curves - Code Search

lib/fips140/v1.0.0-c2097c7c.zip

); err != nil { return nil, err } return &PublicKey{curve: c.curve, q: bytes.Clone(key)}, nil } func ECDH[P Point[P]](c *Curve[P], k *PrivateKey, peer *PublicKey) ([]byte, error) { fipsSelfTest() fips140.RecordApproved() return ecdh(c, k, peer) } func ecdh[P Point[P]](c *Curve[P], k *PrivateKey, peer *PublicKey) ([]byte, error) { if c.curve != k.pub.curve { return nil, errors.New("crypto/ecdh: mismatched curves") } if k.pub.curve != peer.curve { return nil, errors.New("crypto/ecdh: mismatched curves")...

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github.com/golang/go

lib/fips140/v1.1.0-rc1.zip

); err != nil { return nil, err } return &PublicKey{curve: c.curve, q: bytes.Clone(key)}, nil } func ECDH[P Point[P]](c *Curve[P], k *PrivateKey, peer *PublicKey) ([]byte, error) { fipsSelfTest() fips140.RecordApproved() return ecdh(c, k, peer) } func ecdh[P Point[P]](c *Curve[P], k *PrivateKey, peer *PublicKey) ([]byte, error) { if c.curve != k.pub.curve { return nil, errors.New("crypto/ecdh: mismatched curves") } if k.pub.curve != peer.curve { return nil, errors.New("crypto/ecdh: mismatched curves")...

Registered: Tue Dec 30 11:13:12 UTC 2025

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github.com/codelibs/jcifs

src/main/java/jcifs/util/transport/Transport.java

        Response curResp = response;
        Request curReq = request;
        while (curResp != null) {
            synchronized (curResp) {
                if (!curResp.isReceived()) {
                    if (timeout > 0) {
                        curResp.wait(timeout);
                        if (!curResp.isReceived() && handleIntermediate(curReq, curResp)) {
                            continue;

Registered: Sat Dec 20 13:44:44 UTC 2025

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github.com/minio/minio

internal/crypto/crypto.go

		tls.TLS_RSA_WITH_AES_256_GCM_SHA384,
		tls.TLS_RSA_WITH_AES_128_CBC_SHA,
		tls.TLS_RSA_WITH_AES_256_CBC_SHA,
	}
}

// TLSCurveIDs returns a list of supported elliptic curve IDs
// in preference order.
func TLSCurveIDs() []tls.CurveID {
	return []tls.CurveID{tls.X25519MLKEM768, tls.CurveP256, tls.X25519, tls.CurveP384, tls.CurveP521}

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github.com/golang/go

api/go1.26.txt

pkg crypto, type Encapsulator interface, Bytes() []uint8 #75300
pkg crypto, type Encapsulator interface, Encapsulate() ([]uint8, []uint8) #75300
pkg crypto/ecdh, type KeyExchanger interface { Curve, ECDH, PublicKey } #75300
pkg crypto/ecdh, type KeyExchanger interface, Curve() Curve #75300
pkg crypto/ecdh, type KeyExchanger interface, ECDH(*PublicKey) ([]uint8, error) #75300
pkg crypto/ecdh, type KeyExchanger interface, PublicKey() *PublicKey #75300

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github.com/codelibs/jcifs

src/main/java/jcifs/smb/SmbTransportImpl.java

            do {
                curReq.setResponse(curResp);

                final ServerMessageBlock nextReq = curReq.getAndx();
                if (nextReq == null) {
                    break;
                }
                final ServerMessageBlock nextResp = curResp.getAndx();

Registered: Sat Dec 20 13:44:44 UTC 2025

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github.com/tiangolo/fastapi

docs/es/docs/tutorial/body-nested-models.md

También puedes declarar un cuerpo como un `dict` con claves de algún tipo y valores de algún otro tipo.

De esta manera, no tienes que saber de antemano cuáles son los nombres válidos de campo/atributo (como sería el caso con modelos Pydantic).

Esto sería útil si deseas recibir claves que aún no conoces.

---

Otro caso útil es cuando deseas tener claves de otro tipo (por ejemplo, `int`).

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github.com/tiangolo/fastapi

docs/pt/docs/features.md

second_user_data = {
    "id": 4,
    "name": "Mary",
    "joined": "2018-11-30",
}

my_second_user: User = User(**second_user_data)
```

/// info | Informação

`**second_user_data` quer dizer:

Passe as chaves e valores do dicionário `second_user_data` diretamente como argumentos chave-valor, equivalente a: `User(id=4, name="Mary", joined="2018-11-30")`

///

### Suporte de editores { #editor-support }

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github.com/tiangolo/fastapi

docs/pt/docs/tutorial/body-fields.md

Você irá aprender mais sobre adicionar informações extras posteriormente nessa documentação, quando estiver aprendendo a declarar exemplos.

/// warning | Atenção

Chaves extras passadas para `Field` também estarão presentes no schema OpenAPI resultante da sua aplicação.

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github.com/tensorflow/tensorflow

RELEASE.md

    *   Add `tf.keras.layers.AbstractRNNCell` as the preferred implementation
        for RNN cells in TF v2. User can use it to implement RNN cells with
        custom behavior.
    *   Keras training and validation curves are shown on the same plot when
        using the TensorBoard callback.
    *   Switched Keras `fit/evaluate/predict` execution to use only a single
        unified path by default unless eager execution has been explicitly

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