用于EagleEye3.0 规则集漏报和误报测试的示例项目,项目收集于github和gitee
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/* Copyright (c) 2012, 2017, Oracle and/or its affiliates. All rights reserved.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License, version 2.0,
as published by the Free Software Foundation.
This program is also distributed with certain software (including
but not limited to OpenSSL) that is licensed under separate terms,
as designated in a particular file or component or in included license
documentation. The authors of MySQL hereby grant you an additional
permission to link the program and your derivative works with the
separately licensed software that they have included with MySQL.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License, version 2.0, for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */
/**
@file include/big_endian.h
Endianness-independent definitions (little_endian.h contains optimized
versions if you know you are on a little-endian platform).
*/
// IWYU pragma: private, include "my_byteorder.h"
#ifndef MY_BYTEORDER_INCLUDED
#error This file should never be #included directly; use my_byteorder.h.
#endif
#include <string.h>
#include "my_inttypes.h"
static inline int16 sint2korr(const uchar *A) {
return (int16)(((int16)(A[0])) + ((int16)(A[1]) << 8));
}
static inline int32 sint4korr(const uchar *A) {
return (int32)(((int32)(A[0])) + (((int32)(A[1]) << 8)) +
(((int32)(A[2]) << 16)) + (((int32)(A[3]) << 24)));
}
static inline uint16 uint2korr(const uchar *A) {
return (uint16)(((uint16)(A[0])) + ((uint16)(A[1]) << 8));
}
static inline uint32 uint4korr(const uchar *A) {
return (uint32)(((uint32)(A[0])) + (((uint32)(A[1])) << 8) +
(((uint32)(A[2])) << 16) + (((uint32)(A[3])) << 24));
}
static inline ulonglong uint8korr(const uchar *A) {
return ((ulonglong)(((uint32)(A[0])) + (((uint32)(A[1])) << 8) +
(((uint32)(A[2])) << 16) + (((uint32)(A[3])) << 24)) +
(((ulonglong)(((uint32)(A[4])) + (((uint32)(A[5])) << 8) +
(((uint32)(A[6])) << 16) + (((uint32)(A[7])) << 24)))
<< 32));
}
static inline longlong sint8korr(const uchar *A) {
return (longlong)uint8korr(A);
}
static inline void int2store(uchar *T, uint16 A) {
uint def_temp = A;
*(T) = (uchar)(def_temp);
*(T + 1) = (uchar)(def_temp >> 8);
}
static inline void int4store(uchar *T, uint32 A) {
*(T) = (uchar)(A);
*(T + 1) = (uchar)(A >> 8);
*(T + 2) = (uchar)(A >> 16);
*(T + 3) = (uchar)(A >> 24);
}
static inline void int7store(uchar *T, ulonglong A) {
*(T) = (uchar)(A);
*(T + 1) = (uchar)(A >> 8);
*(T + 2) = (uchar)(A >> 16);
*(T + 3) = (uchar)(A >> 24);
*(T + 4) = (uchar)(A >> 32);
*(T + 5) = (uchar)(A >> 40);
*(T + 6) = (uchar)(A >> 48);
}
static inline void int8store(uchar *T, ulonglong A) {
uint def_temp = (uint)A, def_temp2 = (uint)(A >> 32);
int4store(T, def_temp);
int4store(T + 4, def_temp2);
}
/*
Data in big-endian format.
*/
static inline void float4store(uchar *T, float A) {
*(T) = ((uchar *)&A)[3];
*((T) + 1) = (char)((uchar *)&A)[2];
*((T) + 2) = (char)((uchar *)&A)[1];
*((T) + 3) = (char)((uchar *)&A)[0];
}
static inline void float4get(float *V, const uchar *M) {
float def_temp;
((uchar *)&def_temp)[0] = (M)[3];
((uchar *)&def_temp)[1] = (M)[2];
((uchar *)&def_temp)[2] = (M)[1];
((uchar *)&def_temp)[3] = (M)[0];
(*V) = def_temp;
}
static inline void float8store(uchar *T, double V) {
*(T) = ((uchar *)&V)[7];
*((T) + 1) = (char)((uchar *)&V)[6];
*((T) + 2) = (char)((uchar *)&V)[5];
*((T) + 3) = (char)((uchar *)&V)[4];
*((T) + 4) = (char)((uchar *)&V)[3];
*((T) + 5) = (char)((uchar *)&V)[2];
*((T) + 6) = (char)((uchar *)&V)[1];
*((T) + 7) = (char)((uchar *)&V)[0];
}
static inline void float8get(double *V, const uchar *M) {
double def_temp;
((uchar *)&def_temp)[0] = (M)[7];
((uchar *)&def_temp)[1] = (M)[6];
((uchar *)&def_temp)[2] = (M)[5];
((uchar *)&def_temp)[3] = (M)[4];
((uchar *)&def_temp)[4] = (M)[3];
((uchar *)&def_temp)[5] = (M)[2];
((uchar *)&def_temp)[6] = (M)[1];
((uchar *)&def_temp)[7] = (M)[0];
(*V) = def_temp;
}
static inline void ushortget(uint16 *V, const uchar *pM) {
*V = (uint16)(((uint16)((uchar)(pM)[1])) + ((uint16)((uint16)(pM)[0]) << 8));
}
static inline void shortget(int16 *V, const uchar *pM) {
*V = (short)(((short)((uchar)(pM)[1])) + ((short)((short)(pM)[0]) << 8));
}
static inline void longget(int32 *V, const uchar *pM) {
int32 def_temp;
((uchar *)&def_temp)[0] = (pM)[0];
((uchar *)&def_temp)[1] = (pM)[1];
((uchar *)&def_temp)[2] = (pM)[2];
((uchar *)&def_temp)[3] = (pM)[3];
(*V) = def_temp;
}
static inline void ulongget(uint32 *V, const uchar *pM) {
uint32 def_temp;
((uchar *)&def_temp)[0] = (pM)[0];
((uchar *)&def_temp)[1] = (pM)[1];
((uchar *)&def_temp)[2] = (pM)[2];
((uchar *)&def_temp)[3] = (pM)[3];
(*V) = def_temp;
}
static inline void shortstore(uchar *T, int16 A) {
uint def_temp = (uint)(A);
*(((char *)T) + 1) = (char)(def_temp);
*(((char *)T) + 0) = (char)(def_temp >> 8);
}
static inline void longstore(uchar *T, int32 A) {
*(((char *)T) + 3) = ((A));
*(((char *)T) + 2) = (((A) >> 8));
*(((char *)T) + 1) = (((A) >> 16));
*(((char *)T) + 0) = (((A) >> 24));
}
static inline void floatget(float *V, const uchar *M) {
memcpy(V, (M), sizeof(float));
}
static inline void floatstore(uchar *T, float V) {
memcpy((T), (&V), sizeof(float));
}
static inline void doubleget(double *V, const uchar *M) {
memcpy(V, (M), sizeof(double));
}
static inline void doublestore(uchar *T, double V) {
memcpy((T), &V, sizeof(double));
}
static inline void longlongget(longlong *V, const uchar *M) {
memcpy(V, (M), sizeof(ulonglong));
}
static inline void longlongstore(uchar *T, longlong V) {
memcpy((T), &V, sizeof(ulonglong));
}