DynamicLoader/Darwin-Kernel/DynamicLoaderDarwinKernel.cpp

dda28197Spatrick//===-- DynamicLoaderDarwinKernel.cpp -------------------------------------===//
061da546Spatrick//
061da546Spatrick// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
061da546Spatrick// See https://llvm.org/LICENSE.txt for license information.
061da546Spatrick// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
061da546Spatrick//
061da546Spatrick//===----------------------------------------------------------------------===//
061da546Spatrick
061da546Spatrick#include "Plugins/Platform/MacOSX/PlatformDarwinKernel.h"
061da546Spatrick#include "lldb/Breakpoint/StoppointCallbackContext.h"
061da546Spatrick#include "lldb/Core/Debugger.h"
061da546Spatrick#include "lldb/Core/Module.h"
061da546Spatrick#include "lldb/Core/ModuleSpec.h"
061da546Spatrick#include "lldb/Core/PluginManager.h"
061da546Spatrick#include "lldb/Core/Section.h"
061da546Spatrick#include "lldb/Core/StreamFile.h"
061da546Spatrick#include "lldb/Interpreter/OptionValueProperties.h"
061da546Spatrick#include "lldb/Symbol/LocateSymbolFile.h"
061da546Spatrick#include "lldb/Symbol/ObjectFile.h"
061da546Spatrick#include "lldb/Target/OperatingSystem.h"
061da546Spatrick#include "lldb/Target/RegisterContext.h"
061da546Spatrick#include "lldb/Target/StackFrame.h"
061da546Spatrick#include "lldb/Target/Target.h"
061da546Spatrick#include "lldb/Target/Thread.h"
061da546Spatrick#include "lldb/Target/ThreadPlanRunToAddress.h"
061da546Spatrick#include "lldb/Utility/DataBuffer.h"
061da546Spatrick#include "lldb/Utility/DataBufferHeap.h"
*f6aab3d8Srobert#include "lldb/Utility/LLDBLog.h"
061da546Spatrick#include "lldb/Utility/Log.h"
061da546Spatrick#include "lldb/Utility/State.h"
061da546Spatrick
061da546Spatrick#include "DynamicLoaderDarwinKernel.h"
061da546Spatrick
061da546Spatrick#include <algorithm>
061da546Spatrick#include <memory>
061da546Spatrick
061da546Spatrick//#define ENABLE_DEBUG_PRINTF // COMMENT THIS LINE OUT PRIOR TO CHECKIN
061da546Spatrick#ifdef ENABLE_DEBUG_PRINTF
be691f3bSpatrick#include <cstdio>
061da546Spatrick#define DEBUG_PRINTF(fmt, ...) printf(fmt, ##__VA_ARGS__)
061da546Spatrick#else
061da546Spatrick#define DEBUG_PRINTF(fmt, ...)
061da546Spatrick#endif
061da546Spatrick
061da546Spatrickusing namespace lldb;
061da546Spatrickusing namespace lldb_private;
061da546Spatrick
dda28197SpatrickLLDB_PLUGIN_DEFINE(DynamicLoaderDarwinKernel)
dda28197Spatrick
061da546Spatrick// Progressively greater amounts of scanning we will allow For some targets
061da546Spatrick// very early in startup, we can't do any random reads of memory or we can
061da546Spatrick// crash the device so a setting is needed that can completely disable the
061da546Spatrick// KASLR scans.
061da546Spatrick
061da546Spatrickenum KASLRScanType {
061da546Spatrick  eKASLRScanNone = 0,        // No reading into the inferior at all
061da546Spatrick  eKASLRScanLowgloAddresses, // Check one word of memory for a possible kernel
061da546Spatrick                             // addr, then see if a kernel is there
061da546Spatrick  eKASLRScanNearPC, // Scan backwards from the current $pc looking for kernel;
061da546Spatrick                    // checking at 96 locations total
061da546Spatrick  eKASLRScanExhaustiveScan // Scan through the entire possible kernel address
061da546Spatrick                           // range looking for a kernel
061da546Spatrick};
061da546Spatrick
061da546Spatrickstatic constexpr OptionEnumValueElement g_kaslr_kernel_scan_enum_values[] = {
061da546Spatrick    {
061da546Spatrick        eKASLRScanNone,
061da546Spatrick        "none",
061da546Spatrick        "Do not read memory looking for a Darwin kernel when attaching.",
061da546Spatrick    },
061da546Spatrick    {
061da546Spatrick        eKASLRScanLowgloAddresses,
061da546Spatrick        "basic",
061da546Spatrick        "Check for the Darwin kernel's load addr in the lowglo page "
061da546Spatrick        "(boot-args=debug) only.",
061da546Spatrick    },
061da546Spatrick    {
061da546Spatrick        eKASLRScanNearPC,
061da546Spatrick        "fast-scan",
061da546Spatrick        "Scan near the pc value on attach to find the Darwin kernel's load "
061da546Spatrick        "address.",
061da546Spatrick    },
061da546Spatrick    {
061da546Spatrick        eKASLRScanExhaustiveScan,
061da546Spatrick        "exhaustive-scan",
061da546Spatrick        "Scan through the entire potential address range of Darwin kernel "
061da546Spatrick        "(only on 32-bit targets).",
061da546Spatrick    },
061da546Spatrick};
061da546Spatrick
061da546Spatrick#define LLDB_PROPERTIES_dynamicloaderdarwinkernel
061da546Spatrick#include "DynamicLoaderDarwinKernelProperties.inc"
061da546Spatrick
061da546Spatrickenum {
061da546Spatrick#define LLDB_PROPERTIES_dynamicloaderdarwinkernel
061da546Spatrick#include "DynamicLoaderDarwinKernelPropertiesEnum.inc"
061da546Spatrick};
061da546Spatrick
061da546Spatrickclass DynamicLoaderDarwinKernelProperties : public Properties {
061da546Spatrickpublic:
061da546Spatrick  static ConstString &GetSettingName() {
061da546Spatrick    static ConstString g_setting_name("darwin-kernel");
061da546Spatrick    return g_setting_name;
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  DynamicLoaderDarwinKernelProperties() : Properties() {
061da546Spatrick    m_collection_sp = std::make_shared<OptionValueProperties>(GetSettingName());
061da546Spatrick    m_collection_sp->Initialize(g_dynamicloaderdarwinkernel_properties);
061da546Spatrick  }
061da546Spatrick
be691f3bSpatrick  ~DynamicLoaderDarwinKernelProperties() override = default;
061da546Spatrick
061da546Spatrick  bool GetLoadKexts() const {
061da546Spatrick    const uint32_t idx = ePropertyLoadKexts;
061da546Spatrick    return m_collection_sp->GetPropertyAtIndexAsBoolean(
061da546Spatrick        nullptr, idx,
061da546Spatrick        g_dynamicloaderdarwinkernel_properties[idx].default_uint_value != 0);
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  KASLRScanType GetScanType() const {
061da546Spatrick    const uint32_t idx = ePropertyScanType;
061da546Spatrick    return (KASLRScanType)m_collection_sp->GetPropertyAtIndexAsEnumeration(
061da546Spatrick        nullptr, idx,
061da546Spatrick        g_dynamicloaderdarwinkernel_properties[idx].default_uint_value);
061da546Spatrick  }
061da546Spatrick};
061da546Spatrick
*f6aab3d8Srobertstatic DynamicLoaderDarwinKernelProperties &GetGlobalProperties() {
*f6aab3d8Srobert  static DynamicLoaderDarwinKernelProperties g_settings;
*f6aab3d8Srobert  return g_settings;
*f6aab3d8Srobert}
061da546Spatrick
*f6aab3d8Srobertstatic bool is_kernel(Module *module) {
*f6aab3d8Srobert  if (!module)
*f6aab3d8Srobert    return false;
*f6aab3d8Srobert  ObjectFile *objfile = module->GetObjectFile();
*f6aab3d8Srobert  if (!objfile)
*f6aab3d8Srobert    return false;
*f6aab3d8Srobert  if (objfile->GetType() != ObjectFile::eTypeExecutable)
*f6aab3d8Srobert    return false;
*f6aab3d8Srobert  if (objfile->GetStrata() != ObjectFile::eStrataKernel)
*f6aab3d8Srobert    return false;
*f6aab3d8Srobert
*f6aab3d8Srobert  return true;
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Create an instance of this class. This function is filled into the plugin
061da546Spatrick// info class that gets handed out by the plugin factory and allows the lldb to
061da546Spatrick// instantiate an instance of this class.
061da546SpatrickDynamicLoader *DynamicLoaderDarwinKernel::CreateInstance(Process *process,
061da546Spatrick                                                         bool force) {
061da546Spatrick  if (!force) {
061da546Spatrick    // If the user provided an executable binary and it is not a kernel, this
061da546Spatrick    // plugin should not create an instance.
*f6aab3d8Srobert    Module *exec = process->GetTarget().GetExecutableModulePointer();
*f6aab3d8Srobert    if (exec && !is_kernel(exec))
061da546Spatrick      return nullptr;
061da546Spatrick
061da546Spatrick    // If the target's architecture does not look like an Apple environment,
061da546Spatrick    // this plugin should not create an instance.
061da546Spatrick    const llvm::Triple &triple_ref =
061da546Spatrick        process->GetTarget().GetArchitecture().GetTriple();
061da546Spatrick    switch (triple_ref.getOS()) {
061da546Spatrick    case llvm::Triple::Darwin:
061da546Spatrick    case llvm::Triple::MacOSX:
061da546Spatrick    case llvm::Triple::IOS:
061da546Spatrick    case llvm::Triple::TvOS:
061da546Spatrick    case llvm::Triple::WatchOS:
061da546Spatrick    // NEED_BRIDGEOS_TRIPLE case llvm::Triple::BridgeOS:
061da546Spatrick      if (triple_ref.getVendor() != llvm::Triple::Apple) {
061da546Spatrick        return nullptr;
061da546Spatrick      }
061da546Spatrick      break;
061da546Spatrick    // If we have triple like armv7-unknown-unknown, we should try looking for
061da546Spatrick    // a Darwin kernel.
061da546Spatrick    case llvm::Triple::UnknownOS:
061da546Spatrick      break;
061da546Spatrick    default:
061da546Spatrick      return nullptr;
061da546Spatrick      break;
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  // At this point if there is an ExecutableModule, it is a kernel and the
061da546Spatrick  // Target is some variant of an Apple system. If the Process hasn't provided
061da546Spatrick  // the kernel load address, we need to look around in memory to find it.
