/* Copyright (c) 2000, 2011, 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* The privileges are saved in the following tables: mysql/user ; super user who are allowed to do almost anything mysql/host ; host privileges. This is used if host is empty in mysql/db. mysql/db ; database privileges / user data in tables is sorted according to how many not-wild-cards there is in the relevant fields. Empty strings comes last. */ #include "mysql_priv.h" #include "hash_filo.h" #include #include #include "sp_head.h" #include "sp.h" static const TABLE_FIELD_TYPE mysql_db_table_fields[MYSQL_DB_FIELD_COUNT] = { { { C_STRING_WITH_LEN("Host") }, { C_STRING_WITH_LEN("char(60)") }, {NULL, 0} }, { { C_STRING_WITH_LEN("Db") }, { C_STRING_WITH_LEN("char(64)") }, {NULL, 0} }, { { C_STRING_WITH_LEN("User") }, { C_STRING_WITH_LEN("char(16)") }, {NULL, 0} }, { { C_STRING_WITH_LEN("Select_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Insert_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Update_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Delete_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Create_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Drop_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Grant_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("References_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Index_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Alter_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Create_tmp_table_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Lock_tables_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Create_view_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Show_view_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Create_routine_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Alter_routine_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Execute_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Event_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } }, { { C_STRING_WITH_LEN("Trigger_priv") }, { C_STRING_WITH_LEN("enum('N','Y')") }, { C_STRING_WITH_LEN("utf8") } } }; const TABLE_FIELD_DEF mysql_db_table_def= {MYSQL_DB_FIELD_COUNT, mysql_db_table_fields}; #ifndef NO_EMBEDDED_ACCESS_CHECKS #define FIRST_NON_YN_FIELD 26 class acl_entry :public hash_filo_element { public: ulong access; uint16 length; char key[1]; // Key will be stored here }; static uchar* acl_entry_get_key(acl_entry *entry, size_t *length, my_bool not_used __attribute__((unused))) { *length=(uint) entry->length; return (uchar*) entry->key; } #define IP_ADDR_STRLEN (3+1+3+1+3+1+3) #define ACL_KEY_LENGTH (IP_ADDR_STRLEN+1+NAME_LEN+1+USERNAME_LENGTH+1) static DYNAMIC_ARRAY acl_hosts,acl_users,acl_dbs; static MEM_ROOT mem, memex; static bool initialized=0; static bool allow_all_hosts=1; static HASH acl_check_hosts, column_priv_hash, proc_priv_hash, func_priv_hash; static DYNAMIC_ARRAY acl_wild_hosts; static hash_filo *acl_cache; static uint grant_version=0; /* Version of priv tables. incremented by acl_load */ static ulong get_access(TABLE *form,uint fieldnr, uint *next_field=0); static int acl_compare(ACL_ACCESS *a,ACL_ACCESS *b); static ulong get_sort(uint count,...); static void init_check_host(void); static void rebuild_check_host(void); static ACL_USER *find_acl_user(const char *host, const char *user, my_bool exact); static bool update_user_table(THD *thd, TABLE *table, const char *host, const char *user, const char *new_password, uint new_password_len); static void update_hostname(acl_host_and_ip *host, const char *hostname); static bool compare_hostname(const acl_host_and_ip *host,const char *hostname, const char *ip); static my_bool acl_load(THD *thd, TABLE_LIST *tables); static my_bool grant_load(THD *thd, TABLE_LIST *tables); static inline void get_grantor(THD *thd, char* grantor); /* Convert scrambled password to binary form, according to scramble type, Binary form is stored in user.salt. */ static void set_user_salt(ACL_USER *acl_user, const char *password, uint password_len) { if (password_len == SCRAMBLED_PASSWORD_CHAR_LENGTH) { get_salt_from_password(acl_user->salt, password); acl_user->salt_len= SCRAMBLE_LENGTH; } else if (password_len == SCRAMBLED_PASSWORD_CHAR_LENGTH_323) { get_salt_from_password_323((ulong *) acl_user->salt, password); acl_user->salt_len= SCRAMBLE_LENGTH_323; } else acl_user->salt_len= 0; } /* This after_update function is used when user.password is less than SCRAMBLE_LENGTH bytes. */ static void restrict_update_of_old_passwords_var(THD *thd, enum_var_type var_type) { if (var_type == OPT_GLOBAL) { pthread_mutex_lock(&LOCK_global_system_variables); global_system_variables.old_passwords= 1; pthread_mutex_unlock(&LOCK_global_system_variables); } else thd->variables.old_passwords= 1; } /* Initialize structures responsible for user/db-level privilege checking and load privilege information for them from tables in the 'mysql' database. SYNOPSIS acl_init() dont_read_acl_tables TRUE if we want to skip loading data from privilege tables and disable privilege checking. NOTES This function is mostly responsible for preparatory steps, main work on initialization and grants loading is done in acl_reload(). RETURN VALUES 0 ok 1 Could not initialize grant's */ my_bool acl_init(bool dont_read_acl_tables) { THD *thd; my_bool return_val; DBUG_ENTER("acl_init"); acl_cache= new hash_filo(ACL_CACHE_SIZE, 0, 0, (hash_get_key) acl_entry_get_key, (hash_free_key) free, &my_charset_utf8_bin); if (dont_read_acl_tables) { DBUG_RETURN(0); /* purecov: tested */ } /* To be able to run this from boot, we allocate a temporary THD */ if (!(thd=new THD)) DBUG_RETURN(1); /* purecov: inspected */ thd->thread_stack= (char*) &thd; thd->store_globals(); lex_start(thd); /* It is safe to call acl_reload() since acl_* arrays and hashes which will be freed there are global static objects and thus are initialized by zeros at startup. */ return_val= acl_reload(thd); delete thd; /* Remember that we don't have a THD */ my_pthread_setspecific_ptr(THR_THD, 0); DBUG_RETURN(return_val); } /* Initialize structures responsible for user/db-level privilege checking and load information about grants from open privilege tables. SYNOPSIS acl_load() thd Current thread tables List containing open "mysql.host", "mysql.user" and "mysql.db" tables. RETURN VALUES FALSE Success TRUE Error */ static my_bool acl_load(THD *thd, TABLE_LIST *tables) { TABLE *table; READ_RECORD read_record_info; my_bool return_val= TRUE; bool check_no_resolve= specialflag & SPECIAL_NO_RESOLVE; char tmp_name[NAME_LEN+1]; int password_length; ulong old_sql_mode= thd->variables.sql_mode; DBUG_ENTER("acl_load"); thd->variables.sql_mode&= ~MODE_PAD_CHAR_TO_FULL_LENGTH; grant_version++; /* Privileges updated */ acl_cache->clear(1); // Clear locked hostname cache init_sql_alloc(&mem, ACL_ALLOC_BLOCK_SIZE, 0); init_read_record(&read_record_info,thd,table= tables[0].table,NULL,1,0, FALSE); table->use_all_columns(); VOID(my_init_dynamic_array(&acl_hosts,sizeof(ACL_HOST),20,50)); while (!(read_record_info.read_record(&read_record_info))) { ACL_HOST host; update_hostname(&host.host,get_field(&mem, table->field[0])); host.db= get_field(&mem, table->field[1]); if (lower_case_table_names && host.db) { /* convert db to lower case and give a warning if the db wasn't already in lower case */ (void) strmov(tmp_name, host.db); my_casedn_str(files_charset_info, host.db); if (strcmp(host.db, tmp_name) != 0) sql_print_warning("'host' entry '%s|%s' had database in mixed " "case that has been forced to lowercase because " "lower_case_table_names is set. It will not be " "possible to remove this privilege using REVOKE.", host.host.hostname ? host.host.hostname : "", host.db ? host.db : ""); } host.access= get_access(table,2); host.access= fix_rights_for_db(host.access); host.sort= get_sort(2,host.host.hostname,host.db); if (check_no_resolve && hostname_requires_resolving(host.host.hostname)) { sql_print_warning("'host' entry '%s|%s' " "ignored in --skip-name-resolve mode.", host.host.hostname ? host.host.hostname : "", host.db ? host.db : ""); continue; } #ifndef TO_BE_REMOVED if (table->s->fields == 8) { // Without grant if (host.access & CREATE_ACL) host.access|=REFERENCES_ACL | INDEX_ACL | ALTER_ACL | CREATE_TMP_ACL; } #endif VOID(push_dynamic(&acl_hosts,(uchar*) &host)); } my_qsort((uchar*) dynamic_element(&acl_hosts,0,ACL_HOST*),acl_hosts.elements, sizeof(ACL_HOST),(qsort_cmp) acl_compare); end_read_record(&read_record_info); freeze_size(&acl_hosts); init_read_record(&read_record_info,thd,table=tables[1].table,NULL,1,0,FALSE); table->use_all_columns(); VOID(my_init_dynamic_array(&acl_users,sizeof(ACL_USER),50,100)); password_length= table->field[2]->field_length / table->field[2]->charset()->mbmaxlen; if (password_length < SCRAMBLED_PASSWORD_CHAR_LENGTH_323) { sql_print_error("Fatal error: mysql.user table is damaged or in " "unsupported 3.20 format."); goto end; } DBUG_PRINT("info",("user table fields: %d, password length: %d", table->s->fields, password_length)); pthread_mutex_lock(&LOCK_global_system_variables); if (password_length < SCRAMBLED_PASSWORD_CHAR_LENGTH) { if (opt_secure_auth) { pthread_mutex_unlock(&LOCK_global_system_variables); sql_print_error("Fatal error: mysql.user table is in old format, " "but server started with --secure-auth option."); goto end; } sys_old_passwords.after_update= restrict_update_of_old_passwords_var; if (global_system_variables.old_passwords) pthread_mutex_unlock(&LOCK_global_system_variables); else { global_system_variables.old_passwords= 1; pthread_mutex_unlock(&LOCK_global_system_variables); sql_print_warning("mysql.user table is not updated to new password format; " "Disabling new password usage until " "mysql_fix_privilege_tables is run"); } thd->variables.old_passwords= 1; } else { sys_old_passwords.after_update= 0; pthread_mutex_unlock(&LOCK_global_system_variables); } allow_all_hosts=0; while (!(read_record_info.read_record(&read_record_info))) { ACL_USER user; update_hostname(&user.host, get_field(&mem, table->field[0])); user.user= get_field(&mem, table->field[1]); if (check_no_resolve && hostname_requires_resolving(user.host.hostname)) { sql_print_warning("'user' entry '%s@%s' " "ignored in --skip-name-resolve mode.", user.user ? user.user : "", user.host.hostname ? user.host.hostname : ""); continue; } const char *password= get_field(thd->mem_root, table->field[2]); uint password_len= password ? strlen(password) : 0; set_user_salt(&user, password, password_len); if (user.salt_len == 0 && password_len != 0) { switch (password_len) { case 45: /* 4.1: to be removed */ sql_print_warning("Found 4.1 style password for user '%s@%s'. " "Ignoring user. " "You should change password for this user.", user.user ? user.user : "", user.host.hostname ? user.host.hostname : ""); break; default: sql_print_warning("Found invalid password for user: '%s@%s'; " "Ignoring user", user.user ? user.user : "", user.host.hostname ? user.host.hostname : ""); break; } } else // password is correct { uint next_field; user.access= get_access(table,3,&next_field) & GLOBAL_ACLS; /* if it is pre 5.0.1 privilege table then map CREATE privilege on CREATE VIEW & SHOW VIEW privileges */ if (table->s->fields <= 31 && (user.access & CREATE_ACL)) user.access|= (CREATE_VIEW_ACL | SHOW_VIEW_ACL); /* if it is pre 5.0.2 privilege table then map CREATE/ALTER privilege on CREATE PROCEDURE & ALTER PROCEDURE privileges */ if (table->s->fields <= 33 && (user.access & CREATE_ACL)) user.access|= CREATE_PROC_ACL; if (table->s->fields <= 33 && (user.access & ALTER_ACL)) user.access|= ALTER_PROC_ACL; /* pre 5.0.3 did not have CREATE_USER_ACL */ if (table->s->fields <= 36 && (user.access & GRANT_ACL)) user.access|= CREATE_USER_ACL; /* if it is pre 5.1.6 privilege table then map CREATE privilege on CREATE|ALTER|DROP|EXECUTE EVENT */ if (table->s->fields <= 37 && (user.access & SUPER_ACL)) user.access|= EVENT_ACL; /* if it is pre 5.1.6 privilege then map TRIGGER privilege on CREATE. */ if (table->s->fields <= 38 && (user.access & SUPER_ACL)) user.access|= TRIGGER_ACL; user.sort= get_sort(2,user.host.hostname,user.user); user.hostname_length= (user.host.hostname ? (uint) strlen(user.host.hostname) : 0); /* Starting from 4.0.2 we have more fields */ if (table->s->fields >= 31) { char *ssl_type=get_field(thd->mem_root, table->field[next_field++]); if (!ssl_type) user.ssl_type=SSL_TYPE_NONE; else if (!strcmp(ssl_type, "ANY")) user.ssl_type=SSL_TYPE_ANY; else if (!strcmp(ssl_type, "X509")) user.ssl_type=SSL_TYPE_X509; else /* !strcmp(ssl_type, "SPECIFIED") */ user.ssl_type=SSL_TYPE_SPECIFIED; user.ssl_cipher= get_field(&mem, table->field[next_field++]); user.x509_issuer= get_field(&mem, table->field[next_field++]); user.x509_subject= get_field(&mem, table->field[next_field++]); char *ptr = get_field(thd->mem_root, table->field[next_field++]); user.user_resource.questions=ptr ? atoi(ptr) : 0; ptr = get_field(thd->mem_root, table->field[next_field++]); user.user_resource.updates=ptr ? atoi(ptr) : 0; ptr = get_field(thd->mem_root, table->field[next_field++]); user.user_resource.conn_per_hour= ptr ? atoi(ptr) : 0; if (user.user_resource.questions || user.user_resource.updates || user.user_resource.conn_per_hour) mqh_used=1; if (table->s->fields >= 36) { /* Starting from 5.0.3 we have max_user_connections field */ ptr= get_field(thd->mem_root, table->field[next_field++]); user.user_resource.user_conn= ptr ? atoi(ptr) : 0; } else user.user_resource.user_conn= 0; } else { user.ssl_type=SSL_TYPE_NONE; bzero((char *)&(user.user_resource),sizeof(user.user_resource)); #ifndef TO_BE_REMOVED if (table->s->fields <= 13) { // Without grant if (user.access & CREATE_ACL) user.access|=REFERENCES_ACL | INDEX_ACL | ALTER_ACL; } /* Convert old privileges */ user.access|= LOCK_TABLES_ACL | CREATE_TMP_ACL | SHOW_DB_ACL; if (user.access & FILE_ACL) user.access|= REPL_CLIENT_ACL | REPL_SLAVE_ACL; if (user.access & PROCESS_ACL) user.access|= SUPER_ACL | EXECUTE_ACL; #endif } VOID(push_dynamic(&acl_users,(uchar*) &user)); if (!user.host.hostname || (user.host.hostname[0] == wild_many && !user.host.hostname[1])) allow_all_hosts=1; // Anyone can connect } } my_qsort((uchar*) dynamic_element(&acl_users,0,ACL_USER*),acl_users.elements, sizeof(ACL_USER),(qsort_cmp) acl_compare); end_read_record(&read_record_info); freeze_size(&acl_users); init_read_record(&read_record_info,thd,table=tables[2].table,NULL,1,0,FALSE); table->use_all_columns(); VOID(my_init_dynamic_array(&acl_dbs,sizeof(ACL_DB),50,100)); while (!(read_record_info.read_record(&read_record_info))) { ACL_DB db; update_hostname(&db.host,get_field(&mem, table->field[MYSQL_DB_FIELD_HOST])); db.db=get_field(&mem, table->field[MYSQL_DB_FIELD_DB]); if (!db.db) { sql_print_warning("Found an entry in the 'db' table with empty database name; Skipped"); continue; } db.user=get_field(&mem, table->field[MYSQL_DB_FIELD_USER]); if (check_no_resolve && hostname_requires_resolving(db.host.hostname)) { sql_print_warning("'db' entry '%s %s@%s' " "ignored in --skip-name-resolve mode.", db.db, db.user ? db.user : "", db.host.hostname ? db.host.hostname : ""); continue; } db.access=get_access(table,3); db.access=fix_rights_for_db(db.access); if (lower_case_table_names) { /* convert db to lower case and give a warning if the db wasn't already in lower case */ (void)strmov(tmp_name, db.db); my_casedn_str(files_charset_info, db.db); if (strcmp(db.db, tmp_name) != 0) { sql_print_warning("'db' entry '%s %s@%s' had database in mixed " "case that has been forced to lowercase because " "lower_case_table_names is set. It will not be " "possible to remove this privilege using REVOKE.", db.db, db.user ? db.user : "", db.host.hostname ? db.host.hostname : ""); } } db.sort=get_sort(3,db.host.hostname,db.db,db.user); #ifndef TO_BE_REMOVED if (table->s->fields <= 9) { // Without grant if (db.access & CREATE_ACL) db.access|=REFERENCES_ACL | INDEX_ACL | ALTER_ACL; } #endif VOID(push_dynamic(&acl_dbs,(uchar*) &db)); } my_qsort((uchar*) dynamic_element(&acl_dbs,0,ACL_DB*),acl_dbs.elements, sizeof(ACL_DB),(qsort_cmp) acl_compare); end_read_record(&read_record_info); freeze_size(&acl_dbs); init_check_host(); initialized=1; return_val= FALSE; end: thd->variables.sql_mode= old_sql_mode; DBUG_RETURN(return_val); } void acl_free(bool end) { free_root(&mem,MYF(0)); delete_dynamic(&acl_hosts); delete_dynamic(&acl_users); delete_dynamic(&acl_dbs); delete_dynamic(&acl_wild_hosts); hash_free(&acl_check_hosts); if (!end) acl_cache->clear(1); /* purecov: inspected */ else { delete acl_cache; acl_cache=0; } } /* Forget current user/db-level privileges and read new privileges from the privilege tables. SYNOPSIS acl_reload() thd Current thread NOTE All tables of calling thread which were open and locked by LOCK TABLES statement will be unlocked and closed. This function is also used for initialization of structures responsible for user/db-level privilege checking. RETURN VALUE FALSE Success TRUE Failure */ my_bool acl_reload(THD *thd) { TABLE_LIST tables[3]; DYNAMIC_ARRAY old_acl_hosts,old_acl_users,old_acl_dbs; MEM_ROOT old_mem; bool old_initialized; my_bool return_val= TRUE; DBUG_ENTER("acl_reload"); if (thd->locked_tables) { // Can't have locked tables here thd->lock=thd->locked_tables; thd->locked_tables=0; close_thread_tables(thd); } /* To avoid deadlocks we should obtain table locks before obtaining acl_cache->lock mutex. */ bzero((char*) tables, sizeof(tables)); tables[0].alias= tables[0].table_name= (char*) "host"; tables[1].alias= tables[1].table_name= (char*) "user"; tables[2].alias= tables[2].table_name= (char*) "db"; tables[0].db=tables[1].db=tables[2].db=(char*) "mysql"; tables[0].next_local= tables[0].next_global= tables+1; tables[1].next_local= tables[1].next_global= tables+2; tables[0].lock_type=tables[1].lock_type=tables[2].lock_type=TL_READ; tables[0].skip_temporary= tables[1].skip_temporary= tables[2].skip_temporary= TRUE; if (simple_open_n_lock_tables(thd, tables)) { /* Execution might have been interrupted; only print the error message if an error condition has been raised. */ if (thd->main_da.is_error()) sql_print_error("Fatal error: Can't open and lock privilege tables: %s", thd->main_da.message()); goto end; } if ((old_initialized=initialized)) VOID(pthread_mutex_lock(&acl_cache->lock)); old_acl_hosts=acl_hosts; old_acl_users=acl_users; old_acl_dbs=acl_dbs; old_mem=mem; delete_dynamic(&acl_wild_hosts); hash_free(&acl_check_hosts); if ((return_val= acl_load(thd, tables))) { // Error. Revert to old list DBUG_PRINT("error",("Reverting to old privileges")); acl_free(); /* purecov: inspected */ acl_hosts=old_acl_hosts; acl_users=old_acl_users; acl_dbs=old_acl_dbs; mem=old_mem; init_check_host(); } else { free_root(&old_mem,MYF(0)); delete_dynamic(&old_acl_hosts); delete_dynamic(&old_acl_users); delete_dynamic(&old_acl_dbs); } if (old_initialized) VOID(pthread_mutex_unlock(&acl_cache->lock)); end: close_thread_tables(thd); DBUG_RETURN(return_val); } /* Get all access bits from table after fieldnr IMPLEMENTATION We know that the access privileges ends when there is no more fields or the field is not an enum with two elements. SYNOPSIS get_access() form an open table to read privileges from. The record should be already read in table->record[0] fieldnr number of the first privilege (that is ENUM('N','Y') field next_field on return - number of the field next to the last ENUM (unless next_field == 0) RETURN VALUE privilege mask */ static ulong get_access(TABLE *form, uint fieldnr, uint *next_field) { ulong access_bits=0,bit; char buff[2]; String res(buff,sizeof(buff),&my_charset_latin1); Field **pos; for (pos=form->field+fieldnr, bit=1; *pos && (*pos)->real_type() == MYSQL_TYPE_ENUM && ((Field_enum*) (*pos))->typelib->count == 2 ; pos++, fieldnr++, bit<<=1) { (*pos)->val_str(&res); if (my_toupper(&my_charset_latin1, res[0]) == 'Y') access_bits|= bit; } if (next_field) *next_field=fieldnr; return access_bits; } /* Return a number which, if sorted 'desc', puts strings in this order: no wildcards wildcards empty string */ static ulong get_sort(uint count,...) { va_list args; va_start(args,count); ulong sort=0; /* Should not use this function with more than 4 arguments for compare. */ DBUG_ASSERT(count <= 4); while (count--) { char *start, *str= va_arg(args,char*); uint chars= 0; uint wild_pos= 0; /* first wildcard position */ if ((start= str)) { for (; *str ; str++) { if (*str == wild_prefix && str[1]) str++; else if (*str == wild_many || *str == wild_one) { wild_pos= (uint) (str - start) + 1; break; } chars= 128; // Marker that chars existed } } sort= (sort << 8) + (wild_pos ? min(wild_pos, 127) : chars); } va_end(args); return sort; } static int acl_compare(ACL_ACCESS *a,ACL_ACCESS *b) { if (a->sort > b->sort) return -1; if (a->sort < b->sort) return 1; return 0; } /* Seek ACL entry for a user, check password, SSL cypher, and if everything is OK, update THD user data and USER_RESOURCES struct. IMPLEMENTATION This function does not check if the user has any sensible privileges: only user's existence and validity is checked. Note, that