul;
const uint64_t kAMD64TestRip = 0x0000000023230000ul;
class TestDumpContext : public DumpContext {
public:
TestDumpContext(bool x86_64 = false);
~TestDumpContext() override;
};
TestDumpContext::TestDumpContext(bool x86_64) {
if (!x86_64) {
MDRawContextX86* raw_context = new MDRawContextX86();
memset(raw_context, 0, sizeof(raw_context));
raw_context->context_flags = MD_CONTEXT_X86_FULL;
raw_context->ds = kX86TestDs;
raw_context->es = kX86TestEs;
raw_context->fs = kX86TestFs;
raw_context->gs = kX86TestGs;
raw_context->eax = kX86TestEax;
raw_context->ebx = kX86TestEbx;
raw_context->ecx = kX86TestEcx;
raw_context->edx = kX86TestEdx;
raw_context->esi = kX86TestEsi;
raw_context->edi = kX86TestEdi;
raw_context->esp = kX86TestEsp;
raw_context->ebp = kX86TestEbp;
raw_context->eip = kX86TestEip;
SetContextFlags(raw_context->context_flags);
SetContextX86(raw_context);
this->valid_ = true;
} else {
MDRawContextAMD64* raw_context = new MDRawContextAMD64();
memset(raw_context, 0, sizeof(raw_context));
raw_context->context_flags = MD_CONTEXT_AMD64_FULL;
raw_context->rax = kAMD64TestRax;
raw_context->rbx = kAMD64TestRbx;
raw_context->rcx = kAMD64TestRcx;
raw_context->rdx = kAMD64TestRdx;
raw_context->rsi = kAMD64TestRsi;
raw_context->rdi = kAMD64TestRdi;
raw_context->rsp = kAMD64TestRsp;
raw_context->rbp = kAMD64TestRbp;
raw_context->r8 = kAMD64TestR8;
raw_context->r9 = kAMD64TestR9;
raw_context->r10 = kAMD64TestR10;
raw_context->r11 = kAMD64TestR11;
raw_context->r12 = kAMD64TestR12;
raw_context->r13 = kAMD64TestR13;
raw_context->r14 = kAMD64TestR14;
raw_context->r15 = kAMD64TestR15;
raw_context->rip = kAMD64TestRip;
SetContextFlags(raw_context->context_flags);
SetContextAMD64(raw_context);
this->valid_ = true;
}
}
TestDumpContext::~TestDumpContext() {
FreeContext();
}
TEST(DisassemblerObjdumpTest, DisassembleInstructionX86) {
string instruction;
ASSERT_FALSE(DisassemblerObjdumpForTest::DisassembleInstruction(
MD_CONTEXT_X86, nullptr, 0, instruction));
std::vector<uint8_t> pop_eax = {0x58};
ASSERT_TRUE(DisassemblerObjdumpForTest::DisassembleInstruction(
MD_CONTEXT_X86, pop_eax.data(), pop_eax.size(), instruction));
ASSERT_EQ(instruction, "pop eax");
}
TEST(DisassemblerObjdumpTest, DisassembleInstructionAMD64) {
string instruction;
ASSERT_FALSE(DisassemblerObjdumpForTest::DisassembleInstruction(
MD_CONTEXT_AMD64, nullptr, 0, instruction));
std::vector<uint8_t> pop_rax = {0x58};
ASSERT_TRUE(DisassemblerObjdumpForTest::DisassembleInstruction(
MD_CONTEXT_AMD64, pop_rax.data(), pop_rax.size(), instruction));
ASSERT_EQ(instruction, "pop rax");
}
TEST(DisassemblerObjdumpTest, TokenizeInstruction) {
string operation, dest, src;
ASSERT_TRUE(DisassemblerObjdumpForTest::TokenizeInstruction(
"pop eax", operation, dest, src));
ASSERT_EQ(operation, "pop");
ASSERT_EQ(dest, "eax");
ASSERT_TRUE(DisassemblerObjdumpForTest::TokenizeInstruction(
"mov eax, ebx", operation, dest, src));
ASSERT_EQ(operation, "mov");
ASSERT_EQ(dest, "eax");
ASSERT_EQ(src, "ebx");
ASSERT_TRUE(DisassemblerObjdumpForTest::TokenizeInstruction(
"pop rax", operation, dest, src));
ASSERT_EQ(operation, "pop");
ASSERT_EQ(dest, "rax");
ASSERT_TRUE(DisassemblerObjdumpForTest::TokenizeInstruction(
"mov rax, rbx", operation, dest, src));
ASSERT_EQ(operation, "mov");
ASSERT_EQ(dest, "rax");
ASSERT_EQ(src, "rbx");
// Test the three parsing failure paths
ASSERT_FALSE(DisassemblerObjdumpForTest::TokenizeInstruction(
"mov rax,", operation, dest, src));
ASSERT_FALSE(DisassemblerObjdumpForTest::TokenizeInstruction(
"mov rax rbx", operation, dest, src));
ASSERT_FALSE(DisassemblerObjdumpForTest::TokenizeInstruction(
"mov rax, rbx, rcx", operation, dest, src));
// This is of course a nonsense instruction, but test that we do remove
// multiple instruction prefixes and can handle multiple memory operands.
