[#851] util/rand: use single random source

It is much more convenient to skip source creation. Also fix some bugs: 1. `cryptoSource.Int63()` now returns number in [0, 1<<63) as required by `rand.Source` interface. 2. Replace `cryptoSource.Uint63()` with `cryptoSource.Uint64` to allow generate uint64 numbers directly (see rand.Source64 docs). Signed-off-by: Evgenii Stratonikov <evgeniy@nspcc.ru>
2022-01-11 17:07:59 +03:00 · 2022-01-11 17:07:59 +03:00 · 5828f43e52
commit 5828f43e52
parent c35cdb3684
8 changed files with 56 additions and 66 deletions
--- a/cmd/neofs-adm/internal/modules/morph/subnet.go
+++ b/cmd/neofs-adm/internal/modules/morph/subnet.go
@ -4,7 +4,6 @@ import (
 	"encoding/hex"
 	"errors"
 	"fmt"
 	"math"
 	"github.com/nspcc-dev/neo-go/cli/flags"
 	"github.com/nspcc-dev/neo-go/cli/input"
@ -206,7 +205,7 @@ var cmdSubnetCreate = &cobra.Command{
 		)
 		for {
-			num = uint32(rand.Uint64(rand.New(), math.MaxUint32))
+			num = rand.Uint32()
 			id.SetNumber(num)
--- a/cmd/neofs-node/morph.go
+++ b/cmd/neofs-node/morph.go
@ -40,8 +40,7 @@ func initMorphComponents(c *cfg) {
 			fatalOnErr(errors.New("missing Neo RPC endpoints"))
 		}
-		crand := rand.New() // math/rand with cryptographic source
+		rand.Shuffle(len(addresses), func(i, j int) {
 		crand.Shuffle(len(addresses), func(i, j int) {
 			addresses[i], addresses[j] = addresses[j], addresses[i]
 		})
@ -185,8 +184,7 @@ func listenMorphNotifications(c *cfg) {
 	endpoints := morphconfig.NotificationEndpoint(c.appCfg)
 	timeout := morphconfig.DialTimeout(c.appCfg)
-	crand := rand.New() // math/rand with cryptographic source
+	rand.Shuffle(len(endpoints), func(i, j int) {
 	crand.Shuffle(len(endpoints), func(i, j int) {
 		endpoints[i], endpoints[j] = endpoints[j], endpoints[i]
 	})
--- a/pkg/innerring/processors/audit/process.go
+++ b/pkg/innerring/processors/audit/process.go
@ -69,10 +69,9 @@ func (ap *Processor) processStartAudit(epoch uint64) {
 		}
 		n := nodes.Flatten()
 		crand := rand.New() // math/rand with cryptographic source
 		// shuffle nodes to ask a random one
-		crand.Shuffle(len(n), func(i, j int) {
+		rand.Shuffle(len(n), func(i, j int) {
 			n[i], n[j] = n[j], n[i]
 		})
--- a/pkg/morph/client/notary.go
+++ b/pkg/morph/client/notary.go
@ -361,9 +361,6 @@ func (c *Client) NotaryInvoke(contract util.Uint160, fee fixedn.Fixed8, nonce ui
 	return c.notaryInvoke(false, true, contract, nonce, vub, method, args...)
 }
 // randSource is a source of random numbers.
 var randSource = rand.New()
 // NotaryInvokeNotAlpha does the same as NotaryInvoke but does not use client's
 // private key in Invocation script. It means that main TX of notary request is
 // not expected to be signed by the current node.
@ -380,7 +377,7 @@ func (c *Client) NotaryInvokeNotAlpha(contract util.Uint160, fee fixedn.Fixed8,
 		return c.Invoke(contract, fee, method, args...)
 	}
-	return c.notaryInvoke(false, false, contract, randSource.Uint32(), nil, method, args...)
+	return c.notaryInvoke(false, false, contract, rand.Uint32(), nil, method, args...)
