/**
* gda_xa_transaction_rollback:
* @xa_trans: a #GdaXaTransaction object
* @error: (nullable): a place to store errors, or %NULL
*
* Cancels a distributed transaction (managed by @xa_trans).
*
* Returns: %TRUE if no error occurred
*/
gboolean
gda_xa_transaction_rollback (GdaXaTransaction *xa_trans, GError **error)
{
GList *list;
g_return_val_if_fail (GDA_IS_XA_TRANSACTION (xa_trans), FALSE);
GdaXaTransactionPrivate *priv = gda_xa_transaction_get_instance_private (xa_trans);
for (list = priv->cnc_list; list; list = list->next) {
GdaConnection *cnc;
GdaServerProvider *prov;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
if (cnc == priv->non_xa_cnc)
gda_connection_rollback_transaction (cnc, NULL, NULL);
else {
GdaBinary *branch;
branch = g_hash_table_lookup (priv->cnc_hash, cnc);
memcpy (priv->xid.data + priv->xid.gtrid_length, /* Flawfinder: ignore */
gda_binary_get_data (branch), gda_binary_get_size (branch));
GError *lerror = NULL;
_gda_server_provider_xa_rollback (prov, cnc, &(priv->xid), &lerror);
if (error && !*error)
g_propagate_error (error, lerror);
else
g_clear_error (&lerror);
}
}
return TRUE;
}
/**
* gda_xa_transaction_rollback:
* @xa_trans: a #GdaXaTransaction object
* @error: (allow-none): a place to store errors, or %NULL
*
* Cancels a distributed transaction (managed by @xa_trans).
*
* Returns: %TRUE if no error occurred
*/
gboolean
gda_xa_transaction_rollback (GdaXaTransaction *xa_trans, GError **error)
{
GList *list;
g_return_val_if_fail (GDA_IS_XA_TRANSACTION (xa_trans), FALSE);
for (list = xa_trans->priv->cnc_list; list; list = list->next) {
GdaConnection *cnc;
GdaServerProvider *prov;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
if (cnc == xa_trans->priv->non_xa_cnc)
gda_connection_rollback_transaction (cnc, NULL, NULL);
else {
const GdaBinary *branch;
branch = g_hash_table_lookup (xa_trans->priv->cnc_hash, cnc);
memcpy (xa_trans->priv->xid.data + xa_trans->priv->xid.gtrid_length, /* Flawfinder: ignore */
branch->data, branch->binary_length);
if (!PROV_CLASS (prov)->xa_funcs->xa_rollback)
g_warning (_("Provider error: %s method not implemented for provider %s"),
"xa_prepare()", gda_server_provider_get_name (prov));
else
PROV_CLASS (prov)->xa_funcs->xa_rollback (prov, cnc, &(xa_trans->priv->xid), error);
}
}
return TRUE;
}
/**
* midgard_transaction_rollback:
* @self: #MidgardTransaction instance
*
* In case of error, #MidgardConnection error is set to MGD_ERR_INTERNAL
*
* Returns: %TRUE on success, %FALSE otherwise.
*
* Since: 9.09
*/
gboolean
midgard_transaction_rollback (MidgardTransaction *self)
{
_ASSERT_T_MGD(self);
gboolean rv = FALSE;
GdaConnection *cnc = _T_CNC(self);
MidgardConnection *mgd = self->priv->mgd;
GError *error = NULL;
g_debug("Rollback named transaction '%s'", self->priv->name);
rv = gda_connection_rollback_transaction(cnc, self->priv->name, &error);
if (!error && rv)
return TRUE;
midgard_set_error(mgd,
MGD_GENERIC_ERROR,
MGD_ERR_INTERNAL,
error && error->message ? error->message : " Unknown error.");
if (error)
g_error_free(error);
return FALSE;
}
/**
* gda_xa_transaction_begin:
* @xa_trans: a #GdaXaTransaction object
* @error: (nullable): a place to store errors, or %NULL
*
* Begins a distributed transaction (managed by @xa_trans). Please note that this phase may fail
* for some connections if a (normal) transaction is already started (this depends on the database
* provider being used), so it's better to avoid starting any (normal) transaction on any of the
* connections registered with @xa_trans.
