C#实现http断点续传上传和下载的实现示例
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断点续传是一种可以在文件传输过程中出现断电、网络故障等情况时,能够保证传输内容不会全部丢失,而是可以从已传输的位置继续传输的机制。在文件传输较大、较复杂的情况下,使用断点续传可以提高传输质量、稳定性和效率。 在C#中,可以使用HTTP协议的Range头部域来实现断点续传。使用HTTP Range头部域,可以控制取哪个字节范围内的字节。具体实现方法,在HTTP请求头中填写Range头部信息,指明下载区间: Range: bytes=[start]-[end] start和end的值为0和文件大小减1,表示下载全部数据;若要实现断点续传,则start的值为当前已下载的数据大小,end的值不变。 在本篇文章中,我们将详细介绍如何使用C#实现HTTP协议的断点续传功能,并提供了完整的代码示例。 实现步骤 C#实现断点续传功能的步骤,简要描述如下: 1.定义HTTP请求,并填写Range头部信息,指明下载区间信息。 2.执行HTTP请求,接收服务端返回的字节流,并将流写入本地文件。 3.检查最终下载文件的大小,与服务端的文件大小是否一致,若不一致则下载失败。 4.上传文件时,同样需制定Range信息,然后发送PUT请求进行上传。 代码实现 我们将使用HttpClient来执行请求,使用FileStream来读写文件。下面是代码实现的详细过程。 1.下载文件 下载文件时,首先需要判断本地是否已经存在相同的文件,如果存在,则需要计算出当前已下载数据的大小(即起始位置startPosition),否则从头开始下载。 下载时,需要在HTTP请求头中填写Range头部信息,指明下载区间。同时,需要注意控制下载缓冲区大小,以避免内存不足的情况。 最后,需要检查下载完成后文件的大小是否与服务端的文件大小一致,若不一致,则下载失败。 代码示例: 1. private static async Task DownloadFileAsync(Uri uri, string filename, CancellationToken cancellationToken = default) 2. { 3. long startPosition; 4. var fileInfo = new FileInfo(filename); 5. 6. if (fileInfo.Exists) 7. { 8. startPosition = fileInfo.Length; 9. if (startPosition == uri.GetFileSize()) 10. { 11. Console.WriteLine($"The file '{filename}' has already been downloaded."); 12. return; 13. } 14. } 15. else 16. { 17. startPosition = 0; 18. } 19. 20. using var fs = new FileStream(filename, startPosition == 0 ? FileMode.Create : FileMode.Append); 21. 22. var rangeHeader = new RangeHeaderValue(startPosition, null); 23. 24. var request = new HttpRequestMessage(HttpMethod.Get, uri); 25. request.Headers.Range = rangeHeader; 26. 27. using var response = await HttpClient.SendAsync(request, HttpCompletionOption.ResponseHeadersRead, cancellationToken); 28. var contentLength = response.Content.Headers.ContentLength; 29. if (!contentLength.HasValue) 30. { 31. throw new InvalidOperationException("The server did not provide the content length."); 32. } 33. 34. var totalSize = contentLength.Value + startPosition; 35. 36. using var stream = await response.Content.ReadAsStreamAsync(cancellationToken); 37. await stream.CopyToAsync(fs); 38. 39. if (fs.Length != totalSize) 40. { 41. fileInfo.Refresh(); 42. if (fileInfo.Length < totalSize) 43. { 44. throw new InvalidOperationException($"The file '{filename}' was not downloaded correctly."); 45. } 46. } 47. 48. Console.WriteLine($"The file '{filename}' has been downloaded."); 49.} 2.上传文件 上传文件与下载文件相似,同样需要在HTTP请求头中填写Range头部信息,以限制上传的范围。同时,需要指定Content-Type,以明确上传数据的类型。 上传文件需要注意的一点是,如果文件较大,则需要分多次上传。可以将文件分割成多个大小相同的片段,逐个上传,确保操作的稳定性和效率。 上传完成后,会收到服务端的响应。如果响应码为2xx,则表示上传成功;否则,表示上传失败。 代码示例: 1. public static async Task UploadFileAsync(Uri uri, string filename, int bufferSize = 4096, CancellationToken cancellationToken = default) 2. { 3. long startPosition; 4. var fileInfo = new FileInfo(filename); 5. 6. if (fileInfo.Exists) 7. { 8. startPosition = fileInfo.Length; 9. } 10. else 11. { 12. throw new FileNotFoundException("The file was not found.", filename); 13. } 14. 15. using var fs = new FileStream(filename, FileMode.Open); 16. 17. var rangeHeader = new RangeHeaderValue(startPosition, fs.Length - 1); 18. 19. var request = new HttpRequestMessage(HttpMethod.Put, uri); 20. request.Headers.Range = rangeHeader; 21. request.Headers.TryAddWithoutValidation("Content-Type", "application/octet-stream"); 22. 23. var content = new StreamContent(fs, bufferSize); 24. request.Content = content; 25. 26. using var response = await HttpClient.SendAsync(request, cancellationToken); 27. 28. if (!response.IsSuccessStatusCode) 29. { 30. var responseMessage = await response.Content.ReadAsStringAsync(); 31. throw new InvalidOperationException($"Failed to upload file: {response.StatusCode} {responseMessage}"); 32. } 33. 34. Console.WriteLine($"The file '{filename}' has been uploaded."); 35.} 完整代码 上述代码仅为示例,仍然需要加入部分边界检查、异常处理等逻辑,以保证代码的健壮性。下面是完整的实现代码,包含了断点续传功能的完整实现。 1. using System; 2. using System.IO; 3. using System.Net.Http; 4. using System.Net.Http.Headers; 5. using System.Threading; 6. using System.Threading.Tasks; 7. 8. namespace ConsoleApp 9. { 10. internal static class Program 11. { 12. private static readonly HttpClient HttpClient = new HttpClient(); 13. 14. private static async Task Main(string[] args) 15. { 16. var uri = new Uri("https://download.visualstudio.microsoft.com/download/pr/26246709-5c10-4383-ad1a-f22f3e8e5e15/23e2d41d2e57b81fc0f9c72068994e70/vc_redist.x64.exe"); 17. 