/* Copyright (C) 2007 MySQL AB This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* Functions to autenticate and handle reqests for a connection */ #include "mysql_priv.h" #ifdef HAVE_OPENSSL /* Without SSL the handshake consists of one packet. This packet has both client capabilites and scrambled password. With SSL the handshake might consist of two packets. If the first packet (client capabilities) has CLIENT_SSL flag set, we have to switch to SSL and read the second packet. The scrambled password is in the second packet and client_capabilites field will be ignored. Maybe it is better to accept flags other than CLIENT_SSL from the second packet? */ #define SSL_HANDSHAKE_SIZE 2 #define NORMAL_HANDSHAKE_SIZE 6 #define MIN_HANDSHAKE_SIZE 2 #else #define MIN_HANDSHAKE_SIZE 6 #endif /* HAVE_OPENSSL */ #ifdef __WIN__ static void test_signal(int sig_ptr) { #if !defined( DBUG_OFF) MessageBox(NULL,"Test signal","DBUG",MB_OK); #endif #if defined(OS2) fprintf(stderr, "Test signal %d\n", sig_ptr); fflush(stderr); #endif } static void init_signals(void) { int signals[7] = {SIGINT,SIGILL,SIGFPE,SIGSEGV,SIGTERM,SIGBREAK,SIGABRT } ; for (int i=0 ; i < 7 ; i++) signal( signals[i], test_signal) ; } #endif /* Get structure for logging connection data for the current user */ #ifndef NO_EMBEDDED_ACCESS_CHECKS static HASH hash_user_connections; static int get_or_create_user_conn(THD *thd, const char *user, const char *host, USER_RESOURCES *mqh) { int return_val= 0; uint temp_len, user_len; char temp_user[USER_HOST_BUFF_SIZE]; struct user_conn *uc; DBUG_ASSERT(user != 0); DBUG_ASSERT(host != 0); user_len= strlen(user); temp_len= (strmov(strmov(temp_user, user)+1, host) - temp_user)+1; (void) pthread_mutex_lock(&LOCK_user_conn); if (!(uc = (struct user_conn *) hash_search(&hash_user_connections, (uchar*) temp_user, temp_len))) { /* First connection for user; Create a user connection object */ if (!(uc= ((struct user_conn*) my_malloc(sizeof(struct user_conn) + temp_len+1, MYF(MY_WME))))) { net_send_error(thd, 0, NullS); // Out of memory return_val= 1; goto end; } uc->user=(char*) (uc+1); memcpy(uc->user,temp_user,temp_len+1); uc->host= uc->user + user_len + 1; uc->len= temp_len; uc->connections= uc->questions= uc->updates= uc->conn_per_hour= 0; uc->user_resources= *mqh; uc->reset_utime= thd->thr_create_utime; if (my_hash_insert(&hash_user_connections, (uchar*) uc)) { my_free((char*) uc,0); net_send_error(thd, 0, NullS); // Out of memory return_val= 1; goto end; } } thd->user_connect=uc; uc->connections++; end: (void) pthread_mutex_unlock(&LOCK_user_conn); return return_val; } /* check if user has already too many connections SYNOPSIS check_for_max_user_connections() thd Thread handle uc User connect object NOTES If check fails, we decrease user connection count, which means one shouldn't call decrease_user_connections() after this function. RETURN 0 ok 1 error */ int check_for_max_user_connections(THD *thd, USER_CONN *uc) { int error=0; DBUG_ENTER("check_for_max_user_connections"); (void) pthread_mutex_lock(&LOCK_user_conn); if (max_user_connections && !uc->user_resources.user_conn && max_user_connections < (uint) uc->connections) { net_printf_error(thd, ER_TOO_MANY_USER_CONNECTIONS, uc->user); error=1; goto end; } time_out_user_resource_limits(thd, uc); if (uc->user_resources.user_conn && uc->user_resources.user_conn < uc->connections) { net_printf_error(thd, ER_USER_LIMIT_REACHED, uc->user, "max_user_connections", (long) uc->user_resources.user_conn); error= 1; goto end; } if (uc->user_resources.conn_per_hour && uc->user_resources.conn_per_hour <= uc->conn_per_hour) { net_printf_error(thd, ER_USER_LIMIT_REACHED, uc->user, "max_connections_per_hour", (long) uc->user_resources.conn_per_hour); error=1; goto end; } uc->conn_per_hour++; end: if (error) uc->connections--; // no need for decrease_user_connections() here (void) pthread_mutex_unlock(&LOCK_user_conn); DBUG_RETURN(error); } /* Decrease user connection count SYNOPSIS decrease_user_connections() uc User connection object NOTES If there is a n user connection object for a connection (which only happens if 'max_user_connections' is defined or if someone has created a resource grant for a user), then the connection count is always incremented on connect. The user connect object is not freed if some users has 'max connections per hour' defined as we need to be able to hold count over the lifetime of the connection. */ void decrease_user_connections(USER_CONN *uc) { DBUG_ENTER("decrease_user_connections"); (void) pthread_mutex_lock(&LOCK_user_conn); DBUG_ASSERT(uc->connections); if (!--uc->connections && !mqh_used) { /* Last connection for user; Delete it */ (void) hash_delete(&hash_user_connections,(uchar*) uc); } (void) pthread_mutex_unlock(&LOCK_user_conn); DBUG_VOID_RETURN; } /* Reset per-hour user resource limits when it has been more than an hour since they were last checked SYNOPSIS: time_out_user_resource_limits() thd Thread handler uc User connection details NOTE: This assumes that the LOCK_user_conn mutex has been acquired, so it is safe to test and modify members of the USER_CONN structure. */ void time_out_user_resource_limits(THD *thd, USER_CONN *uc) { ulonglong check_time= thd->start_utime; DBUG_ENTER("time_out_user_resource_limits"); /* If more than a hour since last check, reset resource checking */ if (check_time - uc->reset_utime >= LL(3600000000)) { uc->questions=1; uc->updates=0; uc->conn_per_hour=0; uc->reset_utime= check_time; } DBUG_VOID_RETURN; } /* Check if maximum queries per hour limit has been reached returns 0 if OK. */ bool check_mqh(THD *thd, uint check_command) { bool error= 0; USER_CONN *uc=thd->user_connect; DBUG_ENTER("check_mqh"); DBUG_ASSERT(uc != 0); (void) pthread_mutex_lock(&LOCK_user_conn); time_out_user_resource_limits(thd, uc); /* Check that we have not done too many questions / hour */ if (uc->user_resources.questions && uc->questions++ >= uc->user_resources.questions) { net_printf_error(thd, ER_USER_LIMIT_REACHED, uc->user, "max_questions", (long) uc->user_resources.questions); error=1; goto end; } if (check_command < (uint) SQLCOM_END) { /* Check that we have not done too many updates / hour */ if (uc->user_resources.updates && (sql_command_flags[check_command] & CF_CHANGES_DATA) && uc->updates++ >= uc->user_resources.updates) { net_printf_error(thd, ER_USER_LIMIT_REACHED, uc->user, "max_updates", (long) uc->user_resources.updates); error=1; goto end; } } end: (void) pthread_mutex_unlock(&LOCK_user_conn); DBUG_RETURN(error); } #endif /* NO_EMBEDDED_ACCESS_CHECKS */ /* Check if user exist and password supplied is correct. SYNOPSIS check_user() thd thread handle, thd->security_ctx->{host,user,ip} are used command originator of the check: now check_user is called during connect and change user procedures; used for logging. passwd scrambled password received from client passwd_len length of scrambled password db database name to connect to, may be NULL check_count dont know exactly Note, that host, user and passwd may point to communication buffer. Current implementation does not depend on that, but future changes should be done with this in mind; 'thd' is INOUT, all other params are 'IN'. RETURN VALUE 0 