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| //===-- CommunicationKDP.cpp ------------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "CommunicationKDP.h"
#include <errno.h>
#include <limits.h>
#include <string.h>
#include "lldb/Core/DumpDataExtractor.h"
#include "lldb/Host/Host.h"
#include "lldb/Target/Process.h"
#include "lldb/Utility/DataBufferHeap.h"
#include "lldb/Utility/DataExtractor.h"
#include "lldb/Utility/FileSpec.h"
#include "lldb/Utility/Log.h"
#include "lldb/Utility/State.h"
#include "lldb/Utility/UUID.h"
#include "ProcessKDPLog.h"
using namespace lldb;
using namespace lldb_private;
// CommunicationKDP constructor
CommunicationKDP::CommunicationKDP(const char *comm_name)
: Communication(comm_name), m_addr_byte_size(4),
m_byte_order(eByteOrderLittle), m_packet_timeout(5), m_sequence_mutex(),
m_is_running(false), m_session_key(0u), m_request_sequence_id(0u),
m_exception_sequence_id(0u), m_kdp_version_version(0u),
m_kdp_version_feature(0u), m_kdp_hostinfo_cpu_mask(0u),
m_kdp_hostinfo_cpu_type(0u), m_kdp_hostinfo_cpu_subtype(0u) {}
// Destructor
CommunicationKDP::~CommunicationKDP() {
if (IsConnected()) {
Disconnect();
}
}
bool CommunicationKDP::SendRequestPacket(
const PacketStreamType &request_packet) {
std::lock_guard<std::recursive_mutex> guard(m_sequence_mutex);
return SendRequestPacketNoLock(request_packet);
}
void CommunicationKDP::MakeRequestPacketHeader(CommandType request_type,
PacketStreamType &request_packet,
uint16_t request_length) {
request_packet.Clear();
request_packet.PutHex8(request_type |
ePacketTypeRequest); // Set the request type
request_packet.PutHex8(m_request_sequence_id++); // Sequence number
request_packet.PutHex16(
request_length); // Length of the packet including this header
request_packet.PutHex32(m_session_key); // Session key
}
bool CommunicationKDP::SendRequestAndGetReply(
const CommandType command, const PacketStreamType &request_packet,
DataExtractor &reply_packet) {
if (IsRunning()) {
Log *log(ProcessKDPLog::GetLogIfAllCategoriesSet(KDP_LOG_PACKETS));
if (log) {
PacketStreamType log_strm;
DumpPacket(log_strm, request_packet.GetData(), request_packet.GetSize());
LLDB_LOGF(log, "error: kdp running, not sending packet: %.*s",
(uint32_t)log_strm.GetSize(), log_strm.GetData());
}
return false;
}
std::lock_guard<std::recursive_mutex> guard(m_sequence_mutex);
#ifdef LLDB_CONFIGURATION_DEBUG
// NOTE: this only works for packets that are in native endian byte order
assert(request_packet.GetSize() ==
*((const uint16_t *)(request_packet.GetData() + 2)));
#endif
lldb::offset_t offset = 1;
const uint32_t num_retries = 3;
for (uint32_t i = 0; i < num_retries; ++i) {
if (SendRequestPacketNoLock(request_packet)) {
const uint8_t request_sequence_id = (uint8_t)request_packet.GetData()[1];
while (true) {
if (WaitForPacketWithTimeoutMicroSecondsNoLock(
reply_packet,
std::chrono::microseconds(GetPacketTimeout()).count())) {
offset = 0;
const uint8_t reply_command = reply_packet.GetU8(&offset);
const uint8_t reply_sequence_id = reply_packet.GetU8(&offset);
if (request_sequence_id == reply_sequence_id) {
// The sequent ID was correct, now verify we got the response we
// were looking for
if ((reply_command & eCommandTypeMask) == command) {
// Success
if (command == KDP_RESUMECPUS)
m_is_running.SetValue(true, eBroadcastAlways);
return true;
} else {
// Failed to get the correct response, bail
reply_packet.Clear();
return false;
}
} else if (reply_sequence_id > request_sequence_id) {
// Sequence ID was greater than the sequence ID of the packet we
// sent, something is really wrong...
reply_packet.Clear();
return false;
} else {
// The reply sequence ID was less than our current packet's
// sequence ID so we should keep trying to get a response because
// this was a response for a previous packet that we must have
// retried.
}
} else {
// Break and retry sending the packet as we didn't get a response due
// to timeout
break;
}
}
}
}
reply_packet.Clear();
return false;
}
bool CommunicationKDP::SendRequestPacketNoLock(
const PacketStreamType &request_packet) {
if (IsConnected()) {
const char *packet_data = request_packet.GetData();
const size_t packet_size = request_packet.GetSize();
Log *log(ProcessKDPLog::GetLogIfAllCategoriesSet(KDP_LOG_PACKETS));
if (log) {
PacketStreamType log_strm;
DumpPacket(log_strm, packet_data, packet_size);
LLDB_LOGF(log, "%.*s", (uint32_t)log_strm.GetSize(), log_strm.GetData());
}
ConnectionStatus status = eConnectionStatusSuccess;
size_t bytes_written = Write(packet_data, packet_size, status, NULL);
if (bytes_written == packet_size)
return true;
LLDB_LOGF(log,
"error: failed to send packet entire packet %" PRIu64
" of %" PRIu64 " bytes sent",
(uint64_t)bytes_written, (uint64_t)packet_size);
}
return false;
}
bool CommunicationKDP::GetSequenceMutex(
std::unique_lock<std::recursive_mutex> &lock) {
return (lock = std::unique_lock<std::recursive_mutex>(m_sequence_mutex,
std::try_to_lock))
.owns_lock();
}
bool CommunicationKDP::WaitForNotRunningPrivate(
const std::chrono::microseconds &timeout) {
return m_is_running.WaitForValueEqualTo(false, timeout);
}
size_t
CommunicationKDP::WaitForPacketWithTimeoutMicroSeconds(DataExtractor &packet,
uint32_t timeout_usec) {
std::lock_guard<std::recursive_mutex> guard(m_sequence_mutex);
return WaitForPacketWithTimeoutMicroSecondsNoLock(packet, timeout_usec);
}
size_t CommunicationKDP::WaitForPacketWithTimeoutMicroSecondsNoLock(
DataExtractor &packet, uint32_t timeout_usec) {
uint8_t buffer[8192];
Status error;
Log *log(ProcessKDPLog::GetLogIfAllCategoriesSet(KDP_LOG_PACKETS));
// Check for a packet from our cache first without trying any reading...