061da546Spatrick  const addr_t kernel_load_address = SearchForDarwinKernel(process);
061da546Spatrick  if (CheckForKernelImageAtAddress(kernel_load_address, process).IsValid()) {
061da546Spatrick    return new DynamicLoaderDarwinKernel(process, kernel_load_address);
061da546Spatrick  }
061da546Spatrick  return nullptr;
061da546Spatrick}
061da546Spatrick
061da546Spatricklldb::addr_t
061da546SpatrickDynamicLoaderDarwinKernel::SearchForDarwinKernel(Process *process) {
061da546Spatrick  addr_t kernel_load_address = process->GetImageInfoAddress();
*f6aab3d8Srobert  if (kernel_load_address == LLDB_INVALID_ADDRESS)
061da546Spatrick    kernel_load_address = SearchForKernelAtSameLoadAddr(process);
*f6aab3d8Srobert  if (kernel_load_address == LLDB_INVALID_ADDRESS)
061da546Spatrick    kernel_load_address = SearchForKernelWithDebugHints(process);
*f6aab3d8Srobert  if (kernel_load_address == LLDB_INVALID_ADDRESS)
061da546Spatrick    kernel_load_address = SearchForKernelNearPC(process);
*f6aab3d8Srobert  if (kernel_load_address == LLDB_INVALID_ADDRESS)
061da546Spatrick    kernel_load_address = SearchForKernelViaExhaustiveSearch(process);
*f6aab3d8Srobert
061da546Spatrick  return kernel_load_address;
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Check if the kernel binary is loaded in memory without a slide. First verify
061da546Spatrick// that the ExecutableModule is a kernel before we proceed. Returns the address
061da546Spatrick// of the kernel if one was found, else LLDB_INVALID_ADDRESS.
061da546Spatricklldb::addr_t
061da546SpatrickDynamicLoaderDarwinKernel::SearchForKernelAtSameLoadAddr(Process *process) {
061da546Spatrick  Module *exe_module = process->GetTarget().GetExecutableModulePointer();
*f6aab3d8Srobert
*f6aab3d8Srobert  if (!is_kernel(process->GetTarget().GetExecutableModulePointer()))
061da546Spatrick    return LLDB_INVALID_ADDRESS;
061da546Spatrick
061da546Spatrick  ObjectFile *exe_objfile = exe_module->GetObjectFile();
061da546Spatrick
061da546Spatrick  if (!exe_objfile->GetBaseAddress().IsValid())
061da546Spatrick    return LLDB_INVALID_ADDRESS;
061da546Spatrick
061da546Spatrick  if (CheckForKernelImageAtAddress(
061da546Spatrick          exe_objfile->GetBaseAddress().GetFileAddress(), process) ==
061da546Spatrick      exe_module->GetUUID())
061da546Spatrick    return exe_objfile->GetBaseAddress().GetFileAddress();
061da546Spatrick
061da546Spatrick  return LLDB_INVALID_ADDRESS;
061da546Spatrick}
061da546Spatrick
061da546Spatrick// If the debug flag is included in the boot-args nvram setting, the kernel's
061da546Spatrick// load address will be noted in the lowglo page at a fixed address Returns the
061da546Spatrick// address of the kernel if one was found, else LLDB_INVALID_ADDRESS.
061da546Spatricklldb::addr_t
061da546SpatrickDynamicLoaderDarwinKernel::SearchForKernelWithDebugHints(Process *process) {
*f6aab3d8Srobert  if (GetGlobalProperties().GetScanType() == eKASLRScanNone)
061da546Spatrick    return LLDB_INVALID_ADDRESS;
061da546Spatrick
061da546Spatrick  Status read_err;
061da546Spatrick  addr_t kernel_addresses_64[] = {
dda28197Spatrick      0xfffffff000002010ULL,
061da546Spatrick      0xfffffff000004010ULL, // newest arm64 devices
061da546Spatrick      0xffffff8000004010ULL, // 2014-2015-ish arm64 devices
061da546Spatrick      0xffffff8000002010ULL, // oldest arm64 devices
061da546Spatrick      LLDB_INVALID_ADDRESS};
061da546Spatrick  addr_t kernel_addresses_32[] = {0xffff0110, // 2016 and earlier armv7 devices
061da546Spatrick                                  0xffff1010, LLDB_INVALID_ADDRESS};
061da546Spatrick
061da546Spatrick  uint8_t uval[8];
061da546Spatrick  if (process->GetAddressByteSize() == 8) {
061da546Spatrick  for (size_t i = 0; kernel_addresses_64[i] != LLDB_INVALID_ADDRESS; i++) {
061da546Spatrick      if (process->ReadMemoryFromInferior (kernel_addresses_64[i], uval, 8, read_err) == 8)
061da546Spatrick      {
061da546Spatrick          DataExtractor data (&uval, 8, process->GetByteOrder(), process->GetAddressByteSize());
061da546Spatrick          offset_t offset = 0;
061da546Spatrick          uint64_t addr = data.GetU64 (&offset);
061da546Spatrick          if (CheckForKernelImageAtAddress(addr, process).IsValid()) {
061da546Spatrick              return addr;
061da546Spatrick          }
061da546Spatrick      }
061da546Spatrick  }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  if (process->GetAddressByteSize() == 4) {
061da546Spatrick  for (size_t i = 0; kernel_addresses_32[i] != LLDB_INVALID_ADDRESS; i++) {
061da546Spatrick      if (process->ReadMemoryFromInferior (kernel_addresses_32[i], uval, 4, read_err) == 4)
061da546Spatrick      {
061da546Spatrick          DataExtractor data (&uval, 4, process->GetByteOrder(), process->GetAddressByteSize());
061da546Spatrick          offset_t offset = 0;
061da546Spatrick          uint32_t addr = data.GetU32 (&offset);
061da546Spatrick          if (CheckForKernelImageAtAddress(addr, process).IsValid()) {
061da546Spatrick              return addr;
061da546Spatrick          }
061da546Spatrick      }
061da546Spatrick  }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  return LLDB_INVALID_ADDRESS;
061da546Spatrick}
061da546Spatrick
061da546Spatrick// If the kernel is currently executing when lldb attaches, and we don't have a
061da546Spatrick// better way of finding the kernel's load address, try searching backwards
061da546Spatrick// from the current pc value looking for the kernel's Mach header in memory.
061da546Spatrick// Returns the address of the kernel if one was found, else
061da546Spatrick// LLDB_INVALID_ADDRESS.
061da546Spatricklldb::addr_t
061da546SpatrickDynamicLoaderDarwinKernel::SearchForKernelNearPC(Process *process) {
*f6aab3d8Srobert  if (GetGlobalProperties().GetScanType() == eKASLRScanNone ||
*f6aab3d8Srobert      GetGlobalProperties().GetScanType() == eKASLRScanLowgloAddresses) {
061da546Spatrick    return LLDB_INVALID_ADDRESS;
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  ThreadSP thread = process->GetThreadList().GetSelectedThread();
061da546Spatrick  if (thread.get() == nullptr)
061da546Spatrick    return LLDB_INVALID_ADDRESS;
061da546Spatrick  addr_t pc = thread->GetRegisterContext()->GetPC(LLDB_INVALID_ADDRESS);
061da546Spatrick
061da546Spatrick  int ptrsize = process->GetTarget().GetArchitecture().GetAddressByteSize();
061da546Spatrick
061da546Spatrick  // The kernel is always loaded in high memory, if the top bit is zero,
061da546Spatrick  // this isn't a kernel.
061da546Spatrick  if (ptrsize == 8) {
061da546Spatrick    if ((pc & (1ULL << 63)) == 0) {
061da546Spatrick      return LLDB_INVALID_ADDRESS;
061da546Spatrick    }
061da546Spatrick  } else {
061da546Spatrick    if ((pc & (1ULL << 31)) == 0) {
061da546Spatrick      return LLDB_INVALID_ADDRESS;
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  if (pc == LLDB_INVALID_ADDRESS)
061da546Spatrick    return LLDB_INVALID_ADDRESS;
061da546Spatrick
061da546Spatrick  int pagesize = 0x4000;  // 16k pages on 64-bit targets
061da546Spatrick  if (ptrsize == 4)
061da546Spatrick    pagesize = 0x1000;    // 4k pages on 32-bit targets
061da546Spatrick
061da546Spatrick  // The kernel will be loaded on a page boundary.
061da546Spatrick  // Round the current pc down to the nearest page boundary.
061da546Spatrick  addr_t addr = pc & ~(pagesize - 1ULL);
061da546Spatrick
*f6aab3d8Srobert  // Search backwards for 128 megabytes, or first memory read error.
*f6aab3d8Srobert  while (pc - addr < 128 * 0x100000) {
061da546Spatrick    bool read_error;
061da546Spatrick    if (CheckForKernelImageAtAddress(addr, process, &read_error).IsValid())
061da546Spatrick      return addr;
061da546Spatrick
061da546Spatrick    // Stop scanning on the first read error we encounter; we've walked
061da546Spatrick    // past this executable block of memory.
061da546Spatrick    if (read_error == true)
061da546Spatrick      break;
061da546Spatrick
061da546Spatrick    addr -= pagesize;
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  return LLDB_INVALID_ADDRESS;
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Scan through the valid address range for a kernel binary. This is uselessly
061da546Spatrick// slow in 64-bit environments so we don't even try it. This scan is not
061da546Spatrick// enabled by default even for 32-bit targets. Returns the address of the
061da546Spatrick// kernel if one was found, else LLDB_INVALID_ADDRESS.
061da546Spatricklldb::addr_t DynamicLoaderDarwinKernel::SearchForKernelViaExhaustiveSearch(
061da546Spatrick    Process *process) {
*f6aab3d8Srobert  if (GetGlobalProperties().GetScanType() != eKASLRScanExhaustiveScan) {
061da546Spatrick    return LLDB_INVALID_ADDRESS;
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  addr_t kernel_range_low, kernel_range_high;
061da546Spatrick  if (process->GetTarget().GetArchitecture().GetAddressByteSize() == 8) {
061da546Spatrick    kernel_range_low = 1ULL << 63;
061da546Spatrick    kernel_range_high = UINT64_MAX;
061da546Spatrick  } else {
061da546Spatrick    kernel_range_low = 1ULL << 31;
061da546Spatrick    kernel_range_high = UINT32_MAX;
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  // Stepping through memory at one-megabyte resolution looking for a kernel
061da546Spatrick  // rarely works (fast enough) with a 64-bit address space -- for now, let's
061da546Spatrick  // not even bother.  We may be attaching to something which *isn't* a kernel
061da546Spatrick  // and we don't want to spin for minutes on-end looking for a kernel.
061da546Spatrick  if (process->GetTarget().GetArchitecture().GetAddressByteSize() == 8)
061da546Spatrick    return LLDB_INVALID_ADDRESS;
061da546Spatrick
061da546Spatrick  addr_t addr = kernel_range_low;
061da546Spatrick
061da546Spatrick  while (addr >= kernel_range_low && addr < kernel_range_high) {
061da546Spatrick    // x86_64 kernels are at offset 0
061da546Spatrick    if (CheckForKernelImageAtAddress(addr, process).IsValid())
061da546Spatrick      return addr;
061da546Spatrick    // 32-bit arm kernels are at offset 0x1000 (one 4k page)
061da546Spatrick    if (CheckForKernelImageAtAddress(addr + 0x1000, process).IsValid())
061da546Spatrick      return addr + 0x1000;
061da546Spatrick    // 64-bit arm kernels are at offset 0x4000 (one 16k page)
061da546Spatrick    if (CheckForKernelImageAtAddress(addr + 0x4000, process).IsValid())
061da546Spatrick      return addr + 0x4000;
061da546Spatrick    addr += 0x100000;
061da546Spatrick  }
061da546Spatrick  return LLDB_INVALID_ADDRESS;
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Read the mach_header struct out of memory and return it.
