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tendermint/lite/performance_test.go

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package lite
import (
"fmt"
"sync"
"testing"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
cmn "github.com/tendermint/tendermint/libs/common"
liteErr "github.com/tendermint/tendermint/lite/errors"
)
func TestMemStoreProvidergetByHeightBinaryAndLinearSameResult(t *testing.T) {
p := NewMemStoreProvider().(*memStoreProvider)
// Store a bunch of commits at specific heights
// and then ensure that:
// * getByHeightLinearSearch
// * getByHeightBinarySearch
// both return the exact same result
// 1. Non-existent height commits
nonExistent := []int64{-1000, -1, 0, 1, 10, 11, 17, 31, 67, 1000, 1e9}
ensureNonExistentCommitsAtHeight(t, "getByHeightLinearSearch", p.getByHeightLinearSearch, nonExistent)
ensureNonExistentCommitsAtHeight(t, "getByHeightBinarySearch", p.getByHeightBinarySearch, nonExistent)
// 2. Save some known height commits
knownHeights := []int64{0, 1, 7, 9, 12, 13, 18, 44, 23, 16, 1024, 100, 199, 1e9}
createAndStoreCommits(t, p, knownHeights)
// 3. Now check if those heights are retrieved
ensureExistentCommitsAtHeight(t, "getByHeightLinearSearch", p.getByHeightLinearSearch, knownHeights)
ensureExistentCommitsAtHeight(t, "getByHeightBinarySearch", p.getByHeightBinarySearch, knownHeights)
// 4. And now for the height probing to ensure that any height
// requested returns a fullCommit of height <= requestedHeight.
comparegetByHeightAlgorithms(t, p, 0, 0)
comparegetByHeightAlgorithms(t, p, 1, 1)
comparegetByHeightAlgorithms(t, p, 2, 1)
comparegetByHeightAlgorithms(t, p, 5, 1)
comparegetByHeightAlgorithms(t, p, 7, 7)
comparegetByHeightAlgorithms(t, p, 10, 9)
comparegetByHeightAlgorithms(t, p, 12, 12)
comparegetByHeightAlgorithms(t, p, 14, 13)
comparegetByHeightAlgorithms(t, p, 19, 18)
comparegetByHeightAlgorithms(t, p, 43, 23)
comparegetByHeightAlgorithms(t, p, 45, 44)
comparegetByHeightAlgorithms(t, p, 1025, 1024)
comparegetByHeightAlgorithms(t, p, 101, 100)
comparegetByHeightAlgorithms(t, p, 1e3, 199)
comparegetByHeightAlgorithms(t, p, 1e4, 1024)
comparegetByHeightAlgorithms(t, p, 1e9, 1e9)
comparegetByHeightAlgorithms(t, p, 1e9+1, 1e9)
}
func createAndStoreCommits(t *testing.T, p Provider, heights []int64) {
chainID := "cache-best-height-binary-and-linear"
appHash := []byte("0xdeadbeef")
keys := GenValKeys(len(heights) / 2)
for _, h := range heights {
vals := keys.ToValidators(10, int64(len(heights)/2))
fc := keys.GenFullCommit(chainID, h, nil, vals, appHash, []byte("params"), []byte("results"), 0, 5)
err := p.StoreCommit(fc)
require.NoError(t, err, "StoreCommit height=%d", h)
}
}
func comparegetByHeightAlgorithms(t *testing.T, p *memStoreProvider, ask, expect int64) {
algos := map[string]func(int64) (FullCommit, error){
"getHeightByLinearSearch": p.getByHeightLinearSearch,
"getHeightByBinarySearch": p.getByHeightBinarySearch,
}
for algo, fn := range algos {
fc, err := fn(ask)
// t.Logf("%s got=%v want=%d", algo, expect, fc.Height())
require.Nil(t, err, "%s: %+v", algo, err)
if assert.Equal(t, expect, fc.Height()) {
err = p.StoreCommit(fc)
require.Nil(t, err, "%s: %+v", algo, err)
}
}
}
var blankFullCommit FullCommit
func ensureNonExistentCommitsAtHeight(t *testing.T, prefix string, fn func(int64) (FullCommit, error), data []int64) {
for i, qh := range data {
fc, err := fn(qh)
assert.NotNil(t, err, "#%d: %s: height=%d should return non-nil error", i, prefix, qh)
assert.Equal(t, fc, blankFullCommit, "#%d: %s: height=%d\ngot =%+v\nwant=%+v", i, prefix, qh, fc, blankFullCommit)
}
}
func ensureExistentCommitsAtHeight(t *testing.T, prefix string, fn func(int64) (FullCommit, error), data []int64) {
for i, qh := range data {
fc, err := fn(qh)
