CA2100: Review SQL queries for security vulnerabilities
| Property | Value |
|---|---|
| Rule ID | CA2100 |
| Title | Review SQL queries for security vulnerabilities |
| Category | Security |
| Fix is breaking or non-breaking | Non-breaking |
| Enabled by default in .NET 8 | No |
Cause
A method sets the System.Data.IDbCommand.CommandText property by using a string that's built from a string argument to the method.
By default, this rule analyzes the entire codebase, but this is configurable.
Rule description
This rule assumes that any string whose value can't be determined at compile time might contain user input. A SQL command string that's built from user input is vulnerable to SQL injection attacks. In a SQL injection attack, a malicious user supplies input that alters the design of a query in an attempt to damage or gain unauthorized access to the underlying database. Typical techniques include injection of a single quotation mark or apostrophe, which is the SQL literal string delimiter; two dashes, which signifies a SQL comment; and a semicolon, which indicates that a new command follows. If user input must be part of the query, use one of the following, listed in order of effectiveness, to reduce the risk of attack.
- Use a stored procedure.
- Use a parameterized command string.
- Validate the user input for both type and content before you build the command string.
The following .NET types implement the CommandText property or provide constructors that set the property by using a string argument.
- System.Data.Odbc.OdbcCommand and System.Data.Odbc.OdbcDataAdapter
- System.Data.OleDb.OleDbCommand and System.Data.OleDb.OleDbDataAdapter
- System.Data.OracleClient.OracleCommand and System.Data.OracleClient.OracleDataAdapter
- System.Data.SqlClient.SqlCommand and System.Data.SqlClient.SqlDataAdapter
In some cases, this rule might not determine a string's value at compile time, even though you can. In those cases, this rule produces false positives when using those strings as SQL commands. The following is an example of such a string.
int x = 10;
string query = "SELECT TOP " + x.ToString() + " FROM Table";
The same applies when using ToString() implicitly.
int x = 10;
string query = String.Format("SELECT TOP {0} FROM Table", x);
How to fix violations
To fix a violation of this rule, use a parameterized query.
When to suppress warnings
It is safe to suppress a warning from this rule if the command text does not contain any user input.
Suppress a warning
If you just want to suppress a single violation, add preprocessor directives to your source file to disable and then re-enable the rule.
#pragma warning disable CA2100
// The code that's violating the rule is on this line.
#pragma warning restore CA2100
To disable the rule for a file, folder, or project, set its severity to none in the configuration file.
[*.{cs,vb}]
dotnet_diagnostic.CA2100.severity = none
For more information, see How to suppress code analysis warnings.
Configure code to analyze
Use the following options to configure which parts of your codebase to run this rule on.
You can configure these options for just this rule, for all rules it applies to, or for all rules in this category (Security) that it applies to. For more information, see Code quality rule configuration options.
Exclude specific symbols
You can exclude specific symbols, such as types and methods, from analysis. For example, to specify that the rule should not run on any code within types named MyType, add the following key-value pair to an .editorconfig file in your project:
dotnet_code_quality.CAXXXX.excluded_symbol_names = MyType
Allowed symbol name formats in the option value (separated by |):
- Symbol name only (includes all symbols with the name, regardless of the containing type or namespace).
- Fully qualified names in the symbol's documentation ID format. Each symbol name requires a symbol-kind prefix, such as
M:for methods,T:for types, andN:for namespaces. .ctorfor constructors and.cctorfor static constructors.
Examples:
| Option Value | Summary |
|---|---|
dotnet_code_quality.CAXXXX.excluded_symbol_names = MyType |
Matches all symbols named MyType. |
dotnet_code_quality.CAXXXX.excluded_symbol_names = MyType1|MyType2 |
Matches all symbols named either MyType1 or MyType2. |
dotnet_code_quality.CAXXXX.excluded_symbol_names = M:NS.MyType.MyMethod(ParamType) |
Matches specific method MyMethod with the specified fully qualified signature. |
dotnet_code_quality.CAXXXX.excluded_symbol_names = M:NS1.MyType1.MyMethod1(ParamType)|M:NS2.MyType2.MyMethod2(ParamType) |
Matches specific methods MyMethod1 and MyMethod2 with the respective fully qualified signatures. |
Exclude specific types and their derived types
You can exclude specific types and their derived types from analysis. For example, to specify that the rule should not run on any methods within types named MyType and their derived types, add the following key-value pair to an .editorconfig file in your project:
dotnet_code_quality.CAXXXX.excluded_type_names_with_derived_types = MyType
Allowed symbol name formats in the option value (separated by |):
- Type name only (includes all types with the name, regardless of the containing type or namespace).
- Fully qualified names in the symbol's documentation ID format, with an optional
T:prefix.