ASSERT_TRUE(DisassemblerObjdumpForTest::TokenizeInstruction(
"rep lock mov DWORD PTR rax, QWORD PTR rbx", operation, dest, src));
ASSERT_EQ(operation, "mov");
ASSERT_EQ(dest, "rax");
ASSERT_EQ(src, "rbx");
// Test that we ignore junk following a valid instruction
ASSERT_TRUE(DisassemblerObjdumpForTest::TokenizeInstruction(
"mov rax, rbx ; junk here", operation, dest, src));
ASSERT_EQ(operation, "mov");
ASSERT_EQ(dest, "rax");
ASSERT_EQ(src, "rbx");
}
namespace x86 {
const TestMemoryRegion load_reg(kX86TestEip, {0x8b, 0x06}); // mov eax, [esi];
const TestMemoryRegion load_reg_index(kX86TestEip,
{0x8b, 0x04,
0xbe}); // mov eax, [esi+edi*4];
const TestMemoryRegion load_reg_offset(kX86TestEip,
{0x8b, 0x46,
0x10}); // mov eax, [esi+0x10];
const TestMemoryRegion load_reg_index_offset(
kX86TestEip,
{0x8b, 0x44, 0xbe, 0xf0}); // mov eax, [esi+edi*4-0x10];
const TestMemoryRegion rep_stosb(kX86TestEip, {0xf3, 0xaa}); // rep stosb;
const TestMemoryRegion lock_cmpxchg(kX86TestEip,
{0xf0, 0x0f, 0xb1, 0x46,
0x10}); // lock cmpxchg [esi + 0x10], eax;
const TestMemoryRegion call_reg_offset(kX86TestEip,
{0xff, 0x96, 0x99, 0x99, 0x99,
0x09}); // call [esi+0x9999999];
} // namespace x86
TEST(DisassemblerObjdumpTest, X86LoadReg) {
TestDumpContext context;
DisassemblerObjdump dis(context.GetContextCPU(), &x86::load_reg, kX86TestEip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_FALSE(dis.CalculateDestAddress(context, dest_address));
ASSERT_TRUE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(src_address, kX86TestEsi);
}
TEST(DisassemblerObjdumpTest, X86LoadRegIndex) {
TestDumpContext context;
DisassemblerObjdump dis(context.GetContextCPU(), &x86::load_reg_index,
kX86TestEip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_FALSE(dis.CalculateDestAddress(context, dest_address));
ASSERT_TRUE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(src_address, kX86TestEsi + (kX86TestEdi * 4));
}
TEST(DisassemblerObjdumpTest, X86LoadRegOffset) {
TestDumpContext context;
DisassemblerObjdump dis(context.GetContextCPU(), &x86::load_reg_offset,
kX86TestEip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_FALSE(dis.CalculateDestAddress(context, dest_address));
ASSERT_TRUE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(src_address, kX86TestEsi + 0x10);
}
TEST(DisassemblerObjdumpTest, X86LoadRegIndexOffset) {
TestDumpContext context;
DisassemblerObjdump dis(context.GetContextCPU(), &x86::load_reg_index_offset,
kX86TestEip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_FALSE(dis.CalculateDestAddress(context, dest_address));
ASSERT_TRUE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(src_address, kX86TestEsi + (kX86TestEdi * 4) - 0x10);
}
TEST(DisassemblerObjdumpTest, X86RepStosb) {
TestDumpContext context;
DisassemblerObjdump dis(context.GetContextCPU(), &x86::rep_stosb,
kX86TestEip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_TRUE(dis.CalculateDestAddress(context, dest_address));
ASSERT_FALSE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(dest_address, kX86TestEs + kX86TestEdi);
}
TEST(DisassemblerObjdumpTest, X86LockCmpxchg) {
TestDumpContext context;
DisassemblerObjdump dis(context.GetContextCPU(), &x86::lock_cmpxchg,
kX86TestEip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_TRUE(dis.CalculateDestAddress(context, dest_address));
ASSERT_FALSE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(dest_address, kX86TestEsi + 0x10);
}
TEST(DisassemblerObjdumpTest, X86CallRegOffset) {
TestDumpContext context;
DisassemblerObjdump dis(context.GetContextCPU(), &x86::call_reg_offset,
kX86TestEip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_TRUE(dis.CalculateDestAddress(context, dest_address));
ASSERT_FALSE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(dest_address, kX86TestEsi + 0x9999999);
}
namespace amd64 {
const TestMemoryRegion load_reg(kAMD64TestRip,
{0x48, 0x8b, 0x06}); // mov rax, [rsi];
const TestMemoryRegion load_reg_index(kAMD64TestRip,
{0x48, 0x8b, 0x04,
0xbe}); // mov rax, [rsi+rdi*4];
