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|
/* +------------------------------------+
* | Inspire Internet Relay Chat Daemon |
* +------------------------------------+
*
* InspIRCd: (C) 2002-2007 InspIRCd Development Team
* See: http://www.inspircd.org/wiki/index.php/Credits
*
* This program is free but copyrighted software; see
* the file COPYING for details.
*
* ---------------------------------------------------
*/
#include <cstdlib>
#include <sstream>
#include <string>
#include <deque>
#include <map>
#include <libpq-fe.h>
#include "users.h"
#include "channels.h"
#include "modules.h"
#include "inspircd.h"
#include "configreader.h"
#include "m_sqlv2.h"
/* $ModDesc: PostgreSQL Service Provider module for all other m_sql* modules, uses v2 of the SQL API */
/* $CompileFlags: -I`pg_config --includedir` `perl extra/pgsql_config.pl` */
/* $LinkerFlags: -L`pg_config --libdir` -lpq */
/* $ModDep: m_sqlv2.h */
/* UGH, UGH, UGH, UGH, UGH, UGH
* I'm having trouble seeing how I
* can avoid this. The core-defined
* constructors for InspSocket just
* aren't suitable...and if I'm
* reimplementing them I need this so
* I can access the socket engine :\
*/
/* Forward declare, so we can have the typedef neatly at the top */
class SQLConn;
typedef std::map<std::string, SQLConn*> ConnMap;
/* CREAD, Connecting and wants read event
* CWRITE, Connecting and wants write event
* WREAD, Connected/Working and wants read event
* WWRITE, Connected/Working and wants write event
* RREAD, Resetting and wants read event
* RWRITE, Resetting and wants write event
*/
enum SQLstatus { CREAD, CWRITE, WREAD, WWRITE, RREAD, RWRITE };
/** SQLhost::GetDSN() - Overload to return correct DSN for PostgreSQL
*/
std::string SQLhost::GetDSN()
{
std::ostringstream conninfo("connect_timeout = '2'");
if (ip.length())
conninfo << " hostaddr = '" << ip << "'";
if (port)
conninfo << " port = '" << port << "'";
if (name.length())
conninfo << " dbname = '" << name << "'";
if (user.length())
conninfo << " user = '" << user << "'";
if (pass.length())
conninfo << " password = '" << pass << "'";
if (ssl)
conninfo << " sslmode = 'require'";
return conninfo.str();
}
/** Used to resolve sql server hostnames
*/
class SQLresolver : public Resolver
{
private:
SQLhost host;
Module* mod;
public:
SQLresolver(Module* m, InspIRCd* Instance, const SQLhost& hi, bool &cached)
: Resolver(Instance, hi.host, DNS_QUERY_FORWARD, cached, (Module*)m), host(hi), mod(m)
{
}
virtual void OnLookupComplete(const std::string &result, unsigned int ttl);
virtual void OnError(ResolverError e, const std::string &errormessage)
{
ServerInstance->Log(DEBUG, "DNS lookup failed (%s), dying horribly", errormessage.c_str());
}
};
/** QueryQueue, a queue of queries waiting to be executed.
* This maintains two queues internally, one for 'priority'
* queries and one for less important ones. Each queue has
* new queries appended to it and ones to execute are popped
* off the front. This keeps them flowing round nicely and no
* query should ever get 'stuck' for too long. If there are
* queries in the priority queue they will be executed first,
* 'unimportant' queries will only be executed when the
* priority queue is empty.
*
* We store lists of SQLrequest's here, by value as we want to avoid storing
* any data allocated inside the client module (in case that module is unloaded
* while the query is in progress).
*
* Because we want to work on the current SQLrequest in-situ, we need a way
* of accessing the request we are currently processing, QueryQueue::front(),
* but that call needs to always return the same request until that request
* is removed from the queue, this is what the 'which' variable is. New queries are
* always added to the back of one of the two queues, but if when front()
* is first called then the priority queue is empty then front() will return
* a query from the normal queue, but if a query is then added to the priority
* queue then front() must continue to return the front of the *normal* queue
* until pop() is called.
*/
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)
{
//ServerInstance->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);
}
}
}
}
};
/** PgSQLresult is a subclass of the mostly-pure-virtual class SQLresult.
