trifid/trifid-pki/src/cert.rs

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//! Manage Nebula PKI Certificates
//! This is pretty much a direct port of nebula/cert/cert.go
use std::error::Error;
use std::fmt::{Display, Formatter};
use std::net::Ipv4Addr;
use std::ops::Add;
use std::time::{Duration, SystemTime, UNIX_EPOCH};
use ed25519_dalek::{Signature, Signer, SigningKey, Verifier, VerifyingKey};
use ipnet::{Ipv4Net};
use pem::Pem;
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use quick_protobuf::{BytesReader, MessageRead, MessageWrite, Writer};
use sha2::Sha256;
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use crate::ca::NebulaCAPool;
use crate::cert_codec::{RawNebulaCertificate, RawNebulaCertificateDetails};
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use sha2::Digest;
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#[cfg(feature = "serde_derive")]
use serde::{Serialize, Deserialize};
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/// The length, in bytes, of public keys
pub const PUBLIC_KEY_LENGTH: i32 = 32;
/// The PEM banner for certificates
pub const CERT_BANNER: &str = "NEBULA CERTIFICATE";
/// The PEM banner for X25519 private keys
pub const X25519_PRIVATE_KEY_BANNER: &str = "NEBULA X25519 PRIVATE KEY";
/// The PEM banner for X25519 public keys
pub const X25519_PUBLIC_KEY_BANNER: &str = "NEBULA X25519 PUBLIC KEY";
/// The PEM banner for Ed25519 private keys
pub const ED25519_PRIVATE_KEY_BANNER: &str = "NEBULA ED25519 PRIVATE KEY";
/// The PEM banner for Ed25519 public keys
pub const ED25519_PUBLIC_KEY_BANNER: &str = "NEBULA ED25519 PUBLIC KEY";
/// A Nebula PKI certificate
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#[derive(Debug, Clone)]
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#[cfg_attr(feature = "serde_derive", derive(Serialize, Deserialize))]
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pub struct NebulaCertificate {
/// The signed data of this certificate
pub details: NebulaCertificateDetails,
/// The Ed25519 signature of this certificate
pub signature: Vec<u8>
}
/// The signed details contained in a Nebula PKI certificate
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#[derive(Debug, Clone)]
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#[cfg_attr(feature = "serde_derive", derive(Serialize, Deserialize))]
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pub struct NebulaCertificateDetails {
/// The name of the identity this certificate was issued for
pub name: String,
/// The IPv4 addresses issued to this node
pub ips: Vec<Ipv4Net>,
/// The IPv4 subnets this node is responsible for routing
pub subnets: Vec<Ipv4Net>,
/// The groups this node is a part of
pub groups: Vec<String>,
/// Certificate start date and time
pub not_before: SystemTime,
/// Certificate expiry date and time
pub not_after: SystemTime,
/// Public key
pub public_key: [u8; PUBLIC_KEY_LENGTH as usize],
/// Is this node a CA?
pub is_ca: bool,
/// SHA256 of issuer certificate. If blank, this cert is self-signed.
pub issuer: String
}
/// A list of errors that can occur parsing certificates
#[derive(Debug)]
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#[cfg_attr(feature = "serde_derive", derive(Serialize, Deserialize))]
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pub enum CertificateError {
/// Attempted to deserialize a certificate from an empty byte array
EmptyByteArray,
/// The encoded Details field is null
NilDetails,
/// The encoded Ips field is not formatted correctly
IpsNotPairs,
/// The encoded Subnets field is not formatted correctly
SubnetsNotPairs,
/// Signatures are expected to be 64 bytes but the signature on the certificate was a different length
WrongSigLength,
/// Public keys are expected to be 32 bytes but the public key on this cert is not
WrongKeyLength,
/// Certificates should have the PEM tag `NEBULA CERTIFICATE`, but this block did not
WrongPemTag,
/// This certificate either is not yet valid or has already expired
Expired,
/// The public key does not match the expected value
KeyMismatch
}
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#[cfg(not(tarpaulin_include))]
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impl Display for CertificateError {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
match self {
Self::EmptyByteArray => write!(f, "Certificate bytearray is empty"),
Self::NilDetails => write!(f, "The encoded Details field is null"),
Self::IpsNotPairs => write!(f, "encoded IPs should be in pairs, an odd number was found"),
Self::SubnetsNotPairs => write!(f, "encoded subnets should be in pairs, an odd number was found"),
