GDBRemoteCommunicationClient.cpp
142 KB
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//===-- GDBRemoteCommunicationClient.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 "GDBRemoteCommunicationClient.h"
#include <math.h>
#include <sys/stat.h>
#include <numeric>
#include <sstream>
#include "lldb/Core/ModuleSpec.h"
#include "lldb/Host/HostInfo.h"
#include "lldb/Host/XML.h"
#include "lldb/Symbol/Symbol.h"
#include "lldb/Target/MemoryRegionInfo.h"
#include "lldb/Target/Target.h"
#include "lldb/Target/UnixSignals.h"
#include "lldb/Utility/Args.h"
#include "lldb/Utility/DataBufferHeap.h"
#include "lldb/Utility/LLDBAssert.h"
#include "lldb/Utility/Log.h"
#include "lldb/Utility/State.h"
#include "lldb/Utility/StreamString.h"
#include "ProcessGDBRemote.h"
#include "ProcessGDBRemoteLog.h"
#include "lldb/Host/Config.h"
#include "lldb/Utility/StringExtractorGDBRemote.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/Support/JSON.h"
#if defined(HAVE_LIBCOMPRESSION)
#include <compression.h>
#endif
using namespace lldb;
using namespace lldb_private::process_gdb_remote;
using namespace lldb_private;
using namespace std::chrono;
llvm::raw_ostream &process_gdb_remote::operator<<(llvm::raw_ostream &os,
const QOffsets &offsets) {
return os << llvm::formatv(
"QOffsets({0}, [{1:@[x]}])", offsets.segments,
llvm::make_range(offsets.offsets.begin(), offsets.offsets.end()));
}
// GDBRemoteCommunicationClient constructor
GDBRemoteCommunicationClient::GDBRemoteCommunicationClient()
: GDBRemoteClientBase("gdb-remote.client", "gdb-remote.client.rx_packet"),
m_supports_not_sending_acks(eLazyBoolCalculate),
m_supports_thread_suffix(eLazyBoolCalculate),
m_supports_threads_in_stop_reply(eLazyBoolCalculate),
m_supports_vCont_all(eLazyBoolCalculate),
m_supports_vCont_any(eLazyBoolCalculate),
m_supports_vCont_c(eLazyBoolCalculate),
m_supports_vCont_C(eLazyBoolCalculate),
m_supports_vCont_s(eLazyBoolCalculate),
m_supports_vCont_S(eLazyBoolCalculate),
m_qHostInfo_is_valid(eLazyBoolCalculate),
m_curr_pid_is_valid(eLazyBoolCalculate),
m_qProcessInfo_is_valid(eLazyBoolCalculate),
m_qGDBServerVersion_is_valid(eLazyBoolCalculate),
m_supports_alloc_dealloc_memory(eLazyBoolCalculate),
m_supports_memory_region_info(eLazyBoolCalculate),
m_supports_watchpoint_support_info(eLazyBoolCalculate),
m_supports_detach_stay_stopped(eLazyBoolCalculate),
m_watchpoints_trigger_after_instruction(eLazyBoolCalculate),
m_attach_or_wait_reply(eLazyBoolCalculate),
m_prepare_for_reg_writing_reply(eLazyBoolCalculate),
m_supports_p(eLazyBoolCalculate), m_supports_x(eLazyBoolCalculate),
m_avoid_g_packets(eLazyBoolCalculate),
m_supports_QSaveRegisterState(eLazyBoolCalculate),
m_supports_qXfer_auxv_read(eLazyBoolCalculate),
m_supports_qXfer_libraries_read(eLazyBoolCalculate),
m_supports_qXfer_libraries_svr4_read(eLazyBoolCalculate),
m_supports_qXfer_features_read(eLazyBoolCalculate),
m_supports_qXfer_memory_map_read(eLazyBoolCalculate),
m_supports_augmented_libraries_svr4_read(eLazyBoolCalculate),
m_supports_jThreadExtendedInfo(eLazyBoolCalculate),
m_supports_jLoadedDynamicLibrariesInfos(eLazyBoolCalculate),
m_supports_jGetSharedCacheInfo(eLazyBoolCalculate),
m_supports_QPassSignals(eLazyBoolCalculate),
m_supports_error_string_reply(eLazyBoolCalculate),
m_supports_qProcessInfoPID(true), m_supports_qfProcessInfo(true),
m_supports_qUserName(true), m_supports_qGroupName(true),
m_supports_qThreadStopInfo(true), m_supports_z0(true),
m_supports_z1(true), m_supports_z2(true), m_supports_z3(true),
m_supports_z4(true), m_supports_QEnvironment(true),
m_supports_QEnvironmentHexEncoded(true), m_supports_qSymbol(true),
m_qSymbol_requests_done(false), m_supports_qModuleInfo(true),
m_supports_jThreadsInfo(true), m_supports_jModulesInfo(true),
m_curr_pid(LLDB_INVALID_PROCESS_ID), m_curr_tid(LLDB_INVALID_THREAD_ID),
m_curr_tid_run(LLDB_INVALID_THREAD_ID),
m_num_supported_hardware_watchpoints(0), m_host_arch(), m_process_arch(),
m_os_build(), m_os_kernel(), m_hostname(), m_gdb_server_name(),
m_gdb_server_version(UINT32_MAX), m_default_packet_timeout(0),
m_max_packet_size(0), m_qSupported_response(),
m_supported_async_json_packets_is_valid(false),
m_supported_async_json_packets_sp(), m_qXfer_memory_map(),
m_qXfer_memory_map_loaded(false) {}
// Destructor
GDBRemoteCommunicationClient::~GDBRemoteCommunicationClient() {
if (IsConnected())
Disconnect();
}
bool GDBRemoteCommunicationClient::HandshakeWithServer(Status *error_ptr) {
ResetDiscoverableSettings(false);
// Start the read thread after we send the handshake ack since if we fail to
// send the handshake ack, there is no reason to continue...
if (SendAck()) {
// Wait for any responses that might have been queued up in the remote
// GDB server and flush them all
StringExtractorGDBRemote response;
PacketResult packet_result = PacketResult::Success;
while (packet_result == PacketResult::Success)
packet_result = ReadPacket(response, milliseconds(10), false);
// The return value from QueryNoAckModeSupported() is true if the packet
// was sent and _any_ response (including UNIMPLEMENTED) was received), or
// false if no response was received. This quickly tells us if we have a
// live connection to a remote GDB server...
if (QueryNoAckModeSupported()) {
return true;
} else {
if (error_ptr)
error_ptr->SetErrorString("failed to get reply to handshake packet");
}
} else {
if (error_ptr)
error_ptr->SetErrorString("failed to send the handshake ack");
}
return false;
}
bool GDBRemoteCommunicationClient::GetEchoSupported() {
if (m_supports_qEcho == eLazyBoolCalculate) {
GetRemoteQSupported();
}
return m_supports_qEcho == eLazyBoolYes;
}
bool GDBRemoteCommunicationClient::GetQPassSignalsSupported() {
if (m_supports_QPassSignals == eLazyBoolCalculate) {
GetRemoteQSupported();
}
return m_supports_QPassSignals == eLazyBoolYes;
}
bool GDBRemoteCommunicationClient::GetAugmentedLibrariesSVR4ReadSupported() {
if (m_supports_augmented_libraries_svr4_read == eLazyBoolCalculate) {
GetRemoteQSupported();
}
return m_supports_augmented_libraries_svr4_read == eLazyBoolYes;
}
bool GDBRemoteCommunicationClient::GetQXferLibrariesSVR4ReadSupported() {
if (m_supports_qXfer_libraries_svr4_read == eLazyBoolCalculate) {
GetRemoteQSupported();
}
return m_supports_qXfer_libraries_svr4_read == eLazyBoolYes;
}
bool GDBRemoteCommunicationClient::GetQXferLibrariesReadSupported() {
if (m_supports_qXfer_libraries_read == eLazyBoolCalculate) {
GetRemoteQSupported();
}
return m_supports_qXfer_libraries_read == eLazyBoolYes;
}
bool GDBRemoteCommunicationClient::GetQXferAuxvReadSupported() {
if (m_supports_qXfer_auxv_read == eLazyBoolCalculate) {
GetRemoteQSupported();
}
return m_supports_qXfer_auxv_read == eLazyBoolYes;
}
bool GDBRemoteCommunicationClient::GetQXferFeaturesReadSupported() {
if (m_supports_qXfer_features_read == eLazyBoolCalculate) {
GetRemoteQSupported();
}
return m_supports_qXfer_features_read == eLazyBoolYes;
}
bool GDBRemoteCommunicationClient::GetQXferMemoryMapReadSupported() {
if (m_supports_qXfer_memory_map_read == eLazyBoolCalculate) {
GetRemoteQSupported();
}
return m_supports_qXfer_memory_map_read == eLazyBoolYes;
}
uint64_t GDBRemoteCommunicationClient::GetRemoteMaxPacketSize() {
if (m_max_packet_size == 0) {
GetRemoteQSupported();
}
return m_max_packet_size;
}
bool GDBRemoteCommunicationClient::QueryNoAckModeSupported() {
if (m_supports_not_sending_acks == eLazyBoolCalculate) {
m_send_acks = true;
m_supports_not_sending_acks = eLazyBoolNo;
// This is the first real packet that we'll send in a debug session and it
// may take a little longer than normal to receive a reply. Wait at least
// 6 seconds for a reply to this packet.
ScopedTimeout timeout(*this, std::max(GetPacketTimeout(), seconds(6)));
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("QStartNoAckMode", response, false) ==
PacketResult::Success) {
if (response.IsOKResponse()) {
m_send_acks = false;
m_supports_not_sending_acks = eLazyBoolYes;
}
return true;
}
}
return false;
}
void GDBRemoteCommunicationClient::GetListThreadsInStopReplySupported() {
if (m_supports_threads_in_stop_reply == eLazyBoolCalculate) {
m_supports_threads_in_stop_reply = eLazyBoolNo;
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("QListThreadsInStopReply", response,
false) == PacketResult::Success) {
if (response.IsOKResponse())
m_supports_threads_in_stop_reply = eLazyBoolYes;
}
}
}
bool GDBRemoteCommunicationClient::GetVAttachOrWaitSupported() {
if (m_attach_or_wait_reply == eLazyBoolCalculate) {
m_attach_or_wait_reply = eLazyBoolNo;
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("qVAttachOrWaitSupported", response,
false) == PacketResult::Success) {
if (response.IsOKResponse())
m_attach_or_wait_reply = eLazyBoolYes;
}
}
return m_attach_or_wait_reply == eLazyBoolYes;
}
bool GDBRemoteCommunicationClient::GetSyncThreadStateSupported() {
if (m_prepare_for_reg_writing_reply == eLazyBoolCalculate) {
m_prepare_for_reg_writing_reply = eLazyBoolNo;
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("qSyncThreadStateSupported", response,
false) == PacketResult::Success) {
if (response.IsOKResponse())
m_prepare_for_reg_writing_reply = eLazyBoolYes;
}
}
return m_prepare_for_reg_writing_reply == eLazyBoolYes;
}
void GDBRemoteCommunicationClient::ResetDiscoverableSettings(bool did_exec) {
if (!did_exec) {
// Hard reset everything, this is when we first connect to a GDB server
m_supports_not_sending_acks = eLazyBoolCalculate;
m_supports_thread_suffix = eLazyBoolCalculate;
m_supports_threads_in_stop_reply = eLazyBoolCalculate;
m_supports_vCont_c = eLazyBoolCalculate;
m_supports_vCont_C = eLazyBoolCalculate;
m_supports_vCont_s = eLazyBoolCalculate;
m_supports_vCont_S = eLazyBoolCalculate;
m_supports_p = eLazyBoolCalculate;
m_supports_x = eLazyBoolCalculate;
m_supports_QSaveRegisterState = eLazyBoolCalculate;
m_qHostInfo_is_valid = eLazyBoolCalculate;
m_curr_pid_is_valid = eLazyBoolCalculate;
m_qGDBServerVersion_is_valid = eLazyBoolCalculate;
m_supports_alloc_dealloc_memory = eLazyBoolCalculate;
m_supports_memory_region_info = eLazyBoolCalculate;
m_prepare_for_reg_writing_reply = eLazyBoolCalculate;
m_attach_or_wait_reply = eLazyBoolCalculate;
m_avoid_g_packets = eLazyBoolCalculate;
m_supports_qXfer_auxv_read = eLazyBoolCalculate;
m_supports_qXfer_libraries_read = eLazyBoolCalculate;
m_supports_qXfer_libraries_svr4_read = eLazyBoolCalculate;
m_supports_qXfer_features_read = eLazyBoolCalculate;
m_supports_qXfer_memory_map_read = eLazyBoolCalculate;
m_supports_augmented_libraries_svr4_read = eLazyBoolCalculate;
m_supports_qProcessInfoPID = true;
m_supports_qfProcessInfo = true;
m_supports_qUserName = true;
m_supports_qGroupName = true;
m_supports_qThreadStopInfo = true;
m_supports_z0 = true;
m_supports_z1 = true;
m_supports_z2 = true;
m_supports_z3 = true;
m_supports_z4 = true;
m_supports_QEnvironment = true;
m_supports_QEnvironmentHexEncoded = true;
m_supports_qSymbol = true;
m_qSymbol_requests_done = false;
m_supports_qModuleInfo = true;
m_host_arch.Clear();
m_os_version = llvm::VersionTuple();
m_os_build.clear();
m_os_kernel.clear();
m_hostname.clear();
m_gdb_server_name.clear();
m_gdb_server_version = UINT32_MAX;
m_default_packet_timeout = seconds(0);
m_max_packet_size = 0;
m_qSupported_response.clear();
m_supported_async_json_packets_is_valid = false;
m_supported_async_json_packets_sp.reset();
m_supports_jModulesInfo = true;
}
// These flags should be reset when we first connect to a GDB server and when
// our inferior process execs
m_qProcessInfo_is_valid = eLazyBoolCalculate;
m_process_arch.Clear();
}
void GDBRemoteCommunicationClient::GetRemoteQSupported() {
// Clear out any capabilities we expect to see in the qSupported response
m_supports_qXfer_auxv_read = eLazyBoolNo;
m_supports_qXfer_libraries_read = eLazyBoolNo;
m_supports_qXfer_libraries_svr4_read = eLazyBoolNo;
m_supports_augmented_libraries_svr4_read = eLazyBoolNo;
m_supports_qXfer_features_read = eLazyBoolNo;
m_supports_qXfer_memory_map_read = eLazyBoolNo;
m_max_packet_size = UINT64_MAX; // It's supposed to always be there, but if
// not, we assume no limit
// build the qSupported packet
std::vector<std::string> features = {"xmlRegisters=i386,arm,mips,arc"};
StreamString packet;
packet.PutCString("qSupported");
for (uint32_t i = 0; i < features.size(); ++i) {
packet.PutCString(i == 0 ? ":" : ";");
packet.PutCString(features[i]);
}
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet.GetString(), response,
/*send_async=*/false) ==
PacketResult::Success) {
const char *response_cstr = response.GetStringRef().data();
// Hang on to the qSupported packet, so that platforms can do custom
// configuration of the transport before attaching/launching the process.
m_qSupported_response = response_cstr;
if (::strstr(response_cstr, "qXfer:auxv:read+"))
m_supports_qXfer_auxv_read = eLazyBoolYes;
if (::strstr(response_cstr, "qXfer:libraries-svr4:read+"))
m_supports_qXfer_libraries_svr4_read = eLazyBoolYes;
if (::strstr(response_cstr, "augmented-libraries-svr4-read")) {
m_supports_qXfer_libraries_svr4_read = eLazyBoolYes; // implied
m_supports_augmented_libraries_svr4_read = eLazyBoolYes;
}
if (::strstr(response_cstr, "qXfer:libraries:read+"))
m_supports_qXfer_libraries_read = eLazyBoolYes;
if (::strstr(response_cstr, "qXfer:features:read+"))
m_supports_qXfer_features_read = eLazyBoolYes;
if (::strstr(response_cstr, "qXfer:memory-map:read+"))
m_supports_qXfer_memory_map_read = eLazyBoolYes;
// Look for a list of compressions in the features list e.g.
