/* RequiredLibraries: sqlite3 */ #include "module.h" #include #include "sql.h" /* SQLite3 API, based from InspiRCd */ /** A SQLite result */ class SQLiteResult : public SQLResult { public: SQLiteResult(unsigned int i, const SQLQuery &q, const Anope::string &fq) : SQLResult(i, q, fq) { } SQLiteResult(const SQLQuery &q, const Anope::string &fq, const Anope::string &err) : SQLResult(0, q, fq, err) { } void addRow(const std::map &data) { this->entries.push_back(data); } }; /** A SQLite database, there can be multiple */ class SQLiteService : public SQLProvider { std::map > active_schema; Anope::string database; sqlite3 *sql; Anope::string Escape(const Anope::string &query); public: SQLiteService(Module *o, const Anope::string &n, const Anope::string &d); ~SQLiteService(); void Run(SQLInterface *i, const SQLQuery &query) anope_override; SQLResult RunQuery(const SQLQuery &query); std::vector CreateTable(const Anope::string &table, const Serialize::Data &data) anope_override; SQLQuery BuildInsert(const Anope::string &table, unsigned int id, const Serialize::Data &data); SQLQuery GetTables(const Anope::string &prefix); Anope::string BuildQuery(const SQLQuery &q); Anope::string FromUnixtime(time_t); }; class ModuleSQLite : public Module { /* SQL connections */ std::map SQLiteServices; public: ModuleSQLite(const Anope::string &modname, const Anope::string &creator) : Module(modname, creator, SUPPORTED) { Implementation i[] = { I_OnReload }; ModuleManager::Attach(i, this, sizeof(i) / sizeof(Implementation)); OnReload(); } ~ModuleSQLite() { for (std::map::iterator it = this->SQLiteServices.begin(); it != this->SQLiteServices.end(); ++it) delete it->second; SQLiteServices.clear(); } void OnReload() anope_override { ConfigReader config; int i, num; for (std::map::iterator it = this->SQLiteServices.begin(); it != this->SQLiteServices.end();) { const Anope::string &cname = it->first; SQLiteService *s = it->second; ++it; for (i = 0, num = config.Enumerate("sqlite"); i < num; ++i) if (config.ReadValue("sqlite", "name", "sqlite/main", i) == cname) break; if (i == num) { Log(LOG_NORMAL, "sqlite") << "SQLite: Removing server connection " << cname; delete s; this->SQLiteServices.erase(cname); } } for (i = 0, num = config.Enumerate("sqlite"); i < num; ++i) { Anope::string connname = config.ReadValue("sqlite", "name", "sqlite/main", i); if (this->SQLiteServices.find(connname) == this->SQLiteServices.end()) { Anope::string database = db_dir + "/" + config.ReadValue("sqlite", "database", "anope", i); try { SQLiteService *ss = new SQLiteService(this, connname, database); this->SQLiteServices[connname] = ss; Log(LOG_NORMAL, "sqlite") << "SQLite: Successfully added database " << database; } catch (const SQLException &ex) { Log(LOG_NORMAL, "sqlite") << "SQLite: " << ex.GetReason(); } } } } }; SQLiteService::SQLiteService(Module *o, const Anope::string &n, const Anope::string &d) : SQLProvider(o, n), database(d), sql(NULL) { int db = sqlite3_open_v2(database.c_str(), &this->sql, SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE, 0); if (db != SQLITE_OK) throw SQLException("Unable to open SQLite database " + database + ": " + sqlite3_errmsg(this->sql)); } SQLiteService::~SQLiteService() { sqlite3_interrupt(this->sql); sqlite3_close(this->sql); } void SQLiteService::Run(SQLInterface *i, const SQLQuery &query) { SQLResult res = this->RunQuery(query); if (!res.GetError().empty()) i->OnError(res); else i->OnResult(res); } SQLResult SQLiteService::RunQuery(const SQLQuery &query) { Anope::string real_query = this->BuildQuery(query); sqlite3_stmt *stmt; int err = sqlite3_prepare_v2(this->sql, real_query.c_str(), real_query.length(), &stmt, NULL); if (err != SQLITE_OK) return SQLiteResult(query, real_query, sqlite3_errmsg(this->sql)); std::vector columns; int cols = sqlite3_column_count(stmt); columns.resize(cols); for (int i = 0; i < cols; ++i) columns[i] = sqlite3_column_name(stmt, i); SQLiteResult result(0, query, real_query); while ((err = sqlite3_step(stmt)) == SQLITE_ROW) { std::map items; for (int i = 0; i < cols; ++i) { const char *data = reinterpret_cast(sqlite3_column_text(stmt, i)); if (data && *data) items[columns[i]] = data; } result.addRow(items); } result.id = sqlite3_last_insert_rowid(this->sql); sqlite3_finalize(stmt); if (err != SQLITE_DONE) return SQLiteResult(query, real_query, sqlite3_errmsg(this->sql)); return result; } std::vector SQLiteService::CreateTable(const Anope::string &table, const Serialize::Data &data) { std::vector queries; std::set &known_cols = this->active_schema[table]; if (known_cols.empty()) { Log(LOG_DEBUG) << "m_sqlite: Fetching columns for " << table; SQLResult columns = this->RunQuery("PRAGMA table_info(" + table + ")"); for (int i = 0; i < columns.Rows(); ++i) { const Anope::string &column = columns.Get(i, "name"); Log(LOG_DEBUG) << "m_sqlite: Column #" << i << " for " << table << ": " << column; known_cols.insert(column); } } if (known_cols.empty()) { Anope::string query_text = "CREATE TABLE `" + table + "` (`id` INTEGER PRIMARY KEY, `timestamp` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP"; for (Serialize::Data::const_iterator it = data.begin(), it_end = data.end(); it != it_end; ++it) { known_cols.insert(it->first); query_text += ", `" + it->first + "` "; if (it->second.getType() == Serialize::DT_INT) query_text += "int(11)"; else query_text += "text"; } query_text += ")"; queries.push_back(query_text); query_text = "CREATE UNIQUE INDEX `" + table + "_id_idx` ON `" + table + "` (`id`)"; queries.push_back(query_text); query_text = "CREATE INDEX `" + table + "_timestamp_idx` ON `" + table + "` (`timestamp`)"; queries.push_back(query_text); query_text = "CREATE TRIGGER `" + table + "_trigger` AFTER UPDATE ON `" + table + "` FOR EACH ROW BEGIN UPDATE `" + table + "` SET `timestamp` = CURRENT_TIMESTAMP WHERE `id` = `old.id`; end;"; queries.push_back(query_text); } else for (Serialize::Data::const_iterator it = data.begin(), it_end = 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 (it->second.getType() == Serialize::DT_INT) query_text += "int(11)"; else query_text += "text"; queries.push_back(query_text); } return queries; } SQLQuery SQLiteService::BuildInsert(const Anope::string &table, unsigned int id, const Serialize::Data &data) { Anope::string query_text = "REPLACE INTO `" + table + "` ("; if (id > 0) query_text += "`id`,"; for (Serialize::Data::const_iterator it = data.begin(), it_end = data.end(); it != it_end; ++it) query_text += "`" + it->first + "`,"; query_text.erase(query_text.length() - 1); query_text += ") VALUES ("; if (id > 0) query_text += stringify(id) + ","; for (Serialize::Data::const_iterator it = data.begin(), it_end = data.end(); it != it_end; ++it) query_text += "@" + it->first + "@,"; query_text.erase(query_text.length() - 1); query_text += ")"; SQLQuery query(query_text); for (Serialize::Data::const_iterator it = data.begin(), it_end = data.end(); it != it_end; ++it) query.setValue(it->first, it->second.astr()); return query; } SQLQuery SQLiteService::GetTables(const Anope::string &prefix) { return SQLQuery("SELECT name FROM sqlite_master WHERE type='table' AND name LIKE '" + prefix + "%';"); } Anope::string SQLiteService::Escape(const Anope::string &query) { char *e = sqlite3_mprintf("%q", query.c_str()); Anope::string buffer = e; sqlite3_free(e); return buffer; } Anope::string SQLiteService::BuildQuery(const SQLQuery &q) { Anope::string real_query = q.query; for (std::map::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 SQLiteService::FromUnixtime(time_t t) { return "datetime('" + stringify(t) + "', 'unixepoch')"; } MODULE_INIT(ModuleSQLite)