not in a function.
// This means that the current byte is the one immediately
// after a set of instructions. Record the current line
// for up to one less than the current address.
- lsm->address -= 1;
+ lsm->line_num = -1;
lsm->end_sequence = true;
*len = oplen;
return true;
return this->symtab_buffer_ != NULL;
}
+// Given an Offset_to_lineno_entry vector, and an offset, figure out
+// if the offset points into a function according to the vector (see
+// comments below for the algorithm). If it does, return an iterator
+// into the vector that points to the line-number that contains that
+// offset. If not, it returns vector::end().
+
+static std::vector<Offset_to_lineno_entry>::const_iterator
+offset_to_iterator(const std::vector<Offset_to_lineno_entry>* offsets,
+ off_t offset)
+{
+ const Offset_to_lineno_entry lookup_key = { offset, 0, 0, 0 };
+
+ // lower_bound() returns the smallest offset which is >= lookup_key.
+ // If no offset in offsets is >= lookup_key, returns end().
+ std::vector<Offset_to_lineno_entry>::const_iterator it
+ = std::lower_bound(offsets->begin(), offsets->end(), lookup_key);
+
+ // This code is easiest to understand with a concrete example.
+ // Here's a possible offsets array:
+ // {{offset = 3211, header_num = 0, file_num = 1, line_num = 16}, // 0
+ // {offset = 3224, header_num = 0, file_num = 1, line_num = 20}, // 1
+ // {offset = 3226, header_num = 0, file_num = 1, line_num = 22}, // 2
+ // {offset = 3231, header_num = 0, file_num = 1, line_num = 25}, // 3
+ // {offset = 3232, header_num = 0, file_num = 1, line_num = -1}, // 4
+ // {offset = 3232, header_num = 0, file_num = 1, line_num = 65}, // 5
+ // {offset = 3235, header_num = 0, file_num = 1, line_num = 66}, // 6
+ // {offset = 3236, header_num = 0, file_num = 1, line_num = -1}, // 7
+ // {offset = 5764, header_num = 0, file_num = 1, line_num = 47}, // 8
+ // {offset = 5765, header_num = 0, file_num = 1, line_num = 48}, // 9
+ // {offset = 5767, header_num = 0, file_num = 1, line_num = 49}, // 10
+ // {offset = 5768, header_num = 0, file_num = 1, line_num = 50}, // 11
+ // {offset = 5773, header_num = 0, file_num = 1, line_num = -1}, // 12
+ // {offset = 5787, header_num = 1, file_num = 1, line_num = 19}, // 13
+ // {offset = 5790, header_num = 1, file_num = 1, line_num = 20}, // 14
+ // {offset = 5793, header_num = 1, file_num = 1, line_num = 67}, // 15
+ // {offset = 5793, header_num = 1, file_num = 1, line_num = -1}, // 16
+ // {offset = 5795, header_num = 1, file_num = 1, line_num = 68}, // 17
+ // {offset = 5798, header_num = 1, file_num = 1, line_num = -1}, // 16
+ // The entries with line_num == -1 mark the end of a function: the
+ // associated offset is one past the last instruction in the
+ // function. This can correspond to the beginning of the next
+ // function (as is true for offset 3232); alternately, there can be
+ // a gap between the end of one function and the start of the next
+ // (as is true for the rest, most notably from 3236->5764).
+ //
+ // Case 1: lookup_key has offset == 10. lower_bound returns
+ // offsets[0]. Since it's not an exact match and we're
+ // at the beginning of offsets, we return NULL.
+ // Case 2: lookup_key has offset 10000. lower_bound returns
+ // offset[17] (end()). We return NULL.
+ // Case 3: lookup_key has offset == 3211. lower_bound matches
+ // offsets[0] exactly, and that's the entry we return.
+ // Case 4: lookup_key has offset == 3232. lower_bound returns
+ // offsets[4]. That's an exact match, but indicates
+ // end-of-function. We check if offsets[5] is also an
+ // exact match but not end-of-function. It is, so we
+ // return offsets[5].
