private bool IsSupported(NuGetFramework inboxFx, NuGetAssetResolver resolver)
{
var compileAssets = resolver.ResolveCompileAssets(inboxFx);
// We assume that packages will only support inbox frameworks with lib/tfm assets and not runtime specific assets.
// This effectively means we'll never reduce dependencies if a package happens to support an inbox framework with
// a RID asset, but that is OK because RID assets can only be used by nuget3 + project.json
// and we don't care about reducing dependencies for project.json because indirect dependencies are hidden.
var runtimeAssets = resolver.ResolveRuntimeAssets(inboxFx, null);
foreach (var compileAsset in compileAssets.Where(c => !NuGetAssetResolver.IsPlaceholder(c)))
{
string fileName = Path.GetFileName(compileAsset);
if (!runtimeAssets.Any(r => Path.GetFileName(r).Equals(fileName, StringComparison.OrdinalIgnoreCase)))
{
// ref with no matching lib
return(false);
}
}
// Either all compile assets had matching runtime assets, or all were placeholders, make sure we have at
// least one runtime asset to cover the placeholder case
return(runtimeAssets.Any());
}
private void ExamineAssets(string assetType, string package, string target, IEnumerable <string> runtimeItems, out bool hasRealAsset, out bool hasPlaceHolder)
{
hasPlaceHolder = false;
hasRealAsset = false;
StringBuilder assetLog = new StringBuilder($"{assetType} assets for {ContractName} on {target}: ");
if (runtimeItems != null && runtimeItems.Any())
{
foreach (var runtimeItem in runtimeItems)
{
assetLog.AppendLine();
assetLog.Append($" {runtimeItem}");
if (!hasRealAsset && NuGetAssetResolver.IsPlaceholder(runtimeItem))
{
hasPlaceHolder = true;
}
else
{
hasRealAsset = true;
hasPlaceHolder = false;
}
}
}
else
{
assetLog.AppendLine();
assetLog.Append(" <none>");
}
Log.LogMessage(LogImportance.Low, assetLog.ToString());
}
private IEnumerable <string> GetRuntimeAssetFoldersForPromotion(ContentItemGroup runtimeAssets, NuGetFramework targetFramework, string targetFrameworkName)
{
if (runtimeAssets == null || runtimeAssets.Items.Count == 0)
{
return(Enumerable.Empty <string>());
}
if (runtimeAssets.Items.All(ci => NuGetAssetResolver.IsPlaceholder(ci.Path)))
{
return(Enumerable.Empty <string>());
}
if (targetFrameworkName == null)
{
targetFrameworkName = targetFramework.GetShortFolderName();
}
var resolvedFramework = runtimeAssets.Properties["tfm"] as NuGetFramework;
if (targetFramework.Equals(resolvedFramework))
{
Log.LogMessage(LogImportance.Low, $"Not promoting explicit implementation for {targetFrameworkName}");
return(Enumerable.Empty <string>());
}
return(NuGetAssetResolver.GetPackageTargetDirectories(runtimeAssets));
}
public override bool Execute()
{
_packageItems = Files.Select(f => new PackageItem(f));
var packageDlls = _packageItems.Where(pi => Path.GetExtension(pi.SourcePath).Equals(".dll", StringComparison.OrdinalIgnoreCase));
var packagePaths = _packageItems.Select(pi => pi.TargetPath);
var packagePathsWithoutPlaceHolders = packagePaths.Where(pi => !NuGetAssetResolver.IsPlaceholder(pi));
if (!String.IsNullOrEmpty(RuntimeJson) && !File.Exists(RuntimeJson))
{
Log.LogError("Could not load runtime file: {0}", RuntimeJson);
RuntimeJson = null;
}
NuGetAssetResolver resolver = new NuGetAssetResolver(RuntimeJson, packagePaths);
NuGetAssetResolver obscuredResolver = new NuGetAssetResolver(RuntimeJson, packagePathsWithoutPlaceHolders);
List <ITaskItem> newItems = new List <ITaskItem>();
// determine if an inbox placeholder obscures an OOB implementation.
foreach (var oobFx in OOBFrameworks)
{
NuGetFramework targetFramework = NuGetFramework.Parse(oobFx);
// first see if any dlls are explicitly marked for this framework.
IEnumerable <string> obscuredCompileFolders = packageDlls.Where(pi => pi.OriginalItem.GetMetadata("EnsureOOBFrameworkRef") == oobFx).Select(pi => pi.TargetDirectory);
if (!obscuredCompileFolders.Any())
{
// no dlls were marked, resolve without placeholders to determine what to promote.
var compileItems = resolver.GetCompileItems(targetFramework);
var obscuredCompileItems = obscuredResolver.GetCompileItems(targetFramework);
obscuredCompileFolders = GetObscuredAssetFolders(compileItems, obscuredCompileItems, targetFramework, targetFrameworkName: oobFx, expectedAssetFolder: "ref", ignoredAssetFolder: "lib");
}
var promotedCompileItems = ExpandAssetFoldersToItems(obscuredCompileFolders, targetAssetFolder: "ref", targetFrameworkName: oobFx);
newItems.AddRange(promotedCompileItems);
// don't use 'any' in paths due to https://github.com/NuGet/Home/issues/1676
string targetLibFolder = !String.IsNullOrEmpty(RuntimeId) && RuntimeId != "any" ? $"runtimes/{RuntimeId}/lib" : "lib";
IEnumerable <string> obscuredRuntimeFolders = packageDlls.Where(pi => pi.OriginalItem.GetMetadata("EnsureOOBFrameworkLib") == oobFx).Select(pi => pi.TargetDirectory);
if (!obscuredRuntimeFolders.Any())
{
var runtimeItems = resolver.GetRuntimeItems(targetFramework, RuntimeId);
var obscuredRuntimeItems = obscuredResolver.GetRuntimeItems(targetFramework, RuntimeId);
obscuredRuntimeFolders = GetObscuredAssetFolders(runtimeItems, obscuredRuntimeItems, targetFramework, targetFrameworkName: oobFx, expectedAssetFolder: targetLibFolder);
}
var promotedRuntimeItems = ExpandAssetFoldersToItems(obscuredRuntimeFolders, targetLibFolder, targetFrameworkName: oobFx);
newItems.AddRange(promotedRuntimeItems);
}
AdditionalFiles = newItems.ToArray();
return(!Log.HasLoggedErrors);
}
private IEnumerable <string> GetObscuredAssetFolders(ContentItemGroup assets, ContentItemGroup obscuredAssets, NuGetFramework targetFramework, string targetFrameworkName, string expectedAssetFolder, string ignoredAssetFolder = null)
{
if (assets == null || assets.Items.Count == 0)
{
return(Enumerable.Empty <string>());
}
if (assets.Items.Any(ci => !NuGetAssetResolver.IsPlaceholder(ci.Path)))
{
return(Enumerable.Empty <string>());
}
if (targetFrameworkName == null)
{
targetFrameworkName = targetFramework.GetShortFolderName();
}
var resolvedFramework = assets.Properties["tfm"] as NuGetFramework;