*
* Returns: TRUE if no error occurred
*/
gboolean
gda_xa_transaction_begin (GdaXaTransaction *xa_trans, GError **error)
{
GList *list;
g_return_val_if_fail (GDA_IS_XA_TRANSACTION (xa_trans), FALSE);
GdaXaTransactionPrivate *priv = gda_xa_transaction_get_instance_private (xa_trans);
for (list = priv->cnc_list; list; list = list->next) {
GdaConnection *cnc;
GdaServerProvider *prov;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
if (cnc != priv->non_xa_cnc) {
GdaBinary *branch;
branch = g_hash_table_lookup (priv->cnc_hash, cnc);
memcpy (priv->xid.data + priv->xid.gtrid_length, /* Flawfinder: ignore */
gda_binary_get_data (branch), gda_binary_get_size (branch));
if (! _gda_server_provider_xa_start (prov, cnc, &(priv->xid), error))
break;
}
else {
/* do a simple BEGIN */
if (! gda_connection_begin_transaction (cnc, NULL, GDA_TRANSACTION_ISOLATION_UNKNOWN,
error))
break;
}
}
if (list) {
/* something went wrong */
for (; list; list = list->prev) {
GdaConnection *cnc;
GdaServerProvider *prov;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
if (cnc != priv->non_xa_cnc) {
GdaBinary *branch;
branch = g_hash_table_lookup (priv->cnc_hash, cnc);
memcpy (priv->xid.data + priv->xid.gtrid_length, /* Flawfinder: ignore */
gda_binary_get_data (branch), gda_binary_get_size (branch));
_gda_server_provider_xa_rollback (prov, cnc, &(priv->xid), NULL);
}
else {
/* do a simple ROLLBACK */
gda_connection_rollback_transaction (cnc, NULL, NULL);
}
}
return FALSE;
}
return TRUE;
}
/**
* base_tool_command_result_free:
* @res: (allow-none): a #ToolCommandResult, or %NULL
*
* Frees any resource used by @res
*/
void
base_tool_command_result_free (ToolCommandResult *res)
{
if (!res)
return;
switch (res->type) {
case BASE_TOOL_COMMAND_RESULT_DATA_MODEL:
if (res->u.model)
g_object_unref (res->u.model);
if (! res->was_in_transaction_before_exec &&
res->cnc &&
gda_connection_get_transaction_status (res->cnc))
gda_connection_rollback_transaction (res->cnc, NULL, NULL);
break;
case BASE_TOOL_COMMAND_RESULT_SET:
if (res->u.set)
g_object_unref (res->u.set);
break;
case BASE_TOOL_COMMAND_RESULT_TREE:
if (res->u.tree)
g_object_unref (res->u.tree);
break;
case BASE_TOOL_COMMAND_RESULT_TXT:
case BASE_TOOL_COMMAND_RESULT_TXT_STDOUT:
if (res->u.txt)
g_string_free (res->u.txt, TRUE);
break;
case BASE_TOOL_COMMAND_RESULT_MULTIPLE: {
GSList *list;
for (list = res->u.multiple_results; list; list = list->next)
base_tool_command_result_free ((ToolCommandResult *) list->data);
g_slist_free (res->u.multiple_results);
break;
}
case BASE_TOOL_COMMAND_RESULT_HELP:
if (res->u.xml_node)
xmlFreeNode (res->u.xml_node);
break;
case BASE_TOOL_COMMAND_RESULT_EXIT:
case BASE_TOOL_COMMAND_RESULT_EMPTY:
break;
default:
g_assert_not_reached ();
break;
}
if (res->cnc)
g_object_unref (res->cnc);
g_free (res);
}
void
midgard_cr_core_transaction_rollback (MidgardCRCoreTransaction *self, GError **error)
{
_ASSERT_T_MGD (self);
gboolean rv = FALSE;
GdaConnection *cnc = _T_CNC (self);
MidgardCRSQLStorageManager *manager = self->priv->manager;
GError *err = NULL;
rv = gda_connection_rollback_transaction (cnc, self->priv->name, &err);
if (err)
g_propagate_error (error, err);
if (!rv && !err)
g_warning ("Failed to rollback underlying database transaction and no error has been set");
return;
}
/**
* gda_xa_transaction_commit:
* @xa_trans: a #GdaXaTransaction object
* @cnc_to_recover: (allow-none) (element-type Gda.Connection) (out callee-allocates): a place to store the list of connections for which the commit phase failed, or %NULL
* @error: a place to store errors, or %NULL
*
* Commits a distributed transaction (managed by @xa_trans). The commit is composed of two phases:
* <itemizedlist>
* <listitem><para>a PREPARE phase where all the connections are required to store their transaction data to a
* permanent place (to be able to complete the commit should a problem occur afterwards)</para></listitem>
* <listitem><para>a COMMIT phase where the transaction data is actually written to the database</para></listitem>
* </itemizedlist>
*
* If the PREPARE phase fails for any of the connection registered with @xa_trans, then the distributed commit
* fails and FALSE is returned. During the COMMIT phase, some commit may actually fail but the transaction can
* still be completed because the PREPARE phase succeeded (through the recover method).
