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mirror of git://git.acid.vegas/anope.git synced 2024-11-23 16:16:42 +00:00
anope/modules/extra/m_mysql.cpp
2023-05-07 13:44:21 -04:00

556 lines
15 KiB
C++

/*
*
* (C) 2010-2022 Anope Team
* Contact us at team@anope.org
*
* Please read COPYING and README for further details.
*/
/* RequiredLibraries: mysqlclient */
/* RequiredWindowsLibraries: libmysql */
#include "module.h"
#include "modules/sql.h"
#define NO_CLIENT_LONG_LONG
#ifdef WIN32
# include <mysql.h>
#else
# include <mysql/mysql.h>
#endif
using namespace SQL;
/** Non blocking threaded MySQL API, based loosely from InspIRCd's m_mysql.cpp
*
* This module spawns a single thread that is used to execute blocking MySQL queries.
* When a module requests a query to be executed it is added to a list for the thread
* (which never stops looping and sleeping) to pick up and execute, the result of which
* is inserted in to another queue to be picked up by the main thread. The main thread
* uses Pipe to become notified through the socket engine when there are results waiting
* to be sent back to the modules requesting the query
*/
class MySQLService;
/** A query request
*/
struct QueryRequest
{
/* The connection to the database */
MySQLService *service;
/* The interface to use once we have the result to send the data back */
Interface *sqlinterface;
/* The actual query */
Query query;
QueryRequest(MySQLService *s, Interface *i, const Query &q) : service(s), sqlinterface(i), query(q) { }
};
/** A query result */
struct QueryResult
{
/* The interface to send the data back on */
Interface *sqlinterface;
/* The result */
Result result;
QueryResult(Interface *i, Result &r) : sqlinterface(i), result(r) { }
};
/** A MySQL result
*/
class MySQLResult : public Result
{
MYSQL_RES *res;
public:
MySQLResult(unsigned int i, const Query &q, const Anope::string &fq, MYSQL_RES *r) : Result(i, q, fq), res(r)
{
unsigned num_fields = res ? mysql_num_fields(res) : 0;
/* It is not thread safe to log anything here using Log(this->owner) now :( */
if (!num_fields)
return;
for (MYSQL_ROW row; (row = mysql_fetch_row(res));)
{
MYSQL_FIELD *fields = mysql_fetch_fields(res);
if (fields)
{
std::map<Anope::string, Anope::string> items;
for (unsigned field_count = 0; field_count < num_fields; ++field_count)
{
Anope::string column = (fields[field_count].name ? fields[field_count].name : "");
Anope::string data = (row[field_count] ? row[field_count] : "");
items[column] = data;
}
this->entries.push_back(items);
}
}
}
MySQLResult(const Query &q, const Anope::string &fq, const Anope::string &err) : Result(0, q, fq, err), res(NULL)
{
}
~MySQLResult()
{
if (this->res)
mysql_free_result(this->res);
}
};
/** A MySQL connection, there can be multiple
*/
class MySQLService : public Provider
{
std::map<Anope::string, std::set<Anope::string> > active_schema;
Anope::string database;
Anope::string server;
Anope::string user;
Anope::string password;
int port;
MYSQL *sql;
/** Escape a query.
* Note the mutex must be held!