if (CheckForPacket(NULL, 0, packet))
return packet.GetByteSize();
bool timed_out = false;
while (IsConnected() && !timed_out) {
lldb::ConnectionStatus status = eConnectionStatusNoConnection;
size_t bytes_read = Read(buffer, sizeof(buffer),
timeout_usec == UINT32_MAX
? Timeout<std::micro>(llvm::None)
: std::chrono::microseconds(timeout_usec),
status, &error);
LLDB_LOGV(log,
"Read (buffer, sizeof(buffer), timeout_usec = 0x{0:x}, "
"status = {1}, error = {2}) => bytes_read = {4}",
timeout_usec,
Communication::ConnectionStatusAsCString(status),
error, bytes_read);
if (bytes_read > 0) {
if (CheckForPacket(buffer, bytes_read, packet))
return packet.GetByteSize();
} else {
switch (status) {
case eConnectionStatusInterrupted:
case eConnectionStatusTimedOut:
timed_out = true;
break;
case eConnectionStatusSuccess:
// printf ("status = success but error = %s\n",
// error.AsCString("<invalid>"));
break;
case eConnectionStatusEndOfFile:
case eConnectionStatusNoConnection:
case eConnectionStatusLostConnection:
case eConnectionStatusError:
Disconnect();
break;
}
}
}
packet.Clear();
return 0;
}
bool CommunicationKDP::CheckForPacket(const uint8_t *src, size_t src_len,
DataExtractor &packet) {
// Put the packet data into the buffer in a thread safe fashion
std::lock_guard<std::recursive_mutex> guard(m_bytes_mutex);
Log *log(ProcessKDPLog::GetLogIfAllCategoriesSet(KDP_LOG_PACKETS));
if (src && src_len > 0) {
if (log && log->GetVerbose()) {
PacketStreamType log_strm;
DumpHexBytes(&log_strm, src, src_len, UINT32_MAX, LLDB_INVALID_ADDRESS);
LLDB_LOGF(log, "CommunicationKDP::%s adding %u bytes: %s", __FUNCTION__,
(uint32_t)src_len, log_strm.GetData());
}
m_bytes.append((const char *)src, src_len);
}
// Make sure we at least have enough bytes for a packet header
const size_t bytes_available = m_bytes.size();
if (bytes_available >= 8) {
packet.SetData(&m_bytes[0], bytes_available, m_byte_order);
lldb::offset_t offset = 0;
uint8_t reply_command = packet.GetU8(&offset);
switch (reply_command) {
case ePacketTypeRequest | KDP_EXCEPTION:
case ePacketTypeRequest | KDP_TERMINATION:
// We got an exception request, so be sure to send an ACK
{
PacketStreamType request_ack_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
// Set the reply but and make the ACK packet
request_ack_packet.PutHex8(reply_command | ePacketTypeReply);
request_ack_packet.PutHex8(packet.GetU8(&offset));
request_ack_packet.PutHex16(packet.GetU16(&offset));
request_ack_packet.PutHex32(packet.GetU32(&offset));
m_is_running.SetValue(false, eBroadcastAlways);
// Ack to the exception or termination
SendRequestPacketNoLock(request_ack_packet);
}
// Fall through to case below to get packet contents
LLVM_FALLTHROUGH;
case ePacketTypeReply | KDP_CONNECT:
case ePacketTypeReply | KDP_DISCONNECT:
case ePacketTypeReply | KDP_HOSTINFO:
case ePacketTypeReply | KDP_VERSION:
case ePacketTypeReply | KDP_MAXBYTES:
case ePacketTypeReply | KDP_READMEM:
case ePacketTypeReply | KDP_WRITEMEM:
case ePacketTypeReply | KDP_READREGS:
case ePacketTypeReply | KDP_WRITEREGS:
case ePacketTypeReply | KDP_LOAD:
case ePacketTypeReply | KDP_IMAGEPATH:
case ePacketTypeReply | KDP_SUSPEND:
case ePacketTypeReply | KDP_RESUMECPUS:
case ePacketTypeReply | KDP_BREAKPOINT_SET:
case ePacketTypeReply | KDP_BREAKPOINT_REMOVE:
case ePacketTypeReply | KDP_REGIONS:
case ePacketTypeReply | KDP_REATTACH:
case ePacketTypeReply | KDP_HOSTREBOOT:
case ePacketTypeReply | KDP_READMEM64:
case ePacketTypeReply | KDP_WRITEMEM64:
case ePacketTypeReply | KDP_BREAKPOINT_SET64:
case ePacketTypeReply | KDP_BREAKPOINT_REMOVE64:
case ePacketTypeReply | KDP_KERNELVERSION:
case ePacketTypeReply | KDP_READPHYSMEM64:
case ePacketTypeReply | KDP_WRITEPHYSMEM64:
case ePacketTypeReply | KDP_READIOPORT:
case ePacketTypeReply | KDP_WRITEIOPORT:
case ePacketTypeReply | KDP_READMSR64:
case ePacketTypeReply | KDP_WRITEMSR64:
case ePacketTypeReply | KDP_DUMPINFO: {
offset = 2;
const uint16_t length = packet.GetU16(&offset);
if (length <= bytes_available) {
// We have an entire packet ready, we need to copy the data bytes into
// a buffer that will be owned by the packet and erase the bytes from
// our communcation buffer "m_bytes"
packet.SetData(DataBufferSP(new DataBufferHeap(&m_bytes[0], length)));
