AlkantarClanX12
Current Path : /opt/cloudlinux/alt-php81/root/usr/include/php/ext/swoole/include/ |
Current File : //opt/cloudlinux/alt-php81/root/usr/include/php/ext/swoole/include/swoole_table.h |
/* +----------------------------------------------------------------------+ | Swoole | +----------------------------------------------------------------------+ | This source file is subject to version 2.0 of the Apache license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | http://www.apache.org/licenses/LICENSE-2.0.html | | If you did not receive a copy of the Apache2.0 license and are unable| | to obtain it through the world-wide-web, please send a note to | | license@swoole.com so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Author: Tianfeng Han <rango@swoole.com> | +----------------------------------------------------------------------+ */ #pragma once #include "swoole.h" #include "swoole_memory.h" #include "swoole_util.h" #include "swoole_lock.h" #include "swoole_hash.h" #include <signal.h> #include <vector> #include <unordered_map> //#define SW_TABLE_DEBUG 0 #define SW_TABLE_FORCE_UNLOCK_TIME 2000 // milliseconds #define SW_TABLE_USE_PHP_HASH namespace swoole { typedef uint32_t TableStringLength; typedef uint64_t (*HashFunc)(const char *key, size_t len); struct TableColumn; struct TableRow { sw_atomic_t lock_; pid_t lock_pid; /** * 1:used, 0:empty */ uint8_t active; uint8_t key_len; /** * next slot */ TableRow *next; /** * Hash Key */ char key[SW_TABLE_KEY_SIZE]; char data[0]; void lock(); void unlock() { sw_spinlock_release(&lock_); } void clear() { sw_memset_zero((char *) &lock_pid, sizeof(TableRow) - offsetof(TableRow, lock_pid)); } void set_value(TableColumn *col, void *value, size_t vlen); void get_value(TableColumn *col, double *dval); void get_value(TableColumn *col, long *lval); void get_value(TableColumn *col, char **strval, TableStringLength *strlen); }; struct TableIterator { size_t row_memory_size_; uint32_t absolute_index = 0; uint32_t collision_index = 0; TableRow *current_; Mutex *mutex_; explicit TableIterator(size_t row_size) { current_ = (TableRow *) sw_malloc(row_size); if (!current_) { throw std::bad_alloc(); } mutex_ = new Mutex(Mutex::PROCESS_SHARED); row_memory_size_ = row_size; reset(); } void lock() { mutex_->lock(); } void unlock() { mutex_->unlock(); } void reset() { absolute_index = 0; collision_index = 0; sw_memset_zero(current_, row_memory_size_); } ~TableIterator() { if (current_) { sw_free(current_); } delete mutex_; } }; enum TableFlag { SW_TABLE_FLAG_NEW_ROW = 1, SW_TABLE_FLAG_CONFLICT = 1u << 1, }; struct TableColumn { enum Type { TYPE_INT = 1, TYPE_FLOAT, TYPE_STRING, }; enum Type type; uint32_t size; std::string name; size_t index; TableColumn(const std::string &_name, enum Type _type, size_t _size) { index = 0; name = _name; type = _type; switch (_type) { case TYPE_INT: size = sizeof(long); break; case TYPE_FLOAT: size = sizeof(double); break; case TYPE_STRING: size = _size + sizeof(TableStringLength); break; default: abort(); break; } } void clear(TableRow *row); }; class Table { private: std::unordered_map<std::string, TableColumn *> *column_map; Mutex *mutex; size_t size; size_t mask; size_t item_size; size_t memory_size; float conflict_proportion; /** * total rows that in active state(shm) */ sw_atomic_t row_num; TableRow **rows; FixedPool *pool; TableIterator *iterator; HashFunc hash_func; bool created; void *memory; public: std::vector<TableColumn *> *column_list; size_t conflict_count; sw_atomic_long_t insert_count; sw_atomic_long_t delete_count; sw_atomic_long_t update_count; uint32_t conflict_max_level; Table() = delete; ~Table() = delete; static Table *make(uint32_t rows_size, float conflict_proportion); size_t calc_memory_size() const; size_t get_memory_size() const; uint32_t get_available_slice_num(); uint32_t get_total_slice_num(); bool create(); bool add_column(const std::string &name, enum TableColumn::Type type, size_t size); TableRow *set(const char *key, uint16_t keylen, TableRow **rowlock, int *out_flags); TableRow *get(const char *key, uint16_t keylen, TableRow **rowlock); bool del(const char *key, uint16_t keylen); void forward(); // only release local memory of the current process void free(); // release shared memory void destroy(); bool is_created() const { return created; } bool ready() { return memory != nullptr; } void set_hash_func(HashFunc _fn) { hash_func = _fn; } size_t get_size() const { return size; } TableRow *get_by_index(uint32_t index) { TableRow *row = rows[index]; return row->active ? row : nullptr; } TableColumn *get_column(const std::string &key) { auto i = column_map->find(key); if (i == column_map->end()) { return nullptr; } else { return i->second; } } size_t count() const { return row_num; } bool exists(const char *key, uint16_t keylen) { TableRow *_rowlock = nullptr; const TableRow *row = get(key, keylen, &_rowlock); _rowlock->unlock(); return row != nullptr; } bool exists(const std::string &key) { return exists(key.c_str(), key.length()); } TableRow *current() { return iterator->current_; } void rewind() { iterator->lock(); iterator->reset(); iterator->unlock(); } void clear_row(TableRow *row) { for (auto & i : *column_list) { i->clear(row); } } private: TableRow *hash(const char *key, int keylen) { uint64_t hashv = hash_func(key, keylen); uint64_t index = hashv & mask; assert(index < size); return rows[index]; } TableRow *alloc_row() { lock(); auto new_row = (TableRow *) pool->alloc(0); unlock(); return new_row; } void free_row(TableRow *tmp) { lock(); tmp->clear(); pool->free(tmp); unlock(); } static void check_key_length(uint16_t *keylen) { if (*keylen >= SW_TABLE_KEY_SIZE) { *keylen = SW_TABLE_KEY_SIZE - 1; } } void init_row(TableRow *new_row, const char *key, int keylen) { sw_memset_zero((char *) new_row + offsetof(TableRow, active), sizeof(TableRow) - offsetof(TableRow, active)); memcpy(new_row->key, key, keylen); new_row->key[keylen] = '\0'; new_row->key_len = keylen; new_row->active = 1; sw_atomic_fetch_add(&(row_num), 1); } int lock() { return mutex->lock(); } int unlock() { return mutex->unlock(); } }; } // namespace swoole