@Override
public void filteredExceptionOccured(
Spy spy, String methodCall, Exception e, String sql, long execTime) {
String classType = spy.getClassType();
Integer spyNo = spy.getConnectionNumber();
String header = spyNo + ". " + classType + "." + methodCall;
if (sql == null) {
jdbcLogger.error(header, e);
sqlOnlyLogger.error(header, e);
sqlTimingLogger.error(header, e);
} else {
sql = processSql(sql);
jdbcLogger.error(header + " " + sql, e);
// if at debug level, display debug info to error log
if (sqlOnlyLogger.isDebugEnabled()) {
sqlOnlyLogger.error(getDebugInfo() + nl + spyNo + ". " + sql, e);
} else {
sqlOnlyLogger.error(header + " " + sql, e);
}
// if at debug level, display debug info to error log
if (sqlTimingLogger.isDebugEnabled()) {
sqlTimingLogger.error(
getDebugInfo() + nl + spyNo + ". " + sql + " {FAILED after " + execTime + " msec}", e);
} else {
sqlTimingLogger.error(
header + " FAILED! " + sql + " {FAILED after " + execTime + " msec}", e);
}
}
}
/**
* Called whenever a connection spy is aborted.
*
* @param spy ConnectionSpy that was aborted.
*/
private void connectionAborted(Spy spy) {
if (connectionLogger.isDebugEnabled()) {
connectionLogger.info(spy.getConnectionNumber() + ". Connection aborted " + getDebugInfo());
connectionLogger.debug(ConnectionSpy.getOpenConnectionsDump());
} else {
connectionLogger.info(spy.getConnectionNumber() + ". Connection aborted");
}
}
/**
* Helper method to quickly build a SQL timing dump output String for logging.
*
* @param spy the Spy wrapping the class where the SQL occurred.
* @param execTime how long it took the SQL to run, in milliseconds.
* @param methodCall a description of the name and call parameters of the method that generated
* the SQL.
* @param sql SQL that occurred.
* @param debugInfo if true, include debug info at the front of the output.
* @return a SQL timing dump String for logging.
*/
private String buildSqlTimingDump(
Spy spy, long execTime, String methodCall, String sql, boolean debugInfo) {
StringBuffer out = new StringBuffer();
if (debugInfo) {
out.append(getDebugInfo());
out.append(nl);
out.append(spy.getConnectionNumber());
out.append(". ");
}
// NOTE: if both sql dump and sql timing dump are on, the processSql
// algorithm will run TWICE once at the beginning and once at the end
// this is not very efficient but usually
// only one or the other dump should be on and not both.
sql = processSql(sql);
out.append(sql);
out.append(" {executed in ");
out.append(execTime);
out.append(" msec}");
return out.toString();
}
public void sqlOccurred(Spy spy, String methodCall, String sql) {
if (!Properties.isDumpSqlFilteringOn() || shouldSqlBeLogged(sql)) {
if (sqlOnlyLogger.isDebugEnabled()) {
sqlOnlyLogger.debug(
getDebugInfo() + nl + spy.getConnectionNumber() + ". " + processSql(sql));
} else if (sqlOnlyLogger.isInfoEnabled()) {
sqlOnlyLogger.info(processSql(sql));
}
}
}
public void methodReturned(Spy spy, String methodCall, String returnMsg) {
String classType = spy.getClassType();
Logger logger =
ResultSetSpy.classTypeDescription.equals(classType) ? resultSetLogger : jdbcLogger;
if (logger.isInfoEnabled()) {
String header =
spy.getConnectionNumber()
+ ". "
+ classType
+ "."
+ methodCall
+ " returned "
+ returnMsg;
if (logger.isDebugEnabled()) {
logger.debug(header + " " + getDebugInfo());
} else {
logger.info(header);
}
}
}
