MaksIT.MongoDB.Linq 1.0.5

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dotnet add package MaksIT.MongoDB.Linq --version 1.0.5                
NuGet\Install-Package MaksIT.MongoDB.Linq -Version 1.0.5                
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<PackageReference Include="MaksIT.MongoDB.Linq" Version="1.0.5" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add MaksIT.MongoDB.Linq --version 1.0.5                
#r "nuget: MaksIT.MongoDB.Linq, 1.0.5"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install MaksIT.MongoDB.Linq as a Cake Addin
#addin nuget:?package=MaksIT.MongoDB.Linq&version=1.0.5

// Install MaksIT.MongoDB.Linq as a Cake Tool
#tool nuget:?package=MaksIT.MongoDB.Linq&version=1.0.5                

MaksIT.MongoDB.Linq

Description

MaksIT.MongoDB.Linq is a .NET library designed to facilitate working with MongoDB using LINQ queries, providing a seamless and intuitive interface for developers to interact with MongoDB databases. The library abstracts common data access patterns, allowing for more efficient and readable code when performing CRUD operations, managing sessions, and handling transactions.

Purpose

The primary goal of MaksIT.MongoDB.Linq is to simplify MongoDB integration in .NET applications by offering a robust, easy-to-use API. Whether you're managing complex queries, handling transactions, or implementing custom data providers, this library enables developers to focus on business logic while abstracting the intricacies of MongoDB operations.

Key Features

  • LINQ Integration: Query MongoDB collections using familiar LINQ syntax.
  • CRUD Operations: Simplified methods for creating, reading, updating, and deleting documents.
  • Session and Transaction Management: Built-in support for managing MongoDB sessions and transactions.
  • Custom Data Providers: Extendable base classes to create your own data providers.
  • Error Handling: Robust error handling with detailed logging using Microsoft.Extensions.Logging.
  • Support for Comb GUIDs: Generate sortable GUIDs with timestamps for improved query performance.

Installation

To include MaksIT.MongoDB.Linq in your .NET project, you can add the package via NuGet:

dotnet add package MaksIT.MongoDB.Linq

Note: This library utilizes the MaksIT.Results library to standardize result handling and error management. MaksIT.Results provides a robust framework for handling operation outcomes with appropriate HTTP status codes and seamless conversion to IActionResult for ASP.NET Core applications.

For more information about MaksIT.Results, visit the GitHub repository.

Usage Examples

Creating a Custom Data Provider

Below is an example of a custom data provider that demonstrates CRUD operations using MaksIT.MongoDB.Linq.

using Microsoft.Extensions.Logging;
using MongoDB.Driver;
using MaksIT.Vault.Abstractions;
using MaksIT.Core.Extensions; // Assuming this namespace contains the extension method ToNullable

public class OrganizationDataProvider : CollectionDataProviderBase<OrganizationDataProvider, OrganizationDto, Guid>, IOrganizationDataProvider
{
    public OrganizationDataProvider(
        ILogger<OrganizationDataProvider> logger,
        IMongoClient client,
        IIdGenerator idGenerator
    ) : base(logger, client, idGenerator, "maksit-vault", "organizations") { }

    // **Read** operation: Get a document by ID
    public Result<OrganizationDto?> GetById(Guid id) =>
        GetWithPredicate(x => x.Id == id, x => x, null, null)
            .WithNewValue(_ => _?.FirstOrDefault());

    // **Insert** operation: Insert a new document
    public Result<Guid?> Insert(OrganizationDto document, IClientSessionHandle? session = null) =>
        InsertAsync(document, session).Result
            .WithNewValue(_ => _.ToNullable());

    // **InsertMany** operation: Insert multiple documents
    public Result<List<Guid>?> InsertMany(List<OrganizationDto> documents, IClientSessionHandle? session = null) =>
        InsertManyAsync(documents, session).Result
            .WithNewValue(_ => _?.Select(id => id.ToNullable()).ToList());

    // **Update** operation: Update a document by a predicate
    public Result<Guid?> UpdateById(OrganizationDto document, IClientSessionHandle? session = null) =>
        UpdateWithPredicate(document, x => x.Id == document.Id, session)
            .WithNewValue(_ => _.ToNullable());

