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ALTER ASSEMBLY (Transact-SQL)

Applies to: SQL Server Azure SQL Managed Instance

Alters an assembly by modifying the SQL Server catalog properties of an assembly. ALTER ASSEMBLY refreshes it to the latest copy of the .NET Framework modules that hold its implementation and adds or removes files associated with it. Assemblies are created by using CREATE ASSEMBLY.

Transact-SQL syntax conventions

Syntax

ALTER ASSEMBLY assembly_name
    [ FROM <client_assembly_specifier> | <assembly_bits> ]
    [ WITH <assembly_option> [ , ...n ] ]
    [ DROP FILE { file_name [ , ...n ] | ALL } ]
    [ ADD FILE FROM
    {
        client_file_specifier [ AS file_name ]
      | file_bits AS file_name
    } [ , ...n ]
    ] [ ; ]
<client_assembly_specifier> ::=
    '\\computer_name\share-name\ [ path\ ] manifest_file_name '
  | '[ local_path\ ] manifest_file_name'

<assembly_bits> ::=
    { varbinary_literal | varbinary_expression }

<assembly_option> ::=
    PERMISSION_SET = { SAFE | EXTERNAL_ACCESS | UNSAFE }
  | VISIBILITY = { ON | OFF }
  | UNCHECKED DATA

Arguments

assembly_name

The name of the assembly you want to modify. assembly_name must already exist in the database.

FROM <client_assembly_specifier> | <assembly_bits>

Updates an assembly to the latest copy of the .NET Framework modules that hold its implementation. This option can only be used if there are no associated files with the specified assembly.

<client_assembly_specifier> specifies the network or local location where the assembly being refreshed is located. The network location includes the computer name, the share name, and a path within that share. manifest_file_name specifies the name of the file that contains the manifest of the assembly.

Important

Azure SQL Database doesn't support referencing a file.

<assembly_bits> is the binary value for the assembly.

Separate ALTER ASSEMBLY statements must be issued for any dependent assemblies that also require updating.

PERMISSION_SET = { SAFE | EXTERNAL_ACCESS | UNSAFE }

Specifies the .NET Framework code access permission set property of the assembly. For more information about this property, see CREATE ASSEMBLY.

The PERMISSION_SET option is affected by the clr strict security option. When clr strict security is enabled, all assemblies are treated as UNSAFE.

The EXTERNAL_ACCESS and UNSAFE options aren't available in a contained database.

VISIBILITY = { ON | OFF }

Indicates whether the assembly is visible for creating common language runtime (CLR) functions, stored procedures, triggers, user-defined types, and user-defined aggregate functions against it. If set to OFF, the assembly is intended to be called only by other assemblies. If there are existing CLR database objects already created against the assembly, the visibility of the assembly can't be changed. Any assemblies referenced by assembly_name are uploaded as not visible by default.

UNCHECKED DATA

By default, ALTER ASSEMBLY fails if it must verify the consistency of individual table rows. This option allows postponing the checks until a later time by using DBCC CHECKTABLE. If specified, SQL Server executes the ALTER ASSEMBLY statement even if there are tables in the database that contain the following conditions:

  • Persisted computed columns that either directly or indirectly reference methods in the assembly, through Transact-SQL functions or methods.

  • CHECK constraints that directly or indirectly reference methods in the assembly.

  • Columns of a CLR user-defined type that depend on the assembly, and the type implements a UserDefined (non-Native) serialization format.

  • Columns of a CLR user-defined type that reference views created by using WITH SCHEMABINDING.

If any CHECK constraints are present, they're disabled and marked untrusted. Any tables containing columns depending on the assembly are marked as containing unchecked data until those tables are explicitly checked.

Only members of the db_owner and db_ddlowner fixed database roles can specify this option.

Requires the ALTER ANY SCHEMA permission to specify this option.

For more information, see Implementing assemblies.

DROP FILE { file_name [ ,...n ] | ALL }

Removes the file name associated with the assembly, or all files associated with the assembly, from the database. If used with ADD FILE that follows, DROP FILE executes first. This lets you replace a file with the same file name.

Note

This option isn't available in a contained database or Azure SQL Database.

ADD FILE FROM { client_file_specifier [ AS file_name ] | file_bits AS file_name }

Uploads a file to be associated with the assembly, such as source code, debug files or other related information, into the server and made visible in the sys.assembly_files catalog view. client_file_specifier specifies the location from which to upload the file. file_bits can be used instead to specify the list of binary values that make up the file. file_name specifies the name under which the file should be stored in the instance of SQL Server. file_name must be specified if file_bits is specified, and is optional if client_file_specifier is specified. If file_name isn't specified, the file_name part of client_file_specifier is used as file_name.

Note

This option isn't available in a contained database or Azure SQL Database.

Code access security no longer supported

CLR uses Code Access Security (CAS) in the .NET Framework, which is no longer supported as a security boundary. A CLR assembly created with PERMISSION_SET = SAFE might be able to access external system resources, call unmanaged code, and acquire sysadmin privileges. In SQL Server 2017 (14.x) and later versions, the sp_configure option, clr strict security, enhances the security of CLR assemblies. clr strict security is enabled by default, and treats SAFE and EXTERNAL_ACCESS assemblies as if they were marked UNSAFE. The clr strict security option can be disabled for backward compatibility, but isn't recommended.