m_bytes.erase(0, length);
if (log) {
PacketStreamType log_strm;
DumpPacket(log_strm, packet);
LLDB_LOGF(log, "%.*s", (uint32_t)log_strm.GetSize(),
log_strm.GetData());
}
return true;
}
} break;
default:
// Unrecognized reply command byte, erase this byte and try to get back
// on track
LLDB_LOGF(log, "CommunicationKDP::%s: tossing junk byte: 0x%2.2x",
__FUNCTION__, (uint8_t)m_bytes[0]);
m_bytes.erase(0, 1);
break;
}
}
packet.Clear();
return false;
}
bool CommunicationKDP::SendRequestConnect(uint16_t reply_port,
uint16_t exc_port,
const char *greeting) {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
if (greeting == NULL)
greeting = "";
const CommandType command = KDP_CONNECT;
// Length is 82 uint16_t and the length of the greeting C string with the
// terminating NULL
const uint32_t command_length = 8 + 2 + 2 + ::strlen(greeting) + 1;
MakeRequestPacketHeader(command, request_packet, command_length);
// Always send connect ports as little endian
request_packet.SetByteOrder(eByteOrderLittle);
request_packet.PutHex16(htons(reply_port));
request_packet.PutHex16(htons(exc_port));
request_packet.SetByteOrder(m_byte_order);
request_packet.PutCString(greeting);
DataExtractor reply_packet;
return SendRequestAndGetReply(command, request_packet, reply_packet);
}
void CommunicationKDP::ClearKDPSettings() {
m_request_sequence_id = 0;
m_kdp_version_version = 0;
m_kdp_version_feature = 0;
m_kdp_hostinfo_cpu_mask = 0;
m_kdp_hostinfo_cpu_type = 0;
m_kdp_hostinfo_cpu_subtype = 0;
}
bool CommunicationKDP::SendRequestReattach(uint16_t reply_port) {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
const CommandType command = KDP_REATTACH;
// Length is 8 bytes for the header plus 2 bytes for the reply UDP port
const uint32_t command_length = 8 + 2;
MakeRequestPacketHeader(command, request_packet, command_length);
// Always send connect ports as little endian
request_packet.SetByteOrder(eByteOrderLittle);
request_packet.PutHex16(htons(reply_port));
request_packet.SetByteOrder(m_byte_order);
DataExtractor reply_packet;
if (SendRequestAndGetReply(command, request_packet, reply_packet)) {
// Reset the sequence ID to zero for reattach
ClearKDPSettings();
lldb::offset_t offset = 4;
m_session_key = reply_packet.GetU32(&offset);
return true;
}
return false;
}
uint32_t CommunicationKDP::GetVersion() {
if (!VersionIsValid())
SendRequestVersion();
return m_kdp_version_version;
}
uint32_t CommunicationKDP::GetFeatureFlags() {
if (!VersionIsValid())
SendRequestVersion();
return m_kdp_version_feature;
}
bool CommunicationKDP::SendRequestVersion() {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
const CommandType command = KDP_VERSION;
const uint32_t command_length = 8;
MakeRequestPacketHeader(command, request_packet, command_length);
DataExtractor reply_packet;
if (SendRequestAndGetReply(command, request_packet, reply_packet)) {
lldb::offset_t offset = 8;
m_kdp_version_version = reply_packet.GetU32(&offset);
m_kdp_version_feature = reply_packet.GetU32(&offset);
return true;
}
return false;
}
uint32_t CommunicationKDP::GetCPUMask() {
if (!HostInfoIsValid())
SendRequestHostInfo();
return m_kdp_hostinfo_cpu_mask;
}
uint32_t CommunicationKDP::GetCPUType() {
if (!HostInfoIsValid())
SendRequestHostInfo();
return m_kdp_hostinfo_cpu_type;
}
uint32_t CommunicationKDP::GetCPUSubtype() {
if (!HostInfoIsValid())
SendRequestHostInfo();
return m_kdp_hostinfo_cpu_subtype;
}
lldb_private::UUID CommunicationKDP::GetUUID() {
UUID uuid;
if (GetKernelVersion() == NULL)
return uuid;
if (m_kernel_version.find("UUID=") == std::string::npos)
return uuid;
size_t p = m_kernel_version.find("UUID=") + strlen("UUID=");
std::string uuid_str = m_kernel_version.substr(p, 36);
if (uuid_str.size() < 32)
return uuid;
if (uuid.SetFromStringRef(uuid_str) == 0) {
UUID invalid_uuid;
return invalid_uuid;
}
return uuid;
}
bool CommunicationKDP::RemoteIsEFI() {
if (GetKernelVersion() == NULL)
return false;
return strncmp(m_kernel_version.c_str(), "EFI", 3) == 0;
}
bool CommunicationKDP::RemoteIsDarwinKernel() {
if (GetKernelVersion() == NULL)
return false;
return m_kernel_version.find("Darwin Kernel") != std::string::npos;
}
lldb::addr_t CommunicationKDP::GetLoadAddress() {
if (GetKernelVersion() == NULL)
return LLDB_INVALID_ADDRESS;
