SQL Injection is one of the most dangerous web vulnerabilities. So much so that it was the #1 item in both the OWASP Top 10 2013 version, and 2017 version. As of 2021, it sits at #3 on the OWASP Top 10.
It represents a serious threat because SQL Injection allows evil attacker code to change the structure of a web application's SQL statement in a way that can steal data, modify data, or potentially facilitate command injection to the underlying OS.
This cheat sheet is a derivative work of the SQL Injection Prevention Cheat Sheet.
SQL Injection is best prevented through the use of parameterized queries. The following chart demonstrates, with real-world code samples, how to build parameterized queries in most of the common web languages. The purpose of these code samples is to demonstrate to the web developer how to avoid SQL Injection when building database queries within a web application.
Please note, many client side frameworks and libraries offer client side query parameterization. These libraries often just build queries with string concatenation before sending raw queries to a server. Please ensure that query parameterization is done server-side!
String custname = request.getParameter("customerName");
String query = "SELECT account_balance FROM user_data WHERE user_name = ? ";
PreparedStatement pstmt = connection.prepareStatement( query );
pstmt.setString( 1, custname);
ResultSet results = pstmt.executeQuery( );
// HQL
@Entity // declare as entity;
@NamedQuery(
name="findByDescription",
query="FROM Inventory i WHERE i.productDescription = :productDescription"
)
public class Inventory implements Serializable {
@Id
private long id;
private String productDescription;
}
// Use case
// This should REALLY be validated too
String userSuppliedParameter = request.getParameter("Product-Description");
// Perform input validation to detect attacks
List<Inventory> list =
session.getNamedQuery("findByDescription")
.setParameter("productDescription", userSuppliedParameter).list();
// Criteria API
// This should REALLY be validated too
String userSuppliedParameter = request.getParameter("Product-Description");
// Perform input validation to detect attacks
Inventory inv = (Inventory) session.createCriteria(Inventory.class).add
(Restrictions.eq("productDescription", userSuppliedParameter)).uniqueResult();
String query = "SELECT account_balance FROM user_data WHERE user_name = ?";
try {
OleDbCommand command = new OleDbCommand(query, connection);
command.Parameters.Add(new OleDbParameter("customerName", CustomerName Name.Text));
OleDbDataReader reader = command.ExecuteReader();
// …
} catch (OleDbException se) {
// error handling
}
string sql = "SELECT * FROM Customers WHERE CustomerId = @CustomerId";
SqlCommand command = new SqlCommand(sql);
command.Parameters.Add(new SqlParameter("@CustomerId", System.Data.SqlDbType.Int));
command.Parameters["@CustomerId"].Value = 1;
## Create
Project.create!(:name => 'owasp')
## Read
Project.all(:conditions => "name = ?", name)
Project.all(:conditions => { :name => name })
Project.where("name = :name", :name => name)
## Update
project.update_attributes(:name => 'owasp')
## Delete
Project.delete(:name => 'name')
insert_new_user = db.prepare "INSERT INTO users (name, age, gender) VALUES (?, ? ,?)"
insert_new_user.execute 'aizatto', '20', 'male'
$stmt = $dbh->prepare("INSERT INTO REGISTRY (name, value) VALUES (:name, :value)");
$stmt->bindParam(':name', $name);
$stmt->bindParam(':value', $value);
<cfquery name = "getFirst" dataSource = "cfsnippets">
SELECT * FROM #strDatabasePrefix#_courses WHERE intCourseID =
<cfqueryparam value = #intCourseID# CFSQLType = "CF_SQL_INTEGER">
</cfquery>
my $sql = "INSERT INTO foo (bar, baz) VALUES ( ?, ? )";
my $sth = $dbh->prepare( $sql );
$sth->execute( $bar, $baz );
The SQL you write in your web application isn't the only place that SQL injection vulnerabilities can be introduced. If you are using Stored Procedures, and you are dynamically constructing SQL inside them, you can also introduce SQL injection vulnerabilities.
Dynamic SQL can be parameterized using bind variables, to ensure the dynamically constructed SQL is secure.
Here are some examples of using bind variables in stored procedures in different databases.
No dynamic SQL being created. Parameters passed in to stored procedures are naturally bound to their location within the query without anything special being required:
PROCEDURE SafeGetBalanceQuery(UserID varchar, Dept varchar) AS BEGIN
SELECT balance FROM accounts_table WHERE user_ID = UserID AND department = Dept;
END;
Bind variables are used to tell the database that the inputs to this dynamic SQL are 'data' and not possibly code:
PROCEDURE AnotherSafeGetBalanceQuery(UserID varchar, Dept varchar)
AS stmt VARCHAR(400); result NUMBER;
BEGIN
stmt := 'SELECT balance FROM accounts_table WHERE user_ID = :1
AND department = :2';
EXECUTE IMMEDIATE stmt INTO result USING UserID, Dept;
RETURN result;
END;
No dynamic SQL being created. Parameters passed in to stored procedures are naturally bound to their location within the query without anything special being required:
PROCEDURE SafeGetBalanceQuery(@UserID varchar(20), @Dept varchar(10)) AS BEGIN
SELECT balance FROM accounts_table WHERE user_ID = @UserID AND department = @Dept
END
Bind variables are used to tell the database that the inputs to this dynamic SQL are 'data' and not possibly code:
PROCEDURE SafeGetBalanceQuery(@UserID varchar(20), @Dept varchar(10)) AS BEGIN
DECLARE @sql VARCHAR(200)
SELECT @sql = 'SELECT balance FROM accounts_table WHERE '
+ 'user_ID = @UID AND department = @DPT'
EXEC sp_executesql @sql,
'@UID VARCHAR(20), @DPT VARCHAR(10)',
@UID=@UserID, @DPT=@Dept
END