entire operation is protected by acl_cache_lock. SYNOPSIS acl_getroot() thd thread handle. If all checks are OK, thd->security_ctx->priv_user/master_access are updated. thd->security_ctx->host/ip/user are used for checks. mqh user resources; on success mqh is reset, else unchanged passwd scrambled & crypted password, received from client (to check): thd->scramble or thd->scramble_323 is used to decrypt passwd, so they must contain original random string, passwd_len length of passwd, must be one of 0, 8, SCRAMBLE_LENGTH_323, SCRAMBLE_LENGTH 'thd' and 'mqh' are updated on success; other params are IN. RETURN VALUE 0 success: thd->priv_user, thd->priv_host, thd->master_access, mqh are updated 1 user not found or authentication failure 2 user found, has long (4.1.1) salt, but passwd is in old (3.23) format. -1 user found, has short (3.23) salt, but passwd is in new (4.1.1) format. */ int acl_getroot(THD *thd, USER_RESOURCES *mqh, const char *passwd, uint passwd_len) { ulong user_access= NO_ACCESS; int res= 1; ACL_USER *acl_user= 0; Security_context *sctx= thd->security_ctx; DBUG_ENTER("acl_getroot"); if (!initialized) { /* here if mysqld's been started with --skip-grant-tables option. */ sctx->skip_grants(); bzero((char*) mqh, sizeof(*mqh)); DBUG_RETURN(0); } VOID(pthread_mutex_lock(&acl_cache->lock)); /* Find acl entry in user database. Note, that find_acl_user is not the same, because it doesn't take into account the case when user is not empty, but acl_user->user is empty */ for (uint i=0 ; i < acl_users.elements ; i++) { ACL_USER *acl_user_tmp= dynamic_element(&acl_users,i,ACL_USER*); if (!acl_user_tmp->user || !strcmp(sctx->user, acl_user_tmp->user)) { if (compare_hostname(&acl_user_tmp->host, sctx->host, sctx->ip)) { /* check password: it should be empty or valid */ if (passwd_len == acl_user_tmp->salt_len) { if (acl_user_tmp->salt_len == 0 || (acl_user_tmp->salt_len == SCRAMBLE_LENGTH ? check_scramble(passwd, thd->scramble, acl_user_tmp->salt) : check_scramble_323(passwd, thd->scramble, (ulong *) acl_user_tmp->salt)) == 0) { acl_user= acl_user_tmp; res= 0; } } else if (passwd_len == SCRAMBLE_LENGTH && acl_user_tmp->salt_len == SCRAMBLE_LENGTH_323) res= -1; else if (passwd_len == SCRAMBLE_LENGTH_323 && acl_user_tmp->salt_len == SCRAMBLE_LENGTH) res= 2; /* linear search complete: */ break; } } } /* This was moved to separate tree because of heavy HAVE_OPENSSL case. If acl_user is not null, res is 0. */ if (acl_user) { /* OK. User found and password checked continue validation */ #ifdef HAVE_OPENSSL Vio *vio=thd->net.vio; SSL *ssl= (SSL*) vio->ssl_arg; X509 *cert; #endif /* At this point we know that user is allowed to connect from given host by given username/password pair. Now we check if SSL is required, if user is using SSL and if X509 certificate attributes are OK */ switch (acl_user->ssl_type) { case SSL_TYPE_NOT_SPECIFIED: // Impossible case SSL_TYPE_NONE: // SSL is not required user_access= acl_user->access; break; #ifdef HAVE_OPENSSL case SSL_TYPE_ANY: // Any kind of SSL is ok if (vio_type(vio) == VIO_TYPE_SSL) user_access= acl_user->access; break; case SSL_TYPE_X509: /* Client should have any valid certificate. */ /* Connections with non-valid certificates are dropped already in sslaccept() anyway, so we do not check validity here. We need to check for absence of SSL because without SSL we should reject connection. */ if (vio_type(vio) == VIO_TYPE_SSL && SSL_get_verify_result(ssl) == X509_V_OK && (cert= SSL_get_peer_certificate(ssl))) { user_access= acl_user->access; X509_free(cert); } break; case SSL_TYPE_SPECIFIED: /* Client should have specified attrib */ /* We do not check for absence of SSL because without SSL it does not pass all checks here anyway. If cipher name is specified, we compare it to actual cipher in use. */ if (vio_type(vio) != VIO_TYPE_SSL || SSL_get_verify_result(ssl) != X509_V_OK) break; if (acl_user->ssl_cipher) { DBUG_PRINT("info",("comparing ciphers: '%s' and '%s'", acl_user->ssl_cipher,SSL_get_cipher(ssl))); if (!strcmp(acl_user->ssl_cipher,SSL_get_cipher(ssl))) user_access= acl_user->access; else { if (global_system_variables.log_warnings) sql_print_information("X509 ciphers mismatch: should be '%s' but is '%s'", acl_user->ssl_cipher, SSL_get_cipher(ssl)); break; } } /* Prepare certificate (if exists) */ DBUG_PRINT("info",("checkpoint 1")); if (!(cert= SSL_get_peer_certificate(ssl))) { user_access=NO_ACCESS; break; } DBUG_PRINT("info",("checkpoint 2")); /* If X509 issuer is specified, we check it... */ if (acl_user->x509_issuer) { DBUG_PRINT("info",("checkpoint 3")); char *ptr = X509_NAME_oneline(X509_get_issuer_name(cert), 0, 0); DBUG_PRINT("info",("comparing issuers: '%s' and '%s'", acl_user->x509_issuer, ptr)); if (strcmp(acl_user->x509_issuer, ptr)) { if (global_system_variables.log_warnings) sql_print_information("X509 issuer mismatch: should be '%s' " "but is '%s'", acl_user->x509_issuer, ptr); free(ptr); X509_free(cert); user_access=NO_ACCESS; break; } user_access= acl_user->access; free(ptr); } DBUG_PRINT("info",("checkpoint 4")); /* X509 subject is specified, we check it .. */ if (acl_user->x509_subject) { char *ptr= X509_NAME_oneline(X509_get_subject_name(cert), 0, 0); DBUG_PRINT("info",("comparing subjects: '%s' and '%s'", acl_user->x509_subject, ptr)); if (strcmp(acl_user->x509_subject,ptr)) { if (global_system_variables.log_warnings) sql_print_information("X509 subject mismatch: should be '%s' but is '%s'", acl_user->x509_subject, ptr); free(ptr); X509_free(cert); user_access=NO_ACCESS; break; } user_access= acl_user->access; free(ptr); } /* Deallocate the X509 certificate. */ X509_free(cert); break; #else /* HAVE_OPENSSL */ default: /* If we don't have SSL but SSL is required for this user the authentication should fail. */ break; #endif /* HAVE_OPENSSL */ } sctx->master_access= user_access; sctx->priv_user= acl_user->user ? sctx->user : (char *) ""; *mqh= acl_user->user_resource; if (acl_user->host.hostname) strmake(sctx->priv_host, acl_user->host.hostname, MAX_HOSTNAME - 1); else *sctx->priv_host= 0; } VOID(pthread_mutex_unlock(&acl_cache->lock)); DBUG_RETURN(res); } /* This is like acl_getroot() above, but it doesn't check password, and we don't care about the user resources. SYNOPSIS acl_getroot_no_password() sctx Context which should be initialized user user name host host name ip IP db current data base name RETURN FALSE OK TRUE Error */ bool acl_getroot_no_password(Security_context *sctx, char *user, char *host, char *ip, char *db) { int res= 1; uint i; ACL_USER *acl_user= 0; DBUG_ENTER("acl_getroot_no_password"); DBUG_PRINT("enter", ("Host: '%s', Ip: '%s', User: '%s', db: '%s'", (host ? host : "(NULL)"), (ip ? ip : "(NULL)"), user, (db ? db : "(NULL)"))); sctx->user= user; sctx->host= host; sctx->ip= ip; sctx->host_or_ip= host ? host : (ip ? ip : ""); if (!initialized) { /* here if mysqld's been started with --skip-grant-tables option. */ sctx->skip_grants(); DBUG_RETURN(FALSE); } VOID(pthread_mutex_lock(&acl_cache->lock)); sctx->master_access= 0; sctx->db_access= 0; sctx->priv_user= (char *) ""; *sctx->priv_host= 0; /* Find acl entry in user database. This is specially tailored to suit the check we do for CALL of a stored procedure; user is set to what is actually a priv_user, which can be ''. */ for (i=0 ; i < acl_users.elements ; i++) { ACL_USER *acl_user_tmp= dynamic_element(&acl_users,i,ACL_USER*); if ((!acl_user_tmp->user && !user[0]) || (acl_user_tmp->user && strcmp(user, acl_user_tmp->user) == 0)) { if (compare_hostname(&acl_user_tmp->host, host, ip)) { acl_user= acl_user_tmp; res= 0; break; } } } if (acl_user) { for (i=0 ; i < acl_dbs.elements ; i++) { ACL_DB *acl_db= dynamic_element(&acl_dbs, i, ACL_DB*); if (!acl_db->user || (user && user[0] && !strcmp(user, acl_db->user))) { if (compare_hostname(&acl_db->host, host, ip)) { if (!acl_db->db || (db && !wild_compare(db, acl_db->db, 0))) { sctx->db_access= acl_db->access; break; } } } } sctx->master_access= acl_user->access; sctx->priv_user= acl_user->user ? user : (char *) ""; if (acl_user->host.hostname) strmake(sctx->priv_host, acl_user->host.hostname, MAX_HOSTNAME - 1); else *sctx->priv_host= 0; } VOID(pthread_mutex_unlock(&acl_cache->lock)); DBUG_RETURN(res); } static uchar* check_get_key(ACL_USER *buff, size_t *length, my_bool not_used __attribute__((unused))) { *length=buff->hostname_length; return (uchar*) buff->host.hostname; } static void acl_update_user(const char *user, const char *host, const char *password, uint password_len, enum SSL_type ssl_type, const char *ssl_cipher, const char *x509_issuer, const char *x509_subject, USER_RESOURCES *mqh, ulong privileges) { safe_mutex_assert_owner(&acl_cache->lock); for (uint i=0 ; i < acl_users.elements ; i++) { ACL_USER *acl_user=dynamic_element(&acl_users,i,ACL_USER*); if ((!acl_user->user && !user[0]) || (acl_user->user && !strcmp(user,acl_user->user))) { if ((!acl_user->host.hostname && !host[0]) || (acl_user->host.hostname && !my_strcasecmp(system_charset_info, host, acl_user->host.hostname))) { acl_user->access=privileges; if (mqh->specified_limits & USER_RESOURCES::QUERIES_PER_HOUR) acl_user->user_resource.questions=mqh->questions; if (mqh->specified_limits & USER_RESOURCES::UPDATES_PER_HOUR) acl_user->user_resource.updates=mqh->updates; if (mqh->specified_limits & USER_RESOURCES::CONNECTIONS_PER_HOUR) acl_user->user_resource.conn_per_hour= mqh->conn_per_hour; if (mqh->specified_limits & USER_RESOURCES::USER_CONNECTIONS) acl_user->user_resource.user_conn= mqh->user_conn; if (ssl_type != SSL_TYPE_NOT_SPECIFIED) { acl_user->ssl_type= ssl_type; acl_user->ssl_cipher= (ssl_cipher ? strdup_root(&mem,ssl_cipher) : 0); acl_user->x509_issuer= (x509_issuer ? strdup_root(&mem,x509_issuer) : 0); acl_user->x509_subject= (x509_subject ? strdup_root(&mem,x509_subject) : 0); } if (password) set_user_salt(acl_user, password, password_len); /* search complete: */ break; } } } } static void acl_insert_user(const char *user, const char *host, const char *password, uint password_len, enum SSL_type ssl_type, const char *ssl_cipher, const char *x509_issuer, const char *x509_subject, USER_RESOURCES *mqh, ulong privileges) { ACL_USER acl_user; safe_mutex_assert_owner(&acl_cache->lock); acl_user.user=*user ? strdup_root(&mem,user) : 0; update_hostname(&acl_user.host, *host ? strdup_root(&mem, host): 0); acl_user.access=privileges; acl_user.user_resource = *mqh; acl_user.sort=get_sort(2,acl_user.host.hostname,acl_user.user); acl_user.hostname_length=(uint) strlen(host); acl_user.ssl_type= (ssl_type != SSL_TYPE_NOT_SPECIFIED ? ssl_type : SSL_TYPE_NONE); acl_user.ssl_cipher= ssl_cipher ? strdup_root(&mem,ssl_cipher) : 0; acl_user.x509_issuer= x509_issuer ? strdup_root(&mem,x509_issuer) : 0; acl_user.x509_subject=x509_subject ? strdup_root(&mem,x509_subject) : 0; set_user_salt(&acl_user, password, password_len); VOID(push_dynamic(&acl_users,(uchar*) &acl_user)); if (!acl_user.host.hostname || (acl_user.host.hostname[0] == wild_many && !acl_user.host.hostname[1])) allow_all_hosts=1; // Anyone can connect /* purecov: tested */ my_qsort((uchar*) dynamic_element(&acl_users,0,ACL_USER*),acl_users.elements, sizeof(ACL_USER),(qsort_cmp) acl_compare); /* Rebuild 'acl_check_hosts' since 'acl_users' has been modified */ rebuild_check_host(); } static void acl_update_db(const char *user, const char *host, const char *db, ulong privileges) { safe_mutex_assert_owner(&acl_cache->lock); for (uint i=0 ; i < acl_dbs.elements ; i++) { ACL_DB *acl_db=dynamic_element(&acl_dbs,i,ACL_DB*); if ((!acl_db->user && !user[0]) || (acl_db->user && !strcmp(user,acl_db->user))) { if ((!acl_db->host.hostname && !host[0]) || (acl_db->host.hostname && !strcmp(host, acl_db->host.hostname))) { if ((!acl_db->db && !db[0]) || (acl_db->db && !strcmp(db,acl_db->db))) { if (privileges) acl_db->access=privileges; else delete_dynamic_element(&acl_dbs,i); } } } } } /* Insert a user/db/host combination into the global acl_cache SYNOPSIS acl_insert_db() user User name host Host name db Database name privileges Bitmap of privileges NOTES acl_cache->lock must be locked when calling this */ static void acl_insert_db(const char *user, const char *host, const char *db, ulong privileges) { ACL_DB acl_db; safe_mutex_assert_owner(&acl_cache->lock); acl_db.user=strdup_root(&mem,user); update_hostname(&acl_db.host, *host ? strdup_root(&mem,host) : 0); acl_db.db=strdup_root(&mem,db); acl_db.access=privileges; acl_db.sort=get_sort(3,acl_db.host.hostname,acl_db.db,acl_db.user); VOID(push_dynamic(&acl_dbs,(uchar*) &acl_db)); my_qsort((uchar*) dynamic_element(&acl_dbs,0,ACL_DB*),acl_dbs.elements, sizeof(ACL_DB),(qsort_cmp) acl_compare); } /* Get privilege for a host, user and db combination as db_is_pattern changes the semantics of comparison, acl_cache is not used if db_is_pattern is set. */ ulong acl_get(const char *host, const char *ip, const char *user, const char *db, my_bool db_is_pattern) { ulong host_access= ~(ulong)0, db_access= 0; uint i; size_t key_length; char key[ACL_KEY_LENGTH],*tmp_db,*end; acl_entry *entry; DBUG_ENTER("acl_get"); VOID(pthread_mutex_lock(&acl_cache->lock)); end=strmov((tmp_db=strmov(strmov(key, ip ? ip : "")+1,user)+1),db); if (lower_case_table_names) { my_casedn_str(files_charset_info, tmp_db); db=tmp_db; } key_length= (size_t) (end-key); if (!db_is_pattern && (entry=(acl_entry*) acl_cache->search((uchar*) key, key_length))) { db_access=entry->access; VOID(pthread_mutex_unlock(&acl_cache->lock)); DBUG_PRINT("exit", ("access: 0x%lx", db_access)); DBUG_RETURN(db_access); } /* Check if there are some access rights for database and user */ for (i=0 ; i < acl_dbs.elements ; i++) { ACL_DB *acl_db=dynamic_element(&acl_dbs,i,ACL_DB*); if (!acl_db->user || !strcmp(user,acl_db->user)) { if (compare_hostname(&acl_db->host,host,ip)) { if (!acl_db->db || !wild_compare(db,acl_db->db,db_is_pattern)) { db_access=acl_db->access; if (acl_db->host.hostname) goto exit; // Fully specified. Take it break; /* purecov: tested */ } } } } if (!db_access) goto exit; // Can't be better /* No host specified for user. Get hostdata from host table */ host_access=0; // Host must be found for (i=0 ; i < acl_hosts.elements ; i++) { ACL_HOST *acl_host=dynamic_element(&acl_hosts,i,ACL_HOST*); if (compare_hostname(&acl_host->host,host,ip)) { if (!acl_host->db || !wild_compare(db,acl_host->db,db_is_pattern)) { host_access=acl_host->access; // Fully specified. Take it break; } } } exit: /* Save entry in cache for quick retrieval */ if (!db_is_pattern && (entry= (acl_entry*) malloc(sizeof(acl_entry)+key_length))) { entry->access=(db_access & host_access); entry->length=key_length; memcpy((uchar*) entry->key,key,key_length); acl_cache->add(entry); } VOID(pthread_mutex_unlock(&acl_cache->lock)); DBUG_PRINT("exit", ("access: 0x%lx", db_access & host_access)); DBUG_RETURN(db_access & host_access); } /* Check if there are any possible matching entries for this host NOTES All host names without wild cards are stored in a hash table, entries with wildcards are stored in a dynamic array */ static void init_check_host(void) { DBUG_ENTER("init_check_host"); VOID(my_init_dynamic_array(&acl_wild_hosts,sizeof(struct acl_host_and_ip), acl_users.elements,1)); VOID(hash_init(&acl_check_hosts,system_charset_info,acl_users.elements,0,0, (hash_get_key) check_get_key,0,0)); if (!allow_all_hosts) { for (uint i=0 ; i < acl_users.elements ; i++) { ACL_USER *acl_user=dynamic_element(&acl_users,i,ACL_USER*); if (strchr(acl_user->host.hostname,wild_many) || strchr(acl_user->host.hostname,wild_one) || acl_user->host.ip_mask) { // Has wildcard uint j; for (j=0 ; j < acl_wild_hosts.elements ; j++) { // Check if host already exists acl_host_and_ip *acl=dynamic_element(&acl_wild_hosts,j, acl_host_and_ip *); if (!my_strcasecmp(system_charset_info, acl_user->host.hostname, acl->hostname)) break; // already stored } if (j == acl_wild_hosts.elements) // If new (void) push_dynamic(&acl_wild_hosts,(uchar*) &acl_user->host); } else if (!hash_search(&acl_check_hosts,(uchar*) acl_user->host.hostname, strlen(acl_user->host.hostname))) { if (my_hash_insert(&acl_check_hosts,(uchar*) acl_user)) { // End of memory allow_all_hosts=1; // Should never happen DBUG_VOID_RETURN; } } } } freeze_size(&acl_wild_hosts); freeze_size(&acl_check_hosts.array); DBUG_VOID_RETURN; } /* Rebuild lists used for checking of allowed hosts We need to rebuild 'acl_check_hosts' and 'acl_wild_hosts' after adding, dropping or renaming user, since they contain pointers to elements of 'acl_user' array, which are invalidated by drop operation, and use ACL_USER::host::hostname as a key, which is changed by rename. */ void rebuild_check_host(void) { delete_dynamic(&acl_wild_hosts); hash_free(&acl_check_hosts); init_check_host(); } /* Return true if there is no users that can match the given host */ bool acl_check_host(const char *host, const char *ip) { if (allow_all_hosts) return 0; VOID(pthread_mutex_lock(&acl_cache->lock)); if ((host && hash_search(&acl_check_hosts,(uchar*) host,strlen(host))) || (ip && hash_search(&acl_check_hosts,(uchar*) ip, strlen(ip)))) { VOID(pthread_mutex_unlock(&acl_cache->lock)); return 0; // Found host } for (uint i=0 ; i < acl_wild_hosts.elements ; i++) { acl_host_and_ip *acl=dynamic_element(&acl_wild_hosts,i,acl_host_and_ip*); if (compare_hostname(acl, host, ip)) { VOID(pthread_mutex_unlock(&acl_cache->lock)); return 0; // Host ok } } VOID(pthread_mutex_unlock(&acl_cache->lock)); return 1; // Host is not allowed } /* Check if the user is allowed to change password SYNOPSIS: check_change_password() thd THD host hostname for the user user user name new_password new password NOTE: new_password cannot be NULL RETURN VALUE 0 OK 1 ERROR ; In this case the error is sent to the client. */ int check_change_password(THD *thd, const char *host, const char *user, char *new_password, uint new_password_len) { if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); return(1); } if (!thd->slave_thread && (strcmp(thd->security_ctx->user, user) || my_strcasecmp(system_charset_info, host, thd->security_ctx->priv_host))) { if (check_access(thd, UPDATE_ACL, "mysql",0,1,0,0)) return(1); } if (!thd->slave_thread && !thd->security_ctx->user[0]) { my_message(ER_PASSWORD_ANONYMOUS_USER, ER(ER_PASSWORD_ANONYMOUS_USER), MYF(0)); return(1); } size_t len= strlen(new_password); if (len && len != SCRAMBLED_PASSWORD_CHAR_LENGTH && len != SCRAMBLED_PASSWORD_CHAR_LENGTH_323) { my_error(ER_PASSWD_LENGTH, MYF(0), SCRAMBLED_PASSWORD_CHAR_LENGTH); return -1; } return(0); } /* Change a password for a user SYNOPSIS change_password() thd Thread handle host Hostname user User name new_password New password for host@user RETURN VALUES 0 ok 1 ERROR; In this case the error is sent to the client. */ bool change_password(THD *thd, const char *host, const char *user, char *new_password) { TABLE_LIST tables; TABLE *table; /* Buffer should be extended when password length is extended. */ char buff[512]; ulong query_length; bool save_binlog_row_based; uint new_password_len= (uint) strlen(new_password); bool result= 1; DBUG_ENTER("change_password"); DBUG_PRINT("enter",("host: '%s' user: '%s' new_password: '%s'", host,user,new_password)); DBUG_ASSERT(host != 0); // Ensured by parent if (check_change_password(thd, host, user, new_password, new_password_len)) DBUG_RETURN(1); bzero((char*) &tables, sizeof(tables)); tables.alias= tables.table_name= (char*) "user"; tables.db= (char*) "mysql"; #ifdef HAVE_REPLICATION /* GRANT and REVOKE are applied the slave in/exclusion rules as they are some kind of updates to the mysql.% tables. */ if (thd->slave_thread && rpl_filter->is_on()) { /* The tables must be marked "updating" so that tables_ok() takes them into account in tests. It's ok to leave 'updating' set after tables_ok. */ tables.updating= 1; /* Thanks to bzero, tables.next==0 */ if (!(thd->spcont || rpl_filter->tables_ok(0, &tables))) DBUG_RETURN(0); } #endif if (!(table= open_ltable(thd, &tables, TL_WRITE, 0))) DBUG_RETURN(1); /* This statement will be replicated as a statement, even when using row-based replication. The flag will be reset at the end of the statement. */ if ((save_binlog_row_based= thd->current_stmt_binlog_row_based)) thd->clear_current_stmt_binlog_row_based(); VOID(pthread_mutex_lock(&acl_cache->lock)); ACL_USER *acl_user; if (!