xk6-frostfs/internal/registry/registry.go

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package registry
import (
"fmt"
"reflect"
"strconv"
"sync"
"go.k6.io/k6/js/modules"
)
// RootModule is the global module object type. It is instantiated once per test
// run and will be used to create k6/x/frostfs/registry module instances for each VU.
type RootModule struct {
// Stores object registry by path of database file. We should have only single instance
// of registry per each file
registries map[string]*ObjRegistry
// Stores object selector by name. We may have multiple selectors per database file
selectors map[string]*ObjSelector
// Mutex to sync access to the maps
mu sync.Mutex
}
// Registry represents an instance of the module for every VU.
type Registry struct {
vu modules.VU
root *RootModule
}
// Ensure the interfaces are implemented correctly.
var (
_ modules.Instance = &Registry{}
_ modules.Module = &RootModule{}
)
func init() {
rootModule := &RootModule{
registries: make(map[string]*ObjRegistry),
selectors: make(map[string]*ObjSelector),
}
modules.Register("k6/x/frostfs/registry", rootModule)
}
// NewModuleInstance implements the modules.Module interface and returns
// a new instance for each VU.
func (r *RootModule) NewModuleInstance(vu modules.VU) modules.Instance {
mi := &Registry{vu: vu, root: r}
return mi
}
// Exports implements the modules.Instance interface and returns the exports
// of the JS module.
func (r *Registry) Exports() modules.Exports {
return modules.Exports{Default: r}
}
// Open creates a new instance of object registry that will store information about objects
// in the specified file. If repository instance for the file was previously created, then
// Open will return the existing instance of repository, because bolt database allows only
// one write connection at a time.
func (r *Registry) Open(dbFilePath string) *ObjRegistry {
r.root.mu.Lock()
defer r.root.mu.Unlock()
return r.open(dbFilePath)
}
// Implementation of Open without mutex lock, so that it can be re-used in other methods.
func (r *Registry) open(dbFilePath string) *ObjRegistry {
registry := r.root.registries[dbFilePath]
if registry == nil {
registry = NewObjRegistry(r.vu.Context(), dbFilePath)
r.root.registries[dbFilePath] = registry
}
return registry
}
// SelectorKind represents selector behaviour when no items are available.
type SelectorKind byte
const (
// SelectorAwaiting waits for a new item to arrive.
// This selector visits each item exactly once and can be used when items
// to select are being pushed into registry concurrently.
SelectorAwaiting = iota
// SelectorLooped rewinds cursor to the start after all items have been read.
// It can encounter duplicates and should be used mostly for read scenarious.
SelectorLooped
// SelectorOneshot visits each item exactly once and exits immediately afterwards.
// It may be used to artificially abort the test after all items were processed.
SelectorOneshot
)
func (r *Registry) GetSelector(dbFilePath string, name string, cacheSize int, filter map[string]string) *ObjSelector {
return r.getSelectorInternal(dbFilePath, name, cacheSize, SelectorAwaiting, filter)
}
func (r *Registry) GetLoopedSelector(dbFilePath string, name string, cacheSize int, filter map[string]string) *ObjSelector {
return r.getSelectorInternal(dbFilePath, name, cacheSize, SelectorLooped, filter)
}
func (r *Registry) GetOneshotSelector(dbFilePath string, name string, cacheSize int, filter map[string]string) *ObjSelector {
return r.getSelectorInternal(dbFilePath, name, cacheSize, SelectorOneshot, filter)
}
func (r *Registry) getSelectorInternal(dbFilePath string, name string, cacheSize int, kind SelectorKind, filter map[string]string) *ObjSelector {
objFilter, err := parseFilter(filter)
if err != nil {
panic(err)
}
r.root.mu.Lock()
defer r.root.mu.Unlock()
selector := r.root.selectors[name]
if selector == nil {
registry := r.open(dbFilePath)
selector = NewObjSelector(registry, cacheSize, kind, objFilter)
r.root.selectors[name] = selector
} else if !reflect.DeepEqual(selector.filter, objFilter) {
panic(fmt.Sprintf("selector %s already has been created with a different filter", name))
}
return selector
}
func (r *Registry) GetExporter(selector *ObjSelector) *ObjExporter {
return NewObjExporter(selector)
}
func parseFilter(filter map[string]string) (*ObjFilter, error) {
objFilter := ObjFilter{}
objFilter.Status = filter["status"]
if ageStr := filter["age"]; ageStr != "" {
age, err := strconv.ParseInt(ageStr, 10, 64)
if err != nil {
return nil, err
}
objFilter.Age = int(age)
}
return &objFilter, nil
}