061da546Spatrick// Returns true if the mach_header was successfully read,
061da546Spatrick// Returns false if there was a problem reading the header, or it was not
061da546Spatrick// a Mach-O header.
061da546Spatrick
061da546Spatrickbool
061da546SpatrickDynamicLoaderDarwinKernel::ReadMachHeader(addr_t addr, Process *process, llvm::MachO::mach_header &header,
061da546Spatrick                                          bool *read_error) {
061da546Spatrick  Status error;
061da546Spatrick  if (read_error)
061da546Spatrick    *read_error = false;
061da546Spatrick
061da546Spatrick  // Read the mach header and see whether it looks like a kernel
be691f3bSpatrick  if (process->ReadMemory(addr, &header, sizeof(header), error) !=
061da546Spatrick      sizeof(header)) {
061da546Spatrick    if (read_error)
061da546Spatrick      *read_error = true;
061da546Spatrick    return false;
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  const uint32_t magicks[] = { llvm::MachO::MH_MAGIC_64, llvm::MachO::MH_MAGIC, llvm::MachO::MH_CIGAM, llvm::MachO::MH_CIGAM_64};
061da546Spatrick
061da546Spatrick  bool found_matching_pattern = false;
*f6aab3d8Srobert  for (size_t i = 0; i < std::size(magicks); i++)
061da546Spatrick    if (::memcmp (&header.magic, &magicks[i], sizeof (uint32_t)) == 0)
061da546Spatrick        found_matching_pattern = true;
061da546Spatrick
061da546Spatrick  if (!found_matching_pattern)
061da546Spatrick    return false;
061da546Spatrick
061da546Spatrick  if (header.magic == llvm::MachO::MH_CIGAM ||
061da546Spatrick      header.magic == llvm::MachO::MH_CIGAM_64) {
061da546Spatrick    header.magic = llvm::ByteSwap_32(header.magic);
061da546Spatrick    header.cputype = llvm::ByteSwap_32(header.cputype);
061da546Spatrick    header.cpusubtype = llvm::ByteSwap_32(header.cpusubtype);
061da546Spatrick    header.filetype = llvm::ByteSwap_32(header.filetype);
061da546Spatrick    header.ncmds = llvm::ByteSwap_32(header.ncmds);
061da546Spatrick    header.sizeofcmds = llvm::ByteSwap_32(header.sizeofcmds);
061da546Spatrick    header.flags = llvm::ByteSwap_32(header.flags);
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  return true;
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Given an address in memory, look to see if there is a kernel image at that
061da546Spatrick// address.
061da546Spatrick// Returns a UUID; if a kernel was not found at that address, UUID.IsValid()
061da546Spatrick// will be false.
061da546Spatricklldb_private::UUID
061da546SpatrickDynamicLoaderDarwinKernel::CheckForKernelImageAtAddress(lldb::addr_t addr,
061da546Spatrick                                                        Process *process,
061da546Spatrick                                                        bool *read_error) {
*f6aab3d8Srobert  Log *log = GetLog(LLDBLog::DynamicLoader);
061da546Spatrick  if (addr == LLDB_INVALID_ADDRESS) {
061da546Spatrick    if (read_error)
061da546Spatrick      *read_error = true;
061da546Spatrick    return UUID();
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  LLDB_LOGF(log,
061da546Spatrick            "DynamicLoaderDarwinKernel::CheckForKernelImageAtAddress: "
061da546Spatrick            "looking for kernel binary at 0x%" PRIx64,
061da546Spatrick            addr);
061da546Spatrick
061da546Spatrick  llvm::MachO::mach_header header;
061da546Spatrick
061da546Spatrick  if (!ReadMachHeader(addr, process, header, read_error))
061da546Spatrick    return UUID();
061da546Spatrick
061da546Spatrick  // First try a quick test -- read the first 4 bytes and see if there is a
061da546Spatrick  // valid Mach-O magic field there
061da546Spatrick  // (the first field of the mach_header/mach_header_64 struct).
061da546Spatrick  // A kernel is an executable which does not have the dynamic link object flag
061da546Spatrick  // set.
061da546Spatrick  if (header.filetype == llvm::MachO::MH_EXECUTE &&
061da546Spatrick      (header.flags & llvm::MachO::MH_DYLDLINK) == 0) {
061da546Spatrick    // Create a full module to get the UUID
061da546Spatrick    ModuleSP memory_module_sp =
061da546Spatrick        process->ReadModuleFromMemory(FileSpec("temp_mach_kernel"), addr);
061da546Spatrick    if (!memory_module_sp.get())
061da546Spatrick      return UUID();
061da546Spatrick
061da546Spatrick    ObjectFile *exe_objfile = memory_module_sp->GetObjectFile();
061da546Spatrick    if (exe_objfile == nullptr) {
061da546Spatrick      LLDB_LOGF(log,
061da546Spatrick                "DynamicLoaderDarwinKernel::CheckForKernelImageAtAddress "
061da546Spatrick                "found a binary at 0x%" PRIx64
061da546Spatrick                " but could not create an object file from memory",
061da546Spatrick                addr);
061da546Spatrick      return UUID();
061da546Spatrick    }
061da546Spatrick
*f6aab3d8Srobert    if (is_kernel(memory_module_sp.get())) {
061da546Spatrick      ArchSpec kernel_arch(eArchTypeMachO, header.cputype, header.cpusubtype);
061da546Spatrick      if (!process->GetTarget().GetArchitecture().IsCompatibleMatch(
061da546Spatrick              kernel_arch)) {
061da546Spatrick        process->GetTarget().SetArchitecture(kernel_arch);
061da546Spatrick      }
061da546Spatrick      if (log) {
061da546Spatrick        std::string uuid_str;
061da546Spatrick        if (memory_module_sp->GetUUID().IsValid()) {
061da546Spatrick          uuid_str = "with UUID ";
061da546Spatrick          uuid_str += memory_module_sp->GetUUID().GetAsString();
061da546Spatrick        } else {
061da546Spatrick          uuid_str = "and no LC_UUID found in load commands ";
061da546Spatrick        }
061da546Spatrick        LLDB_LOGF(
061da546Spatrick            log,
061da546Spatrick            "DynamicLoaderDarwinKernel::CheckForKernelImageAtAddress: "
061da546Spatrick            "kernel binary image found at 0x%" PRIx64 " with arch '%s' %s",
061da546Spatrick            addr, kernel_arch.GetTriple().str().c_str(), uuid_str.c_str());
061da546Spatrick      }
061da546Spatrick      return memory_module_sp->GetUUID();
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  return UUID();
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Constructor
061da546SpatrickDynamicLoaderDarwinKernel::DynamicLoaderDarwinKernel(Process *process,
061da546Spatrick                                                     lldb::addr_t kernel_addr)
061da546Spatrick    : DynamicLoader(process), m_kernel_load_address(kernel_addr), m_kernel(),
061da546Spatrick      m_kext_summary_header_ptr_addr(), m_kext_summary_header_addr(),
061da546Spatrick      m_kext_summary_header(), m_known_kexts(), m_mutex(),
061da546Spatrick      m_break_id(LLDB_INVALID_BREAK_ID) {
061da546Spatrick  Status error;
*f6aab3d8Srobert  process->SetCanRunCode(false);
*f6aab3d8Srobert  PlatformSP platform_sp =
*f6aab3d8Srobert      process->GetTarget().GetDebugger().GetPlatformList().Create(
*f6aab3d8Srobert          PlatformDarwinKernel::GetPluginNameStatic());
be691f3bSpatrick  if (platform_sp.get())
061da546Spatrick    process->GetTarget().SetPlatform(platform_sp);
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Destructor
061da546SpatrickDynamicLoaderDarwinKernel::~DynamicLoaderDarwinKernel() { Clear(true); }
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::UpdateIfNeeded() {
061da546Spatrick  LoadKernelModuleIfNeeded();
061da546Spatrick  SetNotificationBreakpointIfNeeded();
061da546Spatrick}
*f6aab3d8Srobert
*f6aab3d8Srobert/// We've attached to a remote connection, or read a corefile.
*f6aab3d8Srobert/// Now load the kernel binary and potentially the kexts, add
*f6aab3d8Srobert/// them to the Target.
061da546Spatrickvoid DynamicLoaderDarwinKernel::DidAttach() {
061da546Spatrick  PrivateInitialize(m_process);
061da546Spatrick  UpdateIfNeeded();
061da546Spatrick}
061da546Spatrick
061da546Spatrick/// Called after attaching a process.
061da546Spatrick///
061da546Spatrick/// Allow DynamicLoader plug-ins to execute some code after
061da546Spatrick/// attaching to a process.
061da546Spatrickvoid DynamicLoaderDarwinKernel::DidLaunch() {
061da546Spatrick  PrivateInitialize(m_process);
061da546Spatrick  UpdateIfNeeded();
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Clear out the state of this class.