+ // Case 5: lookup_key has offset == 3214. lower_bound returns
+ // offsets[1]. Since it's not an exact match, we back
+ // up to the offset that's < lookup_key, offsets[0].
+ // We note offsets[0] is a valid entry (not end-of-function),
+ // so that's the entry we return.
+ // Case 6: lookup_key has offset == 4000. lower_bound returns
+ // offsets[8]. Since it's not an exact match, we back
+ // up to offsets[7]. Since offsets[7] indicates
+ // end-of-function, we know lookup_key is between
+ // functions, so we return NULL (not a valid offset).
+ // Case 7: lookup_key has offset == 5794. lower_bound returns
+ // offsets[17]. Since it's not an exact match, we back
+ // up to offsets[15]. Note we back up to the *first*
+ // entry with offset 5793, not just offsets[17-1].
+ // We note offsets[15] is a valid entry, so we return it.
+ // If offsets[15] had had line_num == -1, we would have
+ // checked offsets[16]. The reason for this is that
+ // 15 and 16 can be in an arbitrary order, since we sort
+ // only by offset. (Note it doesn't help to use line_number
+ // as a secondary sort key, since sometimes we want the -1
+ // to be first and sometimes we want it to be last.)
+
+ // This deals with cases (1) and (2).
+ if ((it == offsets->begin() && offset < it->offset)
+ || it == offsets->end())
+ return offsets->end();
+
+ // This deals with cases (3) and (4).
+ if (offset == it->offset)
+ {
+ while (it != offsets->end()
+ && it->offset == offset
+ && it->line_num == -1)
+ ++it;
+ if (it == offsets->end() || it->offset != offset)
+ return offsets->end();
+ else
+ return it;
+ }
+
+ // This handles the first part of case (7) -- we back up to the
+ // *first* entry that has the offset that's behind us.
+ gold_assert(it != offsets->begin());
+ std::vector<Offset_to_lineno_entry>::const_iterator range_end = it;
+ --it;
+ const off_t range_value = it->offset;
+ while (it != offsets->begin() && (it-1)->offset == range_value)
+ --it;
+
+ // This handles cases (5), (6), and (7): if any entry in the
+ // equal_range [it, range_end) has a line_num != -1, it's a valid
+ // match. If not, we're not in a function.
+ for (; it != range_end; ++it)
+ if (it->line_num != -1)
+ return it;
+ return offsets->end();
+}
// Return a string for a file name and line number.
if (this->data_valid_ == false)
return "";
- const Offset_to_lineno_entry lookup_key = { offset, 0, 0, 0 };
const std::vector<Offset_to_lineno_entry>* offsets;
// If we do not have reloc information, then our input is a .so or
// some similar data structure where all the information is held in
return "";
typename std::vector<Offset_to_lineno_entry>::const_iterator it
- = std::lower_bound(offsets->begin(), offsets->end(), lookup_key);
-
- // If we found an exact match, great, otherwise find the last entry
- // before the passed-in offset.
- if (it == offsets->end() || it->offset > offset)
- {
- if (it == offsets->begin())
- return "";
- --it;
- gold_assert(it->offset < offset);
- }
+ = offset_to_iterator(offsets, offset);
+ if (it == offsets->end())
+ return "";
// Convert the file_num + line_num into a string.
std::string ret;
class Track_relocs;
struct LineStateMachine;
+// We can't do better than to keep the offsets in a sorted vector.
+// Here, offset is the key, and file_num/line_num is the value.
+struct Offset_to_lineno_entry
+{
+ off_t offset;
+ int header_num; // which file-list to use (i.e. which .o file are we in)
+ int file_num; // a pointer into files_
+ int line_num; // the line number in the source file
+ // Offsets are unique within a section, so that's a sufficient sort key.
+ bool operator<(const Offset_to_lineno_entry& that) const
+ { return this->offset < that.offset; }
+};
+
// This class is used to read the line information from the debugging
// section of an object file.