*
* Returns: TRUE if no error occurred (there may be some connections to recover, though)
*/
gboolean
gda_xa_transaction_commit (GdaXaTransaction *xa_trans, GSList **cnc_to_recover, GError **error)
{
GList *list;
if (cnc_to_recover)
*cnc_to_recover = NULL;
g_return_val_if_fail (GDA_IS_XA_TRANSACTION (xa_trans), FALSE);
/*
* PREPARE phase
*/
for (list = xa_trans->priv->cnc_list; list; list = list->next) {
GdaConnection *cnc = NULL;
GdaServerProvider *prov;
const GdaBinary *branch;
if (cnc == xa_trans->priv->non_xa_cnc)
continue;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
branch = g_hash_table_lookup (xa_trans->priv->cnc_hash, cnc);
memcpy (xa_trans->priv->xid.data + xa_trans->priv->xid.gtrid_length, /* Flawfinder: ignore */
branch->data, branch->binary_length);
if (PROV_CLASS (prov)->xa_funcs->xa_end &&
!PROV_CLASS (prov)->xa_funcs->xa_end (prov, cnc, &(xa_trans->priv->xid), error))
break;
if (!PROV_CLASS (prov)->xa_funcs->xa_prepare) {
g_warning (_("Provider error: %s method not implemented for provider %s"),
"xa_prepare()", gda_server_provider_get_name (prov));
break;
}
if (!PROV_CLASS (prov)->xa_funcs->xa_commit) {
g_warning (_("Provider error: %s method not implemented for provider %s"),
"xa_commit()", gda_server_provider_get_name (prov));
break;
}
if (!PROV_CLASS (prov)->xa_funcs->xa_prepare (prov, cnc, &(xa_trans->priv->xid), error))
break;
}
if (list) {
/* something went wrong during the PREPARE phase => rollback everything */
for (; list; list = list->prev) {
GdaConnection *cnc = NULL;
GdaServerProvider *prov;
if (cnc == xa_trans->priv->non_xa_cnc)
gda_connection_rollback_transaction (cnc, NULL, NULL);
else {
const GdaBinary *branch;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
branch = g_hash_table_lookup (xa_trans->priv->cnc_hash, cnc);
memcpy (xa_trans->priv->xid.data + xa_trans->priv->xid.gtrid_length, /* Flawfinder: ignore */
branch->data, branch->binary_length);
if (PROV_CLASS (prov)->xa_funcs->xa_rollback)
PROV_CLASS (prov)->xa_funcs->xa_rollback (prov, cnc, &(xa_trans->priv->xid), NULL);
else
g_warning (_("Provider error: %s method not implemented for provider %s"),
"xa_rollback()", gda_server_provider_get_name (prov));
}
}
return FALSE;
}
/*
* COMMIT phase
*/
if (xa_trans->priv->non_xa_cnc &&
! gda_connection_commit_transaction (xa_trans->priv->non_xa_cnc, NULL, error)) {
/* something went wrong => rollback everything */
for (list = xa_trans->priv->cnc_list; list; list = list->next) {
GdaConnection *cnc = NULL;
GdaServerProvider *prov;
if (cnc == xa_trans->priv->non_xa_cnc)
gda_connection_rollback_transaction (cnc, NULL, NULL);
else {
const GdaBinary *branch;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
branch = g_hash_table_lookup (xa_trans->priv->cnc_hash, cnc);
memcpy (xa_trans->priv->xid.data + xa_trans->priv->xid.gtrid_length, /* Flawfinder: ignore */
branch->data, branch->binary_length);
if (PROV_CLASS (prov)->xa_funcs->xa_rollback)
PROV_CLASS (prov)->xa_funcs->xa_rollback (prov, cnc, &(xa_trans->priv->xid), NULL);
else
g_warning (_("Provider error: %s method not implemented for provider %s"),
"xa_rollback()", gda_server_provider_get_name (prov));
}
}
return FALSE;
}
for (list = xa_trans->priv->cnc_list; list; list = list->next) {