061da546Spatrickvoid DynamicLoaderDarwinKernel::Clear(bool clear_process) {
061da546Spatrick  std::lock_guard<std::recursive_mutex> guard(m_mutex);
061da546Spatrick
061da546Spatrick  if (m_process->IsAlive() && LLDB_BREAK_ID_IS_VALID(m_break_id))
061da546Spatrick    m_process->ClearBreakpointSiteByID(m_break_id);
061da546Spatrick
061da546Spatrick  if (clear_process)
061da546Spatrick    m_process = nullptr;
061da546Spatrick  m_kernel.Clear();
061da546Spatrick  m_known_kexts.clear();
061da546Spatrick  m_kext_summary_header_ptr_addr.Clear();
061da546Spatrick  m_kext_summary_header_addr.Clear();
061da546Spatrick  m_break_id = LLDB_INVALID_BREAK_ID;
061da546Spatrick}
061da546Spatrick
061da546Spatrickbool DynamicLoaderDarwinKernel::KextImageInfo::LoadImageAtFileAddress(
061da546Spatrick    Process *process) {
061da546Spatrick  if (IsLoaded())
061da546Spatrick    return true;
061da546Spatrick
061da546Spatrick  if (m_module_sp) {
061da546Spatrick    bool changed = false;
061da546Spatrick    if (m_module_sp->SetLoadAddress(process->GetTarget(), 0, true, changed))
061da546Spatrick      m_load_process_stop_id = process->GetStopID();
061da546Spatrick  }
061da546Spatrick  return false;
061da546Spatrick}
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::KextImageInfo::SetModule(ModuleSP module_sp) {
061da546Spatrick  m_module_sp = module_sp;
*f6aab3d8Srobert  m_kernel_image = is_kernel(module_sp.get());
061da546Spatrick}
061da546Spatrick
061da546SpatrickModuleSP DynamicLoaderDarwinKernel::KextImageInfo::GetModule() {
061da546Spatrick  return m_module_sp;
061da546Spatrick}
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::KextImageInfo::SetLoadAddress(
061da546Spatrick    addr_t load_addr) {
061da546Spatrick  m_load_address = load_addr;
061da546Spatrick}
061da546Spatrick
061da546Spatrickaddr_t DynamicLoaderDarwinKernel::KextImageInfo::GetLoadAddress() const {
061da546Spatrick  return m_load_address;
061da546Spatrick}
061da546Spatrick
061da546Spatrickuint64_t DynamicLoaderDarwinKernel::KextImageInfo::GetSize() const {
061da546Spatrick  return m_size;
061da546Spatrick}
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::KextImageInfo::SetSize(uint64_t size) {
061da546Spatrick  m_size = size;
061da546Spatrick}
061da546Spatrick
061da546Spatrickuint32_t DynamicLoaderDarwinKernel::KextImageInfo::GetProcessStopId() const {
061da546Spatrick  return m_load_process_stop_id;
061da546Spatrick}
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::KextImageInfo::SetProcessStopId(
061da546Spatrick    uint32_t stop_id) {
061da546Spatrick  m_load_process_stop_id = stop_id;
061da546Spatrick}
061da546Spatrick
061da546Spatrickbool DynamicLoaderDarwinKernel::KextImageInfo::
061da546Spatrickoperator==(const KextImageInfo &rhs) {
061da546Spatrick  if (m_uuid.IsValid() || rhs.GetUUID().IsValid()) {
061da546Spatrick    return m_uuid == rhs.GetUUID();
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  return m_name == rhs.GetName() && m_load_address == rhs.GetLoadAddress();
061da546Spatrick}
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::KextImageInfo::SetName(const char *name) {
061da546Spatrick  m_name = name;
061da546Spatrick}
061da546Spatrick
061da546Spatrickstd::string DynamicLoaderDarwinKernel::KextImageInfo::GetName() const {
061da546Spatrick  return m_name;
061da546Spatrick}
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::KextImageInfo::SetUUID(const UUID &uuid) {
061da546Spatrick  m_uuid = uuid;
061da546Spatrick}
061da546Spatrick
061da546SpatrickUUID DynamicLoaderDarwinKernel::KextImageInfo::GetUUID() const {
061da546Spatrick  return m_uuid;
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Given the m_load_address from the kext summaries, and a UUID, try to create
061da546Spatrick// an in-memory Module at that address.  Require that the MemoryModule have a
061da546Spatrick// matching UUID and detect if this MemoryModule is a kernel or a kext.
061da546Spatrick//
061da546Spatrick// Returns true if m_memory_module_sp is now set to a valid Module.
061da546Spatrick
061da546Spatrickbool DynamicLoaderDarwinKernel::KextImageInfo::ReadMemoryModule(
061da546Spatrick    Process *process) {
*f6aab3d8Srobert  Log *log = GetLog(LLDBLog::Host);
061da546Spatrick  if (m_memory_module_sp.get() != nullptr)
061da546Spatrick    return true;
061da546Spatrick  if (m_load_address == LLDB_INVALID_ADDRESS)
061da546Spatrick    return false;
061da546Spatrick
061da546Spatrick  FileSpec file_spec(m_name.c_str());
061da546Spatrick
061da546Spatrick  llvm::MachO::mach_header mh;
061da546Spatrick  size_t size_to_read = 512;
061da546Spatrick  if (ReadMachHeader(m_load_address, process, mh)) {
061da546Spatrick    if (mh.magic == llvm::MachO::MH_CIGAM || mh.magic == llvm::MachO::MH_MAGIC)
061da546Spatrick      size_to_read = sizeof(llvm::MachO::mach_header) + mh.sizeofcmds;
061da546Spatrick    if (mh.magic == llvm::MachO::MH_CIGAM_64 ||
061da546Spatrick        mh.magic == llvm::MachO::MH_MAGIC_64)
061da546Spatrick      size_to_read = sizeof(llvm::MachO::mach_header_64) + mh.sizeofcmds;
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  ModuleSP memory_module_sp =
061da546Spatrick      process->ReadModuleFromMemory(file_spec, m_load_address, size_to_read);
061da546Spatrick
061da546Spatrick  if (memory_module_sp.get() == nullptr)
061da546Spatrick    return false;
061da546Spatrick
*f6aab3d8Srobert  bool this_is_kernel = is_kernel(memory_module_sp.get());
061da546Spatrick
061da546Spatrick  // If this is a kext, and the kernel specified what UUID we should find at
061da546Spatrick  // this load address, require that the memory module have a matching UUID or
061da546Spatrick  // something has gone wrong and we should discard it.
061da546Spatrick  if (m_uuid.IsValid()) {
061da546Spatrick    if (m_uuid != memory_module_sp->GetUUID()) {
061da546Spatrick      if (log) {
061da546Spatrick        LLDB_LOGF(log,
061da546Spatrick                  "KextImageInfo::ReadMemoryModule the kernel said to find "
061da546Spatrick                  "uuid %s at 0x%" PRIx64
061da546Spatrick                  " but instead we found uuid %s, throwing it away",
061da546Spatrick                  m_uuid.GetAsString().c_str(), m_load_address,
061da546Spatrick                  memory_module_sp->GetUUID().GetAsString().c_str());
061da546Spatrick      }
061da546Spatrick      return false;
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  // If the in-memory Module has a UUID, let's use that.
061da546Spatrick  if (!m_uuid.IsValid() && memory_module_sp->GetUUID().IsValid()) {
061da546Spatrick    m_uuid = memory_module_sp->GetUUID();
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  m_memory_module_sp = memory_module_sp;
*f6aab3d8Srobert  m_kernel_image = this_is_kernel;
*f6aab3d8Srobert  if (this_is_kernel) {
061da546Spatrick    if (log) {
061da546Spatrick      // This is unusual and probably not intended
061da546Spatrick      LLDB_LOGF(log,
061da546Spatrick                "KextImageInfo::ReadMemoryModule read the kernel binary out "
061da546Spatrick                "of memory");
061da546Spatrick    }
061da546Spatrick    if (memory_module_sp->GetArchitecture().IsValid()) {
061da546Spatrick      process->GetTarget().SetArchitecture(memory_module_sp->GetArchitecture());
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  return true;
061da546Spatrick}
061da546Spatrick
061da546Spatrickbool DynamicLoaderDarwinKernel::KextImageInfo::IsKernel() const {
061da546Spatrick  return m_kernel_image;
061da546Spatrick}
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::KextImageInfo::SetIsKernel(bool is_kernel) {
061da546Spatrick  m_kernel_image = is_kernel;
061da546Spatrick}
061da546Spatrick
061da546Spatrickbool DynamicLoaderDarwinKernel::KextImageInfo::LoadImageUsingMemoryModule(
061da546Spatrick    Process *process) {
061da546Spatrick  if (IsLoaded())
061da546Spatrick    return true;
061da546Spatrick
061da546Spatrick  Target &target = process->GetTarget();
061da546Spatrick
061da546Spatrick  // kexts will have a uuid from the table.
061da546Spatrick  // for the kernel, we'll need to read the load commands out of memory to get it.
061da546Spatrick  if (m_uuid.IsValid() == false) {
061da546Spatrick    if (ReadMemoryModule(process) == false) {
*f6aab3d8Srobert      Log *log = GetLog(LLDBLog::DynamicLoader);
061da546Spatrick      LLDB_LOGF(log,
061da546Spatrick                "Unable to read '%s' from memory at address 0x%" PRIx64
061da546Spatrick                " to get the segment load addresses.",
061da546Spatrick                m_name.c_str(), m_load_address);
061da546Spatrick      return false;
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  if (IsKernel() && m_uuid.IsValid()) {
061da546Spatrick    Stream &s = target.GetDebugger().GetOutputStream();
061da546Spatrick    s.Printf("Kernel UUID: %s\n", m_uuid.GetAsString().c_str());
061da546Spatrick    s.Printf("Load Address: 0x%" PRIx64 "\n", m_load_address);
*f6aab3d8Srobert
*f6aab3d8Srobert    // Start of a kernel debug session, we have the UUID of the kernel.
*f6aab3d8Srobert    // Go through the target's list of modules and if there are any kernel
*f6aab3d8Srobert    // modules with non-matching UUIDs, remove them.  The user may have added
*f6aab3d8Srobert    // the wrong kernel binary manually and it will only confuse things.
*f6aab3d8Srobert    ModuleList incorrect_kernels;
*f6aab3d8Srobert    for (ModuleSP module_sp : target.GetImages().Modules()) {
*f6aab3d8Srobert      if (is_kernel(module_sp.get()) && module_sp->GetUUID() != m_uuid)
*f6aab3d8Srobert        incorrect_kernels.Append(module_sp);
*f6aab3d8Srobert    }
*f6aab3d8Srobert    target.GetImages().Remove(incorrect_kernels);
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  if (!m_module_sp) {
061da546Spatrick    // See if the kext has already been loaded into the target, probably by the
061da546Spatrick    // user doing target modules add.
061da546Spatrick    const ModuleList &target_images = target.GetImages();
061da546Spatrick    m_module_sp = target_images.FindModule(m_uuid);
061da546Spatrick
061da546Spatrick    // Search for the kext on the local filesystem via the UUID
061da546Spatrick    if (!m_module_sp && m_uuid.IsValid()) {
061da546Spatrick      ModuleSpec module_spec;
061da546Spatrick      module_spec.GetUUID() = m_uuid;
061da546Spatrick      module_spec.GetArchitecture() = target.GetArchitecture();
061da546Spatrick
061da546Spatrick      // For the kernel, we really do need an on-disk file copy of the binary
061da546Spatrick      // to do anything useful. This will force a call to dsymForUUID if it
061da546Spatrick      // exists, instead of depending on the DebugSymbols preferences being
061da546Spatrick      // set.
061da546Spatrick      if (IsKernel()) {
*f6aab3d8Srobert        Status error;
*f6aab3d8Srobert        if (Symbols::DownloadObjectAndSymbolFile(module_spec, error, true)) {
061da546Spatrick          if (FileSystem::Instance().Exists(module_spec.GetFileSpec())) {
061da546Spatrick            m_module_sp = std::make_shared<Module>(module_spec.GetFileSpec(),
061da546Spatrick                                                   target.GetArchitecture());
061da546Spatrick          }
061da546Spatrick        }
061da546Spatrick      }
061da546Spatrick
061da546Spatrick      // If the current platform is PlatformDarwinKernel, create a ModuleSpec
061da546Spatrick      // with the filename set to be the bundle ID for this kext, e.g.
061da546Spatrick      // "com.apple.filesystems.msdosfs", and ask the platform to find it.
061da546Spatrick      // PlatformDarwinKernel does a special scan for kexts on the local
061da546Spatrick      // system.
