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4 Commits
0.44.0 ... copilot/fi

Author SHA1 Message Date
copilot-swe-agent[bot]
f59b14a278 WIP: Implement compressed tar detection in TarFactory (seeking clarification) 
Enhanced TarFactory.IsArchive() to detect compressed tar formats (tar.bz2, tar.lz, etc.) by:
- Checking if stream contains tar header directly (for uncompressed)
- Testing each compression format to see if it contains a tar file

Enhanced TarFactory.Open() methods to decompress compressed tar files to MemoryStream for seekable access.

Current blockers:
- Some compression stream constructors (LZipStream) don't support leaveOpen parameter
- Stream disposal during detection phase causes issues with factory detection flow

Awaiting clarification from @adamhathcock on preferred architecture approach.

Co-authored-by: adamhathcock <527620+adamhathcock@users.noreply.github.com>
 2025-12-09 16:39:41 +00:00
copilot-swe-agent[bot]
3870cc8d34 Improve technical accuracy of error messages 
Clarify that the Archive API requires seekable streams, but decompression streams are not seekable, rather than stating that decompression requires random access.

Co-authored-by: adamhathcock <527620+adamhathcock@users.noreply.github.com>
 2025-12-09 08:41:37 +00:00
copilot-swe-agent[bot]
242e442a8c Add helpful error messages for compressed tar archives in ArchiveFactory 
Detect when users try to open tar.bz2, tar.lz, and other compressed tar formats with ArchiveFactory.Open() and provide clear guidance to use ReaderFactory.Open() instead. These formats require forward-only reading due to decompression stream limitations and cannot be used with the random-access Archive API.

Includes tests to verify the helpful error messages are shown.

Co-authored-by: adamhathcock <527620+adamhathcock@users.noreply.github.com>
 2025-12-09 08:36:50 +00:00
copilot-swe-agent[bot]
d95d1e928b Initial plan 2025-12-09 08:20:53 +00:00
345 changed files with 1660 additions and 60268 deletions
Expand all files Collapse all files

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.config/dotnet-tools.json
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"isRoot": true,
"tools": {
"csharpier": {
"version": "1.2.5",
"version": "1.2.1",
"commands": [
"csharpier"
],

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.github/COPILOT_AGENT_README.md vendored Normal file
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# Copilot Coding Agent Configuration
This repository includes a minimal opt-in configuration and CI workflow to allow the GitHub Copilot coding agent to open and validate PRs.
- .copilot-agent.yml: opt-in config for automated agents
- .github/agents/copilot-agent.yml: detailed agent policy configuration
- .github/workflows/dotnetcore.yml: CI runs on PRs touching the solution, source, or tests to validate changes
- AGENTS.md: general instructions for Copilot coding agent with project-specific guidelines
Maintainers can adjust the allowed paths or disable the agent by editing or removing .copilot-agent.yml.
Notes:
- The agent can create, modify, and delete files within the allowed paths (src, tests, README.md, AGENTS.md)
- All changes require review before merge
- If build/test paths are different, update the workflow accordingly; this workflow targets SharpCompress.sln and the SharpCompress.Test test project.

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.github/prompts/plan-async.prompt.md vendored
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# Plan: Implement Missing Async Functionality in SharpCompress
SharpCompress has async support for low-level stream operations and Reader/Writer APIs, but critical entry points (Archive.Open, factory methods, initialization) remain synchronous. This plan adds async overloads for all user-facing I/O operations and fixes existing async bugs, enabling full end-to-end async workflows.
## Steps
1. **Add async factory methods** to [ArchiveFactory.cs](src/SharpCompress/Factories/ArchiveFactory.cs), [ReaderFactory.cs](src/SharpCompress/Factories/ReaderFactory.cs), and [WriterFactory.cs](src/SharpCompress/Factories/WriterFactory.cs) with `OpenAsync` and `CreateAsync` overloads accepting `CancellationToken`
2. **Implement async Open methods** on concrete archive types ([ZipArchive.cs](src/SharpCompress/Archives/Zip/ZipArchive.cs), [TarArchive.cs](src/SharpCompress/Archives/Tar/TarArchive.cs), [RarArchive.cs](src/SharpCompress/Archives/Rar/RarArchive.cs), [GZipArchive.cs](src/SharpCompress/Archives/GZip/GZipArchive.cs), [SevenZipArchive.cs](src/SharpCompress/Archives/SevenZip/SevenZipArchive.cs)) and reader types ([ZipReader.cs](src/SharpCompress/Readers/Zip/ZipReader.cs), [TarReader.cs](src/SharpCompress/Readers/Tar/TarReader.cs), etc.)
3. **Convert archive initialization logic to async** including header reading, volume loading, and format signature detection across archive constructors and internal initialization methods
4. **Fix LZMA decoder async bugs** in [LzmaStream.cs](src/SharpCompress/Compressors/LZMA/LzmaStream.cs), [Decoder.cs](src/SharpCompress/Compressors/LZMA/Decoder.cs), and [OutWindow.cs](src/SharpCompress/Compressors/LZMA/OutWindow.cs) to enable true async 7Zip support and remove `NonDisposingStream` workaround
5. **Complete Rar async implementation** by converting `UnpackV2017` methods to async in [UnpackV2017.cs](src/SharpCompress/Compressors/Rar/UnpackV2017.cs) and updating Rar20 decompression
6. **Add comprehensive async tests** covering all new async entry points, cancellation scenarios, and concurrent operations across all archive formats in test files
## Further Considerations
1. **Breaking changes** - Should new async methods be added alongside existing sync methods (non-breaking), or should sync methods eventually be deprecated? Recommend additive approach for backward compatibility.
2. **Performance impact** - Header parsing for formats like Zip/Tar is often small; consider whether truly async parsing adds value vs sync parsing wrapped in Task, or make it conditional based on stream type (network vs file).
3. **7Zip complexity** - The LZMA async bug fix (Step 4) may be challenging due to state management in the decoder; consider whether to scope it separately or implement a simpler workaround that maintains correctness.

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# Plan: Modernize SharpCompress Public API
Based on comprehensive analysis, the API has several inconsistencies around factory patterns, async support, format capabilities, and options classes. Most improvements can be done incrementally without breaking changes.
## Steps
1. **Standardize factory patterns** by deprecating format-specific static `Open` methods in [Archives/Zip/ZipArchive.cs](src/SharpCompress/Archives/Zip/ZipArchive.cs), [Archives/Tar/TarArchive.cs](src/SharpCompress/Archives/Tar/TarArchive.cs), etc. in favor of centralized [Factories/ArchiveFactory.cs](src/SharpCompress/Factories/ArchiveFactory.cs)
2. **Complete async implementation** in [Writers/Zip/ZipWriter.cs](src/SharpCompress/Writers/Zip/ZipWriter.cs) and other writers that currently use sync-over-async, implementing true async I/O throughout the writer hierarchy
3. **Unify options classes** by making [Common/ExtractionOptions.cs](src/SharpCompress/Common/ExtractionOptions.cs) inherit from `OptionsBase` and adding progress reporting to extraction methods consistently
4. **Clarify GZip semantics** in [Archives/GZip/GZipArchive.cs](src/SharpCompress/Archives/GZip/GZipArchive.cs) by adding XML documentation explaining single-entry limitation and relationship to GZip compression used in Tar.gz
## Further Considerations
1. **Breaking changes roadmap** - Should we plan a major version (2.0) to remove deprecated factory methods, clean up `ArchiveType` enum (remove Arc/Arj or add full support), and consolidate naming patterns?
2. **Progress reporting consistency** - Should `IProgress<ArchiveExtractionProgress<IEntry>>` be added to all extraction extension methods or consolidated into options classes?
## Detailed Analysis
### Factory Pattern Issues
Three different factory patterns exist with overlapping functionality:
1. **Static Factories**: ArchiveFactory, ReaderFactory, WriterFactory
2. **Instance Factories**: IArchiveFactory, IReaderFactory, IWriterFactory
3. **Format-specific static methods**: Each archive class has static `Open` methods
**Example confusion:**
```csharp
// Three ways to open a Zip archive - which is recommended?
var archive1 = ArchiveFactory.Open("file.zip");
var archive2 = ZipArchive.Open("file.zip");
var archive3 = ArchiveFactory.AutoFactory.Open(fileInfo, options);
```
### Async Support Gaps
Base `IWriter` interface has async methods, but writer implementations provide minimal async support. Most writers just call synchronous methods:
```csharp
public virtual async Task WriteAsync(...)
{
// Default implementation calls synchronous version
Write(filename, source, modificationTime);
await Task.CompletedTask.ConfigureAwait(false);
}
```
Real async implementations only in:
- `TarWriter` - Proper async implementation
- Most other writers use sync-over-async
### GZip Archive Special Case
GZip is treated as both a compression format and an archive format, but only supports single-entry archives:
```csharp
protected override GZipArchiveEntry CreateEntryInternal(...)
{
if (Entries.Any())
{
throw new InvalidFormatException("Only one entry is allowed in a GZip Archive");
}
// ...
}
```
### Options Class Hierarchy
```
OptionsBase (LeaveStreamOpen, ArchiveEncoding)
├─ ReaderOptions (LookForHeader, Password, DisableCheckIncomplete, BufferSize, ExtensionHint, Progress)
├─ WriterOptions (CompressionType, CompressionLevel, Progress)
│ ├─ ZipWriterOptions (ArchiveComment, UseZip64)
│ ├─ TarWriterOptions (FinalizeArchiveOnClose, HeaderFormat)
│ └─ GZipWriterOptions (no additional properties)
└─ ExtractionOptions (standalone - Overwrite, ExtractFullPath, PreserveFileTime, PreserveAttributes)
```
**Issues:**
- `ExtractionOptions` doesn't inherit from `OptionsBase` - no encoding support during extraction
- Progress reporting inconsistency between readers and extraction
- Obsolete properties (`ChecksumIsValid`, `Version`) with unclear migration path
### Implementation Priorities
**High Priority (Non-Breaking):**
1. Add API usage guide (Archive vs Reader, factory recommendations, async best practices)
2. Fix progress reporting consistency
3. Complete async implementation in writers
**Medium Priority (Next Major Version):**
1. Unify factory pattern - deprecate format-specific static `Open` methods
2. Clean up options classes - make `ExtractionOptions` inherit from `OptionsBase`
3. Clarify archive types - remove Arc/Arj from `ArchiveType` enum or add full support
4. Standardize naming across archive types
**Low Priority:**
1. Add BZip2 archive support similar to GZipArchive
2. Complete obsolete property cleanup with migration guide
### Backward Compatibility Strategy
**Safe (Non-Breaking) Changes:**
- Add new methods to interfaces (use default implementations)
- Add new options properties (with defaults)
- Add new factory methods
- Improve async implementations
- Add progress reporting support
**Breaking Changes to Avoid:**
- ❌ Removing format-specific `Open` methods (deprecate instead)
- ❌ Changing `LeaveStreamOpen` default (currently `true`)
- ❌ Removing obsolete properties before major version bump
- ❌ Changing return types or signatures of existing methods
**Deprecation Pattern:**
- Use `[Obsolete]` for one major version
- Use `[EditorBrowsable(EditorBrowsableState.Never)]` in next major version
- Remove in following major version

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# NuGet Release Workflow
This document describes the automated NuGet release workflow for SharpCompress.
## Overview
The `nuget-release.yml` workflow automatically builds, tests, and publishes SharpCompress packages to NuGet.org when:
- Changes are pushed to the `master` or `release` branch
- A version tag (format: `MAJOR.MINOR.PATCH`) is pushed
The workflow runs on both Windows and Ubuntu, but only the Windows build publishes to NuGet.
## How It Works
### Version Determination
The workflow automatically determines the version based on whether the commit is tagged using C# code in the build project:
1. **Tagged Release (Stable)**:
- If the current commit has a version tag (e.g., `0.42.1`)
- Uses the tag as the version number
- Published as a stable release
2. **Untagged Release (Prerelease)**:
- If the current commit is NOT tagged
- Creates a prerelease version based on the next minor version
- Format: `{NEXT_MINOR_VERSION}-beta.{COMMIT_COUNT}`
- Example: `0.43.0-beta.123` (if last tag is 0.42.x)
- Published as a prerelease to NuGet.org (Windows build only)
### Workflow Steps
The workflow runs on a matrix of operating systems (Windows and Ubuntu):
1. **Checkout**: Fetches the repository with full history for version detection
2. **Setup .NET**: Installs .NET 10.0
3. **Determine Version**: Runs `determine-version` build target to check for tags and determine version
4. **Update Version**: Runs `update-version` build target to update the version in the project file
5. **Build and Test**: Runs the full build and test suite on both platforms
6. **Upload Artifacts**: Uploads the generated `.nupkg` files as workflow artifacts (separate for each OS)
7. **Push to NuGet**: (Windows only) Runs `push-to-nuget` build target to publish the package to NuGet.org using the API key
All version detection, file updates, and publishing logic is implemented in C# in the `build/Program.cs` file using build targets.
## Setup Requirements
### 1. NuGet API Key Secret
The workflow requires a `NUGET_API_KEY` secret to be configured in the repository settings:
1. Go to https://www.nuget.org/account/apikeys
2. Create a new API key with "Push" permission for the SharpCompress package
3. In GitHub, go to: **Settings****Secrets and variables****Actions**
4. Create a new secret named `NUGET_API_KEY` with the API key value
### 2. Branch Protection (Recommended)
Consider enabling branch protection rules for the `release` branch to ensure:
- Code reviews are required before merging
- Status checks pass before merging
- Only authorized users can push to the branch
## Usage
### Creating a Stable Release
There are two ways to trigger a stable release:
**Method 1: Push tag to trigger workflow**
1. Ensure all changes are committed on the `master` or `release` branch
2. Create and push a version tag:
```bash
git checkout master # or release
git tag 0.43.0
git push origin 0.43.0
```
3. The workflow will automatically trigger, build, test, and publish `SharpCompress 0.43.0` to NuGet.org (Windows build)
**Method 2: Tag after pushing to branch**
1. Ensure all changes are merged and pushed to the `master` or `release` branch
2. Create and push a version tag on the already-pushed commit:
```bash
git checkout master # or release
git tag 0.43.0
git push origin 0.43.0
```
3. The workflow will automatically trigger, build, test, and publish `SharpCompress 0.43.0` to NuGet.org (Windows build)
### Creating a Prerelease
1. Push changes to the `master` or `release` branch without tagging:
```bash
git checkout master # or release
git push origin master # or release
```
2. The workflow will automatically:
- Build and test the project on both Windows and Ubuntu
- Publish a prerelease version like `0.43.0-beta.456` to NuGet.org (Windows build)
## Troubleshooting
### Workflow Fails to Push to NuGet
- **Check the API Key**: Ensure `NUGET_API_KEY` is set correctly in repository secrets
- **Check API Key Permissions**: Verify the API key has "Push" permission for SharpCompress
- **Check API Key Expiration**: NuGet API keys may expire; create a new one if needed
### Version Conflict
If you see "Package already exists" errors:
- The workflow uses `--skip-duplicate` flag to handle this gracefully
- If you need to republish the same version, delete it from NuGet.org first (if allowed)
### Build or Test Failures
- The workflow will not push to NuGet if build or tests fail
- Check the workflow logs in GitHub Actions for details
- Fix the issues and push again
## Manual Package Creation
If you need to create a package manually without publishing:
```bash
dotnet run --project build/build.csproj -- publish
```
The package will be created in the `artifacts/` directory.
## Build Targets
The workflow uses the following C# build targets defined in `build/Program.cs`:
- **determine-version**: Detects version from git tags and outputs VERSION and PRERELEASE variables
- **update-version**: Updates VersionPrefix, AssemblyVersion, and FileVersion in the project file
- **push-to-nuget**: Pushes the generated NuGet packages to NuGet.org (requires NUGET_API_KEY)
These targets can be run manually for testing:
```bash
# Determine the version
dotnet run --project build/build.csproj -- determine-version
# Update version in project file
VERSION=0.43.0 dotnet run --project build/build.csproj -- update-version
# Push to NuGet (requires NUGET_API_KEY environment variable)
NUGET_API_KEY=your-key dotnet run --project build/build.csproj -- push-to-nuget
```
## Related Files
- `.github/workflows/nuget-release.yml` - The workflow definition
- `build/Program.cs` - Build script with version detection and publishing logic
- `src/SharpCompress/SharpCompress.csproj` - Project file with version information

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# Testing Guide for NuGet Release Workflow
This document describes how to test the NuGet release workflow.
## Testing Strategy
Since this workflow publishes to NuGet.org and requires repository secrets, testing should be done carefully. The workflow runs on both Windows and Ubuntu, but only the Windows build publishes to NuGet.
## Pre-Testing Checklist
- [x] Workflow YAML syntax validated
- [x] Version determination logic tested locally
- [x] Version update logic tested locally
- [x] Build script works (`dotnet run --project build/build.csproj`)
## Manual Testing Steps
### 1. Test Prerelease Publishing (Recommended First Test)
This tests the workflow on untagged commits to the master or release branch.
**Steps:**
1. Ensure `NUGET_API_KEY` secret is configured in repository settings
2. Create a test commit on the `master` or `release` branch (e.g., update a comment or README)
3. Push to the `master` or `release` branch
4. Monitor the GitHub Actions workflow at: https://github.com/adamhathcock/sharpcompress/actions
5. Verify:
- Workflow triggers and runs successfully on both Windows and Ubuntu
- Version is determined correctly (e.g., `0.43.0-beta.XXX` if last tag is 0.42.x)
- Build and tests pass on both platforms
- Package artifacts are uploaded for both platforms
- Package is pushed to NuGet.org as prerelease (Windows build only)
**Expected Outcome:**
- A new prerelease package appears on NuGet.org: https://www.nuget.org/packages/SharpCompress/
- Package version follows pattern: `{NEXT_MINOR_VERSION}-beta.{COMMIT_COUNT}`
### 2. Test Tagged Release Publishing
This tests the workflow when a version tag is pushed.
**Steps:**
1. Prepare the `master` or `release` branch with all desired changes
2. Create a version tag (must be a pure semantic version like `MAJOR.MINOR.PATCH`):
```bash
git checkout master # or release
git tag 0.42.2
git push origin 0.42.2
```
3. Monitor the GitHub Actions workflow
4. Verify:
- Workflow triggers and runs successfully on both Windows and Ubuntu
- Version is determined as the tag (e.g., `0.42.2`)
- Build and tests pass on both platforms
- Package artifacts are uploaded for both platforms
- Package is pushed to NuGet.org as stable release (Windows build only)
**Expected Outcome:**
- A new stable release package appears on NuGet.org
- Package version matches the tag
### 3. Test Duplicate Package Handling
This tests the `--skip-duplicate` flag behavior.
**Steps:**
1. Push to the `release` branch without making changes
2. Monitor the workflow
3. Verify:
- Workflow runs but NuGet push is skipped with "duplicate" message
- No errors occur
### 4. Test Build Failure Handling
This tests that failed builds don't publish packages.
**Steps:**
1. Introduce a breaking change in a test or code
2. Push to the `release` branch
3. Verify:
- Workflow runs and detects the failure
- Build or test step fails
- NuGet push step is skipped
- No package is published
## Verification
After each test, verify:
1. **GitHub Actions Logs**: Check the workflow logs for any errors or warnings
2. **NuGet.org**: Verify the package appears with correct version and metadata
3. **Artifacts**: Download and inspect the uploaded artifacts
## Rollback/Cleanup
If testing produces unwanted packages:
1. **Prerelease packages**: Can be unlisted on NuGet.org (Settings → Unlist)
2. **Stable packages**: Cannot be deleted, only unlisted (use test versions)
3. **Tags**: Can be deleted with:
```bash
git tag -d 0.42.2
git push origin :refs/tags/0.42.2
```
## Known Limitations
- NuGet.org does not allow re-uploading the same version
- Deleted packages on NuGet.org reserve the version number
- The workflow requires the `NUGET_API_KEY` secret to be set
## Success Criteria
The workflow is considered successful if:
- ✅ Prerelease versions are published correctly with beta suffix
- ✅ Tagged versions are published as stable releases
- ✅ Build and test failures prevent publishing
- ✅ Duplicate packages are handled gracefully
- ✅ Workflow logs are clear and informative

25
.github/workflows/dotnetcore.yml vendored Normal file
View File

@@ -0,0 +1,25 @@
name: SharpCompress
on:
push:
branches:
- 'master'
pull_request:
types: [ opened, synchronize, reopened, ready_for_review ]
jobs:
build:
runs-on: ${{ matrix.os }}
strategy:
matrix:
os: [windows-latest, ubuntu-latest]
steps:
- uses: actions/checkout@v6
- uses: actions/setup-dotnet@v5
with:
dotnet-version: 10.0.x
- run: dotnet run --project build/build.csproj
- uses: actions/upload-artifact@v5
with:
name: ${{ matrix.os }}-sharpcompress.nupkg
path: artifacts/*

61
.github/workflows/nuget-release.yml vendored
View File

@@ -1,61 +0,0 @@
name: NuGet Release
on:
push:
branches:
- 'master'
- 'release'
tags:
- '[0-9]+.[0-9]+.[0-9]+'
pull_request:
branches:
- 'master'
- 'release'
permissions:
contents: read
jobs:
build-and-publish:
runs-on: ${{ matrix.os }}
strategy:
matrix:
os: [windows-latest, ubuntu-latest]
steps:
- uses: actions/checkout@v6
with:
fetch-depth: 0 # Fetch all history for versioning
- uses: actions/setup-dotnet@v5
with:
dotnet-version: 10.0.x
# Determine version using C# build target
- name: Determine Version
id: version
run: dotnet run --project build/build.csproj -- determine-version
# Update version in project file using C# build target
- name: Update Version in Project
run: dotnet run --project build/build.csproj -- update-version
env:
VERSION: ${{ steps.version.outputs.version }}
# Build and test
- name: Build and Test
run: dotnet run --project build/build.csproj
# Upload artifacts for verification
- name: Upload NuGet Package
uses: actions/upload-artifact@v6
with:
name: ${{ matrix.os }}-nuget-package
path: artifacts/*.nupkg
# Push to NuGet.org using C# build target (Windows only, not on PRs)
- name: Push to NuGet
if: success() && matrix.os == 'windows-latest' && github.event_name != 'pull_request'
run: dotnet run --project build/build.csproj -- push-to-nuget
env:
NUGET_API_KEY: ${{ secrets.NUGET_API_KEY }}

1
.gitignore vendored
View File

@@ -16,7 +16,6 @@ tests/TestArchives/*/Scratch2
.vs
tools
.idea/
artifacts/
.DS_Store
*.snupkg

32
AGENTS.md
View File

@@ -28,38 +28,14 @@ SharpCompress is a pure C# compression library supporting multiple archive forma
## Code Formatting
**Copilot agents: You MUST run the `format` task after making code changes to ensure consistency.**
- Use CSharpier for code formatting to ensure consistent style across the project
- CSharpier is configured as a local tool in `.config/dotnet-tools.json`
### Commands
1. **Restore tools** (first time only):
```bash
dotnet tool restore
```
2. **Check if files are formatted correctly** (doesn't modify files):
```bash
dotnet csharpier check .
```
- Exit code 0: All files are properly formatted
- Exit code 1: Some files need formatting (will show which files and differences)
3. **Format files** (modifies files):
```bash
dotnet csharpier format .
```
- Formats all files in the project to match CSharpier style
- Run from project root directory
4. **Configure your IDE** to format on save using CSharpier for the best experience
### Additional Notes
- Restore tools with: `dotnet tool restore`
- Format files from the project root with: `dotnet csharpier .`
- **Run `dotnet csharpier .` from the project root after making code changes before committing**
- Configure your IDE to format on save using CSharpier for the best experience
- The project also uses `.editorconfig` for editor settings (indentation, encoding, etc.)
- Let CSharpier handle code style while `.editorconfig` handles editor behavior
- Always run `dotnet csharpier check .` before committing to verify formatting
## Project Setup and Structure

9
Directory.Packages.props
View File

@@ -1,18 +1,19 @@
<Project>
<ItemGroup>
<PackageVersion Include="Bullseye" Version="6.1.0" />
<PackageVersion Include="Bullseye" Version="6.0.0" />
<PackageVersion Include="AwesomeAssertions" Version="9.3.0" />
<PackageVersion Include="Glob" Version="1.1.9" />
<PackageVersion Include="JetBrains.Profiler.SelfApi" Version="2.5.15" />
<PackageVersion Include="JetBrains.Profiler.SelfApi" Version="2.5.14" />
<PackageVersion Include="Microsoft.Bcl.AsyncInterfaces" Version="10.0.0" />
<PackageVersion Include="Microsoft.NET.Test.Sdk" Version="18.0.1" />
<PackageVersion Include="Mono.Posix.NETStandard" Version="1.0.0" />
<PackageVersion Include="SimpleExec" Version="13.0.0" />
<PackageVersion Include="System.Text.Encoding.CodePages" Version="10.0.0" />
<PackageVersion Include="SimpleExec" Version="12.0.0" />
<PackageVersion Include="System.Buffers" Version="4.6.1" />
<PackageVersion Include="System.Memory" Version="4.6.3" />
<PackageVersion Include="System.Text.Encoding.CodePages" Version="10.0.0" />
<PackageVersion Include="xunit" Version="2.9.3" />
<PackageVersion Include="xunit.runner.visualstudio" Version="3.1.5" />
<PackageVersion Include="ZstdSharp.Port" Version="0.8.6" />
<PackageVersion Include="Microsoft.NET.ILLink.Tasks" Version="10.0.0" />
<PackageVersion Include="Microsoft.SourceLink.GitHub" Version="8.0.0" />
<PackageVersion Include="Microsoft.NETFramework.ReferenceAssemblies" Version="1.0.3" />

19
FORMATS.md
View File

@@ -10,10 +10,7 @@
| Archive Format | Compression Format(s) | Compress/Decompress | Archive API | Reader API | Writer API |
| ---------------------- | ------------------------------------------------- | ------------------- | --------------- | ---------- | ------------- |
| Ace | None | Decompress | N/A | AceReader | N/A |
| Arc | None, Packed, Squeezed, Crunched | Decompress | N/A | ArcReader | N/A |
| Arj | None | Decompress | N/A | ArjReader | N/A |
| Rar | Rar | Decompress | RarArchive | RarReader | N/A |
| Rar | Rar | Decompress (1) | RarArchive | RarReader | N/A |
| Zip (2) | None, Shrink, Reduce, Implode, DEFLATE, Deflate64, BZip2, LZMA/LZMA2, PPMd | Both | ZipArchive | ZipReader | ZipWriter |
| Tar | None | Both | TarArchive | TarReader | TarWriter (3) |
| Tar.GZip | DEFLATE | Both | TarArchive | TarReader | TarWriter (3) |
@@ -27,7 +24,7 @@
1. SOLID Rars are only supported in the RarReader API.
2. Zip format supports pkware and WinzipAES encryption. However, encrypted LZMA is not supported. Zip64 reading/writing is supported but only with seekable streams as the Zip spec doesn't support Zip64 data in post data descriptors. Deflate64 is only supported for reading. See [Zip Format Notes](#zip-format-notes) for details on multi-volume archives and streaming behavior.
3. The Tar format requires a file size in the header. If no size is specified to the TarWriter and the stream is not seekable, then an exception will be thrown.
4. The 7Zip format doesn't allow for reading as a forward-only stream so 7Zip is only supported through the Archive API. See [7Zip Format Notes](#7zip-format-notes) for details on async extraction behavior.
4. The 7Zip format doesn't allow for reading as a forward-only stream so 7Zip is only supported through the Archive API
5. LZip has no support for extra data like the file name or timestamp. There is a default filename used when looking at the entry Key on the archive.
### Zip Format Notes
@@ -35,18 +32,6 @@
- Multi-volume/split ZIP archives require ZipArchive (seekable streams) as ZipReader cannot seek across volume files.
- ZipReader processes entries from LocalEntry headers (which include directory entries ending with `/`) and intentionally skips DirectoryEntry headers from the central directory, as they are redundant in streaming mode - all entry data comes from LocalEntry headers which ZipReader has already processed.
### 7Zip Format Notes
- **Async Extraction Performance**: When using async extraction methods (e.g., `ExtractAllEntries()` with `MoveToNextEntryAsync()`), each file creates its own decompression stream to avoid state corruption in the LZMA decoder. This is less efficient than synchronous extraction, which can reuse a single decompression stream for multiple files in the same folder.
**Performance Impact**: For archives with many small files in the same compression folder, async extraction will be slower than synchronous extraction because it must:
1. Create a new LZMA decoder for each file
2. Skip through the decompressed data to reach each file's starting position
**Recommendation**: For best performance with 7Zip archives, use synchronous extraction methods (`MoveToNextEntry()` and `WriteEntryToDirectory()`) when possible. Use async methods only when you need to avoid blocking the thread (e.g., in UI applications or async-only contexts).
**Technical Details**: 7Zip archives group files into "folders" (compression units), where all files in a folder share one continuous LZMA-compressed stream. The LZMA decoder maintains internal state (dictionary window, decoder positions) that assumes sequential, non-interruptible processing. Async operations can yield control during awaits, which would corrupt this shared state. To avoid this, async extraction creates a fresh decoder stream for each file.
## Compression Streams
For those who want to directly compress/decompress bits. The single file formats are represented here as well. However, BZip2, LZip and XZ have no metadata (GZip has a little) so using them without something like a Tar file makes little sense.

