MessageObjects.cpp
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//===-- MessageObjects.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 "MessageObjects.h"
#include "lldb/Utility/Args.h"
#include "lldb/Utility/StringExtractor.h"
#include "llvm/ADT/StringExtras.h"
#include "gtest/gtest.h"
using namespace lldb_private;
using namespace lldb;
using namespace llvm;
namespace llgs_tests {
Expected<ProcessInfo> ProcessInfo::create(StringRef response) {
ProcessInfo process_info;
auto elements_or_error = SplitUniquePairList("ProcessInfo", response);
if (!elements_or_error)
return elements_or_error.takeError();
auto &elements = *elements_or_error;
if (elements["pid"].getAsInteger(16, process_info.m_pid))
return make_parsing_error("ProcessInfo: pid");
if (elements["parent-pid"].getAsInteger(16, process_info.m_parent_pid))
return make_parsing_error("ProcessInfo: parent-pid");
if (elements["real-uid"].getAsInteger(16, process_info.m_real_uid))
return make_parsing_error("ProcessInfo: real-uid");
if (elements["real-gid"].getAsInteger(16, process_info.m_real_gid))
return make_parsing_error("ProcessInfo: real-uid");
if (elements["effective-uid"].getAsInteger(16, process_info.m_effective_uid))
return make_parsing_error("ProcessInfo: effective-uid");
if (elements["effective-gid"].getAsInteger(16, process_info.m_effective_gid))
return make_parsing_error("ProcessInfo: effective-gid");
if (elements["ptrsize"].getAsInteger(10, process_info.m_ptrsize))
return make_parsing_error("ProcessInfo: ptrsize");
process_info.m_triple = fromHex(elements["triple"]);
StringRef endian_str = elements["endian"];
if (endian_str == "little")
process_info.m_endian = support::little;
else if (endian_str == "big")
process_info.m_endian = support::big;
else
return make_parsing_error("ProcessInfo: endian");
return process_info;
}
lldb::pid_t ProcessInfo::GetPid() const { return m_pid; }
support::endianness ProcessInfo::GetEndian() const { return m_endian; }
//====== ThreadInfo ============================================================
ThreadInfo::ThreadInfo(StringRef name, StringRef reason, RegisterMap registers,
unsigned int)
: m_name(name.str()), m_reason(reason.str()),
m_registers(std::move(registers)) {}
const RegisterValue *ThreadInfo::ReadRegister(unsigned int Id) const {
auto Iter = m_registers.find(Id);
return Iter == m_registers.end() ? nullptr : &Iter->getSecond();
}
//====== JThreadsInfo ==========================================================
Expected<RegisterMap>
JThreadsInfo::parseRegisters(const StructuredData::Dictionary &Dict,
ArrayRef<RegisterInfo> RegInfos) {
RegisterMap Result;
auto KeysObj = Dict.GetKeys();
auto Keys = KeysObj->GetAsArray();
for (size_t i = 0; i < Keys->GetSize(); i++) {
StringRef KeyStr, ValueStr;
Keys->GetItemAtIndexAsString(i, KeyStr);
Dict.GetValueForKeyAsString(KeyStr, ValueStr);
unsigned int Register;
if (!llvm::to_integer(KeyStr, Register, 10))
return make_parsing_error("JThreadsInfo: register key[{0}]", i);
auto RegValOr =
parseRegisterValue(RegInfos[Register], ValueStr, support::big);
if (!RegValOr)
return RegValOr.takeError();
Result[Register] = std::move(*RegValOr);
}
return std::move(Result);
}
Expected<JThreadsInfo> JThreadsInfo::create(StringRef Response,
ArrayRef<RegisterInfo> RegInfos) {
JThreadsInfo jthreads_info;
StructuredData::ObjectSP json =
StructuredData::ParseJSON(std::string(Response));
StructuredData::Array *array = json->GetAsArray();
if (!array)
return make_parsing_error("JThreadsInfo: JSON array");
for (size_t i = 0; i < array->GetSize(); i++) {
StructuredData::Dictionary *thread_info;
array->GetItemAtIndexAsDictionary(i, thread_info);
if (!thread_info)
return make_parsing_error("JThreadsInfo: JSON obj at {0}", i);
StringRef name, reason;
thread_info->GetValueForKeyAsString("name", name);
thread_info->GetValueForKeyAsString("reason", reason);
uint64_t signal;
thread_info->GetValueForKeyAsInteger("signal", signal);
uint64_t tid;
thread_info->GetValueForKeyAsInteger("tid", tid);
StructuredData::Dictionary *register_dict;
thread_info->GetValueForKeyAsDictionary("registers", register_dict);
if (!register_dict)
return make_parsing_error("JThreadsInfo: registers JSON obj");
auto RegsOr = parseRegisters(*register_dict, RegInfos);
if (!RegsOr)
return RegsOr.takeError();
jthreads_info.m_thread_infos[tid] =
ThreadInfo(name, reason, std::move(*RegsOr), signal);
}
return jthreads_info;
}
const ThreadInfoMap &JThreadsInfo::GetThreadInfos() const {
return m_thread_infos;
}
Expected<RegisterInfo> RegisterInfoParser::create(StringRef Response) {
