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mariadb/sql/sql_string.h
Alexander Barkov e013bf9f0e The bug 
MDEV-4489 "Replication of big5, cp932, gbk, sjis strings makes wrong values on slave"
has been fixed.

Problem:
String constants of some Asian charsets (big5,cp932,gbk,sjis)
can have backslash '\' (0x5C) in the second byte of multi-byte characters.
Replicating of such constants using the standard '\'-escaping is dangerous.
Therefore, constants of these charsets are replicated using hex notation:
INSERT INTO t1 (a) VALUES (0x815C);

However, 0xHHHH constants do not work well in some cases,
because they can behave as strings and as numbers, depending on context
(for example, depending on the data type of the column in an INSERT statement).

This SQL script was not replicated correctly with statement-based replication:

SET NAMES gbk;
PREPARE STMT FROM 'INSERT INTO t1 (a) VALUES (?)';
SET @a = '1';
EXECUTE STMT USING @a;

The INSERT statement was replicated as:
INSERT INTO t1 (a) VALUES (0x31);

'1' was correctly converted to the number 1 on master.
But the 0x31 constant was treated as number 49 on slave.

Fix:

1. Binary log now uses X'HHHH' instead of 0xHHHH constants.
2. The X'HHHH' constants now work always as strings, in all contexts.
This is the SQL standard compliant behaviour.

After the fix, the above statement is replicated as:
INSERT INTO t1 (a) VALUES (X'31');
X'31' is treated as string '1' on slave, and is correctly converted to 1.


modified:
  @ mysql-test/r/ctype_cp932_binlog_stm.result
  @ mysql-test/r/select.result
  @ mysql-test/r/select_jcl6.result
  @ mysql-test/r/select_pkeycache.result
  @ mysql-test/r/user_var-binlog.result
  @ mysql-test/r/varbinary.result
  @ mysql-test/suite/binlog/r/binlog_stm_ctype_ucs.result
  @ mysql-test/suite/binlog/r/binlog_stm_mix_innodb_myisam.result
  @ mysql-test/suite/rpl/r/rpl_charset_sjis.result
  @ mysql-test/suite/rpl/r/rpl_mdev382.result
  @ mysql-test/suite/rpl/t/rpl_charset_sjis.test
  @ mysql-test/t/ctype_cp932_binlog_stm.test
  @ mysql-test/t/select.test
  @ mysql-test/t/varbinary.test
    Adding and updating tests

  @ sql/item.cc
  @ sql/item.h
  @ sql/sql_yacc.yy
  @ sql/sql_lex.cc
    Splitting the implementations of X'HH' and 0xHH constants into two
    separate classes. Fixing the parser to distinguish the two syntaxes.

  @ sql/log_event.cc
    Using X'HH' instead of 0xHH for binary logging for string constants
    of the "dangerous" charsets.

  @ sql/sql_string.h
    Adding a helped method String::append_hex().
2013-05-08 13:36:17 +04:00