// qXfer:features:read+;PacketSize=20000;qEcho+;SupportedCompressions=zlib-
// deflate,lzma
const char *features_list = ::strstr(response_cstr, "qXfer:features:");
if (features_list) {
const char *compressions =
::strstr(features_list, "SupportedCompressions=");
if (compressions) {
std::vector<std::string> supported_compressions;
compressions += sizeof("SupportedCompressions=") - 1;
const char *end_of_compressions = strchr(compressions, ';');
if (end_of_compressions == nullptr) {
end_of_compressions = strchr(compressions, '\0');
}
const char *current_compression = compressions;
while (current_compression < end_of_compressions) {
const char *next_compression_name = strchr(current_compression, ',');
const char *end_of_this_word = next_compression_name;
if (next_compression_name == nullptr ||
end_of_compressions < next_compression_name) {
end_of_this_word = end_of_compressions;
}
if (end_of_this_word) {
if (end_of_this_word == current_compression) {
current_compression++;
} else {
std::string this_compression(
current_compression, end_of_this_word - current_compression);
supported_compressions.push_back(this_compression);
current_compression = end_of_this_word + 1;
}
} else {
supported_compressions.push_back(current_compression);
current_compression = end_of_compressions;
}
}
if (supported_compressions.size() > 0) {
MaybeEnableCompression(supported_compressions);
}
}
}
if (::strstr(response_cstr, "qEcho"))
m_supports_qEcho = eLazyBoolYes;
else
m_supports_qEcho = eLazyBoolNo;
if (::strstr(response_cstr, "QPassSignals+"))
m_supports_QPassSignals = eLazyBoolYes;
else
m_supports_QPassSignals = eLazyBoolNo;
const char *packet_size_str = ::strstr(response_cstr, "PacketSize=");
if (packet_size_str) {
StringExtractorGDBRemote packet_response(packet_size_str +
strlen("PacketSize="));
m_max_packet_size =
packet_response.GetHexMaxU64(/*little_endian=*/false, UINT64_MAX);
if (m_max_packet_size == 0) {
m_max_packet_size = UINT64_MAX; // Must have been a garbled response
Log *log(
ProcessGDBRemoteLog::GetLogIfAllCategoriesSet(GDBR_LOG_PROCESS));
LLDB_LOGF(log, "Garbled PacketSize spec in qSupported response");
}
}
}
}
bool GDBRemoteCommunicationClient::GetThreadSuffixSupported() {
if (m_supports_thread_suffix == eLazyBoolCalculate) {
StringExtractorGDBRemote response;
m_supports_thread_suffix = eLazyBoolNo;
if (SendPacketAndWaitForResponse("QThreadSuffixSupported", response,
false) == PacketResult::Success) {
if (response.IsOKResponse())
m_supports_thread_suffix = eLazyBoolYes;
}
}
return m_supports_thread_suffix;
}
bool GDBRemoteCommunicationClient::GetVContSupported(char flavor) {
if (m_supports_vCont_c == eLazyBoolCalculate) {
StringExtractorGDBRemote response;
m_supports_vCont_any = eLazyBoolNo;
m_supports_vCont_all = eLazyBoolNo;
m_supports_vCont_c = eLazyBoolNo;
m_supports_vCont_C = eLazyBoolNo;
m_supports_vCont_s = eLazyBoolNo;
m_supports_vCont_S = eLazyBoolNo;
if (SendPacketAndWaitForResponse("vCont?", response, false) ==
PacketResult::Success) {
const char *response_cstr = response.GetStringRef().data();
if (::strstr(response_cstr, ";c"))
m_supports_vCont_c = eLazyBoolYes;
if (::strstr(response_cstr, ";C"))
m_supports_vCont_C = eLazyBoolYes;
if (::strstr(response_cstr, ";s"))
m_supports_vCont_s = eLazyBoolYes;
if (::strstr(response_cstr, ";S"))
m_supports_vCont_S = eLazyBoolYes;
if (m_supports_vCont_c == eLazyBoolYes &&
m_supports_vCont_C == eLazyBoolYes &&
m_supports_vCont_s == eLazyBoolYes &&
m_supports_vCont_S == eLazyBoolYes) {
m_supports_vCont_all = eLazyBoolYes;
}
if (m_supports_vCont_c == eLazyBoolYes ||
m_supports_vCont_C == eLazyBoolYes ||
m_supports_vCont_s == eLazyBoolYes ||
m_supports_vCont_S == eLazyBoolYes) {
m_supports_vCont_any = eLazyBoolYes;
}
}
}
switch (flavor) {
case 'a':
return m_supports_vCont_any;
case 'A':
return m_supports_vCont_all;
case 'c':
return m_supports_vCont_c;
case 'C':
return m_supports_vCont_C;
case 's':
return m_supports_vCont_s;
case 'S':
return m_supports_vCont_S;
default:
break;
}
return false;
}
GDBRemoteCommunication::PacketResult
GDBRemoteCommunicationClient::SendThreadSpecificPacketAndWaitForResponse(
lldb::tid_t tid, StreamString &&payload, StringExtractorGDBRemote &response,
bool send_async) {
Lock lock(*this, send_async);
if (!lock) {
if (Log *log = ProcessGDBRemoteLog::GetLogIfAnyCategoryIsSet(
GDBR_LOG_PROCESS | GDBR_LOG_PACKETS))
LLDB_LOGF(log,
"GDBRemoteCommunicationClient::%s: Didn't get sequence mutex "
"for %s packet.",
__FUNCTION__, payload.GetData());
return PacketResult::ErrorNoSequenceLock;
}
if (GetThreadSuffixSupported())
payload.Printf(";thread:%4.4" PRIx64 ";", tid);
else {
if (!SetCurrentThread(tid))
return PacketResult::ErrorSendFailed;
}
return SendPacketAndWaitForResponseNoLock(payload.GetString(), response);
}
// Check if the target supports 'p' packet. It sends out a 'p' packet and
// checks the response. A normal packet will tell us that support is available.
//
// Takes a valid thread ID because p needs to apply to a thread.
bool GDBRemoteCommunicationClient::GetpPacketSupported(lldb::tid_t tid) {
if (m_supports_p == eLazyBoolCalculate)
m_supports_p = GetThreadPacketSupported(tid, "p0");
return m_supports_p;
}
LazyBool GDBRemoteCommunicationClient::GetThreadPacketSupported(
lldb::tid_t tid, llvm::StringRef packetStr) {
StreamString payload;
payload.PutCString(packetStr);
StringExtractorGDBRemote response;
if (SendThreadSpecificPacketAndWaitForResponse(
tid, std::move(payload), response, false) == PacketResult::Success &&
response.IsNormalResponse()) {
return eLazyBoolYes;
}
return eLazyBoolNo;
}
StructuredData::ObjectSP GDBRemoteCommunicationClient::GetThreadsInfo() {
// Get information on all threads at one using the "jThreadsInfo" packet
StructuredData::ObjectSP object_sp;
if (m_supports_jThreadsInfo) {
StringExtractorGDBRemote response;
response.SetResponseValidatorToJSON();
if (SendPacketAndWaitForResponse("jThreadsInfo", response, false) ==
PacketResult::Success) {
if (response.IsUnsupportedResponse()) {
m_supports_jThreadsInfo = false;
} else if (!response.Empty()) {
object_sp =
StructuredData::ParseJSON(std::string(response.GetStringRef()));
}
}
}
return object_sp;
}
bool GDBRemoteCommunicationClient::GetThreadExtendedInfoSupported() {
if (m_supports_jThreadExtendedInfo == eLazyBoolCalculate) {
StringExtractorGDBRemote response;
m_supports_jThreadExtendedInfo = eLazyBoolNo;
if (SendPacketAndWaitForResponse("jThreadExtendedInfo:", response, false) ==
PacketResult::Success) {
if (response.IsOKResponse()) {
m_supports_jThreadExtendedInfo = eLazyBoolYes;
}
}
}
return m_supports_jThreadExtendedInfo;
}
void GDBRemoteCommunicationClient::EnableErrorStringInPacket() {
if (m_supports_error_string_reply == eLazyBoolCalculate) {
StringExtractorGDBRemote response;
// We try to enable error strings in remote packets but if we fail, we just
// work in the older way.
m_supports_error_string_reply = eLazyBoolNo;
if (SendPacketAndWaitForResponse("QEnableErrorStrings", response, false) ==
PacketResult::Success) {
if (response.IsOKResponse()) {
m_supports_error_string_reply = eLazyBoolYes;
}
}
}
}
bool GDBRemoteCommunicationClient::GetLoadedDynamicLibrariesInfosSupported() {
if (m_supports_jLoadedDynamicLibrariesInfos == eLazyBoolCalculate) {
StringExtractorGDBRemote response;
m_supports_jLoadedDynamicLibrariesInfos = eLazyBoolNo;
if (SendPacketAndWaitForResponse("jGetLoadedDynamicLibrariesInfos:",
response,
false) == PacketResult::Success) {
if (response.IsOKResponse()) {
m_supports_jLoadedDynamicLibrariesInfos = eLazyBoolYes;
}
}
}
return m_supports_jLoadedDynamicLibrariesInfos;
}
bool GDBRemoteCommunicationClient::GetSharedCacheInfoSupported() {
if (m_supports_jGetSharedCacheInfo == eLazyBoolCalculate) {
StringExtractorGDBRemote response;
m_supports_jGetSharedCacheInfo = eLazyBoolNo;
if (SendPacketAndWaitForResponse("jGetSharedCacheInfo:", response, false) ==
PacketResult::Success) {
if (response.IsOKResponse()) {
m_supports_jGetSharedCacheInfo = eLazyBoolYes;
}
}
}
return m_supports_jGetSharedCacheInfo;
}
bool GDBRemoteCommunicationClient::GetxPacketSupported() {
if (m_supports_x == eLazyBoolCalculate) {
StringExtractorGDBRemote response;
m_supports_x = eLazyBoolNo;
char packet[256];
snprintf(packet, sizeof(packet), "x0,0");
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
m_supports_x = eLazyBoolYes;
}
}
return m_supports_x;
}
GDBRemoteCommunicationClient::PacketResult
GDBRemoteCommunicationClient::SendPacketsAndConcatenateResponses(
const char *payload_prefix, std::string &response_string) {
Lock lock(*this, false);
if (!lock) {
Log *log(ProcessGDBRemoteLog::GetLogIfAnyCategoryIsSet(GDBR_LOG_PROCESS |
GDBR_LOG_PACKETS));
LLDB_LOGF(log,
"error: failed to get packet sequence mutex, not sending "
"packets with prefix '%s'",
payload_prefix);
return PacketResult::ErrorNoSequenceLock;
}
response_string = "";
std::string payload_prefix_str(payload_prefix);
unsigned int response_size = 0x1000;
if (response_size > GetRemoteMaxPacketSize()) { // May send qSupported packet
response_size = GetRemoteMaxPacketSize();
}
for (unsigned int offset = 0; true; offset += response_size) {
StringExtractorGDBRemote this_response;
// Construct payload
char sizeDescriptor[128];
snprintf(sizeDescriptor, sizeof(sizeDescriptor), "%x,%x", offset,
response_size);
PacketResult result = SendPacketAndWaitForResponseNoLock(
payload_prefix_str + sizeDescriptor, this_response);
if (result != PacketResult::Success)
return result;
const std::string &this_string = std::string(this_response.GetStringRef());
// Check for m or l as first character; l seems to mean this is the last
// chunk
char first_char = *this_string.c_str();
if (first_char != 'm' && first_char != 'l') {
return PacketResult::ErrorReplyInvalid;
}
// Concatenate the result so far (skipping 'm' or 'l')
response_string.append(this_string, 1, std::string::npos);
if (first_char == 'l')
// We're done
return PacketResult::Success;
}
}
lldb::pid_t GDBRemoteCommunicationClient::GetCurrentProcessID(bool allow_lazy) {
if (allow_lazy && m_curr_pid_is_valid == eLazyBoolYes)
return m_curr_pid;
// First try to retrieve the pid via the qProcessInfo request.
GetCurrentProcessInfo(allow_lazy);
if (m_curr_pid_is_valid == eLazyBoolYes) {
// We really got it.
return m_curr_pid;
} else {
// If we don't get a response for qProcessInfo, check if $qC gives us a
// result. $qC only returns a real process id on older debugserver and
// lldb-platform stubs. The gdb remote protocol documents $qC as returning
// the thread id, which newer debugserver and lldb-gdbserver stubs return
// correctly.
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("qC", response, false) ==
PacketResult::Success) {
if (response.GetChar() == 'Q') {
if (response.GetChar() == 'C') {
m_curr_pid = response.GetHexMaxU32(false, LLDB_INVALID_PROCESS_ID);
if (m_curr_pid != LLDB_INVALID_PROCESS_ID) {
m_curr_pid_is_valid = eLazyBoolYes;
return m_curr_pid;
}
}
}
}
// If we don't get a response for $qC, check if $qfThreadID gives us a
// result.
if (m_curr_pid == LLDB_INVALID_PROCESS_ID) {
std::vector<lldb::tid_t> thread_ids;
bool sequence_mutex_unavailable;
size_t size;
size = GetCurrentThreadIDs(thread_ids, sequence_mutex_unavailable);
if (size && !sequence_mutex_unavailable) {
m_curr_pid = thread_ids.front();
m_curr_pid_is_valid = eLazyBoolYes;
return m_curr_pid;
}
}
}
return LLDB_INVALID_PROCESS_ID;
}
bool GDBRemoteCommunicationClient::GetLaunchSuccess(std::string &error_str) {
error_str.clear();
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("qLaunchSuccess", response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
return true;
if (response.GetChar() == 'E') {
// A string the describes what failed when launching...
error_str = std::string(response.GetStringRef().substr(1));
} else {
error_str.assign("unknown error occurred launching process");
}
} else {
error_str.assign("timed out waiting for app to launch");
}
return false;
}
int GDBRemoteCommunicationClient::SendArgumentsPacket(
const ProcessLaunchInfo &launch_info) {
// Since we don't get the send argv0 separate from the executable path, we
// need to make sure to use the actual executable path found in the
// launch_info...
std::vector<const char *> argv;
FileSpec exe_file = launch_info.GetExecutableFile();
std::string exe_path;
const char *arg = nullptr;
const Args &launch_args = launch_info.GetArguments();
if (exe_file)
exe_path = exe_file.GetPath(false);
else {
arg = launch_args.GetArgumentAtIndex(0);
if (arg)
exe_path = arg;
}
if (!exe_path.empty()) {
argv.push_back(exe_path.c_str());
for (uint32_t i = 1; (arg = launch_args.GetArgumentAtIndex(i)) != nullptr;
++i) {
if (arg)
argv.push_back(arg);
}
}
if (!argv.empty()) {
StreamString packet;
packet.PutChar('A');
for (size_t i = 0, n = argv.size(); i < n; ++i) {
arg = argv[i];
const int arg_len = strlen(arg);
if (i > 0)
packet.PutChar(',');
packet.Printf("%i,%i,", arg_len * 2, (int)i);
packet.PutBytesAsRawHex8(arg, arg_len);
}
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
return 0;
uint8_t error = response.GetError();
if (error)
return error;
}
}
return -1;
}
int GDBRemoteCommunicationClient::SendEnvironment(const Environment &env) {
for (const auto &KV : env) {
int r = SendEnvironmentPacket(Environment::compose(KV).c_str());
if (r != 0)
return r;
}
return 0;
}
int GDBRemoteCommunicationClient::SendEnvironmentPacket(
char const *name_equal_value) {
if (name_equal_value && name_equal_value[0]) {
StreamString packet;
bool send_hex_encoding = false;
for (const char *p = name_equal_value; *p != '\0' && !send_hex_encoding;
++p) {
if (llvm::isPrint(*p)) {
switch (*p) {
case '$':
case '#':
case '*':
case '}':
send_hex_encoding = true;
break;
default:
break;
}
} else {
// We have non printable characters, lets hex encode this...