if (targetFramework.Equals(resolvedFramework))
{
Log.LogMessage(LogImportance.Low, $"Not overriding explicit placeholder for {targetFrameworkName}");
return(Enumerable.Empty <string>());
}
var obscuredAssetPaths = NuGetAssetResolver.GetPackageTargetDirectories(obscuredAssets);
if (ignoredAssetFolder != null)
{
string ignoredFolder = ignoredAssetFolder + '/';
obscuredAssetPaths = obscuredAssetPaths.Where(i => - 1 == i.IndexOf(ignoredFolder, StringComparison.OrdinalIgnoreCase));
}
if (expectedAssetFolder != null)
{
var unexpectedAssetPaths = obscuredAssetPaths.Where(ri => !ri.StartsWith(expectedAssetFolder, StringComparison.OrdinalIgnoreCase));
foreach (var unexpectedAssetPath in unexpectedAssetPaths)
{
Log.LogWarning($"Unexpected targetPath {unexpectedAssetPath}. Expected only {expectedAssetFolder}.");
}
// filter after we've warned
obscuredAssetPaths = obscuredAssetPaths.Except(unexpectedAssetPaths);
}
if (!obscuredAssetPaths.Any())
{
// it's acceptable to have no override, this is the case for packages which
// carry implementation in a runtime-specific package
Log.LogMessage(LogImportance.Low, $"No {expectedAssetFolder} assets could be found to override inbox placeholder for {targetFrameworkName}.");
}
return(obscuredAssetPaths);
}
public PackageItem(ITaskItem item)
{
OriginalItem = item;
SourcePath = item.GetMetadata("FullPath");
SourceProject = GetMetadata("MSBuildSourceProjectFile");
string value = GetMetadata("TargetFramework");
if (!String.IsNullOrWhiteSpace(value))
{
TargetFramework = NuGetFramework.Parse(value);
}
TargetPath = item.GetMetadata(nameof(TargetPath));
AdditionalProperties = GetMetadata(nameof(AdditionalProperties));
UndefineProperties = GetMetadata(nameof(UndefineProperties));
HarvestedFrom = GetMetadata(nameof(HarvestedFrom));
Package = GetMetadata("PackageId");
PackageVersion = GetMetadata("PackageVersion");
IsDll = Path.GetExtension(SourcePath).Equals(".dll", StringComparison.OrdinalIgnoreCase);
IsPlaceholder = NuGetAssetResolver.IsPlaceholder(SourcePath);
IsRef = TargetPath.StartsWith("ref/", StringComparison.OrdinalIgnoreCase);
// determine if we need to append filename to TargetPath
// see https://docs.nuget.org/create/nuspec-reference#specifying-files-to-include-in-the-package
// SourcePath specifies file and target specifies file - do nothing
// SourcePath specifies file and Target specifies directory - copy filename
// SourcePath specifies wildcard files - copy wildcard
// SourcePath specifies recursive wildcard - do not allow, recursive directory may impact asset selection
// we don't want to attempt to expand the wildcard since the build may not yet be complete.
if (SourcePath.Contains("**"))
{
throw new ArgumentException($"Recursive wildcards \"**\" are not permitted in source paths for packages: {SourcePath}. Recursive directory may impact asset selection and we don't want to attempt to expand the wildcard since the build may not yet be complete.");
}
string sourceFile = Path.GetFileName(SourcePath);
if (!Path.GetExtension(TargetPath).Equals(Path.GetExtension(sourceFile), StringComparison.OrdinalIgnoreCase) ||
sourceFile.Contains("*"))
{
TargetPath = Path.Combine(TargetPath, sourceFile);
}
// standardize to /
TargetPath = TargetPath.Replace('\\', '/');
int dirLength = TargetPath.LastIndexOf('/');
TargetDirectory = (dirLength > 0) ? TargetPath.Substring(0, dirLength) : String.Empty;
}
private void UpdateFromPackage(PackageIndex index, string packagePath, bool filter = false)
{
string id;
NuGetVersion version;
IEnumerable <Version> assemblyVersions;
using (var reader = new PackageArchiveReader(packagePath))
{
var identity = reader.GetIdentity();
id = identity.Id;
version = identity.Version;
if (filter && !ShouldInclude(id))
{
return;
}
var refFiles = reader.GetFiles("ref").Where(r => !NuGetAssetResolver.IsPlaceholder(r));
if (!refFiles.Any())
{
refFiles = reader.GetFiles("lib");
}
assemblyVersions = refFiles.Select(refFile =>
{
using (var refStream = reader.GetStream(refFile))
using (var memStream = new MemoryStream())
{
refStream.CopyTo(memStream);
memStream.Seek(0, SeekOrigin.Begin);
return(VersionUtility.GetAssemblyVersion(memStream));
}
}).ToArray();
}
UpdateFromValues(index, id, version, assemblyVersions);
}
private void ValidateSupport()
{
var runtimeFxSuppression = GetSuppressionValues(Suppression.PermitRuntimeTargetMonikerMismatch) ?? new HashSet <string>();
ValidationReport report = null;
if (ValidationReport != null)
{
report = CreateValidationReport();
}
// validate support for each TxM:RID
foreach (var validateFramework in _frameworks.Values)
{
NuGetFramework fx = validateFramework.Framework;
Version supportedVersion = validateFramework.SupportedVersion;
var compileAssetPaths = _resolver.ResolveCompileAssets(fx, PackageId);
bool hasCompileAsset, hasCompilePlaceHolder;
NuGetAssetResolver.ExamineAssets(Log, "Compile", ContractName, fx.ToString(), compileAssetPaths, out hasCompileAsset, out hasCompilePlaceHolder);
if (report != null && validateFramework.RuntimeIds.All(rid => !String.IsNullOrEmpty(rid)))
{
// Add Framework only (compile) target if all RIDs are non-empty.
// This acts as a compile target for a framework that requires a RID for runtime.
var reportTarget = new Target()
{
Framework = fx.ToString(),
RuntimeID = null,
CompileAssets = compileAssetPaths.Where(c => !NuGetAssetResolver.IsPlaceholder(c)).Select(c => GetPackageAssetFromTargetPath(c)).ToArray()
};
report.Targets.Add(fx.ToString(), reportTarget);
}
// resolve/test for each RID associated with this framework.
foreach (string runtimeId in validateFramework.RuntimeIds)
{
string target = String.IsNullOrEmpty(runtimeId) ? fx.ToString() : $"{fx}/{runtimeId}";
var runtimeAssetPaths = _resolver.ResolveRuntimeAssets(fx, runtimeId);
bool hasRuntimeAsset, hasRuntimePlaceHolder;
NuGetAssetResolver.ExamineAssets(Log, "Runtime", ContractName, target, runtimeAssetPaths, out hasRuntimeAsset, out hasRuntimePlaceHolder);
if (null == supportedVersion)
{
// Contract should not be supported on this platform.
