14

I have a web app built on MVC5 using Identity. I want to convert this project to a ASP.NET Core 2.2 web app. I created a new ASP.NET Core 2.2 web application with authentication set to Individual User Accounts and added my database to the project by following these instructions. I then added a new Identity Scaffolded item to my project and added a migration and updated the database.

I registered a test user and when I checked SQL management server I see it created a new database for this project even though my connection string is for my old database.

I would like to keep my old database but convert it to use the new Identity Razor pages that are built in with ASP.NET Core. What is the best way to go about doing this?

1

5 Answers 5

14

After upgrading the Identity tables, you may want to update existing users password hashes. Some new columns in the AspNetUsers table will have NULL values. First run this:

UPDATE AspNetUsers SET NormalizedEmail = UPPER(Email), NormalizedUserName = UPPER(UserName)
WHERE NormalizedEmail IS NULL

We need a way to differentiate what users are using the new hash version or not.

One way is to add a new property to IdentityUser:

public class ApplicationUser : IdentityUser
{
    public PasswordHashVersion HashVersion { get; set; }

    public ApplicationUser()
    {
        this.HashVersion = PasswordHashVersion.Core;
    }
}

public enum PasswordHashVersion
{
    OldMvc,
    Core
}

Existing users will have default PasswordHashVersion equals zero (OldMvc), new registered users will default to one (Core). If you have a smarter way to detect if a hash is from new or old algorithms, you don't need this.

Then we create a custom PasswordHash, which uses the old default hash algorithm implementation:

public class OldMvcPasswordHasher : PasswordHasher<ApplicationUser>
{
    public override PasswordVerificationResult VerifyHashedPassword(ApplicationUser user, string hashedPassword, string providedPassword)
    {
        // if it's the new algorithm version, delegate the call to parent class
        if (user.HashVersion == PasswordHashVersion.Core)
            return base.VerifyHashedPassword(user, hashedPassword, providedPassword);

        byte[] buffer4;
        if (hashedPassword == null)
        {
            return PasswordVerificationResult.Failed;
        }
        if (providedPassword == null)
        {
            throw new ArgumentNullException("providedPassword");
        }
        byte[] src = Convert.FromBase64String(hashedPassword);
        if ((src.Length != 0x31) || (src[0] != 0))
        {
            return PasswordVerificationResult.Failed;
        }
        byte[] dst = new byte[0x10];
        Buffer.BlockCopy(src, 1, dst, 0, 0x10);
        byte[] buffer3 = new byte[0x20];
        Buffer.BlockCopy(src, 0x11, buffer3, 0, 0x20);
        using (Rfc2898DeriveBytes bytes = new Rfc2898DeriveBytes(providedPassword, dst, 0x3e8))
        {
            buffer4 = bytes.GetBytes(0x20);
        }
        if (AreHashesEqual(buffer3, buffer4))
        {
            user.HashVersion = PasswordHashVersion.Core;
            return PasswordVerificationResult.SuccessRehashNeeded;
        }
        return PasswordVerificationResult.Failed;
    }

    private bool AreHashesEqual(byte[] firstHash, byte[] secondHash)
    {
        int _minHashLength = firstHash.Length <= secondHash.Length ? firstHash.Length : secondHash.Length;
        var xor = firstHash.Length ^ secondHash.Length;
        for (int i = 0; i < _minHashLength; i++)
            xor |= firstHash[i] ^ secondHash[i];
        return 0 == xor;
    }
}

This class inherits the new Identity Core PasswordHasher. If the user's password hash version is already using the new algorithm (e.g HashVersion = Core), then we just call the base method from PasswordHasher which uses the new algorithm. Otherwise, use the old identity algorithm to verify the password.

If the password matches, we update the user password hash version to Core, and return PasswordVerificationResult.SuccessRehashNeeded to force updating the existing hash with the new algorithm.

Lastly, you need to make sure your custom PasswordHasher is being used. Add this to Startup.cs inside ConfigureServices:

// Replace the existing scoped IPasswordHasher<> implementation
services.Replace(new ServiceDescriptor(
    serviceType: typeof(IPasswordHasher<ApplicationUser>),
    implementationType: typeof(OldMvcPasswordHasher),
    ServiceLifetime.Scoped));

This must be added after any calls to AddIdentity, AddDefaultIdentity or AddIdentityCore.

This will slowly update password hashes as your users authenticate.

