blob: f940ef7f0063ab6f3b822c9dd0a4ec309b5dab78 [file] [log] [blame]
// Copyright (c) 2017, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#include "vm/dwarf.h"
#include "vm/code_comments.h"
#include "vm/code_descriptors.h"
#include "vm/elf.h"
#include "vm/image_snapshot.h"
#include "vm/object_store.h"
namespace dart {
#if defined(DART_PRECOMPILER)
DEFINE_FLAG(bool,
resolve_dwarf_paths,
false,
"Resolve script URIs to absolute or relative file paths in DWARF");
DEFINE_FLAG(charp,
write_code_comments_as_synthetic_source_to,
nullptr,
"Print comments associated with instructions into the given file");
class DwarfPosition {
public:
DwarfPosition(int32_t line, int32_t column) : line_(line), column_(column) {
// Should only have no line information if also no column information.
ASSERT(line_ > 0 || column_ <= 0);
}
explicit DwarfPosition(int32_t line) : DwarfPosition(line, -1) {}
constexpr DwarfPosition() : line_(-1), column_(-1) {}
int32_t line() const { return line_; }
int32_t column() const { return column_; }
private:
int32_t line_;
int32_t column_;
};
static constexpr auto kNoDwarfPositionInfo = DwarfPosition();
class InliningNode : public ZoneAllocated {
public:
InliningNode(const Function& function,
const DwarfPosition& position,
int32_t start_pc_offset)
: function(function),
position(position),
start_pc_offset(start_pc_offset),
end_pc_offset(-1),
children_head(NULL),
children_tail(NULL),
children_next(NULL) {
RELEASE_ASSERT(!function.IsNull());
RELEASE_ASSERT(function.IsNotTemporaryScopedHandle());
}
void AppendChild(InliningNode* child) {
if (children_tail == NULL) {
children_head = children_tail = child;
} else {
children_tail->children_next = child;
children_tail = child;
}
}
const Function& function;
DwarfPosition position;
int32_t start_pc_offset;
int32_t end_pc_offset;
InliningNode* children_head;
InliningNode* children_tail;
InliningNode* children_next;
};
template <typename T>
Trie<T>* Trie<T>::AddString(Zone* zone,
Trie<T>* trie,
const char* key,
const T* value) {
ASSERT(key != nullptr);
if (trie == nullptr) {
trie = new (zone) Trie<T>();
}
if (*key == '\0') {
ASSERT(trie->value_ == nullptr);
trie->value_ = value;
} else {
auto const index = ChildIndex(*key);
ASSERT(index >= 0 && index < kNumValidChars);
trie->children_[index] =
AddString(zone, trie->children_[index], key + 1, value);
}
return trie;
}
template <typename T>
const T* Trie<T>::Lookup(const Trie<T>* trie, const char* key, intptr_t* end) {
intptr_t i = 0;
for (; key[i] != '\0'; i++) {
auto const index = ChildIndex(key[i]);
ASSERT(index < kNumValidChars);
if (index < 0) {
if (end == nullptr) return nullptr;
break;
}
// Still find the longest valid trie prefix when no stored value.
if (trie == nullptr) continue;
trie = trie->children_[index];
}
if (end != nullptr) {
*end = i;
}
if (trie == nullptr) return nullptr;
return trie->value_;
}
Dwarf::Dwarf(Zone* zone)
: zone_(zone),
reverse_obfuscation_trie_(CreateReverseObfuscationTrie(zone)),
codes_(zone, 1024),
code_to_name_(zone),
functions_(zone, 1024),
function_to_index_(zone),
scripts_(zone, 1024),
script_to_index_(zone),
temp_(0) {}
void Dwarf::AddCode(const Code& orig_code, const char* name) {
ASSERT(!orig_code.IsNull());
ASSERT(name != nullptr);
if (auto const old_pair = code_to_name_.Lookup(&orig_code)) {
// Dwarf objects can be shared, so we may get the same information for a
// given code object in different calls. In DEBUG mode, make sure the
// information is the same before returning.
