8d9b62daf3
This commit implements Phase 2 of the CHORUS Task Execution Engine development plan, providing a comprehensive execution environment abstraction layer with Docker container sandboxing support. ## New Features ### Core Sandbox Interface - Comprehensive ExecutionSandbox interface with isolated task execution - Support for command execution, file I/O, environment management - Resource usage monitoring and sandbox lifecycle management - Standardized error handling with SandboxError types and categories ### Docker Container Sandbox Implementation - Full Docker API integration with secure container creation - Transparent repository mounting with configurable read/write access - Advanced security policies with capability dropping and privilege controls - Comprehensive resource limits (CPU, memory, disk, processes, file handles) - Support for tmpfs mounts, masked paths, and read-only bind mounts - Container lifecycle management with proper cleanup and health monitoring ### Security & Resource Management - Configurable security policies with SELinux, AppArmor, and Seccomp support - Fine-grained capability management with secure defaults - Network isolation options with configurable DNS and proxy settings - Resource monitoring with real-time CPU, memory, and network usage tracking - Comprehensive ulimits configuration for process and file handle limits ### Repository Integration - Seamless repository mounting from local paths to container workspaces - Git configuration support with user credentials and global settings - File inclusion/exclusion patterns for selective repository access - Configurable permissions and ownership for mounted repositories ### Testing Infrastructure - Comprehensive test suite with 60+ test cases covering all functionality - Docker integration tests with Alpine Linux containers (skipped in short mode) - Mock sandbox implementation for unit testing without Docker dependencies - Security policy validation tests with read-only filesystem enforcement - Resource usage monitoring and cleanup verification tests ## Technical Details ### Dependencies Added - github.com/docker/docker v28.4.0+incompatible - Docker API client - github.com/docker/go-connections v0.6.0 - Docker connection utilities - github.com/docker/go-units v0.5.0 - Docker units and formatting - Associated Docker API dependencies for complete container management ### Architecture - Interface-driven design enabling multiple sandbox implementations - Comprehensive configuration structures for all sandbox aspects - Resource usage tracking with detailed metrics collection - Error handling with retryable error classification - Proper cleanup and resource management throughout sandbox lifecycle ### Compatibility - Maintains backward compatibility with existing CHORUS architecture - Designed for future integration with Phase 3 Core Task Execution Engine - Extensible design supporting additional sandbox implementations (VM, process) This Phase 2 implementation provides the foundation for secure, isolated task execution that will be integrated with the AI model providers from Phase 1 in the upcoming Phase 3 development. 🤖 Generated with [Claude Code](https://claude.ai/code) Co-Authored-By: Claude <noreply@anthropic.com>
169 lines
5.5 KiB
Go
169 lines
5.5 KiB
Go
// Copyright The OpenTelemetry Authors
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// SPDX-License-Identifier: Apache-2.0
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package propagation // import "go.opentelemetry.io/otel/propagation"
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import (
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"context"
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"net/http"
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)
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// TextMapCarrier is the storage medium used by a TextMapPropagator.
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// See ValuesGetter for how a TextMapCarrier can get multiple values for a key.
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type TextMapCarrier interface {
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// DO NOT CHANGE: any modification will not be backwards compatible and
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// must never be done outside of a new major release.
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// Get returns the value associated with the passed key.
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Get(key string) string
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// DO NOT CHANGE: any modification will not be backwards compatible and
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// must never be done outside of a new major release.
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// Set stores the key-value pair.
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Set(key, value string)
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// DO NOT CHANGE: any modification will not be backwards compatible and
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// must never be done outside of a new major release.
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// Keys lists the keys stored in this carrier.
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Keys() []string
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// DO NOT CHANGE: any modification will not be backwards compatible and
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// must never be done outside of a new major release.
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}
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// ValuesGetter can return multiple values for a single key,
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// with contrast to TextMapCarrier.Get which returns a single value.
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type ValuesGetter interface {
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// DO NOT CHANGE: any modification will not be backwards compatible and
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// must never be done outside of a new major release.
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// Values returns all values associated with the passed key.
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Values(key string) []string
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// DO NOT CHANGE: any modification will not be backwards compatible and
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// must never be done outside of a new major release.
