lib/xray/xray_interface.cpp

68d75effSDimitry Andric//===-- xray_interface.cpp --------------------------------------*- C++ -*-===//
68d75effSDimitry Andric//
68d75effSDimitry Andric// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
68d75effSDimitry Andric// See https://llvm.org/LICENSE.txt for license information.
68d75effSDimitry Andric// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
68d75effSDimitry Andric//
68d75effSDimitry Andric//===----------------------------------------------------------------------===//
68d75effSDimitry Andric//
68d75effSDimitry Andric// This file is a part of XRay, a dynamic runtime instrumentation system.
68d75effSDimitry Andric//
68d75effSDimitry Andric// Implementation of the API functions.
68d75effSDimitry Andric//
68d75effSDimitry Andric//===----------------------------------------------------------------------===//
68d75effSDimitry Andric
68d75effSDimitry Andric#include "xray_interface_internal.h"
68d75effSDimitry Andric
*0eae32dcSDimitry Andric#include <cinttypes>
68d75effSDimitry Andric#include <cstdio>
68d75effSDimitry Andric#include <errno.h>
68d75effSDimitry Andric#include <limits>
68d75effSDimitry Andric#include <string.h>
68d75effSDimitry Andric#include <sys/mman.h>
68d75effSDimitry Andric
68d75effSDimitry Andric#if SANITIZER_FUCHSIA
68d75effSDimitry Andric#include <zircon/process.h>
68d75effSDimitry Andric#include <zircon/sanitizer.h>
68d75effSDimitry Andric#include <zircon/status.h>
68d75effSDimitry Andric#include <zircon/syscalls.h>
68d75effSDimitry Andric#endif
68d75effSDimitry Andric
68d75effSDimitry Andric#include "sanitizer_common/sanitizer_addrhashmap.h"
68d75effSDimitry Andric#include "sanitizer_common/sanitizer_common.h"
68d75effSDimitry Andric
68d75effSDimitry Andric#include "xray_defs.h"
68d75effSDimitry Andric#include "xray_flags.h"
68d75effSDimitry Andric
68d75effSDimitry Andricextern __sanitizer::SpinMutex XRayInstrMapMutex;
68d75effSDimitry Andricextern __sanitizer::atomic_uint8_t XRayInitialized;
68d75effSDimitry Andricextern __xray::XRaySledMap XRayInstrMap;
68d75effSDimitry Andric
68d75effSDimitry Andricnamespace __xray {
68d75effSDimitry Andric
68d75effSDimitry Andric#if defined(__x86_64__)
68d75effSDimitry Andricstatic const int16_t cSledLength = 12;
68d75effSDimitry Andric#elif defined(__aarch64__)
68d75effSDimitry Andricstatic const int16_t cSledLength = 32;
68d75effSDimitry Andric#elif defined(__arm__)
68d75effSDimitry Andricstatic const int16_t cSledLength = 28;
68d75effSDimitry Andric#elif SANITIZER_MIPS32
68d75effSDimitry Andricstatic const int16_t cSledLength = 48;
68d75effSDimitry Andric#elif SANITIZER_MIPS64
68d75effSDimitry Andricstatic const int16_t cSledLength = 64;
68d75effSDimitry Andric#elif defined(__powerpc64__)
68d75effSDimitry Andricstatic const int16_t cSledLength = 8;
*0eae32dcSDimitry Andric#elif defined(__hexagon__)
*0eae32dcSDimitry Andricstatic const int16_t cSledLength = 20;
68d75effSDimitry Andric#else
68d75effSDimitry Andric#error "Unsupported CPU Architecture"
68d75effSDimitry Andric#endif /* CPU architecture */
68d75effSDimitry Andric
68d75effSDimitry Andric// This is the function to call when we encounter the entry or exit sleds.
68d75effSDimitry Andricatomic_uintptr_t XRayPatchedFunction{0};
68d75effSDimitry Andric
68d75effSDimitry Andric// This is the function to call from the arg1-enabled sleds/trampolines.
68d75effSDimitry Andricatomic_uintptr_t XRayArgLogger{0};
68d75effSDimitry Andric
68d75effSDimitry Andric// This is the function to call when we encounter a custom event log call.