(acl_user= find_acl_user(host, user, TRUE))) { VOID(pthread_mutex_unlock(&acl_cache->lock)); my_message(ER_PASSWORD_NO_MATCH, ER(ER_PASSWORD_NO_MATCH), MYF(0)); goto end; } /* update loaded acl entry: */ set_user_salt(acl_user, new_password, new_password_len); if (update_user_table(thd, table, acl_user->host.hostname ? acl_user->host.hostname : "", acl_user->user ? acl_user->user : "", new_password, new_password_len)) { VOID(pthread_mutex_unlock(&acl_cache->lock)); /* purecov: deadcode */ goto end; } acl_cache->clear(1); // Clear locked hostname cache VOID(pthread_mutex_unlock(&acl_cache->lock)); result= 0; if (mysql_bin_log.is_open()) { query_length= sprintf(buff, "SET PASSWORD FOR '%-.120s'@'%-.120s'='%-.120s'", acl_user->user ? acl_user->user : "", acl_user->host.hostname ? acl_user->host.hostname : "", new_password); thd->clear_error(); result= thd->binlog_query(THD::MYSQL_QUERY_TYPE, buff, query_length, FALSE, FALSE, 0); } end: close_thread_tables(thd); /* Restore the state of binlog format */ DBUG_ASSERT(!thd->current_stmt_binlog_row_based); if (save_binlog_row_based) thd->set_current_stmt_binlog_row_based(); DBUG_RETURN(result); } /* Find user in ACL SYNOPSIS is_acl_user() host host name user user name RETURN FALSE user not fond TRUE there are such user */ bool is_acl_user(const char *host, const char *user) { bool res; /* --skip-grants */ if (!initialized) return TRUE; VOID(pthread_mutex_lock(&acl_cache->lock)); res= find_acl_user(host, user, TRUE) != NULL; VOID(pthread_mutex_unlock(&acl_cache->lock)); return res; } /* Find first entry that matches the current user */ static ACL_USER * find_acl_user(const char *host, const char *user, my_bool exact) { DBUG_ENTER("find_acl_user"); DBUG_PRINT("enter",("host: '%s' user: '%s'",host,user)); safe_mutex_assert_owner(&acl_cache->lock); for (uint i=0 ; i < acl_users.elements ; i++) { ACL_USER *acl_user=dynamic_element(&acl_users,i,ACL_USER*); DBUG_PRINT("info",("strcmp('%s','%s'), compare_hostname('%s','%s'),", user, acl_user->user ? acl_user->user : "", host, acl_user->host.hostname ? acl_user->host.hostname : "")); if ((!acl_user->user && !user[0]) || (acl_user->user && !strcmp(user,acl_user->user))) { if (exact ? !my_strcasecmp(system_charset_info, host, acl_user->host.hostname ? acl_user->host.hostname : "") : compare_hostname(&acl_user->host,host,host)) { DBUG_RETURN(acl_user); } } } DBUG_RETURN(0); } /* Comparing of hostnames NOTES A hostname may be of type: hostname (May include wildcards); monty.pp.sci.fi ip (May include wildcards); 192.168.0.0 ip/netmask 192.168.0.0/255.255.255.0 A net mask of 0.0.0.0 is not allowed. */ static const char *calc_ip(const char *ip, long *val, char end) { long ip_val,tmp; if (!(ip=str2int(ip,10,0,255,&ip_val)) || *ip != '.') return 0; ip_val<<=24; if (!(ip=str2int(ip+1,10,0,255,&tmp)) || *ip != '.') return 0; ip_val+=tmp<<16; if (!(ip=str2int(ip+1,10,0,255,&tmp)) || *ip != '.') return 0; ip_val+=tmp<<8; if (!(ip=str2int(ip+1,10,0,255,&tmp)) || *ip != end) return 0; *val=ip_val+tmp; return ip; } static void update_hostname(acl_host_and_ip *host, const char *hostname) { host->hostname=(char*) hostname; // This will not be modified! if (!hostname || (!(hostname=calc_ip(hostname,&host->ip,'/')) || !(hostname=calc_ip(hostname+1,&host->ip_mask,'\0')))) { host->ip= host->ip_mask=0; // Not a masked ip } } static bool compare_hostname(const acl_host_and_ip *host, const char *hostname, const char *ip) { long tmp; if (host->ip_mask && ip && calc_ip(ip,&tmp,'\0')) { return (tmp & host->ip_mask) == host->ip; } return (!host->hostname || (hostname && !wild_case_compare(system_charset_info, hostname, host->hostname)) || (ip && !wild_compare(ip, host->hostname, 0))); } bool hostname_requires_resolving(const char *hostname) { char cur; if (!hostname) return FALSE; size_t namelen= strlen(hostname); size_t lhlen= strlen(my_localhost); if ((namelen == lhlen) && !my_strnncoll(system_charset_info, (const uchar *)hostname, namelen, (const uchar *)my_localhost, strlen(my_localhost))) return FALSE; for (; (cur=*hostname); hostname++) { if ((cur != '%') && (cur != '_') && (cur != '.') && (cur != '/') && ((cur < '0') || (cur > '9'))) return TRUE; } return FALSE; } /* Update record for user in mysql.user privilege table with new password. SYNOPSIS update_user_table() thd Thread handle table Pointer to TABLE object for open mysql.user table host/user Hostname/username pair identifying user for which new password should be set new_password New password new_password_len Length of new password */ static bool update_user_table(THD *thd, TABLE *table, const char *host, const char *user, const char *new_password, uint new_password_len) { char user_key[MAX_KEY_LENGTH]; int error; DBUG_ENTER("update_user_table"); DBUG_PRINT("enter",("user: %s host: %s",user,host)); table->use_all_columns(); table->field[0]->store(host,(uint) strlen(host), system_charset_info); table->field[1]->store(user,(uint) strlen(user), system_charset_info); key_copy((uchar *) user_key, table->record[0], table->key_info, table->key_info->key_length); if (table->file->index_read_idx_map(table->record[0], 0, (uchar *) user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { my_message(ER_PASSWORD_NO_MATCH, ER(ER_PASSWORD_NO_MATCH), MYF(0)); /* purecov: deadcode */ DBUG_RETURN(1); /* purecov: deadcode */ } store_record(table,record[1]); table->field[2]->store(new_password, new_password_len, system_charset_info); if ((error=table->file->ha_update_row(table->record[1],table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) { table->file->print_error(error,MYF(0)); /* purecov: deadcode */ DBUG_RETURN(1); } DBUG_RETURN(0); } /* Return 1 if we are allowed to create new users the logic here is: INSERT_ACL is sufficient. It's also a requirement in opt_safe_user_create, otherwise CREATE_USER_ACL is enough. */ static bool test_if_create_new_users(THD *thd) { Security_context *sctx= thd->security_ctx; bool create_new_users= test(sctx->master_access & INSERT_ACL) || (!opt_safe_user_create && test(sctx->master_access & CREATE_USER_ACL)); if (!create_new_users) { TABLE_LIST tl; ulong db_access; bzero((char*) &tl,sizeof(tl)); tl.db= (char*) "mysql"; tl.table_name= (char*) "user"; create_new_users= 1; db_access=acl_get(sctx->host, sctx->ip, sctx->priv_user, tl.db, 0); if (!(db_access & INSERT_ACL)) { if (check_grant(thd, INSERT_ACL, &tl, 0, UINT_MAX, 1)) create_new_users=0; } } return create_new_users; } /**************************************************************************** Handle GRANT commands ****************************************************************************/ static int replace_user_table(THD *thd, TABLE *table, const LEX_USER &combo, ulong rights, bool revoke_grant, bool can_create_user, bool no_auto_create) { int error = -1; bool old_row_exists=0; const char *password= ""; uint password_len= 0; char what= (revoke_grant) ? 'N' : 'Y'; uchar user_key[MAX_KEY_LENGTH]; LEX *lex= thd->lex; DBUG_ENTER("replace_user_table"); safe_mutex_assert_owner(&acl_cache->lock); if (combo.password.str && combo.password.str[0]) { if (combo.password.length != SCRAMBLED_PASSWORD_CHAR_LENGTH && combo.password.length != SCRAMBLED_PASSWORD_CHAR_LENGTH_323) { my_error(ER_PASSWD_LENGTH, MYF(0), SCRAMBLED_PASSWORD_CHAR_LENGTH); DBUG_RETURN(-1); } password_len= combo.password.length; password=combo.password.str; } table->use_all_columns(); table->field[0]->store(combo.host.str,combo.host.length, system_charset_info); table->field[1]->store(combo.user.str,combo.user.length, system_charset_info); key_copy(user_key, table->record[0], table->key_info, table->key_info->key_length); if (table->file->index_read_idx_map(table->record[0], 0, user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { /* what == 'N' means revoke */ if (what == 'N') { my_error(ER_NONEXISTING_GRANT, MYF(0), combo.user.str, combo.host.str); goto end; } /* There are four options which affect the process of creation of a new user (mysqld option --safe-create-user, 'insert' privilege on 'mysql.user' table, using 'GRANT' with 'IDENTIFIED BY' and SQL_MODE flag NO_AUTO_CREATE_USER). Below is the simplified rule how it should work. if (safe-user-create && ! INSERT_priv) => reject else if (identified_by) => create else if (no_auto_create_user) => reject else create see also test_if_create_new_users() */ else if (!password_len && no_auto_create) { my_error(ER_PASSWORD_NO_MATCH, MYF(0), combo.user.str, combo.host.str); goto end; } else if (!can_create_user) { my_error(ER_CANT_CREATE_USER_WITH_GRANT, MYF(0), thd->security_ctx->user, thd->security_ctx->host_or_ip); goto end; } old_row_exists = 0; restore_record(table,s->default_values); table->field[0]->store(combo.host.str,combo.host.length, system_charset_info); table->field[1]->store(combo.user.str,combo.user.length, system_charset_info); table->field[2]->store(password, password_len, system_charset_info); } else { old_row_exists = 1; store_record(table,record[1]); // Save copy for update if (combo.password.str) // If password given table->field[2]->store(password, password_len, system_charset_info); else if (!rights && !revoke_grant && lex->ssl_type == SSL_TYPE_NOT_SPECIFIED && !lex->mqh.specified_limits) { DBUG_RETURN(0); } } /* Update table columns with new privileges */ Field **tmp_field; ulong priv; uint next_field; for (tmp_field= table->field+3, priv = SELECT_ACL; *tmp_field && (*tmp_field)->real_type() == MYSQL_TYPE_ENUM && ((Field_enum*) (*tmp_field))->typelib->count == 2 ; tmp_field++, priv <<= 1) { if (priv & rights) // set requested privileges (*tmp_field)->store(&what, 1, &my_charset_latin1); } rights= get_access(table, 3, &next_field); DBUG_PRINT("info",("table fields: %d",table->s->fields)); if (table->s->fields >= 31) /* From 4.0.0 we have more fields */ { /* We write down SSL related ACL stuff */ switch (lex->ssl_type) { case SSL_TYPE_ANY: table->field[next_field]->store(STRING_WITH_LEN("ANY"), &my_charset_latin1); table->field[next_field+1]->store("", 0, &my_charset_latin1); table->field[next_field+2]->store("", 0, &my_charset_latin1); table->field[next_field+3]->store("", 0, &my_charset_latin1); break; case SSL_TYPE_X509: table->field[next_field]->store(STRING_WITH_LEN("X509"), &my_charset_latin1); table->field[next_field+1]->store("", 0, &my_charset_latin1); table->field[next_field+2]->store("", 0, &my_charset_latin1); table->field[next_field+3]->store("", 0, &my_charset_latin1); break; case SSL_TYPE_SPECIFIED: table->field[next_field]->store(STRING_WITH_LEN("SPECIFIED"), &my_charset_latin1); table->field[next_field+1]->store("", 0, &my_charset_latin1); table->field[next_field+2]->store("", 0, &my_charset_latin1); table->field[next_field+3]->store("", 0, &my_charset_latin1); if (lex->ssl_cipher) table->field[next_field+1]->store(lex->ssl_cipher, strlen(lex->ssl_cipher), system_charset_info); if (lex->x509_issuer) table->field[next_field+2]->store(lex->x509_issuer, strlen(lex->x509_issuer), system_charset_info); if (lex->x509_subject) table->field[next_field+3]->store(lex->x509_subject, strlen(lex->x509_subject), system_charset_info); break; case SSL_TYPE_NOT_SPECIFIED: break; case SSL_TYPE_NONE: table->field[next_field]->store("", 0, &my_charset_latin1); table->field[next_field+1]->store("", 0, &my_charset_latin1); table->field[next_field+2]->store("", 0, &my_charset_latin1); table->field[next_field+3]->store("", 0, &my_charset_latin1); break; } next_field+=4; USER_RESOURCES mqh= lex->mqh; if (mqh.specified_limits & USER_RESOURCES::QUERIES_PER_HOUR) table->field[next_field]->store((longlong) mqh.questions, TRUE); if (mqh.specified_limits & USER_RESOURCES::UPDATES_PER_HOUR) table->field[next_field+1]->store((longlong) mqh.updates, TRUE); if (mqh.specified_limits & USER_RESOURCES::CONNECTIONS_PER_HOUR) table->field[next_field+2]->store((longlong) mqh.conn_per_hour, TRUE); if (table->s->fields >= 36 && (mqh.specified_limits & USER_RESOURCES::USER_CONNECTIONS)) table->field[next_field+3]->store((longlong) mqh.user_conn, TRUE); mqh_used= mqh_used || mqh.questions || mqh.updates || mqh.conn_per_hour; } if (old_row_exists) { /* We should NEVER delete from the user table, as a uses can still use mysqld even if he doesn't have any privileges in the user table! */ if (cmp_record(table,record[1])) { if ((error= table->file->ha_update_row(table->record[1],table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) { // This should never happen table->file->print_error(error,MYF(0)); /* purecov: deadcode */ error= -1; /* purecov: deadcode */ goto end; /* purecov: deadcode */ } else error= 0; } } else if ((error=table->file->ha_write_row(table->record[0]))) // insert { // This should never happen if (table->file->is_fatal_error(error, HA_CHECK_DUP)) { table->file->print_error(error,MYF(0)); /* purecov: deadcode */ error= -1; /* purecov: deadcode */ goto end; /* purecov: deadcode */ } } error=0; // Privileges granted / revoked end: if (!error) { acl_cache->clear(1); // Clear privilege cache if (old_row_exists) acl_update_user(combo.user.str, combo.host.str, combo.password.str, password_len, lex->ssl_type, lex->ssl_cipher, lex->x509_issuer, lex->x509_subject, &lex->mqh, rights); else acl_insert_user(combo.user.str, combo.host.str, password, password_len, lex->ssl_type, lex->ssl_cipher, lex->x509_issuer, lex->x509_subject, &lex->mqh, rights); } DBUG_RETURN(error); } /* change grants in the mysql.db table */ static int replace_db_table(TABLE *table, const char *db, const LEX_USER &combo, ulong rights, bool revoke_grant) { uint i; ulong priv,store_rights; bool old_row_exists=0; int error; char what= (revoke_grant) ? 'N' : 'Y'; uchar user_key[MAX_KEY_LENGTH]; DBUG_ENTER("replace_db_table"); if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); DBUG_RETURN(-1); } /* Check if there is such a user in user table in memory? */ if (!find_acl_user(combo.host.str,combo.user.str, FALSE)) { my_message(ER_PASSWORD_NO_MATCH, ER(ER_PASSWORD_NO_MATCH), MYF(0)); DBUG_RETURN(-1); } table->use_all_columns(); table->field[0]->store(combo.host.str,combo.host.length, system_charset_info); table->field[1]->store(db,(uint) strlen(db), system_charset_info); table->field[2]->store(combo.user.str,combo.user.length, system_charset_info); key_copy(user_key, table->record[0], table->key_info, table->key_info->key_length); if (table->file->index_read_idx_map(table->record[0],0, user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { if (what == 'N') { // no row, no revoke my_error(ER_NONEXISTING_GRANT, MYF(0), combo.user.str, combo.host.str); goto abort; } old_row_exists = 0; restore_record(table, s->default_values); table->field[0]->store(combo.host.str,combo.host.length, system_charset_info); table->field[1]->store(db,(uint) strlen(db), system_charset_info); table->field[2]->store(combo.user.str,combo.user.length, system_charset_info); } else { old_row_exists = 1; store_record(table,record[1]); } store_rights=get_rights_for_db(rights); for (i= 3, priv= 1; i < table->s->fields; i++, priv <<= 1) { if (priv & store_rights) // do it if priv is chosen table->field [i]->store(&what,1, &my_charset_latin1);// set requested privileges } rights=get_access(table,3); rights=fix_rights_for_db(rights); if (old_row_exists) { /* update old existing row */ if (rights) { if ((error= table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) goto table_error; /* purecov: deadcode */ } else /* must have been a revoke of all privileges */ { if ((error= table->file->ha_delete_row(table->record[1]))) goto table_error; /* purecov: deadcode */ } } else if (rights && (error= table->file->ha_write_row(table->record[0]))) { if (table->file->is_fatal_error(error, HA_CHECK_DUP_KEY)) goto table_error; /* purecov: deadcode */ } acl_cache->clear(1); // Clear privilege cache if (old_row_exists) acl_update_db(combo.user.str,combo.host.str,db,rights); else if (rights) acl_insert_db(combo.user.str,combo.host.str,db,rights); DBUG_RETURN(0); /* This could only happen if the grant tables got corrupted */ table_error: table->file->print_error(error,MYF(0)); /* purecov: deadcode */ abort: DBUG_RETURN(-1); } class GRANT_COLUMN :public Sql_alloc { public: char *column; ulong rights; uint key_length; GRANT_COLUMN(String &c, ulong y) :rights (y) { column= (char*) memdup_root(&memex,c.ptr(), key_length=c.length()); } }; static uchar* get_key_column(GRANT_COLUMN *buff, size_t *length, my_bool not_used __attribute__((unused))) { *length=buff->key_length; return (uchar*) buff->column; } class GRANT_NAME :public Sql_alloc { public: acl_host_and_ip host; char *db, *user, *tname, *hash_key; ulong privs; ulong sort; size_t key_length; GRANT_NAME(const char *h, const char *d,const char *u, const char *t, ulong p, bool is_routine); GRANT_NAME (TABLE *form, bool is_routine); virtual ~GRANT_NAME() {}; virtual bool ok() { return privs != 0; } void set_user_details(const char *h, const char *d, const char *u, const char *t, bool is_routine); }; class GRANT_TABLE :public GRANT_NAME { public: ulong cols; HASH hash_columns; GRANT_TABLE(const char *h, const char *d,const char *u, const char *t, ulong p, ulong c); GRANT_TABLE (TABLE *form, TABLE *col_privs); ~GRANT_TABLE(); bool ok() { return privs != 0 || cols != 0; } }; void GRANT_NAME::set_user_details(const char *h, const char *d, const char *u, const char *t, bool is_routine) { /* Host given by user */ update_hostname(&host, strdup_root(&memex, h)); if (db != d) { db= strdup_root(&memex, d); if (lower_case_table_names) my_casedn_str(files_charset_info, db); } user = strdup_root(&memex,u); sort= get_sort(3,host.hostname,db,user); if (tname != t) { tname= strdup_root(&memex, t); if (lower_case_table_names || is_routine) my_casedn_str(files_charset_info, tname); } key_length= strlen(d) + strlen(u)+ strlen(t)+3; hash_key= (char*) alloc_root(&memex,key_length); strmov(strmov(strmov(hash_key,user)+1,db)+1,tname); } GRANT_NAME::GRANT_NAME(const char *h, const char *d,const char *u, const char *t, ulong p, bool is_routine) :db(0), tname(0), privs(p) { set_user_details(h, d, u, t, is_routine); } GRANT_TABLE::GRANT_TABLE(const char *h, const char *d,const char *u, const char *t, ulong p, ulong c) :GRANT_NAME(h,d,u,t,p, FALSE), cols(c) { (void) hash_init2(&hash_columns,4,system_charset_info, 0,0,0, (hash_get_key) get_key_column,0,0); } GRANT_NAME::GRANT_NAME(TABLE *form, bool is_routine) { update_hostname(&host, get_field(&memex, form->field[0])); db= get_field(&memex,form->field[1]); user= get_field(&memex,form->field[2]); if (!user) user= (char*) ""; sort= get_sort(3, host.hostname, db, user); tname= get_field(&memex,form->field[3]); if (!db || !tname) { /* Wrong table row; Ignore it */ privs= 0; return; /* purecov: inspected */ } if (lower_case_table_names) { my_casedn_str(files_charset_info, db); } if (lower_case_table_names || is_routine) { my_casedn_str(files_charset_info, tname); } key_length= (strlen(db) + strlen(user) + strlen(tname) + 3); hash_key= (char*) alloc_root(&memex, key_length); strmov(strmov(strmov(hash_key,user)+1,db)+1,tname); privs = (ulong) form->field[6]->val_int(); privs = fix_rights_for_table(privs); } GRANT_TABLE::GRANT_TABLE(TABLE *form, TABLE *col_privs) :GRANT_NAME(form, FALSE) { uchar key[MAX_KEY_LENGTH]; if (!db || !tname) { /* Wrong table row; Ignore it */ hash_clear(&hash_columns); /* allow for destruction */ cols= 0; return; } cols= (ulong) form->field[7]->val_int(); cols = fix_rights_for_column(cols); (void) hash_init2(&hash_columns,4,system_charset_info, 0,0,0, (hash_get_key) get_key_column,0,0); if (cols) { uint key_prefix_len; KEY_PART_INFO *key_part= col_privs->key_info->key_part; col_privs->field[0]->store(host.hostname, host.hostname ? (uint) strlen(host.hostname) : 0, system_charset_info); col_privs->field[1]->store(db,(uint) strlen(db), system_charset_info); col_privs->field[2]->store(user,(uint) strlen(user), system_charset_info); col_privs->field[3]->store(tname,(uint) strlen(tname), system_charset_info); key_prefix_len= (key_part[0].store_length + key_part[1].store_length + key_part[2].store_length + key_part[3].store_length); key_copy(key, col_privs->record[0], col_privs->key_info, key_prefix_len); col_privs->field[4]->store("",0, &my_charset_latin1); col_privs->file->ha_index_init(0, 1); if (col_privs->file->index_read_map(col_privs->record[0], (uchar*) key, (key_part_map)15, HA_READ_KEY_EXACT)) { cols = 0; /* purecov: deadcode */ col_privs->file->ha_index_end(); return; } do { String *res,column_name; GRANT_COLUMN *mem_check; /* As column name is a string, we don't have to supply a buffer */ res=col_privs->field[4]->val_str(&column_name); ulong priv= (ulong) col_privs->field[6]->val_int(); if (!