Reloc_map;
Reloc_map reloc_map_;
- // We can't do better than to keep the offsets in a sorted vector.
- // Here, offset is the key, and file_num/line_num is the value.
- struct Offset_to_lineno_entry
- {
- off_t offset;
- int header_num; // which file-list to use (i.e. which .o file are we in)
- int file_num; // a pointer into files_
- int line_num; // the line number in the source file
- // Offsets are unique within a section, so that's a sufficient sort key.
- bool operator<(const Offset_to_lineno_entry& that) const
- { return this->offset < that.offset; }
- };
// We have a vector of offset->lineno entries for every input section.
typedef Unordered_map<unsigned int, std::vector<Offset_to_lineno_entry> >
Lineno_map;
TESTS += debug_msg.sh undef_symbol.sh
-check_DATA += debug_msg.err undef_symbol.err
+check_DATA += debug_msg.err debug_msg_so.err debug_msg_ndebug.err
+check_DATA += undef_symbol.err
NATIVE_PROGS = \
constructor_test \
@echo $(CXXLINK) -Bgcctestdir/ -Wl,--detect-odr-violations -o debug_msg debug_msg.o odr_violation1.o odr_violation2.o "2>$@"
@if $(CXXLINK) -Bgcctestdir/ -Wl,--detect-odr-violations -o debug_msg debug_msg.o odr_violation1.o odr_violation2.o 2>$@; \
then \
- echo 1>&2 "Link of debug_msg.o should have failed"; \
+ echo 1>&2 "Link of debug_msg should have failed"; \
rm -f $@; \
exit 1; \
fi
+# See if we can also detect problems when we're linking .so's, not .o's.
+debug_msg.so: debug_msg.cc
+ $(CXXCOMPILE) -O0 -g -shared -w -o $@ $(srcdir)/debug_msg.cc
+odr_violation1.so: odr_violation1.cc
+ $(CXXCOMPILE) -O0 -g -shared -w -o $@ $(srcdir)/odr_violation1.cc
+odr_violation2.so: odr_violation2.cc
+ $(CXXCOMPILE) -O0 -g -shared -w -o $@ $(srcdir)/odr_violation2.cc
+debug_msg_so.err: debug_msg.so odr_violation1.so odr_violation2.so gcctestdir/ld
+ @echo $(CXXLINK) -Bgcctestdir/ -Wl,--detect-odr-violations -o debug_msg_so debug_msg.so odr_violation1.so odr_violation2.so "2>$@"
+ @if $(CXXLINK) -Bgcctestdir/ -Wl,--detect-odr-violations -o debug_msg_so debug_msg.so odr_violation1.so odr_violation2.so 2>$@; \
+ then \
+ echo 1>&2 "Link of debug_msg_so should have failed"; \
+ rm -f $@; \
+ exit 1; \
+ fi
+
+
+# We also want to make sure we do something reasonable when there's no
+# debug info available. For the best test, we use .so's.
