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steamcache2/vfs/vfs.go
Justin Harms 4a4579b0f3 Refactor caching logic and enhance hash generation in steamcache 
- Replaced SHA1 hash calculations with SHA256 for improved security and consistency in cache key generation.
- Introduced a new TestURLHashing function to validate the new cache key generation logic.
- Removed outdated hash calculation tests and streamlined the caching process to focus on URL-based hashing.
- Implemented lightweight validation methods in ServeHTTP to enhance performance and reliability of cached responses.
- Added batched time updates in VFS implementations for better performance during access time tracking.
2025-09-02 05:45:44 -05:00

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// vfs/vfs.go
package vfs
import (
"io"
"os"
"time"
)
// VFS defines the interface for virtual file systems
type VFS interface {
// Create creates a new file at the given key
Create(key string, size int64) (io.WriteCloser, error)
// Open opens the file at the given key for reading
Open(key string) (io.ReadCloser, error)
// Delete removes the file at the given key
Delete(key string) error
// Stat returns information about the file at the given key
Stat(key string) (*FileInfo, error)
// Name returns the name of this VFS
Name() string
// Size returns the current size of the VFS
Size() int64
// Capacity returns the maximum capacity of the VFS
Capacity() int64
}
// FileInfo contains metadata about a cached file
type FileInfo struct {
Key string `json:"key"`
Size int64 `json:"size"`
ATime time.Time `json:"atime"` // Last access time
CTime time.Time `json:"ctime"` // Creation time
AccessCount int `json:"access_count"`
}
// NewFileInfo creates a new FileInfo with the given key and current timestamp
func NewFileInfo(key string, size int64) *FileInfo {
now := time.Now()
return &FileInfo{
Key: key,
Size: size,
ATime: now,
CTime: now,
AccessCount: 1,
}
}
// NewFileInfoFromOS creates a FileInfo from os.FileInfo
func NewFileInfoFromOS(info os.FileInfo, key string) *FileInfo {
return &FileInfo{
Key: key,
Size: info.Size(),
ATime: time.Now(), // We don't have access time from os.FileInfo
CTime: info.ModTime(),
AccessCount: 1,
}
}
// UpdateAccess updates the access time and increments the access count
func (fi *FileInfo) UpdateAccess() {
fi.ATime = time.Now()
fi.AccessCount++
}
// BatchedTimeUpdate provides a way to batch time updates for better performance
type BatchedTimeUpdate struct {
currentTime time.Time
lastUpdate time.Time
updateInterval time.Duration
}
// NewBatchedTimeUpdate creates a new batched time updater
func NewBatchedTimeUpdate(interval time.Duration) *BatchedTimeUpdate {
now := time.Now()
return &BatchedTimeUpdate{
currentTime: now,
lastUpdate: now,
updateInterval: interval,
}
}
// GetTime returns the current cached time, updating it if necessary
func (btu *BatchedTimeUpdate) GetTime() time.Time {
now := time.Now()
if now.Sub(btu.lastUpdate) >= btu.updateInterval {
btu.currentTime = now
btu.lastUpdate = now
}
return btu.currentTime
}
// UpdateAccessBatched updates the access time using batched time updates
func (fi *FileInfo) UpdateAccessBatched(btu *BatchedTimeUpdate) {
fi.ATime = btu.GetTime()
fi.AccessCount++
}
// GetTimeDecayedScore calculates a score based on access time and frequency
// More recent and frequent accesses get higher scores
func (fi *FileInfo) GetTimeDecayedScore() float64 {
timeSinceAccess := time.Since(fi.ATime).Hours()
decayFactor := 1.0 / (1.0 + timeSinceAccess/24.0) // Decay over days
frequencyBonus := float64(fi.AccessCount) * 0.1
return decayFactor + frequencyBonus
}
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