GdaConnection *cnc = NULL;
GdaServerProvider *prov;
const GdaBinary *branch;
if (cnc == xa_trans->priv->non_xa_cnc)
continue;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
branch = g_hash_table_lookup (xa_trans->priv->cnc_hash, cnc);
memcpy (xa_trans->priv->xid.data + xa_trans->priv->xid.gtrid_length, /* Flawfinder: ignore */
branch->data, branch->binary_length);
if (!PROV_CLASS (prov)->xa_funcs->xa_commit (prov, cnc, &(xa_trans->priv->xid), error) &&
cnc_to_recover)
*cnc_to_recover = g_slist_prepend (*cnc_to_recover, cnc);
}
return TRUE;
}
/**
* gda_xa_transaction_begin:
* @xa_trans: a #GdaXaTransaction object
* @error: (allow-none): a place to store errors, or %NULL
*
* Begins a distributed transaction (managed by @xa_trans). Please note that this phase may fail
* for some connections if a (normal) transaction is already started (this depends on the database
* provider being used), so it's better to avoid starting any (normal) transaction on any of the
* connections registered with @xa_trans.
*
* Returns: TRUE if no error occurred
*/
gboolean
gda_xa_transaction_begin (GdaXaTransaction *xa_trans, GError **error)
{
GList *list;
g_return_val_if_fail (GDA_IS_XA_TRANSACTION (xa_trans), FALSE);
for (list = xa_trans->priv->cnc_list; list; list = list->next) {
GdaConnection *cnc;
GdaServerProvider *prov;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
if (cnc != xa_trans->priv->non_xa_cnc) {
if (!PROV_CLASS (prov)->xa_funcs->xa_start) {
g_warning (_("Provider error: %s method not implemented for provider %s"),
"xa_start()", gda_server_provider_get_name (prov));
break;
}
else {
const GdaBinary *branch;
branch = g_hash_table_lookup (xa_trans->priv->cnc_hash, cnc);
memcpy (xa_trans->priv->xid.data + xa_trans->priv->xid.gtrid_length, /* Flawfinder: ignore */
branch->data, branch->binary_length);
if (!PROV_CLASS (prov)->xa_funcs->xa_start (prov, cnc, &(xa_trans->priv->xid), error))
break;
}
}
else {
/* do a simple BEGIN */
if (! gda_connection_begin_transaction (cnc, NULL, GDA_TRANSACTION_ISOLATION_UNKNOWN,
error))
break;
}
}
if (list) {
/* something went wrong */
for (; list; list = list->prev) {
GdaConnection *cnc;
GdaServerProvider *prov;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
if (cnc != xa_trans->priv->non_xa_cnc) {
if (!PROV_CLASS (prov)->xa_funcs->xa_rollback)
g_warning (_("Provider error: %s method not implemented for provider %s"),
"xa_rollback()", gda_server_provider_get_name (prov));
else {
const GdaBinary *branch;
branch = g_hash_table_lookup (xa_trans->priv->cnc_hash, cnc);
memcpy (xa_trans->priv->xid.data + xa_trans->priv->xid.gtrid_length, /* Flawfinder: ignore */
branch->data, branch->binary_length);
PROV_CLASS (prov)->xa_funcs->xa_rollback (prov, cnc, &(xa_trans->priv->xid), NULL);
}
}
else {
/* do a simple ROLLBACK */
gda_connection_rollback_transaction (cnc, NULL, NULL);
}
}
return FALSE;
}
return TRUE;
}
/**
* gda_xa_transaction_commit:
* @xa_trans: a #GdaXaTransaction object
* @cnc_to_recover: (nullable) (element-type Gda.Connection) (out callee-allocates): a place to store the list of connections for which the commit phase failed, or %NULL
* @error: a place to store errors, or %NULL
*