bool permitImplementation = HasSuppression(Suppression.PermitImplementation, target);
if (hasCompileAsset && (hasRuntimeAsset & !permitImplementation))
{
Log.LogError($"{ContractName} should not be supported on {target} but has both compile and runtime assets.");
}
else if (hasRuntimeAsset & !permitImplementation)
{
Log.LogError($"{ContractName} should not be supported on {target} but has runtime assets.");
}
if (hasRuntimePlaceHolder && hasCompilePlaceHolder)
{
Log.LogError($"{ContractName} should not be supported on {target} but has placeholders for both compile and runtime which will permit the package to install.");
}
}
else
{
if (report != null)
{
var reportTarget = new Target()
{
Framework = fx.ToString(),
RuntimeID = runtimeId,
CompileAssets = compileAssetPaths.Where(c => !NuGetAssetResolver.IsPlaceholder(c)).Select(c => GetPackageAssetFromTargetPath(c)).ToArray(),
RuntimeAssets = runtimeAssetPaths.Where(r => !NuGetAssetResolver.IsPlaceholder(r)).Select(r => GetPackageAssetFromTargetPath(r)).ToArray()
};
report.Targets.Add(target, reportTarget);
}
if (validateFramework.IsInbox)
{
if (!hasCompileAsset && !hasCompilePlaceHolder)
{
Log.LogError($"Framework {fx} should support {ContractName} inbox but was missing a placeholder for compile-time. You may need to add <InboxOnTargetFramework Include=\"{fx.GetShortFolderName()}\" /> to your project.");
}
else if (hasCompileAsset)
{
Log.LogError($"Framework {fx} should support {ContractName} inbox but contained a reference assemblies: {String.Join(", ", compileAssetPaths)}. You may need to add <InboxOnTargetFramework Include=\"{fx.GetShortFolderName()}\" /> to your project.");
}
if (!hasRuntimeAsset && !hasRuntimePlaceHolder)
{
Log.LogError($"Framework {fx} should support {ContractName} inbox but was missing a placeholder for run-time. You may need to add <InboxOnTargetFramework Include=\"{fx.GetShortFolderName()}\" /> to your project.");
}
else if (hasRuntimeAsset)
{
Log.LogError($"Framework {fx} should support {ContractName} inbox but contained a implementation assemblies: {String.Join(", ", runtimeAssetPaths)}. You may need to add <InboxOnTargetFramework Include=\"{fx.GetShortFolderName()}\" /> to your project.");
}
}
else
{
Version referenceAssemblyVersion = null;
if (!hasCompileAsset)
{
Log.LogError($"{ContractName} should be supported on {target} but has no compile assets.");
}
else
{
var referenceAssemblies = compileAssetPaths.Where(IsDll);
if (referenceAssemblies.Count() > 1)
{
Log.LogError($"{ContractName} should only contain a single compile asset for {target}.");
}
foreach (var referenceAssembly in referenceAssemblies)
{
referenceAssemblyVersion = _targetPathToPackageItem[referenceAssembly].Version;
if (!VersionUtility.IsCompatibleApiVersion(supportedVersion, referenceAssemblyVersion))
{
Log.LogError($"{ContractName} should support API version {supportedVersion} on {target} but {referenceAssembly} was found to support {referenceAssemblyVersion?.ToString() ?? "<unknown version>"}.");
}
}
}
if (!hasRuntimeAsset && !FrameworkUtilities.IsGenerationMoniker(validateFramework.Framework))
{
Log.LogError($"{ContractName} should be supported on {target} but has no runtime assets.");
}
else
{
var implementationAssemblies = runtimeAssetPaths.Where(IsDll);
Dictionary <string, string> implementationFiles = new Dictionary <string, string>();
foreach (var implementationAssembly in implementationAssemblies)
{
var packageItem = _targetPathToPackageItem[implementationAssembly];
Version implementationVersion = packageItem.Version;
if (!VersionUtility.IsCompatibleApiVersion(supportedVersion, implementationVersion))
{
Log.LogError($"{ContractName} should support API version {supportedVersion} on {target} but {implementationAssembly} was found to support {implementationVersion?.ToString() ?? "<unknown version>"}.");
}
// Previously we only permitted compatible mismatch if Suppression.PermitHigherCompatibleImplementationVersion was specified
// this is a permitted thing on every framework but desktop (which requires exact match to ensure bindingRedirects exist)
// Now make this the default, we'll check desktop, where it matters, more strictly
if (referenceAssemblyVersion != null &&
!VersionUtility.IsCompatibleApiVersion(referenceAssemblyVersion, implementationVersion))
{
Log.LogError($"{ContractName} has mismatched compile ({referenceAssemblyVersion}) and runtime ({implementationVersion}) versions on {target}.");
}
if (fx.Framework == FrameworkConstants.FrameworkIdentifiers.Net &&
!referenceAssemblyVersion.Equals(implementationVersion))
{
Log.LogError($"{ContractName} has a higher runtime version ({implementationVersion}) than compile version ({referenceAssemblyVersion}) on .NET Desktop framework {target}. This will break bindingRedirects.");
}
string fileName = Path.GetFileName(implementationAssembly);
if (implementationFiles.ContainsKey(fileName))
{
Log.LogError($"{ContractName} includes both {implementationAssembly} and {implementationFiles[fileName]} an on {target} which have the same name and will clash when both packages are used.");
}
else
{
implementationFiles[fileName] = implementationAssembly;
}
if (packageItem.TargetFramework != fx && !runtimeFxSuppression.Contains(fx.ToString()))
{
// the selected asset wasn't an exact framework match, let's see if we have an exact match in any other runtime asset.
var matchingFxAssets = _targetPathToPackageItem.Values.Where(i => i.TargetFramework == fx && // exact framework
// Same file
Path.GetFileName(i.TargetPath).Equals(fileName, StringComparison.OrdinalIgnoreCase) &&
// Is implementation
(i.TargetPath.StartsWith("lib") || i.TargetPath.StartsWith("runtimes")) &&
// is not the same source file as was already selected
i.SourcePath != packageItem.SourcePath);
if (matchingFxAssets.Any())
{
Log.LogError($"When targeting {target} {ContractName} will use {implementationAssembly} which targets {packageItem.TargetFramework.GetShortFolderName()} but {String.Join(";", matchingFxAssets.Select(i => i.TargetPath))} targets {fx.GetShortFolderName()} specifically.");
}
}
}
}
}
}
}
}
// Set output items
AllSupportedFrameworks = _frameworks.Values.Where(fx => fx.SupportedVersion != null).Select(fx => fx.ToItem()).OrderBy(i => i.ItemSpec).ToArray();
if (!String.IsNullOrEmpty(ValidationReport))
{
report.Save(ValidationReport);
}
}
private void HarvestSupportedFrameworks()
{
List <ITaskItem> supportedFrameworks = new List <ITaskItem>();
AggregateNuGetAssetResolver resolver = new AggregateNuGetAssetResolver(RuntimeFile);
string packagePath = Path.Combine(PackagesFolder, PackageId, PackageVersion);
// add the primary package
resolver.AddPackageItems(PackageId, GetPackageItems(packagePath));
if (RuntimePackages != null)
{
// add any split runtime packages
foreach (var runtimePackage in RuntimePackages)
{
var runtimePackageId = runtimePackage.ItemSpec;
var runtimePackageVersion = runtimePackage.GetMetadata("Version");
resolver.AddPackageItems(runtimePackageId, GetPackageItems(PackagesFolder, runtimePackageId, runtimePackageVersion));
}
}
// create a resolver that can be used to determine the API version for inbox assemblies
// since inbox assemblies are represented with placeholders we can remove the placeholders
// and use the netstandard reference assembly to determine the API version
var filesWithoutPlaceholders = GetPackageItems(packagePath)
.Where(f => !NuGetAssetResolver.IsPlaceholder(f));
NuGetAssetResolver resolverWithoutPlaceholders = new NuGetAssetResolver(RuntimeFile, filesWithoutPlaceholders);
string package = $"{PackageId}/{PackageVersion}";
foreach (var framework in Frameworks)
{
var runtimeIds = framework.GetMetadata("RuntimeIDs")?.Split(';');
NuGetFramework fx;
try
{
fx = FrameworkUtilities.ParseNormalized(framework.ItemSpec);
}
catch (Exception ex)
{
Log.LogError($"Could not parse Framework {framework.ItemSpec}. {ex}");
continue;
}
if (fx.Equals(NuGetFramework.UnsupportedFramework))
{
Log.LogError($"Did not recognize {framework.ItemSpec} as valid Framework.");
continue;
}
var compileAssets = resolver.ResolveCompileAssets(fx, PackageId);
bool hasCompileAsset, hasCompilePlaceHolder;
NuGetAssetResolver.ExamineAssets(Log, "Compile", package, fx.ToString(), compileAssets, out hasCompileAsset, out hasCompilePlaceHolder);
// start by making sure it has some asset available for compile
var isSupported = hasCompileAsset || hasCompilePlaceHolder;
if (!isSupported)
{
Log.LogMessage(LogImportance.Low, $"Skipping {fx} because it is not supported.");
continue;
}
foreach (var runtimeId in runtimeIds)
{
string target = String.IsNullOrEmpty(runtimeId) ? fx.ToString() : $"{fx}/{runtimeId}";
var runtimeAssets = resolver.ResolveRuntimeAssets(fx, runtimeId);
bool hasRuntimeAsset, hasRuntimePlaceHolder;
NuGetAssetResolver.ExamineAssets(Log, "Runtime", package, target, runtimeAssets, out hasRuntimeAsset, out hasRuntimePlaceHolder);
isSupported &= hasCompileAsset == hasRuntimeAsset;
isSupported &= hasCompilePlaceHolder == hasRuntimePlaceHolder;
if (!isSupported)
{
Log.LogMessage(LogImportance.Low, $"Skipping {fx} because it is not supported on {target}.");
break;
}
}
if (isSupported)
{
var supportedFramework = new TaskItem(framework.ItemSpec);
supportedFramework.SetMetadata("HarvestedFromPackage", package);
// set version
// first try the resolved compile asset for this package
var refAssm = compileAssets.FirstOrDefault(r => !NuGetAssetResolver.IsPlaceholder(r))?.Substring(PackageId.Length + 1);
if (refAssm == null)
{
// if we didn't have a compile asset it means this framework is supported inbox with a placeholder
// resolve the assets without placeholders to pick up the netstandard reference assembly.