auto ElementsOr = SplitUniquePairList("RegisterInfoParser", Response);
if (!ElementsOr)
return ElementsOr.takeError();
auto &Elements = *ElementsOr;
RegisterInfo Info = {
nullptr, // Name
nullptr, // Alt name
0, // byte size
0, // offset
eEncodingUint, // encoding
eFormatHex, // format
{
LLDB_INVALID_REGNUM, // eh_frame reg num
LLDB_INVALID_REGNUM, // DWARF reg num
LLDB_INVALID_REGNUM, // generic reg num
LLDB_INVALID_REGNUM, // process plugin reg num
LLDB_INVALID_REGNUM // native register number
},
nullptr,
nullptr,
nullptr, // Dwarf expression opcode bytes pointer
0 // Dwarf expression opcode bytes length
};
Info.name = ConstString(Elements["name"]).GetCString();
if (!Info.name)
return make_parsing_error("qRegisterInfo: name");
Info.alt_name = ConstString(Elements["alt-name"]).GetCString();
if (!to_integer(Elements["bitsize"], Info.byte_size, 10))
return make_parsing_error("qRegisterInfo: bit-size");
Info.byte_size /= CHAR_BIT;
if (!to_integer(Elements["offset"], Info.byte_offset, 10))
return make_parsing_error("qRegisterInfo: offset");
Info.encoding = Args::StringToEncoding(Elements["encoding"]);
if (Info.encoding == eEncodingInvalid)
return make_parsing_error("qRegisterInfo: encoding");
Info.format = StringSwitch<Format>(Elements["format"])
.Case("binary", eFormatBinary)
.Case("decimal", eFormatDecimal)
.Case("hex", eFormatHex)
.Case("float", eFormatFloat)
.Case("vector-sint8", eFormatVectorOfSInt8)
.Case("vector-uint8", eFormatVectorOfUInt8)
.Case("vector-sint16", eFormatVectorOfSInt16)
.Case("vector-uint16", eFormatVectorOfUInt16)
.Case("vector-sint32", eFormatVectorOfSInt32)
.Case("vector-uint32", eFormatVectorOfUInt32)
.Case("vector-float32", eFormatVectorOfFloat32)
.Case("vector-uint64", eFormatVectorOfUInt64)
.Case("vector-uint128", eFormatVectorOfUInt128)
.Default(eFormatInvalid);
if (Info.format == eFormatInvalid)
return make_parsing_error("qRegisterInfo: format");
Info.kinds[eRegisterKindGeneric] =
Args::StringToGenericRegister(Elements["generic"]);
return std::move(Info);
}
Expected<RegisterValue> parseRegisterValue(const RegisterInfo &Info,
StringRef HexValue,
llvm::support::endianness Endian,
bool ZeroPad) {
SmallString<128> Storage;
if (ZeroPad && HexValue.size() < Info.byte_size * 2) {
Storage.insert(Storage.begin(), Info.byte_size * 2 - HexValue.size(), '0');
Storage += HexValue;
HexValue = Storage;
}
SmallVector<uint8_t, 64> Bytes(HexValue.size() / 2);
StringExtractor(HexValue).GetHexBytes(Bytes, '\xcc');
RegisterValue Value;
Status ST;
Value.SetFromMemoryData(
&Info, Bytes.data(), Bytes.size(),
Endian == support::little ? eByteOrderLittle : eByteOrderBig, ST);
if (ST.Fail())
return ST.ToError();
return Value;
}
//====== StopReply =============================================================
Expected<std::unique_ptr<StopReply>>
StopReply::create(StringRef Response, llvm::support::endianness Endian,
ArrayRef<RegisterInfo> RegInfos) {
if (Response.size() < 3)
return make_parsing_error("StopReply: Invalid packet");
if (Response.consume_front("T"))
return StopReplyStop::create(Response, Endian, RegInfos);
if (Response.consume_front("W"))
return StopReplyExit::create(Response);
return make_parsing_error("StopReply: Invalid packet");
}
Expected<RegisterMap> StopReplyStop::parseRegisters(
const StringMap<SmallVector<StringRef, 2>> &Elements,
support::endianness Endian, ArrayRef<lldb_private::RegisterInfo> RegInfos) {
RegisterMap Result;
for (const auto &E : Elements) {
StringRef Key = E.getKey();
const auto &Val = E.getValue();
if (Key.size() != 2)
continue;
unsigned int Reg;
if (!to_integer(Key, Reg, 16))
continue;
if (Val.size() != 1)
return make_parsing_error(
"StopReplyStop: multiple entries for register field [{0:x}]", Reg);
auto RegValOr = parseRegisterValue(RegInfos[Reg], Val[0], Endian);
if (!RegValOr)
return RegValOr.takeError();
Result[Reg] = std::move(*RegValOr);
}
return std::move(Result);
}
Expected<std::unique_ptr<StopReplyStop>>
StopReplyStop::create(StringRef Response, support::endianness Endian,
ArrayRef<RegisterInfo> RegInfos) {
unsigned int Signal;
StringRef SignalStr = Response.take_front(2);
Response = Response.drop_front(2);
if (!to_integer(SignalStr, Signal, 16))
return make_parsing_error("StopReply: stop signal");
auto Elements = SplitPairList(Response);
for (StringRef Field :
{"name", "reason", "thread", "threads", "thread-pcs"}) {
// This will insert an empty field if there is none. In the future, we
// should probably differentiate between these fields not being present and
// them being empty, but right now no tests depends on this.
