//===- LineTable.h ----------------------------------------------*- C++ -*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_DEBUGINFO_GSYM_LINETABLE_H
#define LLVM_DEBUGINFO_GSYM_LINETABLE_H
#include "llvm/DebugInfo/GSYM/LineEntry.h"
#include "llvm/Support/Error.h"
#include <cstdint>
#include <vector>
namespace llvm {
namespace gsym {
struct FunctionInfo;
class FileWriter;
/// LineTable class contains deserialized versions of line tables for each
/// function's address ranges.
///
/// When saved to disk, the line table is encoded using a modified version of
/// the DWARF line tables that only tracks address to source file and line.
///
/// ENCODING
///
/// The line table starts with a small prolog that contains the following
/// values:
///
/// ENCODING NAME DESCRIPTION
/// ======== =========== ====================================================
/// SLEB MinDelta The min line delta for special opcodes that advance
/// the address and line number.
/// SLEB MaxDelta The max line delta for single byte opcodes that
/// advance the address and line number.
/// ULEB FirstLine The value of the first source line number to
/// initialize the LineEntry with.
///
/// Once these prolog items are read, we initialize a LineEntry struct with
/// the start address of the function from the FunctionInfo's address range,
/// a default file index of 1, and the line number set to "FirstLine" from
/// the prolog above:
///
/// LineEntry Row(BaseAddr, 1, FirstLine);
///
/// The line table state machine is now initialized and ready to be parsed.
/// The stream that follows this encodes the line entries in a compact
/// form. Some opcodes cause "Row" to be modified and some opcodes may also
/// push "Row" onto the end of the "LineTable.Lines" vector. The end result
/// is a vector of LineEntry structs that is sorted in ascending address
/// order.
///
/// NORMAL OPCODES
///
/// The opcodes 0 through 3 are normal in opcodes. Their encoding and
/// descriptions are listed below:
///
/// ENCODING ENUMERATION VALUE DESCRIPTION
/// ======== ================ ===== ========================================
/// LTOC_EndSequence 0x00 Parsing is done.
/// ULEB LTOC_SetFile 0x01 Row.File = ULEB
/// ULEB LTOC_AdvancePC 0x02 Row.Addr += ULEB, push "Row".
/// SLEB LTOC_AdvanceLine 0x03 Row.Line += SLEB
/// LTOC_FirstSpecial 0x04 First special opcode (see SPECIAL
/// OPCODES below).
///
/// SPECIAL OPCODES
///
/// Opcodes LTOC_FirstSpecial through 255 are special opcodes that always
/// increment both the Row.Addr and Row.Line and push "Row" onto the
/// LineEntry.Lines array. They do this by using some of the bits to
/// increment/decrement the source line number, and some of the bits to
/// increment the address. Line numbers can go up or down when making line
/// tables, where addresses always only increase since line tables are sorted
/// by address.
///
/// In order to calculate the amount to increment the line and address for
/// these special opcodes, we calculate the number of values reserved for the
/// line increment/decrement using the "MinDelta" and "MaxDelta" from the
/// prolog:
///
/// const int64_t LineRange = MaxDelta - MinDelta + 1;
///
/// Then we can adjust the opcode to not include any of the normal opcodes:
///
/// const uint8_t AdjustedOp = Opcode - LTOC_FirstSpecial;
///
/// And we can calculate the line offset, and address offset:
///
/// const int64_t LineDelta = MinDelta + (AdjustedOp % LineRange);
/// const uint64_t AddrDelta = (AdjustedOp / LineRange);
///
/// And use these to modify our "Row":
///
/// Row.Line += LineDelta;
/// Row.Addr += AddrDelta;
///
/// And push a row onto the line table:
///
/// Lines.push_back(Row);
///
/// This is verify similar to the way that DWARF encodes its line tables. The
/// only difference is the DWARF line tables have more normal opcodes and the
/// "Row" contains more members, like source column number, bools for end of
/// prologue, beginnging of epilogue, is statement and many others. There are
/// also more complex rules that happen for the extra normal opcodes. By
/// leaving these extra opcodes out, we leave more bits for the special
/// opcodes that allows us to encode line tables in fewer bytes than standard
/// DWARF encodings.