507 lines
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#ifndef SQL_STRING_INCLUDED
#define SQL_STRING_INCLUDED
/*
Copyright (c) 2000, 2012, Oracle and/or its affiliates.
Copyright (c) 2008, 2011, Monty Program Ab
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
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 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 */
/* This file is originally from the mysql distribution. Coded by monty */
#ifdef USE_PRAGMA_INTERFACE
#pragma interface /* gcc class implementation */
#endif
#include "m_ctype.h" /* my_charset_bin */
#include "my_sys.h" /* alloc_root, my_free, my_realloc */
#include "m_string.h" /* TRASH */
class String;
typedef struct st_io_cache IO_CACHE;
typedef struct st_mem_root MEM_ROOT;
int sortcmp(const String *a,const String *b, CHARSET_INFO *cs);
String *copy_if_not_alloced(String *a,String *b,uint32 arg_length);
uint32 copy_and_convert(char *to, uint32 to_length, CHARSET_INFO *to_cs,
const char *from, uint32 from_length,
CHARSET_INFO *from_cs, uint *errors);
uint32 well_formed_copy_nchars(CHARSET_INFO *to_cs,
char *to, uint to_length,
CHARSET_INFO *from_cs,
const char *from, uint from_length,
uint nchars,
const char **well_formed_error_pos,
const char **cannot_convert_error_pos,
const char **from_end_pos);
size_t my_copy_with_hex_escaping(CHARSET_INFO *cs,
char *dst, size_t dstlen,
const char *src, size_t srclen);
uint convert_to_printable(char *to, size_t to_len,
const char *from, size_t from_len,
CHARSET_INFO *from_cs, size_t nbytes= 0);
class String
{
char *Ptr;
uint32 str_length,Alloced_length, extra_alloc;
bool alloced;
CHARSET_INFO *str_charset;
public:
String()
{
Ptr=0; str_length=Alloced_length=extra_alloc=0; alloced=0;
str_charset= &my_charset_bin;
}
String(uint32 length_arg)
{
alloced=0; Alloced_length= extra_alloc= 0; (void) real_alloc(length_arg);
str_charset= &my_charset_bin;
}
String(const char *str, CHARSET_INFO *cs)
{
Ptr=(char*) str; str_length= (uint32) strlen(str);
Alloced_length= extra_alloc= 0; alloced=0;
str_charset=cs;
}
/*
NOTE: If one intend to use the c_ptr() method, the following two
contructors need the size of memory for STR to be at least LEN+1 (to make
room for zero termination).
*/
String(const char *str,uint32 len, CHARSET_INFO *cs)
{
Ptr=(char*) str; str_length=len; Alloced_length= extra_alloc=0; alloced=0;
str_charset=cs;
}
String(char *str,uint32 len, CHARSET_INFO *cs)
{
Ptr=(char*) str; Alloced_length=str_length=len; extra_alloc= 0; alloced=0;
str_charset=cs;
}
String(const String &str)
{
Ptr=str.Ptr ; str_length=str.str_length ;
Alloced_length=str.Alloced_length; extra_alloc= 0; alloced=0;
str_charset=str.str_charset;
}
static void *operator new(size_t size, MEM_ROOT *mem_root) throw ()
{ return (void*) alloc_root(mem_root, (uint) size); }
static void operator delete(void *ptr_arg, size_t size)
{
(void) ptr_arg;
(void) size;
TRASH(ptr_arg, size);
}
static void operator delete(void *, MEM_ROOT *)
{ /* never called */ }
~String() { free(); }
inline void set_charset(CHARSET_INFO *charset_arg)
{ str_charset= charset_arg; }
inline CHARSET_INFO *charset() const { return str_charset; }
inline uint32 length() const { return str_length;}
inline uint32 alloced_length() const { return Alloced_length;}
inline uint32 extra_allocation() const { return extra_alloc;}
inline char& operator [] (uint32 i) const { return Ptr[i]; }
inline void length(uint32 len) { str_length=len ; }
inline void extra_allocation(uint32 len) { extra_alloc= len; }
inline bool is_empty() const { return (str_length == 0); }
inline void mark_as_const() { Alloced_length= 0;}
inline const char *ptr() const { return Ptr; }
inline char *c_ptr()
{
DBUG_ASSERT(!alloced || !Ptr || !Alloced_length ||
(Alloced_length >= (str_length + 1)));
if (!Ptr || Ptr[str_length]) /* Should be safe */
(void) realloc(str_length);
return Ptr;
}
inline char *c_ptr_quick()
{
if (Ptr && str_length < Alloced_length)
Ptr[str_length]=0;
return Ptr;
}
inline char *c_ptr_safe()
{
if (Ptr && str_length < Alloced_length)
Ptr[str_length]=0;
else
(void) realloc(str_length);
return Ptr;
}
LEX_STRING lex_string() const
{
LEX_STRING lex_string = { (char*) ptr(), length() };
return lex_string;
}
void set(String &str,uint32 offset,uint32 arg_length)
{
DBUG_ASSERT(&str != this);
free();
