/******************************************************************** * gnc-transaction-sql.c: load and save data to SQL * * * * 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; either version 2 of * * the License, or (at your option) any later version. * * * * 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, contact: * * * * Free Software Foundation Voice: +1-617-542-5942 * * 51 Franklin Street, Fifth Floor Fax: +1-617-542-2652 * * Boston, MA 02110-1301, USA gnu@gnu.org * \********************************************************************/ /** @file gnc-transaction-sql.c * @brief load and save data to SQL * @author Copyright (c) 2006-2008 Phil Longstaff * * This file implements the top-level QofBackend API for saving/ * restoring data to/from an SQL db */ #include #include #include #include "qof.h" #include "qofquery-p.h" #include "qofquerycore-p.h" #include "Account.h" #include "Transaction.h" #include #include #include "gnc-lot.h" #include "engine-helpers.h" #include "gnc-commodity.h" #include "gnc-engine.h" #ifdef S_SPLINT_S #include "splint-defs.h" #endif #include #include #include "escape.h" #include #include "gnc-sql-connection.hpp" #include "gnc-sql-backend.hpp" #include "gnc-sql-object-backend.hpp" #include "gnc-sql-column-table-entry.hpp" #include "gnc-transaction-sql.h" #include "gnc-commodity-sql.h" #include "gnc-slots-sql.h" #define SIMPLE_QUERY_COMPILATION 1 static QofLogModule log_module = G_LOG_DOMAIN; #define TRANSACTION_TABLE "transactions" #define TX_TABLE_VERSION 4 #define SPLIT_TABLE "splits" #define SPLIT_TABLE_VERSION 5 struct split_info_t : public write_objects_t { split_info_t () = default; split_info_t (GncSqlBackend* sql_be, bool o, GncSqlObjectBackend* e, const GncGUID* g): write_objects_t(sql_be, o, e), guid{g} {} const GncGUID* guid; }; #define TX_MAX_NUM_LEN 2048 #define TX_MAX_DESCRIPTION_LEN 2048 static const EntryVec tx_col_table { gnc_sql_make_table_entry("guid", 0, COL_NNUL | COL_PKEY, "guid"), gnc_sql_make_table_entry("currency_guid", 0, COL_NNUL, "currency"), gnc_sql_make_table_entry("num", TX_MAX_NUM_LEN, COL_NNUL, "num"), gnc_sql_make_table_entry("post_date", 0, 0, "post-date"), gnc_sql_make_table_entry("enter_date", 0, 0, "enter-date"), gnc_sql_make_table_entry("description", TX_MAX_DESCRIPTION_LEN, 0, "description"), }; static gpointer get_split_reconcile_state (gpointer pObject); static void set_split_reconcile_state (gpointer pObject, gpointer pValue); static void set_split_lot (gpointer pObject, gpointer pLot); #define SPLIT_MAX_MEMO_LEN 2048 #define SPLIT_MAX_ACTION_LEN 2048 static const EntryVec split_col_table { gnc_sql_make_table_entry("guid", 0, COL_NNUL | COL_PKEY, "guid"), gnc_sql_make_table_entry("tx_guid", 0, COL_NNUL, "transaction"), gnc_sql_make_table_entry("account_guid", 0, COL_NNUL, "account"), gnc_sql_make_table_entry("memo", SPLIT_MAX_MEMO_LEN, COL_NNUL, "memo"), gnc_sql_make_table_entry("action", SPLIT_MAX_ACTION_LEN, COL_NNUL, "action"), gnc_sql_make_table_entry("reconcile_state", 1, COL_NNUL, (QofAccessFunc)get_split_reconcile_state, set_split_reconcile_state), gnc_sql_make_table_entry("reconcile_date", 0, 0, "reconcile-date"), gnc_sql_make_table_entry("value", 0, COL_NNUL, "value"), gnc_sql_make_table_entry("quantity", 0, COL_NNUL, "amount"), gnc_sql_make_table_entry("lot_guid", 0, 0, (QofAccessFunc)xaccSplitGetLot, set_split_lot), }; static const EntryVec post_date_col_table { gnc_sql_make_table_entry("post_date", 0, 0, "post-date"), }; static