(mem_check = new GRANT_COLUMN(*res, fix_rights_for_column(priv)))) { /* Don't use this entry */ privs = cols = 0; /* purecov: deadcode */ return; /* purecov: deadcode */ } if (my_hash_insert(&hash_columns, (uchar *) mem_check)) { /* Invalidate this entry */ privs= cols= 0; return; } } while (!col_privs->file->index_next(col_privs->record[0]) && !key_cmp_if_same(col_privs,key,0,key_prefix_len)); col_privs->file->ha_index_end(); } } GRANT_TABLE::~GRANT_TABLE() { hash_free(&hash_columns); } static uchar* get_grant_table(GRANT_NAME *buff, size_t *length, my_bool not_used __attribute__((unused))) { *length=buff->key_length; return (uchar*) buff->hash_key; } void free_grant_table(GRANT_TABLE *grant_table) { hash_free(&grant_table->hash_columns); } /* Search after a matching grant. Prefer exact grants before not exact ones */ static GRANT_NAME *name_hash_search(HASH *name_hash, const char *host,const char* ip, const char *db, const char *user, const char *tname, bool exact, bool name_tolower) { char helping [NAME_LEN*2+USERNAME_LENGTH+3], *name_ptr; uint len; GRANT_NAME *grant_name,*found=0; HASH_SEARCH_STATE state; name_ptr= strmov(strmov(helping, user) + 1, db) + 1; len = (uint) (strmov(name_ptr, tname) - helping) + 1; if (name_tolower) my_casedn_str(files_charset_info, name_ptr); for (grant_name= (GRANT_NAME*) hash_first(name_hash, (uchar*) helping, len, &state); grant_name ; grant_name= (GRANT_NAME*) hash_next(name_hash,(uchar*) helping, len, &state)) { if (exact) { if (!grant_name->host.hostname || (host && !my_strcasecmp(system_charset_info, host, grant_name->host.hostname)) || (ip && !strcmp(ip, grant_name->host.hostname))) return grant_name; } else { if (compare_hostname(&grant_name->host, host, ip) && (!found || found->sort < grant_name->sort)) found=grant_name; // Host ok } } return found; } inline GRANT_NAME * routine_hash_search(const char *host, const char *ip, const char *db, const char *user, const char *tname, bool proc, bool exact) { return (GRANT_TABLE*) name_hash_search(proc ? &proc_priv_hash : &func_priv_hash, host, ip, db, user, tname, exact, TRUE); } inline GRANT_TABLE * table_hash_search(const char *host, const char *ip, const char *db, const char *user, const char *tname, bool exact) { return (GRANT_TABLE*) name_hash_search(&column_priv_hash, host, ip, db, user, tname, exact, FALSE); } inline GRANT_COLUMN * column_hash_search(GRANT_TABLE *t, const char *cname, uint length) { return (GRANT_COLUMN*) hash_search(&t->hash_columns, (uchar*) cname,length); } static int replace_column_table(GRANT_TABLE *g_t, TABLE *table, const LEX_USER &combo, List &columns, const char *db, const char *table_name, ulong rights, bool revoke_grant) { int error=0,result=0; uchar key[MAX_KEY_LENGTH]; uint key_prefix_length; KEY_PART_INFO *key_part= table->key_info->key_part; DBUG_ENTER("replace_column_table"); table->use_all_columns(); table->field[0]->store(combo.host.str,combo.host.length, system_charset_info); table->field[1]->store(db,(uint) strlen(db), system_charset_info); table->field[2]->store(combo.user.str,combo.user.length, system_charset_info); table->field[3]->store(table_name,(uint) strlen(table_name), system_charset_info); /* Get length of 4 first key parts */ key_prefix_length= (key_part[0].store_length + key_part[1].store_length + key_part[2].store_length + key_part[3].store_length); key_copy(key, table->record[0], table->key_info, key_prefix_length); rights&= COL_ACLS; // Only ACL for columns /* first fix privileges for all columns in column list */ List_iterator iter(columns); class LEX_COLUMN *column; table->file->ha_index_init(0, 1); while ((column= iter++)) { ulong privileges= column->rights; bool old_row_exists=0; uchar user_key[MAX_KEY_LENGTH]; key_restore(table->record[0],key,table->key_info, key_prefix_length); table->field[4]->store(column->column.ptr(), column->column.length(), system_charset_info); /* Get key for the first 4 columns */ key_copy(user_key, table->record[0], table->key_info, table->key_info->key_length); if (table->file->index_read_map(table->record[0], user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { if (revoke_grant) { my_error(ER_NONEXISTING_TABLE_GRANT, MYF(0), combo.user.str, combo.host.str, table_name); /* purecov: inspected */ result= -1; /* purecov: inspected */ continue; /* purecov: inspected */ } old_row_exists = 0; restore_record(table, s->default_values); // Get empty record key_restore(table->record[0],key,table->key_info, key_prefix_length); table->field[4]->store(column->column.ptr(),column->column.length(), system_charset_info); } else { ulong tmp= (ulong) table->field[6]->val_int(); tmp=fix_rights_for_column(tmp); if (revoke_grant) privileges = tmp & ~(privileges | rights); else privileges |= tmp; old_row_exists = 1; store_record(table,record[1]); // copy original row } table->field[6]->store((longlong) get_rights_for_column(privileges), TRUE); if (old_row_exists) { GRANT_COLUMN *grant_column; if (privileges) error=table->file->ha_update_row(table->record[1],table->record[0]); else error=table->file->ha_delete_row(table->record[1]); if (error && error != HA_ERR_RECORD_IS_THE_SAME) { table->file->print_error(error,MYF(0)); /* purecov: inspected */ result= -1; /* purecov: inspected */ goto end; /* purecov: inspected */ } else error= 0; grant_column= column_hash_search(g_t, column->column.ptr(), column->column.length()); if (grant_column) // Should always be true grant_column->rights= privileges; // Update hash } else // new grant { GRANT_COLUMN *grant_column; if ((error=table->file->ha_write_row(table->record[0]))) { table->file->print_error(error,MYF(0)); /* purecov: inspected */ result= -1; /* purecov: inspected */ goto end; /* purecov: inspected */ } grant_column= new GRANT_COLUMN(column->column,privileges); if (my_hash_insert(&g_t->hash_columns,(uchar*) grant_column)) { result= -1; goto end; } } } /* If revoke of privileges on the table level, remove all such privileges for all columns */ if (revoke_grant) { uchar user_key[MAX_KEY_LENGTH]; key_copy(user_key, table->record[0], table->key_info, key_prefix_length); if (table->file->index_read_map(table->record[0], user_key, (key_part_map)15, HA_READ_KEY_EXACT)) goto end; /* Scan through all rows with the same host,db,user and table */ do { ulong privileges = (ulong) table->field[6]->val_int(); privileges=fix_rights_for_column(privileges); store_record(table,record[1]); if (privileges & rights) // is in this record the priv to be revoked ?? { GRANT_COLUMN *grant_column = NULL; char colum_name_buf[HOSTNAME_LENGTH+1]; String column_name(colum_name_buf,sizeof(colum_name_buf), system_charset_info); privileges&= ~rights; table->field[6]->store((longlong) get_rights_for_column(privileges), TRUE); table->field[4]->val_str(&column_name); grant_column = column_hash_search(g_t, column_name.ptr(), column_name.length()); if (privileges) { int tmp_error; if ((tmp_error=table->file->ha_update_row(table->record[1], table->record[0])) && tmp_error != HA_ERR_RECORD_IS_THE_SAME) { /* purecov: deadcode */ table->file->print_error(tmp_error,MYF(0)); /* purecov: deadcode */ result= -1; /* purecov: deadcode */ goto end; /* purecov: deadcode */ } if (grant_column) grant_column->rights = privileges; // Update hash } else { int tmp_error; if ((tmp_error = table->file->ha_delete_row(table->record[1]))) { /* purecov: deadcode */ table->file->print_error(tmp_error,MYF(0)); /* purecov: deadcode */ result= -1; /* purecov: deadcode */ goto end; /* purecov: deadcode */ } if (grant_column) hash_delete(&g_t->hash_columns,(uchar*) grant_column); } } } while (!table->file->index_next(table->record[0]) && !key_cmp_if_same(table, key, 0, key_prefix_length)); } end: table->file->ha_index_end(); DBUG_RETURN(result); } static inline void get_grantor(THD *thd, char *grantor) { const char *user= thd->security_ctx->user; const char *host= thd->security_ctx->host_or_ip; #if defined(HAVE_REPLICATION) if (thd->slave_thread && thd->has_invoker()) { user= thd->get_invoker_user().str; host= thd->get_invoker_host().str; } #endif strxmov(grantor, user, "@", host, NullS); } static int replace_table_table(THD *thd, GRANT_TABLE *grant_table, TABLE *table, const LEX_USER &combo, const char *db, const char *table_name, ulong rights, ulong col_rights, bool revoke_grant) { char grantor[USER_HOST_BUFF_SIZE]; int old_row_exists = 1; int error=0; ulong store_table_rights, store_col_rights; uchar user_key[MAX_KEY_LENGTH]; DBUG_ENTER("replace_table_table"); get_grantor(thd, grantor); /* The following should always succeed as new users are created before this function is called! */ if (!find_acl_user(combo.host.str,combo.user.str, FALSE)) { my_message(ER_PASSWORD_NO_MATCH, ER(ER_PASSWORD_NO_MATCH), MYF(0)); /* purecov: deadcode */ DBUG_RETURN(-1); /* purecov: deadcode */ } table->use_all_columns(); restore_record(table, s->default_values); // Get empty record table->field[0]->store(combo.host.str,combo.host.length, system_charset_info); table->field[1]->store(db,(uint) strlen(db), system_charset_info); table->field[2]->store(combo.user.str,combo.user.length, system_charset_info); table->field[3]->store(table_name,(uint) strlen(table_name), system_charset_info); store_record(table,record[1]); // store at pos 1 key_copy(user_key, table->record[0], table->key_info, table->key_info->key_length); if (table->file->index_read_idx_map(table->record[0], 0, user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { /* The following should never happen as we first check the in memory grant tables for the user. There is however always a small change that the user has modified the grant tables directly. */ if (revoke_grant) { // no row, no revoke my_error(ER_NONEXISTING_TABLE_GRANT, MYF(0), combo.user.str, combo.host.str, table_name); /* purecov: deadcode */ DBUG_RETURN(-1); /* purecov: deadcode */ } old_row_exists = 0; restore_record(table,record[1]); // Get saved record } store_table_rights= get_rights_for_table(rights); store_col_rights= get_rights_for_column(col_rights); if (old_row_exists) { ulong j,k; store_record(table,record[1]); j = (ulong) table->field[6]->val_int(); k = (ulong) table->field[7]->val_int(); if (revoke_grant) { /* column rights are already fixed in mysql_table_grant */ store_table_rights=j & ~store_table_rights; } else { store_table_rights|= j; store_col_rights|= k; } } table->field[4]->store(grantor,(uint) strlen(grantor), system_charset_info); table->field[6]->store((longlong) store_table_rights, TRUE); table->field[7]->store((longlong) store_col_rights, TRUE); rights=fix_rights_for_table(store_table_rights); col_rights=fix_rights_for_column(store_col_rights); if (old_row_exists) { if (store_table_rights || store_col_rights) { if ((error=table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) goto table_error; /* purecov: deadcode */ } else if ((error = table->file->ha_delete_row(table->record[1]))) goto table_error; /* purecov: deadcode */ } else { error=table->file->ha_write_row(table->record[0]); if (table->file->is_fatal_error(error, HA_CHECK_DUP_KEY)) goto table_error; /* purecov: deadcode */ } if (rights | col_rights) { grant_table->privs= rights; grant_table->cols= col_rights; } else { hash_delete(&column_priv_hash,(uchar*) grant_table); } DBUG_RETURN(0); /* This should never happen */ table_error: table->file->print_error(error,MYF(0)); /* purecov: deadcode */ DBUG_RETURN(-1); /* purecov: deadcode */ } /** @retval 0 success @retval -1 error */ static int replace_routine_table(THD *thd, GRANT_NAME *grant_name, TABLE *table, const LEX_USER &combo, const char *db, const char *routine_name, bool is_proc, ulong rights, bool revoke_grant) { char grantor[USER_HOST_BUFF_SIZE]; int old_row_exists= 1; int error=0; ulong store_proc_rights; DBUG_ENTER("replace_routine_table"); if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); DBUG_RETURN(-1); } get_grantor(thd, grantor); /* New users are created before this function is called. There may be some cases where a routine's definer is removed but the routine remains. */ table->use_all_columns(); restore_record(table, s->default_values); // Get empty record table->field[0]->store(combo.host.str,combo.host.length, &my_charset_latin1); table->field[1]->store(db,(uint) strlen(db), &my_charset_latin1); table->field[2]->store(combo.user.str,combo.user.length, &my_charset_latin1); table->field[3]->store(routine_name,(uint) strlen(routine_name), &my_charset_latin1); table->field[4]->store((longlong)(is_proc ? TYPE_ENUM_PROCEDURE : TYPE_ENUM_FUNCTION), TRUE); store_record(table,record[1]); // store at pos 1 if (table->file->index_read_idx_map(table->record[0], 0, (uchar*) table->field[0]->ptr, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { /* The following should never happen as we first check the in memory grant tables for the user. There is however always a small change that the user has modified the grant tables directly. */ if (revoke_grant) { // no row, no revoke my_error(ER_NONEXISTING_PROC_GRANT, MYF(0), combo.user.str, combo.host.str, routine_name); DBUG_RETURN(-1); } old_row_exists= 0; restore_record(table,record[1]); // Get saved record } store_proc_rights= get_rights_for_procedure(rights); if (old_row_exists) { ulong j; store_record(table,record[1]); j= (ulong) table->field[6]->val_int(); if (revoke_grant) { /* column rights are already fixed in mysql_table_grant */ store_proc_rights=j & ~store_proc_rights; } else { store_proc_rights|= j; } } table->field[5]->store(grantor,(uint) strlen(grantor), &my_charset_latin1); table->field[6]->store((longlong) store_proc_rights, TRUE); rights=fix_rights_for_procedure(store_proc_rights); if (old_row_exists) { if (store_proc_rights) { if ((error=table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) goto table_error; } else if ((error= table->file->ha_delete_row(table->record[1]))) goto table_error; } else { error=table->file->ha_write_row(table->record[0]); if (table->file->is_fatal_error(error, HA_CHECK_DUP_KEY)) goto table_error; } if (rights) { grant_name->privs= rights; } else { hash_delete(is_proc ? &proc_priv_hash : &func_priv_hash,(uchar*) grant_name); } DBUG_RETURN(0); /* This should never happen */ table_error: table->file->print_error(error,MYF(0)); DBUG_RETURN(-1); } /* Store table level and column level grants in the privilege tables SYNOPSIS mysql_table_grant() thd Thread handle table_list List of tables to give grant user_list List of users to give grant columns List of columns to give grant rights Table level grant revoke_grant Set to 1 if this is a REVOKE command RETURN FALSE ok TRUE error */ int mysql_table_grant(THD *thd, TABLE_LIST *table_list, List &user_list, List &columns, ulong rights, bool revoke_grant) { ulong column_priv= 0; List_iterator str_list (user_list); LEX_USER *Str, *tmp_Str; TABLE_LIST tables[3]; bool create_new_users=0; char *db_name, *table_name; bool save_binlog_row_based; DBUG_ENTER("mysql_table_grant"); if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); /* purecov: inspected */ DBUG_RETURN(TRUE); /* purecov: inspected */ } if (rights & ~TABLE_ACLS) { my_message(ER_ILLEGAL_GRANT_FOR_TABLE, ER(ER_ILLEGAL_GRANT_FOR_TABLE), MYF(0)); DBUG_RETURN(TRUE); } if (!revoke_grant) { if (columns.elements) { class LEX_COLUMN *column; List_iterator column_iter(columns); if (open_and_lock_tables(thd, table_list)) DBUG_RETURN(TRUE); while ((column = column_iter++)) { uint unused_field_idx= NO_CACHED_FIELD_INDEX; TABLE_LIST *dummy; Field *f=find_field_in_table_ref(thd, table_list, column->column.ptr(), column->column.length(), column->column.ptr(), NULL, NULL, NULL, TRUE, FALSE, &unused_field_idx, FALSE, &dummy); if (f == (Field*)0) { my_error(ER_BAD_FIELD_ERROR, MYF(0), column->column.c_ptr(), table_list->alias); DBUG_RETURN(TRUE); } if (f == (Field *)-1) DBUG_RETURN(TRUE); column_priv|= column->rights; } close_thread_tables(thd); } else { if (!(rights & CREATE_ACL)) { char buf[FN_REFLEN + 1]; build_table_filename(buf, sizeof(buf) - 1, table_list->db, table_list->table_name, reg_ext, 0); fn_format(buf, buf, "", "", MY_UNPACK_FILENAME | MY_RESOLVE_SYMLINKS | MY_RETURN_REAL_PATH | MY_APPEND_EXT); if (access(buf,F_OK)) { my_error(ER_NO_SUCH_TABLE, MYF(0), table_list->db, table_list->alias); DBUG_RETURN(TRUE); } } if (table_list->grant.want_privilege) { char command[128]; get_privilege_desc(command, sizeof(command), table_list->grant.want_privilege); my_error(ER_TABLEACCESS_DENIED_ERROR, MYF(0), command, thd->security_ctx->priv_user, thd->security_ctx->host_or_ip, table_list->alias); DBUG_RETURN(-1); } } } /* open the mysql.tables_priv and mysql.columns_priv tables */ bzero((char*) &tables,sizeof(tables)); tables[0].alias=tables[0].table_name= (char*) "user"; tables[1].alias=tables[1].table_name= (char*) "tables_priv"; tables[2].alias=tables[2].table_name= (char*) "columns_priv"; tables[0].next_local= tables[0].next_global= tables+1; /* Don't open column table if we don't need it ! */ tables[1].next_local= tables[1].next_global= ((column_priv || (revoke_grant && ((rights & COL_ACLS) || columns.elements))) ? tables+2 : 0); tables[0].lock_type=tables[1].lock_type=tables[2].lock_type=TL_WRITE; tables[0].db=tables[1].db=tables[2].db=(char*) "mysql"; /* This statement will be replicated as a statement, even when using row-based replication. The flag will be reset at the end of the statement. */ save_binlog_row_based= thd->current_stmt_binlog_row_based; thd->clear_current_stmt_binlog_row_based(); #ifdef HAVE_REPLICATION /* GRANT and REVOKE are applied the slave in/exclusion rules as they are some kind of updates to the mysql.% tables. */ if (thd->slave_thread && rpl_filter->is_on()) { /* The tables must be marked "updating" so that tables_ok() takes them into account in tests. */ tables[0].updating= tables[1].updating= tables[2].updating= 1; if (!(thd->spcont || rpl_filter->tables_ok(0, tables))) { /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(FALSE); } } #endif /* The lock api is depending on the thd->lex variable which needs to be re-initialized. */ Query_tables_list backup; thd->lex->reset_n_backup_query_tables_list(&backup); if (simple_open_n_lock_tables(thd,tables)) { // Should never happen close_thread_tables(thd); /* purecov: deadcode */ /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(TRUE); /* purecov: deadcode */ } if (!revoke_grant) create_new_users= test_if_create_new_users(thd); bool result= FALSE; rw_wrlock(&LOCK_grant); pthread_mutex_lock(&acl_cache->lock); MEM_ROOT *old_root= thd->mem_root; thd->mem_root= &memex; grant_version++; while ((tmp_Str = str_list++)) { int error; GRANT_TABLE *grant_table; if (!(Str= get_current_user(thd, tmp_Str))) { result= TRUE; continue; } /* Create user if needed */ error=replace_user_table(thd, tables[0].table, *Str, 0, revoke_grant, create_new_users, test(thd->variables.sql_mode & MODE_NO_AUTO_CREATE_USER)); if (error) { result= TRUE; // Remember error continue; // Add next user } db_name= table_list->get_db_name(); table_name= table_list->get_table_name(); /* Find/create cached table grant */ grant_table= table_hash_search(Str->host.str, NullS, db_name, Str->user.str, table_name, 1); if (!grant_table) { if (revoke_grant) { my_error(ER_NONEXISTING_TABLE_GRANT, MYF(0), Str->user.str, Str->host.str, table_list->table_name); result= TRUE; continue; } grant_table = new GRANT_TABLE (Str->host.str, db_name, Str->user.str, table_name, rights, column_priv); if (!grant_table || my_hash_insert(&column_priv_hash,(uchar*) grant_table)) { result= TRUE; /* purecov: deadcode */ continue; /* purecov: deadcode */ } } /* If revoke_grant, calculate the new column privilege for tables_priv */ if (revoke_grant) { class LEX_COLUMN *column; List_iterator column_iter(columns); GRANT_COLUMN *grant_column; /* Fix old grants */ while ((column = column_iter++)) { grant_column = column_hash_search(grant_table, column->column.ptr(), column->column.length()); if (grant_column) grant_column->rights&= ~(column->rights | rights); } /* scan trough all columns to get new column grant */ column_priv= 0; for (uint idx=0 ; idx < grant_table->hash_columns.records ; idx++) { grant_column= (GRANT_COLUMN*) hash_element(&grant_table->hash_columns, idx); grant_column->rights&= ~rights; // Fix other columns column_priv|= grant_column->rights; } } else { column_priv|= grant_table->cols; } /* update table and columns */ if (replace_table_table(thd, grant_table, tables[1].table, *Str, db_name, table_name, rights, column_priv, revoke_grant)) { /* Should only happen if table is crashed */ result= TRUE; /* purecov: deadcode */ } else if (tables[2].table) { if ((replace_column_table(grant_table, tables[2].table, *Str, columns, db_name, table_name, rights, revoke_grant))) { result= TRUE; } } } thd->mem_root= old_root; pthread_mutex_unlock(&acl_cache->lock); if (!result) /* success */ { result= write_bin_log(thd, TRUE, thd->query(), thd->query_length()); } rw_unlock(&LOCK_grant); if (!result) /* success */ my_ok(thd); /* Tables are automatically closed */ thd->lex->restore_backup_query_tables_list(&backup); /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(result); } /** Store routine level grants in the privilege tables @param thd Thread handle @param table_list List of routines to give grant @param is_proc Is this a list of procedures? @param user_list List of users to give grant @param rights Table level grant @param revoke_grant Is this is a REVOKE command? @return @retval FALSE Success. @retval TRUE An error occurred. */ bool mysql_routine_grant(THD *thd, TABLE_LIST *table_list, bool is_proc, List &user_list, ulong rights, bool revoke_grant, bool write_to_binlog) { List_iterator str_list (user_list); LEX_USER *Str, *tmp_Str; TABLE_LIST tables[2]; bool create_new_users=0, result=0; char *db_name, *table_name; bool save_binlog_row_based; DBUG_ENTER("mysql_routine_grant"); if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); DBUG_RETURN(TRUE); } if (rights & ~PROC_ACLS) { my_message(ER_ILLEGAL_GRANT_FOR_TABLE, ER(ER_ILLEGAL_GRANT_FOR_TABLE), MYF(0)); DBUG_RETURN(TRUE); } if (!revoke_grant) { if (sp_exist_routines(thd, table_list, is_proc)) DBUG_RETURN(TRUE); } /* open the mysql.user and mysql.procs_priv tables */ bzero((char*) &tables,sizeof(tables)); tables[0].alias=tables[0].table_name= (char*) "user"; tables[1].alias=tables[1].table_name= (char*) "procs_priv"; tables[0].next_local= tables[0].next_global= tables+1; tables[0].lock_type=tables[1].lock_type=TL_WRITE; tables[0].db=tables[1].db=(char*) "mysql"; /* This statement will be replicated as a statement, even when using row-based replication. The flag will be reset at the end of the statement. */ save_binlog_row_based= thd->current_stmt_binlog_row_based; thd->clear_current_stmt_binlog_row_based(); #ifdef HAVE_REPLICATION /* GRANT and REVOKE are applied the slave in/exclusion rules as they are some kind of updates to the mysql.