assert.Nil(t, err, "#%d: %s: height=%d should not return an error: %v", i, prefix, qh, err)
assert.NotEqual(t, fc, blankFullCommit, "#%d: %s: height=%d got a blankCommit", i, prefix, qh)
}
}
func BenchmarkGenCommit20(b *testing.B) {
keys := GenValKeys(20)
benchmarkGenCommit(b, keys)
}
func BenchmarkGenCommit100(b *testing.B) {
keys := GenValKeys(100)
benchmarkGenCommit(b, keys)
}
func BenchmarkGenCommitSec20(b *testing.B) {
keys := GenSecpValKeys(20)
benchmarkGenCommit(b, keys)
}
func BenchmarkGenCommitSec100(b *testing.B) {
keys := GenSecpValKeys(100)
benchmarkGenCommit(b, keys)
}
func benchmarkGenCommit(b *testing.B, keys ValKeys) {
chainID := fmt.Sprintf("bench-%d", len(keys))
vals := keys.ToValidators(20, 10)
for i := 0; i < b.N; i++ {
h := int64(1 + i)
appHash := []byte(fmt.Sprintf("h=%d", h))
resHash := []byte(fmt.Sprintf("res=%d", h))
keys.GenCommit(chainID, h, nil, vals, appHash, []byte("params"), resHash, 0, len(keys))
}
}
// this benchmarks generating one key
func BenchmarkGenValKeys(b *testing.B) {
keys := GenValKeys(20)
for i := 0; i < b.N; i++ {
keys = keys.Extend(1)
}
}
// this benchmarks generating one key
func BenchmarkGenSecpValKeys(b *testing.B) {
keys := GenSecpValKeys(20)
for i := 0; i < b.N; i++ {
keys = keys.Extend(1)
}
}
func BenchmarkToValidators20(b *testing.B) {
benchmarkToValidators(b, 20)
}
func BenchmarkToValidators100(b *testing.B) {
benchmarkToValidators(b, 100)
}
// this benchmarks constructing the validator set (.PubKey() * nodes)
func benchmarkToValidators(b *testing.B, nodes int) {
keys := GenValKeys(nodes)
for i := 1; i <= b.N; i++ {
keys.ToValidators(int64(2*i), int64(i))
}
}
func BenchmarkToValidatorsSec100(b *testing.B) {
benchmarkToValidatorsSec(b, 100)
}
// this benchmarks constructing the validator set (.PubKey() * nodes)
func benchmarkToValidatorsSec(b *testing.B, nodes int) {
keys := GenSecpValKeys(nodes)
for i := 1; i <= b.N; i++ {
keys.ToValidators(int64(2*i), int64(i))
}
}
func BenchmarkCertifyCommit20(b *testing.B) {
keys := GenValKeys(20)
benchmarkCertifyCommit(b, keys)
}
func BenchmarkCertifyCommit100(b *testing.B) {
keys := GenValKeys(100)
benchmarkCertifyCommit(b, keys)
}
func BenchmarkCertifyCommitSec20(b *testing.B) {
keys := GenSecpValKeys(20)
benchmarkCertifyCommit(b, keys)
}
func BenchmarkCertifyCommitSec100(b *testing.B) {
keys := GenSecpValKeys(100)
benchmarkCertifyCommit(b, keys)
}
func benchmarkCertifyCommit(b *testing.B, keys ValKeys) {
chainID := "bench-certify"
vals := keys.ToValidators(20, 10)
cert := NewStaticCertifier(chainID, vals)
check := keys.GenCommit(chainID, 123, nil, vals, []byte("foo"), []byte("params"), []byte("res"), 0, len(keys))
for i := 0; i < b.N; i++ {
err := cert.Certify(check)
if err != nil {
panic(err)
}
}
}
type algo bool
const (
linearSearch = true
binarySearch = false
)
// Lazy load the commits
var fcs5, fcs50, fcs100, fcs500, fcs1000 []FullCommit
var h5, h50, h100, h500, h1000 []int64
var commitsOnce sync.Once
func lazyGenerateFullCommits(b *testing.B) {
b.Logf("Generating FullCommits")
commitsOnce.Do(func() {
fcs5, h5 = genFullCommits(nil, nil, 5)
b.Logf("Generated 5 FullCommits")
fcs50, h50 = genFullCommits(fcs5, h5, 50)
b.Logf("Generated 50 FullCommits")
fcs100, h100 = genFullCommits(fcs50, h50, 100)
b.Logf("Generated 100 FullCommits")
fcs500, h500 = genFullCommits(fcs100, h100, 500)
b.Logf("Generated 500 FullCommits")
fcs1000, h1000 = genFullCommits(fcs500, h500, 1000)
b.Logf("Generated 1000 FullCommits")
})
}
func BenchmarkMemStoreProviderGetByHeightLinearSearch5(b *testing.B) {
benchmarkMemStoreProvidergetByHeight(b, fcs5, h5, linearSearch)
}
func BenchmarkMemStoreProviderGetByHeightLinearSearch50(b *testing.B) {
benchmarkMemStoreProvidergetByHeight(b, fcs50, h50, linearSearch)
}
func BenchmarkMemStoreProviderGetByHeightLinearSearch100(b *testing.B) {
