ev/pkg/es/driver/mem-store/mem-store.go

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// package memstore provides a driver that reads and writes events to memory.
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package memstore
import (
"context"
"fmt"
"github.com/sour-is/ev/internal/lg"
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"github.com/sour-is/ev/pkg/es"
"github.com/sour-is/ev/pkg/es/driver"
"github.com/sour-is/ev/pkg/es/event"
"github.com/sour-is/ev/pkg/locker"
"github.com/sour-is/ev/pkg/math"
)
type state struct {
streams map[string]*locker.Locked[event.Events]
}
type eventLog struct {
streamID string
events *locker.Locked[event.Events]
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}
type memstore struct {
state *locker.Locked[state]
}
const AppendOnly = es.AppendOnly
const AllEvents = es.AllEvents
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func Init(ctx context.Context) error {
ctx, span := lg.Span(ctx)
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defer span.End()
return es.Register(ctx, "mem", &memstore{})
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}
var _ driver.Driver = (*memstore)(nil)
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func (memstore) Open(ctx context.Context, name string) (driver.Driver, error) {
_, span := lg.Span(ctx)
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defer span.End()
s := &state{streams: make(map[string]*locker.Locked[event.Events])}
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return &memstore{locker.New(s)}, nil
}
func (m *memstore) EventLog(ctx context.Context, streamID string) (driver.EventLog, error) {
ctx, span := lg.Span(ctx)
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defer span.End()
el := &eventLog{streamID: streamID}
err := m.state.Modify(ctx, func(state *state) error {
_, span := lg.Span(ctx)
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defer span.End()
l, ok := state.streams[streamID]
if !ok {
l = locker.New(&event.Events{})
state.streams[streamID] = l
}
el.events = l
return nil
})
if err != nil {
return nil, err
}
return el, err
}
var _ driver.EventLog = (*eventLog)(nil)
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// Append implements driver.EventStore
func (m *eventLog) Append(ctx context.Context, events event.Events, version uint64) (uint64, error) {
ctx, span := lg.Span(ctx)
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defer span.End()
event.SetStreamID(m.streamID, events...)
return uint64(len(events)), m.events.Modify(ctx, func(stream *event.Events) error {
_, span := lg.Span(ctx)
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defer span.End()
span.AddEvent(fmt.Sprintf(" %s %d", m.streamID, len(*stream)))
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last := uint64(len(*stream))
if version != AppendOnly && version != last {
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return fmt.Errorf("%w: current version wrong %d != %d", es.ErrWrongVersion, version, last)
}
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for i := range events {
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span.AddEvent(fmt.Sprintf("read event %d of %d", i, len(events)))
// --- clone event
e := events[i]
b, err := event.MarshalBinary(e)
if err != nil {
return err
}
e, err = event.UnmarshalBinary(ctx, b, e.EventMeta().Position)
if err != nil {
return err
}
// ---
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pos := last + uint64(i) + 1
event.SetPosition(e, pos)
*stream = append(*stream, e)
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}
return nil
})
}
// Read implements driver.EventStore
func (m *eventLog) Read(ctx context.Context, after int64, count int64) (event.Events, error) {
ctx, span := lg.Span(ctx)
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defer span.End()
var events event.Events
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err := m.events.Modify(ctx, func(stream *event.Events) error {
_, span := lg.Span(ctx)
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defer span.End()
span.AddEvent(fmt.Sprintf("%s %d", m.streamID, len(*stream)))
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first := stream.First().EventMeta().Position
last := stream.Last().EventMeta().Position
// ---
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if first == 0 || last == 0 {
return nil
}
start, count := math.PagerBox(first, last, after, count)
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if count == 0 {
return nil
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}
span.AddEvent(fmt.Sprint("box", first, last, after, count))
events = make([]event.Event, math.Abs(count))
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for i := range events {
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span.AddEvent(fmt.Sprintf("read event %d of %d", i, math.Abs(count)))
// --- clone event
e := (*stream)[start-1]
b, err := event.MarshalBinary(e)
if err != nil {
return err
}
events[i], err = event.UnmarshalBinary(ctx, b, e.EventMeta().Position)
if err != nil {
return err
}
// ---
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if count > 0 {
start += 1
} else {
start -= 1
}
if start < first || start > last {
events = events[:i+1]
break
}
}
event.SetStreamID(m.streamID, events...)
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return nil
})
if err != nil {
return nil, err
}
return events, nil
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}
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// FirstIndex for the streamID
func (m *eventLog) FirstIndex(ctx context.Context) (uint64, error) {
_, span := lg.Span(ctx)
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defer span.End()
events, err := m.events.Copy(ctx)
return events.First().EventMeta().Position, err
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}
// LastIndex for the streamID
func (m *eventLog) LastIndex(ctx context.Context) (uint64, error) {
_, span := lg.Span(ctx)
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defer span.End()
events, err := m.events.Copy(ctx)
return events.Last().EventMeta().Position, err
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}
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func (m *eventLog) LoadForUpdate(ctx context.Context, a event.Aggregate, fn func(context.Context, event.Aggregate) error) (uint64, error) {
panic("not implemented")
}