const TestMemoryRegion load_rip_relative(kAMD64TestRip,
{0x48, 0x8b, 0x05, 0x10, 0x00, 0x00,
0x00}); // mov rax, [rip+0x10];
const TestMemoryRegion load_reg_index_offset(
kAMD64TestRip,
{0x48, 0x8b, 0x44, 0xbe, 0xf0}); // mov rax, [rsi+rdi*4-0x10];
const TestMemoryRegion rep_stosb(kAMD64TestRip, {0xf3, 0xaa}); // rep stosb;
const TestMemoryRegion lock_cmpxchg(kAMD64TestRip,
{0xf0, 0x48, 0x0f, 0xb1, 0x46,
0x10}); // lock cmpxchg [rsi + 0x10], rax;
const TestMemoryRegion call_reg_offset(kAMD64TestRip,
{0xff, 0x96, 0x99, 0x99, 0x99,
0x09}); // call [rsi+0x9999999];
} // namespace amd64
TEST(DisassemblerObjdumpTest, AMD64LoadReg) {
TestDumpContext context(true);
DisassemblerObjdump dis(context.GetContextCPU(), &amd64::load_reg,
kAMD64TestRip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_FALSE(dis.CalculateDestAddress(context, dest_address));
ASSERT_TRUE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(src_address, kAMD64TestRsi);
}
TEST(DisassemblerObjdumpTest, AMD64LoadRegIndex) {
TestDumpContext context(true);
DisassemblerObjdump dis(context.GetContextCPU(), &amd64::load_reg_index,
kAMD64TestRip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_FALSE(dis.CalculateDestAddress(context, dest_address));
ASSERT_TRUE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(src_address, kAMD64TestRsi + (kAMD64TestRdi * 4));
}
TEST(DisassemblerObjdumpTest, AMD64LoadRipRelative) {
TestDumpContext context(true);
DisassemblerObjdump dis(context.GetContextCPU(), &amd64::load_rip_relative,
kAMD64TestRip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_FALSE(dis.CalculateDestAddress(context, dest_address));
ASSERT_TRUE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(src_address, kAMD64TestRip + 0x10);
}
TEST(DisassemblerObjdumpTest, AMD64LoadRegIndexOffset) {
TestDumpContext context(true);
DisassemblerObjdump dis(context.GetContextCPU(),
&amd64::load_reg_index_offset, kAMD64TestRip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_FALSE(dis.CalculateDestAddress(context, dest_address));
ASSERT_TRUE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(src_address, kAMD64TestRsi + (kAMD64TestRdi * 4) - 0x10);
}
TEST(DisassemblerObjdumpTest, AMD64RepStosb) {
TestDumpContext context(true);
DisassemblerObjdump dis(context.GetContextCPU(), &amd64::rep_stosb,
kAMD64TestRip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_TRUE(dis.CalculateDestAddress(context, dest_address));
ASSERT_FALSE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(dest_address, kAMD64TestRdi);
}
TEST(DisassemblerObjdumpTest, AMD64LockCmpxchg) {
TestDumpContext context(true);
DisassemblerObjdump dis(context.GetContextCPU(), &amd64::lock_cmpxchg,
kAMD64TestRip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_TRUE(dis.CalculateDestAddress(context, dest_address));
ASSERT_FALSE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(dest_address, kAMD64TestRsi + 0x10);
}
TEST(DisassemblerObjdumpTest, AMD64CallRegOffset) {
TestDumpContext context(true);
DisassemblerObjdump dis(context.GetContextCPU(), &amd64::call_reg_offset,
kAMD64TestRip);
uint64_t src_address = 0, dest_address = 0;
ASSERT_TRUE(dis.CalculateDestAddress(context, dest_address));
ASSERT_FALSE(dis.CalculateSrcAddress(context, src_address));
ASSERT_EQ(dest_address, kAMD64TestRsi + 0x9999999);
}
} // namespace google_breakpad

355
src/processor/exploitability_linux.cc
View file

@ -35,21 +35,13 @@
#include "processor/exploitability_linux.h"
#ifndef _WIN32
#include <regex.h>
#include <stdio.h>
#include <stdlib.h>
#include <sstream>
#include <iterator>
#endif // _WIN32
#include <string.h>
#include "google_breakpad/common/minidump_exception_linux.h"
#include "google_breakpad/processor/call_stack.h"
#include "google_breakpad/processor/process_state.h"
#include "google_breakpad/processor/stack_frame.h"
#include "processor/disassembler_objdump.h"
#include "processor/logging.h"
namespace {
@ -67,11 +59,6 @@ constexpr char kStackCheckFailureFunction[] = "__stack_chk_fail";
// can determine that the call would overflow the target buffer.