if (m_kernel_version.find("stext=") == std::string::npos)
return LLDB_INVALID_ADDRESS;
size_t p = m_kernel_version.find("stext=") + strlen("stext=");
if (m_kernel_version[p] != '0' || m_kernel_version[p + 1] != 'x')
return LLDB_INVALID_ADDRESS;
addr_t kernel_load_address;
errno = 0;
kernel_load_address = ::strtoul(m_kernel_version.c_str() + p, NULL, 16);
if (errno != 0 || kernel_load_address == 0)
return LLDB_INVALID_ADDRESS;
return kernel_load_address;
}
bool CommunicationKDP::SendRequestHostInfo() {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
const CommandType command = KDP_HOSTINFO;
const uint32_t command_length = 8;
MakeRequestPacketHeader(command, request_packet, command_length);
DataExtractor reply_packet;
if (SendRequestAndGetReply(command, request_packet, reply_packet)) {
lldb::offset_t offset = 8;
m_kdp_hostinfo_cpu_mask = reply_packet.GetU32(&offset);
m_kdp_hostinfo_cpu_type = reply_packet.GetU32(&offset);
m_kdp_hostinfo_cpu_subtype = reply_packet.GetU32(&offset);
ArchSpec kernel_arch;
kernel_arch.SetArchitecture(eArchTypeMachO, m_kdp_hostinfo_cpu_type,
m_kdp_hostinfo_cpu_subtype);
m_addr_byte_size = kernel_arch.GetAddressByteSize();
m_byte_order = kernel_arch.GetByteOrder();
return true;
}
return false;
}
const char *CommunicationKDP::GetKernelVersion() {
if (m_kernel_version.empty())
SendRequestKernelVersion();
return m_kernel_version.c_str();
}
bool CommunicationKDP::SendRequestKernelVersion() {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
const CommandType command = KDP_KERNELVERSION;
const uint32_t command_length = 8;
MakeRequestPacketHeader(command, request_packet, command_length);
DataExtractor reply_packet;
if (SendRequestAndGetReply(command, request_packet, reply_packet)) {
const char *kernel_version_cstr = reply_packet.PeekCStr(8);
if (kernel_version_cstr && kernel_version_cstr[0])
m_kernel_version.assign(kernel_version_cstr);
return true;
}
return false;
}
bool CommunicationKDP::SendRequestDisconnect() {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
const CommandType command = KDP_DISCONNECT;
const uint32_t command_length = 8;
MakeRequestPacketHeader(command, request_packet, command_length);
DataExtractor reply_packet;
if (SendRequestAndGetReply(command, request_packet, reply_packet)) {
// Are we supposed to get a reply for disconnect?
}
ClearKDPSettings();
return true;
}
uint32_t CommunicationKDP::SendRequestReadMemory(lldb::addr_t addr, void *dst,
uint32_t dst_len,
Status &error) {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
bool use_64 = (GetVersion() >= 11);
uint32_t command_addr_byte_size = use_64 ? 8 : 4;
const CommandType command = use_64 ? KDP_READMEM64 : KDP_READMEM;
// Size is header + address size + uint32_t length
const uint32_t command_length = 8 + command_addr_byte_size + 4;
MakeRequestPacketHeader(command, request_packet, command_length);
request_packet.PutMaxHex64(addr, command_addr_byte_size);
request_packet.PutHex32(dst_len);
DataExtractor reply_packet;
if (SendRequestAndGetReply(command, request_packet, reply_packet)) {
lldb::offset_t offset = 8;
uint32_t kdp_error = reply_packet.GetU32(&offset);
uint32_t src_len = reply_packet.GetByteSize() - 12;
if (src_len > 0) {
const void *src = reply_packet.GetData(&offset, src_len);
if (src) {
::memcpy(dst, src, src_len);
error.Clear();
return src_len;
}
}
if (kdp_error)
error.SetErrorStringWithFormat("kdp read memory failed (error %u)",
kdp_error);
else
error.SetErrorString("kdp read memory failed");
} else {
error.SetErrorString("failed to send packet");
}
return 0;
}
uint32_t CommunicationKDP::SendRequestWriteMemory(lldb::addr_t addr,
const void *src,
uint32_t src_len,
Status &error) {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
bool use_64 = (GetVersion() >= 11);
uint32_t command_addr_byte_size = use_64 ? 8 : 4;
const CommandType command = use_64 ? KDP_WRITEMEM64 : KDP_WRITEMEM;
// Size is header + address size + uint32_t length
const uint32_t command_length = 8 + command_addr_byte_size + 4 + src_len;
MakeRequestPacketHeader(command, request_packet, command_length);
request_packet.PutMaxHex64(addr, command_addr_byte_size);
request_packet.PutHex32(src_len);
request_packet.PutRawBytes(src, src_len);
DataExtractor reply_packet;
