BililiveRecorder/BililiveRecorder.ToolBox/Commands/Analyze.cs
2021-04-29 23:51:06 +08:00

251 lines
10 KiB
C#

using System;
using System.Collections.Generic;
using System.IO;
using System.IO.Compression;
using System.IO.Pipelines;
using System.Linq;
using System.Threading.Tasks;
using BililiveRecorder.Flv;
using BililiveRecorder.Flv.Amf;
using BililiveRecorder.Flv.Grouping;
using BililiveRecorder.Flv.Parser;
using BililiveRecorder.Flv.Pipeline;
using BililiveRecorder.Flv.Pipeline.Actions;
using BililiveRecorder.Flv.Writer;
using BililiveRecorder.Flv.Xml;
using BililiveRecorder.ToolBox.ProcessingRules;
using Microsoft.Extensions.DependencyInjection;
using Serilog;
namespace BililiveRecorder.ToolBox.Commands
{
public class AnalyzeRequest : ICommandRequest<AnalyzeResponse>
{
public string Input { get; set; } = string.Empty;
}
public class AnalyzeResponse
{
public string InputPath { get; set; } = string.Empty;
public bool NeedFix { get; set; }
public bool Unrepairable { get; set; }
public int OutputFileCount { get; set; }
public FlvStats? VideoStats { get; set; }
public FlvStats? AudioStats { get; set; }
public int IssueTypeOther { get; set; }
public int IssueTypeUnrepairable { get; set; }
public int IssueTypeTimestampJump { get; set; }
public int IssueTypeTimestampOffset { get; set; }
public int IssueTypeDecodingHeader { get; set; }
public int IssueTypeRepeatingData { get; set; }
}
public class AnalyzeHandler : ICommandHandler<AnalyzeRequest, AnalyzeResponse>
{
private static readonly ILogger logger = Log.ForContext<AnalyzeHandler>();
public Task<CommandResponse<AnalyzeResponse>> Handle(AnalyzeRequest request) => this.Handle(request, null);
public async Task<CommandResponse<AnalyzeResponse>> Handle(AnalyzeRequest request, Func<double, Task>? progress)
{
FileStream? flvFileStream = null;
try
{
var memoryStreamProvider = new RecyclableMemoryStreamProvider();
var comments = new List<ProcessingComment>();
var context = new FlvProcessingContext();
var session = new Dictionary<object, object?>();
// Input
string? inputPath;
IFlvTagReader tagReader;
try
{
inputPath = Path.GetFullPath(request.Input);
if (inputPath.EndsWith(".gz", StringComparison.OrdinalIgnoreCase))
tagReader = await Task.Run(() =>
{
using var stream = new GZipStream(File.Open(inputPath, FileMode.Open, FileAccess.Read, FileShare.Read), CompressionMode.Decompress);
var xmlFlvFile = (XmlFlvFile)XmlFlvFile.Serializer.Deserialize(stream);
return new FlvTagListReader(xmlFlvFile.Tags);
});
else if (inputPath.EndsWith(".xml", StringComparison.OrdinalIgnoreCase))
tagReader = await Task.Run(() =>
{
using var stream = File.Open(inputPath, FileMode.Open, FileAccess.Read, FileShare.Read);
var xmlFlvFile = (XmlFlvFile)XmlFlvFile.Serializer.Deserialize(stream);
return new FlvTagListReader(xmlFlvFile.Tags);
});
else
{
flvFileStream = new FileStream(inputPath, FileMode.Open, FileAccess.Read, FileShare.Read, 4096, FileOptions.Asynchronous | FileOptions.SequentialScan);
tagReader = new FlvTagPipeReader(PipeReader.Create(flvFileStream), memoryStreamProvider, skipData: false, logger: logger);
}
}
catch (Exception ex) when (ex is not FlvException)
{
return new CommandResponse<AnalyzeResponse>
{
Status = ResponseStatus.InputIOError,
Exception = ex,
ErrorMessage = ex.Message
};
}
// Output
var tagWriter = new AnalyzeMockFlvTagWriter();
// Pipeline
using var grouping = new TagGroupReader(tagReader);
using var writer = new FlvProcessingContextWriter(tagWriter: tagWriter, allowMissingHeader: true);
var statsRule = new StatsRule();
var pipeline = new ProcessingPipelineBuilder(new ServiceCollection().BuildServiceProvider()).Add(statsRule).AddDefault().AddRemoveFillerData().Build();
// Run
await Task.Run(async () =>
{
var count = 0;