68d75effSDimitry Andricatomic_uintptr_t XRayPatchedCustomEvent{0};
68d75effSDimitry Andric
68d75effSDimitry Andric// This is the function to call when we encounter a typed event log call.
68d75effSDimitry Andricatomic_uintptr_t XRayPatchedTypedEvent{0};
68d75effSDimitry Andric
68d75effSDimitry Andric// This is the global status to determine whether we are currently
68d75effSDimitry Andric// patching/unpatching.
68d75effSDimitry Andricatomic_uint8_t XRayPatching{0};
68d75effSDimitry Andric
68d75effSDimitry Andricstruct TypeDescription {
68d75effSDimitry Andric  uint32_t type_id;
68d75effSDimitry Andric  std::size_t description_string_length;
68d75effSDimitry Andric};
68d75effSDimitry Andric
68d75effSDimitry Andricusing TypeDescriptorMapType = AddrHashMap<TypeDescription, 11>;
68d75effSDimitry Andric// An address map from immutable descriptors to type ids.
68d75effSDimitry AndricTypeDescriptorMapType TypeDescriptorAddressMap{};
68d75effSDimitry Andric
68d75effSDimitry Andricatomic_uint32_t TypeEventDescriptorCounter{0};
68d75effSDimitry Andric
68d75effSDimitry Andric// MProtectHelper is an RAII wrapper for calls to mprotect(...) that will
68d75effSDimitry Andric// undo any successful mprotect(...) changes. This is used to make a page
68d75effSDimitry Andric// writeable and executable, and upon destruction if it was successful in
68d75effSDimitry Andric// doing so returns the page into a read-only and executable page.
68d75effSDimitry Andric//
68d75effSDimitry Andric// This is only used specifically for runtime-patching of the XRay
68d75effSDimitry Andric// instrumentation points. This assumes that the executable pages are
68d75effSDimitry Andric// originally read-and-execute only.
68d75effSDimitry Andricclass MProtectHelper {
68d75effSDimitry Andric  void *PageAlignedAddr;
68d75effSDimitry Andric  std::size_t MProtectLen;
68d75effSDimitry Andric  bool MustCleanup;
68d75effSDimitry Andric
68d75effSDimitry Andricpublic:
68d75effSDimitry Andric  explicit MProtectHelper(void *PageAlignedAddr,
68d75effSDimitry Andric                          std::size_t MProtectLen,
68d75effSDimitry Andric                          std::size_t PageSize) XRAY_NEVER_INSTRUMENT
68d75effSDimitry Andric      : PageAlignedAddr(PageAlignedAddr),
68d75effSDimitry Andric        MProtectLen(MProtectLen),
68d75effSDimitry Andric        MustCleanup(false) {
68d75effSDimitry Andric#if SANITIZER_FUCHSIA
68d75effSDimitry Andric    MProtectLen = RoundUpTo(MProtectLen, PageSize);
68d75effSDimitry Andric#endif
68d75effSDimitry Andric  }
68d75effSDimitry Andric
68d75effSDimitry Andric  int MakeWriteable() XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric#if SANITIZER_FUCHSIA
68d75effSDimitry Andric    auto R = __sanitizer_change_code_protection(
68d75effSDimitry Andric        reinterpret_cast<uintptr_t>(PageAlignedAddr), MProtectLen, true);
68d75effSDimitry Andric    if (R != ZX_OK) {
68d75effSDimitry Andric      Report("XRay: cannot change code protection: %s\n",
68d75effSDimitry Andric             _zx_status_get_string(R));
68d75effSDimitry Andric      return -1;
68d75effSDimitry Andric    }
68d75effSDimitry Andric    MustCleanup = true;
68d75effSDimitry Andric    return 0;
68d75effSDimitry Andric#else
68d75effSDimitry Andric    auto R = mprotect(PageAlignedAddr, MProtectLen,
68d75effSDimitry Andric                      PROT_READ | PROT_WRITE | PROT_EXEC);
68d75effSDimitry Andric    if (R != -1)
68d75effSDimitry Andric      MustCleanup = true;