if (SendRequestAndGetReply(command, request_packet, reply_packet)) {
lldb::offset_t offset = 8;
uint32_t kdp_error = reply_packet.GetU32(&offset);
if (kdp_error)
error.SetErrorStringWithFormat("kdp write memory failed (error %u)",
kdp_error);
else {
error.Clear();
return src_len;
}
} else {
error.SetErrorString("failed to send packet");
}
return 0;
}
bool CommunicationKDP::SendRawRequest(
uint8_t command_byte,
const void *src, // Raw packet payload bytes
uint32_t src_len, // Raw packet payload length
DataExtractor &reply_packet, Status &error) {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
// Size is header + address size + uint32_t length
const uint32_t command_length = 8 + src_len;
const CommandType command = (CommandType)command_byte;
MakeRequestPacketHeader(command, request_packet, command_length);
request_packet.PutRawBytes(src, src_len);
if (SendRequestAndGetReply(command, request_packet, reply_packet)) {
lldb::offset_t offset = 8;
uint32_t kdp_error = reply_packet.GetU32(&offset);
if (kdp_error && (command_byte != KDP_DUMPINFO))
error.SetErrorStringWithFormat("request packet 0x%8.8x failed (error %u)",
command_byte, kdp_error);
else {
error.Clear();
return true;
}
} else {
error.SetErrorString("failed to send packet");
}
return false;
}
const char *CommunicationKDP::GetCommandAsCString(uint8_t command) {
switch (command) {
case KDP_CONNECT:
return "KDP_CONNECT";
case KDP_DISCONNECT:
return "KDP_DISCONNECT";
case KDP_HOSTINFO:
return "KDP_HOSTINFO";
case KDP_VERSION:
return "KDP_VERSION";
case KDP_MAXBYTES:
return "KDP_MAXBYTES";
case KDP_READMEM:
return "KDP_READMEM";
case KDP_WRITEMEM:
return "KDP_WRITEMEM";
case KDP_READREGS:
return "KDP_READREGS";
case KDP_WRITEREGS:
return "KDP_WRITEREGS";
case KDP_LOAD:
return "KDP_LOAD";
case KDP_IMAGEPATH:
return "KDP_IMAGEPATH";
case KDP_SUSPEND:
return "KDP_SUSPEND";
case KDP_RESUMECPUS:
return "KDP_RESUMECPUS";
case KDP_EXCEPTION:
return "KDP_EXCEPTION";
case KDP_TERMINATION:
return "KDP_TERMINATION";
case KDP_BREAKPOINT_SET:
return "KDP_BREAKPOINT_SET";
case KDP_BREAKPOINT_REMOVE:
return "KDP_BREAKPOINT_REMOVE";
case KDP_REGIONS:
return "KDP_REGIONS";
case KDP_REATTACH:
return "KDP_REATTACH";
case KDP_HOSTREBOOT:
return "KDP_HOSTREBOOT";
case KDP_READMEM64:
return "KDP_READMEM64";
case KDP_WRITEMEM64:
return "KDP_WRITEMEM64";
case KDP_BREAKPOINT_SET64:
return "KDP_BREAKPOINT64_SET";
case KDP_BREAKPOINT_REMOVE64:
return "KDP_BREAKPOINT64_REMOVE";
case KDP_KERNELVERSION:
return "KDP_KERNELVERSION";
case KDP_READPHYSMEM64:
return "KDP_READPHYSMEM64";
case KDP_WRITEPHYSMEM64:
return "KDP_WRITEPHYSMEM64";
case KDP_READIOPORT:
return "KDP_READIOPORT";
case KDP_WRITEIOPORT:
return "KDP_WRITEIOPORT";
case KDP_READMSR64:
return "KDP_READMSR64";
case KDP_WRITEMSR64:
return "KDP_WRITEMSR64";
case KDP_DUMPINFO:
return "KDP_DUMPINFO";
}
return NULL;
}
void CommunicationKDP::DumpPacket(Stream &s, const void *data,
uint32_t data_len) {
DataExtractor extractor(data, data_len, m_byte_order, m_addr_byte_size);
DumpPacket(s, extractor);
}
void CommunicationKDP::DumpPacket(Stream &s, const DataExtractor &packet) {
const char *error_desc = NULL;
if (packet.GetByteSize() < 8) {
error_desc = "error: invalid packet (too short): ";
} else {
lldb::offset_t offset = 0;
const uint8_t first_packet_byte = packet.GetU8(&offset);
const uint8_t sequence_id = packet.GetU8(&offset);
const uint16_t length = packet.GetU16(&offset);
const uint32_t key = packet.GetU32(&offset);
const CommandType command = ExtractCommand(first_packet_byte);
const char *command_name = GetCommandAsCString(command);
if (command_name) {
const bool is_reply = ExtractIsReply(first_packet_byte);
s.Printf("(running=%i) %s %24s: 0x%2.2x 0x%2.2x 0x%4.4x 0x%8.8x ",
IsRunning(), is_reply ? "<--" : "-->", command_name,
first_packet_byte, sequence_id, length, key);
if (is_reply) {
// Dump request reply packets
switch (command) {
// Commands that return a single 32 bit error
case KDP_CONNECT:
case KDP_WRITEMEM:
case KDP_WRITEMEM64:
case KDP_BREAKPOINT_SET:
case KDP_BREAKPOINT_REMOVE:
case KDP_BREAKPOINT_SET64:
case KDP_BREAKPOINT_REMOVE64:
case KDP_WRITEREGS:
case KDP_LOAD:
case KDP_WRITEIOPORT:
case KDP_WRITEMSR64: {
const uint32_t error = packet.GetU32(&offset);
s.Printf(" (error=0x%8.8x)", error);
} break;