Self::WrongSigLength => write!(f, "Signature should be 64 bytes but is a different size"),
Self::WrongKeyLength => write!(f, "Public keys are expected to be 32 bytes but the public key on this cert is not"),
Self::WrongPemTag => write!(f, "Certificates should have the PEM tag `NEBULA CERTIFICATE`, but this block did not"),
Self::Expired => write!(f, "This certificate either is not yet valid or has already expired"),
Self::KeyMismatch => write!(f, "Key does not match expected value")
}
}
}
impl Error for CertificateError {}
fn map_cidr_pairs(pairs: &[u32]) -> Result<Vec<Ipv4Net>, Box<dyn Error>> {
let mut res_vec = vec![];
for pair in pairs.chunks(2) {
res_vec.push(Ipv4Net::with_netmask(Ipv4Addr::from(pair[0]), Ipv4Addr::from(pair[1]))?);
}
Ok(res_vec)
}
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#[cfg(not(tarpaulin_include))]
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impl Display for NebulaCertificate {
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#[allow(clippy::unwrap_used)]
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fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
writeln!(f, "NebulaCertificate {{")?;
writeln!(f, " Details {{")?;
writeln!(f, " Name: {}", self.details.name)?;
writeln!(f, " Ips: {:?}", self.details.ips)?;
writeln!(f, " Subnets: {:?}", self.details.subnets)?;
writeln!(f, " Groups: {:?}", self.details.groups)?;
writeln!(f, " Not before: {:?}", self.details.not_before)?;
writeln!(f, " Not after: {:?}", self.details.not_after)?;
writeln!(f, " Is CA: {}", self.details.is_ca)?;
writeln!(f, " Issuer: {}", self.details.issuer)?;
writeln!(f, " Public key: {}", hex::encode(self.details.public_key))?;
writeln!(f, " }}")?;
writeln!(f, " Fingerprint: {}", self.sha256sum().unwrap())?;
writeln!(f, " Signature: {}", hex::encode(self.signature.clone()))?;
writeln!(f, "}}")
}
}
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/// Given a protobuf-encoded certificate bytearray, deserialize it into a `NebulaCertificate` object.
/// # Errors
/// This function will return an error if there is a protobuf parsing error, or if the certificate data is invalid.
/// # Panics
pub fn deserialize_nebula_certificate(bytes: &[u8]) -> Result<NebulaCertificate, Box<dyn Error>> {
if bytes.is_empty() {
return Err(CertificateError::EmptyByteArray.into())
}
let mut reader = BytesReader::from_bytes(bytes);
let raw_cert = RawNebulaCertificate::from_reader(&mut reader, bytes)?;
let details = raw_cert.Details.ok_or(CertificateError::NilDetails)?;
if details.Ips.len() % 2 != 0 {
return Err(CertificateError::IpsNotPairs.into())
}
if details.Subnets.len() % 2 != 0 {
return Err(CertificateError::SubnetsNotPairs.into())
}
let mut nebula_cert;
#[allow(clippy::cast_sign_loss)]
{
nebula_cert = NebulaCertificate {
details: NebulaCertificateDetails {
name: details.Name.to_string(),
ips: map_cidr_pairs(&details.Ips)?,
subnets: map_cidr_pairs(&details.Subnets)?,
groups: details.Groups.iter().map(std::string::ToString::to_string).collect(),
not_before: SystemTime::UNIX_EPOCH.add(Duration::from_secs(details.NotBefore as u64)),
not_after: SystemTime::UNIX_EPOCH.add(Duration::from_secs(details.NotAfter as u64)),
public_key: [0u8; 32],
is_ca: details.IsCA,
issuer: hex::encode(details.Issuer),
},
signature: vec![],
};
}
nebula_cert.signature = raw_cert.Signature;
if details.PublicKey.len() != 32 {
return Err(CertificateError::WrongKeyLength.into())
}
#[allow(clippy::unwrap_used)] { nebula_cert.details.public_key = details.PublicKey.try_into().unwrap(); }
Ok(nebula_cert)
}
/// A list of errors that can occur parsing keys
#[derive(Debug)]
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#[cfg_attr(feature = "serde_derive", derive(Serialize, Deserialize))]
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pub enum KeyError {
/// Keys should have their associated PEM tags but this had the wrong one
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WrongPemTag,
/// Ed25519 private keys are 64 bytes
Not64Bytes,
/// X25519 private keys are 32 bytes
Not32Bytes
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}
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#[cfg(not(tarpaulin_include))]
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impl Display for KeyError {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
match self {
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Self::WrongPemTag => write!(f, "Keys should have their associated PEM tags but this had the wrong one"),
Self::Not64Bytes => write!(f, "Ed25519 private keys are 64 bytes"),