061da546Spatrick      PlatformSP platform_sp(target.GetPlatform());
061da546Spatrick      if (!m_module_sp && platform_sp) {
061da546Spatrick        static ConstString g_platform_name(
061da546Spatrick            PlatformDarwinKernel::GetPluginNameStatic());
*f6aab3d8Srobert        if (platform_sp->GetPluginName() == g_platform_name.GetStringRef()) {
061da546Spatrick          ModuleSpec kext_bundle_module_spec(module_spec);
061da546Spatrick          FileSpec kext_filespec(m_name.c_str());
061da546Spatrick          FileSpecList search_paths = target.GetExecutableSearchPaths();
061da546Spatrick          kext_bundle_module_spec.GetFileSpec() = kext_filespec;
061da546Spatrick          platform_sp->GetSharedModule(kext_bundle_module_spec, process,
061da546Spatrick                                       m_module_sp, &search_paths, nullptr,
061da546Spatrick                                       nullptr);
061da546Spatrick        }
061da546Spatrick      }
061da546Spatrick
061da546Spatrick      // Ask the Target to find this file on the local system, if possible.
061da546Spatrick      // This will search in the list of currently-loaded files, look in the
061da546Spatrick      // standard search paths on the system, and on a Mac it will try calling
061da546Spatrick      // the DebugSymbols framework with the UUID to find the binary via its
061da546Spatrick      // search methods.
061da546Spatrick      if (!m_module_sp) {
061da546Spatrick        m_module_sp = target.GetOrCreateModule(module_spec, true /* notify */);
061da546Spatrick      }
061da546Spatrick
061da546Spatrick      if (IsKernel() && !m_module_sp) {
061da546Spatrick        Stream &s = target.GetDebugger().GetOutputStream();
061da546Spatrick        s.Printf("WARNING: Unable to locate kernel binary on the debugger "
061da546Spatrick                 "system.\n");
061da546Spatrick      }
061da546Spatrick    }
061da546Spatrick
061da546Spatrick    // If we managed to find a module, append it to the target's list of
061da546Spatrick    // images. If we also have a memory module, require that they have matching
061da546Spatrick    // UUIDs
061da546Spatrick    if (m_module_sp) {
061da546Spatrick      if (m_uuid.IsValid() && m_module_sp->GetUUID() == m_uuid) {
061da546Spatrick        target.GetImages().AppendIfNeeded(m_module_sp, false);
061da546Spatrick      }
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  // If we've found a binary, read the load commands out of memory so we
061da546Spatrick  // can set the segment load addresses.
061da546Spatrick  if (m_module_sp)
061da546Spatrick    ReadMemoryModule (process);
061da546Spatrick
061da546Spatrick  static ConstString g_section_name_LINKEDIT("__LINKEDIT");
061da546Spatrick
061da546Spatrick  if (m_memory_module_sp && m_module_sp) {
061da546Spatrick    if (m_module_sp->GetUUID() == m_memory_module_sp->GetUUID()) {
061da546Spatrick      ObjectFile *ondisk_object_file = m_module_sp->GetObjectFile();
061da546Spatrick      ObjectFile *memory_object_file = m_memory_module_sp->GetObjectFile();
061da546Spatrick
061da546Spatrick      if (memory_object_file && ondisk_object_file) {
061da546Spatrick        // The memory_module for kexts may have an invalid __LINKEDIT seg; skip
061da546Spatrick        // it.
061da546Spatrick        const bool ignore_linkedit = !IsKernel();
061da546Spatrick
061da546Spatrick        SectionList *ondisk_section_list = ondisk_object_file->GetSectionList();
061da546Spatrick        SectionList *memory_section_list = memory_object_file->GetSectionList();
061da546Spatrick        if (memory_section_list && ondisk_section_list) {
061da546Spatrick          const uint32_t num_ondisk_sections = ondisk_section_list->GetSize();
061da546Spatrick          // There may be CTF sections in the memory image so we can't always
061da546Spatrick          // just compare the number of sections (which are actually segments
061da546Spatrick          // in mach-o parlance)
061da546Spatrick          uint32_t sect_idx = 0;
061da546Spatrick
061da546Spatrick          // Use the memory_module's addresses for each section to set the file
061da546Spatrick          // module's load address as appropriate.  We don't want to use a
061da546Spatrick          // single slide value for the entire kext - different segments may be
061da546Spatrick          // slid different amounts by the kext loader.
061da546Spatrick
061da546Spatrick          uint32_t num_sections_loaded = 0;
061da546Spatrick          for (sect_idx = 0; sect_idx < num_ondisk_sections; ++sect_idx) {
061da546Spatrick            SectionSP ondisk_section_sp(
061da546Spatrick                ondisk_section_list->GetSectionAtIndex(sect_idx));
061da546Spatrick            if (ondisk_section_sp) {
061da546Spatrick              // Don't ever load __LINKEDIT as it may or may not be actually
061da546Spatrick              // mapped into memory and there is no current way to tell.
061da546Spatrick              // I filed rdar://problem/12851706 to track being able to tell
061da546Spatrick              // if the __LINKEDIT is actually mapped, but until then, we need
061da546Spatrick              // to not load the __LINKEDIT
061da546Spatrick              if (ignore_linkedit &&
061da546Spatrick                  ondisk_section_sp->GetName() == g_section_name_LINKEDIT)
061da546Spatrick                continue;
061da546Spatrick
061da546Spatrick              const Section *memory_section =
061da546Spatrick                  memory_section_list
061da546Spatrick                      ->FindSectionByName(ondisk_section_sp->GetName())
061da546Spatrick                      .get();
061da546Spatrick              if (memory_section) {
061da546Spatrick                target.SetSectionLoadAddress(ondisk_section_sp,
061da546Spatrick                                             memory_section->GetFileAddress());
061da546Spatrick                ++num_sections_loaded;
061da546Spatrick              }
061da546Spatrick            }
061da546Spatrick          }
061da546Spatrick          if (num_sections_loaded > 0)
061da546Spatrick            m_load_process_stop_id = process->GetStopID();
061da546Spatrick          else
061da546Spatrick            m_module_sp.reset(); // No sections were loaded
061da546Spatrick        } else
061da546Spatrick          m_module_sp.reset(); // One or both section lists
061da546Spatrick      } else
061da546Spatrick        m_module_sp.reset(); // One or both object files missing
061da546Spatrick    } else
061da546Spatrick      m_module_sp.reset(); // UUID mismatch
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  bool is_loaded = IsLoaded();
061da546Spatrick
061da546Spatrick  if (is_loaded && m_module_sp && IsKernel()) {
061da546Spatrick    Stream &s = target.GetDebugger().GetOutputStream();
061da546Spatrick    ObjectFile *kernel_object_file = m_module_sp->GetObjectFile();
061da546Spatrick    if (kernel_object_file) {
061da546Spatrick      addr_t file_address =
061da546Spatrick          kernel_object_file->GetBaseAddress().GetFileAddress();
061da546Spatrick      if (m_load_address != LLDB_INVALID_ADDRESS &&
061da546Spatrick          file_address != LLDB_INVALID_ADDRESS) {
061da546Spatrick        s.Printf("Kernel slid 0x%" PRIx64 " in memory.\n",
061da546Spatrick                 m_load_address - file_address);
061da546Spatrick      }
061da546Spatrick    }
061da546Spatrick    {
061da546Spatrick      s.Printf("Loaded kernel file %s\n",
061da546Spatrick               m_module_sp->GetFileSpec().GetPath().c_str());
061da546Spatrick    }
061da546Spatrick    s.Flush();
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  // Notify the target about the module being added;
061da546Spatrick  // set breakpoints, load dSYM scripts, etc. as needed.
061da546Spatrick  if (is_loaded && m_module_sp) {
061da546Spatrick    ModuleList loaded_module_list;
061da546Spatrick    loaded_module_list.Append(m_module_sp);
061da546Spatrick    target.ModulesDidLoad(loaded_module_list);
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  return is_loaded;
061da546Spatrick}
061da546Spatrick
061da546Spatrickuint32_t DynamicLoaderDarwinKernel::KextImageInfo::GetAddressByteSize() {
061da546Spatrick  if (m_memory_module_sp)
061da546Spatrick    return m_memory_module_sp->GetArchitecture().GetAddressByteSize();
061da546Spatrick  if (m_module_sp)
061da546Spatrick    return m_module_sp->GetArchitecture().GetAddressByteSize();
061da546Spatrick  return 0;
061da546Spatrick}
061da546Spatrick
061da546Spatricklldb::ByteOrder DynamicLoaderDarwinKernel::KextImageInfo::GetByteOrder() {
061da546Spatrick  if (m_memory_module_sp)
061da546Spatrick    return m_memory_module_sp->GetArchitecture().GetByteOrder();
061da546Spatrick  if (m_module_sp)
061da546Spatrick    return m_module_sp->GetArchitecture().GetByteOrder();
061da546Spatrick  return endian::InlHostByteOrder();
061da546Spatrick}
061da546Spatrick
061da546Spatricklldb_private::ArchSpec
061da546SpatrickDynamicLoaderDarwinKernel::KextImageInfo::GetArchitecture() const {
061da546Spatrick  if (m_memory_module_sp)
061da546Spatrick    return m_memory_module_sp->GetArchitecture();
061da546Spatrick  if (m_module_sp)
061da546Spatrick    return m_module_sp->GetArchitecture();
061da546Spatrick  return lldb_private::ArchSpec();
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Load the kernel module and initialize the "m_kernel" member. Return true
061da546Spatrick// _only_ if the kernel is loaded the first time through (subsequent calls to
061da546Spatrick// this function should return false after the kernel has been already loaded).
061da546Spatrickvoid DynamicLoaderDarwinKernel::LoadKernelModuleIfNeeded() {
061da546Spatrick  if (!m_kext_summary_header_ptr_addr.IsValid()) {
061da546Spatrick    m_kernel.Clear();
*f6aab3d8Srobert    ModuleSP module_sp = m_process->GetTarget().GetExecutableModule();
*f6aab3d8Srobert    if (is_kernel(module_sp.get())) {
*f6aab3d8Srobert      m_kernel.SetModule(module_sp);
061da546Spatrick      m_kernel.SetIsKernel(true);
*f6aab3d8Srobert    }
061da546Spatrick
061da546Spatrick    ConstString kernel_name("mach_kernel");
061da546Spatrick    if (m_kernel.GetModule().get() && m_kernel.GetModule()->GetObjectFile() &&
061da546Spatrick        !m_kernel.GetModule()
061da546Spatrick             ->GetObjectFile()
061da546Spatrick             ->GetFileSpec()
061da546Spatrick             .GetFilename()
061da546Spatrick             .IsEmpty()) {
061da546Spatrick      kernel_name =
061da546Spatrick          m_kernel.GetModule()->GetObjectFile()->GetFileSpec().GetFilename();
061da546Spatrick    }
061da546Spatrick    m_kernel.SetName(kernel_name.AsCString());
061da546Spatrick
061da546Spatrick    if (m_kernel.GetLoadAddress() == LLDB_INVALID_ADDRESS) {
061da546Spatrick      m_kernel.SetLoadAddress(m_kernel_load_address);
061da546Spatrick      if (m_kernel.GetLoadAddress() == LLDB_INVALID_ADDRESS &&
061da546Spatrick          m_kernel.GetModule()) {
061da546Spatrick        // We didn't get a hint from the process, so we will try the kernel at
061da546Spatrick        // the address that it exists at in the file if we have one
061da546Spatrick        ObjectFile *kernel_object_file = m_kernel.GetModule()->GetObjectFile();
061da546Spatrick        if (kernel_object_file) {
061da546Spatrick          addr_t load_address =
061da546Spatrick              kernel_object_file->GetBaseAddress().GetLoadAddress(
061da546Spatrick                  &m_process->GetTarget());
061da546Spatrick          addr_t file_address =
061da546Spatrick              kernel_object_file->GetBaseAddress().GetFileAddress();
061da546Spatrick          if (load_address != LLDB_INVALID_ADDRESS && load_address != 0) {
061da546Spatrick            m_kernel.SetLoadAddress(load_address);
061da546Spatrick            if (load_address != file_address) {
061da546Spatrick              // Don't accidentally relocate the kernel to the File address --
061da546Spatrick              // the Load address has already been set to its actual in-memory
061da546Spatrick              // address. Mark it as IsLoaded.
