Example #1
0
        /// <summary>
        /// Uploads a multi-part download to a release and then publishes the release.
        /// </summary>
        /// <param name="repo">Identifies the target repository.</param>
        /// <param name="release">The target release.</param>
        /// <param name="sourcePath">Path to the file being uploaded.</param>
        /// <param name="version">The download version.</param>
        /// <param name="name">Optionally overrides the download file name specified by <paramref name="sourcePath"/> to initialize <see cref="DownloadManifest.Name"/>.</param>
        /// <param name="filename">Optionally overrides the download file name specified by <paramref name="sourcePath"/> to initialize <see cref="DownloadManifest.Filename"/>.</param>
        /// <param name="noMd5File">
        /// This method creates a file named [<paramref name="sourcePath"/>.md5] with the MD5 hash for the entire
        /// uploaded file by default.  You may override this behavior by passing <paramref name="noMd5File"/>=<c>true</c>.
        /// </param>
        /// <param name="maxPartSize">Optionally overrides the maximum part size (defailts to 100 MiB).</param>d
        /// <returns>The <see cref="DownloadManifest"/>.</returns>
        /// <remarks>
        /// <para>
        /// The release passed must be unpublished and you may upload other assets before calling this.
        /// </para>
        /// <note>
        /// Take care that any assets already published have names that won't conflict with the asset
        /// part names, which will be formatted like: <b>part-##</b>
        /// </note>
        /// </remarks>
        public DownloadManifest UploadMultipartAsset(
            string repo,
            Release release,
            string sourcePath,
            string version,
            string name      = null,
            string filename  = null,
            bool noMd5File   = false,
            long maxPartSize = (long)(100 * ByteUnits.MebiBytes))
        {
            Covenant.Requires <ArgumentNullException>(!string.IsNullOrEmpty(repo), nameof(repo));
            Covenant.Requires <ArgumentNullException>(release != null, nameof(release));
            Covenant.Requires <ArgumentNullException>(!string.IsNullOrEmpty(sourcePath), nameof(sourcePath));
            Covenant.Requires <ArgumentNullException>(!string.IsNullOrEmpty(version), nameof(version));

            name     = name ?? Path.GetFileName(sourcePath);
            filename = filename ?? Path.GetFileName(sourcePath);

            using (var input = File.OpenRead(sourcePath))
            {
                if (input.Length == 0)
                {
                    throw new IOException($"Asset at [{sourcePath}] cannot be empty.");
                }

                var assetPartMap = new List <Tuple <ReleaseAsset, DownloadPart> >();
                var manifest     = new DownloadManifest()
                {
                    Name = name, Version = version, Filename = filename
                };
                var partCount   = NeonHelper.PartitionCount(input.Length, maxPartSize);
                var partNumber  = 0;
                var partStart   = 0L;
                var cbRemaining = input.Length;

                manifest.Md5   = CryptoHelper.ComputeMD5String(input);
                input.Position = 0;

                while (cbRemaining > 0)
                {
                    var partSize = Math.Min(cbRemaining, maxPartSize);
                    var part     = new DownloadPart()
                    {
                        Number = partNumber,
                        Size   = partSize,
                    };

                    // We're going to use a substream to compute the MD5 hash for the part
                    // as well as to actually upload the part to the GitHub release.

                    using (var partStream = new SubStream(input, partStart, partSize))
                    {
                        part.Md5            = CryptoHelper.ComputeMD5String(partStream);
                        partStream.Position = 0;

                        var asset = GitHub.Releases.UploadAsset(repo, release, partStream, $"part-{partNumber:0#}");

                        assetPartMap.Add(new Tuple <ReleaseAsset, DownloadPart>(asset, part));
                    }

                    manifest.Parts.Add(part);

                    // Loop to handle the next part (if any).

                    partNumber++;
                    partStart   += partSize;
                    cbRemaining -= partSize;
                }

                manifest.Size = manifest.Parts.Sum(part => part.Size);

                // Publish the release.

                var releaseUpdate = release.ToUpdate();

                releaseUpdate.Draft = false;

                release = GitHub.Releases.Update(repo, release, releaseUpdate);

                // Now that the release has been published, we can go back and fill in
                // the asset URIs for each of the download parts.

                foreach (var item in assetPartMap)
                {
                    item.Item2.Uri = GitHub.Releases.GetAssetUri(release, item.Item1);
                }

                // Write the MD5 file unless disabled.