    // **UpdateMany** operation: Update multiple documents by a predicate
    public Result<List<Guid>?> UpdateManyById(List<OrganizationDto> documents, IClientSessionHandle? session = null) =>
        UpdateManyWithPredicate(x => documents.Select(y => y.Id).Contains(x.Id), documents, session)
            .WithNewValue(_ => _?.Select(id => id.ToNullable()).ToList());

    // **Upsert** operation: Insert or update a document by ID
    public Result<Guid?> UpsertById(OrganizationDto document, IClientSessionHandle? session = null) =>
        UpsertWithPredicate(document, x => x.Id == document.Id, session)
            .WithNewValue(_ => _.ToNullable());

    // **UpsertMany** operation: Insert or update multiple documents
    public Result<List<Guid>?> UpsertManyById(List<OrganizationDto> documents, IClientSessionHandle? session = null) =>
        UpsertManyWithPredicate(documents, x => documents.Select(y => y.Id).Contains(x.Id), session)
            .WithNewValue(_ => _?.Select(id => id.ToNullable()).ToList());

    // **Delete** operation: Delete a document by ID
    public Result DeleteById(Guid id, IClientSessionHandle? session = null) =>
        DeleteWithPredicate(x => x.Id == id, session);

    // **DeleteMany** operation: Delete multiple documents by ID
    public Result DeleteManyById(List<Guid> ids, IClientSessionHandle? session = null) =>
        DeleteManyWithPredicate(x => ids.Contains(x.Id), session);
}

Managing Sessions and Transactions

MaksIT.MongoDB.Linq offers built-in support for MongoDB sessions and transactions, allowing for complex operations to be executed atomically. Below is an example that demonstrates how to use sessions and transactions with parallel operations involving multiple data providers.

Upserting an Organization with Applications and Secrets in a Transaction

In this example, we upsert an organization along with its associated applications and secrets, all within the context of a MongoDB session. The operations are executed in parallel, ensuring that the data is consistently updated across the different collections.

public async Task<Result<Organization?>> UpsertOrganizationAsync(Organization organization)
{
    return await _sessionManager.ExecuteInSessionAsync(async session =>
    {
        // Step 1: Map Organization to OrganizationDto
        var organizationDto = new OrganizationDto
        {
            Id = organization.Id,
            Name = organization.Name,
        };

        // Step 2: Map Applications and Secrets to their respective DTOs
        var applicationDtos = organization.Applications.Select(application => new ApplicationDto
        {
            Id = application.Key,
            Name = application.Value.Name,
            OrganizationId = organization.Id,
        }).ToList();

        var secretDtos = organization.Applications
            .SelectMany(application => application.Value.Secrets.Select(secret => new SecretDto
            {
                Id = secret.Key,
                Name = secret.Value.Name,
                ApplicationId = application.Key,
                Versions = secret.Value.Versions.Select(v => new SecretVersionDto
                {
                    Value = v.Value,
                    Version = v.Version,
                    CreatedAt = v.CreatedAt
                }).ToList()
            })).ToList();

        // Parallel execution of the save operations
        var organizationTask = _organizationDataProvider.UpsertByIdAsync(organizationDto, session);
        var applicationsTask = _applicationDataProvider.UpsertManyByIdAsync(applicationDtos, session);
        var secretsTask = _secretDataProvider.UpsertManyByIdAsync(secretDtos, session);

        // Await all tasks to complete
        await Task.WhenAll(organizationTask, applicationsTask, secretsTask);

        // Check if all tasks completed successfully
        if (!organizationTask.Result.IsSuccess || !applicationsTask.Result.IsSuccess || !secretsTask.Result.IsSuccess)
        {
            return Result<Organization?>.InternalServerError(null, "An error occurred while writing organization data.");
        }

        return Result<Organization?>.Ok(organization);
    });
}

Performing CRUD Operations

Inserting a Document
var document = new OrganizationDto
{
    Id = Guid.NewGuid(),
    Name = "My Organization"
};

var insertResult = organizationDataProvider.Insert(document);
if (insertResult.IsSuccess)
{
    Console.WriteLine($"Document inserted with ID: {insertResult.Value}");
}
Getting a Document by ID
var id = Guid.Parse("your-document-id-here");
var getResult = organizationDataProvider.GetById(id);