*/
Anope::string Escape(const Anope::string &query);
public:
/* Locked by the SQL thread when a query is pending on this database,
* prevents us from deleting a connection while a query is executing
* in the thread
*/
Mutex Lock;
MySQLService(Module *o, const Anope::string &n, const Anope::string &d, const Anope::string &s, const Anope::string &u, const Anope::string &p, int po);
~MySQLService();
void Run(Interface *i, const Query &query) anope_override;
Result RunQuery(const Query &query) anope_override;
std::vector<Query> CreateTable(const Anope::string &table, const Data &data) anope_override;
Query BuildInsert(const Anope::string &table, unsigned int id, Data &data) anope_override;
Query GetTables(const Anope::string &prefix) anope_override;
void Connect();
bool CheckConnection();
Anope::string BuildQuery(const Query &q);
Anope::string FromUnixtime(time_t);
};
/** The SQL thread used to execute queries
*/
class DispatcherThread : public Thread, public Condition
{
public:
DispatcherThread() : Thread() { }
void Run() anope_override;
};
class ModuleSQL;
static ModuleSQL *me;
class ModuleSQL : public Module, public Pipe
{
/* SQL connections */
std::map<Anope::string, MySQLService *> MySQLServices;
public:
/* Pending query requests */
std::deque<QueryRequest> QueryRequests;
/* Pending finished requests with results */
std::deque<QueryResult> FinishedRequests;
/* The thread used to execute queries */
DispatcherThread *DThread;
ModuleSQL(const Anope::string &modname, const Anope::string &creator) : Module(modname, creator, EXTRA | VENDOR)
{
me = this;
DThread = new DispatcherThread();
DThread->Start();
}
~ModuleSQL()
{
for (std::map<Anope::string, MySQLService *>::iterator it = this->MySQLServices.begin(); it != this->MySQLServices.end(); ++it)
delete it->second;
MySQLServices.clear();
DThread->SetExitState();
DThread->Wakeup();
DThread->Join();
delete DThread;
}
void OnReload(Configuration::Conf *conf) anope_override
{
Configuration::Block *config = conf->GetModule(this);
for (std::map<Anope::string, MySQLService *>::iterator it = this->MySQLServices.begin(); it != this->MySQLServices.end();)
{
const Anope::string &cname = it->first;
MySQLService *s = it->second;
int i;
++it;
for (i = 0; i < config->CountBlock("mysql"); ++i)
if (config->GetBlock("mysql", i)->Get<const Anope::string>("name", "mysql/main") == cname)
break;
if (i == config->CountBlock("mysql"))
{
Log(LOG_NORMAL, "mysql") << "MySQL: Removing server connection " << cname;
delete s;
this->MySQLServices.erase(cname);
}
}
for (int i = 0; i < config->CountBlock("mysql"); ++i)
{
Configuration::Block *block = config->GetBlock("mysql", i);
const Anope::string &connname = block->Get<const Anope::string>("name", "mysql/main");
if (this->MySQLServices.find(connname) == this->MySQLServices.end())
{
const Anope::string &database = block->Get<const Anope::string>("database", "anope");
const Anope::string &server = block->Get<const Anope::string>("server", "127.0.0.1");
const Anope::string &user = block->Get<const Anope::string>("username", "anope");
const Anope::string &password = block->Get<const Anope::string>("password");
int port = block->Get<int>("port", "3306");
try
{
MySQLService *ss = new MySQLService(this, connname, database, server, user, password, port);
this->MySQLServices.insert(std::make_pair(connname, ss));
Log(LOG_NORMAL, "mysql") << "MySQL: Successfully connected to server " << connname << " (" << server << ")";
}
catch (const SQL::Exception &ex)
{
Log(LOG_NORMAL, "mysql") << "MySQL: " << ex.GetReason();
}
}
}
}
void OnModuleUnload(User *, Module *m) anope_override
{
this->DThread->Lock();
for (unsigned i = this->QueryRequests.size(); i > 0; --i)
{
QueryRequest &r = this->QueryRequests[i - 1];
if (r.sqlinterface && r.sqlinterface->owner == m)