ASSERT(old_pair->value != nullptr);
ASSERT_EQUAL(strcmp(old_pair->value, name), 0);
return;
}
// Generate an appropriately zoned ZoneHandle for storing.
const auto& code = Code::ZoneHandle(zone_, orig_code.ptr());
codes_.Add(&code);
// Currently assumes the name has the same lifetime as the Zone of the
// Dwarf object (which is currently true). Otherwise, need to copy.
code_to_name_.Insert({&code, name});
if (code.IsFunctionCode() && !code.IsUnknownDartCode()) {
const Function& function = Function::Handle(zone_, code.function());
AddFunction(function);
}
const Array& inline_functions =
Array::Handle(zone_, code.inlined_id_to_function());
if (!inline_functions.IsNull()) {
Function& function = Function::Handle(zone_);
for (intptr_t i = 0; i < inline_functions.Length(); i++) {
function ^= inline_functions.At(i);
AddFunction(function);
}
}
}
intptr_t Dwarf::AddFunction(const Function& function) {
RELEASE_ASSERT(!function.IsNull());
FunctionIndexPair* pair = function_to_index_.Lookup(&function);
if (pair != NULL) {
return pair->index_;
}
intptr_t index = functions_.length();
const Function& zone_func = Function::ZoneHandle(zone_, function.ptr());
function_to_index_.Insert(FunctionIndexPair(&zone_func, index));
functions_.Add(&zone_func);
const Script& script = Script::Handle(zone_, function.script());
AddScript(script);
return index;
}
intptr_t Dwarf::AddScript(const Script& script) {
RELEASE_ASSERT(!script.IsNull());
ScriptIndexPair* pair = script_to_index_.Lookup(&script);
if (pair != NULL) {
return pair->index_;
}
// DWARF file numbers start from 1.
intptr_t index = scripts_.length() + 1;
const Script& zone_script = Script::ZoneHandle(zone_, script.ptr());
script_to_index_.Insert(ScriptIndexPair(&zone_script, index));
scripts_.Add(&zone_script);
return index;
}
intptr_t Dwarf::LookupFunction(const Function& function) {
RELEASE_ASSERT(!function.IsNull());
FunctionIndexPair* pair = function_to_index_.Lookup(&function);
if (pair == NULL) {
FATAL1("Function detected too late during DWARF generation: %s",
function.ToCString());
}
return pair->index_;
}
intptr_t Dwarf::LookupScript(const Script& script) {
RELEASE_ASSERT(!script.IsNull());
ScriptIndexPair* pair = script_to_index_.Lookup(&script);
if (pair == NULL) {
FATAL1("Script detected too late during DWARF generation: %s",
script.ToCString());
}
return pair->index_;
}
void Dwarf::WriteAbbreviations(DwarfWriteStream* stream) {
// Dwarf data mostly takes the form of a tree, whose nodes are called
// DIEs. Each DIE begins with an abbreviation code, and the abbreviation
// describes the attributes of that DIE and their representation.
stream->uleb128(kCompilationUnit); // Abbrev code.
stream->uleb128(DW_TAG_compile_unit); // Type.
stream->u1(DW_CHILDREN_yes);
stream->uleb128(DW_AT_name); // Start of attributes.
stream->uleb128(DW_FORM_string);
stream->uleb128(DW_AT_producer);
stream->uleb128(DW_FORM_string);
stream->uleb128(DW_AT_comp_dir);
stream->uleb128(DW_FORM_string);
stream->uleb128(DW_AT_low_pc);
stream->uleb128(DW_FORM_addr);
stream->uleb128(DW_AT_high_pc);
stream->uleb128(DW_FORM_addr);
stream->uleb128(DW_AT_stmt_list);
stream->uleb128(DW_FORM_sec_offset);
stream->uleb128(0);
stream->uleb128(0); // End of attributes.
stream->uleb128(kAbstractFunction); // Abbrev code.
stream->uleb128(DW_TAG_subprogram); // Type.
stream->u1(DW_CHILDREN_yes);
stream->uleb128(DW_AT_name); // Start of attributes.