send_hex_encoding = true;
}
}
StringExtractorGDBRemote response;
if (send_hex_encoding) {
if (m_supports_QEnvironmentHexEncoded) {
packet.PutCString("QEnvironmentHexEncoded:");
packet.PutBytesAsRawHex8(name_equal_value, strlen(name_equal_value));
if (SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
return 0;
uint8_t error = response.GetError();
if (error)
return error;
if (response.IsUnsupportedResponse())
m_supports_QEnvironmentHexEncoded = false;
}
}
} else if (m_supports_QEnvironment) {
packet.Printf("QEnvironment:%s", name_equal_value);
if (SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
return 0;
uint8_t error = response.GetError();
if (error)
return error;
if (response.IsUnsupportedResponse())
m_supports_QEnvironment = false;
}
}
}
return -1;
}
int GDBRemoteCommunicationClient::SendLaunchArchPacket(char const *arch) {
if (arch && arch[0]) {
StreamString packet;
packet.Printf("QLaunchArch:%s", arch);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
return 0;
uint8_t error = response.GetError();
if (error)
return error;
}
}
return -1;
}
int GDBRemoteCommunicationClient::SendLaunchEventDataPacket(
char const *data, bool *was_supported) {
if (data && *data != '\0') {
StreamString packet;
packet.Printf("QSetProcessEvent:%s", data);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
PacketResult::Success) {
if (response.IsOKResponse()) {
if (was_supported)
*was_supported = true;
return 0;
} else if (response.IsUnsupportedResponse()) {
if (was_supported)
*was_supported = false;
return -1;
} else {
uint8_t error = response.GetError();
if (was_supported)
*was_supported = true;
if (error)
return error;
}
}
}
return -1;
}
llvm::VersionTuple GDBRemoteCommunicationClient::GetOSVersion() {
GetHostInfo();
return m_os_version;
}
llvm::VersionTuple GDBRemoteCommunicationClient::GetMacCatalystVersion() {
GetHostInfo();
return m_maccatalyst_version;
}
bool GDBRemoteCommunicationClient::GetOSBuildString(std::string &s) {
if (GetHostInfo()) {
if (!m_os_build.empty()) {
s = m_os_build;
return true;
}
}
s.clear();
return false;
}
bool GDBRemoteCommunicationClient::GetOSKernelDescription(std::string &s) {
if (GetHostInfo()) {
if (!m_os_kernel.empty()) {
s = m_os_kernel;
return true;
}
}
s.clear();
return false;
}
bool GDBRemoteCommunicationClient::GetHostname(std::string &s) {
if (GetHostInfo()) {
if (!m_hostname.empty()) {
s = m_hostname;
return true;
}
}
s.clear();
return false;
}
ArchSpec GDBRemoteCommunicationClient::GetSystemArchitecture() {
if (GetHostInfo())
return m_host_arch;
return ArchSpec();
}
const lldb_private::ArchSpec &
GDBRemoteCommunicationClient::GetProcessArchitecture() {
if (m_qProcessInfo_is_valid == eLazyBoolCalculate)
GetCurrentProcessInfo();
return m_process_arch;
}
bool GDBRemoteCommunicationClient::GetGDBServerVersion() {
if (m_qGDBServerVersion_is_valid == eLazyBoolCalculate) {
m_gdb_server_name.clear();
m_gdb_server_version = 0;
m_qGDBServerVersion_is_valid = eLazyBoolNo;
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("qGDBServerVersion", response, false) ==
PacketResult::Success) {
if (response.IsNormalResponse()) {
llvm::StringRef name, value;
bool success = false;
while (response.GetNameColonValue(name, value)) {
if (name.equals("name")) {
success = true;
m_gdb_server_name = std::string(value);
} else if (name.equals("version")) {
llvm::StringRef major, minor;
std::tie(major, minor) = value.split('.');
if (!major.getAsInteger(0, m_gdb_server_version))
success = true;
}
}
if (success)
m_qGDBServerVersion_is_valid = eLazyBoolYes;
}
}
}
return m_qGDBServerVersion_is_valid == eLazyBoolYes;
}
void GDBRemoteCommunicationClient::MaybeEnableCompression(
std::vector<std::string> supported_compressions) {
CompressionType avail_type = CompressionType::None;
std::string avail_name;
#if defined(HAVE_LIBCOMPRESSION)
if (avail_type == CompressionType::None) {
for (auto compression : supported_compressions) {
if (compression == "lzfse") {
avail_type = CompressionType::LZFSE;
avail_name = compression;
break;
}
}
}
#endif
#if defined(HAVE_LIBCOMPRESSION)
if (avail_type == CompressionType::None) {
for (auto compression : supported_compressions) {
if (compression == "zlib-deflate") {
avail_type = CompressionType::ZlibDeflate;
avail_name = compression;
break;
}
}
}
#endif
#if LLVM_ENABLE_ZLIB
if (avail_type == CompressionType::None) {
for (auto compression : supported_compressions) {
if (compression == "zlib-deflate") {
avail_type = CompressionType::ZlibDeflate;
avail_name = compression;
break;
}
}
}
#endif
#if defined(HAVE_LIBCOMPRESSION)
if (avail_type == CompressionType::None) {
for (auto compression : supported_compressions) {
if (compression == "lz4") {
avail_type = CompressionType::LZ4;
avail_name = compression;
break;
}
}
}
#endif
#if defined(HAVE_LIBCOMPRESSION)
if (avail_type == CompressionType::None) {
for (auto compression : supported_compressions) {
if (compression == "lzma") {
avail_type = CompressionType::LZMA;
avail_name = compression;
break;
}
}
}
#endif
if (avail_type != CompressionType::None) {
StringExtractorGDBRemote response;
std::string packet = "QEnableCompression:type:" + avail_name + ";";
if (SendPacketAndWaitForResponse(packet, response, false) !=
PacketResult::Success)
return;
if (response.IsOKResponse()) {
m_compression_type = avail_type;
}
}
}
const char *GDBRemoteCommunicationClient::GetGDBServerProgramName() {
if (GetGDBServerVersion()) {
if (!m_gdb_server_name.empty())
return m_gdb_server_name.c_str();
}
return nullptr;
}
uint32_t GDBRemoteCommunicationClient::GetGDBServerProgramVersion() {
if (GetGDBServerVersion())
return m_gdb_server_version;
return 0;
}
bool GDBRemoteCommunicationClient::GetDefaultThreadId(lldb::tid_t &tid) {
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("qC", response, false) !=
PacketResult::Success)
return false;
if (!response.IsNormalResponse())
return false;
if (response.GetChar() == 'Q' && response.GetChar() == 'C')
tid = response.GetHexMaxU32(true, -1);
return true;
}
static void ParseOSType(llvm::StringRef value, std::string &os_name,
std::string &environment) {
if (value.equals("iossimulator") || value.equals("tvossimulator") ||
value.equals("watchossimulator")) {
environment = "simulator";
os_name = value.drop_back(environment.size()).str();
} else if (value.equals("maccatalyst")) {
os_name = "ios";
environment = "macabi";
} else {
os_name = value.str();
}
}
bool GDBRemoteCommunicationClient::GetHostInfo(bool force) {
Log *log(ProcessGDBRemoteLog::GetLogIfAnyCategoryIsSet(GDBR_LOG_PROCESS));
if (force || m_qHostInfo_is_valid == eLazyBoolCalculate) {
// host info computation can require DNS traffic and shelling out to external processes.
// Increase the timeout to account for that.
ScopedTimeout timeout(*this, seconds(10));
m_qHostInfo_is_valid = eLazyBoolNo;
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("qHostInfo", response, false) ==
PacketResult::Success) {
if (response.IsNormalResponse()) {
llvm::StringRef name;
llvm::StringRef value;
uint32_t cpu = LLDB_INVALID_CPUTYPE;
uint32_t sub = 0;
std::string arch_name;
std::string os_name;
std::string environment;
std::string vendor_name;
std::string triple;
std::string distribution_id;
uint32_t pointer_byte_size = 0;
ByteOrder byte_order = eByteOrderInvalid;
uint32_t num_keys_decoded = 0;
while (response.GetNameColonValue(name, value)) {
if (name.equals("cputype")) {
// exception type in big endian hex
if (!value.getAsInteger(0, cpu))
++num_keys_decoded;
} else if (name.equals("cpusubtype")) {
// exception count in big endian hex
if (!value.getAsInteger(0, sub))
++num_keys_decoded;
} else if (name.equals("arch")) {
arch_name = std::string(value);
++num_keys_decoded;
} else if (name.equals("triple")) {
StringExtractor extractor(value);
extractor.GetHexByteString(triple);
++num_keys_decoded;
} else if (name.equals("distribution_id")) {
StringExtractor extractor(value);
extractor.GetHexByteString(distribution_id);
++num_keys_decoded;
} else if (name.equals("os_build")) {
StringExtractor extractor(value);
extractor.GetHexByteString(m_os_build);
++num_keys_decoded;
} else if (name.equals("hostname")) {
StringExtractor extractor(value);
extractor.GetHexByteString(m_hostname);
++num_keys_decoded;
} else if (name.equals("os_kernel")) {
StringExtractor extractor(value);
extractor.GetHexByteString(m_os_kernel);
++num_keys_decoded;
} else if (name.equals("ostype")) {
ParseOSType(value, os_name, environment);
++num_keys_decoded;
} else if (name.equals("vendor")) {
vendor_name = std::string(value);
++num_keys_decoded;
} else if (name.equals("endian")) {
byte_order = llvm::StringSwitch<lldb::ByteOrder>(value)
.Case("little", eByteOrderLittle)
.Case("big", eByteOrderBig)
.Case("pdp", eByteOrderPDP)
.Default(eByteOrderInvalid);
if (byte_order != eByteOrderInvalid)
++num_keys_decoded;
} else if (name.equals("ptrsize")) {
if (!value.getAsInteger(0, pointer_byte_size))
++num_keys_decoded;
} else if (name.equals("os_version") ||
name.equals(
"version")) // Older debugserver binaries used the
// "version" key instead of
// "os_version"...
{
if (!m_os_version.tryParse(value))
++num_keys_decoded;
} else if (name.equals("maccatalyst_version")) {
if (!m_maccatalyst_version.tryParse(value))
++num_keys_decoded;
} else if (name.equals("watchpoint_exceptions_received")) {
m_watchpoints_trigger_after_instruction =
llvm::StringSwitch<LazyBool>(value)
.Case("before", eLazyBoolNo)
.Case("after", eLazyBoolYes)
.Default(eLazyBoolCalculate);
if (m_watchpoints_trigger_after_instruction != eLazyBoolCalculate)
++num_keys_decoded;
} else if (name.equals("default_packet_timeout")) {
uint32_t timeout_seconds;
if (!value.getAsInteger(0, timeout_seconds)) {
m_default_packet_timeout = seconds(timeout_seconds);
SetPacketTimeout(m_default_packet_timeout);
++num_keys_decoded;
}
}
}
if (num_keys_decoded > 0)
m_qHostInfo_is_valid = eLazyBoolYes;
if (triple.empty()) {
if (arch_name.empty()) {
if (cpu != LLDB_INVALID_CPUTYPE) {
m_host_arch.SetArchitecture(eArchTypeMachO, cpu, sub);
if (pointer_byte_size) {
assert(pointer_byte_size == m_host_arch.GetAddressByteSize());
}
if (byte_order != eByteOrderInvalid) {
assert(byte_order == m_host_arch.GetByteOrder());
}
if (!vendor_name.empty())
m_host_arch.GetTriple().setVendorName(
llvm::StringRef(vendor_name));
if (!os_name.empty())
m_host_arch.GetTriple().setOSName(llvm::StringRef(os_name));
if (!environment.empty())
m_host_arch.GetTriple().setEnvironmentName(environment);
}
} else {
std::string triple;
triple += arch_name;
if (!vendor_name.empty() || !os_name.empty()) {
triple += '-';
if (vendor_name.empty())
triple += "unknown";
else
triple += vendor_name;
triple += '-';
if (os_name.empty())
triple += "unknown";
else
triple += os_name;
}
m_host_arch.SetTriple(triple.c_str());
llvm::Triple &host_triple = m_host_arch.GetTriple();
if (host_triple.getVendor() == llvm::Triple::Apple &&
host_triple.getOS() == llvm::Triple::Darwin) {
switch (m_host_arch.GetMachine()) {
case llvm::Triple::aarch64:
case llvm::Triple::aarch64_32:
case llvm::Triple::arm:
case llvm::Triple::thumb:
host_triple.setOS(llvm::Triple::IOS);
break;
default:
host_triple.setOS(llvm::Triple::MacOSX);
break;
}
}
if (pointer_byte_size) {
assert(pointer_byte_size == m_host_arch.GetAddressByteSize());
}
if (byte_order != eByteOrderInvalid) {
assert(byte_order == m_host_arch.GetByteOrder());
}
}
} else {
m_host_arch.SetTriple(triple.c_str());
if (pointer_byte_size) {
assert(pointer_byte_size == m_host_arch.GetAddressByteSize());
}
if (byte_order != eByteOrderInvalid) {
assert(byte_order == m_host_arch.GetByteOrder());
}
LLDB_LOGF(log,
"GDBRemoteCommunicationClient::%s parsed host "
"architecture as %s, triple as %s from triple text %s",
__FUNCTION__,
m_host_arch.GetArchitectureName()
? m_host_arch.GetArchitectureName()
: "<null-arch-name>",
m_host_arch.GetTriple().getTriple().c_str(),
triple.c_str());
}
if (!distribution_id.empty())
m_host_arch.SetDistributionId(distribution_id.c_str());
}
}
}
return m_qHostInfo_is_valid == eLazyBoolYes;
}
int GDBRemoteCommunicationClient::SendAttach(
lldb::pid_t pid, StringExtractorGDBRemote &response) {
if (pid != LLDB_INVALID_PROCESS_ID) {
char packet[64];
const int packet_len =
::snprintf(packet, sizeof(packet), "vAttach;%" PRIx64, pid);
UNUSED_IF_ASSERT_DISABLED(packet_len);
assert(packet_len < (int)sizeof(packet));
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success) {
if (response.IsErrorResponse())
return response.GetError();
return 0;
}
}
return -1;
}
int GDBRemoteCommunicationClient::SendStdinNotification(const char *data,
size_t data_len) {
StreamString packet;
packet.PutCString("I");
packet.PutBytesAsRawHex8(data, data_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
PacketResult::Success) {
return 0;
}
return response.GetError();
}
const lldb_private::ArchSpec &
GDBRemoteCommunicationClient::GetHostArchitecture() {
if (m_qHostInfo_is_valid == eLazyBoolCalculate)
GetHostInfo();
return m_host_arch;
}
seconds GDBRemoteCommunicationClient::GetHostDefaultPacketTimeout() {
if (m_qHostInfo_is_valid == eLazyBoolCalculate)
GetHostInfo();
return m_default_packet_timeout;
}
addr_t GDBRemoteCommunicationClient::AllocateMemory(size_t size,
uint32_t permissions) {
if (m_supports_alloc_dealloc_memory != eLazyBoolNo) {
m_supports_alloc_dealloc_memory = eLazyBoolYes;
char packet[64];
const int packet_len = ::snprintf(
packet, sizeof(packet), "_M%" PRIx64 ",%s%s%s", (uint64_t)size,
permissions & lldb::ePermissionsReadable ? "r" : "",
permissions & lldb::ePermissionsWritable ? "w" : "",
permissions & lldb::ePermissionsExecutable ? "x" : "");
assert(packet_len < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success) {
if (response.IsUnsupportedResponse())
m_supports_alloc_dealloc_memory = eLazyBoolNo;
else if (!response.IsErrorResponse())
return response.GetHexMaxU64(false, LLDB_INVALID_ADDRESS);
} else {
m_supports_alloc_dealloc_memory = eLazyBoolNo;
}
}
return LLDB_INVALID_ADDRESS;
}
bool GDBRemoteCommunicationClient::DeallocateMemory(addr_t addr) {
if (m_supports_alloc_dealloc_memory != eLazyBoolNo) {
m_supports_alloc_dealloc_memory = eLazyBoolYes;
char packet[64];
const int packet_len =
::snprintf(packet, sizeof(packet), "_m%" PRIx64, (uint64_t)addr);
assert(packet_len < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success) {
if (response.IsUnsupportedResponse())
m_supports_alloc_dealloc_memory = eLazyBoolNo;
else if (response.IsOKResponse())
return true;
} else {
m_supports_alloc_dealloc_memory = eLazyBoolNo;
}
}
return false;
}
Status GDBRemoteCommunicationClient::Detach(bool keep_stopped) {
Status error;
if (keep_stopped) {
if (m_supports_detach_stay_stopped == eLazyBoolCalculate) {
char packet[64];
const int packet_len =
::snprintf(packet, sizeof(packet), "qSupportsDetachAndStayStopped:");
assert(packet_len < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success &&
response.IsOKResponse()) {
m_supports_detach_stay_stopped = eLazyBoolYes;
} else {
m_supports_detach_stay_stopped = eLazyBoolNo;
}
}
if (m_supports_detach_stay_stopped == eLazyBoolNo) {
error.SetErrorString("Stays stopped not supported by this target.");
return error;
} else {
StringExtractorGDBRemote response;
PacketResult packet_result =
SendPacketAndWaitForResponse("D1", response, false);
if (packet_result != PacketResult::Success)
error.SetErrorString("Sending extended disconnect packet failed.");
}
} else {
StringExtractorGDBRemote response;
PacketResult packet_result =
SendPacketAndWaitForResponse("D", response, false);
if (packet_result != PacketResult::Success)
error.SetErrorString("Sending disconnect packet failed.");
}
return error;
}
Status GDBRemoteCommunicationClient::GetMemoryRegionInfo(
lldb::addr_t addr, lldb_private::MemoryRegionInfo ®ion_info) {
Status error;
region_info.Clear();
if (m_supports_memory_region_info != eLazyBoolNo) {
m_supports_memory_region_info = eLazyBoolYes;
char packet[64];
const int packet_len = ::snprintf(
packet, sizeof(packet), "qMemoryRegionInfo:%" PRIx64, (uint64_t)addr);
assert(packet_len < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success &&
response.GetResponseType() == StringExtractorGDBRemote::eResponse) {
llvm::StringRef name;
llvm::StringRef value;
addr_t addr_value = LLDB_INVALID_ADDRESS;
bool success = true;
bool saw_permissions = false;
while (success && response.GetNameColonValue(name, value)) {
if (name.equals("start")) {
if (!value.getAsInteger(16, addr_value))
region_info.GetRange().SetRangeBase(addr_value);
} else if (name.equals("size")) {
if (!value.getAsInteger(16, addr_value))
region_info.GetRange().SetByteSize(addr_value);
} else if (name.equals("permissions") &&
region_info.GetRange().IsValid()) {
saw_permissions = true;
if (region_info.GetRange().Contains(addr)) {
if (value.find('r') != llvm::StringRef::npos)
region_info.SetReadable(MemoryRegionInfo::eYes);
else
region_info.SetReadable(MemoryRegionInfo::eNo);
if (value.find('w') != llvm::StringRef::npos)
region_info.SetWritable(MemoryRegionInfo::eYes);
else
region_info.SetWritable(MemoryRegionInfo::eNo);
if (value.find('x') != llvm::StringRef::npos)
region_info.SetExecutable(MemoryRegionInfo::eYes);
else
region_info.SetExecutable(MemoryRegionInfo::eNo);
region_info.SetMapped(MemoryRegionInfo::eYes);
} else {
// The reported region does not contain this address -- we're
// looking at an unmapped page
region_info.SetReadable(MemoryRegionInfo::eNo);
region_info.SetWritable(MemoryRegionInfo::eNo);
region_info.SetExecutable(MemoryRegionInfo::eNo);
region_info.SetMapped(MemoryRegionInfo::eNo);
}
} else if (name.equals("name")) {
StringExtractorGDBRemote name_extractor(value);
std::string name;
name_extractor.GetHexByteString(name);
region_info.SetName(name.c_str());
} else if (name.equals("error")) {
StringExtractorGDBRemote error_extractor(value);
std::string error_string;
// Now convert the HEX bytes into a string value
error_extractor.GetHexByteString(error_string);
error.SetErrorString(error_string.c_str());
}
}
if (region_info.GetRange().IsValid()) {
// We got a valid address range back but no permissions -- which means
// this is an unmapped page
if (!saw_permissions) {
region_info.SetReadable(MemoryRegionInfo::eNo);
region_info.SetWritable(MemoryRegionInfo::eNo);
region_info.SetExecutable(MemoryRegionInfo::eNo);
region_info.SetMapped(MemoryRegionInfo::eNo);
}
} else {
// We got an invalid address range back
error.SetErrorString("Server returned invalid range");
}
} else {
m_supports_memory_region_info = eLazyBoolNo;
}
}
if (m_supports_memory_region_info == eLazyBoolNo) {
error.SetErrorString("qMemoryRegionInfo is not supported");
}
// Try qXfer:memory-map:read to get region information not included in
// qMemoryRegionInfo
MemoryRegionInfo qXfer_region_info;
Status qXfer_error = GetQXferMemoryMapRegionInfo(addr, qXfer_region_info);
if (error.Fail()) {
// If qMemoryRegionInfo failed, but qXfer:memory-map:read succeeded, use
// the qXfer result as a fallback
if (qXfer_error.Success()) {
region_info = qXfer_region_info;
error.Clear();
} else {
region_info.Clear();
}
} else if (qXfer_error.Success()) {
// If both qMemoryRegionInfo and qXfer:memory-map:read succeeded, and if
// both regions are the same range, update the result to include the flash-
// memory information that is specific to the qXfer result.