142
OLD_CHANGELOG.md
View File

@@ -1,142 +0,0 @@
# Version Log
* [Releases](https://github.com/adamhathcock/sharpcompress/releases)
## Version 0.18
* [Now on Github releases](https://github.com/adamhathcock/sharpcompress/releases/tag/0.18)
## Version 0.17.1
* Fix - [Bug Fix for .NET Core on Windows](https://github.com/adamhathcock/sharpcompress/pull/257)
## Version 0.17.0
* New - Full LZip support! Can read and write LZip files and Tars inside LZip files. [Make LZip a first class citizen. #241](https://github.com/adamhathcock/sharpcompress/issues/241)
* New - XZ read support! Can read XZ files and Tars inside XZ files. [XZ in SharpCompress #91](https://github.com/adamhathcock/sharpcompress/issues/94)
* Fix - [Regression - zip file writing on seekable streams always assumed stream start was 0. Introduced with Zip64 writing.](https://github.com/adamhathcock/sharpcompress/issues/244)
* Fix - [Zip files with post-data descriptors can be properly skipped via decompression](https://github.com/adamhathcock/sharpcompress/issues/162)
## Version 0.16.2
* Fix [.NET 3.5 should support files and cryptography (was a regression from 0.16.0)](https://github.com/adamhathcock/sharpcompress/pull/251)
* Fix [Zip per entry compression customization wrote the wrong method into the zip archive](https://github.com/adamhathcock/sharpcompress/pull/249)
## Version 0.16.1
* Fix [Preserve compression method when getting a compressed stream](https://github.com/adamhathcock/sharpcompress/pull/235)
* Fix [RAR entry key normalization fix](https://github.com/adamhathcock/sharpcompress/issues/201)
## Version 0.16.0
* Breaking - [Progress Event Tracking rethink](https://github.com/adamhathcock/sharpcompress/pull/226)
* Update to VS2017 - [VS2017](https://github.com/adamhathcock/sharpcompress/pull/231) - Framework targets have been changed.
* New - [Add Zip64 writing](https://github.com/adamhathcock/sharpcompress/pull/211)
* [Fix invalid/mismatching Zip version flags.](https://github.com/adamhathcock/sharpcompress/issues/164) - This allows nuget/System.IO.Packaging to read zip files generated by SharpCompress
* [Fix 7Zip directory hiding](https://github.com/adamhathcock/sharpcompress/pull/215/files)
* [Verify RAR CRC headers](https://github.com/adamhathcock/sharpcompress/pull/220)
## Version 0.15.2
* [Fix invalid headers](https://github.com/adamhathcock/sharpcompress/pull/210) - fixes an issue creating large-ish zip archives that was introduced with zip64 reading.
## Version 0.15.1
* [Zip64 extending information and ZipReader](https://github.com/adamhathcock/sharpcompress/pull/206)
## Version 0.15.0
* [Add zip64 support for ZipArchive extraction](https://github.com/adamhathcock/sharpcompress/pull/205)
## Version 0.14.1
* [.NET Assemblies aren't strong named](https://github.com/adamhathcock/sharpcompress/issues/158)
* [Pkware encryption for Zip files didn't allow for multiple reads of an entry](https://github.com/adamhathcock/sharpcompress/issues/197)
* [GZip Entry couldn't be read multiple times](https://github.com/adamhathcock/sharpcompress/issues/198)
## Version 0.14.0
* [Support for LZip reading in for Tars](https://github.com/adamhathcock/sharpcompress/pull/191)
## Version 0.13.1
* [Fix null password on ReaderFactory. Fix null options on SevenZipArchive](https://github.com/adamhathcock/sharpcompress/pull/188)
* [Make PpmdProperties lazy to avoid unnecessary allocations.](https://github.com/adamhathcock/sharpcompress/pull/185)
## Version 0.13.0
* Breaking change: Big refactor of Options on API.
* 7Zip supports Deflate
## Version 0.12.4
* Forward only zip issue fix https://github.com/adamhathcock/sharpcompress/issues/160
* Try to fix frameworks again by copying targets from JSON.NET
## Version 0.12.3
* 7Zip fixes https://github.com/adamhathcock/sharpcompress/issues/73
* Maybe all profiles will work with project.json now
## Version 0.12.2
* Support Profile 259 again
## Version 0.12.1
* Support Silverlight 5
## Version 0.12.0
* .NET Core RTM!
* Bug fix for Tar long paths
## Version 0.11.6
* Bug fix for global header in Tar
* Writers now have a leaveOpen `bool` overload. They won't close streams if not-requested to.
## Version 0.11.5
* Bug fix in Skip method
## Version 0.11.4
* SharpCompress is now endian neutral (matters for Mono platforms)
* Fix for Inflate (need to change implementation)
* Fixes for RAR detection
## Version 0.11.1
* Added Cancel on IReader
* Removed .NET 2.0 support and LinqBridge dependency
## Version 0.11
* Been over a year, contains mainly fixes from contributors!
* Possible breaking change: ArchiveEncoding is UTF8 by default now.
* TAR supports writing long names using longlink
* RAR Protect Header added
## Version 0.10.3
* Finally fixed Disposal issue when creating a new archive with the Archive API
## Version 0.10.2
* Fixed Rar Header reading for invalid extended time headers.
* Windows Store assembly is now strong named
* Known issues with Long Tar names being worked on
* Updated to VS2013
* Portable targets SL5 and Windows Phone 8 (up from SL4 and WP7)
## Version 0.10.1
* Fixed 7Zip extraction performance problem
## Version 0.10:
* Added support for RAR Decryption (thanks to https://github.com/hrasyid)
* Embedded some BouncyCastle crypto classes to allow RAR Decryption and Winzip AES Decryption in Portable and Windows Store DLLs
* Built in Release (I think)

228
README.md
View File

@@ -4,7 +4,7 @@ SharpCompress is a compression library in pure C# for .NET Framework 4.8, .NET 8
The major feature is support for non-seekable streams so large files can be processed on the fly (i.e. download stream).
**NEW:** All I/O operations now support async/await for improved performance and scalability. See the [USAGE.md](USAGE.md#async-examples) for examples.
**NEW:** All I/O operations now support async/await for improved performance and scalability. See the [Async Usage](#async-usage) section below.
GitHub Actions Build -
[![SharpCompress](https://github.com/adamhathcock/sharpcompress/actions/workflows/dotnetcore.yml/badge.svg)](https://github.com/adamhathcock/sharpcompress/actions/workflows/dotnetcore.yml)
@@ -34,11 +34,235 @@ Hi everyone. I hope you're using SharpCompress and finding it useful. Please giv
Please do not email me directly to ask for help. If you think there is a real issue, please report it here.
## Async Usage
SharpCompress now provides full async/await support for all I/O operations, allowing for better performance and scalability in modern applications.
### Async Reading Examples
Extract entries asynchronously:
```csharp
using (Stream stream = File.OpenRead("archive.zip"))
using (var reader = ReaderFactory.Open(stream))
{
while (reader.MoveToNextEntry())
{
if (!reader.Entry.IsDirectory)
{
// Async extraction
await reader.WriteEntryToDirectoryAsync(
@"C:\temp",
new ExtractionOptions() { ExtractFullPath = true, Overwrite = true },
cancellationToken
);
}
}
}
```
Extract all entries to directory asynchronously:
```csharp
using (Stream stream = File.OpenRead("archive.tar.gz"))
using (var reader = ReaderFactory.Open(stream))
{
await reader.WriteAllToDirectoryAsync(
@"C:\temp",
new ExtractionOptions() { ExtractFullPath = true, Overwrite = true },
cancellationToken
);
}
```
Open entry stream asynchronously:
```csharp
using (var archive = ZipArchive.Open("archive.zip"))
{
foreach (var entry in archive.Entries.Where(e => !e.IsDirectory))
{
using (var entryStream = await entry.OpenEntryStreamAsync(cancellationToken))
{
// Process stream asynchronously
await entryStream.CopyToAsync(outputStream, cancellationToken);
}
}
}
```
### Async Writing Examples
Write files asynchronously:
```csharp
using (Stream stream = File.OpenWrite("output.zip"))
using (var writer = WriterFactory.Open(stream, ArchiveType.Zip, CompressionType.Deflate))
{
await writer.WriteAsync("file1.txt", fileStream, DateTime.Now, cancellationToken);
}
```
Write all files from directory asynchronously:
```csharp
using (Stream stream = File.OpenWrite("output.tar.gz"))
using (var writer = WriterFactory.Open(stream, ArchiveType.Tar, new WriterOptions(CompressionType.GZip)))
{
await writer.WriteAllAsync(@"D:\files", "*", SearchOption.AllDirectories, cancellationToken);
}
```
All async methods support `CancellationToken` for graceful cancellation of long-running operations.
## Want to contribute?
I'm always looking for help or ideas. Please submit code or email with ideas. Unfortunately, just letting me know you'd like to help is not enough because I really have no overall plan of what needs to be done. I'll definitely accept code submissions and add you as a member of the project!
## Notes
## TODOs (always lots)
* RAR 5 decryption crc check support
* 7Zip writing
* Zip64 (Need writing and extend Reading)
* Multi-volume Zip support.
* ZStandard writing
## Version Log
* [Releases](https://github.com/adamhathcock/sharpcompress/releases)
### Version 0.18
* [Now on Github releases](https://github.com/adamhathcock/sharpcompress/releases/tag/0.18)
### Version 0.17.1
* Fix - [Bug Fix for .NET Core on Windows](https://github.com/adamhathcock/sharpcompress/pull/257)
### Version 0.17.0
* New - Full LZip support! Can read and write LZip files and Tars inside LZip files. [Make LZip a first class citizen. #241](https://github.com/adamhathcock/sharpcompress/issues/241)
* New - XZ read support! Can read XZ files and Tars inside XZ files. [XZ in SharpCompress #91](https://github.com/adamhathcock/sharpcompress/issues/94)
* Fix - [Regression - zip file writing on seekable streams always assumed stream start was 0. Introduced with Zip64 writing.](https://github.com/adamhathcock/sharpcompress/issues/244)
* Fix - [Zip files with post-data descriptors can be properly skipped via decompression](https://github.com/adamhathcock/sharpcompress/issues/162)
### Version 0.16.2
* Fix [.NET 3.5 should support files and cryptography (was a regression from 0.16.0)](https://github.com/adamhathcock/sharpcompress/pull/251)
* Fix [Zip per entry compression customization wrote the wrong method into the zip archive](https://github.com/adamhathcock/sharpcompress/pull/249)
### Version 0.16.1
* Fix [Preserve compression method when getting a compressed stream](https://github.com/adamhathcock/sharpcompress/pull/235)
* Fix [RAR entry key normalization fix](https://github.com/adamhathcock/sharpcompress/issues/201)
### Version 0.16.0
* Breaking - [Progress Event Tracking rethink](https://github.com/adamhathcock/sharpcompress/pull/226)
* Update to VS2017 - [VS2017](https://github.com/adamhathcock/sharpcompress/pull/231) - Framework targets have been changed.
* New - [Add Zip64 writing](https://github.com/adamhathcock/sharpcompress/pull/211)
* [Fix invalid/mismatching Zip version flags.](https://github.com/adamhathcock/sharpcompress/issues/164) - This allows nuget/System.IO.Packaging to read zip files generated by SharpCompress
* [Fix 7Zip directory hiding](https://github.com/adamhathcock/sharpcompress/pull/215/files)
* [Verify RAR CRC headers](https://github.com/adamhathcock/sharpcompress/pull/220)
### Version 0.15.2
* [Fix invalid headers](https://github.com/adamhathcock/sharpcompress/pull/210) - fixes an issue creating large-ish zip archives that was introduced with zip64 reading.
### Version 0.15.1
* [Zip64 extending information and ZipReader](https://github.com/adamhathcock/sharpcompress/pull/206)
### Version 0.15.0
* [Add zip64 support for ZipArchive extraction](https://github.com/adamhathcock/sharpcompress/pull/205)
### Version 0.14.1
* [.NET Assemblies aren't strong named](https://github.com/adamhathcock/sharpcompress/issues/158)
* [Pkware encryption for Zip files didn't allow for multiple reads of an entry](https://github.com/adamhathcock/sharpcompress/issues/197)
* [GZip Entry couldn't be read multiple times](https://github.com/adamhathcock/sharpcompress/issues/198)
### Version 0.14.0
* [Support for LZip reading in for Tars](https://github.com/adamhathcock/sharpcompress/pull/191)
### Version 0.13.1
* [Fix null password on ReaderFactory. Fix null options on SevenZipArchive](https://github.com/adamhathcock/sharpcompress/pull/188)
* [Make PpmdProperties lazy to avoid unnecessary allocations.](https://github.com/adamhathcock/sharpcompress/pull/185)
### Version 0.13.0
* Breaking change: Big refactor of Options on API.
* 7Zip supports Deflate
### Version 0.12.4
* Forward only zip issue fix https://github.com/adamhathcock/sharpcompress/issues/160
* Try to fix frameworks again by copying targets from JSON.NET
### Version 0.12.3
* 7Zip fixes https://github.com/adamhathcock/sharpcompress/issues/73
* Maybe all profiles will work with project.json now
### Version 0.12.2
* Support Profile 259 again
### Version 0.12.1
* Support Silverlight 5
### Version 0.12.0
* .NET Core RTM!
* Bug fix for Tar long paths
### Version 0.11.6
* Bug fix for global header in Tar
* Writers now have a leaveOpen `bool` overload. They won't close streams if not-requested to.
### Version 0.11.5
* Bug fix in Skip method
### Version 0.11.4
* SharpCompress is now endian neutral (matters for Mono platforms)
* Fix for Inflate (need to change implementation)
* Fixes for RAR detection
### Version 0.11.1
* Added Cancel on IReader
* Removed .NET 2.0 support and LinqBridge dependency
### Version 0.11
* Been over a year, contains mainly fixes from contributors!
* Possible breaking change: ArchiveEncoding is UTF8 by default now.
* TAR supports writing long names using longlink
* RAR Protect Header added
### Version 0.10.3
* Finally fixed Disposal issue when creating a new archive with the Archive API
### Version 0.10.2
* Fixed Rar Header reading for invalid extended time headers.
* Windows Store assembly is now strong named
* Known issues with Long Tar names being worked on
* Updated to VS2013
* Portable targets SL5 and Windows Phone 8 (up from SL4 and WP7)
### Version 0.10.1
* Fixed 7Zip extraction performance problem
### Version 0.10:
* Added support for RAR Decryption (thanks to https://github.com/hrasyid)
* Embedded some BouncyCastle crypto classes to allow RAR Decryption and Winzip AES Decryption in Portable and Windows Store DLLs
* Built in Release (I think)
XZ implementation based on: https://github.com/sambott/XZ.NET by @sambott

2
SharpCompress.sln
View File

@@ -20,7 +20,7 @@ Project("{2150E333-8FDC-42A3-9474-1A3956D46DE8}") = "Config", "Config", "{CDB425
.editorconfig = .editorconfig
Directory.Packages.props = Directory.Packages.props
NuGet.config = NuGet.config
.github\workflows\nuget-release.yml = .github\workflows\nuget-release.yml
.github\workflows\dotnetcore.yml = .github\workflows\dotnetcore.yml
USAGE.md = USAGE.md
README.md = README.md
FORMATS.md = FORMATS.md

52
USAGE.md
View File

@@ -87,17 +87,20 @@ memoryStream.Position = 0;
### Extract all files from a rar file to a directory using RarArchive
Note: Extracting a solid rar or 7z file needs to be done in sequential order to get acceptable decompression speed.
`ExtractAllEntries` is primarily intended for solid archives (like solid Rar) or 7Zip archives, where sequential extraction provides the best performance. For general/simple extraction with any supported archive type, use `archive.WriteToDirectory()` instead.
It is explicitly recommended to use `ExtractAllEntries` when extracting an entire `IArchive` instead of iterating over all its `Entries`.
Alternatively, use `IArchive.WriteToDirectory`.
```C#
using (var archive = RarArchive.Open("Test.rar"))
{
// Simple extraction with RarArchive; this WriteToDirectory pattern works for all archive types
archive.WriteToDirectory(@"D:\temp", new ExtractionOptions()
using (var reader = archive.ExtractAllEntries())
{
ExtractFullPath = true,
Overwrite = true
});
reader.WriteAllToDirectory(@"D:\temp", new ExtractionOptions()
{
ExtractFullPath = true,
Overwrite = true
});
}
}
```
@@ -113,29 +116,6 @@ using (var archive = RarArchive.Open("Test.rar"))
}
```
### Extract solid Rar or 7Zip archives with progress reporting
`ExtractAllEntries` only works for solid archives (Rar) or 7Zip archives. For optimal performance with these archive types, use this method:
```C#
using SharpCompress.Common;
using SharpCompress.Readers;
var progress = new Progress<ProgressReport>(report =>
{
Console.WriteLine($"Extracting {report.EntryPath}: {report.PercentComplete}%");
});
using (var archive = RarArchive.Open("archive.rar", new ReaderOptions { Progress = progress })) // Must be solid Rar or 7Zip
{
archive.WriteToDirectory(@"D:\output", new ExtractionOptions()
{
ExtractFullPath = true,
Overwrite = true
});
}
```
### Use ReaderFactory to autodetect archive type and Open the entry stream
```C#
@@ -318,12 +298,14 @@ using (var writer = WriterFactory.Open(stream, ArchiveType.Zip, CompressionType.
```C#
using (var archive = ZipArchive.Open("archive.zip"))
{
// Simple async extraction - works for all archive types
await archive.WriteToDirectoryAsync(
@"C:\output",
new ExtractionOptions() { ExtractFullPath = true, Overwrite = true },
cancellationToken
);
using (var reader = archive.ExtractAllEntries())
{
await reader.WriteAllToDirectoryAsync(
@"C:\output",
new ExtractionOptions() { ExtractFullPath = true, Overwrite = true },
cancellationToken
);
}
}
```

177
build/Program.cs
View File

@@ -1,10 +1,7 @@
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Runtime.InteropServices;
using System.Text.RegularExpressions;
using System.Threading.Tasks;
using GlobExpressions;
using static Bullseye.Targets;
using static SimpleExec.Command;
@@ -14,11 +11,7 @@ const string Restore = "restore";
const string Build = "build";
const string Test = "test";
const string Format = "format";
const string CheckFormat = "check-format";
const string Publish = "publish";
const string DetermineVersion = "determine-version";
const string UpdateVersion = "update-version";
const string PushToNuGet = "push-to-nuget";
Target(
Clean,
@@ -49,20 +42,12 @@ Target(
Target(
Format,
() =>
{
Run("dotnet", "tool restore");
Run("dotnet", "csharpier format .");
}
);
Target(
CheckFormat,
() =>
{
Run("dotnet", "tool restore");
Run("dotnet", "csharpier check .");
}
);
Target(Restore, [CheckFormat], () => Run("dotnet", "restore"));
Target(Restore, [Format], () => Run("dotnet", "restore"));
Target(
Build,
@@ -76,7 +61,7 @@ Target(
Target(
Test,
[Build],
["net10.0", "net48"],
["net8.0", "net48"],
framework =>
{
IEnumerable<string> GetFiles(string d)
@@ -105,164 +90,6 @@ Target(
}
);
Target(
DetermineVersion,
async () =>
{
var (version, isPrerelease) = await GetVersion();
Console.WriteLine($"VERSION={version}");
Console.WriteLine($"PRERELEASE={isPrerelease.ToString().ToLower()}");
// Write to environment file for GitHub Actions
var githubOutput = Environment.GetEnvironmentVariable("GITHUB_OUTPUT");
if (!string.IsNullOrEmpty(githubOutput))
{
File.AppendAllText(githubOutput, $"version={version}\n");
File.AppendAllText(githubOutput, $"prerelease={isPrerelease.ToString().ToLower()}\n");
}
}
);
Target(
UpdateVersion,
async () =>
{
var version = Environment.GetEnvironmentVariable("VERSION");
if (string.IsNullOrEmpty(version))
{
var (detectedVersion, _) = await GetVersion();
version = detectedVersion;
}
Console.WriteLine($"Updating project file with version: {version}");
var projectPath = "src/SharpCompress/SharpCompress.csproj";
var content = File.ReadAllText(projectPath);
// Get base version (without prerelease suffix)
var baseVersion = version.Split('-')[0];
// Update VersionPrefix
content = Regex.Replace(
content,
@"<VersionPrefix>[^<]*</VersionPrefix>",
$"<VersionPrefix>{version}</VersionPrefix>"
);
// Update AssemblyVersion
content = Regex.Replace(
content,
@"<AssemblyVersion>[^<]*</AssemblyVersion>",
$"<AssemblyVersion>{baseVersion}</AssemblyVersion>"
);
// Update FileVersion
content = Regex.Replace(
content,
@"<FileVersion>[^<]*</FileVersion>",
$"<FileVersion>{baseVersion}</FileVersion>"
);
File.WriteAllText(projectPath, content);
Console.WriteLine($"Updated VersionPrefix to: {version}");
Console.WriteLine($"Updated AssemblyVersion and FileVersion to: {baseVersion}");
}
);
Target(
PushToNuGet,
() =>
{
var apiKey = Environment.GetEnvironmentVariable("NUGET_API_KEY");
if (string.IsNullOrEmpty(apiKey))
{
Console.WriteLine(
"NUGET_API_KEY environment variable is not set. Skipping NuGet push."
);
return;
}
var packages = Directory.GetFiles("artifacts", "*.nupkg");
if (packages.Length == 0)
{
Console.WriteLine("No packages found in artifacts directory.");
return;
}
foreach (var package in packages)
{
Console.WriteLine($"Pushing {package} to NuGet.org");
try
{
// Note: API key is passed via command line argument which is standard practice for dotnet nuget push
// The key is already in an environment variable and not displayed in normal output
Run(
"dotnet",
$"nuget push \"{package}\" --api-key {apiKey} --source https://api.nuget.org/v3/index.json --skip-duplicate"
);
}
catch (Exception ex)
{
Console.WriteLine($"Failed to push {package}: {ex.Message}");
throw;
}
}
}
);
Target("default", [Publish], () => Console.WriteLine("Done!"));
await RunTargetsAndExitAsync(args);
static async Task<(string version, bool isPrerelease)> GetVersion()
{
// Check if current commit has a version tag
var currentTag = (await GetGitOutput("tag", "--points-at HEAD"))
.Split('\n', StringSplitOptions.RemoveEmptyEntries)
.FirstOrDefault(tag => Regex.IsMatch(tag.Trim(), @"^\d+\.\d+\.\d+$"));
if (!string.IsNullOrEmpty(currentTag))
{
// Tagged release - use the tag as version
var version = currentTag.Trim();
Console.WriteLine($"Building tagged release version: {version}");
return (version, false);
}
else
{
// Not tagged - create prerelease version based on next minor version
var allTags = (await GetGitOutput("tag", "--list"))
.Split('\n', StringSplitOptions.RemoveEmptyEntries)
.Where(tag => Regex.IsMatch(tag.Trim(), @"^\d+\.\d+\.\d+$"))
.Select(tag => tag.Trim())
.ToList();
var lastTag = allTags.OrderBy(tag => Version.Parse(tag)).LastOrDefault() ?? "0.0.0";
var lastVersion = Version.Parse(lastTag);
// Increment minor version for next release
var nextVersion = new Version(lastVersion.Major, lastVersion.Minor + 1, 0);
// Use commit count since the last version tag if available; otherwise, fall back to total count
var revListArgs = allTags.Any() ? $"--count {lastTag}..HEAD" : "--count HEAD";
var commitCount = (await GetGitOutput("rev-list", revListArgs)).Trim();
var version = $"{nextVersion}-beta.{commitCount}";
Console.WriteLine($"Building prerelease version: {version}");
return (version, true);
}
}
static async Task<string> GetGitOutput(string command, string args)
{
try
{
// Use SimpleExec's Read to execute git commands in a cross-platform way
var (output, _) = await ReadAsync("git", $"{command} {args}");
return output;
}
catch (Exception ex)
{
throw new Exception($"Git command failed: git {command} {args}\n{ex.Message}", ex);
}
}

12
build/packages.lock.json
View File

@@ -4,9 +4,9 @@
"net10.0": {
"Bullseye": {
"type": "Direct",
"requested": "[6.1.0, )",
"resolved": "6.1.0",
"contentHash": "fltnAJDe0BEX5eymXGUq+il2rSUA0pHqUonNDRH2TrvRu8SkU17mYG0IVpdmG2ibtfhdjNrv4CuTCxHOwcozCA=="
"requested": "[6.0.0, )",
"resolved": "6.0.0",
"contentHash": "vgwwXfzs7jJrskWH7saHRMgPzziq/e86QZNWY1MnMxd7e+De7E7EX4K3C7yrvaK9y02SJoLxNxcLG/q5qUAghw=="
},
"Glob": {
"type": "Direct",
@@ -16,9 +16,9 @@
},
"SimpleExec": {
"type": "Direct",
"requested": "[13.0.0, )",
"resolved": "13.0.0",
"contentHash": "zcCR1pupa1wI1VqBULRiQKeHKKZOuJhi/K+4V5oO+rHJZlaOD53ViFo1c3PavDoMAfSn/FAXGAWpPoF57rwhYg=="
"requested": "[12.0.0, )",
"resolved": "12.0.0",
"contentHash": "ptxlWtxC8vM6Y6e3h9ZTxBBkOWnWrm/Sa1HT+2i1xcXY3Hx2hmKDZP5RShPf8Xr9D+ivlrXNy57ktzyH8kyt+Q=="
}
}
}

47
src/SharpCompress/Archives/AbstractArchive.cs
View File

@@ -8,7 +8,7 @@ using SharpCompress.Readers;
namespace SharpCompress.Archives;
public abstract class AbstractArchive<TEntry, TVolume> : IArchive
public abstract class AbstractArchive<TEntry, TVolume> : IArchive, IArchiveExtractionListener
where TEntry : IArchiveEntry
where TVolume : IVolume
{
@@ -17,6 +17,11 @@ public abstract class AbstractArchive<TEntry, TVolume> : IArchive
private bool _disposed;
private readonly SourceStream? _sourceStream;
public event EventHandler<ArchiveExtractionEventArgs<IArchiveEntry>>? EntryExtractionBegin;
public event EventHandler<ArchiveExtractionEventArgs<IArchiveEntry>>? EntryExtractionEnd;
public event EventHandler<CompressedBytesReadEventArgs>? CompressedBytesRead;
public event EventHandler<FilePartExtractionBeginEventArgs>? FilePartExtractionBegin;
protected ReaderOptions ReaderOptions { get; }
internal AbstractArchive(ArchiveType type, SourceStream sourceStream)
@@ -38,6 +43,12 @@ public abstract class AbstractArchive<TEntry, TVolume> : IArchive
public ArchiveType Type { get; }
void IArchiveExtractionListener.FireEntryExtractionBegin(IArchiveEntry entry) =>
EntryExtractionBegin?.Invoke(this, new ArchiveExtractionEventArgs<IArchiveEntry>(entry));
void IArchiveExtractionListener.FireEntryExtractionEnd(IArchiveEntry entry) =>
EntryExtractionEnd?.Invoke(this, new ArchiveExtractionEventArgs<IArchiveEntry>(entry));
private static Stream CheckStreams(Stream stream)
{
if (!stream.CanSeek || !stream.CanRead)
@@ -88,12 +99,38 @@ public abstract class AbstractArchive<TEntry, TVolume> : IArchive
}
}
private void EnsureEntriesLoaded()
void IArchiveExtractionListener.EnsureEntriesLoaded()
{
_lazyEntries.EnsureFullyLoaded();
_lazyVolumes.EnsureFullyLoaded();
}
void IExtractionListener.FireCompressedBytesRead(
long currentPartCompressedBytes,
long compressedReadBytes
) =>
CompressedBytesRead?.Invoke(
this,
new CompressedBytesReadEventArgs(
currentFilePartCompressedBytesRead: currentPartCompressedBytes,
compressedBytesRead: compressedReadBytes
)
);
void IExtractionListener.FireFilePartExtractionBegin(
string name,
long size,
long compressedSize
) =>
FilePartExtractionBegin?.Invoke(
this,
new FilePartExtractionBeginEventArgs(
compressedSize: compressedSize,
size: size,
name: name
)
);
/// <summary>
/// Use this method to extract all entries in an archive in order.
/// This is primarily for SOLID Rar Archives or 7Zip Archives as they need to be
@@ -109,11 +146,11 @@ public abstract class AbstractArchive<TEntry, TVolume> : IArchive
{
if (!IsSolid && Type != ArchiveType.SevenZip)
{
throw new SharpCompressException(
throw new InvalidOperationException(
"ExtractAllEntries can only be used on solid archives or 7Zip archives (which require random access)."
);
}
EnsureEntriesLoaded();
((IArchiveExtractionListener)this).EnsureEntriesLoaded();
return CreateReaderForSolidExtraction();
}
@@ -136,7 +173,7 @@ public abstract class AbstractArchive<TEntry, TVolume> : IArchive
{
get
{
EnsureEntriesLoaded();
((IArchiveExtractionListener)this).EnsureEntriesLoaded();
return Entries.All(x => x.IsComplete);
}
}

125
src/SharpCompress/Archives/ArchiveFactory.cs
View File

@@ -3,6 +3,10 @@ using System.Collections.Generic;
using System.IO;
using System.Linq;
using SharpCompress.Common;
using SharpCompress.Common.Tar.Headers;
using SharpCompress.Compressors;
using SharpCompress.Compressors.BZip2;
using SharpCompress.Compressors.LZMA;
using SharpCompress.Factories;
using SharpCompress.IO;
using SharpCompress.Readers;
@@ -131,10 +135,10 @@ public static class ArchiveFactory
{
finfo.NotNull(nameof(finfo));
using Stream stream = finfo.OpenRead();
return FindFactory<T>(stream);
return FindFactory<T>(stream, finfo.Name);
}
private static T FindFactory<T>(Stream stream)
private static T FindFactory<T>(Stream stream, string? fileName = null)
where T : IFactory
{
stream.NotNull(nameof(stream));
@@ -159,6 +163,16 @@ public static class ArchiveFactory
}
}
stream.Seek(startPosition, SeekOrigin.Begin);
// Check if this is a compressed tar file (tar.bz2, tar.lz, etc.)
// These formats are supported by ReaderFactory but not by ArchiveFactory
var compressedTarMessage = TryGetCompressedTarMessage(stream, fileName);
if (compressedTarMessage != null)
{
throw new InvalidOperationException(compressedTarMessage);
}
var extensions = string.Join(", ", factories.Select(item => item.Name));
throw new InvalidOperationException(
@@ -248,4 +262,111 @@ public static class ArchiveFactory
}
public static IArchiveFactory AutoFactory { get; } = new AutoArchiveFactory();
/// <summary>
/// Checks if the stream is a compressed tar file (tar.bz2, tar.lz, etc.) that should use ReaderFactory instead.
/// Returns an error message if detected, null otherwise.
/// </summary>
private static string? TryGetCompressedTarMessage(Stream stream, string? fileName)
{
var startPosition = stream.Position;
try
{
// Check if it's a BZip2 file
if (BZip2Stream.IsBZip2(stream))
{
stream.Seek(startPosition, SeekOrigin.Begin);
// Try to decompress and check if it contains a tar archive
using var decompressed = new BZip2Stream(stream, CompressionMode.Decompress, true);
if (IsTarStream(decompressed))
{
return "This appears to be a tar.bz2 archive. The Archive API requires seekable streams, but decompression streams are not seekable. "
+ "Please use ReaderFactory.Open() instead for forward-only extraction, "
+ "or decompress the file first and then open the resulting tar file with ArchiveFactory.Open().";
}
return null;
}
stream.Seek(startPosition, SeekOrigin.Begin);
// Check if it's an LZip file
if (LZipStream.IsLZipFile(stream))
{
stream.Seek(startPosition, SeekOrigin.Begin);
// Try to decompress and check if it contains a tar archive
using var decompressed = new LZipStream(stream, CompressionMode.Decompress);
if (IsTarStream(decompressed))
{
return "This appears to be a tar.lz archive. The Archive API requires seekable streams, but decompression streams are not seekable. "
+ "Please use ReaderFactory.Open() instead for forward-only extraction, "
+ "or decompress the file first and then open the resulting tar file with ArchiveFactory.Open().";
}
return null;
}
// Check file extension as a fallback for other compressed tar formats
if (fileName != null)
{
var lowerFileName = fileName.ToLowerInvariant();
if (
lowerFileName.EndsWith(".tar.bz2")
|| lowerFileName.EndsWith(".tbz")
|| lowerFileName.EndsWith(".tbz2")
|| lowerFileName.EndsWith(".tb2")
|| lowerFileName.EndsWith(".tz2")
|| lowerFileName.EndsWith(".tar.lz")
|| lowerFileName.EndsWith(".tar.xz")
|| lowerFileName.EndsWith(".txz")
|| lowerFileName.EndsWith(".tar.zst")
|| lowerFileName.EndsWith(".tar.zstd")
|| lowerFileName.EndsWith(".tzst")
|| lowerFileName.EndsWith(".tzstd")
|| lowerFileName.EndsWith(".tar.z")
|| lowerFileName.EndsWith(".tz")
|| lowerFileName.EndsWith(".taz")
)
{
return $"The file '{fileName}' appears to be a compressed tar archive. The Archive API requires seekable streams, but decompression streams are not seekable. "
+ "Please use ReaderFactory.Open() instead for forward-only extraction, "
+ "or decompress the file first and then open the resulting tar file with ArchiveFactory.Open().";
}
}
return null;
}
catch
{
// If we can't determine, just return null and let the normal error handling proceed
return null;
}
finally
{
try
{
stream.Seek(startPosition, SeekOrigin.Begin);
}
catch
{
// Ignore seek failures
}
}
}
/// <summary>
/// Checks if a stream contains a tar archive by trying to read a tar header.
/// </summary>
private static bool IsTarStream(Stream stream)
{
try
{
var tarHeader = new TarHeader(new ArchiveEncoding());
return tarHeader.Read(new BinaryReader(stream));
}
catch
{
return false;
}
}
}