061da546Spatrick              m_kernel.SetProcessStopId(m_process->GetStopID());
061da546Spatrick            }
061da546Spatrick          } else {
061da546Spatrick            m_kernel.SetLoadAddress(file_address);
061da546Spatrick          }
061da546Spatrick        }
061da546Spatrick      }
061da546Spatrick    }
061da546Spatrick
061da546Spatrick    if (m_kernel.GetLoadAddress() != LLDB_INVALID_ADDRESS) {
061da546Spatrick      if (!m_kernel.LoadImageUsingMemoryModule(m_process)) {
061da546Spatrick        m_kernel.LoadImageAtFileAddress(m_process);
061da546Spatrick      }
061da546Spatrick    }
061da546Spatrick
061da546Spatrick    // The operating system plugin gets loaded and initialized in
061da546Spatrick    // LoadImageUsingMemoryModule when we discover the kernel dSYM.  For a core
061da546Spatrick    // file in particular, that's the wrong place to do this, since  we haven't
061da546Spatrick    // fixed up the section addresses yet.  So let's redo it here.
061da546Spatrick    LoadOperatingSystemPlugin(false);
061da546Spatrick
061da546Spatrick    if (m_kernel.IsLoaded() && m_kernel.GetModule()) {
061da546Spatrick      static ConstString kext_summary_symbol("gLoadedKextSummaries");
061da546Spatrick      const Symbol *symbol =
061da546Spatrick          m_kernel.GetModule()->FindFirstSymbolWithNameAndType(
061da546Spatrick              kext_summary_symbol, eSymbolTypeData);
061da546Spatrick      if (symbol) {
061da546Spatrick        m_kext_summary_header_ptr_addr = symbol->GetAddress();
061da546Spatrick        // Update all image infos
061da546Spatrick        ReadAllKextSummaries();
061da546Spatrick      }
061da546Spatrick    } else {
061da546Spatrick      m_kernel.Clear();
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Static callback function that gets called when our DYLD notification
061da546Spatrick// breakpoint gets hit. We update all of our image infos and then let our super
061da546Spatrick// class DynamicLoader class decide if we should stop or not (based on global
061da546Spatrick// preference).
061da546Spatrickbool DynamicLoaderDarwinKernel::BreakpointHitCallback(
061da546Spatrick    void *baton, StoppointCallbackContext *context, user_id_t break_id,
061da546Spatrick    user_id_t break_loc_id) {
061da546Spatrick  return static_cast<DynamicLoaderDarwinKernel *>(baton)->BreakpointHit(
061da546Spatrick      context, break_id, break_loc_id);
061da546Spatrick}
061da546Spatrick
061da546Spatrickbool DynamicLoaderDarwinKernel::BreakpointHit(StoppointCallbackContext *context,
061da546Spatrick                                              user_id_t break_id,
061da546Spatrick                                              user_id_t break_loc_id) {
*f6aab3d8Srobert  Log *log = GetLog(LLDBLog::DynamicLoader);
061da546Spatrick  LLDB_LOGF(log, "DynamicLoaderDarwinKernel::BreakpointHit (...)\n");
061da546Spatrick
061da546Spatrick  ReadAllKextSummaries();
061da546Spatrick
061da546Spatrick  if (log)
061da546Spatrick    PutToLog(log);
061da546Spatrick
061da546Spatrick  return GetStopWhenImagesChange();
061da546Spatrick}
061da546Spatrick
061da546Spatrickbool DynamicLoaderDarwinKernel::ReadKextSummaryHeader() {
061da546Spatrick  std::lock_guard<std::recursive_mutex> guard(m_mutex);
061da546Spatrick
061da546Spatrick  // the all image infos is already valid for this process stop ID
061da546Spatrick
061da546Spatrick  if (m_kext_summary_header_ptr_addr.IsValid()) {
061da546Spatrick    const uint32_t addr_size = m_kernel.GetAddressByteSize();
061da546Spatrick    const ByteOrder byte_order = m_kernel.GetByteOrder();
061da546Spatrick    Status error;
061da546Spatrick    // Read enough bytes for a "OSKextLoadedKextSummaryHeader" structure which
061da546Spatrick    // is currently 4 uint32_t and a pointer.
061da546Spatrick    uint8_t buf[24];
061da546Spatrick    DataExtractor data(buf, sizeof(buf), byte_order, addr_size);
061da546Spatrick    const size_t count = 4 * sizeof(uint32_t) + addr_size;
be691f3bSpatrick    const bool force_live_memory = true;
061da546Spatrick    if (m_process->GetTarget().ReadPointerFromMemory(
be691f3bSpatrick            m_kext_summary_header_ptr_addr, error,
be691f3bSpatrick            m_kext_summary_header_addr, force_live_memory)) {
061da546Spatrick      // We got a valid address for our kext summary header and make sure it
061da546Spatrick      // isn't NULL
061da546Spatrick      if (m_kext_summary_header_addr.IsValid() &&
061da546Spatrick          m_kext_summary_header_addr.GetFileAddress() != 0) {
061da546Spatrick        const size_t bytes_read = m_process->GetTarget().ReadMemory(
be691f3bSpatrick            m_kext_summary_header_addr, buf, count, error, force_live_memory);
061da546Spatrick        if (bytes_read == count) {
061da546Spatrick          lldb::offset_t offset = 0;
061da546Spatrick          m_kext_summary_header.version = data.GetU32(&offset);
061da546Spatrick          if (m_kext_summary_header.version > 128) {
061da546Spatrick            Stream &s = m_process->GetTarget().GetDebugger().GetOutputStream();
061da546Spatrick            s.Printf("WARNING: Unable to read kext summary header, got "
061da546Spatrick                     "improbable version number %u\n",
061da546Spatrick                     m_kext_summary_header.version);
061da546Spatrick            // If we get an improbably large version number, we're probably
061da546Spatrick            // getting bad memory.
061da546Spatrick            m_kext_summary_header_addr.Clear();
061da546Spatrick            return false;
061da546Spatrick          }
061da546Spatrick          if (m_kext_summary_header.version >= 2) {
061da546Spatrick            m_kext_summary_header.entry_size = data.GetU32(&offset);
061da546Spatrick            if (m_kext_summary_header.entry_size > 4096) {
061da546Spatrick              // If we get an improbably large entry_size, we're probably
061da546Spatrick              // getting bad memory.
061da546Spatrick              Stream &s =
061da546Spatrick                  m_process->GetTarget().GetDebugger().GetOutputStream();
061da546Spatrick              s.Printf("WARNING: Unable to read kext summary header, got "
061da546Spatrick                       "improbable entry_size %u\n",
061da546Spatrick                       m_kext_summary_header.entry_size);
061da546Spatrick              m_kext_summary_header_addr.Clear();
061da546Spatrick              return false;
061da546Spatrick            }
061da546Spatrick          } else {
061da546Spatrick            // Versions less than 2 didn't have an entry size, it was hard
061da546Spatrick            // coded
061da546Spatrick            m_kext_summary_header.entry_size =
061da546Spatrick                KERNEL_MODULE_ENTRY_SIZE_VERSION_1;
061da546Spatrick          }
061da546Spatrick          m_kext_summary_header.entry_count = data.GetU32(&offset);
061da546Spatrick          if (m_kext_summary_header.entry_count > 10000) {
061da546Spatrick            // If we get an improbably large number of kexts, we're probably
061da546Spatrick            // getting bad memory.
061da546Spatrick            Stream &s = m_process->GetTarget().GetDebugger().GetOutputStream();
061da546Spatrick            s.Printf("WARNING: Unable to read kext summary header, got "
061da546Spatrick                     "improbable number of kexts %u\n",
061da546Spatrick                     m_kext_summary_header.entry_count);
061da546Spatrick            m_kext_summary_header_addr.Clear();
061da546Spatrick            return false;
061da546Spatrick          }
061da546Spatrick          return true;
061da546Spatrick        }
061da546Spatrick      }
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick  m_kext_summary_header_addr.Clear();
061da546Spatrick  return false;
061da546Spatrick}
061da546Spatrick
061da546Spatrick// We've either (a) just attached to a new kernel, or (b) the kexts-changed
061da546Spatrick// breakpoint was hit and we need to figure out what kexts have been added or
061da546Spatrick// removed. Read the kext summaries from the inferior kernel memory, compare
061da546Spatrick// them against the m_known_kexts vector and update the m_known_kexts vector as
061da546Spatrick// needed to keep in sync with the inferior.
061da546Spatrick
061da546Spatrickbool DynamicLoaderDarwinKernel::ParseKextSummaries(
061da546Spatrick    const Address &kext_summary_addr, uint32_t count) {
061da546Spatrick  KextImageInfo::collection kext_summaries;
*f6aab3d8Srobert  Log *log = GetLog(LLDBLog::DynamicLoader);
061da546Spatrick  LLDB_LOGF(log,
061da546Spatrick            "Kexts-changed breakpoint hit, there are %d kexts currently.\n",
061da546Spatrick            count);
061da546Spatrick
061da546Spatrick  std::lock_guard<std::recursive_mutex> guard(m_mutex);
061da546Spatrick
061da546Spatrick  if (!ReadKextSummaries(kext_summary_addr, count, kext_summaries))
061da546Spatrick    return false;
061da546Spatrick
061da546Spatrick  // read the plugin.dynamic-loader.darwin-kernel.load-kexts setting -- if the
061da546Spatrick  // user requested no kext loading, don't print any messages about kexts &
061da546Spatrick  // don't try to read them.
*f6aab3d8Srobert  const bool load_kexts = GetGlobalProperties().GetLoadKexts();
061da546Spatrick
061da546Spatrick  // By default, all kexts we've loaded in the past are marked as "remove" and
061da546Spatrick  // all of the kexts we just found out about from ReadKextSummaries are marked
061da546Spatrick  // as "add".
