Files

aho_corasick

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getrandom

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open

lib.rs

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lib.rsparking_lot.rsspinwait.rsutil.rsword_lock.rs

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errors.rslib.rs

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lib.rssoft.rstypes.rs

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quote

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lib.rsprelude.rs

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chacha.rslib.rs

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block.rserror.rsimpls.rsle.rslib.rsos.rs

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hc128.rslib.rs

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dummy_log.rserror.rslib.rsplatform.rs

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dummy_log.rslib.rslinux_android.rsrandom_device.rs

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mod.rsparse.rsprint.rsvisitor.rs

hir

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unicode_tables

age.rscase_folding_simple.rsgeneral_category.rsgrapheme_cluster_break.rsmod.rsperl_word.rsproperty_bool.rsproperty_names.rsproperty_values.rsscript.rsscript_extension.rssentence_break.rsword_break.rs

either.rserror.rslib.rsparser.rsunicode.rsutf8.rs

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arithmetic

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digest

sha1.rssha2.rs

ec

curve25519

ed25519

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ed25519.rsops.rsscalar.rsx25519.rs

suite_b

ecdsa

digest_scalar.rssigning.rsverification.rs

ops

elem.rsp256.rsp384.rs

curve.rsecdh.rsecdsa.rsops.rsprivate_key.rspublic_key.rs

curve25519.rskeys.rssuite_b.rs

io

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convert.rs

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padding.rssigning.rsverification.rs

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rustc_demangle

legacy.rslib.rsv0.rs

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common.rshandy.rshs.rsmod.rstls12.rstls13.rs

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alert.rsbase.rsccs.rscodec.rsdeframer.rsenums.rsfragmenter.rshandshake.rshsjoiner.rsmacros.rsmessage.rsmod.rspersist.rs

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scoped_tls

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serde

de

from_primitive.rsignored_any.rsimpls.rsmod.rsutf8.rsvalue.rs

private

de.rsmacros.rsmod.rsser.rs

ser

impls.rsimpossible.rsmod.rs

export.rsinteger128.rslib.rsmacros.rs

slab

lib.rs

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stream_cancel

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create_dir.rscreate_dir_all.rshard_link.rslib.rsmetadata.rsread.rsread_dir.rsread_link.rsremove_dir.rsremove_file.rsrename.rsset_permissions.rsstderr.rsstdin.rsstdout.rssymlink_metadata.rswrite.rs

tokio_io

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bytes_codec.rsdecoder.rsencoder.rslines_codec.rsmod.rs

io

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datagram.rsframe.rsincoming.rslib.rslistener.rsrecv_dgram.rssend_dgram.rsstream.rsucred.rs

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void

lib.rs

webpki

calendar.rscert.rsder.rserror.rsname.rssigned_data.rstime.rstrust_anchor_util.rsverify_cert.rswebpki.rs

windows_service

lib.rs

x11

dpms.rsglx.rsinternal.rskeysym.rslib.rslink.rsxcursor.rsxf86vmode.rsxfixes.rsxft.rsxinerama.rsxinput.rsxinput2.rsxlib.rsxlib_xcb.rsxmd.rsxmu.rsxrandr.rsxrecord.rsxrender.rsxss.rsxt.rsxtest.rs

xcb

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base.rsbig_requests.rsxc_misc.rsxkb.rsxproto.rs

base.rsbig_requests.rslib.rsxc_misc.rsxkb.rsxproto.rs

xkbcommon

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ffi.rsmod.rs

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yasna

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mod.rs

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der.rsmod.rsoid.rstime.rs

reader

error.rsmod.rs

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mod.rs

tags

mod.rs

writer

mod.rs

lib.rs

>

use crate::msgs::enums::{SignatureAlgorithm, SignatureScheme};
use crate::util;
use crate::key;
use crate::error::TLSError;

use ring::{self, signature::{self, EcdsaKeyPair, RsaKeyPair}};
use webpki;

use std::sync::Arc;
use std::mem;