Self::Not32Bytes => write!(f, "X25519 private keys are 32 bytes")
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}
}
}
impl Error for KeyError {}
/// Deserialize the first PEM block in the given byte array into a `NebulaCertificate`
/// # Errors
/// This function will return an error if the PEM data is invalid, or if there is an error parsing the certificate (see `deserialize_nebula_certificate`)
pub fn deserialize_nebula_certificate_from_pem(bytes: &[u8]) -> Result<NebulaCertificate, Box<dyn Error>> {
let pem = pem::parse(bytes)?;
if pem.tag != CERT_BANNER {
return Err(CertificateError::WrongPemTag.into())
}
deserialize_nebula_certificate(&pem.contents)
}
/// Simple helper to PEM encode an X25519 private key
pub fn serialize_x25519_private(bytes: &[u8]) -> Vec<u8> {
pem::encode(&Pem {
tag: X25519_PRIVATE_KEY_BANNER.to_string(),
contents: bytes.to_vec(),
}).as_bytes().to_vec()
}
/// Simple helper to PEM encode an X25519 public key
pub fn serialize_x25519_public(bytes: &[u8]) -> Vec<u8> {
pem::encode(&Pem {
tag: X25519_PUBLIC_KEY_BANNER.to_string(),
contents: bytes.to_vec(),
}).as_bytes().to_vec()
}
/// Attempt to deserialize a PEM encoded X25519 private key
/// # Errors
/// This function will return an error if the PEM data is invalid or has the wrong tag
pub fn deserialize_x25519_private(bytes: &[u8]) -> Result<Vec<u8>, Box<dyn Error>> {
let pem = pem::parse(bytes)?;
if pem.tag != X25519_PRIVATE_KEY_BANNER {
return Err(KeyError::WrongPemTag.into())
}
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if pem.contents.len() != 32 {
return Err(KeyError::Not32Bytes.into())
}
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Ok(pem.contents)
}
/// Attempt to deserialize a PEM encoded X25519 public key
/// # Errors
/// This function will return an error if the PEM data is invalid or has the wrong tag
pub fn deserialize_x25519_public(bytes: &[u8]) -> Result<Vec<u8>, Box<dyn Error>> {
let pem = pem::parse(bytes)?;
if pem.tag != X25519_PUBLIC_KEY_BANNER {
return Err(KeyError::WrongPemTag.into())
}
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if pem.contents.len() != 32 {
return Err(KeyError::Not32Bytes.into())
}
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Ok(pem.contents)
}
/// Simple helper to PEM encode an Ed25519 private key
pub fn serialize_ed25519_private(bytes: &[u8]) -> Vec<u8> {
pem::encode(&Pem {
tag: ED25519_PRIVATE_KEY_BANNER.to_string(),
contents: bytes.to_vec(),
}).as_bytes().to_vec()
}
/// Simple helper to PEM encode an Ed25519 public key
pub fn serialize_ed25519_public(bytes: &[u8]) -> Vec<u8> {
pem::encode(&Pem {
tag: ED25519_PUBLIC_KEY_BANNER.to_string(),
contents: bytes.to_vec(),
}).as_bytes().to_vec()
}
/// Attempt to deserialize a PEM encoded Ed25519 private key
/// # Errors
/// This function will return an error if the PEM data is invalid or has the wrong tag
pub fn deserialize_ed25519_private(bytes: &[u8]) -> Result<Vec<u8>, Box<dyn Error>> {
let pem = pem::parse(bytes)?;
if pem.tag != ED25519_PRIVATE_KEY_BANNER {
return Err(KeyError::WrongPemTag.into())
}
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if pem.contents.len() != 64 {
return Err(KeyError::Not64Bytes.into())
}
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Ok(pem.contents)
}
/// Attempt to deserialize a PEM encoded Ed25519 public key
/// # Errors
/// This function will return an error if the PEM data is invalid or has the wrong tag
pub fn deserialize_ed25519_public(bytes: &[u8]) -> Result<Vec<u8>, Box<dyn Error>> {
let pem = pem::parse(bytes)?;
if pem.tag != ED25519_PUBLIC_KEY_BANNER {
return Err(KeyError::WrongPemTag.into())
}
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if pem.contents.len() != 64 {
return Err(KeyError::Not64Bytes.into())
}
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Ok(pem.contents)
}
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/// Attempt to deserialize multiple PEM encoded Ed25519 public keys
/// # Errors
/// This function will return an error if the PEM data is invalid or has the wrong tag
pub fn deserialize_ed25519_public_many(bytes: &[u8]) -> Result<Vec<Vec<u8>>, Box<dyn Error>> {
let mut keys = vec![];
let pems = pem::parse_many(bytes)?;
for pem in pems {
if pem.tag != ED25519_PUBLIC_KEY_BANNER {
return Err(KeyError::WrongPemTag.into())
}
if pem.contents.len() != 64 {
return Err(KeyError::Not64Bytes.into())
}
keys.push(pem.contents);
}
Ok(keys)
}
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impl NebulaCertificate {
/// Sign a nebula certificate with the provided private key
/// # Errors
/// This function will return an error if the certificate could not be serialized or signed.