const EntryVec account_guid_col_table { gnc_sql_make_table_entry("account_guid", 0, COL_NNUL, "account"), }; static const EntryVec tx_guid_col_table { gnc_sql_make_table_entry("tx_guid", 0, 0, "guid"), }; GncSqlTransBackend::GncSqlTransBackend() : GncSqlObjectBackend(TX_TABLE_VERSION, GNC_ID_TRANS, TRANSACTION_TABLE, tx_col_table) {} GncSqlSplitBackend::GncSqlSplitBackend() : GncSqlObjectBackend(SPLIT_TABLE_VERSION, GNC_ID_SPLIT, SPLIT_TABLE, split_col_table) {} /* These functions exist but have not been tested. #if LOAD_TRANSACTIONS_AS_NEEDED compile_split_query, run_split_query, free_split_query, */ /* ================================================================= */ static gpointer get_split_reconcile_state (gpointer pObject) { static gchar c[2]; g_return_val_if_fail (pObject != NULL, NULL); g_return_val_if_fail (GNC_IS_SPLIT (pObject), NULL); c[0] = xaccSplitGetReconcile (GNC_SPLIT (pObject)); c[1] = '\0'; return (gpointer)c; } static void set_split_reconcile_state (gpointer pObject, gpointer pValue) { const gchar* s = (const gchar*)pValue; g_return_if_fail (pObject != NULL); g_return_if_fail (GNC_IS_SPLIT (pObject)); g_return_if_fail (pValue != NULL); xaccSplitSetReconcile (GNC_SPLIT (pObject), s[0]); } static void set_split_lot (gpointer pObject, gpointer pLot) { GNCLot* lot; Split* split; g_return_if_fail (pObject != NULL); g_return_if_fail (GNC_IS_SPLIT (pObject)); if (pLot == NULL) return; g_return_if_fail (GNC_IS_LOT (pLot)); split = GNC_SPLIT (pObject); lot = GNC_LOT (pLot); gnc_lot_add_split (lot, split); } static Split* load_single_split (GncSqlBackend* sql_be, GncSqlRow& row) { const GncGUID* guid; GncGUID split_guid; Split* pSplit = NULL; g_return_val_if_fail (sql_be != NULL, NULL); guid = gnc_sql_load_guid (sql_be, row); if (guid == NULL) return NULL; if (guid_equal (guid, guid_null ())) { PWARN ("Bad GUID, creating new"); split_guid = guid_new_return (); } else { split_guid = *guid; pSplit = xaccSplitLookup (&split_guid, sql_be->book()); } if (pSplit) return pSplit; //Already loaded, nothing to do. pSplit = xaccMallocSplit (sql_be->book()); gnc_sql_load_object (sql_be, row, GNC_ID_SPLIT, pSplit, split_col_table); /*# -ifempty */ if (pSplit != xaccSplitLookup (&split_guid, sql_be->book())) { gchar guidstr[GUID_ENCODING_LENGTH + 1]; guid_to_string_buff (qof_instance_get_guid (pSplit), guidstr); PERR ("A malformed split with id %s was found in the dataset.", guidstr); qof_backend_set_error ((QofBackend*)sql_be, ERR_BACKEND_DATA_CORRUPT); pSplit = NULL; } if (!xaccSplitGetAccount(pSplit)) { gchar guidstr[GUID_ENCODING_LENGTH + 1]; guid_to_string_buff (qof_instance_get_guid (pSplit), guidstr); PERR("Split %s created with no account!", guidstr); } return pSplit; } static void load_splits_for_transactions (GncSqlBackend* sql_be, std::string selector) { g_return_if_fail (sql_be != NULL); const std::string spkey(split_col_table[0]->name()); const std::string sskey(tx_guid_col_table[0]->name()); const std::string tpkey(tx_col_table[0]->name()); std::string sql("SELECT "); if (selector.empty()) { sql += SPLIT_TABLE ".