/// An abstract signing key.
pub trait SigningKey : Send + Sync {
    /// Choose a `SignatureScheme` from those offered.
    ///
    /// Expresses the choice something that implements `Signer`,
    /// using the chosen scheme.
    fn choose_scheme(&self, offered: &[SignatureScheme]) -> Option<Box<dyn Signer>>;

    /// What kind of key we have.
    fn algorithm(&self) -> SignatureAlgorithm;
}

/// A thing that can sign a message.
pub trait Signer : Send + Sync {
    /// Signs `message` using the selected scheme.
    fn sign(&self, message: &[u8]) -> Result<Vec<u8>, TLSError>;

    /// Reveals which scheme will be used when you call `sign()`.
    fn get_scheme(&self) -> SignatureScheme;
}

/// A packaged-together certificate chain, matching `SigningKey` and
/// optional stapled OCSP response and/or SCT.
#[derive(Clone)]
pub struct CertifiedKey {
    /// The certificate chain.
    pub cert: Vec<key::Certificate>,

    /// The certified key.
    pub key: Arc<Box<dyn SigningKey>>,

    /// An optional OCSP response from the certificate issuer,
    /// attesting to its continued validity.
    pub ocsp: Option<Vec<u8>>,

    /// An optional collection of SCTs from CT logs, proving the
    /// certificate is included on those logs.  This must be
    /// a `SignedCertificateTimestampList` encoding; see RFC6962.
    pub sct_list: Option<Vec<u8>>,
}

impl CertifiedKey {
    /// Make a new CertifiedKey, with the given chain and key.
    ///
    /// The cert chain must not be empty. The first certificate in the chain
    /// must be the end-entity certificate.
    pub fn new(cert: Vec<key::Certificate>, key: Arc<Box<dyn SigningKey>>) -> CertifiedKey {
        CertifiedKey {
            cert,
            key,
            ocsp: None,
            sct_list: None,
        }
    }

    /// The end-entity certificate.
    pub fn end_entity_cert(&self) -> Result<&key::Certificate, ()> {
        self.cert.get(0).ok_or(())
    }

    /// Steal ownership of the certificate chain.
    pub fn take_cert(&mut self) -> Vec<key::Certificate> {
        mem::replace(&mut self.cert, Vec::new())
    }

    /// Return true if there's an OCSP response.
    pub fn has_ocsp(&self) -> bool {
        self.ocsp.is_some()
    }

    /// Steal ownership of the OCSP response.
    pub fn take_ocsp(&mut self) -> Option<Vec<u8>> {
        mem::replace(&mut self.ocsp, None)
    }

    /// Return true if there's an SCT list.
    pub fn has_sct_list(&self) -> bool {
        self.sct_list.is_some()
    }

    /// Steal ownership of the SCT list.
    pub fn take_sct_list(&mut self) -> Option<Vec<u8>> {
        mem::replace(&mut self.sct_list, None)
    }

    /// Check the certificate chain for validity:
    /// - it should be non-empty list
    /// - the first certificate should be parsable as a x509v3,
    /// - the first certificate should quote the given server name
    ///   (if provided)
    ///
    /// These checks are not security-sensitive.  They are the
    /// *server* attempting to detect accidental misconfiguration.
    pub fn cross_check_end_entity_cert(&self, name: Option<webpki::DNSNameRef>) -> Result<(), TLSError> {
        // Always reject an empty certificate chain.
        let end_entity_cert = self.end_entity_cert().map_err(|()| {
            TLSError::General("No end-entity certificate in certificate chain".to_string())
        })?;