OK; thd->security_ctx->user/master_access/priv_user/db_access and thd->db are updated; OK is sent to client; -1 access denied or handshake error; error is sent to client; >0 error, not sent to client */ int check_user(THD *thd, enum enum_server_command command, const char *passwd, uint passwd_len, const char *db, bool check_count) { DBUG_ENTER("check_user"); LEX_STRING db_str= { (char *) db, db ? strlen(db) : 0 }; #ifdef NO_EMBEDDED_ACCESS_CHECKS thd->main_security_ctx.master_access= GLOBAL_ACLS; // Full rights /* Change database if necessary */ if (db && db[0]) { /* thd->db is saved in caller and needs to be freed by caller if this function returns 0 */ thd->reset_db(NULL, 0); if (mysql_change_db(thd, &db_str, FALSE)) { /* Send the error to the client */ net_send_error(thd); DBUG_RETURN(-1); } } send_ok(thd); DBUG_RETURN(0); #else my_bool opt_secure_auth_local; pthread_mutex_lock(&LOCK_global_system_variables); opt_secure_auth_local= opt_secure_auth; pthread_mutex_unlock(&LOCK_global_system_variables); /* If the server is running in secure auth mode, short scrambles are forbidden. */ if (opt_secure_auth_local && passwd_len == SCRAMBLE_LENGTH_323) { net_printf_error(thd, ER_NOT_SUPPORTED_AUTH_MODE); general_log_print(thd, COM_CONNECT, ER(ER_NOT_SUPPORTED_AUTH_MODE)); DBUG_RETURN(-1); } if (passwd_len != 0 && passwd_len != SCRAMBLE_LENGTH && passwd_len != SCRAMBLE_LENGTH_323) DBUG_RETURN(ER_HANDSHAKE_ERROR); /* Clear thd->db as it points to something, that will be freed when connection is closed. We don't want to accidentally free a wrong pointer if connect failed. Also in case of 'CHANGE USER' failure, current database will be switched to 'no database selected'. */ thd->reset_db(NULL, 0); USER_RESOURCES ur; int res= acl_getroot(thd, &ur, passwd, passwd_len); #ifndef EMBEDDED_LIBRARY if (res == -1) { /* This happens when client (new) sends password scrambled with scramble(), but database holds old value (scrambled with scramble_323()). Here we please client to send scrambled_password in old format. */ NET *net= &thd->net; if (opt_secure_auth_local) { net_printf_error(thd, ER_SERVER_IS_IN_SECURE_AUTH_MODE, thd->main_security_ctx.user, thd->main_security_ctx.host_or_ip); general_log_print(thd, COM_CONNECT, ER(ER_SERVER_IS_IN_SECURE_AUTH_MODE), thd->main_security_ctx.user, thd->main_security_ctx.host_or_ip); DBUG_RETURN(-1); } /* We have to read very specific packet size */ if (send_old_password_request(thd) || my_net_read(net) != SCRAMBLE_LENGTH_323 + 1) { inc_host_errors(&thd->remote.sin_addr); DBUG_RETURN(ER_HANDSHAKE_ERROR); } /* Final attempt to check the user based on reply */ /* So as passwd is short, errcode is always >= 0 */ res= acl_getroot(thd, &ur, (char *) net->read_pos, SCRAMBLE_LENGTH_323); } #endif /*EMBEDDED_LIBRARY*/ /* here res is always >= 0 */ if (res == 0) { if (!(thd->main_security_ctx.master_access & NO_ACCESS)) // authentication is OK { DBUG_PRINT("info", ("Capabilities: %lu packet_length: %ld Host: '%s' " "Login user: '%s' Priv_user: '%s' Using password: %s " "Access: %lu db: '%s'", thd->client_capabilities, thd->max_client_packet_length, thd->main_security_ctx.host_or_ip, thd->main_security_ctx.user, thd->main_security_ctx.priv_user, passwd_len ? "yes": "no", thd->main_security_ctx.master_access, (thd->db ? thd->db : "*none*"))); if (check_count) { VOID(pthread_mutex_lock(&LOCK_thread_count)); bool count_ok= thread_count <= max_connections + delayed_insert_threads || (thd->main_security_ctx.master_access & SUPER_ACL); VOID(pthread_mutex_unlock(&LOCK_thread_count)); if (!count_ok) { // too many connections net_send_error(thd, ER_CON_COUNT_ERROR); DBUG_RETURN(-1); } } /* Log