compileAssets = resolverWithoutPlaceholders.ResolveCompileAssets(fx);
refAssm = compileAssets.FirstOrDefault(r => !NuGetAssetResolver.IsPlaceholder(r));
}
string version = "unknown";
if (refAssm != null)
{
version = VersionUtility.GetAssemblyVersion(Path.Combine(packagePath, refAssm))?.ToString() ?? version;
}
supportedFramework.SetMetadata("Version", version);
Log.LogMessage($"Validating version {version} for {supportedFramework.ItemSpec} because it was supported by {PackageId}/{PackageVersion}.");
supportedFrameworks.Add(supportedFramework);
}
}
SupportedFrameworks = supportedFrameworks.ToArray();
}
/* Given a set of available frameworks ("InboxOnTargetFrameworks"), and a list of desired frameworks,
* reduce the set of frameworks to the minimum set of frameworks which is compatible (preferring inbox frameworks. */
public override bool Execute()
{
if (null == Dependencies)
{
Log.LogError("Dependencies argument must be specified");
return(false);
}
if (null == FrameworkListsPath)
{
Log.LogError("FrameworkListsPath argument must be specified");
return(false);
}
// Retrieve the list of generation dependency group TFM's
var dependencyGroups = Dependencies.GroupBy(d => d.GetMetadata("TargetFramework")).Select(dg => new
{
Framework = NuGetFramework.Parse(dg.Key),
Dependencies = dg.ToArray()
});
List <ITaskItem> addedDependencies = new List <ITaskItem>();
// Exclude any non-portable frameworks that already have specific dependency groups.
var frameworksToExclude = dependencyGroups.Select(dg => dg.Framework).Where(fx => !FrameworkUtilities.IsGenerationMoniker(fx));
// Prepare a resolver for evaluating if candidate frameworks are actually supported by the package
PackageItem[] packageItems = Files.Select(f => new PackageItem(f)).ToArray();
var packagePaths = packageItems.Select(pi => pi.TargetPath);
var targetFrameworksWithPlaceHolders = packageItems.Where(pi => NuGetAssetResolver.IsPlaceholder(pi.TargetPath)).Select(pi => pi.TargetFramework);
NuGetAssetResolver resolver = new NuGetAssetResolver(null, packagePaths);
foreach (var portableDependencyGroup in dependencyGroups.Where(dg => FrameworkUtilities.IsGenerationMoniker(dg.Framework)))
{
// Determine inbox frameworks for this generation that don't already have explicit groups
HashSet <NuGetFramework> inboxFrameworksList = new HashSet <NuGetFramework>(
Frameworks.GetAlllInboxFrameworks(FrameworkListsPath)
.Where(fx => !fx.IsPCL)
.Where(fx => Generations.DetermineGenerationForFramework(fx, UseNetPlatform) >= portableDependencyGroup.Framework.Version &&
!frameworksToExclude.Any(exFx => exFx.Framework == fx.Framework && exFx.Version <= fx.Version)));
// Check for assets which have a ref, but not a lib asset. If we have any of these, then they are actually not supported frameworks
// and we should not include them.
inboxFrameworksList.RemoveWhere(inboxFx => !IsSupported(inboxFx, resolver));
// Only add the lowest version for a particular inbox framework. EG if both net45 and net46 are supported by this generation,
// only add net45
inboxFrameworksList.RemoveWhere(fx => inboxFrameworksList.Any(otherFx => (otherFx.Framework.Equals(fx.Framework)) && (otherFx.Version < fx.Version)));
// Create dependency items for each inbox framework.
foreach (var framework in inboxFrameworksList)
{
bool addedDependencyToFramework = false;
foreach (ITaskItem dependency in portableDependencyGroup.Dependencies)
{
string version = GetVersion(dependency);
if (!Frameworks.IsInbox(FrameworkListsPath, framework, dependency.ItemSpec, version))
{
addedDependencyToFramework = true;
AddDependency(addedDependencies, new TaskItem(dependency), framework, portableDependencyGroup.Framework);
}
}
if (!addedDependencyToFramework)
{
AddDependency(addedDependencies, new TaskItem("_._"), framework, portableDependencyGroup.Framework);
}
}
}
// Collapse frameworks
// For any dependency with a targetframework, if there is another target framework which is compatible and older, remove this dependency.
// Get all Dependencies which are not in a portable dependency group so that we can collapse the frameworks. If we include
// the portable frameworks, then we'll end up collapsing to those.
List <NuGetFramework> allDependencyGroups = new List <NuGetFramework>();
allDependencyGroups.AddRange(Dependencies.Select(d => NuGetFramework.Parse(d.GetMetadata("TargetFramework"))).Where(a => !allDependencyGroups.Contains(a) &&
!FrameworkUtilities.IsGenerationMoniker(a) &&
!FrameworkUtilities.IsPortableMoniker(a)));
allDependencyGroups.AddRange(addedDependencies.Select(d => NuGetFramework.Parse(d.GetMetadata("TargetFramework"))).Where(a => !allDependencyGroups.Contains(a) &&
!FrameworkUtilities.IsGenerationMoniker(a) &&
!FrameworkUtilities.IsPortableMoniker(a)));
List <NuGetFramework> collapsedDependencyGroups = FrameworkUtilities.ReduceDownwards(allDependencyGroups).ToList <NuGetFramework>();
// Get the list of dependency groups that we collapsed down so that we can add them back if they contained different dependencies than what is present in the collapsed group.
/* TODO: Look into NuGet's sorting algorithm, they may have a bug (fixed in this line). They were not including version in the sort.
