/* Copyright (c) 2000, 2015, 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 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 */ /** @file @brief This file defines all string functions @warning Some string functions don't always put and end-null on a String. (This shouldn't be needed) */ /* May include caustic 3rd-party defs. Use early, so it can override nothing. */ #include <cinttypes> #include "sha2.h" #include "my_global.h" // HAVE_* #include "sql_priv.h" /* It is necessary to include set_var.h instead of item.h because there are dependencies on include order for set_var.h and item.h. This will be resolved later. */ #include "sql_class.h" // set_var.h: THD #include "set_var.h" #include "mysqld.h" // LOCK_uuid_generator #include "sql_acl.h" // SUPER_ACL #include "des_key_file.h" // st_des_keyschedule, st_des_keyblock #include "password.h" // my_make_scrambled_password, // my_make_scrambled_password_323 #include "crypt_genhash_impl.h" #include <m_ctype.h> #include <base64.h> #include "my_md5.h" #include "sha1.h" #include "my_aes.h" #include <zlib.h> #include "my_rnd.h" C_MODE_START #include "../mysys/my_static.h" // For soundex_map C_MODE_END #include <openssl/des.h> using std::min; using std::max; /* For the Items which have only val_str_ascii() method and don't have their own "native" val_str(), we provide a "wrapper" method to convert from ASCII to Item character set when it's necessary. Conversion happens only in case of "tricky" Item character set (e.g. UCS2). Normally conversion does not happen, and val_str_ascii() is immediately returned instead. */ String *Item_str_func::val_str_from_val_str_ascii(String *str, String *str2) { DBUG_ASSERT(fixed == 1); if (!(collation.collation->state & MY_CS_NONASCII)) { String *res= val_str_ascii(str); if (res) res->set_charset(collation.collation); return res; } DBUG_ASSERT(str != str2); uint errors; String *res= val_str_ascii(str); if (!res) return 0; if ((null_value= str2->copy(res->ptr(), res->length(), &my_charset_latin1, collation.collation, &errors))) return 0; return str2; } bool Item_str_func::fix_fields(THD *thd, Item **ref) { bool res= Item_func::fix_fields(thd, ref); /* In Item_str_func::check_well_formed_result() we may set null_value flag on the same condition as in test() below. */ maybe_null= (maybe_null || thd->is_strict_mode()); return res; } my_decimal *Item_str_func::val_decimal(my_decimal *decimal_value) { DBUG_ASSERT(fixed == 1); char buff[64]; String *res, tmp(buff,sizeof(buff), &my_charset_bin); res= val_str(&tmp); if (!res) return 0; (void)str2my_decimal(E_DEC_FATAL_ERROR, (char*) res->ptr(), res->length(), res->charset(), decimal_value); return decimal_value; } double Item_str_func::val_real() { DBUG_ASSERT(fixed == 1); int err_not_used; char *end_not_used, buff[64]; String *res, tmp(buff,sizeof(buff), &my_charset_bin); res= val_str(&tmp); return res ? my_strntod(res->charset(), (char*) res->ptr(), res->length(), &end_not_used, &err_not_used) : 0.0; } longlong Item_str_func::val_int() { DBUG_ASSERT(fixed == 1); int err; char buff[22]; String *res, tmp(buff,sizeof(buff), &my_charset_bin); res= val_str(&tmp); return (res ? my_strntoll(res->charset(), res->ptr(), res->length(), 10, NULL, &err) : (longlong) 0); } String *Item_func_md5::val_str_ascii(String *str) { DBUG_ASSERT(fixed == 1); String * sptr= args[0]->val_str(str); str->set_charset(&my_charset_bin); if (sptr) { uchar digest[MD5_HASH_SIZE]; null_value=0; compute_md5_hash((char *) digest, (const char *) sptr->ptr(), sptr->length()); if (str->alloc(32)) // Ensure that memory is free { null_value=1; return 0; } array_to_hex((char *) str->ptr(), digest, MD5_HASH_SIZE); str->length((uint) 32); return str; } null_value=1; return 0; } /* The MD5()/SHA() functions treat their parameter as being a case sensitive. Thus we set binary collation on it so different instances of MD5() will be compared properly. */ static CHARSET_INFO *get_checksum_charset(const char *csname) { CHARSET_INFO *cs= get_charset_by_csname(csname, MY_CS_BINSORT, MYF(0)); if (!cs) { // Charset has no binary collation: use my_charset_bin. cs= &my_charset_bin; } return cs; } void Item_func_md5::fix_length_and_dec() { CHARSET_INFO *cs= get_checksum_charset(args[0]->collation.collation->csname); args[0]->collation.set(cs, DERIVATION_COERCIBLE); fix_length_and_charset(32, default_charset()); } String *Item_func_sha::val_str_ascii(String *str) { DBUG_ASSERT(fixed == 1); String * sptr= args[0]->val_str(str); str->set_charset(&my_charset_bin); if (sptr) /* If we got value different from NULL */ { /* Temporary buffer to store 160bit digest */ uint8 digest[SHA1_HASH_SIZE]; compute_sha1_hash(digest, (const char *) sptr->ptr(), sptr->length()); /* Ensure that memory is free */ if (!(str->alloc(SHA1_HASH_SIZE * 2))) { array_to_hex((char *) str->ptr(), digest, SHA1_HASH_SIZE); str->length((uint) SHA1_HASH_SIZE*2); null_value=0; return str; } } null_value=1; return 0; } void Item_func_sha::fix_length_and_dec() { CHARSET_INFO *cs= get_checksum_charset(args[0]->collation.collation->csname); args[0]->collation.set(cs, DERIVATION_COERCIBLE); // size of hex representation of hash fix_length_and_charset(SHA1_HASH_SIZE * 2, default_charset()); } String *Item_func_sha2::val_str_ascii(String *str) { DBUG_ASSERT(fixed == 1); #if defined(HAVE_OPENSSL) && !defined(EMBEDDED_LIBRARY) unsigned char digest_buf[SHA512_DIGEST_LENGTH]; String *input_string; unsigned char *input_ptr; size_t input_len; uint digest_length= 0; str->set_charset(&my_charset_bin); input_string= args[0]->val_str(str); if (input_string == NULL) { null_value= TRUE; return (String *) NULL; } null_value= args[0]->null_value; if (null_value) return (String *) NULL; input_ptr= (unsigned char *) input_string->ptr(); input_len= input_string->length(); switch ((uint) args[1]->val_int()) { #ifndef OPENSSL_NO_SHA512 case 512: digest_length= SHA512_DIGEST_LENGTH; (void) SHA512(input_ptr, input_len, digest_buf); break; case 384: digest_length= SHA384_DIGEST_LENGTH; (void) SHA384(input_ptr, input_len, digest_buf); break; #endif #ifndef OPENSSL_NO_SHA256 case 224: digest_length= SHA224_DIGEST_LENGTH; (void) SHA224(input_ptr, input_len, digest_buf); break; case 256: case 0: // SHA-256 is the default digest_length= SHA256_DIGEST_LENGTH; (void) SHA256(input_ptr, input_len, digest_buf); break; #endif default: if (!args[1]->const_item()) push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WRONG_PARAMETERS_TO_NATIVE_FCT, ER(ER_WRONG_PARAMETERS_TO_NATIVE_FCT), "sha2"); null_value= TRUE; return NULL; } /* Since we're subverting the usual String methods, we must make sure that the destination has space for the bytes we're about to write. */ str->realloc((uint) digest_length*2 + 1); /* Each byte as two nybbles */ /* Convert the large number to a string-hex representation. */ array_to_hex((char *) str->ptr(), digest_buf, digest_length); /* We poked raw bytes in. We must inform the the String of its length. */ str->length((uint) digest_length*2); /* Each byte as two nybbles */ null_value= FALSE; return str; #else push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_FEATURE_DISABLED, ER(ER_FEATURE_DISABLED), "sha2", "--with-ssl"); null_value= TRUE; return (String *) NULL; #endif /* defined(HAVE_OPENSSL) && !defined(EMBEDDED_LIBRARY) */ } void Item_func_sha2::fix_length_and_dec() { maybe_null = 1; max_length = 0; #if defined(HAVE_OPENSSL) && !defined(EMBEDDED_LIBRARY) int sha_variant= args[1]->const_item() ? args[1]->val_int() : 512; switch (sha_variant) { #ifndef OPENSSL_NO_SHA512 case 512: fix_length_and_charset(SHA512_DIGEST_LENGTH * 2, default_charset()); break; case 384: fix_length_and_charset(SHA384_DIGEST_LENGTH * 2, default_charset()); break; #endif #ifndef OPENSSL_NO_SHA256 case 256: case 0: // SHA-256 is the default fix_length_and_charset(SHA256_DIGEST_LENGTH * 2, default_charset()); break; case 224: fix_length_and_charset(SHA224_DIGEST_LENGTH * 2, default_charset()); break; #endif default: push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WRONG_PARAMETERS_TO_NATIVE_FCT, ER(ER_WRONG_PARAMETERS_TO_NATIVE_FCT), "sha2"); } CHARSET_INFO *cs= get_checksum_charset(args[0]->collation.collation->csname); args[0]->collation.set(cs, DERIVATION_COERCIBLE); #else push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_FEATURE_DISABLED, ER(ER_FEATURE_DISABLED), "sha2", "--with-ssl"); #endif /* defined(HAVE_OPENSSL) && !defined(EMBEDDED_LIBRARY) */ } /* Implementation of AES encryption routines */ /** helper class to process an IV argument to aes_encrypt/aes_decrypt */ class iv_argument { char iv_buff[MY_AES_IV_SIZE + 1]; // +1 to cater for the terminating NULL String tmp_iv_value; public: iv_argument() : tmp_iv_value(iv_buff, sizeof(iv_buff), system_charset_info) {} /** Validate the arguments and retrieve the IV value. Processes a 3d optional IV argument to an Item_func function. Contains all the necessary stack buffers etc. @param aes_opmode the encryption mode @param arg_count number of parameters passed to the function @param args array of arguments passed to the function @param func_name the name of the function (for errors) @param thd the current thread (for errors) @param [out] error_generated set to true if error was generated. @return a pointer to the retrived validated IV or NULL */ const unsigned char *retrieve_iv_ptr(enum my_aes_opmode aes_opmode, uint arg_count, Item **args, const char *func_name, THD *thd, my_bool *error_generated) { const unsigned char *iv_str= NULL; *error_generated= FALSE; if (my_aes_needs_iv(aes_opmode)) { /* we only enforce the need for IV */ if (arg_count == 3) { String *iv= args[2]->val_str(&tmp_iv_value); if (!iv || iv->length() < MY_AES_IV_SIZE) { my_error(ER_AES_INVALID_IV, MYF(0), func_name, (long long) MY_AES_IV_SIZE); *error_generated= TRUE; return NULL; } iv_str= (unsigned char *) iv->ptr(); } else { my_error(ER_WRONG_PARAMCOUNT_TO_NATIVE_FCT, MYF(0), func_name); *error_generated= TRUE; return NULL; } } else { if (arg_count == 3) { push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, WARN_OPTION_IGNORED, ER(WARN_OPTION_IGNORED), "IV"); } } return iv_str; } }; String *Item_func_aes_encrypt::val_str(String *str) { DBUG_ASSERT(fixed == 1); char key_buff[80]; String tmp_key_value(key_buff, sizeof(key_buff), system_charset_info); String *sptr, *key; int aes_length; THD *thd= current_thd; ulong aes_opmode; iv_argument iv_arg; DBUG_ENTER("Item_func_aes_decrypt::val_str"); sptr= args[0]->val_str(str); // String to encrypt key= args[1]->val_str(&tmp_key_value); // key aes_opmode= thd->variables.my_aes_mode; DBUG_ASSERT(aes_opmode <= MY_AES_END); if (sptr && key) // we need both arguments to be not NULL { const unsigned char *iv_str= iv_arg.retrieve_iv_ptr((enum my_aes_opmode) aes_opmode, arg_count, args, func_name(), thd, &null_value); if (null_value) DBUG_RETURN(NULL); // Calculate result length aes_length= my_aes_get_size(sptr->length(), (enum my_aes_opmode) aes_opmode); str_value.set_charset(&my_charset_bin); if (!str_value.alloc(aes_length)) // Ensure that memory is free { // finally encrypt directly to allocated buffer. if (my_aes_encrypt((unsigned char *) sptr->ptr(), sptr->length(), (unsigned char *) str_value.ptr(), (unsigned char *) key->ptr(), key->length(), (enum my_aes_opmode) aes_opmode, iv_str) == aes_length) { // We got the expected result length str_value.length((uint) aes_length); DBUG_RETURN(&str_value); } } } null_value=1; DBUG_RETURN(0); } void Item_func_aes_encrypt::fix_length_and_dec() { ulong aes_opmode= current_thd->variables.my_aes_mode; DBUG_ASSERT(aes_opmode <= MY_AES_END); max_length=my_aes_get_size(args[0]->max_length, (enum my_aes_opmode) aes_opmode); } String *Item_func_aes_decrypt::val_str(String *str) { DBUG_ASSERT(fixed == 1); char key_buff[80]; String tmp_key_value(key_buff, sizeof(key_buff), system_charset_info); String *sptr, *key; THD *thd= current_thd; ulong aes_opmode; iv_argument iv_arg; DBUG_ENTER("Item_func_aes_decrypt::val_str"); sptr= args[0]->val_str(str); // String to decrypt key= args[1]->val_str(&tmp_key_value); // Key aes_opmode= thd->variables.my_aes_mode; DBUG_ASSERT(aes_opmode <= MY_AES_END); if (sptr && key) // Need to have both arguments not NULL { const unsigned char *iv_str= iv_arg.retrieve_iv_ptr((enum my_aes_opmode) aes_opmode, arg_count, args, func_name(), thd, &null_value); if (null_value) DBUG_RETURN(NULL); str_value.set_charset(&my_charset_bin); if (!str_value.alloc(sptr->length())) // Ensure that memory is free { // finally decrypt directly to allocated buffer. int length; length= my_aes_decrypt((unsigned char *) sptr->ptr(), sptr->length(), (unsigned char *) str_value.ptr(), (unsigned char *) key->ptr(), key->length(), (enum my_aes_opmode) aes_opmode, iv_str); if (length >= 0) // if we got correct data data { str_value.length((uint) length); DBUG_RETURN(&str_value); } } } // Bad parameters. No memory or bad data will all go here null_value=1; DBUG_RETURN(0); } void Item_func_aes_decrypt::fix_length_and_dec() { max_length=args[0]->max_length; maybe_null= 1; } /* Artificially limited to 1k to avoid excessive memory usage. The SSL lib supports up to INT_MAX. */ const longlong Item_func_random_bytes::MAX_RANDOM_BYTES_BUFFER= 1024; void Item_func_random_bytes::fix_length_and_dec() { collation.set(&my_charset_bin); max_length= MAX_RANDOM_BYTES_BUFFER; } String *Item_func_random_bytes::val_str(String *a) { DBUG_ASSERT(fixed == 1); longlong n_bytes= args[0]->val_int(); null_value= args[0]->null_value; if (null_value) return NULL; str_value.set_charset(&my_charset_bin); if (n_bytes <= 0 || n_bytes > MAX_RANDOM_BYTES_BUFFER) { my_error(ER_DATA_OUT_OF_RANGE, MYF(0), "length", func_name()); null_value= TRUE; return NULL; } if (str_value.alloc(n_bytes)) { my_error(ER_OUTOFMEMORY, n_bytes); null_value= TRUE; return NULL; } str_value.set_charset(&my_charset_bin); if (my_rand_buffer((unsigned char *) str_value.ptr(), n_bytes)) { my_error(ER_ERROR_WHEN_EXECUTING_COMMAND, MYF(0), func_name(), "SSL library can't generate random bytes"); null_value= TRUE; return NULL; } str_value.length(n_bytes); return &str_value; } void Item_func_to_base64::fix_length_and_dec() { maybe_null= args[0]->maybe_null; collation.set(default_charset(), DERIVATION_COERCIBLE, MY_REPERTOIRE_ASCII); if (args[0]->max_length > (uint) base64_encode_max_arg_length()) { maybe_null= 1; fix_char_length_ulonglong((ulonglong) base64_encode_max_arg_length()); } else { uint64 length= base64_needed_encoded_length((uint64) args[0]->max_length); DBUG_ASSERT(length > 0); fix_char_length_ulonglong((ulonglong) length - 1); } } String *Item_func_to_base64::val_str_ascii(String *str) { String *res= args[0]->val_str(str); bool too_long= false; uint64 length; if (!res || res->length() > (uint) base64_encode_max_arg_length() || (too_long= ((uint64) (length= base64_needed_encoded_length((uint64) res->length())) > current_thd->variables.max_allowed_packet)) || tmp_value.alloc((uint) length)) { null_value= 1; // NULL input, too long input, or OOM. if (too_long) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); } return 0; } base64_encode(res->ptr(), (int) res->length(), (char*) tmp_value.ptr()); DBUG_ASSERT(length > 0); tmp_value.length((uint) length - 1); // Without trailing '\0' null_value= 0; return &tmp_value; } void Item_func_from_base64::fix_length_and_dec() { if (args[0]->max_length > (uint) base64_decode_max_arg_length()) { fix_char_length_ulonglong((ulonglong) base64_decode_max_arg_length()); } else { uint64 length= base64_needed_decoded_length((uint64) args[0]->max_length); fix_char_length_ulonglong((ulonglong) length); } maybe_null= 1; // Can be NULL, e.g. in case of badly formed input string } String *Item_func_from_base64::val_str(String *str) { String *res= args[0]->val_str_ascii(str); bool too_long= false; int64 length; const char *end_ptr; if (!res || res->length() > (uint) base64_decode_max_arg_length() || (too_long= ((uint64) (length= base64_needed_decoded_length((uint64) res->length())) > current_thd->variables.max_allowed_packet)) || tmp_value.alloc((uint) length) || (length= base64_decode(res->ptr(), (uint64) res->length(), (char *) tmp_value.ptr(), &end_ptr, 0)) < 0 || end_ptr < res->ptr() + res->length()) { null_value= 1; // NULL input, too long input, OOM, or badly formed input if (too_long) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); } return 0; } tmp_value.length((uint) length); null_value= 0; return &tmp_value; } /** Concatenate args with the following premises: If only one arg (which is ok), return value of arg; Don't reallocate val_str() if not absolute necessary. */ String *Item_func_concat::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res,*res2,*use_as_buff; uint i; bool is_const= 0; null_value=0; if (!(res=args[0]->val_str(str))) goto null; use_as_buff= &tmp_value; /* Item_subselect in --ps-protocol mode will state it as a non-const */ is_const= args[0]->const_item() || !args[0]->used_tables(); for (i=1 ; i < arg_count ; i++) { if (res->length() == 0) { if (!(res=args[i]->val_str(str))) goto null; /* CONCAT accumulates its result in the result of its the first non-empty argument. Because of this we need is_const to be evaluated only for it. */ is_const= args[i]->const_item() || !args[i]->used_tables(); } else { if (!(res2=args[i]->val_str(use_as_buff))) goto null; if (res2->length() == 0) continue; if (res->length()+res2->length() > current_thd->variables.max_allowed_packet) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); goto null; } if (!is_const && res->alloced_length() >= res->length()+res2->length()) { // Use old buffer res->append(*res2); } else if (str->alloced_length() >= res->length()+res2->length()) { if (str->ptr() == res2->ptr()) str->replace(0,0,*res); else { // If res2 is a substring of str, then clone it first. char buff[STRING_BUFFER_USUAL_SIZE]; String res2_clone(buff, sizeof(buff), system_charset_info); if (res2->uses_buffer_owned_by(str)) { if (res2_clone.copy(*res2)) goto null; res2= &res2_clone; } str->copy(*res); str->append(*res2); } res= str; use_as_buff= &tmp_value; } else if (res == &tmp_value) { if (res->append(*res2)) // Must be a blob goto null; } else if (res2 == &tmp_value) { // This can happend only 1 time if (tmp_value.replace(0,0,*res)) goto null; res= &tmp_value; use_as_buff=str; // Put next arg here } else if (tmp_value.is_alloced() && res2->ptr() >= tmp_value.ptr() && res2->ptr() < tmp_value.ptr() + tmp_value.alloced_length()) { /* This happens really seldom: In this case res2 is sub string of tmp_value. We will now work in place in tmp_value to set it to res | res2 */ /* Chop the last characters in tmp_value that isn't in res2 */ tmp_value.length((uint32) (res2->ptr() - tmp_value.ptr()) + res2->length()); /* Place res2 at start of tmp_value, remove chars before res2 */ if (tmp_value.replace(0,(uint32) (res2->ptr() - tmp_value.ptr()), *res)) goto null; res= &tmp_value; use_as_buff=str; // Put next arg here } else { // Two big const strings /* NOTE: We should be prudent in the initial allocation unit -- the size of the arguments is a function of data distribution, which can be any. Instead of overcommitting at the first row, we grow the allocated amount by the factor of 2. This ensures that no more than 25% of memory will be overcommitted on average. */ uint concat_len= res->length() + res2->length(); if (tmp_value.alloced_length() < concat_len) { if (tmp_value.alloced_length() == 0) { if (tmp_value.alloc(concat_len)) goto null; } else { uint new_len = max(tmp_value.alloced_length() * 2, concat_len); if (tmp_value.realloc(new_len)) goto null; } } if (tmp_value.copy(*res) || tmp_value.append(*res2)) goto null; res= &tmp_value; use_as_buff=str; } is_const= 0; } } res->set_charset(collation.collation); return res; null: null_value=1; return 0; } void Item_func_concat::fix_length_and_dec() { ulonglong char_length= 0; if (agg_arg_charsets_for_string_result(collation, args, arg_count)) return; for (uint i=0 ; i < arg_count ; i++) char_length+= args[i]->max_char_length(); fix_char_length_ulonglong(char_length); } /** @details Function des_encrypt() by tonu@spam.ee & monty Works only if compiled with OpenSSL library support. @return A binary string where first character is CHAR(128 | key-number). If one uses a string key key_number is 127. Encryption result is longer than original by formula: @code new_length= org_length + (8-(org_length % 8))+1 @endcode */ String *Item_func_des_encrypt::val_str(String *str) { DBUG_ASSERT(fixed == 1); #if defined(HAVE_OPENSSL) && !defined(EMBEDDED_LIBRARY) uint code= ER_WRONG_PARAMETERS_TO_PROCEDURE; DES_cblock ivec; struct st_des_keyblock keyblock; struct st_des_keyschedule keyschedule; const char *append_str="********"; uint key_number, res_length, tail; String *res= args[0]->val_str(str); if ((null_value= args[0]->null_value)) return 0; // ENCRYPT(NULL) == NULL if ((res_length=res->length()) == 0) return make_empty_result(); if (arg_count == 1) { /* Protect against someone doing FLUSH DES_KEY_FILE */ mysql_mutex_lock(&LOCK_des_key_file); keyschedule= des_keyschedule[key_number=des_default_key]; mysql_mutex_unlock(&LOCK_des_key_file); } else if (args[1]->result_type() == INT_RESULT) { key_number= (uint) args[1]->val_int(); if (key_number > 9) goto error; mysql_mutex_lock(&LOCK_des_key_file); keyschedule= des_keyschedule[key_number]; mysql_mutex_unlock(&LOCK_des_key_file); } else { String *keystr=args[1]->val_str(&tmp_value); if (!keystr) goto error; key_number=127; // User key string /* We make good 24-byte (168 bit) key from given plaintext key with MD5 */ memset(&ivec, 0, sizeof(ivec)); EVP_BytesToKey(EVP_des_ede3_cbc(),EVP_md5(),NULL, (uchar*) keystr->ptr(), (int) keystr->length(), #ifdef OPENSSL_IS_BORINGSSL 1, (uchar*) &keyblock,ivec.bytes); #else 1, (uchar*) &keyblock,ivec); #endif DES_set_key_unchecked(&keyblock.key1,&keyschedule.ks1); DES_set_key_unchecked(&keyblock.key2,&keyschedule.ks2); DES_set_key_unchecked(&keyblock.key3,&keyschedule.ks3); } /* The problem: DES algorithm requires original data to be in 8-bytes chunks. Missing bytes get filled with '*'s and result of encryption can be up to 8 bytes longer than original string. When decrypted, we do not know the size of original string :( We add one byte with value 0x1..0x8 as the last byte of the padded string marking change of string length. */ tail= 8 - (res_length % 8); // 1..8 marking extra length res_length+=tail; tmp_arg.realloc(res_length); tmp_arg.length(0); tmp_arg.append(res->ptr(), res->length()); code= ER_OUT_OF_RESOURCES; if (tmp_arg.append(append_str, tail) || tmp_value.alloc(res_length+1)) goto error; tmp_arg[res_length-1]=tail; // save extra length tmp_value.realloc(res_length+1); tmp_value.length(res_length+1); tmp_value.set_charset(&my_charset_bin); tmp_value[0]=(char) (128 | key_number); // Real encryption memset(&ivec, 0, sizeof(ivec)); DES_ede3_cbc_encrypt((const uchar*) (tmp_arg.ptr()), (uchar*) (tmp_value.ptr()+1), res_length, &keyschedule.ks1, &keyschedule.ks2, &keyschedule.ks3, &ivec, TRUE); return &tmp_value; error: push_warning_printf(current_thd,Sql_condition::WARN_LEVEL_WARN, code, ER(code), "des_encrypt"); #else push_warning_printf(current_thd,Sql_condition::WARN_LEVEL_WARN, ER_FEATURE_DISABLED, ER(ER_FEATURE_DISABLED), "des_encrypt", "--with-ssl"); #endif /* defined(HAVE_OPENSSL) && !defined(EMBEDDED_LIBRARY) */ null_value=1; return 0; } String *Item_func_des_decrypt::val_str(String *str) { DBUG_ASSERT(fixed == 1); #if defined(HAVE_OPENSSL) && !defined(EMBEDDED_LIBRARY) uint code= ER_WRONG_PARAMETERS_TO_PROCEDURE; DES_cblock ivec; struct st_des_keyblock keyblock; struct st_des_keyschedule keyschedule; String *res= args[0]->val_str(str); uint length,tail; if ((null_value= args[0]->null_value)) return 0; length= res->length(); if (length < 9 || (length % 8) != 1 || !((*res)[0] & 128)) return res; // Skip decryption if not encrypted if (arg_count == 1) // If automatic uncompression { uint key_number=(uint) (*res)[0] & 127; // Check if automatic key and that we have privilege to uncompress using it if (!(current_thd->security_ctx->master_access & SUPER_ACL) || key_number > 9) goto error; mysql_mutex_lock(&LOCK_des_key_file); keyschedule= des_keyschedule[key_number]; mysql_mutex_unlock(&LOCK_des_key_file); } else { // We make good 24-byte (168 bit) key from given plaintext key with MD5 String *keystr=args[1]->val_str(&tmp_value); if (!keystr) goto error; memset(&ivec, 0, sizeof(ivec)); EVP_BytesToKey(EVP_des_ede3_cbc(),EVP_md5(),NULL, (uchar*) keystr->ptr(),(int) keystr->length(), #ifdef OPENSSL_IS_BORINGSSL 1,(uchar*) &keyblock,ivec.bytes); #else 1,(uchar*) &keyblock,ivec); #endif // Here we set all 64-bit keys (56 effective) one by one DES_set_key_unchecked(&keyblock.key1,&keyschedule.ks1); DES_set_key_unchecked(&keyblock.key2,&keyschedule.ks2); DES_set_key_unchecked(&keyblock.key3,&keyschedule.ks3); } code= ER_OUT_OF_RESOURCES; if (tmp_value.alloc(length-1)) goto error; memset(&ivec, 0, sizeof(ivec)); DES_ede3_cbc_encrypt((const uchar*) res->ptr()+1, (uchar*) (tmp_value.ptr()), length-1, &keyschedule.ks1, &keyschedule.ks2, &keyschedule.ks3, &ivec, FALSE); /* Restore old length of key */ if ((tail=(uint) (uchar) tmp_value[length-2]) > 8) goto wrong_key; // Wrong key tmp_value.length(length-1-tail); tmp_value.set_charset(&my_charset_bin); return &tmp_value; error: push_warning_printf(current_thd,Sql_condition::WARN_LEVEL_WARN, code, ER(code), "des_decrypt"); wrong_key: #else push_warning_printf(current_thd,Sql_condition::WARN_LEVEL_WARN, ER_FEATURE_DISABLED, ER(ER_FEATURE_DISABLED), "des_decrypt", "--with-ssl"); #endif /* defined(HAVE_OPENSSL) && !defined(EMBEDDED_LIBRARY) */ null_value=1; return 0; } /** concat with separator. First arg is the separator concat_ws takes at least two arguments. */ String *Item_func_concat_ws::val_str(String *str) { DBUG_ASSERT(fixed == 1); char tmp_str_buff[10]; String tmp_sep_str(tmp_str_buff, sizeof(tmp_str_buff),default_charset_info), *sep_str, *res, *res2,*use_as_buff; uint i; bool is_const= 0; null_value=0; if (!(sep_str= args[0]->val_str(&tmp_sep_str))) goto null; use_as_buff= &tmp_value; str->length(0); // QQ; Should be removed res=str; // Skip until non-null argument is found. // If not, return the empty string for (i=1; i < arg_count; i++) if ((res= args[i]->val_str(str))) { is_const= args[i]->const_item() || !args[i]->used_tables(); break; } if (i == arg_count) return make_empty_result(); for (i++; i < arg_count ; i++) { if (!