benchmarkMemStoreProvidergetByHeight(b, fcs100, h100, linearSearch)
}
func BenchmarkMemStoreProviderGetByHeightLinearSearch500(b *testing.B) {
benchmarkMemStoreProvidergetByHeight(b, fcs500, h500, linearSearch)
}
func BenchmarkMemStoreProviderGetByHeightLinearSearch1000(b *testing.B) {
benchmarkMemStoreProvidergetByHeight(b, fcs1000, h1000, linearSearch)
}
func BenchmarkMemStoreProviderGetByHeightBinarySearch5(b *testing.B) {
benchmarkMemStoreProvidergetByHeight(b, fcs5, h5, binarySearch)
}
func BenchmarkMemStoreProviderGetByHeightBinarySearch50(b *testing.B) {
benchmarkMemStoreProvidergetByHeight(b, fcs50, h50, binarySearch)
}
func BenchmarkMemStoreProviderGetByHeightBinarySearch100(b *testing.B) {
benchmarkMemStoreProvidergetByHeight(b, fcs100, h100, binarySearch)
}
func BenchmarkMemStoreProviderGetByHeightBinarySearch500(b *testing.B) {
benchmarkMemStoreProvidergetByHeight(b, fcs500, h500, binarySearch)
}
func BenchmarkMemStoreProviderGetByHeightBinarySearch1000(b *testing.B) {
benchmarkMemStoreProvidergetByHeight(b, fcs1000, h1000, binarySearch)
}
var rng = cmn.NewRand()
func init() {
rng.Seed(10)
}
func benchmarkMemStoreProvidergetByHeight(b *testing.B, fcs []FullCommit, fHeights []int64, algo algo) {
lazyGenerateFullCommits(b)
b.StopTimer()
mp := NewMemStoreProvider()
for i, fc := range fcs {
if err := mp.StoreCommit(fc); err != nil {
b.Fatalf("FullCommit #%d: err: %v", i, err)
}
}
qHeights := make([]int64, len(fHeights))
copy(qHeights, fHeights)
// Append some non-existent heights to trigger the worst cases.
qHeights = append(qHeights, 19, -100, -10000, 1e7, -17, 31, -1e9)
memP := mp.(*memStoreProvider)
searchFn := memP.getByHeightLinearSearch
if algo == binarySearch { // nolint
searchFn = memP.getByHeightBinarySearch
}
hPerm := rng.Perm(len(qHeights))
b.StartTimer()
b.ResetTimer()
for i := 0; i < b.N; i++ {
for _, j := range hPerm {
h := qHeights[j]
if _, err := searchFn(h); err != nil {
}
}
}
b.ReportAllocs()
}
func genFullCommits(prevFC []FullCommit, prevH []int64, want int) ([]FullCommit, []int64) {
fcs := make([]FullCommit, len(prevFC))
copy(fcs, prevFC)
heights := make([]int64, len(prevH))
copy(heights, prevH)
appHash := []byte("benchmarks")
chainID := "benchmarks-gen-full-commits"
n := want
keys := GenValKeys(2 + (n / 3))
for i := 0; i < n; i++ {
vals := keys.ToValidators(10, int64(n/2))
h := int64(20 + 10*i)
fcs = append(fcs, keys.GenFullCommit(chainID, h, nil, vals, appHash, []byte("params"), []byte("results"), 0, 5))
heights = append(heights, h)
}
return fcs, heights
}
func TestMemStoreProviderLatestCommitAlwaysUsesSorted(t *testing.T) {
p := NewMemStoreProvider().(*memStoreProvider)
// 1. With no commits yet stored, it should return ErrCommitNotFound
got, err := p.LatestCommit()
require.Equal(t, err.Error(), liteErr.ErrCommitNotFound().Error(), "should return ErrCommitNotFound()")
require.Equal(t, got, blankFullCommit, "With no fullcommits, it should return a blank FullCommit")
// 2. Generate some full commits now and we'll add them unsorted.
genAndStoreCommitsOfHeight(t, p, 27, 100, 1, 12, 1000, 17, 91)
fc, err := p.LatestCommit()
require.Nil(t, err, "with commits saved no error expected")
require.NotEqual(t, fc, blankFullCommit, "with commits saved no blank FullCommit")
require.Equal(t, fc.Height(), int64(1000), "the latest commit i.e. the largest expected")
}
func genAndStoreCommitsOfHeight(t *testing.T, p Provider, heights ...int64) {
n := len(heights)
appHash := []byte("tests")
chainID := "tests-gen-full-commits"
keys := GenValKeys(2 + (n / 3))
for i := 0; i < n; i++ {
h := heights[i]
vals := keys.ToValidators(10, int64(n/2))
fc := keys.GenFullCommit(chainID, h, nil, vals, appHash, []byte("params"), []byte("results"), 0, 5)
err := p.StoreCommit(fc)
require.NoError(t, err, "StoreCommit height=%d", h)
}
}