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//! The standard defining the format of public key certificates.
//!
//! An `X509` certificate binds an identity to a public key, and is either
//! signed by a certificate authority (CA) or self-signed. An entity that gets
//! a hold of a certificate can both verify your identity (via a CA) and encrypt
//! data with the included public key. `X509` certificates are used in many
//! Internet protocols, including SSL/TLS, which is the basis for HTTPS,
//! the secure protocol for browsing the web.
use cfg_if::cfg_if;
use foreign_types::{ForeignType, ForeignTypeRef, Opaque};
use libc::{c_int, c_long, c_uint, c_void};
use std::cmp::{self, Ordering};
use std::convert::{TryFrom, TryInto};
use std::error::Error;
use std::ffi::{CStr, CString};
use std::fmt;
use std::marker::PhantomData;
use std::mem;
use std::net::IpAddr;
use std::path::Path;
use std::ptr;
use std::str;
use crate::asn1::{
Asn1BitStringRef, Asn1Enumerated, Asn1IntegerRef, Asn1Object, Asn1ObjectRef,
Asn1OctetStringRef, Asn1StringRef, Asn1TimeRef, Asn1Type,
};
use crate::bio::MemBioSlice;
use crate::conf::ConfRef;
use crate::error::ErrorStack;
use crate::ex_data::Index;
use crate::hash::{DigestBytes, MessageDigest};
use crate::nid::Nid;
use crate::pkey::{HasPrivate, HasPublic, PKey, PKeyRef, Public};
use crate::ssl::SslRef;
use crate::stack::{Stack, StackRef, Stackable};
use crate::string::OpensslString;
use crate::util::{self, ForeignTypeExt, ForeignTypeRefExt};
use crate::{cvt, cvt_n, cvt_p, cvt_p_const};
use openssl_macros::corresponds;
#[cfg(any(ossl102, boringssl, libressl261))]
pub mod verify;
pub mod extension;
pub mod store;
#[cfg(test)]
mod tests;
/// A type of X509 extension.
///
/// # Safety
/// The value of NID and Output must match those in OpenSSL so that
/// `Output::from_ptr_opt(*_get_ext_d2i(*, NID, ...))` is valid.
pub unsafe trait ExtensionType {
const NID: Nid;
type Output: ForeignType;
}
foreign_type_and_impl_send_sync! {
type CType = ffi::X509_STORE_CTX;
fn drop = ffi::X509_STORE_CTX_free;
/// An `X509` certificate store context.
pub struct X509StoreContext;
/// A reference to an [`X509StoreContext`].
pub struct X509StoreContextRef;
}
impl X509StoreContext {
/// Returns the index which can be used to obtain a reference to the `Ssl` associated with a
/// context.
#[corresponds(SSL_get_ex_data_X509_STORE_CTX_idx)]
pub fn ssl_idx() -> Result<Index<X509StoreContext, SslRef>, ErrorStack> {
unsafe { cvt_n(ffi::SSL_get_ex_data_X509_STORE_CTX_idx()).map(|idx| Index::from_raw(idx)) }
}
/// Creates a new `X509StoreContext` instance.
#[corresponds(X509_STORE_CTX_new)]
pub fn new() -> Result<X509StoreContext, ErrorStack> {
unsafe {
ffi::init();
cvt_p(ffi::X509_STORE_CTX_new()).map(X509StoreContext)
}
}
}
impl X509StoreContextRef {
/// Returns application data pertaining to an `X509` store context.
#[corresponds(X509_STORE_CTX_get_ex_data)]
pub fn ex_data<T>(&self, index: Index<X509StoreContext, T>) -> Option<&T> {
unsafe {
let data = ffi::X509_STORE_CTX_get_ex_data(self.as_ptr(), index.as_raw());
if data.is_null() {
None
} else {
Some(&*(data as *const T))
}
}
}
/// Returns the error code of the context.
#[corresponds(X509_STORE_CTX_get_error)]
pub fn error(&self) -> X509VerifyResult {
unsafe { X509VerifyResult::from_raw(ffi::X509_STORE_CTX_get_error(self.as_ptr())) }
}
/// Initializes this context with the given certificate, certificates chain and certificate
/// store. After initializing the context, the `with_context` closure is called with the prepared
/// context. As long as the closure is running, the context stays initialized and can be used
/// to e.g. verify a certificate. The context will be cleaned up, after the closure finished.
///
/// * `trust` - The certificate store with the trusted certificates.
/// * `cert` - The certificate that should be verified.
/// * `cert_chain` - The certificates chain.
/// * `with_context` - The closure that is called with the initialized context.
///
/// This corresponds to [`X509_STORE_CTX_init`] before calling `with_context` and to
/// [`X509_STORE_CTX_cleanup`] after calling `with_context`.
///
/// [`X509_STORE_CTX_init`]: https://www.openssl.org/docs/manmaster/crypto/X509_STORE_CTX_init.html
/// [`X509_STORE_CTX_cleanup`]: https://www.openssl.org/docs/manmaster/crypto/X509_STORE_CTX_cleanup.html
pub fn init<F, T>(
&mut self,
trust: &store::X509StoreRef,
cert: &X509Ref,
cert_chain: &StackRef<X509>,
with_context: F,
) -> Result<T, ErrorStack>
where
F: FnOnce(&mut X509StoreContextRef) -> Result<T, ErrorStack>,
{
struct Cleanup<'a>(&'a mut X509StoreContextRef);
impl Drop for Cleanup<'_> {
fn drop(&mut self) {
unsafe {
ffi::X509_STORE_CTX_cleanup(self.0.as_ptr());
}
}
}
unsafe {
cvt(ffi::X509_STORE_CTX_init(
self.as_ptr(),
trust.as_ptr(),
cert.as_ptr(),
cert_chain.as_ptr(),
))?;
let cleanup = Cleanup(self);
with_context(cleanup.0)
}
}
/// Verifies the stored certificate.
///
/// Returns `true` if verification succeeds. The `error` method will return the specific
/// validation error if the certificate was not valid.
///
/// This will only work inside of a call to `init`.
#[corresponds(X509_verify_cert)]
pub fn verify_cert(&mut self) -> Result<bool, ErrorStack> {
unsafe { cvt_n(ffi::X509_verify_cert(self.as_ptr())).map(|n| n != 0) }
}
/// Set the error code of the context.
#[corresponds(X509_STORE_CTX_set_error)]
pub fn set_error(&mut self, result: X509VerifyResult) {
unsafe {
ffi::X509_STORE_CTX_set_error(self.as_ptr(), result.as_raw());
}
}
/// Returns a reference to the certificate which caused the error or None if
/// no certificate is relevant to the error.
#[corresponds(X509_STORE_CTX_get_current_cert)]
pub fn current_cert(&self) -> Option<&X509Ref> {
unsafe {
let ptr = ffi::X509_STORE_CTX_get_current_cert(self.as_ptr());
X509Ref::from_const_ptr_opt(ptr)
}
}
/// Returns a non-negative integer representing the depth in the certificate
/// chain where the error occurred. If it is zero it occurred in the end
/// entity certificate, one if it is the certificate which signed the end
/// entity certificate and so on.
#[corresponds(X509_STORE_CTX_get_error_depth)]
pub fn error_depth(&self) -> u32 {
unsafe { ffi::X509_STORE_CTX_get_error_depth(self.as_ptr()) as u32 }
}
/// Returns a reference to a complete valid `X509` certificate chain.
#[corresponds(X509_STORE_CTX_get0_chain)]
pub fn chain(&self) -> Option<&StackRef<X509>> {
unsafe {
let chain = X509_STORE_CTX_get0_chain(self.as_ptr());
if chain.is_null() {
None
} else {
Some(StackRef::from_ptr(chain))
}
}
}
}
/// A builder used to construct an `X509`.
pub struct X509Builder(X509);
impl X509Builder {
/// Creates a new builder.
#[corresponds(X509_new)]
pub fn new() -> Result<X509Builder, ErrorStack> {
unsafe {
ffi::init();
cvt_p(ffi::X509_new()).map(|p| X509Builder(X509(p)))
}
}
/// Sets the notAfter constraint on the certificate.
#[corresponds(X509_set1_notAfter)]
pub fn set_not_after(&mut self, not_after: &Asn1TimeRef) -> Result<(), ErrorStack> {
unsafe { cvt(X509_set1_notAfter(self.0.as_ptr(), not_after.as_ptr())).map(|_| ()) }
}
/// Sets the notBefore constraint on the certificate.
#[corresponds(X509_set1_notBefore)]
pub fn set_not_before(&mut self, not_before: &Asn1TimeRef) -> Result<(), ErrorStack> {
unsafe { cvt(X509_set1_notBefore(self.0.as_ptr(), not_before.as_ptr())).map(|_| ()) }
}
/// Sets the version of the certificate.
