llvm-project/lldb/source/Target/TraceInstructionDumper.cpp

293 lines
9.8 KiB
C++

//===-- TraceInstructionDumper.cpp ----------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "lldb/Target/TraceInstructionDumper.h"
#include "lldb/Core/Module.h"
#include "lldb/Symbol/Function.h"
#include "lldb/Target/ExecutionContext.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/SectionLoadList.h"
using namespace lldb;
using namespace lldb_private;
using namespace llvm;
TraceInstructionDumper::TraceInstructionDumper(lldb::TraceCursorUP &&cursor_up,
int initial_index, bool raw,
bool show_tsc)
: m_cursor_up(std::move(cursor_up)), m_index(initial_index), m_raw(raw),
m_show_tsc(show_tsc) {}
/// \return
/// Return \b true if the cursor could move one step.
bool TraceInstructionDumper::TryMoveOneStep() {
if (!m_cursor_up->Next()) {
SetNoMoreData();
return false;
}
m_index += m_cursor_up->IsForwards() ? 1 : -1;
return true;
}
/// \return
/// The number of characters that would be needed to print the given
/// integer.
static int GetNumberOfChars(int num) {
if (num == 0)
return 1;
return (num < 0 ? 1 : 0) + static_cast<int>(log10(abs(num))) + 1;
}
/// Helper struct that holds symbol, disassembly and address information of an
/// instruction.
struct InstructionSymbolInfo {
SymbolContext sc;
Address address;
lldb::addr_t load_address;
lldb::DisassemblerSP disassembler;
lldb::InstructionSP instruction;
lldb_private::ExecutionContext exe_ctx;
};
// This custom LineEntry validator is neded because some line_entries have
// 0 as line, which is meaningless. Notice that LineEntry::IsValid only
// checks that line is not LLDB_INVALID_LINE_NUMBER, i.e. UINT32_MAX.
static bool IsLineEntryValid(const LineEntry &line_entry) {
return line_entry.IsValid() && line_entry.line > 0;
}
/// \return
/// \b true if the provided line entries match line, column and source file.
/// This function assumes that the line entries are valid.
static bool FileLineAndColumnMatches(const LineEntry &a, const LineEntry &b) {
if (a.line != b.line)
return false;
if (a.column != b.column)
return false;
return a.file == b.file;
}
/// Compare the symbol contexts of the provided \a InstructionSymbolInfo
/// objects.
///
/// \return
/// \a true if both instructions belong to the same scope level analized
/// in the following order:
/// - module
/// - symbol
/// - function
/// - line
static bool
IsSameInstructionSymbolContext(const InstructionSymbolInfo &prev_insn,
const InstructionSymbolInfo &insn) {
// module checks
if (insn.sc.module_sp != prev_insn.sc.module_sp)
return false;
// symbol checks
if (insn.sc.symbol != prev_insn.sc.symbol)
return false;
// function checks
if (!insn.sc.function && !prev_insn.sc.function)
return true;
else if (insn.sc.function != prev_insn.sc.function)
return false;
// line entry checks
const bool curr_line_valid = IsLineEntryValid(insn.sc.line_entry);
const bool prev_line_valid = IsLineEntryValid(prev_insn.sc.line_entry);
if (curr_line_valid && prev_line_valid)
return FileLineAndColumnMatches(insn.sc.line_entry,
prev_insn.sc.line_entry);
return curr_line_valid == prev_line_valid;
}
/// Dump the symbol context of the given instruction address if it's different
/// from the symbol context of the previous instruction in the trace.
///
/// \param[in] prev_sc
/// The symbol context of the previous instruction in the trace.
///
/// \param[in] address
/// The address whose symbol information will be dumped.
///
/// \return
/// The symbol context of the current address, which might differ from the
/// previous one.