5
  • 3
    In our case, the scenario was that the old and new projects were used at the same time so we needed to have the passwords hashed as before. A small change in this answer solved our problem. We simply removed the parts that were related to detecting the hash version and updating password hashes.
    – vahid
    Sep 21, 2019 at 16:45
  • Same here as @vahid. What we did was basically to keep hashing without any change in the .net core version, so the database could be used to authenticate users of old asp mvc app. Dec 14, 2020 at 14:08
  • We were updating from an MVC project on Framework 4.7.2 to .NET 5.0 and for us we just copied the existing tables, but then had to update the null fields (normalized username etc) on the AspNetUsers table. Then drop in the compatibility flag in the startup.cs: services.Configure<PasswordHasherOptions>(options => options.CompatibilityMode = PasswordHasherCompatibilityMode.IdentityV2); <-- this just made everything work for us without all the rest of the implementation. May 2, 2021 at 19:34
  • 1
    No t working for me in .NET 6 MVC project. It builds, replaces hasher in services container but VerifyHashedPassword is not being hit. Do you know what else should we do in .NET 6 MVC project? Apr 5 at 7:58
  • Anyone got this working for .NET 6 yet?
    – ledragon
    May 29 at 16:13
7

I was just able to successfully migrate a .NET 4.5.2 project to .NET Core 3.1 with the followinig steps

  1. Use Scaffold-DbContext to create a model based on your existing database [1]
Scaffold-DbContext [-Connection] [-Provider] [-OutputDir] [-Context] [-Schemas>] [-Tables>] [-DataAnnotations] [-Force] [-Project] [-StartupProject] [<CommonParameters>]
  1. Remove all the AspNet related tables from the generated context and also its .cs files that are no longer needed.

  2. Add base.OnModelCreating(modelBuilder); to the generated OnModelCreating method on the context file. [2]

  3. Run the script below to update/create the identity tables [3] [4]

ALTER TABLE ASPNETROLES
ADD
 ConcurrencyStamp VARCHAR(255) NULL,               
 NormalizedName VARCHAR(255) NULL

 DROP TABLE AspNetUserTokens

 CREATE TABLE [AspNetUserTokens] (
    [UserId]        NVARCHAR (450) NOT NULL,
    [LoginProvider] NVARCHAR (450) NOT NULL,
    [Name]          NVARCHAR (450) NOT NULL,
    [Value]         NVARCHAR (MAX) NULL,
    CONSTRAINT [PK_AspNetUserTokens]
 PRIMARY KEY CLUSTERED ([UserId] ASC, [LoginProvider] ASC, [Name] ASC)
)

ALTER TABLE AspNetUsers
 ADD
 ConcurrencyStamp VARCHAR(255) NULL,
 LockoutEnd DATETIME NULL,
 NormalizedEmail VARCHAR(255) NULL,
 NormalizedUserName VARCHAR(255) NULL

DROP TABLE [AspNetRoleClaims]

CREATE TABLE [AspNetRoleClaims] (
    [Id]         INT            IDENTITY (1, 1) NOT NULL,
    [ClaimType]  NVARCHAR (MAX) NULL,
    [ClaimValue] NVARCHAR (MAX) NULL,
    [RoleId]     NVARCHAR (128) NOT NULL,
    CONSTRAINT [PK_AspNetRoleClaims]
 PRIMARY KEY CLUSTERED ([Id] ASC),
    CONSTRAINT [FK_AspNetRoleClaims_AspNetRoles_RoleId]
 FOREIGN KEY ([RoleId])
  REFERENCES [dbo].[AspNetRoles] ([Id]) ON DELETE CASCADE
)


GO
CREATE NONCLUSTERED INDEX [IX_AspNetRoleClaims_RoleId]
    ON [AspNetRoleClaims]([RoleId] ASC)

ALTER TABLE AspNetUserLogins
   ADD ProviderDisplayName VARCHAR(255) NULL

UPDATE AspNetUsers SET NormalizedEmail = UPPER(Email), NormalizedUserName = UPPER(UserName)
WHERE NormalizedEmail IS NULL
  1. On the Startup.cs file set the password hasher compatibility mode to consider IdentityV2
services.Configure<PasswordHasherOptions>(options => options.CompatibilityMode = PasswordHasherCompatibilityMode.IdentityV2);
3

An alternate solution would be to export/import the data to the new tables. This is what I did for a few different reasons, but ultimately didn't want to alter my original source table in case I needed it back quick and painlessly.