///
/// Note that the version is zero-indexed; that is, a certificate corresponding to version 3 of
/// the X.509 standard should pass `2` to this method.
#[corresponds(X509_set_version)]
#[allow(clippy::useless_conversion)]
pub fn set_version(&mut self, version: i32) -> Result<(), ErrorStack> {
unsafe { cvt(ffi::X509_set_version(self.0.as_ptr(), version as c_long)).map(|_| ()) }
}
/// Sets the serial number of the certificate.
#[corresponds(X509_set_serialNumber)]
pub fn set_serial_number(&mut self, serial_number: &Asn1IntegerRef) -> Result<(), ErrorStack> {
unsafe {
cvt(ffi::X509_set_serialNumber(
self.0.as_ptr(),
serial_number.as_ptr(),
))
.map(|_| ())
}
}
/// Sets the issuer name of the certificate.
#[corresponds(X509_set_issuer_name)]
pub fn set_issuer_name(&mut self, issuer_name: &X509NameRef) -> Result<(), ErrorStack> {
unsafe {
cvt(ffi::X509_set_issuer_name(
self.0.as_ptr(),
issuer_name.as_ptr(),
))
.map(|_| ())
}
}
/// Sets the subject name of the certificate.
///
/// When building certificates, the `C`, `ST`, and `O` options are common when using the openssl command line tools.
/// The `CN` field is used for the common name, such as a DNS name.
///
/// ```
/// use openssl::x509::{X509, X509NameBuilder};
///
/// let mut x509_name = openssl::x509::X509NameBuilder::new().unwrap();
/// x509_name.append_entry_by_text("C", "US").unwrap();
/// x509_name.append_entry_by_text("ST", "CA").unwrap();
/// x509_name.append_entry_by_text("O", "Some organization").unwrap();
/// x509_name.append_entry_by_text("CN", "www.example.com").unwrap();
/// let x509_name = x509_name.build();
///
/// let mut x509 = openssl::x509::X509::builder().unwrap();
/// x509.set_subject_name(&x509_name).unwrap();
/// ```
#[corresponds(X509_set_subject_name)]
pub fn set_subject_name(&mut self, subject_name: &X509NameRef) -> Result<(), ErrorStack> {
unsafe {
cvt(ffi::X509_set_subject_name(
self.0.as_ptr(),
subject_name.as_ptr(),
))
.map(|_| ())
}
}
/// Sets the public key associated with the certificate.
#[corresponds(X509_set_pubkey)]
pub fn set_pubkey<T>(&mut self, key: &PKeyRef<T>) -> Result<(), ErrorStack>
where
T: HasPublic,
{
unsafe { cvt(ffi::X509_set_pubkey(self.0.as_ptr(), key.as_ptr())).map(|_| ()) }
}
/// Returns a context object which is needed to create certain X509 extension values.
///
/// Set `issuer` to `None` if the certificate will be self-signed.
#[corresponds(X509V3_set_ctx)]
pub fn x509v3_context<'a>(
&'a self,
issuer: Option<&'a X509Ref>,
conf: Option<&'a ConfRef>,
) -> X509v3Context<'a> {
unsafe {
let mut ctx = mem::zeroed();
let issuer = match issuer {
Some(issuer) => issuer.as_ptr(),
None => self.0.as_ptr(),
};
let subject = self.0.as_ptr();
ffi::X509V3_set_ctx(
&mut ctx,
issuer,
subject,
ptr::null_mut(),
ptr::null_mut(),
0,
);
// nodb case taken care of since we zeroed ctx above
if let Some(conf) = conf {
ffi::X509V3_set_nconf(&mut ctx, conf.as_ptr());
}
X509v3Context(ctx, PhantomData)
}
}
/// Adds an X509 extension value to the certificate.
///
/// This works just as `append_extension` except it takes ownership of the `X509Extension`.
pub fn append_extension(&mut self, extension: X509Extension) -> Result<(), ErrorStack> {
self.append_extension2(&extension)
}
/// Adds an X509 extension value to the certificate.
#[corresponds(X509_add_ext)]
pub fn append_extension2(&mut self, extension: &X509ExtensionRef) -> Result<(), ErrorStack> {
unsafe {
cvt(ffi::X509_add_ext(self.0.as_ptr(), extension.as_ptr(), -1))?;
Ok(())
}
}
/// Signs the certificate with a private key.
#[corresponds(X509_sign)]
pub fn sign<T>(&mut self, key: &PKeyRef<T>, hash: MessageDigest) -> Result<(), ErrorStack>
where
T: HasPrivate,
{
unsafe { cvt(ffi::X509_sign(self.0.as_ptr(), key.as_ptr(), hash.as_ptr())).map(|_| ()) }
}
/// Consumes the builder, returning the certificate.
pub fn build(self) -> X509 {
self.0
}
}
foreign_type_and_impl_send_sync! {
type CType = ffi::X509;
fn drop = ffi::X509_free;
/// An `X509` public key certificate.
pub struct X509;
/// Reference to `X509`.
pub struct X509Ref;
}
impl X509Ref {
/// Returns this certificate's subject name.
#[corresponds(X509_get_subject_name)]
pub fn subject_name(&self) -> &X509NameRef {
unsafe {
let name = ffi::X509_get_subject_name(self.as_ptr());
X509NameRef::from_const_ptr_opt(name).expect("subject name must not be null")
}
}
/// Returns the hash of the certificates subject
#[corresponds(X509_subject_name_hash)]
pub fn subject_name_hash(&self) -> u32 {
#[allow(clippy::unnecessary_cast)]
unsafe {
ffi::X509_subject_name_hash(self.as_ptr()) as u32
}
}
/// Returns this certificate's issuer name.
#[corresponds(X509_get_issuer_name)]
pub fn issuer_name(&self) -> &X509NameRef {
unsafe {
let name = ffi::X509_get_issuer_name(self.as_ptr());
X509NameRef::from_const_ptr_opt(name).expect("issuer name must not be null")
}
}
/// Returns the hash of the certificates issuer
#[corresponds(X509_issuer_name_hash)]
pub fn issuer_name_hash(&self) -> u32 {
#[allow(clippy::unnecessary_cast)]
unsafe {
ffi::X509_issuer_name_hash(self.as_ptr()) as u32
}
}
/// Returns this certificate's subject alternative name entries, if they exist.
#[corresponds(X509_get_ext_d2i)]
pub fn subject_alt_names(&self) -> Option<Stack<GeneralName>> {
unsafe {
let stack = ffi::X509_get_ext_d2i(
self.as_ptr(),
ffi::NID_subject_alt_name,
ptr::null_mut(),
ptr::null_mut(),
);
Stack::from_ptr_opt(stack as *mut _)
}
}
/// Returns this certificate's CRL distribution points, if they exist.
#[corresponds(X509_get_ext_d2i)]
pub fn crl_distribution_points(&self) -> Option<Stack<DistPoint>> {
unsafe {
let stack = ffi::X509_get_ext_d2i(
self.as_ptr(),
ffi::NID_crl_distribution_points,
ptr::null_mut(),
ptr::null_mut(),
);
Stack::from_ptr_opt(stack as *mut _)
}
}
/// Returns this certificate's issuer alternative name entries, if they exist.
#[corresponds(X509_get_ext_d2i)]
pub fn issuer_alt_names(&self) -> Option<Stack<GeneralName>> {
unsafe {
let stack = ffi::X509_get_ext_d2i(
self.as_ptr(),
ffi::NID_issuer_alt_name,
ptr::null_mut(),
ptr::null_mut(),
);
Stack::from_ptr_opt(stack as *mut _)
}
}
/// Returns this certificate's [`authority information access`] entries, if they exist.
///
/// [`authority information access`]: https://tools.ietf.org/html/rfc5280#section-4.2.2.1
#[corresponds(X509_get_ext_d2i)]
pub fn authority_info(&self) -> Option<Stack<AccessDescription>> {
unsafe {
let stack = ffi::X509_get_ext_d2i(
self.as_ptr(),
ffi::NID_info_access,
ptr::null_mut(),
ptr::null_mut(),
);
Stack::from_ptr_opt(stack as *mut _)
}
}
/// Retrieves the path length extension from a certificate, if it exists.
#[corresponds(X509_get_pathlen)]
#[cfg(any(ossl110, boringssl))]
pub fn pathlen(&self) -> Option<u32> {
let v = unsafe { ffi::X509_get_pathlen(self.as_ptr()) };
u32::try_from(v).ok()
}
/// Returns this certificate's subject key id, if it exists.
#[corresponds(X509_get0_subject_key_id)]
#[cfg(any(ossl110, boringssl))]
pub fn subject_key_id(&self) -> Option<&Asn1OctetStringRef> {
unsafe {
let data = ffi::X509_get0_subject_key_id(self.as_ptr());
Asn1OctetStringRef::from_const_ptr_opt(data)
}
}
/// Returns this certificate's authority key id, if it exists.