pub fn sign(&mut self, key: &SigningKey) -> Result<(), Box<dyn Error>> {
let mut out = Vec::new();
let mut writer = Writer::new(&mut out);
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self.get_raw_details().write_message(&mut writer)?;
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self.signature = key.sign(&out).to_vec();
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Ok(())
}
/// Verify the signature on a certificate with the provided public key
/// # Errors
/// This function will return an error if the certificate could not be serialized or the signature could not be checked.
pub fn check_signature(&self, key: &VerifyingKey) -> Result<bool, Box<dyn Error>> {
let mut out = Vec::new();
let mut writer = Writer::new(&mut out);
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self.get_raw_details().write_message(&mut writer)?;
let sig = Signature::from_slice(&self.signature)?;
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Ok(key.verify(&out, &sig).is_ok())
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}
/// Returns true if the signature is too young or too old compared to the provided time
pub fn expired(&self, time: SystemTime) -> bool {
self.details.not_before > time || self.details.not_after < time
}
/// Verify will ensure a certificate is good in all respects (expiry, group membership, signature, cert blocklist, etc)
/// # Errors
/// This function will return an error if there is an error parsing the cert or the CA pool.
pub fn verify(&self, time: SystemTime, ca_pool: &NebulaCAPool) -> Result<CertificateValidity, Box<dyn Error>> {
if ca_pool.is_blocklisted(self) {
return Ok(CertificateValidity::Blocklisted);
}
let Some(signer) = ca_pool.get_ca_for_cert(self)? else { return Ok(CertificateValidity::NotSignedByThisCAPool) };
if signer.expired(time) {
return Ok(CertificateValidity::RootCertExpired)
}
if self.expired(time) {
return Ok(CertificateValidity::CertExpired)
}
if !self.check_signature(&VerifyingKey::from_bytes(&signer.details.public_key)?)? {
return Ok(CertificateValidity::BadSignature)
}
Ok(self.check_root_constraints(signer))
}
/// Make sure that this certificate does not break any of the constraints set by the signing certificate
pub fn check_root_constraints(&self, signer: &Self) -> CertificateValidity {
// Make sure this cert doesn't expire after the signer
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println!("{:?} {:?}", signer.details.not_before, self.details.not_before);
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if signer.details.not_before < self.details.not_before {
return CertificateValidity::CertExpiresAfterSigner;
}
// Make sure this cert doesn't come into validity before the root
if signer.details.not_before > self.details.not_before {
return CertificateValidity::CertValidBeforeSigner;
}
// If the signer contains a limited set of groups, make sure this cert only has a subset of them
if !signer.details.groups.is_empty() {
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println!("root groups: {:?}, child groups: {:?}", signer.details.groups, self.details.groups);
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for group in &self.details.groups {
if !signer.details.groups.contains(group) {
return CertificateValidity::GroupNotPresentOnSigner;
}
}
}
// If the signer contains a limited set of IP ranges, make sure the cert only contains a subset
if !signer.details.ips.is_empty() {
for ip in &self.details.ips {
if !net_match(*ip, &signer.details.ips) {
return CertificateValidity::IPNotPresentOnSigner;
}
}
}
// If the signer contains a limited set of subnets, make sure the cert only contains a subset
if !signer.details.subnets.is_empty() {
for subnet in &self.details.subnets {
if !net_match(*subnet, &signer.details.subnets) {
return CertificateValidity::SubnetNotPresentOnSigner;
}
}
}
CertificateValidity::Ok
}
#[allow(clippy::unwrap_used)]
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/// Verify if the given private key corresponds to the public key contained in this certificate
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/// # Errors
/// This function will return an error if either keys are invalid.