The long story short is that you can do a straight import/export of your old data to the new Identity tables and the only thing that's NEEDED additionally is the normalized username and email values.

It would be great if Identity could handle that internally as it handles (updates) the new password hash, security stamp and concurrency stamp without issue when the user logs in for the first time.

The super quick and easy way I migrated my users with intact passwords:

1) Export your users table on the old version of Identity to a CSV file.

2) Open that csv file in Excel and add three columns to the CSV file for the two missing normalization columns (username and email) and one missing concurrency stamp column (concurrency column is not really needed).

3) In the first blank normalization column (typically c2), add the Excel formula =UPPER(b2) (where b2 would be the field where the first value is you're trying to normalize... e.g. Username=b2 or Email=d2 on a straight export where you put the normalized columns next to their non-normalized counterparts). Hit enter and you should see the upper case value in the field now.

4) Drag that formula down to the end of the spreadsheet normalizing all the usernames and emails to their uppercase values (i.e. all upper case = normalized).

5) Copy the uppercase values out of the spreadsheet and paste them into a empty notepad file... then copy them back into the spreadsheet into the same place (which overwrites the formulas with the normalized values. Excel might be smart enough to get rid of the formulas and keep the normalized values on a CSV save, but I didn't test it).

6) Save the spreadsheet back as CSV and import it to the new identity AspnetUsers table.

Concurrency stamp can be left blank and the latest Identity will take care of everything else as soon as the user logs in for the first time.

Identity will also not login usernames if you haven't enabled that in the new version and did in the old version (so you would either need to enable that feature or convert your usernames to their relevant email address before you can login successfully).

It's not pretty, but for a one time job, it took me less than 15 minutes to migrate my users from Identity 4.0.30319 to Core 2.2 with this method and no password changes are needed. It took me longer to type all this out than it did to migrate my users. Hope it helps.

3
  • 1
    Thanks...especially for this line: "The long story short is that you can do a straight import/export of your old data to the new Identity tables and the only thing that's NEEDED additionally is the normalized username and email values."
    – puddleglum
    Jan 23, 2020 at 22:12
  • I have users who logged in with social media accounts, will this approach work for them? or is there more work to be done since the "providers" table is also involved.
    – rickthehat
    Feb 9 at 15:00
  • 1
    @rickthehat It's been a while but it should work. We had users with social media accounts. There may be some actions needed on the social media side if you change the domain name or something to that effect (hard to remember). When I did it, the social media providers were held in the UserLogins table and it was just a straight export=>import on that table. Unfortunately, my main dev laptop died, so I can't set up a project at the moment to test it and see what may have changed. But, basically just mimic the old db to the new and you should be good.
    – Sum None
    Feb 9 at 19:47
3

I've written the SQL script for migration to AspNetCore Identity.

This script is fully backward compatible with AspNet Identity, because I've added new columns to table and extend already exists columns.

Let's have a look on screenshots which were genereted via Scheme compare:

AspNetUsers

AspNetRoles

AspNetUserLogins

Bellow you can see the final script

BEGIN TRANSACTION;
SET TRANSACTION ISOLATION LEVEL READ COMMITTED;
SET XACT_ABORT ON;

GO
PRINT N'Starting dropping constraints';

GO
ALTER TABLE [dbo].[AspNetUserRoles]
    DROP CONSTRAINT [FK_dbo.AspNetUserRoles_dbo.AspNetRoles_RoleId];

GO
ALTER TABLE [dbo].[AspNetUserRoles]
    DROP CONSTRAINT [FK_dbo.AspNetUserRoles_dbo.AspNetUsers_UserId];

GO
ALTER TABLE [dbo].[AspNetUserClaims]
    DROP CONSTRAINT [FK_dbo.AspNetUserClaims_dbo.AspNetUsers_UserId];

GO
ALTER TABLE [dbo].[AspNetUserLogins]
    DROP CONSTRAINT [FK_dbo.AspNetUserLogins_dbo.AspNetUsers_UserId];

-----------------------------------------------------------------------------
GO
PRINT N'Starting rebuilding table [dbo].[AspNetRoles]...';

GO
BEGIN TRANSACTION;
    SET TRANSACTION ISOLATION LEVEL SERIALIZABLE;
    SET XACT_ABORT ON;