#[corresponds(X509_get0_authority_key_id)]
#[cfg(any(ossl110, boringssl))]
pub fn authority_key_id(&self) -> Option<&Asn1OctetStringRef> {
unsafe {
let data = ffi::X509_get0_authority_key_id(self.as_ptr());
Asn1OctetStringRef::from_const_ptr_opt(data)
}
}
/// Returns this certificate's authority issuer name entries, if they exist.
#[corresponds(X509_get0_authority_issuer)]
#[cfg(ossl111d)]
pub fn authority_issuer(&self) -> Option<&StackRef<GeneralName>> {
unsafe {
let stack = ffi::X509_get0_authority_issuer(self.as_ptr());
StackRef::from_const_ptr_opt(stack)
}
}
/// Returns this certificate's authority serial number, if it exists.
#[corresponds(X509_get0_authority_serial)]
#[cfg(ossl111d)]
pub fn authority_serial(&self) -> Option<&Asn1IntegerRef> {
unsafe {
let r = ffi::X509_get0_authority_serial(self.as_ptr());
Asn1IntegerRef::from_const_ptr_opt(r)
}
}
#[corresponds(X509_get_pubkey)]
pub fn public_key(&self) -> Result<PKey<Public>, ErrorStack> {
unsafe {
let pkey = cvt_p(ffi::X509_get_pubkey(self.as_ptr()))?;
Ok(PKey::from_ptr(pkey))
}
}
/// Returns a digest of the DER representation of the certificate.
#[corresponds(X509_digest)]
pub fn digest(&self, hash_type: MessageDigest) -> Result<DigestBytes, ErrorStack> {
unsafe {
let mut digest = DigestBytes {
buf: [0; ffi::EVP_MAX_MD_SIZE as usize],
len: ffi::EVP_MAX_MD_SIZE as usize,
};
let mut len = ffi::EVP_MAX_MD_SIZE as c_uint;
cvt(ffi::X509_digest(
self.as_ptr(),
hash_type.as_ptr(),
digest.buf.as_mut_ptr() as *mut _,
&mut len,
))?;
digest.len = len as usize;
Ok(digest)
}
}
#[deprecated(since = "0.10.9", note = "renamed to digest")]
pub fn fingerprint(&self, hash_type: MessageDigest) -> Result<Vec<u8>, ErrorStack> {
self.digest(hash_type).map(|b| b.to_vec())
}
/// Returns the certificate's Not After validity period.
#[corresponds(X509_getm_notAfter)]
pub fn not_after(&self) -> &Asn1TimeRef {
unsafe {
let date = X509_getm_notAfter(self.as_ptr());
Asn1TimeRef::from_const_ptr_opt(date).expect("not_after must not be null")
}
}
/// Returns the certificate's Not Before validity period.
#[corresponds(X509_getm_notBefore)]
pub fn not_before(&self) -> &Asn1TimeRef {
unsafe {
let date = X509_getm_notBefore(self.as_ptr());
Asn1TimeRef::from_const_ptr_opt(date).expect("not_before must not be null")
}
}
/// Returns the certificate's signature
#[corresponds(X509_get0_signature)]
pub fn signature(&self) -> &Asn1BitStringRef {
unsafe {
let mut signature = ptr::null();
X509_get0_signature(&mut signature, ptr::null_mut(), self.as_ptr());
Asn1BitStringRef::from_const_ptr_opt(signature).expect("signature must not be null")
}
}
/// Returns the certificate's signature algorithm.
#[corresponds(X509_get0_signature)]
pub fn signature_algorithm(&self) -> &X509AlgorithmRef {
unsafe {
let mut algor = ptr::null();
X509_get0_signature(ptr::null_mut(), &mut algor, self.as_ptr());
X509AlgorithmRef::from_const_ptr_opt(algor)
.expect("signature algorithm must not be null")
}
}
/// Returns the list of OCSP responder URLs specified in the certificate's Authority Information
/// Access field.
#[corresponds(X509_get1_ocsp)]
pub fn ocsp_responders(&self) -> Result<Stack<OpensslString>, ErrorStack> {
unsafe { cvt_p(ffi::X509_get1_ocsp(self.as_ptr())).map(|p| Stack::from_ptr(p)) }
}
/// Checks that this certificate issued `subject`.
#[corresponds(X509_check_issued)]
pub fn issued(&self, subject: &X509Ref) -> X509VerifyResult {
unsafe {
let r = ffi::X509_check_issued(self.as_ptr(), subject.as_ptr());
X509VerifyResult::from_raw(r)
}
}
/// Returns certificate version. If this certificate has no explicit version set, it defaults to
/// version 1.
///
/// Note that `0` return value stands for version 1, `1` for version 2 and so on.
#[corresponds(X509_get_version)]
#[cfg(ossl110)]
#[allow(clippy::unnecessary_cast)]
pub fn version(&self) -> i32 {
unsafe { ffi::X509_get_version(self.as_ptr()) as i32 }
}
/// Check if the certificate is signed using the given public key.
///
/// Only the signature is checked: no other checks (such as certificate chain validity)
/// are performed.
///
/// Returns `true` if verification succeeds.
#[corresponds(X509_verify)]
pub fn verify<T>(&self, key: &PKeyRef<T>) -> Result<bool, ErrorStack>
where
T: HasPublic,
{
unsafe { cvt_n(ffi::X509_verify(self.as_ptr(), key.as_ptr())).map(|n| n != 0) }
}
/// Returns this certificate's serial number.
#[corresponds(X509_get_serialNumber)]
pub fn serial_number(&self) -> &Asn1IntegerRef {
unsafe {
let r = ffi::X509_get_serialNumber(self.as_ptr());
Asn1IntegerRef::from_const_ptr_opt(r).expect("serial number must not be null")
}
}
/// Returns this certificate's "alias". This field is populated by
/// OpenSSL in some situations -- specifically OpenSSL will store a
/// PKCS#12 `friendlyName` in this field. This is not a part of the X.509
/// certificate itself, OpenSSL merely attaches it to this structure in
/// memory.
#[corresponds(X509_alias_get0)]
pub fn alias(&self) -> Option<&[u8]> {
unsafe {
let mut len = 0;
let ptr = ffi::X509_alias_get0(self.as_ptr(), &mut len);
if ptr.is_null() {
None
} else {
Some(util::from_raw_parts(ptr, len as usize))
}
}
}
to_pem! {
/// Serializes the certificate into a PEM-encoded X509 structure.
///
/// The output will have a header of `-----BEGIN CERTIFICATE-----`.
#[corresponds(PEM_write_bio_X509)]
to_pem,
ffi::PEM_write_bio_X509
}
to_der! {
/// Serializes the certificate into a DER-encoded X509 structure.
#[corresponds(i2d_X509)]
to_der,
ffi::i2d_X509
}
to_pem! {
/// Converts the certificate to human readable text.
#[corresponds(X509_print)]
to_text,
ffi::X509_print
}
}
impl ToOwned for X509Ref {
type Owned = X509;
fn to_owned(&self) -> X509 {
unsafe {
X509_up_ref(self.as_ptr());
X509::from_ptr(self.as_ptr())
}
}
}
impl Ord for X509Ref {
fn cmp(&self, other: &Self) -> cmp::Ordering {
// X509_cmp returns a number <0 for less than, 0 for equal and >0 for greater than.
// It can't fail if both pointers are valid, which we know is true.
let cmp = unsafe { ffi::X509_cmp(self.as_ptr(), other.as_ptr()) };
cmp.cmp(&0)
}
}
impl PartialOrd for X509Ref {
fn partial_cmp(&self, other: &Self) -> Option<cmp::Ordering> {
Some(self.cmp(other))
}
}
impl PartialOrd<X509> for X509Ref {
fn partial_cmp(&self, other: &X509) -> Option<cmp::Ordering> {
<X509Ref as PartialOrd<X509Ref>>::partial_cmp(self, other)
}
}
impl PartialEq for X509Ref {
fn eq(&self, other: &Self) -> bool {
self.cmp(other) == cmp::Ordering::Equal
}
}
impl PartialEq<X509> for X509Ref {
fn eq(&self, other: &X509) -> bool {
<X509Ref as PartialEq<X509Ref>>::eq(self, other)
}
}
impl Eq for X509Ref {}
impl X509 {
/// Returns a new builder.
pub fn builder() -> Result<X509Builder, ErrorStack> {
X509Builder::new()
}
from_pem! {
/// Deserializes a PEM-encoded X509 structure.
///
/// The input should have a header of `-----BEGIN CERTIFICATE-----`.
#[corresponds(PEM_read_bio_X509)]
from_pem,
X509,
ffi::PEM_read_bio_X509
}
from_der! {
/// Deserializes a DER-encoded X509 structure.