* See ReduceCore in https://github.com/NuGet/NuGet.Client/blob/23ea68b91a439fcfd7f94bcd01bcdee2e8adae92/src/NuGet.Core/NuGet.Frameworks/FrameworkReducer.cs */
IEnumerable <NuGetFramework> removedDependencyGroups = allDependencyGroups.Where(d => !collapsedDependencyGroups.Contains(d))?.OrderBy(f => f.Framework, StringComparer.OrdinalIgnoreCase).ThenBy(f => f.Version);
foreach (NuGetFramework removedDependencyGroup in removedDependencyGroups)
{
// always recalculate collapsedDependencyGroups in case we added an item in a previous iteration. Dependency groups are sorted, so this should be additive and we shouldn't need to restart the collapse / add back cycle
var nearest = FrameworkUtilities.GetNearest(removedDependencyGroup, collapsedDependencyGroups.ToArray());
// gather the dependencies for this dependency group and the calculated "nearest" dependency group
var nearestDependencies = addedDependencies.Where(d => nearest.Equals(NuGetFramework.Parse(d.GetMetadata("TargetFramework")))).OrderBy(f => f.ToString());
var currentDependencies = addedDependencies.Where(d => removedDependencyGroup.Equals(NuGetFramework.Parse(d.GetMetadata("TargetFramework")))).OrderBy(f => f.ToString());
// The nearest dependency group's dependencies are different than this dependency group's dependencies
if (nearestDependencies.Count() != currentDependencies.Count())
{
// ignore if dependency is a placeholder
if (currentDependencies.Count() > 0)
{
if (!NuGetAssetResolver.IsPlaceholder(currentDependencies.First().ToString()))
{
collapsedDependencyGroups.Add(removedDependencyGroup);
}
}
else
{
collapsedDependencyGroups.Add(removedDependencyGroup);
}
}
// identical dependency count between current and nearest, and the count is > 0
else if (nearestDependencies.Count() > 0)
{
if (!currentDependencies.SequenceEqual(nearestDependencies, new DependencyITaskItemComparer()))
{
collapsedDependencyGroups.Add(removedDependencyGroup);
}
}
}
List <ITaskItem> collapsedDependencies = new List <ITaskItem>();
foreach (ITaskItem dependency in addedDependencies)
{
if (collapsedDependencyGroups.Contains(NuGetFramework.Parse(dependency.GetMetadata("TargetFramework"))))
{
collapsedDependencies.Add(dependency);
}
}
TrimmedDependencies = collapsedDependencies.ToArray();
return(!Log.HasLoggedErrors);
}
private IEnumerable <ITaskItem> CreateLayoutFiles(IEnumerable <PackageAsset> assets, string subFolder, string assetType)
{
return(assets.Where(a => !NuGetAssetResolver.IsPlaceholder(a.LocalPath))
.SelectMany(a => CreateLayoutFile(a.LocalPath, subFolder, assetType)));
}
/* Given a set of available frameworks ("InboxOnTargetFrameworks"), and a list of desired frameworks,
* reduce the set of frameworks to the minimum set of frameworks which is compatible (preferring inbox frameworks. */
public override bool Execute()
{
if (null == Dependencies)
{
Log.LogError("Dependencies argument must be specified");
return(false);
}
if (null == FrameworkListsPath)
{
Log.LogError("FrameworkListsPath argument must be specified");
return(false);
}
// Retrieve the list of generation dependency group TFM's
Dictionary <string, IEnumerable <ITaskItem> > portableDependencyGroups = new Dictionary <string, IEnumerable <ITaskItem> >();
foreach (ITaskItem dependency in Dependencies)
{
string framework = dependency.GetMetadata("TargetFramework");
if (framework != null && FrameworkUtilities.IsGenerationMoniker(framework) && !portableDependencyGroups.ContainsKey(framework))
{
portableDependencyGroups.Add(framework, Dependencies.Where(d => d.GetMetadata("TargetFramework") == framework));
}
}
List <ITaskItem> addedDependencies = new List <ITaskItem>();
List <string> placeHolderFrameworks = new List <string>();
var frameworksToExclude = TrimFrameworks?.Select(fx => NuGetFramework.Parse(fx))?.ToArray() ?? new NuGetFramework[0];
// Prepare a resolver for evaluating if candidate frameworks are actually supported by the package
PackageItem[] packageItems = Files.Select(f => new PackageItem(f)).ToArray();
var packagePaths = packageItems.Select(pi => pi.TargetPath);
var targetFrameworksWithPlaceHolders = packageItems.Where(pi => NuGetAssetResolver.IsPlaceholder(pi.TargetPath)).Select(pi => pi.TargetFramework);
NuGetAssetResolver resolver = new NuGetAssetResolver(null, packagePaths);
foreach (string portableDependency in portableDependencyGroups.Keys)
{
NuGetFramework portableDependencyFramework = NuGetFramework.Parse(portableDependency);
// Determine inbox frameworks for this generations dependencies as a whole
HashSet <NuGetFramework> inboxFrameworksList = new HashSet <NuGetFramework>();
foreach (NuGetFramework inboxFramework in Frameworks.GetAlllInboxFrameworks(FrameworkListsPath))
{
if (Generations.DetermineGenerationForFramework(inboxFramework, UseNetPlatform) >= portableDependencyFramework.Version &&
!frameworksToExclude.Contains(inboxFramework))
{
inboxFrameworksList.Add(inboxFramework);
}
}
// Only add the lowest version for a particular inbox framework. EG if both net45 and net46 are supported by this generation,
// only add net45
inboxFrameworksList.RemoveWhere(fx => inboxFrameworksList.Any(otherFx => (otherFx.Framework.Equals(fx.Framework)) && (otherFx.Version < fx.Version)));
// Check for assets which have a ref, but not a lib asset. If we have any of these, then they are actually not supported frameworks
// and we should not include them.
inboxFrameworksList.RemoveWhere(inboxFx => !IsSupported(inboxFx, resolver));
// Remove the frameworks which have placeholders.
inboxFrameworksList.RemoveWhere(fx => targetFrameworksWithPlaceHolders.Any(tfx => tfx != null && fx.DotNetFrameworkName == tfx.DotNetFrameworkName));
// Create dependency items for each inbox framework.
foreach (string framework in inboxFrameworksList.Select(fx => fx.GetShortFolderName()))
{
bool addedDependencyToFramework = false;
foreach (ITaskItem dependency in portableDependencyGroups[portableDependency])
{
// If we don't have the AssemblyVersion metadata (4 part version string), fall back and use Version (3 part version string)
string version = dependency.GetMetadata("AssemblyVersion");
if (string.IsNullOrEmpty(version))
{
version = dependency.GetMetadata("Version");
int prereleaseIndex = version.IndexOf('-');
if (prereleaseIndex != -1)
{
version = version.Substring(0, prereleaseIndex);
}
}
if (!Frameworks.IsInbox(FrameworkListsPath, framework, dependency.ItemSpec, version))
{
addedDependencyToFramework = true;
TaskItem dependencyItem = new TaskItem(dependency);
dependencyItem.SetMetadata("TargetFramework", framework);
// "Generation" is not required metadata, we just include it because it can be useful for debugging.
dependencyItem.SetMetadata("Generation", portableDependency);
addedDependencies.Add(dependencyItem);
}
}
if (!addedDependencyToFramework)
{
TaskItem dependencyItem = new TaskItem("_._");
dependencyItem.SetMetadata("TargetFramework", framework);
// "Generation" is not required metadata, we just include it because it can be useful for debugging.
dependencyItem.SetMetadata("Generation", portableDependency);
addedDependencies.Add(dependencyItem);
placeHolderFrameworks.Add(framework);
}
}
}
// Collapse frameworks
// For any dependency with a targetframework, if there is another target framework which is compatible and older, remove this dependency.
// Get all Dependencies which are not in a portable dependency group so that we can collapse the frameworks. If we include
// the portable frameworks, then we'll end up collapsing to those.