68d75effSDimitry Andric    return R;
68d75effSDimitry Andric#endif
68d75effSDimitry Andric  }
68d75effSDimitry Andric
68d75effSDimitry Andric  ~MProtectHelper() XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric    if (MustCleanup) {
68d75effSDimitry Andric#if SANITIZER_FUCHSIA
68d75effSDimitry Andric      auto R = __sanitizer_change_code_protection(
68d75effSDimitry Andric          reinterpret_cast<uintptr_t>(PageAlignedAddr), MProtectLen, false);
68d75effSDimitry Andric      if (R != ZX_OK) {
68d75effSDimitry Andric        Report("XRay: cannot change code protection: %s\n",
68d75effSDimitry Andric               _zx_status_get_string(R));
68d75effSDimitry Andric      }
68d75effSDimitry Andric#else
68d75effSDimitry Andric      mprotect(PageAlignedAddr, MProtectLen, PROT_READ | PROT_EXEC);
68d75effSDimitry Andric#endif
68d75effSDimitry Andric    }
68d75effSDimitry Andric  }
68d75effSDimitry Andric};
68d75effSDimitry Andric
68d75effSDimitry Andricnamespace {
68d75effSDimitry Andric
68d75effSDimitry Andricbool patchSled(const XRaySledEntry &Sled, bool Enable,
68d75effSDimitry Andric               int32_t FuncId) XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  bool Success = false;
68d75effSDimitry Andric  switch (Sled.Kind) {
68d75effSDimitry Andric  case XRayEntryType::ENTRY:
68d75effSDimitry Andric    Success = patchFunctionEntry(Enable, FuncId, Sled, __xray_FunctionEntry);
68d75effSDimitry Andric    break;
68d75effSDimitry Andric  case XRayEntryType::EXIT:
68d75effSDimitry Andric    Success = patchFunctionExit(Enable, FuncId, Sled);
68d75effSDimitry Andric    break;
68d75effSDimitry Andric  case XRayEntryType::TAIL:
68d75effSDimitry Andric    Success = patchFunctionTailExit(Enable, FuncId, Sled);
68d75effSDimitry Andric    break;
68d75effSDimitry Andric  case XRayEntryType::LOG_ARGS_ENTRY:
68d75effSDimitry Andric    Success = patchFunctionEntry(Enable, FuncId, Sled, __xray_ArgLoggerEntry);
68d75effSDimitry Andric    break;
68d75effSDimitry Andric  case XRayEntryType::CUSTOM_EVENT:
68d75effSDimitry Andric    Success = patchCustomEvent(Enable, FuncId, Sled);
68d75effSDimitry Andric    break;
68d75effSDimitry Andric  case XRayEntryType::TYPED_EVENT:
68d75effSDimitry Andric    Success = patchTypedEvent(Enable, FuncId, Sled);
68d75effSDimitry Andric    break;
68d75effSDimitry Andric  default:
*0eae32dcSDimitry Andric    Report("Unsupported sled kind '%" PRIu64 "' @%04x\n", Sled.Address,
*0eae32dcSDimitry Andric           int(Sled.Kind));
68d75effSDimitry Andric    return false;
68d75effSDimitry Andric  }
68d75effSDimitry Andric  return Success;
68d75effSDimitry Andric}
68d75effSDimitry Andric
5ffd83dbSDimitry Andricconst XRayFunctionSledIndex
5ffd83dbSDimitry AndricfindFunctionSleds(int32_t FuncId,
5ffd83dbSDimitry Andric                  const XRaySledMap &InstrMap) XRAY_NEVER_INSTRUMENT {
5ffd83dbSDimitry Andric  int32_t CurFn = 0;
5ffd83dbSDimitry Andric  uint64_t LastFnAddr = 0;
5ffd83dbSDimitry Andric  XRayFunctionSledIndex Index = {nullptr, nullptr};
5ffd83dbSDimitry Andric
5ffd83dbSDimitry Andric  for (std::size_t I = 0; I < InstrMap.Entries && CurFn <= FuncId; I++) {
5ffd83dbSDimitry Andric    const auto &Sled = InstrMap.Sleds[I];
5ffd83dbSDimitry Andric    const auto Function = Sled.function();
5ffd83dbSDimitry Andric    if (Function != LastFnAddr) {
5ffd83dbSDimitry Andric      CurFn++;
5ffd83dbSDimitry Andric      LastFnAddr = Function;
5ffd83dbSDimitry Andric    }
5ffd83dbSDimitry Andric