if (region_info.GetRange() == qXfer_region_info.GetRange()) {
region_info.SetFlash(qXfer_region_info.GetFlash());
region_info.SetBlocksize(qXfer_region_info.GetBlocksize());
}
}
return error;
}
Status GDBRemoteCommunicationClient::GetQXferMemoryMapRegionInfo(
lldb::addr_t addr, MemoryRegionInfo ®ion) {
Status error = LoadQXferMemoryMap();
if (!error.Success())
return error;
for (const auto &map_region : m_qXfer_memory_map) {
if (map_region.GetRange().Contains(addr)) {
region = map_region;
return error;
}
}
error.SetErrorString("Region not found");
return error;
}
Status GDBRemoteCommunicationClient::LoadQXferMemoryMap() {
Status error;
if (m_qXfer_memory_map_loaded)
// Already loaded, return success
return error;
if (!XMLDocument::XMLEnabled()) {
error.SetErrorString("XML is not supported");
return error;
}
if (!GetQXferMemoryMapReadSupported()) {
error.SetErrorString("Memory map is not supported");
return error;
}
std::string xml;
lldb_private::Status lldberr;
if (!ReadExtFeature(ConstString("memory-map"), ConstString(""), xml,
lldberr)) {
error.SetErrorString("Failed to read memory map");
return error;
}
XMLDocument xml_document;
if (!xml_document.ParseMemory(xml.c_str(), xml.size())) {
error.SetErrorString("Failed to parse memory map xml");
return error;
}
XMLNode map_node = xml_document.GetRootElement("memory-map");
if (!map_node) {
error.SetErrorString("Invalid root node in memory map xml");
return error;
}
m_qXfer_memory_map.clear();
map_node.ForEachChildElement([this](const XMLNode &memory_node) -> bool {
if (!memory_node.IsElement())
return true;
if (memory_node.GetName() != "memory")
return true;
auto type = memory_node.GetAttributeValue("type", "");
uint64_t start;
uint64_t length;
if (!memory_node.GetAttributeValueAsUnsigned("start", start))
return true;
if (!memory_node.GetAttributeValueAsUnsigned("length", length))
return true;
MemoryRegionInfo region;
region.GetRange().SetRangeBase(start);
region.GetRange().SetByteSize(length);
if (type == "rom") {
region.SetReadable(MemoryRegionInfo::eYes);
this->m_qXfer_memory_map.push_back(region);
} else if (type == "ram") {
region.SetReadable(MemoryRegionInfo::eYes);
region.SetWritable(MemoryRegionInfo::eYes);
this->m_qXfer_memory_map.push_back(region);
} else if (type == "flash") {
region.SetFlash(MemoryRegionInfo::eYes);
memory_node.ForEachChildElement(
[®ion](const XMLNode &prop_node) -> bool {
if (!prop_node.IsElement())
return true;
if (prop_node.GetName() != "property")
return true;
auto propname = prop_node.GetAttributeValue("name", "");
if (propname == "blocksize") {
uint64_t blocksize;
if (prop_node.GetElementTextAsUnsigned(blocksize))
region.SetBlocksize(blocksize);
}
return true;
});
this->m_qXfer_memory_map.push_back(region);
}
return true;
});
m_qXfer_memory_map_loaded = true;
return error;
}
Status GDBRemoteCommunicationClient::GetWatchpointSupportInfo(uint32_t &num) {
Status error;
if (m_supports_watchpoint_support_info == eLazyBoolYes) {
num = m_num_supported_hardware_watchpoints;
return error;
}
// Set num to 0 first.
num = 0;
if (m_supports_watchpoint_support_info != eLazyBoolNo) {
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("qWatchpointSupportInfo:", response,
false) == PacketResult::Success) {
m_supports_watchpoint_support_info = eLazyBoolYes;
llvm::StringRef name;
llvm::StringRef value;
bool found_num_field = false;
while (response.GetNameColonValue(name, value)) {
if (name.equals("num")) {
value.getAsInteger(0, m_num_supported_hardware_watchpoints);
num = m_num_supported_hardware_watchpoints;
found_num_field = true;
}
}
if (!found_num_field) {
m_supports_watchpoint_support_info = eLazyBoolNo;
}
} else {
m_supports_watchpoint_support_info = eLazyBoolNo;
}
}
if (m_supports_watchpoint_support_info == eLazyBoolNo) {
error.SetErrorString("qWatchpointSupportInfo is not supported");
}
return error;
}
lldb_private::Status GDBRemoteCommunicationClient::GetWatchpointSupportInfo(
uint32_t &num, bool &after, const ArchSpec &arch) {
Status error(GetWatchpointSupportInfo(num));
if (error.Success())
error = GetWatchpointsTriggerAfterInstruction(after, arch);
return error;
}
lldb_private::Status
GDBRemoteCommunicationClient::GetWatchpointsTriggerAfterInstruction(
bool &after, const ArchSpec &arch) {
Status error;
llvm::Triple triple = arch.GetTriple();
// we assume watchpoints will happen after running the relevant opcode and we
// only want to override this behavior if we have explicitly received a
// qHostInfo telling us otherwise
if (m_qHostInfo_is_valid != eLazyBoolYes) {
// On targets like MIPS and ppc64, watchpoint exceptions are always
// generated before the instruction is executed. The connected target may
// not support qHostInfo or qWatchpointSupportInfo packets.
after = !(triple.isMIPS() || triple.isPPC64());
} else {
// For MIPS and ppc64, set m_watchpoints_trigger_after_instruction to
// eLazyBoolNo if it is not calculated before.
if (m_watchpoints_trigger_after_instruction == eLazyBoolCalculate &&
(triple.isMIPS() || triple.isPPC64()))
m_watchpoints_trigger_after_instruction = eLazyBoolNo;
after = (m_watchpoints_trigger_after_instruction != eLazyBoolNo);
}
return error;
}
int GDBRemoteCommunicationClient::SetSTDIN(const FileSpec &file_spec) {
if (file_spec) {
std::string path{file_spec.GetPath(false)};
StreamString packet;
packet.PutCString("QSetSTDIN:");
packet.PutStringAsRawHex8(path);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
return 0;
uint8_t error = response.GetError();
if (error)
return error;
}
}
return -1;
}
int GDBRemoteCommunicationClient::SetSTDOUT(const FileSpec &file_spec) {
if (file_spec) {
std::string path{file_spec.GetPath(false)};
StreamString packet;
packet.PutCString("QSetSTDOUT:");
packet.PutStringAsRawHex8(path);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
return 0;
uint8_t error = response.GetError();
if (error)
return error;
}
}
return -1;
}
int GDBRemoteCommunicationClient::SetSTDERR(const FileSpec &file_spec) {
if (file_spec) {
std::string path{file_spec.GetPath(false)};
StreamString packet;
packet.PutCString("QSetSTDERR:");
packet.PutStringAsRawHex8(path);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
return 0;
uint8_t error = response.GetError();
if (error)
return error;
}
}
return -1;
}
bool GDBRemoteCommunicationClient::GetWorkingDir(FileSpec &working_dir) {
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("qGetWorkingDir", response, false) ==
PacketResult::Success) {
if (response.IsUnsupportedResponse())
return false;
if (response.IsErrorResponse())
return false;
std::string cwd;
response.GetHexByteString(cwd);
working_dir.SetFile(cwd, GetHostArchitecture().GetTriple());
return !cwd.empty();
}
return false;
}
int GDBRemoteCommunicationClient::SetWorkingDir(const FileSpec &working_dir) {
if (working_dir) {
std::string path{working_dir.GetPath(false)};
StreamString packet;
packet.PutCString("QSetWorkingDir:");
packet.PutStringAsRawHex8(path);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
return 0;
uint8_t error = response.GetError();
if (error)
return error;
}
}
return -1;
}
int GDBRemoteCommunicationClient::SetDisableASLR(bool enable) {
char packet[32];
const int packet_len =
::snprintf(packet, sizeof(packet), "QSetDisableASLR:%i", enable ? 1 : 0);
assert(packet_len < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
return 0;
uint8_t error = response.GetError();
if (error)
return error;
}
return -1;
}
int GDBRemoteCommunicationClient::SetDetachOnError(bool enable) {
char packet[32];
const int packet_len = ::snprintf(packet, sizeof(packet),
"QSetDetachOnError:%i", enable ? 1 : 0);
assert(packet_len < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
return 0;
uint8_t error = response.GetError();
if (error)
return error;
}
return -1;
}
bool GDBRemoteCommunicationClient::DecodeProcessInfoResponse(
StringExtractorGDBRemote &response, ProcessInstanceInfo &process_info) {
if (response.IsNormalResponse()) {
llvm::StringRef name;
llvm::StringRef value;
StringExtractor extractor;
uint32_t cpu = LLDB_INVALID_CPUTYPE;
uint32_t sub = 0;
std::string vendor;
std::string os_type;
while (response.GetNameColonValue(name, value)) {
if (name.equals("pid")) {
lldb::pid_t pid = LLDB_INVALID_PROCESS_ID;
value.getAsInteger(0, pid);
process_info.SetProcessID(pid);
} else if (name.equals("ppid")) {
lldb::pid_t pid = LLDB_INVALID_PROCESS_ID;
value.getAsInteger(0, pid);
process_info.SetParentProcessID(pid);
} else if (name.equals("uid")) {
uint32_t uid = UINT32_MAX;
value.getAsInteger(0, uid);
process_info.SetUserID(uid);
} else if (name.equals("euid")) {
uint32_t uid = UINT32_MAX;
value.getAsInteger(0, uid);
process_info.SetEffectiveUserID(uid);
} else if (name.equals("gid")) {
uint32_t gid = UINT32_MAX;
value.getAsInteger(0, gid);
process_info.SetGroupID(gid);
} else if (name.equals("egid")) {
uint32_t gid = UINT32_MAX;
value.getAsInteger(0, gid);
process_info.SetEffectiveGroupID(gid);
} else if (name.equals("triple")) {
StringExtractor extractor(value);
std::string triple;
extractor.GetHexByteString(triple);
process_info.GetArchitecture().SetTriple(triple.c_str());
} else if (name.equals("name")) {
StringExtractor extractor(value);
// The process name from ASCII hex bytes since we can't control the
// characters in a process name
std::string name;
extractor.GetHexByteString(name);
process_info.GetExecutableFile().SetFile(name, FileSpec::Style::native);
} else if (name.equals("args")) {
llvm::StringRef encoded_args(value), hex_arg;
bool is_arg0 = true;
while (!encoded_args.empty()) {
std::tie(hex_arg, encoded_args) = encoded_args.split('-');
std::string arg;
StringExtractor extractor(hex_arg);
if (extractor.GetHexByteString(arg) * 2 != hex_arg.size()) {
// In case of wrong encoding, we discard all the arguments
process_info.GetArguments().Clear();
process_info.SetArg0("");
break;
}
if (is_arg0)
process_info.SetArg0(arg);
else
process_info.GetArguments().AppendArgument(arg);
is_arg0 = false;
}
} else if (name.equals("cputype")) {
value.getAsInteger(0, cpu);
} else if (name.equals("cpusubtype")) {
value.getAsInteger(0, sub);
} else if (name.equals("vendor")) {
vendor = std::string(value);
} else if (name.equals("ostype")) {
os_type = std::string(value);
}
}
if (cpu != LLDB_INVALID_CPUTYPE && !vendor.empty() && !os_type.empty()) {
if (vendor == "apple") {
process_info.GetArchitecture().SetArchitecture(eArchTypeMachO, cpu,
sub);
process_info.GetArchitecture().GetTriple().setVendorName(
llvm::StringRef(vendor));
process_info.GetArchitecture().GetTriple().setOSName(
llvm::StringRef(os_type));
}
}
if (process_info.GetProcessID() != LLDB_INVALID_PROCESS_ID)
return true;
}
return false;
}
bool GDBRemoteCommunicationClient::GetProcessInfo(
lldb::pid_t pid, ProcessInstanceInfo &process_info) {
process_info.Clear();
if (m_supports_qProcessInfoPID) {
char packet[32];
const int packet_len =
::snprintf(packet, sizeof(packet), "qProcessInfoPID:%" PRIu64, pid);
assert(packet_len < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success) {
return DecodeProcessInfoResponse(response, process_info);
} else {
m_supports_qProcessInfoPID = false;
return false;
}
}
return false;
}
bool GDBRemoteCommunicationClient::GetCurrentProcessInfo(bool allow_lazy) {
Log *log(ProcessGDBRemoteLog::GetLogIfAnyCategoryIsSet(GDBR_LOG_PROCESS |
GDBR_LOG_PACKETS));
if (allow_lazy) {
if (m_qProcessInfo_is_valid == eLazyBoolYes)
return true;
if (m_qProcessInfo_is_valid == eLazyBoolNo)
return false;
}
GetHostInfo();
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("qProcessInfo", response, false) ==
PacketResult::Success) {
if (response.IsNormalResponse()) {
llvm::StringRef name;
llvm::StringRef value;
uint32_t cpu = LLDB_INVALID_CPUTYPE;
uint32_t sub = 0;
std::string arch_name;
std::string os_name;
std::string environment;
std::string vendor_name;
std::string triple;
std::string elf_abi;
uint32_t pointer_byte_size = 0;
StringExtractor extractor;
ByteOrder byte_order = eByteOrderInvalid;
uint32_t num_keys_decoded = 0;
lldb::pid_t pid = LLDB_INVALID_PROCESS_ID;
while (response.GetNameColonValue(name, value)) {
if (name.equals("cputype")) {
if (!value.getAsInteger(16, cpu))
++num_keys_decoded;
} else if (name.equals("cpusubtype")) {
if (!value.getAsInteger(16, sub))
++num_keys_decoded;
} else if (name.equals("triple")) {
StringExtractor extractor(value);
extractor.GetHexByteString(triple);
++num_keys_decoded;
} else if (name.equals("ostype")) {
ParseOSType(value, os_name, environment);
++num_keys_decoded;
} else if (name.equals("vendor")) {
vendor_name = std::string(value);
++num_keys_decoded;
} else if (name.equals("endian")) {
byte_order = llvm::StringSwitch<lldb::ByteOrder>(value)
.Case("little", eByteOrderLittle)
.Case("big", eByteOrderBig)
.Case("pdp", eByteOrderPDP)
.Default(eByteOrderInvalid);
if (byte_order != eByteOrderInvalid)
++num_keys_decoded;
} else if (name.equals("ptrsize")) {
if (!value.getAsInteger(16, pointer_byte_size))
++num_keys_decoded;
} else if (name.equals("pid")) {
if (!value.getAsInteger(16, pid))
++num_keys_decoded;
} else if (name.equals("elf_abi")) {
elf_abi = std::string(value);
++num_keys_decoded;
}
}
if (num_keys_decoded > 0)
m_qProcessInfo_is_valid = eLazyBoolYes;
if (pid != LLDB_INVALID_PROCESS_ID) {
m_curr_pid_is_valid = eLazyBoolYes;
m_curr_pid = pid;
}
// Set the ArchSpec from the triple if we have it.