List <NuGetFramework> allDependencyGroups = new List <NuGetFramework>();
allDependencyGroups.AddRange(Dependencies.Select(d => NuGetFramework.Parse(d.GetMetadata("TargetFramework"))).Where(a => !allDependencyGroups.Contains(a) &&
!FrameworkUtilities.IsGenerationMoniker(a) &&
!FrameworkUtilities.IsPortableMoniker(a)));
allDependencyGroups.AddRange(addedDependencies.Select(d => NuGetFramework.Parse(d.GetMetadata("TargetFramework"))).Where(a => !allDependencyGroups.Contains(a) &&
!FrameworkUtilities.IsGenerationMoniker(a) &&
!FrameworkUtilities.IsPortableMoniker(a)));
List <NuGetFramework> collapsedDependencyGroups = FrameworkUtilities.ReduceDownwards(allDependencyGroups).ToList <NuGetFramework>();
// Get the list of dependency groups that we collapsed down so that we can add them back if they contained different dependencies than what is present in the collapsed group.
/* TODO: Look into NuGet's sorting algorithm, they may have a bug (fixed in this line). They were not including version in the sort.
* See ReduceCore in https://github.com/NuGet/NuGet.Client/blob/23ea68b91a439fcfd7f94bcd01bcdee2e8adae92/src/NuGet.Core/NuGet.Frameworks/FrameworkReducer.cs */
IEnumerable <NuGetFramework> removedDependencyGroups = allDependencyGroups.Where(d => !collapsedDependencyGroups.Contains(d))?.OrderBy(f => f.Framework, StringComparer.OrdinalIgnoreCase).ThenBy(f => f.Version);
foreach (NuGetFramework removedDependencyGroup in removedDependencyGroups)
{
// always recalculate collapsedDependencyGroups in case we added an item in a previous iteration. Dependency groups are sorted, so this should be additive and we shouldn't need to restart the collapse / add back cycle
var nearest = FrameworkUtilities.GetNearest(removedDependencyGroup, collapsedDependencyGroups.ToArray());
// gather the dependencies for this dependency group and the calculated "nearest" dependency group
var nearestDependencies = addedDependencies.Where(d => nearest.Equals(NuGetFramework.Parse(d.GetMetadata("TargetFramework")))).OrderBy(f => f.ToString());
var currentDependencies = addedDependencies.Where(d => removedDependencyGroup.Equals(NuGetFramework.Parse(d.GetMetadata("TargetFramework")))).OrderBy(f => f.ToString());
// The nearest dependency group's dependencies are different than this dependency group's dependencies
if (nearestDependencies.Count() != currentDependencies.Count())
{
// ignore if dependency is a placeholder
if (currentDependencies.Count() > 0)
{
if (!NuGetAssetResolver.IsPlaceholder(currentDependencies.First().ToString()))
{
collapsedDependencyGroups.Add(removedDependencyGroup);
}
}
else
{
collapsedDependencyGroups.Add(removedDependencyGroup);
}
}
// identical dependency count between current and nearest, and the count is > 0
else if (nearestDependencies.Count() > 0)
{
if (!currentDependencies.SequenceEqual(nearestDependencies, new DependencyITaskItemComparer()))
{
collapsedDependencyGroups.Add(removedDependencyGroup);
}
}
}
List <ITaskItem> collapsedDependencies = new List <ITaskItem>();
foreach (ITaskItem dependency in addedDependencies)
{
if (collapsedDependencyGroups.Contains(NuGetFramework.Parse(dependency.GetMetadata("TargetFramework"))))
{
collapsedDependencies.Add(dependency);
}
}
TrimmedDependencies = collapsedDependencies.ToArray();
return(!Log.HasLoggedErrors);
}
public override bool Execute()
{
LoadFiles();
LoadFrameworks();
var report = new PackageReport()
{
Id = PackageId,
Version = PackageVersion,
SupportedFrameworks = new Dictionary <string, string>()
};
string package = $"{PackageId}/{PackageVersion}";
foreach (var framework in _frameworks.OrderBy(f => f.Key.ToString()))
{
var fx = framework.Key;
var runtimeIds = framework.Value;
var compileAssets = _resolver.ResolveCompileAssets(fx, PackageId);
bool hasCompileAsset, hasCompilePlaceHolder;
NuGetAssetResolver.ExamineAssets(Log, "Compile", package, fx.ToString(), compileAssets, out hasCompileAsset, out hasCompilePlaceHolder);
MarkUsed(compileAssets);
// start by making sure it has some asset available for compile
var isSupported = hasCompileAsset || hasCompilePlaceHolder;
if (runtimeIds.All(rid => !String.IsNullOrEmpty(rid)))
{
// Add Framework only (compile) target if all RIDs are non-empty.
// This acts as a compile target for a framework that requires a RID for runtime.
var reportTarget = new Target()
{
Framework = fx.ToString(),
RuntimeID = null,
CompileAssets = compileAssets.Select(c => GetPackageAssetFromTargetPath(c)).ToArray()
};
report.Targets.Add(fx.ToString(), reportTarget);
}
foreach (var runtimeId in runtimeIds)
{
string target = String.IsNullOrEmpty(runtimeId) ? fx.ToString() : $"{fx}/{runtimeId}";
var runtimeAssets = _resolver.ResolveRuntimeAssets(fx, runtimeId);
bool hasRuntimeAsset, hasRuntimePlaceHolder;
NuGetAssetResolver.ExamineAssets(Log, "Runtime", package, target, runtimeAssets, out hasRuntimeAsset, out hasRuntimePlaceHolder);
MarkUsed(runtimeAssets);
if (!FrameworkUtilities.IsGenerationMoniker(fx) && !fx.IsPCL)
{
// only look at runtime assets for runnable frameworks.
isSupported &= (hasCompileAsset && hasRuntimeAsset) || // matching assets
(hasCompilePlaceHolder && hasRuntimeAsset) || // private runtime
(hasCompilePlaceHolder && hasRuntimePlaceHolder); // placeholders
}
var nativeAssets = _resolver.ResolveNativeAssets(fx, runtimeId);
MarkUsed(nativeAssets);
var reportTarget = new Target()
{
Framework = fx.ToString(),
RuntimeID = runtimeId,
CompileAssets = compileAssets.Select(c => GetPackageAssetFromTargetPath(c)).ToArray(),
RuntimeAssets = runtimeAssets.Select(r => GetPackageAssetFromTargetPath(r)).ToArray(),
NativeAssets = nativeAssets.Select(n => GetPackageAssetFromTargetPath(n)).ToArray()
};
report.Targets[target] = reportTarget;
}
if (isSupported)
{
// Find version
// first try the resolved compile asset for this package
var refAssm = compileAssets.FirstOrDefault(r => !NuGetAssetResolver.IsPlaceholder(r))?.Substring(PackageId.Length + 1);
if (refAssm == null)
{
// if we didn't have a compile asset it means this framework is supported inbox with a placeholder
// resolve the assets without placeholders to pick up the netstandard reference assembly.
compileAssets = _resolverWithoutPlaceholders.ResolveCompileAssets(fx);
refAssm = compileAssets.FirstOrDefault(r => !NuGetAssetResolver.IsPlaceholder(r));
}
var version = "unknown";
if (refAssm != null)
{
version = _targetPathToPackageItem[AggregateNuGetAssetResolver.AsPackageSpecificTargetPath(PackageId, refAssm)].Version?.ToString() ?? version;
}
report.SupportedFrameworks.Add(fx.ToString(), version);
}
}
report.UnusedAssets = _unusedTargetPaths.Select(tp => GetPackageAssetFromTargetPath(tp)).ToArray();
report.Save(ReportFile);
return(!Log.HasLoggedErrors);
}
private void LoadFiles()
{
var packageItems = new Dictionary <string, List <PackageItem> >();
foreach (var file in Files)
{
try
{
var packageItem = new PackageItem(file);
if (!packageItem.TargetPath.StartsWith("runtimes") && !packageItem.IsDll && !packageItem.IsPlaceholder)
{
continue;
}
if (String.IsNullOrWhiteSpace(packageItem.TargetPath))
{
Log.LogError($"{packageItem.TargetPath} is missing TargetPath metadata");
}
string packageId = packageItem.Package ?? PackageId;
if (!packageItems.ContainsKey(packageId))
{
packageItems[packageId] = new List <PackageItem>();
}
packageItems[packageId].Add(packageItem);
}
catch (Exception ex)
{
Log.LogError($"Could not parse File {file.ItemSpec}. {ex}");
// skip it.