5ffd83dbSDimitry Andric    if (CurFn == FuncId) {
5ffd83dbSDimitry Andric      if (Index.Begin == nullptr)
5ffd83dbSDimitry Andric        Index.Begin = &Sled;
5ffd83dbSDimitry Andric      Index.End = &Sled;
5ffd83dbSDimitry Andric    }
5ffd83dbSDimitry Andric  }
5ffd83dbSDimitry Andric
5ffd83dbSDimitry Andric  Index.End += 1;
5ffd83dbSDimitry Andric
5ffd83dbSDimitry Andric  return Index;
5ffd83dbSDimitry Andric}
5ffd83dbSDimitry Andric
68d75effSDimitry AndricXRayPatchingStatus patchFunction(int32_t FuncId,
68d75effSDimitry Andric                                 bool Enable) XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  if (!atomic_load(&XRayInitialized,
68d75effSDimitry Andric                                memory_order_acquire))
68d75effSDimitry Andric    return XRayPatchingStatus::NOT_INITIALIZED; // Not initialized.
68d75effSDimitry Andric
68d75effSDimitry Andric  uint8_t NotPatching = false;
68d75effSDimitry Andric  if (!atomic_compare_exchange_strong(
68d75effSDimitry Andric          &XRayPatching, &NotPatching, true, memory_order_acq_rel))
68d75effSDimitry Andric    return XRayPatchingStatus::ONGOING; // Already patching.
68d75effSDimitry Andric
68d75effSDimitry Andric  // Next, we look for the function index.
68d75effSDimitry Andric  XRaySledMap InstrMap;
68d75effSDimitry Andric  {
68d75effSDimitry Andric    SpinMutexLock Guard(&XRayInstrMapMutex);
68d75effSDimitry Andric    InstrMap = XRayInstrMap;
68d75effSDimitry Andric  }
68d75effSDimitry Andric
68d75effSDimitry Andric  // If we don't have an index, we can't patch individual functions.
68d75effSDimitry Andric  if (InstrMap.Functions == 0)
68d75effSDimitry Andric    return XRayPatchingStatus::NOT_INITIALIZED;
68d75effSDimitry Andric
68d75effSDimitry Andric  // FuncId must be a positive number, less than the number of functions
68d75effSDimitry Andric  // instrumented.
68d75effSDimitry Andric  if (FuncId <= 0 || static_cast<size_t>(FuncId) > InstrMap.Functions) {
68d75effSDimitry Andric    Report("Invalid function id provided: %d\n", FuncId);
68d75effSDimitry Andric    return XRayPatchingStatus::FAILED;
68d75effSDimitry Andric  }
68d75effSDimitry Andric
68d75effSDimitry Andric  // Now we patch ths sleds for this specific function.
5ffd83dbSDimitry Andric  auto SledRange = InstrMap.SledsIndex ? InstrMap.SledsIndex[FuncId - 1]
5ffd83dbSDimitry Andric                                       : findFunctionSleds(FuncId, InstrMap);
68d75effSDimitry Andric  auto *f = SledRange.Begin;
68d75effSDimitry Andric  auto *e = SledRange.End;
68d75effSDimitry Andric  bool SucceedOnce = false;
68d75effSDimitry Andric  while (f != e)
68d75effSDimitry Andric    SucceedOnce |= patchSled(*f++, Enable, FuncId);
68d75effSDimitry Andric
68d75effSDimitry Andric  atomic_store(&XRayPatching, false,
68d75effSDimitry Andric                            memory_order_release);
68d75effSDimitry Andric
68d75effSDimitry Andric  if (!SucceedOnce) {
68d75effSDimitry Andric    Report("Failed patching any sled for function '%d'.", FuncId);
68d75effSDimitry Andric    return XRayPatchingStatus::FAILED;
68d75effSDimitry Andric  }
68d75effSDimitry Andric
68d75effSDimitry Andric  return XRayPatchingStatus::SUCCESS;
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry Andric// controlPatching implements the common internals of the patching/unpatching
68d75effSDimitry Andric// implementation. |Enable| defines whether we're enabling or disabling the
68d75effSDimitry Andric// runtime XRay instrumentation.