* Commits a distributed transaction (managed by @xa_trans). The commit is composed of two phases:
* <itemizedlist>
* <listitem><para>a PREPARE phase where all the connections are required to store their transaction data to a
* permanent place (to be able to complete the commit should a problem occur afterwards)</para></listitem>
* <listitem><para>a COMMIT phase where the transaction data is actually written to the database</para></listitem>
* </itemizedlist>
*
* If the PREPARE phase fails for any of the connection registered with @xa_trans, then the distributed commit
* fails and FALSE is returned. During the COMMIT phase, some commit may actually fail but the transaction can
* still be completed because the PREPARE phase succeeded (through the recover method).
*
* Returns: TRUE if no error occurred (there may be some connections to recover, though)
*/
gboolean
gda_xa_transaction_commit (GdaXaTransaction *xa_trans, GSList **cnc_to_recover, GError **error)
{
GList *list;
if (cnc_to_recover)
*cnc_to_recover = NULL;
g_return_val_if_fail (GDA_IS_XA_TRANSACTION (xa_trans), FALSE);
GdaXaTransactionPrivate *priv = gda_xa_transaction_get_instance_private (xa_trans);
/*
* PREPARE phase
*/
for (list = priv->cnc_list; list; list = list->next) {
GdaConnection *cnc = NULL;
GdaServerProvider *prov;
GdaBinary *branch;
if (cnc == priv->non_xa_cnc)
continue;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
branch = g_hash_table_lookup (priv->cnc_hash, cnc);
memcpy (priv->xid.data + priv->xid.gtrid_length, /* Flawfinder: ignore */
gda_binary_get_data (branch), gda_binary_get_size (branch));
if (!_gda_server_provider_xa_end (prov, cnc, &(priv->xid), error))
break;
if (!_gda_server_provider_xa_prepare (prov, cnc, &(priv->xid), error))
break;
}
if (list) {
/* something went wrong during the PREPARE phase => rollback everything */
for (; list; list = list->prev) {
GdaConnection *cnc = NULL;
GdaServerProvider *prov;
if (cnc == priv->non_xa_cnc)
gda_connection_rollback_transaction (cnc, NULL, NULL);
else {
GdaBinary *branch;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
branch = g_hash_table_lookup (priv->cnc_hash, cnc);
memcpy (priv->xid.data + priv->xid.gtrid_length, /* Flawfinder: ignore */
gda_binary_get_data (branch), gda_binary_get_size (branch));
_gda_server_provider_xa_rollback (prov, cnc, &(priv->xid), NULL);
}
}
return FALSE;
}
/*
* COMMIT phase
*/
if (priv->non_xa_cnc &&
! gda_connection_commit_transaction (priv->non_xa_cnc, NULL, error)) {
/* something went wrong => rollback everything */
for (list = priv->cnc_list; list; list = list->next) {
GdaConnection *cnc = NULL;
GdaServerProvider *prov;
if (cnc == priv->non_xa_cnc)
gda_connection_rollback_transaction (cnc, NULL, NULL);
else {
GdaBinary *branch;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
branch = g_hash_table_lookup (priv->cnc_hash, cnc);
memcpy (priv->xid.data + priv->xid.gtrid_length, /* Flawfinder: ignore */
gda_binary_get_data (branch), gda_binary_get_size (branch));
_gda_server_provider_xa_rollback (prov, cnc, &(priv->xid), NULL);
}
}
return FALSE;
}
for (list = priv->cnc_list; list; list = list->next) {
GdaConnection *cnc = NULL;
GdaServerProvider *prov;
GdaBinary *branch;
if (cnc == priv->non_xa_cnc)