case KDP_DISCONNECT:
case KDP_REATTACH:
case KDP_HOSTREBOOT:
case KDP_SUSPEND:
case KDP_RESUMECPUS:
case KDP_EXCEPTION:
case KDP_TERMINATION:
// No return value for the reply, just the header to ack
s.PutCString(" ()");
break;
case KDP_HOSTINFO: {
const uint32_t cpu_mask = packet.GetU32(&offset);
const uint32_t cpu_type = packet.GetU32(&offset);
const uint32_t cpu_subtype = packet.GetU32(&offset);
s.Printf(" (cpu_mask=0x%8.8x, cpu_type=0x%8.8x, cpu_subtype=0x%8.8x)",
cpu_mask, cpu_type, cpu_subtype);
} break;
case KDP_VERSION: {
const uint32_t version = packet.GetU32(&offset);
const uint32_t feature = packet.GetU32(&offset);
s.Printf(" (version=0x%8.8x, feature=0x%8.8x)", version, feature);
} break;
case KDP_REGIONS: {
const uint32_t region_count = packet.GetU32(&offset);
s.Printf(" (count = %u", region_count);
for (uint32_t i = 0; i < region_count; ++i) {
const addr_t region_addr = packet.GetPointer(&offset);
const uint32_t region_size = packet.GetU32(&offset);
const uint32_t region_prot = packet.GetU32(&offset);
s.Printf("\n\tregion[%" PRIu64 "] = { range = [0x%16.16" PRIx64
" - 0x%16.16" PRIx64 "), size = 0x%8.8x, prot = %s }",
region_addr, region_addr, region_addr + region_size,
region_size, GetPermissionsAsCString(region_prot));
}
} break;
case KDP_READMEM:
case KDP_READMEM64:
case KDP_READPHYSMEM64: {
const uint32_t error = packet.GetU32(&offset);
const uint32_t count = packet.GetByteSize() - offset;
s.Printf(" (error = 0x%8.8x:\n", error);
if (count > 0)
DumpDataExtractor(packet,
&s, // Stream to dump to
offset, // Offset within "packet"
eFormatBytesWithASCII, // Format to use
1, // Size of each item
// in bytes
count, // Number of items
16, // Number per line
m_last_read_memory_addr, // Don't show addresses
// before each line
0, 0); // No bitfields
} break;
case KDP_READREGS: {
const uint32_t error = packet.GetU32(&offset);
const uint32_t count = packet.GetByteSize() - offset;
s.Printf(" (error = 0x%8.8x regs:\n", error);
if (count > 0)
DumpDataExtractor(packet,
&s, // Stream to dump to
offset, // Offset within "packet"
eFormatHex, // Format to use
m_addr_byte_size, // Size of each item
// in bytes
count / m_addr_byte_size, // Number of items
16 / m_addr_byte_size, // Number per line
LLDB_INVALID_ADDRESS,
// Don't
// show addresses before
// each line
0, 0); // No bitfields
} break;
case KDP_KERNELVERSION: {
const char *kernel_version = packet.PeekCStr(8);
s.Printf(" (version = \"%s\")", kernel_version);
} break;
case KDP_MAXBYTES: {
const uint32_t max_bytes = packet.GetU32(&offset);
s.Printf(" (max_bytes = 0x%8.8x (%u))", max_bytes, max_bytes);
} break;
case KDP_IMAGEPATH: {
const char *path = packet.GetCStr(&offset);
s.Printf(" (path = \"%s\")", path);
} break;
case KDP_READIOPORT:
case KDP_READMSR64: {
const uint32_t error = packet.GetU32(&offset);
const uint32_t count = packet.GetByteSize() - offset;
s.Printf(" (error = 0x%8.8x io:\n", error);
if (count > 0)
DumpDataExtractor(packet,
&s, // Stream to dump to
offset, // Offset within "packet"
eFormatHex, // Format to use
1, // Size of each item in bytes
count, // Number of items
16, // Number per line
LLDB_INVALID_ADDRESS, // Don't show addresses
// before each line
0, 0); // No bitfields
} break;
case KDP_DUMPINFO: {
const uint32_t count = packet.GetByteSize() - offset;
s.Printf(" (count = %u, bytes = \n", count);
if (count > 0)
DumpDataExtractor(packet,
&s, // Stream to dump to
offset, // Offset within "packet"
eFormatHex, // Format to use
1, // Size of each item in
// bytes
count, // Number of items
16, // Number per line
LLDB_INVALID_ADDRESS, // Don't show addresses
// before each line
0, 0); // No bitfields
} break;
default:
s.Printf(" (add support for dumping this packet reply!!!");
break;
}
} else {
// Dump request packets
switch (command) {
case KDP_CONNECT: {
const uint16_t reply_port = ntohs(packet.GetU16(&offset));
const uint16_t exc_port = ntohs(packet.GetU16(&offset));
s.Printf(" (reply_port = %u, exc_port = %u, greeting = \"%s\")",
reply_port, exc_port, packet.GetCStr(&offset));
} break;
case KDP_DISCONNECT:
case KDP_HOSTREBOOT:
case KDP_HOSTINFO:
case KDP_VERSION:
case KDP_REGIONS:
case KDP_KERNELVERSION:
case KDP_MAXBYTES:
case KDP_IMAGEPATH:
case KDP_SUSPEND:
// No args, just the header in the request...