+debug_msg_ndebug.so: debug_msg.cc
+ $(CXXCOMPILE) -O0 -g0 -shared -w -o $@ $(srcdir)/debug_msg.cc
+odr_violation1_ndebug.so: odr_violation1.cc
+ $(CXXCOMPILE) -O0 -g0 -shared -w -o $@ $(srcdir)/odr_violation1.cc
+odr_violation2_ndebug.so: odr_violation2.cc
+ $(CXXCOMPILE) -O0 -g0 -shared -w -o $@ $(srcdir)/odr_violation2.cc
+debug_msg_ndebug.err: debug_msg_ndebug.so odr_violation1_ndebug.so odr_violation2_ndebug.so gcctestdir/ld
+ @echo $(CXXLINK) -Bgcctestdir/ -Wl,--detect-odr-violations -o debug_msg_ndebug debug_msg_ndebug.so odr_violation1_ndebug.so odr_violation2_ndebug.so "2>$@"
+ @if $(CXXLINK) -Bgcctestdir/ -Wl,--detect-odr-violations -o debug_msg_ndebug debug_msg_ndebug.so odr_violation1_ndebug.so odr_violation2_ndebug.so 2>$@; \
+ then \
+ echo 1>&2 "Link of debug_msg_ndebug should have failed"; \
+ rm -f $@; \
+ exit 1; \
+ fi
+
+
undef_symbol.o: undef_symbol.cc
$(CXXCOMPILE) -O0 -g -c -fPIC $<
undef_symbol.so: undef_symbol.o
host_triplet = @host@
target_triplet = @target@
@GCC_TRUE@@NATIVE_LINKER_TRUE@am__append_1 = debug_msg.sh undef_symbol.sh
-@GCC_TRUE@@NATIVE_LINKER_TRUE@am__append_2 = debug_msg.err undef_symbol.err
+@GCC_TRUE@@NATIVE_LINKER_TRUE@am__append_2 = debug_msg.err \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ debug_msg_so.err \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ debug_msg_ndebug.err \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ undef_symbol.err
@FN_PTRS_IN_SO_WITHOUT_PIC_TRUE@@GCC_TRUE@@NATIVE_LINKER_TRUE@am__append_3 = \
@FN_PTRS_IN_SO_WITHOUT_PIC_TRUE@@GCC_TRUE@@NATIVE_LINKER_TRUE@ two_file_shared_1_nonpic_test \
@FN_PTRS_IN_SO_WITHOUT_PIC_TRUE@@GCC_TRUE@@NATIVE_LINKER_TRUE@ two_file_shared_2_nonpic_test \
@GCC_TRUE@@NATIVE_LINKER_TRUE@ @echo $(CXXLINK) -Bgcctestdir/ -Wl,--detect-odr-violations -o debug_msg debug_msg.o odr_violation1.o odr_violation2.o "2>$@"
@GCC_TRUE@@NATIVE_LINKER_TRUE@ @if $(CXXLINK) -Bgcctestdir/ -Wl,--detect-odr-violations -o debug_msg debug_msg.o odr_violation1.o odr_violation2.o 2>$@; \
@GCC_TRUE@@NATIVE_LINKER_TRUE@ then \
-@GCC_TRUE@@NATIVE_LINKER_TRUE@ echo 1>&2 "Link of debug_msg.o should have failed"; \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ echo 1>&2 "Link of debug_msg should have failed"; \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ rm -f $@; \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ exit 1; \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ fi
+
+# See if we can also detect problems when we're linking .so's, not .o's.
+@GCC_TRUE@@NATIVE_LINKER_TRUE@debug_msg.so: debug_msg.cc
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ $(CXXCOMPILE) -O0 -g -shared -w -o $@ $(srcdir)/debug_msg.cc
+@GCC_TRUE@@NATIVE_LINKER_TRUE@odr_violation1.so: odr_violation1.cc
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ $(CXXCOMPILE) -O0 -g -shared -w -o $@ $(srcdir)/odr_violation1.cc
+@GCC_TRUE@@NATIVE_LINKER_TRUE@odr_violation2.so: odr_violation2.cc
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ $(CXXCOMPILE) -O0 -g -shared -w -o $@ $(srcdir)/odr_violation2.cc
+@GCC_TRUE@@NATIVE_LINKER_TRUE@debug_msg_so.err: debug_msg.so odr_violation1.so odr_violation2.so gcctestdir/ld
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ @echo $(CXXLINK) -Bgcctestdir/ -Wl,--detect-odr-violations -o debug_msg_so debug_msg.so odr_violation1.so odr_violation2.so "2>$@"
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ @if $(CXXLINK) -Bgcctestdir/ -Wl,--detect-odr-violations -o debug_msg_so debug_msg.so odr_violation1.so odr_violation2.so 2>$@; \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ then \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ echo 1>&2 "Link of debug_msg_so should have failed"; \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ rm -f $@; \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ exit 1; \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ fi
+
+# We also want to make sure we do something reasonable when there's no
+# debug info available. For the best test, we use .so's.