stream->uleb128(DW_FORM_string);
stream->uleb128(DW_AT_decl_file);
stream->uleb128(DW_FORM_udata);
stream->uleb128(DW_AT_inline);
stream->uleb128(DW_FORM_udata);
stream->uleb128(0);
stream->uleb128(0); // End of attributes.
stream->uleb128(kConcreteFunction); // Abbrev code.
stream->uleb128(DW_TAG_subprogram); // Type.
stream->u1(DW_CHILDREN_yes);
stream->uleb128(DW_AT_abstract_origin); // Start of attributes.
stream->uleb128(DW_FORM_ref4);
stream->uleb128(DW_AT_low_pc);
stream->uleb128(DW_FORM_addr);
stream->uleb128(DW_AT_high_pc);
stream->uleb128(DW_FORM_addr);
stream->uleb128(0);
stream->uleb128(0); // End of attributes.
stream->uleb128(kInlinedFunction); // Abbrev code.
stream->uleb128(DW_TAG_inlined_subroutine); // Type.
stream->u1(DW_CHILDREN_yes);
stream->uleb128(DW_AT_abstract_origin); // Start of attributes.
stream->uleb128(DW_FORM_ref4);
stream->uleb128(DW_AT_low_pc);
stream->uleb128(DW_FORM_addr);
stream->uleb128(DW_AT_high_pc);
stream->uleb128(DW_FORM_addr);
stream->uleb128(DW_AT_call_file);
stream->uleb128(DW_FORM_udata);
stream->uleb128(DW_AT_call_line);
stream->uleb128(DW_FORM_udata);
stream->uleb128(DW_AT_call_column);
stream->uleb128(DW_FORM_udata);
stream->uleb128(0);
stream->uleb128(0); // End of attributes.
stream->uleb128(0); // End of abbreviations.
}
void Dwarf::WriteDebugInfo(DwarfWriteStream* stream) {
// 7.5.1.1 Compilation Unit Header
// Unit length.
auto const cu_prefix = "cu";
intptr_t cu_start;
intptr_t cu_size_fixup = stream->ReserveSize(cu_prefix, &cu_start);
stream->u2(2); // DWARF version 2
stream->u4(0); // debug_abbrev_offset
stream->u1(compiler::target::kWordSize); // address_size
// Compilation Unit DIE. We describe the entire Dart program as a single
// compilation unit. Note we write attributes in the same order we declared
// them in our abbreviation above in WriteAbbreviations.
stream->uleb128(kCompilationUnit);
const Library& root_library = Library::Handle(
zone_, IsolateGroup::Current()->object_store()->root_library());
const String& root_uri = String::Handle(zone_, root_library.url());
stream->string(root_uri.ToCString()); // DW_AT_name
stream->string("Dart VM"); // DW_AT_producer
stream->string(""); // DW_AT_comp_dir
// DW_AT_low_pc
// The lowest instruction address in this object file that is part of our
// compilation unit. Dwarf consumers use this to quickly decide which
// compilation unit DIE to consult for a given pc.
stream->OffsetFromSymbol(kIsolateSnapshotInstructionsAsmSymbol, 0);
// DW_AT_high_pc
// The highest instruction address in this object file that is part of our
// compilation unit. Dwarf consumers use this to quickly decide which
// compilation unit DIE to consult for a given pc.
if (codes_.is_empty()) {
// No code objects in this program, so set high_pc to same as low_pc.
stream->OffsetFromSymbol(kIsolateSnapshotInstructionsAsmSymbol, 0);
} else {
const Code& last_code = *codes_.Last();
auto const last_code_name = code_to_name_.LookupValue(&last_code);
ASSERT(last_code_name != nullptr);
stream->OffsetFromSymbol(last_code_name, last_code.Size());
}
// DW_AT_stmt_list (offset into .debug_line)
// Indicates which line number program is associated with this compilation
// unit. We only emit a single line number program.
stream->u4(0);
WriteAbstractFunctions(stream);
WriteConcreteFunctions(stream);
stream->uleb128(0); // End of children.