if (Elements.insert({Field, {""}}).first->second.size() != 1)
return make_parsing_error(
"StopReply: got multiple responses for the {0} field", Field);
}
StringRef Name = Elements["name"][0];
StringRef Reason = Elements["reason"][0];
lldb::tid_t Thread;
if (!to_integer(Elements["thread"][0], Thread, 16))
return make_parsing_error("StopReply: thread");
SmallVector<StringRef, 20> Threads;
SmallVector<StringRef, 20> Pcs;
Elements["threads"][0].split(Threads, ',');
Elements["thread-pcs"][0].split(Pcs, ',');
if (Threads.size() != Pcs.size())
return make_parsing_error("StopReply: thread/PC count mismatch");
RegisterMap ThreadPcs;
const RegisterInfo *PcInfo = find_if(RegInfos, [](const RegisterInfo &Info) {
return Info.kinds[eRegisterKindGeneric] == LLDB_REGNUM_GENERIC_PC;
});
assert(PcInfo);
for (auto ThreadPc : zip(Threads, Pcs)) {
lldb::tid_t Id;
if (!to_integer(std::get<0>(ThreadPc), Id, 16))
return make_parsing_error("StopReply: Thread id '{0}'",
std::get<0>(ThreadPc));
auto PcOr = parseRegisterValue(*PcInfo, std::get<1>(ThreadPc), Endian,
/*ZeroPad*/ true);
if (!PcOr)
return PcOr.takeError();
ThreadPcs[Id] = std::move(*PcOr);
}
auto RegistersOr = parseRegisters(Elements, Endian, RegInfos);
if (!RegistersOr)
return RegistersOr.takeError();
return std::make_unique<StopReplyStop>(Signal, Thread, Name,
std::move(ThreadPcs),
std::move(*RegistersOr), Reason);
}
Expected<std::unique_ptr<StopReplyExit>>
StopReplyExit::create(StringRef Response) {
uint8_t Status;
if (!to_integer(Response, Status, 16))
return make_parsing_error("StopReply: exit status");
return std::make_unique<StopReplyExit>(Status);
}
//====== Globals ===============================================================
Expected<StringMap<StringRef>> SplitUniquePairList(StringRef caller,
StringRef str) {
SmallVector<StringRef, 20> elements;
str.split(elements, ';');
StringMap<StringRef> pairs;
for (StringRef s : elements) {
std::pair<StringRef, StringRef> pair = s.split(':');
if (pairs.count(pair.first))
return make_parsing_error("{0}: Duplicate Key: {1}", caller, pair.first);
pairs.insert(pair);
}
return pairs;
}
StringMap<SmallVector<StringRef, 2>> SplitPairList(StringRef str) {
SmallVector<StringRef, 20> elements;
str.split(elements, ';');
StringMap<SmallVector<StringRef, 2>> pairs;
for (StringRef s : elements) {
std::pair<StringRef, StringRef> pair = s.split(':');
pairs[pair.first].push_back(pair.second);
}
return pairs;
}
} // namespace llgs_tests
std::ostream &lldb_private::operator<<(std::ostream &OS,
const RegisterValue &RegVal) {
ArrayRef<uint8_t> Bytes(static_cast<const uint8_t *>(RegVal.GetBytes()),
RegVal.GetByteSize());
return OS << formatv("RegisterValue[{0}]: {1:@[x-2]}", RegVal.GetByteSize(),
make_range(Bytes.begin(), Bytes.end()))
.str();
}