(res2= args[i]->val_str(use_as_buff))) continue; // Skip NULL if (res->length() + sep_str->length() + res2->length() > current_thd->variables.max_allowed_packet) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); goto null; } if (!is_const && res->alloced_length() >= res->length() + sep_str->length() + res2->length()) { // Use old buffer res->append(*sep_str); // res->length() > 0 always res->append(*res2); } else if (str->alloced_length() >= res->length() + sep_str->length() + res2->length()) { /* We have room in str; We can't get any errors here */ if (str->ptr() == res2->ptr()) { // This is quite uncommon! str->replace(0,0,*sep_str); str->replace(0,0,*res); } else { // If res2 is a substring of str, then clone it first. char buff[STRING_BUFFER_USUAL_SIZE]; String res2_clone(buff, sizeof(buff), system_charset_info); if (res2->uses_buffer_owned_by(str)) { if (res2_clone.copy(*res2)) goto null; res2= &res2_clone; } str->copy(*res); str->append(*sep_str); str->append(*res2); } res=str; use_as_buff= &tmp_value; } else if (res == &tmp_value) { if (res->append(*sep_str) || res->append(*res2)) goto null; // Must be a blob } else if (res2 == &tmp_value) { // This can happend only 1 time if (tmp_value.replace(0,0,*sep_str) || tmp_value.replace(0,0,*res)) goto null; res= &tmp_value; use_as_buff=str; // Put next arg here } else if (tmp_value.is_alloced() && res2->ptr() >= tmp_value.ptr() && res2->ptr() < tmp_value.ptr() + tmp_value.alloced_length()) { /* This happens really seldom: In this case res2 is sub string of tmp_value. We will now work in place in tmp_value to set it to res | sep_str | res2 */ /* Chop the last characters in tmp_value that isn't in res2 */ tmp_value.length((uint32) (res2->ptr() - tmp_value.ptr()) + res2->length()); /* Place res2 at start of tmp_value, remove chars before res2 */ if (tmp_value.replace(0,(uint32) (res2->ptr() - tmp_value.ptr()), *res) || tmp_value.replace(res->length(),0, *sep_str)) goto null; res= &tmp_value; use_as_buff=str; // Put next arg here } else { // Two big const strings /* NOTE: We should be prudent in the initial allocation unit -- the size of the arguments is a function of data distribution, which can be any. Instead of overcommitting at the first row, we grow the allocated amount by the factor of 2. This ensures that no more than 25% of memory will be overcommitted on average. */ uint concat_len= res->length() + sep_str->length() + res2->length(); if (tmp_value.alloced_length() < concat_len) { if (tmp_value.alloced_length() == 0) { if (tmp_value.alloc(concat_len)) goto null; } else { uint new_len = max(tmp_value.alloced_length() * 2, concat_len); if (tmp_value.realloc(new_len)) goto null; } } if (tmp_value.copy(*res) || tmp_value.append(*sep_str) || tmp_value.append(*res2)) goto null; res= &tmp_value; use_as_buff=str; } } res->set_charset(collation.collation); return res; null: null_value=1; return 0; } void Item_func_concat_ws::fix_length_and_dec() { ulonglong char_length; if (agg_arg_charsets_for_string_result(collation, args, arg_count)) return; /* arg_count cannot be less than 2, it is done on parser level in sql_yacc.yy so, (arg_count - 2) is safe here. */ char_length= (ulonglong) args[0]->max_char_length() * (arg_count - 2); for (uint i=1 ; i < arg_count ; i++) char_length+= args[i]->max_char_length(); fix_char_length_ulonglong(char_length); } String *Item_func_reverse::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res = args[0]->val_str(str); char *ptr, *end, *tmp; if ((null_value=args[0]->null_value)) return 0; /* An empty string is a special case as the string pointer may be null */ if (!res->length()) return make_empty_result(); if (tmp_value.alloced_length() < res->length() && tmp_value.realloc(res->length())) { null_value= 1; return 0; } tmp_value.length(res->length()); tmp_value.set_charset(res->charset()); ptr= (char *) res->ptr(); end= ptr + res->length(); tmp= (char *) tmp_value.ptr() + tmp_value.length(); #ifdef USE_MB if (use_mb(res->charset())) { register uint32 l; while (ptr < end) { if ((l= my_ismbchar(res->charset(),ptr,end))) { tmp-= l; DBUG_ASSERT(tmp >= tmp_value.ptr()); memcpy(tmp,ptr,l); ptr+= l; } else *--tmp= *ptr++; } } else #endif /* USE_MB */ { while (ptr < end) *--tmp= *ptr++; } return &tmp_value; } void Item_func_reverse::fix_length_and_dec() { agg_arg_charsets_for_string_result(collation, args, 1); DBUG_ASSERT(collation.collation != NULL); fix_char_length(args[0]->max_char_length()); } /** Replace all occurences of string2 in string1 with string3. Don't reallocate val_str() if not needed. @todo Fix that this works with binary strings when using USE_MB */ String *Item_func_replace::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res,*res2,*res3; int offset; uint from_length,to_length; bool alloced=0; #ifdef USE_MB const char *ptr,*end,*strend,*search,*search_end; register uint32 l; bool binary_cmp; #endif null_value=0; res=args[0]->val_str(str); if (args[0]->null_value) goto null; res2=args[1]->val_str(&tmp_value); if (args[1]->null_value) goto null; res->set_charset(collation.collation); #ifdef USE_MB binary_cmp = ((res->charset()->state & MY_CS_BINSORT) || !use_mb(res->charset())); #endif if (res2->length() == 0) return res; #ifndef USE_MB if ((offset=res->strstr(*res2)) < 0) return res; #else offset=0; if (binary_cmp && (offset=res->strstr(*res2)) < 0) return res; #endif if (!(res3=args[2]->val_str(&tmp_value2))) goto null; from_length= res2->length(); to_length= res3->length(); #ifdef USE_MB if (!binary_cmp) { search=res2->ptr(); search_end=search+from_length; redo: DBUG_ASSERT(res->ptr() || !offset); ptr=res->ptr()+offset; strend=res->ptr()+res->length(); /* In some cases val_str() can return empty string with ptr() == NULL and length() == 0. Let's check strend to avoid overflow. */ end= strend ? strend - from_length + 1 : NULL; while (ptr < end) { if (*ptr == *search) { register char *i,*j; i=(char*) ptr+1; j=(char*) search+1; while (j != search_end) if (*i++ != *j++) goto skip; offset= (int) (ptr-res->ptr()); if (res->length()-from_length + to_length > current_thd->variables.max_allowed_packet) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); goto null; } if (!alloced) { alloced=1; if (res->uses_buffer_owned_by(str)) { if (tmp_value_res.alloc(res->length() + to_length) || tmp_value_res.copy(*res)) goto null; res= &tmp_value_res; } else res= copy_if_not_alloced(str, res, res->length() + to_length); } res->replace((uint) offset,from_length,*res3); offset+=(int) to_length; goto redo; } skip: if ((l=my_ismbchar(res->charset(), ptr,strend))) ptr+=l; else ++ptr; } } else #endif /* USE_MB */ do { if (res->length()-from_length + to_length > current_thd->variables.max_allowed_packet) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); goto null; } if (!alloced) { alloced=1; if (res->uses_buffer_owned_by(str)) { if (tmp_value_res.alloc(res->length() + to_length) || tmp_value_res.copy(*res)) goto null; res= &tmp_value_res; } else res= copy_if_not_alloced(str, res, res->length() + to_length); } res->replace((uint) offset,from_length,*res3); offset+=(int) to_length; } while ((offset=res->strstr(*res2,(uint) offset)) >= 0); return res; null: null_value=1; return 0; } void Item_func_replace::fix_length_and_dec() { ulonglong char_length= (ulonglong) args[0]->max_char_length(); int diff=(int) (args[2]->max_char_length() - args[1]->max_char_length()); if (diff > 0 && args[1]->max_char_length()) { // Calculate of maxreplaces ulonglong max_substrs= char_length / args[1]->max_char_length(); char_length+= max_substrs * (uint) diff; } if (agg_arg_charsets_for_string_result_with_comparison(collation, args, 3)) return; fix_char_length_ulonglong(char_length); } String *Item_func_insert::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res,*res2; longlong start, length, orig_len; /* must be longlong to avoid truncation */ null_value=0; res=args[0]->val_str(str); res2=args[3]->val_str(&tmp_value); start= args[1]->val_int(); length= args[2]->val_int(); if (args[0]->null_value || args[1]->null_value || args[2]->null_value || args[3]->null_value) goto null; /* purecov: inspected */ orig_len= static_cast<longlong>(res->length()); if ((start < 1) || (start > orig_len)) return res; // Wrong param; skip insert --start; // Internal start from '0' if ((length < 0) || (length > orig_len)) length= orig_len; /* There is one exception not handled (intentionaly) by the character set aggregation code. If one string is strong side and is binary, and another one is weak side and is a multi-byte character string, then we need to operate on the second string in terms on bytes when calling ::numchars() and ::charpos(), rather than in terms of characters. Lets substitute its character set to binary. */ if (collation.collation == &my_charset_bin) { res->set_charset(&my_charset_bin); res2->set_charset(&my_charset_bin); } /* start and length are now sufficiently valid to pass to charpos function */ start= res->charpos((int) start); length= res->charpos((int) length, (uint32) start); /* Re-testing with corrected params */ if (start > orig_len) return res; /* purecov: inspected */ // Wrong param; skip insert if (length > orig_len - start) length= orig_len - start; if ((ulonglong) (orig_len - length + res2->length()) > (ulonglong) current_thd->variables.max_allowed_packet) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); goto null; } if (res->uses_buffer_owned_by(str)) { if (tmp_value_res.alloc(orig_len) || tmp_value_res.copy(*res)) goto null; res= &tmp_value_res; } else res= copy_if_not_alloced(str, res, orig_len); res->replace((uint32) start,(uint32) length,*res2); return res; null: null_value=1; return 0; } void Item_func_insert::fix_length_and_dec() { ulonglong char_length; // Handle character set for args[0] and args[3]. if (agg_arg_charsets_for_string_result(collation, args, 2, 3)) return; char_length= ((ulonglong) args[0]->max_char_length() + (ulonglong) args[3]->max_char_length()); fix_char_length_ulonglong(char_length); } String *Item_str_conv::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res; if (!(res=args[0]->val_str(str))) { null_value=1; /* purecov: inspected */ return 0; /* purecov: inspected */ } null_value=0; if (multiply == 1) { uint len; if (res->uses_buffer_owned_by(str)) { if (tmp_value.copy(*res)) goto null; res= &tmp_value; } else res= copy_if_not_alloced(str, res, res->length()); len= converter(collation.collation, (char*) res->ptr(), res->length(), (char*) res->ptr(), res->length()); DBUG_ASSERT(len <= res->length()); res->length(len); } else { uint len= res->length() * multiply; tmp_value.alloc(len); tmp_value.set_charset(collation.collation); len= converter(collation.collation, (char*) res->ptr(), res->length(), (char*) tmp_value.ptr(), len); tmp_value.length(len); res= &tmp_value; } return res; null: null_value= maybe_null; return 0; } void Item_func_lcase::fix_length_and_dec() { agg_arg_charsets_for_string_result(collation, args, 1); DBUG_ASSERT(collation.collation != NULL); multiply= collation.collation->casedn_multiply; converter= collation.collation->cset->casedn; fix_char_length_ulonglong((ulonglong) args[0]->max_char_length() * multiply); } void Item_func_ucase::fix_length_and_dec() { agg_arg_charsets_for_string_result(collation, args, 1); DBUG_ASSERT(collation.collation != NULL); multiply= collation.collation->caseup_multiply; converter= collation.collation->cset->caseup; fix_char_length_ulonglong((ulonglong) args[0]->max_char_length() * multiply); } String *Item_func_left::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res= args[0]->val_str(str); /* must be longlong to avoid truncation */ longlong length= args[1]->val_int(); uint char_pos; if ((null_value=(args[0]->null_value || args[1]->null_value))) return 0; /* if "unsigned_flag" is set, we have a *huge* positive number. */ if ((length <= 0) && (!args[1]->unsigned_flag)) return make_empty_result(); if ((res->length() <= (ulonglong) length) || (res->length() <= (char_pos= res->charpos((int) length)))) return res; tmp_value.set(*res, 0, char_pos); return &tmp_value; } void Item_str_func::left_right_max_length() { uint32 char_length= args[0]->max_char_length(); if (args[1]->const_item()) { int length= (int) args[1]->val_int(); if (args[1]->null_value) goto end; if (length <= 0) char_length=0; else set_if_smaller(char_length, (uint) length); } end: fix_char_length(char_length); } void Item_func_left::fix_length_and_dec() { agg_arg_charsets_for_string_result(collation, args, 1); DBUG_ASSERT(collation.collation != NULL); left_right_max_length(); } String *Item_func_right::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res= args[0]->val_str(str); /* must be longlong to avoid truncation */ longlong length= args[1]->val_int(); if ((null_value=(args[0]->null_value || args[1]->null_value))) return 0; /* purecov: inspected */ /* if "unsigned_flag" is set, we have a *huge* positive number. */ if ((length <= 0) && (!args[1]->unsigned_flag)) return make_empty_result(); /* purecov: inspected */ if (res->length() <= (ulonglong) length) return res; /* purecov: inspected */ uint start=res->numchars(); if (start <= (uint) length) return res; start=res->charpos(start - (uint) length); tmp_value.set(*res,start,res->length()-start); return &tmp_value; } void Item_func_right::fix_length_and_dec() { agg_arg_charsets_for_string_result(collation, args, 1); DBUG_ASSERT(collation.collation != NULL); left_right_max_length(); } String *Item_func_substr::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res = args[0]->val_str(str); /* must be longlong to avoid truncation */ longlong start= args[1]->val_int(); /* Assumes that the maximum length of a String is < INT_MAX32. */ /* Limit so that code sees out-of-bound value properly. */ longlong length= arg_count == 3 ? args[2]->val_int() : INT_MAX32; longlong tmp_length; if ((null_value=(args[0]->null_value || args[1]->null_value || (arg_count == 3 && args[2]->null_value)))) return 0; /* purecov: inspected */ /* Negative or zero length, will return empty string. */ if ((arg_count == 3) && (length <= 0) && (length == 0 || !args[2]->unsigned_flag)) return make_empty_result(); /* Assumes that the maximum length of a String is < INT_MAX32. */ /* Set here so that rest of code sees out-of-bound value as such. */ if ((length <= 0) || (length > INT_MAX32)) length= INT_MAX32; /* if "unsigned_flag" is set, we have a *huge* positive number. */ /* Assumes that the maximum length of a String is < INT_MAX32. */ if ((!args[1]->unsigned_flag && (start < INT_MIN32 || start > INT_MAX32)) || (args[1]->unsigned_flag && ((ulonglong) start > INT_MAX32))) return make_empty_result(); start= ((start < 0) ? res->numchars() + start : start - 1); start= res->charpos((int) start); if ((start < 0) || ((uint) start + 1 > res->length())) return make_empty_result(); length= res->charpos((int) length, (uint32) start); tmp_length= res->length() - start; length= min(length, tmp_length); if (!start && (longlong) res->length() == length) return res; tmp_value.set(*res, (uint32) start, (uint32) length); return &tmp_value; } void Item_func_substr::fix_length_and_dec() { max_length=args[0]->max_length; agg_arg_charsets_for_string_result(collation, args, 1); DBUG_ASSERT(collation.collation != NULL); if (args[1]->const_item()) { int32 start= (int32) args[1]->val_int(); if (args[1]->null_value) goto end; if (start < 0) max_length= ((uint)(-start) > max_length) ? 