stream->uleb128(0); // End of entries.
stream->SetSize(cu_size_fixup, cu_prefix, cu_start);
}
void Dwarf::WriteAbstractFunctions(DwarfWriteStream* stream) {
Script& script = Script::Handle(zone_);
String& name = String::Handle(zone_);
stream->InitializeAbstractOrigins(functions_.length());
// By the point we're creating DWARF information, scripts have already lost
// their token stream and we can't look up their line number or column
// information, hence the lack of DW_AT_decl_line and DW_AT_decl_column.
for (intptr_t i = 0; i < functions_.length(); i++) {
const Function& function = *(functions_[i]);
name = function.QualifiedUserVisibleName();
script = function.script();
const intptr_t file = LookupScript(script);
auto const name_cstr = Deobfuscate(name.ToCString());
stream->RegisterAbstractOrigin(i);
stream->uleb128(kAbstractFunction);
stream->string(name_cstr); // DW_AT_name
stream->uleb128(file); // DW_AT_decl_file
stream->uleb128(DW_INL_inlined); // DW_AT_inline
stream->uleb128(0); // End of children.
}
}
void Dwarf::WriteConcreteFunctions(DwarfWriteStream* stream) {
Function& function = Function::Handle(zone_);
Script& script = Script::Handle(zone_);
for (intptr_t i = 0; i < codes_.length(); i++) {
const Code& code = *(codes_[i]);
RELEASE_ASSERT(!code.IsNull());
if (!code.IsFunctionCode() || code.IsUnknownDartCode()) {
continue;
}
function = code.function();
intptr_t function_index = LookupFunction(function);
script = function.script();
const char* asm_name = code_to_name_.LookupValue(&code);
ASSERT(asm_name != nullptr);
stream->uleb128(kConcreteFunction);
// DW_AT_abstract_origin
// References a node written above in WriteAbstractFunctions.
stream->AbstractOrigin(function_index);
// DW_AT_low_pc
stream->OffsetFromSymbol(asm_name, 0);
// DW_AT_high_pc
stream->OffsetFromSymbol(asm_name, code.Size());
InliningNode* node = ExpandInliningTree(code);
if (node != NULL) {
for (InliningNode* child = node->children_head; child != NULL;
child = child->children_next) {
WriteInliningNode(stream, child, asm_name, script);
}
}
stream->uleb128(0); // End of children.
}
}
// Our state machine encodes position metadata such that we don't know the
// end pc for an inlined function until it is popped, but DWARF DIEs encode
// it where the function is pushed. We expand the state transitions into
// an in-memory tree to do the conversion.
InliningNode* Dwarf::ExpandInliningTree(const Code& code) {
const CodeSourceMap& map =
CodeSourceMap::Handle(zone_, code.code_source_map());
if (map.IsNull()) {
return NULL;
}
const Array& functions = Array::Handle(zone_, code.inlined_id_to_function());
const Function& root_function = Function::ZoneHandle(zone_, code.function());
if (root_function.IsNull()) {
FATAL1("Wherefore art thou functionless code, %s?\n", code.ToCString());
}
GrowableArray<InliningNode*> node_stack(zone_, 4);
GrowableArray<DwarfPosition> token_positions(zone_, 4);
NoSafepointScope no_safepoint;
ReadStream stream(map.Data(), map.Length());
int32_t current_pc_offset = 0;
token_positions.Add(kNoDwarfPositionInfo);
InliningNode* root_node =
new (zone_) InliningNode(root_function, token_positions.Last(), 0);
root_node->end_pc_offset = code.Size();
node_stack.Add(root_node);
while (stream.PendingBytes() > 0) {
int32_t arg1;
int32_t arg2 = -1;
const uint8_t opcode = CodeSourceMapOps::Read(&stream, &arg1, &arg2);
switch (opcode) {
case CodeSourceMapOps::kChangePosition: {
const DwarfPosition& old_pos =
token_positions[token_positions.length() - 1];
token_positions[token_positions.length() - 1] =
DwarfPosition(Utils::AddWithWrapAround(old_pos.line(), arg1), arg2);
break;
}
case CodeSourceMapOps::kAdvancePC: {
current_pc_offset += arg1;
break;
}
case CodeSourceMapOps::kPushFunction: {
const Function& child_func =
Function::ZoneHandle(zone_, Function::RawCast(functions.At(arg1)));
InliningNode* child_node = new (zone_)
InliningNode(child_func, token_positions.Last(), current_pc_offset);
node_stack.Last()->AppendChild(child_node);
node_stack.Add(child_node);
token_positions.Add(kNoDwarfPositionInfo);
break;
}
case CodeSourceMapOps::kPopFunction: {
// We never pop the root function.