6
src/SharpCompress/Archives/IArchive.cs
View File

@@ -7,6 +7,12 @@ namespace SharpCompress.Archives;
public interface IArchive : IDisposable
{
event EventHandler<ArchiveExtractionEventArgs<IArchiveEntry>> EntryExtractionBegin;
event EventHandler<ArchiveExtractionEventArgs<IArchiveEntry>> EntryExtractionEnd;
event EventHandler<CompressedBytesReadEventArgs> CompressedBytesRead;
event EventHandler<FilePartExtractionBeginEventArgs> FilePartExtractionBegin;
IEnumerable<IArchiveEntry> Entries { get; }
IEnumerable<IVolume> Volumes { get; }

231
src/SharpCompress/Archives/IArchiveEntryExtensions.cs
View File

@@ -1,4 +1,3 @@
using System;
using System.IO;
using System.Threading;
using System.Threading.Tasks;
@@ -9,153 +8,127 @@ namespace SharpCompress.Archives;
public static class IArchiveEntryExtensions
{
private const int BufferSize = 81920;
/// <param name="archiveEntry">The archive entry to extract.</param>
extension(IArchiveEntry archiveEntry)
public static void WriteTo(this IArchiveEntry archiveEntry, Stream streamToWriteTo)
{
/// <summary>
/// Extract entry to the specified stream.
/// </summary>
/// <param name="streamToWriteTo">The stream to write the entry content to.</param>
/// <param name="progress">Optional progress reporter for tracking extraction progress.</param>
public void WriteTo(Stream streamToWriteTo, IProgress<ProgressReport>? progress = null)
if (archiveEntry.IsDirectory)
{
if (archiveEntry.IsDirectory)
{
throw new ExtractionException("Entry is a file directory and cannot be extracted.");
}
using var entryStream = archiveEntry.OpenEntryStream();
var sourceStream = WrapWithProgress(entryStream, archiveEntry, progress);
sourceStream.CopyTo(streamToWriteTo, BufferSize);
throw new ExtractionException("Entry is a file directory and cannot be extracted.");
}
/// <summary>
/// Extract entry to the specified stream asynchronously.
/// </summary>
/// <param name="streamToWriteTo">The stream to write the entry content to.</param>
/// <param name="cancellationToken">Cancellation token.</param>
/// <param name="progress">Optional progress reporter for tracking extraction progress.</param>
public async Task WriteToAsync(
Stream streamToWriteTo,
IProgress<ProgressReport>? progress = null,
CancellationToken cancellationToken = default
)
var streamListener = (IArchiveExtractionListener)archiveEntry.Archive;
streamListener.EnsureEntriesLoaded();
streamListener.FireEntryExtractionBegin(archiveEntry);
streamListener.FireFilePartExtractionBegin(
archiveEntry.Key ?? "Key",
archiveEntry.Size,
archiveEntry.CompressedSize
);
var entryStream = archiveEntry.OpenEntryStream();
using (entryStream)
{
if (archiveEntry.IsDirectory)
{
throw new ExtractionException("Entry is a file directory and cannot be extracted.");
}
using var entryStream = await archiveEntry.OpenEntryStreamAsync(cancellationToken);
var sourceStream = WrapWithProgress(entryStream, archiveEntry, progress);
await sourceStream
.CopyToAsync(streamToWriteTo, BufferSize, cancellationToken)
.ConfigureAwait(false);
using Stream s = new ListeningStream(streamListener, entryStream);
s.CopyTo(streamToWriteTo);
}
streamListener.FireEntryExtractionEnd(archiveEntry);
}
private static Stream WrapWithProgress(
Stream source,
IArchiveEntry entry,
IProgress<ProgressReport>? progress
public static async Task WriteToAsync(
this IArchiveEntry archiveEntry,
Stream streamToWriteTo,
CancellationToken cancellationToken = default
)
{
if (progress is null)
if (archiveEntry.IsDirectory)
{
return source;
throw new ExtractionException("Entry is a file directory and cannot be extracted.");
}
var entryPath = entry.Key ?? string.Empty;
var totalBytes = GetEntrySizeSafe(entry);
return new ProgressReportingStream(
source,
progress,
entryPath,
totalBytes,
leaveOpen: true
var streamListener = (IArchiveExtractionListener)archiveEntry.Archive;
streamListener.EnsureEntriesLoaded();
streamListener.FireEntryExtractionBegin(archiveEntry);
streamListener.FireFilePartExtractionBegin(
archiveEntry.Key ?? "Key",
archiveEntry.Size,
archiveEntry.CompressedSize
);
}
private static long? GetEntrySizeSafe(IArchiveEntry entry)
{
try
var entryStream = archiveEntry.OpenEntryStream();
using (entryStream)
{
var size = entry.Size;
return size >= 0 ? size : null;
}
catch (NotImplementedException)
{
return null;
using Stream s = new ListeningStream(streamListener, entryStream);
await s.CopyToAsync(streamToWriteTo, 81920, cancellationToken).ConfigureAwait(false);
}
streamListener.FireEntryExtractionEnd(archiveEntry);
}
extension(IArchiveEntry entry)
{
/// <summary>
/// Extract to specific directory, retaining filename
/// </summary>
public void WriteToDirectory(
string destinationDirectory,
ExtractionOptions? options = null
) =>
ExtractionMethods.WriteEntryToDirectory(
entry,
destinationDirectory,
options,
entry.WriteToFile
);
/// <summary>
/// Extract to specific directory, retaining filename
/// </summary>
public static void WriteToDirectory(
this IArchiveEntry entry,
string destinationDirectory,
ExtractionOptions? options = null
) =>
ExtractionMethods.WriteEntryToDirectory(
entry,
destinationDirectory,
options,
entry.WriteToFile
);
/// <summary>
/// Extract to specific directory asynchronously, retaining filename
/// </summary>
public Task WriteToDirectoryAsync(
string destinationDirectory,
ExtractionOptions? options = null,
CancellationToken cancellationToken = default
) =>
ExtractionMethods.WriteEntryToDirectoryAsync(
entry,
destinationDirectory,
options,
entry.WriteToFileAsync,
cancellationToken
);
/// <summary>
/// Extract to specific directory asynchronously, retaining filename
/// </summary>
public static Task WriteToDirectoryAsync(
this IArchiveEntry entry,
string destinationDirectory,
ExtractionOptions? options = null,
CancellationToken cancellationToken = default
) =>
ExtractionMethods.WriteEntryToDirectoryAsync(
entry,
destinationDirectory,
options,
(x, opt) => entry.WriteToFileAsync(x, opt, cancellationToken),
cancellationToken
);
/// <summary>
/// Extract to specific file
/// </summary>
public void WriteToFile(string destinationFileName, ExtractionOptions? options = null) =>
ExtractionMethods.WriteEntryToFile(
entry,
destinationFileName,
options,
(x, fm) =>
{
using var fs = File.Open(destinationFileName, fm);
entry.WriteTo(fs);
}
);
/// <summary>
/// Extract to specific file
/// </summary>
public static void WriteToFile(
this IArchiveEntry entry,
string destinationFileName,
ExtractionOptions? options = null
) =>
ExtractionMethods.WriteEntryToFile(
entry,
destinationFileName,
options,
(x, fm) =>
{
using var fs = File.Open(destinationFileName, fm);
entry.WriteTo(fs);
}
);
/// <summary>
/// Extract to specific file asynchronously
/// </summary>
public Task WriteToFileAsync(
string destinationFileName,
ExtractionOptions? options = null,
CancellationToken cancellationToken = default
) =>
ExtractionMethods.WriteEntryToFileAsync(
entry,
destinationFileName,
options,
async (x, fm, ct) =>
{
using var fs = File.Open(destinationFileName, fm);
await entry.WriteToAsync(fs, null, ct).ConfigureAwait(false);
},
cancellationToken
);
}
/// <summary>
/// Extract to specific file asynchronously
/// </summary>
public static Task WriteToFileAsync(
this IArchiveEntry entry,
string destinationFileName,
ExtractionOptions? options = null,
CancellationToken cancellationToken = default
) =>
ExtractionMethods.WriteEntryToFileAsync(
entry,
destinationFileName,
options,
async (x, fm) =>
{
using var fs = File.Open(destinationFileName, fm);
await entry.WriteToAsync(fs, cancellationToken).ConfigureAwait(false);
},
cancellationToken
);
}

201
src/SharpCompress/Archives/IArchiveExtensions.cs
View File

@@ -1,8 +1,8 @@
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Threading;
using System.Threading.Tasks;
using SharpCompress.Common;
using SharpCompress.Readers;
@@ -10,159 +10,76 @@ namespace SharpCompress.Archives;
public static class IArchiveExtensions
{
/// <param name="archive">The archive to extract.</param>
extension(IArchive archive)
/// <summary>
/// Extract to specific directory, retaining filename
/// </summary>
public static void WriteToDirectory(
this IArchive archive,
string destinationDirectory,
ExtractionOptions? options = null
)
{
/// <summary>
/// Extract to specific directory with progress reporting
/// </summary>
/// <param name="destinationDirectory">The folder to extract into.</param>
/// <param name="options">Extraction options.</param>
/// <param name="progress">Optional progress reporter for tracking extraction progress.</param>
public void WriteToDirectory(
string destinationDirectory,
ExtractionOptions? options = null,
IProgress<ProgressReport>? progress = null
)
using var reader = archive.ExtractAllEntries();
reader.WriteAllToDirectory(destinationDirectory, options);
}
/// <summary>
/// Extracts the archive to the destination directory. Directories will be created as needed.
/// </summary>
/// <param name="archive">The archive to extract.</param>
/// <param name="destination">The folder to extract into.</param>
/// <param name="progressReport">Optional progress report callback.</param>
/// <param name="cancellationToken">Optional cancellation token.</param>
public static void ExtractToDirectory(
this IArchive archive,
string destination,
Action<double>? progressReport = null,
CancellationToken cancellationToken = default
)
{
// Prepare for progress reporting
var totalBytes = archive.TotalUncompressSize;
var bytesRead = 0L;
// Tracking for created directories.
var seenDirectories = new HashSet<string>();
// Extract
foreach (var entry in archive.Entries)
{
// For solid archives (Rar, 7Zip), use the optimized reader-based approach
if (archive.IsSolid || archive.Type == ArchiveType.SevenZip)
{
using var reader = archive.ExtractAllEntries();
reader.WriteAllToDirectory(destinationDirectory, options);
}
else
{
// For non-solid archives, extract entries directly
archive.WriteToDirectoryInternal(destinationDirectory, options, progress);
}
}
cancellationToken.ThrowIfCancellationRequested();
private void WriteToDirectoryInternal(
string destinationDirectory,
ExtractionOptions? options,
IProgress<ProgressReport>? progress
)
{
// Prepare for progress reporting
var totalBytes = archive.TotalUncompressSize;
var bytesRead = 0L;
// Tracking for created directories.
var seenDirectories = new HashSet<string>();
// Extract
foreach (var entry in archive.Entries)
if (entry.IsDirectory)
{
if (entry.IsDirectory)
var dirPath = Path.Combine(destination, entry.Key.NotNull("Entry Key is null"));
if (
Path.GetDirectoryName(dirPath + "/") is { } emptyDirectory
&& seenDirectories.Add(dirPath)
)
{
var dirPath = Path.Combine(
destinationDirectory,
entry.Key.NotNull("Entry Key is null")
);
if (
Path.GetDirectoryName(dirPath + "/") is { } parentDirectory
&& seenDirectories.Add(dirPath)
)
{
Directory.CreateDirectory(parentDirectory);
}
continue;
Directory.CreateDirectory(emptyDirectory);
}
// Use the entry's WriteToDirectory method which respects ExtractionOptions
entry.WriteToDirectory(destinationDirectory, options);
// Update progress
bytesRead += entry.Size;
progress?.Report(
new ProgressReport(entry.Key ?? string.Empty, bytesRead, totalBytes)
);
continue;
}
}
/// <summary>
/// Extract to specific directory asynchronously with progress reporting and cancellation support
/// </summary>
/// <param name="destinationDirectory">The folder to extract into.</param>
/// <param name="options">Extraction options.</param>
/// <param name="progress">Optional progress reporter for tracking extraction progress.</param>
/// <param name="cancellationToken">Optional cancellation token.</param>
public async Task WriteToDirectoryAsync(
string destinationDirectory,
ExtractionOptions? options = null,
IProgress<ProgressReport>? progress = null,
CancellationToken cancellationToken = default
)
{
// For solid archives (Rar, 7Zip), use the optimized reader-based approach
if (archive.IsSolid || archive.Type == ArchiveType.SevenZip)
// Create each directory if not already created
var path = Path.Combine(destination, entry.Key.NotNull("Entry Key is null"));
if (Path.GetDirectoryName(path) is { } directory)
{
using var reader = archive.ExtractAllEntries();
await reader.WriteAllToDirectoryAsync(
destinationDirectory,
options,
cancellationToken
);
}
else
{
// For non-solid archives, extract entries directly
await archive.WriteToDirectoryAsyncInternal(
destinationDirectory,
options,
progress,
cancellationToken
);
}
}
private async Task WriteToDirectoryAsyncInternal(
string destinationDirectory,
ExtractionOptions? options,
IProgress<ProgressReport>? progress,
CancellationToken cancellationToken
)
{
// Prepare for progress reporting
var totalBytes = archive.TotalUncompressSize;
var bytesRead = 0L;
// Tracking for created directories.
var seenDirectories = new HashSet<string>();
// Extract
foreach (var entry in archive.Entries)
{
cancellationToken.ThrowIfCancellationRequested();
if (entry.IsDirectory)
if (!Directory.Exists(directory) && !seenDirectories.Contains(directory))
{
var dirPath = Path.Combine(
destinationDirectory,
entry.Key.NotNull("Entry Key is null")
);
if (
Path.GetDirectoryName(dirPath + "/") is { } parentDirectory
&& seenDirectories.Add(dirPath)
)
{
Directory.CreateDirectory(parentDirectory);
}
continue;
Directory.CreateDirectory(directory);
seenDirectories.Add(directory);
}
// Use the entry's WriteToDirectoryAsync method which respects ExtractionOptions
await entry
.WriteToDirectoryAsync(destinationDirectory, options, cancellationToken)
.ConfigureAwait(false);
// Update progress
bytesRead += entry.Size;
progress?.Report(
new ProgressReport(entry.Key ?? string.Empty, bytesRead, totalBytes)
);
}
// Write file
using var fs = File.OpenWrite(path);
entry.WriteTo(fs);
// Update progress
bytesRead += entry.Size;
progressReport?.Invoke(bytesRead / (double)totalBytes);
}
}
}

10
src/SharpCompress/Archives/IArchiveExtractionListener.cs Normal file
View File

@@ -0,0 +1,10 @@
using SharpCompress.Common;
namespace SharpCompress.Archives;
internal interface IArchiveExtractionListener : IExtractionListener
{
void EnsureEntriesLoaded();
void FireEntryExtractionBegin(IArchiveEntry entry);
void FireEntryExtractionEnd(IArchiveEntry entry);
}

8
src/SharpCompress/Archives/Rar/RarArchiveEntry.cs
View File

@@ -76,7 +76,7 @@ public class RarArchiveEntry : RarEntry, IArchiveEntry
stream = new RarStream(
archive.UnpackV1.Value,
FileHeader,
new MultiVolumeReadOnlyStream(Parts.Cast<RarFilePart>())
new MultiVolumeReadOnlyStream(Parts.Cast<RarFilePart>(), archive)
);
}
else
@@ -84,7 +84,7 @@ public class RarArchiveEntry : RarEntry, IArchiveEntry
stream = new RarStream(
archive.UnpackV2017.Value,
FileHeader,
new MultiVolumeReadOnlyStream(Parts.Cast<RarFilePart>())
new MultiVolumeReadOnlyStream(Parts.Cast<RarFilePart>(), archive)
);
}
@@ -100,7 +100,7 @@ public class RarArchiveEntry : RarEntry, IArchiveEntry
stream = new RarStream(
archive.UnpackV1.Value,
FileHeader,
new MultiVolumeReadOnlyStream(Parts.Cast<RarFilePart>())
new MultiVolumeReadOnlyStream(Parts.Cast<RarFilePart>(), archive)
);
}
else
@@ -108,7 +108,7 @@ public class RarArchiveEntry : RarEntry, IArchiveEntry
stream = new RarStream(
archive.UnpackV2017.Value,
FileHeader,
new MultiVolumeReadOnlyStream(Parts.Cast<RarFilePart>())
new MultiVolumeReadOnlyStream(Parts.Cast<RarFilePart>(), archive)
);
}

157
src/SharpCompress/Archives/SevenZip/SevenZipArchive.cs
View File

@@ -2,8 +2,6 @@ using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Threading;
using System.Threading.Tasks;
using SharpCompress.Common;
using SharpCompress.Common.SevenZip;
using SharpCompress.Compressors.LZMA.Utilites;
@@ -215,7 +213,9 @@ public class SevenZipArchive : AbstractArchive<SevenZipArchiveEntry, SevenZipVol
private sealed class SevenZipReader : AbstractReader<SevenZipEntry, SevenZipVolume>
{
private readonly SevenZipArchive _archive;
private SevenZipEntry? _currentEntry;
private CFolder? _currentFolder;
private Stream? _currentStream;
private CFileItem? _currentItem;
internal SevenZipReader(ReaderOptions readerOptions, SevenZipArchive archive)
: base(readerOptions, ArchiveType.SevenZip) => this._archive = archive;
@@ -228,135 +228,40 @@ public class SevenZipArchive : AbstractArchive<SevenZipArchiveEntry, SevenZipVol
stream.Position = 0;
foreach (var dir in entries.Where(x => x.IsDirectory))
{
_currentEntry = dir;
yield return dir;
}
// For non-directory entries, yield them without creating shared streams
// Each call to GetEntryStream() will create a fresh decompression stream
// to avoid state corruption issues with async operations
foreach (var entry in entries.Where(x => !x.IsDirectory))
foreach (
var group in entries.Where(x => !x.IsDirectory).GroupBy(x => x.FilePart.Folder)
)
{
_currentEntry = entry;
yield return entry;
_currentFolder = group.Key;
if (group.Key is null)
{
_currentStream = Stream.Null;
}
else
{
_currentStream = _archive._database?.GetFolderStream(
stream,
_currentFolder,
new PasswordProvider(Options.Password)
);
}
foreach (var entry in group)
{
_currentItem = entry.FilePart.Header;
yield return entry;
}
}
}
protected override EntryStream GetEntryStream()
{
// Create a fresh decompression stream for each file (no state sharing).
// However, the LZMA decoder has bugs in its async implementation that cause
// state corruption even on fresh streams. The SyncOnlyStream wrapper
// works around these bugs by forcing async operations to use sync equivalents.
//
// TODO: Fix the LZMA decoder async bugs (in LzmaStream, Decoder, OutWindow)
// so this wrapper is no longer necessary.
var entry = _currentEntry.NotNull("currentEntry is not null");
if (entry.IsDirectory)
{
return CreateEntryStream(Stream.Null);
}
return CreateEntryStream(new SyncOnlyStream(entry.FilePart.GetCompressedStream()));
}
}
/// <summary>
/// WORKAROUND: Forces async operations to use synchronous equivalents.
/// This is necessary because the LZMA decoder has bugs in its async implementation
/// that cause state corruption (IndexOutOfRangeException, DataErrorException).
///
/// The proper fix would be to repair the LZMA decoder's async methods
/// (LzmaStream.ReadAsync, Decoder.CodeAsync, OutWindow async operations),
/// but that requires deep changes to the decoder state machine.
/// </summary>
private sealed class SyncOnlyStream : Stream
{
private readonly Stream _baseStream;
public SyncOnlyStream(Stream baseStream) => _baseStream = baseStream;
public override bool CanRead => _baseStream.CanRead;
public override bool CanSeek => _baseStream.CanSeek;
public override bool CanWrite => _baseStream.CanWrite;
public override long Length => _baseStream.Length;
public override long Position
{
get => _baseStream.Position;
set => _baseStream.Position = value;
}
public override void Flush() => _baseStream.Flush();
public override int Read(byte[] buffer, int offset, int count) =>
_baseStream.Read(buffer, offset, count);
public override long Seek(long offset, SeekOrigin origin) =>
_baseStream.Seek(offset, origin);
public override void SetLength(long value) => _baseStream.SetLength(value);
public override void Write(byte[] buffer, int offset, int count) =>
_baseStream.Write(buffer, offset, count);
// Force async operations to use sync equivalents to avoid LZMA decoder bugs
public override Task<int> ReadAsync(
byte[] buffer,
int offset,
int count,
CancellationToken cancellationToken
)
{
cancellationToken.ThrowIfCancellationRequested();
return Task.FromResult(_baseStream.Read(buffer, offset, count));
}
public override Task WriteAsync(
byte[] buffer,
int offset,
int count,
CancellationToken cancellationToken
)
{
cancellationToken.ThrowIfCancellationRequested();
_baseStream.Write(buffer, offset, count);
return Task.CompletedTask;
}
public override Task FlushAsync(CancellationToken cancellationToken)
{
cancellationToken.ThrowIfCancellationRequested();
_baseStream.Flush();
return Task.CompletedTask;
}
#if !NETFRAMEWORK && !NETSTANDARD2_0
public override ValueTask<int> ReadAsync(
Memory<byte> buffer,
CancellationToken cancellationToken = default
)
{
cancellationToken.ThrowIfCancellationRequested();
return new ValueTask<int>(_baseStream.Read(buffer.Span));
}
public override ValueTask WriteAsync(
ReadOnlyMemory<byte> buffer,
CancellationToken cancellationToken = default
)
{
cancellationToken.ThrowIfCancellationRequested();
_baseStream.Write(buffer.Span);
return ValueTask.CompletedTask;
}
#endif
protected override void Dispose(bool disposing)
{
if (disposing)
{
_baseStream.Dispose();
}
base.Dispose(disposing);
}
protected override EntryStream GetEntryStream() =>
CreateEntryStream(
new ReadOnlySubStream(
_currentStream.NotNull("currentStream is not null"),
_currentItem?.Size ?? 0
)
);
}
private class PasswordProvider : IPasswordProvider

3
src/SharpCompress/AssemblyInfo.cs
View File

@@ -1,8 +1,7 @@
using System;
using System.Runtime.CompilerServices;
// CLSCompliant(false) is required because ZStandard integration uses unsafe code
[assembly: CLSCompliant(false)]
[assembly: CLSCompliant(true)]
[assembly: InternalsVisibleTo(
"SharpCompress.Test,PublicKey=0024000004800000940000000602000000240000525341310004000001000100158bebf1433f76dffc356733c138babea7a47536c65ed8009b16372c6f4edbb20554db74a62687f56b97c20a6ce8c4b123280279e33c894e7b3aa93ab3c573656fde4db576cfe07dba09619ead26375b25d2c4a8e43f7be257d712b0dd2eb546f67adb09281338618a58ac834fc038dd7e2740a7ab3591826252e4f4516306dc"
)]

61
src/SharpCompress/Common/Ace/AceCrc.cs
View File

@@ -1,61 +0,0 @@
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace SharpCompress.Common.Ace
{
public class AceCrc
{
// CRC-32 lookup table (standard polynomial 0xEDB88320, reflected)
private static readonly uint[] Crc32Table = GenerateTable();
private static uint[] GenerateTable()
{
var table = new uint[256];
for (int i = 0; i < 256; i++)
{
uint crc = (uint)i;
for (int j = 0; j < 8; j++)
{
if ((crc & 1) != 0)
crc = (crc >> 1) ^ 0xEDB88320u;
else
crc >>= 1;
}
table[i] = crc;
}
return table;
}
/// <summary>
/// Calculate ACE CRC-32 checksum.
/// ACE CRC-32 uses standard CRC-32 polynomial (0xEDB88320, reflected)
/// with init=0xFFFFFFFF but NO final XOR.
/// </summary>
public static uint AceCrc32(ReadOnlySpan<byte> data)
{
uint crc = 0xFFFFFFFFu;
foreach (byte b in data)
{
crc = (crc >> 8) ^ Crc32Table[(crc ^ b) & 0xFF];
}
return crc; // No final XOR for ACE
}
/// <summary>
/// ACE CRC-16 is the lower 16 bits of the ACE CRC-32.
/// </summary>
public static ushort AceCrc16(ReadOnlySpan<byte> data)
{
return (ushort)(AceCrc32(data) & 0xFFFF);
}
}
}

68
src/SharpCompress/Common/Ace/AceEntry.cs
View File

@@ -1,68 +0,0 @@
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using SharpCompress.Common.Ace.Headers;
namespace SharpCompress.Common.Ace
{
public class AceEntry : Entry
{
private readonly AceFilePart _filePart;
internal AceEntry(AceFilePart filePart)
{
_filePart = filePart;
}
public override long Crc
{
get
{
if (_filePart == null)
{
return 0;
}
return _filePart.Header.Crc32;
}
}
public override string? Key => _filePart?.Header.Filename;
public override string? LinkTarget => null;
public override long CompressedSize => _filePart?.Header.PackedSize ?? 0;
public override CompressionType CompressionType
{
get
{
if (_filePart.Header.CompressionType == Headers.CompressionType.Stored)
{
return CompressionType.None;
}
return CompressionType.AceLZ77;
}
}
public override long Size => _filePart?.Header.OriginalSize ?? 0;
public override DateTime? LastModifiedTime => _filePart.Header.DateTime;
public override DateTime? CreatedTime => null;
public override DateTime? LastAccessedTime => null;
public override DateTime? ArchivedTime => null;
public override bool IsEncrypted => _filePart.Header.IsFileEncrypted;
public override bool IsDirectory => _filePart.Header.IsDirectory;
public override bool IsSplitAfter => false;
internal override IEnumerable<FilePart> Parts => _filePart.Empty();
}
}

52
src/SharpCompress/Common/Ace/AceFilePart.cs
View File

@@ -1,52 +0,0 @@
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using SharpCompress.Common.Ace.Headers;
using SharpCompress.IO;
namespace SharpCompress.Common.Ace
{
public class AceFilePart : FilePart
{
private readonly Stream _stream;
internal AceFileHeader Header { get; set; }
internal AceFilePart(AceFileHeader localAceHeader, Stream seekableStream)
: base(localAceHeader.ArchiveEncoding)
{
_stream = seekableStream;
Header = localAceHeader;
}
internal override string? FilePartName => Header.Filename;
internal override Stream GetCompressedStream()
{
if (_stream != null)
{
Stream compressedStream;
switch (Header.CompressionType)
{
case Headers.CompressionType.Stored:
compressedStream = new ReadOnlySubStream(
_stream,
Header.DataStartPosition,
Header.PackedSize
);
break;
default:
throw new NotSupportedException(
"CompressionMethod: " + Header.CompressionQuality
);
}
return compressedStream;
}
return _stream.NotNull();
}
internal override Stream? GetRawStream() => _stream;
}
}

35
src/SharpCompress/Common/Ace/AceVolume.cs
View File

@@ -1,35 +0,0 @@
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using SharpCompress.Common.Arj;
using SharpCompress.Readers;
namespace SharpCompress.Common.Ace
{
public class AceVolume : Volume
{
public AceVolume(Stream stream, ReaderOptions readerOptions, int index = 0)
: base(stream, readerOptions, index) { }
public override bool IsFirstVolume
{
get { return true; }
}
/// <summary>
/// ArjArchive is part of a multi-part archive.
/// </summary>
public override bool IsMultiVolume
{
get { return false; }
}
internal IEnumerable<AceFilePart> GetVolumeFileParts()
{
return new List<AceFilePart>();
}
}
}

171
src/SharpCompress/Common/Ace/Headers/AceFileHeader.cs
View File

@@ -1,171 +0,0 @@
using System;
using System.Buffers.Binary;
using System.Collections.Generic;
using System.IO;
using System.Xml.Linq;
using SharpCompress.Common.Arc;
namespace SharpCompress.Common.Ace.Headers
{
/// <summary>
/// ACE file entry header
/// </summary>
public sealed class AceFileHeader : AceHeader
{
public long DataStartPosition { get; private set; }
public long PackedSize { get; set; }
public long OriginalSize { get; set; }
public DateTime DateTime { get; set; }
public int Attributes { get; set; }
public uint Crc32 { get; set; }
public CompressionType CompressionType { get; set; }
public CompressionQuality CompressionQuality { get; set; }
public ushort Parameters { get; set; }
public string Filename { get; set; } = string.Empty;
public List<byte> Comment { get; set; } = new();
/// <summary>
/// File data offset in the archive
/// </summary>
public ulong DataOffset { get; set; }
public bool IsDirectory => (Attributes & 0x10) != 0;
public bool IsContinuedFromPrev =>
(HeaderFlags & SharpCompress.Common.Ace.Headers.HeaderFlags.CONTINUED_PREV) != 0;
public bool IsContinuedToNext =>
(HeaderFlags & SharpCompress.Common.Ace.Headers.HeaderFlags.CONTINUED_NEXT) != 0;
public int DictionarySize
{
get
{
int bits = Parameters & 0x0F;
return bits < 10 ? 1024 : 1 << bits;
}
}
public AceFileHeader(ArchiveEncoding archiveEncoding)
: base(archiveEncoding, AceHeaderType.FILE) { }
/// <summary>
/// Reads the next file entry header from the stream.
/// Returns null if no more entries or end of archive.
/// Supports both ACE 1.0 and ACE 2.0 formats.
/// </summary>
public override AceHeader? Read(Stream stream)
{
var headerData = ReadHeader(stream);
if (headerData.Length == 0)
{
return null;
}
int offset = 0;
// Header type (1 byte)
HeaderType = headerData[offset++];
// Skip recovery record headers (ACE 2.0 feature)
if (HeaderType == (byte)SharpCompress.Common.Ace.Headers.AceHeaderType.RECOVERY32)
{
// Skip to next header
return null;
}
if (HeaderType != (byte)SharpCompress.Common.Ace.Headers.AceHeaderType.FILE)
{
// Unknown header type - skip
return null;
}
// Header flags (2 bytes)
HeaderFlags = BitConverter.ToUInt16(headerData, offset);
offset += 2;
// Packed size (4 bytes)
PackedSize = BitConverter.ToUInt32(headerData, offset);
offset += 4;
// Original size (4 bytes)
OriginalSize = BitConverter.ToUInt32(headerData, offset);
offset += 4;
// File date/time in DOS format (4 bytes)
var dosDateTime = BitConverter.ToUInt32(headerData, offset);
DateTime = ConvertDosDateTime(dosDateTime);
offset += 4;
// File attributes (4 bytes)
Attributes = (int)BitConverter.ToUInt32(headerData, offset);
offset += 4;
// CRC32 (4 bytes)
Crc32 = BitConverter.ToUInt32(headerData, offset);
offset += 4;
// Compression type (1 byte)
byte compressionType = headerData[offset++];
CompressionType = GetCompressionType(compressionType);
// Compression quality/parameter (1 byte)
byte compressionQuality = headerData[offset++];
CompressionQuality = GetCompressionQuality(compressionQuality);
// Parameters (2 bytes)
Parameters = BitConverter.ToUInt16(headerData, offset);
offset += 2;
// Reserved (2 bytes) - skip
offset += 2;
// Filename length (2 bytes)
var filenameLength = BitConverter.ToUInt16(headerData, offset);
offset += 2;
// Filename
if (offset + filenameLength <= headerData.Length)
{
Filename = ArchiveEncoding.Decode(headerData, offset, filenameLength);
offset += filenameLength;
}
// Handle comment if present
if ((HeaderFlags & SharpCompress.Common.Ace.Headers.HeaderFlags.COMMENT) != 0)
{
// Comment length (2 bytes)
if (offset + 2 <= headerData.Length)
{
ushort commentLength = BitConverter.ToUInt16(headerData, offset);
offset += 2 + commentLength; // Skip comment
}
}
// Store the data start position
DataStartPosition = stream.Position;
return this;
}
public CompressionType GetCompressionType(byte value) =>
value switch
{
0 => CompressionType.Stored,
1 => CompressionType.Lz77,
2 => CompressionType.Blocked,
_ => CompressionType.Unknown,
};
public CompressionQuality GetCompressionQuality(byte value) =>
value switch
{
0 => CompressionQuality.None,
1 => CompressionQuality.Fastest,
2 => CompressionQuality.Fast,
3 => CompressionQuality.Normal,
4 => CompressionQuality.Good,
5 => CompressionQuality.Best,
_ => CompressionQuality.Unknown,
};
}
}