* FROM " SPLIT_TABLE " INNER JOIN " TRANSACTION_TABLE " ON " SPLIT_TABLE "." + sskey + " = " TRANSACTION_TABLE "." + tpkey; selector = "(SELECT DISTINCT " + tpkey + " FROM " TRANSACTION_TABLE ")"; } else sql += " * FROM " SPLIT_TABLE " WHERE " + sskey + " IN " + selector; // Execute the query and load the splits auto stmt = sql_be->create_statement_from_sql(sql); auto result = sql_be->execute_select_statement (stmt); for (auto row : *result) load_single_split (sql_be, row); sql = "SELECT DISTINCT "; sql += spkey + " FROM " SPLIT_TABLE " WHERE " + sskey + " IN " + selector; gnc_sql_slots_load_for_sql_subquery(sql_be, sql, (BookLookupFn)xaccSplitLookup); } static Transaction* load_single_tx (GncSqlBackend* sql_be, GncSqlRow& row) { const GncGUID* guid; GncGUID tx_guid; Transaction* pTx; g_return_val_if_fail (sql_be != NULL, NULL); guid = gnc_sql_load_guid (sql_be, row); if (guid == NULL) return NULL; tx_guid = *guid; pTx = xaccTransLookup (&tx_guid, sql_be->book()); if (pTx) return nullptr; // Nothing to do. pTx = xaccMallocTransaction (sql_be->book()); xaccTransBeginEdit (pTx); gnc_sql_load_object (sql_be, row, GNC_ID_TRANS, pTx, tx_col_table); if (pTx != xaccTransLookup (&tx_guid, sql_be->book())) { gchar guidstr[GUID_ENCODING_LENGTH + 1]; guid_to_string_buff (qof_instance_get_guid (pTx), guidstr); PERR ("A malformed transaction with id %s was found in the dataset.", guidstr); qof_backend_set_error ((QofBackend*)sql_be, ERR_BACKEND_DATA_CORRUPT); pTx = NULL; } return pTx; } /** * Structure to hold start/end balances for each account. The values are * saved before splits are loaded, and then used to adjust the start balances * so that the end balances (which are calculated and correct on initial load) * are unchanged. */ typedef struct { Account* acc; gnc_numeric start_bal; gnc_numeric end_bal; gnc_numeric start_cleared_bal; gnc_numeric end_cleared_bal; gnc_numeric start_reconciled_bal; gnc_numeric end_reconciled_bal; } full_acct_balances_t; /** * Executes a transaction query statement and loads the transactions and all * of the splits. * * @param sql_be SQL backend * @param stmt SQL statement */ static void query_transactions (GncSqlBackend* sql_be, std::string selector) { g_return_if_fail (sql_be != NULL); const std::string tpkey(tx_col_table[0]->name()); std::string sql("SELECT * FROM " TRANSACTION_TABLE); if (!selector.empty() && selector[0] == '(') sql += " WHERE " + tpkey + " IN " + selector; else if (!selector.empty()) // plain condition sql += " WHERE " + selector; auto stmt = sql_be->create_statement_from_sql(sql); auto result = sql_be->execute_select_statement(stmt); if (result->begin() == result->end()) { PINFO("Query %s returned no results", sql.c_str()); return; } Transaction* tx; // Load the transactions InstanceVec instances; instances.reserve(result->size()); for (auto row : *result) { tx = load_single_tx (sql_be, row); if (tx != nullptr) { xaccTransScrubPostedDate (tx); instances.push_back(QOF_INSTANCE(tx)); } } // Load all splits and slots for the transactions if (!instances.empty()) { const std::string tpkey(tx_col_table[0]->name()); if (!selector.empty() && (selector[0] != '(')) { auto tselector = std::string ("(SELECT DISTINCT "); tselector += tpkey + " FROM " TRANSACTION_TABLE " WHERE " + selector + ")"; selector = tselector; } load_splits_for_transactions (sql_be, selector); if (selector.empty()) { selector = "SELECT DISTINCT "; selector += tpkey + " FROM " TRANSACTION_TABLE; } gnc_sql_slots_load_for_sql_subquery (sql_be, selector, (BookLookupFn)xaccTransLookup); } // Commit all of the transactions, but don't scrub because any // scrubbing changes won't be written back to the database xaccDisableDataScrubbing(); for (auto instance : instances) xaccTransCommitEdit(GNC_TRANSACTION(instance)); xaccEnableDataScrubbing(); } /* ================================================================= */ /** * Creates