* All SQL providers must create their own subclass and define it's methods using that
* database library's data retriveal functions. The aim is to avoid a slow and inefficient process
* of converting all data to a common format before it reaches the result structure. This way
* data is passes to the module nearly as directly as if it was using the API directly itself.
*/
class PgSQLresult : public SQLresult
{
PGresult* res;
int currentrow;
int rows;
int cols;
SQLfieldList* fieldlist;
SQLfieldMap* fieldmap;
public:
PgSQLresult(Module* self, Module* to, unsigned long id, PGresult* result)
: SQLresult(self, to, id), res(result), currentrow(0), fieldlist(NULL), fieldmap(NULL)
{
rows = PQntuples(res);
cols = PQnfields(res);
//ServerInstance->Log(DEBUG, "Created new PgSQL result; %d rows, %d columns, %s affected", rows, cols, PQcmdTuples(res));
}
~PgSQLresult()
{
/* If we allocated these, free them... */
if(fieldlist)
DELETE(fieldlist);
if(fieldmap)
DELETE(fieldmap);
PQclear(res);
}
virtual int Rows()
{
if(!cols && !rows)
{
return atoi(PQcmdTuples(res));
}
else
{
return rows;
}
}
virtual int Cols()
{
return PQnfields(res);
}
virtual std::string ColName(int column)
{
char* name = PQfname(res, column);
return (name) ? name : "";
}
virtual int ColNum(const std::string &column)
{
int n = PQfnumber(res, column.c_str());
if(n == -1)
{
throw SQLbadColName();
}
else
{
return n;
}
}
virtual SQLfield GetValue(int row, int column)
{
char* v = PQgetvalue(res, row, column);
if(v)
{
return SQLfield(std::string(v, PQgetlength(res, row, column)), PQgetisnull(res, row, column));
}
else
{
//ServerInstance->Log(DEBUG, "PQgetvalue returned a null pointer..nobody wants to tell us what this means");
throw SQLbadColName();
}
}
virtual SQLfieldList& GetRow()
{
/* In an effort to reduce overhead we don't actually allocate the list
* until the first time it's needed...so...
*/
if(fieldlist)
{
fieldlist->clear();
}
else
{
fieldlist = new SQLfieldList;
}
if(currentrow < PQntuples(res))
{
int cols = PQnfields(res);
for(int i = 0; i < cols; i++)
{
fieldlist->push_back(GetValue(currentrow, i));
}
currentrow++;
}
return *fieldlist;
}
virtual SQLfieldMap& GetRowMap()
{
/* In an effort to reduce overhead we don't actually allocate the map
* until the first time it's needed...so...
*/
if(fieldmap)
{
fieldmap->clear();
}
else
{
fieldmap = new SQLfieldMap;
}
if(currentrow < PQntuples(res))
{
int cols = PQnfields(res);
for(int i = 0; i < cols; i++)
{
fieldmap->insert(std::make_pair(ColName(i), GetValue(currentrow, i)));
}
currentrow++;
}
return *fieldmap;
}
virtual SQLfieldList* GetRowPtr()
{
SQLfieldList* fl = new SQLfieldList;
if(currentrow < PQntuples(res))
{
int cols = PQnfields(res);
for(int i = 0; i < cols; i++)
{
fl->push_back(GetValue(currentrow, i));
}
currentrow++;
}
return fl;
}
virtual SQLfieldMap* GetRowMapPtr()
{
SQLfieldMap* fm = new SQLfieldMap;
if(currentrow < PQntuples(res))
{
int cols = PQnfields(res);
for(int i = 0; i < cols; i++)
{
fm->insert(std::make_pair(ColName(i), GetValue(currentrow, i)));
}
currentrow++;
}
return fm;
}
virtual void Free(SQLfieldMap* fm)
{
DELETE(fm);
}
virtual void Free(SQLfieldList* fl)
{
DELETE(fl);
}
};
/** SQLConn represents one SQL session.
* Each session has its own persistent connection to the database.
* This is a subclass of InspSocket so it can easily recieve read/write events from the core socket
* engine, unlike the original MySQL module this module does not block. Ever. It gets a mild stabbing
* if it dares to.