ASSERT(node_stack.length() > 1);
ASSERT(token_positions.length() > 1);
node_stack.Last()->end_pc_offset = current_pc_offset;
node_stack.RemoveLast();
token_positions.RemoveLast();
break;
}
case CodeSourceMapOps::kNullCheck: {
break;
}
default:
UNREACHABLE();
}
}
while (node_stack.length() > 1) {
node_stack.Last()->end_pc_offset = current_pc_offset;
node_stack.RemoveLast();
token_positions.RemoveLast();
}
ASSERT(node_stack[0] == root_node);
return root_node;
}
void Dwarf::WriteInliningNode(DwarfWriteStream* stream,
InliningNode* node,
const char* root_asm_name,
const Script& parent_script) {
intptr_t file = LookupScript(parent_script);
intptr_t function_index = LookupFunction(node->function);
const Script& script = Script::Handle(zone_, node->function.script());
stream->uleb128(kInlinedFunction);
// DW_AT_abstract_origin
// References a node written above in WriteAbstractFunctions.
stream->AbstractOrigin(function_index);
// DW_AT_low_pc
stream->OffsetFromSymbol(root_asm_name, node->start_pc_offset);
// DW_AT_high_pc
stream->OffsetFromSymbol(root_asm_name, node->end_pc_offset);
// DW_AT_call_file
stream->uleb128(file);
// The DWARF standard uses 0 to denote missing line or column information.
// DW_AT_call_line
stream->uleb128(node->position.line() < 0 ? 0 : node->position.line());
// DW_at_call_column
stream->uleb128(node->position.column() < 0 ? 0 : node->position.column());
for (InliningNode* child = node->children_head; child != NULL;
child = child->children_next) {
WriteInliningNode(stream, child, root_asm_name, script);
}
stream->uleb128(0); // End of children.
}
// Helper class for tracking state of DWARF registers and emitting
// line number program commands to set these registers to the right
// state.
class LineNumberProgramWriter {
public:
explicit LineNumberProgramWriter(DwarfWriteStream* stream)
: stream_(stream) {}
void SetFile(intptr_t file) {
if (file != file_) {
stream_->u1(Dwarf::DW_LNS_set_file);
stream_->uleb128(file);
file_ = file;
}
}
void SetLine(intptr_t line) {
if (line != line_) {
stream_->u1(Dwarf::DW_LNS_advance_line);
stream_->sleb128(line - line_);
line_ = line;
}
}
void SetColumn(intptr_t column) {
if (column != column_) {
stream_->u1(Dwarf::DW_LNS_set_column);
stream_->uleb128(column);
column_ = column;
}
}
void SetPCOffset(const char* asm_name, intptr_t pc_offset) {
if (asm_name_ == nullptr) {
auto const instr_size = 1 + compiler::target::kWordSize;
stream_->u1(0); // This is an extended opcode
stream_->u1(instr_size); // that is 5 or 9 bytes long
stream_->u1(Dwarf::DW_LNE_set_address);
stream_->OffsetFromSymbol(asm_name, pc_offset);
} else {
// Emit LNP row if the address register has been updated to a
// non-zero value (dartbug.com/41756).
stream_->u1(Dwarf::DW_LNS_copy);
stream_->u1(Dwarf::DW_LNS_advance_pc);
stream_->DistanceBetweenSymbolOffsets(asm_name, pc_offset, asm_name_,
pc_offset_);
}
asm_name_ = asm_name;
pc_offset_ = pc_offset;
}
private:
DwarfWriteStream* const stream_;
// The initial values for the line number program state machine registers
// according to the DWARF standard.