153
src/SharpCompress/Common/Ace/Headers/AceHeader.cs
View File

@@ -1,153 +0,0 @@
using System;
using System.IO;
using SharpCompress.Common.Arj.Headers;
using SharpCompress.Crypto;
namespace SharpCompress.Common.Ace.Headers
{
/// <summary>
/// Header type constants
/// </summary>
public enum AceHeaderType
{
MAIN = 0,
FILE = 1,
RECOVERY32 = 2,
RECOVERY64A = 3,
RECOVERY64B = 4,
}
public abstract class AceHeader
{
// ACE signature: bytes at offset 7 should be "**ACE**"
private static readonly byte[] AceSignature =
[
(byte)'*',
(byte)'*',
(byte)'A',
(byte)'C',
(byte)'E',
(byte)'*',
(byte)'*',
];
public AceHeader(ArchiveEncoding archiveEncoding, AceHeaderType type)
{
AceHeaderType = type;
ArchiveEncoding = archiveEncoding;
}
public ArchiveEncoding ArchiveEncoding { get; }
public AceHeaderType AceHeaderType { get; }
public ushort HeaderFlags { get; set; }
public ushort HeaderCrc { get; set; }
public ushort HeaderSize { get; set; }
public byte HeaderType { get; set; }
public bool IsFileEncrypted =>
(HeaderFlags & SharpCompress.Common.Ace.Headers.HeaderFlags.FILE_ENCRYPTED) != 0;
public bool Is64Bit =>
(HeaderFlags & SharpCompress.Common.Ace.Headers.HeaderFlags.MEMORY_64BIT) != 0;
public bool IsSolid =>
(HeaderFlags & SharpCompress.Common.Ace.Headers.HeaderFlags.SOLID_MAIN) != 0;
public bool IsMultiVolume =>
(HeaderFlags & SharpCompress.Common.Ace.Headers.HeaderFlags.MULTIVOLUME) != 0;
public abstract AceHeader? Read(Stream reader);
public byte[] ReadHeader(Stream stream)
{
// Read header CRC (2 bytes) and header size (2 bytes)
var headerBytes = new byte[4];
if (stream.Read(headerBytes, 0, 4) != 4)
{
return Array.Empty<byte>();
}
HeaderCrc = BitConverter.ToUInt16(headerBytes, 0); // CRC for validation
HeaderSize = BitConverter.ToUInt16(headerBytes, 2);
if (HeaderSize == 0)
{
return Array.Empty<byte>();
}
// Read the header data
var body = new byte[HeaderSize];
if (stream.Read(body, 0, HeaderSize) != HeaderSize)
{
return Array.Empty<byte>();
}
// Verify crc
var checksum = AceCrc.AceCrc16(body);
if (checksum != HeaderCrc)
{
throw new InvalidDataException("Header checksum is invalid");
}
return body;
}
public static bool IsArchive(Stream stream)
{
// ACE files have a specific signature
// First two bytes are typically 0x60 0xEA (signature bytes)
// At offset 7, there should be "**ACE**" (7 bytes)
var bytes = new byte[14];
if (stream.Read(bytes, 0, 14) != 14)
{
return false;
}
// Check for "**ACE**" at offset 7
return CheckMagicBytes(bytes, 7);
}
protected static bool CheckMagicBytes(byte[] headerBytes, int offset)
{
// Check for "**ACE**" at specified offset
for (int i = 0; i < AceSignature.Length; i++)
{
if (headerBytes[offset + i] != AceSignature[i])
{
return false;
}
}
return true;
}
protected DateTime ConvertDosDateTime(uint dosDateTime)
{
try
{
int second = (int)(dosDateTime & 0x1F) * 2;
int minute = (int)((dosDateTime >> 5) & 0x3F);
int hour = (int)((dosDateTime >> 11) & 0x1F);
int day = (int)((dosDateTime >> 16) & 0x1F);
int month = (int)((dosDateTime >> 21) & 0x0F);
int year = (int)((dosDateTime >> 25) & 0x7F) + 1980;
if (
day < 1
|| day > 31
|| month < 1
|| month > 12
|| hour > 23
|| minute > 59
|| second > 59
)
{
return DateTime.MinValue;
}
return new DateTime(year, month, day, hour, minute, second);
}
catch
{
return DateTime.MinValue;
}
}
}
}

97
src/SharpCompress/Common/Ace/Headers/AceMainHeader.cs
View File

@@ -1,97 +0,0 @@
using System;
using System.Buffers.Binary;
using System.Collections.Generic;
using System.IO;
using SharpCompress.Common.Ace.Headers;
using SharpCompress.Common.Zip.Headers;
using SharpCompress.Crypto;
namespace SharpCompress.Common.Ace.Headers
{
/// <summary>
/// ACE main archive header
/// </summary>
public sealed class AceMainHeader : AceHeader
{
public byte ExtractVersion { get; set; }
public byte CreatorVersion { get; set; }
public HostOS HostOS { get; set; }
public byte VolumeNumber { get; set; }
public DateTime DateTime { get; set; }
public string Advert { get; set; } = string.Empty;
public List<byte> Comment { get; set; } = new();
public byte AceVersion { get; private set; }
public AceMainHeader(ArchiveEncoding archiveEncoding)
: base(archiveEncoding, AceHeaderType.MAIN) { }
/// <summary>
/// Reads the main archive header from the stream.
/// Returns header if this is a valid ACE archive.
/// Supports both ACE 1.0 and ACE 2.0 formats.
/// </summary>
public override AceHeader? Read(Stream stream)
{
var headerData = ReadHeader(stream);
if (headerData.Length == 0)
{
return null;
}
int offset = 0;
// Header type should be 0 for main header
if (headerData[offset++] != HeaderType)
{
return null;
}
// Header flags (2 bytes)
HeaderFlags = BitConverter.ToUInt16(headerData, offset);
offset += 2;
// Skip signature "**ACE**" (7 bytes)
if (!CheckMagicBytes(headerData, offset))
{
throw new InvalidDataException("Invalid ACE archive signature.");
}
offset += 7;
// ACE version (1 byte) - 10 for ACE 1.0, 20 for ACE 2.0
AceVersion = headerData[offset++];
ExtractVersion = headerData[offset++];
// Host OS (1 byte)
if (offset < headerData.Length)
{
var hostOsByte = headerData[offset++];
HostOS = hostOsByte <= 11 ? (HostOS)hostOsByte : HostOS.Unknown;
}
// Volume number (1 byte)
VolumeNumber = headerData[offset++];
// Creation date/time (4 bytes)
var dosDateTime = BitConverter.ToUInt32(headerData, offset);
DateTime = ConvertDosDateTime(dosDateTime);
offset += 4;
// Reserved fields (8 bytes)
if (offset + 8 <= headerData.Length)
{
offset += 8;
}
// Skip additional fields based on flags
// Handle comment if present
if ((HeaderFlags & SharpCompress.Common.Ace.Headers.HeaderFlags.COMMENT) != 0)
{
if (offset + 2 <= headerData.Length)
{
ushort commentLength = BitConverter.ToUInt16(headerData, offset);
offset += 2 + commentLength;
}
}
return this;
}
}
}

16
src/SharpCompress/Common/Ace/Headers/CompressionQuality.cs
View File

@@ -1,16 +0,0 @@
namespace SharpCompress.Common.Ace.Headers
{
/// <summary>
/// Compression quality
/// </summary>
public enum CompressionQuality
{
None,
Fastest,
Fast,
Normal,
Good,
Best,
Unknown,
}
}

13
src/SharpCompress/Common/Ace/Headers/CompressionType.cs
View File

@@ -1,13 +0,0 @@
namespace SharpCompress.Common.Ace.Headers
{
/// <summary>
/// Compression types
/// </summary>
public enum CompressionType
{
Stored,
Lz77,
Blocked,
Unknown,
}
}

33
src/SharpCompress/Common/Ace/Headers/HeaderFlags.cs
View File

@@ -1,33 +0,0 @@
namespace SharpCompress.Common.Ace.Headers
{
/// <summary>
/// Header flags (main + file, overlapping meanings)
/// </summary>
public static class HeaderFlags
{
// Shared / low bits
public const ushort ADDSIZE = 0x0001; // extra size field present
public const ushort COMMENT = 0x0002; // comment present
public const ushort MEMORY_64BIT = 0x0004;
public const ushort AV_STRING = 0x0008; // AV string present
public const ushort SOLID = 0x0010; // solid file
public const ushort LOCKED = 0x0020;
public const ushort PROTECTED = 0x0040;
// Main header specific
public const ushort V20FORMAT = 0x0100;
public const ushort SFX = 0x0200;
public const ushort LIMITSFXJR = 0x0400;
public const ushort MULTIVOLUME = 0x0800;
public const ushort ADVERT = 0x1000;
public const ushort RECOVERY = 0x2000;
public const ushort LOCKED_MAIN = 0x4000;
public const ushort SOLID_MAIN = 0x8000;
// File header specific (same bits, different meaning)
public const ushort NTSECURITY = 0x0400;
public const ushort CONTINUED_PREV = 0x1000;
public const ushort CONTINUED_NEXT = 0x2000;
public const ushort FILE_ENCRYPTED = 0x4000; // file encrypted (file header)
}
}

22
src/SharpCompress/Common/Ace/Headers/HostOS.cs
View File

@@ -1,22 +0,0 @@
namespace SharpCompress.Common.Ace.Headers
{
/// <summary>
/// Host OS type
/// </summary>
public enum HostOS
{
MsDos = 0,
Os2,
Windows,
Unix,
MacOs,
WinNt,
Primos,
AppleGs,
Atari,
Vax,
Amiga,
Next,
Unknown,
}
}

10
src/SharpCompress/Common/ArchiveExtractionEventArgs.cs Normal file
View File

@@ -0,0 +1,10 @@
using System;
namespace SharpCompress.Common;
public class ArchiveExtractionEventArgs<T> : EventArgs
{
internal ArchiveExtractionEventArgs(T entry) => Item = entry;
public T Item { get; }
}

1
src/SharpCompress/Common/ArchiveType.cs
View File

@@ -9,5 +9,4 @@ public enum ArchiveType
GZip,
Arc,
Arj,
Ace,
}

22
src/SharpCompress/Common/Arj/Headers/ArjHeader.cs
View File

@@ -34,13 +34,14 @@ namespace SharpCompress.Common.Arj.Headers
public byte[] ReadHeader(Stream stream)
{
// check for magic bytes
var magic = new byte[2];
Span<byte> magic = stackalloc byte[2];
if (stream.Read(magic) != 2)
{
return Array.Empty<byte>();
}
if (!CheckMagicBytes(magic))
var magicValue = (ushort)(magic[0] | magic[1] << 8);
if (magicValue != ARJ_MAGIC)
{
throw new InvalidDataException("Not an ARJ file (wrong magic bytes)");
}
@@ -137,22 +138,5 @@ namespace SharpCompress.Common.Arj.Headers
? (FileType)value
: Headers.FileType.Unknown;
}
public static bool IsArchive(Stream stream)
{
var bytes = new byte[2];
if (stream.Read(bytes, 0, 2) != 2)
{
return false;
}
return CheckMagicBytes(bytes);
}
protected static bool CheckMagicBytes(byte[] headerBytes)
{
var magicValue = (ushort)(headerBytes[0] | headerBytes[1] << 8);
return magicValue == ARJ_MAGIC;
}
}
}

25
src/SharpCompress/Common/CompressedBytesReadEventArgs.cs Normal file
View File

@@ -0,0 +1,25 @@
using System;
namespace SharpCompress.Common;
public sealed class CompressedBytesReadEventArgs : EventArgs
{
public CompressedBytesReadEventArgs(
long compressedBytesRead,
long currentFilePartCompressedBytesRead
)
{
CompressedBytesRead = compressedBytesRead;
CurrentFilePartCompressedBytesRead = currentFilePartCompressedBytesRead;
}
/// <summary>
/// Compressed bytes read for the current entry
/// </summary>
public long CompressedBytesRead { get; }
/// <summary>
/// Current file part read for Multipart files (e.g. Rar)
/// </summary>
public long CurrentFilePartCompressedBytesRead { get; }
}

1
src/SharpCompress/Common/CompressionType.cs
View File

@@ -30,5 +30,4 @@ public enum CompressionType
Distilled,
ZStandard,
ArjLZ77,
AceLZ77,
}

9
src/SharpCompress/Common/ExtractionMethods.cs
View File

@@ -128,7 +128,7 @@ internal static class ExtractionMethods
IEntry entry,
string destinationDirectory,
ExtractionOptions? options,
Func<string, ExtractionOptions?, CancellationToken, Task> writeAsync,
Func<string, ExtractionOptions?, Task> writeAsync,
CancellationToken cancellationToken = default
)
{
@@ -189,7 +189,7 @@ internal static class ExtractionMethods
"Entry is trying to write a file outside of the destination directory."
);
}
await writeAsync(destinationFileName, options, cancellationToken).ConfigureAwait(false);
await writeAsync(destinationFileName, options).ConfigureAwait(false);
}
else if (options.ExtractFullPath && !Directory.Exists(destinationFileName))
{
@@ -201,7 +201,7 @@ internal static class ExtractionMethods
IEntry entry,
string destinationFileName,
ExtractionOptions? options,
Func<string, FileMode, CancellationToken, Task> openAndWriteAsync,
Func<string, FileMode, Task> openAndWriteAsync,
CancellationToken cancellationToken = default
)
{
@@ -225,8 +225,7 @@ internal static class ExtractionMethods
fm = FileMode.CreateNew;
}
await openAndWriteAsync(destinationFileName, fm, cancellationToken)
.ConfigureAwait(false);
await openAndWriteAsync(destinationFileName, fm).ConfigureAwait(false);
entry.PreserveExtractionOptions(destinationFileName, options);
}
}

28
src/SharpCompress/Common/FilePartExtractionBeginEventArgs.cs Normal file
View File

@@ -0,0 +1,28 @@
using System;
namespace SharpCompress.Common;
public sealed class FilePartExtractionBeginEventArgs : EventArgs
{
public FilePartExtractionBeginEventArgs(string name, long size, long compressedSize)
{
Name = name;
Size = size;
CompressedSize = compressedSize;
}
/// <summary>
/// File name for the part for the current entry
/// </summary>
public string Name { get; }
/// <summary>
/// Uncompressed size of the current entry in the part
/// </summary>
public long Size { get; }
/// <summary>
/// Compressed size of the current entry in the part
/// </summary>
public long CompressedSize { get; }
}

7
src/SharpCompress/Common/IExtractionListener.cs Normal file
View File

@@ -0,0 +1,7 @@
namespace SharpCompress.Common;
public interface IExtractionListener
{
void FireFilePartExtractionBegin(string name, long size, long compressedSize);
void FireCompressedBytesRead(long currentPartCompressedBytes, long compressedReadBytes);
}

43
src/SharpCompress/Common/ProgressReport.cs
View File

@@ -1,43 +0,0 @@
namespace SharpCompress.Common;
/// <summary>
/// Represents progress information for compression or extraction operations.
/// </summary>
public sealed class ProgressReport
{
/// <summary>
/// Initializes a new instance of the <see cref="ProgressReport"/> class.
/// </summary>
/// <param name="entryPath">The path of the entry being processed.</param>
/// <param name="bytesTransferred">Number of bytes transferred so far.</param>
/// <param name="totalBytes">Total bytes to be transferred, or null if unknown.</param>
public ProgressReport(string entryPath, long bytesTransferred, long? totalBytes)
{
EntryPath = entryPath;
BytesTransferred = bytesTransferred;
TotalBytes = totalBytes;
}
/// <summary>
/// Gets the path of the entry being processed.
/// </summary>
public string EntryPath { get; }
/// <summary>
/// Gets the number of bytes transferred so far.
/// </summary>
public long BytesTransferred { get; }
/// <summary>
/// Gets the total number of bytes to be transferred, or null if unknown.
/// </summary>
public long? TotalBytes { get; }
/// <summary>
/// Gets the progress percentage (0-100), or null if total bytes is unknown.
/// </summary>
public double? PercentComplete =>
TotalBytes.HasValue && TotalBytes.Value > 0
? (double)BytesTransferred / TotalBytes.Value * 100
: null;
}

17
src/SharpCompress/Common/ReaderExtractionEventArgs.cs Normal file
View File

@@ -0,0 +1,17 @@
using System;
using SharpCompress.Readers;
namespace SharpCompress.Common;
public sealed class ReaderExtractionEventArgs<T> : EventArgs
{
internal ReaderExtractionEventArgs(T entry, ReaderProgress? readerProgress = null)
{
Item = entry;
ReaderProgress = readerProgress;
}
public T Item { get; }
public ReaderProgress? ReaderProgress { get; }
}

2
src/SharpCompress/Common/SevenZip/SevenZipFilePart.cs
View File

@@ -55,7 +55,7 @@ internal class SevenZipFilePart : FilePart
{
folderStream.Skip(skipSize);
}
return new ReadOnlySubStream(folderStream, Header.Size, leaveOpen: false);
return new ReadOnlySubStream(folderStream, Header.Size);
}
public CompressionType CompressionType

133
src/SharpCompress/Common/Tar/Headers/TarHeader.cs
View File

@@ -1,6 +1,5 @@
using System;
using System.Buffers.Binary;
using System.Collections.Generic;
using System.IO;
using System.Text;
@@ -10,16 +9,8 @@ internal sealed class TarHeader
{
internal static readonly DateTime EPOCH = new(1970, 1, 1, 0, 0, 0, DateTimeKind.Utc);
public TarHeader(
ArchiveEncoding archiveEncoding,
TarHeaderWriteFormat writeFormat = TarHeaderWriteFormat.GNU_TAR_LONG_LINK
)
{
ArchiveEncoding = archiveEncoding;
WriteFormat = writeFormat;
}
public TarHeader(ArchiveEncoding archiveEncoding) => ArchiveEncoding = archiveEncoding;
internal TarHeaderWriteFormat WriteFormat { get; set; }
internal string? Name { get; set; }
internal string? LinkName { get; set; }
@@ -39,114 +30,6 @@ internal sealed class TarHeader
private const int MAX_LONG_NAME_SIZE = 32768;
internal void Write(Stream output)
{
switch (WriteFormat)
{
case TarHeaderWriteFormat.GNU_TAR_LONG_LINK:
WriteGnuTarLongLink(output);
break;
case TarHeaderWriteFormat.USTAR:
WriteUstar(output);
break;
default:
throw new Exception("This should be impossible...");
}
}
internal void WriteUstar(Stream output)
{
var buffer = new byte[BLOCK_SIZE];
WriteOctalBytes(511, buffer, 100, 8); // file mode
WriteOctalBytes(0, buffer, 108, 8); // owner ID
WriteOctalBytes(0, buffer, 116, 8); // group ID
//ArchiveEncoding.UTF8.GetBytes("magic").CopyTo(buffer, 257);
var nameByteCount = ArchiveEncoding
.GetEncoding()
.GetByteCount(Name.NotNull("Name is null"));
if (nameByteCount > 100)
{
// if name is longer, try to split it into name and namePrefix
string fullName = Name.NotNull("Name is null");
// find all directory separators
List<int> dirSeps = new List<int>();
for (int i = 0; i < fullName.Length; i++)
{
if (fullName[i] == Path.DirectorySeparatorChar)
{
dirSeps.Add(i);
}
}
// find the right place to split the name
int splitIndex = -1;
for (int i = 0; i < dirSeps.Count; i++)
{
int count = ArchiveEncoding
.GetEncoding()
.GetByteCount(fullName.Substring(0, dirSeps[i]));
if (count < 155)
{
splitIndex = dirSeps[i];
}
else
{
break;
}
}
if (splitIndex == -1)
{
throw new Exception(
$"Tar header USTAR format can not fit file name \"{fullName}\" of length {nameByteCount}! Directory separator not found! Try using GNU Tar format instead!"
);
}
string namePrefix = fullName.Substring(0, splitIndex);
string name = fullName.Substring(splitIndex + 1);
if (this.ArchiveEncoding.GetEncoding().GetByteCount(namePrefix) >= 155)
throw new Exception(
$"Tar header USTAR format can not fit file name \"{fullName}\" of length {nameByteCount}! Try using GNU Tar format instead!"
);
if (this.ArchiveEncoding.GetEncoding().GetByteCount(name) >= 100)
throw new Exception(
$"Tar header USTAR format can not fit file name \"{fullName}\" of length {nameByteCount}! Try using GNU Tar format instead!"
);
// write name prefix
WriteStringBytes(ArchiveEncoding.Encode(namePrefix), buffer, 345, 100);
// write partial name
WriteStringBytes(ArchiveEncoding.Encode(name), buffer, 100);
}
else
{
WriteStringBytes(ArchiveEncoding.Encode(Name.NotNull("Name is null")), buffer, 100);
}
WriteOctalBytes(Size, buffer, 124, 12);
var time = (long)(LastModifiedTime.ToUniversalTime() - EPOCH).TotalSeconds;
WriteOctalBytes(time, buffer, 136, 12);
buffer[156] = (byte)EntryType;
// write ustar magic field
WriteStringBytes(Encoding.ASCII.GetBytes("ustar"), buffer, 257, 6);
// write ustar version "00"
buffer[263] = 0x30;
buffer[264] = 0x30;
var crc = RecalculateChecksum(buffer);
WriteOctalBytes(crc, buffer, 148, 8);
output.Write(buffer, 0, buffer.Length);
}
internal void WriteGnuTarLongLink(Stream output)
{
var buffer = new byte[BLOCK_SIZE];
@@ -202,7 +85,7 @@ internal sealed class TarHeader
0,
100 - ArchiveEncoding.GetEncoding().GetMaxByteCount(1)
);
WriteGnuTarLongLink(output);
Write(output);
}
}
@@ -358,18 +241,6 @@ internal sealed class TarHeader
buffer.Slice(i, length - i).Clear();
}
private static void WriteStringBytes(
ReadOnlySpan<byte> name,
Span<byte> buffer,
int offset,
int length
)
{
name.CopyTo(buffer.Slice(offset));
var i = Math.Min(length, name.Length);
buffer.Slice(offset + i, length - i).Clear();
}
private static void WriteStringBytes(string name, byte[] buffer, int offset, int length)
{
int i;

7
src/SharpCompress/Common/Tar/Headers/TarHeaderWriteFormat.cs
View File

@@ -1,7 +0,0 @@
namespace SharpCompress.Common.Tar.Headers;
public enum TarHeaderWriteFormat
{
GNU_TAR_LONG_LINK,
USTAR,
}

2
src/SharpCompress/Common/Zip/ZipFilePart.cs
View File

@@ -13,8 +13,8 @@ using SharpCompress.Compressors.PPMd;
using SharpCompress.Compressors.Reduce;
using SharpCompress.Compressors.Shrink;
using SharpCompress.Compressors.Xz;
using SharpCompress.Compressors.ZStandard;
using SharpCompress.IO;
using ZstdSharp;
namespace SharpCompress.Common.Zip;

28
src/SharpCompress/Compressors/LZMA/LZ/LzOutWindow.cs
View File

@@ -153,7 +153,7 @@ internal class OutWindow : IDisposable
_pendingLen = rem;
}
public async ValueTask CopyPendingAsync(CancellationToken cancellationToken = default)
public async Task CopyPendingAsync(CancellationToken cancellationToken = default)
{
if (_pendingLen < 1)
{
@@ -206,7 +206,7 @@ internal class OutWindow : IDisposable
_pendingDist = distance;
}
public async ValueTask CopyBlockAsync(
public async Task CopyBlockAsync(
int distance,
int len,
CancellationToken cancellationToken = default
@@ -253,7 +253,7 @@ internal class OutWindow : IDisposable
}
}
public async ValueTask PutByteAsync(byte b, CancellationToken cancellationToken = default)
public async Task PutByteAsync(byte b, CancellationToken cancellationToken = default)
{
_buffer[_pos++] = b;
_total++;
@@ -369,28 +369,6 @@ internal class OutWindow : IDisposable
return size;
}
public int Read(Memory<byte> buffer, int offset, int count)
{
if (_streamPos >= _pos)
{
return 0;
}
var size = _pos - _streamPos;
if (size > count)
{
size = count;
}
_buffer.AsMemory(_streamPos, size).CopyTo(buffer.Slice(offset, size));
_streamPos += size;
if (_streamPos >= _windowSize)
{
_pos = 0;
_streamPos = 0;
}
return size;
}
public int ReadByte()
{
if (_streamPos >= _pos)

6
src/SharpCompress/Compressors/LZMA/LZipStream.cs
View File

@@ -45,12 +45,10 @@ public sealed class LZipStream : Stream, IStreamStack
private bool _finished;
private long _writeCount;
private readonly Stream? _originalStream;
public LZipStream(Stream stream, CompressionMode mode)
{
Mode = mode;
_originalStream = stream;
if (mode == CompressionMode.Decompress)
{
@@ -127,10 +125,6 @@ public sealed class LZipStream : Stream, IStreamStack
{
Finish();
_stream.Dispose();
if (Mode == CompressionMode.Compress)
{
_originalStream?.Dispose();
}
}
}

3
src/SharpCompress/Compressors/LZMA/LzmaDecoder.cs
View File

@@ -3,7 +3,6 @@
using System;
using System.Diagnostics.CodeAnalysis;
using System.IO;
using System.Threading.Tasks;
using SharpCompress.Compressors.LZMA.LZ;
using SharpCompress.Compressors.LZMA.RangeCoder;
@@ -476,7 +475,7 @@ public class Decoder : ICoder, ISetDecoderProperties // ,System.IO.Stream
return false;
}
internal async ValueTask<bool> CodeAsync(
internal async System.Threading.Tasks.Task<bool> CodeAsync(
int dictionarySize,
OutWindow outWindow,
RangeCoder.Decoder rangeDecoder,

133
src/SharpCompress/Compressors/LZMA/LzmaStream.cs
View File

@@ -425,12 +425,10 @@ public class LzmaStream : Stream, IStreamStack
}
}
private async ValueTask DecodeChunkHeaderAsync(CancellationToken cancellationToken = default)
private async Task DecodeChunkHeaderAsync(CancellationToken cancellationToken = default)
{
var controlBuffer = new byte[1];
await _inputStream
.ReadExactlyAsync(controlBuffer, 0, 1, cancellationToken)
.ConfigureAwait(false);
await _inputStream.ReadAsync(controlBuffer, 0, 1, cancellationToken).ConfigureAwait(false);
var control = controlBuffer[0];
_inputPosition++;
@@ -457,15 +455,11 @@ public class LzmaStream : Stream, IStreamStack
_availableBytes = (control & 0x1F) << 16;
var buffer = new byte[2];
await _inputStream
.ReadExactlyAsync(buffer, 0, 2, cancellationToken)
.ConfigureAwait(false);
await _inputStream.ReadAsync(buffer, 0, 2, cancellationToken).ConfigureAwait(false);
_availableBytes += (buffer[0] << 8) + buffer[1] + 1;
_inputPosition += 2;
await _inputStream
.ReadExactlyAsync(buffer, 0, 2, cancellationToken)
.ConfigureAwait(false);
await _inputStream.ReadAsync(buffer, 0, 2, cancellationToken).ConfigureAwait(false);
_rangeDecoderLimit = (buffer[0] << 8) + buffer[1] + 1;
_inputPosition += 2;
@@ -473,7 +467,7 @@ public class LzmaStream : Stream, IStreamStack
{
_needProps = false;
await _inputStream
.ReadExactlyAsync(controlBuffer, 0, 1, cancellationToken)
.ReadAsync(controlBuffer, 0, 1, cancellationToken)
.ConfigureAwait(false);
Properties[0] = controlBuffer[0];
_inputPosition++;
@@ -501,9 +495,7 @@ public class LzmaStream : Stream, IStreamStack
{
_uncompressedChunk = true;
var buffer = new byte[2];
await _inputStream
.ReadExactlyAsync(buffer, 0, 2, cancellationToken)
.ConfigureAwait(false);
await _inputStream.ReadAsync(buffer, 0, 2, cancellationToken).ConfigureAwait(false);
_availableBytes = (buffer[0] << 8) + buffer[1] + 1;
_inputPosition += 2;
}
@@ -632,119 +624,6 @@ public class LzmaStream : Stream, IStreamStack
return total;
}
#if !NETFRAMEWORK && !NETSTANDARD2_0
public override async ValueTask<int> ReadAsync(
Memory<byte> buffer,
CancellationToken cancellationToken = default
)
{
if (_endReached)
{
return 0;
}
var total = 0;
var offset = 0;
var count = buffer.Length;
while (total < count)
{
cancellationToken.ThrowIfCancellationRequested();
if (_availableBytes == 0)
{
if (_isLzma2)
{
await DecodeChunkHeaderAsync(cancellationToken).ConfigureAwait(false);
}
else
{
_endReached = true;
}
if (_endReached)
{
break;
}
}
var toProcess = count - total;
if (toProcess > _availableBytes)
{
toProcess = (int)_availableBytes;
}
_outWindow.SetLimit(toProcess);
if (_uncompressedChunk)
{
_inputPosition += await _outWindow
.CopyStreamAsync(_inputStream, toProcess, cancellationToken)
.ConfigureAwait(false);
}
else if (
await _decoder
.CodeAsync(_dictionarySize, _outWindow, _rangeDecoder, cancellationToken)
.ConfigureAwait(false)
&& _outputSize < 0
)
{
_availableBytes = _outWindow.AvailableBytes;
}
var read = _outWindow.Read(buffer, offset, toProcess);
total += read;
offset += read;
_position += read;
_availableBytes -= read;
if (_availableBytes == 0 && !_uncompressedChunk)
{
if (
!_rangeDecoder.IsFinished
|| (_rangeDecoderLimit >= 0 && _rangeDecoder._total != _rangeDecoderLimit)
)
{
_outWindow.SetLimit(toProcess + 1);
if (
!await _decoder
.CodeAsync(
_dictionarySize,
_outWindow,
_rangeDecoder,
cancellationToken
)
.ConfigureAwait(false)
)
{
_rangeDecoder.ReleaseStream();
throw new DataErrorException();
}
}
_rangeDecoder.ReleaseStream();
_inputPosition += _rangeDecoder._total;
if (_outWindow.HasPending)
{
throw new DataErrorException();
}
}
}
if (_endReached)
{
if (_inputSize >= 0 && _inputPosition != _inputSize)
{
throw new DataErrorException();
}
if (_outputSize >= 0 && _position != _outputSize)
{
throw new DataErrorException();
}
}
return total;
}
#endif
public override Task WriteAsync(
byte[] buffer,
int offset,