s.PutCString(" ()");
break;
case KDP_RESUMECPUS: {
const uint32_t cpu_mask = packet.GetU32(&offset);
s.Printf(" (cpu_mask = 0x%8.8x)", cpu_mask);
} break;
case KDP_READMEM: {
const uint32_t addr = packet.GetU32(&offset);
const uint32_t size = packet.GetU32(&offset);
s.Printf(" (addr = 0x%8.8x, size = %u)", addr, size);
m_last_read_memory_addr = addr;
} break;
case KDP_WRITEMEM: {
const uint32_t addr = packet.GetU32(&offset);
const uint32_t size = packet.GetU32(&offset);
s.Printf(" (addr = 0x%8.8x, size = %u, bytes = \n", addr, size);
if (size > 0)
DumpHexBytes(&s, packet.GetData(&offset, size), size, 32, addr);
} break;
case KDP_READMEM64: {
const uint64_t addr = packet.GetU64(&offset);
const uint32_t size = packet.GetU32(&offset);
s.Printf(" (addr = 0x%16.16" PRIx64 ", size = %u)", addr, size);
m_last_read_memory_addr = addr;
} break;
case KDP_READPHYSMEM64: {
const uint64_t addr = packet.GetU64(&offset);
const uint32_t size = packet.GetU32(&offset);
const uint32_t lcpu = packet.GetU16(&offset);
s.Printf(" (addr = 0x%16.16llx, size = %u, lcpu = %u)", addr, size,
lcpu);
m_last_read_memory_addr = addr;
} break;
case KDP_WRITEMEM64: {
const uint64_t addr = packet.GetU64(&offset);
const uint32_t size = packet.GetU32(&offset);
s.Printf(" (addr = 0x%16.16" PRIx64 ", size = %u, bytes = \n", addr,
size);
if (size > 0)
DumpHexBytes(&s, packet.GetData(&offset, size), size, 32, addr);
} break;
case KDP_WRITEPHYSMEM64: {
const uint64_t addr = packet.GetU64(&offset);
const uint32_t size = packet.GetU32(&offset);
const uint32_t lcpu = packet.GetU16(&offset);
s.Printf(" (addr = 0x%16.16llx, size = %u, lcpu = %u, bytes = \n",
addr, size, lcpu);
if (size > 0)
DumpHexBytes(&s, packet.GetData(&offset, size), size, 32, addr);
} break;
case KDP_READREGS: {
const uint32_t cpu = packet.GetU32(&offset);
const uint32_t flavor = packet.GetU32(&offset);
s.Printf(" (cpu = %u, flavor = %u)", cpu, flavor);
} break;
case KDP_WRITEREGS: {
const uint32_t cpu = packet.GetU32(&offset);
const uint32_t flavor = packet.GetU32(&offset);
const uint32_t nbytes = packet.GetByteSize() - offset;
s.Printf(" (cpu = %u, flavor = %u, regs = \n", cpu, flavor);
if (nbytes > 0)
DumpDataExtractor(packet,
&s, // Stream to dump to
offset, // Offset within
// "packet"
eFormatHex, // Format to use
m_addr_byte_size, // Size of each item in
// bytes
nbytes / m_addr_byte_size, // Number of items
16 / m_addr_byte_size, // Number per line
LLDB_INVALID_ADDRESS, // Don't show addresses
// before each line
0, 0); // No bitfields
} break;
case KDP_BREAKPOINT_SET:
case KDP_BREAKPOINT_REMOVE: {
const uint32_t addr = packet.GetU32(&offset);
s.Printf(" (addr = 0x%8.8x)", addr);
} break;
case KDP_BREAKPOINT_SET64:
case KDP_BREAKPOINT_REMOVE64: {
const uint64_t addr = packet.GetU64(&offset);
s.Printf(" (addr = 0x%16.16" PRIx64 ")", addr);
} break;
case KDP_LOAD: {
const char *path = packet.GetCStr(&offset);
s.Printf(" (path = \"%s\")", path);
} break;
case KDP_EXCEPTION: {
const uint32_t count = packet.GetU32(&offset);
for (uint32_t i = 0; i < count; ++i) {
const uint32_t cpu = packet.GetU32(&offset);
const uint32_t exc = packet.GetU32(&offset);
const uint32_t code = packet.GetU32(&offset);
const uint32_t subcode = packet.GetU32(&offset);
const char *exc_cstr = NULL;
switch (exc) {
case 1:
exc_cstr = "EXC_BAD_ACCESS";
break;
case 2:
exc_cstr = "EXC_BAD_INSTRUCTION";
break;
case 3:
exc_cstr = "EXC_ARITHMETIC";
break;
case 4:
exc_cstr = "EXC_EMULATION";
break;
case 5:
exc_cstr = "EXC_SOFTWARE";
break;
case 6:
exc_cstr = "EXC_BREAKPOINT";
break;
case 7:
exc_cstr = "EXC_SYSCALL";
break;
case 8:
exc_cstr = "EXC_MACH_SYSCALL";
break;
case 9:
exc_cstr = "EXC_RPC_ALERT";
break;
case 10:
exc_cstr = "EXC_CRASH";
break;
default:
break;
}
s.Printf("{ cpu = 0x%8.8x, exc = %s (%u), code = %u (0x%8.8x), "
"subcode = %u (0x%8.8x)} ",
cpu, exc_cstr, exc, code, code, subcode, subcode);
}
} break;
case KDP_TERMINATION: {
const uint32_t term_code = packet.GetU32(&offset);
const uint32_t exit_code = packet.GetU32(&offset);
s.Printf(" (term_code = 0x%8.8x (%u), exit_code = 0x%8.8x (%u))",
term_code, term_code, exit_code, exit_code);
} break;
case KDP_REATTACH: {
const uint16_t reply_port = ntohs(packet.GetU16(&offset));
s.Printf(" (reply_port = %u)", reply_port);
} break;
case KDP_READMSR64: {
const uint32_t address = packet.GetU32(&offset);
const uint16_t lcpu = packet.GetU16(&offset);
s.Printf(" (address=0x%8.8x, lcpu=0x%4.4x)", address, lcpu);
} break;
case KDP_WRITEMSR64: {
const uint32_t address = packet.GetU32(&offset);
const uint16_t lcpu = packet.GetU16(&offset);
const uint32_t nbytes = packet.GetByteSize() - offset;
s.Printf(" (address=0x%8.8x, lcpu=0x%4.4x, nbytes=0x%8.8x)", lcpu,
address, nbytes);
if (nbytes > 0)
DumpDataExtractor(packet,
&s, // Stream to dump to
offset, // Offset within "packet"
eFormatHex, // Format to use
1, // Size of each item in
// bytes
nbytes, // Number of items
16, // Number per line
LLDB_INVALID_ADDRESS, // Don't show addresses
// before each line
0, 0); // No bitfields
} break;
case KDP_READIOPORT: {
const uint16_t lcpu = packet.GetU16(&offset);
const uint16_t address = packet.GetU16(&offset);
const uint16_t nbytes = packet.GetU16(&offset);
s.Printf(" (lcpu=0x%4.4x, address=0x%4.4x, nbytes=%u)", lcpu, address,
nbytes);
} break;