continue;
cnc = GDA_CONNECTION (list->data);
prov = gda_connection_get_provider (cnc);
branch = g_hash_table_lookup (priv->cnc_hash, cnc);
memcpy (priv->xid.data + priv->xid.gtrid_length, /* Flawfinder: ignore */
gda_binary_get_data (branch), gda_binary_get_size (branch));
if (! _gda_server_provider_xa_commit (prov, cnc, &(priv->xid), error) &&
cnc_to_recover)
*cnc_to_recover = g_slist_prepend (*cnc_to_recover, cnc);
}
return TRUE;
}
GdaBlobOp *
_gda_sqlite_blob_op_new (GdaConnection *cnc,
const gchar *db_name, const gchar *table_name,
const gchar *column_name, sqlite3_int64 rowid)
{
GdaSqliteBlobOp *bop = NULL;
int rc;
sqlite3_blob *sblob;
gchar *db, *table;
gboolean free_strings = TRUE;
gboolean transaction_started = FALSE;
g_return_val_if_fail (GDA_IS_CONNECTION (cnc), NULL);
g_return_val_if_fail (table_name, NULL);
g_return_val_if_fail (column_name, NULL);
g_return_val_if_fail (GDA_IS_SQLITE_PROVIDER (gda_connection_get_provider (cnc)), NULL);
GdaSqliteBlobOpPrivate *priv = gda_sqlite_blob_op_get_instance_private (bop);
if (db_name) {
db = (gchar *) db_name;
table = (gchar *) table_name;
free_strings = FALSE;
}
else if (! _split_identifier_string (g_strdup (table_name), &db, &table))
return NULL;
SqliteConnectionData *cdata;
cdata = (SqliteConnectionData*) gda_connection_internal_get_provider_data_error (cnc, NULL);
if (!cdata ||
! _gda_sqlite_check_transaction_started (cnc, &transaction_started, NULL))
return NULL;
GdaSqliteProvider *prov = GDA_SQLITE_PROVIDER (gda_connection_get_provider (cnc));
rc = SQLITE3_CALL (prov, sqlite3_blob_open) (cdata->connection,
db ? db : "main",
table, column_name, rowid,
1, /* Read & Write */
&(sblob));
if (rc != SQLITE_OK) {
#ifdef GDA_DEBUG_NO
g_print ("ERROR: %s\n", SQLITE3_CALL (prov, sqlite3_errmsg) (cdata->connection));
#endif
if (transaction_started)
gda_connection_rollback_transaction (cnc, NULL, NULL);
goto out;
}
bop = g_object_new (GDA_TYPE_SQLITE_BLOB_OP, "connection", cnc, NULL);
priv->sblob = sblob;
g_weak_ref_set (&priv->provider, prov);
#ifdef GDA_DEBUG_NO
g_print ("OPENED blob %p\n", bop);
#endif
out:
if (free_strings) {
g_free (db);
g_free (table);
}
return (GdaBlobOp*) bop;
}
int
main (int argc, char *argv[])
{
gda_init ();
GdaConnection *cnc;
GError *error = NULL;
GdaStatement *stmt;
GdaDataModel *model;
gchar *str;
GValue *name;
/* open connection */
cnc = open_connection ();
/* begin transaction */
if (! gda_connection_begin_transaction (cnc, NULL, GDA_TRANSACTION_ISOLATION_UNKNOWN,
&error)) {
g_print ("Could not begin transaction: %s\n",
error && error->message ? error->message : "No detail");
exit (1);
}
/* execute SELECT */
stmt = gda_sql_parser_parse_string (parser, "SELECT id, name FROM customers ORDER BY id", NULL, NULL);
g_assert (stmt);
model = gda_connection_statement_execute_select (cnc, stmt, NULL, &error);
g_object_unref (stmt);
if (!model) {
g_print ("Could not execute SELECT statement: %s\n",
error && error->message ? error->message : "No detail");
exit (1);
}
g_print ("** Data model is:\n");
gda_data_model_dump (model, stdout);
/*
* make sure the mete data is up to date
*/
g_print ("Computing meta data, this may take a while; in real applications, this should be cached to avoid waiting\n");