2
src/SharpCompress/Compressors/LZMA/Registry.cs
View File

@@ -7,7 +7,7 @@ using SharpCompress.Compressors.Deflate;
using SharpCompress.Compressors.Filters;
using SharpCompress.Compressors.LZMA.Utilites;
using SharpCompress.Compressors.PPMd;
using SharpCompress.Compressors.ZStandard;
using ZstdSharp;
namespace SharpCompress.Compressors.LZMA;

38
src/SharpCompress/Compressors/Rar/MultiVolumeReadOnlyStream.cs
View File

@@ -37,8 +37,18 @@ internal sealed class MultiVolumeReadOnlyStream : Stream, IStreamStack
private IEnumerator<RarFilePart> filePartEnumerator;
private Stream currentStream;
internal MultiVolumeReadOnlyStream(IEnumerable<RarFilePart> parts)
private readonly IExtractionListener streamListener;
private long currentPartTotalReadBytes;
private long currentEntryTotalReadBytes;
internal MultiVolumeReadOnlyStream(
IEnumerable<RarFilePart> parts,
IExtractionListener streamListener
)
{
this.streamListener = streamListener;
filePartEnumerator = parts.GetEnumerator();
filePartEnumerator.MoveNext();
InitializeNextFilePart();
@@ -71,7 +81,15 @@ internal sealed class MultiVolumeReadOnlyStream : Stream, IStreamStack
currentPosition = 0;
currentStream = filePartEnumerator.Current.GetCompressedStream();
currentPartTotalReadBytes = 0;
CurrentCrc = filePartEnumerator.Current.FileHeader.FileCrc;
streamListener.FireFilePartExtractionBegin(
filePartEnumerator.Current.FilePartName,
filePartEnumerator.Current.FileHeader.CompressedSize,
filePartEnumerator.Current.FileHeader.UncompressedSize
);
}
public override int Read(byte[] buffer, int offset, int count)
@@ -123,6 +141,12 @@ internal sealed class MultiVolumeReadOnlyStream : Stream, IStreamStack
break;
}
}
currentPartTotalReadBytes += totalRead;
currentEntryTotalReadBytes += totalRead;
streamListener.FireCompressedBytesRead(
currentPartTotalReadBytes,
currentEntryTotalReadBytes
);
return totalRead;
}
@@ -182,6 +206,12 @@ internal sealed class MultiVolumeReadOnlyStream : Stream, IStreamStack
break;
}
}
currentPartTotalReadBytes += totalRead;
currentEntryTotalReadBytes += totalRead;
streamListener.FireCompressedBytesRead(
currentPartTotalReadBytes,
currentEntryTotalReadBytes
);
return totalRead;
}
@@ -240,6 +270,12 @@ internal sealed class MultiVolumeReadOnlyStream : Stream, IStreamStack
break;
}
}
currentPartTotalReadBytes += totalRead;
currentEntryTotalReadBytes += totalRead;
streamListener.FireCompressedBytesRead(
currentPartTotalReadBytes,
currentEntryTotalReadBytes
);
return totalRead;
}
#endif

4
src/SharpCompress/Compressors/Rar/RarStream.cs
View File

@@ -134,7 +134,7 @@ internal class RarStream : Stream, IStreamStack
fetch = false;
}
_position += outTotal;
if (count > 0 && outTotal == 0 && _position < Length)
if (count > 0 && outTotal == 0 && _position != Length)
{
// sanity check, eg if we try to decompress a redir entry
throw new InvalidOperationException(
@@ -179,7 +179,7 @@ internal class RarStream : Stream, IStreamStack
fetch = false;
}
_position += outTotal;
if (count > 0 && outTotal == 0 && _position < Length)
if (count > 0 && outTotal == 0 && _position != Length)
{
// sanity check, eg if we try to decompress a redir entry
throw new InvalidOperationException(

311
src/SharpCompress/Compressors/ZStandard/BitOperations.cs
View File

@@ -1,311 +0,0 @@
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
#if !NETCOREAPP3_0_OR_GREATER
using System.Runtime.CompilerServices;
using static SharpCompress.Compressors.ZStandard.UnsafeHelper;
// Some routines inspired by the Stanford Bit Twiddling Hacks by Sean Eron Anderson:
// http://graphics.stanford.edu/~seander/bithacks.html
namespace System.Numerics
{
/// <summary>
/// Utility methods for intrinsic bit-twiddling operations.
/// The methods use hardware intrinsics when available on the underlying platform,
/// otherwise they use optimized software fallbacks.
/// </summary>
public static unsafe class BitOperations
{
// hack: should be public because of inline
public static readonly byte* TrailingZeroCountDeBruijn = GetArrayPointer(
new byte[]
{
00,
01,
28,
02,
29,
14,
24,
03,
30,
22,
20,
15,
25,
17,
04,
08,
31,
27,
13,
23,
21,
19,
16,
07,
26,
12,
18,
06,
11,
05,
10,
09,
}
);
// hack: should be public because of inline
public static readonly byte* Log2DeBruijn = GetArrayPointer(
new byte[]
{
00,
09,
01,
10,
13,
21,
02,
29,
11,
14,
16,
18,
22,
25,
03,
30,
08,
12,
20,
28,
15,
17,
24,
07,
19,
27,
23,
06,
26,
05,
04,
31,
}
);
/// <summary>
/// Returns the integer (floor) log of the specified value, base 2.
/// Note that by convention, input value 0 returns 0 since log(0) is undefined.
/// </summary>
/// <param name="value">The value.</param>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static int Log2(uint value)
{
// The 0->0 contract is fulfilled by setting the LSB to 1.
// Log(1) is 0, and setting the LSB for values > 1 does not change the log2 result.
value |= 1;
// value lzcnt actual expected
// ..0001 31 31-31 0
// ..0010 30 31-30 1
// 0010.. 2 31-2 29
// 0100.. 1 31-1 30
// 1000.. 0 31-0 31
// Fallback contract is 0->0
// No AggressiveInlining due to large method size
// Has conventional contract 0->0 (Log(0) is undefined)
// Fill trailing zeros with ones, eg 00010010 becomes 00011111
value |= value >> 01;
value |= value >> 02;
value |= value >> 04;
value |= value >> 08;
value |= value >> 16;
// uint.MaxValue >> 27 is always in range [0 - 31] so we use Unsafe.AddByteOffset to avoid bounds check
return Log2DeBruijn[
// Using deBruijn sequence, k=2, n=5 (2^5=32) : 0b_0000_0111_1100_0100_1010_1100_1101_1101u
(int)((value * 0x07C4ACDDu) >> 27)
];
}
/// <summary>
/// Returns the integer (floor) log of the specified value, base 2.
/// Note that by convention, input value 0 returns 0 since log(0) is undefined.
/// </summary>
/// <param name="value">The value.</param>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static int Log2(ulong value)
{
value |= 1;
uint hi = (uint)(value >> 32);
if (hi == 0)
{
return Log2((uint)value);
}
return 32 + Log2(hi);
}
/// <summary>
/// Count the number of trailing zero bits in an integer value.
/// Similar in behavior to the x86 instruction TZCNT.
/// </summary>
/// <param name="value">The value.</param>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static int TrailingZeroCount(int value) => TrailingZeroCount((uint)value);
/// <summary>
/// Count the number of trailing zero bits in an integer value.
/// Similar in behavior to the x86 instruction TZCNT.
/// </summary>
/// <param name="value">The value.</param>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static int TrailingZeroCount(uint value)
{
// Unguarded fallback contract is 0->0, BSF contract is 0->undefined
if (value == 0)
{
return 32;
}
// uint.MaxValue >> 27 is always in range [0 - 31] so we use Unsafe.AddByteOffset to avoid bounds check
return TrailingZeroCountDeBruijn[
// Using deBruijn sequence, k=2, n=5 (2^5=32) : 0b_0000_0111_0111_1100_1011_0101_0011_0001u
(int)(((value & (uint)-(int)value) * 0x077CB531u) >> 27)
]; // Multi-cast mitigates redundant conv.u8
}
/// <summary>
/// Count the number of trailing zero bits in a mask.
/// Similar in behavior to the x86 instruction TZCNT.
/// </summary>
/// <param name="value">The value.</param>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static int TrailingZeroCount(long value) => TrailingZeroCount((ulong)value);
/// <summary>
/// Count the number of trailing zero bits in a mask.
/// Similar in behavior to the x86 instruction TZCNT.
/// </summary>
/// <param name="value">The value.</param>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static int TrailingZeroCount(ulong value)
{
uint lo = (uint)value;
if (lo == 0)
{
return 32 + TrailingZeroCount((uint)(value >> 32));
}
return TrailingZeroCount(lo);
}
/// <summary>
/// Rotates the specified value left by the specified number of bits.
/// Similar in behavior to the x86 instruction ROL.
/// </summary>
/// <param name="value">The value to rotate.</param>
/// <param name="offset">The number of bits to rotate by.
/// Any value outside the range [0..31] is treated as congruent mod 32.</param>
/// <returns>The rotated value.</returns>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static uint RotateLeft(uint value, int offset) =>
(value << offset) | (value >> (32 - offset));
/// <summary>
/// Rotates the specified value left by the specified number of bits.
/// Similar in behavior to the x86 instruction ROL.
/// </summary>
/// <param name="value">The value to rotate.</param>
/// <param name="offset">The number of bits to rotate by.
/// Any value outside the range [0..63] is treated as congruent mod 64.</param>
/// <returns>The rotated value.</returns>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static ulong RotateLeft(ulong value, int offset) =>
(value << offset) | (value >> (64 - offset));
/// <summary>
/// Rotates the specified value right by the specified number of bits.
/// Similar in behavior to the x86 instruction ROR.
/// </summary>
/// <param name="value">The value to rotate.</param>
/// <param name="offset">The number of bits to rotate by.
/// Any value outside the range [0..31] is treated as congruent mod 32.</param>
/// <returns>The rotated value.</returns>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static uint RotateRight(uint value, int offset) =>
(value >> offset) | (value << (32 - offset));
/// <summary>
/// Rotates the specified value right by the specified number of bits.
/// Similar in behavior to the x86 instruction ROR.
/// </summary>
/// <param name="value">The value to rotate.</param>
/// <param name="offset">The number of bits to rotate by.
/// Any value outside the range [0..63] is treated as congruent mod 64.</param>
/// <returns>The rotated value.</returns>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static ulong RotateRight(ulong value, int offset) =>
(value >> offset) | (value << (64 - offset));
/// <summary>
/// Count the number of leading zero bits in a mask.
/// Similar in behavior to the x86 instruction LZCNT.
/// </summary>
/// <param name="value">The value.</param>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static int LeadingZeroCount(uint value)
{
// Unguarded fallback contract is 0->31, BSR contract is 0->undefined
if (value == 0)
{
return 32;
}
// No AggressiveInlining due to large method size
// Has conventional contract 0->0 (Log(0) is undefined)
// Fill trailing zeros with ones, eg 00010010 becomes 00011111
value |= value >> 01;
value |= value >> 02;
value |= value >> 04;
value |= value >> 08;
value |= value >> 16;
// uint.MaxValue >> 27 is always in range [0 - 31] so we use Unsafe.AddByteOffset to avoid bounds check
return 31
^ Log2DeBruijn[
// uint|long -> IntPtr cast on 32-bit platforms does expensive overflow checks not needed here
(int)((value * 0x07C4ACDDu) >> 27)
];
}
/// <summary>
/// Count the number of leading zero bits in a mask.
/// Similar in behavior to the x86 instruction LZCNT.
/// </summary>
/// <param name="value">The value.</param>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static int LeadingZeroCount(ulong value)
{
uint hi = (uint)(value >> 32);
if (hi == 0)
{
return 32 + LeadingZeroCount((uint)value);
}
return LeadingZeroCount(hi);
}
}
}
#endif

301
src/SharpCompress/Compressors/ZStandard/CompressionStream.cs
View File

@@ -1,301 +0,0 @@
using System;
using System.Buffers;
using System.IO;
using System.Threading;
using System.Threading.Tasks;
using SharpCompress.Compressors.ZStandard.Unsafe;
namespace SharpCompress.Compressors.ZStandard;
public class CompressionStream : Stream
{
private readonly Stream innerStream;
private readonly byte[] outputBuffer;
private readonly bool preserveCompressor;
private readonly bool leaveOpen;
private Compressor? compressor;
private ZSTD_outBuffer_s output;
public CompressionStream(
Stream stream,
int level = Compressor.DefaultCompressionLevel,
int bufferSize = 0,
bool leaveOpen = true
)
: this(stream, new Compressor(level), bufferSize, false, leaveOpen) { }
public CompressionStream(
Stream stream,
Compressor compressor,
int bufferSize = 0,
bool preserveCompressor = true,
bool leaveOpen = true
)
{
if (stream == null)
throw new ArgumentNullException(nameof(stream));
if (!stream.CanWrite)
throw new ArgumentException("Stream is not writable", nameof(stream));
if (bufferSize < 0)
throw new ArgumentOutOfRangeException(nameof(bufferSize));
innerStream = stream;
this.compressor = compressor;
this.preserveCompressor = preserveCompressor;
this.leaveOpen = leaveOpen;
var outputBufferSize =
bufferSize > 0
? bufferSize
: (int)Unsafe.Methods.ZSTD_CStreamOutSize().EnsureZstdSuccess();
outputBuffer = ArrayPool<byte>.Shared.Rent(outputBufferSize);
output = new ZSTD_outBuffer_s { pos = 0, size = (nuint)outputBufferSize };
}
public void SetParameter(ZSTD_cParameter parameter, int value)
{
EnsureNotDisposed();
compressor.NotNull().SetParameter(parameter, value);
}
public int GetParameter(ZSTD_cParameter parameter)
{
EnsureNotDisposed();
return compressor.NotNull().GetParameter(parameter);
}
public void LoadDictionary(byte[] dict)
{
EnsureNotDisposed();
compressor.NotNull().LoadDictionary(dict);
}
~CompressionStream() => Dispose(false);
#if !NETSTANDARD2_0 && !NETFRAMEWORK
public override async ValueTask DisposeAsync()
#else
public async Task DisposeAsync()
#endif
{
if (compressor == null)
return;
try
{
await FlushInternalAsync(ZSTD_EndDirective.ZSTD_e_end).ConfigureAwait(false);
}
finally
{
ReleaseUnmanagedResources();
GC.SuppressFinalize(this);
}
}
protected override void Dispose(bool disposing)
{
if (compressor == null)
return;
try
{
if (disposing)
FlushInternal(ZSTD_EndDirective.ZSTD_e_end);
}
finally
{
ReleaseUnmanagedResources();
}
}
private void ReleaseUnmanagedResources()
{
if (!preserveCompressor)
{
compressor.NotNull().Dispose();
}
compressor = null;
if (outputBuffer != null)
{
ArrayPool<byte>.Shared.Return(outputBuffer);
}
if (!leaveOpen)
{
innerStream.Dispose();
}
}
public override void Flush() => FlushInternal(ZSTD_EndDirective.ZSTD_e_flush);
public override async Task FlushAsync(CancellationToken cancellationToken) =>
await FlushInternalAsync(ZSTD_EndDirective.ZSTD_e_flush, cancellationToken)
.ConfigureAwait(false);
private void FlushInternal(ZSTD_EndDirective directive) => WriteInternal(null, directive);
private async Task FlushInternalAsync(
ZSTD_EndDirective directive,
CancellationToken cancellationToken = default
) => await WriteInternalAsync(null, directive, cancellationToken).ConfigureAwait(false);
public override void Write(byte[] buffer, int offset, int count) =>
Write(new ReadOnlySpan<byte>(buffer, offset, count));
#if !NETSTANDARD2_0 && !NETFRAMEWORK
public override void Write(ReadOnlySpan<byte> buffer) =>
WriteInternal(buffer, ZSTD_EndDirective.ZSTD_e_continue);
#else
public void Write(ReadOnlySpan<byte> buffer) =>
WriteInternal(buffer, ZSTD_EndDirective.ZSTD_e_continue);
#endif
private void WriteInternal(ReadOnlySpan<byte> buffer, ZSTD_EndDirective directive)
{
EnsureNotDisposed();
var input = new ZSTD_inBuffer_s
{
pos = 0,
size = buffer != null ? (nuint)buffer.Length : 0,
};
nuint remaining;
do
{
output.pos = 0;
remaining = CompressStream(ref input, buffer, directive);
var written = (int)output.pos;
if (written > 0)
innerStream.Write(outputBuffer, 0, written);
} while (
directive == ZSTD_EndDirective.ZSTD_e_continue ? input.pos < input.size : remaining > 0
);
}
#if !NETSTANDARD2_0 && !NETFRAMEWORK
private async ValueTask WriteInternalAsync(
ReadOnlyMemory<byte>? buffer,
ZSTD_EndDirective directive,
CancellationToken cancellationToken = default
)
#else
private async Task WriteInternalAsync(
ReadOnlyMemory<byte>? buffer,
ZSTD_EndDirective directive,
CancellationToken cancellationToken = default
)
#endif
{
EnsureNotDisposed();
var input = new ZSTD_inBuffer_s
{
pos = 0,
size = buffer.HasValue ? (nuint)buffer.Value.Length : 0,
};
nuint remaining;
do
{
output.pos = 0;
remaining = CompressStream(
ref input,
buffer.HasValue ? buffer.Value.Span : null,
directive
);
var written = (int)output.pos;
if (written > 0)
await innerStream
.WriteAsync(outputBuffer, 0, written, cancellationToken)
.ConfigureAwait(false);
} while (
directive == ZSTD_EndDirective.ZSTD_e_continue ? input.pos < input.size : remaining > 0
);
}
#if !NETSTANDARD2_0 && !NETFRAMEWORK
public override Task WriteAsync(
byte[] buffer,
int offset,
int count,
CancellationToken cancellationToken
) => WriteAsync(new ReadOnlyMemory<byte>(buffer, offset, count), cancellationToken).AsTask();
public override async ValueTask WriteAsync(
ReadOnlyMemory<byte> buffer,
CancellationToken cancellationToken = default
) =>
await WriteInternalAsync(buffer, ZSTD_EndDirective.ZSTD_e_continue, cancellationToken)
.ConfigureAwait(false);
#else
public override Task WriteAsync(
byte[] buffer,
int offset,
int count,
CancellationToken cancellationToken
) => WriteAsync(new ReadOnlyMemory<byte>(buffer, offset, count), cancellationToken);
public async Task WriteAsync(
ReadOnlyMemory<byte> buffer,
CancellationToken cancellationToken = default
) =>
await WriteInternalAsync(buffer, ZSTD_EndDirective.ZSTD_e_continue, cancellationToken)
.ConfigureAwait(false);
#endif
internal unsafe nuint CompressStream(
ref ZSTD_inBuffer_s input,
ReadOnlySpan<byte> inputBuffer,
ZSTD_EndDirective directive
)
{
fixed (byte* inputBufferPtr = inputBuffer)
fixed (byte* outputBufferPtr = outputBuffer)
{
input.src = inputBufferPtr;
output.dst = outputBufferPtr;
return compressor
.NotNull()
.CompressStream(ref input, ref output, directive)
.EnsureZstdSuccess();
}
}
public override bool CanRead => false;
public override bool CanSeek => false;
public override bool CanWrite => true;
public override long Length => throw new NotSupportedException();
public override long Position
{
get => throw new NotSupportedException();
set => throw new NotSupportedException();
}
public override long Seek(long offset, SeekOrigin origin) => throw new NotSupportedException();
public override void SetLength(long value) => throw new NotSupportedException();
public override int Read(byte[] buffer, int offset, int count) =>
throw new NotSupportedException();
private void EnsureNotDisposed()
{
if (compressor == null)
throw new ObjectDisposedException(nameof(CompressionStream));
}
public void SetPledgedSrcSize(ulong pledgedSrcSize)
{
EnsureNotDisposed();
compressor.NotNull().SetPledgedSrcSize(pledgedSrcSize);
}
}

204
src/SharpCompress/Compressors/ZStandard/Compressor.cs
View File

@@ -1,204 +0,0 @@
using System;
using SharpCompress.Compressors.ZStandard.Unsafe;
namespace SharpCompress.Compressors.ZStandard;
public unsafe class Compressor : IDisposable
{
/// <summary>
/// Minimum negative compression level allowed
/// </summary>
public static int MinCompressionLevel => Unsafe.Methods.ZSTD_minCLevel();
/// <summary>
/// Maximum compression level available
/// </summary>
public static int MaxCompressionLevel => Unsafe.Methods.ZSTD_maxCLevel();
/// <summary>
/// Default compression level
/// </summary>
/// <see cref="Unsafe.Methods.ZSTD_defaultCLevel"/>
public const int DefaultCompressionLevel = 3;
private int level = DefaultCompressionLevel;
private readonly SafeCctxHandle handle;
public int Level
{
get => level;
set
{
if (level != value)
{
level = value;
SetParameter(ZSTD_cParameter.ZSTD_c_compressionLevel, value);
}
}
}
public void SetParameter(ZSTD_cParameter parameter, int value)
{
using var cctx = handle.Acquire();
Unsafe.Methods.ZSTD_CCtx_setParameter(cctx, parameter, value).EnsureZstdSuccess();
}
public int GetParameter(ZSTD_cParameter parameter)
{
using var cctx = handle.Acquire();
int value;
Unsafe.Methods.ZSTD_CCtx_getParameter(cctx, parameter, &value).EnsureZstdSuccess();
return value;
}
public void LoadDictionary(byte[] dict)
{
var dictReadOnlySpan = new ReadOnlySpan<byte>(dict);
LoadDictionary(dictReadOnlySpan);
}
public void LoadDictionary(ReadOnlySpan<byte> dict)
{
using var cctx = handle.Acquire();
fixed (byte* dictPtr = dict)
Unsafe
.Methods.ZSTD_CCtx_loadDictionary(cctx, dictPtr, (nuint)dict.Length)
.EnsureZstdSuccess();
}
public Compressor(int level = DefaultCompressionLevel)
{
handle = SafeCctxHandle.Create();
Level = level;
}
public static int GetCompressBound(int length) =>
(int)Unsafe.Methods.ZSTD_compressBound((nuint)length);
public static ulong GetCompressBoundLong(ulong length) =>
Unsafe.Methods.ZSTD_compressBound((nuint)length);
public Span<byte> Wrap(ReadOnlySpan<byte> src)
{
var dest = new byte[GetCompressBound(src.Length)];
var length = Wrap(src, dest);
return new Span<byte>(dest, 0, length);
}
public int Wrap(byte[] src, byte[] dest, int offset) =>
Wrap(src, new Span<byte>(dest, offset, dest.Length - offset));
public int Wrap(ReadOnlySpan<byte> src, Span<byte> dest)
{
fixed (byte* srcPtr = src)
fixed (byte* destPtr = dest)
{
using var cctx = handle.Acquire();
return (int)
Unsafe
.Methods.ZSTD_compress2(
cctx,
destPtr,
(nuint)dest.Length,
srcPtr,
(nuint)src.Length
)
.EnsureZstdSuccess();
}
}
public int Wrap(ArraySegment<byte> src, ArraySegment<byte> dest) =>
Wrap((ReadOnlySpan<byte>)src, dest);
public int Wrap(
byte[] src,
int srcOffset,
int srcLength,
byte[] dst,
int dstOffset,
int dstLength
) =>
Wrap(
new ReadOnlySpan<byte>(src, srcOffset, srcLength),
new Span<byte>(dst, dstOffset, dstLength)
);
public bool TryWrap(byte[] src, byte[] dest, int offset, out int written) =>
TryWrap(src, new Span<byte>(dest, offset, dest.Length - offset), out written);
public bool TryWrap(ReadOnlySpan<byte> src, Span<byte> dest, out int written)
{
fixed (byte* srcPtr = src)
fixed (byte* destPtr = dest)
{
nuint returnValue;
using (var cctx = handle.Acquire())
{
returnValue = Unsafe.Methods.ZSTD_compress2(
cctx,
destPtr,
(nuint)dest.Length,
srcPtr,
(nuint)src.Length
);
}
if (returnValue == unchecked(0 - (nuint)ZSTD_ErrorCode.ZSTD_error_dstSize_tooSmall))
{
written = default;
return false;
}
returnValue.EnsureZstdSuccess();
written = (int)returnValue;
return true;
}
}
public bool TryWrap(ArraySegment<byte> src, ArraySegment<byte> dest, out int written) =>
TryWrap((ReadOnlySpan<byte>)src, dest, out written);
public bool TryWrap(
byte[] src,
int srcOffset,
int srcLength,
byte[] dst,
int dstOffset,
int dstLength,
out int written
) =>
TryWrap(
new ReadOnlySpan<byte>(src, srcOffset, srcLength),
new Span<byte>(dst, dstOffset, dstLength),
out written
);
public void Dispose()
{
handle.Dispose();
GC.SuppressFinalize(this);
}
internal nuint CompressStream(
ref ZSTD_inBuffer_s input,
ref ZSTD_outBuffer_s output,
ZSTD_EndDirective directive
)
{
fixed (ZSTD_inBuffer_s* inputPtr = &input)
fixed (ZSTD_outBuffer_s* outputPtr = &output)
{
using var cctx = handle.Acquire();
return Unsafe
.Methods.ZSTD_compressStream2(cctx, outputPtr, inputPtr, directive)
.EnsureZstdSuccess();
}
}
public void SetPledgedSrcSize(ulong pledgedSrcSize)
{
using var cctx = handle.Acquire();
Unsafe.Methods.ZSTD_CCtx_setPledgedSrcSize(cctx, pledgedSrcSize).EnsureZstdSuccess();
}
}

8
src/SharpCompress/Compressors/ZStandard/Constants.cs
View File

@@ -1,8 +0,0 @@
namespace SharpCompress.Compressors.ZStandard;
internal class Constants
{
//NOTE: https://docs.microsoft.com/en-us/dotnet/framework/configure-apps/file-schema/runtime/gcallowverylargeobjects-element#remarks
//NOTE: https://github.com/dotnet/runtime/blob/v5.0.0-rtm.20519.4/src/libraries/System.Private.CoreLib/src/System/Array.cs#L27
public const ulong MaxByteArrayLength = 0x7FFFFFC7;
}

293
src/SharpCompress/Compressors/ZStandard/DecompressionStream.cs
View File

@@ -1,293 +0,0 @@
using System;
using System.Buffers;
using System.IO;
using System.Threading;
using System.Threading.Tasks;
using SharpCompress.Compressors.ZStandard.Unsafe;
namespace SharpCompress.Compressors.ZStandard;
public class DecompressionStream : Stream
{
private readonly Stream innerStream;
private readonly byte[] inputBuffer;
private readonly int inputBufferSize;
private readonly bool preserveDecompressor;
private readonly bool leaveOpen;
private readonly bool checkEndOfStream;
private Decompressor? decompressor;
private ZSTD_inBuffer_s input;
private nuint lastDecompressResult = 0;
private bool contextDrained = true;
public DecompressionStream(
Stream stream,
int bufferSize = 0,
bool checkEndOfStream = true,
bool leaveOpen = true
)
: this(stream, new Decompressor(), bufferSize, checkEndOfStream, false, leaveOpen) { }
public DecompressionStream(
Stream stream,
Decompressor decompressor,
int bufferSize = 0,
bool checkEndOfStream = true,
bool preserveDecompressor = true,
bool leaveOpen = true
)
{
if (stream == null)
throw new ArgumentNullException(nameof(stream));
if (!stream.CanRead)
throw new ArgumentException("Stream is not readable", nameof(stream));
if (bufferSize < 0)
throw new ArgumentOutOfRangeException(nameof(bufferSize));
innerStream = stream;
this.decompressor = decompressor;
this.preserveDecompressor = preserveDecompressor;
this.leaveOpen = leaveOpen;
this.checkEndOfStream = checkEndOfStream;
inputBufferSize =
bufferSize > 0
? bufferSize
: (int)Unsafe.Methods.ZSTD_DStreamInSize().EnsureZstdSuccess();
inputBuffer = ArrayPool<byte>.Shared.Rent(inputBufferSize);
input = new ZSTD_inBuffer_s { pos = (nuint)inputBufferSize, size = (nuint)inputBufferSize };
}
public void SetParameter(ZSTD_dParameter parameter, int value)
{
EnsureNotDisposed();
decompressor.NotNull().SetParameter(parameter, value);
}
public int GetParameter(ZSTD_dParameter parameter)
{
EnsureNotDisposed();
return decompressor.NotNull().GetParameter(parameter);
}
public void LoadDictionary(byte[] dict)
{
EnsureNotDisposed();
decompressor.NotNull().LoadDictionary(dict);
}
~DecompressionStream() => Dispose(false);
protected override void Dispose(bool disposing)
{
if (decompressor == null)
return;
if (!preserveDecompressor)
{
decompressor.Dispose();
}
decompressor = null;
if (inputBuffer != null)
{
ArrayPool<byte>.Shared.Return(inputBuffer);
}
if (!leaveOpen)
{
innerStream.Dispose();
}
}
public override int Read(byte[] buffer, int offset, int count) =>
Read(new Span<byte>(buffer, offset, count));
#if !NETSTANDARD2_0 && !NETFRAMEWORK
public override int Read(Span<byte> buffer)
#else
public int Read(Span<byte> buffer)
#endif
{
EnsureNotDisposed();
// Guard against infinite loop (output.pos would never become non-zero)
if (buffer.Length == 0)
{
return 0;
}
var output = new ZSTD_outBuffer_s { pos = 0, size = (nuint)buffer.Length };
while (true)
{
// If there is still input available, or there might be data buffered in the decompressor context, flush that out
while (input.pos < input.size || !contextDrained)
{
nuint oldInputPos = input.pos;
nuint result = DecompressStream(ref output, buffer);
if (output.pos > 0 || oldInputPos != input.pos)
{
// Keep result from last decompress call that made some progress, so we known if we're at end of frame
lastDecompressResult = result;
}
// If decompression filled the output buffer, there might still be data buffered in the decompressor context
contextDrained = output.pos < output.size;
// If we have data to return, return it immediately, so we won't stall on Read
if (output.pos > 0)
{
return (int)output.pos;
}
}
// Otherwise, read some more input
int bytesRead;
if ((bytesRead = innerStream.Read(inputBuffer, 0, inputBufferSize)) == 0)
{
if (checkEndOfStream && lastDecompressResult != 0)
{
throw new EndOfStreamException("Premature end of stream");
}
return 0;
}
input.size = (nuint)bytesRead;
input.pos = 0;
}
}
#if !NETSTANDARD2_0 && !NETFRAMEWORK
public override Task<int> ReadAsync(
byte[] buffer,
int offset,
int count,
CancellationToken cancellationToken
) => ReadAsync(new Memory<byte>(buffer, offset, count), cancellationToken).AsTask();
public override async ValueTask<int> ReadAsync(
Memory<byte> buffer,
CancellationToken cancellationToken = default
)
#else
public override Task<int> ReadAsync(
byte[] buffer,
int offset,
int count,
CancellationToken cancellationToken
) => ReadAsync(new Memory<byte>(buffer, offset, count), cancellationToken);
public async Task<int> ReadAsync(
Memory<byte> buffer,
CancellationToken cancellationToken = default
)
#endif
{
EnsureNotDisposed();
// Guard against infinite loop (output.pos would never become non-zero)
if (buffer.Length == 0)
{
return 0;
}
var output = new ZSTD_outBuffer_s { pos = 0, size = (nuint)buffer.Length };
while (true)
{
// If there is still input available, or there might be data buffered in the decompressor context, flush that out
while (input.pos < input.size || !contextDrained)
{
nuint oldInputPos = input.pos;
nuint result = DecompressStream(ref output, buffer.Span);
if (output.pos > 0 || oldInputPos != input.pos)
{
// Keep result from last decompress call that made some progress, so we known if we're at end of frame
lastDecompressResult = result;
}
// If decompression filled the output buffer, there might still be data buffered in the decompressor context
contextDrained = output.pos < output.size;
// If we have data to return, return it immediately, so we won't stall on Read
if (output.pos > 0)
{
return (int)output.pos;
}
}
// Otherwise, read some more input
int bytesRead;
if (
(
bytesRead = await innerStream
.ReadAsync(inputBuffer, 0, inputBufferSize, cancellationToken)
.ConfigureAwait(false)
) == 0
)
{
if (checkEndOfStream && lastDecompressResult != 0)
{
throw new EndOfStreamException("Premature end of stream");
}
return 0;
}
input.size = (nuint)bytesRead;
input.pos = 0;
}
}
private unsafe nuint DecompressStream(ref ZSTD_outBuffer_s output, Span<byte> outputBuffer)
{
fixed (byte* inputBufferPtr = inputBuffer)
fixed (byte* outputBufferPtr = outputBuffer)
{
input.src = inputBufferPtr;
output.dst = outputBufferPtr;
return decompressor.NotNull().DecompressStream(ref input, ref output);
}
}
public override bool CanRead => true;
public override bool CanSeek => false;
public override bool CanWrite => false;
public override long Length => throw new NotSupportedException();
public override long Position
{
get => throw new NotSupportedException();
set => throw new NotSupportedException();
}
public override void Flush() => throw new NotSupportedException();
public override long Seek(long offset, SeekOrigin origin) => throw new NotSupportedException();
public override void SetLength(long value) => throw new NotSupportedException();
public override void Write(byte[] buffer, int offset, int count) =>
throw new NotSupportedException();
private void EnsureNotDisposed()
{
if (decompressor == null)
throw new ObjectDisposedException(nameof(DecompressionStream));
}
#if NETSTANDARD2_0 || NETFRAMEWORK
public virtual Task DisposeAsync()
{
try
{
Dispose();
return Task.CompletedTask;
}
catch (Exception exc)
{
return Task.FromException(exc);
}
}
#endif
}

