object-introspection/oi/OITraceCode.cpp

R"(
#define NDEBUG 1
// Required for compatibility with new glibc headers
#define __malloc__(x, y) __malloc__
#if !__has_builtin(__builtin_free)
  #define __builtin_free(x) free(x)
#endif
#pragma clang diagnostic ignored "-Wunknown-attributes"

// clang-format off
// The header xmmintrin.h must come first. Otherwise it results in errors
// jemalloc during JIT compilation
#include <xmmintrin.h>
#include <cstdint>

#include <utility>
#include <unistd.h>

// clang-format on

#define C10_USING_CUSTOM_GENERATED_MACROS

// These globals are set by oid, see end of OIDebugger::compileCode()
extern uintptr_t dataBase;
extern size_t dataSize;
extern uintptr_t cookieValue;
extern int logFile;

constexpr int oidMagicId = 0x01DE8;

#include <array>

namespace {

class {
 private:
  // 1 MiB of pointers
  std::array<uintptr_t, (1 << 20) / sizeof(uintptr_t)> data;

  // twang_mix64 hash function, taken from Folly where it is used
  // as the default hash function for 64-bit integers
  constexpr static uint64_t twang_mix64(uint64_t key) noexcept {
    key = (~key) + (key << 21);  // key *= (1 << 21) - 1; key -= 1;
    key = key ^ (key >> 24);
    key = key + (key << 3) + (key << 8);  // key *= 1 + (1 << 3) + (1 << 8)
    key = key ^ (key >> 14);
    key = key + (key << 2) + (key << 4);  // key *= 1 + (1 << 2) + (1 << 4)
    key = key ^ (key >> 28);
    key = key + (key << 31);  // key *= 1 + (1 << 31)
    return key;
  }

 public:
  void initialize() noexcept { data.fill(0); }

  // Adds the pointer to the set.
  // Returns `true` if the value was newly added,
  // or `false` if the value was already present.
  bool add(uintptr_t pointer) noexcept {
    __builtin_assume(pointer > 0);
    uint64_t index = twang_mix64(pointer) % data.size();
    while (true) {
      uintptr_t entry = data[index];
      if (entry == 0) {
        data[index] = pointer;
        return true;
      }
      if (entry == pointer) {
        return false;
      }
      index = (index + 1) % data.size();
    }
  }
} static pointers;

void __jlogptr(uintptr_t ptr) {
    static constexpr char hexdigits[] = "0123456789abcdef";
    static constexpr size_t ptrlen = 2 * sizeof(ptr);

    static char hexstr[ptrlen + 1] = {};

    size_t i = ptrlen;
    while (i--) {
        hexstr[i] = hexdigits[ptr & 0xf];
        ptr = ptr >> 4;
    }
    hexstr[ptrlen] = '\n';
    write(logFile, hexstr, sizeof(hexstr));
}

} // namespace

// Unforunately, this is a hack for AdFilterData.
class PredictorInterface;
class PredictionCompositionNode;

constexpr size_t kGEMMLOWPCacheLineSize = 64;

template <typename T>
struct AllocAligned {
  // Allocate a T aligned at an `align` byte address
  template <typename... Args>
  static T* alloc(Args&&... args) {
    void* p = nullptr;

#if defined(__ANDROID__)
    p = memalign(kGEMMLOWPCacheLineSize, sizeof(T));
#elif defined(_MSC_VER)
    p = _aligned_malloc(sizeof(T), kGEMMLOWPCacheLineSize);
#else
    posix_memalign((void**)&p, kGEMMLOWPCacheLineSize, sizeof(T));
#endif

    if (p) {
      return new (p) T(std::forward<Args>(args)...);
    }

    return nullptr;
  }

  // Free a T previously allocated via AllocAligned<T>::alloc()
  static void release(T* p) {
    if (p) {
      p->~T();
#if defined(_MSC_VER)
      _aligned_free((void*)p);
#else
      free((void*)p);
#endif
    }
  }
};

// Deleter object for unique_ptr for an aligned object
template <typename T>
struct AlignedDeleter {
  void operator()(T* p) const { AllocAligned<T>::release(p); }
};

// alignas(0) is ignored according to docs so can be default
template <unsigned int N, unsigned int align = 0>
struct alignas(align) DummySizedOperator {
  char c[N];
};

// The empty class specialization is, unfortunately, necessary. When this operator
// is passed as a template parameter to something like unordered_map, even though
// an empty class and a class with a single character have size one, there is some
// empty class optimization that changes the static size of the container if an
// empty class is passed.