constexpr char kBoundsCheckFailureFunction[] = "__chk_fail";
#ifndef _WIN32
const unsigned int MAX_INSTRUCTION_LEN = 15;
const unsigned int MAX_OBJDUMP_BUFFER_LEN = 4096;
#endif // _WIN32
} // namespace
namespace google_breakpad {
@ -198,69 +185,30 @@ bool ExploitabilityLinux::EndedOnIllegalWrite(uint64_t instruction_ptr) {
BPLOG(INFO) << "No exception or architecture data.";
return false;
}
// Check architecture and set architecture variable to corresponding flag
// in objdump.
switch (context->GetContextCPU()) {
case MD_CONTEXT_X86:
architecture = "i386";
break;
case MD_CONTEXT_AMD64:
architecture = "i386:x86-64";
break;
default:
// Unsupported architecture. Note that ARM architectures are not
// supported because objdump does not support ARM.
return false;
}
// Get memory region around instruction pointer and the number of bytes
// before and after the instruction pointer in the memory region.
const uint8_t* raw_memory = memory_region->GetMemory();
const uint64_t base = memory_region->GetBase();
if (base > instruction_ptr) {
BPLOG(ERROR) << "Memory region base value exceeds instruction pointer.";
return false;
}
const uint64_t offset = instruction_ptr - base;
if (memory_region->GetSize() < MAX_INSTRUCTION_LEN + offset) {
BPLOG(INFO) << "Not enough bytes left to guarantee complete instruction.";
DisassemblerObjdump disassembler(context->GetContextCPU(), memory_region,
instruction_ptr);
if (!disassembler.IsValid()) {
BPLOG(INFO) << "Disassembling fault instruction failed.";
return false;
}
// Convert bytes into objdump output.
char objdump_output_buffer[MAX_OBJDUMP_BUFFER_LEN] = {0};
DisassembleBytes(architecture,
raw_memory + offset,
MAX_INSTRUCTION_LEN,
MAX_OBJDUMP_BUFFER_LEN,
objdump_output_buffer);
string line;
if (!GetObjdumpInstructionLine(objdump_output_buffer, &line)) {
return false;
}
// Convert objdump instruction line into the operation and operands.
string instruction = "";
string dest = "";
string src = "";
TokenizeObjdumpInstruction(line, &instruction, &dest, &src);
// Check if the operation is a write to memory. First, the instruction
// must one that can write to memory. Second, the write destination
// must be a spot in memory rather than a register. Since there are no
// symbols from objdump, the destination will be enclosed by brackets.
if (dest.size() > 2 && dest.at(0) == '[' && dest.at(dest.size() - 1) == ']' &&
(!instruction.compare("mov") || !instruction.compare("inc") ||
!instruction.compare("dec") || !instruction.compare("and") ||
!instruction.compare("or") || !instruction.compare("xor") ||
!instruction.compare("not") || !instruction.compare("neg") ||
!instruction.compare("add") || !instruction.compare("sub") ||
!instruction.compare("shl") || !instruction.compare("shr"))) {
// Strip away enclosing brackets from the destination address.
dest = dest.substr(1, dest.size() - 2);
// Check if the operation is a write to memory.
// First, the instruction must one that can write to memory.
auto instruction = disassembler.operation();
if (!instruction.compare("mov") || !instruction.compare("inc") ||
!instruction.compare("dec") || !instruction.compare("and") ||
!instruction.compare("or") || !instruction.compare("xor") ||
!instruction.compare("not") || !instruction.compare("neg") ||
!instruction.compare("add") || !instruction.compare("sub") ||
!instruction.compare("shl") || !instruction.compare("shr")) {
uint64_t write_address = 0;
CalculateAddress(dest, *context, &write_address);
// Check that the destination is a memory address. CalculateDestAddress will
// return false if the destination is not a memory address.
if (!disassembler.CalculateDestAddress(*context, write_address)) {
return false;
}
// If the program crashed as a result of a write, the destination of
// the write must have been an address that did not permit writing.