    CREATE TABLE [dbo].[tmp_ms_xx_AspNetRoles] (
        [Id]               NVARCHAR (450) NOT NULL,
        [Name]             NVARCHAR (256) NULL,
        [NormalizedName]   NVARCHAR (256) NULL,
        [ConcurrencyStamp] NVARCHAR (MAX) NULL,
        CONSTRAINT [tmp_ms_xx_constraint_PK_AspNetRoles1] PRIMARY KEY CLUSTERED ([Id] ASC) WITH (FILLFACTOR = 80)
    );

    IF EXISTS (SELECT TOP 1 1 
               FROM   [dbo].[AspNetRoles])
        BEGIN
            INSERT INTO [dbo].[tmp_ms_xx_AspNetRoles] ([Id], [Name], [NormalizedName], [ConcurrencyStamp])
            SELECT   [Id],
                     [Name],
                     UPPER([Name]),
                     NEWID()
            FROM     [dbo].[AspNetRoles]
            ORDER BY [Id] ASC;
        END

    DROP TABLE [dbo].[AspNetRoles];

    EXECUTE sp_rename N'[dbo].[tmp_ms_xx_AspNetRoles]', N'AspNetRoles';
    EXECUTE sp_rename N'[dbo].[tmp_ms_xx_constraint_PK_AspNetRoles1]', N'PK_AspNetRoles', N'OBJECT';

COMMIT TRANSACTION;
SET TRANSACTION ISOLATION LEVEL READ COMMITTED;

GO
CREATE UNIQUE NONCLUSTERED INDEX [RoleNameIndex]
    ON [dbo].[AspNetRoles]([Name] ASC) WHERE ([Name] IS NOT NULL) WITH (FILLFACTOR = 80);

GO
CREATE UNIQUE NONCLUSTERED INDEX [RoleNormalizedNameIndex]
    ON [dbo].[AspNetRoles]([NormalizedName] ASC) WHERE ([NormalizedName] IS NOT NULL) WITH (FILLFACTOR = 80);

-------------------------------------------------------------------
GO
PRINT N'Starting rebuilding table [dbo].[AspNetUserClaims]...';

GO
BEGIN TRANSACTION;
    SET TRANSACTION ISOLATION LEVEL SERIALIZABLE;
    SET XACT_ABORT ON;

    CREATE TABLE [dbo].[tmp_ms_xx_AspNetUserClaims] (
        [Id]         INT            IDENTITY (1, 1) NOT NULL,
        [UserId]     NVARCHAR (450) NOT NULL,
        [ClaimType]  NVARCHAR (MAX) NULL,
        [ClaimValue] NVARCHAR (MAX) NULL,
        CONSTRAINT [tmp_ms_xx_constraint_PK_AspNetUserClaims1] PRIMARY KEY CLUSTERED ([Id] ASC) WITH (FILLFACTOR = 80)
    );

    IF EXISTS (SELECT TOP 1 1 
               FROM   [dbo].[AspNetUserClaims])
        BEGIN
            SET IDENTITY_INSERT [dbo].[tmp_ms_xx_AspNetUserClaims] ON;
            INSERT INTO [dbo].[tmp_ms_xx_AspNetUserClaims] ([Id], [UserId], [ClaimType], [ClaimValue])
            SELECT   [Id],
                     [UserId],
                     [ClaimType],
                     [ClaimValue]
            FROM     [dbo].[AspNetUserClaims]
            ORDER BY [Id] ASC;
            SET IDENTITY_INSERT [dbo].[tmp_ms_xx_AspNetUserClaims] OFF;
        END

    DROP TABLE [dbo].[AspNetUserClaims];

    EXECUTE sp_rename N'[dbo].[tmp_ms_xx_AspNetUserClaims]', N'AspNetUserClaims';
    EXECUTE sp_rename N'[dbo].[tmp_ms_xx_constraint_PK_AspNetUserClaims1]', N'PK_AspNetUserClaims', N'OBJECT';

COMMIT TRANSACTION;
SET TRANSACTION ISOLATION LEVEL READ COMMITTED;

GO
CREATE NONCLUSTERED INDEX [IX_AspNetUserClaims_UserId]
    ON [dbo].[AspNetUserClaims]([UserId] ASC) WITH (FILLFACTOR = 80);

-------------------------------------------------------------------
GO
PRINT N'Starting rebuilding table [dbo].[AspNetUserLogins]...';