{
if (i == 1)
{
r.service->Lock.Lock();
r.service->Lock.Unlock();
}
this->QueryRequests.erase(this->QueryRequests.begin() + i - 1);
}
}
this->DThread->Unlock();
this->OnNotify();
}
void OnNotify() anope_override
{
this->DThread->Lock();
std::deque<QueryResult> finishedRequests = this->FinishedRequests;
this->FinishedRequests.clear();
this->DThread->Unlock();
for (std::deque<QueryResult>::const_iterator it = finishedRequests.begin(), it_end = finishedRequests.end(); it != it_end; ++it)
{
const QueryResult &qr = *it;
if (!qr.sqlinterface)
throw SQL::Exception("NULL qr.sqlinterface in MySQLPipe::OnNotify() ?");
if (qr.result.GetError().empty())
qr.sqlinterface->OnResult(qr.result);
else
qr.sqlinterface->OnError(qr.result);
}
}
};
MySQLService::MySQLService(Module *o, const Anope::string &n, const Anope::string &d, const Anope::string &s, const Anope::string &u, const Anope::string &p, int po)
: Provider(o, n), database(d), server(s), user(u), password(p), port(po), sql(NULL)
{
Connect();
}
MySQLService::~MySQLService()
{
me->DThread->Lock();
this->Lock.Lock();
mysql_close(this->sql);
this->sql = NULL;
for (unsigned i = me->QueryRequests.size(); i > 0; --i)
{
QueryRequest &r = me->QueryRequests[i - 1];
if (r.service == this)
{
if (r.sqlinterface)
r.sqlinterface->OnError(Result(0, r.query, "SQL Interface is going away"));
me->QueryRequests.erase(me->QueryRequests.begin() + i - 1);
}
}
this->Lock.Unlock();
me->DThread->Unlock();
}
void MySQLService::Run(Interface *i, const Query &query)
{
me->DThread->Lock();
me->QueryRequests.push_back(QueryRequest(this, i, query));
me->DThread->Unlock();
me->DThread->Wakeup();
}
Result MySQLService::RunQuery(const Query &query)
{
this->Lock.Lock();
Anope::string real_query = this->BuildQuery(query);
if (this->CheckConnection() && !mysql_real_query(this->sql, real_query.c_str(), real_query.length()))
{
MYSQL_RES *res = mysql_store_result(this->sql);
unsigned int id = mysql_insert_id(this->sql);
/* because we enabled CLIENT_MULTI_RESULTS in our options
* a multiple statement or a procedure call can return
* multiple result sets.
* we must process them all before the next query.
*/
while (!mysql_next_result(this->sql))
mysql_free_result(mysql_store_result(this->sql));
this->Lock.Unlock();
return MySQLResult(id, query, real_query, res);
}
else
{
Anope::string error = mysql_error(this->sql);
this->Lock.Unlock();
return MySQLResult(query, real_query, error);
}
}
std::vector<Query> MySQLService::CreateTable(const Anope::string &table, const Data &data)
{
std::vector<Query> queries;
std::set<Anope::string> &known_cols = this->active_schema[table];
if (known_cols.empty())
{
Log(LOG_DEBUG) << "m_mysql: Fetching columns for " << table;
Result columns = this->RunQuery("SHOW COLUMNS FROM `" + table + "`");
for (int i = 0; i < columns.Rows(); ++i)
{
const Anope::string &column = columns.Get(i, "Field");
Log(LOG_DEBUG) << "m_mysql: Column #" << i << " for " << table << ": " << column;
known_cols.insert(column);
}
}
if (known_cols.empty())
{
Anope::string query_text = "CREATE TABLE `" + table + "` (`id` int(10) unsigned NOT NULL AUTO_INCREMENT,"
" `timestamp` timestamp NULL DEFAULT CURRENT_TIMESTAMP ON UPDATE CURRENT_TIMESTAMP";
for (Data::Map::const_iterator it = data.data.begin(), it_end = data.data.end(); it != it_end; ++it)
{
known_cols.insert(it->first);
query_text += ", `" + it->first + "` ";
if (data.GetType(it->first) == Serialize::Data::DT_INT)
query_text += "int(11)";
else
query_text += "text";
}
query_text += ", PRIMARY KEY (`id`), KEY `timestamp_idx` (`timestamp`))";
queries.push_back(query_text);
}
else
for (Data::Map::const_iterator it = data.data.begin(), it_end = data.data.end(); it != it_end; ++it)
{
if (known_cols.count(it->first) > 0)
continue;