*/
class SQLConn : public InspSocket
{
private:
SQLhost confhost; /* The <database> entry */
Module* us; /* Pointer to the SQL provider itself */
PGconn* sql; /* PgSQL database connection handle */
SQLstatus status; /* PgSQL database connection status */
bool qinprog; /* If there is currently a query in progress */
QueryQueue queue; /* Queue of queries waiting to be executed on this connection */
time_t idle; /* Time we last heard from the database */
public:
/* This class should only ever be created inside this module, using this constructor, so we don't have to worry about the default ones */
SQLConn(InspIRCd* SI, Module* self, const SQLhost& hostinfo);
~SQLConn();
bool DoConnect();
virtual void Close();
void DoClose();
bool DoPoll();
bool DoConnectedPoll();
bool DoResetPoll();
void ShowStatus();
virtual bool OnDataReady();
virtual bool OnWriteReady();
virtual bool OnConnected();
bool DoEvent();
bool Reconnect();
const char* StatusStr();
SQLerror DoQuery(SQLrequest &req);
SQLerror Query(const SQLrequest &req);
void OnUnloadModule(Module* mod);
const SQLhost GetConfHost();
};
SQLConn::SQLConn(InspIRCd* SI, Module* self, const SQLhost& hi)
: InspSocket::InspSocket(SI), confhost(hi), us(self), sql(NULL), status(CWRITE), qinprog(false)
{
idle = this->Instance->Time();
this->ClosePending = false;
if(!this->DoConnect())
{
Instance->Log(DEFAULT, "WARNING: Could not connect to database with id: " + ConvToStr(hi.id));
}
}
SQLConn::~SQLConn()
{
DoClose();
}
bool SQLConn::DoConnect()
{
if(!(sql = PQconnectStart(confhost.GetDSN().c_str())))
{
Instance->Log(DEBUG, "Couldn't allocate PGconn structure, aborting: %s", PQerrorMessage(sql));
DoClose();
return false;
}
if(PQstatus(sql) == CONNECTION_BAD)
{
Instance->Log(DEBUG, "PQconnectStart failed: %s", PQerrorMessage(sql));
DoClose();
return false;
}
ShowStatus();
if(PQsetnonblocking(sql, 1) == -1)
{
Instance->Log(DEBUG, "Couldn't set connection nonblocking: %s", PQerrorMessage(sql));
DoClose();
return false;
}
/* OK, we've initalised the connection, now to get it hooked into the socket engine
* and then start polling it.
*/
//ServerInstance->Log(DEBUG, "Old DNS socket: %d", this->fd);
this->fd = PQsocket(sql);
Instance->Log(DEBUG, "New SQL socket: %d", this->fd);
if(this->fd <= -1)
{
Instance->Log(DEBUG, "PQsocket says we have an invalid FD: %d", this->fd);
DoClose();
return false;
}
this->state = I_CONNECTING;
if (!this->Instance->SE->AddFd(this))
{
Instance->Log(DEBUG, "A PQsocket cant be added to the socket engine!");
DoClose();
return false;
}
/* Socket all hooked into the engine, now to tell PgSQL to start connecting */
return DoPoll();
}
void SQLConn::Close() {
DoClose();
}
bool SQLConn::DoPoll()
{
switch(PQconnectPoll(sql))
{
case PGRES_POLLING_WRITING:
//ServerInstance->Log(DEBUG, "PGconnectPoll: PGRES_POLLING_WRITING");
WantWrite();
status = CWRITE;
return DoPoll();
case PGRES_POLLING_READING:
//ServerInstance->Log(DEBUG, "PGconnectPoll: PGRES_POLLING_READING");
status = CREAD;
return true;
case PGRES_POLLING_FAILED:
//ServerInstance->Log(DEBUG, "PGconnectPoll: PGRES_POLLING_FAILED: %s", PQerrorMessage(sql));
return false;
case PGRES_POLLING_OK:
//ServerInstance->Log(DEBUG, "PGconnectPoll: PGRES_POLLING_OK");
status = WWRITE;
return DoConnectedPoll();
default:
//ServerInstance->Log(DEBUG, "PGconnectPoll: wtf?");
return true;
}
}
bool SQLConn::DoConnectedPoll()
{
if(!qinprog && queue.totalsize())
{
/* There's no query currently in progress, and there's queries in the queue. */
SQLrequest& query = queue.front();
DoQuery(query);
}
if(PQconsumeInput(sql))
{
Instance->Log(DEBUG, "PQconsumeInput succeeded");
/* We just read stuff from the server, that counts as it being alive
* so update the idle-since time :p
*/
idle = this->Instance->Time();
if(PQisBusy(sql))
{
//ServerInstance->Log(DEBUG, "Still busy processing command though");
}
else if(qinprog)
{
//ServerInstance->Log(DEBUG, "Looks like we have a result to process!");
/* Grab the request we're processing */
SQLrequest& query = queue.front();
Instance->Log(DEBUG, "ID is %lu", query.id);
/* Get a pointer to the module we're about to return the result to */
Module* to = query.GetSource();
/* Fetch the result.. */
PGresult* result = PQgetResult(sql);
/* PgSQL would allow a query string to be sent which has multiple
* queries in it, this isn't portable across database backends and
* we don't want modules doing it. But just in case we make sure we
* drain any results there are and just use the last one.