the transaction and split tables. * * @param sql_be SQL backend */ void GncSqlTransBackend::create_tables (GncSqlBackend* sql_be) { gint version; gboolean ok; g_return_if_fail (sql_be != NULL); version = sql_be->get_table_version( m_table_name.c_str()); if (version == 0) { (void)sql_be->create_table(TRANSACTION_TABLE, TX_TABLE_VERSION, tx_col_table); ok = sql_be->create_index ("tx_post_date_index", TRANSACTION_TABLE, post_date_col_table); if (!ok) { PERR ("Unable to create index\n"); } } else if (version < m_version) { /* Upgrade: 1->2: 64 bit int handling 2->3: allow dates to be NULL 3->4: Use DATETIME instead of TIMESTAMP in MySQL */ sql_be->upgrade_table(m_table_name.c_str(), tx_col_table); sql_be->set_table_version (m_table_name.c_str(), m_version); PINFO ("Transactions table upgraded from version %d to version %d\n", version, m_version); } } void GncSqlSplitBackend::create_tables (GncSqlBackend* sql_be) { g_return_if_fail (sql_be != nullptr); auto version = sql_be->get_table_version( m_table_name.c_str()); if (version == 0) { (void)sql_be->create_table(m_table_name.c_str(), m_version, m_col_table); if (!sql_be->create_index("splits_tx_guid_index", m_table_name.c_str(), tx_guid_col_table)) PERR ("Unable to create index\n"); if (!sql_be->create_index("splits_account_guid_index", m_table_name.c_str(), account_guid_col_table)) PERR ("Unable to create index\n"); } else if (version < SPLIT_TABLE_VERSION) { /* Upgrade: 1->2: 64 bit int handling 3->4: Split reconcile date can be NULL 4->5: Use DATETIME instead of TIMESTAMP in MySQL */ sql_be->upgrade_table(m_table_name.c_str(), split_col_table); if (!sql_be->create_index("splits_tx_guid_index", m_table_name.c_str(), tx_guid_col_table)) PERR ("Unable to create index\n"); if (!sql_be->create_index("splits_account_guid_index", m_table_name.c_str(), account_guid_col_table)) PERR ("Unable to create index\n"); sql_be->set_table_version (m_table_name.c_str(), m_version); PINFO ("Splits table upgraded from version %d to version %d\n", version, m_version); } } /* ================================================================= */ /** * Callback function to delete slots for a split * * @param data Split * @param user_data split_info_t structure contain operation info */ static void delete_split_slots_cb (gpointer data, gpointer user_data) { split_info_t* split_info = (split_info_t*)user_data; Split* pSplit = GNC_SPLIT (data); g_return_if_fail (data != NULL); g_return_if_fail (GNC_IS_SPLIT (data)); g_return_if_fail (user_data != NULL); if (split_info->is_ok) { split_info->is_ok = gnc_sql_slots_delete (split_info->be, qof_instance_get_guid (QOF_INSTANCE (pSplit))); } } /** * Deletes all of the splits for a transaction * * @param sql_be SQL backend * @param pTx Transaction * @return TRUE if successful, FALSE if unsuccessful */ static gboolean delete_splits (GncSqlBackend* sql_be, Transaction* pTx) { split_info_t split_info; g_return_val_if_fail (sql_be != NULL, FALSE); g_return_val_if_fail (pTx != NULL, FALSE); if (!sql_be->do_db_operation(OP_DB_DELETE, SPLIT_TABLE, SPLIT_TABLE, pTx, tx_guid_col_table)) { return FALSE; } split_info.be = sql_be; split_info.is_ok = TRUE; g_list_foreach (xaccTransGetSplitList (pTx), delete_split_slots_cb, &split_info); return split_info.is_ok; } /** * Commits a split to the database * * @param sql_be SQL backend * @param inst Split * @return TRUE if successful, FALSE if error */ bool GncSqlSplitBackend::commit (GncSqlBackend* sql_be, QofInstance* inst) { E_DB_OPERATION