0 : (uint)(-start); else max_length-= min((uint)(start - 1), max_length); } if (arg_count == 3 && args[2]->const_item()) { int32 length= (int32) args[2]->val_int(); if (args[2]->null_value) goto end; if (length <= 0) max_length=0; /* purecov: inspected */ else set_if_smaller(max_length,(uint) length); } end: max_length*= collation.collation->mbmaxlen; } void Item_func_substr_index::fix_length_and_dec() { if (agg_arg_charsets_for_string_result_with_comparison(collation, args, 2)) return; fix_char_length(args[0]->max_char_length()); } String *Item_func_substr_index::val_str(String *str) { DBUG_ASSERT(fixed == 1); char buff[MAX_FIELD_WIDTH]; String tmp(buff,sizeof(buff),system_charset_info); String *res= args[0]->val_str(str); String *delimiter= args[1]->val_str(&tmp); int32 count= (int32) args[2]->val_int(); int offset; if (args[0]->null_value || args[1]->null_value || args[2]->null_value) { // string and/or delim are null null_value=1; return 0; } null_value=0; uint delimiter_length= delimiter->length(); if (!res->length() || !delimiter_length || !count) return make_empty_result(); // Wrong parameters res->set_charset(collation.collation); #ifdef USE_MB if (use_mb(res->charset())) { const char *ptr= res->ptr(); const char *strend= ptr+res->length(); const char *end= strend-delimiter_length+1; const char *search= delimiter->ptr(); const char *search_end= search+delimiter_length; int32 n=0,c=count,pass; register uint32 l; for (pass=(count>0);pass<2;++pass) { while (ptr < end) { if (*ptr == *search) { register char *i,*j; i=(char*) ptr+1; j=(char*) search+1; while (j != search_end) if (*i++ != *j++) goto skip; if (pass==0) ++n; else if (!--c) break; ptr+= delimiter_length; continue; } skip: if ((l=my_ismbchar(res->charset(), ptr,strend))) ptr+=l; else ++ptr; } /* either not found or got total number when count<0 */ if (pass == 0) /* count<0 */ { c+=n+1; if (c<=0) return res; /* not found, return original string */ ptr=res->ptr(); } else { if (c) return res; /* Not found, return original string */ if (count>0) /* return left part */ { tmp_value.set(*res,0,(ulong) (ptr-res->ptr())); } else /* return right part */ { ptr+= delimiter_length; tmp_value.set(*res,(ulong) (ptr-res->ptr()), (ulong) (strend-ptr)); } } } } else #endif /* USE_MB */ { if (count > 0) { // start counting from the beginning for (offset=0; ; offset+= delimiter_length) { if ((offset= res->strstr(*delimiter, offset)) < 0) return res; // Didn't find, return org string if (!--count) { tmp_value.set(*res,0,offset); break; } } } else { /* Negative index, start counting at the end */ for (offset=res->length(); offset; ) { /* this call will result in finding the position pointing to one address space less than where the found substring is located in res */ if ((offset= res->strrstr(*delimiter, offset)) < 0) return res; // Didn't find, return org string /* At this point, we've searched for the substring the number of times as supplied by the index value */ if (!++count) { offset+= delimiter_length; tmp_value.set(*res,offset,res->length()- offset); break; } } if (count) return res; // Didn't find, return org string } } return (&tmp_value); } /** A helper function for trim(leading ...) for multibyte charsets. @param res Copy of 'res' in calling functions. @param ptr Where to start trimming. @param end End of string to be trimmed. @param remove_str The string to be removed from [ptr .. end) @return Pointer to left-trimmed string. */ static inline char *trim_left_mb(String *res, char *ptr, char *end, String *remove_str) { const char * const r_ptr= remove_str->ptr(); const uint remove_length= remove_str->length(); while (ptr + remove_length <= end) { uint num_bytes= 0; while (num_bytes < remove_length) { uint len; if ((len= my_ismbchar(res->charset(), ptr + num_bytes, end))) num_bytes+= len; else ++num_bytes; } if (num_bytes != remove_length) break; if (memcmp(ptr, r_ptr, remove_length)) break; ptr+= remove_length; } return ptr; } /* ** The trim functions are extension to ANSI SQL because they trim substrings ** They ltrim() and rtrim() functions are optimized for 1 byte strings ** They also return the original string if possible, else they return ** a substring that points at the original string. */ String *Item_func_ltrim::val_str(String *str) { DBUG_ASSERT(fixed == 1); char buff[MAX_FIELD_WIDTH], *ptr, *end; String tmp(buff,sizeof(buff),system_charset_info); String *res, *remove_str; uint remove_length; LINT_INIT(remove_length); res= args[0]->val_str(str); if ((null_value=args[0]->null_value)) return 0; remove_str= &remove; /* Default value. */ if (arg_count == 2) { remove_str= args[1]->val_str(&tmp); if ((null_value= args[1]->null_value)) return 0; } if ((remove_length= remove_str->length()) == 0 || remove_length > res->length()) return res; ptr= (char*) res->ptr(); end= ptr+res->length(); #ifdef USE_MB if (use_mb(res->charset())) { ptr= trim_left_mb(res, ptr, end, remove_str); } else #endif /* USE_MB */ { if (remove_length == 1) { char chr=(*remove_str)[0]; while (ptr != end && *ptr == chr) ptr++; } else { const char *r_ptr=remove_str->ptr(); end-=remove_length; while (ptr <= end && !memcmp(ptr, r_ptr, remove_length)) ptr+=remove_length; end+=remove_length; } } if (ptr == res->ptr()) return res; tmp_value.set(*res,(uint) (ptr - res->ptr()),(uint) (end-ptr)); return &tmp_value; } String *Item_func_rtrim::val_str(String *str) { DBUG_ASSERT(fixed == 1); char buff[MAX_FIELD_WIDTH], *ptr, *end; String tmp(buff, sizeof(buff), system_charset_info); String *res, *remove_str; uint remove_length; LINT_INIT(remove_length); res= args[0]->val_str(str); if ((null_value=args[0]->null_value)) return 0; remove_str= &remove; /* Default value. */ if (arg_count == 2) { remove_str= args[1]->val_str(&tmp); if ((null_value= args[1]->null_value)) return 0; } if ((remove_length= remove_str->length()) == 0 || remove_length > res->length()) return res; ptr= (char*) res->ptr(); end= ptr+res->length(); #ifdef USE_MB char *p=ptr; register uint32 l; #endif if (remove_length == 1) { char chr=(*remove_str)[0]; #ifdef USE_MB if (use_mb(res->charset())) { while (ptr < end) { if ((l=my_ismbchar(res->charset(), ptr,end))) ptr+=l,p=ptr; else ++ptr; } ptr=p; } #endif while (ptr != end && end[-1] == chr) end--; } else { const char *r_ptr=remove_str->ptr(); #ifdef USE_MB if (use_mb(res->charset())) { loop: while (ptr + remove_length < end) { if ((l=my_ismbchar(res->charset(), ptr,end))) ptr+=l; else ++ptr; } if (ptr + remove_length == end && !memcmp(ptr,r_ptr,remove_length)) { end-=remove_length; ptr=p; goto loop; } } else #endif /* USE_MB */ { while (ptr + remove_length <= end && !memcmp(end-remove_length, r_ptr, remove_length)) end-=remove_length; } } if (end == res->ptr()+res->length()) return res; tmp_value.set(*res,0,(uint) (end-res->ptr())); return &tmp_value; } String *Item_func_trim::val_str(String *str) { DBUG_ASSERT(fixed == 1); char buff[MAX_FIELD_WIDTH], *ptr, *end; String tmp(buff, sizeof(buff), system_charset_info); String *res, *remove_str; res= args[0]->val_str(str); if ((null_value=args[0]->null_value)) return 0; remove_str= &remove; /* Default value. */ if (arg_count == 2) { remove_str= args[1]->val_str(&tmp); if ((null_value= args[1]->null_value)) return 0; } const uint remove_length= remove_str->length(); if (remove_length == 0 || remove_length > res->length()) return res; ptr= (char*) res->ptr(); end= ptr+res->length(); const char * const r_ptr= remove_str->ptr(); #ifdef USE_MB if (use_mb(res->charset())) { ptr= trim_left_mb(res, ptr, end, remove_str); char *p=ptr; register uint32 l; loop: while (ptr + remove_length < end) { if ((l= my_ismbchar(res->charset(), ptr,end))) ptr+= l; else ++ptr; } if (ptr + remove_length == end && !memcmp(ptr,r_ptr,remove_length)) { end-=remove_length; ptr=p; goto loop; } ptr=p; } else #endif /* USE_MB */ { while (ptr+remove_length <= end && !memcmp(ptr,r_ptr,remove_length)) ptr+=remove_length; while (ptr + remove_length <= end && !memcmp(end-remove_length,r_ptr,remove_length)) end-=remove_length; } if (ptr == res->ptr() && end == ptr+res->length()) return res; tmp_value.set(*res,(uint) (ptr - res->ptr()),(uint) (end-ptr)); return &tmp_value; } void Item_func_trim::fix_length_and_dec() { if (arg_count == 1) { agg_arg_charsets_for_string_result(collation, args, 1); DBUG_ASSERT(collation.collation != NULL); remove.set_charset(collation.collation); remove.set_ascii(" ",1); } else { // Handle character set for args[1] and args[0]. // Note that we pass args[1] as the first item, and args[0] as the second. if (agg_arg_charsets_for_string_result_with_comparison(collation, &args[1], 2, -1)) return; } fix_char_length(args[0]->max_char_length()); } void Item_func_trim::print(String *str, enum_query_type query_type) { if (arg_count == 1) { Item_func::print(str, query_type); return; } str->append(Item_func_trim::func_name()); str->append('('); str->append(mode_name()); str->append(' '); args[1]->print(str, query_type); str->append(STRING_WITH_LEN(" from ")); args[0]->print(str, query_type); str->append(')'); } /** Helper function for calculating a new password. Used in Item_func_password::fix_length_and_dec() for const parameters and in Item_func_password::val_str_ascii() for non-const parameters. @param str The plain text password which should be digested @param buffer a pointer to the buffer where the digest will be stored. @note The buffer must be of at least CRYPT_MAX_PASSWORD_SIZE size. @return Size of the password. */ static int calculate_password(String *str, char *buffer) { DBUG_ASSERT(str); if (str->length() == 0) // PASSWORD('') returns '' return 0; int buffer_len= 0; THD *thd= current_thd; int old_passwords= 0; if (thd) old_passwords= thd->variables.old_passwords; #if defined(HAVE_OPENSSL) if (old_passwords == 2) { my_make_scrambled_password(buffer, str->ptr(), str->length()); buffer_len= (int) strlen(buffer) + 1; } else #endif if (old_passwords == 0) { my_make_scrambled_password_sha1(buffer, str->ptr(), str->length()); buffer_len= SCRAMBLED_PASSWORD_CHAR_LENGTH; } else if (old_passwords == 1) { my_make_scrambled_password_323(buffer, str->ptr(), str->length()); buffer_len= SCRAMBLED_PASSWORD_CHAR_LENGTH_323; } return buffer_len; } /* Item_func_password */ void Item_func_password::fix_length_and_dec() { maybe_null= false; // PASSWORD() never returns NULL if (args[0]->const_item()) { String str; String *res= args[0]->val_str(&str); if (!args[0]->null_value) { m_hashed_password_buffer_len= calculate_password(res, m_hashed_password_buffer); fix_length_and_charset(m_hashed_password_buffer_len, default_charset()); m_recalculate_password= false; return; } } m_recalculate_password= true; fix_length_and_charset(CRYPT_MAX_PASSWORD_SIZE, default_charset()); } String *Item_func_password::val_str_ascii(String *str) { DBUG_ASSERT(fixed == 1); String *res= args[0]->val_str(str); if (args[0]->null_value) res= make_empty_result(); /* we treat NULLs as equal to empty string when calling the plugin */ check_password_policy(res); null_value= 0; if (args[0]->null_value) // PASSWORD(NULL) returns '' return res; if (m_recalculate_password) m_hashed_password_buffer_len= calculate_password(res, m_hashed_password_buffer); if (m_hashed_password_buffer_len == 0) return make_empty_result(); str->set(m_hashed_password_buffer, m_hashed_password_buffer_len, default_charset()); return str; } char *Item_func_password:: create_password_hash_buffer(THD *thd, const char *password, size_t pass_len) { String *password_str= new (thd->mem_root)String(password, thd->variables. character_set_client); check_password_policy(password_str); char *buff= NULL; if (thd->variables.old_passwords == 0) { /* Allocate memory for the password scramble and one extra byte for \0 */ buff= (char *) thd->alloc(SCRAMBLED_PASSWORD_CHAR_LENGTH + 1); my_make_scrambled_password_sha1(buff, password, pass_len); } #if defined(HAVE_OPENSSL) else { /* Allocate memory for the password scramble and one extra byte for \0 */ buff= (char *) thd->alloc(CRYPT_MAX_PASSWORD_SIZE + 1); my_make_scrambled_password(buff, password, pass_len); } #endif return buff; } /* Item_func_old_password */ String *Item_func_old_password::val_str_ascii(String *str) { String *res; DBUG_ASSERT(fixed == 1); res= args[0]->val_str(str); if ((null_value= args[0]->null_value)) res= make_empty_result(); /* we treat NULLs as equal to empty string when calling the plugin */ check_password_policy(res); if (null_value) return 0; if (res->length() == 0) return make_empty_result(); my_make_scrambled_password_323(tmp_value, res->ptr(), res->length()); str->set(tmp_value, SCRAMBLED_PASSWORD_CHAR_LENGTH_323, &my_charset_latin1); return str; } char *Item_func_old_password::alloc(THD *thd, const char *password, size_t pass_len) { char *buff= (char *) thd->alloc(SCRAMBLED_PASSWORD_CHAR_LENGTH_323+1); if (buff) { String *password_str= new (thd->mem_root)String(password, thd->variables. character_set_client); check_password_policy(password_str); my_make_scrambled_password_323(buff, password, pass_len); } return buff; } #define bin_to_ascii(c) ((c)>=38?((c)-38+'a'):(c)>=12?