if (!triple.empty()) {
m_process_arch.SetTriple(triple.c_str());
m_process_arch.SetFlags(elf_abi);
if (pointer_byte_size) {
assert(pointer_byte_size == m_process_arch.GetAddressByteSize());
}
} else if (cpu != LLDB_INVALID_CPUTYPE && !os_name.empty() &&
!vendor_name.empty()) {
llvm::Triple triple(llvm::Twine("-") + vendor_name + "-" + os_name);
if (!environment.empty())
triple.setEnvironmentName(environment);
assert(triple.getObjectFormat() != llvm::Triple::UnknownObjectFormat);
assert(triple.getObjectFormat() != llvm::Triple::Wasm);
assert(triple.getObjectFormat() != llvm::Triple::XCOFF);
switch (triple.getObjectFormat()) {
case llvm::Triple::MachO:
m_process_arch.SetArchitecture(eArchTypeMachO, cpu, sub);
break;
case llvm::Triple::ELF:
m_process_arch.SetArchitecture(eArchTypeELF, cpu, sub);
break;
case llvm::Triple::COFF:
m_process_arch.SetArchitecture(eArchTypeCOFF, cpu, sub);
break;
case llvm::Triple::GOFF:
case llvm::Triple::Wasm:
case llvm::Triple::XCOFF:
LLDB_LOGF(log, "error: not supported target architecture");
return false;
case llvm::Triple::UnknownObjectFormat:
LLDB_LOGF(log, "error: failed to determine target architecture");
return false;
}
if (pointer_byte_size) {
assert(pointer_byte_size == m_process_arch.GetAddressByteSize());
}
if (byte_order != eByteOrderInvalid) {
assert(byte_order == m_process_arch.GetByteOrder());
}
m_process_arch.GetTriple().setVendorName(llvm::StringRef(vendor_name));
m_process_arch.GetTriple().setOSName(llvm::StringRef(os_name));
m_process_arch.GetTriple().setEnvironmentName(llvm::StringRef(environment));
m_host_arch.GetTriple().setVendorName(llvm::StringRef(vendor_name));
m_host_arch.GetTriple().setOSName(llvm::StringRef(os_name));
m_host_arch.GetTriple().setEnvironmentName(llvm::StringRef(environment));
}
return true;
}
} else {
m_qProcessInfo_is_valid = eLazyBoolNo;
}
return false;
}
uint32_t GDBRemoteCommunicationClient::FindProcesses(
const ProcessInstanceInfoMatch &match_info,
ProcessInstanceInfoList &process_infos) {
process_infos.clear();
if (m_supports_qfProcessInfo) {
StreamString packet;
packet.PutCString("qfProcessInfo");
if (!match_info.MatchAllProcesses()) {
packet.PutChar(':');
const char *name = match_info.GetProcessInfo().GetName();
bool has_name_match = false;
if (name && name[0]) {
has_name_match = true;
NameMatch name_match_type = match_info.GetNameMatchType();
switch (name_match_type) {
case NameMatch::Ignore:
has_name_match = false;
break;
case NameMatch::Equals:
packet.PutCString("name_match:equals;");
break;
case NameMatch::Contains:
packet.PutCString("name_match:contains;");
break;
case NameMatch::StartsWith:
packet.PutCString("name_match:starts_with;");
break;
case NameMatch::EndsWith:
packet.PutCString("name_match:ends_with;");
break;
case NameMatch::RegularExpression:
packet.PutCString("name_match:regex;");
break;
}
if (has_name_match) {
packet.PutCString("name:");
packet.PutBytesAsRawHex8(name, ::strlen(name));
packet.PutChar(';');
}
}
if (match_info.GetProcessInfo().ProcessIDIsValid())
packet.Printf("pid:%" PRIu64 ";",
match_info.GetProcessInfo().GetProcessID());
if (match_info.GetProcessInfo().ParentProcessIDIsValid())
packet.Printf("parent_pid:%" PRIu64 ";",
match_info.GetProcessInfo().GetParentProcessID());
if (match_info.GetProcessInfo().UserIDIsValid())
packet.Printf("uid:%u;", match_info.GetProcessInfo().GetUserID());
if (match_info.GetProcessInfo().GroupIDIsValid())
packet.Printf("gid:%u;", match_info.GetProcessInfo().GetGroupID());
if (match_info.GetProcessInfo().EffectiveUserIDIsValid())
packet.Printf("euid:%u;",
match_info.GetProcessInfo().GetEffectiveUserID());
if (match_info.GetProcessInfo().EffectiveGroupIDIsValid())
packet.Printf("egid:%u;",
match_info.GetProcessInfo().GetEffectiveGroupID());
packet.Printf("all_users:%u;", match_info.GetMatchAllUsers() ? 1 : 0);
if (match_info.GetProcessInfo().GetArchitecture().IsValid()) {
const ArchSpec &match_arch =
match_info.GetProcessInfo().GetArchitecture();
const llvm::Triple &triple = match_arch.GetTriple();
packet.PutCString("triple:");
packet.PutCString(triple.getTriple());
packet.PutChar(';');
}
}
StringExtractorGDBRemote response;
// Increase timeout as the first qfProcessInfo packet takes a long time on
// Android. The value of 1min was arrived at empirically.
ScopedTimeout timeout(*this, minutes(1));
if (SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
PacketResult::Success) {
do {
ProcessInstanceInfo process_info;
if (!DecodeProcessInfoResponse(response, process_info))
break;
process_infos.push_back(process_info);
response = StringExtractorGDBRemote();
} while (SendPacketAndWaitForResponse("qsProcessInfo", response, false) ==
PacketResult::Success);
} else {
m_supports_qfProcessInfo = false;
return 0;
}
}
return process_infos.size();
}
bool GDBRemoteCommunicationClient::GetUserName(uint32_t uid,
std::string &name) {
if (m_supports_qUserName) {
char packet[32];
const int packet_len =
::snprintf(packet, sizeof(packet), "qUserName:%i", uid);
assert(packet_len < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success) {
if (response.IsNormalResponse()) {
// Make sure we parsed the right number of characters. The response is
// the hex encoded user name and should make up the entire packet. If
// there are any non-hex ASCII bytes, the length won't match below..
if (response.GetHexByteString(name) * 2 ==
response.GetStringRef().size())
return true;
}
} else {
m_supports_qUserName = false;
return false;
}
}
return false;
}
bool GDBRemoteCommunicationClient::GetGroupName(uint32_t gid,
std::string &name) {
if (m_supports_qGroupName) {
char packet[32];
const int packet_len =
::snprintf(packet, sizeof(packet), "qGroupName:%i", gid);
assert(packet_len < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success) {
if (response.IsNormalResponse()) {
// Make sure we parsed the right number of characters. The response is
// the hex encoded group name and should make up the entire packet. If
// there are any non-hex ASCII bytes, the length won't match below..
if (response.GetHexByteString(name) * 2 ==
response.GetStringRef().size())
return true;
}
} else {
m_supports_qGroupName = false;
return false;
}
}
return false;
}
bool GDBRemoteCommunicationClient::SetNonStopMode(const bool enable) {
// Form non-stop packet request
char packet[32];
const int packet_len =
::snprintf(packet, sizeof(packet), "QNonStop:%1d", (int)enable);
assert(packet_len < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
// Send to target
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success)
if (response.IsOKResponse())
return true;
// Failed or not supported
return false;
}
static void MakeSpeedTestPacket(StreamString &packet, uint32_t send_size,
uint32_t recv_size) {
packet.Clear();
packet.Printf("qSpeedTest:response_size:%i;data:", recv_size);
uint32_t bytes_left = send_size;
while (bytes_left > 0) {
if (bytes_left >= 26) {
packet.PutCString("abcdefghijklmnopqrstuvwxyz");
bytes_left -= 26;
} else {
packet.Printf("%*.*s;", bytes_left, bytes_left,
"abcdefghijklmnopqrstuvwxyz");
bytes_left = 0;
}
}
}
duration<float>
calculate_standard_deviation(const std::vector<duration<float>> &v) {
using Dur = duration<float>;
Dur sum = std::accumulate(std::begin(v), std::end(v), Dur());
Dur mean = sum / v.size();
float accum = 0;
for (auto d : v) {
float delta = (d - mean).count();
accum += delta * delta;
};
return Dur(sqrtf(accum / (v.size() - 1)));
}
void GDBRemoteCommunicationClient::TestPacketSpeed(const uint32_t num_packets,
uint32_t max_send,
uint32_t max_recv,
uint64_t recv_amount,
bool json, Stream &strm) {
uint32_t i;
if (SendSpeedTestPacket(0, 0)) {
StreamString packet;
if (json)
strm.Printf("{ \"packet_speeds\" : {\n \"num_packets\" : %u,\n "
"\"results\" : [",
num_packets);
else
strm.Printf("Testing sending %u packets of various sizes:\n",
num_packets);
strm.Flush();
uint32_t result_idx = 0;
uint32_t send_size;
std::vector<duration<float>> packet_times;
for (send_size = 0; send_size <= max_send;
send_size ? send_size *= 2 : send_size = 4) {
for (uint32_t recv_size = 0; recv_size <= max_recv;
recv_size ? recv_size *= 2 : recv_size = 4) {
MakeSpeedTestPacket(packet, send_size, recv_size);
packet_times.clear();
// Test how long it takes to send 'num_packets' packets
const auto start_time = steady_clock::now();
for (i = 0; i < num_packets; ++i) {
const auto packet_start_time = steady_clock::now();
StringExtractorGDBRemote response;
SendPacketAndWaitForResponse(packet.GetString(), response, false);
const auto packet_end_time = steady_clock::now();
packet_times.push_back(packet_end_time - packet_start_time);
}
const auto end_time = steady_clock::now();
const auto total_time = end_time - start_time;
float packets_per_second =
((float)num_packets) / duration<float>(total_time).count();
auto average_per_packet = total_time / num_packets;
const duration<float> standard_deviation =
calculate_standard_deviation(packet_times);
if (json) {
strm.Format("{0}\n {{\"send_size\" : {1,6}, \"recv_size\" : "
"{2,6}, \"total_time_nsec\" : {3,12:ns-}, "
"\"standard_deviation_nsec\" : {4,9:ns-f0}}",
result_idx > 0 ? "," : "", send_size, recv_size,
total_time, standard_deviation);
++result_idx;
} else {
strm.Format("qSpeedTest(send={0,7}, recv={1,7}) in {2:s+f9} for "
"{3,9:f2} packets/s ({4,10:ms+f6} per packet) with "
"standard deviation of {5,10:ms+f6}\n",
send_size, recv_size, duration<float>(total_time),
packets_per_second, duration<float>(average_per_packet),
standard_deviation);
}
strm.Flush();
}
}
const float k_recv_amount_mb = (float)recv_amount / (1024.0f * 1024.0f);
if (json)
strm.Printf("\n ]\n },\n \"download_speed\" : {\n \"byte_size\" "
": %" PRIu64 ",\n \"results\" : [",
recv_amount);
else
strm.Printf("Testing receiving %2.1fMB of data using varying receive "
"packet sizes:\n",
k_recv_amount_mb);
strm.Flush();
send_size = 0;
result_idx = 0;
for (uint32_t recv_size = 32; recv_size <= max_recv; recv_size *= 2) {
MakeSpeedTestPacket(packet, send_size, recv_size);
// If we have a receive size, test how long it takes to receive 4MB of
// data
if (recv_size > 0) {
const auto start_time = steady_clock::now();
uint32_t bytes_read = 0;
uint32_t packet_count = 0;
while (bytes_read < recv_amount) {
StringExtractorGDBRemote response;
SendPacketAndWaitForResponse(packet.GetString(), response, false);
bytes_read += recv_size;
++packet_count;
}
const auto end_time = steady_clock::now();
const auto total_time = end_time - start_time;
float mb_second = ((float)recv_amount) /
duration<float>(total_time).count() /
(1024.0 * 1024.0);
float packets_per_second =
((float)packet_count) / duration<float>(total_time).count();
const auto average_per_packet = total_time / packet_count;
if (json) {
strm.Format("{0}\n {{\"send_size\" : {1,6}, \"recv_size\" : "
"{2,6}, \"total_time_nsec\" : {3,12:ns-}}",
result_idx > 0 ? "," : "", send_size, recv_size,
total_time);
++result_idx;
} else {
strm.Format("qSpeedTest(send={0,7}, recv={1,7}) {2,6} packets needed "
"to receive {3:f1}MB in {4:s+f9} for {5} MB/sec for "
"{6,9:f2} packets/sec ({7,10:ms+f6} per packet)\n",
send_size, recv_size, packet_count, k_recv_amount_mb,
duration<float>(total_time), mb_second,
packets_per_second, duration<float>(average_per_packet));
}
strm.Flush();
}
}
if (json)
strm.Printf("\n ]\n }\n}\n");
else
strm.EOL();
}
}
bool GDBRemoteCommunicationClient::SendSpeedTestPacket(uint32_t send_size,
uint32_t recv_size) {
StreamString packet;
packet.Printf("qSpeedTest:response_size:%i;data:", recv_size);
uint32_t bytes_left = send_size;
while (bytes_left > 0) {
if (bytes_left >= 26) {
packet.PutCString("abcdefghijklmnopqrstuvwxyz");
bytes_left -= 26;
} else {
packet.Printf("%*.*s;", bytes_left, bytes_left,
"abcdefghijklmnopqrstuvwxyz");
bytes_left = 0;
}
}
StringExtractorGDBRemote response;
return SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
PacketResult::Success;
}
bool GDBRemoteCommunicationClient::LaunchGDBServer(
const char *remote_accept_hostname, lldb::pid_t &pid, uint16_t &port,
std::string &socket_name) {
pid = LLDB_INVALID_PROCESS_ID;
port = 0;
socket_name.clear();
StringExtractorGDBRemote response;
StreamString stream;
stream.PutCString("qLaunchGDBServer;");
std::string hostname;
if (remote_accept_hostname && remote_accept_hostname[0])
hostname = remote_accept_hostname;
else {
if (HostInfo::GetHostname(hostname)) {
// Make the GDB server we launch only accept connections from this host
stream.Printf("host:%s;", hostname.c_str());
} else {
// Make the GDB server we launch accept connections from any host since
// we can't figure out the hostname
stream.Printf("host:*;");
}
}
// give the process a few seconds to startup
ScopedTimeout timeout(*this, seconds(10));
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
llvm::StringRef name;
llvm::StringRef value;
while (response.GetNameColonValue(name, value)) {
if (name.equals("port"))
value.getAsInteger(0, port);
else if (name.equals("pid"))
value.getAsInteger(0, pid);
else if (name.compare("socket_name") == 0) {
StringExtractor extractor(value);
extractor.GetHexByteString(socket_name);
}
}
return true;
}
return false;
}
size_t GDBRemoteCommunicationClient::QueryGDBServer(
std::vector<std::pair<uint16_t, std::string>> &connection_urls) {
connection_urls.clear();
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("qQueryGDBServer", response, false) !=
PacketResult::Success)
return 0;
StructuredData::ObjectSP data =
StructuredData::ParseJSON(std::string(response.GetStringRef()));
if (!data)
return 0;
StructuredData::Array *array = data->GetAsArray();
if (!array)
return 0;
for (size_t i = 0, count = array->GetSize(); i < count; ++i) {
StructuredData::Dictionary *element = nullptr;
if (!array->GetItemAtIndexAsDictionary(i, element))
continue;
uint16_t port = 0;
if (StructuredData::ObjectSP port_osp =
element->GetValueForKey(llvm::StringRef("port")))
port = port_osp->GetIntegerValue(0);
std::string socket_name;
if (StructuredData::ObjectSP socket_name_osp =
element->GetValueForKey(llvm::StringRef("socket_name")))
socket_name = std::string(socket_name_osp->GetStringValue());
if (port != 0 || !socket_name.empty())
connection_urls.emplace_back(port, socket_name);
}
return connection_urls.size();
}
bool GDBRemoteCommunicationClient::KillSpawnedProcess(lldb::pid_t pid) {
StreamString stream;
stream.Printf("qKillSpawnedProcess:%" PRId64, pid);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
if (response.IsOKResponse())
return true;
}
return false;
}
bool GDBRemoteCommunicationClient::SetCurrentThread(uint64_t tid) {
if (m_curr_tid == tid)
return true;
char packet[32];
int packet_len;
if (tid == UINT64_MAX)
packet_len = ::snprintf(packet, sizeof(packet), "Hg-1");
else
packet_len = ::snprintf(packet, sizeof(packet), "Hg%" PRIx64, tid);
assert(packet_len + 1 < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success) {
if (response.IsOKResponse()) {
m_curr_tid = tid;
return true;
}
/*
* Connected bare-iron target (like YAMON gdb-stub) may not have support for
* Hg packet.