* If the module devs are behaving there will only be one result.
*/
while (PGresult* temp = PQgetResult(sql))
{
PQclear(result);
result = temp;
}
if(to)
{
/* ..and the result */
PgSQLresult reply(us, to, query.id, result);
/* Fix by brain, make sure the original query gets sent back in the reply */
reply.query = query.query.q;
Instance->Log(DEBUG, "Got result, status code: %s; error message: %s", PQresStatus(PQresultStatus(result)), PQresultErrorMessage(result));
switch(PQresultStatus(result))
{
case PGRES_EMPTY_QUERY:
case PGRES_BAD_RESPONSE:
case PGRES_FATAL_ERROR:
reply.error.Id(QREPLY_FAIL);
reply.error.Str(PQresultErrorMessage(result));
default:;
/* No action, other values are not errors */
}
reply.Send();
/* PgSQLresult's destructor will free the PGresult */
}
else
{
/* If the client module is unloaded partway through a query then the provider will set
* the pointer to NULL. We cannot just cancel the query as the result will still come
* through at some point...and it could get messy if we play with invalid pointers...
*/
Instance->Log(DEBUG, "Looks like we're handling a zombie query from a module which unloaded before it got a result..fun. ID: %lu", query.id);
PQclear(result);
}
qinprog = false;
queue.pop();
DoConnectedPoll();
}
else
{
Instance->Log(DEBUG, "Eh!? We just got a read event, and connection isn't busy..but no result :(");
}
return true;
}
else
{
/* I think we'll assume this means the server died...it might not,
* but I think that any error serious enough we actually get here
* deserves to reconnect [/excuse]
* Returning true so the core doesn't try and close the connection.
*/
Instance->Log(DEBUG, "PQconsumeInput failed: %s", PQerrorMessage(sql));
Reconnect();
return true;
}
}
bool SQLConn::DoResetPoll()
{
switch(PQresetPoll(sql))
{
case PGRES_POLLING_WRITING:
//ServerInstance->Log(DEBUG, "PGresetPoll: PGRES_POLLING_WRITING");
WantWrite();
status = CWRITE;
return DoPoll();
case PGRES_POLLING_READING:
//ServerInstance->Log(DEBUG, "PGresetPoll: PGRES_POLLING_READING");
status = CREAD;
return true;
case PGRES_POLLING_FAILED:
//ServerInstance->Log(DEBUG, "PGresetPoll: PGRES_POLLING_FAILED: %s", PQerrorMessage(sql));
return false;
case PGRES_POLLING_OK:
//ServerInstance->Log(DEBUG, "PGresetPoll: PGRES_POLLING_OK");
status = WWRITE;
return DoConnectedPoll();
default:
//ServerInstance->Log(DEBUG, "PGresetPoll: wtf?");
return true;
}
}
void SQLConn::ShowStatus()
{
switch(PQstatus(sql))
{
case CONNECTION_STARTED:
Instance->Log(DEBUG, "PQstatus: CONNECTION_STARTED: Waiting for connection to be made.");
break;
case CONNECTION_MADE:
Instance->Log(DEBUG, "PQstatus: CONNECTION_MADE: Connection OK; waiting to send.");
break;
case CONNECTION_AWAITING_RESPONSE:
Instance->Log(DEBUG, "PQstatus: CONNECTION_AWAITING_RESPONSE: Waiting for a response from the server.");
break;
case CONNECTION_AUTH_OK:
Instance->Log(DEBUG, "PQstatus: CONNECTION_AUTH_OK: Received authentication; waiting for backend start-up to finish.");
break;
case CONNECTION_SSL_STARTUP:
Instance->Log(DEBUG, "PQstatus: CONNECTION_SSL_STARTUP: Negotiating SSL encryption.");
break;
case CONNECTION_SETENV:
Instance->Log(DEBUG, "PQstatus: CONNECTION_SETENV: Negotiating environment-driven parameter settings.");
break;
default:
Instance->Log(DEBUG, "PQstatus: ???");
}
}
bool SQLConn::OnDataReady()
{