// DummySizedOperator<0,0> also collapses to this
template <>
struct DummySizedOperator<0> {
};

)"
Initial commit 2022-12-19 14:37:51 +00:00			`R"(`
			`#define NDEBUG 1`
			`// Required for compatibility with new glibc headers`
			`#define __malloc__(x, y) __malloc__`
			`#if !__has_builtin(__builtin_free)`
			`#define __builtin_free(x) free(x)`
			`#endif`
			`#pragma clang diagnostic ignored "-Wunknown-attributes"`

			`// clang-format off`
			`// The header xmmintrin.h must come first. Otherwise it results in errors`
			`// jemalloc during JIT compilation`
			`#include <xmmintrin.h>`
			`#include <cstdint>`

			`#include <utility>`
			`#include <unistd.h>`

			`// clang-format on`

			`#define C10_USING_CUSTOM_GENERATED_MACROS`

			`// These globals are set by oid, see end of OIDebugger::compileCode()`
			`extern uintptr_t dataBase;`
			`extern size_t dataSize;`
			`extern uintptr_t cookieValue;`
			`extern int logFile;`

			`constexpr int oidMagicId = 0x01DE8;`

			`#include <array>`

			`namespace {`

			`class {`
			`private:`
			`// 1 MiB of pointers`
			`std::array<uintptr_t, (1 << 20) / sizeof(uintptr_t)> data;`

			`// twang_mix64 hash function, taken from Folly where it is used`
			`// as the default hash function for 64-bit integers`
			`constexpr static uint64_t twang_mix64(uint64_t key) noexcept {`
			`key = (~key) + (key << 21); // key *= (1 << 21) - 1; key -= 1;`
			`key = key ^ (key >> 24);`
			`key = key + (key << 3) + (key << 8); // key *= 1 + (1 << 3) + (1 << 8)`
			`key = key ^ (key >> 14);`
			`key = key + (key << 2) + (key << 4); // key *= 1 + (1 << 2) + (1 << 4)`
			`key = key ^ (key >> 28);`
			`key = key + (key << 31); // key *= 1 + (1 << 31)`
			`return key;`
			`}`

			`public:`
			`void initialize() noexcept { data.fill(0); }`

			`// Adds the pointer to the set.`
			// Returns `true` if the value was newly added,
			// or `false` if the value was already present.
			`bool add(uintptr_t pointer) noexcept {`
			`__builtin_assume(pointer > 0);`
			`uint64_t index = twang_mix64(pointer) % data.size();`
			`while (true) {`
			`uintptr_t entry = data[index];`
			`if (entry == 0) {`
			`data[index] = pointer;`
			`return true;`
			`}`
			`if (entry == pointer) {`
			`return false;`
			`}`
			`index = (index + 1) % data.size();`
			`}`
			`}`
			`} static pointers;`

			`void __jlogptr(uintptr_t ptr) {`
			`static constexpr char hexdigits[] = "0123456789abcdef";`
			`static constexpr size_t ptrlen = 2 * sizeof(ptr);`

			`static char hexstr[ptrlen + 1] = {};`

			`size_t i = ptrlen;`
			`while (i--) {`
			`hexstr[i] = hexdigits[ptr & 0xf];`
			`ptr = ptr >> 4;`
			`}`
			`hexstr[ptrlen] = '\n';`
			`write(logFile, hexstr, sizeof(hexstr));`
			`}`

			`} // namespace`

			`// Unforunately, this is a hack for AdFilterData.`
			`class PredictorInterface;`
			`class PredictionCompositionNode;`

			`constexpr size_t kGEMMLOWPCacheLineSize = 64;`

			`template <typename T>`
			`struct AllocAligned {`
			// Allocate a T aligned at an `align` byte address
			`template <typename... Args>`
			`static T* alloc(Args&&... args) {`
			`void* p = nullptr;`

			`#if defined(__ANDROID__)`
			`p = memalign(kGEMMLOWPCacheLineSize, sizeof(T));`
			`#elif defined(_MSC_VER)`
			`p = _aligned_malloc(sizeof(T), kGEMMLOWPCacheLineSize);`
			`#else`
			`posix_memalign((void**)&p, kGEMMLOWPCacheLineSize, sizeof(T));`
			`#endif`

			`if (p) {`
			`return new (p) T(std::forward<Args>(args)...);`
			`}`

			`return nullptr;`
			`}`

			`// Free a T previously allocated via AllocAligned<T>::alloc()`
			`static void release(T* p) {`
			`if (p) {`
			`p->~T();`
			`#if defined(_MSC_VER)`
			`_aligned_free((void*)p);`
			`#else`
			`free((void*)p);`
			`#endif`
			`}`
			`}`
			`};`

			`// Deleter object for unique_ptr for an aligned object`
			`template <typename T>`
			`struct AlignedDeleter {`
			`void operator()(T* p) const { AllocAligned<T>::release(p); }`
			`};`

			`// alignas(0) is ignored according to docs so can be default`
			`template <unsigned int N, unsigned int align = 0>`
			`struct alignas(align) DummySizedOperator {`
			`char c[N];`
			`};`

			`// The empty class specialization is, unfortunately, necessary. When this operator`
			`// is passed as a template parameter to something like unordered_map, even though`
			`// an empty class and a class with a single character have size one, there is some`
			`// empty class optimization that changes the static size of the container if an`
			`// empty class is passed.`

			`// DummySizedOperator<0,0> also collapses to this`
			`template <>`
			`struct DummySizedOperator<0> {`
			`};`

			`)"`