dump_syms: handle forward reference DWARF attributes

DW_AT_specification and DW_AT_abstract_origin attributes carry
references to other DIEs. Nothing prevents the DIEs referred to from
appearing later in .debug_info than the DIE containing the referring
attribute, but dump_syms incompletly implemented its handling of these
references, and was only able to resolve them when they were
back-references.

This will fix the chronic warnings produced by dump_syms of the form:

dump_syms: the DIE at offset <offset> has a {DW_AT_specification,
DW_AT_abstract_origin} attribute referring to the die at offset
<offset>, which either was not marked as {a declaration, an inline}, or
comes later in the file

Patch by Greg Clayton

Bug: breakpad:441
Change-Id: I98957d64a234c22afb6d0153f1bdc09e6a600b1d
Reviewed-on: https://chromium-review.googlesource.com/c/breakpad/breakpad/+/1946706
Reviewed-by: Mark Mentovai <mark@chromium.org>
This commit is contained in:
Mark Mentovai 2019-12-02 13:45:36 -05:00
parent 1f1d950d6a
commit 47cd498384
2 changed files with 35 additions and 13 deletions

View file

@ -211,6 +211,10 @@ struct DwarfCUToModule::CUContext {
// //
// Destroying this destroys all the functions this vector points to. // Destroying this destroys all the functions this vector points to.
vector<Module::Function *> functions; vector<Module::Function *> functions;
// Keep a list of forward references from DW_AT_abstract_origin and
// DW_AT_specification attributes so names can be fixed up.
std::map<uint64_t, Module::Function *> forward_ref_die_to_func;
}; };
// Information about the context of a particular DIE. This is for // Information about the context of a particular DIE. This is for
@ -242,7 +246,8 @@ class DwarfCUToModule::GenericDIEHandler: public dwarf2reader::DIEHandler {
parent_context_(parent_context), parent_context_(parent_context),
offset_(offset), offset_(offset),
declaration_(false), declaration_(false),
specification_(NULL) { } specification_(NULL),
forward_ref_die_offset_(0) { }
// Derived classes' ProcessAttributeUnsigned can defer to this to // Derived classes' ProcessAttributeUnsigned can defer to this to
// handle DW_AT_declaration, or simply not override it. // handle DW_AT_declaration, or simply not override it.
@ -294,6 +299,11 @@ class DwarfCUToModule::GenericDIEHandler: public dwarf2reader::DIEHandler {
// Otherwise, this is NULL. // Otherwise, this is NULL.
Specification *specification_; Specification *specification_;
// If this DIE has a DW_AT_specification or DW_AT_abstract_origin and it is a
// forward reference, no Specification will be available. Track the reference
// to be fixed up when the DIE is parsed.
uint64_t forward_ref_die_offset_;
// The value of the DW_AT_name attribute, or the empty string if the // The value of the DW_AT_name attribute, or the empty string if the
// DIE has no such attribute. // DIE has no such attribute.
string name_attribute_; string name_attribute_;
@ -341,12 +351,8 @@ void DwarfCUToModule::GenericDIEHandler::ProcessAttributeReference(
if (spec != specifications->end()) { if (spec != specifications->end()) {
specification_ = &spec->second; specification_ = &spec->second;
} else { } else {
// Technically, there's no reason a DW_AT_specification // The DW_AT_specification is a forward reference.
// couldn't be a forward reference, but supporting that would forward_ref_die_offset_ = data;
// be a lot of work (changing to a two-pass structure), and I
// don't think any producers we care about ever emit such
// things.
cu_context_->reporter->UnknownSpecification(offset_, data);
} }
break; break;
} }
@ -539,7 +545,7 @@ void DwarfCUToModule::FuncHandler::ProcessAttributeReference(
if (origin != origins.end()) { if (origin != origins.end()) {
abstract_origin_ = &(origin->second); abstract_origin_ = &(origin->second);
} else { } else {
cu_context_->reporter->UnknownAbstractOrigin(offset_, data); forward_ref_die_offset_ = data;
} }
break; break;
} }
@ -571,6 +577,15 @@ static bool IsEmptyRange(const vector<Module::Range>& ranges) {
void DwarfCUToModule::FuncHandler::Finish() { void DwarfCUToModule::FuncHandler::Finish() {
vector<Module::Range> ranges; vector<Module::Range> ranges;
// Check if this DIE was one of the forward references that was not able
// to be processed, and fix up the name of the appropriate Module::Function.
// "name_" will have already been fixed up in EndAttributes().
if (!name_.empty()) {
auto Iter = cu_context_->forward_ref_die_to_func.find(offset_);
if (Iter != cu_context_->forward_ref_die_to_func.end())
Iter->second->name = name_;
}
if (!ranges_) { if (!ranges_) {
// Make high_pc_ an address, if it isn't already. // Make high_pc_ an address, if it isn't already.
if (high_pc_form_ != dwarf2reader::DW_FORM_addr && if (high_pc_form_ != dwarf2reader::DW_FORM_addr &&
@ -606,7 +621,11 @@ void DwarfCUToModule::FuncHandler::Finish() {
if (!name_.empty()) { if (!name_.empty()) {
name = name_; name = name_;
} else { } else {
cu_context_->reporter->UnnamedFunction(offset_); // If we have a forward reference to a DW_AT_specification or
// DW_AT_abstract_origin, then don't warn, the name will be fixed up
// later
if (forward_ref_die_offset_ == 0)
cu_context_->reporter->UnnamedFunction(offset_);
name = "<name omitted>"; name = "<name omitted>";
} }
@ -616,9 +635,12 @@ void DwarfCUToModule::FuncHandler::Finish() {
func->ranges = ranges; func->ranges = ranges;
func->parameter_size = 0; func->parameter_size = 0;
if (func->address) { if (func->address) {
// If the function address is zero this is a sign that this function // If the function address is zero this is a sign that this function
// description is just empty debug data and should just be discarded. // description is just empty debug data and should just be discarded.
cu_context_->functions.push_back(func.release()); cu_context_->functions.push_back(func.release());
if (forward_ref_die_offset_ != 0)
cu_context_->forward_ref_die_to_func[forward_ref_die_offset_] =
cu_context_->functions.back();
} }
} else if (inline_) { } else if (inline_) {
AbstractOrigin origin(name_); AbstractOrigin origin(name_);

View file

@ -106,7 +106,7 @@ class Module {
} }
// The function's name. // The function's name.
const string name; string name;
// The start address and the address ranges covered by the function. // The start address and the address ranges covered by the function.
const Address address; const Address address;