if (! gda_connection_update_meta_store (cnc, NULL, &error)) {
g_print ("Could not fetch meta data: %s\n",
error && error->message ? error->message : "No detail");
exit (1);
}
/*
* Make the data model compute the modification statements which
* will actually be executed when the data model is modified
*/
if (! gda_data_select_compute_modification_statements (GDA_DATA_SELECT (model), &error)) {
g_print ("Could not compute modification statements: %s\n",
error && error->message ? error->message : "No detail");
exit (1);
}
g_object_get (G_OBJECT (model), "update-stmt", &stmt, NULL);
str = gda_statement_to_sql (stmt, NULL, NULL);
g_print ("Computed UPDATE: %s\n", str);
g_free (str);
g_object_unref (stmt);
g_object_get (G_OBJECT (model), "delete-stmt", &stmt, NULL);
str = gda_statement_to_sql (stmt, NULL, NULL);
g_print ("Computed DELETE: %s\n", str);
g_free (str);
g_object_unref (stmt);
g_object_get (G_OBJECT (model), "insert-stmt", &stmt, NULL);
str = gda_statement_to_sql (stmt, NULL, NULL);
g_print ("Computed INSERT: %s\n", str);
g_free (str);
g_object_unref (stmt);
/*
* remove row 0 (1st row)
*/
g_print ("\n\n** Removing row 0\n");
if (! gda_data_model_remove_row (model, 0, &error)) {
g_print ("Could not remove row 0: %s\n",
error && error->message ? error->message : "No detail");
exit (1);
}
g_print ("** Data model is now:\n");
gda_data_model_dump (model, stdout);
g_print ("** Table's contents is now:\n");
display_customers (cnc);
/*
* add a row: the row's values is a list of GValue pointers
* (or NULL pointers where the default value should be inserted
*/
GList *list;
g_print ("\n\n** Adding a row\n");
list = g_list_append (NULL, NULL);
g_value_set_string ((name = gda_value_new (G_TYPE_STRING)), "Hiro");
list = g_list_append (list, name);
if (gda_data_model_append_values (model, list, &error) == -1) {
g_print ("Could not add a row: %s\n",
error && error->message ? error->message : "No detail");
exit (1);
}
gda_value_free (name);
g_list_free (list);
g_print ("** Data model is now:\n");
gda_data_model_dump (model, stdout);
g_print ("** Table's contents is now:\n");
display_customers (cnc);
/*
* alter row 2
*/
g_print ("\n\n** Modifying row 2\n");
g_value_set_string ((name = gda_value_new (G_TYPE_STRING)), "Tom");
if (! gda_data_model_set_value_at (model, 1, 2, name, &error)) {
g_print ("Could not modify row 2: %s\n",
error && error->message ? error->message : "No detail");
exit (1);
}
gda_value_free (name);
g_print ("** Data model is now:\n");
gda_data_model_dump (model, stdout);
g_print ("** Table's contents is now:\n");
display_customers (cnc);
/* rollback transaction */
gda_connection_rollback_transaction (cnc, NULL, NULL);
gda_connection_close (cnc);
return 0;
}
/*
* Load data from file @file into table @table
*/
gboolean
test_cnc_load_data_from_file (GdaConnection *cnc, const gchar *table, const gchar *full_file, GError **error)
{
GdaStatement *stmt = NULL;
GdaSet *params = NULL;
GdaDataModel *import;
gint nrows, ncols, i;
GdaMetaStruct *mstruct = NULL;
GSList *list;
gboolean retval = TRUE;
/* loading XML file */
import = gda_data_model_import_new_file (full_file, TRUE, NULL);
if (gda_data_model_import_get_errors (GDA_DATA_MODEL_IMPORT (import))) {
