Ingres 11.0 | Example: Using Two-Phase Commit

SQL Reference Guide > SQL Reference Guide > Working with Transactions and Handling Errors > Two Phase Commit > Example: Using Two-Phase Commit

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Example: Using Two-Phase Commit

The following is an example of a two-phase commit used in a banking application. It illustrates the use of the PREPARE TO COMMIT and CONNECT statements.

exec sql begin declare section;

from_account integer;

to_account integer;

amount integer;

high integer;

low integer;

acc_number integer;

balance integer;

exec sql end declare section;

define SF_BRANCH 1

define BK_BRANCH 2

define BEFORE_WILLING_COMMIT 1

define WILLING_COMMIT 2

exec sql whenever sqlerror stop;

/* Connect to the branch database in S.F */

exec sql connect annie session :SF_BRANCH;

Program assigns value to from_account, to_account, and amount

/* Begin a local transaction on S.F branch to

** update the balance in the from_account. */

exec sql update account

set balance = balance - :amount

where acc_number = :from_account;

/* Connect to the branch database in Berkeley. */

exec sql connect aaa session :BK_BRANCH;

/* Begin a local transaction on Berkeley branch

** to update the balance in the to_account. */

exec sql update account

set balance = balance + :amount

where acc_number = :to_account;

/* Ready to commit the fund transfer transaction. */

/* Switch to S.F branch to issue the prepare to

** commit statement. */

exec sql set_sql (session = :SF_BRANCH);

/* Store the transaction’s state information in a

** file */

store_state_of_xact(SF_BRANCH,

BEFORE_WILLING_COMMIT, high, low, "annie");

exec sql prepare to commit with highdxid = :high,

lowdxid = :low;

/* Store the transaction’s state information in a

** file */

store_state_of_xact(SF_BRANCH, WILLING_COMMIT,

high, low, "annie");

/* Switch to Berkeley branch to issue the prepare

** to commit statement. */

exec sql set_sql (session = :BK_BRANCH);

/* Store the transaction’s state information in a

** file */

store_state_of_xact(BK_BRANCH,

BEFORE_WILLING_COMMIT, high, low, "annie");

exec sql prepare to commit with highdxid = :high,

lowdxid = :low;

/* Store the transaction’s state information in a

** file */

store_state_of_xact(BK_BRANCH, WILLING_COMMIT,

high, low, "annie");

/* Both branches are ready to COMMIT; COMMIT the

** fund transfer transaction. */

/* Switch to S.F branch to commit the local

** transaction. */

exec sql set_sql (session = :SF_BRANCH);

exec sql commit;

/* Switch to Berkeley branch to commit the local
** transaction. */

exec sql set_sql (session = :BK_BRANCH);

exec sql commit;

/* Distributed transaction complete */

/* Switch to S.F branch to verify the data. */

exec sql set_sql (session = :SF_BRANCH);

exec sql select acc_number, balance
     into :acc_number, :balance
     from account;
exec sql begin;

     print (acc_number, balance);

exec sql end;

/* Switch to Berkeley branch to verify the data. */

exec sql set_sql (session = :BK_BRANCH);

exec sql select acc_number, balance
     into :acc_number, :balance
     from account;
exec sql begin;

     print (acc_number, balance);

exec sql end;

/* Exit the S.F database. */

exec sql set_sql (session = :SF_BRANCH);
exec sql disconnect;

/* Exit the Berkeley database. */

exec sql set_sql (session = :BK_BRANCH);
exec sql disconnect;

This portion of the example shows how the information logged in the procedure store_state_of_xact is used for recovery after a system failure at either branch.

The first part of the recovery process is to read the state of each transaction from information logged by store_state_of_xact. If either state is in BEFORE_WILLING_COMMIT, the program connects to the specific transaction in both databases and executes a rollback. Although the local DBMS can roll back the transaction, the recovery process reconnects to the specific transaction. This occurs because a PREPARE TO COMMIT has been sent, received, and acted upon, but a crash occurred before the acknowledgment was received by the coordinator application.

If both states are in WILLING_COMMIT, the program connects to the specific transactions and commits them:

exec sql begin declare section;

high integer;

low integer;

session1 integer;

session2 integer;

dbname1 character_string(25);

dbname2 character_string(25);

exec sql end declare section;

/* Read information saved by store_state_of_xact */

read_from_file(address(session1),

address(session2),

address(dbname1), address(dbname2),

address(high), address(low));

/* Assume that a global flag has been set to

** commit or rollback based on the information

** in the file */

if (flag = 'COMMIT') then

exec sql connect :dbname1 session :session1

with highdxid = :high, lowdxid = :low;

exec sql commit;

exec sql disconnect;

exec sql connect :dbname2 session :session2

with highdxid = :high, lowdxid = :low;

exec sql commit;

exec sql disconnect;

else

exec sql connect :dbname1 session :session1

with highdxid = :high, lowdxid = :low;

exec sql rollback;

exec sql disconnect;

exec sql connect :dbname2 session :session2

with highdxid = :high, lowdxid = :low;

exec sql rollback;

exec sql disconnect;

endif;

Last modified date: 01/30/2023