case KDP_WRITEIOPORT: {
const uint16_t lcpu = packet.GetU16(&offset);
const uint16_t address = packet.GetU16(&offset);
const uint16_t nbytes = packet.GetU16(&offset);
s.Printf(" (lcpu = %u, addr = 0x%4.4x, nbytes = %u, bytes = \n", lcpu,
address, nbytes);
if (nbytes > 0)
DumpDataExtractor(packet,
&s, // Stream to dump to
offset, // Offset within "packet"
eFormatHex, // Format to use
1, // Size of each item in
// bytes
nbytes, // Number of items
16, // Number per line
LLDB_INVALID_ADDRESS, // Don't show addresses
// before each line
0, 0); // No bitfields
} break;
case KDP_DUMPINFO: {
const uint32_t count = packet.GetByteSize() - offset;
s.Printf(" (count = %u, bytes = \n", count);
if (count > 0)
DumpDataExtractor(packet,
&s, // Stream to dump to
offset, // Offset within "packet"
eFormatHex, // Format to use
1, // Size of each item in bytes
count, // Number of items
16, // Number per line
LLDB_INVALID_ADDRESS, // Don't show addresses before each line
0, 0); // No bitfields
} break;
}
}
} else {
error_desc = "error: invalid packet command: ";
}
}
if (error_desc) {
s.PutCString(error_desc);
DumpDataExtractor(packet,
&s, // Stream to dump to
0, // Offset into "packet"
eFormatBytes, // Dump as hex bytes
1, // Size of each item is 1 for
// single bytes
packet.GetByteSize(), // Number of bytes
UINT32_MAX, // Num bytes per line
LLDB_INVALID_ADDRESS, // Base address
0, 0); // Bitfield info set to not do
// anything bitfield related
}
}
uint32_t CommunicationKDP::SendRequestReadRegisters(uint32_t cpu,
uint32_t flavor, void *dst,
uint32_t dst_len,
Status &error) {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
const CommandType command = KDP_READREGS;
// Size is header + 4 byte cpu and 4 byte flavor
const uint32_t command_length = 8 + 4 + 4;
MakeRequestPacketHeader(command, request_packet, command_length);
request_packet.PutHex32(cpu);
request_packet.PutHex32(flavor);
DataExtractor reply_packet;
if (SendRequestAndGetReply(command, request_packet, reply_packet)) {
lldb::offset_t offset = 8;
uint32_t kdp_error = reply_packet.GetU32(&offset);
uint32_t src_len = reply_packet.GetByteSize() - 12;
if (src_len > 0) {
const uint32_t bytes_to_copy = std::min<uint32_t>(src_len, dst_len);
const void *src = reply_packet.GetData(&offset, bytes_to_copy);
if (src) {
::memcpy(dst, src, bytes_to_copy);
error.Clear();
// Return the number of bytes we could have returned regardless if we
// copied them or not, just so we know when things don't match up
return src_len;
}
}
if (kdp_error)
error.SetErrorStringWithFormat(
"failed to read kdp registers for cpu %u flavor %u (error %u)", cpu,
flavor, kdp_error);
else
error.SetErrorStringWithFormat(
"failed to read kdp registers for cpu %u flavor %u", cpu, flavor);
} else {
error.SetErrorString("failed to send packet");
}
return 0;
}
uint32_t CommunicationKDP::SendRequestWriteRegisters(uint32_t cpu,
uint32_t flavor,
const void *src,
uint32_t src_len,
Status &error) {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
const CommandType command = KDP_WRITEREGS;
// Size is header + 4 byte cpu and 4 byte flavor
const uint32_t command_length = 8 + 4 + 4 + src_len;
MakeRequestPacketHeader(command, request_packet, command_length);
request_packet.PutHex32(cpu);
request_packet.PutHex32(flavor);
request_packet.Write(src, src_len);
DataExtractor reply_packet;
if (SendRequestAndGetReply(command, request_packet, reply_packet)) {
lldb::offset_t offset = 8;
uint32_t kdp_error = reply_packet.GetU32(&offset);
if (kdp_error == 0)
return src_len;
error.SetErrorStringWithFormat(
"failed to read kdp registers for cpu %u flavor %u (error %u)", cpu,
flavor, kdp_error);
} else {
error.SetErrorString("failed to send packet");
}
return 0;
}
bool CommunicationKDP::SendRequestResume() {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
const CommandType command = KDP_RESUMECPUS;
const uint32_t command_length = 12;
MakeRequestPacketHeader(command, request_packet, command_length);
request_packet.PutHex32(GetCPUMask());
DataExtractor reply_packet;
return SendRequestAndGetReply(command, request_packet, reply_packet);
}
bool CommunicationKDP::SendRequestBreakpoint(bool set, addr_t addr) {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
bool use_64 = (GetVersion() >= 11);
uint32_t command_addr_byte_size = use_64 ? 8 : 4;
const CommandType command =
set ? (use_64 ? KDP_BREAKPOINT_SET64 : KDP_BREAKPOINT_SET)
: (use_64 ? KDP_BREAKPOINT_REMOVE64 : KDP_BREAKPOINT_REMOVE);
const uint32_t command_length = 8 + command_addr_byte_size;
MakeRequestPacketHeader(command, request_packet, command_length);
request_packet.PutMaxHex64(addr, command_addr_byte_size);
DataExtractor reply_packet;
if (SendRequestAndGetReply(command, request_packet, reply_packet)) {
lldb::offset_t offset = 8;
uint32_t kdp_error = reply_packet.GetU32(&offset);
if (kdp_error == 0)
return true;
}
return false;
}
bool CommunicationKDP::SendRequestSuspend() {
PacketStreamType request_packet(Stream::eBinary, m_addr_byte_size,
m_byte_order);
const CommandType command = KDP_SUSPEND;
const uint32_t command_length = 8;
MakeRequestPacketHeader(command, request_packet, command_length);
DataExtractor reply_packet;
return SendRequestAndGetReply(command, request_packet, reply_packet);
}
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