g_set_error (error, TEST_ERROR, TEST_ERROR_GENERIC, "Error loading '%s' file", full_file);
return FALSE;
}
/* retrieving meta data info */
GdaMetaDbObject *table_dbo;
GValue *name_value;
g_value_set_string ((name_value = gda_value_new (G_TYPE_STRING)), table);
mstruct = gda_meta_struct_new (gda_connection_get_meta_store (cnc), GDA_META_STRUCT_FEATURE_NONE);
table_dbo = gda_meta_struct_complement (mstruct, GDA_META_DB_TABLE,
NULL, NULL, name_value, error);
gda_value_free (name_value);
if (! table_dbo) {
retval = FALSE;
goto out;
}
/* creating INSERT statement */
GdaSqlStatement *st;
GdaSqlStatementInsert *ist;
GSList *insert_values_list = NULL;
ist = g_new0 (GdaSqlStatementInsert, 1);
GDA_SQL_ANY_PART (ist)->type = GDA_SQL_ANY_STMT_INSERT;
ist->table = gda_sql_table_new (GDA_SQL_ANY_PART (ist));
ist->table->table_name = g_strdup (table);
GdaMetaTable *mtable = GDA_META_TABLE (table_dbo);
for (list = mtable->columns; list; list = list->next) {
GdaMetaTableColumn *tcol = GDA_META_TABLE_COLUMN (list->data);
GdaSqlField *field;
/* field */
field = gda_sql_field_new (GDA_SQL_ANY_PART (ist));
field->field_name = g_strdup (tcol->column_name);
ist->fields_list = g_slist_append (ist->fields_list, field);
/* value */
GdaSqlParamSpec *pspec = g_new0 (GdaSqlParamSpec, 1);
GdaSqlExpr *expr;
pspec->name = g_strdup (tcol->column_name);
pspec->g_type = tcol->gtype;
pspec->nullok = tcol->nullok;
expr = gda_sql_expr_new (GDA_SQL_ANY_PART (ist));
expr->param_spec = pspec;
insert_values_list = g_slist_append (insert_values_list, expr);
}
ist->values_list = g_slist_append (NULL, insert_values_list);
st = gda_sql_statement_new (GDA_SQL_STATEMENT_INSERT);
st->contents = ist;
stmt = g_object_new (GDA_TYPE_STATEMENT, "structure", st, NULL);
gda_sql_statement_free (st);
g_object_unref (mstruct);
if (! gda_statement_get_parameters (stmt, ¶ms, error)) {
retval = FALSE;
goto out;
}
/* executing inserts */
nrows = gda_data_model_get_n_rows (import);
ncols = gda_data_model_get_n_columns (import);
if (!gda_connection_begin_transaction (cnc, NULL, GDA_TRANSACTION_ISOLATION_UNKNOWN, error)) {
retval = FALSE;
goto out;
}
for (i = 0; i < nrows; i++) {
gint j;
GSList *list;
for (list = params->holders, j = 0; list && (j < ncols); list = list->next, j++) {
const GValue *cvalue = gda_data_model_get_value_at (import, j, i, error);
if (!cvalue) {
gda_connection_rollback_transaction (cnc, NULL, NULL);
retval = FALSE;
goto out;
}
if (! gda_holder_set_value (GDA_HOLDER (list->data), cvalue, error)) {
gda_connection_rollback_transaction (cnc, NULL, NULL);
retval = FALSE;
goto out;
}
}
if (list || (j < ncols)) {
g_set_error (error, TEST_ERROR, TEST_ERROR_GENERIC, "%s",
"Incoherent number of columns in table and imported data");
gda_connection_rollback_transaction (cnc, NULL, NULL);
retval = FALSE;
goto out;
}
if (gda_connection_statement_execute_non_select (cnc, stmt, params, NULL, error) == -1) {
gda_connection_rollback_transaction (cnc, NULL, NULL);
retval = FALSE;
goto out;
}
}
if (! gda_connection_commit_transaction (cnc, NULL, error))
retval = FALSE;
out:
if (import)
g_object_unref (import);
if (stmt)
g_object_unref (stmt);
if (params)
g_object_unref (params);
return retval;
}
