2020-03-19 18:19:07 +00:00
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package cache
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import (
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"sort"
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"testing"
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"github.com/micro/go-micro/v2/store"
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"github.com/micro/go-micro/v2/store/memory"
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"github.com/stretchr/testify/assert"
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)
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func TestCache(t *testing.T) {
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2020-04-06 16:45:55 +01:00
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l0, l1, l2 := memory.NewStore(store.Database("l0")), memory.NewStore(store.Table("l1")), memory.NewStore()
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2020-03-19 18:19:07 +00:00
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_, _, _ = l0.Init(), l1.Init(), l2.Init()
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assert := assert.New(t)
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2020-04-11 12:10:19 +01:00
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nonCache := NewCache(nil)
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assert.Equal(len(nonCache.(*cache).stores), 1, "Expected a cache initialised with just 1 store to fail")
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2020-03-19 18:19:07 +00:00
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// Basic functionality
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cachedStore := NewCache(l0, l1, l2)
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2020-04-11 12:10:19 +01:00
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assert.Equal(cachedStore.Options(), l0.Options(), "Options on store/cache are nonsensical")
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2020-03-19 18:19:07 +00:00
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expectedString := "cache [memory memory memory]"
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assert.Equal(cachedStore.String(), expectedString, "Cache couldn't describe itself as expected")
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// Read/Write tests
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_, err := cachedStore.Read("test")
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assert.Equal(store.ErrNotFound, err, "Read non existant key")
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r1 := &store.Record{
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Key: "aaa",
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Value: []byte("bbb"),
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}
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r2 := &store.Record{
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Key: "aaaa",
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Value: []byte("bbbb"),
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}
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r3 := &store.Record{
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Key: "aaaaa",
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Value: []byte("bbbbb"),
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}
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// Write 3 records directly to l2
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l2.Write(r1)
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l2.Write(r2)
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l2.Write(r3)
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// Ensure it's not in l0
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assert.Equal(store.ErrNotFound, func() error { _, err := l0.Read(r1.Key); return err }())
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// Read from cache, ensure it's in all 3 stores
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results, err := cachedStore.Read(r1.Key)
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assert.Nil(err, "cachedStore.Read() returned error")
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assert.Len(results, 1, "cachedStore.Read() should only return 1 result")
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assert.Equal(r1, results[0], "Cached read didn't return the record that was put in")
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results, err = l0.Read(r1.Key)
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assert.Nil(err)
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assert.Equal(r1, results[0], "l0 not coherent")
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results, err = l1.Read(r1.Key)
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assert.Nil(err)
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assert.Equal(r1, results[0], "l1 not coherent")
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results, err = l2.Read(r1.Key)
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assert.Nil(err)
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assert.Equal(r1, results[0], "l2 not coherent")
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// Multiple read
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results, err = cachedStore.Read("aa", store.ReadPrefix())
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assert.Nil(err, "Cachedstore multiple read errored")
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assert.Len(results, 3, "ReadPrefix should have read all records")
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// l1 should now have all 3 records
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l1results, err := l1.Read("aa", store.ReadPrefix())
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assert.Nil(err, "l1.Read failed")
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assert.Len(l1results, 3, "l1 didn't contain a full cache")
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sort.Slice(results, func(i, j int) bool { return results[i].Key < results[j].Key })
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sort.Slice(l1results, func(i, j int) bool { return l1results[i].Key < l1results[j].Key })
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assert.Equal(results[0], l1results[0], "l1 cache not coherent")
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assert.Equal(results[1], l1results[1], "l1 cache not coherent")
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assert.Equal(results[2], l1results[2], "l1 cache not coherent")
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// Test List and Delete
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keys, err := cachedStore.List(store.ListPrefix("a"))
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assert.Nil(err, "List should not error")
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assert.Len(keys, 3, "List should return 3 keys")
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for _, k := range keys {
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err := cachedStore.Delete(k)
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assert.Nil(err, "Delete should not error")
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_, err = cachedStore.Read(k)
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// N.B. - this may not pass on stores that are eventually consistent
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assert.Equal(store.ErrNotFound, err, "record should be gone")
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}
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// Test Write
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err = cachedStore.Write(r1)
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assert.Nil(err, "Write shouldn't fail")
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l2result, err := l2.Read(r1.Key)
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assert.Nil(err)
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assert.Len(l2result, 1)
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assert.Equal(r1, l2result[0], "Write didn't make it all the way through to l2")
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}
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