op; gboolean is_infant; gboolean is_ok; GncGUID* guid = (GncGUID*)qof_instance_get_guid (inst); g_return_val_if_fail (inst != NULL, FALSE); g_return_val_if_fail (sql_be != NULL, FALSE); is_infant = qof_instance_get_infant (inst); if (qof_instance_get_destroying (inst)) { op = OP_DB_DELETE; } else if (sql_be->pristine() || is_infant) { op = OP_DB_INSERT; } else { op = OP_DB_UPDATE; } if (guid_equal (guid, guid_null ())) { *guid = guid_new_return (); qof_instance_set_guid (inst, guid); } is_ok = sql_be->do_db_operation(op, SPLIT_TABLE, GNC_ID_SPLIT, inst, split_col_table); if (is_ok && !qof_instance_get_destroying (inst)) { is_ok = gnc_sql_slots_save (sql_be, guid, is_infant, inst); } return is_ok; } bool GncSqlTransBackend::commit (GncSqlBackend* sql_be, QofInstance* inst) { E_DB_OPERATION op; gboolean is_ok = TRUE; const char* err = NULL; g_return_val_if_fail (sql_be != NULL, FALSE); g_return_val_if_fail (inst != NULL, FALSE); auto pTx = GNC_TRANS(inst); auto is_infant = qof_instance_get_infant (inst); if (qof_instance_get_destroying (inst)) { op = OP_DB_DELETE; } else if (sql_be->pristine() || is_infant) { op = OP_DB_INSERT; } else { op = OP_DB_UPDATE; } if (op != OP_DB_DELETE) { gnc_commodity* commodity = xaccTransGetCurrency (pTx); // Ensure the commodity is in the db is_ok = sql_be->save_commodity(commodity); if (! is_ok) { err = "Commodity save failed: Probably an invalid or missing currency"; qof_backend_set_error ((QofBackend*)sql_be, ERR_BACKEND_DATA_CORRUPT); } } if (is_ok) { is_ok = sql_be->do_db_operation(op, TRANSACTION_TABLE, GNC_ID_TRANS, pTx, tx_col_table); if (! is_ok) { err = "Transaction header save failed. Check trace log for SQL errors"; } } if (is_ok) { // Commit slots auto guid = qof_instance_get_guid (inst); if (!qof_instance_get_destroying (inst)) { is_ok = gnc_sql_slots_save (sql_be, guid, is_infant, inst); if (! is_ok) { err = "Slots save failed. Check trace log for SQL errors"; } } else { is_ok = gnc_sql_slots_delete (sql_be, guid); if (! is_ok) { err = "Slots delete failed. Check trace log for SQL errors"; } if (is_ok) { is_ok = delete_splits (sql_be, pTx); if (! is_ok) { err = "Split delete failed. Check trace log for SQL errors"; } } } } if (! is_ok) { Split* split = xaccTransGetSplit (pTx, 0); Account* acc = xaccSplitGetAccount (split); gchar *datestr = qof_print_date (xaccTransGetDate (pTx)); /* FIXME: This needs to be implemented const char *message1 = "Transaction %s dated %s in account %s not saved due to %s.%s"; const char *message2 = "\nDatabase may be corrupted, check your data carefully."; qof_error_format_secondary_text( GTK_MESSAGE_DIALOG( msg ), message1, xaccTransGetDescription( pTx ), qof_print_date( xaccTransGetDate( pTx ) ), xaccAccountGetName( acc ), err, message2 ); */ PERR ("Transaction %s dated %s in account %s not saved due to %s.\n", xaccTransGetDescription (pTx), datestr, xaccAccountGetName (acc), err); g_free (datestr); } return is_ok; } /* ================================================================= */ /** * Loads all transactions for an account. * * @param sql_be SQL backend * @param account Account */ void gnc_sql_transaction_load_tx_for_account (GncSqlBackend* sql_be, Account* account) { const GncGUID* guid; g_return_if_fail (sql_be != NULL); g_return_if_fail (account != NULL); guid = qof_instance_get_guid (QOF_INSTANCE (account)); const std::string tpkey(tx_col_table[0]->name()); //guid const std::string spkey(split_col_table[0]->name()); //guid const