* The reply from '?' packet could be as simple as 'S05'. There is no packet
* which can
* give us pid and/or tid. Assume pid=tid=1 in such cases.
*/
if (response.IsUnsupportedResponse() && IsConnected()) {
m_curr_tid = 1;
return true;
}
}
return false;
}
bool GDBRemoteCommunicationClient::SetCurrentThreadForRun(uint64_t tid) {
if (m_curr_tid_run == tid)
return true;
char packet[32];
int packet_len;
if (tid == UINT64_MAX)
packet_len = ::snprintf(packet, sizeof(packet), "Hc-1");
else
packet_len = ::snprintf(packet, sizeof(packet), "Hc%" PRIx64, tid);
assert(packet_len + 1 < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success) {
if (response.IsOKResponse()) {
m_curr_tid_run = tid;
return true;
}
/*
* Connected bare-iron target (like YAMON gdb-stub) may not have support for
* Hc packet.
* The reply from '?' packet could be as simple as 'S05'. There is no packet
* which can
* give us pid and/or tid. Assume pid=tid=1 in such cases.
*/
if (response.IsUnsupportedResponse() && IsConnected()) {
m_curr_tid_run = 1;
return true;
}
}
return false;
}
bool GDBRemoteCommunicationClient::GetStopReply(
StringExtractorGDBRemote &response) {
if (SendPacketAndWaitForResponse("?", response, false) ==
PacketResult::Success)
return response.IsNormalResponse();
return false;
}
bool GDBRemoteCommunicationClient::GetThreadStopInfo(
lldb::tid_t tid, StringExtractorGDBRemote &response) {
if (m_supports_qThreadStopInfo) {
char packet[256];
int packet_len =
::snprintf(packet, sizeof(packet), "qThreadStopInfo%" PRIx64, tid);
assert(packet_len < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
if (SendPacketAndWaitForResponse(packet, response, false) ==
PacketResult::Success) {
if (response.IsUnsupportedResponse())
m_supports_qThreadStopInfo = false;
else if (response.IsNormalResponse())
return true;
else
return false;
} else {
m_supports_qThreadStopInfo = false;
}
}
return false;
}
uint8_t GDBRemoteCommunicationClient::SendGDBStoppointTypePacket(
GDBStoppointType type, bool insert, addr_t addr, uint32_t length) {
Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_BREAKPOINTS));
LLDB_LOGF(log, "GDBRemoteCommunicationClient::%s() %s at addr = 0x%" PRIx64,
__FUNCTION__, insert ? "add" : "remove", addr);
// Check if the stub is known not to support this breakpoint type
if (!SupportsGDBStoppointPacket(type))
return UINT8_MAX;
// Construct the breakpoint packet
char packet[64];
const int packet_len =
::snprintf(packet, sizeof(packet), "%c%i,%" PRIx64 ",%x",
insert ? 'Z' : 'z', type, addr, length);
// Check we haven't overwritten the end of the packet buffer
assert(packet_len + 1 < (int)sizeof(packet));
UNUSED_IF_ASSERT_DISABLED(packet_len);
StringExtractorGDBRemote response;
// Make sure the response is either "OK", "EXX" where XX are two hex digits,
// or "" (unsupported)
response.SetResponseValidatorToOKErrorNotSupported();
// Try to send the breakpoint packet, and check that it was correctly sent
if (SendPacketAndWaitForResponse(packet, response, true) ==
PacketResult::Success) {
// Receive and OK packet when the breakpoint successfully placed
if (response.IsOKResponse())
return 0;
// Status while setting breakpoint, send back specific error
if (response.IsErrorResponse())
return response.GetError();
// Empty packet informs us that breakpoint is not supported
if (response.IsUnsupportedResponse()) {
// Disable this breakpoint type since it is unsupported
switch (type) {
case eBreakpointSoftware:
m_supports_z0 = false;
break;
case eBreakpointHardware:
m_supports_z1 = false;
break;
case eWatchpointWrite:
m_supports_z2 = false;
break;
case eWatchpointRead:
m_supports_z3 = false;
break;
case eWatchpointReadWrite:
m_supports_z4 = false;
break;
case eStoppointInvalid:
return UINT8_MAX;
}
}
}
// Signal generic failure
return UINT8_MAX;
}
size_t GDBRemoteCommunicationClient::GetCurrentThreadIDs(
std::vector<lldb::tid_t> &thread_ids, bool &sequence_mutex_unavailable) {
thread_ids.clear();
Lock lock(*this, false);
if (lock) {
sequence_mutex_unavailable = false;
StringExtractorGDBRemote response;
PacketResult packet_result;
for (packet_result =
SendPacketAndWaitForResponseNoLock("qfThreadInfo", response);
packet_result == PacketResult::Success && response.IsNormalResponse();
packet_result =
SendPacketAndWaitForResponseNoLock("qsThreadInfo", response)) {
char ch = response.GetChar();
if (ch == 'l')
break;
if (ch == 'm') {
do {
tid_t tid = response.GetHexMaxU64(false, LLDB_INVALID_THREAD_ID);
if (tid != LLDB_INVALID_THREAD_ID) {
thread_ids.push_back(tid);
}
ch = response.GetChar(); // Skip the command separator
} while (ch == ','); // Make sure we got a comma separator
}
}
/*
* Connected bare-iron target (like YAMON gdb-stub) may not have support for
* qProcessInfo, qC and qfThreadInfo packets. The reply from '?' packet
* could
* be as simple as 'S05'. There is no packet which can give us pid and/or
* tid.
* Assume pid=tid=1 in such cases.
*/
if ((response.IsUnsupportedResponse() || response.IsNormalResponse()) &&
thread_ids.size() == 0 && IsConnected()) {
thread_ids.push_back(1);
}
} else {
Log *log(ProcessGDBRemoteLog::GetLogIfAnyCategoryIsSet(GDBR_LOG_PROCESS |
GDBR_LOG_PACKETS));
LLDB_LOG(log, "error: failed to get packet sequence mutex, not sending "
"packet 'qfThreadInfo'");
sequence_mutex_unavailable = true;
}
return thread_ids.size();
}
lldb::addr_t GDBRemoteCommunicationClient::GetShlibInfoAddr() {
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse("qShlibInfoAddr", response, false) !=
PacketResult::Success ||
!response.IsNormalResponse())
return LLDB_INVALID_ADDRESS;
return response.GetHexMaxU64(false, LLDB_INVALID_ADDRESS);
}
lldb_private::Status GDBRemoteCommunicationClient::RunShellCommand(
llvm::StringRef command,
const FileSpec &
working_dir, // Pass empty FileSpec to use the current working directory
int *status_ptr, // Pass NULL if you don't want the process exit status
int *signo_ptr, // Pass NULL if you don't want the signal that caused the
// process to exit
std::string
*command_output, // Pass NULL if you don't want the command output
const Timeout<std::micro> &timeout) {
lldb_private::StreamString stream;
stream.PutCString("qPlatform_shell:");
stream.PutBytesAsRawHex8(command.data(), command.size());
stream.PutChar(',');
uint32_t timeout_sec = UINT32_MAX;
if (timeout) {
// TODO: Use chrono version of std::ceil once c++17 is available.
timeout_sec = std::ceil(std::chrono::duration<double>(*timeout).count());
}
stream.PutHex32(timeout_sec);
if (working_dir) {
std::string path{working_dir.GetPath(false)};
stream.PutChar(',');
stream.PutStringAsRawHex8(path);
}
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
if (response.GetChar() != 'F')
return Status("malformed reply");
if (response.GetChar() != ',')
return Status("malformed reply");
uint32_t exitcode = response.GetHexMaxU32(false, UINT32_MAX);
if (exitcode == UINT32_MAX)
return Status("unable to run remote process");
else if (status_ptr)
*status_ptr = exitcode;
if (response.GetChar() != ',')
return Status("malformed reply");
uint32_t signo = response.GetHexMaxU32(false, UINT32_MAX);
if (signo_ptr)
*signo_ptr = signo;
if (response.GetChar() != ',')
return Status("malformed reply");
std::string output;
response.GetEscapedBinaryData(output);
if (command_output)
command_output->assign(output);
return Status();
}
return Status("unable to send packet");
}
Status GDBRemoteCommunicationClient::MakeDirectory(const FileSpec &file_spec,
uint32_t file_permissions) {
std::string path{file_spec.GetPath(false)};
lldb_private::StreamString stream;
stream.PutCString("qPlatform_mkdir:");
stream.PutHex32(file_permissions);
stream.PutChar(',');
stream.PutStringAsRawHex8(path);
llvm::StringRef packet = stream.GetString();
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) !=
PacketResult::Success)
return Status("failed to send '%s' packet", packet.str().c_str());
if (response.GetChar() != 'F')
return Status("invalid response to '%s' packet", packet.str().c_str());
return Status(response.GetU32(UINT32_MAX), eErrorTypePOSIX);
}
Status
GDBRemoteCommunicationClient::SetFilePermissions(const FileSpec &file_spec,
uint32_t file_permissions) {
std::string path{file_spec.GetPath(false)};
lldb_private::StreamString stream;
stream.PutCString("qPlatform_chmod:");
stream.PutHex32(file_permissions);
stream.PutChar(',');
stream.PutStringAsRawHex8(path);
llvm::StringRef packet = stream.GetString();
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet, response, false) !=
PacketResult::Success)
return Status("failed to send '%s' packet", stream.GetData());
if (response.GetChar() != 'F')
return Status("invalid response to '%s' packet", stream.GetData());
return Status(response.GetU32(UINT32_MAX), eErrorTypePOSIX);
}
static uint64_t ParseHostIOPacketResponse(StringExtractorGDBRemote &response,
uint64_t fail_result, Status &error) {
response.SetFilePos(0);
if (response.GetChar() != 'F')
return fail_result;
int32_t result = response.GetS32(-2);
if (result == -2)
return fail_result;
if (response.GetChar() == ',') {
int result_errno = response.GetS32(-2);
if (result_errno != -2)
error.SetError(result_errno, eErrorTypePOSIX);
else
error.SetError(-1, eErrorTypeGeneric);
} else
error.Clear();
return result;
}
lldb::user_id_t
GDBRemoteCommunicationClient::OpenFile(const lldb_private::FileSpec &file_spec,
File::OpenOptions flags, mode_t mode,
Status &error) {
std::string path(file_spec.GetPath(false));
lldb_private::StreamString stream;
stream.PutCString("vFile:open:");
if (path.empty())
return UINT64_MAX;
stream.PutStringAsRawHex8(path);
stream.PutChar(',');
stream.PutHex32(flags);
stream.PutChar(',');
stream.PutHex32(mode);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
return ParseHostIOPacketResponse(response, UINT64_MAX, error);
}
return UINT64_MAX;
}
bool GDBRemoteCommunicationClient::CloseFile(lldb::user_id_t fd,
Status &error) {
lldb_private::StreamString stream;
stream.Printf("vFile:close:%i", (int)fd);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
return ParseHostIOPacketResponse(response, -1, error) == 0;
}
return false;
}
// Extension of host I/O packets to get the file size.
lldb::user_id_t GDBRemoteCommunicationClient::GetFileSize(
const lldb_private::FileSpec &file_spec) {
std::string path(file_spec.GetPath(false));
lldb_private::StreamString stream;
stream.PutCString("vFile:size:");
stream.PutStringAsRawHex8(path);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
if (response.GetChar() != 'F')
return UINT64_MAX;
uint32_t retcode = response.GetHexMaxU64(false, UINT64_MAX);
return retcode;
}
return UINT64_MAX;
}
void GDBRemoteCommunicationClient::AutoCompleteDiskFileOrDirectory(
CompletionRequest &request, bool only_dir) {
lldb_private::StreamString stream;
stream.PutCString("qPathComplete:");
stream.PutHex32(only_dir ? 1 : 0);
stream.PutChar(',');
stream.PutStringAsRawHex8(request.GetCursorArgumentPrefix());
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
StreamString strm;
char ch = response.GetChar();
if (ch != 'M')
return;
while (response.Peek()) {
strm.Clear();
while ((ch = response.GetHexU8(0, false)) != '\0')
strm.PutChar(ch);
request.AddCompletion(strm.GetString());
if (response.GetChar() != ',')
break;
}
}
}
Status
GDBRemoteCommunicationClient::GetFilePermissions(const FileSpec &file_spec,
uint32_t &file_permissions) {
std::string path{file_spec.GetPath(false)};
Status error;
lldb_private::StreamString stream;
stream.PutCString("vFile:mode:");
stream.PutStringAsRawHex8(path);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
if (response.GetChar() != 'F') {
error.SetErrorStringWithFormat("invalid response to '%s' packet",
stream.GetData());
} else {
const uint32_t mode = response.GetS32(-1);
if (static_cast<int32_t>(mode) == -1) {
if (response.GetChar() == ',') {
int response_errno = response.GetS32(-1);
if (response_errno > 0)
error.SetError(response_errno, lldb::eErrorTypePOSIX);
else
error.SetErrorToGenericError();
} else
error.SetErrorToGenericError();
} else {
file_permissions = mode & (S_IRWXU | S_IRWXG | S_IRWXO);
}
}
} else {
error.SetErrorStringWithFormat("failed to send '%s' packet",
stream.GetData());
}
return error;
}
uint64_t GDBRemoteCommunicationClient::ReadFile(lldb::user_id_t fd,
uint64_t offset, void *dst,
uint64_t dst_len,
Status &error) {
lldb_private::StreamString stream;
stream.Printf("vFile:pread:%i,%" PRId64 ",%" PRId64, (int)fd, dst_len,
offset);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
if (response.GetChar() != 'F')
return 0;
uint32_t retcode = response.GetHexMaxU32(false, UINT32_MAX);
if (retcode == UINT32_MAX)
return retcode;
const char next = (response.Peek() ? *response.Peek() : 0);
if (next == ',')
return 0;
if (next == ';') {
response.GetChar(); // skip the semicolon
std::string buffer;
if (response.GetEscapedBinaryData(buffer)) {
const uint64_t data_to_write =
std::min<uint64_t>(dst_len, buffer.size());
if (data_to_write > 0)
memcpy(dst, &buffer[0], data_to_write);
return data_to_write;
}
}
}
return 0;
}
uint64_t GDBRemoteCommunicationClient::WriteFile(lldb::user_id_t fd,
uint64_t offset,
const void *src,
uint64_t src_len,
Status &error) {
lldb_private::StreamGDBRemote stream;
stream.Printf("vFile:pwrite:%i,%" PRId64 ",", (int)fd, offset);
stream.PutEscapedBytes(src, src_len);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
if (response.GetChar() != 'F') {
error.SetErrorStringWithFormat("write file failed");
return 0;
}
uint64_t bytes_written = response.GetU64(UINT64_MAX);
if (bytes_written == UINT64_MAX) {
error.SetErrorToGenericError();
if (response.GetChar() == ',') {
int response_errno = response.GetS32(-1);
if (response_errno > 0)
error.SetError(response_errno, lldb::eErrorTypePOSIX);
}
return 0;
}
return bytes_written;
} else {
error.SetErrorString("failed to send vFile:pwrite packet");
}
return 0;
}
Status GDBRemoteCommunicationClient::CreateSymlink(const FileSpec &src,
const FileSpec &dst) {
std::string src_path{src.GetPath(false)}, dst_path{dst.GetPath(false)};
Status error;
lldb_private::StreamGDBRemote stream;
stream.PutCString("vFile:symlink:");
// the unix symlink() command reverses its parameters where the dst if first,
// so we follow suit here
stream.PutStringAsRawHex8(dst_path);
stream.PutChar(',');
stream.PutStringAsRawHex8(src_path);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
if (response.GetChar() == 'F') {
uint32_t result = response.GetU32(UINT32_MAX);
if (result != 0) {
error.SetErrorToGenericError();
if (response.GetChar() == ',') {
int response_errno = response.GetS32(-1);
if (response_errno > 0)
error.SetError(response_errno, lldb::eErrorTypePOSIX);
}
}
} else {
// Should have returned with 'F<result>[,<errno>]'
error.SetErrorStringWithFormat("symlink failed");
}
} else {
error.SetErrorString("failed to send vFile:symlink packet");
}
return error;
}
Status GDBRemoteCommunicationClient::Unlink(const FileSpec &file_spec) {
std::string path{file_spec.GetPath(false)};
Status error;
lldb_private::StreamGDBRemote stream;
stream.PutCString("vFile:unlink:");
// the unix symlink() command reverses its parameters where the dst if first,
// so we follow suit here
stream.PutStringAsRawHex8(path);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
if (response.GetChar() == 'F') {
uint32_t result = response.GetU32(UINT32_MAX);
if (result != 0) {
error.SetErrorToGenericError();
if (response.GetChar() == ',') {
int response_errno = response.GetS32(-1);
if (response_errno > 0)
error.SetError(response_errno, lldb::eErrorTypePOSIX);
}
}
} else {
// Should have returned with 'F<result>[,<errno>]'
error.SetErrorStringWithFormat("unlink failed");
}
} else {
error.SetErrorString("failed to send vFile:unlink packet");
}
return error;
}
// Extension of host I/O packets to get whether a file exists.