intptr_t pc_offset_ = 0;
intptr_t file_ = 1;
intptr_t line_ = 1;
intptr_t column_ = 0;
// Other info not stored in the state machine registers.
const char* asm_name_ = nullptr;
};
void Dwarf::WriteSyntheticLineNumberProgram(LineNumberProgramWriter* writer) {
// We emit it last after all other scripts.
const intptr_t comments_file_index = scripts_.length() + 1;
auto file_open = Dart::file_open_callback();
auto file_write = Dart::file_write_callback();
auto file_close = Dart::file_close_callback();
if ((file_open == nullptr) || (file_write == nullptr) ||
(file_close == nullptr)) {
return;
}
TextBuffer comments_buffer(128 * KB);
auto comments_file = file_open(
FLAG_write_code_comments_as_synthetic_source_to, /*write=*/true);
if (comments_file == nullptr) {
OS::PrintErr("Failed to open file %s\n",
FLAG_write_code_comments_as_synthetic_source_to);
return;
}
intptr_t current_line = 0;
writer->SetFile(comments_file_index);
for (intptr_t i = 0; i < codes_.length(); i++) {
const Code& code = *(codes_[i]);
auto const asm_name = code_to_name_.LookupValue(&code);
ASSERT(asm_name != nullptr);
auto& comments = code.comments();
for (intptr_t i = 0, len = comments.Length(); i < len;) {
intptr_t current_pc_offset = comments.PCOffsetAt(i);
writer->SetPCOffset(asm_name, current_pc_offset);
while (i < len && current_pc_offset == comments.PCOffsetAt(i)) {
comments_buffer.AddString(comments.CommentAt(i));
comments_buffer.AddChar('\n');
current_line++;
i++;
}
writer->SetLine(current_line);
}
}
file_write(comments_buffer.buffer(), comments_buffer.length(), comments_file);
file_close(comments_file);
}
void Dwarf::WriteLineNumberProgramFromCodeSourceMaps(
LineNumberProgramWriter* writer) {
Function& root_function = Function::Handle(zone_);
Script& script = Script::Handle(zone_);
CodeSourceMap& map = CodeSourceMap::Handle(zone_);
Array& functions = Array::Handle(zone_);
GrowableArray<const Function*> function_stack(zone_, 8);
GrowableArray<DwarfPosition> token_positions(zone_, 8);
for (intptr_t i = 0; i < codes_.length(); i++) {
const Code& code = *(codes_[i]);
auto const asm_name = code_to_name_.LookupValue(&code);
ASSERT(asm_name != nullptr);
map = code.code_source_map();
if (map.IsNull()) {
continue;
}
root_function = code.function();
functions = code.inlined_id_to_function();
NoSafepointScope no_safepoint;
ReadStream code_map_stream(map.Data(), map.Length());
function_stack.Clear();
token_positions.Clear();
int32_t current_pc_offset = 0;
function_stack.Add(&root_function);
token_positions.Add(kNoDwarfPositionInfo);
while (code_map_stream.PendingBytes() > 0) {
int32_t arg1;
int32_t arg2 = -1;
const uint8_t opcode =
CodeSourceMapOps::Read(&code_map_stream, &arg1, &arg2);
switch (opcode) {
case CodeSourceMapOps::kChangePosition: {
const DwarfPosition& old_pos =
token_positions[token_positions.length() - 1];
token_positions[token_positions.length() - 1] = DwarfPosition(
Utils::AddWithWrapAround(old_pos.line(), arg1), arg2);
break;
}
case CodeSourceMapOps::kAdvancePC: {
current_pc_offset += arg1;
const Function& function = *(function_stack.Last());
script = function.script();
intptr_t file = LookupScript(script);
// 1. Update LNP file.
writer->SetFile(file);
// 2. Update LNP line.