        // Reject syntactically-invalid end-entity certificates.
        let end_entity_cert = webpki::EndEntityCert::from(end_entity_cert.as_ref()).map_err(|_| {
                TLSError::General("End-entity certificate in certificate \
                                  chain is syntactically invalid".to_string())
        })?;

        if let Some(name) = name {
            // If SNI was offered then the certificate must be valid for
            // that hostname. Note that this doesn't fully validate that the
            // certificate is valid; it only validates that the name is one
            // that the certificate is valid for, if the certificate is
            // valid.
            if end_entity_cert.verify_is_valid_for_dns_name(name).is_err() {
                return Err(TLSError::General("The server certificate is not \
                                             valid for the given name".to_string()));
            }
        }

        Ok(())
    }
}

/// Parse `der` as any supported key encoding/type, returning
/// the first which works.
pub fn any_supported_type(der: &key::PrivateKey) -> Result<Box<dyn SigningKey>, ()> {
    if let Ok(rsa) = RSASigningKey::new(der) {
        return Ok(Box::new(rsa));
    }

    any_ecdsa_type(der)
}

/// Parse `der` as any ECDSA key type, returning the first which works.
pub fn any_ecdsa_type(der: &key::PrivateKey) -> Result<Box<dyn SigningKey>, ()> {
    if let Ok(ecdsa_p256) = SingleSchemeSigningKey::new(der,
                                                        SignatureScheme::ECDSA_NISTP256_SHA256,
                                                        &signature::ECDSA_P256_SHA256_ASN1_SIGNING) {
        return Ok(Box::new(ecdsa_p256));
    }

    if let Ok(ecdsa_p384) = SingleSchemeSigningKey::new(der,
                                                        SignatureScheme::ECDSA_NISTP384_SHA384,
                                                        &signature::ECDSA_P384_SHA384_ASN1_SIGNING) {
        return Ok(Box::new(ecdsa_p384));
    }

    Err(())
}

/// A `SigningKey` for RSA-PKCS1 or RSA-PSS
pub struct RSASigningKey {
    key: Arc<RsaKeyPair>,
}

static ALL_RSA_SCHEMES: &'static [SignatureScheme] = &[
     SignatureScheme::RSA_PSS_SHA512,
     SignatureScheme::RSA_PSS_SHA384,
     SignatureScheme::RSA_PSS_SHA256,
     SignatureScheme::RSA_PKCS1_SHA512,
     SignatureScheme::RSA_PKCS1_SHA384,
     SignatureScheme::RSA_PKCS1_SHA256,
];

impl RSASigningKey {
    /// Make a new `RSASigningKey` from a DER encoding, in either
    /// PKCS#1 or PKCS#8 format.
    pub fn new(der: &key::PrivateKey) -> Result<RSASigningKey, ()> {
        RsaKeyPair::from_der(&der.0)
            .or_else(|_| RsaKeyPair::from_pkcs8(&der.0))
            .map(|s| {
                 RSASigningKey {
                     key: Arc::new(s),
                 }
            })
            .map_err(|_| ())
    }
}

impl SigningKey for RSASigningKey {
    fn choose_scheme(&self, offered: &[SignatureScheme]) -> Option<Box<dyn Signer>> {
        util::first_in_both(ALL_RSA_SCHEMES, offered)
            .map(|scheme| RSASigner::new(self.key.clone(), scheme))
    }

    fn algorithm(&self) -> SignatureAlgorithm {
        SignatureAlgorithm::RSA
    }
}

struct RSASigner {
    key: Arc<RsaKeyPair>,
    scheme: SignatureScheme,
    encoding: &'static dyn signature::RsaEncoding
}

impl RSASigner {
    fn new(key: Arc<RsaKeyPair>, scheme: SignatureScheme) -> Box<dyn Signer> {
        let encoding: &dyn signature::RsaEncoding = match scheme {
            SignatureScheme::RSA_PKCS1_SHA256 => &signature::RSA_PKCS1_SHA256,
            SignatureScheme::RSA_PKCS1_SHA384 => &signature::RSA_PKCS1_SHA384,
            SignatureScheme::RSA_PKCS1_SHA512 => &signature::RSA_PKCS1_SHA512,
            SignatureScheme::RSA_PSS_SHA256 => &signature::RSA_PSS_SHA256,
            SignatureScheme::RSA_PSS_SHA384 => &signature::RSA_PSS_SHA384,
            SignatureScheme::RSA_PSS_SHA512 => &signature::RSA_PSS_SHA512,
            _ => unreachable!(),
        };

