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|
/* +------------------------------------+
* | Inspire Internet Relay Chat Daemon |
* +------------------------------------+
*
* InspIRCd is copyright (C) 2002-2004 ChatSpike-Dev.
* E-mail:
* <brain@chatspike.net>
* <Craig@chatspike.net>
*
* Written by Craig Edwards, Craig McLure, and others.
* This program is free but copyrighted software; see
* the file COPYING for details.
*
* ---------------------------------------------------
*/
using namespace std;
#include <stdio.h>
#include <string>
#include <mysql.h>
#include <pthread.h>
#include "users.h"
#include "channels.h"
#include "modules.h"
#include "helperfuncs.h"
#include "m_sqlv2.h"
/* VERSION 2 API: With nonblocking (threaded) requests */
/* $ModDesc: SQL Service Provider module for all other m_sql* modules */
/* $CompileFlags: `mysql_config --include` */
/* $LinkerFlags: `mysql_config --libs_r` `perl ../mysql_rpath.pl` */
class SQLConnection;
extern InspIRCd* ServerInstance;
typedef std::map<std::string, SQLConnection*> ConnMap;
bool giveup = false;
#if !defined(MYSQL_VERSION_ID) || MYSQL_VERSION_ID<32224
#define mysql_field_count mysql_num_fields
#endif
class QueryQueue : public classbase
{
private:
typedef std::deque<SQLrequest> ReqDeque;
ReqDeque priority; /* The priority queue */
ReqDeque normal; /* The 'normal' queue */
enum { PRI, NOR, NON } which; /* Which queue the currently active element is at the front of */
public:
QueryQueue()
: which(NON)
{
}
void push(const SQLrequest &q)
{
log(DEBUG, "QueryQueue::push(): Adding %s query to queue: %s", ((q.pri) ? "priority" : "non-priority"), q.query.q.c_str());
if(q.pri)
priority.push_back(q);
else
normal.push_back(q);
}
void pop()
{
if((which == PRI) && priority.size())
{
priority.pop_front();
}
else if((which == NOR) && normal.size())
{
normal.pop_front();
}
/* Reset this */
which = NON;
/* Silently do nothing if there was no element to pop() */
}
SQLrequest& front()
{
switch(which)
{
case PRI:
return priority.front();
case NOR:
return normal.front();
default:
if(priority.size())
{
which = PRI;
return priority.front();
}
if(normal.size())
{
which = NOR;
return normal.front();
}
/* This will probably result in a segfault,
* but the caller should have checked totalsize()
* first so..meh - moron :p
*/
return priority.front();
}
}
std::pair<int, int> size()
{
return std::make_pair(priority.size(), normal.size());
}
int totalsize()
{
return priority.size() + normal.size();
}
void PurgeModule(Module* mod)
{
DoPurgeModule(mod, priority);
DoPurgeModule(mod, normal);
}
private:
void DoPurgeModule(Module* mod, ReqDeque& q)
{
for(ReqDeque::iterator iter = q.begin(); iter != q.end(); iter++)
{
if(iter->GetSource() == mod)
{
if(iter->id == front().id)
{
/* It's the currently active query.. :x */
iter->SetSource(NULL);
}
else
{
/* It hasn't been executed yet..just remove it */
iter = q.erase(iter);
}
}
}
}
};
/* A mutex to wrap around queue accesses */
pthread_mutex_t queue_mutex = PTHREAD_MUTEX_INITIALIZER;
class SQLConnection : public classbase
{
protected:
MYSQL connection;
MYSQL_RES *res;
MYSQL_ROW row;
std::string host;
std::string user;
std::string pass;
std::string db;
std::map<std::string,std::string> thisrow;
bool Enabled;
long id;
public:
QueryQueue queue;
// This constructor creates an SQLConnection object with the given credentials, and creates the underlying
// MYSQL struct, but does not connect yet.
SQLConnection(std::string thishost, std::string thisuser, std::string thispass, std::string thisdb, long myid)
{
this->Enabled = true;
this->host = thishost;
this->user = thisuser;
this->pass = thispass;
this->db = thisdb;
this->id = myid;
}
// This method connects to the database using the credentials supplied to the constructor, and returns
// true upon success.
bool Connect()
{
unsigned int timeout = 1;
mysql_init(&connection);
mysql_options(&connection,MYSQL_OPT_CONNECT_TIMEOUT,(char*)&timeout);
return mysql_real_connect(&connection, host.c_str(), user.c_str(), pass.c_str(), db.c_str(), 0, NULL, 0);
}
void DoLeadingQuery()
{
/* Parse the command string and dispatch it to mysql */
SQLrequest& req = queue.front();
log(DEBUG,"DO QUERY: %s",req.query.q.c_str());
/* Pointer to the buffer we screw around with substitution in */
char* query;
/* Pointer to the current end of query, where we append new stuff */
char* queryend;
/* Total length of the unescaped parameters */
unsigned long paramlen;
paramlen = 0;
for(ParamL::iterator i = req.query.p.begin(); i != req.query.p.end(); i++)
{
paramlen += i->size();
}
/* To avoid a lot of allocations, allocate enough memory for the biggest the escaped query could possibly be.