// The DWARF standard uses 0 to denote missing line or column
// information.
writer->SetLine(token_positions.Last().line() < 0
? 0
: token_positions.Last().line());
writer->SetColumn(token_positions.Last().column() < 0
? 0
: token_positions.Last().column());
writer->SetPCOffset(asm_name, current_pc_offset);
break;
}
case CodeSourceMapOps::kPushFunction: {
auto child_func =
&Function::Handle(zone_, Function::RawCast(functions.At(arg1)));
function_stack.Add(child_func);
token_positions.Add(kNoDwarfPositionInfo);
break;
}
case CodeSourceMapOps::kPopFunction: {
// We never pop the root function.
ASSERT(function_stack.length() > 1);
ASSERT(token_positions.length() > 1);
function_stack.RemoveLast();
token_positions.RemoveLast();
break;
}
case CodeSourceMapOps::kNullCheck: {
break;
}
default:
UNREACHABLE();
}
}
}
}
static constexpr char kResolvedFileRoot[] = "file://";
static constexpr intptr_t kResolvedFileRootLen = sizeof(kResolvedFileRoot) - 1;
static constexpr char kResolvedSdkRoot[] = "org-dartlang-sdk:///sdk/";
static constexpr intptr_t kResolvedSdkRootLen = sizeof(kResolvedSdkRoot) - 1;
static const char* ConvertResolvedURI(const char* str) {
const intptr_t len = strlen(str);
if (len > kResolvedFileRootLen &&
strncmp(str, kResolvedFileRoot, kResolvedFileRootLen) == 0) {
return str + kResolvedFileRootLen;
}
if (len > kResolvedSdkRootLen &&
strncmp(str, kResolvedSdkRoot, kResolvedSdkRootLen) == 0) {
// Leave "sdk/" as a prefix in the returned path.
return str + (kResolvedSdkRootLen - 4);
}
return nullptr;
}
void Dwarf::WriteLineNumberProgram(DwarfWriteStream* stream) {
// 6.2.4 The Line Number Program Header
// 1. unit_length. This encoding implies 32-bit DWARF.
auto const line_prefix = "line";
intptr_t line_start;
intptr_t line_size_fixup = stream->ReserveSize(line_prefix, &line_start);
stream->u2(2); // 2. DWARF version 2
// 3. header_length
auto const lineheader_prefix = "lineheader";
intptr_t lineheader_start;
intptr_t lineheader_size_fixup =
stream->ReserveSize(lineheader_prefix, &lineheader_start);
stream->u1(1); // 4. minimum_instruction_length
stream->u1(1); // 5. default_is_stmt (true for compatibility with dsymutil).
stream->u1(0); // 6. line_base
stream->u1(1); // 7. line_range
stream->u1(13); // 8. opcode_base (12 standard opcodes in Dwarf 2)
// 9. standard_opcode_lengths
stream->u1(0); // DW_LNS_copy, 0 operands
stream->u1(1); // DW_LNS_advance_pc, 1 operands
stream->u1(1); // DW_LNS_advance_list, 1 operands
stream->u1(1); // DW_LNS_set_file, 1 operands
stream->u1(1); // DW_LNS_set_column, 1 operands
stream->u1(0); // DW_LNS_negate_stmt, 0 operands
stream->u1(0); // DW_LNS_set_basic_block, 0 operands
stream->u1(0); // DW_LNS_const_add_pc, 0 operands
stream->u1(1); // DW_LNS_fixed_advance_pc, 1 operands
stream->u1(0); // DW_LNS_set_prolog_end, 0 operands
stream->u1(0); // DW_LNS_set_epligoue_begin, 0 operands
stream->u1(1); // DW_LNS_set_isa, 1 operands
// 10. include_directories (sequence of path names)
// We don't emit any because we use full paths below.
stream->u1(0);
// 11. file_names (sequence of file entries)
String& uri = String::Handle(zone_);
for (intptr_t i = 0; i < scripts_.length(); i++) {
const Script& script = *(scripts_[i]);
if (FLAG_resolve_dwarf_paths) {
uri = script.resolved_url();
// Strictly enforce this to catch unresolvable cases.