#[corresponds(d2i_X509)]
from_der,
X509,
ffi::d2i_X509
}
/// Deserializes a list of PEM-formatted certificates.
#[corresponds(PEM_read_bio_X509)]
pub fn stack_from_pem(pem: &[u8]) -> Result<Vec<X509>, ErrorStack> {
unsafe {
ffi::init();
let bio = MemBioSlice::new(pem)?;
let mut certs = vec![];
loop {
let r =
ffi::PEM_read_bio_X509(bio.as_ptr(), ptr::null_mut(), None, ptr::null_mut());
if r.is_null() {
let e = ErrorStack::get();
if let Some(err) = e.errors().last() {
if err.library_code() == ffi::ERR_LIB_PEM as libc::c_int
&& err.reason_code() == ffi::PEM_R_NO_START_LINE as libc::c_int
{
break;
}
}
return Err(e);
} else {
certs.push(X509(r));
}
}
Ok(certs)
}
}
}
impl Clone for X509 {
fn clone(&self) -> X509 {
X509Ref::to_owned(self)
}
}
impl fmt::Debug for X509 {
fn fmt(&self, formatter: &mut fmt::Formatter<'_>) -> fmt::Result {
let serial = match &self.serial_number().to_bn() {
Ok(bn) => match bn.to_hex_str() {
Ok(hex) => hex.to_string(),
Err(_) => "".to_string(),
},
Err(_) => "".to_string(),
};
let mut debug_struct = formatter.debug_struct("X509");
debug_struct.field("serial_number", &serial);
debug_struct.field("signature_algorithm", &self.signature_algorithm().object());
debug_struct.field("issuer", &self.issuer_name());
debug_struct.field("subject", &self.subject_name());
if let Some(subject_alt_names) = &self.subject_alt_names() {
debug_struct.field("subject_alt_names", subject_alt_names);
}
debug_struct.field("not_before", &self.not_before());
debug_struct.field("not_after", &self.not_after());
if let Ok(public_key) = &self.public_key() {
debug_struct.field("public_key", public_key);
};
// TODO: Print extensions once they are supported on the X509 struct.
debug_struct.finish()
}
}
impl AsRef<X509Ref> for X509Ref {
fn as_ref(&self) -> &X509Ref {
self
}
}
impl Stackable for X509 {
type StackType = ffi::stack_st_X509;
}
impl Ord for X509 {
fn cmp(&self, other: &Self) -> cmp::Ordering {
X509Ref::cmp(self, other)
}
}
impl PartialOrd for X509 {
fn partial_cmp(&self, other: &Self) -> Option<cmp::Ordering> {
Some(self.cmp(other))
}
}
impl PartialOrd<X509Ref> for X509 {
fn partial_cmp(&self, other: &X509Ref) -> Option<cmp::Ordering> {
X509Ref::partial_cmp(self, other)
}
}
impl PartialEq for X509 {
fn eq(&self, other: &Self) -> bool {
X509Ref::eq(self, other)
}
}
impl PartialEq<X509Ref> for X509 {
fn eq(&self, other: &X509Ref) -> bool {
X509Ref::eq(self, other)
}
}
impl Eq for X509 {}
/// A context object required to construct certain `X509` extension values.
pub struct X509v3Context<'a>(ffi::X509V3_CTX, PhantomData<(&'a X509Ref, &'a ConfRef)>);
impl X509v3Context<'_> {
pub fn as_ptr(&self) -> *mut ffi::X509V3_CTX {
&self.0 as *const _ as *mut _
}
}
foreign_type_and_impl_send_sync! {
type CType = ffi::X509_EXTENSION;
fn drop = ffi::X509_EXTENSION_free;
/// Permit additional fields to be added to an `X509` v3 certificate.
pub struct X509Extension;
/// Reference to `X509Extension`.
pub struct X509ExtensionRef;
}
impl Stackable for X509Extension {
type StackType = ffi::stack_st_X509_EXTENSION;
}
impl X509Extension {
/// Constructs an X509 extension value. See `man x509v3_config` for information on supported
/// names and their value formats.
///
/// Some extension types, such as `subjectAlternativeName`, require an `X509v3Context` to be
/// provided.
///
/// DO NOT CALL THIS WITH UNTRUSTED `value`: `value` is an OpenSSL
/// mini-language that can read arbitrary files.
///
/// See the extension module for builder types which will construct certain common extensions.
///
/// This function is deprecated, `X509Extension::new_from_der` or the
/// types in `x509::extension` should be used in its place.
#[deprecated(
note = "Use x509::extension types or new_from_der instead",
since = "0.10.51"
)]
pub fn new(
conf: Option<&ConfRef>,
context: Option<&X509v3Context<'_>>,
name: &str,
value: &str,
) -> Result<X509Extension, ErrorStack> {
let name = CString::new(name).unwrap();
let value = CString::new(value).unwrap();
let mut ctx;
unsafe {
ffi::init();
let conf = conf.map_or(ptr::null_mut(), ConfRef::as_ptr);
let context_ptr = match context {
Some(c) => c.as_ptr(),
None => {
ctx = mem::zeroed();
ffi::X509V3_set_ctx(
&mut ctx,
ptr::null_mut(),
ptr::null_mut(),
ptr::null_mut(),
ptr::null_mut(),
0,
);
&mut ctx
}
};
let name = name.as_ptr() as *mut _;
let value = value.as_ptr() as *mut _;
cvt_p(ffi::X509V3_EXT_nconf(conf, context_ptr, name, value)).map(X509Extension)
}
}
/// Constructs an X509 extension value. See `man x509v3_config` for information on supported
/// extensions and their value formats.
///
/// Some extension types, such as `nid::SUBJECT_ALTERNATIVE_NAME`, require an `X509v3Context` to
/// be provided.
///
/// DO NOT CALL THIS WITH UNTRUSTED `value`: `value` is an OpenSSL
/// mini-language that can read arbitrary files.
///
/// See the extension module for builder types which will construct certain common extensions.
///
/// This function is deprecated, `X509Extension::new_from_der` or the
/// types in `x509::extension` should be used in its place.
#[deprecated(
note = "Use x509::extension types or new_from_der instead",
since = "0.10.51"
)]
pub fn new_nid(
conf: Option<&ConfRef>,
context: Option<&X509v3Context<'_>>,
name: Nid,
value: &str,
) -> Result<X509Extension, ErrorStack> {
let value = CString::new(value).unwrap();
let mut ctx;
unsafe {
ffi::init();
let conf = conf.map_or(ptr::null_mut(), ConfRef::as_ptr);
let context_ptr = match context {
Some(c) => c.as_ptr(),
None => {
ctx = mem::zeroed();
ffi::X509V3_set_ctx(
&mut ctx,
ptr::null_mut(),
ptr::null_mut(),
ptr::null_mut(),
ptr::null_mut(),
0,
);
&mut ctx
}
};
let name = name.as_raw();
let value = value.as_ptr() as *mut _;
cvt_p(ffi::X509V3_EXT_nconf_nid(conf, context_ptr, name, value)).map(X509Extension)
}
}
/// Constructs a new X509 extension value from its OID, whether it's
/// critical, and its DER contents.
///
/// The extent structure of the DER value will vary based on the
/// extension type, and can generally be found in the RFC defining the
/// extension.
///
/// For common extension types, there are Rust APIs provided in
/// `openssl::x509::extensions` which are more ergonomic.
pub fn new_from_der(
oid: &Asn1ObjectRef,
critical: bool,
der_contents: &Asn1OctetStringRef,
) -> Result<X509Extension, ErrorStack> {
unsafe {
cvt_p(ffi::X509_EXTENSION_create_by_OBJ(
ptr::null_mut(),
oid.as_ptr(),
critical as _,
der_contents.as_ptr(),
))
.map(X509Extension)
}
}
pub(crate) unsafe fn new_internal(
nid: Nid,
critical: bool,
value: *mut c_void,
) -> Result<X509Extension, ErrorStack> {
ffi::init();
cvt_p(ffi::X509V3_EXT_i2d(nid.as_raw(), critical as _, value)).map(X509Extension)
}
/// Adds an alias for an extension
///
/// # Safety
///
/// This method modifies global state without locking and therefore is not thread safe
#[cfg(not(libressl390))]
#[corresponds(X509V3_EXT_add_alias)]
#[deprecated(
note = "Use x509::extension types or new_from_der and then this is not necessary",
since = "0.10.51"
)]
pub unsafe fn add_alias(to: Nid, from: Nid) -> Result<(), ErrorStack> {
ffi::init();
cvt(ffi::X509V3_EXT_add_alias(to.as_raw(), from.as_raw())).map(|_| ())
}
}
impl X509ExtensionRef {
to_der! {
/// Serializes the Extension to its standard DER encoding.
