本文整理汇总了C++中WT_SESSION::prepare_transaction方法的典型用法代码示例。如果您正苦于以下问题:C++ WT_SESSION::prepare_transaction方法的具体用法?C++ WT_SESSION::prepare_transaction怎么用?C++ WT_SESSION::prepare_transaction使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类WT_SESSION
的用法示例。
在下文中一共展示了WT_SESSION::prepare_transaction方法的2个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。
示例1: prepareUnitOfWork
void WiredTigerRecoveryUnit::prepareUnitOfWork() {
invariant(_inUnitOfWork(), toString(_state));
invariant(!_prepareTimestamp.isNull());
auto session = getSession();
WT_SESSION* s = session->getSession();
LOG(1) << "preparing transaction at time: " << _prepareTimestamp;
const std::string conf = "prepare_timestamp=" + integerToHex(_prepareTimestamp.asULL());
// Prepare the transaction.
invariantWTOK(s->prepare_transaction(s, conf.c_str()));
}
示例2: sizeof
static void
transaction_ops(WT_SESSION *session_arg)
{
WT_CONNECTION *conn;
WT_CURSOR *cursor;
WT_SESSION *session;
session = session_arg;
conn = session->connection;
/*! [transaction commit/rollback] */
/*
* Cursors may be opened before or after the transaction begins, and in
* either case, subsequent operations are included in the transaction.
* Opening cursors before the transaction begins allows applications to
* cache cursors and use them for multiple operations.
*/
error_check(session->open_cursor(
session, "table:mytable", NULL, NULL, &cursor));
error_check(session->begin_transaction(session, NULL));
cursor->set_key(cursor, "key");
cursor->set_value(cursor, "value");
switch (cursor->update(cursor)) {
case 0: /* Update success */
error_check(session->commit_transaction(session, NULL));
/*
* If commit_transaction succeeds, cursors remain positioned; if
* commit_transaction fails, the transaction was rolled-back and
* and all cursors are reset.
*/
break;
case WT_ROLLBACK: /* Update conflict */
default: /* Other error */
error_check(session->rollback_transaction(session, NULL));
/* The rollback_transaction call resets all cursors. */
break;
}
/*
* Cursors remain open and may be used for multiple transactions.
*/
/*! [transaction commit/rollback] */
error_check(cursor->close(cursor));
/*! [transaction isolation] */
/* A single transaction configured for snapshot isolation. */
error_check(session->open_cursor(
session, "table:mytable", NULL, NULL, &cursor));
error_check(session->begin_transaction(session, "isolation=snapshot"));
cursor->set_key(cursor, "some-key");
cursor->set_value(cursor, "some-value");
error_check(cursor->update(cursor));
error_check(session->commit_transaction(session, NULL));
/*! [transaction isolation] */
{
/*! [transaction prepare] */
/*
* Prepare a transaction which guarantees a subsequent commit will
* succeed. Only commit and rollback are allowed on a transaction after
* it has been prepared.
*/
error_check(session->open_cursor(
session, "table:mytable", NULL, NULL, &cursor));
error_check(session->begin_transaction(session, NULL));
cursor->set_key(cursor, "key");
cursor->set_value(cursor, "value");
error_check(session->prepare_transaction(
session, "prepare_timestamp=2a"));
error_check(session->commit_transaction(
session, "commit_timestamp=2b"));
/*! [transaction prepare] */
}
/*! [session isolation configuration] */
/* Open a session configured for read-uncommitted isolation. */
error_check(conn->open_session(
conn, NULL, "isolation=read-uncommitted", &session));
/*! [session isolation configuration] */
/*! [session isolation re-configuration] */
/* Re-configure a session for snapshot isolation. */
error_check(session->reconfigure(session, "isolation=snapshot"));
/*! [session isolation re-configuration] */
error_check(session->close(session, NULL));
session = session_arg;
{
/*! [transaction pinned range] */
/* Check the transaction ID range pinned by the session handle. */
uint64_t range;
error_check(session->transaction_pinned_range(session, &range));
/*! [transaction pinned range] */
}
error_check(session->begin_transaction(session, NULL));
//.........这里部分代码省略.........