061da546Spatrick  std::vector<bool> to_be_removed(m_known_kexts.size(), true);
061da546Spatrick  std::vector<bool> to_be_added(count, true);
061da546Spatrick
061da546Spatrick  int number_of_new_kexts_being_added = 0;
061da546Spatrick  int number_of_old_kexts_being_removed = m_known_kexts.size();
061da546Spatrick
061da546Spatrick  const uint32_t new_kexts_size = kext_summaries.size();
061da546Spatrick  const uint32_t old_kexts_size = m_known_kexts.size();
061da546Spatrick
061da546Spatrick  // The m_known_kexts vector may have entries that have been Cleared, or are a
061da546Spatrick  // kernel.
061da546Spatrick  for (uint32_t old_kext = 0; old_kext < old_kexts_size; old_kext++) {
061da546Spatrick    bool ignore = false;
061da546Spatrick    KextImageInfo &image_info = m_known_kexts[old_kext];
061da546Spatrick    if (image_info.IsKernel()) {
061da546Spatrick      ignore = true;
061da546Spatrick    } else if (image_info.GetLoadAddress() == LLDB_INVALID_ADDRESS &&
061da546Spatrick               !image_info.GetModule()) {
061da546Spatrick      ignore = true;
061da546Spatrick    }
061da546Spatrick
061da546Spatrick    if (ignore) {
061da546Spatrick      number_of_old_kexts_being_removed--;
061da546Spatrick      to_be_removed[old_kext] = false;
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  // Scan over the list of kexts we just read from the kernel, note those that
061da546Spatrick  // need to be added and those already loaded.
061da546Spatrick  for (uint32_t new_kext = 0; new_kext < new_kexts_size; new_kext++) {
061da546Spatrick    bool add_this_one = true;
061da546Spatrick    for (uint32_t old_kext = 0; old_kext < old_kexts_size; old_kext++) {
061da546Spatrick      if (m_known_kexts[old_kext] == kext_summaries[new_kext]) {
061da546Spatrick        // We already have this kext, don't re-load it.
061da546Spatrick        to_be_added[new_kext] = false;
061da546Spatrick        // This kext is still present, do not remove it.
061da546Spatrick        to_be_removed[old_kext] = false;
061da546Spatrick
061da546Spatrick        number_of_old_kexts_being_removed--;
061da546Spatrick        add_this_one = false;
061da546Spatrick        break;
061da546Spatrick      }
061da546Spatrick    }
061da546Spatrick    // If this "kext" entry is actually an alias for the kernel -- the kext was
061da546Spatrick    // compiled into the kernel or something -- then we don't want to load the
061da546Spatrick    // kernel's text section at a different address.  Ignore this kext entry.
061da546Spatrick    if (kext_summaries[new_kext].GetUUID().IsValid() &&
061da546Spatrick        m_kernel.GetUUID().IsValid() &&
061da546Spatrick        kext_summaries[new_kext].GetUUID() == m_kernel.GetUUID()) {
061da546Spatrick      to_be_added[new_kext] = false;
061da546Spatrick      break;
061da546Spatrick    }
061da546Spatrick    if (add_this_one) {
061da546Spatrick      number_of_new_kexts_being_added++;
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  if (number_of_new_kexts_being_added == 0 &&
061da546Spatrick      number_of_old_kexts_being_removed == 0)
061da546Spatrick    return true;
061da546Spatrick
061da546Spatrick  Stream &s = m_process->GetTarget().GetDebugger().GetOutputStream();
061da546Spatrick  if (load_kexts) {
061da546Spatrick    if (number_of_new_kexts_being_added > 0 &&
061da546Spatrick        number_of_old_kexts_being_removed > 0) {
061da546Spatrick      s.Printf("Loading %d kext modules and unloading %d kext modules ",
061da546Spatrick               number_of_new_kexts_being_added,
061da546Spatrick               number_of_old_kexts_being_removed);
061da546Spatrick    } else if (number_of_new_kexts_being_added > 0) {
061da546Spatrick      s.Printf("Loading %d kext modules ", number_of_new_kexts_being_added);
061da546Spatrick    } else if (number_of_old_kexts_being_removed > 0) {
061da546Spatrick      s.Printf("Unloading %d kext modules ", number_of_old_kexts_being_removed);
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  if (log) {
061da546Spatrick    if (load_kexts) {
061da546Spatrick      LLDB_LOGF(log,
061da546Spatrick                "DynamicLoaderDarwinKernel::ParseKextSummaries: %d kexts "
061da546Spatrick                "added, %d kexts removed",
061da546Spatrick                number_of_new_kexts_being_added,
061da546Spatrick                number_of_old_kexts_being_removed);
061da546Spatrick    } else {
061da546Spatrick      LLDB_LOGF(log,
061da546Spatrick                "DynamicLoaderDarwinKernel::ParseKextSummaries kext loading is "
061da546Spatrick                "disabled, else would have %d kexts added, %d kexts removed",
061da546Spatrick                number_of_new_kexts_being_added,
061da546Spatrick                number_of_old_kexts_being_removed);
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  // Build up a list of <kext-name, uuid> for any kexts that fail to load
061da546Spatrick  std::vector<std::pair<std::string, UUID>> kexts_failed_to_load;
061da546Spatrick  if (number_of_new_kexts_being_added > 0) {
061da546Spatrick    ModuleList loaded_module_list;
061da546Spatrick
061da546Spatrick    const uint32_t num_of_new_kexts = kext_summaries.size();
061da546Spatrick    for (uint32_t new_kext = 0; new_kext < num_of_new_kexts; new_kext++) {
061da546Spatrick      if (to_be_added[new_kext]) {
061da546Spatrick        KextImageInfo &image_info = kext_summaries[new_kext];
061da546Spatrick        bool kext_successfully_added = true;
061da546Spatrick        if (load_kexts) {
061da546Spatrick          if (!image_info.LoadImageUsingMemoryModule(m_process)) {
061da546Spatrick            kexts_failed_to_load.push_back(std::pair<std::string, UUID>(
061da546Spatrick                kext_summaries[new_kext].GetName(),
061da546Spatrick                kext_summaries[new_kext].GetUUID()));
061da546Spatrick            image_info.LoadImageAtFileAddress(m_process);
061da546Spatrick            kext_successfully_added = false;
061da546Spatrick          }
061da546Spatrick        }
061da546Spatrick
061da546Spatrick        m_known_kexts.push_back(image_info);
061da546Spatrick
061da546Spatrick        if (image_info.GetModule() &&
061da546Spatrick            m_process->GetStopID() == image_info.GetProcessStopId())
061da546Spatrick          loaded_module_list.AppendIfNeeded(image_info.GetModule());
061da546Spatrick
061da546Spatrick        if (load_kexts) {
061da546Spatrick          if (kext_successfully_added)
061da546Spatrick            s.Printf(".");
061da546Spatrick          else
061da546Spatrick            s.Printf("-");
061da546Spatrick        }
061da546Spatrick
061da546Spatrick        if (log)
061da546Spatrick          kext_summaries[new_kext].PutToLog(log);
061da546Spatrick      }
061da546Spatrick    }
061da546Spatrick    m_process->GetTarget().ModulesDidLoad(loaded_module_list);
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  if (number_of_old_kexts_being_removed > 0) {
061da546Spatrick    ModuleList loaded_module_list;
061da546Spatrick    const uint32_t num_of_old_kexts = m_known_kexts.size();
061da546Spatrick    for (uint32_t old_kext = 0; old_kext < num_of_old_kexts; old_kext++) {
061da546Spatrick      ModuleList unloaded_module_list;
061da546Spatrick      if (to_be_removed[old_kext]) {
061da546Spatrick        KextImageInfo &image_info = m_known_kexts[old_kext];
061da546Spatrick        // You can't unload the kernel.
061da546Spatrick        if (!image_info.IsKernel()) {
061da546Spatrick          if (image_info.GetModule()) {
061da546Spatrick            unloaded_module_list.AppendIfNeeded(image_info.GetModule());
061da546Spatrick          }
061da546Spatrick          s.Printf(".");
061da546Spatrick          image_info.Clear();
061da546Spatrick          // should pull it out of the KextImageInfos vector but that would
061da546Spatrick          // mutate the list and invalidate the to_be_removed bool vector;
061da546Spatrick          // leaving it in place once Cleared() is relatively harmless.
061da546Spatrick        }
061da546Spatrick      }
061da546Spatrick      m_process->GetTarget().ModulesDidUnload(unloaded_module_list, false);
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  if (load_kexts) {
061da546Spatrick    s.Printf(" done.\n");
061da546Spatrick    if (kexts_failed_to_load.size() > 0 && number_of_new_kexts_being_added > 0) {
061da546Spatrick      s.Printf("Failed to load %d of %d kexts:\n",
061da546Spatrick               (int)kexts_failed_to_load.size(),
061da546Spatrick               number_of_new_kexts_being_added);
061da546Spatrick      // print a sorted list of <kext-name, uuid> kexts which failed to load
061da546Spatrick      unsigned longest_name = 0;
061da546Spatrick      std::sort(kexts_failed_to_load.begin(), kexts_failed_to_load.end());
061da546Spatrick      for (const auto &ku : kexts_failed_to_load) {
061da546Spatrick        if (ku.first.size() > longest_name)
061da546Spatrick          longest_name = ku.first.size();
061da546Spatrick      }
061da546Spatrick      for (const auto &ku : kexts_failed_to_load) {
061da546Spatrick        std::string uuid;
061da546Spatrick        if (ku.second.IsValid())
061da546Spatrick          uuid = ku.second.GetAsString();
061da546Spatrick        s.Printf(" %-*s %s\n", longest_name, ku.first.c_str(), uuid.c_str());
061da546Spatrick      }
061da546Spatrick    }
061da546Spatrick    s.Flush();
061da546Spatrick  }
061da546Spatrick
061da546Spatrick  return true;
061da546Spatrick}
061da546Spatrick
061da546Spatrickuint32_t DynamicLoaderDarwinKernel::ReadKextSummaries(
061da546Spatrick    const Address &kext_summary_addr, uint32_t image_infos_count,
061da546Spatrick    KextImageInfo::collection &image_infos) {
061da546Spatrick  const ByteOrder endian = m_kernel.GetByteOrder();
061da546Spatrick  const uint32_t addr_size = m_kernel.GetAddressByteSize();
061da546Spatrick
061da546Spatrick  image_infos.resize(image_infos_count);
061da546Spatrick  const size_t count = image_infos.size() * m_kext_summary_header.entry_size;
061da546Spatrick  DataBufferHeap data(count, 0);
061da546Spatrick  Status error;
061da546Spatrick
be691f3bSpatrick  const bool force_live_memory = true;
061da546Spatrick  const size_t bytes_read = m_process->GetTarget().ReadMemory(
be691f3bSpatrick      kext_summary_addr, data.GetBytes(), data.GetByteSize(), error, force_live_memory);
061da546Spatrick  if (bytes_read == count) {
061da546Spatrick
061da546Spatrick    DataExtractor extractor(data.GetBytes(), data.GetByteSize(), endian,
061da546Spatrick                            addr_size);
061da546Spatrick    uint32_t i = 0;
061da546Spatrick    for (uint32_t kext_summary_offset = 0;
061da546Spatrick         i < image_infos.size() &&
061da546Spatrick         extractor.ValidOffsetForDataOfSize(kext_summary_offset,
061da546Spatrick                                            m_kext_summary_header.entry_size);
061da546Spatrick         ++i, kext_summary_offset += m_kext_summary_header.entry_size) {
061da546Spatrick      lldb::offset_t offset = kext_summary_offset;
061da546Spatrick      const void *name_data =
061da546Spatrick          extractor.GetData(&offset, KERNEL_MODULE_MAX_NAME);
061da546Spatrick      if (name_data == nullptr)
061da546Spatrick        break;
061da546Spatrick      image_infos[i].SetName((const char *)name_data);
*f6aab3d8Srobert      UUID uuid(extractor.GetData(&offset, 16), 16);
061da546Spatrick      image_infos[i].SetUUID(uuid);
061da546Spatrick      image_infos[i].SetLoadAddress(extractor.GetU64(&offset));
061da546Spatrick      image_infos[i].SetSize(extractor.GetU64(&offset));
061da546Spatrick    }
061da546Spatrick    if (i < image_infos.size())
061da546Spatrick      image_infos.resize(i);
061da546Spatrick  } else {
061da546Spatrick    image_infos.clear();
061da546Spatrick  }
061da546Spatrick  return image_infos.size();
061da546Spatrick}
061da546Spatrick
061da546Spatrickbool DynamicLoaderDarwinKernel::ReadAllKextSummaries() {
061da546Spatrick  std::lock_guard<std::recursive_mutex> guard(m_mutex);
061da546Spatrick
061da546Spatrick  if (ReadKextSummaryHeader()) {
061da546Spatrick    if (m_kext_summary_header.entry_count > 0 &&
061da546Spatrick        m_kext_summary_header_addr.IsValid()) {
061da546Spatrick      Address summary_addr(m_kext_summary_header_addr);
061da546Spatrick      summary_addr.Slide(m_kext_summary_header.GetSize());
061da546Spatrick      if (!ParseKextSummaries(summary_addr,
061da546Spatrick                              m_kext_summary_header.entry_count)) {
061da546Spatrick        m_known_kexts.clear();
061da546Spatrick      }
061da546Spatrick      return true;
061da546Spatrick    }
061da546Spatrick  }
061da546Spatrick  return false;
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Dump an image info structure to the file handle provided.