#[corresponds(i2d_X509_EXTENSION)]
to_der,
ffi::i2d_X509_EXTENSION
}
}
/// A builder used to construct an `X509Name`.
pub struct X509NameBuilder(X509Name);
impl X509NameBuilder {
/// Creates a new builder.
pub fn new() -> Result<X509NameBuilder, ErrorStack> {
unsafe {
ffi::init();
cvt_p(ffi::X509_NAME_new()).map(|p| X509NameBuilder(X509Name(p)))
}
}
/// Add a name entry
#[corresponds(X509_NAME_add_entry)]
#[cfg(any(ossl101, libressl350))]
pub fn append_entry(&mut self, ne: &X509NameEntryRef) -> std::result::Result<(), ErrorStack> {
unsafe {
cvt(ffi::X509_NAME_add_entry(
self.0.as_ptr(),
ne.as_ptr(),
-1,
0,
))
.map(|_| ())
}
}
/// Add a field entry by str.
#[corresponds(X509_NAME_add_entry_by_txt)]
pub fn append_entry_by_text(&mut self, field: &str, value: &str) -> Result<(), ErrorStack> {
unsafe {
let field = CString::new(field).unwrap();
assert!(value.len() <= crate::SLenType::MAX as usize);
cvt(ffi::X509_NAME_add_entry_by_txt(
self.0.as_ptr(),
field.as_ptr() as *mut _,
ffi::MBSTRING_UTF8,
value.as_ptr(),
value.len() as crate::SLenType,
-1,
0,
))
.map(|_| ())
}
}
/// Add a field entry by str with a specific type.
#[corresponds(X509_NAME_add_entry_by_txt)]
pub fn append_entry_by_text_with_type(
&mut self,
field: &str,
value: &str,
ty: Asn1Type,
) -> Result<(), ErrorStack> {
unsafe {
let field = CString::new(field).unwrap();
assert!(value.len() <= crate::SLenType::MAX as usize);
cvt(ffi::X509_NAME_add_entry_by_txt(
self.0.as_ptr(),
field.as_ptr() as *mut _,
ty.as_raw(),
value.as_ptr(),
value.len() as crate::SLenType,
-1,
0,
))
.map(|_| ())
}
}
/// Add a field entry by NID.
#[corresponds(X509_NAME_add_entry_by_NID)]
pub fn append_entry_by_nid(&mut self, field: Nid, value: &str) -> Result<(), ErrorStack> {
unsafe {
assert!(value.len() <= crate::SLenType::MAX as usize);
cvt(ffi::X509_NAME_add_entry_by_NID(
self.0.as_ptr(),
field.as_raw(),
ffi::MBSTRING_UTF8,
value.as_ptr() as *mut _,
value.len() as crate::SLenType,
-1,
0,
))
.map(|_| ())
}
}
/// Add a field entry by NID with a specific type.
#[corresponds(X509_NAME_add_entry_by_NID)]
pub fn append_entry_by_nid_with_type(
&mut self,
field: Nid,
value: &str,
ty: Asn1Type,
) -> Result<(), ErrorStack> {
unsafe {
assert!(value.len() <= crate::SLenType::MAX as usize);
cvt(ffi::X509_NAME_add_entry_by_NID(
self.0.as_ptr(),
field.as_raw(),
ty.as_raw(),
value.as_ptr() as *mut _,
value.len() as crate::SLenType,
-1,
0,
))
.map(|_| ())
}
}
/// Return an `X509Name`.
pub fn build(self) -> X509Name {
// Round-trip through bytes because OpenSSL is not const correct and
// names in a "modified" state compute various things lazily. This can
// lead to data-races because OpenSSL doesn't have locks or anything.
X509Name::from_der(&self.0.to_der().unwrap()).unwrap()
}
}
foreign_type_and_impl_send_sync! {
type CType = ffi::X509_NAME;
fn drop = ffi::X509_NAME_free;
/// The names of an `X509` certificate.
pub struct X509Name;
/// Reference to `X509Name`.
pub struct X509NameRef;
}
impl X509Name {
/// Returns a new builder.
pub fn builder() -> Result<X509NameBuilder, ErrorStack> {
X509NameBuilder::new()
}
/// Loads subject names from a file containing PEM-formatted certificates.
///
/// This is commonly used in conjunction with `SslContextBuilder::set_client_ca_list`.
pub fn load_client_ca_file<P: AsRef<Path>>(file: P) -> Result<Stack<X509Name>, ErrorStack> {
let file = CString::new(file.as_ref().as_os_str().to_str().unwrap()).unwrap();
unsafe { cvt_p(ffi::SSL_load_client_CA_file(file.as_ptr())).map(|p| Stack::from_ptr(p)) }
}
from_der! {
/// Deserializes a DER-encoded X509 name structure.
///
/// This corresponds to [`d2i_X509_NAME`].
///
/// [`d2i_X509_NAME`]: https://www.openssl.org/docs/manmaster/man3/d2i_X509_NAME.html
from_der,
X509Name,
ffi::d2i_X509_NAME
}
}
impl Stackable for X509Name {
type StackType = ffi::stack_st_X509_NAME;
}
impl X509NameRef {
/// Returns the name entries by the nid.
pub fn entries_by_nid(&self, nid: Nid) -> X509NameEntries<'_> {
X509NameEntries {
name: self,
nid: Some(nid),
loc: -1,
}
}
/// Returns an iterator over all `X509NameEntry` values
pub fn entries(&self) -> X509NameEntries<'_> {
X509NameEntries {
name: self,
nid: None,
loc: -1,
}
}
/// Compare two names, like [`Ord`] but it may fail.
///
/// With OpenSSL versions from 3.0.0 this may return an error if the underlying `X509_NAME_cmp`
/// call fails.
/// For OpenSSL versions before 3.0.0 it will never return an error, but due to a bug it may
/// spuriously return `Ordering::Less` if the `X509_NAME_cmp` call fails.
#[corresponds(X509_NAME_cmp)]
pub fn try_cmp(&self, other: &X509NameRef) -> Result<Ordering, ErrorStack> {
let cmp = unsafe { ffi::X509_NAME_cmp(self.as_ptr(), other.as_ptr()) };
if cfg!(ossl300) && cmp == -2 {
return Err(ErrorStack::get());
}
Ok(cmp.cmp(&0))
}
/// Copies the name to a new `X509Name`.
#[corresponds(X509_NAME_dup)]
#[cfg(any(boringssl, ossl110, libressl270))]
pub fn to_owned(&self) -> Result<X509Name, ErrorStack> {
unsafe { cvt_p(ffi::X509_NAME_dup(self.as_ptr())).map(|n| X509Name::from_ptr(n)) }
}
to_der! {
/// Serializes the certificate into a DER-encoded X509 name structure.
///
/// This corresponds to [`i2d_X509_NAME`].
///
/// [`i2d_X509_NAME`]: https://www.openssl.org/docs/manmaster/crypto/i2d_X509_NAME.html
to_der,
ffi::i2d_X509_NAME
}
}
impl fmt::Debug for X509NameRef {
fn fmt(&self, formatter: &mut fmt::Formatter<'_>) -> fmt::Result {
formatter.debug_list().entries(self.entries()).finish()
}
}
/// A type to destructure and examine an `X509Name`.
pub struct X509NameEntries<'a> {
name: &'a X509NameRef,
nid: Option<Nid>,
loc: c_int,
}
impl<'a> Iterator for X509NameEntries<'a> {
type Item = &'a X509NameEntryRef;
fn next(&mut self) -> Option<&'a X509NameEntryRef> {
unsafe {
match self.nid {
Some(nid) => {
// There is a `Nid` specified to search for
self.loc =
ffi::X509_NAME_get_index_by_NID(self.name.as_ptr(), nid.as_raw(), self.loc);
if self.loc == -1 {
return None;
}
}
None => {
// Iterate over all `Nid`s
self.loc += 1;
if self.loc >= ffi::X509_NAME_entry_count(self.name.as_ptr()) {
return None;
}
}
}
let entry = ffi::X509_NAME_get_entry(self.name.as_ptr(), self.loc);
Some(X509NameEntryRef::from_const_ptr_opt(entry).expect("entry must not be null"))
}
}
}
foreign_type_and_impl_send_sync! {
type CType = ffi::X509_NAME_ENTRY;
fn drop = ffi::X509_NAME_ENTRY_free;
/// A name entry associated with a `X509Name`.
pub struct X509NameEntry;
/// Reference to `X509NameEntry`.
pub struct X509NameEntryRef;
}
impl X509NameEntryRef {
/// Returns the field value of an `X509NameEntry`.
#[corresponds(X509_NAME_ENTRY_get_data)]
pub fn data(&self) -> &Asn1StringRef {
unsafe {
let data = ffi::X509_NAME_ENTRY_get_data(self.as_ptr());
Asn1StringRef::from_ptr(data)
}
}
/// Returns the `Asn1Object` value of an `X509NameEntry`.