% tables. */ if (thd->slave_thread && rpl_filter->is_on()) { /* The tables must be marked "updating" so that tables_ok() takes them into account in tests. */ tables[0].updating= tables[1].updating= 1; if (!(thd->spcont || rpl_filter->tables_ok(0, tables))) { /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(FALSE); } } #endif if (simple_open_n_lock_tables(thd,tables)) { // Should never happen close_thread_tables(thd); /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(TRUE); } if (!revoke_grant) create_new_users= test_if_create_new_users(thd); rw_wrlock(&LOCK_grant); pthread_mutex_lock(&acl_cache->lock); MEM_ROOT *old_root= thd->mem_root; thd->mem_root= &memex; DBUG_PRINT("info",("now time to iterate and add users")); while ((tmp_Str= str_list++)) { int error; GRANT_NAME *grant_name; if (!(Str= get_current_user(thd, tmp_Str))) { result= TRUE; continue; } /* Create user if needed */ error=replace_user_table(thd, tables[0].table, *Str, 0, revoke_grant, create_new_users, test(thd->variables.sql_mode & MODE_NO_AUTO_CREATE_USER)); if (error) { result= TRUE; // Remember error continue; // Add next user } db_name= table_list->db; table_name= table_list->table_name; grant_name= routine_hash_search(Str->host.str, NullS, db_name, Str->user.str, table_name, is_proc, 1); if (!grant_name) { if (revoke_grant) { my_error(ER_NONEXISTING_PROC_GRANT, MYF(0), Str->user.str, Str->host.str, table_name); result= TRUE; continue; } grant_name= new GRANT_NAME(Str->host.str, db_name, Str->user.str, table_name, rights, TRUE); if (!grant_name || my_hash_insert(is_proc ? &proc_priv_hash : &func_priv_hash,(uchar*) grant_name)) { result= TRUE; continue; } } if (replace_routine_table(thd, grant_name, tables[1].table, *Str, db_name, table_name, is_proc, rights, revoke_grant) != 0) { result= TRUE; continue; } } thd->mem_root= old_root; pthread_mutex_unlock(&acl_cache->lock); if (write_to_binlog) { if (write_bin_log(thd, FALSE, thd->query(), thd->query_length())) result= TRUE; } rw_unlock(&LOCK_grant); /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; /* Tables are automatically closed */ DBUG_RETURN(result); } bool mysql_grant(THD *thd, const char *db, List &list, ulong rights, bool revoke_grant) { List_iterator str_list (list); LEX_USER *Str, *tmp_Str; char tmp_db[NAME_LEN+1]; bool create_new_users=0; TABLE_LIST tables[2]; bool save_binlog_row_based; DBUG_ENTER("mysql_grant"); if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); /* purecov: tested */ DBUG_RETURN(TRUE); /* purecov: tested */ } if (lower_case_table_names && db) { strmov(tmp_db,db); my_casedn_str(files_charset_info, tmp_db); db=tmp_db; } /* open the mysql.user and mysql.db tables */ bzero((char*) &tables,sizeof(tables)); tables[0].alias=tables[0].table_name=(char*) "user"; tables[1].alias=tables[1].table_name=(char*) "db"; tables[0].next_local= tables[0].next_global= tables+1; tables[0].lock_type=tables[1].lock_type=TL_WRITE; tables[0].db=tables[1].db=(char*) "mysql"; /* This statement will be replicated as a statement, even when using row-based replication. The flag will be reset at the end of the statement. */ save_binlog_row_based= thd->current_stmt_binlog_row_based; thd->clear_current_stmt_binlog_row_based(); #ifdef HAVE_REPLICATION /* GRANT and REVOKE are applied the slave in/exclusion rules as they are some kind of updates to the mysql.% tables. */ if (thd->slave_thread && rpl_filter->is_on()) { /* The tables must be marked "updating" so that tables_ok() takes them into account in tests. */ tables[0].updating= tables[1].updating= 1; if (!(thd->spcont || rpl_filter->tables_ok(0, tables))) { /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(FALSE); } } #endif if (simple_open_n_lock_tables(thd,tables)) { // This should never happen close_thread_tables(thd); /* purecov: deadcode */ /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(TRUE); /* purecov: deadcode */ } if (!revoke_grant) create_new_users= test_if_create_new_users(thd); /* go through users in user_list */ rw_wrlock(&LOCK_grant); VOID(pthread_mutex_lock(&acl_cache->lock)); grant_version++; int result=0; while ((tmp_Str = str_list++)) { if (!(Str= get_current_user(thd, tmp_Str))) { result= TRUE; continue; } /* No User, but a password? They did GRANT ... TO CURRENT_USER() IDENTIFIED BY ... ! Get the current user, and shallow-copy the new password to them! */ if (!tmp_Str->user.str && tmp_Str->password.str) Str->password= tmp_Str->password; if (replace_user_table(thd, tables[0].table, *Str, (!db ? rights : 0), revoke_grant, create_new_users, test(thd->variables.sql_mode & MODE_NO_AUTO_CREATE_USER))) result= -1; else if (db) { ulong db_rights= rights & DB_ACLS; if (db_rights == rights) { if (replace_db_table(tables[1].table, db, *Str, db_rights, revoke_grant)) result= -1; } else { my_error(ER_WRONG_USAGE, MYF(0), "DB GRANT", "GLOBAL PRIVILEGES"); result= -1; } } } VOID(pthread_mutex_unlock(&acl_cache->lock)); if (!result) { result= write_bin_log(thd, TRUE, thd->query(), thd->query_length()); } rw_unlock(&LOCK_grant); close_thread_tables(thd); if (!result) my_ok(thd); /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(result); } /* Free grant array if possible */ void grant_free(void) { DBUG_ENTER("grant_free"); hash_free(&column_priv_hash); hash_free(&proc_priv_hash); hash_free(&func_priv_hash); free_root(&memex,MYF(0)); DBUG_VOID_RETURN; } /** @brief Initialize structures responsible for table/column-level privilege checking and load information for them from tables in the 'mysql' database. @return Error status @retval 0 OK @retval 1 Could not initialize grant subsystem. */ my_bool grant_init() { THD *thd; my_bool return_val; DBUG_ENTER("grant_init"); if (!(thd= new THD)) DBUG_RETURN(1); /* purecov: deadcode */ thd->thread_stack= (char*) &thd; thd->store_globals(); lex_start(thd); return_val= grant_reload(thd); delete thd; /* Remember that we don't have a THD */ my_pthread_setspecific_ptr(THR_THD, 0); DBUG_RETURN(return_val); } /** @brief Helper function to grant_reload_procs_priv Reads the procs_priv table into memory hash. @param table A pointer to the procs_priv table structure. @see grant_reload @see grant_reload_procs_priv @return Error state @retval TRUE An error occurred @retval FALSE Success */ static my_bool grant_load_procs_priv(TABLE *p_table) { MEM_ROOT *memex_ptr; my_bool return_val= 1; bool check_no_resolve= specialflag & SPECIAL_NO_RESOLVE; MEM_ROOT **save_mem_root_ptr= my_pthread_getspecific_ptr(MEM_ROOT**, THR_MALLOC); DBUG_ENTER("grant_load_procs_priv"); (void) hash_init(&proc_priv_hash, &my_charset_utf8_bin, 0,0,0, (hash_get_key) get_grant_table, 0,0); (void) hash_init(&func_priv_hash, &my_charset_utf8_bin, 0,0,0, (hash_get_key) get_grant_table, 0,0); p_table->file->ha_index_init(0, 1); p_table->use_all_columns(); if (!p_table->file->index_first(p_table->record[0])) { memex_ptr= &memex; my_pthread_setspecific_ptr(THR_MALLOC, &memex_ptr); do { GRANT_NAME *mem_check; HASH *hash; if (!(mem_check=new (memex_ptr) GRANT_NAME(p_table, TRUE))) { /* This could only happen if we are out memory */ goto end_unlock; } if (check_no_resolve) { if (hostname_requires_resolving(mem_check->host.hostname)) { sql_print_warning("'procs_priv' entry '%s %s@%s' " "ignored in --skip-name-resolve mode.", mem_check->tname, mem_check->user, mem_check->host.hostname ? mem_check->host.hostname : ""); continue; } } if (p_table->field[4]->val_int() == TYPE_ENUM_PROCEDURE) { hash= &proc_priv_hash; } else if (p_table->field[4]->val_int() == TYPE_ENUM_FUNCTION) { hash= &func_priv_hash; } else { sql_print_warning("'procs_priv' entry '%s' " "ignored, bad routine type", mem_check->tname); continue; } mem_check->privs= fix_rights_for_procedure(mem_check->privs); if (! mem_check->ok()) delete mem_check; else if (my_hash_insert(hash, (uchar*) mem_check)) { delete mem_check; goto end_unlock; } } while (!p_table->file->index_next(p_table->record[0])); } /* Return ok */ return_val= 0; end_unlock: p_table->file->ha_index_end(); my_pthread_setspecific_ptr(THR_MALLOC, save_mem_root_ptr); DBUG_RETURN(return_val); } /** @brief Initialize structures responsible for table/column-level privilege checking and load information about grants from open privilege tables. @param thd Current thread @param tables List containing open "mysql.tables_priv" and "mysql.columns_priv" tables. @see grant_reload @return Error state @retval FALSE Success @retval TRUE Error */ static my_bool grant_load(THD *thd, TABLE_LIST *tables) { MEM_ROOT *memex_ptr; my_bool return_val= 1; TABLE *t_table= 0, *c_table= 0; bool check_no_resolve= specialflag & SPECIAL_NO_RESOLVE; MEM_ROOT **save_mem_root_ptr= my_pthread_getspecific_ptr(MEM_ROOT**, THR_MALLOC); ulong old_sql_mode= thd->variables.sql_mode; DBUG_ENTER("grant_load"); thd->variables.sql_mode&= ~MODE_PAD_CHAR_TO_FULL_LENGTH; (void) hash_init(&column_priv_hash, &my_charset_utf8_bin, 0,0,0, (hash_get_key) get_grant_table, (hash_free_key) free_grant_table,0); t_table = tables[0].table; c_table = tables[1].table; t_table->file->ha_index_init(0, 1); t_table->use_all_columns(); c_table->use_all_columns(); if (!t_table->file->index_first(t_table->record[0])) { memex_ptr= &memex; my_pthread_setspecific_ptr(THR_MALLOC, &memex_ptr); do { GRANT_TABLE *mem_check; if (!(mem_check=new (memex_ptr) GRANT_TABLE(t_table,c_table))) { /* This could only happen if we are out memory */ goto end_unlock; } if (check_no_resolve) { if (hostname_requires_resolving(mem_check->host.hostname)) { sql_print_warning("'tables_priv' entry '%s %s@%s' " "ignored in --skip-name-resolve mode.", mem_check->tname, mem_check->user ? mem_check->user : "", mem_check->host.hostname ? mem_check->host.hostname : ""); continue; } } if (! mem_check->ok()) delete mem_check; else if (my_hash_insert(&column_priv_hash,(uchar*) mem_check)) { delete mem_check; goto end_unlock; } } while (!t_table->file->index_next(t_table->record[0])); } return_val=0; // Return ok end_unlock: thd->variables.sql_mode= old_sql_mode; t_table->file->ha_index_end(); my_pthread_setspecific_ptr(THR_MALLOC, save_mem_root_ptr); DBUG_RETURN(return_val); } /** @brief Helper function to grant_reload. Reloads procs_priv table is it exists. @param thd A pointer to the thread handler object. @see grant_reload @return Error state @retval FALSE Success @retval TRUE An error has occurred. */ static my_bool grant_reload_procs_priv(THD *thd) { HASH old_proc_priv_hash, old_func_priv_hash; TABLE_LIST table; my_bool return_val= FALSE; DBUG_ENTER("grant_reload_procs_priv"); bzero((char*) &table, sizeof(table)); table.alias= table.table_name= (char*) "procs_priv"; table.db= (char *) "mysql"; table.lock_type= TL_READ; table.skip_temporary= 1; if (simple_open_n_lock_tables(thd, &table)) { close_thread_tables(thd); DBUG_RETURN(TRUE); } rw_wrlock(&LOCK_grant); /* Save a copy of the current hash if we need to undo the grant load */ old_proc_priv_hash= proc_priv_hash; old_func_priv_hash= func_priv_hash; if ((return_val= grant_load_procs_priv(table.table))) { /* Error; Reverting to old hash */ DBUG_PRINT("error",("Reverting to old privileges")); grant_free(); proc_priv_hash= old_proc_priv_hash; func_priv_hash= old_func_priv_hash; } else { hash_free(&old_proc_priv_hash); hash_free(&old_func_priv_hash); } rw_unlock(&LOCK_grant); close_thread_tables(thd); DBUG_RETURN(return_val); } /** @brief Reload information about table and column level privileges if possible @param thd Current thread Locked tables are checked by acl_reload() and doesn't have to be checked in this call. This function is also used for initialization of structures responsible for table/column-level privilege checking. @return Error state @retval FALSE Success @retval TRUE Error */ my_bool grant_reload(THD *thd) { TABLE_LIST tables[2]; HASH old_column_priv_hash; MEM_ROOT old_mem; my_bool return_val= 1; DBUG_ENTER("grant_reload"); /* Don't do anything if running with --skip-grant-tables */ if (!initialized) DBUG_RETURN(0); bzero((char*) tables, sizeof(tables)); tables[0].alias= tables[0].table_name= (char*) "tables_priv"; tables[1].alias= tables[1].table_name= (char*) "columns_priv"; tables[0].db= tables[1].db= (char *) "mysql"; tables[0].next_local= tables[0].next_global= tables+1; tables[0].lock_type= tables[1].lock_type= TL_READ; tables[0].skip_temporary= tables[1].skip_temporary= TRUE; /* To avoid deadlocks we should obtain table locks before obtaining LOCK_grant rwlock. */ if (simple_open_n_lock_tables(thd, tables)) goto end; rw_wrlock(&LOCK_grant); old_column_priv_hash= column_priv_hash; /* Create a new memory pool but save the current memory pool to make an undo opertion possible in case of failure. */ old_mem= memex; init_sql_alloc(&memex, ACL_ALLOC_BLOCK_SIZE, 0); if ((return_val= grant_load(thd, tables))) { // Error. Revert to old hash DBUG_PRINT("error",("Reverting to old privileges")); grant_free(); /* purecov: deadcode */ column_priv_hash= old_column_priv_hash; /* purecov: deadcode */ memex= old_mem; /* purecov: deadcode */ } else { hash_free(&old_column_priv_hash); free_root(&old_mem,MYF(0)); } rw_unlock(&LOCK_grant); close_thread_tables(thd); /* It is OK failing to load procs_priv table because we may be working with 4.1 privilege tables. */ if (grant_reload_procs_priv(thd)) return_val= 1; rw_wrlock(&LOCK_grant); grant_version++; rw_unlock(&LOCK_grant); end: DBUG_RETURN(return_val); } /**************************************************************************** Check table level grants SYNOPSIS bool check_grant() thd Thread handler want_access Bits of privileges user needs to have tables List of tables to check. The user should have 'want_access' to all tables in list. show_table <> 0 if we are in show table. In this case it's enough to have any privilege for the table number Check at most this number of tables. no_errors If 0 then we write an error. The error is sent directly to the client RETURN 0 ok 1 Error: User did not have the requested privileges NOTE This functions assumes that either number of tables to be inspected by it is limited explicitly (i.e. is is not UINT_MAX) or table list used and thd->lex->query_tables_own_last value correspond to each other (the latter should be either 0 or point to next_global member of one of elements of this table list). ****************************************************************************/ bool check_grant(THD *thd, ulong want_access, TABLE_LIST *tables, uint show_table, uint number, bool no_errors) { TABLE_LIST *table, *first_not_own_table= thd->lex->first_not_own_table(); Security_context *sctx= thd->security_ctx; uint i; ulong orig_want_access= want_access; DBUG_ENTER("check_grant"); DBUG_ASSERT(number > 0); /* Walk through the list of tables that belong to the query and save the requested access (orig_want_privilege) to be able to use it when checking access rights to the underlying tables of a view. Our grant system gradually eliminates checked bits from want_privilege and thus after all checks are done we can no longer use it. The check that first_not_own_table is not reached is for the case when the given table list refers to the list for prelocking (contains tables of other queries). For simple queries first_not_own_table is 0. */ for (i= 0, table= tables; i < number && table != first_not_own_table; table= table->next_global, i++) { /* Remove SHOW_VIEW_ACL, because it will be checked during making view */ table->grant.orig_want_privilege= (want_access & ~SHOW_VIEW_ACL); } rw_rdlock(&LOCK_grant); for (table= tables; table && number-- && table != first_not_own_table; table= table->next_global) { GRANT_TABLE *grant_table; sctx = test(table->security_ctx) ? table->security_ctx : thd->security_ctx; want_access= orig_want_access; want_access&= ~sctx->master_access; if (!want_access) continue; // ok if (!(~table->grant.privilege & want_access) || table->is_anonymous_derived_table() || table->schema_table) { /* It is subquery in the FROM clause. VIEW set table->derived after table opening, but this function always called before table opening. */ if (!table->referencing_view) { /* If it's a temporary table created for a subquery in the FROM clause, or an INFORMATION_SCHEMA table, drop the request for a privilege. */ table->grant.want_privilege= 0; } continue; } if (!(grant_table= table_hash_search(sctx->host, sctx->ip, table->get_db_name(), sctx->priv_user, table->get_table_name(), FALSE))) { want_access &= ~table->grant.privilege; goto err; // No grants } if (show_table) continue; // We have some priv on this table->grant.grant_table=grant_table; // Remember for column test table->grant.version=grant_version; table->grant.privilege|= grant_table->privs; table->grant.want_privilege= ((want_access & COL_ACLS) & ~table->grant.privilege); if (!(~table->grant.privilege & want_access)) continue; if (want_access & ~(grant_table->cols | table->grant.privilege)) { want_access &= ~(grant_table->cols | table->grant.privilege); goto err; // impossible } } rw_unlock(&LOCK_grant); DBUG_RETURN(0); err: rw_unlock(&LOCK_grant); if (!no_errors) // Not a silent skip of table { char command[128]; get_privilege_desc(command, sizeof(command), want_access); my_error(ER_TABLEACCESS_DENIED_ERROR, MYF(0), command, sctx->priv_user, sctx->host_or_ip, table ? table->get_table_name() : "unknown"); } DBUG_RETURN(1); } /* Check column rights in given security context SYNOPSIS check_grant_column() thd thread handler grant grant information structure db_name db name table_name table name name column name length column name length sctx security context RETURN FALSE OK TRUE access denied */ bool check_grant_column(THD *thd, GRANT_INFO *grant, const char *db_name, const char *table_name, const char *name, uint length, Security_context *sctx) { GRANT_TABLE *grant_table; GRANT_COLUMN *grant_column; ulong want_access= grant->want_privilege & ~grant->privilege; DBUG_ENTER("check_grant_column"); DBUG_PRINT("enter", ("table: %s want_access: %lu", table_name, want_access)); if (!want_access) DBUG_RETURN(0); // Already checked rw_rdlock(&LOCK_grant); /* reload table if someone has modified any grants */ if (grant->version != grant_version) { grant->grant_table= table_hash_search(sctx->host, sctx->ip, db_name, sctx->priv_user, table_name, 0); /* purecov: inspected */ grant->version= grant_version; /* purecov: inspected */ } if (!(grant_table= grant->grant_table)) goto err; /* purecov: deadcode */ grant_column=column_hash_search(grant_table, name, length); if (grant_column && !