68d75effSDimitry AndricXRayPatchingStatus controlPatching(bool Enable) XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  if (!atomic_load(&XRayInitialized,
68d75effSDimitry Andric                                memory_order_acquire))
68d75effSDimitry Andric    return XRayPatchingStatus::NOT_INITIALIZED; // Not initialized.
68d75effSDimitry Andric
68d75effSDimitry Andric  uint8_t NotPatching = false;
68d75effSDimitry Andric  if (!atomic_compare_exchange_strong(
68d75effSDimitry Andric          &XRayPatching, &NotPatching, true, memory_order_acq_rel))
68d75effSDimitry Andric    return XRayPatchingStatus::ONGOING; // Already patching.
68d75effSDimitry Andric
68d75effSDimitry Andric  uint8_t PatchingSuccess = false;
68d75effSDimitry Andric  auto XRayPatchingStatusResetter =
68d75effSDimitry Andric      at_scope_exit([&PatchingSuccess] {
68d75effSDimitry Andric        if (!PatchingSuccess)
68d75effSDimitry Andric          atomic_store(&XRayPatching, false,
68d75effSDimitry Andric                                    memory_order_release);
68d75effSDimitry Andric      });
68d75effSDimitry Andric
68d75effSDimitry Andric  XRaySledMap InstrMap;
68d75effSDimitry Andric  {
68d75effSDimitry Andric    SpinMutexLock Guard(&XRayInstrMapMutex);
68d75effSDimitry Andric    InstrMap = XRayInstrMap;
68d75effSDimitry Andric  }
68d75effSDimitry Andric  if (InstrMap.Entries == 0)
68d75effSDimitry Andric    return XRayPatchingStatus::NOT_INITIALIZED;
68d75effSDimitry Andric
68d75effSDimitry Andric  uint32_t FuncId = 1;
68d75effSDimitry Andric  uint64_t CurFun = 0;
68d75effSDimitry Andric
68d75effSDimitry Andric  // First we want to find the bounds for which we have instrumentation points,
68d75effSDimitry Andric  // and try to get as few calls to mprotect(...) as possible. We're assuming
68d75effSDimitry Andric  // that all the sleds for the instrumentation map are contiguous as a single
68d75effSDimitry Andric  // set of pages. When we do support dynamic shared object instrumentation,
68d75effSDimitry Andric  // we'll need to do this for each set of page load offsets per DSO loaded. For
68d75effSDimitry Andric  // now we're assuming we can mprotect the whole section of text between the
68d75effSDimitry Andric  // minimum sled address and the maximum sled address (+ the largest sled
68d75effSDimitry Andric  // size).