@ -268,271 +216,14 @@ bool ExploitabilityLinux::EndedOnIllegalWrite(uint64_t instruction_ptr) {
// the crash does not suggest exploitability for writes with such a
// low target address.
return write_address > 4096;
} else {
return false;
}
#endif // _WIN32
return false;
}
#ifndef _WIN32
bool ExploitabilityLinux::CalculateAddress(const string& address_expression,
const DumpContext& context,
uint64_t* write_address) {
// The destination should be the format reg+a or reg-a, where reg
// is a register and a is a hexadecimal constant. Although more complex
// expressions can make valid instructions, objdump's disassembly outputs
// it in this simpler format.
// TODO(liuandrew): Handle more complex formats, should they arise.
if (!write_address) {
BPLOG(ERROR) << "Null parameter.";
return false;
}
// Clone parameter into a non-const string.
string expression = address_expression;
// Parse out the constant that is added to the address (if it exists).
size_t delim = expression.find('+');
bool positive_add_constant = true;
// Check if constant is subtracted instead of added.
if (delim == string::npos) {
positive_add_constant = false;
delim = expression.find('-');
}
uint32_t add_constant = 0;
// Save constant and remove it from the expression.
if (delim != string::npos) {
if (!sscanf(expression.substr(delim + 1).c_str(), "%x", &add_constant)) {
BPLOG(ERROR) << "Failed to scan constant.";
return false;
}
expression = expression.substr(0, delim);
}
// Set the the write address to the corresponding register.
// TODO(liuandrew): Add support for partial registers, such as
// the rax/eax/ax/ah/al chain.
switch (context.GetContextCPU()) {
case MD_CONTEXT_X86:
if (!expression.compare("eax")) {
*write_address = context.GetContextX86()->eax;
} else if (!expression.compare("ebx")) {
*write_address = context.GetContextX86()->ebx;
} else if (!expression.compare("ecx")) {
*write_address = context.GetContextX86()->ecx;
} else if (!expression.compare("edx")) {
*write_address = context.GetContextX86()->edx;
} else if (!expression.compare("edi")) {
*write_address = context.GetContextX86()->edi;
} else if (!expression.compare("esi")) {
*write_address = context.GetContextX86()->esi;
} else if (!expression.compare("ebp")) {
*write_address = context.GetContextX86()->ebp;
} else if (!expression.compare("esp")) {
*write_address = context.GetContextX86()->esp;
} else if (!expression.compare("eip")) {
*write_address = context.GetContextX86()->eip;
} else {
BPLOG(ERROR) << "Unsupported register";
return false;
}
break;
case MD_CONTEXT_AMD64:
if (!expression.compare("rax")) {
*write_address = context.GetContextAMD64()->rax;
} else if (!expression.compare("rbx")) {
*write_address = context.GetContextAMD64()->rbx;
} else if (!expression.compare("rcx")) {
*write_address = context.GetContextAMD64()->rcx;
} else if (!expression.compare("rdx")) {
*write_address = context.GetContextAMD64()->rdx;
} else if (!expression.compare("rdi")) {
*write_address = context.GetContextAMD64()->rdi;
} else if (!expression.compare("rsi")) {
*write_address = context.GetContextAMD64()->rsi;
} else if (!expression.compare("rbp")) {
*write_address = context.GetContextAMD64()->rbp;
} else if (!expression.compare("rsp")) {
*write_address = context.GetContextAMD64()->rsp;
} else if (!expression.compare("rip")) {
*write_address = context.GetContextAMD64()->rip;
} else if (!expression.compare("r8")) {
*write_address = context.GetContextAMD64()->r8;
} else if (!expression.compare("r9")) {
*write_address = context.GetContextAMD64()->r9;
} else if (!expression.compare("r10")) {
*write_address = context.GetContextAMD64()->r10;
} else if (!expression.compare("r11")) {
*write_address = context.GetContextAMD64()->r11;
} else if (!expression.compare("r12")) {
*write_address = context.GetContextAMD64()->r12;
} else if (!expression.compare("r13")) {
*write_address = context.GetContextAMD64()->r13;
} else if (!expression.compare("r14")) {
*write_address = context.GetContextAMD64()->r14;
} else if (!expression.compare("r15")) {
*write_address = context.GetContextAMD64()->r15;
} else {
BPLOG(ERROR) << "Unsupported register";
return false;
}
break;
default:
// This should not occur since the same switch condition
// should have terminated this method.
return false;
}
// Add or subtract constant from write address (if applicable).