std::string stkey(split_col_table[1]->name()); //txn_guid const std::string sakey(split_col_table[2]->name()); //account_guid std::string sql("(SELECT DISTINCT "); sql += stkey + " FROM " SPLIT_TABLE " WHERE " + sakey + " = '"; sql += gnc::GUID(*guid).to_string() + "')"; query_transactions (sql_be, sql); } /** * Loads all transactions. This might be used during a save-as operation to ensure that * all data is in memory and ready to be saved. * * @param sql_be SQL backend */ void GncSqlTransBackend::load_all (GncSqlBackend* sql_be) { g_return_if_fail (sql_be != NULL); auto root = gnc_book_get_root_account (sql_be->book()); gnc_account_foreach_descendant(root, (AccountCb)xaccAccountBeginEdit, nullptr); query_transactions (sql_be, ""); gnc_account_foreach_descendant(root, (AccountCb)xaccAccountCommitEdit, nullptr); } typedef struct { GncSqlStatementPtr stmt; gboolean has_been_run; } split_query_info_t; /* ----------------------------------------------------------------- */ typedef struct { const GncSqlBackend* sql_be; Account* acct; char reconcile_state; gnc_numeric balance; } single_acct_balance_t; static void set_acct_bal_account_from_guid (gpointer pObject, gpointer pValue) { single_acct_balance_t* bal = (single_acct_balance_t*)pObject; const GncGUID* guid = (const GncGUID*)pValue; g_return_if_fail (pObject != NULL); g_return_if_fail (pValue != NULL); bal->acct = xaccAccountLookup (guid, bal->sql_be->book()); } static void set_acct_bal_reconcile_state (gpointer pObject, gpointer pValue) { single_acct_balance_t* bal = (single_acct_balance_t*)pObject; const gchar* s = (const gchar*)pValue; g_return_if_fail (pObject != NULL); g_return_if_fail (pValue != NULL); bal->reconcile_state = s[0]; } static void set_acct_bal_balance (gpointer pObject, gnc_numeric value) { single_acct_balance_t* bal = (single_acct_balance_t*)pObject; g_return_if_fail (pObject != NULL); bal->balance = value; } static const EntryVec acct_balances_col_table { gnc_sql_make_table_entry("account_guid", 0, 0, nullptr, (QofSetterFunc)set_acct_bal_account_from_guid), gnc_sql_make_table_entry("reconcile_state", 1, 0, nullptr, (QofSetterFunc)set_acct_bal_reconcile_state), gnc_sql_make_table_entry("quantity", 0, 0, nullptr, (QofSetterFunc)set_acct_bal_balance), }; /* ----------------------------------------------------------------- */ template<> void GncSqlColumnTableEntryImpl::load (const GncSqlBackend* sql_be, GncSqlRow& row, QofIdTypeConst obj_name, gpointer pObject) const noexcept { g_return_if_fail (sql_be != NULL); g_return_if_fail (pObject != NULL); auto val = row.get_string_at_col (m_col_name); if (!val) return; GncGUID guid; Transaction *tx = nullptr; if (string_to_guid (val->c_str(), &guid)) tx = xaccTransLookup (&guid, sql_be->book()); // If the transaction is not found, try loading it std::string tpkey(tx_col_table[0]->name()); if (tx == nullptr) { std::string sql = tpkey + " = '" + *val + "'"; query_transactions ((GncSqlBackend*)sql_be, sql); tx = xaccTransLookup (&guid, sql_be->book()); } if (tx != nullptr) set_parameter (pObject, tx, get_setter(obj_name), m_gobj_param_name); } template<> void GncSqlColumnTableEntryImpl::add_to_table(ColVec& vec) const noexcept { add_objectref_guid_to_table(vec); } template<> void GncSqlColumnTableEntryImpl::add_to_query(QofIdTypeConst obj_name, const gpointer pObject, PairVec& vec) const noexcept { add_objectref_guid_to_query(obj_name, pObject, vec); } /* ========================== END OF FILE ===================== */