5ffd83dbSDimitry Andric  auto *MinSled = &InstrMap.Sleds[0];
5ffd83dbSDimitry Andric  auto *MaxSled = &InstrMap.Sleds[InstrMap.Entries - 1];
68d75effSDimitry Andric  for (std::size_t I = 0; I < InstrMap.Entries; I++) {
68d75effSDimitry Andric    const auto &Sled = InstrMap.Sleds[I];
5ffd83dbSDimitry Andric    if (Sled.address() < MinSled->address())
5ffd83dbSDimitry Andric      MinSled = &Sled;
5ffd83dbSDimitry Andric    if (Sled.address() > MaxSled->address())
5ffd83dbSDimitry Andric      MaxSled = &Sled;
68d75effSDimitry Andric  }
68d75effSDimitry Andric
68d75effSDimitry Andric  const size_t PageSize = flags()->xray_page_size_override > 0
68d75effSDimitry Andric                              ? flags()->xray_page_size_override
68d75effSDimitry Andric                              : GetPageSizeCached();
68d75effSDimitry Andric  if ((PageSize == 0) || ((PageSize & (PageSize - 1)) != 0)) {
*0eae32dcSDimitry Andric    Report("System page size is not a power of two: %zu\n", PageSize);
68d75effSDimitry Andric    return XRayPatchingStatus::FAILED;
68d75effSDimitry Andric  }
68d75effSDimitry Andric
68d75effSDimitry Andric  void *PageAlignedAddr =
5ffd83dbSDimitry Andric      reinterpret_cast<void *>(MinSled->address() & ~(PageSize - 1));
68d75effSDimitry Andric  size_t MProtectLen =
5ffd83dbSDimitry Andric      (MaxSled->address() - reinterpret_cast<uptr>(PageAlignedAddr)) +
5ffd83dbSDimitry Andric      cSledLength;
68d75effSDimitry Andric  MProtectHelper Protector(PageAlignedAddr, MProtectLen, PageSize);
68d75effSDimitry Andric  if (Protector.MakeWriteable() == -1) {
68d75effSDimitry Andric    Report("Failed mprotect: %d\n", errno);
68d75effSDimitry Andric    return XRayPatchingStatus::FAILED;
68d75effSDimitry Andric  }
68d75effSDimitry Andric
68d75effSDimitry Andric  for (std::size_t I = 0; I < InstrMap.Entries; ++I) {
68d75effSDimitry Andric    auto &Sled = InstrMap.Sleds[I];
5ffd83dbSDimitry Andric    auto F = Sled.function();
68d75effSDimitry Andric    if (CurFun == 0)
68d75effSDimitry Andric      CurFun = F;
68d75effSDimitry Andric    if (F != CurFun) {
68d75effSDimitry Andric      ++FuncId;
68d75effSDimitry Andric      CurFun = F;
68d75effSDimitry Andric    }
68d75effSDimitry Andric    patchSled(Sled, Enable, FuncId);
68d75effSDimitry Andric  }
68d75effSDimitry Andric  atomic_store(&XRayPatching, false,
68d75effSDimitry Andric                            memory_order_release);
68d75effSDimitry Andric  PatchingSuccess = true;
68d75effSDimitry Andric  return XRayPatchingStatus::SUCCESS;
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry AndricXRayPatchingStatus mprotectAndPatchFunction(int32_t FuncId,
68d75effSDimitry Andric                                            bool Enable) XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  XRaySledMap InstrMap;
68d75effSDimitry Andric  {
68d75effSDimitry Andric    SpinMutexLock Guard(&XRayInstrMapMutex);
68d75effSDimitry Andric    InstrMap = XRayInstrMap;
68d75effSDimitry Andric  }
68d75effSDimitry Andric
68d75effSDimitry Andric  // FuncId must be a positive number, less than the number of functions
68d75effSDimitry Andric  // instrumented.
68d75effSDimitry Andric  if (FuncId <= 0 || static_cast<size_t>(FuncId) > InstrMap.Functions) {
68d75effSDimitry Andric    Report("Invalid function id provided: %d\n", FuncId);
68d75effSDimitry Andric    return XRayPatchingStatus::FAILED;
68d75effSDimitry Andric  }
68d75effSDimitry Andric
68d75effSDimitry Andric  const size_t PageSize = flags()->xray_page_size_override > 0
68d75effSDimitry Andric                              ? flags()->xray_page_size_override
68d75effSDimitry Andric                              : GetPageSizeCached();
68d75effSDimitry Andric  if ((PageSize == 0) || ((PageSize & (PageSize - 1)) != 0)) {
*0eae32dcSDimitry Andric    Report("Provided page size is not a power of two: %zu\n", PageSize);
68d75effSDimitry Andric    return XRayPatchingStatus::FAILED;
68d75effSDimitry Andric  }
68d75effSDimitry Andric
349cc55cSDimitry Andric  // Here we compute the minimum sled and maximum sled associated with a
68d75effSDimitry Andric  // particular function ID.