GO
BEGIN TRANSACTION;
    SET TRANSACTION ISOLATION LEVEL SERIALIZABLE;
    SET XACT_ABORT ON;

    CREATE TABLE [dbo].[tmp_ms_xx_AspNetUserLogins] (
        [LoginProvider]       NVARCHAR (450) NOT NULL,
        [ProviderKey]         NVARCHAR (450) NOT NULL,
        [ProviderDisplayName] NVARCHAR (MAX) NULL,
        [UserId]              NVARCHAR (450) NOT NULL,
        CONSTRAINT [tmp_ms_xx_constraint_PK_AspNetUserLogins1] PRIMARY KEY CLUSTERED ([LoginProvider] ASC, [ProviderKey] ASC, [UserId] ASC) WITH (FILLFACTOR = 80)
    );

    IF EXISTS (SELECT TOP 1 1 
               FROM   [dbo].[AspNetUserLogins])
        BEGIN
            INSERT INTO [dbo].[tmp_ms_xx_AspNetUserLogins] ([LoginProvider], [ProviderKey], [UserId])
            SELECT   [LoginProvider],
                     [ProviderKey],
                     [UserId]
            FROM     [dbo].[AspNetUserLogins]
            ORDER BY [LoginProvider] ASC, [ProviderKey] ASC;
        END

    DROP TABLE [dbo].[AspNetUserLogins];

    EXECUTE sp_rename N'[dbo].[tmp_ms_xx_AspNetUserLogins]', N'AspNetUserLogins';
    EXECUTE sp_rename N'[dbo].[tmp_ms_xx_constraint_PK_AspNetUserLogins1]', N'PK_AspNetUserLogins', N'OBJECT';
COMMIT TRANSACTION;
SET TRANSACTION ISOLATION LEVEL READ COMMITTED;


GO
CREATE NONCLUSTERED INDEX [IX_AspNetUserLogins_UserId]
    ON [dbo].[AspNetUserLogins]([UserId] ASC) WITH (FILLFACTOR = 80);

-------------------------------------------------------------------
GO
PRINT N'Starting rebuilding table [dbo].[AspNetUserRoles]...';

GO
BEGIN TRANSACTION;
    SET TRANSACTION ISOLATION LEVEL SERIALIZABLE;
    SET XACT_ABORT ON;

    CREATE TABLE [dbo].[tmp_ms_xx_AspNetUserRoles] (
        [UserId] NVARCHAR (450) NOT NULL,
        [RoleId] NVARCHAR (450) NOT NULL,
        CONSTRAINT [tmp_ms_xx_constraint_PK_AspNetUserRoles1] PRIMARY KEY CLUSTERED ([UserId] ASC, [RoleId] ASC) WITH (FILLFACTOR = 80)
    );

    IF EXISTS (SELECT TOP 1 1 
               FROM   [dbo].[AspNetUserRoles])
        BEGIN
            INSERT INTO [dbo].[tmp_ms_xx_AspNetUserRoles] ([UserId], [RoleId])
            SELECT   [UserId],
                     [RoleId]
            FROM     [dbo].[AspNetUserRoles]
            ORDER BY [UserId] ASC, [RoleId] ASC;
        END

    DROP TABLE [dbo].[AspNetUserRoles];

    EXECUTE sp_rename N'[dbo].[tmp_ms_xx_AspNetUserRoles]', N'AspNetUserRoles';
    EXECUTE sp_rename N'[dbo].[tmp_ms_xx_constraint_PK_AspNetUserRoles1]', N'PK_AspNetUserRoles', N'OBJECT';

COMMIT TRANSACTION;
SET TRANSACTION ISOLATION LEVEL READ COMMITTED;

GO
CREATE NONCLUSTERED INDEX [IX_AspNetUserRoles_RoleId]
    ON [dbo].[AspNetUserRoles]([RoleId] ASC) WITH (FILLFACTOR = 80);
-------------------------------------------------------------------
GO
PRINT N'Starting rebuilding table [dbo].[AspNetUsers]...';

GO
BEGIN TRANSACTION;
    SET TRANSACTION ISOLATION LEVEL SERIALIZABLE;
    SET XACT_ABORT ON;