if (getResult.IsSuccess)
{
    Console.WriteLine($"Document retrieved: {getResult.Value?.Name}");
}
else
{
    Console.WriteLine("Document not found.");
}
Updating a Document
var documentToUpdate = new OrganizationDto
{
    Id = existingId,
    Name = "Updated Organization Name"
};

var updateResult = organizationDataProvider.UpdateById(documentToUpdate);
if (updateResult.IsSuccess)
{
    Console.WriteLine($"Document updated with ID: {updateResult.Value}");
}
Deleting a Document
var deleteResult = organizationDataProvider.DeleteById(idToDelete);
if (deleteResult.IsSuccess)
{
    Console.WriteLine("Document deleted successfully.");
}
else
{
    Console.WriteLine("Failed to delete the document.");
}

Available Methods

BaseCollectionDataProviderBase<T, TDtoDocument, TDtoKey>
  • Insert Operations

    • Task<Result<TDtoKey?>> InsertAsync(TDtoDocument document, IClientSessionHandle? session = null): Asynchronously inserts a new document.
    • Task<Result<List<TDtoKey>?>> InsertManyAsync(List<TDtoDocument> documents, IClientSessionHandle? session = null): Asynchronously inserts multiple documents.
  • Update Operations

    • `Task<Result<TDtoKey?>> UpdateWithPredicateAsync(TDtoDocument document, Expression<Func<TDtoDocument

, bool>> predicate, IClientSessionHandle? session = null)`: Asynchronously updates a document matching the specified predicate.

  • Task<Result<List<TDtoKey>?>> UpdateManyWithPredicateAsync(List<TDtoDocument> documents, Expression<Func<TDtoDocument, bool>> predicate, IClientSessionHandle? session = null): Asynchronously updates multiple documents matching the specified predicate.

  • Upsert Operations

    • Task<Result<TDtoKey?>> UpsertWithPredicateAsync(TDtoDocument document, Expression<Func<TDtoDocument, bool>> predicate, IClientSessionHandle? session = null): Asynchronously inserts or updates a document matching the specified predicate.
    • Task<Result<List<TDtoKey>?>> UpsertManyWithPredicateAsync(List<TDtoDocument> documents, Expression<Func<TDtoDocument, bool>> predicate, IClientSessionHandle? session = null): Asynchronously inserts or updates multiple documents matching the specified predicate.
  • Delete Operations

    • Task<Result> DeleteWithPredicateAsync(Expression<Func<TDtoDocument, bool>> predicate, IClientSessionHandle? session = null): Asynchronously deletes documents matching the specified predicate.
    • Task<Result> DeleteManyWithPredicateAsync(Expression<Func<TDtoDocument, bool>> predicate, IClientSessionHandle? session = null): Asynchronously deletes multiple documents matching the specified predicate.
CollectionDataProviderBase<T, TDtoDocument, TDtoKey>
  • Insert Operations

    • Result<TDtoKey?> Insert(TDtoDocument document, IClientSessionHandle? session = null): Inserts a new document.
    • Result<List<TDtoKey>?> InsertMany(List<TDtoDocument> documents, IClientSessionHandle? session = null): Inserts multiple documents.
  • Read Operations

    • Result<List<TResult>?> GetWithPredicate<TResult>(Expression<Func<TDtoDocument, bool>> predicate, Expression<Func<TDtoDocument, TResult>> selector): Retrieves documents matching a predicate and projects them to a specified result type.
    • Result<List<TResult>?> GetWithPredicate<TResult>(Expression<Func<TDtoDocument, bool>> predicate, Expression<Func<TDtoDocument, TResult>> selector, int? skip, int? limit): Retrieves documents matching a predicate, with optional skip and limit, and projects them to a specified result type.
  • Update Operations

    • Result<TDtoKey?> UpdateWithPredicate(TDtoDocument document, Expression<Func<TDtoDocument, bool>> predicate, IClientSessionHandle? session = null): Updates a document matching the specified predicate.
    • Result<List<TDtoKey>?> UpdateManyWithPredicate(Expression<Func<TDtoDocument, bool>> predicate, List<TDtoDocument> documents, IClientSessionHandle? session = null): Updates multiple documents matching the specified predicate.
  • Upsert Operations