We recommend that you sign all assemblies by a certificate or asymmetric key, with a corresponding login that has been granted UNSAFE ASSEMBLY permission in the master database. SQL Server administrators can also add assemblies to a list of assemblies, which the Database Engine should trust. For more information, see sys.sp_add_trusted_assembly.

Remarks

ALTER ASSEMBLY doesn't disrupt currently running sessions that are running code in the assembly being modified. Current sessions complete execution by using the unaltered bits of the assembly.

If the FROM clause is specified, ALTER ASSEMBLY updates the assembly with respect to the latest copies of the modules provided. Because there might be CLR functions, stored procedures, triggers, data types, and user-defined aggregate functions in the instance of SQL Server that are already defined against the assembly, the ALTER ASSEMBLY statement rebinds them to the latest implementation of the assembly. To accomplish this rebinding, the methods that map to CLR functions, stored procedures, and triggers must still exist in the modified assembly with the same signatures. The classes that implement CLR user-defined types and user-defined aggregate functions must still satisfy the requirements for being a user-defined type or aggregate.

Caution

If WITH UNCHECKED DATA isn't specified, SQL Server tries to prevent ALTER ASSEMBLY from executing if the new assembly version affects existing data in tables, indexes, or other persistent sites. However, SQL Server doesn't guarantee that computed columns, indexes, indexed views or expressions will be consistent with the underlying routines and types when the CLR assembly is updated. Use caution when you execute ALTER ASSEMBLY to make sure that there's not a mismatch between the result of an expression and a value based on that expression stored in the assembly.

ALTER ASSEMBLY changes the assembly version. The culture and public key token of the assembly remain the same.

The ALTER ASSEMBLY statement can't be used to change the following items:

  • The signatures of CLR functions, aggregate functions, stored procedures, and triggers in an instance of SQL Server that reference the assembly. ALTER ASSEMBLY fails when SQL Server can't rebind .NET Framework database objects in SQL Server with the new version of the assembly.

  • The signatures of methods in the assembly that are called from other assemblies.

  • The list of assemblies that depend on the assembly, as referenced in the DependentList property of the assembly.

  • The indexability of a method, unless there are no indexes or persisted computed columns depending on that method, either directly or indirectly.

  • The FillRow method name attribute for CLR table-valued functions.

  • The Accumulate and Terminate method signature for user-defined aggregates.

  • System assemblies.

  • Assembly ownership. Use ALTER AUTHORIZATION instead.

Additionally, for assemblies that implement user-defined types, ALTER ASSEMBLY can be used for making only the following changes:

  • Modifying public methods of the user-defined type class, as long as signatures or attributes aren't changed.

  • Adding new public methods.

  • Modifying private methods in any way.

Fields contained within a native-serialized user-defined type, including data members or base classes, can't be changed by using ALTER ASSEMBLY. All other changes are unsupported.

If ADD FILE FROM isn't specified, ALTER ASSEMBLY drops any files associated with the assembly.

If ALTER ASSEMBLY is executed without the UNCHECKED data clause, checks are performed to verify that the new assembly version doesn't affect existing data in tables. Depending on the amount of data that needs to be checked, this step might affect performance.

Permissions

Requires ALTER permission on the assembly. Additional requirements are as follows:

  • To alter an assembly whose existing permission set is EXTERNAL_ACCESS, requires EXTERNAL ACCESS ASSEMBLY permission on the server.

  • To alter an assembly whose existing permission set is UNSAFE requires UNSAFE ASSEMBLY permission on the server.

  • To change the permission set of an assembly to EXTERNAL_ACCESS, requires EXTERNAL ACCESS ASSEMBLY permission on the server.

  • To change the permission set of an assembly to UNSAFE, requires UNSAFE ASSEMBLY permission on the server.

  • Specifying WITH UNCHECKED DATA requires ALTER ANY SCHEMA permission.

Permissions with CLR strict security

The following permissions required to alter a CLR assembly when clr strict security is enabled:

  • The user must have the ALTER ASSEMBLY permission

  • And one of the following conditions must also be true:

    • The assembly is signed with a certificate or asymmetric key that has a corresponding login with the UNSAFE ASSEMBLY permission on the server. Signing the assembly is recommended.

    • The database has the TRUSTWORTHY property set to ON, and the database is owned by a login that has the UNSAFE ASSEMBLY permission on the server. This option isn't recommended.

For more information about assembly permission sets, see Designing assemblies.

Examples

A. Refresh an assembly

The following example updates assembly ComplexNumber to the latest copy of the .NET Framework modules that hold its implementation.

Note

Assembly ComplexNumber can be created by running the UserDefinedDataType sample scripts. For more information, see User Defined Type.

 ALTER ASSEMBLY ComplexNumber
 FROM 'C:\Program Files\Microsoft SQL Server\130\Tools\Samples\1033\Engine\Programmability\CLR\UserDefinedDataType\CS\ComplexNumber\obj\Debug\ComplexNumber.dll'

Important

Azure SQL Database doesn't support referencing a file.

B. Add a file to associate with an assembly

The following example uploads the source code file Class1.cs to be associated with assembly MyClass. This example assumes assembly MyClass is already created in the database.

ALTER ASSEMBLY MyClass
ADD FILE FROM 'C:\MyClassProject\Class1.cs';

Important

Azure SQL Database doesn't support referencing a file.

C. Change the permissions of an assembly

The following example changes the permission set of assembly ComplexNumber from SAFE to EXTERNAL ACCESS.

ALTER ASSEMBLY ComplexNumber WITH PERMISSION_SET = EXTERNAL_ACCESS;