5ffd83dbSDimitry Andric  auto SledRange = InstrMap.SledsIndex ? InstrMap.SledsIndex[FuncId - 1]
5ffd83dbSDimitry Andric                                       : findFunctionSleds(FuncId, InstrMap);
68d75effSDimitry Andric  auto *f = SledRange.Begin;
68d75effSDimitry Andric  auto *e = SledRange.End;
5ffd83dbSDimitry Andric  auto *MinSled = f;
5ffd83dbSDimitry Andric  auto *MaxSled = (SledRange.End - 1);
68d75effSDimitry Andric  while (f != e) {
5ffd83dbSDimitry Andric    if (f->address() < MinSled->address())
5ffd83dbSDimitry Andric      MinSled = f;
5ffd83dbSDimitry Andric    if (f->address() > MaxSled->address())
5ffd83dbSDimitry Andric      MaxSled = f;
68d75effSDimitry Andric    ++f;
68d75effSDimitry Andric  }
68d75effSDimitry Andric
68d75effSDimitry Andric  void *PageAlignedAddr =
5ffd83dbSDimitry Andric      reinterpret_cast<void *>(MinSled->address() & ~(PageSize - 1));
68d75effSDimitry Andric  size_t MProtectLen =
5ffd83dbSDimitry Andric      (MaxSled->address() - reinterpret_cast<uptr>(PageAlignedAddr)) +
5ffd83dbSDimitry Andric      cSledLength;
68d75effSDimitry Andric  MProtectHelper Protector(PageAlignedAddr, MProtectLen, PageSize);
68d75effSDimitry Andric  if (Protector.MakeWriteable() == -1) {
68d75effSDimitry Andric    Report("Failed mprotect: %d\n", errno);
68d75effSDimitry Andric    return XRayPatchingStatus::FAILED;
68d75effSDimitry Andric  }
68d75effSDimitry Andric  return patchFunction(FuncId, Enable);
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry Andric} // namespace
68d75effSDimitry Andric
68d75effSDimitry Andric} // namespace __xray
68d75effSDimitry Andric
68d75effSDimitry Andricusing namespace __xray;
68d75effSDimitry Andric
68d75effSDimitry Andric// The following functions are declared `extern "C" {...}` in the header, hence
68d75effSDimitry Andric// they're defined in the global namespace.
68d75effSDimitry Andric
68d75effSDimitry Andricint __xray_set_handler(void (*entry)(int32_t,
68d75effSDimitry Andric                                     XRayEntryType)) XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  if (atomic_load(&XRayInitialized,
68d75effSDimitry Andric                               memory_order_acquire)) {
68d75effSDimitry Andric
68d75effSDimitry Andric    atomic_store(&__xray::XRayPatchedFunction,
68d75effSDimitry Andric                              reinterpret_cast<uintptr_t>(entry),
68d75effSDimitry Andric                              memory_order_release);
68d75effSDimitry Andric    return 1;
68d75effSDimitry Andric  }
68d75effSDimitry Andric  return 0;
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry Andricint __xray_set_customevent_handler(void (*entry)(void *, size_t))
68d75effSDimitry Andric    XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  if (atomic_load(&XRayInitialized,
68d75effSDimitry Andric                               memory_order_acquire)) {
68d75effSDimitry Andric    atomic_store(&__xray::XRayPatchedCustomEvent,
68d75effSDimitry Andric                              reinterpret_cast<uintptr_t>(entry),
68d75effSDimitry Andric                              memory_order_release);
68d75effSDimitry Andric    return 1;
68d75effSDimitry Andric  }
68d75effSDimitry Andric  return 0;
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry Andricint __xray_set_typedevent_handler(void (*entry)(
68d75effSDimitry Andric    uint16_t, const void *, size_t)) XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  if (atomic_load(&XRayInitialized,
68d75effSDimitry Andric                               memory_order_acquire)) {
68d75effSDimitry Andric    atomic_store(&__xray::XRayPatchedTypedEvent,
68d75effSDimitry Andric                              reinterpret_cast<uintptr_t>(entry),
68d75effSDimitry Andric                              memory_order_release);
68d75effSDimitry Andric    return 1;
68d75effSDimitry Andric  }
68d75effSDimitry Andric  return 0;
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry Andricint __xray_remove_handler() XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  return __xray_set_handler(nullptr);
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry Andricint __xray_remove_customevent_handler() XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  return __xray_set_customevent_handler(nullptr);