while (true)
{
var group = await grouping.ReadGroupAsync(default).ConfigureAwait(false);
if (group is null)
break;
context.Reset(group, session);
pipeline(context);
if (context.Comments.Count > 0)
{
comments.AddRange(context.Comments);
logger.Debug("分析逻辑输出 {@Comments}", context.Comments);
}
await writer.WriteAsync(context).ConfigureAwait(false);
foreach (var action in context.Actions)
if (action is PipelineDataAction dataAction)
foreach (var tag in dataAction.Tags)
tag.BinaryData?.Dispose();
if (count++ % 10 == 0 && flvFileStream is not null && progress is not null)
await progress((double)flvFileStream.Position / flvFileStream.Length);
}
}).ConfigureAwait(false);
// Result
var response = await Task.Run(() =>
{
var (videoStats, audioStats) = statsRule.GetStats();
var countableComments = comments.Where(x => x.T != CommentType.Logging).ToArray();
return new AnalyzeResponse
{
InputPath = inputPath,
NeedFix = tagWriter.OutputFileCount != 1 || countableComments.Any(),
Unrepairable = countableComments.Any(x => x.T == CommentType.Unrepairable),
OutputFileCount = tagWriter.OutputFileCount,
VideoStats = videoStats,
AudioStats = audioStats,
IssueTypeOther = countableComments.Count(x => x.T == CommentType.Other),
IssueTypeUnrepairable = countableComments.Count(x => x.T == CommentType.Unrepairable),
IssueTypeTimestampJump = countableComments.Count(x => x.T == CommentType.TimestampJump),
IssueTypeTimestampOffset = countableComments.Count(x => x.T == CommentType.TimestampOffset),
IssueTypeDecodingHeader = countableComments.Count(x => x.T == CommentType.DecodingHeader),
IssueTypeRepeatingData = countableComments.Count(x => x.T == CommentType.RepeatingData)
};
});
return new CommandResponse<AnalyzeResponse>
{
Status = ResponseStatus.OK,
Result = response
};
}
catch (NotFlvFileException ex)
{
return new CommandResponse<AnalyzeResponse>
{
Status = ResponseStatus.NotFlvFile,
Exception = ex,
ErrorMessage = ex.Message
};
}
catch (UnknownFlvTagTypeException ex)
{
return new CommandResponse<AnalyzeResponse>
{
Status = ResponseStatus.UnknownFlvTagType,
Exception = ex,
ErrorMessage = ex.Message
};
}
catch (Exception ex)
{
return new CommandResponse<AnalyzeResponse>
{
Status = ResponseStatus.Error,
Exception = ex,
ErrorMessage = ex.Message
};
}
finally
{
flvFileStream?.Dispose();
}
}
public void PrintResponse(AnalyzeResponse response)
{
Console.Write("Input: ");
Console.WriteLine(response.InputPath);
Console.WriteLine(response.NeedFix ? "File needs repair" : "File doesn't need repair");
if (response.Unrepairable)
Console.WriteLine("File contains error(s) that are unrepairable (yet), please send sample to the author of this program.");
Console.WriteLine("Will output {0} file(s) if repaired", response.OutputFileCount);
Console.WriteLine("Types of error:");
Console.Write("Other: ");
Console.WriteLine(response.IssueTypeOther);
Console.Write("Unrepairable: ");
Console.WriteLine(response.IssueTypeUnrepairable);
Console.Write("TimestampJump: ");
Console.WriteLine(response.IssueTypeTimestampJump);
Console.Write("DecodingHeader: ");
Console.WriteLine(response.IssueTypeDecodingHeader);
Console.Write("RepeatingData: ");
Console.WriteLine(response.IssueTypeRepeatingData);
}
private class AnalyzeMockFlvTagWriter : IFlvTagWriter
{
public long FileSize => 0;
public object? State => null;
public int OutputFileCount { get; private set; }
public bool CloseCurrentFile() => true;
public Task CreateNewFile()
{
this.OutputFileCount++;
return Task.CompletedTask;
}
public void Dispose() { }
public Task OverwriteMetadata(ScriptTagBody metadata) => Task.CompletedTask;
public Task WriteAlternativeHeaders(IEnumerable<Tag> tags) => Task.CompletedTask;
public Task WriteTag(Tag tag) => Task.CompletedTask;
}
}
}