+@GCC_TRUE@@NATIVE_LINKER_TRUE@debug_msg_ndebug.so: debug_msg.cc
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ $(CXXCOMPILE) -O0 -g0 -shared -w -o $@ $(srcdir)/debug_msg.cc
+@GCC_TRUE@@NATIVE_LINKER_TRUE@odr_violation1_ndebug.so: odr_violation1.cc
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ $(CXXCOMPILE) -O0 -g0 -shared -w -o $@ $(srcdir)/odr_violation1.cc
+@GCC_TRUE@@NATIVE_LINKER_TRUE@odr_violation2_ndebug.so: odr_violation2.cc
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ $(CXXCOMPILE) -O0 -g0 -shared -w -o $@ $(srcdir)/odr_violation2.cc
+@GCC_TRUE@@NATIVE_LINKER_TRUE@debug_msg_ndebug.err: debug_msg_ndebug.so odr_violation1_ndebug.so odr_violation2_ndebug.so gcctestdir/ld
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ @echo $(CXXLINK) -Bgcctestdir/ -Wl,--detect-odr-violations -o debug_msg_ndebug debug_msg_ndebug.so odr_violation1_ndebug.so odr_violation2_ndebug.so "2>$@"
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ @if $(CXXLINK) -Bgcctestdir/ -Wl,--detect-odr-violations -o debug_msg_ndebug debug_msg_ndebug.so odr_violation1_ndebug.so odr_violation2_ndebug.so 2>$@; \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ then \
+@GCC_TRUE@@NATIVE_LINKER_TRUE@ echo 1>&2 "Link of debug_msg_ndebug should have failed"; \
@GCC_TRUE@@NATIVE_LINKER_TRUE@ rm -f $@; \
@GCC_TRUE@@NATIVE_LINKER_TRUE@ exit 1; \
@GCC_TRUE@@NATIVE_LINKER_TRUE@ fi
check()
{
- if ! grep -q "$1" debug_msg.err
+ if ! grep -q "$2" "$1"
then
- echo "Did not find expected error:"
- echo " $1"
+ echo "Did not find expected error in $1:"
+ echo " $2"
echo ""
echo "Actual error output below:"
- cat debug_msg.err
+ cat "$1"
+ exit 1
+ fi
+}
+
+check_missing()
+{
+ if grep -q "$2" "$1"
+ then
+ echo "Found unexpected error in $1:"
+ echo " $2"
+ echo ""
+ echo "Actual error output below:"
+ cat "$1"
exit 1
fi
}
# We don't know how the compiler might order these variables, so we
# can't test for the actual offset from .data, hence the regexp.
-check "debug_msg.o: in function fn_array:debug_msg.cc(.data+0x[0-9a-fA-F]*): undefined reference to 'undef_fn1()'"
-check "debug_msg.o: in function fn_array:debug_msg.cc(.data+0x[0-9a-fA-F]*): undefined reference to 'undef_fn2()'"
-check "debug_msg.o: in function badref1:debug_msg.cc(.data+0x[0-9a-fA-F]*): undefined reference to 'undef_int'"
-
-check "debug_msg.o: in function Base::virtfn():${srcdir}/debug_msg.cc:50: undefined reference to 'undef_fn1()'"
-check "debug_msg.o: in function Derived::virtfn():${srcdir}/debug_msg.cc:55: undefined reference to 'undef_fn2()'"
-check "debug_msg.o: in function int testfn<int>(int):${srcdir}/debug_msg.cc:43: undefined reference to 'undef_fn1()'"
-check "debug_msg.o: in function int testfn<int>(int):${srcdir}/debug_msg.cc:44: undefined reference to 'undef_fn2()'"
-check "debug_msg.o: in function int testfn<int>(int):${srcdir}/debug_msg.cc:45: undefined reference to 'undef_int'"
-check "debug_msg.o: in function int testfn<double>(double):${srcdir}/debug_msg.cc:43: undefined reference to 'undef_fn1()'"
-check "debug_msg.o: in function int testfn<double>(double):${srcdir}/debug_msg.cc:44: undefined reference to 'undef_fn2()'"
