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dragonflydb-dragonfly/core/compact_object.h
2022-02-24 14:11:51 +02:00

250 lines
5 KiB
C++

// Copyright 2022, Roman Gershman. All rights reserved.
// See LICENSE for licensing terms.
//
#pragma once
#include <absl/base/internal/endian.h>
#include <memory_resource>
#include <optional>
typedef struct redisObject robj;
typedef struct quicklist quicklist;
namespace dfly {
namespace detail {
class CompactBlob {
void* ptr_;
uint32_t sz;
public:
CompactBlob() : ptr_(nullptr), sz(0) {
}
explicit CompactBlob(std::string_view s, std::pmr::memory_resource* mr);
void Assign(std::string_view s, std::pmr::memory_resource* mr);
void Set(void* p, uint32_t s) {
ptr_ = p;
sz = s;
}
void Free(std::pmr::memory_resource* mr);
size_t size() const {
return sz;
}
size_t capacity() const;
void* ptr() const {
return ptr_;
}
std::string_view AsView() const {
return std::string_view{reinterpret_cast<char*>(ptr_), sz};
}
void MakeRoom(size_t current_cap, size_t desired, std::pmr::memory_resource* mr);
} __attribute__((packed));
static_assert(sizeof(CompactBlob) == 12, "");
// redis objects or blobs of upto 4GB size.
struct RobjWrapper {
size_t MallocUsed() const;
uint64_t HashCode() const;
bool Equal(const RobjWrapper& ow) const;
bool Equal(std::string_view sv) const;
size_t Size() const;
void Free(std::pmr::memory_resource* mr);
CompactBlob blob;
static_assert(sizeof(blob) == 12);
uint32_t type : 4;
uint32_t encoding : 4;
uint32_t lru_unneeded : 24;
RobjWrapper() {
}
} __attribute__((packed));
} // namespace detail
class CompactObj {
static constexpr unsigned kInlineLen = 16;
void operator=(const CompactObj&) = delete;
CompactObj(const CompactObj&) = delete;
// 0-16 is reserved for inline lengths of string type.
enum TagEnum {
INT_TAG = 17,
SMALL_TAG = 18, // TBD
ROBJ_TAG = 19,
};
enum MaskBit {
REF_BIT = 1,
EXPIRE_BIT = 2,
};
public:
using PrefixArray = std::vector<std::string_view>;
CompactObj() { // By default - empty string.
}
explicit CompactObj(robj* o) {
ImportRObj(o);
}
explicit CompactObj(std::string_view str) {
SetString(str);
}
CompactObj(CompactObj&& cs) noexcept {
operator=(std::move(cs));
};
~CompactObj();
CompactObj& operator=(CompactObj&& o) noexcept;
size_t StrSize() const;
// TODO: We don't use c++ constructs (ctor, dtor, =) in objects of U,
// because we use memcpy here.
CompactObj AsRef() const {
CompactObj res;
memcpy(&res.u_, &u_, sizeof(u_));
res.taglen_ = taglen_;
res.mask_ = mask_ | REF_BIT;
return res;
}
bool IsRef() const {
return mask_ & REF_BIT;
}
std::string_view GetSlice(std::string* scratch) const;
std::string ToString() const {
std::string res;
GetString(&res);
return res;
}
uint64_t HashCode() const;
static uint64_t HashCode(std::string_view str);
bool operator==(const CompactObj& o) const;
bool operator==(std::string_view sl) const;
friend bool operator!=(const CompactObj& lhs, const CompactObj& rhs) {
return !(lhs == rhs);
}
friend bool operator==(std::string_view sl, const CompactObj& o) {
return o.operator==(sl);
}
bool HasExpire() const {
return mask_ & EXPIRE_BIT;
}
void SetExpire(bool e) {
if (e) {
mask_ |= EXPIRE_BIT;
} else {
mask_ &= ~EXPIRE_BIT;
}
}
unsigned Encoding() const;
unsigned ObjType() const;
quicklist* GetQL() const;
// Takes ownership over o.
void ImportRObj(robj* o);
robj* AsRObj() const;
// Syncs 'this' instance with the object that was previously returned by AsRObj().
// Requires: AsRObj() has been called before in the same thread in fiber-atomic section.
void SyncRObj();
void SetInt(int64_t val);
std::optional<int64_t> TryGetInt() const;
void SetString(std::string_view str);
void GetString(std::string* res) const;
size_t MallocUsed() const;
// Resets the object to empty state.
void Reset();
bool IsInline() const {
return taglen_ <= kInlineLen;
}
static constexpr unsigned InlineLen() {
return kInlineLen;
}
private:
bool EqualNonInline(std::string_view sv) const;
// Requires: HasAllocated() - true.
void Free();
bool HasAllocated() const;
void SetMeta(uint8_t taglen, uint8_t mask = 0) {
if (HasAllocated()) {
Free();
} else {
memset(u_.inline_str, 0, kInlineLen);
}
taglen_ = taglen;
mask_ = mask;
}
// My main data structure. Union of representations.
// RobjWrapper is kInlineLen=16 bytes, so we employ SSO of that size via inline_str.
// In case of int values, we waste 8 bytes. I am assuming it's ok and it's not the data type
// with biggest memory usage.
union U {
char inline_str[kInlineLen];
detail::RobjWrapper r_obj;
int64_t ival __attribute__((packed));
U() : r_obj() {
}
} u_;
//
static_assert(sizeof(u_) == 16, "");
mutable uint8_t mask_ = 0;
uint8_t taglen_ = 0;
};
inline bool CompactObj::operator==(std::string_view sv) const {
if (IsInline()) {
return std::string_view{u_.inline_str, taglen_} == sv;
}
return EqualNonInline(sv);
}
} // namespace dfly