/// This is useful for finding out about the actual `Nid` when iterating over all `X509NameEntries`.
#[corresponds(X509_NAME_ENTRY_get_object)]
pub fn object(&self) -> &Asn1ObjectRef {
unsafe {
let object = ffi::X509_NAME_ENTRY_get_object(self.as_ptr());
Asn1ObjectRef::from_ptr(object)
}
}
}
impl fmt::Debug for X509NameEntryRef {
fn fmt(&self, formatter: &mut fmt::Formatter<'_>) -> fmt::Result {
formatter.write_fmt(format_args!("{:?} = {:?}", self.object(), self.data()))
}
}
/// A builder used to construct an `X509Req`.
pub struct X509ReqBuilder(X509Req);
impl X509ReqBuilder {
/// Returns a builder for a certificate request.
#[corresponds(X509_REQ_new)]
pub fn new() -> Result<X509ReqBuilder, ErrorStack> {
unsafe {
ffi::init();
cvt_p(ffi::X509_REQ_new()).map(|p| X509ReqBuilder(X509Req(p)))
}
}
/// Set the numerical value of the version field.
#[corresponds(X509_REQ_set_version)]
#[allow(clippy::useless_conversion)]
pub fn set_version(&mut self, version: i32) -> Result<(), ErrorStack> {
unsafe {
cvt(ffi::X509_REQ_set_version(
self.0.as_ptr(),
version as c_long,
))
.map(|_| ())
}
}
/// Set the issuer name.
#[corresponds(X509_REQ_set_subject_name)]
pub fn set_subject_name(&mut self, subject_name: &X509NameRef) -> Result<(), ErrorStack> {
unsafe {
cvt(ffi::X509_REQ_set_subject_name(
self.0.as_ptr(),
subject_name.as_ptr(),
))
.map(|_| ())
}
}
/// Set the public key.
#[corresponds(X509_REQ_set_pubkey)]
pub fn set_pubkey<T>(&mut self, key: &PKeyRef<T>) -> Result<(), ErrorStack>
where
T: HasPublic,
{
unsafe { cvt(ffi::X509_REQ_set_pubkey(self.0.as_ptr(), key.as_ptr())).map(|_| ()) }
}
/// Return an `X509v3Context`. This context object can be used to construct
/// certain `X509` extensions.
pub fn x509v3_context<'a>(&'a self, conf: Option<&'a ConfRef>) -> X509v3Context<'a> {
unsafe {
let mut ctx = mem::zeroed();
ffi::X509V3_set_ctx(
&mut ctx,
ptr::null_mut(),
ptr::null_mut(),
self.0.as_ptr(),
ptr::null_mut(),
0,
);
// nodb case taken care of since we zeroed ctx above
if let Some(conf) = conf {
ffi::X509V3_set_nconf(&mut ctx, conf.as_ptr());
}
X509v3Context(ctx, PhantomData)
}
}
/// Permits any number of extension fields to be added to the certificate.
pub fn add_extensions(
&mut self,
extensions: &StackRef<X509Extension>,
) -> Result<(), ErrorStack> {
unsafe {
cvt(ffi::X509_REQ_add_extensions(
self.0.as_ptr(),
extensions.as_ptr(),
))
.map(|_| ())
}
}
/// Sign the request using a private key.
#[corresponds(X509_REQ_sign)]
pub fn sign<T>(&mut self, key: &PKeyRef<T>, hash: MessageDigest) -> Result<(), ErrorStack>
where
T: HasPrivate,
{
unsafe {
cvt(ffi::X509_REQ_sign(
self.0.as_ptr(),
key.as_ptr(),
hash.as_ptr(),
))
.map(|_| ())
}
}
/// Returns the `X509Req`.
pub fn build(self) -> X509Req {
self.0
}
}
foreign_type_and_impl_send_sync! {
type CType = ffi::X509_REQ;
fn drop = ffi::X509_REQ_free;
/// An `X509` certificate request.
pub struct X509Req;
/// Reference to `X509Req`.
pub struct X509ReqRef;
}
impl X509Req {
/// A builder for `X509Req`.
pub fn builder() -> Result<X509ReqBuilder, ErrorStack> {
X509ReqBuilder::new()
}
from_pem! {
/// Deserializes a PEM-encoded PKCS#10 certificate request structure.
///
/// The input should have a header of `-----BEGIN CERTIFICATE REQUEST-----`.
///
/// This corresponds to [`PEM_read_bio_X509_REQ`].
///
/// [`PEM_read_bio_X509_REQ`]: https://www.openssl.org/docs/manmaster/crypto/PEM_read_bio_X509_REQ.html
from_pem,
X509Req,
ffi::PEM_read_bio_X509_REQ
}
from_der! {
/// Deserializes a DER-encoded PKCS#10 certificate request structure.
///
/// This corresponds to [`d2i_X509_REQ`].
///
/// [`d2i_X509_REQ`]: https://www.openssl.org/docs/manmaster/crypto/d2i_X509_REQ.html
from_der,
X509Req,
ffi::d2i_X509_REQ
}
}
impl X509ReqRef {
to_pem! {
/// Serializes the certificate request to a PEM-encoded PKCS#10 structure.
///
/// The output will have a header of `-----BEGIN CERTIFICATE REQUEST-----`.
///
/// This corresponds to [`PEM_write_bio_X509_REQ`].
///
/// [`PEM_write_bio_X509_REQ`]: https://www.openssl.org/docs/manmaster/crypto/PEM_write_bio_X509_REQ.html
to_pem,
ffi::PEM_write_bio_X509_REQ
}
to_der! {
/// Serializes the certificate request to a DER-encoded PKCS#10 structure.
///
/// This corresponds to [`i2d_X509_REQ`].
///
/// [`i2d_X509_REQ`]: https://www.openssl.org/docs/manmaster/crypto/i2d_X509_REQ.html
to_der,
ffi::i2d_X509_REQ
}
to_pem! {
/// Converts the request to human readable text.
#[corresponds(X509_Req_print)]
to_text,
ffi::X509_REQ_print
}
/// Returns the numerical value of the version field of the certificate request.
#[corresponds(X509_REQ_get_version)]
#[allow(clippy::unnecessary_cast)]
pub fn version(&self) -> i32 {
unsafe { X509_REQ_get_version(self.as_ptr()) as i32 }
}
/// Returns the subject name of the certificate request.
#[corresponds(X509_REQ_get_subject_name)]
pub fn subject_name(&self) -> &X509NameRef {
unsafe {
let name = X509_REQ_get_subject_name(self.as_ptr());
X509NameRef::from_const_ptr_opt(name).expect("subject name must not be null")
}
}
/// Returns the public key of the certificate request.
#[corresponds(X509_REQ_get_pubkey)]
pub fn public_key(&self) -> Result<PKey<Public>, ErrorStack> {
unsafe {
let key = cvt_p(ffi::X509_REQ_get_pubkey(self.as_ptr()))?;
Ok(PKey::from_ptr(key))
}
}
/// Check if the certificate request is signed using the given public key.
///
/// Returns `true` if verification succeeds.
#[corresponds(X509_REQ_verify)]
pub fn verify<T>(&self, key: &PKeyRef<T>) -> Result<bool, ErrorStack>
where
T: HasPublic,
{
unsafe { cvt_n(ffi::X509_REQ_verify(self.as_ptr(), key.as_ptr())).map(|n| n != 0) }
}
/// Returns the extensions of the certificate request.
#[corresponds(X509_REQ_get_extensions)]
pub fn extensions(&self) -> Result<Stack<X509Extension>, ErrorStack> {
unsafe {
let extensions = cvt_p(ffi::X509_REQ_get_extensions(self.as_ptr()))?;
Ok(Stack::from_ptr(extensions))
}
}
}
/// The reason that a certificate was revoked.