*write_address =
positive_add_constant ?
*write_address + add_constant : *write_address - add_constant;
return true;
}
// static
bool ExploitabilityLinux::GetObjdumpInstructionLine(
const char* objdump_output_buffer,
string* instruction_line) {
// Put buffer data into stream to output line-by-line.
std::stringstream objdump_stream;
objdump_stream.str(string(objdump_output_buffer));
// Pipe each output line into the string until the string contains the first
// instruction from objdump. All lines before the "<.data>:" section are
// skipped. Loop until the line shows the first instruction or there are no
// lines left.
bool data_section_seen = false;
do {
if (!getline(objdump_stream, *instruction_line)) {
BPLOG(INFO) << "Objdump instructions not found";
return false;
}
if (instruction_line->find("<.data>:") != string::npos) {
data_section_seen = true;
}
} while (!data_section_seen || instruction_line->find("0:") == string::npos);
// This first instruction contains the above substring.
return true;
}
bool ExploitabilityLinux::TokenizeObjdumpInstruction(const string& line,
string* operation,
string* dest,
string* src) {
if (!operation || !dest || !src) {
BPLOG(ERROR) << "Null parameters passed.";
return false;
}
// Set all pointer values to empty strings.
*operation = "";
*dest = "";
*src = "";
// Tokenize the objdump line.
vector<string> tokens;
std::istringstream line_stream(line);
copy(std::istream_iterator<string>(line_stream),
std::istream_iterator<string>(),
std::back_inserter(tokens));
// Regex for the data in hex form. Each byte is two hex digits.
regex_t regex;
regcomp(&regex, "^[[:xdigit:]]{2}$", REG_EXTENDED | REG_NOSUB);
// Find and set the location of the operator. The operator appears
// directly after the chain of bytes that define the instruction. The
// operands will be the last token, given that the instruction has operands.
// If not, the operator is the last token. The loop skips the first token
// because the first token is the instruction number (namely "0:").
string operands = "";
for (size_t i = 1; i < tokens.size(); i++) {
// Check if current token no longer is in byte format.
if (regexec(&regex, tokens[i].c_str(), 0, NULL, 0)) {
// instruction = tokens[i];
*operation = tokens[i];
// If the operator is the last token, there are no operands.
if (i != tokens.size() - 1) {
operands = tokens[tokens.size() - 1];
}
break;
}
}
regfree(&regex);
if (operation->empty()) {
BPLOG(ERROR) << "Failed to parse out operation from objdump instruction.";
return false;
}
// Split operands into source and destination (if applicable).
if (!operands.empty()) {
size_t delim = operands.find(',');
if (delim == string::npos) {
*dest = operands;
} else {
*dest = operands.substr(0, delim);
*src = operands.substr(delim + 1);
}
}
return true;
}
bool ExploitabilityLinux::DisassembleBytes(const string& architecture,
const uint8_t* raw_bytes,
const unsigned int raw_bytes_len,
const unsigned int buffer_len,
char* objdump_output_buffer) {
if (!raw_bytes || !objdump_output_buffer ||
raw_bytes_len > MAX_INSTRUCTION_LEN) {
BPLOG(ERROR) << "Bad input parameters.";
return false;
}
// Write raw bytes around instruction pointer to a temporary file to
// pass as an argument to objdump.
char raw_bytes_tmpfile[] = "/tmp/breakpad_mem_region-raw_bytes-XXXXXX";
int raw_bytes_fd = mkstemp(raw_bytes_tmpfile);
if (raw_bytes_fd < 0) {
BPLOG(ERROR) << "Failed to create tempfile.";
unlink(raw_bytes_tmpfile);
return false;
}
// Casting raw_bytes_len to `ssize_t` won't cause a sign flip, since we check
// its bounds above.
if (write(raw_bytes_fd, raw_bytes, raw_bytes_len) != (ssize_t)raw_bytes_len) {
BPLOG(ERROR) << "Writing of raw bytes failed.";
unlink(raw_bytes_tmpfile);
return false;
}
char cmd[1024] = {0};
snprintf(cmd,
1024,
"objdump -D -b binary -M intel -m %s %s",
architecture.c_str(),
raw_bytes_tmpfile);
FILE* objdump_fp = popen(cmd, "r");
if (!objdump_fp) {
unlink(raw_bytes_tmpfile);
BPLOG(ERROR) << "Failed to call objdump.";
return false;
}
if (fread(objdump_output_buffer, 1, buffer_len, objdump_fp) <= 0) {
pclose(objdump_fp);
unlink(raw_bytes_tmpfile);
BPLOG(ERROR) << "Failed to read objdump output.";
return false;
}
pclose(objdump_fp);
unlink(raw_bytes_tmpfile);
return true;
}
#endif // _WIN32
bool ExploitabilityLinux::StackPointerOffStack(uint64_t stack_ptr) {
MinidumpLinuxMapsList* linux_maps_list = dump_->GetLinuxMapsList();
// Inconclusive if there are no mappings available.