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry Andricint __xray_remove_typedevent_handler() XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  return __xray_set_typedevent_handler(nullptr);
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry Andricuint16_t __xray_register_event_type(
68d75effSDimitry Andric    const char *const event_type) XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  TypeDescriptorMapType::Handle h(&TypeDescriptorAddressMap, (uptr)event_type);
68d75effSDimitry Andric  if (h.created()) {
68d75effSDimitry Andric    h->type_id = atomic_fetch_add(
68d75effSDimitry Andric        &TypeEventDescriptorCounter, 1, memory_order_acq_rel);
68d75effSDimitry Andric    h->description_string_length = strnlen(event_type, 1024);
68d75effSDimitry Andric  }
68d75effSDimitry Andric  return h->type_id;
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry AndricXRayPatchingStatus __xray_patch() XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  return controlPatching(true);
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry AndricXRayPatchingStatus __xray_unpatch() XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  return controlPatching(false);
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry AndricXRayPatchingStatus __xray_patch_function(int32_t FuncId) XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  return mprotectAndPatchFunction(FuncId, true);
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry AndricXRayPatchingStatus
68d75effSDimitry Andric__xray_unpatch_function(int32_t FuncId) XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  return mprotectAndPatchFunction(FuncId, false);
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry Andricint __xray_set_handler_arg1(void (*entry)(int32_t, XRayEntryType, uint64_t)) {
68d75effSDimitry Andric  if (!atomic_load(&XRayInitialized,
68d75effSDimitry Andric                                memory_order_acquire))
68d75effSDimitry Andric    return 0;
68d75effSDimitry Andric
68d75effSDimitry Andric  // A relaxed write might not be visible even if the current thread gets
68d75effSDimitry Andric  // scheduled on a different CPU/NUMA node.  We need to wait for everyone to
68d75effSDimitry Andric  // have this handler installed for consistency of collected data across CPUs.
68d75effSDimitry Andric  atomic_store(&XRayArgLogger, reinterpret_cast<uint64_t>(entry),
68d75effSDimitry Andric                            memory_order_release);
68d75effSDimitry Andric  return 1;
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry Andricint __xray_remove_handler_arg1() { return __xray_set_handler_arg1(nullptr); }
68d75effSDimitry Andric
68d75effSDimitry Andricuintptr_t __xray_function_address(int32_t FuncId) XRAY_NEVER_INSTRUMENT {
5ffd83dbSDimitry Andric  XRaySledMap InstrMap;
5ffd83dbSDimitry Andric  {
68d75effSDimitry Andric    SpinMutexLock Guard(&XRayInstrMapMutex);
5ffd83dbSDimitry Andric    InstrMap = XRayInstrMap;
5ffd83dbSDimitry Andric  }
5ffd83dbSDimitry Andric
5ffd83dbSDimitry Andric  if (FuncId <= 0 || static_cast<size_t>(FuncId) > InstrMap.Functions)
68d75effSDimitry Andric    return 0;
5ffd83dbSDimitry Andric  const XRaySledEntry *Sled = InstrMap.SledsIndex
5ffd83dbSDimitry Andric                                  ? InstrMap.SledsIndex[FuncId - 1].Begin
5ffd83dbSDimitry Andric                                  : findFunctionSleds(FuncId, InstrMap).Begin;
5ffd83dbSDimitry Andric  return Sled->function()
68d75effSDimitry Andric// On PPC, function entries are always aligned to 16 bytes. The beginning of a
68d75effSDimitry Andric// sled might be a local entry, which is always +8 based on the global entry.
68d75effSDimitry Andric// Always return the global entry.
68d75effSDimitry Andric#ifdef __PPC__
68d75effSDimitry Andric         & ~0xf
68d75effSDimitry Andric#endif
68d75effSDimitry Andric      ;
68d75effSDimitry Andric}
68d75effSDimitry Andric
68d75effSDimitry Andricsize_t __xray_max_function_id() XRAY_NEVER_INSTRUMENT {
68d75effSDimitry Andric  SpinMutexLock Guard(&XRayInstrMapMutex);
68d75effSDimitry Andric  return XRayInstrMap.Functions;
68d75effSDimitry Andric}