#[derive(Debug, Copy, Clone, PartialEq, Eq)]
pub struct CrlReason(c_int);
#[allow(missing_docs)] // no need to document the constants
impl CrlReason {
pub const UNSPECIFIED: CrlReason = CrlReason(ffi::CRL_REASON_UNSPECIFIED);
pub const KEY_COMPROMISE: CrlReason = CrlReason(ffi::CRL_REASON_KEY_COMPROMISE);
pub const CA_COMPROMISE: CrlReason = CrlReason(ffi::CRL_REASON_CA_COMPROMISE);
pub const AFFILIATION_CHANGED: CrlReason = CrlReason(ffi::CRL_REASON_AFFILIATION_CHANGED);
pub const SUPERSEDED: CrlReason = CrlReason(ffi::CRL_REASON_SUPERSEDED);
pub const CESSATION_OF_OPERATION: CrlReason = CrlReason(ffi::CRL_REASON_CESSATION_OF_OPERATION);
pub const CERTIFICATE_HOLD: CrlReason = CrlReason(ffi::CRL_REASON_CERTIFICATE_HOLD);
pub const REMOVE_FROM_CRL: CrlReason = CrlReason(ffi::CRL_REASON_REMOVE_FROM_CRL);
pub const PRIVILEGE_WITHDRAWN: CrlReason = CrlReason(ffi::CRL_REASON_PRIVILEGE_WITHDRAWN);
pub const AA_COMPROMISE: CrlReason = CrlReason(ffi::CRL_REASON_AA_COMPROMISE);
/// Constructs an `CrlReason` from a raw OpenSSL value.
pub const fn from_raw(value: c_int) -> Self {
CrlReason(value)
}
/// Returns the raw OpenSSL value represented by this type.
pub const fn as_raw(&self) -> c_int {
self.0
}
}
foreign_type_and_impl_send_sync! {
type CType = ffi::X509_REVOKED;
fn drop = ffi::X509_REVOKED_free;
/// An `X509` certificate revocation status.
pub struct X509Revoked;
/// Reference to `X509Revoked`.
pub struct X509RevokedRef;
}
impl Stackable for X509Revoked {
type StackType = ffi::stack_st_X509_REVOKED;
}
impl X509Revoked {
from_der! {
/// Deserializes a DER-encoded certificate revocation status
#[corresponds(d2i_X509_REVOKED)]
from_der,
X509Revoked,
ffi::d2i_X509_REVOKED
}
}
impl X509RevokedRef {
to_der! {
/// Serializes the certificate request to a DER-encoded certificate revocation status
#[corresponds(d2i_X509_REVOKED)]
to_der,
ffi::i2d_X509_REVOKED
}
/// Copies the entry to a new `X509Revoked`.
#[corresponds(X509_NAME_dup)]
#[cfg(any(boringssl, ossl110, libressl270))]
pub fn to_owned(&self) -> Result<X509Revoked, ErrorStack> {
unsafe { cvt_p(ffi::X509_REVOKED_dup(self.as_ptr())).map(|n| X509Revoked::from_ptr(n)) }
}
/// Get the date that the certificate was revoked
#[corresponds(X509_REVOKED_get0_revocationDate)]
pub fn revocation_date(&self) -> &Asn1TimeRef {
unsafe {
let r = X509_REVOKED_get0_revocationDate(self.as_ptr() as *const _);
assert!(!r.is_null());
Asn1TimeRef::from_ptr(r as *mut _)
}
}
/// Get the serial number of the revoked certificate
#[corresponds(X509_REVOKED_get0_serialNumber)]
pub fn serial_number(&self) -> &Asn1IntegerRef {
unsafe {
let r = X509_REVOKED_get0_serialNumber(self.as_ptr() as *const _);
assert!(!r.is_null());
Asn1IntegerRef::from_ptr(r as *mut _)
}
}
/// Get the criticality and value of an extension.
///
/// This returns None if the extension is not present or occurs multiple times.
#[corresponds(X509_REVOKED_get_ext_d2i)]
pub fn extension<T: ExtensionType>(&self) -> Result<Option<(bool, T::Output)>, ErrorStack> {
let mut critical = -1;
let out = unsafe {
// SAFETY: self.as_ptr() is a valid pointer to an X509_REVOKED.
let ext = ffi::X509_REVOKED_get_ext_d2i(
self.as_ptr(),
T::NID.as_raw(),
&mut critical as *mut _,
ptr::null_mut(),
);
// SAFETY: Extensions's contract promises that the type returned by
// OpenSSL here is T::Output.
T::Output::from_ptr_opt(ext as *mut _)
};
match (critical, out) {
(0, Some(out)) => Ok(Some((false, out))),
(1, Some(out)) => Ok(Some((true, out))),
// -1 means the extension wasn't found, -2 means multiple were found.
(-1 | -2, _) => Ok(None),
// A critical value of 0 or 1 suggests success, but a null pointer
// was returned so something went wrong.
(0 | 1, None) => Err(ErrorStack::get()),
(c_int::MIN..=-2 | 2.., _) => panic!("OpenSSL should only return -2, -1, 0, or 1 for an extension's criticality but it returned {}", critical),
}
}
}
/// The CRL entry extension identifying the reason for revocation see [`CrlReason`],
/// this is as defined in RFC 5280 Section 5.3.1.
pub enum ReasonCode {}
// SAFETY: CertificateIssuer is defined to be a stack of GeneralName in the RFC
// and in OpenSSL.
unsafe impl ExtensionType for ReasonCode {
const NID: Nid = Nid::from_raw(ffi::NID_crl_reason);
type Output = Asn1Enumerated;
}
/// The CRL entry extension identifying the issuer of a certificate used in
/// indirect CRLs, as defined in RFC 5280 Section 5.3.3.
pub enum CertificateIssuer {}
// SAFETY: CertificateIssuer is defined to be a stack of GeneralName in the RFC
// and in OpenSSL.
unsafe impl ExtensionType for CertificateIssuer {
const NID: Nid = Nid::from_raw(ffi::NID_certificate_issuer);
type Output = Stack<GeneralName>;
}
/// The CRL extension identifying how to access information and services for the issuer of the CRL
pub enum AuthorityInformationAccess {}
// SAFETY: AuthorityInformationAccess is defined to be a stack of AccessDescription in the RFC
// and in OpenSSL.
unsafe impl ExtensionType for AuthorityInformationAccess {
const NID: Nid = Nid::from_raw(ffi::NID_info_access);
type Output = Stack<AccessDescription>;
}
foreign_type_and_impl_send_sync! {
type CType = ffi::X509_CRL;
fn drop = ffi::X509_CRL_free;
/// An `X509` certificate revocation list.
pub struct X509Crl;
/// Reference to `X509Crl`.
pub struct X509CrlRef;
}
/// The status of a certificate in a revoction list
///
/// Corresponds to the return value from the [`X509_CRL_get0_by_*`] methods.
///
/// [`X509_CRL_get0_by_*`]: https://www.openssl.org/docs/man1.1.0/man3/X509_CRL_get0_by_serial.html
pub enum CrlStatus<'a> {
/// The certificate is not present in the list
NotRevoked,
/// The certificate is in the list and is revoked
Revoked(&'a X509RevokedRef),
/// The certificate is in the list, but has the "removeFromCrl" status.
///
/// This can occur if the certificate was revoked with the "CertificateHold"
/// reason, and has since been unrevoked.
RemoveFromCrl(&'a X509RevokedRef),
}
impl<'a> CrlStatus<'a> {
// Helper used by the X509_CRL_get0_by_* methods to convert their return
// value to the status enum.
// Safety note: the returned CrlStatus must not outlive the owner of the
// revoked_entry pointer.
unsafe fn from_ffi_status(
status: c_int,
revoked_entry: *mut ffi::X509_REVOKED,
) -> CrlStatus<'a> {
match status {
0 => CrlStatus::NotRevoked,
1 => {
assert!(!revoked_entry.is_null());
CrlStatus::Revoked(X509RevokedRef::from_ptr(revoked_entry))
}
2 => {
assert!(!revoked_entry.is_null());
CrlStatus::RemoveFromCrl(X509RevokedRef::from_ptr(revoked_entry))
}
_ => unreachable!(
"{}",
"X509_CRL_get0_by_{{serial,cert}} should only return 0, 1, or 2."
),
}
}
}
impl X509Crl {
from_pem! {
/// Deserializes a PEM-encoded Certificate Revocation List
///
/// The input should have a header of `-----BEGIN X509 CRL-----`.
#[corresponds(PEM_read_bio_X509_CRL)]
from_pem,
X509Crl,
ffi::PEM_read_bio_X509_CRL
}
from_der! {
/// Deserializes a DER-encoded Certificate Revocation List
#[corresponds(d2i_X509_CRL)]
from_der,
X509Crl,
ffi::d2i_X509_CRL
}
}
impl X509CrlRef {
to_pem! {
/// Serializes the certificate request to a PEM-encoded Certificate Revocation List.
///
/// The output will have a header of `-----BEGIN X509 CRL-----`.
#[corresponds(PEM_write_bio_X509_CRL)]
to_pem,
ffi::PEM_write_bio_X509_CRL
}
to_der! {
/// Serializes the certificate request to a DER-encoded Certificate Revocation List.
#[corresponds(i2d_X509_CRL)]
to_der,
ffi::i2d_X509_CRL
}
/// Get the stack of revocation entries
pub fn get_revoked(&self) -> Option<&StackRef<X509Revoked>> {
unsafe {
let revoked = X509_CRL_get_REVOKED(self.as_ptr());
if revoked.is_null() {
None
} else {
Some(StackRef::from_ptr(revoked))
}
}
}
/// Returns the CRL's `lastUpdate` time.