* sizeofquery + (totalparamlength*2) + 1
*
* The +1 is for null-terminating the string for mysql_real_escape_string
*/
query = new char[req.query.q.length() + (paramlen*2)];
queryend = query;
/* Okay, now we have a buffer large enough we need to start copying the query into it and escaping and substituting
* the parameters into it...
*/
for(unsigned long i = 0; i < req.query.q.length(); i++)
{
if(req.query.q[i] == '?')
{
/* We found a place to substitute..what fun.
* use mysql calls to escape and write the
* escaped string onto the end of our query buffer,
* then we "just" need to make sure queryend is
* pointing at the right place.
*/
if(req.query.p.size())
{
unsigned long len = mysql_real_escape_string(&connection, queryend, req.query.p.front().c_str(), req.query.p.front().length());
queryend += len;
req.query.p.pop_front();
}
else
{
log(DEBUG, "Found a substitution location but no parameter to substitute :|");
break;
}
}
else
{
*queryend = req.query.q[i];
queryend++;
}
}
*queryend = 0;
log(DEBUG, "Attempting to dispatch query: %s", query);
pthread_mutex_lock(&queue_mutex);
req.query.q = query;
pthread_mutex_unlock(&queue_mutex);
/* TODO: Do the mysql_real_query here */
}
// This method issues a query that expects multiple rows of results. Use GetRow() and QueryDone() to retrieve
// multiple rows.
bool QueryResult(std::string query)
{
if (!CheckConnection()) return false;
int r = mysql_query(&connection, query.c_str());
if (!r)
{
res = mysql_use_result(&connection);
}
return (!r);
}
// This method issues a query that just expects a number of 'effected' rows (e.g. UPDATE or DELETE FROM).
// the number of effected rows is returned in the return value.
long QueryCount(std::string query)
{
/* If the connection is down, we return a negative value - New to 1.1 */
if (!CheckConnection()) return -1;
int r = mysql_query(&connection, query.c_str());
if (!r)
{
res = mysql_store_result(&connection);
unsigned long rows = mysql_affected_rows(&connection);
mysql_free_result(res);
return rows;
}
return 0;
}
// This method fetches a row, if available from the database. You must issue a query
// using QueryResult() first! The row's values are returned as a map of std::string
// where each item is keyed by the column name.
std::map<std::string,std::string> GetRow()
{
thisrow.clear();
if (res)
{
row = mysql_fetch_row(res);
if (row)
{
unsigned int field_count = 0;
MYSQL_FIELD *fields = mysql_fetch_fields(res);
if(mysql_field_count(&connection) == 0)
return thisrow;
if (fields && mysql_field_count(&connection))
{
while (field_count < mysql_field_count(&connection))
{
std::string a = (fields[field_count].name ? fields[field_count].name : "");
std::string b = (row[field_count] ? row[field_count] : "");
thisrow[a] = b;
field_count++;
}
return thisrow;
}
}
}
return thisrow;
}
bool QueryDone()
{
if (res)
{
mysql_free_result(res);
res = NULL;
return true;
}
else return false;
}
bool ConnectionLost()
{
if (&connection) {
return (mysql_ping(&connection) != 0);
}
else return false;
}
bool CheckConnection()
{
if (ConnectionLost()) {
return Connect();
}
else return true;
}
std::string GetError()
{
return mysql_error(&connection);
}
long GetID()
{
return id;
}
std::string GetHost()
{
return host;
}
void Enable()
{
Enabled = true;
}
void Disable()
{
Enabled = false;
}
bool IsEnabled()
{
return Enabled;
}
};
ConnMap Connections;
void ConnectDatabases(Server* Srv)
{
for (ConnMap::iterator i = Connections.begin(); i != Connections.end(); i++)
{
i->second->Enable();
if (i->second->Connect())
{
Srv->Log(DEFAULT,"SQL: Successfully connected database "+i->second->GetHost());
}
else
{
Srv->Log(DEFAULT,"SQL: Failed to connect database "+i->second->GetHost()+": Error: "+i->second->GetError());