Examples:
| Option Value | Summary |
|---|---|
dotnet_code_quality.CAXXXX.excluded_type_names_with_derived_types = MyType |
Matches all types named MyType and all of their derived types. |
dotnet_code_quality.CAXXXX.excluded_type_names_with_derived_types = MyType1|MyType2 |
Matches all types named either MyType1 or MyType2 and all of their derived types. |
dotnet_code_quality.CAXXXX.excluded_type_names_with_derived_types = M:NS.MyType |
Matches specific type MyType with given fully qualified name and all of its derived types. |
dotnet_code_quality.CAXXXX.excluded_type_names_with_derived_types = M:NS1.MyType1|M:NS2.MyType2 |
Matches specific types MyType1 and MyType2 with the respective fully qualified names, and all of their derived types. |
Example
The following example shows a method, UnsafeQuery, that violates the rule. It also shows a method, SaferQuery, that satisfies the rule by using a parameterized command string.
Imports System
Imports System.Data
Imports System.Data.SqlClient
Namespace ca2100
Public Class SqlQueries
Function UnsafeQuery(connection As String,
name As String, password As String) As Object
Dim someConnection As New SqlConnection(connection)
Dim someCommand As New SqlCommand()
someCommand.Connection = someConnection
someCommand.CommandText = "SELECT AccountNumber FROM Users " &
"WHERE Username='" & name & "' AND Password='" & password & "'"
someConnection.Open()
Dim accountNumber As Object = someCommand.ExecuteScalar()
someConnection.Close()
Return accountNumber
End Function
Function SaferQuery(connection As String,
name As String, password As String) As Object
Dim someConnection As New SqlConnection(connection)
Dim someCommand As New SqlCommand()
someCommand.Connection = someConnection
someCommand.Parameters.Add(
"@username", SqlDbType.NChar).Value = name
someCommand.Parameters.Add(
"@password", SqlDbType.NChar).Value = password
someCommand.CommandText = "SELECT AccountNumber FROM Users " &
"WHERE Username=@username AND Password=@password"
someConnection.Open()
Dim accountNumber As Object = someCommand.ExecuteScalar()
someConnection.Close()
Return accountNumber
End Function
End Class
Class MaliciousCode
Shared Sub Main2100(args As String())
Dim queries As New SqlQueries()
queries.UnsafeQuery(args(0), "' OR 1=1 --", "[PLACEHOLDER]")
' Resultant query (which is always true):
' SELECT AccountNumber FROM Users WHERE Username='' OR 1=1
queries.SaferQuery(args(0), "' OR 1=1 --", "[PLACEHOLDER]")
' Resultant query (notice the additional single quote character):
' SELECT AccountNumber FROM Users WHERE Username=''' OR 1=1 --'
' AND Password='[PLACEHOLDER]'
End Sub
End Class
End Namespace
public class SqlQueries
{
public object UnsafeQuery(
string connection, string name, string password)
{
SqlConnection someConnection = new SqlConnection(connection);
SqlCommand someCommand = new SqlCommand();
someCommand.Connection = someConnection;
someCommand.CommandText = "SELECT AccountNumber FROM Users " +
"WHERE Username='" + name +
"' AND Password='" + password + "'";
someConnection.Open();
object accountNumber = someCommand.ExecuteScalar();
someConnection.Close();
return accountNumber;
}
public object SaferQuery(
string connection, string name, string password)
{
SqlConnection someConnection = new SqlConnection(connection);
SqlCommand someCommand = new SqlCommand();
someCommand.Connection = someConnection;
someCommand.Parameters.Add(
"@username", SqlDbType.NChar).Value = name;
someCommand.Parameters.Add(
"@password", SqlDbType.NChar).Value = password;
someCommand.CommandText = "SELECT AccountNumber FROM Users " +
"WHERE Username=@username AND Password=@password";
someConnection.Open();
object accountNumber = someCommand.ExecuteScalar();
someConnection.Close();
return accountNumber;
}
}
class MaliciousCode
{
static void Main2100(string[] args)
{
SqlQueries queries = new SqlQueries();
queries.UnsafeQuery(args[0], "' OR 1=1 --", "[PLACEHOLDER]");
// Resultant query (which is always true):
// SELECT AccountNumber FROM Users WHERE Username='' OR 1=1
queries.SaferQuery(args[0], "' OR 1=1 --", "[PLACEHOLDER]");
// Resultant query (notice the additional single quote character):
// SELECT AccountNumber FROM Users WHERE Username=''' OR 1=1 --'
// AND Password='[PLACEHOLDER]'
}
}
Important
Microsoft recommends that you use the most secure authentication flow available. If you're connecting to Azure SQL, Managed Identities for Azure resources is the recommended authentication method.
