mleku
110223fc4e
Replaced legacy `*.orly` module imports with `next.orly.dev/pkg` paths across the codebase for consistency. Removed legacy `go.mod` files from sub-packages, consolidating dependency management. Added Dockerfiles and configurations for benchmarking environments.
195 lines
5.0 KiB
Go
195 lines
5.0 KiB
Go
//go:build !cgo
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package btcec_test
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import (
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"testing"
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"time"
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"lol.mleku.dev/chk"
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"lol.mleku.dev/log"
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"next.orly.dev/pkg/crypto/p256k/btcec"
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"next.orly.dev/pkg/utils"
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)
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func TestSigner_Generate(t *testing.T) {
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for _ = range 100 {
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var err error
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signer := &btcec.Signer{}
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var skb []byte
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if err = signer.Generate(); chk.E(err) {
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t.Fatal(err)
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}
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skb = signer.Sec()
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if err = signer.InitSec(skb); chk.E(err) {
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t.Fatal(err)
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}
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}
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}
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// func TestBTCECSignerVerify(t *testing.T) {
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// evs := make([]*event.E, 0, 10000)
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// scanner := bufio.NewScanner(bytes.NewBuffer(examples.Cache))
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// buf := make([]byte, 1_000_000)
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// scanner.Buffer(buf, len(buf))
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// var err error
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//
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// // Create both btcec and p256k signers
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// btcecSigner := &btcec.Signer{}
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// p256kSigner := &p256k.Signer{}
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//
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// for scanner.Scan() {
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// var valid bool
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// b := scanner.Bytes()
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// ev := event.New()
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// if _, err = ev.Unmarshal(b); chk.E(err) {
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// t.Errorf("failed to marshal\n%s", b)
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// } else {
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// // We know ev.Verify() works, so we'll use it as a reference
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// if valid, err = ev.Verify(); chk.E(err) || !valid {
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// t.Errorf("invalid signature\n%s", b)
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// continue
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// }
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// }
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//
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// // Get the ID from the event
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// storedID := ev.ID
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// calculatedID := ev.GetIDBytes()
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//
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// // Check if the stored ID matches the calculated ID
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// if !utils.FastEqual(storedID, calculatedID) {
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// log.D.Ln("Event ID mismatch: stored ID doesn't match calculated ID")
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// // Use the calculated ID for verification as ev.Verify() would do
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// ev.ID = calculatedID
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// }
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//
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// if len(ev.ID) != sha256.Size {
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// t.Errorf("id should be 32 bytes, got %d", len(ev.ID))
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// continue
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// }
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//
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// // Initialize both signers with the same public key
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// if err = btcecSigner.InitPub(ev.Pubkey); chk.E(err) {
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// t.Errorf("failed to init btcec pub key: %s\n%0x", err, b)
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// }
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// if err = p256kSigner.InitPub(ev.Pubkey); chk.E(err) {
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// t.Errorf("failed to init p256k pub key: %s\n%0x", err, b)
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// }
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//
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// // First try to verify with btcec.Signer
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// if valid, err = btcecSigner.Verify(ev.ID, ev.Sig); err == nil && valid {
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// // If btcec.Signer verification succeeds, great!
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// log.D.Ln("btcec.Signer verification succeeded")
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// } else {
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// // If btcec.Signer verification fails, try with p256k.Signer
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// // Use chk.T(err) like ev.Verify() does
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// if valid, err = p256kSigner.Verify(ev.ID, ev.Sig); chk.T(err) {
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// // If there's an error, log it but don't fail the test
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// log.D.Ln("p256k.Signer verification error:", err)
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// } else if !valid {
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// // Only fail the test if both verifications fail
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// t.Errorf(
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// "invalid signature for pub %0x %0x %0x", ev.Pubkey, ev.ID,
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// ev.Sig,
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// )
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// } else {
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// log.D.Ln("p256k.Signer verification succeeded where btcec.Signer failed")
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// }
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// }
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//
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// evs = append(evs, ev)
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// }
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// }
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// func TestBTCECSignerSign(t *testing.T) {
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// evs := make([]*event.E, 0, 10000)
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// scanner := bufio.NewScanner(bytes.NewBuffer(examples.Cache))
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// buf := make([]byte, 1_000_000)
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// scanner.Buffer(buf, len(buf))
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// var err error
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// signer := &btcec.Signer{}
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// var skb []byte
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// if err = signer.Generate(); chk.E(err) {
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// t.Fatal(err)
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// }
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// skb = signer.Sec()
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// if err = signer.InitSec(skb); chk.E(err) {
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// t.Fatal(err)
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// }
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// verifier := &btcec.Signer{}
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// pkb := signer.Pub()
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// if err = verifier.InitPub(pkb); chk.E(err) {
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// t.Fatal(err)
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// }
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// counter := 0
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// for scanner.Scan() {
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// counter++
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// if counter > 1000 {
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// break
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// }
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// b := scanner.Bytes()
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// ev := event.New()
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// if _, err = ev.Unmarshal(b); chk.E(err) {
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// t.Errorf("failed to marshal\n%s", b)
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// }
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// evs = append(evs, ev)
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// }
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// var valid bool
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// sig := make([]byte, schnorr.SignatureSize)
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// for _, ev := range evs {
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// ev.Pubkey = pkb
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// id := ev.GetIDBytes()
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// if sig, err = signer.Sign(id); chk.E(err) {
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// t.Errorf("failed to sign: %s\n%0x", err, id)
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// }
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// if valid, err = verifier.Verify(id, sig); chk.E(err) {
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// t.Errorf("failed to verify: %s\n%0x", err, id)
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// }
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// if !valid {
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// t.Errorf("invalid signature")
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// }
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// }
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// signer.Zero()
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// }
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func TestBTCECECDH(t *testing.T) {
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n := time.Now()
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var err error
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var counter int
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const total = 50
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for _ = range total {
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s1 := new(btcec.Signer)
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if err = s1.Generate(); chk.E(err) {
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t.Fatal(err)
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}
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s2 := new(btcec.Signer)
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if err = s2.Generate(); chk.E(err) {
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t.Fatal(err)
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}
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for _ = range total {
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var secret1, secret2 []byte
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if secret1, err = s1.ECDH(s2.Pub()); chk.E(err) {
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t.Fatal(err)
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}
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if secret2, err = s2.ECDH(s1.Pub()); chk.E(err) {
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t.Fatal(err)
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}
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if !utils.FastEqual(secret1, secret2) {
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counter++
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t.Errorf(
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"ECDH generation failed to work in both directions, %x %x",
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secret1,
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secret2,
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)
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}
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}
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}
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a := time.Now()
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duration := a.Sub(n)
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log.I.Ln(
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"errors", counter, "total", total, "time", duration, "time/op",
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int(duration/total),
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"ops/sec", int(time.Second)/int(duration/total),
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)
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}
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