/// # Panics
/// This function, while containing calls to unwrap, has proper bounds checking and will not panic.
pub fn verify_private_key(&self, key: &[u8]) -> Result<(), Box<dyn Error>> {
if self.details.is_ca {
// convert the keys
if key.len() != 64 {
return Err("key not 64-bytes long".into())
}
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let secret = SigningKey::from_keypair_bytes(key.try_into().unwrap())?;
let pub_key = secret.verifying_key().to_bytes();
if pub_key != self.details.public_key {
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return Err(CertificateError::KeyMismatch.into());
}
return Ok(());
}
if key.len() != 32 {
return Err("key not 32-bytes long".into())
}
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let pubkey_raw = SigningKey::from_bytes(key.try_into()?).verifying_key();
let pubkey = pubkey_raw.as_bytes();
println!("{} {}", hex::encode(pubkey), hex::encode(self.details.public_key));
if *pubkey != self.details.public_key {
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return Err(CertificateError::KeyMismatch.into());
}
Ok(())
}
/// Get a protobuf-ready raw struct, ready for serialization
#[allow(clippy::expect_used)]
#[allow(clippy::cast_possible_wrap)]
/// # Panics
/// This function will panic if time went backwards, or if the certificate contains extremely invalid data.
pub fn get_raw_details(&self) -> RawNebulaCertificateDetails {
let mut raw = RawNebulaCertificateDetails {
Name: self.details.name.clone(),
Ips: vec![],
Subnets: vec![],
Groups: self.details.groups.iter().map(std::convert::Into::into).collect(),
NotBefore: self.details.not_before.duration_since(UNIX_EPOCH).expect("Time went backwards").as_secs() as i64,
NotAfter: self.details.not_after.duration_since(UNIX_EPOCH).expect("Time went backwards").as_secs() as i64,
PublicKey: self.details.public_key.into(),
IsCA: self.details.is_ca,
Issuer: hex::decode(&self.details.issuer).expect("Issuer was not a hex-encoded value"),
};
for ip_net in &self.details.ips {
raw.Ips.push(ip_net.addr().into());
raw.Ips.push(ip_net.netmask().into());
}
for subnet in &self.details.subnets {
raw.Subnets.push(subnet.addr().into());
raw.Subnets.push(subnet.netmask().into());
}
raw
}
/// Will serialize this cert into a protobuf byte array.
/// # Errors
/// This function will return an error if protobuf was unable to serialize the data.
pub fn serialize(&self) -> Result<Vec<u8>, Box<dyn Error>> {
let raw_cert = RawNebulaCertificate {
Details: Some(self.get_raw_details()),
Signature: self.signature.clone(),
};
let mut out = vec![];
let mut writer = Writer::new(&mut out);
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raw_cert.write_message(&mut writer)?;
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Ok(out)
}
/// Will serialize this cert into a PEM byte array.
/// # Errors
/// This function will return an error if protobuf was unable to serialize the data.
pub fn serialize_to_pem(&self) -> Result<Vec<u8>, Box<dyn Error>> {
let pbuf_bytes = self.serialize()?;
Ok(pem::encode(&Pem {
tag: CERT_BANNER.to_string(),
contents: pbuf_bytes,
}).as_bytes().to_vec())
}
/// Get the fingerprint of this certificate
/// # Errors
/// This functiom will return an error if protobuf was unable to serialize the cert.
pub fn sha256sum(&self) -> Result<String, Box<dyn Error>> {
let pbuf_bytes = self.serialize()?;
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let mut hasher = Sha256::new();
hasher.update(pbuf_bytes);
Ok(hex::encode(hasher.finalize()))
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}
}
/// A list of possible errors that can happen validating a certificate
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#[derive(Eq, PartialEq, Debug)]
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#[cfg_attr(feature = "serde_derive", derive(Serialize, Deserialize))]
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pub enum CertificateValidity {
/// There are no issues with this certificate
Ok,
/// This cert has been blocklisted in the given CA pool
Blocklisted,
/// The certificate that signed this cert is expired
RootCertExpired,
/// This cert is expired
CertExpired,
/// This cert's signature is invalid
BadSignature,
/// This cert was not signed by any CAs in the CA pool
NotSignedByThisCAPool,
/// This cert expires after the signer's cert expires
CertExpiresAfterSigner,
/// This cert enters validity before the signer's cert does
CertValidBeforeSigner,
/// A group present on this certificate is not present on the signer's certificate
GroupNotPresentOnSigner,
/// An IP present on this certificate is not present on the signer's certificate
IPNotPresentOnSigner,
/// A subnet on this certificate is not present on the signer's certificate
SubnetNotPresentOnSigner
}
fn net_match(cert_ip: Ipv4Net, root_ips: &Vec<Ipv4Net>) -> bool {
for net in root_ips {
if net.contains(&cert_ip) {
return true;
}
}
false
}