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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#ifndef DISCRETE_INTERVAL_INCLUDED
#define DISCRETE_INTERVAL_INCLUDED
/* Copyright (c) 2000, 2018, 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 */
#include <limits.h>
#include "my_dbug.h"
#include "my_inttypes.h"
/*
Such interval is "discrete": it is the set of
{ auto_inc_interval_min + k * increment,
0 <= k <= (auto_inc_interval_values-1) }
Where "increment" is maintained separately by the user of this class (and is
currently only thd->variables.auto_increment_increment).
It mustn't be allocated on a MEM_ROOT, because SET INSERT_ID needs to
allocate memory which must stay allocated for use by the next statement.
*/
class Discrete_interval {
private:
ulonglong interval_min;
ulonglong interval_values;
ulonglong interval_max; // excluded bound. Redundant.
public:
Discrete_interval *next; // used when linked into Discrete_intervals_list
/// Determine if the given value is within the interval
bool in_range(const ulonglong value) const {
return ((value >= interval_min) && (value < interval_max));
}
void replace(ulonglong start, ulonglong val, ulonglong incr) {
interval_min = start;
interval_values = val;
interval_max = (val == ULLONG_MAX) ? val : start + val * incr;
}
Discrete_interval(ulonglong start, ulonglong val, ulonglong incr)
: next(NULL) {
replace(start, val, incr);
}
Discrete_interval() : next(NULL) { replace(0, 0, 0); }
ulonglong minimum() const { return interval_min; }
ulonglong values() const { return interval_values; }
ulonglong maximum() const { return interval_max; }
/*
If appending [3,5] to [1,2], we merge both in [1,5] (they should have the
same increment for that, user of the class has to ensure that). That is
just a space optimization. Returns 0 if merge succeeded.
*/
bool merge_if_contiguous(ulonglong start, ulonglong val, ulonglong incr) {
if (interval_max == start) {
if (val == ULLONG_MAX) {
interval_values = interval_max = val;
} else {
interval_values += val;
interval_max = start + val * incr;
}
return 0;
}
return 1;
}
};
/// List of Discrete_interval objects
class Discrete_intervals_list {
/**
Discrete_intervals_list objects are used to remember the
intervals of autoincrement values that have been used by the
current INSERT statement, so that the values can be written to the
binary log. However, the binary log can currently only store the
beginning of the first interval (because WL#3404 is not yet
implemented). Hence, it is currently not necessary to store
anything else than the first interval, in the list. When WL#3404 is
implemented, we should change the '# define' below.
*/
#define DISCRETE_INTERVAL_LIST_HAS_MAX_ONE_ELEMENT 1
private:
/**
To avoid heap allocation in the common case when there is only one
interval in the list, we store the first interval here.
*/
Discrete_interval first_interval;
Discrete_interval *head;
Discrete_interval *tail;
/**
When many intervals are provided at the beginning of the execution of a
statement (in a replication slave or SET INSERT_ID), "current" points to
the interval being consumed by the thread now (so "current" goes from
"head" to "tail" then to NULL).
*/
Discrete_interval *current;
uint elements; ///< number of elements
void operator=(Discrete_intervals_list &); // prevent use of this
bool append(Discrete_interval *new_interval) {
if (unlikely(new_interval == NULL)) return true;
DBUG_PRINT("info", ("adding new auto_increment interval"));
if (head == NULL)
head = current = new_interval;
else
tail->next = new_interval;
tail = new_interval;
elements++;
return false;
}
void copy_shallow(const Discrete_intervals_list *other) {
const Discrete_interval *o_first_interval = &other->first_interval;
first_interval = other->first_interval;
head = other->head == o_first_interval ? &first_interval : other->head;
tail = other->tail == o_first_interval ? &first_interval : other->tail;
current =
other->current == o_first_interval ? &first_interval : other->current;
elements = other->elements;
}
Discrete_intervals_list(const Discrete_intervals_list &other) {
copy_shallow(&other);
}
public:
Discrete_intervals_list()
: head(NULL), tail(NULL), current(NULL), elements(0) {}
void empty() {
if (head) {
// first element, not on heap, should not be delete-d; start with next:
for (Discrete_interval *i = head->next; i;) {
#ifdef DISCRETE_INTERVAL_LIST_HAS_MAX_ONE_ELEMENT
DBUG_ASSERT(0);
#endif
Discrete_interval *next = i->next;
delete i;
i = next;
}
}
head = tail = current = NULL;
elements = 0;
}
void swap(Discrete_intervals_list *other) {
const Discrete_intervals_list tmp(*other);
other->copy_shallow(this);
copy_shallow(&tmp);
}
const Discrete_interval *get_next() {
const Discrete_interval *tmp = current;
if (current != NULL) current = current->next;
return tmp;
}
~Discrete_intervals_list() { empty(); }
/**
Appends an interval to the list.
@param start start of interval
@param val how many values it contains
@param incr what increment between each value
@retval true error
@retval false success
*/
bool append(ulonglong start, ulonglong val, ulonglong incr) {
// If there are no intervals, add one.
if (head == NULL) {
first_interval.replace(start, val, incr);
return append(&first_interval);
}
// If this interval can be merged with previous, do that.
if (tail->merge_if_contiguous(start, val, incr) == 0) return false;
// If this interval cannot be merged, append it.
#ifdef DISCRETE_INTERVAL_LIST_HAS_MAX_ONE_ELEMENT
/*
We cannot create yet another interval as we already contain one. This
situation can happen. Assume innodb_autoinc_lock_mode>=1 and
CREATE TABLE T(A INT AUTO_INCREMENT PRIMARY KEY) ENGINE=INNODB;
INSERT INTO T VALUES (NULL),(NULL),(1025),(NULL);
Then InnoDB will reserve [1,4] (because of 4 rows) then
[1026,1026]. Only the first interval is important for
statement-based binary logging as it tells the starting point. So we
ignore the second interval:
*/
return false;
#else
return append(new Discrete_interval(start, val, incr));
#endif
}
ulonglong minimum() const { return (head ? head->minimum() : 0); }
ulonglong maximum() const { return (head ? tail->maximum() : 0); }
uint nb_elements() const { return elements; }
};
#endif /* DISCRETE_INTERVAL_INCLUDED */