if (uri.IsNull()) {
FATAL("no resolved URI for Script %s available", script.ToCString());
}
} else {
uri = script.url();
}
ASSERT(!uri.IsNull());
auto uri_cstr = Deobfuscate(uri.ToCString());
if (FLAG_resolve_dwarf_paths) {
auto const converted_cstr = ConvertResolvedURI(uri_cstr);
// Strictly enforce this to catch inconvertable cases.
if (converted_cstr == nullptr) {
FATAL("cannot convert resolved URI %s", uri_cstr);
}
uri_cstr = converted_cstr;
}
RELEASE_ASSERT(strlen(uri_cstr) != 0);
stream->string(uri_cstr); // NOLINT
stream->uleb128(0); // Include directory index.
stream->uleb128(0); // File modification time.
stream->uleb128(0); // File length.
}
if (FLAG_write_code_comments_as_synthetic_source_to != nullptr) {
stream->string(FLAG_write_code_comments_as_synthetic_source_to); // NOLINT
stream->uleb128(0); // Include directory index.
stream->uleb128(0); // File modification time.
stream->uleb128(0); // File length.
}
stream->u1(0); // End of file names.
stream->SetSize(lineheader_size_fixup, lineheader_prefix, lineheader_start);
// 6.2.5 The Line Number Program
LineNumberProgramWriter lnp_writer(stream);
if (FLAG_write_code_comments_as_synthetic_source_to != nullptr) {
WriteSyntheticLineNumberProgram(&lnp_writer);
} else {
WriteLineNumberProgramFromCodeSourceMaps(&lnp_writer);
}
// Advance pc to end of the compilation unit if not already there.
if (codes_.length() != 0) {
const intptr_t last_code_index = codes_.length() - 1;
const Code& last_code = *(codes_[last_code_index]);
const intptr_t last_pc_offset = last_code.Size();
const char* last_asm_name = code_to_name_.LookupValue(&last_code);
ASSERT(last_asm_name != nullptr);
lnp_writer.SetPCOffset(last_asm_name, last_pc_offset);
}
// End of contiguous machine code.
stream->u1(0); // This is an extended opcode
stream->u1(1); // that is 1 byte long
stream->u1(DW_LNE_end_sequence);
stream->SetSize(line_size_fixup, line_prefix, line_start);
}
const char* Dwarf::Deobfuscate(const char* cstr) {
if (reverse_obfuscation_trie_ == nullptr) return cstr;
TextBuffer buffer(256);
// Used to avoid Zone-allocating strings if no deobfuscation was performed.
bool changed = false;
intptr_t i = 0;
while (cstr[i] != '\0') {
intptr_t offset;
auto const value = reverse_obfuscation_trie_->Lookup(cstr + i, &offset);
if (offset == 0) {
// The first character was an invalid key element (that isn't the null
// terminator due to the while condition), copy it and skip to the next.
buffer.AddChar(cstr[i++]);
} else if (value != nullptr) {
changed = true;
buffer.AddString(value);
} else {
buffer.AddRaw(reinterpret_cast<const uint8_t*>(cstr + i), offset);
}
i += offset;
}
if (!changed) return cstr;
return OS::SCreate(zone_, "%s", buffer.buffer());
}
Trie<const char>* Dwarf::CreateReverseObfuscationTrie(Zone* zone) {
auto const map_array = IsolateGroup::Current()->obfuscation_map();
if (map_array == nullptr) return nullptr;
Trie<const char>* trie = nullptr;
for (intptr_t i = 0; map_array[i] != nullptr; i += 2) {
auto const key = map_array[i];
auto const value = map_array[i + 1];
ASSERT(value != nullptr);
// Don't include identity mappings.
if (strcmp(key, value) == 0) continue;
// Otherwise, any value in the obfuscation map should be a valid key.
ASSERT(Trie<const char>::IsValidKey(value));
trie = Trie<const char>::AddString(zone, trie, value, key);
}
return trie;
}
#endif // DART_PRECOMPILER
} // namespace dart