((c)-12+'A'):(c)+'.') String *Item_func_encrypt::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res =args[0]->val_str(str); #ifdef HAVE_CRYPT char salt[3],*salt_ptr; if ((null_value=args[0]->null_value)) return 0; if (res->length() == 0) return make_empty_result(); if (arg_count == 1) { // generate random salt time_t timestamp=current_thd->query_start(); salt[0] = bin_to_ascii( (ulong) timestamp & 0x3f); salt[1] = bin_to_ascii(( (ulong) timestamp >> 5) & 0x3f); salt[2] = 0; salt_ptr=salt; } else { // obtain salt from the first two bytes String *salt_str=args[1]->val_str(&tmp_value); if ((null_value= (args[1]->null_value || salt_str->length() < 2))) return 0; salt_ptr= salt_str->c_ptr_safe(); } mysql_mutex_lock(&LOCK_crypt); char *tmp= crypt(res->c_ptr_safe(),salt_ptr); if (!tmp) { mysql_mutex_unlock(&LOCK_crypt); null_value= 1; return 0; } str->set(tmp, (uint) strlen(tmp), &my_charset_bin); str->copy(); mysql_mutex_unlock(&LOCK_crypt); return str; #else null_value=1; return 0; #endif /* HAVE_CRYPT */ } bool Item_func_encode::seed() { char buf[80]; ulong rand_nr[2]; String *key, tmp(buf, sizeof(buf), system_charset_info); if (!(key= args[1]->val_str(&tmp))) return TRUE; hash_password(rand_nr, key->ptr(), key->length()); sql_crypt.init(rand_nr); return FALSE; } void Item_func_encode::fix_length_and_dec() { max_length=args[0]->max_length; maybe_null=args[0]->maybe_null || args[1]->maybe_null; collation.set(&my_charset_bin); /* Precompute the seed state if the item is constant. */ seeded= args[1]->const_item() && (args[1]->result_type() == STRING_RESULT) && !seed(); } String *Item_func_encode::val_str(String *str) { String *res; DBUG_ASSERT(fixed == 1); if (!(res=args[0]->val_str(str))) { null_value= 1; return NULL; } if (!seeded && seed()) { null_value= 1; return NULL; } null_value= 0; if (res->uses_buffer_owned_by(str)) { if (tmp_value_res.copy(*res)) goto null; res= &tmp_value_res; } else res= copy_if_not_alloced(str, res, res->length()); crypto_transform(res); sql_crypt.reinit(); return res; null: null_value= maybe_null; return 0; } void Item_func_encode::crypto_transform(String *res) { sql_crypt.encode((char*) res->ptr(),res->length()); res->set_charset(&my_charset_bin); } void Item_func_decode::crypto_transform(String *res) { sql_crypt.decode((char*) res->ptr(),res->length()); } Item *Item_func_sysconst::safe_charset_converter(const CHARSET_INFO *tocs) { Item_string *conv; uint conv_errors; String tmp, cstr, *ostr= val_str(&tmp); if (null_value) { Item *null_item= new Item_null(fully_qualified_func_name()); null_item->collation.set (tocs); return null_item; } cstr.copy(ostr->ptr(), ostr->length(), ostr->charset(), tocs, &conv_errors); if (conv_errors || !(conv= new Item_static_string_func(fully_qualified_func_name(), cstr.ptr(), cstr.length(), cstr.charset(), collation.derivation))) { return NULL; } conv->str_value.copy(); conv->str_value.mark_as_const(); return conv; } String *Item_func_database::val_str(String *str) { DBUG_ASSERT(fixed == 1); THD *thd= current_thd; if (thd->db == NULL) { null_value= 1; return 0; } else str->copy(thd->db, thd->db_length, system_charset_info); return str; } /** @note USER() is replicated correctly if binlog_format=ROW or (as of BUG#28086) binlog_format=MIXED, but is incorrectly replicated to '' if binlog_format=STATEMENT. */ bool Item_func_user::init(const char *user, const char *host) { DBUG_ASSERT(fixed == 1); // For system threads (e.g. replication SQL thread) user may be empty if (user) { const CHARSET_INFO *cs= str_value.charset(); size_t res_length= (strlen(user)+strlen(host)+2) * cs->mbmaxlen; if (str_value.alloc((uint) res_length)) { null_value=1; return TRUE; } res_length=cs->cset->snprintf(cs, (char*)str_value.ptr(), (uint) res_length, "%s@%s", user, host); str_value.length((uint) res_length); str_value.mark_as_const(); } return FALSE; } bool Item_func_user::fix_fields(THD *thd, Item **ref) { return (Item_func_sysconst::fix_fields(thd, ref) || init(thd->main_security_ctx.user, thd->main_security_ctx.host_or_ip)); } bool Item_func_current_user::fix_fields(THD *thd, Item **ref) { if (Item_func_sysconst::fix_fields(thd, ref)) return TRUE; Security_context *ctx= #ifndef NO_EMBEDDED_ACCESS_CHECKS (context->security_ctx ? context->security_ctx : thd->security_ctx); #else thd->security_ctx; #endif /*NO_EMBEDDED_ACCESS_CHECKS*/ return init(ctx->priv_user, ctx->priv_host); } void Item_func_soundex::fix_length_and_dec() { uint32 char_length= args[0]->max_char_length(); agg_arg_charsets_for_string_result(collation, args, 1); DBUG_ASSERT(collation.collation != NULL); set_if_bigger(char_length, 4); fix_char_length(char_length); tmp_value.set_charset(collation.collation); } /** If alpha, map input letter to soundex code. If not alpha and remove_garbage is set then skip to next char else return 0 */ static int soundex_toupper(int ch) { return (ch >= 'a' && ch <= 'z') ? ch - 'a' + 'A' : ch; } static char get_scode(int wc) { int ch= soundex_toupper(wc); if (ch < 'A' || ch > 'Z') { // Thread extended alfa (country spec) return '0'; // as vokal } return(soundex_map[ch-'A']); } static bool my_uni_isalpha(int wc) { /* Return true for all Basic Latin letters: a..z A..Z. Return true for all Unicode characters with code higher than U+00C0: - characters between 'z' and U+00C0 are controls and punctuations. - "U+00C0 LATIN CAPITAL LETTER A WITH GRAVE" is the first letter after 'z'. */ return (wc >= 'a' && wc <= 'z') || (wc >= 'A' && wc <= 'Z') || (wc >= 0xC0); } String *Item_func_soundex::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res =args[0]->val_str(str); char last_ch,ch; const CHARSET_INFO *cs= collation.collation; my_wc_t wc; uint nchars; int rc; if ((null_value= args[0]->null_value)) return 0; /* purecov: inspected */ if (tmp_value.alloc(max(res->length(), 4 * cs->mbminlen))) return str; /* purecov: inspected */ char *to= (char *) tmp_value.ptr(); char *to_end= to + tmp_value.alloced_length(); char *from= (char *) res->ptr(), *end= from + res->length(); for ( ; ; ) /* Skip pre-space */ { if ((rc= cs->cset->mb_wc(cs, &wc, (uchar*) from, (uchar*) end)) <= 0) return make_empty_result(); /* EOL or invalid byte sequence */ if (rc == 1 && cs->ctype) { /* Single byte letter found */ if (my_isalpha(cs, *from)) { last_ch= get_scode(*from); // Code of the first letter *to++= soundex_toupper(*from++); // Copy first letter break; } from++; } else { from+= rc; if (my_uni_isalpha(wc)) { /* Multibyte letter found */ wc= soundex_toupper(wc); last_ch= get_scode(wc); // Code of the first letter if ((rc= cs->cset->wc_mb(cs, wc, (uchar*) to, (uchar*) to_end)) <= 0) { /* Extra safety - should not really happen */ DBUG_ASSERT(false); return make_empty_result(); } to+= rc; break; } } } /* last_ch is now set to the first 'double-letter' check. loop on input letters until end of input */ for (nchars= 1 ; ; ) { if ((rc= cs->cset->mb_wc(cs, &wc, (uchar*) from, (uchar*) end)) <= 0) break; /* EOL or invalid byte sequence */ if (rc == 1 && cs->ctype) { if (!my_isalpha(cs, *from++)) continue; } else { from+= rc; if (!my_uni_isalpha(wc)) continue; } ch= get_scode(wc); if ((ch != '0') && (ch != last_ch)) // if not skipped or double { // letter, copy to output if ((rc= cs->cset->wc_mb(cs, (my_wc_t) ch, (uchar*) to, (uchar*) to_end)) <= 0) { // Extra safety - should not really happen DBUG_ASSERT(false); break; } to+= rc; nchars++; last_ch= ch; // save code of last input letter } // for next double-letter check } /* Pad up to 4 characters with DIGIT ZERO, if the string is shorter */ if (nchars < 4) { uint nbytes= (4 - nchars) * cs->mbminlen; cs->cset->fill(cs, to, nbytes, '0'); to+= nbytes; } tmp_value.length((uint) (to-tmp_value.ptr())); return &tmp_value; } /** Change a number to format '3,333,333,333.000'. This should be 'internationalized' sometimes. */ const int FORMAT_MAX_DECIMALS= 30; MY_LOCALE *Item_func_format::get_locale(Item *item) { DBUG_ASSERT(arg_count == 3); String tmp, *locale_name= args[2]->val_str_ascii(&tmp); MY_LOCALE *lc; if (!locale_name || !(lc= my_locale_by_name(locale_name->c_ptr_safe()))) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_UNKNOWN_LOCALE, ER(ER_UNKNOWN_LOCALE), locale_name ? locale_name->c_ptr_safe() : "NULL"); lc= &my_locale_en_US; } return lc; } void Item_func_format::fix_length_and_dec() { uint32 char_length= args[0]->max_char_length(); uint32 max_sep_count= (char_length / 3) + (decimals ? 1 : 0) + /*sign*/1; collation.set(default_charset()); fix_char_length(char_length + max_sep_count + decimals); if (arg_count == 3) locale= args[2]->basic_const_item() ? get_locale(args[2]) : NULL; else locale= &my_locale_en_US; /* Two arguments */ } /** @todo This needs to be fixed for multi-byte character set where numbers are stored in more than one byte */ String *Item_func_format::val_str_ascii(String *str) { uint32 str_length; /* Number of decimal digits */ int dec; /* Number of characters used to represent the decimals, including '.' */ uint32 dec_length; MY_LOCALE *lc; DBUG_ASSERT(fixed == 1); dec= (int) args[1]->val_int(); if (args[1]->null_value) { null_value=1; return NULL; } lc= locale ? locale : get_locale(args[2]); dec= set_zone(dec, 0, FORMAT_MAX_DECIMALS); dec_length= dec ? dec+1 : 0; null_value=0; if (args[0]->result_type() == DECIMAL_RESULT || args[0]->result_type() == INT_RESULT) { my_decimal dec_val, rnd_dec, *res; res= args[0]->val_decimal(&dec_val); if ((null_value=args[0]->null_value)) return 0; /* purecov: inspected */ my_decimal_round(E_DEC_FATAL_ERROR, res, dec, false, &rnd_dec); my_decimal2string(E_DEC_FATAL_ERROR, &rnd_dec, 0, 0, 0, str); str_length= str->length(); } else { double nr= args[0]->val_real(); if ((null_value=args[0]->null_value)) return 0; /* purecov: inspected */ nr= my_double_round(nr, (longlong) dec, FALSE, FALSE); str->set_real(nr, dec, &my_charset_numeric); if (my_isnan(nr) || my_isinf(nr)) return str; str_length=str->length(); } /* We need this test to handle 'nan' and short values */ if (lc->grouping[0] > 0 && str_length >= dec_length + 1 + lc->grouping[0]) { /* We need space for ',' between each group of digits as well. */ char buf[2 * FLOATING_POINT_BUFFER]; int count; const char *grouping= lc->grouping; char sign_length= *str->ptr() == '-' ? 1 : 0; const char *src= str->ptr() + str_length - dec_length - 1; const char *src_begin= str->ptr() + sign_length; char *dst= buf + sizeof(buf); /* Put the fractional part */ if (dec) { dst-= (dec + 1); *dst= lc->decimal_point; memcpy(dst + 1, src + 2, dec); } /* Put the integer part with grouping */ for (count= *grouping; src >= src_begin; count--) { /* When *grouping==0x80 (which means "end of grouping") count will be initialized to -1 and we'll never get into this "if" anymore. */ if (count == 0) { *--dst= lc->thousand_sep; if (grouping[1]) grouping++; count= *grouping; } DBUG_ASSERT(dst > buf); *--dst= *src--; } if (sign_length) /* Put '-' */ *--dst= *str->ptr(); /* Put the rest of the integer part without grouping */ str->copy(dst, buf + sizeof(buf) - dst, &my_charset_latin1); } else if (dec_length && lc->decimal_point != '.') { /* For short values without thousands (<1000) replace decimal point to localized value. */ DBUG_ASSERT(dec_length <= str_length); ((char*) str->ptr())[str_length - dec_length]= lc->decimal_point; } return str; } void Item_func_format::print(String *str, enum_query_type query_type) { str->append(STRING_WITH_LEN("format(")); args[0]->print(str, query_type); str->append(','); args[1]->print(str, query_type); if(arg_count > 2) { str->append(','); args[2]->print(str,query_type); } str->append(')'); } void Item_func_elt::fix_length_and_dec() { uint32 char_length= 0; decimals=0; if (agg_arg_charsets_for_string_result(collation, args + 1, arg_count - 1)) return; for (uint i= 1 ; i < arg_count ; i++) { set_if_bigger(char_length, args[i]->max_char_length()); set_if_bigger(decimals,args[i]->decimals); } fix_char_length(char_length); maybe_null=1; // NULL if wrong first arg } double Item_func_elt::val_real() { DBUG_ASSERT(fixed == 1); uint tmp; null_value=1; if ((tmp=(uint) args[0]->val_int()) == 0 || tmp >= arg_count) return 0.0; double result= args[tmp]->val_real(); null_value= args[tmp]->null_value; return result; } longlong Item_func_elt::val_int() { DBUG_ASSERT(fixed == 1); uint tmp; null_value=1; if ((tmp=(uint) args[0]->val_int()) == 0 || tmp >= arg_count) return 0; longlong result= args[tmp]->val_int(); null_value= args[tmp]->null_value; return result; } String *Item_func_elt::val_str(String *str) { DBUG_ASSERT(fixed == 1); uint tmp; null_value=1; if ((tmp=(uint) args[0]->val_int()) == 0 || tmp >= arg_count) return NULL; String *result= args[tmp]->val_str(str); if (result) result->set_charset(collation.collation); null_value= args[tmp]->null_value; return result; } void Item_func_make_set::split_sum_func(THD *thd, Ref_ptr_array ref_pointer_array, List<Item> &fields) { item->split_sum_func2(thd, ref_pointer_array, fields, &item, TRUE); Item_str_func::split_sum_func(thd, ref_pointer_array, fields); } void Item_func_make_set::fix_length_and_dec() { uint32 char_length= arg_count - 1; /* Separators */ if (agg_arg_charsets_for_string_result(collation, args, arg_count)) return; for (uint i=0 ; i < arg_count ; i++) char_length+= args[i]->max_char_length(); fix_char_length(char_length); used_tables_cache|= item->used_tables(); not_null_tables_cache&= item->not_null_tables(); const_item_cache&= item->const_item(); with_sum_func= with_sum_func || item->with_sum_func; } void Item_func_make_set::update_used_tables() { Item_func::update_used_tables(); item->update_used_tables(); used_tables_cache|=item->used_tables(); const_item_cache&=item->const_item(); with_subselect= item->has_subquery(); with_stored_program= item->has_stored_program(); } String *Item_func_make_set::val_str(String *str) { DBUG_ASSERT(fixed == 1); ulonglong bits; bool first_found=0; Item **ptr=args; String *result= NULL; bits=item->val_int(); if ((null_value=item->null_value)) return NULL; if (arg_count < 64) bits &= ((ulonglong) 1 << arg_count)-1; for (; bits; bits >>= 1, ptr++) { if (bits & 1) { String *res= (*ptr)->val_str(str); if (res) // Skip nulls { if (!first_found) { // First argument first_found=1; if (res != str) result=res; // Use original string else { if (tmp_str.copy(*res)) // Don't use 'str' return make_empty_result(); result= &tmp_str; } } else { if (result != &tmp_str) { // Copy data to tmp_str if (tmp_str.alloc((result != NULL ? result->length() : 0) + res->length() + 1) || tmp_str.copy(*result)) return make_empty_result(); result= &tmp_str; } if (tmp_str.append(STRING_WITH_LEN(","), &my_charset_bin) || tmp_str.append(*res)) return make_empty_result(); } } } } if (result == NULL) return make_empty_result(); return result; } Item *Item_func_make_set::transform(Item_transformer transformer, uchar *arg) { DBUG_ASSERT(!current_thd->stmt_arena->is_stmt_prepare()); Item *new_item= item->transform(transformer, arg); if (!new_item) return 0; /* THD::change_item_tree() should be called only if the tree was really transformed, i.e. when a new item has been created. Otherwise we'll be allocating a lot of unnecessary memory for change records at each execution. */ if (item != new_item) current_thd->change_item_tree(&item, new_item); return Item_str_func::transform(transformer, arg); } void Item_func_make_set::print(String *str, enum_query_type query_type) { str->append(STRING_WITH_LEN("make_set(")); item->print(str, query_type); if (arg_count) { str->append(','); print_args(str, 0, query_type); } str->append(')'); } String *Item_func_char::val_str(String *str) { DBUG_ASSERT(fixed == 1); str->length(0); str->set_charset(collation.collation); for (uint i=0 ; i < arg_count ; i++) { int32 num=(int32) args[i]->val_int(); if (!args[i]->null_value) { char tmp[4]; if (num & 0xFF000000L) { mi_int4store(tmp, num); str->append(tmp, 4, &my_charset_bin); } else if (num & 0xFF0000L) { mi_int3store(tmp, num); str->append(tmp, 3, &my_charset_bin); } else if (num & 0xFF00L) { mi_int2store(tmp, num); str->append(tmp, 2, &my_charset_bin); } else { tmp[0]= (char) num; str->append(tmp, 1, &my_charset_bin); } } } str->realloc(str->length()); // Add end 0 (for Purify) return check_well_formed_result(str, false, // send warning true); // truncate } inline String* alloc_buffer(String *res,String *str,String *tmp_value, ulong length) { if (res->alloced_length() < length) { if (str->alloced_length() >= length) { (void) str->copy(*res); str->length(length); return str; } if (tmp_value->alloc(length)) return 0; (void) tmp_value->copy(*res); tmp_value->length(length); return tmp_value; } res->length(length); return res; } void Item_func_repeat::fix_length_and_dec() { agg_arg_charsets_for_string_result(collation, args, 1); DBUG_ASSERT(collation.collation != NULL); if (args[1]->const_item()) { /* must be longlong to avoid truncation */ longlong count= args[1]->val_int(); if (args[1]->null_value) goto end; /* Assumes that the maximum length of a String is < INT_MAX32. */ /* Set here so that rest of code sees out-of-bound value as such. */ if (count > INT_MAX32) count= INT_MAX32; ulonglong char_length= (ulonglong) args[0]->max_char_length() * count; fix_char_length_ulonglong(char_length); return; } end: max_length= MAX_BLOB_WIDTH; maybe_null= 1; } /** Item_func_repeat::str is carefully written to avoid reallocs as much as possible at the cost of a local buffer */ String *Item_func_repeat::val_str(String *str) { DBUG_ASSERT(fixed == 1); uint length,tot_length; char *to; /* must be longlong to avoid truncation */ longlong count= args[1]->val_int(); String *res= args[0]->val_str(str); if (args[0]->null_value || args[1]->null_value) goto err; // string and/or delim are null null_value= 0; if (count <= 0 && (count == 0 || !args[1]->unsigned_flag)) return make_empty_result(); /* Assumes that the maximum length of a String is < INT_MAX32. */ /* Bounds check on count: If this is triggered, we will error. */ if ((ulonglong) count > INT_MAX32) count= INT_MAX32; if (count == 1) // To avoid reallocs return res; length=res->length(); // Safe length check if (length > current_thd->variables.max_allowed_packet / (uint) count) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); goto err; } tot_length= length*(uint) count; if (!(res= alloc_buffer(res,str,&tmp_value,tot_length))) goto err; to=(char*) res->ptr()+length; while (--count) { memcpy(to,res->ptr(),length); to+=length; } return (res); err: null_value=1; return 0; } void Item_func_space::fix_length_and_dec() { collation.set(default_charset(), DERIVATION_COERCIBLE, MY_REPERTOIRE_ASCII); if (args[0]->const_item()) { /* must be longlong to avoid truncation */ longlong count= args[0]->val_int(); if (args[0]->null_value) goto end; /* Assumes that the maximum length of a String is < INT_MAX32. Set here so that rest of code sees out-of-bound value as such. */ if (count > INT_MAX32) count= INT_MAX32; fix_char_length_ulonglong(count); return; } end: max_length= MAX_BLOB_WIDTH; maybe_null= 1; } String *Item_func_space::val_str(String *str) { uint tot_length; longlong count= args[0]->val_int(); const CHARSET_INFO *cs= collation.collation; if (args[0]->null_value) goto err; // string and/or delim are null null_value= 0; if (count <= 0 && (count == 0 || !args[0]->unsigned_flag)) return make_empty_result(); /* Assumes that the maximum length of a String is < INT_MAX32. Bounds check on count: If this is triggered, we will error. */ if ((ulonglong) count > INT_MAX32) count= INT_MAX32; // Safe length check tot_length= (uint) count * cs->mbminlen; if (tot_length > current_thd->variables.max_allowed_packet) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); goto err; } if (str->alloc(tot_length)) goto err; str->length(tot_length); str->set_charset(cs); cs->cset->fill(cs, (char*) str->ptr(), tot_length, ' '); return str; err: null_value= 1; return 0; } void Item_func_rpad::fix_length_and_dec() { // Handle character set for args[0] and args[2]. if (agg_arg_charsets_for_string_result(collation, &args[0], 2, 2)) return; if (args[1]->const_item()) { ulonglong char_length= (ulonglong) args[1]->val_int(); if (args[1]->null_value) goto end; DBUG_ASSERT(collation.collation->mbmaxlen > 0); /* Assumes that the maximum length of a String is < INT_MAX32. */ /* Set here so that rest of code sees out-of-bound value as such. */ if (char_length > INT_MAX32) char_length= INT_MAX32; fix_char_length_ulonglong(char_length); return; } end: max_length= MAX_BLOB_WIDTH; maybe_null= 1; } String *Item_func_rpad::val_str(String *str) { DBUG_ASSERT(fixed == 1); uint32 res_byte_length,res_char_length,pad_char_length,pad_byte_length; char *to; const char *ptr_pad; /* must be longlong to avoid truncation */ longlong count= args[1]->val_int(); longlong byte_count; String *res= args[0]->val_str(str); String *rpad= args[2]->val_str(&rpad_str); if (!res || args[1]->null_value || !rpad || ((count < 0) && !args[1]->unsigned_flag)) goto err; null_value=0; /* Assumes that the maximum length of a String is < INT_MAX32. */ /* Set here so that rest of code sees out-of-bound value as such. */ if ((ulonglong) count > INT_MAX32) count= INT_MAX32; /* There is one exception not handled (intentionaly) by the character set aggregation code. If one string is strong side and is binary, and another one is weak side and is a multi-byte character string, then we need to operate on the second string in terms on bytes when calling ::numchars() and ::charpos(), rather than in terms of characters. Lets substitute its character set to binary. */ if (collation.collation == &my_charset_bin) { res->set_charset(&my_charset_bin); rpad->set_charset(&my_charset_bin); } #ifdef USE_MB if (use_mb(rpad->charset())) { // This will chop off any trailing illegal characters from rpad. String *well_formed_pad= args[2]->check_well_formed_result(rpad, false, //send warning true); //truncate if (!well_formed_pad) goto err; } #endif if (count <= (res_char_length= res->numchars())) { // String to pad is big enough res->length(res->charpos((int) count)); // Shorten result if longer return (res); } pad_char_length= rpad->numchars(); byte_count= count * collation.collation->mbmaxlen; if ((ulonglong) byte_count > current_thd->variables.max_allowed_packet) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); goto err; } if (args[2]->null_value || !pad_char_length) goto err; res_byte_length= res->length(); /* Must be done before alloc_buffer */ if (!(res= alloc_buffer(res,str,&tmp_value, (ulong) byte_count))) goto err; to= (char*) res->ptr()+res_byte_length; ptr_pad=rpad->ptr(); pad_byte_length= rpad->length(); count-= res_char_length; for ( ; (uint32) count > pad_char_length; count-= pad_char_length) { memcpy(to,ptr_pad,pad_byte_length); to+= pad_byte_length; } if (count) { pad_byte_length= rpad->charpos((int) count); memcpy(to,ptr_pad,(size_t) pad_byte_length); to+= pad_byte_length; } res->length((uint) (to- (char*) res->ptr())); return (res); err: null_value=1; return 0; } void Item_func_lpad::fix_length_and_dec() { // Handle character set for args[0] and args[2]. if (agg_arg_charsets_for_string_result(collation, &args[0], 2, 2)) return; if (args[1]->const_item()) { ulonglong char_length= (ulonglong) args[1]->val_int(); if (args[1]->null_value) goto end; DBUG_ASSERT(collation.collation->mbmaxlen > 0); /* Assumes that the maximum length of a String is < INT_MAX32. */ /* Set here so that rest of code sees out-of-bound value as such. */ if (char_length > INT_MAX32) char_length= INT_MAX32; fix_char_length_ulonglong(char_length); return; } end: max_length= MAX_BLOB_WIDTH; maybe_null= 1; } String *Item_func_lpad::val_str(String *str) { DBUG_ASSERT(fixed == 1); uint32 res_char_length,pad_char_length; /* must be longlong to avoid truncation */ longlong count= args[1]->val_int(); longlong byte_count; String *res= args[0]->val_str(&tmp_value); String *pad= args[2]->val_str(&lpad_str); if (!res || args[1]->null_value || !pad || ((count < 0) && !args[1]->unsigned_flag)) goto err; null_value=0; /* Assumes that the maximum length of a String is < INT_MAX32. */ /* Set here so that rest of code sees out-of-bound value as such. */ if ((ulonglong) count > INT_MAX32) count= INT_MAX32; /* There is one exception not handled (intentionaly) by the character set aggregation code. If one string is strong side and is binary, and another one is weak side and is a multi-byte character string, then we need to operate on the second string in terms on bytes when calling ::numchars() and ::charpos(), rather than in terms of characters. Lets substitute its character set to binary. */ if (collation.collation == &my_charset_bin) { res->set_charset(&my_charset_bin); pad->set_charset(&my_charset_bin); } #ifdef USE_MB if (use_mb(pad->charset())) { // This will chop off any trailing illegal characters from pad. String *well_formed_pad= args[2]->check_well_formed_result(pad, false, // send warning true); // truncate if (!well_formed_pad) goto err; } #endif res_char_length= res->numchars(); if (count <= res_char_length) { res->length(res->charpos((int) count)); return res; } pad_char_length= pad->numchars(); byte_count= count * collation.collation->mbmaxlen; if ((ulonglong) byte_count > current_thd->variables.max_allowed_packet) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); goto err; } if (args[2]->null_value || !pad_char_length || str->alloc((uint32) byte_count)) goto err; str->length(0); str->set_charset(collation.collation); count-= res_char_length; while (count >= pad_char_length) { str->append(*pad); count-= pad_char_length; } if (count > 0) str->append(pad->ptr(), pad->charpos((int) count), collation.collation); str->append(*res); null_value= 0; return str; err: null_value= 1; return 0; } String *Item_func_conv::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res= args[0]->val_str(str); char *endptr,ans[65],*ptr; longlong dec; int from_base= (int) args[1]->val_int(); int to_base= (int) args[2]->val_int(); int err; // Note that abs(INT_MIN) is undefined. if (args[0]->null_value || args[1]->null_value || args[2]->null_value || from_base == INT_MIN || to_base == INT_MIN || abs(to_base) > 36 || abs(to_base) < 2 || abs(from_base) > 36 || abs(from_base) < 2 || !(res->length())) { null_value= 1; return NULL; } null_value= 0; unsigned_flag= !(from_base < 0); if (args[0]->field_type() == MYSQL_TYPE_BIT) { /* Special case: The string representation of BIT doesn't resemble the decimal representation, so we shouldn't change it to string and then to decimal. */ dec= args[0]->val_int(); } else { if (from_base < 0) dec= my_strntoll(res->charset(), res->ptr(), res->length(), -from_base, &endptr, &err); else dec= (longlong) my_strntoull(res->charset(), res->ptr(), res->length(), from_base, &endptr, &err); } if (!(ptr= longlong2str(dec, ans, to_base)) || str->copy(ans, (uint32) (ptr - ans), default_charset())) { null_value= 1; return NULL; } return str; } String *Item_func_conv_charset::val_str(String *str) { DBUG_ASSERT(fixed == 1); if (use_cached_value) return null_value ? 0 : &str_value; String *arg= args[0]->val_str(str); uint dummy_errors; if (!arg) { null_value=1; return 0; } null_value= tmp_value.copy(arg->ptr(), arg->length(), arg->charset(), conv_charset, &dummy_errors); return null_value ? 0 : check_well_formed_result(&tmp_value, false, // send warning true); // truncate } void Item_func_conv_charset::fix_length_and_dec() { collation.set(conv_charset, DERIVATION_IMPLICIT); fix_char_length(args[0]->max_char_length()); } void Item_func_conv_charset::print(String *str, enum_query_type query_type) { str->append(STRING_WITH_LEN("convert(")); args[0]->print(str, query_type); str->append(STRING_WITH_LEN(" using ")); str->append(conv_charset->csname); str->append(')'); } String *Item_func_set_collation::val_str(String *str) { DBUG_ASSERT(fixed == 1); str=args[0]->val_str(str); if ((null_value=args[0]->null_value)) return 0; str->set_charset(collation.collation); return str; } void Item_func_set_collation::fix_length_and_dec() { CHARSET_INFO *set_collation; const char *colname; String tmp, *str= args[1]->val_str(&tmp); colname= str->c_ptr(); if (colname == binary_keyword) set_collation= get_charset_by_csname(args[0]->collation.collation->csname, MY_CS_BINSORT,MYF(0)); else { if (!