36
src/processor/exploitability_linux.h
View file

@ -75,42 +75,6 @@ class ExploitabilityLinux : public Exploitability {
// instruction is at a spot in memory that prohibits writes.
bool EndedOnIllegalWrite(uint64_t instruction_ptr);
#ifndef _WIN32
// Disassembles raw bytes via objdump and pipes the output into the provided
// buffer, given the desired architecture, the file from which objdump will
// read, and the buffer length. The method returns whether the disassembly
// was a success, and the caller owns all pointers.
static bool DisassembleBytes(const string& architecture,
const uint8_t* raw_bytes,
const unsigned int raw_bytes_len,
const unsigned int MAX_OBJDUMP_BUFFER_LEN,
char* objdump_output_buffer);
// Parses the objdump output given in |objdump_output_buffer| and extracts
// the line of the first instruction into |instruction_line|. Returns true
// when the instruction line is successfully extracted.
static bool GetObjdumpInstructionLine(
const char* objdump_output_buffer,
string* instruction_line);
// Tokenizes out the operation and operands from a line of instruction
// disassembled by objdump. This method modifies the pointers to match the
// tokens of the instruction, and returns if the tokenizing was a success.
// The caller owns all pointers.
static bool TokenizeObjdumpInstruction(const string& line,
string* operation,
string* dest,
string* src);
// Calculates the effective address of an expression in the form reg+a or
// reg-a, where 'reg' is a register and 'a' is a constant, and writes the
// result in the pointer. The method returns whether the calculation was
// a success. The caller owns the pointer.
static bool CalculateAddress(const string& address_expression,
const DumpContext& context,
uint64_t* write_address);
#endif // _WIN32
// Checks if the stack pointer points to a memory mapping that is not
// labelled as the stack.
bool StackPointerOffStack(uint64_t stack_ptr);

126
src/processor/exploitability_unittest.cc
View file

@ -44,15 +44,6 @@
#ifdef __linux__
namespace google_breakpad {
class ExploitabilityLinuxTest : public ExploitabilityLinux {
public:
using ExploitabilityLinux::CalculateAddress;
using ExploitabilityLinux::DisassembleBytes;
using ExploitabilityLinux::GetObjdumpInstructionLine;
using ExploitabilityLinux::TokenizeObjdumpInstruction;
};
class ExploitabilityLinuxTestMinidumpContext : public MinidumpContext {
public:
explicit ExploitabilityLinuxTestMinidumpContext(
@ -70,7 +61,6 @@ namespace {
using google_breakpad::BasicSourceLineResolver;
#ifdef __linux__
using google_breakpad::ExploitabilityLinuxTest;
using google_breakpad::ExploitabilityLinuxTestMinidumpContext;
#endif // __linux__
using google_breakpad::MinidumpProcessor;
@ -185,120 +175,4 @@ TEST(ExploitabilityTest, TestLinuxEngine) {
#endif // __linux__
}
#ifdef __linux__
TEST(ExploitabilityLinuxUtilsTest, DisassembleBytesTest) {
ASSERT_FALSE(ExploitabilityLinuxTest::DisassembleBytes("", NULL, 0, 5, NULL));
uint8_t bytes[6] = {0xc7, 0x0, 0x5, 0x0, 0x0, 0x0};
char buffer[1024] = {0};
ASSERT_TRUE(ExploitabilityLinuxTest::DisassembleBytes(
"i386:x86-64", bytes, std::extent<decltype(bytes)>::value, 1024, buffer));
std::stringstream objdump_stream;
objdump_stream.str(string(buffer));
string line = "";
while (line.find("<.data>") == string::npos)
getline(objdump_stream, line);
getline(objdump_stream, line);
ASSERT_EQ(line, " 0:\tc7 00 05 00 00 00 \tmov DWORD PTR [rax],0x5");
}
TEST(ExploitabilityLinuxUtilsTest, GetObjdumpInstructionLine) {
string disassebly =
"\n"
"/tmp/breakpad_mem_region-raw_bytes-tMmMo0: file format binary\n"
"// Trying to confuse the parser 0:\n"
"\n"
"Disassembly of section .data:\n"
"\n"
"0000000000000000 <.data>:\n"
" 0:\tc7 00 01 00 00 00 \tmov DWORD PTR [rax],0x1\n"
" 6:\t5d \tpop rbp\n"
" 7:\tc3 \tret \n"
" 8:\t55 \tpush rbp\n"
" 9:\t48 89 e5 \tmov rbp,rsp\n"
" c:\t53 \tpush rbx\n"
" d:\t48 \trex.W\n"
" e:\t81 \t.byte 0x81\n";
string line;
EXPECT_TRUE(ExploitabilityLinuxTest::GetObjdumpInstructionLine(
disassebly.c_str(), &line));
EXPECT_EQ(" 0:\tc7 00 01 00 00 00 \tmov DWORD PTR [rax],0x1", line);
// There is no "0:" after "<.data>:". Expected to return false.