176
src/SharpCompress/Compressors/ZStandard/Decompressor.cs
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@@ -1,176 +0,0 @@
using System;
using SharpCompress.Compressors.ZStandard.Unsafe;
namespace SharpCompress.Compressors.ZStandard;
public unsafe class Decompressor : IDisposable
{
private readonly SafeDctxHandle handle;
public Decompressor()
{
handle = SafeDctxHandle.Create();
}
public void SetParameter(ZSTD_dParameter parameter, int value)
{
using var dctx = handle.Acquire();
Unsafe.Methods.ZSTD_DCtx_setParameter(dctx, parameter, value).EnsureZstdSuccess();
}
public int GetParameter(ZSTD_dParameter parameter)
{
using var dctx = handle.Acquire();
int value;
Unsafe.Methods.ZSTD_DCtx_getParameter(dctx, parameter, &value).EnsureZstdSuccess();
return value;
}
public void LoadDictionary(byte[] dict)
{
var dictReadOnlySpan = new ReadOnlySpan<byte>(dict);
this.LoadDictionary(dictReadOnlySpan);
}
public void LoadDictionary(ReadOnlySpan<byte> dict)
{
using var dctx = handle.Acquire();
fixed (byte* dictPtr = dict)
Unsafe
.Methods.ZSTD_DCtx_loadDictionary(dctx, dictPtr, (nuint)dict.Length)
.EnsureZstdSuccess();
}
public static ulong GetDecompressedSize(ReadOnlySpan<byte> src)
{
fixed (byte* srcPtr = src)
return Unsafe
.Methods.ZSTD_decompressBound(srcPtr, (nuint)src.Length)
.EnsureContentSizeOk();
}
public static ulong GetDecompressedSize(ArraySegment<byte> src) =>
GetDecompressedSize((ReadOnlySpan<byte>)src);
public static ulong GetDecompressedSize(byte[] src, int srcOffset, int srcLength) =>
GetDecompressedSize(new ReadOnlySpan<byte>(src, srcOffset, srcLength));
public Span<byte> Unwrap(ReadOnlySpan<byte> src, int maxDecompressedSize = int.MaxValue)
{
var expectedDstSize = GetDecompressedSize(src);
if (expectedDstSize > (ulong)maxDecompressedSize)
throw new ZstdException(
ZSTD_ErrorCode.ZSTD_error_dstSize_tooSmall,
$"Decompressed content size {expectedDstSize} is greater than {nameof(maxDecompressedSize)} {maxDecompressedSize}"
);
if (expectedDstSize > Constants.MaxByteArrayLength)
throw new ZstdException(
ZSTD_ErrorCode.ZSTD_error_dstSize_tooSmall,
$"Decompressed content size {expectedDstSize} is greater than max possible byte array size {Constants.MaxByteArrayLength}"
);
var dest = new byte[expectedDstSize];
var length = Unwrap(src, dest);
return new Span<byte>(dest, 0, length);
}
public int Unwrap(byte[] src, byte[] dest, int offset) =>
Unwrap(src, new Span<byte>(dest, offset, dest.Length - offset));
public int Unwrap(ReadOnlySpan<byte> src, Span<byte> dest)
{
fixed (byte* srcPtr = src)
fixed (byte* destPtr = dest)
{
using var dctx = handle.Acquire();
return (int)
Unsafe
.Methods.ZSTD_decompressDCtx(
dctx,
destPtr,
(nuint)dest.Length,
srcPtr,
(nuint)src.Length
)
.EnsureZstdSuccess();
}
}
public int Unwrap(
byte[] src,
int srcOffset,
int srcLength,
byte[] dst,
int dstOffset,
int dstLength
) =>
Unwrap(
new ReadOnlySpan<byte>(src, srcOffset, srcLength),
new Span<byte>(dst, dstOffset, dstLength)
);
public bool TryUnwrap(byte[] src, byte[] dest, int offset, out int written) =>
TryUnwrap(src, new Span<byte>(dest, offset, dest.Length - offset), out written);
public bool TryUnwrap(ReadOnlySpan<byte> src, Span<byte> dest, out int written)
{
fixed (byte* srcPtr = src)
fixed (byte* destPtr = dest)
{
nuint returnValue;
using (var dctx = handle.Acquire())
{
returnValue = Unsafe.Methods.ZSTD_decompressDCtx(
dctx,
destPtr,
(nuint)dest.Length,
srcPtr,
(nuint)src.Length
);
}
if (returnValue == unchecked(0 - (nuint)ZSTD_ErrorCode.ZSTD_error_dstSize_tooSmall))
{
written = default;
return false;
}
returnValue.EnsureZstdSuccess();
written = (int)returnValue;
return true;
}
}
public bool TryUnwrap(
byte[] src,
int srcOffset,
int srcLength,
byte[] dst,
int dstOffset,
int dstLength,
out int written
) =>
TryUnwrap(
new ReadOnlySpan<byte>(src, srcOffset, srcLength),
new Span<byte>(dst, dstOffset, dstLength),
out written
);
public void Dispose()
{
handle.Dispose();
GC.SuppressFinalize(this);
}
internal nuint DecompressStream(ref ZSTD_inBuffer_s input, ref ZSTD_outBuffer_s output)
{
fixed (ZSTD_inBuffer_s* inputPtr = &input)
fixed (ZSTD_outBuffer_s* outputPtr = &output)
{
using var dctx = handle.Acquire();
return Unsafe
.Methods.ZSTD_decompressStream(dctx, outputPtr, inputPtr)
.EnsureZstdSuccess();
}
}
}

141
src/SharpCompress/Compressors/ZStandard/JobThreadPool.cs
View File

@@ -1,141 +0,0 @@
using System;
using System.Collections.Concurrent;
using System.Collections.Generic;
using System.Threading;
namespace SharpCompress.Compressors.ZStandard;
internal unsafe class JobThreadPool : IDisposable
{
private int numThreads;
private readonly List<JobThread> threads;
private readonly BlockingCollection<Job> queue;
private struct Job
{
public void* function;
public void* opaque;
}
private class JobThread
{
private Thread Thread { get; }
public CancellationTokenSource CancellationTokenSource { get; }
public JobThread(Thread thread)
{
CancellationTokenSource = new CancellationTokenSource();
Thread = thread;
}
public void Start()
{
Thread.Start(this);
}
public void Cancel()
{
CancellationTokenSource.Cancel();
}
public void Join()
{
Thread.Join();
}
}
private void Worker(object? obj)
{
if (obj is not JobThread poolThread)
return;
var cancellationToken = poolThread.CancellationTokenSource.Token;
while (!queue.IsCompleted && !cancellationToken.IsCancellationRequested)
{
try
{
if (queue.TryTake(out var job, -1, cancellationToken))
((delegate* managed<void*, void>)job.function)(job.opaque);
}
catch (InvalidOperationException) { }
catch (OperationCanceledException) { }
}
}
public JobThreadPool(int num, int queueSize)
{
numThreads = num;
queue = new BlockingCollection<Job>(queueSize + 1);
threads = new List<JobThread>(num);
for (var i = 0; i < numThreads; i++)
CreateThread();
}
private void CreateThread()
{
var poolThread = new JobThread(new Thread(Worker));
threads.Add(poolThread);
poolThread.Start();
}
public void Resize(int num)
{
lock (threads)
{
if (num < numThreads)
{
for (var i = numThreads - 1; i >= num; i--)
{
threads[i].Cancel();
threads.RemoveAt(i);
}
}
else
{
for (var i = numThreads; i < num; i++)
CreateThread();
}
}
numThreads = num;
}
public void Add(void* function, void* opaque)
{
queue.Add(new Job { function = function, opaque = opaque });
}
public bool TryAdd(void* function, void* opaque)
{
return queue.TryAdd(new Job { function = function, opaque = opaque });
}
public void Join(bool cancel = true)
{
queue.CompleteAdding();
List<JobThread> jobThreads;
lock (threads)
jobThreads = new List<JobThread>(threads);
if (cancel)
{
foreach (var thread in jobThreads)
thread.Cancel();
}
foreach (var thread in jobThreads)
thread.Join();
}
public void Dispose()
{
queue.Dispose();
}
public int Size()
{
// todo not implemented
// https://github.com/dotnet/runtime/issues/24200
return 0;
}
}

163
src/SharpCompress/Compressors/ZStandard/SafeHandles.cs
View File

@@ -1,163 +0,0 @@
using System;
using System.Runtime.InteropServices;
using SharpCompress.Compressors.ZStandard.Unsafe;
namespace SharpCompress.Compressors.ZStandard;
/// <summary>
/// Provides the base class for ZstdSharp <see cref="SafeHandle"/> implementations.
/// </summary>
/// <remarks>
/// Even though ZstdSharp is a managed library, its internals are using unmanaged
/// memory and we are using safe handles in the library's high-level API to ensure
/// proper disposal of unmanaged resources and increase safety.
/// </remarks>
/// <seealso cref="SafeCctxHandle"/>
/// <seealso cref="SafeDctxHandle"/>
internal abstract unsafe class SafeZstdHandle : SafeHandle
{
/// <summary>
/// Parameterless constructor is hidden. Use the static <c>Create</c> factory
/// method to create a new safe handle instance.
/// </summary>
protected SafeZstdHandle()
: base(IntPtr.Zero, true) { }
public sealed override bool IsInvalid => handle == IntPtr.Zero;
}
/// <summary>
/// Safely wraps an unmanaged Zstd compression context.
/// </summary>
internal sealed unsafe class SafeCctxHandle : SafeZstdHandle
{
/// <inheritdoc/>
private SafeCctxHandle() { }
/// <summary>
/// Creates a new instance of <see cref="SafeCctxHandle"/>.
/// </summary>
/// <returns></returns>
/// <exception cref="ZstdException">Creation failed.</exception>
public static SafeCctxHandle Create()
{
var safeHandle = new SafeCctxHandle();
bool success = false;
try
{
var cctx = Unsafe.Methods.ZSTD_createCCtx();
if (cctx == null)
throw new ZstdException(ZSTD_ErrorCode.ZSTD_error_GENERIC, "Failed to create cctx");
safeHandle.SetHandle((IntPtr)cctx);
success = true;
}
finally
{
if (!success)
{
safeHandle.SetHandleAsInvalid();
}
}
return safeHandle;
}
/// <summary>
/// Acquires a reference to the safe handle.
/// </summary>
/// <returns>
/// A <see cref="SafeHandleHolder{T}"/> instance that can be implicitly converted to a pointer
/// to <see cref="ZSTD_CCtx_s"/>.
/// </returns>
public SafeHandleHolder<ZSTD_CCtx_s> Acquire() => new(this);
protected override bool ReleaseHandle()
{
return Unsafe.Methods.ZSTD_freeCCtx((ZSTD_CCtx_s*)handle) == 0;
}
}
/// <summary>
/// Safely wraps an unmanaged Zstd compression context.
/// </summary>
internal sealed unsafe class SafeDctxHandle : SafeZstdHandle
{
/// <inheritdoc/>
private SafeDctxHandle() { }
/// <summary>
/// Creates a new instance of <see cref="SafeDctxHandle"/>.
/// </summary>
/// <returns></returns>
/// <exception cref="ZstdException">Creation failed.</exception>
public static SafeDctxHandle Create()
{
var safeHandle = new SafeDctxHandle();
bool success = false;
try
{
var dctx = Unsafe.Methods.ZSTD_createDCtx();
if (dctx == null)
throw new ZstdException(ZSTD_ErrorCode.ZSTD_error_GENERIC, "Failed to create dctx");
safeHandle.SetHandle((IntPtr)dctx);
success = true;
}
finally
{
if (!success)
{
safeHandle.SetHandleAsInvalid();
}
}
return safeHandle;
}
/// <summary>
/// Acquires a reference to the safe handle.
/// </summary>
/// <returns>
/// A <see cref="SafeHandleHolder{T}"/> instance that can be implicitly converted to a pointer
/// to <see cref="ZSTD_DCtx_s"/>.
/// </returns>
public SafeHandleHolder<ZSTD_DCtx_s> Acquire() => new(this);
protected override bool ReleaseHandle()
{
return Unsafe.Methods.ZSTD_freeDCtx((ZSTD_DCtx_s*)handle) == 0;
}
}
/// <summary>
/// Provides a convenient interface to safely acquire pointers of a specific type
/// from a <see cref="SafeHandle"/>, by utilizing <see langword="using"/> blocks.
/// </summary>
/// <typeparam name="T">The type of pointers to return.</typeparam>
/// <remarks>
/// Safe handle holders can be <see cref="Dispose"/>d to decrement the safe handle's
/// reference count, and can be implicitly converted to pointers to <see cref="T"/>.
/// </remarks>
internal unsafe ref struct SafeHandleHolder<T>
where T : unmanaged
{
private readonly SafeHandle _handle;
private bool _refAdded;
public SafeHandleHolder(SafeHandle safeHandle)
{
_handle = safeHandle;
_refAdded = false;
safeHandle.DangerousAddRef(ref _refAdded);
}
public static implicit operator T*(SafeHandleHolder<T> holder) =>
(T*)holder._handle.DangerousGetHandle();
public void Dispose()
{
if (_refAdded)
{
_handle.DangerousRelease();
_refAdded = false;
}
}
}

22
src/SharpCompress/Compressors/ZStandard/SynchronizationWrapper.cs
View File

@@ -1,22 +0,0 @@
using System.Threading;
namespace SharpCompress.Compressors.ZStandard;
internal static unsafe class SynchronizationWrapper
{
private static object UnwrapObject(void** obj) => UnmanagedObject.Unwrap<object>(*obj);
public static void Init(void** obj) => *obj = UnmanagedObject.Wrap(new object());
public static void Free(void** obj) => UnmanagedObject.Free(*obj);
public static void Enter(void** obj) => Monitor.Enter(UnwrapObject(obj));
public static void Exit(void** obj) => Monitor.Exit(UnwrapObject(obj));
public static void Pulse(void** obj) => Monitor.Pulse(UnwrapObject(obj));
public static void PulseAll(void** obj) => Monitor.PulseAll(UnwrapObject(obj));
public static void Wait(void** mutex) => Monitor.Wait(UnwrapObject(mutex));
}

48
src/SharpCompress/Compressors/ZStandard/ThrowHelper.cs
View File

@@ -1,48 +0,0 @@
using SharpCompress.Compressors.ZStandard.Unsafe;
namespace SharpCompress.Compressors.ZStandard;
public static unsafe class ThrowHelper
{
private const ulong ZSTD_CONTENTSIZE_UNKNOWN = unchecked(0UL - 1);
private const ulong ZSTD_CONTENTSIZE_ERROR = unchecked(0UL - 2);
public static nuint EnsureZstdSuccess(this nuint returnValue)
{
if (Unsafe.Methods.ZSTD_isError(returnValue))
ThrowException(returnValue, Unsafe.Methods.ZSTD_getErrorName(returnValue));
return returnValue;
}
public static nuint EnsureZdictSuccess(this nuint returnValue)
{
if (Unsafe.Methods.ZDICT_isError(returnValue))
ThrowException(returnValue, Unsafe.Methods.ZDICT_getErrorName(returnValue));
return returnValue;
}
public static ulong EnsureContentSizeOk(this ulong returnValue)
{
if (returnValue == ZSTD_CONTENTSIZE_UNKNOWN)
throw new ZstdException(
ZSTD_ErrorCode.ZSTD_error_GENERIC,
"Decompressed content size is not specified"
);
if (returnValue == ZSTD_CONTENTSIZE_ERROR)
throw new ZstdException(
ZSTD_ErrorCode.ZSTD_error_GENERIC,
"Decompressed content size cannot be determined (e.g. invalid magic number, srcSize too small)"
);
return returnValue;
}
private static void ThrowException(nuint returnValue, string message)
{
var code = 0 - returnValue;
throw new ZstdException((ZSTD_ErrorCode)code, message);
}
}

18
src/SharpCompress/Compressors/ZStandard/UnmanagedObject.cs
View File

@@ -1,18 +0,0 @@
using System;
using System.Runtime.InteropServices;
namespace SharpCompress.Compressors.ZStandard;
/*
* Wrap object to void* to make it unmanaged
*/
internal static unsafe class UnmanagedObject
{
public static void* Wrap(object obj) => (void*)GCHandle.ToIntPtr(GCHandle.Alloc(obj));
private static GCHandle UnwrapGcHandle(void* value) => GCHandle.FromIntPtr((IntPtr)value);
public static T Unwrap<T>(void* value) => (T)UnwrapGcHandle(value).Target!;
public static void Free(void* value) => UnwrapGcHandle(value).Free();
}

52
src/SharpCompress/Compressors/ZStandard/Unsafe/Allocations.cs
View File

@@ -1,52 +0,0 @@
using System.Runtime.CompilerServices;
using static SharpCompress.Compressors.ZStandard.UnsafeHelper;
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public static unsafe partial class Methods
{
/* custom memory allocation functions */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static void* ZSTD_customMalloc(nuint size, ZSTD_customMem customMem)
{
if (customMem.customAlloc != null)
return ((delegate* managed<void*, nuint, void*>)customMem.customAlloc)(
customMem.opaque,
size
);
return malloc(size);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static void* ZSTD_customCalloc(nuint size, ZSTD_customMem customMem)
{
if (customMem.customAlloc != null)
{
/* calloc implemented as malloc+memset;
* not as efficient as calloc, but next best guess for custom malloc */
void* ptr = ((delegate* managed<void*, nuint, void*>)customMem.customAlloc)(
customMem.opaque,
size
);
memset(ptr, 0, (uint)size);
return ptr;
}
return calloc(1, size);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static void ZSTD_customFree(void* ptr, ZSTD_customMem customMem)
{
if (ptr != null)
{
if (customMem.customFree != null)
((delegate* managed<void*, void*, void>)customMem.customFree)(
customMem.opaque,
ptr
);
else
free(ptr);
}
}
}

14
src/SharpCompress/Compressors/ZStandard/Unsafe/BIT_CStream_t.cs
View File

@@ -1,14 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/* bitStream can mix input from multiple sources.
* A critical property of these streams is that they encode and decode in **reverse** direction.
* So the first bit sequence you add will be the last to be read, like a LIFO stack.
*/
public unsafe struct BIT_CStream_t
{
public nuint bitContainer;
public uint bitPos;
public sbyte* startPtr;
public sbyte* ptr;
public sbyte* endPtr;
}

16
src/SharpCompress/Compressors/ZStandard/Unsafe/BIT_DStream_status.cs
View File

@@ -1,16 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public enum BIT_DStream_status
{
/* fully refilled */
BIT_DStream_unfinished = 0,
/* still some bits left in bitstream */
BIT_DStream_endOfBuffer = 1,
/* bitstream entirely consumed, bit-exact */
BIT_DStream_completed = 2,
/* user requested more bits than present in bitstream */
BIT_DStream_overflow = 3,
}

13
src/SharpCompress/Compressors/ZStandard/Unsafe/BIT_DStream_t.cs
View File

@@ -1,13 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/*-********************************************
* bitStream decoding API (read backward)
**********************************************/
public unsafe struct BIT_DStream_t
{
public nuint bitContainer;
public uint bitsConsumed;
public sbyte* ptr;
public sbyte* start;
public sbyte* limitPtr;
}

60
src/SharpCompress/Compressors/ZStandard/Unsafe/Bits.cs
View File

@@ -1,60 +0,0 @@
using System;
using System.Numerics;
using System.Runtime.CompilerServices;
using static SharpCompress.Compressors.ZStandard.UnsafeHelper;
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public static unsafe partial class Methods
{
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static uint ZSTD_countTrailingZeros32(uint val)
{
assert(val != 0);
return (uint)BitOperations.TrailingZeroCount(val);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static uint ZSTD_countLeadingZeros32(uint val)
{
assert(val != 0);
return (uint)BitOperations.LeadingZeroCount(val);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static uint ZSTD_countTrailingZeros64(ulong val)
{
assert(val != 0);
return (uint)BitOperations.TrailingZeroCount(val);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static uint ZSTD_countLeadingZeros64(ulong val)
{
assert(val != 0);
return (uint)BitOperations.LeadingZeroCount(val);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static uint ZSTD_NbCommonBytes(nuint val)
{
assert(val != 0);
if (BitConverter.IsLittleEndian)
{
return MEM_64bits
? (uint)BitOperations.TrailingZeroCount(val) >> 3
: (uint)BitOperations.TrailingZeroCount((uint)val) >> 3;
}
return MEM_64bits
? (uint)BitOperations.LeadingZeroCount(val) >> 3
: (uint)BitOperations.LeadingZeroCount((uint)val) >> 3;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static uint ZSTD_highbit32(uint val)
{
assert(val != 0);
return (uint)BitOperations.Log2(val);
}
}