(~grant_column->rights & want_access)) { rw_unlock(&LOCK_grant); DBUG_RETURN(0); } err: rw_unlock(&LOCK_grant); char command[128]; get_privilege_desc(command, sizeof(command), want_access); my_error(ER_COLUMNACCESS_DENIED_ERROR, MYF(0), command, sctx->priv_user, sctx->host_or_ip, name, table_name); DBUG_RETURN(1); } /* Check the access right to a column depending on the type of table. SYNOPSIS check_column_grant_in_table_ref() thd thread handler table_ref table reference where to check the field name name of field to check length length of name DESCRIPTION Check the access rights to a column depending on the type of table reference where the column is checked. The function provides a generic interface to check column access rights that hides the heterogeneity of the column representation - whether it is a view or a stored table colum. RETURN FALSE OK TRUE access denied */ bool check_column_grant_in_table_ref(THD *thd, TABLE_LIST * table_ref, const char *name, uint length) { GRANT_INFO *grant; const char *db_name; const char *table_name; Security_context *sctx= test(table_ref->security_ctx) ? table_ref->security_ctx : thd->security_ctx; if (table_ref->view || table_ref->field_translation) { /* View or derived information schema table. */ ulong view_privs; grant= &(table_ref->grant); db_name= table_ref->view_db.str; table_name= table_ref->view_name.str; if (table_ref->belong_to_view && thd->lex->sql_command == SQLCOM_SHOW_FIELDS) { view_privs= get_column_grant(thd, grant, db_name, table_name, name); if (view_privs & VIEW_ANY_ACL) { table_ref->belong_to_view->allowed_show= TRUE; return FALSE; } table_ref->belong_to_view->allowed_show= FALSE; my_message(ER_VIEW_NO_EXPLAIN, ER(ER_VIEW_NO_EXPLAIN), MYF(0)); return TRUE; } } else { /* Normal or temporary table. */ TABLE *table= table_ref->table; grant= &(table->grant); db_name= table->s->db.str; table_name= table->s->table_name.str; } if (grant->want_privilege) return check_grant_column(thd, grant, db_name, table_name, name, length, sctx); else return FALSE; } /** @brief check if a query can access a set of columns @param thd the current thread @param want_access_arg the privileges requested @param fields an iterator over the fields of a table reference. @return Operation status @retval 0 Success @retval 1 Falure @details This function walks over the columns of a table reference The columns may originate from different tables, depending on the kind of table reference, e.g. join, view. For each table it will retrieve the grant information and will use it to check the required access privileges for the fields requested from it. */ bool check_grant_all_columns(THD *thd, ulong want_access_arg, Field_iterator_table_ref *fields) { Security_context *sctx= thd->security_ctx; ulong want_access= want_access_arg; const char *table_name= NULL; const char* db_name; GRANT_INFO *grant; /* Initialized only to make gcc happy */ GRANT_TABLE *grant_table= NULL; /* Flag that gets set if privilege checking has to be performed on column level. */ bool using_column_privileges= FALSE; rw_rdlock(&LOCK_grant); for (; !fields->end_of_fields(); fields->next()) { const char *field_name= fields->name(); if (table_name != fields->get_table_name()) { table_name= fields->get_table_name(); db_name= fields->get_db_name(); grant= fields->grant(); /* get a fresh one for each table */ want_access= want_access_arg & ~grant->privilege; if (want_access) { /* reload table if someone has modified any grants */ if (grant->version != grant_version) { grant->grant_table= table_hash_search(sctx->host, sctx->ip, db_name, sctx->priv_user, table_name, 0); /* purecov: inspected */ grant->version= grant_version; /* purecov: inspected */ } grant_table= grant->grant_table; DBUG_ASSERT (grant_table); } } if (want_access) { GRANT_COLUMN *grant_column= column_hash_search(grant_table, field_name, (uint) strlen(field_name)); if (grant_column) using_column_privileges= TRUE; if (!grant_column || (~grant_column->rights & want_access)) goto err; } } rw_unlock(&LOCK_grant); return 0; err: rw_unlock(&LOCK_grant); char command[128]; get_privilege_desc(command, sizeof(command), want_access); /* Do not give an error message listing a column name unless the user has privilege to see all columns. */ if (using_column_privileges) my_error(ER_TABLEACCESS_DENIED_ERROR, MYF(0), command, sctx->priv_user, sctx->host_or_ip, table_name); else my_error(ER_COLUMNACCESS_DENIED_ERROR, MYF(0), command, sctx->priv_user, sctx->host_or_ip, fields->name(), table_name); return 1; } static bool check_grant_db_routine(THD *thd, const char *db, HASH *hash) { Security_context *sctx= thd->security_ctx; for (uint idx= 0; idx < hash->records; ++idx) { GRANT_NAME *item= (GRANT_NAME*) hash_element(hash, idx); if (strcmp(item->user, sctx->priv_user) == 0 && strcmp(item->db, db) == 0 && compare_hostname(&item->host, sctx->host, sctx->ip)) { return FALSE; } } return TRUE; } /* Check if a user has the right to access a database Access is accepted if he has a grant for any table/routine in the database Return 1 if access is denied */ bool check_grant_db(THD *thd,const char *db) { Security_context *sctx= thd->security_ctx; char helping [NAME_LEN+USERNAME_LENGTH+2]; uint len; bool error= TRUE; len= (uint) (strmov(strmov(helping, sctx->priv_user) + 1, db) - helping) + 1; rw_rdlock(&LOCK_grant); for (uint idx=0 ; idx < column_priv_hash.records ; idx++) { GRANT_TABLE *grant_table= (GRANT_TABLE*) hash_element(&column_priv_hash, idx); if (len < grant_table->key_length && !memcmp(grant_table->hash_key,helping,len) && compare_hostname(&grant_table->host, sctx->host, sctx->ip)) { error= FALSE; /* Found match. */ break; } } if (error) error= check_grant_db_routine(thd, db, &proc_priv_hash) && check_grant_db_routine(thd, db, &func_priv_hash); rw_unlock(&LOCK_grant); return error; } /**************************************************************************** Check routine level grants SYNPOSIS bool check_grant_routine() thd Thread handler want_access Bits of privileges user needs to have procs List of routines to check. The user should have 'want_access' is_proc True if the list is all procedures, else functions no_errors If 0 then we write an error. The error is sent directly to the client RETURN 0 ok 1 Error: User did not have the requested privielges ****************************************************************************/ bool check_grant_routine(THD *thd, ulong want_access, TABLE_LIST *procs, bool is_proc, bool no_errors) { TABLE_LIST *table; Security_context *sctx= thd->security_ctx; char *user= sctx->priv_user; char *host= sctx->priv_host; DBUG_ENTER("check_grant_routine"); want_access&= ~sctx->master_access; if (!want_access) DBUG_RETURN(0); // ok rw_rdlock(&LOCK_grant); for (table= procs; table; table= table->next_global) { GRANT_NAME *grant_proc; if ((grant_proc= routine_hash_search(host, sctx->ip, table->db, user, table->table_name, is_proc, 0))) table->grant.privilege|= grant_proc->privs; if (want_access & ~table->grant.privilege) { want_access &= ~table->grant.privilege; goto err; } } rw_unlock(&LOCK_grant); DBUG_RETURN(0); err: rw_unlock(&LOCK_grant); if (!no_errors) { char buff[1024]; const char *command=""; if (table) strxmov(buff, table->db, ".", table->table_name, NullS); if (want_access & EXECUTE_ACL) command= "execute"; else if (want_access & ALTER_PROC_ACL) command= "alter routine"; else if (want_access & GRANT_ACL) command= "grant"; my_error(ER_PROCACCESS_DENIED_ERROR, MYF(0), command, user, host, table ? buff : "unknown"); } DBUG_RETURN(1); } /* Check if routine has any of the routine level grants SYNPOSIS bool check_routine_level_acl() thd Thread handler db Database name name Routine name RETURN 0 Ok 1 error */ bool check_routine_level_acl(THD *thd, const char *db, const char *name, bool is_proc) { bool no_routine_acl= 1; GRANT_NAME *grant_proc; Security_context *sctx= thd->security_ctx; rw_rdlock(&LOCK_grant); if ((grant_proc= routine_hash_search(sctx->priv_host, sctx->ip, db, sctx->priv_user, name, is_proc, 0))) no_routine_acl= !(grant_proc->privs & SHOW_PROC_ACLS); rw_unlock(&LOCK_grant); return no_routine_acl; } /***************************************************************************** Functions to retrieve the grant for a table/column (for SHOW functions) *****************************************************************************/ ulong get_table_grant(THD *thd, TABLE_LIST *table) { ulong privilege; Security_context *sctx= thd->security_ctx; const char *db = table->db ? table->db : thd->db; GRANT_TABLE *grant_table; rw_rdlock(&LOCK_grant); #ifdef EMBEDDED_LIBRARY grant_table= NULL; #else grant_table= table_hash_search(sctx->host, sctx->ip, db, sctx->priv_user, table->table_name, 0); #endif table->grant.grant_table=grant_table; // Remember for column test table->grant.version=grant_version; if (grant_table) table->grant.privilege|= grant_table->privs; privilege= table->grant.privilege; rw_unlock(&LOCK_grant); return privilege; } /* Determine the access priviliges for a field. SYNOPSIS get_column_grant() thd thread handler grant grants table descriptor db_name name of database that the field belongs to table_name name of table that the field belongs to field_name name of field DESCRIPTION The procedure may also modify: grant->grant_table and grant->version. RETURN The access priviliges for the field db_name.table_name.field_name */ ulong get_column_grant(THD *thd, GRANT_INFO *grant, const char *db_name, const char *table_name, const char *field_name) { GRANT_TABLE *grant_table; GRANT_COLUMN *grant_column; ulong priv; rw_rdlock(&LOCK_grant); /* reload table if someone has modified any grants */ if (grant->version != grant_version) { Security_context *sctx= thd->security_ctx; grant->grant_table= table_hash_search(sctx->host, sctx->ip, db_name, sctx->priv_user, table_name, 0); /* purecov: inspected */ grant->version= grant_version; /* purecov: inspected */ } if (!(grant_table= grant->grant_table)) priv= grant->privilege; else { grant_column= column_hash_search(grant_table, field_name, (uint) strlen(field_name)); if (!grant_column) priv= (grant->privilege | grant_table->privs); else priv= (grant->privilege | grant_table->privs | grant_column->rights); } rw_unlock(&LOCK_grant); return priv; } /* Help function for mysql_show_grants */ static void add_user_option(String *grant, ulong value, const char *name) { if (value) { char buff[22], *p; // just as in int2str grant->append(' '); grant->append(name, strlen(name)); grant->append(' '); p=int10_to_str(value, buff, 10); grant->append(buff,p-buff); } } static const char *command_array[]= { "SELECT", "INSERT", "UPDATE", "DELETE", "CREATE", "DROP", "RELOAD", "SHUTDOWN", "PROCESS","FILE", "GRANT", "REFERENCES", "INDEX", "ALTER", "SHOW DATABASES", "SUPER", "CREATE TEMPORARY TABLES", "LOCK TABLES", "EXECUTE", "REPLICATION SLAVE", "REPLICATION CLIENT", "CREATE VIEW", "SHOW VIEW", "CREATE ROUTINE", "ALTER ROUTINE", "CREATE USER", "EVENT", "TRIGGER" }; static uint command_lengths[]= { 6, 6, 6, 6, 6, 4, 6, 8, 7, 4, 5, 10, 5, 5, 14, 5, 23, 11, 7, 17, 18, 11, 9, 14, 13, 11, 5, 7 }; static int show_routine_grants(THD *thd, LEX_USER *lex_user, HASH *hash, const char *type, int typelen, char *buff, int buffsize); /* SHOW GRANTS; Send grants for a user to the client IMPLEMENTATION Send to client grant-like strings depicting user@host privileges */ bool mysql_show_grants(THD *thd,LEX_USER *lex_user) { ulong want_access; uint counter,index; int error = 0; ACL_USER *acl_user; ACL_DB *acl_db; char buff[1024]; Protocol *protocol= thd->protocol; DBUG_ENTER("mysql_show_grants"); LINT_INIT(acl_user); if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); DBUG_RETURN(TRUE); } rw_rdlock(&LOCK_grant); VOID(pthread_mutex_lock(&acl_cache->lock)); acl_user= find_acl_user(lex_user->host.str, lex_user->user.str, TRUE); if (!acl_user) { VOID(pthread_mutex_unlock(&acl_cache->lock)); rw_unlock(&LOCK_grant); my_error(ER_NONEXISTING_GRANT, MYF(0), lex_user->user.str, lex_user->host.str); DBUG_RETURN(TRUE); } Item_string *field=new Item_string("",0,&my_charset_latin1); List field_list; field->name=buff; field->max_length=1024; strxmov(buff,"Grants for ",lex_user->user.str,"@", lex_user->host.str,NullS); field_list.push_back(field); if (protocol->send_fields(&field_list, Protocol::SEND_NUM_ROWS | Protocol::SEND_EOF)) { VOID(pthread_mutex_unlock(&acl_cache->lock)); rw_unlock(&LOCK_grant); DBUG_RETURN(TRUE); } /* Add first global access grants */ { String global(buff,sizeof(buff),system_charset_info); global.length(0); global.append(STRING_WITH_LEN("GRANT ")); want_access= acl_user->access; if (test_all_bits(want_access, (GLOBAL_ACLS & ~ GRANT_ACL))) global.append(STRING_WITH_LEN("ALL PRIVILEGES")); else if (!(want_access & ~GRANT_ACL)) global.append(STRING_WITH_LEN("USAGE")); else { bool found=0; ulong j,test_access= want_access & ~GRANT_ACL; for (counter=0, j = SELECT_ACL;j <= GLOBAL_ACLS;counter++,j <<= 1) { if (test_access & j) { if (found) global.append(STRING_WITH_LEN(", ")); found=1; global.append(command_array[counter],command_lengths[counter]); } } } global.append (STRING_WITH_LEN(" ON *.* TO '")); global.append(lex_user->user.str, lex_user->user.length, system_charset_info); global.append (STRING_WITH_LEN("'@'")); global.append(lex_user->host.str,lex_user->host.length, system_charset_info); global.append ('\''); if (acl_user->salt_len) { char passwd_buff[SCRAMBLED_PASSWORD_CHAR_LENGTH+1]; if (acl_user->salt_len == SCRAMBLE_LENGTH) make_password_from_salt(passwd_buff, acl_user->salt); else make_password_from_salt_323(passwd_buff, (ulong *) acl_user->salt); global.append(STRING_WITH_LEN(" IDENTIFIED BY PASSWORD '")); global.append(passwd_buff); global.append('\''); } /* "show grants" SSL related stuff */ if (acl_user->ssl_type == SSL_TYPE_ANY) global.append(STRING_WITH_LEN(" REQUIRE SSL")); else if (acl_user->ssl_type == SSL_TYPE_X509) global.append(STRING_WITH_LEN(" REQUIRE X509")); else if (acl_user->ssl_type == SSL_TYPE_SPECIFIED) { int ssl_options = 0; global.append(STRING_WITH_LEN(" REQUIRE ")); if (acl_user->x509_issuer) { ssl_options++; global.append(STRING_WITH_LEN("ISSUER \'")); global.append(acl_user->x509_issuer,strlen(acl_user->x509_issuer)); global.append('\''); } if (acl_user->x509_subject) { if (ssl_options++) global.append(' '); global.append(STRING_WITH_LEN("SUBJECT \'")); global.append(acl_user->x509_subject,strlen(acl_user->x509_subject), system_charset_info); global.append('\''); } if (acl_user->ssl_cipher) { if (ssl_options++) global.append(' '); global.append(STRING_WITH_LEN("CIPHER '")); global.append(acl_user->ssl_cipher,strlen(acl_user->ssl_cipher), system_charset_info); global.append('\''); } } if ((want_access & GRANT_ACL) || (acl_user->user_resource.questions || acl_user->user_resource.updates || acl_user->user_resource.conn_per_hour || acl_user->user_resource.user_conn)) { global.append(STRING_WITH_LEN(" WITH")); if (want_access & GRANT_ACL) global.append(STRING_WITH_LEN(" GRANT OPTION")); add_user_option(&global, acl_user->user_resource.questions, "MAX_QUERIES_PER_HOUR"); add_user_option(&global, acl_user->user_resource.updates, "MAX_UPDATES_PER_HOUR"); add_user_option(&global, acl_user->user_resource.conn_per_hour, "MAX_CONNECTIONS_PER_HOUR"); add_user_option(&global, acl_user->user_resource.user_conn, "MAX_USER_CONNECTIONS"); } protocol->prepare_for_resend(); protocol->store(global.ptr(),global.length(),global.charset()); if (protocol->write()) { error= -1; goto end; } } /* Add database access */ for (counter=0 ; counter < acl_dbs.elements ; counter++) { const char *user, *host; acl_db=dynamic_element(&acl_dbs,counter,ACL_DB*); if (!(user=acl_db->user)) user= ""; if (!(host=acl_db->host.hostname)) host= ""; /* We do not make SHOW GRANTS case-sensitive here (like REVOKE), but make it case-insensitive because that's the way they are actually applied, and showing fewer privileges than are applied would be wrong from a security point of view. */ if (!strcmp(lex_user->user.str,user) && !my_strcasecmp(system_charset_info, lex_user->host.str, host)) { want_access=acl_db->access; if (want_access) { String db(buff,sizeof(buff),system_charset_info); db.length(0); db.append(STRING_WITH_LEN("GRANT ")); if (test_all_bits(want_access,(DB_ACLS & ~GRANT_ACL))) db.append(STRING_WITH_LEN("ALL PRIVILEGES")); else if (!(want_access & ~GRANT_ACL)) db.append(STRING_WITH_LEN("USAGE")); else { int found=0, cnt; ulong j,test_access= want_access & ~GRANT_ACL; for (cnt=0, j = SELECT_ACL; j <= DB_ACLS; cnt++,j <<= 1) { if (test_access & j) { if (found) db.append(STRING_WITH_LEN(", ")); found = 1; db.append(command_array[cnt],command_lengths[cnt]); } } } db.append (STRING_WITH_LEN(" ON ")); append_identifier(thd, &db, acl_db->db, strlen(acl_db->db)); db.append (STRING_WITH_LEN(".* TO '")); db.append(lex_user->user.str, lex_user->user.length, system_charset_info); db.append (STRING_WITH_LEN("'@'")); // host and lex_user->host are equal except for case db.append(host, strlen(host), system_charset_info); db.append ('\''); if (want_access & GRANT_ACL) db.append(STRING_WITH_LEN(" WITH GRANT OPTION")); protocol->prepare_for_resend(); protocol->store(db.ptr(),db.length(),db.charset()); if (protocol->write()) { error= -1; goto end; } } } } /* Add table & column access */ for (index=0 ; index < column_priv_hash.records ; index++) { const char *user, *host; GRANT_TABLE *grant_table= (GRANT_TABLE*) hash_element(&column_priv_hash, index); if (!(user=grant_table->user)) user= ""; if (!(host= grant_table->host.hostname)) host= ""; /* We do not make SHOW GRANTS case-sensitive here (like REVOKE), but make it case-insensitive because that's the way they are actually applied, and showing fewer privileges than are applied would be wrong from a security point of view. */ if (!strcmp(lex_user->user.str,user) && !my_strcasecmp(system_charset_info, lex_user->host.str, host)) { ulong table_access= grant_table->privs; if ((table_access | grant_table->cols) != 0) { String global(buff, sizeof(buff), system_charset_info); ulong test_access= (table_access | grant_table->cols) & ~GRANT_ACL; global.length(0); global.append(STRING_WITH_LEN("GRANT ")); if (test_all_bits(table_access, (TABLE_ACLS & ~GRANT_ACL))) global.append(STRING_WITH_LEN("ALL PRIVILEGES")); else if (!test_access) global.append(STRING_WITH_LEN("USAGE")); else { /* Add specific column access */ int found= 0; ulong j; for (counter= 0, j= SELECT_ACL; j <= TABLE_ACLS; counter++, j<<= 1) { if (test_access & j) { if (found) global.append(STRING_WITH_LEN(", ")); found= 1; global.append(command_array[counter],command_lengths[counter]); if (grant_table->cols) { uint found_col= 0; for (uint col_index=0 ; col_index < grant_table->hash_columns.records ; col_index++) { GRANT_COLUMN *grant_column = (GRANT_COLUMN*) hash_element(&grant_table->hash_columns,col_index); if (grant_column->rights & j) { if (!found_col) { found_col= 1; /* If we have a duplicated table level privilege, we must write the access privilege name again. */ if (table_access & j) { global.append(STRING_WITH_LEN(", ")); global.append(command_array[counter], command_lengths[counter]); } global.append(STRING_WITH_LEN(" (")); } else global.append(STRING_WITH_LEN(", ")); global.append(grant_column->column, grant_column->key_length, system_charset_info); } } if (found_col) global.append(')'); } } } } global.append(STRING_WITH_LEN(" ON ")); append_identifier(thd, &global, grant_table->db, strlen(grant_table->db)); global.append('.'); append_identifier(thd, &global, grant_table->tname, strlen(grant_table->tname)); global.append(STRING_WITH_LEN(" TO '")); global.append(lex_user->user.str, lex_user->user.length, system_charset_info); global.append(STRING_WITH_LEN("'@'")); // host and lex_user->host are equal except for case global.append(host, strlen(host), system_charset_info); global.append('\''); if (table_access & GRANT_ACL) global.append(STRING_WITH_LEN(" WITH GRANT OPTION")); protocol->prepare_for_resend(); protocol->store(global.ptr(),global.length(),global.charset()); if (protocol->write()) { error= -1; break; } } } } if (show_routine_grants(thd, lex_user, &proc_priv_hash, STRING_WITH_LEN("PROCEDURE"), buff, sizeof(buff))) { error= -1; goto end; } if (show_routine_grants(thd, lex_user, &func_priv_hash, STRING_WITH_LEN("FUNCTION"), buff, sizeof(buff))) { error= -1; goto end; } end: VOID(pthread_mutex_unlock(&acl_cache->lock)); rw_unlock(&LOCK_grant); my_eof(thd); DBUG_RETURN(error); } static int show_routine_grants(THD* thd, LEX_USER *lex_user, HASH *hash, const char *type, int typelen, char *buff, int buffsize) { uint counter, index; int error= 0; Protocol *protocol= thd->protocol; /* Add routine access */ for (index=0 ; index < hash->records ; index++) { const char *user, *host; GRANT_NAME *grant_proc= (GRANT_NAME*) hash_element(hash, index); if (!(user=grant_proc->user)) user= ""; if (!(host= grant_proc->host.hostname)) host= ""; /* We do not make SHOW GRANTS case-sensitive here (like REVOKE), but make it case-insensitive because that's the way they are actually applied, and showing fewer privileges than are applied would be wrong from a security point of view. */ if (!strcmp(lex_user->user.str,user) && !my_strcasecmp(system_charset_info, lex_user->host.str, host)) { ulong proc_access= grant_proc->privs; if (proc_access != 0) { String global(buff, buffsize, system_charset_info); ulong test_access= proc_access & ~GRANT_ACL; global.length(0); global.append(STRING_WITH_LEN("GRANT ")); if (!test_access) global.append(STRING_WITH_LEN("USAGE")); else { /* Add specific procedure access */ int found= 0; ulong j; for (counter= 0, j= SELECT_ACL; j <= PROC_ACLS; counter++, j<<= 1) { if (test_access & j) { if (found) global.append(STRING_WITH_LEN(", ")); found= 1; global.append(command_array[counter],command_lengths[counter]); } } } global.append(STRING_WITH_LEN(" ON ")); global.append(type,typelen); global.append(' '); append_identifier(thd, &global, grant_proc->db, strlen(grant_proc->db)); global.append('.'); append_identifier(thd, &global, grant_proc->tname, strlen(grant_proc->tname)); global.append(STRING_WITH_LEN(" TO '")); global.append(lex_user->user.str, lex_user->user.length, system_charset_info); global.append(STRING_WITH_LEN("'@'")); // host and lex_user->host are equal except for case global.append(host, strlen(host), system_charset_info); global.append('\''); if (proc_access & GRANT_ACL) global.append(STRING_WITH_LEN(" WITH GRANT OPTION")); protocol->prepare_for_resend(); protocol->store(global.ptr(),global.length(),global.charset()); if (protocol->write()) { error= -1; break; } } } } return error; } /* Make a clear-text version of the requested privilege. */ void get_privilege_desc(char *to, uint max_length, ulong access) { uint pos; char *start=to; DBUG_ASSERT(max_length >= 30); // For end ',' removal if (access) { max_length--; // Reserve place for end-zero for (pos=0 ; access ; pos++, access>>=1) { if ((access & 1) && command_lengths[pos] + (uint) (to-start) < max_length) { to= strmov(to, command_array[pos]); *to++=','; } } to--; // Remove end ',' } *to=0; } void get_mqh(const char *user, const char *host, USER_CONN *uc) { ACL_USER *acl_user; pthread_mutex_lock(&acl_cache->lock); if (initialized && (acl_user= find_acl_user(host,user, FALSE))) uc->user_resources= acl_user->user_resource; else bzero((char*) &uc->user_resources, sizeof(uc->user_resources)); pthread_mutex_unlock(&acl_cache->lock); } /* Open the grant tables. SYNOPSIS open_grant_tables() thd The current thread. tables (out) The 4 elements array for the opened tables. DESCRIPTION Tables are numbered as follows: 0 user 1 db 2 tables_priv 3 columns_priv RETURN 1 Skip GRANT handling during replication. 