bool GDBRemoteCommunicationClient::GetFileExists(
const lldb_private::FileSpec &file_spec) {
std::string path(file_spec.GetPath(false));
lldb_private::StreamString stream;
stream.PutCString("vFile:exists:");
stream.PutStringAsRawHex8(path);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
if (response.GetChar() != 'F')
return false;
if (response.GetChar() != ',')
return false;
bool retcode = (response.GetChar() != '0');
return retcode;
}
return false;
}
bool GDBRemoteCommunicationClient::CalculateMD5(
const lldb_private::FileSpec &file_spec, uint64_t &high, uint64_t &low) {
std::string path(file_spec.GetPath(false));
lldb_private::StreamString stream;
stream.PutCString("vFile:MD5:");
stream.PutStringAsRawHex8(path);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(stream.GetString(), response, false) ==
PacketResult::Success) {
if (response.GetChar() != 'F')
return false;
if (response.GetChar() != ',')
return false;
if (response.Peek() && *response.Peek() == 'x')
return false;
low = response.GetHexMaxU64(false, UINT64_MAX);
high = response.GetHexMaxU64(false, UINT64_MAX);
return true;
}
return false;
}
bool GDBRemoteCommunicationClient::AvoidGPackets(ProcessGDBRemote *process) {
// Some targets have issues with g/G packets and we need to avoid using them
if (m_avoid_g_packets == eLazyBoolCalculate) {
if (process) {
m_avoid_g_packets = eLazyBoolNo;
const ArchSpec &arch = process->GetTarget().GetArchitecture();
if (arch.IsValid() &&
arch.GetTriple().getVendor() == llvm::Triple::Apple &&
arch.GetTriple().getOS() == llvm::Triple::IOS &&
(arch.GetTriple().getArch() == llvm::Triple::aarch64 ||
arch.GetTriple().getArch() == llvm::Triple::aarch64_32)) {
m_avoid_g_packets = eLazyBoolYes;
uint32_t gdb_server_version = GetGDBServerProgramVersion();
if (gdb_server_version != 0) {
const char *gdb_server_name = GetGDBServerProgramName();
if (gdb_server_name && strcmp(gdb_server_name, "debugserver") == 0) {
if (gdb_server_version >= 310)
m_avoid_g_packets = eLazyBoolNo;
}
}
}
}
}
return m_avoid_g_packets == eLazyBoolYes;
}
DataBufferSP GDBRemoteCommunicationClient::ReadRegister(lldb::tid_t tid,
uint32_t reg) {
StreamString payload;
payload.Printf("p%x", reg);
StringExtractorGDBRemote response;
if (SendThreadSpecificPacketAndWaitForResponse(
tid, std::move(payload), response, false) != PacketResult::Success ||
!response.IsNormalResponse())
return nullptr;
DataBufferSP buffer_sp(
new DataBufferHeap(response.GetStringRef().size() / 2, 0));
response.GetHexBytes(buffer_sp->GetData(), '\xcc');
return buffer_sp;
}
DataBufferSP GDBRemoteCommunicationClient::ReadAllRegisters(lldb::tid_t tid) {
StreamString payload;
payload.PutChar('g');
StringExtractorGDBRemote response;
if (SendThreadSpecificPacketAndWaitForResponse(
tid, std::move(payload), response, false) != PacketResult::Success ||
!response.IsNormalResponse())
return nullptr;
DataBufferSP buffer_sp(
new DataBufferHeap(response.GetStringRef().size() / 2, 0));
response.GetHexBytes(buffer_sp->GetData(), '\xcc');
return buffer_sp;
}
bool GDBRemoteCommunicationClient::WriteRegister(lldb::tid_t tid,
uint32_t reg_num,
llvm::ArrayRef<uint8_t> data) {
StreamString payload;
payload.Printf("P%x=", reg_num);
payload.PutBytesAsRawHex8(data.data(), data.size(),
endian::InlHostByteOrder(),
endian::InlHostByteOrder());
StringExtractorGDBRemote response;
return SendThreadSpecificPacketAndWaitForResponse(tid, std::move(payload),
response, false) ==
PacketResult::Success &&
response.IsOKResponse();
}
bool GDBRemoteCommunicationClient::WriteAllRegisters(
lldb::tid_t tid, llvm::ArrayRef<uint8_t> data) {
StreamString payload;
payload.PutChar('G');
payload.PutBytesAsRawHex8(data.data(), data.size(),
endian::InlHostByteOrder(),
endian::InlHostByteOrder());
StringExtractorGDBRemote response;
return SendThreadSpecificPacketAndWaitForResponse(tid, std::move(payload),
response, false) ==
PacketResult::Success &&
response.IsOKResponse();
}
bool GDBRemoteCommunicationClient::SaveRegisterState(lldb::tid_t tid,
uint32_t &save_id) {
save_id = 0; // Set to invalid save ID
if (m_supports_QSaveRegisterState == eLazyBoolNo)
return false;
m_supports_QSaveRegisterState = eLazyBoolYes;
StreamString payload;
payload.PutCString("QSaveRegisterState");
StringExtractorGDBRemote response;
if (SendThreadSpecificPacketAndWaitForResponse(
tid, std::move(payload), response, false) != PacketResult::Success)
return false;
if (response.IsUnsupportedResponse())
m_supports_QSaveRegisterState = eLazyBoolNo;
const uint32_t response_save_id = response.GetU32(0);
if (response_save_id == 0)
return false;
save_id = response_save_id;
return true;
}
bool GDBRemoteCommunicationClient::RestoreRegisterState(lldb::tid_t tid,
uint32_t save_id) {
// We use the "m_supports_QSaveRegisterState" variable here because the
// QSaveRegisterState and QRestoreRegisterState packets must both be
// supported in order to be useful
if (m_supports_QSaveRegisterState == eLazyBoolNo)
return false;
StreamString payload;
payload.Printf("QRestoreRegisterState:%u", save_id);
StringExtractorGDBRemote response;
if (SendThreadSpecificPacketAndWaitForResponse(
tid, std::move(payload), response, false) != PacketResult::Success)
return false;
if (response.IsOKResponse())
return true;
if (response.IsUnsupportedResponse())
m_supports_QSaveRegisterState = eLazyBoolNo;
return false;
}
bool GDBRemoteCommunicationClient::SyncThreadState(lldb::tid_t tid) {
if (!GetSyncThreadStateSupported())
return false;
StreamString packet;
StringExtractorGDBRemote response;
packet.Printf("QSyncThreadState:%4.4" PRIx64 ";", tid);
return SendPacketAndWaitForResponse(packet.GetString(), response, false) ==
GDBRemoteCommunication::PacketResult::Success &&
response.IsOKResponse();
}
lldb::user_id_t
GDBRemoteCommunicationClient::SendStartTracePacket(const TraceOptions &options,
Status &error) {
Log *log(ProcessGDBRemoteLog::GetLogIfAllCategoriesSet(GDBR_LOG_PROCESS));
lldb::user_id_t ret_uid = LLDB_INVALID_UID;
StreamGDBRemote escaped_packet;
escaped_packet.PutCString("jTraceStart:");
StructuredData::Dictionary json_packet;
json_packet.AddIntegerItem("type", options.getType());
json_packet.AddIntegerItem("buffersize", options.getTraceBufferSize());
json_packet.AddIntegerItem("metabuffersize", options.getMetaDataBufferSize());
if (options.getThreadID() != LLDB_INVALID_THREAD_ID)
json_packet.AddIntegerItem("threadid", options.getThreadID());
StructuredData::DictionarySP custom_params = options.getTraceParams();
if (custom_params)
json_packet.AddItem("params", custom_params);
StreamString json_string;
json_packet.Dump(json_string, false);
escaped_packet.PutEscapedBytes(json_string.GetData(), json_string.GetSize());
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(escaped_packet.GetString(), response,
true) ==
GDBRemoteCommunication::PacketResult::Success) {
if (!response.IsNormalResponse()) {
error = response.GetStatus();
LLDB_LOG(log, "Target does not support Tracing , error {0}", error);
} else {
ret_uid = response.GetHexMaxU64(false, LLDB_INVALID_UID);
}
} else {
LLDB_LOG(log, "failed to send packet");
error.SetErrorStringWithFormat("failed to send packet: '%s'",
escaped_packet.GetData());
}
return ret_uid;
}
Status
GDBRemoteCommunicationClient::SendStopTracePacket(lldb::user_id_t uid,
lldb::tid_t thread_id) {
Log *log(ProcessGDBRemoteLog::GetLogIfAllCategoriesSet(GDBR_LOG_PROCESS));
StringExtractorGDBRemote response;
Status error;
StructuredData::Dictionary json_packet;
StreamGDBRemote escaped_packet;
StreamString json_string;
escaped_packet.PutCString("jTraceStop:");
json_packet.AddIntegerItem("traceid", uid);
if (thread_id != LLDB_INVALID_THREAD_ID)
json_packet.AddIntegerItem("threadid", thread_id);
json_packet.Dump(json_string, false);
escaped_packet.PutEscapedBytes(json_string.GetData(), json_string.GetSize());
if (SendPacketAndWaitForResponse(escaped_packet.GetString(), response,
true) ==
GDBRemoteCommunication::PacketResult::Success) {
if (!response.IsOKResponse()) {
error = response.GetStatus();
LLDB_LOG(log, "stop tracing failed");
}
} else {
LLDB_LOG(log, "failed to send packet");
error.SetErrorStringWithFormat(
"failed to send packet: '%s' with error '%d'", escaped_packet.GetData(),
response.GetError());
}
return error;
}
Status GDBRemoteCommunicationClient::SendGetDataPacket(
lldb::user_id_t uid, lldb::tid_t thread_id,
llvm::MutableArrayRef<uint8_t> &buffer, size_t offset) {
StreamGDBRemote escaped_packet;
escaped_packet.PutCString("jTraceBufferRead:");
return SendGetTraceDataPacket(escaped_packet, uid, thread_id, buffer, offset);
}
Status GDBRemoteCommunicationClient::SendGetMetaDataPacket(
lldb::user_id_t uid, lldb::tid_t thread_id,
llvm::MutableArrayRef<uint8_t> &buffer, size_t offset) {
StreamGDBRemote escaped_packet;
escaped_packet.PutCString("jTraceMetaRead:");
return SendGetTraceDataPacket(escaped_packet, uid, thread_id, buffer, offset);
}
Status
GDBRemoteCommunicationClient::SendGetTraceConfigPacket(lldb::user_id_t uid,
TraceOptions &options) {
Log *log(ProcessGDBRemoteLog::GetLogIfAllCategoriesSet(GDBR_LOG_PROCESS));
StringExtractorGDBRemote response;
Status error;
StreamString json_string;
StreamGDBRemote escaped_packet;
escaped_packet.PutCString("jTraceConfigRead:");
StructuredData::Dictionary json_packet;
json_packet.AddIntegerItem("traceid", uid);
if (options.getThreadID() != LLDB_INVALID_THREAD_ID)
json_packet.AddIntegerItem("threadid", options.getThreadID());
json_packet.Dump(json_string, false);
escaped_packet.PutEscapedBytes(json_string.GetData(), json_string.GetSize());
if (SendPacketAndWaitForResponse(escaped_packet.GetString(), response,
true) ==
GDBRemoteCommunication::PacketResult::Success) {
if (response.IsNormalResponse()) {
uint64_t type = std::numeric_limits<uint64_t>::max();
uint64_t buffersize = std::numeric_limits<uint64_t>::max();
uint64_t metabuffersize = std::numeric_limits<uint64_t>::max();
auto json_object = StructuredData::ParseJSON(response.Peek());
if (!json_object ||
json_object->GetType() != lldb::eStructuredDataTypeDictionary) {
error.SetErrorString("Invalid Configuration obtained");
return error;
}
auto json_dict = json_object->GetAsDictionary();
json_dict->GetValueForKeyAsInteger<uint64_t>("metabuffersize",
metabuffersize);
options.setMetaDataBufferSize(metabuffersize);
json_dict->GetValueForKeyAsInteger<uint64_t>("buffersize", buffersize);
options.setTraceBufferSize(buffersize);
json_dict->GetValueForKeyAsInteger<uint64_t>("type", type);
options.setType(static_cast<lldb::TraceType>(type));
StructuredData::ObjectSP custom_params_sp =
json_dict->GetValueForKey("params");
if (custom_params_sp) {
if (custom_params_sp->GetType() !=
lldb::eStructuredDataTypeDictionary) {
error.SetErrorString("Invalid Configuration obtained");
return error;
} else
options.setTraceParams(
std::static_pointer_cast<StructuredData::Dictionary>(
custom_params_sp));
}
} else {
error = response.GetStatus();
}
} else {
LLDB_LOG(log, "failed to send packet");
error.SetErrorStringWithFormat("failed to send packet: '%s'",
escaped_packet.GetData());
}
return error;
}
Status GDBRemoteCommunicationClient::SendGetTraceDataPacket(
StreamGDBRemote &packet, lldb::user_id_t uid, lldb::tid_t thread_id,
llvm::MutableArrayRef<uint8_t> &buffer, size_t offset) {
Log *log(ProcessGDBRemoteLog::GetLogIfAllCategoriesSet(GDBR_LOG_PROCESS));
Status error;
StructuredData::Dictionary json_packet;
json_packet.AddIntegerItem("traceid", uid);
json_packet.AddIntegerItem("offset", offset);
json_packet.AddIntegerItem("buffersize", buffer.size());
if (thread_id != LLDB_INVALID_THREAD_ID)
json_packet.AddIntegerItem("threadid", thread_id);
StreamString json_string;
json_packet.Dump(json_string, false);
packet.PutEscapedBytes(json_string.GetData(), json_string.GetSize());
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet.GetString(), response, true) ==
GDBRemoteCommunication::PacketResult::Success) {
if (response.IsNormalResponse()) {
size_t filled_size = response.GetHexBytesAvail(buffer);
buffer = llvm::MutableArrayRef<uint8_t>(buffer.data(), filled_size);
} else {
error = response.GetStatus();
buffer = buffer.slice(buffer.size());
}
} else {
LLDB_LOG(log, "failed to send packet");
error.SetErrorStringWithFormat("failed to send packet: '%s'",
packet.GetData());
buffer = buffer.slice(buffer.size());
}
return error;
}
llvm::Optional<QOffsets> GDBRemoteCommunicationClient::GetQOffsets() {
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(
"qOffsets", response, /*send_async=*/false) != PacketResult::Success)
return llvm::None;
if (!response.IsNormalResponse())
return llvm::None;
QOffsets result;
llvm::StringRef ref = response.GetStringRef();
const auto &GetOffset = [&] {
addr_t offset;
if (ref.consumeInteger(16, offset))
return false;
result.offsets.push_back(offset);
return true;
};
if (ref.consume_front("Text=")) {
result.segments = false;
if (!GetOffset())
return llvm::None;
if (!ref.consume_front(";Data=") || !GetOffset())
return llvm::None;
if (ref.empty())
return result;
if (ref.consume_front(";Bss=") && GetOffset() && ref.empty())
return result;
} else if (ref.consume_front("TextSeg=")) {
result.segments = true;
if (!GetOffset())
return llvm::None;
if (ref.empty())
return result;
if (ref.consume_front(";DataSeg=") && GetOffset() && ref.empty())
return result;
}
return llvm::None;
}
bool GDBRemoteCommunicationClient::GetModuleInfo(
const FileSpec &module_file_spec, const lldb_private::ArchSpec &arch_spec,
ModuleSpec &module_spec) {
if (!m_supports_qModuleInfo)
return false;
std::string module_path = module_file_spec.GetPath(false);
if (module_path.empty())
return false;
StreamString packet;
packet.PutCString("qModuleInfo:");
packet.PutStringAsRawHex8(module_path);
packet.PutCString(";");
const auto &triple = arch_spec.GetTriple().getTriple();
packet.PutStringAsRawHex8(triple);
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(packet.GetString(), response, false) !=
PacketResult::Success)
return false;
if (response.IsErrorResponse())
return false;
if (response.IsUnsupportedResponse()) {
m_supports_qModuleInfo = false;
return false;
}
llvm::StringRef name;
llvm::StringRef value;
module_spec.Clear();
module_spec.GetFileSpec() = module_file_spec;
while (response.GetNameColonValue(name, value)) {
if (name == "uuid" || name == "md5") {
StringExtractor extractor(value);
std::string uuid;
extractor.GetHexByteString(uuid);
module_spec.GetUUID().SetFromStringRef(uuid);
} else if (name == "triple") {
StringExtractor extractor(value);
std::string triple;
extractor.GetHexByteString(triple);
module_spec.GetArchitecture().SetTriple(triple.c_str());
} else if (name == "file_offset") {
uint64_t ival = 0;
if (!value.getAsInteger(16, ival))
module_spec.SetObjectOffset(ival);
} else if (name == "file_size") {
uint64_t ival = 0;
if (!value.getAsInteger(16, ival))
module_spec.SetObjectSize(ival);
} else if (name == "file_path") {
StringExtractor extractor(value);
std::string path;
extractor.GetHexByteString(path);
module_spec.GetFileSpec() = FileSpec(path, arch_spec.GetTriple());
}
}
return true;
}
static llvm::Optional<ModuleSpec>
ParseModuleSpec(StructuredData::Dictionary *dict) {
ModuleSpec result;
if (!dict)
return llvm::None;
llvm::StringRef string;
uint64_t integer;
if (!dict->GetValueForKeyAsString("uuid", string))
return llvm::None;
if (!result.GetUUID().SetFromStringRef(string))
return llvm::None;
if (!dict->GetValueForKeyAsInteger("file_offset", integer))
return llvm::None;
result.SetObjectOffset(integer);
if (!dict->GetValueForKeyAsInteger("file_size", integer))
return llvm::None;
result.SetObjectSize(integer);
if (!dict->GetValueForKeyAsString("triple", string))
return llvm::None;
result.GetArchitecture().SetTriple(string);
if (!dict->GetValueForKeyAsString("file_path", string))
return llvm::None;
result.GetFileSpec() = FileSpec(string, result.GetArchitecture().GetTriple());
return result;
}
llvm::Optional<std::vector<ModuleSpec>>
GDBRemoteCommunicationClient::GetModulesInfo(
llvm::ArrayRef<FileSpec> module_file_specs, const llvm::Triple &triple) {
namespace json = llvm::json;
if (!m_supports_jModulesInfo)
return llvm::None;
json::Array module_array;
for (const FileSpec &module_file_spec : module_file_specs) {
module_array.push_back(
json::Object{{"file", module_file_spec.GetPath(false)},
{"triple", triple.getTriple()}});
}
StreamString unescaped_payload;
unescaped_payload.PutCString("jModulesInfo:");
unescaped_payload.AsRawOstream() << std::move(module_array);
StreamGDBRemote payload;
payload.PutEscapedBytes(unescaped_payload.GetString().data(),
unescaped_payload.GetSize());
// Increase the timeout for jModulesInfo since this packet can take longer.