    • Result<TDtoKey?> UpsertWithPredicate(TDtoDocument document, Expression<Func<TDtoDocument, bool>> predicate, IClientSessionHandle? session = null): Inserts or updates a document matching the specified predicate.
    • Result<List<TDtoKey>?> UpsertManyWithPredicate(List<TDtoDocument> documents, Expression<Func<TDtoDocument, bool>> predicate, IClientSessionHandle? session = null): Inserts or updates multiple documents matching the specified predicate.
  • Delete Operations

    • Result DeleteWithPredicate(Expression<Func<TDtoDocument, bool>> predicate, IClientSessionHandle? session = null): Deletes documents matching the specified predicate.
    • Result DeleteManyWithPredicate(Expression<Func<TDtoDocument, bool>> predicate, IClientSessionHandle? session = null): Deletes multiple documents matching the specified predicate.
  • Count Operations

    • Result<int?> CountWithPredicate(Expression<Func<TDtoDocument, bool>> predicate): Counts documents matching a single predicate.
    • Result<int?> CountWithPredicate(List<Expression<Func<TDtoDocument, bool>>> predicates): Counts documents matching multiple predicates.

These methods provide a comprehensive set of CRUD operations, allowing for flexible and powerful interaction with MongoDB databases through a LINQ-compatible interface.

Additional Utilities

CombGuidGenerator

The MaksIT.MongoDB.Linq library also includes a utility class CombGuidGenerator for generating COMB GUIDs (COMBined Globally Unique Identifiers) that incorporate both randomness and a timestamp. This is particularly useful for databases where sorting by the GUID is necessary, as it improves index efficiency and query performance.

Key Features
  • Combines GUID with Timestamp: Provides better sortability in databases by embedding a timestamp into the GUID.
  • Multiple Methods for Flexibility: Supports generating COMB GUIDs with the current UTC timestamp, a specified timestamp, or a base GUID combined with a timestamp.
Usage Examples
using MaksIT.MongoDB.Linq.Utilities;

// Generate a COMB GUID using the current UTC timestamp
Guid combGuid = CombGuidGenerator.CreateCombGuid();
Console.WriteLine($"Generated COMB GUID: {combGuid}");

// Generate a COMB GUID from an existing GUID with the current UTC timestamp
Guid baseGuid = Guid.NewGuid();
Guid combGuidFromBase = CombGuidGenerator.CreateCombGuid(baseGuid);
Console.WriteLine($"Generated COMB GUID from base GUID: {combGuidFromBase}");

// Generate a COMB GUID with a specific timestamp
DateTime specificTimestamp = new DateTime(2024, 8, 31, 12, 0, 0, DateTimeKind.Utc);
Guid combGuidWithTimestamp = CombGuidGenerator.CreateCombGuid(specificTimestamp);
Console.WriteLine($"Generated COMB GUID with specific timestamp: {combGuidWithTimestamp}");

// Extract the embedded timestamp from a COMB GUID
DateTime extractedTimestamp = CombGuidGenerator.ExtractTimestamp(combGuidWithTimestamp);
Console.WriteLine($"Extracted Timestamp from COMB GUID: {extractedTimestamp}");
Benefits of Using COMB GUIDs
  • Improved Indexing Performance: Embedding a timestamp in the GUID improves the indexing and retrieval performance of documents in databases, especially when using GUIDs as primary keys.
  • Maintains Uniqueness with Sortability: COMB GUIDs retain the uniqueness properties of traditional GUIDs while adding a sortable timestamp component, making them ideal for scenarios where both are needed.

By utilizing CombGuidGenerator, developers can ensure more efficient database operations when dealing with GUID-based identifiers in MongoDB collections.

Contribution

Contributions to this project are welcome! Please fork the repository and submit a pull request with your changes. If you encounter any issues or have feature requests, feel free to open an issue on GitHub.

License

This project is licensed under the MIT License. See the full license text below.


MIT License

MIT License

Copyright (c) 2024 Maksym Sadovnychyy (MAKS-IT)

Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

Contact

For any questions or inquiries, please reach out via GitHub or email.

Product Compatible and additional computed target framework versions.
.NET net8.0 is compatible.  net8.0-android was computed.  net8.0-browser was computed.  net8.0-ios was computed.  net8.0-maccatalyst was computed.  net8.0-macos was computed.  net8.0-tvos was computed.  net8.0-windows was computed. 
Compatible target framework(s)
Included target framework(s) (in package)
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1.0.7 66 10/25/2024
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