i->second->Disable();
}
}
}
void LoadDatabases(ConfigReader* ThisConf, Server* Srv)
{
Srv->Log(DEFAULT,"SQL: Loading database settings");
Connections.clear();
Srv->Log(DEBUG,"Cleared connections");
for (int j =0; j < ThisConf->Enumerate("database"); j++)
{
std::string db = ThisConf->ReadValue("database","name",j);
std::string user = ThisConf->ReadValue("database","username",j);
std::string pass = ThisConf->ReadValue("database","password",j);
std::string host = ThisConf->ReadValue("database","hostname",j);
std::string id = ThisConf->ReadValue("database","id",j);
Srv->Log(DEBUG,"Read database settings");
if ((db != "") && (host != "") && (user != "") && (id != "") && (pass != ""))
{
SQLConnection* ThisSQL = new SQLConnection(host,user,pass,db,atoi(id.c_str()));
Srv->Log(DEFAULT,"Loaded database: "+ThisSQL->GetHost());
Connections[id] = ThisSQL;
Srv->Log(DEBUG,"Pushed back connection");
}
}
ConnectDatabases(Srv);
}
void* DispatcherThread(void* arg);
class ModuleSQL : public Module
{
public:
Server *Srv;
ConfigReader *Conf;
pthread_t Dispatcher;
int currid;
void Implements(char* List)
{
List[I_OnRehash] = List[I_OnRequest] = 1;
}
unsigned long NewID()
{
if (currid+1 == 0)
currid++;
return ++currid;
}
char* OnRequest(Request* request)
{
if(strcmp(SQLREQID, request->GetData()) == 0)
{
SQLrequest* req = (SQLrequest*)request;
/* XXX: Lock */
pthread_mutex_lock(&queue_mutex);
ConnMap::iterator iter;
char* returnval = NULL;
log(DEBUG, "Got query: '%s' with %d replacement parameters on id '%s'", req->query.q.c_str(), req->query.p.size(), req->dbid.c_str());
if((iter = Connections.find(req->dbid)) != Connections.end())
{
iter->second->queue.push(*req);
req->id = NewID();
returnval = SQLSUCCESS;
}
else
{
req->error.Id(BAD_DBID);
}
pthread_mutex_unlock(&queue_mutex);
/* XXX: Unlock */
return returnval;
}
log(DEBUG, "Got unsupported API version string: %s", request->GetData());
return NULL;
}
ModuleSQL(Server* Me)
: Module::Module(Me)
{
Srv = Me;
Conf = new ConfigReader();
currid = 0;
pthread_attr_t attribs;
pthread_attr_init(&attribs);
pthread_attr_setdetachstate(&attribs, PTHREAD_CREATE_DETACHED);
if (pthread_create(&this->Dispatcher, &attribs, DispatcherThread, (void *)this) != 0)
{
throw ModuleException("m_mysql: Failed to create dispatcher thread: " + std::string(strerror(errno)));
}
Srv->PublishFeature("SQL", this);
Srv->PublishFeature("MySQL", this);
}
virtual ~ModuleSQL()
{
DELETE(Conf);
}
virtual void OnRehash(const std::string ¶meter)
{
/* TODO: set rehash bool here, which makes the dispatcher thread rehash at next opportunity */
}
virtual Version GetVersion()
{
return Version(1,1,0,0,VF_VENDOR|VF_SERVICEPROVIDER);
}
};
void* DispatcherThread(void* arg)
{
ModuleSQL* thismodule = (ModuleSQL*)arg;
LoadDatabases(thismodule->Conf, thismodule->Srv);
while (!giveup)
{
SQLConnection* conn = NULL;
/* XXX: Lock here for safety */
pthread_mutex_lock(&queue_mutex);
for (ConnMap::iterator i = Connections.begin(); i != Connections.end(); i++)
{
if (i->second->queue.totalsize())
{
conn = i->second;
break;
}
}
pthread_mutex_unlock(&queue_mutex);
/* XXX: Unlock */
/* Theres an item! */
if (conn)
{
conn->DoLeadingQuery();
/* XXX: Lock */
pthread_mutex_lock(&queue_mutex);
conn->queue.pop();
pthread_mutex_unlock(&queue_mutex);
/* XXX: Unlock */
}
usleep(50);
}
return NULL;
}
// stuff down here is the module-factory stuff. For basic modules you can ignore this.
class ModuleSQLFactory : public ModuleFactory
{
public:
ModuleSQLFactory()
{
}
~ModuleSQLFactory()
{
}
virtual Module * CreateModule(Server* Me)
{
return new ModuleSQL(Me);
}
};
extern "C" void * init_module( void )
{
return new ModuleSQLFactory;
}
|