739
src/SharpCompress/Compressors/ZStandard/Unsafe/Bitstream.cs
View File

@@ -1,739 +0,0 @@
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using static SharpCompress.Compressors.ZStandard.UnsafeHelper;
#if NETCOREAPP3_0_OR_GREATER
using System.Runtime.Intrinsics.X86;
#endif
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public static unsafe partial class Methods
{
#if NET7_0_OR_GREATER
private static ReadOnlySpan<uint> Span_BIT_mask =>
new uint[32]
{
0,
1,
3,
7,
0xF,
0x1F,
0x3F,
0x7F,
0xFF,
0x1FF,
0x3FF,
0x7FF,
0xFFF,
0x1FFF,
0x3FFF,
0x7FFF,
0xFFFF,
0x1FFFF,
0x3FFFF,
0x7FFFF,
0xFFFFF,
0x1FFFFF,
0x3FFFFF,
0x7FFFFF,
0xFFFFFF,
0x1FFFFFF,
0x3FFFFFF,
0x7FFFFFF,
0xFFFFFFF,
0x1FFFFFFF,
0x3FFFFFFF,
0x7FFFFFFF,
};
private static uint* BIT_mask =>
(uint*)
System.Runtime.CompilerServices.Unsafe.AsPointer(
ref MemoryMarshal.GetReference(Span_BIT_mask)
);
#else
private static readonly uint* BIT_mask = GetArrayPointer(
new uint[32]
{
0,
1,
3,
7,
0xF,
0x1F,
0x3F,
0x7F,
0xFF,
0x1FF,
0x3FF,
0x7FF,
0xFFF,
0x1FFF,
0x3FFF,
0x7FFF,
0xFFFF,
0x1FFFF,
0x3FFFF,
0x7FFFF,
0xFFFFF,
0x1FFFFF,
0x3FFFFF,
0x7FFFFF,
0xFFFFFF,
0x1FFFFFF,
0x3FFFFFF,
0x7FFFFFF,
0xFFFFFFF,
0x1FFFFFFF,
0x3FFFFFFF,
0x7FFFFFFF,
}
);
#endif
/*-**************************************************************
* bitStream encoding
****************************************************************/
/*! BIT_initCStream() :
* `dstCapacity` must be > sizeof(size_t)
* @return : 0 if success,
* otherwise an error code (can be tested using ERR_isError()) */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_initCStream(ref BIT_CStream_t bitC, void* startPtr, nuint dstCapacity)
{
bitC.bitContainer = 0;
bitC.bitPos = 0;
bitC.startPtr = (sbyte*)startPtr;
bitC.ptr = bitC.startPtr;
bitC.endPtr = bitC.startPtr + dstCapacity - sizeof(nuint);
if (dstCapacity <= (nuint)sizeof(nuint))
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_dstSize_tooSmall));
return 0;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_getLowerBits(nuint bitContainer, uint nbBits)
{
assert(nbBits < sizeof(uint) * 32 / sizeof(uint));
#if NETCOREAPP3_1_OR_GREATER
if (Bmi2.X64.IsSupported)
{
return (nuint)Bmi2.X64.ZeroHighBits(bitContainer, nbBits);
}
if (Bmi2.IsSupported)
{
return Bmi2.ZeroHighBits((uint)bitContainer, nbBits);
}
#endif
return bitContainer & BIT_mask[nbBits];
}
/*! BIT_addBits() :
* can add up to 31 bits into `bitC`.
* Note : does not check for register overflow ! */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static void BIT_addBits(
ref nuint bitC_bitContainer,
ref uint bitC_bitPos,
nuint value,
uint nbBits
)
{
assert(nbBits < sizeof(uint) * 32 / sizeof(uint));
assert(nbBits + bitC_bitPos < (uint)(sizeof(nuint) * 8));
bitC_bitContainer |= BIT_getLowerBits(value, nbBits) << (int)bitC_bitPos;
bitC_bitPos += nbBits;
}
/*! BIT_addBitsFast() :
* works only if `value` is _clean_,
* meaning all high bits above nbBits are 0 */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static void BIT_addBitsFast(
ref nuint bitC_bitContainer,
ref uint bitC_bitPos,
nuint value,
uint nbBits
)
{
assert(value >> (int)nbBits == 0);
assert(nbBits + bitC_bitPos < (uint)(sizeof(nuint) * 8));
bitC_bitContainer |= value << (int)bitC_bitPos;
bitC_bitPos += nbBits;
}
/*! BIT_flushBitsFast() :
* assumption : bitContainer has not overflowed
* unsafe version; does not check buffer overflow */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static void BIT_flushBitsFast(
ref nuint bitC_bitContainer,
ref uint bitC_bitPos,
ref sbyte* bitC_ptr,
sbyte* bitC_endPtr
)
{
nuint nbBytes = bitC_bitPos >> 3;
assert(bitC_bitPos < (uint)(sizeof(nuint) * 8));
assert(bitC_ptr <= bitC_endPtr);
MEM_writeLEST(bitC_ptr, bitC_bitContainer);
bitC_ptr += nbBytes;
bitC_bitPos &= 7;
bitC_bitContainer >>= (int)(nbBytes * 8);
}
/*! BIT_flushBits() :
* assumption : bitContainer has not overflowed
* safe version; check for buffer overflow, and prevents it.
* note : does not signal buffer overflow.
* overflow will be revealed later on using BIT_closeCStream() */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static void BIT_flushBits(
ref nuint bitC_bitContainer,
ref uint bitC_bitPos,
ref sbyte* bitC_ptr,
sbyte* bitC_endPtr
)
{
nuint nbBytes = bitC_bitPos >> 3;
assert(bitC_bitPos < (uint)(sizeof(nuint) * 8));
assert(bitC_ptr <= bitC_endPtr);
MEM_writeLEST(bitC_ptr, bitC_bitContainer);
bitC_ptr += nbBytes;
if (bitC_ptr > bitC_endPtr)
bitC_ptr = bitC_endPtr;
bitC_bitPos &= 7;
bitC_bitContainer >>= (int)(nbBytes * 8);
}
/*! BIT_closeCStream() :
* @return : size of CStream, in bytes,
* or 0 if it could not fit into dstBuffer */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_closeCStream(
ref nuint bitC_bitContainer,
ref uint bitC_bitPos,
sbyte* bitC_ptr,
sbyte* bitC_endPtr,
sbyte* bitC_startPtr
)
{
BIT_addBitsFast(ref bitC_bitContainer, ref bitC_bitPos, 1, 1);
BIT_flushBits(ref bitC_bitContainer, ref bitC_bitPos, ref bitC_ptr, bitC_endPtr);
if (bitC_ptr >= bitC_endPtr)
return 0;
return (nuint)(bitC_ptr - bitC_startPtr) + (nuint)(bitC_bitPos > 0 ? 1 : 0);
}
/*-********************************************************
* bitStream decoding
**********************************************************/
/*! BIT_initDStream() :
* Initialize a BIT_DStream_t.
* `bitD` : a pointer to an already allocated BIT_DStream_t structure.
* `srcSize` must be the *exact* size of the bitStream, in bytes.
* @return : size of stream (== srcSize), or an errorCode if a problem is detected
*/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_initDStream(BIT_DStream_t* bitD, void* srcBuffer, nuint srcSize)
{
if (srcSize < 1)
{
*bitD = new BIT_DStream_t();
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_srcSize_wrong));
}
bitD->start = (sbyte*)srcBuffer;
bitD->limitPtr = bitD->start + sizeof(nuint);
if (srcSize >= (nuint)sizeof(nuint))
{
bitD->ptr = (sbyte*)srcBuffer + srcSize - sizeof(nuint);
bitD->bitContainer = MEM_readLEST(bitD->ptr);
{
byte lastByte = ((byte*)srcBuffer)[srcSize - 1];
bitD->bitsConsumed = lastByte != 0 ? 8 - ZSTD_highbit32(lastByte) : 0;
if (lastByte == 0)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_GENERIC));
}
}
else
{
bitD->ptr = bitD->start;
bitD->bitContainer = *(byte*)bitD->start;
switch (srcSize)
{
case 7:
bitD->bitContainer += (nuint)((byte*)srcBuffer)[6] << sizeof(nuint) * 8 - 16;
goto case 6;
case 6:
bitD->bitContainer += (nuint)((byte*)srcBuffer)[5] << sizeof(nuint) * 8 - 24;
goto case 5;
case 5:
bitD->bitContainer += (nuint)((byte*)srcBuffer)[4] << sizeof(nuint) * 8 - 32;
goto case 4;
case 4:
bitD->bitContainer += (nuint)((byte*)srcBuffer)[3] << 24;
goto case 3;
case 3:
bitD->bitContainer += (nuint)((byte*)srcBuffer)[2] << 16;
goto case 2;
case 2:
bitD->bitContainer += (nuint)((byte*)srcBuffer)[1] << 8;
goto default;
default:
break;
}
{
byte lastByte = ((byte*)srcBuffer)[srcSize - 1];
bitD->bitsConsumed = lastByte != 0 ? 8 - ZSTD_highbit32(lastByte) : 0;
if (lastByte == 0)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_corruption_detected));
}
bitD->bitsConsumed += (uint)((nuint)sizeof(nuint) - srcSize) * 8;
}
return srcSize;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_getUpperBits(nuint bitContainer, uint start)
{
return bitContainer >> (int)start;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_getMiddleBits(nuint bitContainer, uint start, uint nbBits)
{
uint regMask = (uint)(sizeof(nuint) * 8 - 1);
assert(nbBits < sizeof(uint) * 32 / sizeof(uint));
#if NETCOREAPP3_1_OR_GREATER
if (Bmi2.X64.IsSupported)
{
return (nuint)Bmi2.X64.ZeroHighBits(bitContainer >> (int)(start & regMask), nbBits);
}
if (Bmi2.IsSupported)
{
return Bmi2.ZeroHighBits((uint)(bitContainer >> (int)(start & regMask)), nbBits);
}
#endif
return (nuint)(bitContainer >> (int)(start & regMask) & ((ulong)1 << (int)nbBits) - 1);
}
/*! BIT_lookBits() :
* Provides next n bits from local register.
* local register is not modified.
* On 32-bits, maxNbBits==24.
* On 64-bits, maxNbBits==56.
* @return : value extracted */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_lookBits(BIT_DStream_t* bitD, uint nbBits)
{
return BIT_getMiddleBits(
bitD->bitContainer,
(uint)(sizeof(nuint) * 8) - bitD->bitsConsumed - nbBits,
nbBits
);
}
/*! BIT_lookBitsFast() :
* unsafe version; only works if nbBits >= 1 */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_lookBitsFast(BIT_DStream_t* bitD, uint nbBits)
{
uint regMask = (uint)(sizeof(nuint) * 8 - 1);
assert(nbBits >= 1);
return bitD->bitContainer
<< (int)(bitD->bitsConsumed & regMask)
>> (int)(regMask + 1 - nbBits & regMask);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static void BIT_skipBits(BIT_DStream_t* bitD, uint nbBits)
{
bitD->bitsConsumed += nbBits;
}
/*! BIT_readBits() :
* Read (consume) next n bits from local register and update.
* Pay attention to not read more than nbBits contained into local register.
* @return : extracted value. */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_readBits(BIT_DStream_t* bitD, uint nbBits)
{
nuint value = BIT_lookBits(bitD, nbBits);
BIT_skipBits(bitD, nbBits);
return value;
}
/*! BIT_readBitsFast() :
* unsafe version; only works if nbBits >= 1 */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_readBitsFast(BIT_DStream_t* bitD, uint nbBits)
{
nuint value = BIT_lookBitsFast(bitD, nbBits);
assert(nbBits >= 1);
BIT_skipBits(bitD, nbBits);
return value;
}
/*! BIT_reloadDStream_internal() :
* Simple variant of BIT_reloadDStream(), with two conditions:
* 1. bitstream is valid : bitsConsumed <= sizeof(bitD->bitContainer)*8
* 2. look window is valid after shifted down : bitD->ptr >= bitD->start
*/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static BIT_DStream_status BIT_reloadDStream_internal(BIT_DStream_t* bitD)
{
assert(bitD->bitsConsumed <= (uint)(sizeof(nuint) * 8));
bitD->ptr -= bitD->bitsConsumed >> 3;
assert(bitD->ptr >= bitD->start);
bitD->bitsConsumed &= 7;
bitD->bitContainer = MEM_readLEST(bitD->ptr);
return BIT_DStream_status.BIT_DStream_unfinished;
}
/*! BIT_reloadDStreamFast() :
* Similar to BIT_reloadDStream(), but with two differences:
* 1. bitsConsumed <= sizeof(bitD->bitContainer)*8 must hold!
* 2. Returns BIT_DStream_overflow when bitD->ptr < bitD->limitPtr, at this
* point you must use BIT_reloadDStream() to reload.
*/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static BIT_DStream_status BIT_reloadDStreamFast(BIT_DStream_t* bitD)
{
if (bitD->ptr < bitD->limitPtr)
return BIT_DStream_status.BIT_DStream_overflow;
return BIT_reloadDStream_internal(bitD);
}
#if NET7_0_OR_GREATER
private static ReadOnlySpan<byte> Span_static_zeroFilled =>
new byte[] { 0, 0, 0, 0, 0, 0, 0, 0 };
private static nuint* static_zeroFilled =>
(nuint*)
System.Runtime.CompilerServices.Unsafe.AsPointer(
ref MemoryMarshal.GetReference(Span_static_zeroFilled)
);
#else
private static readonly nuint* static_zeroFilled = (nuint*)GetArrayPointer(
new byte[] { 0, 0, 0, 0, 0, 0, 0, 0 }
);
#endif
/*! BIT_reloadDStream() :
* Refill `bitD` from buffer previously set in BIT_initDStream() .
* This function is safe, it guarantees it will not never beyond src buffer.
* @return : status of `BIT_DStream_t` internal register.
* when status == BIT_DStream_unfinished, internal register is filled with at least 25 or 57 bits */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static BIT_DStream_status BIT_reloadDStream(BIT_DStream_t* bitD)
{
if (bitD->bitsConsumed > (uint)(sizeof(nuint) * 8))
{
bitD->ptr = (sbyte*)&static_zeroFilled[0];
return BIT_DStream_status.BIT_DStream_overflow;
}
assert(bitD->ptr >= bitD->start);
if (bitD->ptr >= bitD->limitPtr)
{
return BIT_reloadDStream_internal(bitD);
}
if (bitD->ptr == bitD->start)
{
if (bitD->bitsConsumed < (uint)(sizeof(nuint) * 8))
return BIT_DStream_status.BIT_DStream_endOfBuffer;
return BIT_DStream_status.BIT_DStream_completed;
}
{
uint nbBytes = bitD->bitsConsumed >> 3;
BIT_DStream_status result = BIT_DStream_status.BIT_DStream_unfinished;
if (bitD->ptr - nbBytes < bitD->start)
{
nbBytes = (uint)(bitD->ptr - bitD->start);
result = BIT_DStream_status.BIT_DStream_endOfBuffer;
}
bitD->ptr -= nbBytes;
bitD->bitsConsumed -= nbBytes * 8;
bitD->bitContainer = MEM_readLEST(bitD->ptr);
return result;
}
}
/*! BIT_endOfDStream() :
* @return : 1 if DStream has _exactly_ reached its end (all bits consumed).
*/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static uint BIT_endOfDStream(BIT_DStream_t* DStream)
{
return DStream->ptr == DStream->start && DStream->bitsConsumed == (uint)(sizeof(nuint) * 8)
? 1U
: 0U;
}
/*-********************************************************
* bitStream decoding
**********************************************************/
/*! BIT_initDStream() :
* Initialize a BIT_DStream_t.
* `bitD` : a pointer to an already allocated BIT_DStream_t structure.
* `srcSize` must be the *exact* size of the bitStream, in bytes.
* @return : size of stream (== srcSize), or an errorCode if a problem is detected
*/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_initDStream(ref BIT_DStream_t bitD, void* srcBuffer, nuint srcSize)
{
if (srcSize < 1)
{
bitD = new BIT_DStream_t();
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_srcSize_wrong));
}
bitD.start = (sbyte*)srcBuffer;
bitD.limitPtr = bitD.start + sizeof(nuint);
if (srcSize >= (nuint)sizeof(nuint))
{
bitD.ptr = (sbyte*)srcBuffer + srcSize - sizeof(nuint);
bitD.bitContainer = MEM_readLEST(bitD.ptr);
{
byte lastByte = ((byte*)srcBuffer)[srcSize - 1];
bitD.bitsConsumed = lastByte != 0 ? 8 - ZSTD_highbit32(lastByte) : 0;
if (lastByte == 0)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_GENERIC));
}
}
else
{
bitD.ptr = bitD.start;
bitD.bitContainer = *(byte*)bitD.start;
switch (srcSize)
{
case 7:
bitD.bitContainer += (nuint)((byte*)srcBuffer)[6] << sizeof(nuint) * 8 - 16;
goto case 6;
case 6:
bitD.bitContainer += (nuint)((byte*)srcBuffer)[5] << sizeof(nuint) * 8 - 24;
goto case 5;
case 5:
bitD.bitContainer += (nuint)((byte*)srcBuffer)[4] << sizeof(nuint) * 8 - 32;
goto case 4;
case 4:
bitD.bitContainer += (nuint)((byte*)srcBuffer)[3] << 24;
goto case 3;
case 3:
bitD.bitContainer += (nuint)((byte*)srcBuffer)[2] << 16;
goto case 2;
case 2:
bitD.bitContainer += (nuint)((byte*)srcBuffer)[1] << 8;
goto default;
default:
break;
}
{
byte lastByte = ((byte*)srcBuffer)[srcSize - 1];
bitD.bitsConsumed = lastByte != 0 ? 8 - ZSTD_highbit32(lastByte) : 0;
if (lastByte == 0)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_corruption_detected));
}
bitD.bitsConsumed += (uint)((nuint)sizeof(nuint) - srcSize) * 8;
}
return srcSize;
}
/*! BIT_lookBits() :
* Provides next n bits from local register.
* local register is not modified.
* On 32-bits, maxNbBits==24.
* On 64-bits, maxNbBits==56.
* @return : value extracted */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_lookBits(nuint bitD_bitContainer, uint bitD_bitsConsumed, uint nbBits)
{
return BIT_getMiddleBits(
bitD_bitContainer,
(uint)(sizeof(nuint) * 8) - bitD_bitsConsumed - nbBits,
nbBits
);
}
/*! BIT_lookBitsFast() :
* unsafe version; only works if nbBits >= 1 */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_lookBitsFast(
nuint bitD_bitContainer,
uint bitD_bitsConsumed,
uint nbBits
)
{
uint regMask = (uint)(sizeof(nuint) * 8 - 1);
assert(nbBits >= 1);
return bitD_bitContainer
<< (int)(bitD_bitsConsumed & regMask)
>> (int)(regMask + 1 - nbBits & regMask);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static void BIT_skipBits(ref uint bitD_bitsConsumed, uint nbBits)
{
bitD_bitsConsumed += nbBits;
}
/*! BIT_readBits() :
* Read (consume) next n bits from local register and update.
* Pay attention to not read more than nbBits contained into local register.
* @return : extracted value. */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_readBits(
nuint bitD_bitContainer,
ref uint bitD_bitsConsumed,
uint nbBits
)
{
nuint value = BIT_lookBits(bitD_bitContainer, bitD_bitsConsumed, nbBits);
BIT_skipBits(ref bitD_bitsConsumed, nbBits);
return value;
}
/*! BIT_readBitsFast() :
* unsafe version; only works if nbBits >= 1 */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint BIT_readBitsFast(
nuint bitD_bitContainer,
ref uint bitD_bitsConsumed,
uint nbBits
)
{
nuint value = BIT_lookBitsFast(bitD_bitContainer, bitD_bitsConsumed, nbBits);
assert(nbBits >= 1);
BIT_skipBits(ref bitD_bitsConsumed, nbBits);
return value;
}
/*! BIT_reloadDStreamFast() :
* Similar to BIT_reloadDStream(), but with two differences:
* 1. bitsConsumed <= sizeof(bitD->bitContainer)*8 must hold!
* 2. Returns BIT_DStream_overflow when bitD->ptr < bitD->limitPtr, at this
* point you must use BIT_reloadDStream() to reload.
*/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static BIT_DStream_status BIT_reloadDStreamFast(
ref nuint bitD_bitContainer,
ref uint bitD_bitsConsumed,
ref sbyte* bitD_ptr,
sbyte* bitD_start,
sbyte* bitD_limitPtr
)
{
if (bitD_ptr < bitD_limitPtr)
return BIT_DStream_status.BIT_DStream_overflow;
return BIT_reloadDStream_internal(
ref bitD_bitContainer,
ref bitD_bitsConsumed,
ref bitD_ptr,
bitD_start
);
}
/*! BIT_reloadDStream() :
* Refill `bitD` from buffer previously set in BIT_initDStream() .
* This function is safe, it guarantees it will not never beyond src buffer.
* @return : status of `BIT_DStream_t` internal register.
* when status == BIT_DStream_unfinished, internal register is filled with at least 25 or 57 bits */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static BIT_DStream_status BIT_reloadDStream(
ref nuint bitD_bitContainer,
ref uint bitD_bitsConsumed,
ref sbyte* bitD_ptr,
sbyte* bitD_start,
sbyte* bitD_limitPtr
)
{
if (bitD_bitsConsumed > (uint)(sizeof(nuint) * 8))
{
bitD_ptr = (sbyte*)&static_zeroFilled[0];
return BIT_DStream_status.BIT_DStream_overflow;
}
assert(bitD_ptr >= bitD_start);
if (bitD_ptr >= bitD_limitPtr)
{
return BIT_reloadDStream_internal(
ref bitD_bitContainer,
ref bitD_bitsConsumed,
ref bitD_ptr,
bitD_start
);
}
if (bitD_ptr == bitD_start)
{
if (bitD_bitsConsumed < (uint)(sizeof(nuint) * 8))
return BIT_DStream_status.BIT_DStream_endOfBuffer;
return BIT_DStream_status.BIT_DStream_completed;
}
{
uint nbBytes = bitD_bitsConsumed >> 3;
BIT_DStream_status result = BIT_DStream_status.BIT_DStream_unfinished;
if (bitD_ptr - nbBytes < bitD_start)
{
nbBytes = (uint)(bitD_ptr - bitD_start);
result = BIT_DStream_status.BIT_DStream_endOfBuffer;
}
bitD_ptr -= nbBytes;
bitD_bitsConsumed -= nbBytes * 8;
bitD_bitContainer = MEM_readLEST(bitD_ptr);
return result;
}
}
/*! BIT_reloadDStream_internal() :
* Simple variant of BIT_reloadDStream(), with two conditions:
* 1. bitstream is valid : bitsConsumed <= sizeof(bitD->bitContainer)*8
* 2. look window is valid after shifted down : bitD->ptr >= bitD->start
*/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static BIT_DStream_status BIT_reloadDStream_internal(
ref nuint bitD_bitContainer,
ref uint bitD_bitsConsumed,
ref sbyte* bitD_ptr,
sbyte* bitD_start
)
{
assert(bitD_bitsConsumed <= (uint)(sizeof(nuint) * 8));
bitD_ptr -= bitD_bitsConsumed >> 3;
assert(bitD_ptr >= bitD_start);
bitD_bitsConsumed &= 7;
bitD_bitContainer = MEM_readLEST(bitD_ptr);
return BIT_DStream_status.BIT_DStream_unfinished;
}
/*! BIT_endOfDStream() :
* @return : 1 if DStream has _exactly_ reached its end (all bits consumed).
*/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static uint BIT_endOfDStream(
uint DStream_bitsConsumed,
sbyte* DStream_ptr,
sbyte* DStream_start
)
{
return DStream_ptr == DStream_start && DStream_bitsConsumed == (uint)(sizeof(nuint) * 8)
? 1U
: 0U;
}
}

8
src/SharpCompress/Compressors/ZStandard/Unsafe/BlockSummary.cs
View File

@@ -1,8 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public struct BlockSummary
{
public nuint nbSequences;
public nuint blockSize;
public nuint litSize;
}

20
src/SharpCompress/Compressors/ZStandard/Unsafe/COVER_best_s.cs
View File

@@ -1,20 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/**
* COVER_best_t is used for two purposes:
* 1. Synchronizing threads.
* 2. Saving the best parameters and dictionary.
*
* All of the methods except COVER_best_init() are thread safe if zstd is
* compiled with multithreaded support.
*/
public unsafe struct COVER_best_s
{
public void* mutex;
public void* cond;
public nuint liveJobs;
public void* dict;
public nuint dictSize;
public ZDICT_cover_params_t parameters;
public nuint compressedSize;
}

19
src/SharpCompress/Compressors/ZStandard/Unsafe/COVER_ctx_t.cs
View File

@@ -1,19 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/*-*************************************
* Context
***************************************/
public unsafe struct COVER_ctx_t
{
public byte* samples;
public nuint* offsets;
public nuint* samplesSizes;
public nuint nbSamples;
public nuint nbTrainSamples;
public nuint nbTestSamples;
public uint* suffix;
public nuint suffixSize;
public uint* freqs;
public uint* dmerAt;
public uint d;
}

11
src/SharpCompress/Compressors/ZStandard/Unsafe/COVER_dictSelection.cs
View File

@@ -1,11 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/**
* Struct used for the dictionary selection function.
*/
public unsafe struct COVER_dictSelection
{
public byte* dictContent;
public nuint dictSize;
public nuint totalCompressedSize;
}

10
src/SharpCompress/Compressors/ZStandard/Unsafe/COVER_epoch_info_t.cs
View File

@@ -1,10 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/**
*Number of epochs and size of each epoch.
*/
public struct COVER_epoch_info_t
{
public uint num;
public uint size;
}

7
src/SharpCompress/Compressors/ZStandard/Unsafe/COVER_map_pair_t_s.cs
View File

@@ -1,7 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public struct COVER_map_pair_t_s
{
public uint key;
public uint value;
}

9
src/SharpCompress/Compressors/ZStandard/Unsafe/COVER_map_s.cs
View File

@@ -1,9 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public unsafe struct COVER_map_s
{
public COVER_map_pair_t_s* data;
public uint sizeLog;
public uint size;
public uint sizeMask;
}

11
src/SharpCompress/Compressors/ZStandard/Unsafe/COVER_segment_t.cs
View File

@@ -1,11 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/**
* A segment is a range in the source as well as the score of the segment.
*/
public struct COVER_segment_t
{
public uint begin;
public uint end;
public uint score;
}

12
src/SharpCompress/Compressors/ZStandard/Unsafe/COVER_tryParameters_data_s.cs
View File

@@ -1,12 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/**
* Parameters for COVER_tryParameters().
*/
public unsafe struct COVER_tryParameters_data_s
{
public COVER_ctx_t* ctx;
public COVER_best_s* best;
public nuint dictBufferCapacity;
public ZDICT_cover_params_t parameters;
}

849
src/SharpCompress/Compressors/ZStandard/Unsafe/Clevels.cs
View File

@@ -1,849 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public static unsafe partial class Methods
{
private static readonly ZSTD_compressionParameters[][] ZSTD_defaultCParameters =
new ZSTD_compressionParameters[4][]
{
new ZSTD_compressionParameters[23]
{
new ZSTD_compressionParameters(
windowLog: 19,
chainLog: 12,
hashLog: 13,
searchLog: 1,
minMatch: 6,
targetLength: 1,
strategy: ZSTD_strategy.ZSTD_fast
),
new ZSTD_compressionParameters(
windowLog: 19,
chainLog: 13,
hashLog: 14,
searchLog: 1,
minMatch: 7,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_fast
),
new ZSTD_compressionParameters(
windowLog: 20,
chainLog: 15,
hashLog: 16,
searchLog: 1,
minMatch: 6,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_fast
),
new ZSTD_compressionParameters(
windowLog: 21,
chainLog: 16,
hashLog: 17,
searchLog: 1,
minMatch: 5,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_dfast
),
new ZSTD_compressionParameters(
windowLog: 21,
chainLog: 18,
hashLog: 18,
searchLog: 1,
minMatch: 5,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_dfast
),
new ZSTD_compressionParameters(
windowLog: 21,
chainLog: 18,
hashLog: 19,
searchLog: 3,
minMatch: 5,
targetLength: 2,
strategy: ZSTD_strategy.ZSTD_greedy
),
new ZSTD_compressionParameters(
windowLog: 21,
chainLog: 18,
hashLog: 19,
searchLog: 3,
minMatch: 5,
targetLength: 4,
strategy: ZSTD_strategy.ZSTD_lazy
),
new ZSTD_compressionParameters(
windowLog: 21,
chainLog: 19,
hashLog: 20,
searchLog: 4,
minMatch: 5,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_lazy
),
new ZSTD_compressionParameters(
windowLog: 21,
chainLog: 19,
hashLog: 20,
searchLog: 4,
minMatch: 5,
targetLength: 16,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 22,
chainLog: 20,
hashLog: 21,
searchLog: 4,
minMatch: 5,
targetLength: 16,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 22,
chainLog: 21,
hashLog: 22,
searchLog: 5,
minMatch: 5,
targetLength: 16,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 22,
chainLog: 21,
hashLog: 22,
searchLog: 6,
minMatch: 5,
targetLength: 16,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 22,
chainLog: 22,
hashLog: 23,
searchLog: 6,
minMatch: 5,
targetLength: 32,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 22,
chainLog: 22,
hashLog: 22,
searchLog: 4,
minMatch: 5,
targetLength: 32,
strategy: ZSTD_strategy.ZSTD_btlazy2
),
new ZSTD_compressionParameters(
windowLog: 22,
chainLog: 22,
hashLog: 23,
searchLog: 5,
minMatch: 5,
targetLength: 32,
strategy: ZSTD_strategy.ZSTD_btlazy2
),
new ZSTD_compressionParameters(
windowLog: 22,
chainLog: 23,
hashLog: 23,
searchLog: 6,
minMatch: 5,
targetLength: 32,
strategy: ZSTD_strategy.ZSTD_btlazy2
),
new ZSTD_compressionParameters(
windowLog: 22,
chainLog: 22,
hashLog: 22,
searchLog: 5,
minMatch: 5,
targetLength: 48,
strategy: ZSTD_strategy.ZSTD_btopt
),
new ZSTD_compressionParameters(
windowLog: 23,
chainLog: 23,
hashLog: 22,
searchLog: 5,
minMatch: 4,
targetLength: 64,
strategy: ZSTD_strategy.ZSTD_btopt
),
new ZSTD_compressionParameters(
windowLog: 23,
chainLog: 23,
hashLog: 22,
searchLog: 6,
minMatch: 3,
targetLength: 64,
strategy: ZSTD_strategy.ZSTD_btultra
),
new ZSTD_compressionParameters(
windowLog: 23,
chainLog: 24,
hashLog: 22,
searchLog: 7,
minMatch: 3,
targetLength: 256,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 25,
chainLog: 25,
hashLog: 23,
searchLog: 7,
minMatch: 3,
targetLength: 256,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 26,
chainLog: 26,
hashLog: 24,
searchLog: 7,
minMatch: 3,
targetLength: 512,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 27,
chainLog: 27,
hashLog: 25,
searchLog: 9,
minMatch: 3,
targetLength: 999,
strategy: ZSTD_strategy.ZSTD_btultra2
),
},
new ZSTD_compressionParameters[23]
{
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 12,
hashLog: 13,
searchLog: 1,
minMatch: 5,
targetLength: 1,
strategy: ZSTD_strategy.ZSTD_fast
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 13,
hashLog: 14,
searchLog: 1,
minMatch: 6,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_fast
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 14,
hashLog: 14,
searchLog: 1,
minMatch: 5,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_dfast
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 16,
hashLog: 16,
searchLog: 1,
minMatch: 4,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_dfast
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 16,
hashLog: 17,
searchLog: 3,
minMatch: 5,
targetLength: 2,
strategy: ZSTD_strategy.ZSTD_greedy
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 17,
hashLog: 18,
searchLog: 5,
minMatch: 5,
targetLength: 2,
strategy: ZSTD_strategy.ZSTD_greedy
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 18,
hashLog: 19,
searchLog: 3,
minMatch: 5,
targetLength: 4,
strategy: ZSTD_strategy.ZSTD_lazy
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 18,
hashLog: 19,
searchLog: 4,
minMatch: 4,
targetLength: 4,
strategy: ZSTD_strategy.ZSTD_lazy
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 18,
hashLog: 19,
searchLog: 4,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 18,
hashLog: 19,
searchLog: 5,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 18,
hashLog: 19,
searchLog: 6,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 18,
hashLog: 19,
searchLog: 5,
minMatch: 4,
targetLength: 12,
strategy: ZSTD_strategy.ZSTD_btlazy2
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 19,
hashLog: 19,
searchLog: 7,
minMatch: 4,
targetLength: 12,
strategy: ZSTD_strategy.ZSTD_btlazy2
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 18,
hashLog: 19,
searchLog: 4,
minMatch: 4,
targetLength: 16,
strategy: ZSTD_strategy.ZSTD_btopt
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 18,
hashLog: 19,
searchLog: 4,
minMatch: 3,
targetLength: 32,
strategy: ZSTD_strategy.ZSTD_btopt
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 18,
hashLog: 19,
searchLog: 6,
minMatch: 3,
targetLength: 128,
strategy: ZSTD_strategy.ZSTD_btopt
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 19,
hashLog: 19,
searchLog: 6,
minMatch: 3,
targetLength: 128,
strategy: ZSTD_strategy.ZSTD_btultra
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 19,
hashLog: 19,
searchLog: 8,
minMatch: 3,
targetLength: 256,
strategy: ZSTD_strategy.ZSTD_btultra
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 19,
hashLog: 19,
searchLog: 6,
minMatch: 3,
targetLength: 128,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 19,
hashLog: 19,
searchLog: 8,
minMatch: 3,
targetLength: 256,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 19,
hashLog: 19,
searchLog: 10,
minMatch: 3,
targetLength: 512,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 19,
hashLog: 19,
searchLog: 12,
minMatch: 3,
targetLength: 512,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 18,
chainLog: 19,
hashLog: 19,
searchLog: 13,
minMatch: 3,
targetLength: 999,
strategy: ZSTD_strategy.ZSTD_btultra2
),
},
new ZSTD_compressionParameters[23]
{
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 12,
hashLog: 12,
searchLog: 1,
minMatch: 5,
targetLength: 1,
strategy: ZSTD_strategy.ZSTD_fast
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 12,
hashLog: 13,
searchLog: 1,
minMatch: 6,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_fast
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 13,
hashLog: 15,
searchLog: 1,
minMatch: 5,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_fast
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 15,
hashLog: 16,
searchLog: 2,
minMatch: 5,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_dfast
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 17,
hashLog: 17,
searchLog: 2,
minMatch: 4,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_dfast
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 16,
hashLog: 17,
searchLog: 3,
minMatch: 4,
targetLength: 2,
strategy: ZSTD_strategy.ZSTD_greedy
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 16,
hashLog: 17,
searchLog: 3,
minMatch: 4,
targetLength: 4,
strategy: ZSTD_strategy.ZSTD_lazy
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 16,
hashLog: 17,
searchLog: 3,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 16,
hashLog: 17,
searchLog: 4,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 16,
hashLog: 17,
searchLog: 5,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 16,
hashLog: 17,
searchLog: 6,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 17,
hashLog: 17,
searchLog: 5,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_btlazy2
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 18,
hashLog: 17,
searchLog: 7,
minMatch: 4,
targetLength: 12,
strategy: ZSTD_strategy.ZSTD_btlazy2
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 18,
hashLog: 17,
searchLog: 3,
minMatch: 4,
targetLength: 12,
strategy: ZSTD_strategy.ZSTD_btopt
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 18,
hashLog: 17,
searchLog: 4,
minMatch: 3,
targetLength: 32,
strategy: ZSTD_strategy.ZSTD_btopt
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 18,
hashLog: 17,
searchLog: 6,
minMatch: 3,
targetLength: 256,
strategy: ZSTD_strategy.ZSTD_btopt
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 18,
hashLog: 17,
searchLog: 6,
minMatch: 3,
targetLength: 128,
strategy: ZSTD_strategy.ZSTD_btultra
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 18,
hashLog: 17,
searchLog: 8,
minMatch: 3,
targetLength: 256,
strategy: ZSTD_strategy.ZSTD_btultra
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 18,
hashLog: 17,
searchLog: 10,
minMatch: 3,
targetLength: 512,
strategy: ZSTD_strategy.ZSTD_btultra
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 18,
hashLog: 17,
searchLog: 5,
minMatch: 3,
targetLength: 256,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 18,
hashLog: 17,
searchLog: 7,
minMatch: 3,
targetLength: 512,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 18,
hashLog: 17,
searchLog: 9,
minMatch: 3,
targetLength: 512,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 17,
chainLog: 18,
hashLog: 17,
searchLog: 11,
minMatch: 3,
targetLength: 999,
strategy: ZSTD_strategy.ZSTD_btultra2
),
},
new ZSTD_compressionParameters[23]
{
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 12,
hashLog: 13,
searchLog: 1,
minMatch: 5,
targetLength: 1,
strategy: ZSTD_strategy.ZSTD_fast
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 14,
hashLog: 15,
searchLog: 1,
minMatch: 5,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_fast
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 14,
hashLog: 15,
searchLog: 1,
minMatch: 4,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_fast
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 14,
hashLog: 15,
searchLog: 2,
minMatch: 4,
targetLength: 0,
strategy: ZSTD_strategy.ZSTD_dfast
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 14,
hashLog: 14,
searchLog: 4,
minMatch: 4,
targetLength: 2,
strategy: ZSTD_strategy.ZSTD_greedy
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 14,
hashLog: 14,
searchLog: 3,
minMatch: 4,
targetLength: 4,
strategy: ZSTD_strategy.ZSTD_lazy
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 14,
hashLog: 14,
searchLog: 4,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 14,
hashLog: 14,
searchLog: 6,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 14,
hashLog: 14,
searchLog: 8,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_lazy2
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 14,
searchLog: 5,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_btlazy2
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 14,
searchLog: 9,
minMatch: 4,
targetLength: 8,
strategy: ZSTD_strategy.ZSTD_btlazy2
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 14,
searchLog: 3,
minMatch: 4,
targetLength: 12,
strategy: ZSTD_strategy.ZSTD_btopt
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 14,
searchLog: 4,
minMatch: 3,
targetLength: 24,
strategy: ZSTD_strategy.ZSTD_btopt
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 14,
searchLog: 5,
minMatch: 3,
targetLength: 32,
strategy: ZSTD_strategy.ZSTD_btultra
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 15,
searchLog: 6,
minMatch: 3,
targetLength: 64,
strategy: ZSTD_strategy.ZSTD_btultra
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 15,
searchLog: 7,
minMatch: 3,
targetLength: 256,
strategy: ZSTD_strategy.ZSTD_btultra
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 15,
searchLog: 5,
minMatch: 3,
targetLength: 48,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 15,
searchLog: 6,
minMatch: 3,
targetLength: 128,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 15,
searchLog: 7,
minMatch: 3,
targetLength: 256,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 15,
searchLog: 8,
minMatch: 3,
targetLength: 256,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 15,
searchLog: 8,
minMatch: 3,
targetLength: 512,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 15,
searchLog: 9,
minMatch: 3,
targetLength: 512,
strategy: ZSTD_strategy.ZSTD_btultra2
),
new ZSTD_compressionParameters(
windowLog: 14,
chainLog: 15,
hashLog: 15,
searchLog: 10,
minMatch: 3,
targetLength: 999,
strategy: ZSTD_strategy.ZSTD_btultra2
),
},
};
}