                if (!noMd5File)
                {
                    File.WriteAllText($"{sourcePath}.md5", manifest.Md5);
                }

                return(manifest);
            }
        }
Example #2
0
        /// <summary>
        /// <para>
        /// Uploads a file in multiple parts from the local workstation to S3, returning the
        /// <see cref="DownloadManifest"/> details. required by <see cref="DeploymentHelper.DownloadMultiPart(DownloadManifest, string, DownloadProgressDelegate, IRetryPolicy, TimeSpan)"/>
        /// and <see cref="DeploymentHelper.DownloadMultiPartAsync(DownloadManifest, string, DownloadProgressDelegate, TimeSpan, IRetryPolicy, System.Threading.CancellationToken)"/>
        /// to actually download the entire file.  The URI to the uploaded <see cref="DownloadManifest"/> details is also returned.
        /// </para>
        /// <para>
        /// See the remarks for details about how this works.
        /// </para>
        /// </summary>
        /// <param name="sourcePath">Path to the file being uploaded.</param>
        /// <param name="targetFolderUri">
        /// <para>
        /// The target S3 URI structured like <b>https://s3.REGION.amazonaws.com/BUCKET/...</b>
        /// URI referencing an S3 bucket and the optional folder where the file's download information
        /// and parts will be uploaded.
        /// </para>
        /// <note>
        /// The <b>s3://</b> URI scheme is not supported.
        /// </note>
        /// </param>
        /// <param name="version">Optionally specifies the download file version.</param>
        /// <param name="name">Optionally overrides the download file name specified by <paramref name="sourcePath"/> to initialize <see cref="DownloadManifest.Name"/>.</param>
        /// <param name="filename">Optionally overrides the download file name specified by <paramref name="sourcePath"/> to initialize <see cref="DownloadManifest.Filename"/>.</param>
        /// <param name="noMd5File">
        /// This method creates a file named [<paramref name="sourcePath"/>.md5] with the MD5 hash for the entire
        /// uploaded file by default.  You may override this behavior by passing <paramref name="noMd5File"/>=<c>true</c>.
        /// </param>
        /// <param name="maxPartSize">Optionally overrides the maximum part size (defailts to 100 MiB).</param>
        /// <param name="publicReadAccess">Optionally grant the upload public read access.</param>
        /// <param name="progressAction">Optional action called as the file is uploaded, passing the <c>long</c> percent complete.</param>
        /// <returns>The <see cref="DownloadManifest"/> information.</returns>
        /// <returns>The <see cref="DownloadManifest"/> information as well as the URI to the uploaded manifest.</returns>
        /// <remarks>
        /// <para>
        /// This method works by splitting the <paramref name="sourcePath"/> file into parts no larger than
        /// <paramref name="maxPartSize"/> bytes each and the uploading these parts to the specified bucket
        /// and path along with a file holding <see cref="DownloadManifest"/> information describing the download
        /// and its constituent parts.  This information includes details about the download including the
        /// overall MD5 and size as well records describing each part including their URIs, sizes and MD5.
        /// </para>
        /// <para>
        /// The <see cref="DownloadManifest"/> details returned include all of the information required by
        /// <see cref="DeploymentHelper.DownloadMultiPart(DownloadManifest, string, DownloadProgressDelegate, IRetryPolicy, TimeSpan)"/> and
        /// <see cref="DeploymentHelper.DownloadMultiPartAsync(DownloadManifest, string, DownloadProgressDelegate, TimeSpan, IRetryPolicy, System.Threading.CancellationToken)"/>
        /// to actually download the entire file and the URI returned references these msame details as
        /// uploaded to S3.
        /// </para>
        /// <para>
        /// You'll need to pass <paramref name="sourcePath"/> as the path to the file being uploaded
        /// and <paramref name="targetFolderUri"/> as the S3 location where the download information and the
        /// file parts will be uploaded.  <paramref name="targetFolderUri"/> may use with the <b>https://</b>
        /// or <b>s3://</b> URI scheme.
        /// </para>
        /// <para>
        /// By default the uploaded file and parts names will be based on the filename part of <paramref name="sourcePath"/>,
        /// but this can be overridden via <paramref name="filename"/>.  The <see cref="DownloadManifest"/> information for the
        /// file will be uploaded as <b>FILENAME.manifest</b> and the parts will be written to a subfolder named
        /// <b>FILENAME.parts</b>.  For example, uploading a large file named <b>myfile.json</b> to <b>https://s3.uswest.amazonaws.com/mybucket</b>
        /// will result S3 file layout like:
        /// </para>
        /// <code>
        /// https://s3.uswest.amazonaws.com/mybucket
        ///     myfile.json.manifest
        ///     myfile.json.parts/
        ///         part-0000
        ///         part-0001
        ///         part-0002
        ///         ...
        /// </code>
        /// <para>
        /// The URI returned in this case will be <b>https://s3.uswest.amazonaws.com/mybucket/myfile.json.manifest</b>.
        /// </para>
        /// </remarks>
        public static (DownloadManifest manifest, string manifestUri) S3UploadMultiPart(
            string sourcePath,
            string targetFolderUri,
            string version               = null,
            string name                  = null,
            string filename              = null,
            bool noMd5File               = false,
            long maxPartSize             = (long)(100 * ByteUnits.MebiBytes),
            bool publicReadAccess        = false,
            Action <long> progressAction = null)
        {
            Covenant.Requires <ArgumentNullException>(!string.IsNullOrEmpty(sourcePath), nameof(sourcePath));
            Covenant.Requires <ArgumentNullException>(!string.IsNullOrEmpty(targetFolderUri), nameof(targetFolderUri));