    CREATE TABLE [dbo].[tmp_ms_xx_AspNetUsers] (
        [Id]                   NVARCHAR (450)     NOT NULL,
        [Email]                NVARCHAR (256)     NULL,
        [NormalizedEmail]      NVARCHAR (256)     NULL,
        [EmailConfirmed]       BIT                NOT NULL,
        [PasswordHash]         NVARCHAR (MAX)     NULL,
        [SecurityStamp]        NVARCHAR (MAX)     NULL,
        [PhoneNumber]          NVARCHAR (MAX)     NULL,
        [PhoneNumberConfirmed] BIT                NOT NULL,
        [TwoFactorEnabled]     BIT                NOT NULL,
        [LockoutEndDateUtc]    DATETIME           NULL,
        [LockoutEnd]           DATETIMEOFFSET (7) NULL,
        [LockoutEnabled]       BIT                NOT NULL,
        [AccessFailedCount]    INT                NOT NULL,
        [UserName]             NVARCHAR (256)     NULL,
        [NormalizedUserName]   NVARCHAR (256)     NULL,
        [ConcurrencyStamp]     NVARCHAR (MAX)     NULL,
        CONSTRAINT [tmp_ms_xx_constraint_PK_AspNetUsers1] PRIMARY KEY CLUSTERED ([Id] ASC) WITH (FILLFACTOR = 80)
    );

    IF EXISTS (SELECT TOP 1 1 
               FROM   [dbo].[AspNetUsers])
        BEGIN
            INSERT INTO [dbo].[tmp_ms_xx_AspNetUsers] (
                     [Id], 
                     [Email],
                     [NormalizedEmail],
                     [EmailConfirmed],
                     [PasswordHash],
                     [SecurityStamp],
                     [PhoneNumber],
                     [PhoneNumberConfirmed],
                     [TwoFactorEnabled],
                     [LockoutEnabled],
                     [AccessFailedCount],
                     [UserName],
                     [NormalizedUserName],
                     [ConcurrencyStamp])
            SELECT   [Id],
                     [Email],
                     UPPER([Email]),
                     [EmailConfirmed],
                     [PasswordHash],
                     [SecurityStamp],
                     [PhoneNumber],
                     [PhoneNumberConfirmed],
                     [TwoFactorEnabled],
                     [LockoutEnabled],
                     [AccessFailedCount],
                     [UserName],
                     UPPER([UserName]),
                     NEWID()
            FROM     [dbo].[AspNetUsers]
            ORDER BY [Id] ASC;
        END

    DROP TABLE [dbo].[AspNetUsers];

    EXECUTE sp_rename N'[dbo].[tmp_ms_xx_AspNetUsers]', N'AspNetUsers';
    EXECUTE sp_rename N'[dbo].[tmp_ms_xx_constraint_PK_AspNetUsers1]', N'PK_AspNetUsers', N'OBJECT';

COMMIT TRANSACTION;
SET TRANSACTION ISOLATION LEVEL READ COMMITTED;

GO
CREATE UNIQUE NONCLUSTERED INDEX [UserNameIndex]
    ON [dbo].[AspNetUsers]([UserName] ASC) WHERE ([UserName] IS NOT NULL) WITH (FILLFACTOR = 80);

GO
CREATE UNIQUE NONCLUSTERED INDEX [NormalizedUserNameIndex]
    ON [dbo].[AspNetUsers]([NormalizedUserName] ASC) WHERE ([NormalizedUserName] IS NOT NULL) WITH (FILLFACTOR = 80);

GO
CREATE NONCLUSTERED INDEX [EmailIndex]
    ON [dbo].[AspNetUsers]([NormalizedEmail] ASC) WITH (FILLFACTOR = 80);

-------------------------------------------------------------------
GO
CREATE TABLE [dbo].[AspNetRoleClaims] (
    [Id]         INT            IDENTITY (1, 1) NOT NULL,
    [RoleId]     NVARCHAR (450) NOT NULL,
    [ClaimType]  NVARCHAR (MAX) NULL,
    [ClaimValue] NVARCHAR (MAX) NULL,
    CONSTRAINT [PK_AspNetRoleClaims] PRIMARY KEY CLUSTERED ([Id] ASC) WITH (FILLFACTOR = 80)
);

GO
CREATE NONCLUSTERED INDEX [IX_AspNetRoleClaims_RoleId]
    ON [dbo].[AspNetRoleClaims]([RoleId] ASC) WITH (FILLFACTOR = 80);