61
src/SharpCompress/Compressors/ZStandard/Unsafe/Compiler.cs
View File

@@ -1,61 +0,0 @@
using System.Runtime.CompilerServices;
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public static unsafe partial class Methods
{
/* @return 1 if @u is a 2^n value, 0 otherwise
* useful to check a value is valid for alignment restrictions */
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static int ZSTD_isPower2(nuint u)
{
return (u & u - 1) == 0 ? 1 : 0;
}
/**
* Helper function to perform a wrapped pointer difference without triggering
* UBSAN.
*
* @returns lhs - rhs with wrapping
*/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nint ZSTD_wrappedPtrDiff(byte* lhs, byte* rhs)
{
return (nint)(lhs - rhs);
}
/**
* Helper function to perform a wrapped pointer add without triggering UBSAN.
*
* @return ptr + add with wrapping
*/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static byte* ZSTD_wrappedPtrAdd(byte* ptr, nint add)
{
return ptr + add;
}
/**
* Helper function to perform a wrapped pointer subtraction without triggering
* UBSAN.
*
* @return ptr - sub with wrapping
*/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static byte* ZSTD_wrappedPtrSub(byte* ptr, nint sub)
{
return ptr - sub;
}
/**
* Helper function to add to a pointer that works around C's undefined behavior
* of adding 0 to NULL.
*
* @returns `ptr + add` except it defines `NULL + 0 == NULL`.
*/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static byte* ZSTD_maybeNullPtrAdd(byte* ptr, nint add)
{
return add > 0 ? ptr + add : ptr;
}
}

444
src/SharpCompress/Compressors/ZStandard/Unsafe/Cover.cs
View File

@@ -1,444 +0,0 @@
using static SharpCompress.Compressors.ZStandard.UnsafeHelper;
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public static unsafe partial class Methods
{
private static int g_displayLevel = 0;
/**
* Returns the sum of the sample sizes.
*/
private static nuint COVER_sum(nuint* samplesSizes, uint nbSamples)
{
nuint sum = 0;
uint i;
for (i = 0; i < nbSamples; ++i)
{
sum += samplesSizes[i];
}
return sum;
}
/**
* Warns the user when their corpus is too small.
*/
private static void COVER_warnOnSmallCorpus(nuint maxDictSize, nuint nbDmers, int displayLevel)
{
double ratio = nbDmers / (double)maxDictSize;
if (ratio >= 10)
{
return;
}
}
/**
* Computes the number of epochs and the size of each epoch.
* We will make sure that each epoch gets at least 10 * k bytes.
*
* The COVER algorithms divide the data up into epochs of equal size and
* select one segment from each epoch.
*
* @param maxDictSize The maximum allowed dictionary size.
* @param nbDmers The number of dmers we are training on.
* @param k The parameter k (segment size).
* @param passes The target number of passes over the dmer corpus.
* More passes means a better dictionary.
*/
private static COVER_epoch_info_t COVER_computeEpochs(
uint maxDictSize,
uint nbDmers,
uint k,
uint passes
)
{
uint minEpochSize = k * 10;
COVER_epoch_info_t epochs;
epochs.num = 1 > maxDictSize / k / passes ? 1 : maxDictSize / k / passes;
epochs.size = nbDmers / epochs.num;
if (epochs.size >= minEpochSize)
{
assert(epochs.size * epochs.num <= nbDmers);
return epochs;
}
epochs.size = minEpochSize < nbDmers ? minEpochSize : nbDmers;
epochs.num = nbDmers / epochs.size;
assert(epochs.size * epochs.num <= nbDmers);
return epochs;
}
/**
* Checks total compressed size of a dictionary
*/
private static nuint COVER_checkTotalCompressedSize(
ZDICT_cover_params_t parameters,
nuint* samplesSizes,
byte* samples,
nuint* offsets,
nuint nbTrainSamples,
nuint nbSamples,
byte* dict,
nuint dictBufferCapacity
)
{
nuint totalCompressedSize = unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_GENERIC));
/* Pointers */
ZSTD_CCtx_s* cctx;
ZSTD_CDict_s* cdict;
void* dst;
/* Local variables */
nuint dstCapacity;
nuint i;
{
nuint maxSampleSize = 0;
i = parameters.splitPoint < 1 ? nbTrainSamples : 0;
for (; i < nbSamples; ++i)
{
maxSampleSize = samplesSizes[i] > maxSampleSize ? samplesSizes[i] : maxSampleSize;
}
dstCapacity = ZSTD_compressBound(maxSampleSize);
dst = malloc(dstCapacity);
}
cctx = ZSTD_createCCtx();
cdict = ZSTD_createCDict(dict, dictBufferCapacity, parameters.zParams.compressionLevel);
if (dst == null || cctx == null || cdict == null)
{
goto _compressCleanup;
}
totalCompressedSize = dictBufferCapacity;
i = parameters.splitPoint < 1 ? nbTrainSamples : 0;
for (; i < nbSamples; ++i)
{
nuint size = ZSTD_compress_usingCDict(
cctx,
dst,
dstCapacity,
samples + offsets[i],
samplesSizes[i],
cdict
);
if (ERR_isError(size))
{
totalCompressedSize = size;
goto _compressCleanup;
}
totalCompressedSize += size;
}
_compressCleanup:
ZSTD_freeCCtx(cctx);
ZSTD_freeCDict(cdict);
if (dst != null)
{
free(dst);
}
return totalCompressedSize;
}
/**
* Initialize the `COVER_best_t`.
*/
private static void COVER_best_init(COVER_best_s* best)
{
if (best == null)
return;
SynchronizationWrapper.Init(&best->mutex);
best->liveJobs = 0;
best->dict = null;
best->dictSize = 0;
best->compressedSize = unchecked((nuint)(-1));
best->parameters = new ZDICT_cover_params_t();
}
/**
* Wait until liveJobs == 0.
*/
private static void COVER_best_wait(COVER_best_s* best)
{
if (best == null)
{
return;
}
SynchronizationWrapper.Enter(&best->mutex);
while (best->liveJobs != 0)
{
SynchronizationWrapper.Wait(&best->mutex);
}
SynchronizationWrapper.Exit(&best->mutex);
}
/**
* Call COVER_best_wait() and then destroy the COVER_best_t.
*/
private static void COVER_best_destroy(COVER_best_s* best)
{
if (best == null)
{
return;
}
COVER_best_wait(best);
if (best->dict != null)
{
free(best->dict);
}
SynchronizationWrapper.Free(&best->mutex);
}
/**
* Called when a thread is about to be launched.
* Increments liveJobs.
*/
private static void COVER_best_start(COVER_best_s* best)
{
if (best == null)
{
return;
}
SynchronizationWrapper.Enter(&best->mutex);
++best->liveJobs;
SynchronizationWrapper.Exit(&best->mutex);
}
/**
* Called when a thread finishes executing, both on error or success.
* Decrements liveJobs and signals any waiting threads if liveJobs == 0.
* If this dictionary is the best so far save it and its parameters.
*/
private static void COVER_best_finish(
COVER_best_s* best,
ZDICT_cover_params_t parameters,
COVER_dictSelection selection
)
{
void* dict = selection.dictContent;
nuint compressedSize = selection.totalCompressedSize;
nuint dictSize = selection.dictSize;
if (best == null)
{
return;
}
{
nuint liveJobs;
SynchronizationWrapper.Enter(&best->mutex);
--best->liveJobs;
liveJobs = best->liveJobs;
if (compressedSize < best->compressedSize)
{
if (best->dict == null || best->dictSize < dictSize)
{
if (best->dict != null)
{
free(best->dict);
}
best->dict = malloc(dictSize);
if (best->dict == null)
{
best->compressedSize = unchecked(
(nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_GENERIC)
);
best->dictSize = 0;
SynchronizationWrapper.Pulse(&best->mutex);
SynchronizationWrapper.Exit(&best->mutex);
return;
}
}
if (dict != null)
{
memcpy(best->dict, dict, (uint)dictSize);
best->dictSize = dictSize;
best->parameters = parameters;
best->compressedSize = compressedSize;
}
}
if (liveJobs == 0)
{
SynchronizationWrapper.PulseAll(&best->mutex);
}
SynchronizationWrapper.Exit(&best->mutex);
}
}
private static COVER_dictSelection setDictSelection(byte* buf, nuint s, nuint csz)
{
COVER_dictSelection ds;
ds.dictContent = buf;
ds.dictSize = s;
ds.totalCompressedSize = csz;
return ds;
}
/**
* Error function for COVER_selectDict function. Returns a struct where
* return.totalCompressedSize is a ZSTD error.
*/
private static COVER_dictSelection COVER_dictSelectionError(nuint error)
{
return setDictSelection(null, 0, error);
}
/**
* Error function for COVER_selectDict function. Checks if the return
* value is an error.
*/
private static uint COVER_dictSelectionIsError(COVER_dictSelection selection)
{
return ERR_isError(selection.totalCompressedSize) || selection.dictContent == null
? 1U
: 0U;
}
/**
* Always call after selectDict is called to free up used memory from
* newly created dictionary.
*/
private static void COVER_dictSelectionFree(COVER_dictSelection selection)
{
free(selection.dictContent);
}
/**
* Called to finalize the dictionary and select one based on whether or not
* the shrink-dict flag was enabled. If enabled the dictionary used is the
* smallest dictionary within a specified regression of the compressed size
* from the largest dictionary.
*/
private static COVER_dictSelection COVER_selectDict(
byte* customDictContent,
nuint dictBufferCapacity,
nuint dictContentSize,
byte* samplesBuffer,
nuint* samplesSizes,
uint nbFinalizeSamples,
nuint nbCheckSamples,
nuint nbSamples,
ZDICT_cover_params_t @params,
nuint* offsets,
nuint totalCompressedSize
)
{
nuint largestDict = 0;
nuint largestCompressed = 0;
byte* customDictContentEnd = customDictContent + dictContentSize;
byte* largestDictbuffer = (byte*)malloc(dictBufferCapacity);
byte* candidateDictBuffer = (byte*)malloc(dictBufferCapacity);
double regressionTolerance = (double)@params.shrinkDictMaxRegression / 100 + 1;
if (largestDictbuffer == null || candidateDictBuffer == null)
{
free(largestDictbuffer);
free(candidateDictBuffer);
return COVER_dictSelectionError(dictContentSize);
}
memcpy(largestDictbuffer, customDictContent, (uint)dictContentSize);
dictContentSize = ZDICT_finalizeDictionary(
largestDictbuffer,
dictBufferCapacity,
customDictContent,
dictContentSize,
samplesBuffer,
samplesSizes,
nbFinalizeSamples,
@params.zParams
);
if (ZDICT_isError(dictContentSize))
{
free(largestDictbuffer);
free(candidateDictBuffer);
return COVER_dictSelectionError(dictContentSize);
}
totalCompressedSize = COVER_checkTotalCompressedSize(
@params,
samplesSizes,
samplesBuffer,
offsets,
nbCheckSamples,
nbSamples,
largestDictbuffer,
dictContentSize
);
if (ERR_isError(totalCompressedSize))
{
free(largestDictbuffer);
free(candidateDictBuffer);
return COVER_dictSelectionError(totalCompressedSize);
}
if (@params.shrinkDict == 0)
{
free(candidateDictBuffer);
return setDictSelection(largestDictbuffer, dictContentSize, totalCompressedSize);
}
largestDict = dictContentSize;
largestCompressed = totalCompressedSize;
dictContentSize = 256;
while (dictContentSize < largestDict)
{
memcpy(candidateDictBuffer, largestDictbuffer, (uint)largestDict);
dictContentSize = ZDICT_finalizeDictionary(
candidateDictBuffer,
dictBufferCapacity,
customDictContentEnd - dictContentSize,
dictContentSize,
samplesBuffer,
samplesSizes,
nbFinalizeSamples,
@params.zParams
);
if (ZDICT_isError(dictContentSize))
{
free(largestDictbuffer);
free(candidateDictBuffer);
return COVER_dictSelectionError(dictContentSize);
}
totalCompressedSize = COVER_checkTotalCompressedSize(
@params,
samplesSizes,
samplesBuffer,
offsets,
nbCheckSamples,
nbSamples,
candidateDictBuffer,
dictContentSize
);
if (ERR_isError(totalCompressedSize))
{
free(largestDictbuffer);
free(candidateDictBuffer);
return COVER_dictSelectionError(totalCompressedSize);
}
if (totalCompressedSize <= largestCompressed * regressionTolerance)
{
free(largestDictbuffer);
return setDictSelection(candidateDictBuffer, dictContentSize, totalCompressedSize);
}
dictContentSize *= 2;
}
dictContentSize = largestDict;
totalCompressedSize = largestCompressed;
free(candidateDictBuffer);
return setDictSelection(largestDictbuffer, dictContentSize, totalCompressedSize);
}
}

12
src/SharpCompress/Compressors/ZStandard/Unsafe/DTableDesc.cs
View File

@@ -1,12 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/*-***************************/
/* generic DTableDesc */
/*-***************************/
public struct DTableDesc
{
public byte maxTableLog;
public byte tableType;
public byte tableLog;
public byte reserved;
}

13
src/SharpCompress/Compressors/ZStandard/Unsafe/EStats_ress_t.cs
View File

@@ -1,13 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public unsafe struct EStats_ress_t
{
/* dictionary */
public ZSTD_CDict_s* dict;
/* working context */
public ZSTD_CCtx_s* zc;
/* must be ZSTD_BLOCKSIZE_MAX allocated */
public void* workPlace;
}

447
src/SharpCompress/Compressors/ZStandard/Unsafe/EntropyCommon.cs
View File

@@ -1,447 +0,0 @@
using System.Runtime.CompilerServices;
using static SharpCompress.Compressors.ZStandard.UnsafeHelper;
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public static unsafe partial class Methods
{
/*=== Version ===*/
private static uint FSE_versionNumber()
{
return 0 * 100 * 100 + 9 * 100 + 0;
}
/*=== Error Management ===*/
private static bool FSE_isError(nuint code)
{
return ERR_isError(code);
}
private static string FSE_getErrorName(nuint code)
{
return ERR_getErrorName(code);
}
/* Error Management */
private static bool HUF_isError(nuint code)
{
return ERR_isError(code);
}
private static string HUF_getErrorName(nuint code)
{
return ERR_getErrorName(code);
}
/*-**************************************************************
* FSE NCount encoding-decoding
****************************************************************/
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint FSE_readNCount_body(
short* normalizedCounter,
uint* maxSVPtr,
uint* tableLogPtr,
void* headerBuffer,
nuint hbSize
)
{
byte* istart = (byte*)headerBuffer;
byte* iend = istart + hbSize;
byte* ip = istart;
int nbBits;
int remaining;
int threshold;
uint bitStream;
int bitCount;
uint charnum = 0;
uint maxSV1 = *maxSVPtr + 1;
int previous0 = 0;
if (hbSize < 8)
{
sbyte* buffer = stackalloc sbyte[8];
/* This function only works when hbSize >= 8 */
memset(buffer, 0, sizeof(sbyte) * 8);
memcpy(buffer, headerBuffer, (uint)hbSize);
{
nuint countSize = FSE_readNCount(
normalizedCounter,
maxSVPtr,
tableLogPtr,
buffer,
sizeof(sbyte) * 8
);
if (FSE_isError(countSize))
return countSize;
if (countSize > hbSize)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_corruption_detected));
return countSize;
}
}
assert(hbSize >= 8);
memset(normalizedCounter, 0, (*maxSVPtr + 1) * sizeof(short));
bitStream = MEM_readLE32(ip);
nbBits = (int)((bitStream & 0xF) + 5);
if (nbBits > 15)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_tableLog_tooLarge));
bitStream >>= 4;
bitCount = 4;
*tableLogPtr = (uint)nbBits;
remaining = (1 << nbBits) + 1;
threshold = 1 << nbBits;
nbBits++;
for (; ; )
{
if (previous0 != 0)
{
/* Count the number of repeats. Each time the
* 2-bit repeat code is 0b11 there is another
* repeat.
* Avoid UB by setting the high bit to 1.
*/
int repeats = (int)(ZSTD_countTrailingZeros32(~bitStream | 0x80000000) >> 1);
while (repeats >= 12)
{
charnum += 3 * 12;
if (ip <= iend - 7)
{
ip += 3;
}
else
{
bitCount -= (int)(8 * (iend - 7 - ip));
bitCount &= 31;
ip = iend - 4;
}
bitStream = MEM_readLE32(ip) >> bitCount;
repeats = (int)(ZSTD_countTrailingZeros32(~bitStream | 0x80000000) >> 1);
}
charnum += (uint)(3 * repeats);
bitStream >>= 2 * repeats;
bitCount += 2 * repeats;
assert((bitStream & 3) < 3);
charnum += bitStream & 3;
bitCount += 2;
if (charnum >= maxSV1)
break;
if (ip <= iend - 7 || ip + (bitCount >> 3) <= iend - 4)
{
assert(bitCount >> 3 <= 3);
ip += bitCount >> 3;
bitCount &= 7;
}
else
{
bitCount -= (int)(8 * (iend - 4 - ip));
bitCount &= 31;
ip = iend - 4;
}
bitStream = MEM_readLE32(ip) >> bitCount;
}
{
int max = 2 * threshold - 1 - remaining;
int count;
if ((bitStream & (uint)(threshold - 1)) < (uint)max)
{
count = (int)(bitStream & (uint)(threshold - 1));
bitCount += nbBits - 1;
}
else
{
count = (int)(bitStream & (uint)(2 * threshold - 1));
if (count >= threshold)
count -= max;
bitCount += nbBits;
}
count--;
if (count >= 0)
{
remaining -= count;
}
else
{
assert(count == -1);
remaining += count;
}
normalizedCounter[charnum++] = (short)count;
previous0 = count == 0 ? 1 : 0;
assert(threshold > 1);
if (remaining < threshold)
{
if (remaining <= 1)
break;
nbBits = (int)(ZSTD_highbit32((uint)remaining) + 1);
threshold = 1 << nbBits - 1;
}
if (charnum >= maxSV1)
break;
if (ip <= iend - 7 || ip + (bitCount >> 3) <= iend - 4)
{
ip += bitCount >> 3;
bitCount &= 7;
}
else
{
bitCount -= (int)(8 * (iend - 4 - ip));
bitCount &= 31;
ip = iend - 4;
}
bitStream = MEM_readLE32(ip) >> bitCount;
}
}
if (remaining != 1)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_corruption_detected));
if (charnum > maxSV1)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_maxSymbolValue_tooSmall));
if (bitCount > 32)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_corruption_detected));
*maxSVPtr = charnum - 1;
ip += bitCount + 7 >> 3;
return (nuint)(ip - istart);
}
/* Avoids the FORCE_INLINE of the _body() function. */
private static nuint FSE_readNCount_body_default(
short* normalizedCounter,
uint* maxSVPtr,
uint* tableLogPtr,
void* headerBuffer,
nuint hbSize
)
{
return FSE_readNCount_body(normalizedCounter, maxSVPtr, tableLogPtr, headerBuffer, hbSize);
}
/*! FSE_readNCount_bmi2():
* Same as FSE_readNCount() but pass bmi2=1 when your CPU supports BMI2 and 0 otherwise.
*/
private static nuint FSE_readNCount_bmi2(
short* normalizedCounter,
uint* maxSVPtr,
uint* tableLogPtr,
void* headerBuffer,
nuint hbSize,
int bmi2
)
{
return FSE_readNCount_body_default(
normalizedCounter,
maxSVPtr,
tableLogPtr,
headerBuffer,
hbSize
);
}
/*! FSE_readNCount():
Read compactly saved 'normalizedCounter' from 'rBuffer'.
@return : size read from 'rBuffer',
or an errorCode, which can be tested using FSE_isError().
maxSymbolValuePtr[0] and tableLogPtr[0] will also be updated with their respective values */
private static nuint FSE_readNCount(
short* normalizedCounter,
uint* maxSVPtr,
uint* tableLogPtr,
void* headerBuffer,
nuint hbSize
)
{
return FSE_readNCount_bmi2(
normalizedCounter,
maxSVPtr,
tableLogPtr,
headerBuffer,
hbSize,
0
);
}
/*! HUF_readStats() :
Read compact Huffman tree, saved by HUF_writeCTable().
`huffWeight` is destination buffer.
`rankStats` is assumed to be a table of at least HUF_TABLELOG_MAX U32.
@return : size read from `src` , or an error Code .
Note : Needed by HUF_readCTable() and HUF_readDTableX?() .
*/
private static nuint HUF_readStats(
byte* huffWeight,
nuint hwSize,
uint* rankStats,
uint* nbSymbolsPtr,
uint* tableLogPtr,
void* src,
nuint srcSize
)
{
uint* wksp = stackalloc uint[219];
return HUF_readStats_wksp(
huffWeight,
hwSize,
rankStats,
nbSymbolsPtr,
tableLogPtr,
src,
srcSize,
wksp,
sizeof(uint) * 219,
0
);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static nuint HUF_readStats_body(
byte* huffWeight,
nuint hwSize,
uint* rankStats,
uint* nbSymbolsPtr,
uint* tableLogPtr,
void* src,
nuint srcSize,
void* workSpace,
nuint wkspSize,
int bmi2
)
{
uint weightTotal;
byte* ip = (byte*)src;
nuint iSize;
nuint oSize;
if (srcSize == 0)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_srcSize_wrong));
iSize = ip[0];
if (iSize >= 128)
{
oSize = iSize - 127;
iSize = (oSize + 1) / 2;
if (iSize + 1 > srcSize)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_srcSize_wrong));
if (oSize >= hwSize)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_corruption_detected));
ip += 1;
{
uint n;
for (n = 0; n < oSize; n += 2)
{
huffWeight[n] = (byte)(ip[n / 2] >> 4);
huffWeight[n + 1] = (byte)(ip[n / 2] & 15);
}
}
}
else
{
if (iSize + 1 > srcSize)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_srcSize_wrong));
oSize = FSE_decompress_wksp_bmi2(
huffWeight,
hwSize - 1,
ip + 1,
iSize,
6,
workSpace,
wkspSize,
bmi2
);
if (FSE_isError(oSize))
return oSize;
}
memset(rankStats, 0, (12 + 1) * sizeof(uint));
weightTotal = 0;
{
uint n;
for (n = 0; n < oSize; n++)
{
if (huffWeight[n] > 12)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_corruption_detected));
rankStats[huffWeight[n]]++;
weightTotal += (uint)(1 << huffWeight[n] >> 1);
}
}
if (weightTotal == 0)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_corruption_detected));
{
uint tableLog = ZSTD_highbit32(weightTotal) + 1;
if (tableLog > 12)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_corruption_detected));
*tableLogPtr = tableLog;
{
uint total = (uint)(1 << (int)tableLog);
uint rest = total - weightTotal;
uint verif = (uint)(1 << (int)ZSTD_highbit32(rest));
uint lastWeight = ZSTD_highbit32(rest) + 1;
if (verif != rest)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_corruption_detected));
huffWeight[oSize] = (byte)lastWeight;
rankStats[lastWeight]++;
}
}
if (rankStats[1] < 2 || (rankStats[1] & 1) != 0)
return unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_corruption_detected));
*nbSymbolsPtr = (uint)(oSize + 1);
return iSize + 1;
}
/* Avoids the FORCE_INLINE of the _body() function. */
private static nuint HUF_readStats_body_default(
byte* huffWeight,
nuint hwSize,
uint* rankStats,
uint* nbSymbolsPtr,
uint* tableLogPtr,
void* src,
nuint srcSize,
void* workSpace,
nuint wkspSize
)
{
return HUF_readStats_body(
huffWeight,
hwSize,
rankStats,
nbSymbolsPtr,
tableLogPtr,
src,
srcSize,
workSpace,
wkspSize,
0
);
}
private static nuint HUF_readStats_wksp(
byte* huffWeight,
nuint hwSize,
uint* rankStats,
uint* nbSymbolsPtr,
uint* tableLogPtr,
void* src,
nuint srcSize,
void* workSpace,
nuint wkspSize,
int flags
)
{
return HUF_readStats_body_default(
huffWeight,
hwSize,
rankStats,
nbSymbolsPtr,
tableLogPtr,
src,
srcSize,
workSpace,
wkspSize
);
}
}

110
src/SharpCompress/Compressors/ZStandard/Unsafe/ErrorPrivate.cs
View File

@@ -1,110 +0,0 @@
using System.Runtime.CompilerServices;
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public static unsafe partial class Methods
{
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static bool ERR_isError(nuint code)
{
return code > unchecked((nuint)(-(int)ZSTD_ErrorCode.ZSTD_error_maxCode));
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static ZSTD_ErrorCode ERR_getErrorCode(nuint code)
{
if (!ERR_isError(code))
return 0;
return (ZSTD_ErrorCode)(0 - code);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private static string ERR_getErrorName(nuint code)
{
return ERR_getErrorString(ERR_getErrorCode(code));
}
/*-****************************************
* Error Strings
******************************************/
private static string ERR_getErrorString(ZSTD_ErrorCode code)
{
const string notErrorCode = "Unspecified error code";
switch (code)
{
case ZSTD_ErrorCode.ZSTD_error_no_error:
return "No error detected";
case ZSTD_ErrorCode.ZSTD_error_GENERIC:
return "Error (generic)";
case ZSTD_ErrorCode.ZSTD_error_prefix_unknown:
return "Unknown frame descriptor";
case ZSTD_ErrorCode.ZSTD_error_version_unsupported:
return "Version not supported";
case ZSTD_ErrorCode.ZSTD_error_frameParameter_unsupported:
return "Unsupported frame parameter";
case ZSTD_ErrorCode.ZSTD_error_frameParameter_windowTooLarge:
return "Frame requires too much memory for decoding";
case ZSTD_ErrorCode.ZSTD_error_corruption_detected:
return "Data corruption detected";
case ZSTD_ErrorCode.ZSTD_error_checksum_wrong:
return "Restored data doesn't match checksum";
case ZSTD_ErrorCode.ZSTD_error_literals_headerWrong:
return "Header of Literals' block doesn't respect format specification";
case ZSTD_ErrorCode.ZSTD_error_parameter_unsupported:
return "Unsupported parameter";
case ZSTD_ErrorCode.ZSTD_error_parameter_combination_unsupported:
return "Unsupported combination of parameters";
case ZSTD_ErrorCode.ZSTD_error_parameter_outOfBound:
return "Parameter is out of bound";
case ZSTD_ErrorCode.ZSTD_error_init_missing:
return "Context should be init first";
case ZSTD_ErrorCode.ZSTD_error_memory_allocation:
return "Allocation error : not enough memory";
case ZSTD_ErrorCode.ZSTD_error_workSpace_tooSmall:
return "workSpace buffer is not large enough";
case ZSTD_ErrorCode.ZSTD_error_stage_wrong:
return "Operation not authorized at current processing stage";
case ZSTD_ErrorCode.ZSTD_error_tableLog_tooLarge:
return "tableLog requires too much memory : unsupported";
case ZSTD_ErrorCode.ZSTD_error_maxSymbolValue_tooLarge:
return "Unsupported max Symbol Value : too large";
case ZSTD_ErrorCode.ZSTD_error_maxSymbolValue_tooSmall:
return "Specified maxSymbolValue is too small";
case ZSTD_ErrorCode.ZSTD_error_cannotProduce_uncompressedBlock:
return "This mode cannot generate an uncompressed block";
case ZSTD_ErrorCode.ZSTD_error_stabilityCondition_notRespected:
return "pledged buffer stability condition is not respected";
case ZSTD_ErrorCode.ZSTD_error_dictionary_corrupted:
return "Dictionary is corrupted";
case ZSTD_ErrorCode.ZSTD_error_dictionary_wrong:
return "Dictionary mismatch";
case ZSTD_ErrorCode.ZSTD_error_dictionaryCreation_failed:
return "Cannot create Dictionary from provided samples";
case ZSTD_ErrorCode.ZSTD_error_dstSize_tooSmall:
return "Destination buffer is too small";
case ZSTD_ErrorCode.ZSTD_error_srcSize_wrong:
return "Src size is incorrect";
case ZSTD_ErrorCode.ZSTD_error_dstBuffer_null:
return "Operation on NULL destination buffer";
case ZSTD_ErrorCode.ZSTD_error_noForwardProgress_destFull:
return "Operation made no progress over multiple calls, due to output buffer being full";
case ZSTD_ErrorCode.ZSTD_error_noForwardProgress_inputEmpty:
return "Operation made no progress over multiple calls, due to input being empty";
case ZSTD_ErrorCode.ZSTD_error_frameIndex_tooLarge:
return "Frame index is too large";
case ZSTD_ErrorCode.ZSTD_error_seekableIO:
return "An I/O error occurred when reading/seeking";
case ZSTD_ErrorCode.ZSTD_error_dstBuffer_wrong:
return "Destination buffer is wrong";
case ZSTD_ErrorCode.ZSTD_error_srcBuffer_wrong:
return "Source buffer is wrong";
case ZSTD_ErrorCode.ZSTD_error_sequenceProducer_failed:
return "Block-level external sequence producer returned an error code";
case ZSTD_ErrorCode.ZSTD_error_externalSequences_invalid:
return "External sequences are not valid";
case ZSTD_ErrorCode.ZSTD_error_maxCode:
default:
return notErrorCode;
}
}
}

7
src/SharpCompress/Compressors/ZStandard/Unsafe/EstimatedBlockSize.cs
View File

@@ -1,7 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public struct EstimatedBlockSize
{
public nuint estLitSize;
public nuint estBlockSize;
}

19
src/SharpCompress/Compressors/ZStandard/Unsafe/FASTCOVER_accel_t.cs
View File

@@ -1,19 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/*-*************************************
* Acceleration
***************************************/
public struct FASTCOVER_accel_t
{
/* Percentage of training samples used for ZDICT_finalizeDictionary */
public uint finalize;
/* Number of dmer skipped between each dmer counted in computeFrequency */
public uint skip;
public FASTCOVER_accel_t(uint finalize, uint skip)
{
this.finalize = finalize;
this.skip = skip;
}
}

19
src/SharpCompress/Compressors/ZStandard/Unsafe/FASTCOVER_ctx_t.cs
View File

@@ -1,19 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/*-*************************************
* Context
***************************************/
public unsafe struct FASTCOVER_ctx_t
{
public byte* samples;
public nuint* offsets;
public nuint* samplesSizes;
public nuint nbSamples;
public nuint nbTrainSamples;
public nuint nbTestSamples;
public nuint nbDmers;
public uint* freqs;
public uint d;
public uint f;
public FASTCOVER_accel_t accelParams;
}

12
src/SharpCompress/Compressors/ZStandard/Unsafe/FASTCOVER_tryParameters_data_s.cs
View File

@@ -1,12 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/**
* Parameters for FASTCOVER_tryParameters().
*/
public unsafe struct FASTCOVER_tryParameters_data_s
{
public FASTCOVER_ctx_t* ctx;
public COVER_best_s* best;
public nuint dictBufferCapacity;
public ZDICT_cover_params_t parameters;
}

7
src/SharpCompress/Compressors/ZStandard/Unsafe/FPStats.cs
View File

@@ -1,7 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
public struct FPStats
{
public Fingerprint pastEvents;
public Fingerprint newEvents;
}

16
src/SharpCompress/Compressors/ZStandard/Unsafe/FSE_CState_t.cs
View File

@@ -1,16 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/* *****************************************
* FSE symbol compression API
*******************************************/
/*!
This API consists of small unitary functions, which highly benefit from being inlined.
Hence their body are included in next section.
*/
public unsafe struct FSE_CState_t
{
public nint value;
public void* stateTable;
public void* symbolTT;
public uint stateLog;
}

12
src/SharpCompress/Compressors/ZStandard/Unsafe/FSE_DState_t.cs
View File

@@ -1,12 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/* *****************************************
* FSE symbol decompression API
*******************************************/
public unsafe struct FSE_DState_t
{
public nuint state;
/* precise table may vary, depending on U16 */
public void* table;
}

8
src/SharpCompress/Compressors/ZStandard/Unsafe/FSE_DTableHeader.cs
View File

@@ -1,8 +0,0 @@
namespace SharpCompress.Compressors.ZStandard.Unsafe;
/* ====== Decompression ====== */
public struct FSE_DTableHeader
{
public ushort tableLog;
public ushort fastMode;
}

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