(set_collation= mysqld_collation_get_by_name(colname))) return; } if (!set_collation || !my_charset_same(args[0]->collation.collation,set_collation)) { my_error(ER_COLLATION_CHARSET_MISMATCH, MYF(0), colname, args[0]->collation.collation->csname); return; } collation.set(set_collation, DERIVATION_EXPLICIT, args[0]->collation.repertoire); max_length= args[0]->max_length; } bool Item_func_set_collation::eq(const Item *item, bool binary_cmp) const { /* Assume we don't have rtti */ if (this == item) return 1; if (item->type() != FUNC_ITEM) return 0; Item_func *item_func=(Item_func*) item; if (arg_count != item_func->arg_count || functype() != item_func->functype()) return 0; Item_func_set_collation *item_func_sc=(Item_func_set_collation*) item; if (collation.collation != item_func_sc->collation.collation) return 0; for (uint i=0; i < arg_count ; i++) if (!args[i]->eq(item_func_sc->args[i], binary_cmp)) return 0; return 1; } void Item_func_set_collation::print(String *str, enum_query_type query_type) { str->append('('); args[0]->print(str, query_type); str->append(STRING_WITH_LEN(" collate ")); DBUG_ASSERT(args[1]->basic_const_item() && args[1]->type() == Item::STRING_ITEM); args[1]->str_value.print(str); str->append(')'); } String *Item_func_charset::val_str(String *str) { DBUG_ASSERT(fixed == 1); uint dummy_errors; const CHARSET_INFO *cs= args[0]->charset_for_protocol(); null_value= 0; str->copy(cs->csname, (uint) strlen(cs->csname), &my_charset_latin1, collation.collation, &dummy_errors); return str; } String *Item_func_collation::val_str(String *str) { DBUG_ASSERT(fixed == 1); uint dummy_errors; const CHARSET_INFO *cs= args[0]->charset_for_protocol(); null_value= 0; str->copy(cs->name, (uint) strlen(cs->name), &my_charset_latin1, collation.collation, &dummy_errors); return str; } void Item_func_weight_string::fix_length_and_dec() { const CHARSET_INFO *cs= args[0]->collation.collation; collation.set(&my_charset_bin, args[0]->collation.derivation); flags= my_strxfrm_flag_normalize(flags, cs->levels_for_order); field= args[0]->type() == FIELD_ITEM && args[0]->is_temporal() ? ((Item_field *) (args[0]))->field : (Field *) NULL; /* Use result_length if it was given explicitly in constructor, otherwise calculate max_length using argument's max_length and "nweights". */ max_length= field ? field->pack_length() : result_length ? result_length : cs->mbmaxlen * max(args[0]->max_length, nweights); maybe_null= 1; } /* Return a weight_string according to collation */ String *Item_func_weight_string::val_str(String *str) { String *res; const CHARSET_INFO *cs= args[0]->collation.collation; uint tmp_length, frm_length; DBUG_ASSERT(fixed == 1); if (args[0]->result_type() != STRING_RESULT || !(res= args[0]->val_str(str))) goto nl; /* Use result_length if it was given in constructor explicitly, otherwise calculate result length from argument and "nweights". */ tmp_length= field ? field->pack_length() : result_length ? result_length : cs->coll->strnxfrmlen(cs, cs->mbmaxlen * max(res->length(), nweights)); if(tmp_length > current_thd->variables.max_allowed_packet) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); goto nl; } if (tmp_value.alloc(tmp_length)) goto nl; if (field) { frm_length= field->pack_length(); field->make_sort_key((uchar *) tmp_value.ptr(), tmp_length); } else frm_length= cs->coll->strnxfrm(cs, (uchar *) tmp_value.ptr(), tmp_length, nweights ? nweights : tmp_length, (const uchar *) res->ptr(), res->length(), flags); DBUG_ASSERT(frm_length <= tmp_length); tmp_value.length(frm_length); null_value= 0; return &tmp_value; nl: null_value= 1; return 0; } String *Item_func_hex::val_str_ascii(String *str) { String *res; DBUG_ASSERT(fixed == 1); if (args[0]->result_type() != STRING_RESULT) { ulonglong dec; char ans[65],*ptr; /* Return hex of unsigned longlong value */ if (args[0]->result_type() == REAL_RESULT || args[0]->result_type() == DECIMAL_RESULT) { double val= args[0]->val_real(); if ((val <= (double) LONGLONG_MIN) || (val >= (double) (ulonglong) ULONGLONG_MAX)) dec= ~(longlong) 0; else dec= (ulonglong) (val + (val > 0 ? 0.5 : -0.5)); } else dec= (ulonglong) args[0]->val_int(); if ((null_value= args[0]->null_value)) return 0; if (!(ptr= longlong2str(dec, ans, 16)) || str->copy(ans,(uint32) (ptr - ans), &my_charset_numeric)) return make_empty_result(); // End of memory return str; } /* Convert given string to a hex string, character by character */ res= args[0]->val_str(str); if (!res || tmp_value.alloc(res->length()*2+1)) { null_value=1; return 0; } null_value=0; tmp_value.length(res->length()*2); tmp_value.set_charset(&my_charset_latin1); octet2hex((char*) tmp_value.ptr(), res->ptr(), res->length()); return &tmp_value; } /** Convert given hex string to a binary string. */ String *Item_func_unhex::val_str(String *str) { const char *from, *end; char *to; String *res; uint length; DBUG_ASSERT(fixed == 1); res= args[0]->val_str(str); if (!res || tmp_value.alloc(length= (1+res->length())/2)) { null_value=1; return 0; } from= res->ptr(); null_value= 0; tmp_value.length(length); to= (char*) tmp_value.ptr(); if (res->length() % 2) { int hex_char; *to++= hex_char= hexchar_to_int(*from++); if ((null_value= (hex_char == -1))) return 0; } for (end=res->ptr()+res->length(); from < end ; from+=2, to++) { int hex_char; *to= (hex_char= hexchar_to_int(from[0])) << 4; if ((null_value= (hex_char == -1))) return 0; *to|= hex_char= hexchar_to_int(from[1]); if ((null_value= (hex_char == -1))) return 0; } return &tmp_value; } #ifndef DBUG_OFF String *Item_func_like_range::val_str(String *str) { DBUG_ASSERT(fixed == 1); longlong nbytes= args[1]->val_int(); String *res= args[0]->val_str(str); size_t min_len, max_len; const CHARSET_INFO *cs= collation.collation; if (!res || args[0]->null_value || args[1]->null_value || nbytes < 0 || nbytes > MAX_BLOB_WIDTH || min_str.alloc(nbytes) || max_str.alloc(nbytes)) goto err; null_value=0; if (cs->coll->like_range(cs, res->ptr(), res->length(), '\\', '_', '%', nbytes, (char*) min_str.ptr(), (char*) max_str.ptr(), &min_len, &max_len)) goto err; min_str.set_charset(collation.collation); max_str.set_charset(collation.collation); min_str.length(min_len); max_str.length(max_len); return is_min ? &min_str : &max_str; err: null_value= 1; return 0; } #endif bool Item_char_typecast::eq(const Item *item, bool binary_cmp) const { if (this == item) return 1; if (item->type() != FUNC_ITEM || functype() != ((Item_func*)item)->functype()) return 0; Item_char_typecast *cast= (Item_char_typecast*)item; if (cast_length != cast->cast_length || cast_cs != cast->cast_cs) return 0; if (!args[0]->eq(cast->args[0], binary_cmp)) return 0; return 1; } void Item_char_typecast::print(String *str, enum_query_type query_type) { str->append(STRING_WITH_LEN("cast(")); args[0]->print(str, query_type); str->append(STRING_WITH_LEN(" as char")); if (cast_length >= 0) str->append_parenthesized(cast_length); if (cast_cs) { str->append(STRING_WITH_LEN(" charset ")); str->append(cast_cs->csname); } str->append(')'); } String *Item_char_typecast::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res; uint32 length; if (cast_length >= 0 && ((unsigned) cast_length) > current_thd->variables.max_allowed_packet) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), cast_cs == &my_charset_bin ? "cast_as_binary" : func_name(), current_thd->variables.max_allowed_packet); null_value= 1; return 0; } if (!charset_conversion) { if (!(res= args[0]->val_str(str))) { null_value= 1; return 0; } } else { // Convert character set if differ uint dummy_errors; if (!(res= args[0]->val_str(str)) || tmp_value.copy(res->ptr(), res->length(), from_cs, cast_cs, &dummy_errors)) { null_value= 1; return 0; } res= &tmp_value; } res->set_charset(cast_cs); /* Cut the tail if cast with length and the result is longer than cast length, e.g. CAST('string' AS CHAR(1)) */ if (cast_length >= 0) { if (res->length() > (length= (uint32) res->charpos(cast_length))) { // Safe even if const arg char char_type[40]; my_snprintf(char_type, sizeof(char_type), "%s(%lu)", cast_cs == &my_charset_bin ? "BINARY" : "CHAR", (ulong) length); if (!res->alloced_length()) { // Don't change const str str_value= *res; // Not malloced string res= &str_value; } ErrConvString err(res); push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_TRUNCATED_WRONG_VALUE, ER(ER_TRUNCATED_WRONG_VALUE), char_type, err.ptr()); res->length((uint) length); } else if (cast_cs == &my_charset_bin && res->length() < (uint) cast_length) { if (res->alloced_length() < (uint) cast_length) { str_value.alloc(cast_length); str_value.copy(*res); res= &str_value; } memset(const_cast<char*>(res->ptr() + res->length()), 0, cast_length - res->length()); res->length(cast_length); } } null_value= 0; return res; } void Item_char_typecast::fix_length_and_dec() { /* If we convert between two ASCII compatible character sets and the argument repertoire is MY_REPERTOIRE_ASCII then from_cs is set to cast_cs. This allows just to take over the args[0]->val_str() result and thus avoid unnecessary character set conversion. */ from_cs= args[0]->collation.repertoire == MY_REPERTOIRE_ASCII && my_charset_is_ascii_based(cast_cs) && my_charset_is_ascii_based(args[0]->collation.collation) ? cast_cs : args[0]->collation.collation; collation.set(cast_cs, DERIVATION_IMPLICIT); fix_char_length(cast_length >= 0 ? cast_length : cast_cs == &my_charset_bin ? args[0]->max_length : args[0]->max_char_length()); /* We always force character set conversion if cast_cs is a multi-byte character set. It garantees that the result of CAST is a well-formed string. For single-byte character sets we allow just to copy from the argument. A single-byte character sets string is always well-formed. */ charset_conversion= (cast_cs->mbmaxlen > 1) || (!my_charset_same(from_cs, cast_cs) && from_cs != &my_charset_bin && cast_cs != &my_charset_bin); } void Item_func_binary::print(String *str, enum_query_type query_type) { str->append(STRING_WITH_LEN("cast(")); args[0]->print(str, query_type); str->append(STRING_WITH_LEN(" as binary)")); } #include <my_dir.h> // For my_stat String *Item_load_file::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *file_name; File file; MY_STAT stat_info; char path[FN_REFLEN]; DBUG_ENTER("load_file"); if (!(file_name= args[0]->val_str(str)) #ifndef NO_EMBEDDED_ACCESS_CHECKS || !(current_thd->security_ctx->master_access & FILE_ACL) #endif ) goto err; (void) fn_format(path, file_name->c_ptr_safe(), mysql_real_data_home, "", MY_RELATIVE_PATH | MY_UNPACK_FILENAME); /* Read only allowed from within dir specified by secure_file_priv */ if (!is_secure_file_path(path)) goto err; if (!mysql_file_stat(key_file_loadfile, path, &stat_info, MYF(0))) goto err; if (!(stat_info.st_mode & S_IROTH)) { /* my_error(ER_TEXTFILE_NOT_READABLE, MYF(0), file_name->c_ptr()); */ goto err; } if (stat_info.st_size > (long) current_thd->variables.max_allowed_packet) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), current_thd->variables.max_allowed_packet); goto err; } if (tmp_value.alloc(stat_info.st_size)) goto err; if ((file= mysql_file_open(key_file_loadfile, file_name->ptr(), O_RDONLY, MYF(0))) < 0) goto err; if (mysql_file_read(file, (uchar*) tmp_value.ptr(), stat_info.st_size, MYF(MY_NABP))) { mysql_file_close(file, MYF(0)); goto err; } tmp_value.length(stat_info.st_size); mysql_file_close(file, MYF(0)); null_value = 0; DBUG_RETURN(&tmp_value); err: null_value = 1; DBUG_RETURN(0); } String* Item_func_export_set::val_str(String* str) { DBUG_ASSERT(fixed == 1); String yes_buf, no_buf, sep_buf; const ulonglong the_set = (ulonglong) args[0]->val_int(); const String *yes= args[1]->val_str(&yes_buf); const String *no= args[2]->val_str(&no_buf); const String *sep= NULL; uint num_set_values = 64; str->length(0); str->set_charset(collation.collation); /* Check if some argument is a NULL value */ if (args[0]->null_value || args[1]->null_value || args[2]->null_value) { null_value= true; return NULL; } /* Arg count can only be 3, 4 or 5 here. This is guaranteed from the grammar for EXPORT_SET() */ switch(arg_count) { case 5: num_set_values = (uint) args[4]->val_int(); if (num_set_values > 64) num_set_values=64; if (args[4]->null_value) { null_value= true; return NULL; } /* Fall through */ case 4: if (!