            if (!Uri.TryCreate(targetFolderUri, UriKind.Absolute, out var uriCheck))
            {
                Covenant.Assert(false, $"Invalid [{nameof(targetFolderUri)}={targetFolderUri}].");
            }

            Covenant.Assert(uriCheck.Scheme == "https", $"Invalid scheme in [{nameof(targetFolderUri)}={targetFolderUri}].  Only [https://] is supported.");

            name     = name ?? Path.GetFileName(sourcePath);
            filename = filename ?? Path.GetFileName(sourcePath);

            // Determine the base URI for the download manifest and parts on S3.

            var baseUri = targetFolderUri;

            if (!baseUri.EndsWith('/'))
            {
                baseUri += '/';
            }

            baseUri += filename;

            // Remove any existing manifest object as well as any parts.

            var manifestUri = $"{baseUri}.manifest";
            var partsFolder = $"{baseUri}.parts/";

            if (progressAction != null)
            {
                progressAction(0L);
            }

            S3Remove(manifestUri);
            S3Remove(partsFolder, recursive: true, include: $"{partsFolder}*");

            // We're going to upload the parts first, while initializing the download manifest as we go.

            var manifest = new DownloadManifest()
            {
                Name = name, Version = version, Filename = filename
            };

            using (var input = File.OpenRead(sourcePath))
            {
                var partCount   = NeonHelper.PartitionCount(input.Length, maxPartSize);
                var partNumber  = 0;
                var partStart   = 0L;
                var cbRemaining = input.Length;

                manifest.Md5   = CryptoHelper.ComputeMD5String(input);
                input.Position = 0;

                while (cbRemaining > 0)
                {
                    var partSize = Math.Min(cbRemaining, maxPartSize);
                    var part     = new DownloadPart()
                    {
                        Uri    = $"{partsFolder}part-{partNumber:000#}",
                        Number = partNumber,
                        Size   = partSize,
                    };

                    // We're going to use a substream to compute the MD5 hash for the part
                    // as well as to actually upload the part to S3.

                    using (var partStream = new SubStream(input, partStart, partSize))
                    {
                        part.Md5            = CryptoHelper.ComputeMD5String(partStream);
                        partStream.Position = 0;

                        S3Upload(partStream, part.Uri, publicReadAccess: publicReadAccess);
                    }

                    manifest.Parts.Add(part);

                    // Loop to handle the next part (if any).

                    partNumber++;
                    partStart   += partSize;
                    cbRemaining -= partSize;

                    if (progressAction != null)
                    {
                        progressAction(Math.Min(99L, (long)(100.0 * (double)partNumber / (double)partCount)));
                    }
                }

                manifest.Size = manifest.Parts.Sum(part => part.Size);
            }

            // Upload the manifest.

            S3UploadText(NeonHelper.JsonSerialize(manifest, Formatting.Indented), manifestUri, metadata: $"Content-Type={DeploymentHelper.DownloadManifestContentType}", publicReadAccess: publicReadAccess);

            // Write the MD5 file unless disabled.

            if (!noMd5File)
            {
                File.WriteAllText($"{sourcePath}.md5", manifest.Md5);
            }

            if (progressAction != null)
            {
                progressAction(100L);
            }

            return(manifest : manifest, manifestUri : manifestUri);
        }