0 OK. < 0 Error. */ #define GRANT_TABLES 5 int open_grant_tables(THD *thd, TABLE_LIST *tables) { DBUG_ENTER("open_grant_tables"); if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); DBUG_RETURN(-1); } bzero((char*) tables, GRANT_TABLES*sizeof(*tables)); tables->alias= tables->table_name= (char*) "user"; (tables+1)->alias= (tables+1)->table_name= (char*) "db"; (tables+2)->alias= (tables+2)->table_name= (char*) "tables_priv"; (tables+3)->alias= (tables+3)->table_name= (char*) "columns_priv"; (tables+4)->alias= (tables+4)->table_name= (char*) "procs_priv"; tables->next_local= tables->next_global= tables+1; (tables+1)->next_local= (tables+1)->next_global= tables+2; (tables+2)->next_local= (tables+2)->next_global= tables+3; (tables+3)->next_local= (tables+3)->next_global= tables+4; tables->lock_type= (tables+1)->lock_type= (tables+2)->lock_type= (tables+3)->lock_type= (tables+4)->lock_type= TL_WRITE; tables->db= (tables+1)->db= (tables+2)->db= (tables+3)->db= (tables+4)->db= (char*) "mysql"; #ifdef HAVE_REPLICATION /* GRANT and REVOKE are applied the slave in/exclusion rules as they are some kind of updates to the mysql.% tables. */ if (thd->slave_thread && rpl_filter->is_on()) { /* The tables must be marked "updating" so that tables_ok() takes them into account in tests. */ tables[0].updating=tables[1].updating=tables[2].updating= tables[3].updating=tables[4].updating=1; if (!(thd->spcont || rpl_filter->tables_ok(0, tables))) DBUG_RETURN(1); tables[0].updating=tables[1].updating=tables[2].updating= tables[3].updating=tables[4].updating=0;; } #endif if (simple_open_n_lock_tables(thd, tables)) { // This should never happen close_thread_tables(thd); DBUG_RETURN(-1); } DBUG_RETURN(0); } ACL_USER *check_acl_user(LEX_USER *user_name, uint *acl_acl_userdx) { ACL_USER *acl_user= 0; uint counter; safe_mutex_assert_owner(&acl_cache->lock); for (counter= 0 ; counter < acl_users.elements ; counter++) { const char *user,*host; acl_user= dynamic_element(&acl_users, counter, ACL_USER*); if (!(user=acl_user->user)) user= ""; if (!(host=acl_user->host.hostname)) host= ""; if (!strcmp(user_name->user.str,user) && !my_strcasecmp(system_charset_info, user_name->host.str, host)) break; } if (counter == acl_users.elements) return 0; *acl_acl_userdx= counter; return acl_user; } /* Modify a privilege table. SYNOPSIS modify_grant_table() table The table to modify. host_field The host name field. user_field The user name field. user_to The new name for the user if to be renamed, NULL otherwise. DESCRIPTION Update user/host in the current record if user_to is not NULL. Delete the current record if user_to is NULL. RETURN 0 OK. != 0 Error. */ static int modify_grant_table(TABLE *table, Field *host_field, Field *user_field, LEX_USER *user_to) { int error; DBUG_ENTER("modify_grant_table"); if (user_to) { /* rename */ store_record(table, record[1]); host_field->store(user_to->host.str, user_to->host.length, system_charset_info); user_field->store(user_to->user.str, user_to->user.length, system_charset_info); if ((error= table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) table->file->print_error(error, MYF(0)); else error= 0; } else { /* delete */ if ((error=table->file->ha_delete_row(table->record[0]))) table->file->print_error(error, MYF(0)); } DBUG_RETURN(error); } /* Handle a privilege table. SYNOPSIS handle_grant_table() tables The array with the four open tables. table_no The number of the table to handle (0..4). drop If user_from is to be dropped. user_from The the user to be searched/dropped/renamed. user_to The new name for the user if to be renamed, NULL otherwise. DESCRIPTION Scan through all records in a grant table and apply the requested operation. For the "user" table, a single index access is sufficient, since there is an unique index on (host, user). Delete from grant table if drop is true. Update in grant table if drop is false and user_to is not NULL. Search in grant table if drop is false and user_to is NULL. Tables are numbered as follows: 0 user 1 db 2 tables_priv 3 columns_priv 4 procs_priv RETURN > 0 At least one record matched. 0 OK, but no record matched. < 0 Error. */ static int handle_grant_table(TABLE_LIST *tables, uint table_no, bool drop, LEX_USER *user_from, LEX_USER *user_to) { int result= 0; int error; TABLE *table= tables[table_no].table; Field *host_field= table->field[0]; Field *user_field= table->field[table_no ? 2 : 1]; char *host_str= user_from->host.str; char *user_str= user_from->user.str; const char *host; const char *user; uchar user_key[MAX_KEY_LENGTH]; uint key_prefix_length; DBUG_ENTER("handle_grant_table"); THD *thd= current_thd; table->use_all_columns(); if (! table_no) // mysql.user table { /* The 'user' table has an unique index on (host, user). Thus, we can handle everything with a single index access. The host- and user fields are consecutive in the user table records. So we set host- and user fields of table->record[0] and use the pointer to the host field as key. index_read_idx() will replace table->record[0] (its first argument) by the searched record, if it exists. */ DBUG_PRINT("info",("read table: '%s' search: '%s'@'%s'", table->s->table_name.str, user_str, host_str)); host_field->store(host_str, user_from->host.length, system_charset_info); user_field->store(user_str, user_from->user.length, system_charset_info); key_prefix_length= (table->key_info->key_part[0].store_length + table->key_info->key_part[1].store_length); key_copy(user_key, table->record[0], table->key_info, key_prefix_length); if ((error= table->file->index_read_idx_map(table->record[0], 0, user_key, (key_part_map)3, HA_READ_KEY_EXACT))) { if (error != HA_ERR_KEY_NOT_FOUND && error != HA_ERR_END_OF_FILE) { table->file->print_error(error, MYF(0)); result= -1; } } else { /* If requested, delete or update the record. */ result= ((drop || user_to) && modify_grant_table(table, host_field, user_field, user_to)) ? -1 : 1; /* Error or found. */ } DBUG_PRINT("info",("read result: %d", result)); } else { /* The non-'user' table do not have indexes on (host, user). And their host- and user fields are not consecutive. Thus, we need to do a table scan to find all matching records. */ if ((error= table->file->ha_rnd_init(1))) { table->file->print_error(error, MYF(0)); result= -1; } else { #ifdef EXTRA_DEBUG DBUG_PRINT("info",("scan table: '%s' search: '%s'@'%s'", table->s->table_name.str, user_str, host_str)); #endif while ((error= table->file->rnd_next(table->record[0])) != HA_ERR_END_OF_FILE) { if (error) { /* Most probable 'deleted record'. */ DBUG_PRINT("info",("scan error: %d", error)); continue; } if (! (host= get_field(thd->mem_root, host_field))) host= ""; if (! (user= get_field(thd->mem_root, user_field))) user= ""; #ifdef EXTRA_DEBUG DBUG_PRINT("loop",("scan fields: '%s'@'%s' '%s' '%s' '%s'", user, host, get_field(thd->mem_root, table->field[1]) /*db*/, get_field(thd->mem_root, table->field[3]) /*table*/, get_field(thd->mem_root, table->field[4]) /*column*/)); #endif if (strcmp(user_str, user) || my_strcasecmp(system_charset_info, host_str, host)) continue; /* If requested, delete or update the record. */ result= ((drop || user_to) && modify_grant_table(table, host_field, user_field, user_to)) ? -1 : result ? result : 1; /* Error or keep result or found. */ /* If search is requested, we do not need to search further. */ if (! drop && ! user_to) break ; } (void) table->file->ha_rnd_end(); DBUG_PRINT("info",("scan result: %d", result)); } } DBUG_RETURN(result); } /** Handle an in-memory privilege structure. @param struct_no The number of the structure to handle (0..4). @param drop If user_from is to be dropped. @param user_from The the user to be searched/dropped/renamed. @param user_to The new name for the user if to be renamed, NULL otherwise. @note Scan through all elements in an in-memory grant structure and apply the requested operation. Delete from grant structure if drop is true. Update in grant structure if drop is false and user_to is not NULL. Search in grant structure if drop is false and user_to is NULL. Structures are numbered as follows: 0 acl_users 1 acl_dbs 2 column_priv_hash 3 proc_priv_hash 4 func_priv_hash @retval > 0 At least one element matched. @retval 0 OK, but no element matched. @retval -1 Wrong arguments to function. */ static int handle_grant_struct(uint struct_no, bool drop, LEX_USER *user_from, LEX_USER *user_to) { int result= 0; uint idx; uint elements; const char *user; const char *host; ACL_USER *acl_user= NULL; ACL_DB *acl_db= NULL; GRANT_NAME *grant_name= NULL; HASH *grant_name_hash= NULL; DBUG_ENTER("handle_grant_struct"); DBUG_PRINT("info",("scan struct: %u search: '%s'@'%s'", struct_no, user_from->user.str, user_from->host.str)); LINT_INIT(user); LINT_INIT(host); safe_mutex_assert_owner(&acl_cache->lock); /* Get the number of elements in the in-memory structure. */ switch (struct_no) { case 0: elements= acl_users.elements; break; case 1: elements= acl_dbs.elements; break; case 2: elements= column_priv_hash.records; grant_name_hash= &column_priv_hash; break; case 3: elements= proc_priv_hash.records; grant_name_hash= &proc_priv_hash; break; case 4: elements= func_priv_hash.records; grant_name_hash= &func_priv_hash; break; default: return -1; } #ifdef EXTRA_DEBUG DBUG_PRINT("loop",("scan struct: %u search user: '%s' host: '%s'", struct_no, user_from->user.str, user_from->host.str)); #endif /* Loop over all elements. */ for (idx= 0; idx < elements; idx++) { /* Get a pointer to the element. */ switch (struct_no) { case 0: acl_user= dynamic_element(&acl_users, idx, ACL_USER*); user= acl_user->user; host= acl_user->host.hostname; break; case 1: acl_db= dynamic_element(&acl_dbs, idx, ACL_DB*); user= acl_db->user; host= acl_db->host.hostname; break; case 2: case 3: case 4: grant_name= (GRANT_NAME*) hash_element(grant_name_hash, idx); user= grant_name->user; host= grant_name->host.hostname; break; default: MY_ASSERT_UNREACHABLE(); } if (! user) user= ""; if (! host) host= ""; #ifdef EXTRA_DEBUG DBUG_PRINT("loop",("scan struct: %u index: %u user: '%s' host: '%s'", struct_no, idx, user, host)); #endif if (strcmp(user_from->user.str, user) || my_strcasecmp(system_charset_info, user_from->host.str, host)) continue; result= 1; /* At least one element found. */ if ( drop ) { switch ( struct_no ) { case 0: delete_dynamic_element(&acl_users, idx); break; case 1: delete_dynamic_element(&acl_dbs, idx); break; case 2: case 3: case 4: hash_delete(grant_name_hash, (uchar*) grant_name); break; } elements--; /* - If we are iterating through an array then we just have moved all elements after the current element one position closer to its head. This means that we have to take another look at the element at current position as it is a new element from the array's tail. - If we are iterating through a hash the current element was replaced with one of elements from the tail. So we also have to take a look at the new element in current position. Note that in our HASH implementation hash_delete() won't move any elements with position after current one to position before the current (i.e. from the tail to the head), so it is safe to continue iteration without re-starting. */ idx--; } else if ( user_to ) { switch ( struct_no ) { case 0: acl_user->user= strdup_root(&mem, user_to->user.str); acl_user->host.hostname= strdup_root(&mem, user_to->host.str); break; case 1: acl_db->user= strdup_root(&mem, user_to->user.str); acl_db->host.hostname= strdup_root(&mem, user_to->host.str); break; case 2: case 3: case 4: { /* Save old hash key and its length to be able properly update element position in hash. */ char *old_key= grant_name->hash_key; size_t old_key_length= grant_name->key_length; /* Update the grant structure with the new user name and host name. */ grant_name->set_user_details(user_to->host.str, grant_name->db, user_to->user.str, grant_name->tname, TRUE); /* Since username is part of the hash key, when the user name is renamed, the hash key is changed. Update the hash to ensure that the position matches the new hash key value */ hash_update(grant_name_hash, (uchar*) grant_name, (uchar*) old_key, old_key_length); /* hash_update() operation could have moved element from the tail of the hash to the current position. So we need to take a look at the element in current position once again. Thanks to the fact that hash_update() for our HASH implementation won't move any elements from the tail of the hash to the positions before the current one (a.k.a. head) it is safe to continue iteration without restarting. */ idx--; break; } } } else { /* If search is requested, we do not need to search further. */ break; } } #ifdef EXTRA_DEBUG DBUG_PRINT("loop",("scan struct: %u result %d", struct_no, result)); #endif DBUG_RETURN(result); } /* Handle all privilege tables and in-memory privilege structures. SYNOPSIS handle_grant_data() tables The array with the four open tables. drop If user_from is to be dropped. user_from The the user to be searched/dropped/renamed. user_to The new name for the user if to be renamed, NULL otherwise. DESCRIPTION Go through all grant tables and in-memory grant structures and apply the requested operation. Delete from grant data if drop is true. Update in grant data if drop is false and user_to is not NULL. Search in grant data if drop is false and user_to is NULL. RETURN > 0 At least one element matched. 0 OK, but no element matched. < 0 Error. */ static int handle_grant_data(TABLE_LIST *tables, bool drop, LEX_USER *user_from, LEX_USER *user_to) { int result= 0; int found; DBUG_ENTER("handle_grant_data"); /* Handle user table. */ if ((found= handle_grant_table(tables, 0, drop, user_from, user_to)) < 0) { /* Handle of table failed, don't touch the in-memory array. */ result= -1; } else { /* Handle user array. */ if ((handle_grant_struct(0, drop, user_from, user_to) && ! result) || found) { result= 1; /* At least one record/element found. */ /* If search is requested, we do not need to search further. */ if (! drop && ! user_to) goto end; } } /* Handle db table. */ if ((found= handle_grant_table(tables, 1, drop, user_from, user_to)) < 0) { /* Handle of table failed, don't touch the in-memory array. */ result= -1; } else { /* Handle db array. */ if (((handle_grant_struct(1, drop, user_from, user_to) && ! result) || found) && ! result) { result= 1; /* At least one record/element found. */ /* If search is requested, we do not need to search further. */ if (! drop && ! user_to) goto end; } } /* Handle stored routines table. */ if ((found= handle_grant_table(tables, 4, drop, user_from, user_to)) < 0) { /* Handle of table failed, don't touch in-memory array. */ result= -1; } else { /* Handle procs array. */ if (((handle_grant_struct(3, drop, user_from, user_to) && ! result) || found) && ! result) { result= 1; /* At least one record/element found. */ /* If search is requested, we do not need to search further. */ if (! drop && ! user_to) goto end; } /* Handle funcs array. */ if (((handle_grant_struct(4, drop, user_from, user_to) && ! result) || found) && ! result) { result= 1; /* At least one record/element found. */ /* If search is requested, we do not need to search further. */ if (! drop && ! user_to) goto end; } } /* Handle tables table. */ if ((found= handle_grant_table(tables, 2, drop, user_from, user_to)) < 0) { /* Handle of table failed, don't touch columns and in-memory array. */ result= -1; } else { if (found && ! result) { result= 1; /* At least one record found. */ /* If search is requested, we do not need to search further. */ if (! drop && ! user_to) goto end; } /* Handle columns table. */ if ((found= handle_grant_table(tables, 3, drop, user_from, user_to)) < 0) { /* Handle of table failed, don't touch the in-memory array. */ result= -1; } else { /* Handle columns hash. */ if (((handle_grant_struct(2, drop, user_from, user_to) && ! result) || found) && ! result) result= 1; /* At least one record/element found. */ } } end: DBUG_RETURN(result); } static void append_user(String *str, LEX_USER *user) { if (str->length()) str->append(','); str->append('\''); str->append(user->user.str); str->append(STRING_WITH_LEN("'@'")); str->append(user->host.str); str->append('\''); } /* Create a list of users. SYNOPSIS mysql_create_user() thd The current thread. list The users to create. RETURN FALSE OK. TRUE Error. */ bool mysql_create_user(THD *thd, List &list) { int result; String wrong_users; LEX_USER *user_name, *tmp_user_name; List_iterator user_list(list); TABLE_LIST tables[GRANT_TABLES]; bool some_users_created= FALSE; bool save_binlog_row_based; DBUG_ENTER("mysql_create_user"); /* This statement will be replicated as a statement, even when using row-based replication. The flag will be reset at the end of the statement. */ save_binlog_row_based= thd->current_stmt_binlog_row_based; thd->clear_current_stmt_binlog_row_based(); /* CREATE USER may be skipped on replication client. */ if ((result= open_grant_tables(thd, tables))) { /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(result != 1); } rw_wrlock(&LOCK_grant); VOID(pthread_mutex_lock(&acl_cache->lock)); while ((tmp_user_name= user_list++)) { if (!(user_name= get_current_user(thd, tmp_user_name))) { result= TRUE; continue; } /* Search all in-memory structures and grant tables for a mention of the new user name. */ if (handle_grant_data(tables, 0, user_name, NULL)) { append_user(&wrong_users, user_name); result= TRUE; continue; } some_users_created= TRUE; if (replace_user_table(thd, tables[0].table, *user_name, 0, 0, 1, 0)) { append_user(&wrong_users, user_name); result= TRUE; } } VOID(pthread_mutex_unlock(&acl_cache->lock)); if (result) my_error(ER_CANNOT_USER, MYF(0), "CREATE USER", wrong_users.c_ptr_safe()); if (some_users_created) result |= write_bin_log(thd, FALSE, thd->query(), thd->query_length()); rw_unlock(&LOCK_grant); close_thread_tables(thd); /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(result); } /* Drop a list of users and all their privileges. SYNOPSIS mysql_drop_user() thd The current thread. list The users to drop. RETURN FALSE OK. TRUE Error. */ bool mysql_drop_user(THD *thd, List &list) { int result; String wrong_users; LEX_USER *user_name, *tmp_user_name; List_iterator user_list(list); TABLE_LIST tables[GRANT_TABLES]; bool some_users_deleted= FALSE; ulong old_sql_mode= thd->variables.sql_mode; bool save_binlog_row_based; DBUG_ENTER("mysql_drop_user"); /* This statement will be replicated as a statement, even when using row-based replication. The flag will be reset at the end of the statement. */ save_binlog_row_based= thd->current_stmt_binlog_row_based; thd->clear_current_stmt_binlog_row_based(); /* DROP USER may be skipped on replication client. */ if ((result= open_grant_tables(thd, tables))) { /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(result != 1); } thd->variables.sql_mode&= ~MODE_PAD_CHAR_TO_FULL_LENGTH; rw_wrlock(&LOCK_grant); VOID(pthread_mutex_lock(&acl_cache->lock)); while ((tmp_user_name= user_list++)) { if (!(user_name= get_current_user(thd, tmp_user_name))) { result= TRUE; continue; } if (handle_grant_data(tables, 1, user_name, NULL) <= 0) { append_user(&wrong_users, user_name); result= TRUE; continue; } some_users_deleted= TRUE; } /* Rebuild 'acl_check_hosts' since 'acl_users' has been modified */ rebuild_check_host(); VOID(pthread_mutex_unlock(&acl_cache->lock)); if (result) my_error(ER_CANNOT_USER, MYF(0), "DROP USER", wrong_users.c_ptr_safe()); if (some_users_deleted) result |= write_bin_log(thd, FALSE, thd->query(), thd->query_length()); rw_unlock(&LOCK_grant); close_thread_tables(thd); thd->variables.sql_mode= old_sql_mode; /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(result); } /* Rename a user. SYNOPSIS mysql_rename_user() thd The current thread. list The user name pairs: (from, to). RETURN FALSE OK. TRUE Error. */ bool mysql_rename_user(THD *thd, List &list) { int result; String wrong_users; LEX_USER *user_from, *tmp_user_from; LEX_USER *user_to, *tmp_user_to; List_iterator user_list(list); TABLE_LIST tables[GRANT_TABLES]; bool some_users_renamed= FALSE; bool save_binlog_row_based; DBUG_ENTER("mysql_rename_user"); /* This statement will be replicated as a statement, even when using row-based replication. The flag will be reset at the end of the statement. */ save_binlog_row_based= thd->current_stmt_binlog_row_based; thd->clear_current_stmt_binlog_row_based(); /* RENAME USER may be skipped on replication client. */ if ((result= open_grant_tables(thd, tables))) { /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(result != 1); } rw_wrlock(&LOCK_grant); VOID(pthread_mutex_lock(&acl_cache->lock)); while ((tmp_user_from= user_list++)) { if (!(user_from= get_current_user(thd, tmp_user_from))) { result= TRUE; continue; } tmp_user_to= user_list++; if (!