 }
 // NotarySignAndInvokeTX signs and sends notary request that was received from
--- a/pkg/services/audit/auditor/pdp.go
+++ b/pkg/services/audit/auditor/pdp.go
@ -6,6 +6,7 @@ import (
 	"sync"
 	"time"
 	"github.com/nspcc-dev/neofs-node/pkg/util/rand"
 	"github.com/nspcc-dev/neofs-sdk-go/netmap"
 	"github.com/nspcc-dev/neofs-sdk-go/object"
 	"github.com/nspcc-dev/tzhash/tz"
@ -88,16 +89,18 @@ func (c *Context) splitPayload(id *object.ID) []uint64 {
 	)
 	for i := uint64(0); i < hashRangeNumber; i++ {
 		var nextLn uint64
 		if i < hashRangeNumber-1 {
-			nextLn = randUint64(size-prev-(hashRangeNumber-i)) + 1
+			max := size - prev - (hashRangeNumber - i)
 			if max == 0 {
 				prev++
 			} else {
 				prev += rand.Uint64()%max + 1
 			}
 		} else {
-			nextLn = size - prev
+			prev = size
 		}
-		notches = append(notches, prev+nextLn)
+		notches = append(notches, prev)
 		prev += nextLn
 	}
 	return notches
@ -107,13 +110,16 @@ func (c *Context) collectHashes(p *gamePair) {
 	fn := func(n *netmap.Node, rngs []*object.Range, hashWriter func([]byte)) {
 		// TODO: add order randomization
 		for i := range rngs {
-			sleepDur := time.Duration(randUint64(c.maxPDPSleep))
+			var sleepDur time.Duration
 			if c.maxPDPSleep > 0 {
 				sleepDur = time.Duration(rand.Uint64() % c.maxPDPSleep)
 			}
 			c.log.Debug("sleep before get range hash",
 				zap.Stringer("interval", sleepDur),
 			)
-			time.Sleep(time.Duration(sleepDur))
+			time.Sleep(sleepDur)
 			h, err := c.cnrCom.GetRangeHash(c.task, n, p.id, rngs[i])
 			if err != nil {
--- a/pkg/services/audit/auditor/por.go
+++ b/pkg/services/audit/auditor/por.go
@ -68,8 +68,7 @@ func (c *Context) checkStorageGroupPoR(ind int, sg *object.ID) {
 		flat := placement.FlattenNodes(objectPlacement)
-		crand := rand.New() // math/rand with cryptographic source
+		rand.Shuffle(len(flat), func(i, j int) {
 		crand.Shuffle(len(flat), func(i, j int) {
 			flat[i], flat[j] = flat[j], flat[i]
 		})
--- a/pkg/services/audit/auditor/util.go
+++ b/pkg/services/audit/auditor/util.go
@ -4,12 +4,11 @@ import (
 	"github.com/nspcc-dev/neofs-node/pkg/util/rand"
 )
-// returns random uint64 number [0; n) outside exclude map.
+// nextRandUint64 returns random uint64 number [0; n) outside exclude map.
-// exclude must contain no more than n-1 elements [0; n)
+// Panics if len(exclude) >= n.
 func nextRandUint64(n uint64, exclude map[uint64]struct{}) uint64 {
 	ln := uint64(len(exclude))
-
+	ind := rand.Uint64() % (n - ln)
 	ind := randUint64(n - ln)
 	for i := ind; ; i++ {
 		if _, ok := exclude[i]; !ok {
@ -17,8 +16,3 @@ func nextRandUint64(n uint64, exclude map[uint64]struct{}) uint64 {
 		}
 	}
 }
 // returns random uint64 number [0, n).
 func randUint64(n uint64) uint64 {
 	return rand.Uint64(rand.New(), int64(n))
 }
--- a/pkg/util/rand/rand.go
+++ b/pkg/util/rand/rand.go
@ -6,41 +6,39 @@ import (
 	mrand "math/rand"
 )
-type cryptoSource struct{}
+var source = mrand.New(&cryptoSource{})
 // Read is alias for crypto/rand.Read.
 var Read = crand.Read
 // New constructs the source of random numbers.
 func New() *mrand.Rand {
 	return mrand.New(&cryptoSource{})
 }
 func (s *cryptoSource) Seed(int64) {}
 func (s *cryptoSource) Int63() int64 {
 	return int64(s.Uint63())
 }
 func (s *cryptoSource) Uint63() uint64 {
 	buf := make([]byte, 8)
 	if _, err := crand.Read(buf); err != nil {
 		return 0
 	}
 	return binary.BigEndian.Uint64(buf)
 }
 // Uint64 returns a random uint64 value.
-func Uint64(r *mrand.Rand, max int64) uint64 {
+func Uint64() uint64 {
-	if max <= 0 {
+	return source.Uint64()
-		return 0
+}
-	}
+
-
+// Uint64 returns a random uint32 value.
-	var i int64 = -1
+func Uint32() uint32 {
-	for i < 0 {
+	return source.Uint32()
-		i = r.Int63n(max)
+}
-	}
+
-
+// Shuffle randomizes the order of elements.
-	return uint64(i)
+// n is the number of elements. Shuffle panics if n < 0.
 // swap swaps the elements with indexes i and j.
 func Shuffle(n int, swap func(i, j int)) {
 	source.Shuffle(n, swap)
 }
 // cryptoSource is math/rand.Source which takes entropy via crypto/rand.
 type cryptoSource struct{}
 // Seed implements math/rand.Source.
 func (s *cryptoSource) Seed(int64) {}
 // Int63 implements math/rand.Source.
 func (s *cryptoSource) Int63() int64 {
 	return int64(s.Uint64() >> 1)
 }
 // Uint64 implements math/rand.Source64.
 func (s *cryptoSource) Uint64() uint64 {
 	var buf [8]byte
 	_, _ = crand.Read(buf[:]) // always returns nil
 	return binary.BigEndian.Uint64(buf[:])
 }