        Box::new(RSASigner { key, scheme, encoding })
    }
}

impl Signer for RSASigner {
    fn sign(&self, message: &[u8]) -> Result<Vec<u8>, TLSError> {
        let mut sig = vec![0; self.key.public_modulus_len()];

        let rng = ring::rand::SystemRandom::new();
        self.key.sign(self.encoding, &rng, message, &mut sig)
            .map(|_| sig)
            .map_err(|_| TLSError::General("signing failed".to_string()))
    }

    fn get_scheme(&self) -> SignatureScheme {
        self.scheme
    }
}

/// A SigningKey that uses exactly one TLS-level SignatureScheme
/// and one ring-level signature::SigningAlgorithm.
///
/// Compare this to RSASigningKey, which for a particular key is
/// willing to sign with several algorithms.  This is quite poor
/// cryptography practice, but is necessary because a given RSA key
/// is expected to work in TLS1.2 (PKCS#1 signatures) and TLS1.3
/// (PSS signatures) -- nobody is willing to obtain certificates for
/// different protocol versions.
///
/// Currently this is only implemented for ECDSA keys.
struct SingleSchemeSigningKey {
    key: Arc<EcdsaKeyPair>,
    scheme: SignatureScheme,
}

impl SingleSchemeSigningKey {
    /// Make a new `ECDSASigningKey` from a DER encoding in PKCS#8 format,
    /// expecting a key usable with precisely the given signature scheme.
    pub fn new(der: &key::PrivateKey,
               scheme: SignatureScheme,
               sigalg: &'static signature::EcdsaSigningAlgorithm) -> Result<SingleSchemeSigningKey, ()> {
        EcdsaKeyPair::from_pkcs8(sigalg, &der.0)
            .map(|kp| SingleSchemeSigningKey { key: Arc::new(kp), scheme })
            .map_err(|_| ())
    }
}

impl SigningKey for SingleSchemeSigningKey {
    fn choose_scheme(&self, offered: &[SignatureScheme]) -> Option<Box<dyn Signer>> {
        if offered.contains(&self.scheme) {
            Some(Box::new(SingleSchemeSigner { key: self.key.clone(), scheme: self.scheme } ))
        } else {
            None
        }
    }

    fn algorithm(&self) -> SignatureAlgorithm {
        use crate::msgs::handshake::DecomposedSignatureScheme;
        self.scheme.sign()
    }
}

struct SingleSchemeSigner {
    key: Arc<EcdsaKeyPair>,
    scheme: SignatureScheme,
}

impl Signer for SingleSchemeSigner {
    fn sign(&self, message: &[u8]) -> Result<Vec<u8>, TLSError> {
        let rng = ring::rand::SystemRandom::new();
        self.key.sign(&rng, message)
            .map_err(|_| TLSError::General("signing failed".into()))
            .map(|sig| sig.as_ref().into())
    }

    fn get_scheme(&self) -> SignatureScheme {
        self.scheme
    }
}

/// The set of schemes we support for signatures and
/// that are allowed for TLS1.3.
pub fn supported_sign_tls13() -> &'static [SignatureScheme] {
    &[
        SignatureScheme::ECDSA_NISTP384_SHA384,
        SignatureScheme::ECDSA_NISTP256_SHA256,

        SignatureScheme::RSA_PSS_SHA512,
        SignatureScheme::RSA_PSS_SHA384,
        SignatureScheme::RSA_PSS_SHA256,

    ]
}