Ptr=(char*) str.ptr()+offset; str_length=arg_length;
if (str.Alloced_length)
Alloced_length=str.Alloced_length-offset;
str_charset=str.str_charset;
}
/**
Points the internal buffer to the supplied one. The old buffer is freed.
@param str Pointer to the new buffer.
@param arg_length Length of the new buffer in characters, excluding any
null character.
@param cs Character set to use for interpreting string data.
@note The new buffer will not be null terminated.
*/
inline void set(char *str,uint32 arg_length, CHARSET_INFO *cs)
{
free();
Ptr=(char*) str; str_length=Alloced_length=arg_length;
str_charset=cs;
}
inline void set(const char *str,uint32 arg_length, CHARSET_INFO *cs)
{
free();
Ptr=(char*) str; str_length=arg_length;
str_charset=cs;
}
bool set_ascii(const char *str, uint32 arg_length);
inline void set_quick(char *str,uint32 arg_length, CHARSET_INFO *cs)
{
if (!alloced)
{
Ptr=(char*) str; str_length=Alloced_length=arg_length;
}
str_charset=cs;
}
bool set_int(longlong num, bool unsigned_flag, CHARSET_INFO *cs);
bool set(longlong num, CHARSET_INFO *cs)
{ return set_int(num, false, cs); }
bool set(ulonglong num, CHARSET_INFO *cs)
{ return set_int((longlong)num, true, cs); }
bool set_real(double num,uint decimals, CHARSET_INFO *cs);
/* Move handling of buffer from some other object to String */
void reassociate(char *ptr, uint32 length, uint32 alloced_length,
CHARSET_INFO *cs)
{
free();
Ptr= ptr;
str_length= length;
Alloced_length= alloced_length;
str_charset= cs;
alloced= ptr != 0;
}
/*
PMG 2004.11.12
This is a method that works the same as perl's "chop". It simply
drops the last character of a string. This is useful in the case
of the federated storage handler where I'm building a unknown
number, list of values and fields to be used in a sql insert
statement to be run on the remote server, and have a comma after each.
When the list is complete, I "chop" off the trailing comma
ex.
String stringobj;
stringobj.append("VALUES ('foo', 'fi', 'fo',");
stringobj.chop();
stringobj.append(")");
In this case, the value of string was:
VALUES ('foo', 'fi', 'fo',
VALUES ('foo', 'fi', 'fo'
VALUES ('foo', 'fi', 'fo')
*/
inline void chop()
{
Ptr[str_length--]= '\0';
}
inline void free()
{
if (alloced)
{
alloced=0;
my_free(Ptr);
}
Alloced_length= extra_alloc= 0;
Ptr=0;
str_length=0; /* Safety */
}
inline bool alloc(uint32 arg_length)
{
if (arg_length < Alloced_length)
return 0;
return real_alloc(arg_length);
}
bool real_alloc(uint32 arg_length); // Empties old string
bool realloc_raw(uint32 arg_length);
bool realloc(uint32 arg_length)
{
if (realloc_raw(arg_length))
return TRUE;
Ptr[arg_length]=0; // This make other funcs shorter
return FALSE;
}
bool realloc_with_extra(uint32 arg_length)
{
if (extra_alloc < 4096)
extra_alloc= extra_alloc*2+128;
if (realloc_raw(arg_length + extra_alloc))
return TRUE;
Ptr[arg_length]=0; // This make other funcs shorter
return FALSE;
}
bool realloc_with_extra_if_needed(uint32 arg_length)
{
if (arg_length < Alloced_length)
{
Ptr[arg_length]=0; // behave as if realloc was called.
return 0;
}
return realloc_with_extra(arg_length);
}
// Shrink the buffer, but only if it is allocated on the heap.
inline void shrink(uint32 arg_length)
{
if (!is_alloced())
return;
if (ALIGN_SIZE(arg_length+1) < Alloced_length)
{
char *new_ptr;
if (!(new_ptr=(char*) my_realloc(Ptr,arg_length,MYF(0))))
{
Alloced_length = 0;
real_alloc(arg_length);
}
else
{
Ptr=new_ptr;
Alloced_length=arg_length;
}
}
}
bool is_alloced() const { return alloced; }
inline String& operator = (const String &s)
{
if (&s != this)
{
/*
It is forbidden to do assignments like
some_string = substring_of_that_string
*/
DBUG_ASSERT(!s.uses_buffer_owned_by(this));
free();
Ptr=s.Ptr ; str_length=s.str_length ; Alloced_length=s.Alloced_length;
}
return *this;
}
bool copy(); // Alloc string if not alloced
bool copy(const String &s); // Allocate new string
bool copy(const char *s,uint32 arg_length, CHARSET_INFO *cs); // Allocate new string
static bool needs_conversion(uint32 arg_length,
CHARSET_INFO *cs_from, CHARSET_INFO *cs_to,
uint32 *offset);
bool copy_aligned(const char *s, uint32 arg_length, uint32 offset,
CHARSET_INFO *cs);
bool set_or_copy_aligned(const char *s, uint32 arg_length, CHARSET_INFO *cs);
bool copy(const char*s,uint32 arg_length, CHARSET_INFO *csfrom,