-check "debug_msg.o: in function int testfn<double>(double):${srcdir}/debug_msg.cc:45: undefined reference to 'undef_int'"
+check debug_msg.err "debug_msg.o: in function fn_array:debug_msg.cc(.data+0x[0-9a-fA-F]*): undefined reference to 'undef_fn1()'"
+check debug_msg.err "debug_msg.o: in function fn_array:debug_msg.cc(.data+0x[0-9a-fA-F]*): undefined reference to 'undef_fn2()'"
+check debug_msg.err "debug_msg.o: in function badref1:debug_msg.cc(.data+0x[0-9a-fA-F]*): undefined reference to 'undef_int'"
+
+check debug_msg.err "debug_msg.o: in function Base::virtfn():${srcdir}/debug_msg.cc:50: undefined reference to 'undef_fn1()'"
+check debug_msg.err "debug_msg.o: in function Derived::virtfn():${srcdir}/debug_msg.cc:55: undefined reference to 'undef_fn2()'"
+check debug_msg.err "debug_msg.o: in function int testfn<int>(int):${srcdir}/debug_msg.cc:43: undefined reference to 'undef_fn1()'"
+check debug_msg.err "debug_msg.o: in function int testfn<int>(int):${srcdir}/debug_msg.cc:44: undefined reference to 'undef_fn2()'"
+check debug_msg.err "debug_msg.o: in function int testfn<int>(int):${srcdir}/debug_msg.cc:45: undefined reference to 'undef_int'"
+check debug_msg.err "debug_msg.o: in function int testfn<double>(double):${srcdir}/debug_msg.cc:43: undefined reference to 'undef_fn1()'"
+check debug_msg.err "debug_msg.o: in function int testfn<double>(double):${srcdir}/debug_msg.cc:44: undefined reference to 'undef_fn2()'"
+check debug_msg.err "debug_msg.o: in function int testfn<double>(double):${srcdir}/debug_msg.cc:45: undefined reference to 'undef_int'"
# Check we detected the ODR (One Definition Rule) violation.
-check ": symbol 'Ordering::operator()(int, int)' defined in multiple places (possible ODR violation):"
-check "odr_violation1.cc:5"
-check "odr_violation2.cc:5"
+check debug_msg.err ": symbol 'Ordering::operator()(int, int)' defined in multiple places (possible ODR violation):"
+check debug_msg.err "odr_violation1.cc:5"
+check debug_msg.err "odr_violation2.cc:5"
+
+# When linking together .so's, we don't catch the line numbers, but we
+# still find all the undefined variables, and the ODR violation.
+check debug_msg_so.err "debug_msg.so: undefined reference to 'undef_fn1()'"
+check debug_msg_so.err "debug_msg.so: undefined reference to 'undef_fn2()'"
+check debug_msg_so.err "debug_msg.so: undefined reference to 'undef_int'"
+check debug_msg_so.err ": symbol 'Ordering::operator()(int, int)' defined in multiple places (possible ODR violation):"
+check debug_msg_so.err "odr_violation1.cc:5"
+check debug_msg_so.err "odr_violation2.cc:5"
+
+# These messages shouldn't need any debug info to detect:
+check debug_msg_ndebug.err "debug_msg_ndebug.so: undefined reference to 'undef_fn1()'"
+check debug_msg_ndebug.err "debug_msg_ndebug.so: undefined reference to 'undef_fn2()'"
+check debug_msg_ndebug.err "debug_msg_ndebug.so: undefined reference to 'undef_int'"
+# However, we shouldn't detect or declare any ODR violation
+check_missing debug_msg_ndebug.err "(possible ODR violation)"
exit 0