ScopedTimeout timeout(*this, std::chrono::seconds(10));
StringExtractorGDBRemote response;
if (SendPacketAndWaitForResponse(payload.GetString(), response, false) !=
PacketResult::Success ||
response.IsErrorResponse())
return llvm::None;
if (response.IsUnsupportedResponse()) {
m_supports_jModulesInfo = false;
return llvm::None;
}
StructuredData::ObjectSP response_object_sp =
StructuredData::ParseJSON(std::string(response.GetStringRef()));
if (!response_object_sp)
return llvm::None;
StructuredData::Array *response_array = response_object_sp->GetAsArray();
if (!response_array)
return llvm::None;
std::vector<ModuleSpec> result;
for (size_t i = 0; i < response_array->GetSize(); ++i) {
if (llvm::Optional<ModuleSpec> module_spec = ParseModuleSpec(
response_array->GetItemAtIndex(i)->GetAsDictionary()))
result.push_back(*module_spec);
}
return result;
}
// query the target remote for extended information using the qXfer packet
//
// example: object='features', annex='target.xml', out=<xml output> return:
// 'true' on success
// 'false' on failure (err set)
bool GDBRemoteCommunicationClient::ReadExtFeature(
const lldb_private::ConstString object,
const lldb_private::ConstString annex, std::string &out,
lldb_private::Status &err) {
std::stringstream output;
StringExtractorGDBRemote chunk;
uint64_t size = GetRemoteMaxPacketSize();
if (size == 0)
size = 0x1000;
size = size - 1; // Leave space for the 'm' or 'l' character in the response
int offset = 0;
bool active = true;
// loop until all data has been read
while (active) {
// send query extended feature packet
std::stringstream packet;
packet << "qXfer:" << object.AsCString("")
<< ":read:" << annex.AsCString("") << ":" << std::hex << offset
<< "," << std::hex << size;
GDBRemoteCommunication::PacketResult res =
SendPacketAndWaitForResponse(packet.str(), chunk, false);
if (res != GDBRemoteCommunication::PacketResult::Success) {
err.SetErrorString("Error sending $qXfer packet");
return false;
}
const std::string &str = std::string(chunk.GetStringRef());
if (str.length() == 0) {
// should have some data in chunk
err.SetErrorString("Empty response from $qXfer packet");
return false;
}
// check packet code
switch (str[0]) {
// last chunk
case ('l'):
active = false;
LLVM_FALLTHROUGH;
// more chunks
case ('m'):
if (str.length() > 1)
output << &str[1];
offset += str.length() - 1;
break;
// unknown chunk
default:
err.SetErrorString("Invalid continuation code from $qXfer packet");
return false;
}
}
out = output.str();
err.Success();
return true;
}
// Notify the target that gdb is prepared to serve symbol lookup requests.
// packet: "qSymbol::"
// reply:
// OK The target does not need to look up any (more) symbols.
// qSymbol:<sym_name> The target requests the value of symbol sym_name (hex
// encoded).
// LLDB may provide the value by sending another qSymbol
// packet
// in the form of"qSymbol:<sym_value>:<sym_name>".
//
// Three examples:
//
// lldb sends: qSymbol::
// lldb receives: OK
// Remote gdb stub does not need to know the addresses of any symbols, lldb
// does not
// need to ask again in this session.
//
// lldb sends: qSymbol::
// lldb receives: qSymbol:64697370617463685f71756575655f6f666673657473
// lldb sends: qSymbol::64697370617463685f71756575655f6f666673657473
// lldb receives: OK
// Remote gdb stub asks for address of 'dispatch_queue_offsets'. lldb does
// not know
// the address at this time. lldb needs to send qSymbol:: again when it has
// more
// solibs loaded.
//
// lldb sends: qSymbol::
// lldb receives: qSymbol:64697370617463685f71756575655f6f666673657473
// lldb sends: qSymbol:2bc97554:64697370617463685f71756575655f6f666673657473
// lldb receives: OK
// Remote gdb stub asks for address of 'dispatch_queue_offsets'. lldb says
// that it
// is at address 0x2bc97554. Remote gdb stub sends 'OK' indicating that it
// does not
// need any more symbols. lldb does not need to ask again in this session.
void GDBRemoteCommunicationClient::ServeSymbolLookups(
lldb_private::Process *process) {
// Set to true once we've resolved a symbol to an address for the remote
// stub. If we get an 'OK' response after this, the remote stub doesn't need
// any more symbols and we can stop asking.
bool symbol_response_provided = false;
// Is this the initial qSymbol:: packet?
bool first_qsymbol_query = true;
if (m_supports_qSymbol && !m_qSymbol_requests_done) {
Lock lock(*this, false);
if (lock) {
StreamString packet;
packet.PutCString("qSymbol::");
StringExtractorGDBRemote response;
while (SendPacketAndWaitForResponseNoLock(packet.GetString(), response) ==
PacketResult::Success) {
if (response.IsOKResponse()) {
if (symbol_response_provided || first_qsymbol_query) {
m_qSymbol_requests_done = true;
}
// We are done serving symbols requests
return;
}
first_qsymbol_query = false;
if (response.IsUnsupportedResponse()) {
// qSymbol is not supported by the current GDB server we are
// connected to
m_supports_qSymbol = false;
return;
} else {
llvm::StringRef response_str(response.GetStringRef());
if (response_str.startswith("qSymbol:")) {
response.SetFilePos(strlen("qSymbol:"));
std::string symbol_name;
if (response.GetHexByteString(symbol_name)) {
if (symbol_name.empty())
return;
addr_t symbol_load_addr = LLDB_INVALID_ADDRESS;
lldb_private::SymbolContextList sc_list;
process->GetTarget().GetImages().FindSymbolsWithNameAndType(
ConstString(symbol_name), eSymbolTypeAny, sc_list);
if (!sc_list.IsEmpty()) {
const size_t num_scs = sc_list.GetSize();
for (size_t sc_idx = 0;
sc_idx < num_scs &&
symbol_load_addr == LLDB_INVALID_ADDRESS;
++sc_idx) {
SymbolContext sc;
if (sc_list.GetContextAtIndex(sc_idx, sc)) {
if (sc.symbol) {
switch (sc.symbol->GetType()) {
case eSymbolTypeInvalid:
case eSymbolTypeAbsolute:
case eSymbolTypeUndefined:
case eSymbolTypeSourceFile:
case eSymbolTypeHeaderFile:
case eSymbolTypeObjectFile:
case eSymbolTypeCommonBlock:
case eSymbolTypeBlock:
case eSymbolTypeLocal:
case eSymbolTypeParam:
case eSymbolTypeVariable:
case eSymbolTypeVariableType:
case eSymbolTypeLineEntry:
case eSymbolTypeLineHeader:
case eSymbolTypeScopeBegin:
case eSymbolTypeScopeEnd:
case eSymbolTypeAdditional:
case eSymbolTypeCompiler:
case eSymbolTypeInstrumentation:
case eSymbolTypeTrampoline:
break;
case eSymbolTypeCode:
case eSymbolTypeResolver:
case eSymbolTypeData:
case eSymbolTypeRuntime:
case eSymbolTypeException:
case eSymbolTypeObjCClass:
case eSymbolTypeObjCMetaClass:
case eSymbolTypeObjCIVar:
case eSymbolTypeReExported:
symbol_load_addr =
sc.symbol->GetLoadAddress(&process->GetTarget());
break;
}
}
}
}
}
// This is the normal path where our symbol lookup was successful
// and we want to send a packet with the new symbol value and see
// if another lookup needs to be done.
// Change "packet" to contain the requested symbol value and name
packet.Clear();
packet.PutCString("qSymbol:");
if (symbol_load_addr != LLDB_INVALID_ADDRESS) {
packet.Printf("%" PRIx64, symbol_load_addr);
symbol_response_provided = true;
} else {
symbol_response_provided = false;
}
packet.PutCString(":");
packet.PutBytesAsRawHex8(symbol_name.data(), symbol_name.size());
continue; // go back to the while loop and send "packet" and wait
// for another response
}
}
}
}
// If we make it here, the symbol request packet response wasn't valid or
// our symbol lookup failed so we must abort
return;
} else if (Log *log = ProcessGDBRemoteLog::GetLogIfAnyCategoryIsSet(
GDBR_LOG_PROCESS | GDBR_LOG_PACKETS)) {
LLDB_LOGF(log,
"GDBRemoteCommunicationClient::%s: Didn't get sequence mutex.",
__FUNCTION__);
}
}
}
StructuredData::Array *
GDBRemoteCommunicationClient::GetSupportedStructuredDataPlugins() {
if (!m_supported_async_json_packets_is_valid) {
// Query the server for the array of supported asynchronous JSON packets.
m_supported_async_json_packets_is_valid = true;
Log *log(ProcessGDBRemoteLog::GetLogIfAllCategoriesSet(GDBR_LOG_PROCESS));
// Poll it now.
StringExtractorGDBRemote response;
const bool send_async = false;
if (SendPacketAndWaitForResponse("qStructuredDataPlugins", response,
send_async) == PacketResult::Success) {
m_supported_async_json_packets_sp =
StructuredData::ParseJSON(std::string(response.GetStringRef()));
if (m_supported_async_json_packets_sp &&
!m_supported_async_json_packets_sp->GetAsArray()) {
// We were returned something other than a JSON array. This is
// invalid. Clear it out.
LLDB_LOGF(log,
"GDBRemoteCommunicationClient::%s(): "
"QSupportedAsyncJSONPackets returned invalid "
"result: %s",
__FUNCTION__, response.GetStringRef().data());
m_supported_async_json_packets_sp.reset();
}
} else {
LLDB_LOGF(log,
"GDBRemoteCommunicationClient::%s(): "
"QSupportedAsyncJSONPackets unsupported",
__FUNCTION__);
}
if (log && m_supported_async_json_packets_sp) {
StreamString stream;
m_supported_async_json_packets_sp->Dump(stream);
LLDB_LOGF(log,
"GDBRemoteCommunicationClient::%s(): supported async "
"JSON packets: %s",
__FUNCTION__, stream.GetData());
}
}
return m_supported_async_json_packets_sp
? m_supported_async_json_packets_sp->GetAsArray()
: nullptr;
}
Status GDBRemoteCommunicationClient::SendSignalsToIgnore(
llvm::ArrayRef<int32_t> signals) {
// Format packet:
// QPassSignals:<hex_sig1>;<hex_sig2>...;<hex_sigN>
auto range = llvm::make_range(signals.begin(), signals.end());
std::string packet = formatv("QPassSignals:{0:$[;]@(x-2)}", range).str();
StringExtractorGDBRemote response;
auto send_status = SendPacketAndWaitForResponse(packet, response, false);
if (send_status != GDBRemoteCommunication::PacketResult::Success)
return Status("Sending QPassSignals packet failed");
if (response.IsOKResponse()) {
return Status();
} else {
return Status("Unknown error happened during sending QPassSignals packet.");
}
}
Status GDBRemoteCommunicationClient::ConfigureRemoteStructuredData(
ConstString type_name, const StructuredData::ObjectSP &config_sp) {
Status error;
if (type_name.GetLength() == 0) {
error.SetErrorString("invalid type_name argument");
return error;
}
// Build command: Configure{type_name}: serialized config data.
StreamGDBRemote stream;
stream.PutCString("QConfigure");
stream.PutCString(type_name.GetStringRef());
stream.PutChar(':');
if (config_sp) {
// Gather the plain-text version of the configuration data.
StreamString unescaped_stream;
config_sp->Dump(unescaped_stream);
unescaped_stream.Flush();
// Add it to the stream in escaped fashion.
stream.PutEscapedBytes(unescaped_stream.GetString().data(),
unescaped_stream.GetSize());
}
stream.Flush();
// Send the packet.
const bool send_async = false;
StringExtractorGDBRemote response;
auto result =
SendPacketAndWaitForResponse(stream.GetString(), response, send_async);
if (result == PacketResult::Success) {
// We failed if the config result comes back other than OK.
if (strcmp(response.GetStringRef().data(), "OK") == 0) {
// Okay!
error.Clear();
} else {
error.SetErrorStringWithFormat("configuring StructuredData feature "
"%s failed with error %s",
type_name.AsCString(),
response.GetStringRef().data());
}
} else {
// Can we get more data here on the failure?
error.SetErrorStringWithFormat("configuring StructuredData feature %s "
"failed when sending packet: "
"PacketResult=%d",
type_name.AsCString(), (int)result);
}
return error;
}
void GDBRemoteCommunicationClient::OnRunPacketSent(bool first) {
GDBRemoteClientBase::OnRunPacketSent(first);
m_curr_tid = LLDB_INVALID_THREAD_ID;
}