CHARSET_INFO *csto, uint *errors);
void move(String &s)
{
free();
Ptr=s.Ptr ; str_length=s.str_length ; Alloced_length=s.Alloced_length;
extra_alloc= s.extra_alloc;
alloced= s.alloced;
s.alloced= 0;
}
bool append(const String &s);
bool append(const char *s);
bool append(LEX_STRING *ls)
{
return append(ls->str, ls->length);
}
bool append(const char *s, uint32 arg_length);
bool append(const char *s, uint32 arg_length, CHARSET_INFO *cs);
bool append_ulonglong(ulonglong val);
bool append(IO_CACHE* file, uint32 arg_length);
bool append_with_prefill(const char *s, uint32 arg_length,
uint32 full_length, char fill_char);
int strstr(const String &search,uint32 offset=0); // Returns offset to substring or -1
int strrstr(const String &search,uint32 offset=0); // Returns offset to substring or -1
bool replace(uint32 offset,uint32 arg_length,const char *to,uint32 length);
bool replace(uint32 offset,uint32 arg_length,const String &to);
inline bool append(char chr)
{
if (str_length < Alloced_length)
{
Ptr[str_length++]=chr;
}
else
{
if (realloc_with_extra(str_length + 1))
return 1;
Ptr[str_length++]=chr;
}
return 0;
}
bool append_hex(const char *src, uint32 srclen)
{
for (const char *end= src + srclen ; src != end ; src++)
{
if (append(_dig_vec_lower[((uchar) *src) >> 4]) ||
append(_dig_vec_lower[((uchar) *src) & 0x0F]))
return true;
}
return false;
}
bool fill(uint32 max_length,char fill);
void strip_sp();
friend int sortcmp(const String *a,const String *b, CHARSET_INFO *cs);
friend int stringcmp(const String *a,const String *b);
friend String *copy_if_not_alloced(String *a,String *b,uint32 arg_length);
friend class Field;
uint32 numchars();
int charpos(longlong i,uint32 offset=0);
int reserve(uint32 space_needed)
{
return realloc(str_length + space_needed);
}
int reserve(uint32 space_needed, uint32 grow_by);
/*
The following append operations do NOT check alloced memory
q_*** methods writes values of parameters itself
qs_*** methods writes string representation of value
*/
void q_append(const char c)
{
Ptr[str_length++] = c;
}
void q_append(const uint32 n)
{
int4store(Ptr + str_length, n);
str_length += 4;
}
void q_append(double d)
{
float8store(Ptr + str_length, d);
str_length += 8;
}
void q_append(double *d)
{
float8store(Ptr + str_length, *d);
str_length += 8;
}
void q_append(const char *data, uint32 data_len)
{
memcpy(Ptr + str_length, data, data_len);
str_length += data_len;
}
void write_at_position(int position, uint32 value)
{
int4store(Ptr + position,value);
}
void qs_append(const char *str)
{
qs_append(str, (uint32)strlen(str));
}
void qs_append(const char *str, uint32 len);
void qs_append(double d);
void qs_append(double *d);
inline void qs_append(const char c)
{
Ptr[str_length]= c;
str_length++;
}
void qs_append(int i);
void qs_append(uint i)
{
qs_append((ulonglong)i);
}
void qs_append(ulong i)
{
qs_append((ulonglong)i);
}
void qs_append(ulonglong i);
/* Inline (general) functions used by the protocol functions */
inline char *prep_append(uint32 arg_length, uint32 step_alloc)
{
uint32 new_length= arg_length + str_length;
if (new_length > Alloced_length)
{
if (realloc(new_length + step_alloc))
return 0;
}
uint32 old_length= str_length;
str_length+= arg_length;
return Ptr+ old_length; /* Area to use */
}
inline bool append(const char *s, uint32 arg_length, uint32 step_alloc)
{
uint32 new_length= arg_length + str_length;
if (new_length > Alloced_length && realloc(new_length + step_alloc))
return TRUE;
memcpy(Ptr+str_length, s, arg_length);
str_length+= arg_length;
return FALSE;
}
void print(String *print);
void append_for_single_quote(const char *st, uint len);
/* Swap two string objects. Efficient way to exchange data without memcpy. */
void swap(String &s);
inline bool uses_buffer_owned_by(const String *s) const
{
return (s->alloced && Ptr >= s->Ptr && Ptr < s->Ptr + s->str_length);
}
bool is_ascii() const
{
if (length() == 0)
return TRUE;
if (charset()->mbminlen > 1)
return FALSE;
for (const char *c= ptr(), *end= c + length(); c < end; c++)
{
if (!my_isascii(*c))
return FALSE;
}
return TRUE;
}
};
static inline bool check_if_only_end_space(CHARSET_INFO *cs,
const char *str,
const char *end)
{
return str+ cs->cset->scan(cs, str, end, MY_SEQ_SPACES) == end;
}
#endif /* SQL_STRING_INCLUDED */
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