}
}
// build a map to translate back to source file from resolved asset
// we use package-specific paths since we're resolving a set of packages.
_targetPathToPackageItem = new Dictionary <string, PackageItem>();
_unusedTargetPaths = new HashSet <string>();
foreach (var packageSpecificItems in packageItems)
{
foreach (PackageItem packageItem in packageSpecificItems.Value)
{
string packageSpecificTargetPath = AggregateNuGetAssetResolver.AsPackageSpecificTargetPath(packageSpecificItems.Key, packageItem.TargetPath);
if (_targetPathToPackageItem.ContainsKey(packageSpecificTargetPath))
{
Log.LogError($"Files {_targetPathToPackageItem[packageSpecificTargetPath].SourcePath} and {packageItem.SourcePath} have the same TargetPath {packageSpecificTargetPath}.");
}
_targetPathToPackageItem[packageSpecificTargetPath] = packageItem;
_unusedTargetPaths.Add(packageSpecificTargetPath);
}
}
_resolver = new AggregateNuGetAssetResolver(RuntimeFile);
foreach (string packageId in packageItems.Keys)
{
_resolver.AddPackageItems(packageId, packageItems[packageId].Select(f => f.TargetPath));
}
// create a resolver that can be used to determine the API version for inbox assemblies
// since inbox assemblies are represented with placeholders we can remove the placeholders
// and use the netstandard reference assembly to determine the API version
if (packageItems.Any() && packageItems.ContainsKey(PackageId))
{
var filesWithoutPlaceholders = packageItems[PackageId]
.Select(pf => pf.TargetPath)
.Where(f => !NuGetAssetResolver.IsPlaceholder(f));
_resolverWithoutPlaceholders = new NuGetAssetResolver(RuntimeFile, filesWithoutPlaceholders);
}
}
private void ValidateIndex()
{
if (SkipIndexCheck)
{
return;
}
if (PackageIndexes == null || PackageIndexes.Length == 0)
{
return;
}
PackageIndex.Current.Merge(PackageIndexes.Select(pi => pi.GetMetadata("FullPath")));
PackageInfo info;
if (!PackageIndex.Current.Packages.TryGetValue(PackageId, out info))
{
Log.LogError($"PackageIndex from {String.Join(", ", PackageIndexes.Select(i => i.ItemSpec))} is missing an entry for package {PackageId}. Please run /t:UpdatePackageIndex on this project to commit an update.");
return;
}
var thisPackageFiles = _validateFiles[PackageId];
var refFiles = thisPackageFiles.Where(f => f.TargetPath.StartsWith("ref/", StringComparison.OrdinalIgnoreCase)).Where(r => !NuGetAssetResolver.IsPlaceholder(r.TargetPath));
if (!refFiles.Any())
{
refFiles = thisPackageFiles.Where(f => f.TargetPath.StartsWith("lib/", StringComparison.OrdinalIgnoreCase));
}
var thisPackageVersion = VersionUtility.As3PartVersion(NuGetVersion.Parse(PackageVersion).Version);
var refFileVersions = new HashSet <Version>(refFiles.Where(r => r.Version != null).Select(r => VersionUtility.As4PartVersion(r.Version)));
foreach (var refFileVersion in refFileVersions)
{
Version refPackageVersion;
// determine if we're missing a mapping for this package
if (!info.AssemblyVersionInPackageVersion.TryGetValue(refFileVersion, out refPackageVersion))
{
Log.LogError($"PackageIndex from {String.Join(", ", PackageIndexes.Select(i => i.ItemSpec))} is missing an assembly version entry for {refFileVersion} for package {PackageId}. Please run /t:UpdatePackageIndex on this project to commit an update.");
}
else
{
// determine if we have a mapping for an unstable package and that unstable package is not this one
if (!info.StableVersions.Contains(refPackageVersion) && refPackageVersion != thisPackageVersion)
{
Log.LogError($"PackageIndex from {String.Join(", ", PackageIndexes.Select(i => i.ItemSpec))} indicates that assembly version {refFileVersion} is contained in non-stable package version {refPackageVersion} which differs from this package version {thisPackageVersion}.");
}
}
}
var orphanedAssemblyVersions = info.AssemblyVersionInPackageVersion
.Where(pair => pair.Value == thisPackageVersion && !refFileVersions.Contains(pair.Key))
.Select(pair => pair.Key);
if (orphanedAssemblyVersions.Any())
{
Log.LogError($"PackageIndex from {String.Join(", ", PackageIndexes.Select(i => i.ItemSpec))} is has an assembly version entry(s) for {String.Join(", ", orphanedAssemblyVersions)} which are no longer in package {PackageId}. Please run /t:UpdatePackageIndex on this project to commit an update.");
}
}
public override bool Execute()
{
_packageItems = Files.Select(f => new PackageItem(f));
var packageDlls = _packageItems.Where(pi => Path.GetExtension(pi.SourcePath).Equals(".dll", StringComparison.OrdinalIgnoreCase));
var packagePaths = _packageItems.Select(pi => pi.TargetPath);
var packagePathsWithoutPlaceHolders = packagePaths.Where(pi => !NuGetAssetResolver.IsPlaceholder(pi));
if (!String.IsNullOrEmpty(RuntimeJson) && !File.Exists(RuntimeJson))
{
Log.LogError("Could not load runtime file: {0}", RuntimeJson);
RuntimeJson = null;
}
NuGetAssetResolver resolver = new NuGetAssetResolver(RuntimeJson, packagePaths);
NuGetAssetResolver obscuredResolver = new NuGetAssetResolver(RuntimeJson, packagePathsWithoutPlaceHolders);
List <ITaskItem> newItems = new List <ITaskItem>();
// determine if an inbox placeholder obscures an OOB implementation.
foreach (var oobFramework in OOBFrameworks)
{
var oobFx = oobFramework.ItemSpec;
NuGetFramework targetFramework = NuGetFramework.Parse(oobFx);
// first see if any dlls are explicitly marked for this framework.