disassebly =
"\n"
"/tmp/breakpad_mem_region-raw_bytes-tMmMo0: file format binary\n"
"// Trying to confuse the parser 0:\n"
"\n"
"Disassembly of section .data:\n"
"\n"
" 0:\tc7 00 01 00 00 00 \tmov DWORD PTR [rax],0x1\n"
" 6:\t5d \tpop rbp\n"
" 7:\tc3 \tret \n"
" 8:\t55 \tpush rbp\n"
" 9:\t48 89 e5 \tmov rbp,rsp\n"
" d:\t48 \trex.W\n"
"0000000000000000 <.data>:\n"
" c:\t53 \tpush rbx\n";
EXPECT_FALSE(ExploitabilityLinuxTest::GetObjdumpInstructionLine(
disassebly.c_str(), &line));
}
TEST(ExploitabilityLinuxUtilsTest, TokenizeObjdumpInstructionTest) {
ASSERT_FALSE(ExploitabilityLinuxTest::TokenizeObjdumpInstruction("",
NULL,
NULL,
NULL));
string line = "0: c7 00 05 00 00 00 mov DWORD PTR [rax],0x5";
string operation = "";
string dest = "";
string src = "";
ASSERT_TRUE(ExploitabilityLinuxTest::TokenizeObjdumpInstruction(line,
&operation,
&dest,
&src));
ASSERT_EQ(operation, "mov");
ASSERT_EQ(dest, "[rax]");
ASSERT_EQ(src, "0x5");
line = "0: c3 ret";
ASSERT_TRUE(ExploitabilityLinuxTest::TokenizeObjdumpInstruction(line,
&operation,
&dest,
&src));
ASSERT_EQ(operation, "ret");
ASSERT_EQ(dest, "");
ASSERT_EQ(src, "");
line = "0: 5f pop rdi";
ASSERT_TRUE(ExploitabilityLinuxTest::TokenizeObjdumpInstruction(line,
&operation,
&dest,
&src));
ASSERT_EQ(operation, "pop");
ASSERT_EQ(dest, "rdi");
ASSERT_EQ(src, "");
}
TEST(ExploitabilityLinuxUtilsTest, CalculateAddressTest) {
MDRawContextAMD64 raw_context;
raw_context.rdx = 12345;
ExploitabilityLinuxTestMinidumpContext context(raw_context);
ASSERT_EQ(context.GetContextAMD64()->rdx, 12345U);
ASSERT_FALSE(ExploitabilityLinuxTest::CalculateAddress("", context, NULL));
uint64_t write_address = 0;
ASSERT_TRUE(ExploitabilityLinuxTest::CalculateAddress("rdx-0x4D2",
context,
&write_address));
ASSERT_EQ(write_address, 11111U);
ASSERT_TRUE(ExploitabilityLinuxTest::CalculateAddress("rdx+0x4D2",
context,
&write_address));
ASSERT_EQ(write_address, 13579U);
ASSERT_FALSE(ExploitabilityLinuxTest::CalculateAddress("rdx+rax",
context,
&write_address));
ASSERT_FALSE(ExploitabilityLinuxTest::CalculateAddress("0x3482+0x4D2",
context,
&write_address));
}
#endif // __linux__
} // namespace

3
src/processor/processor.gyp
View file

@ -51,6 +51,8 @@
'contained_range_map.h',
'convert_old_arm64_context.cc',
'convert_old_arm64_context.h',
'disassembler_objdump.cc',
'disassembler_objdump.h',
'disassembler_x86.cc',
'disassembler_x86.h',
'dump_context.cc',
@ -147,6 +149,7 @@
'basic_source_line_resolver_unittest.cc',
'cfi_frame_info_unittest.cc',
'contained_range_map_unittest.cc',
'disassembler_objdump_unittest.cc',
'disassembler_x86_unittest.cc',
'exploitability_unittest.cc',
'fast_source_line_resolver_unittest.cc',