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}
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// MapCarrier is a TextMapCarrier that uses a map held in memory as a storage
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// medium for propagated key-value pairs.
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type MapCarrier map[string]string
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// Compile time check that MapCarrier implements the TextMapCarrier.
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var _ TextMapCarrier = MapCarrier{}
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// Get returns the value associated with the passed key.
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func (c MapCarrier) Get(key string) string {
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return c[key]
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}
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// Set stores the key-value pair.
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func (c MapCarrier) Set(key, value string) {
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c[key] = value
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}
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// Keys lists the keys stored in this carrier.
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func (c MapCarrier) Keys() []string {
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keys := make([]string, 0, len(c))
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for k := range c {
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keys = append(keys, k)
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}
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return keys
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}
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// HeaderCarrier adapts http.Header to satisfy the TextMapCarrier and ValuesGetter interfaces.
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type HeaderCarrier http.Header
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// Compile time check that HeaderCarrier implements ValuesGetter.
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var _ TextMapCarrier = HeaderCarrier{}
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// Compile time check that HeaderCarrier implements TextMapCarrier.
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var _ ValuesGetter = HeaderCarrier{}
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// Get returns the first value associated with the passed key.
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func (hc HeaderCarrier) Get(key string) string {
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return http.Header(hc).Get(key)
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}
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// Values returns all values associated with the passed key.
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func (hc HeaderCarrier) Values(key string) []string {
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return http.Header(hc).Values(key)
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}
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// Set stores the key-value pair.
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func (hc HeaderCarrier) Set(key, value string) {
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http.Header(hc).Set(key, value)
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}
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// Keys lists the keys stored in this carrier.
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func (hc HeaderCarrier) Keys() []string {
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keys := make([]string, 0, len(hc))
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for k := range hc {
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keys = append(keys, k)
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}
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return keys
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}
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// TextMapPropagator propagates cross-cutting concerns as key-value text
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// pairs within a carrier that travels in-band across process boundaries.
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type TextMapPropagator interface {
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// DO NOT CHANGE: any modification will not be backwards compatible and
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// must never be done outside of a new major release.
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// Inject set cross-cutting concerns from the Context into the carrier.
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Inject(ctx context.Context, carrier TextMapCarrier)
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// DO NOT CHANGE: any modification will not be backwards compatible and
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// must never be done outside of a new major release.
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// Extract reads cross-cutting concerns from the carrier into a Context.
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// Implementations may check if the carrier implements ValuesGetter,
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// to support extraction of multiple values per key.
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Extract(ctx context.Context, carrier TextMapCarrier) context.Context
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// DO NOT CHANGE: any modification will not be backwards compatible and
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// must never be done outside of a new major release.
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// Fields returns the keys whose values are set with Inject.
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Fields() []string
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// DO NOT CHANGE: any modification will not be backwards compatible and
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// must never be done outside of a new major release.
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}
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type compositeTextMapPropagator []TextMapPropagator
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func (p compositeTextMapPropagator) Inject(ctx context.Context, carrier TextMapCarrier) {
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for _, i := range p {
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i.Inject(ctx, carrier)
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}
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}
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func (p compositeTextMapPropagator) Extract(ctx context.Context, carrier TextMapCarrier) context.Context {
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for _, i := range p {
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ctx = i.Extract(ctx, carrier)
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}
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return ctx
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}
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func (p compositeTextMapPropagator) Fields() []string {
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unique := make(map[string]struct{})
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for _, i := range p {
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for _, k := range i.Fields() {
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unique[k] = struct{}{}
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}
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}
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fields := make([]string, 0, len(unique))
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for k := range unique {
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fields = append(fields, k)
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}
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return fields
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}
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// NewCompositeTextMapPropagator returns a unified TextMapPropagator from the
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// group of passed TextMapPropagator. This allows different cross-cutting
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// concerns to be propagates in a unified manner.
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//
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// The returned TextMapPropagator will inject and extract cross-cutting
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// concerns in the order the TextMapPropagators were provided. Additionally,
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// the Fields method will return a de-duplicated slice of the keys that are
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// set with the Inject method.
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func NewCompositeTextMapPropagator(p ...TextMapPropagator) TextMapPropagator {
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return compositeTextMapPropagator(p)
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}
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