IEnumerable <string> obscuredCompileFolders = packageDlls.Where(pi => pi.OriginalItem.GetMetadata("EnsureOOBFrameworkRef") == oobFx).Select(pi => pi.TargetDirectory);
if (!obscuredCompileFolders.Any())
{
// no dlls were marked, resolve without placeholders to determine what to promote.
var compileItems = resolver.GetCompileItems(targetFramework);
var obscuredCompileItems = obscuredResolver.GetCompileItems(targetFramework);
obscuredCompileFolders = GetObscuredAssetFolders(compileItems, obscuredCompileItems, targetFramework, targetFrameworkName: oobFx, expectedAssetFolder: "ref", ignoredAssetFolder: "lib");
}
var promotedCompileItems = ExpandAssetFoldersToItems(obscuredCompileFolders, targetAssetFolder: "ref", targetFrameworkName: oobFx);
newItems.AddRange(promotedCompileItems);
// don't use 'any' in paths due to https://github.com/NuGet/Home/issues/1676
string targetLibFolder = !String.IsNullOrEmpty(RuntimeId) && RuntimeId != "any" ? $"runtimes/{RuntimeId}/lib" : "lib";
IEnumerable <string> obscuredRuntimeFolders = packageDlls.Where(pi => pi.OriginalItem.GetMetadata("EnsureOOBFrameworkLib") == oobFx).Select(pi => pi.TargetDirectory);
if (!obscuredRuntimeFolders.Any())
{
var runtimeItems = resolver.GetRuntimeItems(targetFramework, RuntimeId);
var obscuredRuntimeItems = obscuredResolver.GetRuntimeItems(targetFramework, RuntimeId);
obscuredRuntimeFolders = GetObscuredAssetFolders(runtimeItems, obscuredRuntimeItems, targetFramework, targetFrameworkName: oobFx, expectedAssetFolder: targetLibFolder);
}
var promotedRuntimeItems = ExpandAssetFoldersToItems(obscuredRuntimeFolders, targetLibFolder, targetFrameworkName: oobFx);
// If we promoted compile assets but couldn't find any runtime assets to promote we could
// be missing dependencies since a dependency group will be created for the compile assets
// that may differ from the runtime assets.
if (promotedCompileItems.Any() && !promotedRuntimeItems.Any())
{
string oobFxRid = oobFramework.GetMetadata("RuntimeId") ?? RuntimeId;
// find the actual implementation that will be used.
var runtimeItems = resolver.GetRuntimeItems(targetFramework, oobFxRid);
var promotedRuntimeFolders = GetRuntimeAssetFoldersForPromotion(runtimeItems, targetFramework, oobFx);
// use null here to indicate that this should not actually go into the package but only be used for
// dependency harvesting
promotedRuntimeItems = ExpandAssetFoldersToItems(promotedRuntimeFolders, "$none$", targetFrameworkName: oobFx);
}
newItems.AddRange(promotedRuntimeItems);
}
AdditionalFiles = newItems.ToArray();
return(!Log.HasLoggedErrors);
}
/// <summary>
/// Generates a table in markdown that lists the API version supported by
/// various packages at all levels of NETStandard.
/// </summary>
/// <returns></returns>
public override bool Execute()
{
if (PackageAssets == null || PackageAssets.Length == 0)
{
Log.LogError("PackageAssets argument must be specified");
return(false);
}
if (TargetMonikers == null || TargetMonikers.Length == 0)
{
Log.LogError("TargetMoniker argument must be specified");
return(false);
}
NuGetFramework[] compileFxs = TargetMonikers.Select(fx => NuGetFramework.Parse(fx)).ToArray();
NuGetFramework[] runtimeFxs = compileFxs;
if (RuntimeTargetMonikers != null && RuntimeTargetMonikers.Length > 0)
{
runtimeFxs = RuntimeTargetMonikers.Select(fx => NuGetFramework.Parse(fx)).ToArray();
}
LoadFiles();
var buildProjects = new List <BuildProject>();
CompileAssets = null;
// find the best framework
foreach (var compileFx in compileFxs)
{
var compileAssets = _resolver.ResolveCompileAssets(compileFx);
if (compileAssets.Any())
{
var compileItems = compileAssets.Where(ca => !NuGetAssetResolver.IsPlaceholder(ca))
.Select(ca => _targetPathToPackageItem[ca]);
buildProjects.AddRange(compileItems.Select(ci => BuildProjectFromPackageItem(ci)).Where(bp => bp != null));
CompileAssets = compileItems.Select(ci => PackageItemAsResolvedAsset(ci)).ToArray();
Log.LogMessage($"Resolved compile assets from {compileFx.ToString()}: {String.Join(";", CompileAssets.Select(c => c.ItemSpec))}");
break;
}
}
if (CompileAssets == null)
{
Log.LogError($"Could not locate compile assets for any of the frameworks {String.Join(";", compileFxs.Select(fx => fx.ToString()))}");
}
RuntimeAssets = null;
foreach (var runtimeFx in runtimeFxs)
{
var runtimeAssets = _resolver.ResolveRuntimeAssets(runtimeFx, TargetRuntime);
if (runtimeAssets.Any())
{
var runtimeItems = runtimeAssets.Where(ra => !NuGetAssetResolver.IsPlaceholder(ra))
.Select(ra => _targetPathToPackageItem[ra]);
buildProjects.AddRange(runtimeItems.Select(ri => BuildProjectFromPackageItem(ri)).Where(bp => bp != null));
RuntimeAssets = runtimeItems.SelectMany(ri => PackageItemAndSymbolsAsResolvedAsset(ri)).ToArray();
Log.LogMessage($"Resolved runtime assets from {runtimeFx.ToString()}: {String.Join(";", RuntimeAssets.Select(r => r.ItemSpec))}");
break;
}
}
if (RuntimeAssets == null)
{
Log.LogError($"Could not locate runtime assets for any of the frameworks {String.Join(";", runtimeFxs.Select(fx => fx.ToString()))}");
}
BuildProjects = buildProjects.Distinct().Select(bp => bp.ToItem()).ToArray();
return(!Log.HasLoggedErrors);
}
/// <summary>
/// Generates a table in markdown that lists the API version supported by
/// various packages at all levels of NETStandard.
/// </summary>
/// <returns></returns>
public override bool Execute()
{
if (PackageAssets == null || PackageAssets.Length == 0)
{
Log.LogError("PackageAssets argument must be specified");
return(false);
}
if (TargetMonikers == null || TargetMonikers.Length == 0)
{
Log.LogError("TargetMoniker argument must be specified");
return(false);
}
NuGetFramework[] compileFxs = TargetMonikers.Select(fx => NuGetFramework.Parse(fx)).ToArray();
NuGetFramework[] runtimeFxs = compileFxs;
if (RuntimeTargetMonikers != null && RuntimeTargetMonikers.Length > 0)
{
runtimeFxs = RuntimeTargetMonikers.Select(fx => NuGetFramework.Parse(fx)).ToArray();
}
LoadFiles();
// find the best framework
foreach (var compileFx in compileFxs)
{
CompileAssets = _resolver.ResolveCompileAssets(compileFx)
.Where(ca => !NuGetAssetResolver.IsPlaceholder(ca))
.Select(ca => PackageItemAsResolvedAsset(_targetPathToPackageItem[ca]))
.ToArray();
if (CompileAssets.Any())
{
Log.LogMessage($"Resolved compile assets from {compileFx.ToString()}: {String.Join(";", CompileAssets.Select(c => c.ItemSpec))}");
break;
}
}
if (!CompileAssets.Any())
{
Log.LogError($"Could not locate compile assets for any of the frameworks {String.Join(";", compileFxs.Select(fx => fx.ToString()))}");
}
foreach (var runtimeFx in runtimeFxs)
{
RuntimeAssets = _resolver.ResolveRuntimeAssets(runtimeFx, TargetRuntime)
.Where(ra => !NuGetAssetResolver.IsPlaceholder(ra))
.Select(ra => PackageItemAsResolvedAsset(_targetPathToPackageItem[ra]))
.ToArray();
if (RuntimeAssets.Any())
{
Log.LogMessage($"Resolved runtime assets from {runtimeFx.ToString()}: {String.Join(";", RuntimeAssets.Select(r => r.ItemSpec))}");
break;
}
}
if (!RuntimeAssets.Any())
{
Log.LogError($"Could not locate runtime assets for any of the frameworks {String.Join(";", runtimeFxs.Select(fx => fx.ToString()))}");
}
return(!Log.HasLoggedErrors);
}