(sep = args[3]->val_str(&sep_buf))) // Only true if NULL { null_value= true; return NULL; } break; case 3: { /* errors is not checked - assume "," can always be converted */ uint errors; sep_buf.copy(STRING_WITH_LEN(","), &my_charset_bin, collation.collation, &errors); sep = &sep_buf; } break; default: DBUG_ASSERT(0); // cannot happen } null_value= false; const ulong max_allowed_packet= current_thd->variables.max_allowed_packet; const uint num_separators= num_set_values > 0 ? num_set_values - 1 : 0; const ulonglong max_total_length= num_set_values * max(yes->length(), no->length()) + num_separators * sep->length(); if (unlikely(max_total_length > max_allowed_packet)) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_ALLOWED_PACKET_OVERFLOWED, ER(ER_WARN_ALLOWED_PACKET_OVERFLOWED), func_name(), max_allowed_packet); null_value= true; return NULL; } uint ix; ulonglong mask; for (ix= 0, mask=0x1; ix < num_set_values; ++ix, mask = (mask << 1)) { if (the_set & mask) str->append(*yes); else str->append(*no); if (ix != num_separators) str->append(*sep); } return str; } void Item_func_export_set::fix_length_and_dec() { uint32 length= max(args[1]->max_char_length(), args[2]->max_char_length()); uint32 sep_length= (arg_count > 3 ? args[3]->max_char_length() : 1); if (agg_arg_charsets_for_string_result(collation, args + 1, min(4U, arg_count) - 1)) return; fix_char_length(length * 64 + sep_length * 63); } #define get_esc_bit(mask, num) (1 & (*((mask) + ((num) >> 3))) >> ((num) & 7)) /** QUOTE() function returns argument string in single quotes suitable for using in a SQL statement. Adds a \\ before all characters that needs to be escaped in a SQL string. We also escape '^Z' (END-OF-FILE in windows) to avoid probelms when running commands from a file in windows. This function is very useful when you want to generate SQL statements. @note QUOTE(NULL) returns the string 'NULL' (4 letters, without quotes). @retval str Quoted string @retval NULL Out of memory. */ String *Item_func_quote::val_str(String *str) { DBUG_ASSERT(fixed == 1); /* Bit mask that has 1 for set for the position of the following characters: 0, \, ' and ^Z */ static uchar escmask[32]= { 0x01, 0x00, 0x00, 0x04, 0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x10, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; char *from, *to, *end, *start; String *arg= args[0]->val_str(str); uint arg_length, new_length; if (!arg) // Null argument { /* Return the string 'NULL' */ str->copy(STRING_WITH_LEN("NULL"), collation.collation); null_value= 0; return str; } arg_length= arg->length(); if (collation.collation->mbmaxlen == 1) { new_length= arg_length + 2; /* for beginning and ending ' signs */ for (from= (char*) arg->ptr(), end= from + arg_length; from < end; from++) new_length+= get_esc_bit(escmask, (uchar) *from); } else { new_length= (arg_length * 2) + /* For string characters */ (2 * collation.collation->mbmaxlen); /* For quotes */ } if (tmp_value.alloc(new_length)) goto null; if (collation.collation->mbmaxlen > 1) { const CHARSET_INFO *cs= collation.collation; int mblen; uchar *to_end; to= (char*) tmp_value.ptr(); to_end= (uchar*) to + new_length; /* Put leading quote */ if ((mblen= cs->cset->wc_mb(cs, '\'', (uchar *) to, to_end)) <= 0) goto null; to+= mblen; for (start= (char*) arg->ptr(), end= start + arg_length; start < end; ) { my_wc_t wc; bool escape; if ((mblen= cs->cset->mb_wc(cs, &wc, (uchar*) start, (uchar*) end)) <= 0) goto null; start+= mblen; switch (wc) { case 0: escape= 1; wc= '0'; break; case '\032': escape= 1; wc= 'Z'; break; case '\'': escape= 1; break; case '\\': escape= 1; break; default: escape= 0; break; } if (escape) { if ((mblen= cs->cset->wc_mb(cs, '\\', (uchar*) to, to_end)) <= 0) goto null; to+= mblen; } if ((mblen= cs->cset->wc_mb(cs, wc, (uchar*) to, to_end)) <= 0) goto null; to+= mblen; } /* Put trailing quote */ if ((mblen= cs->cset->wc_mb(cs, '\'', (uchar *) to, to_end)) <= 0) goto null; to+= mblen; new_length= to - tmp_value.ptr(); goto ret; } /* We replace characters from the end to the beginning */ to= (char*) tmp_value.ptr() + new_length - 1; *to--= '\''; for (start= (char*) arg->ptr(),end= start + arg_length; end-- != start; to--) { /* We can't use the bitmask here as we want to replace \O and ^Z with 0 and Z */ switch (*end) { case 0: *to--= '0'; *to= '\\'; break; case '\032': *to--= 'Z'; *to= '\\'; break; case '\'': case '\\': *to--= *end; *to= '\\'; break; default: *to= *end; break; } } *to= '\''; ret: tmp_value.length(new_length); tmp_value.set_charset(collation.collation); null_value= 0; return &tmp_value; null: null_value= 1; return 0; } longlong Item_func_uncompressed_length::val_int() { DBUG_ASSERT(fixed == 1); String *res= args[0]->val_str(&value); if (!res) { null_value=1; return 0; /* purecov: inspected */ } null_value=0; if (res->is_empty()) return 0; /* If length is <= 4 bytes, data is corrupt. This is the best we can do to detect garbage input without decompressing it. */ if (res->length() <= 4) { push_warning_printf(current_thd, Sql_condition::WARN_LEVEL_WARN, ER_ZLIB_Z_DATA_ERROR, ER(ER_ZLIB_Z_DATA_ERROR)); null_value= 1; return 0; } /* res->ptr() using is safe because we have tested that string is at least 5 bytes long. res->c_ptr() is not used because: - we do not need \0 terminated string to get first 4 bytes - c_ptr() tests simbol after string end (uninitialiozed memory) which confuse valgrind */ return uint4korr(res->ptr()) & 0x3FFFFFFF; } longlong Item_func_crc32::val_int() { DBUG_ASSERT(fixed == 1); String *res=args[0]->val_str(&value); if (!res) { null_value=1; return 0; /* purecov: inspected */ } null_value=0; return (longlong) crc32(0L, (uchar*)res->ptr(), res->length()); } #ifdef HAVE_COMPRESS #include "zlib.h" String *Item_func_compress::val_str(String *str) { int err= Z_OK, code; ulong new_size; String *res; Byte *body; char *tmp, *last_char; DBUG_ASSERT(fixed == 1); if (!(res= args[0]->val_str(str))) { null_value= 1; return 0; } null_value= 0; if (res->is_empty()) return res; /* Citation from zlib.h (comment for compress function): Compresses the source buffer into the destination buffer. sourceLen is the byte length of the source buffer. Upon entry, destLen is the total size of the destination buffer, which must be at least 0.1% larger than sourceLen plus 12 bytes. We assume here that the buffer can't grow more than .25 %. */ new_size= res->length() + res->length() / 5 + 12; // Check new_size overflow: new_size <= res->length() if (((uint32) (new_size+5) <= res->length()) || buffer.realloc((uint32) new_size + 4 + 1)) { null_value= 1; return 0; } body= ((Byte*)buffer.ptr()) + 4; // As far as we have checked res->is_empty() we can use ptr() if ((err= compress(body, &new_size, (const Bytef*)res->ptr(), res->length())) != Z_OK) { code= err==Z_MEM_ERROR ? ER_ZLIB_Z_MEM_ERROR : ER_ZLIB_Z_BUF_ERROR; push_warning(current_thd,Sql_condition::WARN_LEVEL_WARN,code,ER(code)); null_value= 1; return 0; } tmp= (char*)buffer.ptr(); // int4store is a macro; avoid side effects int4store(tmp, res->length() & 0x3FFFFFFF); /* This is to ensure that things works for CHAR fields, which trim ' ': */ last_char= ((char*)body)+new_size-1; if (*last_char == ' ') { *++last_char= '.'; new_size++; } buffer.length((uint32)new_size + 4); return &buffer; } String *Item_func_uncompress::val_str(String *str) { DBUG_ASSERT(fixed == 1); String *res= args[0]->val_str(str); ulong new_size; int err; uint code; if (!res) goto err; null_value= 0; if (res->is_empty()) return res; /* If length is less than 4 bytes, data is corrupt */ if (res->length() <= 4) { push_warning_printf(current_thd,Sql_condition::WARN_LEVEL_WARN, ER_ZLIB_Z_DATA_ERROR, ER(ER_ZLIB_Z_DATA_ERROR)); goto err; } /* Size of uncompressed data is stored as first 4 bytes of field */ new_size= uint4korr(res->ptr()) & 0x3FFFFFFF; if (new_size > current_thd->variables.max_allowed_packet) { push_warning_printf(current_thd,Sql_condition::WARN_LEVEL_WARN, ER_TOO_BIG_FOR_UNCOMPRESS, ER(ER_TOO_BIG_FOR_UNCOMPRESS), static_cast<int>(current_thd->variables. max_allowed_packet)); goto err; } if (buffer.realloc((uint32)new_size)) goto err; if ((err= uncompress((Byte*)buffer.ptr(), &new_size, ((const Bytef*)res->ptr())+4,res->length())) == Z_OK) { buffer.length((uint32) new_size); return &buffer; } code= ((err == Z_BUF_ERROR) ? ER_ZLIB_Z_BUF_ERROR : ((err == Z_MEM_ERROR) ? ER_ZLIB_Z_MEM_ERROR : ER_ZLIB_Z_DATA_ERROR)); push_warning(current_thd,Sql_condition::WARN_LEVEL_WARN,code,ER(code)); err: null_value= 1; return 0; } #endif /* UUID, as in DCE 1.1: Remote Procedure Call, Open Group Technical Standard Document Number C706, October 1997, (supersedes C309 DCE: Remote Procedure Call 8/1994, which was basis for ISO/IEC 11578:1996 specification) */ static struct rand_struct uuid_rand; static uint nanoseq; static ulonglong uuid_time=0; static char clock_seq_and_node_str[]="-0000-000000000000"; /** number of 100-nanosecond intervals between 1582-10-15 00:00:00.00 and 1970-01-01 00:00:00.00. */ #define UUID_TIME_OFFSET ((ulonglong) 141427 * 24 * 60 * 60 * \ 1000 * 1000 * 10) #define UUID_VERSION 0x1000 #define UUID_VARIANT 0x8000 static void tohex(char *to, uint from, uint len) { to+= len; while (len--) { *--to= _dig_vec_lower[from & 15]; from >>= 4; } } static void set_clock_seq_str() { uint16 clock_seq= ((uint)(my_rnd(&uuid_rand)*16383)) | UUID_VARIANT; tohex(clock_seq_and_node_str+1, clock_seq, 4); nanoseq= 0; } String *Item_func_uuid::val_str(String *str) { DBUG_ASSERT(fixed == 1); char *s; THD *thd= current_thd; mysql_mutex_lock(&LOCK_uuid_generator); if (! uuid_time) /* first UUID() call. initializing data */ { ulong tmp=sql_rnd_with_mutex(); uchar mac[6]; int i; if (my_gethwaddr(mac)) { /* purecov: begin inspected */ /* generating random "hardware addr" and because specs explicitly specify that it should NOT correlate with a clock_seq value (initialized random below), we use a separate randominit() here */ randominit(&uuid_rand, tmp + (ulong) thd, tmp + (ulong)global_query_id); for (i=0; i < (int)sizeof(mac); i++) mac[i]=(uchar)(my_rnd(&uuid_rand)*255); /* purecov: end */ } s=clock_seq_and_node_str+sizeof(clock_seq_and_node_str)-1; for (i=sizeof(mac)-1 ; i>=0 ; i--) { *--s=_dig_vec_lower[mac[i] & 15]; *--s=_dig_vec_lower[mac[i] >> 4]; } randominit(&uuid_rand, tmp + (ulong) server_start_time, tmp + (ulong) thd->status_var.bytes_sent); set_clock_seq_str(); } ulonglong tv= my_getsystime() + UUID_TIME_OFFSET + nanoseq; if (likely(tv > uuid_time)) { /* Current time is ahead of last timestamp, as it should be. If we "borrowed time", give it back, just as long as we stay ahead of the previous timestamp. */ if (nanoseq) { DBUG_ASSERT((tv > uuid_time) && (nanoseq > 0)); /* -1 so we won't make tv= uuid_time for nanoseq >= (tv - uuid_time) */ ulong delta= min<ulong>(nanoseq, (ulong) (tv - uuid_time -1)); tv-= delta; nanoseq-= delta; } } else { if (unlikely(tv == uuid_time)) { /* For low-res system clocks. If several requests for UUIDs end up on the same tick, we add a nano-second to make them different. ( current_timestamp + nanoseq * calls_in_this_period ) may end up > next_timestamp; this is OK. Nonetheless, we'll try to unwind nanoseq when we get a chance to. If nanoseq overflows, we'll start over with a new numberspace (so the if() below is needed so we can avoid the ++tv and thus match the follow-up if() if nanoseq overflows!). */ if (likely(++nanoseq)) ++tv; } if (unlikely(tv <= uuid_time)) { /* If the admin changes the system clock (or due to Daylight Saving Time), the system clock may be turned *back* so we go through a period once more for which we already gave out UUIDs. To avoid duplicate UUIDs despite potentially identical times, we make a new random component. We also come here if the nanoseq "borrowing" overflows. In either case, we throw away any nanoseq borrowing since it's irrelevant in the new numberspace. */ set_clock_seq_str(); tv= my_getsystime() + UUID_TIME_OFFSET; nanoseq= 0; DBUG_PRINT("uuid",("making new numberspace")); } } uuid_time=tv; mysql_mutex_unlock(&LOCK_uuid_generator); uint32 time_low= (uint32) (tv & 0xFFFFFFFF); uint16 time_mid= (uint16) ((tv >> 32) & 0xFFFF); uint16 time_hi_and_version= (uint16) ((tv >> 48) | UUID_VERSION); str->realloc(UUID_LENGTH+1); str->length(UUID_LENGTH); str->set_charset(system_charset_info); s=(char *) str->ptr(); s[8]=s[13]='-'; tohex(s, time_low, 8); tohex(s+9, time_mid, 4); tohex(s+14, time_hi_and_version, 4); strmov(s+18, clock_seq_and_node_str); DBUG_EXECUTE_IF("force_fake_uuid", strmov(s, "a2d00942-b69c-11e4-a696-0020ff6fcbe6"); ); return str; } void Item_func_gtid_subtract::fix_length_and_dec() { maybe_null= args[0]->maybe_null || args[1]->maybe_null; collation.set(default_charset(), DERIVATION_COERCIBLE, MY_REPERTOIRE_ASCII); /* In the worst case, the string grows after subtraction. This happens when a GTID in args[0] is split by a GTID in args[1], e.g., UUID:1-6 minus UUID:3-4 becomes UUID:1-2,5-6. The worst case is UUID:1-100 minus UUID:9, where the two characters ":9" in args[1] yield the five characters "-8,10" in the result. */ fix_char_length_ulonglong(args[0]->max_length + max<ulonglong>(args[1]->max_length - Uuid::TEXT_LENGTH, 0) * 5 / 2); } String *Item_func_gtid_subtract::val_str_ascii(String *str) { DBUG_ENTER("Item_func_gtid_subtract::val_str_ascii"); String *str1, *str2; const char *charp1, *charp2; enum_return_status status; /* We must execute args[*]->val_str_ascii() before checking args[*]->null_value to ensure that them are updated when this function is executed inside a stored procedure. */ if ((str1= args[0]->val_str_ascii(&buf1)) != NULL && (charp1= str1->c_ptr_safe()) != NULL && (str2= args[1]->val_str_ascii(&buf2)) != NULL && (charp2= str2->c_ptr_safe()) != NULL && !args[0]->null_value && !args[1]->null_value) { Sid_map sid_map(NULL/*no rwlock*/); // compute sets while holding locks Gtid_set set1(&sid_map, charp1, &status); if (status == RETURN_STATUS_OK) { Gtid_set set2(&sid_map, charp2, &status); int length; // subtract, save result, return result if (status == RETURN_STATUS_OK && set1.remove_gtid_set(&set2) == 0 && !str->realloc((length= set1.get_string_length()) + 1)) { null_value= false; set1.to_string((char *)str->ptr()); str->length(length); DBUG_RETURN(str); } } } null_value= true; DBUG_RETURN(NULL); } String *Item_func_fbson::val_str(String *str) { fbson::FbsonOutStream os; fbson::FbsonJsonParser parser(os); fbson::FbsonErrInfo err_info; String *res= args[0]->val_str(str); if (!res) { goto err; } if (parser.parse(res->ptr(), res->length())) { uint32 document_field_max_length = Field_document::max_data_length_static(); if (os.getSize() > document_field_max_length) { my_printf_error(ER_TOO_BIG_DOCUMENT_FIELDLENGTH, ER(ER_TOO_BIG_DOCUMENT_FIELDLENGTH), MYF(0), "json", document_field_max_length); goto err; } null_value = 0; buffer.copy(os.getBuffer(), os.getSize(), &my_charset_bin); return &buffer; } err_info = parser.getErrorInfo(); my_printf_error(ER_INVALID_VALUE_FOR_DOCUMENT_FIELD, ER(ER_INVALID_VALUE_FOR_DOCUMENT_FIELD), MYF(0), "json", (ulong)current_thd->get_stmt_da()->current_row_for_warning(), res->ptr(), err_info.err_pos, err_info.err_msg); err: null_value = 1; return NULL; }