known_cols.insert(it->first);
Anope::string query_text = "ALTER TABLE `" + table + "` ADD `" + it->first + "` ";
if (data.GetType(it->first) == Serialize::Data::DT_INT)
query_text += "int(11)";
else
query_text += "text";
queries.push_back(query_text);
}
return queries;
}
Query MySQLService::BuildInsert(const Anope::string &table, unsigned int id, Data &data)
{
/* Empty columns not present in the data set */
const std::set<Anope::string> &known_cols = this->active_schema[table];
for (std::set<Anope::string>::iterator it = known_cols.begin(), it_end = known_cols.end(); it != it_end; ++it)
if (*it != "id" && *it != "timestamp" && data.data.count(*it) == 0)
data[*it] << "";
Anope::string query_text = "INSERT INTO `" + table + "` (`id`";
for (Data::Map::const_iterator it = data.data.begin(), it_end = data.data.end(); it != it_end; ++it)
query_text += ",`" + it->first + "`";
query_text += ") VALUES (" + stringify(id);
for (Data::Map::const_iterator it = data.data.begin(), it_end = data.data.end(); it != it_end; ++it)
query_text += ",@" + it->first + "@";
query_text += ") ON DUPLICATE KEY UPDATE ";
for (Data::Map::const_iterator it = data.data.begin(), it_end = data.data.end(); it != it_end; ++it)
query_text += "`" + it->first + "`=VALUES(`" + it->first + "`),";
query_text.erase(query_text.end() - 1);
Query query(query_text);
for (Data::Map::const_iterator it = data.data.begin(), it_end = data.data.end(); it != it_end; ++it)
{
Anope::string buf;
*it->second >> buf;
bool escape = true;
if (buf.empty())
{
buf = "NULL";
escape = false;
}
query.SetValue(it->first, buf, escape);
}
return query;
}
Query MySQLService::GetTables(const Anope::string &prefix)
{
return Query("SHOW TABLES LIKE '" + prefix + "%';");
}
void MySQLService::Connect()
{
this->sql = mysql_init(this->sql);
const unsigned int timeout = 1;
mysql_options(this->sql, MYSQL_OPT_CONNECT_TIMEOUT, reinterpret_cast<const char *>(&timeout));
bool connect = mysql_real_connect(this->sql, this->server.c_str(), this->user.c_str(), this->password.c_str(), this->database.c_str(), this->port, NULL, CLIENT_MULTI_RESULTS);
if (!connect)
throw SQL::Exception("Unable to connect to MySQL service " + this->name + ": " + mysql_error(this->sql));
Log(LOG_DEBUG) << "Successfully connected to MySQL service " << this->name << " at " << this->server << ":" << this->port;
}
bool MySQLService::CheckConnection()
{
if (!this->sql || mysql_ping(this->sql))
{
try
{
this->Connect();
}
catch (const SQL::Exception &)
{
return false;
}
}
return true;
}
Anope::string MySQLService::Escape(const Anope::string &query)
{
std::vector<char> buffer(query.length() * 2 + 1);
mysql_real_escape_string(this->sql, &buffer[0], query.c_str(), query.length());
return &buffer[0];
}
Anope::string MySQLService::BuildQuery(const Query &q)
{
Anope::string real_query = q.query;
for (std::map<Anope::string, QueryData>::const_iterator it = q.parameters.begin(), it_end = q.parameters.end(); it != it_end; ++it)
real_query = real_query.replace_all_cs("@" + it->first + "@", (it->second.escape ? ("'" + this->Escape(it->second.data) + "'") : it->second.data));
return real_query;
}
Anope::string MySQLService::FromUnixtime(time_t t)
{
return "FROM_UNIXTIME(" + stringify(t) + ")";
}
void DispatcherThread::Run()
{
this->Lock();
while (!this->GetExitState())
{
if (!me->QueryRequests.empty())
{
QueryRequest &r = me->QueryRequests.front();
this->Unlock();
Result sresult = r.service->RunQuery(r.query);
this->Lock();
if (!me->QueryRequests.empty() && me->QueryRequests.front().query == r.query)
{
if (r.sqlinterface)
me->FinishedRequests.push_back(QueryResult(r.sqlinterface, sresult));
me->QueryRequests.pop_front();
}
}
else
{
if (!me->FinishedRequests.empty())
me->Notify();
this->Wait();
}
}
this->Unlock();
}
MODULE_INIT(ModuleSQL)