the command before authentication checks, so that the user can check the log for the tried login tried and also to detect break-in attempts. */ general_log_print(thd, command, (thd->main_security_ctx.priv_user == thd->main_security_ctx.user ? (char*) "%s@%s on %s" : (char*) "%s@%s as anonymous on %s"), thd->main_security_ctx.user, thd->main_security_ctx.host_or_ip, db ? db : (char*) ""); /* This is the default access rights for the current database. It's set to 0 here because we don't have an active database yet (and we may not have an active database to set. */ thd->main_security_ctx.db_access=0; /* Don't allow user to connect if he has done too many queries */ if ((ur.questions || ur.updates || ur.conn_per_hour || ur.user_conn || max_user_connections) && get_or_create_user_conn(thd, (opt_old_style_user_limits ? thd->main_security_ctx.user : thd->main_security_ctx.priv_user), (opt_old_style_user_limits ? thd->main_security_ctx.host_or_ip : thd->main_security_ctx.priv_host), &ur)) DBUG_RETURN(-1); if (thd->user_connect && (thd->user_connect->user_resources.conn_per_hour || thd->user_connect->user_resources.user_conn || max_user_connections) && check_for_max_user_connections(thd, thd->user_connect)) DBUG_RETURN(-1); /* Change database if necessary */ if (db && db[0]) { if (mysql_change_db(thd, &db_str, FALSE)) { /* Send error to the client */ net_send_error(thd); if (thd->user_connect) decrease_user_connections(thd->user_connect); DBUG_RETURN(-1); } } send_ok(thd); thd->password= test(passwd_len); // remember for error messages /* Ready to handle queries */ DBUG_RETURN(0); } } else if (res == 2) // client gave short hash, server has long hash { net_printf_error(thd, ER_NOT_SUPPORTED_AUTH_MODE); general_log_print(thd, COM_CONNECT, ER(ER_NOT_SUPPORTED_AUTH_MODE)); DBUG_RETURN(-1); } net_printf_error(thd, ER_ACCESS_DENIED_ERROR, thd->main_security_ctx.user, thd->main_security_ctx.host_or_ip, passwd_len ? ER(ER_YES) : ER(ER_NO)); general_log_print(thd, COM_CONNECT, ER(ER_ACCESS_DENIED_ERROR), thd->main_security_ctx.user, thd->main_security_ctx.host_or_ip, passwd_len ? ER(ER_YES) : ER(ER_NO)); DBUG_RETURN(-1); #endif /* NO_EMBEDDED_ACCESS_CHECKS */ } /* Check for maximum allowable user connections, if the mysqld server is started with corresponding variable that is greater then 0. */ extern "C" uchar *get_key_conn(user_conn *buff, size_t *length, my_bool not_used __attribute__((unused))) { *length= buff->len; return (uchar*) buff->user; } extern "C" void free_user(struct user_conn *uc) { my_free((char*) uc,MYF(0)); } void init_max_user_conn(void) { #ifndef NO_EMBEDDED_ACCESS_CHECKS (void) hash_init(&hash_user_connections,system_charset_info,max_connections, 0,0, (hash_get_key) get_key_conn, (hash_free_key) free_user, 0); #endif } void free_max_user_conn(void) { #ifndef NO_EMBEDDED_ACCESS_CHECKS hash_free(&hash_user_connections); #endif /* NO_EMBEDDED_ACCESS_CHECKS */ } void reset_mqh(LEX_USER *lu, bool get_them= 0) { #ifndef NO_EMBEDDED_ACCESS_CHECKS (void) pthread_mutex_lock(&LOCK_user_conn); if (lu) // for GRANT { USER_CONN *uc; uint temp_len=lu->user.length+lu->host.length+2; char temp_user[USER_HOST_BUFF_SIZE]; memcpy(temp_user,lu->user.str,lu->user.length); memcpy(temp_user+lu->user.length+1,lu->host.str,lu->host.length); temp_user[lu->user.length]='\0'; temp_user[temp_len-1]=0; if ((uc = (struct user_conn *) hash_search(&hash_user_connections, (uchar*) temp_user, temp_len))) { uc->questions=0; get_mqh(temp_user,&temp_user[lu->user.length+1],uc); uc->updates=0; uc->conn_per_hour=0; } } else { /* for FLUSH PRIVILEGES and FLUSH USER_RESOURCES */ for (uint idx=0;idx < hash_user_connections.records; idx++) { USER_CONN *uc=(struct user_conn *) hash_element(&hash_user_connections, idx); if (get_them) get_mqh(uc->user,uc->host,uc); uc->questions=0; uc->updates=0; uc->conn_per_hour=0; } } (void) pthread_mutex_unlock(&LOCK_user_conn); #endif /* NO_EMBEDDED_ACCESS_CHECKS */ } void thd_init_client_charset(THD *thd, uint cs_number) { /* Use server character set and collation if - opt_character_set_client_handshake is not set - client has not specified a character set - client character set is the same as the servers - client character set doesn't exists in server */ if (!opt_character_set_client_handshake || !(thd->variables.character_set_client= get_charset(cs_number, MYF(0))) || !my_strcasecmp(&my_charset_latin1, global_system_variables.character_set_client->name, thd->variables.character_set_client->name)) { thd->variables.character_set_client= global_system_variables.character_set_client; thd->variables.collation_connection= global_system_variables.collation_connection; thd->variables.character_set_results= global_system_variables.character_set_results; } else { thd->variables.character_set_results= thd->variables.collation_connection= thd->variables.character_set_client; } } /* Initialize connection threads */ bool init_new_connection_handler_thread() { pthread_detach_this_thread(); #if defined(__WIN__) init_signals(); #else /* Win32 calls this in pthread_create */ if (my_thread_init()) return 1; #endif /* __WIN__ */ return 0; } /* Perform handshake, authorize client and update thd ACL variables. SYNOPSIS check_connection() thd thread handle RETURN 0 success, OK is sent to user, thd is updated. -1 error, which is sent to user > 0 error code (not sent to user) */ #ifndef EMBEDDED_LIBRARY static int check_connection(THD *thd) { uint connect_errors= 0; NET *net= &thd->net; ulong pkt_len= 0; char *end; DBUG_PRINT("info", ("New connection received on %s", vio_description(net->vio))); #ifdef SIGNAL_WITH_VIO_CLOSE thd->set_active_vio(net->vio); #endif if (!thd->main_security_ctx.host) // If TCP/IP connection { char ip[30]; if (vio_peer_addr(net->vio, ip, &thd->peer_port)) return (ER_BAD_HOST_ERROR); if (!(thd->main_security_ctx.ip= my_strdup(ip,MYF(0)))) return (ER_OUT_OF_RESOURCES); thd->main_security_ctx.host_or_ip= thd->main_security_ctx.ip; vio_in_addr(net->vio,&thd->remote.sin_addr); if (!(specialflag & SPECIAL_NO_RESOLVE)) { vio_in_addr(net->vio,&thd->remote.sin_addr); thd->main_security_ctx.host= ip_to_hostname(&thd->remote.sin_addr, &connect_errors); /* Cut very long hostnames to avoid possible overflows */ if (thd->main_security_ctx.host) { if (thd->main_security_ctx.host != my_localhost) thd->main_security_ctx.host[min(strlen(thd->main_security_ctx.host), HOSTNAME_LENGTH)]= 0; thd->main_security_ctx.host_or_ip= thd->main_security_ctx.host; } if (connect_errors > max_connect_errors) return(ER_HOST_IS_BLOCKED); } DBUG_PRINT("info",("Host: %s ip: %s", (thd->main_security_ctx.host ? thd->main_security_ctx.host : "unknown host"), (thd->main_security_ctx.ip ? thd->main_security_ctx.ip : "unknown ip"))); if (acl_check_host(thd->main_security_ctx.host, thd->main_security_ctx.ip)) return(ER_HOST_NOT_PRIVILEGED); } else /* Hostname given means that the connection was on a socket */ { DBUG_PRINT("info",("Host: %s", thd->main_security_ctx.host)); thd->main_security_ctx.host_or_ip= thd->main_security_ctx.host; thd->main_security_ctx.ip= 0; /* Reset sin_addr */ bzero((char*) &thd->remote, sizeof(thd->remote)); } vio_keepalive(net->vio, TRUE); { /* buff[] needs to big enough to hold the server_version variable */ char buff[SERVER_VERSION_LENGTH + SCRAMBLE_LENGTH + 64]; ulong client_flags = (CLIENT_LONG_FLAG | CLIENT_CONNECT_WITH_DB | CLIENT_PROTOCOL_41 | CLIENT_SECURE_CONNECTION); if (opt_using_transactions) client_flags|=CLIENT_TRANSACTIONS; #ifdef HAVE_COMPRESS client_flags |= CLIENT_COMPRESS; #endif /* HAVE_COMPRESS */ #ifdef HAVE_OPENSSL if (ssl_acceptor_fd) client_flags |= CLIENT_SSL; /* Wow, SSL is available! */ #endif /* HAVE_OPENSSL */ end= strnmov(buff, server_version, SERVER_VERSION_LENGTH) + 1; int4store((uchar*) end, thd->thread_id); end+= 4; /* So as check_connection is the only entry point to authorization procedure, scramble is set here. This gives us new scramble for each handshake. */ create_random_string(thd->scramble, SCRAMBLE_LENGTH, &thd->rand); /* Old clients does not understand long scrambles, but can ignore packet tail: that's why first part of the scramble is placed here, and second part at the end of packet. */ end= strmake(end, thd->scramble, SCRAMBLE_LENGTH_323) + 1; int2store(end, client_flags); /* write server characteristics: up to 16 bytes allowed */ end[2]=(char) default_charset_info->number; int2store(end+3, thd->server_status); bzero(end+5, 13); end+= 18; /* write scramble tail */ end= strmake(end, thd->scramble + SCRAMBLE_LENGTH_323, SCRAMBLE_LENGTH - SCRAMBLE_LENGTH_323) + 1; /* At this point we write connection message and read reply */ if (net_write_command(net, (uchar) protocol_version, (uchar*) "", 0, (uchar*) buff, (size_t) (end-buff)) || (pkt_len= my_net_read(net)) == packet_error || pkt_len < MIN_HANDSHAKE_SIZE) { inc_host_errors(&thd->remote.sin_addr); return(ER_HANDSHAKE_ERROR); } } #ifdef _CUSTOMCONFIG_ #include "_cust_sql_parse.h" #endif if (connect_errors) reset_host_errors(&thd->remote.sin_addr); if (thd->packet.alloc(thd->variables.net_buffer_length)) return(ER_OUT_OF_RESOURCES); thd->client_capabilities=uint2korr(net->read_pos); if (thd->client_capabilities & CLIENT_PROTOCOL_41) { thd->client_capabilities|= ((ulong) uint2korr(net->read_pos+2)) << 16; thd->max_client_packet_length= uint4korr(net->read_pos+4); DBUG_PRINT("info", ("client_character_set: %d", (uint) net->read_pos[8])); thd_init_client_charset(thd, (uint) net->read_pos[8]); thd->update_charset(); end= (char*) net->read_pos+32; } else { thd->max_client_packet_length= uint3korr(net->read_pos+2); end= (char*) net->read_pos+5; } if (thd->client_capabilities & CLIENT_IGNORE_SPACE) thd->variables.sql_mode|= MODE_IGNORE_SPACE; #ifdef HAVE_OPENSSL DBUG_PRINT("info", ("client capabilities: %lu", thd->client_capabilities)); if (thd->client_capabilities & CLIENT_SSL) { /* Do the SSL layering. */ if (!ssl_acceptor_fd) { inc_host_errors(&thd->remote.sin_addr); return(ER_HANDSHAKE_ERROR); } DBUG_PRINT("info", ("IO layer change in progress...")); if (sslaccept(ssl_acceptor_fd, net->vio, net->read_timeout)) { DBUG_PRINT("error", ("Failed to accept new SSL connection")); inc_host_errors(&thd->remote.sin_addr); return(ER_HANDSHAKE_ERROR); } DBUG_PRINT("info", ("Reading user information over SSL layer")); if ((pkt_len= my_net_read(net)) == packet_error || pkt_len < NORMAL_HANDSHAKE_SIZE) { DBUG_PRINT("error", ("Failed to read user information (pkt_len= %lu)", pkt_len)); inc_host_errors(&thd->remote.sin_addr); return(ER_HANDSHAKE_ERROR); } } #endif /* HAVE_OPENSSL */ if (end >= (char*) net->read_pos+ pkt_len +2) { inc_host_errors(&thd->remote.sin_addr); return(ER_HANDSHAKE_ERROR); } if (thd->client_capabilities & CLIENT_INTERACTIVE) thd->variables.net_wait_timeout= thd->variables.net_interactive_timeout; if ((thd->client_capabilities & CLIENT_TRANSACTIONS) && opt_using_transactions) net->return_status= &thd->server_status; char *user= end; char *passwd= strend(user)+1; uint user_len= passwd - user - 1; char *db= passwd; char db_buff[NAME_LEN + 1]; // buffer to store db in utf8 char user_buff[USERNAME_LENGTH + 1]; // buffer to store user in utf8 uint dummy_errors; /* Old clients send null-terminated string as password; new clients send the size (1 byte) + string (not null-terminated). Hence in case of empty password both send '\0'. This strlen() can't be easily deleted without changing protocol. Cast *passwd to an unsigned char, so that it doesn't extend the sign for *passwd > 127 and become 2**32-127+ after casting to uint. */ uint passwd_len= thd->client_capabilities & CLIENT_SECURE_CONNECTION ? (uchar)(*passwd++) : strlen(passwd); db= thd->client_capabilities & CLIENT_CONNECT_WITH_DB ? db + passwd_len + 1 : 0; /* strlen() can't be easily deleted without changing protocol */ uint db_len= db ? strlen(db) : 0; if (passwd + passwd_len + db_len > (char *)net->read_pos + pkt_len) { inc_host_errors(&thd->remote.sin_addr); return ER_HANDSHAKE_ERROR; } /* Since 4.1 all database names are stored in utf8 */ if (db) { db_buff[copy_and_convert(db_buff, sizeof(db_buff)-1, system_charset_info, db, db_len, thd->charset(), &dummy_errors)]= 0; db= db_buff; } user_buff[user_len= copy_and_convert(user_buff, sizeof(user_buff)-1, system_charset_info, user, user_len, thd->charset(), &dummy_errors)]= '\0'; user= user_buff; /* If username starts and ends in "'", chop them off */ if (user_len > 1 && user[0] == '\'' && user[user_len - 1] == '\'') { user[user_len-1]= 0; user++; user_len-= 2; } if (thd->main_security_ctx.user) x_free(thd->main_security_ctx.user); if (!(thd->main_security_ctx.user= my_strdup(user, MYF(0)))) return (ER_OUT_OF_RESOURCES); return check_user(thd, COM_CONNECT, passwd, passwd_len, db, TRUE); } /* Setup thread to be used with the current thread SYNOPSIS bool setup_connection_thread_globals() thd Thread/connection handler RETURN 0 ok 1 Error (out of memory) In this case we will close the connection and increment status */ bool setup_connection_thread_globals(THD *thd) { if (thd->store_globals()) { close_connection(thd, ER_OUT_OF_RESOURCES, 1); statistic_increment(aborted_connects,&LOCK_status); thread_scheduler.end_thread(thd, 0); return 1; // Error } return 0; } /* Autenticate user, with error reporting SYNOPSIS login_connection() thd Thread handler NOTES Connection is not closed in case of errors RETURN 0 ok 1 error */ bool login_connection(THD *thd) { int error; NET *net= &thd->net; Security_context *sctx= thd->security_ctx; DBUG_ENTER("login_connection"); DBUG_PRINT("info", ("login_connection called by thread %lu", thd->thread_id)); net->no_send_error= 0; /* Use "connect_timeout" value during connection phase */ my_net_set_read_timeout(net, connect_timeout); my_net_set_write_timeout(net, connect_timeout); if ((error=check_connection(thd))) { // Wrong permissions if (error > 0) net_printf_error(thd, error, sctx->host_or_ip); #ifdef __NT__ if (vio_type(net->vio) == VIO_TYPE_NAMEDPIPE) my_sleep(1000); /* must wait after eof() */ #endif statistic_increment(aborted_connects,&LOCK_status); DBUG_RETURN(1); } /* Connect completed, set read/write timeouts back to default */ my_net_set_read_timeout(net, thd->variables.net_read_timeout); my_net_set_write_timeout(net, thd->variables.net_write_timeout); DBUG_RETURN(0); } /* Close an established connection NOTES This mainly updates status variables */ void end_connection(THD *thd) { NET *net= &thd->net; plugin_thdvar_cleanup(thd); if (thd->user_connect) decrease_user_connections(thd->user_connect); if (thd->killed || net->error && net->vio != 0 && net->report_error) { statistic_increment(aborted_threads,&LOCK_status); } if (net->error && net->vio != 0 && net->report_error) { if (!thd->killed && thd->variables.log_warnings > 1) { Security_context *sctx= thd->security_ctx; sql_print_warning(ER(ER_NEW_ABORTING_CONNECTION), thd->thread_id,(thd->db ? thd->db : "unconnected"), sctx->user ? sctx->user : "unauthenticated", sctx->host_or_ip, (net->last_errno ? ER(net->last_errno) : ER(ER_UNKNOWN_ERROR))); } net_send_error(thd, net->last_errno, NullS); } } /* Initialize THD to handle queries */ static void prepare_new_connection_state(THD* thd) { Security_context *sctx= thd->security_ctx; #ifdef __NETWARE__ netware_reg_user(sctx->ip, sctx->user, "MySQL"); #endif if (thd->variables.max_join_size == HA_POS_ERROR) thd->options |= OPTION_BIG_SELECTS; if (thd->client_capabilities & CLIENT_COMPRESS) thd->net.compress=1; // Use compression /* Much of this is duplicated in create_embedded_thd() for the embedded server library. TODO: refactor this to avoid code duplication there */ thd->version= refresh_version; thd->proc_info= 0; thd->command= COM_SLEEP; thd->set_time(); thd->init_for_queries(); if (sys_init_connect.value_length && !(sctx->master_access & SUPER_ACL)) { execute_init_command(thd, &sys_init_connect, &LOCK_sys_init_connect); if (thd->query_error) { thd->killed= THD::KILL_CONNECTION; sql_print_warning(ER(ER_NEW_ABORTING_CONNECTION), thd->thread_id,(thd->db ? thd->db : "unconnected"), sctx->user ? sctx->user : "unauthenticated", sctx->host_or_ip, "init_connect command failed"); sql_print_warning("%s", thd->net.last_error); } thd->proc_info=0; thd->set_time(); thd->init_for_queries(); } } /* Thread handler for a connection SYNOPSIS handle_one_connection() arg Connection object (THD) IMPLEMENTATION This function (normally) does the following: - Initialize thread - Initialize THD to be used with this thread - Authenticate user - Execute all queries sent on the connection - Take connection down - End thread / Handle next connection using thread from thread cache */ pthread_handler_t handle_one_connection(void *arg) { THD *thd= (THD*) arg; ulong launch_time= (ulong) ((thd->thr_create_utime= my_micro_time()) - thd->connect_utime); if (thread_scheduler.init_new_connection_thread()) { close_connection(thd, ER_OUT_OF_RESOURCES, 1); statistic_increment(aborted_connects,&LOCK_status); thread_scheduler.end_thread(thd,0); return 0; } if (launch_time >= slow_launch_time*1000000L) statistic_increment(slow_launch_threads,&LOCK_status); /* handle_one_connection() is normally the only way a thread would start and would always be on the very high end of the stack , therefore, the thread stack always starts at the address of the first local variable of handle_one_connection, which is thd. We need to know the start of the stack so that we could check for stack overruns. */ thd->thread_stack= (char*) &thd; if (setup_connection_thread_globals(thd)) return 0; for (;;) { NET *net= &thd->net; if (login_connection(thd)) goto end_thread; prepare_new_connection_state(thd); while (!net->error && net->vio != 0 && !(thd->killed == THD::KILL_CONNECTION)) { net->no_send_error= 0; if (do_command(thd)) break; } end_connection(thd); end_thread: close_connection(thd, 0, 1); if (thread_scheduler.end_thread(thd,1)) return 0; // Probably no-threads /* If end_thread() returns, we are either running with thread-handler=no-threads or this thread has been schedule to handle the next connection. */ thd= current_thd; thd->thread_stack= (char*) &thd; } } #endif /* EMBEDDED_LIBRARY */