///
/// Opcodes that will push "Row" onto the LineEntry.Lines include the
/// LTOC_AdvancePC opcode and all special opcodes. All other opcodes
/// only modify the current "Row", or cause the line table to end.
class LineTable {
typedef std::vector<gsym::LineEntry> Collection;
Collection Lines; ///< All line entries in the line table.
public:
/// Lookup a single address within a line table's data.
///
/// Clients have the option to decode an entire line table using
/// LineTable::decode() or just find a single matching entry using this
/// function. The benefit of using this function is that parsed LineEntry
/// objects that do not match will not be stored in an array. This will avoid
/// memory allocation costs and parsing can stop once a match has been found.
///
/// \param Data The binary stream to read the data from. This object must
/// have the data for the LineTable object starting at offset zero. The data
/// can contain more data than needed.
///
/// \param BaseAddr The base address to use when decoding the line table.
/// This will be the FunctionInfo's start address and will be used to
/// initialize the line table row prior to parsing any opcodes.
///
/// \returns An LineEntry object if a match is found, error otherwise.
static Expected<LineEntry> lookup(DataExtractor &Data, uint64_t BaseAddr,
uint64_t Addr);
/// Decode an LineTable object from a binary data stream.
///
/// \param Data The binary stream to read the data from. This object must
/// have the data for the LineTable object starting at offset zero. The data
/// can contain more data than needed.
///
/// \param BaseAddr The base address to use when decoding the line table.
/// This will be the FunctionInfo's start address and will be used to
/// initialize the line table row prior to parsing any opcodes.
///
/// \returns An LineTable or an error describing the issue that was
/// encountered during decoding.
static llvm::Expected<LineTable> decode(DataExtractor &Data,
uint64_t BaseAddr);
/// Encode this LineTable object into FileWriter stream.
///
/// \param O The binary stream to write the data to at the current file
/// position.
///
/// \param BaseAddr The base address to use when decoding the line table.
/// This will be the FunctionInfo's start address.
///
/// \returns An error object that indicates success or failure or the
/// encoding process.
llvm::Error encode(FileWriter &O, uint64_t BaseAddr) const;
bool empty() const { return Lines.empty(); }
void clear() { Lines.clear(); }
/// Return the first line entry if the line table isn't empty.
///
/// \returns An optional line entry with the first line entry if the line
/// table isn't empty, or llvm::None if the line table is emtpy.
Optional<LineEntry> first() const {
if (Lines.empty())
return llvm::None;
return Lines.front();
}
/// Return the last line entry if the line table isn't empty.
///
/// \returns An optional line entry with the last line entry if the line
/// table isn't empty, or llvm::None if the line table is emtpy.
Optional<LineEntry> last() const {
if (Lines.empty())
return llvm::None;
return Lines.back();
}
void push(const LineEntry &LE) {
Lines.push_back(LE);
}
size_t isValid() const {
return !Lines.empty();
}
size_t size() const {
return Lines.size();
}
LineEntry &get(size_t i) {
assert(i < Lines.size());
return Lines[i];
}
const LineEntry &get(size_t i) const {
assert(i < Lines.size());
return Lines[i];
}
LineEntry &operator[](size_t i) {
return get(i);
}
const LineEntry &operator[](size_t i) const {
return get(i);
}
bool operator==(const LineTable &RHS) const {
return Lines == RHS.Lines;
}
bool operator!=(const LineTable &RHS) const {
return Lines != RHS.Lines;
}
bool operator<(const LineTable &RHS) const {
const auto LHSSize = Lines.size();
const auto RHSSize = RHS.Lines.size();
if (LHSSize == RHSSize)
return Lines < RHS.Lines;
return LHSSize < RHSSize;
}
Collection::const_iterator begin() const { return Lines.begin(); }
Collection::const_iterator end() const { return Lines.end(); }
};
raw_ostream &operator<<(raw_ostream &OS, const gsym::LineTable <);
} // namespace gsym
} // namespace llvm
#endif // LLVM_DEBUGINFO_GSYM_LINETABLE_H