061da546Spatrickvoid DynamicLoaderDarwinKernel::KextImageInfo::PutToLog(Log *log) const {
061da546Spatrick  if (m_load_address == LLDB_INVALID_ADDRESS) {
061da546Spatrick    LLDB_LOG(log, "uuid={0} name=\"{1}\" (UNLOADED)", m_uuid.GetAsString(),
061da546Spatrick             m_name);
061da546Spatrick  } else {
061da546Spatrick    LLDB_LOG(log, "addr={0:x+16} size={1:x+16} uuid={2} name=\"{3}\"",
061da546Spatrick        m_load_address, m_size, m_uuid.GetAsString(), m_name);
061da546Spatrick  }
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Dump the _dyld_all_image_infos members and all current image infos that we
061da546Spatrick// have parsed to the file handle provided.
061da546Spatrickvoid DynamicLoaderDarwinKernel::PutToLog(Log *log) const {
061da546Spatrick  if (log == nullptr)
061da546Spatrick    return;
061da546Spatrick
061da546Spatrick  std::lock_guard<std::recursive_mutex> guard(m_mutex);
061da546Spatrick  LLDB_LOGF(log,
061da546Spatrick            "gLoadedKextSummaries = 0x%16.16" PRIx64
061da546Spatrick            " { version=%u, entry_size=%u, entry_count=%u }",
061da546Spatrick            m_kext_summary_header_addr.GetFileAddress(),
061da546Spatrick            m_kext_summary_header.version, m_kext_summary_header.entry_size,
061da546Spatrick            m_kext_summary_header.entry_count);
061da546Spatrick
061da546Spatrick  size_t i;
061da546Spatrick  const size_t count = m_known_kexts.size();
061da546Spatrick  if (count > 0) {
061da546Spatrick    log->PutCString("Loaded:");
061da546Spatrick    for (i = 0; i < count; i++)
061da546Spatrick      m_known_kexts[i].PutToLog(log);
061da546Spatrick  }
061da546Spatrick}
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::PrivateInitialize(Process *process) {
061da546Spatrick  DEBUG_PRINTF("DynamicLoaderDarwinKernel::%s() process state = %s\n",
061da546Spatrick               __FUNCTION__, StateAsCString(m_process->GetState()));
061da546Spatrick  Clear(true);
061da546Spatrick  m_process = process;
061da546Spatrick}
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::SetNotificationBreakpointIfNeeded() {
061da546Spatrick  if (m_break_id == LLDB_INVALID_BREAK_ID && m_kernel.GetModule()) {
061da546Spatrick    DEBUG_PRINTF("DynamicLoaderDarwinKernel::%s() process state = %s\n",
061da546Spatrick                 __FUNCTION__, StateAsCString(m_process->GetState()));
061da546Spatrick
061da546Spatrick    const bool internal_bp = true;
061da546Spatrick    const bool hardware = false;
061da546Spatrick    const LazyBool skip_prologue = eLazyBoolNo;
061da546Spatrick    FileSpecList module_spec_list;
061da546Spatrick    module_spec_list.Append(m_kernel.GetModule()->GetFileSpec());
061da546Spatrick    Breakpoint *bp =
061da546Spatrick        m_process->GetTarget()
061da546Spatrick            .CreateBreakpoint(&module_spec_list, nullptr,
061da546Spatrick                              "OSKextLoadedKextSummariesUpdated",
061da546Spatrick                              eFunctionNameTypeFull, eLanguageTypeUnknown, 0,
061da546Spatrick                              skip_prologue, internal_bp, hardware)
061da546Spatrick            .get();
061da546Spatrick
061da546Spatrick    bp->SetCallback(DynamicLoaderDarwinKernel::BreakpointHitCallback, this,
061da546Spatrick                    true);
061da546Spatrick    m_break_id = bp->GetID();
061da546Spatrick  }
061da546Spatrick}
061da546Spatrick
061da546Spatrick// Member function that gets called when the process state changes.
061da546Spatrickvoid DynamicLoaderDarwinKernel::PrivateProcessStateChanged(Process *process,
061da546Spatrick                                                           StateType state) {
061da546Spatrick  DEBUG_PRINTF("DynamicLoaderDarwinKernel::%s(%s)\n", __FUNCTION__,
061da546Spatrick               StateAsCString(state));
061da546Spatrick  switch (state) {
061da546Spatrick  case eStateConnected:
061da546Spatrick  case eStateAttaching:
061da546Spatrick  case eStateLaunching:
061da546Spatrick  case eStateInvalid:
061da546Spatrick  case eStateUnloaded:
061da546Spatrick  case eStateExited:
061da546Spatrick  case eStateDetached:
061da546Spatrick    Clear(false);
061da546Spatrick    break;
061da546Spatrick
061da546Spatrick  case eStateStopped:
061da546Spatrick    UpdateIfNeeded();
061da546Spatrick    break;
061da546Spatrick
061da546Spatrick  case eStateRunning:
061da546Spatrick  case eStateStepping:
061da546Spatrick  case eStateCrashed:
061da546Spatrick  case eStateSuspended:
061da546Spatrick    break;
061da546Spatrick  }
061da546Spatrick}
061da546Spatrick
061da546SpatrickThreadPlanSP
061da546SpatrickDynamicLoaderDarwinKernel::GetStepThroughTrampolinePlan(Thread &thread,
061da546Spatrick                                                        bool stop_others) {
061da546Spatrick  ThreadPlanSP thread_plan_sp;
*f6aab3d8Srobert  Log *log = GetLog(LLDBLog::Step);
061da546Spatrick  LLDB_LOGF(log, "Could not find symbol for step through.");
061da546Spatrick  return thread_plan_sp;
061da546Spatrick}
061da546Spatrick
061da546SpatrickStatus DynamicLoaderDarwinKernel::CanLoadImage() {
061da546Spatrick  Status error;
061da546Spatrick  error.SetErrorString(
061da546Spatrick      "always unsafe to load or unload shared libraries in the darwin kernel");
061da546Spatrick  return error;
061da546Spatrick}
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::Initialize() {
061da546Spatrick  PluginManager::RegisterPlugin(GetPluginNameStatic(),
061da546Spatrick                                GetPluginDescriptionStatic(), CreateInstance,
061da546Spatrick                                DebuggerInitialize);
061da546Spatrick}
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::Terminate() {
061da546Spatrick  PluginManager::UnregisterPlugin(CreateInstance);
061da546Spatrick}
061da546Spatrick
061da546Spatrickvoid DynamicLoaderDarwinKernel::DebuggerInitialize(
061da546Spatrick    lldb_private::Debugger &debugger) {
061da546Spatrick  if (!PluginManager::GetSettingForDynamicLoaderPlugin(
061da546Spatrick          debugger, DynamicLoaderDarwinKernelProperties::GetSettingName())) {
061da546Spatrick    const bool is_global_setting = true;
061da546Spatrick    PluginManager::CreateSettingForDynamicLoaderPlugin(
*f6aab3d8Srobert        debugger, GetGlobalProperties().GetValueProperties(),
061da546Spatrick        ConstString("Properties for the DynamicLoaderDarwinKernel plug-in."),
061da546Spatrick        is_global_setting);
061da546Spatrick  }
061da546Spatrick}
061da546Spatrick
*f6aab3d8Srobertllvm::StringRef DynamicLoaderDarwinKernel::GetPluginDescriptionStatic() {
061da546Spatrick  return "Dynamic loader plug-in that watches for shared library loads/unloads "
061da546Spatrick         "in the MacOSX kernel.";
061da546Spatrick}
061da546Spatrick
061da546Spatricklldb::ByteOrder
061da546SpatrickDynamicLoaderDarwinKernel::GetByteOrderFromMagic(uint32_t magic) {
061da546Spatrick  switch (magic) {
061da546Spatrick  case llvm::MachO::MH_MAGIC:
061da546Spatrick  case llvm::MachO::MH_MAGIC_64:
061da546Spatrick    return endian::InlHostByteOrder();
061da546Spatrick
061da546Spatrick  case llvm::MachO::MH_CIGAM:
061da546Spatrick  case llvm::MachO::MH_CIGAM_64:
061da546Spatrick    if (endian::InlHostByteOrder() == lldb::eByteOrderBig)
061da546Spatrick      return lldb::eByteOrderLittle;
061da546Spatrick    else
061da546Spatrick      return lldb::eByteOrderBig;
061da546Spatrick
061da546Spatrick  default:
061da546Spatrick    break;
061da546Spatrick  }
061da546Spatrick  return lldb::eByteOrderInvalid;
061da546Spatrick}