/* Always return true here, false would close the socket - we need to do that ourselves with the pgsql API */
Instance->Log(DEBUG, "OnDataReady(): status = %s", StatusStr());
return DoEvent();
}
bool SQLConn::OnWriteReady()
{
/* Always return true here, false would close the socket - we need to do that ourselves with the pgsql API */
Instance->Log(DEBUG, "OnWriteReady(): status = %s", StatusStr());
return DoEvent();
}
bool SQLConn::OnConnected()
{
Instance->Log(DEBUG, "OnConnected(): status = %s", StatusStr());
return DoEvent();
}
bool SQLConn::Reconnect()
{
Instance->Log(DEBUG, "Initiating reconnect");
if(PQresetStart(sql))
{
/* Successfully initiatied database reconnect,
* set flags so PQresetPoll() will be called appropriately
*/
status = RWRITE;
qinprog = false;
return true;
}
else
{
Instance->Log(DEBUG, "Failed to initiate reconnect...fun");
return false;
}
}
bool SQLConn::DoEvent()
{
bool ret;
if((status == CREAD) || (status == CWRITE))
{
ret = DoPoll();
}
else if((status == RREAD) || (status == RWRITE))
{
ret = DoResetPoll();
}
else
{
ret = DoConnectedPoll();
}
switch(PQflush(sql))
{
case -1:
Instance->Log(DEBUG, "Error flushing write queue: %s", PQerrorMessage(sql));
break;
case 0:
Instance->Log(DEBUG, "Successfully flushed write queue (or there was nothing to write)");
break;
case 1:
Instance->Log(DEBUG, "Not all of the write queue written, triggering write event so we can have another go");
WantWrite();
break;
}
return ret;
}
const char* SQLConn::StatusStr()
{
if(status == CREAD) return "CREAD";
if(status == CWRITE) return "CWRITE";
if(status == WREAD) return "WREAD";
if(status == WWRITE) return "WWRITE";
return "Err...what, erm..BUG!";
}
SQLerror SQLConn::DoQuery(SQLrequest &req)
{
if((status == WREAD) || (status == WWRITE))
{
if(!qinprog)
{
/* Parse the command string and dispatch it */
/* 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 int 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 PQsendQuery()
*/
query = new char[req.query.q.length() + (paramlen*2) + 1];
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 int i = 0; i < req.query.q.length(); i++)
{
if(req.query.q[i] == '?')
{
/* We found a place to substitute..what fun.
* Use the PgSQL 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())
{
int error = 0;
size_t len = 0;
#ifdef PGSQL_HAS_ESCAPECONN
len = PQescapeStringConn(sql, queryend, req.query.p.front().c_str(), req.query.p.front().length(), &error);
#else
len = PQescapeString (queryend, req.query.p.front().c_str(), req.query.p.front().length());
#endif
if(error)
{
Instance->Log(DEBUG, "Apparently PQescapeStringConn() failed somehow...don't know how or what to do...");
}
Instance->Log(DEBUG, "Appended %d bytes of escaped string onto the query", len);
/* Incremenet queryend to the end of the newly escaped parameter */
queryend += len;
/* Remove the parameter we just substituted in */
req.query.p.pop_front();
}
else
{
Instance->Log(DEBUG, "Found a substitution location but no parameter to substitute :|");
break;
}
}
else
{
*queryend = req.query.q[i];
queryend++;
}
}
/* Null-terminate the query */
*queryend = 0;
Instance->Log(DEBUG, "Attempting to dispatch query: %s", query);
req.query.q = query;
if(PQsendQuery(sql, query))
{
Instance->Log(DEBUG, "Dispatched query successfully");
qinprog = true;
delete[] query;
return SQLerror();
}
else
{
Instance->Log(DEBUG, "Failed to dispatch query: %s", PQerrorMessage(sql));