(user_to= get_current_user(thd, tmp_user_to))) { result= TRUE; continue; } DBUG_ASSERT(user_to != 0); /* Syntax enforces pairs of users. */ /* Search all in-memory structures and grant tables for a mention of the new user name. */ if (handle_grant_data(tables, 0, user_to, NULL) || handle_grant_data(tables, 0, user_from, user_to) <= 0) { append_user(&wrong_users, user_from); result= TRUE; continue; } some_users_renamed= TRUE; } /* Rebuild 'acl_check_hosts' since 'acl_users' has been modified */ rebuild_check_host(); VOID(pthread_mutex_unlock(&acl_cache->lock)); if (result) my_error(ER_CANNOT_USER, MYF(0), "RENAME USER", wrong_users.c_ptr_safe()); if (some_users_renamed && mysql_bin_log.is_open()) result |= write_bin_log(thd, FALSE, thd->query(), thd->query_length()); rw_unlock(&LOCK_grant); close_thread_tables(thd); /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(result); } /* Revoke all privileges from a list of users. SYNOPSIS mysql_revoke_all() thd The current thread. list The users to revoke all privileges from. RETURN > 0 Error. Error message already sent. 0 OK. < 0 Error. Error message not yet sent. */ bool mysql_revoke_all(THD *thd, List &list) { uint counter, revoked, is_proc; int result; ACL_DB *acl_db; TABLE_LIST tables[GRANT_TABLES]; bool save_binlog_row_based; DBUG_ENTER("mysql_revoke_all"); /* This statement will be replicated as a statement, even when using row-based replication. The flag will be reset at the end of the statement. */ save_binlog_row_based= thd->current_stmt_binlog_row_based; thd->clear_current_stmt_binlog_row_based(); if ((result= open_grant_tables(thd, tables))) { /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(result != 1); } rw_wrlock(&LOCK_grant); VOID(pthread_mutex_lock(&acl_cache->lock)); LEX_USER *lex_user, *tmp_lex_user; List_iterator user_list(list); while ((tmp_lex_user= user_list++)) { if (!(lex_user= get_current_user(thd, tmp_lex_user))) { result= -1; continue; } if (!find_acl_user(lex_user->host.str, lex_user->user.str, TRUE)) { result= -1; continue; } if (replace_user_table(thd, tables[0].table, *lex_user, ~(ulong)0, 1, 0, 0)) { result= -1; continue; } /* Remove db access privileges */ /* Because acl_dbs and column_priv_hash shrink and may re-order as privileges are removed, removal occurs in a repeated loop until no more privileges are revoked. */ do { for (counter= 0, revoked= 0 ; counter < acl_dbs.elements ; ) { const char *user,*host; acl_db=dynamic_element(&acl_dbs,counter,ACL_DB*); if (!(user=acl_db->user)) user= ""; if (!(host=acl_db->host.hostname)) host= ""; if (!strcmp(lex_user->user.str,user) && !strcmp(lex_user->host.str, host)) { if (!replace_db_table(tables[1].table, acl_db->db, *lex_user, ~(ulong)0, 1)) { /* Don't increment counter as replace_db_table deleted the current element in acl_dbs. */ revoked= 1; continue; } result= -1; // Something went wrong } counter++; } } while (revoked); /* Remove column access */ do { for (counter= 0, revoked= 0 ; counter < column_priv_hash.records ; ) { const char *user,*host; GRANT_TABLE *grant_table= (GRANT_TABLE*)hash_element(&column_priv_hash, counter); if (!(user=grant_table->user)) user= ""; if (!(host=grant_table->host.hostname)) host= ""; if (!strcmp(lex_user->user.str,user) && !strcmp(lex_user->host.str, host)) { if (replace_table_table(thd,grant_table,tables[2].table,*lex_user, grant_table->db, grant_table->tname, ~(ulong)0, 0, 1)) { result= -1; } else { if (!grant_table->cols) { revoked= 1; continue; } List columns; if (!replace_column_table(grant_table,tables[3].table, *lex_user, columns, grant_table->db, grant_table->tname, ~(ulong)0, 1)) { revoked= 1; continue; } result= -1; } } counter++; } } while (revoked); /* Remove procedure access */ for (is_proc=0; is_proc<2; is_proc++) do { HASH *hash= is_proc ? &proc_priv_hash : &func_priv_hash; for (counter= 0, revoked= 0 ; counter < hash->records ; ) { const char *user,*host; GRANT_NAME *grant_proc= (GRANT_NAME*) hash_element(hash, counter); if (!(user=grant_proc->user)) user= ""; if (!(host=grant_proc->host.hostname)) host= ""; if (!strcmp(lex_user->user.str,user) && !strcmp(lex_user->host.str, host)) { if (replace_routine_table(thd,grant_proc,tables[4].table,*lex_user, grant_proc->db, grant_proc->tname, is_proc, ~(ulong)0, 1) == 0) { revoked= 1; continue; } result= -1; // Something went wrong } counter++; } } while (revoked); } VOID(pthread_mutex_unlock(&acl_cache->lock)); if (result) my_message(ER_REVOKE_GRANTS, ER(ER_REVOKE_GRANTS), MYF(0)); result= result | write_bin_log(thd, FALSE, thd->query(), thd->query_length()); rw_unlock(&LOCK_grant); close_thread_tables(thd); /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(result); } /** If the defining user for a routine does not exist, then the ACL lookup code should raise two errors which we should intercept. We convert the more descriptive error into a warning, and consume the other. If any other errors are raised, then we set a flag that should indicate that there was some failure we should complain at a higher level. */ class Silence_routine_definer_errors : public Internal_error_handler { public: Silence_routine_definer_errors() : is_grave(FALSE) {} virtual ~Silence_routine_definer_errors() {} virtual bool handle_error(uint sql_errno, const char *message, MYSQL_ERROR::enum_warning_level level, THD *thd); bool has_errors() { return is_grave; } private: bool is_grave; }; bool Silence_routine_definer_errors::handle_error(uint sql_errno, const char *message, MYSQL_ERROR::enum_warning_level level, THD *thd) { if (level == MYSQL_ERROR::WARN_LEVEL_ERROR) { switch (sql_errno) { case ER_NONEXISTING_PROC_GRANT: /* Convert the error into a warning. */ push_warning(thd, MYSQL_ERROR::WARN_LEVEL_WARN, sql_errno, message); return TRUE; default: is_grave= TRUE; } } return FALSE; } /** Revoke privileges for all users on a stored procedure. Use an error handler that converts errors about missing grants into warnings. @param thd The current thread. @param db DB of the stored procedure @param name Name of the stored procedure @retval 0 OK. @retval < 0 Error. Error message not yet sent. */ bool sp_revoke_privileges(THD *thd, const char *sp_db, const char *sp_name, bool is_proc) { uint counter, revoked; int result; TABLE_LIST tables[GRANT_TABLES]; HASH *hash= is_proc ? &proc_priv_hash : &func_priv_hash; Silence_routine_definer_errors error_handler; bool save_binlog_row_based; DBUG_ENTER("sp_revoke_privileges"); if ((result= open_grant_tables(thd, tables))) DBUG_RETURN(result != 1); /* Be sure to pop this before exiting this scope! */ thd->push_internal_handler(&error_handler); rw_wrlock(&LOCK_grant); VOID(pthread_mutex_lock(&acl_cache->lock)); /* This statement will be replicated as a statement, even when using row-based replication. The flag will be reset at the end of the statement. */ save_binlog_row_based= thd->current_stmt_binlog_row_based; thd->clear_current_stmt_binlog_row_based(); /* Remove procedure access */ do { for (counter= 0, revoked= 0 ; counter < hash->records ; ) { GRANT_NAME *grant_proc= (GRANT_NAME*) hash_element(hash, counter); if (!my_strcasecmp(&my_charset_utf8_bin, grant_proc->db, sp_db) && !my_strcasecmp(system_charset_info, grant_proc->tname, sp_name)) { LEX_USER lex_user; lex_user.user.str= grant_proc->user; lex_user.user.length= strlen(grant_proc->user); lex_user.host.str= grant_proc->host.hostname ? grant_proc->host.hostname : (char*)""; lex_user.host.length= grant_proc->host.hostname ? strlen(grant_proc->host.hostname) : 0; if (replace_routine_table(thd,grant_proc,tables[4].table,lex_user, grant_proc->db, grant_proc->tname, is_proc, ~(ulong)0, 1) == 0) { revoked= 1; continue; } } counter++; } } while (revoked); VOID(pthread_mutex_unlock(&acl_cache->lock)); rw_unlock(&LOCK_grant); close_thread_tables(thd); thd->pop_internal_handler(); /* Restore the state of binlog format */ thd->current_stmt_binlog_row_based= save_binlog_row_based; DBUG_RETURN(error_handler.has_errors()); } /** Grant EXECUTE,ALTER privilege for a stored procedure @param thd The current thread. @param sp_db @param sp_name @param is_proc @return @retval FALSE Success @retval TRUE An error occured. Error message not yet sent. */ bool sp_grant_privileges(THD *thd, const char *sp_db, const char *sp_name, bool is_proc) { Security_context *sctx= thd->security_ctx; LEX_USER *combo; TABLE_LIST tables[1]; List user_list; bool result; ACL_USER *au; char passwd_buff[SCRAMBLED_PASSWORD_CHAR_LENGTH+1]; Dummy_error_handler error_handler; DBUG_ENTER("sp_grant_privileges"); if (!(combo=(LEX_USER*) thd->alloc(sizeof(st_lex_user)))) DBUG_RETURN(TRUE); combo->user.str= sctx->user; VOID(pthread_mutex_lock(&acl_cache->lock)); if ((au= find_acl_user(combo->host.str=(char*)sctx->host_or_ip,combo->user.str,FALSE))) goto found_acl; if ((au= find_acl_user(combo->host.str=(char*)sctx->host, combo->user.str,FALSE))) goto found_acl; if ((au= find_acl_user(combo->host.str=(char*)sctx->ip, combo->user.str,FALSE))) goto found_acl; if((au= find_acl_user(combo->host.str=(char*)"%", combo->user.str, FALSE))) goto found_acl; VOID(pthread_mutex_unlock(&acl_cache->lock)); DBUG_RETURN(TRUE); found_acl: VOID(pthread_mutex_unlock(&acl_cache->lock)); bzero((char*)tables, sizeof(TABLE_LIST)); user_list.empty(); tables->db= (char*)sp_db; tables->table_name= tables->alias= (char*)sp_name; combo->host.length= strlen(combo->host.str); combo->user.length= strlen(combo->user.str); combo->host.str= thd->strmake(combo->host.str,combo->host.length); combo->user.str= thd->strmake(combo->user.str,combo->user.length); if(au && au->salt_len) { if (au->salt_len == SCRAMBLE_LENGTH) { make_password_from_salt(passwd_buff, au->salt); combo->password.length= SCRAMBLED_PASSWORD_CHAR_LENGTH; } else if (au->salt_len == SCRAMBLE_LENGTH_323) { make_password_from_salt_323(passwd_buff, (ulong *) au->salt); combo->password.length= SCRAMBLED_PASSWORD_CHAR_LENGTH_323; } else { push_warning_printf(thd, MYSQL_ERROR::WARN_LEVEL_WARN, ER_PASSWD_LENGTH, ER(ER_PASSWD_LENGTH), SCRAMBLED_PASSWORD_CHAR_LENGTH); return TRUE; } combo->password.str= passwd_buff; } else { combo->password.str= (char*)""; combo->password.length= 0; } if (user_list.push_back(combo)) DBUG_RETURN(TRUE); thd->lex->ssl_type= SSL_TYPE_NOT_SPECIFIED; thd->lex->ssl_cipher= thd->lex->x509_subject= thd->lex->x509_issuer= 0; bzero((char*) &thd->lex->mqh, sizeof(thd->lex->mqh)); /* Only care about whether the operation failed or succeeded as all errors will be handled later. */ thd->push_internal_handler(&error_handler); result= mysql_routine_grant(thd, tables, is_proc, user_list, DEFAULT_CREATE_PROC_ACLS, FALSE, FALSE); thd->pop_internal_handler(); DBUG_RETURN(result); } /***************************************************************************** Instantiate used templates *****************************************************************************/ #ifdef HAVE_EXPLICIT_TEMPLATE_INSTANTIATION template class List_iterator; template class List_iterator; template class List; template class List; #endif #endif /*NO_EMBEDDED_ACCESS_CHECKS */ int wild_case_compare(CHARSET_INFO *cs, const char *str,const char *wildstr) { reg3 int flag; DBUG_ENTER("wild_case_compare"); DBUG_PRINT("enter",("str: '%s' wildstr: '%s'",str,wildstr)); while (*wildstr) { while (*wildstr && *wildstr != wild_many && *wildstr != wild_one) { if (*wildstr == wild_prefix && wildstr[1]) wildstr++; if (my_toupper(cs, *wildstr++) != my_toupper(cs, *str++)) DBUG_RETURN(1); } if (! *wildstr ) DBUG_RETURN (*str != 0); if (*wildstr++ == wild_one) { if (! *str++) DBUG_RETURN (1); /* One char; skip */ } else { /* Found '*' */ if (!*wildstr) DBUG_RETURN(0); /* '*' as last char: OK */ flag=(*wildstr != wild_many && *wildstr != wild_one); do { if (flag) { char cmp; if ((cmp= *wildstr) == wild_prefix && wildstr[1]) cmp=wildstr[1]; cmp=my_toupper(cs, cmp); while (*str && my_toupper(cs, *str) != cmp) str++; if (!*str) DBUG_RETURN (1); } if (wild_case_compare(cs, str,wildstr) == 0) DBUG_RETURN (0); } while (*str++); DBUG_RETURN(1); } } DBUG_RETURN (*str != '\0'); } #ifndef NO_EMBEDDED_ACCESS_CHECKS static bool update_schema_privilege(THD *thd, TABLE *table, char *buff, const char* db, const char* t_name, const char* column, uint col_length, const char *priv, uint priv_length, const char* is_grantable) { int i= 2; CHARSET_INFO *cs= system_charset_info; restore_record(table, s->default_values); table->field[0]->store(buff, (uint) strlen(buff), cs); if (db) table->field[i++]->store(db, (uint) strlen(db), cs); if (t_name) table->field[i++]->store(t_name, (uint) strlen(t_name), cs); if (column) table->field[i++]->store(column, col_length, cs); table->field[i++]->store(priv, priv_length, cs); table->field[i]->store(is_grantable, strlen(is_grantable), cs); return schema_table_store_record(thd, table); } #endif int fill_schema_user_privileges(THD *thd, TABLE_LIST *tables, COND *cond) { #ifndef NO_EMBEDDED_ACCESS_CHECKS int error= 0; uint counter; ACL_USER *acl_user; ulong want_access; char buff[100]; TABLE *table= tables->table; bool no_global_access= check_access(thd, SELECT_ACL, "mysql",0,1,1,0); char *curr_host= thd->security_ctx->priv_host_name(); DBUG_ENTER("fill_schema_user_privileges"); if (!initialized) DBUG_RETURN(0); pthread_mutex_lock(&acl_cache->lock); for (counter=0 ; counter < acl_users.elements ; counter++) { const char *user,*host, *is_grantable="YES"; acl_user=dynamic_element(&acl_users,counter,ACL_USER*); if (!(user=acl_user->user)) user= ""; if (!(host=acl_user->host.hostname)) host= ""; if (no_global_access && (strcmp(thd->security_ctx->priv_user, user) || my_strcasecmp(system_charset_info, curr_host, host))) continue; want_access= acl_user->access; if (!(want_access & GRANT_ACL)) is_grantable= "NO"; strxmov(buff,"'",user,"'@'",host,"'",NullS); if (!(want_access & ~GRANT_ACL)) { if (update_schema_privilege(thd, table, buff, 0, 0, 0, 0, STRING_WITH_LEN("USAGE"), is_grantable)) { error= 1; goto err; } } else { uint priv_id; ulong j,test_access= want_access & ~GRANT_ACL; for (priv_id=0, j = SELECT_ACL;j <= GLOBAL_ACLS; priv_id++,j <<= 1) { if (test_access & j) { if (update_schema_privilege(thd, table, buff, 0, 0, 0, 0, command_array[priv_id], command_lengths[priv_id], is_grantable)) { error= 1; goto err; } } } } } err: pthread_mutex_unlock(&acl_cache->lock); DBUG_RETURN(error); #else return(0); #endif } int fill_schema_schema_privileges(THD *thd, TABLE_LIST *tables, COND *cond) { #ifndef NO_EMBEDDED_ACCESS_CHECKS int error= 0; uint counter; ACL_DB *acl_db; ulong want_access; char buff[100]; TABLE *table= tables->table; bool no_global_access= check_access(thd, SELECT_ACL, "mysql",0,1,1,0); char *curr_host= thd->security_ctx->priv_host_name(); DBUG_ENTER("fill_schema_schema_privileges"); if (!initialized) DBUG_RETURN(0); pthread_mutex_lock(&acl_cache->lock); for (counter=0 ; counter < acl_dbs.elements ; counter++) { const char *user, *host, *is_grantable="YES"; acl_db=dynamic_element(&acl_dbs,counter,ACL_DB*); if (!(user=acl_db->user)) user= ""; if (!(host=acl_db->host.hostname)) host= ""; if (no_global_access && (strcmp(thd->security_ctx->priv_user, user) || my_strcasecmp(system_charset_info, curr_host, host))) continue; want_access=acl_db->access; if (want_access) { if (!(want_access & GRANT_ACL)) { is_grantable= "NO"; } strxmov(buff,"'",user,"'@'",host,"'",NullS); if (!(want_access & ~GRANT_ACL)) { if (update_schema_privilege(thd, table, buff, acl_db->db, 0, 0, 0, STRING_WITH_LEN("USAGE"), is_grantable)) { error= 1; goto err; } } else { int cnt; ulong j,test_access= want_access & ~GRANT_ACL; for (cnt=0, j = SELECT_ACL; j <= DB_ACLS; cnt++,j <<= 1) if (test_access & j) { if (update_schema_privilege(thd, table, buff, acl_db->db, 0, 0, 0, command_array[cnt], command_lengths[cnt], is_grantable)) { error= 1; goto err; } } } } } err: pthread_mutex_unlock(&acl_cache->lock); DBUG_RETURN(error); #else return (0); #endif } int fill_schema_table_privileges(THD *thd, TABLE_LIST *tables, COND *cond) { #ifndef NO_EMBEDDED_ACCESS_CHECKS int error= 0; uint index; char buff[100]; TABLE *table= tables->table; bool no_global_access= check_access(thd, SELECT_ACL, "mysql",0,1,1,0); char *curr_host= thd->security_ctx->priv_host_name(); DBUG_ENTER("fill_schema_table_privileges"); rw_rdlock(&LOCK_grant); for (index=0 ; index < column_priv_hash.records ; index++) { const char *user, *host, *is_grantable= "YES"; GRANT_TABLE *grant_table= (GRANT_TABLE*) hash_element(&column_priv_hash, index); if (!(user=grant_table->user)) user= ""; if (!(host= grant_table->host.hostname)) host= ""; if (no_global_access && (strcmp(thd->security_ctx->priv_user, user) || my_strcasecmp(system_charset_info, curr_host, host))) continue; ulong table_access= grant_table->privs; if (table_access) { ulong test_access= table_access & ~GRANT_ACL; /* We should skip 'usage' privilege on table if we have any privileges on column(s) of this table */ if (!test_access && grant_table->cols) continue; if (!(table_access & GRANT_ACL)) is_grantable= "NO"; strxmov(buff, "'", user, "'@'", host, "'", NullS); if (!test_access) { if (update_schema_privilege(thd, table, buff, grant_table->db, grant_table->tname, 0, 0, STRING_WITH_LEN("USAGE"), is_grantable)) { error= 1; goto err; } } else { ulong j; int cnt; for (cnt= 0, j= SELECT_ACL; j <= TABLE_ACLS; cnt++, j<<= 1) { if (test_access & j) { if (update_schema_privilege(thd, table, buff, grant_table->db, grant_table->tname, 0, 0, command_array[cnt], command_lengths[cnt], is_grantable)) { error= 1; goto err; } } } } } } err: rw_unlock(&LOCK_grant); DBUG_RETURN(error); #else return (0); #endif } int fill_schema_column_privileges(THD *thd, TABLE_LIST *tables, COND *cond) { #ifndef NO_EMBEDDED_ACCESS_CHECKS int error= 0; uint index; char buff[100]; TABLE *table= tables->table; bool no_global_access= check_access(thd, SELECT_ACL, "mysql",0,1,1,0); char *curr_host= thd->security_ctx->priv_host_name(); DBUG_ENTER("fill_schema_table_privileges"); rw_rdlock(&LOCK_grant); for (index=0 ; index < column_priv_hash.records ; index++) { const char *user, *host, *is_grantable= "YES"; GRANT_TABLE *grant_table= (GRANT_TABLE*) hash_element(&column_priv_hash, index); if (!(user=grant_table->user)) user= ""; if (!(host= grant_table->host.hostname)) host= ""; if (no_global_access && (strcmp(thd->security_ctx->priv_user, user) || my_strcasecmp(system_charset_info, curr_host, host))) continue; ulong table_access= grant_table->cols; if (table_access != 0) { if (!(grant_table->privs & GRANT_ACL)) is_grantable= "NO"; ulong test_access= table_access & ~GRANT_ACL; strxmov(buff, "'", user, "'@'", host, "'", NullS); if (!test_access) continue; else { ulong j; int cnt; for (cnt= 0, j= SELECT_ACL; j <= TABLE_ACLS; cnt++, j<<= 1) { if (test_access & j) { for (uint col_index=0 ; col_index < grant_table->hash_columns.records ; col_index++) { GRANT_COLUMN *grant_column = (GRANT_COLUMN*) hash_element(&grant_table->hash_columns,col_index); if ((grant_column->rights & j) && (table_access & j)) { if (update_schema_privilege(thd, table, buff, grant_table->db, grant_table->tname, grant_column->column, grant_column->key_length, command_array[cnt], command_lengths[cnt], is_grantable)) { error= 1; goto err; } } } } } } } } err: rw_unlock(&LOCK_grant); DBUG_RETURN(error); #else return (0); #endif } #ifndef NO_EMBEDDED_ACCESS_CHECKS /* fill effective privileges for table SYNOPSIS fill_effective_table_privileges() thd thread handler grant grants table descriptor db db name table table name */ void fill_effective_table_privileges(THD *thd, GRANT_INFO *grant, const char *db, const char *table) { Security_context *sctx= thd->security_ctx; DBUG_ENTER("fill_effective_table_privileges"); DBUG_PRINT("enter", ("Host: '%s', Ip: '%s', User: '%s', table: `%s`.`%s`", sctx->priv_host, (sctx->ip ? sctx->ip : "(NULL)"), (sctx->priv_user ? sctx->priv_user : "(NULL)"), db, table)); /* --skip-grants */ if (!initialized) { DBUG_PRINT("info", ("skip grants")); grant->privilege= ~NO_ACCESS; // everything is allowed DBUG_PRINT("info", ("privilege 0x%lx", grant->privilege)); DBUG_VOID_RETURN; } /* global privileges */ grant->privilege= sctx->master_access; if (!sctx->priv_user) { DBUG_PRINT("info", ("privilege 0x%lx", grant->privilege)); DBUG_VOID_RETURN; // it is slave } /* db privileges */ grant->privilege|= acl_get(sctx->host, sctx->ip, sctx->priv_user, db, 0); /* table privileges */ rw_rdlock(&LOCK_grant); if (grant->version != grant_version) { grant->grant_table= table_hash_search(sctx->host, sctx->ip, db, sctx->priv_user, table, 0); /* purecov: inspected */ grant->version= grant_version; /* purecov: inspected */ } if (grant->grant_table != 0) { grant->privilege|= grant->grant_table->privs; } rw_unlock(&LOCK_grant); DBUG_PRINT("info", ("privilege 0x%lx", grant->privilege)); DBUG_VOID_RETURN; } #else /* NO_EMBEDDED_ACCESS_CHECKS */ /**************************************************************************** Dummy wrappers when we don't have any access checks ****************************************************************************/ bool check_routine_level_acl(THD *thd, const char *db, const char *name, bool is_proc) { return FALSE; } #endif