static void
DumpInstructionSymbolContext(Stream &s,
Optional<InstructionSymbolInfo> prev_insn,
InstructionSymbolInfo &insn) {
if (prev_insn && IsSameInstructionSymbolContext(*prev_insn, insn))
return;
s.Printf(" ");
if (!insn.sc.module_sp)
s.Printf("(none)");
else if (!insn.sc.function && !insn.sc.symbol)
s.Printf("%s`(none)",
insn.sc.module_sp->GetFileSpec().GetFilename().AsCString());
else
insn.sc.DumpStopContext(&s, insn.exe_ctx.GetTargetPtr(), insn.address,
/*show_fullpaths=*/false,
/*show_module=*/true, /*show_inlined_frames=*/false,
/*show_function_arguments=*/true,
/*show_function_name=*/true);
s.Printf("\n");
}
static void DumpInstructionDisassembly(Stream &s, InstructionSymbolInfo &insn) {
if (!insn.instruction)
return;
s.Printf(" ");
insn.instruction->Dump(&s, /*max_opcode_byte_size=*/0, /*show_address=*/false,
/*show_bytes=*/false, &insn.exe_ctx, &insn.sc,
/*prev_sym_ctx=*/nullptr,
/*disassembly_addr_format=*/nullptr,
/*max_address_text_size=*/0);
}
void TraceInstructionDumper::SetNoMoreData() { m_no_more_data = true; }
bool TraceInstructionDumper::HasMoreData() { return !m_no_more_data; }
void TraceInstructionDumper::DumpInstructions(Stream &s, size_t count) {
ThreadSP thread_sp = m_cursor_up->GetExecutionContextRef().GetThreadSP();
if (!thread_sp) {
s.Printf("invalid thread");
return;
}
s.Printf("thread #%u: tid = %" PRIu64 "\n", thread_sp->GetIndexID(),
thread_sp->GetID());
int digits_count = GetNumberOfChars(
m_cursor_up->IsForwards() ? m_index + count - 1 : m_index - count + 1);
bool was_prev_instruction_an_error = false;
auto printMissingInstructionsMessage = [&]() {
s.Printf(" ...missing instructions\n");
};
auto printInstructionIndex = [&]() {
s.Printf(" [%*d] ", digits_count, m_index);
if (m_show_tsc) {
s.Printf("[tsc=");
if (Optional<uint64_t> timestamp = m_cursor_up->GetCounter(lldb::eTraceCounterTSC))
s.Printf("0x%016" PRIx64, *timestamp);
else
s.Printf("unavailable");
s.Printf("] ");
}
};
InstructionSymbolInfo prev_insn_info;
Target &target = thread_sp->GetProcess()->GetTarget();
ExecutionContext exe_ctx;
target.CalculateExecutionContext(exe_ctx);
const ArchSpec &arch = target.GetArchitecture();
// Find the symbol context for the given address reusing the previous
// instruction's symbol context when possible.
auto calculateSymbolContext = [&](const Address &address) {
AddressRange range;
if (prev_insn_info.sc.GetAddressRange(eSymbolContextEverything, 0,
/*inline_block_range*/ false,
range) &&
range.Contains(address))
return prev_insn_info.sc;
SymbolContext sc;
address.CalculateSymbolContext(&sc, eSymbolContextEverything);
return sc;
};
// Find the disassembler for the given address reusing the previous
// instruction's disassembler when possible.
auto calculateDisass = [&](const Address &address, const SymbolContext &sc) {
if (prev_insn_info.disassembler) {
if (InstructionSP instruction =
prev_insn_info.disassembler->GetInstructionList()
.GetInstructionAtAddress(address))
return std::make_tuple(prev_insn_info.disassembler, instruction);
}
if (sc.function) {
if (DisassemblerSP disassembler =
sc.function->GetInstructions(exe_ctx, nullptr)) {
if (InstructionSP instruction =
disassembler->GetInstructionList().GetInstructionAtAddress(
address))
return std::make_tuple(disassembler, instruction);
}
}
// We fallback to a single instruction disassembler
AddressRange range(address, arch.GetMaximumOpcodeByteSize());
DisassemblerSP disassembler =
Disassembler::DisassembleRange(arch, /*plugin_name*/ nullptr,
/*flavor*/ nullptr, target, range);
return std::make_tuple(disassembler,
disassembler ? disassembler->GetInstructionList()
.GetInstructionAtAddress(address)
: InstructionSP());
};
for (size_t i = 0; i < count; i++) {
if (!HasMoreData()) {
s.Printf(" no more data\n");
break;
}
if (Error err = m_cursor_up->GetError()) {
if (!m_cursor_up->IsForwards() && !was_prev_instruction_an_error)
printMissingInstructionsMessage();
was_prev_instruction_an_error = true;
printInstructionIndex();
s << toString(std::move(err));
} else {
if (m_cursor_up->IsForwards() && was_prev_instruction_an_error)
printMissingInstructionsMessage();
was_prev_instruction_an_error = false;
InstructionSymbolInfo insn_info;
if (!m_raw) {
insn_info.load_address = m_cursor_up->GetLoadAddress();
insn_info.exe_ctx = exe_ctx;
insn_info.address.SetLoadAddress(insn_info.load_address, &target);
insn_info.sc = calculateSymbolContext(insn_info.address);
std::tie(insn_info.disassembler, insn_info.instruction) =
calculateDisass(insn_info.address, insn_info.sc);
DumpInstructionSymbolContext(s, prev_insn_info, insn_info);
}
printInstructionIndex();
s.Printf("0x%016" PRIx64, m_cursor_up->GetLoadAddress());
if (!m_raw)
DumpInstructionDisassembly(s, insn_info);
prev_insn_info = insn_info;
}
s.Printf("\n");
TryMoveOneStep();
}
}