delete[] query;
return SQLerror(QSEND_FAIL, PQerrorMessage(sql));
}
}
}
return SQLerror(BAD_CONN, "Can't query until connection is complete");
}
SQLerror SQLConn::Query(const SQLrequest &req)
{
queue.push(req);
if(!qinprog && queue.totalsize())
{
/* There's no query currently in progress, and there's queries in the queue. */
SQLrequest& query = queue.front();
return DoQuery(query);
}
else
{
return SQLerror();
}
}
void SQLConn::OnUnloadModule(Module* mod)
{
queue.PurgeModule(mod);
}
const SQLhost SQLConn::GetConfHost()
{
return confhost;
}
class ModulePgSQL : public Module
{
private:
ConnMap connections;
ConnMap deadconnections;
unsigned long currid;
char* sqlsuccess;
public:
ModulePgSQL(InspIRCd* Me)
: Module::Module(Me), currid(0)
{
ServerInstance->UseInterface("SQLutils");
sqlsuccess = new char[strlen(SQLSUCCESS)+1];
strlcpy(sqlsuccess, SQLSUCCESS, strlen(SQLSUCCESS));
if (!ServerInstance->PublishFeature("SQL", this))
{
throw ModuleException("m_pgsql: Unable to publish feature 'SQL'");
}
ReadConf();
ServerInstance->PublishInterface("SQL", this);
}
virtual ~ModulePgSQL()
{
ClearAllConnections();
delete[] sqlsuccess;
ServerInstance->UnpublishInterface("SQL", this);
ServerInstance->UnpublishFeature("SQL");
ServerInstance->DoneWithInterface("SQLutils");
}
void Implements(char* List)
{
List[I_OnUnloadModule] = List[I_OnRequest] = List[I_OnRehash] = List[I_OnUserRegister] = List[I_OnCheckReady] = List[I_OnUserDisconnect] = 1;
}
virtual void OnRehash(userrec* user, const std::string ¶meter)
{
ReadConf();
}
bool HasHost(const SQLhost &host)
{
ClearDeadConnections();
for (ConnMap::iterator iter = connections.begin(); iter != connections.end(); iter++)
{
if (host == iter->second->GetConfHost())
return true;
}
return false;
}
bool HostInConf(const SQLhost &h)
{
ClearDeadConnections();
ConfigReader conf(ServerInstance);
for(int i = 0; i < conf.Enumerate("database"); i++)
{
SQLhost host;
host.id = conf.ReadValue("database", "id", i);
host.host = conf.ReadValue("database", "hostname", i);
host.port = conf.ReadInteger("database", "port", i, true);
host.name = conf.ReadValue("database", "name", i);
host.user = conf.ReadValue("database", "username", i);
host.pass = conf.ReadValue("database", "password", i);
host.ssl = conf.ReadFlag("database", "ssl", i);
if (h == host)
return true;
}
return false;
}
void ReadConf()
{
ClearDeadConnections();
ConfigReader conf(ServerInstance);
for(int i = 0; i < conf.Enumerate("database"); i++)
{
SQLhost host;
int ipvalid;
insp_inaddr blargle;
host.id = conf.ReadValue("database", "id", i);
host.host = conf.ReadValue("database", "hostname", i);
host.port = conf.ReadInteger("database", "port", i, true);
host.name = conf.ReadValue("database", "name", i);
host.user = conf.ReadValue("database", "username", i);
host.pass = conf.ReadValue("database", "password", i);
host.ssl = conf.ReadFlag("database", "ssl", i);
if (HasHost(host))
continue;
ipvalid = insp_aton(host.host.c_str(), &blargle);
if(ipvalid > 0)
{
/* The conversion succeeded, we were given an IP and we can give it straight to SQLConn */
host.ip = host.host;
this->AddConn(host);
}
else if(ipvalid == 0)
{
/* Conversion failed, assume it's a host */
SQLresolver* resolver;
try
{
bool cached;
resolver = new SQLresolver(this, ServerInstance, host, cached);
ServerInstance->AddResolver(resolver, cached);
}
catch(...)