-------------------------------------------------------------------
GO
PRINT N'Creating [dbo].[AspNetUserTokens]...';

GO
CREATE TABLE [dbo].[AspNetUserTokens] (
    [UserId]        NVARCHAR (450) NOT NULL,
    [LoginProvider] NVARCHAR (450) NOT NULL,
    [Name]          NVARCHAR (450) NOT NULL,
    [Value]         NVARCHAR (MAX) NULL,
    CONSTRAINT [PK_AspNetUserTokens] PRIMARY KEY CLUSTERED ([UserId] ASC, [LoginProvider] ASC, [Name] ASC) WITH (FILLFACTOR = 80)
);

-------------------------------------------------------------------
GO
PRINT N'Creating [dbo].[__EFMigrationsHistory]...';


GO
CREATE TABLE [dbo].[__EFMigrationsHistory] (
    [MigrationId]    NVARCHAR (150) NOT NULL,
    [ProductVersion] NVARCHAR (32)  NOT NULL,
    CONSTRAINT [PK___EFMigrationsHistory] PRIMARY KEY CLUSTERED ([MigrationId] ASC) WITH (FILLFACTOR = 80)
);

--GO
--INSERT INTO [dbo].[__EFMigrationsHistory]
--           ([MigrationId], [ProductVersion])
--VALUES
--            ('20200406184458_InitialCreate',    '2.2.6-servicing-10079')
-------------------------------------------------------------------
GO
PRINT N'Creating constraints';

GO
ALTER TABLE [dbo].[AspNetUserLogins] WITH NOCHECK
    ADD CONSTRAINT [FK_AspNetUserLogins_AspNetUsers_UserId] FOREIGN KEY ([UserId]) REFERENCES [dbo].[AspNetUsers] ([Id]) ON DELETE CASCADE;

GO
ALTER TABLE [dbo].[AspNetUserRoles] WITH NOCHECK
    ADD CONSTRAINT [FK_AspNetUserRoles_AspNetRoles_RoleId] FOREIGN KEY ([RoleId]) REFERENCES [dbo].[AspNetRoles] ([Id]) ON DELETE CASCADE;

GO
ALTER TABLE [dbo].[AspNetUserRoles] WITH NOCHECK
    ADD CONSTRAINT [FK_AspNetUserRoles_AspNetUsers_UserId] FOREIGN KEY ([UserId]) REFERENCES [dbo].[AspNetUsers] ([Id]) ON DELETE CASCADE;

GO
ALTER TABLE [dbo].[AspNetUserClaims] WITH NOCHECK
    ADD CONSTRAINT [FK_AspNetUserClaims_AspNetUsers_UserId] FOREIGN KEY ([UserId]) REFERENCES [dbo].[AspNetUsers] ([Id]) ON DELETE CASCADE;

GO
ALTER TABLE [dbo].[AspNetRoleClaims] WITH NOCHECK
    ADD CONSTRAINT [FK_AspNetRoleClaims_AspNetRoles_RoleId] FOREIGN KEY ([RoleId]) REFERENCES [dbo].[AspNetRoles] ([Id]) ON DELETE CASCADE;

GO
ALTER TABLE [dbo].[AspNetUserTokens] WITH NOCHECK
    ADD CONSTRAINT [FK_AspNetUserTokens_AspNetUsers_UserId] FOREIGN KEY ([UserId]) REFERENCES [dbo].[AspNetUsers] ([Id]) ON DELETE CASCADE;
-------------------------------------------------------------------

GO
PRINT N'Update complete.';

COMMIT TRANSACTION;
2

While the Microsoft documentation was somewhat helpful. The most helpful information was in the comments.

I was able to migrate existing DBs using the following steps:

  • Create a new ASP.net Core project and modify it's ModelSnapshot to
    match with EF6. After that, you can generate a script for the chnages of EF6 to EF Core.

  • Write a script to update the AspNetUsers table. In ASP.net core
    identity when authenticating it is used NormalizedEmail,
    NormalizedUserName columns. So we need to update those two columns
    using our existing data.

Here is the GitHub link for the scripts to update the tables. Migration.zip

1
  • 1
    this seems like a useful approach. Do you know (1) how to generate the script(s) for the changes (I realize I could use the scripts you pointed to, but I'd like to try for myself)? and (2) will this leave the project in a state where I can continue to do code first migrations in EF core? Nov 12, 2019 at 4:05

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