18. var filename = Path.Combine(Path.GetTempPath(), "vc_redist.x64.exe"); 19. 20. Console.WriteLine("Start downloading the file..."); 21. 22. try 23. { 24. await DownloadFileAsync(uri, filename, CancellationToken.None); 25. } 26. catch (Exception ex) 27. { 28. Console.WriteLine($"Failed to download the file: {ex.Message}"); 29. return; 30. } 31. 32. Console.WriteLine("\nStart uploading the file...\n"); 33. 34. try 35. { 36. await UploadFileAsync(uri, filename, 4096, CancellationToken.None); 37. } 38. catch (Exception ex) 39. { 40. Console.WriteLine($"Failed to upload the file: {ex.Message}"); 41. return; 42. } 43. 44. Console.WriteLine("Done."); 45. } 46. 47. private static async Task DownloadFileAsync(Uri uri, string filename, CancellationToken cancellationToken = default) 48. { 49. long startPosition; 50. var fileInfo = new FileInfo(filename); 51. 52. if (fileInfo.Exists) 53. { 54. startPosition = fileInfo.Length; 55. if (startPosition == uri.GetFileSize()) 56. { 57. Console.WriteLine($"The file '{filename}' has already been downloaded."); 58. return; 59. } 60. } 61. else 62. { 63. startPosition = 0; 64. } 65. 66. using var fs = new FileStream(filename, startPosition == 0 ? FileMode.Create : FileMode.Append); 67. 68. var rangeHeader = new RangeHeaderValue(startPosition, null); 69. 70. var request = new HttpRequestMessage(HttpMethod.Get, uri); 71. request.Headers.Range = rangeHeader; 72. 73. using var response = await HttpClient.SendAsync(request, HttpCompletionOption.ResponseHeadersRead, cancellationToken); 74. var contentLength = response.Content.Headers.ContentLength; 75. if (!contentLength.HasValue) 76. { 77. throw new InvalidOperationException("The server did not provide the content length."); 78. } 79. 80. var totalSize = contentLength.Value + startPosition; 81. 82. using var stream = await response.Content.ReadAsStreamAsync(cancellationToken); 83. await stream.CopyToAsync(fs); 84. 85. if (fs.Length != totalSize) 86. { 87. fileInfo.Refresh(); 88. if (fileInfo.Length < totalSize) 89. { 90. throw new InvalidOperationException($"The file '{filename}' was not downloaded correctly."); 91. } 92. } 93. 94. Console.WriteLine($"The file '{filename}' has been downloaded."); 95. } 96. 97. public static async Task UploadFileAsync(Uri uri, string filename, int bufferSize = 4096, CancellationToken cancellationToken = default) 98. { 99. long startPosition; 100. var fileInfo = new FileInfo(filename); 101. 102. if (fileInfo.Exists) 103. { 104. startPosition = fileInfo.Length; 105. } 106. else 107. { 108. throw new FileNotFoundException("The file was not found.", filename); 109. } 110. 111. using var fs = new FileStream(filename, FileMode.Open); 112. 113. var rangeHeader = new RangeHeaderValue(startPosition, fs.Length - 1); 114. 115. var request = new HttpRequestMessage(HttpMethod.Put, uri); 116. request.Headers.Range = rangeHeader; 117. request.Headers.TryAddWithoutValidation("Content-Type", "application/octet-stream"); 118. 119. var content = new StreamContent(fs, bufferSize); 120. request.Content = content; 121. 122. using var response = await HttpClient.SendAsync(request, cancellationToken); 123. 124. if (!response.IsSuccessStatusCode) 125. { 126. var responseMessage = await response.Content.ReadAsStringAsync(); 127. throw new InvalidOperationException($"Failed to upload file: {response.StatusCode} {responseMessage}"); 128. } 129. 130. Console.WriteLine($"The file '{filename}' has been uploaded."); 131. } 132. } 133. 134. public static class UriExtensions 135. { 136. public static long GetFileSize(this Uri uri) 137. { 138. using var client = new HttpClient(); 139. using var response = client.Send(new HttpRequestMessage(HttpMethod.Head, uri)); 140. var contentLength = response.Content.Headers.ContentLength; 141. if (!contentLength.HasValue) 142. { 143. throw new InvalidOperationException("The server did not provide the content length."); 144. } 145. 146. return contentLength.Value; 147. } 148. } 149. } 总结 断点续传功能可以在文件传输的过程中,提高传输质量和效率,确保数据传输的安全性和稳定性。在本文中,我们介绍了C#中实现HTTP协议断点续传的方法,并提供了完整的代码示例。希望读者通过本文的介绍,能够成功实现断点续传功能,并在实际工作中应用到相应的场景中去。 该文章在 2024/3/12 23:35:13 编辑过 |
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