cri-o/vendor/github.com/tchap/go-patricia/patricia/patricia_dense_test.go

// Copyright (c) 2014 The go-patricia AUTHORS
//
// Use of this source code is governed by The MIT License
// that can be found in the LICENSE file.

package patricia

import (
	"runtime"
	"testing"

	"github.com/satori/go.uuid"
)

// Tests -----------------------------------------------------------------------

// overhead is allowed tolerance for Go's runtime/GC to increase the allocated memory
// (to avoid failing tests on insignificant growth amounts)
const overhead = 4000

func TestTrie_InsertDense(t *testing.T) {
	trie := NewTrie()

	data := []testData{
		{"aba", 0, success},
		{"abb", 1, success},
		{"abc", 2, success},
		{"abd", 3, success},
		{"abe", 4, success},
		{"abf", 5, success},
		{"abg", 6, success},
		{"abh", 7, success},
		{"abi", 8, success},
		{"abj", 9, success},
		{"abk", 0, success},
		{"abl", 1, success},
		{"abm", 2, success},
		{"abn", 3, success},
		{"abo", 4, success},
		{"abp", 5, success},
		{"abq", 6, success},
		{"abr", 7, success},
		{"abs", 8, success},
		{"abt", 9, success},
		{"abu", 0, success},
		{"abv", 1, success},
		{"abw", 2, success},
		{"abx", 3, success},
		{"aby", 4, success},
		{"abz", 5, success},
	}

	for _, v := range data {
		t.Logf("INSERT prefix=%v, item=%v, success=%v", v.key, v.value, v.retVal)
		if ok := trie.Insert(Prefix(v.key), v.value); ok != v.retVal {
			t.Errorf("Unexpected return value, expected=%v, got=%v", v.retVal, ok)
		}
	}
}

func TestTrie_InsertDensePreceeding(t *testing.T) {
	trie := NewTrie()
	start := byte(70)
	// create a dense node
	for i := byte(0); i <= DefaultMaxChildrenPerSparseNode; i++ {
		if !trie.Insert(Prefix([]byte{start + i}), true) {
			t.Errorf("insert failed, prefix=%v", start+i)
		}
	}
	// insert some preceeding keys
	for i := byte(1); i < start; i *= i + 1 {
		if !trie.Insert(Prefix([]byte{start - i}), true) {
			t.Errorf("insert failed, prefix=%v", start-i)
		}
	}
}

func TestTrie_InsertDenseDuplicatePrefixes(t *testing.T) {
	trie := NewTrie()

	data := []testData{
		{"aba", 0, success},
		{"abb", 1, success},
		{"abc", 2, success},
		{"abd", 3, success},
		{"abe", 4, success},
		{"abf", 5, success},
		{"abg", 6, success},
		{"abh", 7, success},
		{"abi", 8, success},
		{"abj", 9, success},
		{"abk", 0, success},
		{"abl", 1, success},
		{"abm", 2, success},
		{"abn", 3, success},
		{"abo", 4, success},
		{"abp", 5, success},
		{"abq", 6, success},
		{"abr", 7, success},
		{"abs", 8, success},
		{"abt", 9, success},
		{"abu", 0, success},
		{"abv", 1, success},
		{"abw", 2, success},
		{"abx", 3, success},
		{"aby", 4, success},
		{"abz", 5, success},
		{"aba", 0, failure},
		{"abb", 1, failure},
		{"abc", 2, failure},
		{"abd", 3, failure},
		{"abe", 4, failure},
	}

	for _, v := range data {
		t.Logf("INSERT prefix=%v, item=%v, success=%v", v.key, v.value, v.retVal)
		if ok := trie.Insert(Prefix(v.key), v.value); ok != v.retVal {
			t.Errorf("Unexpected return value, expected=%v, got=%v", v.retVal, ok)
		}
	}
}

func TestTrie_DeleteDense(t *testing.T) {
	trie := NewTrie()

	data := []testData{
		{"aba", 0, success},
		{"abb", 1, success},
		{"abc", 2, success},
		{"abd", 3, success},
		{"abe", 4, success},
		{"abf", 5, success},
		{"abg", 6, success},
		{"abh", 7, success},
		{"abi", 8, success},
		{"abj", 9, success},
		{"abk", 0, success},
		{"abl", 1, success},
		{"abm", 2, success},
		{"abn", 3, success},
		{"abo", 4, success},
		{"abp", 5, success},
		{"abq", 6, success},
		{"abr", 7, success},
		{"abs", 8, success},
		{"abt", 9, success},
		{"abu", 0, success},
		{"abv", 1, success},
		{"abw", 2, success},
		{"abx", 3, success},
		{"aby", 4, success},
		{"abz", 5, success},
	}

	for _, v := range data {
		t.Logf("INSERT prefix=%v, item=%v, success=%v", v.key, v.value, v.retVal)
		if ok := trie.Insert(Prefix(v.key), v.value); ok != v.retVal {
			t.Errorf("Unexpected return value, expected=%v, got=%v", v.retVal, ok)
		}
	}

	for _, v := range data {
		t.Logf("DELETE word=%v, success=%v", v.key, v.retVal)
		if ok := trie.Delete([]byte(v.key)); ok != v.retVal {
			t.Errorf("Unexpected return value, expected=%v, got=%v", v.retVal, ok)
		}
	}
}

func TestTrie_DeleteLeakageDense(t *testing.T) {
	trie := NewTrie()

	genTestData := func() *testData {
		// Generate a random hash as a key.
		key := uuid.NewV4()
		return &testData{key: key.String(), value: "v", retVal: success}
	}

	testSize := 100
	data := make([]*testData, 0, testSize)
	for i := 0; i < testSize; i++ {
		data = append(data, genTestData())
	}

	oldBytes := heapAllocatedBytes()

	// repeat insertion/deletion for 10K times to catch possible memory issues
	for i := 0; i < 10000; i++ {
		for _, v := range data {
			if ok := trie.Insert(Prefix(v.key), v.value); ok != v.retVal {
				t.Errorf("Unexpected return value, expected=%v, got=%v", v.retVal, ok)
			}
		}

		for _, v := range data {
			if ok := trie.Delete([]byte(v.key)); ok != v.retVal {
				t.Errorf("Unexpected return value, expected=%v, got=%v", v.retVal, ok)
			}
		}
	}

	if newBytes := heapAllocatedBytes(); newBytes > oldBytes+overhead {
		t.Logf("Size=%d, Total=%d, Trie state:\n%s\n", trie.size(), trie.total(), trie.dump())
		t.Errorf("Heap space leak, grew %d bytes (%d to %d)\n", newBytes-oldBytes, oldBytes, newBytes)
	}

	if numChildren := trie.children.length(); numChildren != 0 {
		t.Errorf("Trie is not empty: %v children found", numChildren)
	}
}

func heapAllocatedBytes() uint64 {
	runtime.GC()

	ms := runtime.MemStats{}
	runtime.ReadMemStats(&ms)
	return ms.Alloc
}