using DeepDrftContent.Services.Audio; using DeepDrftContent.Services.Constants; using DeepDrftContent.Services.FileDatabase.Models; using DeepDrftContent.Services.FileDatabase.Services; using DeepDrftContent.Middleware; using Microsoft.AspNetCore.Mvc; namespace DeepDrftContent.Controllers; [ApiController] [Route("api/[controller]")] public class TrackController : ControllerBase { private readonly DeepDrftContent.Services.FileDatabase.Services.FileDatabase _fileDatabase; private readonly WavOffsetService _wavOffsetService; private readonly ILogger _logger; public TrackController( DeepDrftContent.Services.FileDatabase.Services.FileDatabase fileDatabase, WavOffsetService wavOffsetService, ILogger logger) { _fileDatabase = fileDatabase; _wavOffsetService = wavOffsetService; _logger = logger; } [HttpGet("{trackId}")] public async Task GetTrack(string trackId, [FromQuery] long offset = 0) { _logger.LogInformation("GetTrack called with trackId: {TrackId}, offset: {Offset}", trackId, offset); try { // No-offset path: stream the file straight from disk so a 100 MB WAV does not // force a 100 MB LOH allocation per request. The offset path still loads // the full buffer because WavOffsetService block-aligns and reslices into // a composite stream over the in-memory buffer. if (offset == 0) { var vault = _fileDatabase.GetVault(VaultConstants.Tracks); if (vault == null) { _logger.LogWarning("Tracks vault not found"); return NotFound(); } var mediaStream = await vault.GetEntryStreamAsync(trackId); if (mediaStream == null) { _logger.LogWarning("Track not found: {TrackId}", trackId); return NotFound(); } // Resolve MIME and log before handing the stream to File(). // If anything here throws, the finally block disposes the wrapper // (and its inner FileStream) so neither leaks. On the success path // File() takes ownership of the inner stream; ASP.NET Core disposes // it after the response body is sent. The wrapper is a thin struct // with no extra resources, so disposing it after extracting the // inner stream is a no-op — we only call Dispose() in the catch path. string streamMimeType; long streamLength; Stream innerStream; try { streamMimeType = MimeTypeExtensions.GetMimeType(mediaStream.Extension); streamLength = mediaStream.Stream.Length; innerStream = mediaStream.Stream; } catch { await mediaStream.DisposeAsync(); throw; } _logger.LogInformation( "Streaming track from disk: {TrackId}, Size: {Size} bytes", trackId, streamLength); // enableRangeProcessing: false — seek is served by WavOffsetService, not Range. return File(innerStream, streamMimeType, enableRangeProcessing: false); } // Offset path: buffer the file (current behaviour) and synthesise a // header-prefixed slice via WavOffsetService. var file = await _fileDatabase.LoadResourceAsync(VaultConstants.Tracks, trackId); if (file == null) { _logger.LogWarning("Track not found: {TrackId}", trackId); return NotFound(); } var mimeType = MimeTypeExtensions.GetMimeType(file.Extension); var offsetStream = _wavOffsetService.CreateOffsetStream(file.Buffer, offset); if (offsetStream == null) { _logger.LogWarning("Invalid offset {Offset} for track: {TrackId}", offset, trackId); return BadRequest("Invalid offset"); } _logger.LogInformation("Successfully retrieved track with offset: {TrackId}, Offset: {Offset}, StreamSize: {Size} bytes", trackId, offset, offsetStream.Length); return File(offsetStream, mimeType); } catch (Exception ex) { _logger.LogError(ex, "Error retrieving track: {TrackId}", trackId); return StatusCode(500, "Internal server error"); } } [ApiKeyAuthorize] [HttpPut("{trackId}")] public async Task PutTrack(string trackId, [FromBody] AudioBinaryDto track) { _logger.LogInformation("PutTrack called with trackId: {TrackId}", trackId); var audioBinary = AudioBinary.From(track); var success = await _fileDatabase.RegisterResourceAsync(VaultConstants.Tracks, trackId, audioBinary); return success ? Ok() : BadRequest("Failed to store audio track"); } }