{
/* THE WORLD IS COMING TO AN END! */
ServerInstance->Log(DEBUG, "Couldn't make a SQLresolver..this connection is gonna diiiiiie...actually we just won't create it");
}
}
else
{
/* Invalid address family, die horribly. */
ServerInstance->Log(DEBUG, "insp_aton failed returning -1, oh noes.");
}
}
ClearOldConnections();
}
void ClearOldConnections()
{
ClearDeadConnections();
ConnMap::iterator iter,safei;
for (iter = connections.begin(); iter != connections.end(); iter++)
{
if (!HostInConf(iter->second->GetConfHost()))
{
delete iter->second;
safei = iter;
--iter;
connections.erase(safei);
}
}
}
void ClearAllConnections()
{
ClearDeadConnections();
ConnMap::iterator iter;
while ((iter = connections.begin()) != connections.end())
{
connections.erase(iter);
delete iter->second;
}
}
void ClearDeadConnections()
{
ConnMap::iterator di;
while ((di = deadconnections.begin()) != deadconnections.end())
{
ConnMap::iterator iter = connections.find(di->first);
if (iter != connections.end())
{
connections.erase(iter);
}
deadconnections.erase(di);
}
}
void AddDeadConn(std::string id, SQLConn* conn)
{
deadconnections[id] = conn;
}
void AddConn(const SQLhost& hi)
{
if (HasHost(hi))
{
ServerInstance->Log(DEFAULT, "WARNING: A pgsql connection with id: %s already exists, possibly due to DNS delay. Aborting connection attempt.", hi.id.c_str());
return;
}
SQLConn* newconn;
/* The conversion succeeded, we were given an IP and we can give it straight to SQLConn */
newconn = new SQLConn(ServerInstance, this, hi);
connections.insert(std::make_pair(hi.id, newconn));
}
virtual char* OnRequest(Request* request)
{
if(strcmp(SQLREQID, request->GetId()) == 0)
{
SQLrequest* req = (SQLrequest*)request;
ConnMap::iterator iter;
ServerInstance->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())
{
/* Execute query */
req->id = NewID();
req->error = iter->second->Query(*req);
return (req->error.Id() == NO_ERROR) ? sqlsuccess : NULL;
}
else
{
req->error.Id(BAD_DBID);
return NULL;
}
}
ServerInstance->Log(DEBUG, "Got unsupported API version string: %s", request->GetId());
return NULL;
}
virtual void OnUnloadModule(Module* mod, const std::string& name)
{
/* When a module unloads we have to check all the pending queries for all our connections
* and set the Module* specifying where the query came from to NULL. If the query has already
* been dispatched then when it is processed it will be dropped if the pointer is NULL.
*
* If the queries we find are not already being executed then we can simply remove them immediately.
*/
for(ConnMap::iterator iter = connections.begin(); iter != connections.end(); iter++)
{
iter->second->OnUnloadModule(mod);
}
}
unsigned long NewID()
{
if (currid+1 == 0)
currid++;
return ++currid;
}
virtual Version GetVersion()
{
return Version(1, 1, 0, 0, VF_VENDOR|VF_SERVICEPROVIDER, API_VERSION);
}
};
/* move this here to use AddConn, rather that than having the whole
* module above SQLConn, since this is buggin me right now :/
*/
void SQLresolver::OnLookupComplete(const std::string &result, unsigned int ttl)
{
host.ip = result;
((ModulePgSQL*)mod)->AddConn(host);
((ModulePgSQL*)mod)->ClearOldConnections();
}
/* move this here too, to use AddDeadConn */
void SQLConn::DoClose()
{
Instance->Log(DEBUG,"SQLConn::Close");
if (!this->Instance->SE->DelFd(this))
{
Instance->Log(DEBUG, "PQsocket cant be removed from the socket engine!");
}
this->fd = -1;
this->state = I_ERROR;
this->OnError(I_ERR_SOCKET);
this->ClosePending = true;
if(sql)
{
PQfinish(sql);
sql = NULL;
}
((ModulePgSQL*)us)->AddDeadConn(confhost.id, this);
}
class ModulePgSQLFactory : public ModuleFactory
{
public:
ModulePgSQLFactory()
{
}
~ModulePgSQLFactory()
{
}
virtual Module * CreateModule(InspIRCd* Me)
{
return new ModulePgSQL(Me);
}
};
extern "C" void * init_module( void )
{
// PQregisterThreadLock(pgthreadlock_t(1));
return new ModulePgSQLFactory;
}
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