#[corresponds(X509_CRL_get0_lastUpdate)]
pub fn last_update(&self) -> &Asn1TimeRef {
unsafe {
let date = X509_CRL_get0_lastUpdate(self.as_ptr());
assert!(!date.is_null());
Asn1TimeRef::from_ptr(date as *mut _)
}
}
/// Returns the CRL's `nextUpdate` time.
///
/// If the `nextUpdate` field is missing, returns `None`.
#[corresponds(X509_CRL_get0_nextUpdate)]
pub fn next_update(&self) -> Option<&Asn1TimeRef> {
unsafe {
let date = X509_CRL_get0_nextUpdate(self.as_ptr());
Asn1TimeRef::from_const_ptr_opt(date)
}
}
/// Get the revocation status of a certificate by its serial number
#[corresponds(X509_CRL_get0_by_serial)]
pub fn get_by_serial<'a>(&'a self, serial: &Asn1IntegerRef) -> CrlStatus<'a> {
unsafe {
let mut ret = ptr::null_mut::<ffi::X509_REVOKED>();
let status =
ffi::X509_CRL_get0_by_serial(self.as_ptr(), &mut ret as *mut _, serial.as_ptr());
CrlStatus::from_ffi_status(status, ret)
}
}
/// Get the revocation status of a certificate
#[corresponds(X509_CRL_get0_by_cert)]
pub fn get_by_cert<'a>(&'a self, cert: &X509) -> CrlStatus<'a> {
unsafe {
let mut ret = ptr::null_mut::<ffi::X509_REVOKED>();
let status =
ffi::X509_CRL_get0_by_cert(self.as_ptr(), &mut ret as *mut _, cert.as_ptr());
CrlStatus::from_ffi_status(status, ret)
}
}
/// Get the issuer name from the revocation list.
#[corresponds(X509_CRL_get_issuer)]
pub fn issuer_name(&self) -> &X509NameRef {
unsafe {
let name = X509_CRL_get_issuer(self.as_ptr());
assert!(!name.is_null());
X509NameRef::from_ptr(name)
}
}
/// Check if the CRL is signed using the given public key.
///
/// Only the signature is checked: no other checks (such as certificate chain validity)
/// are performed.
///
/// Returns `true` if verification succeeds.
#[corresponds(X509_CRL_verify)]
pub fn verify<T>(&self, key: &PKeyRef<T>) -> Result<bool, ErrorStack>
where
T: HasPublic,
{
unsafe { cvt_n(ffi::X509_CRL_verify(self.as_ptr(), key.as_ptr())).map(|n| n != 0) }
}
/// Get the criticality and value of an extension.
///
/// This returns None if the extension is not present or occurs multiple times.
#[corresponds(X509_CRL_get_ext_d2i)]
pub fn extension<T: ExtensionType>(&self) -> Result<Option<(bool, T::Output)>, ErrorStack> {
let mut critical = -1;
let out = unsafe {
// SAFETY: self.as_ptr() is a valid pointer to an X509_CRL.
let ext = ffi::X509_CRL_get_ext_d2i(
self.as_ptr(),
T::NID.as_raw(),
&mut critical as *mut _,
ptr::null_mut(),
);
// SAFETY: Extensions's contract promises that the type returned by
// OpenSSL here is T::Output.
T::Output::from_ptr_opt(ext as *mut _)
};
match (critical, out) {
(0, Some(out)) => Ok(Some((false, out))),
(1, Some(out)) => Ok(Some((true, out))),
// -1 means the extension wasn't found, -2 means multiple were found.
(-1 | -2, _) => Ok(None),
// A critical value of 0 or 1 suggests success, but a null pointer
// was returned so something went wrong.
(0 | 1, None) => Err(ErrorStack::get()),
(c_int::MIN..=-2 | 2.., _) => panic!("OpenSSL should only return -2, -1, 0, or 1 for an extension's criticality but it returned {}", critical),
}
}
}
/// The result of peer certificate verification.
#[derive(Copy, Clone, PartialEq, Eq)]
pub struct X509VerifyResult(c_int);
impl fmt::Debug for X509VerifyResult {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt.debug_struct("X509VerifyResult")
.field("code", &self.0)
.field("error", &self.error_string())
.finish()
}
}
impl fmt::Display for X509VerifyResult {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt.write_str(self.error_string())
}
}
impl Error for X509VerifyResult {}
impl X509VerifyResult {
/// Creates an `X509VerifyResult` from a raw error number.
///
/// # Safety
///
/// Some methods on `X509VerifyResult` are not thread safe if the error
/// number is invalid.
pub unsafe fn from_raw(err: c_int) -> X509VerifyResult {
X509VerifyResult(err)
}
/// Return the integer representation of an `X509VerifyResult`.
#[allow(clippy::trivially_copy_pass_by_ref)]
pub fn as_raw(&self) -> c_int {
self.0
}
/// Return a human readable error string from the verification error.
#[corresponds(X509_verify_cert_error_string)]
#[allow(clippy::trivially_copy_pass_by_ref)]
pub fn error_string(&self) -> &'static str {
ffi::init();
unsafe {
let s = ffi::X509_verify_cert_error_string(self.0 as c_long);
str::from_utf8(CStr::from_ptr(s).to_bytes()).unwrap()
}
}
/// Successful peer certificate verification.
pub const OK: X509VerifyResult = X509VerifyResult(ffi::X509_V_OK);
/// Application verification failure.
pub const APPLICATION_VERIFICATION: X509VerifyResult =
X509VerifyResult(ffi::X509_V_ERR_APPLICATION_VERIFICATION);
}
foreign_type_and_impl_send_sync! {
type CType = ffi::GENERAL_NAME;
fn drop = ffi::GENERAL_NAME_free;
/// An `X509` certificate alternative names.
pub struct GeneralName;
/// Reference to `GeneralName`.
pub struct GeneralNameRef;
}
impl GeneralName {
unsafe fn new(
type_: c_int,
asn1_type: Asn1Type,
value: &[u8],
) -> Result<GeneralName, ErrorStack> {
ffi::init();
let gn = GeneralName::from_ptr(cvt_p(ffi::GENERAL_NAME_new())?);
(*gn.as_ptr()).type_ = type_;
let s = cvt_p(ffi::ASN1_STRING_type_new(asn1_type.as_raw()))?;
ffi::ASN1_STRING_set(s, value.as_ptr().cast(), value.len().try_into().unwrap());
#[cfg(boringssl)]
{
(*gn.as_ptr()).d.ptr = s.cast();
}
#[cfg(not(boringssl))]
{
(*gn.as_ptr()).d = s.cast();
}
Ok(gn)
}
pub(crate) fn new_email(email: &[u8]) -> Result<GeneralName, ErrorStack> {
unsafe { GeneralName::new(ffi::GEN_EMAIL, Asn1Type::IA5STRING, email) }
}
pub(crate) fn new_dns(dns: &[u8]) -> Result<GeneralName, ErrorStack> {
unsafe { GeneralName::new(ffi::GEN_DNS, Asn1Type::IA5STRING, dns) }
}
pub(crate) fn new_uri(uri: &[u8]) -> Result<GeneralName, ErrorStack> {
unsafe { GeneralName::new(ffi::GEN_URI, Asn1Type::IA5STRING, uri) }
}
pub(crate) fn new_ip(ip: IpAddr) -> Result<GeneralName, ErrorStack> {
match ip {
IpAddr::V4(addr) => unsafe {
GeneralName::new(ffi::GEN_IPADD, Asn1Type::OCTET_STRING, &addr.octets())
},
IpAddr::V6(addr) => unsafe {
GeneralName::new(ffi::GEN_IPADD, Asn1Type::OCTET_STRING, &addr.octets())
},
}
}
pub(crate) fn new_rid(oid: Asn1Object) -> Result<GeneralName, ErrorStack> {
unsafe {
ffi::init();
let gn = cvt_p(ffi::GENERAL_NAME_new())?;
(*gn).type_ = ffi::GEN_RID;
#[cfg(boringssl)]
{
(*gn).d.registeredID = oid.as_ptr();
}
#[cfg(not(boringssl))]
{
(*gn).d = oid.as_ptr().cast();
}
mem::forget(oid);
Ok(GeneralName::from_ptr(gn))
}
}
pub(crate) fn new_other_name(oid: Asn1Object, value: &[u8]) -> Result<GeneralName, ErrorStack> {
unsafe {
ffi::init();
let typ = cvt_p(ffi::d2i_ASN1_TYPE(
ptr::null_mut(),
&mut value.as_ptr().cast(),
value.len().try_into().unwrap(),
))?;
let gn = cvt_p(ffi::GENERAL_NAME_new())?;
(*gn).type_ = ffi::GEN_OTHERNAME;
if let Err(e) = cvt(ffi::GENERAL_NAME_set0_othername(
gn,
oid.as_ptr().cast(),
typ,
)) {
ffi::GENERAL_NAME_free(gn);
return Err(e);
}
mem::forget(oid);
Ok(GeneralName::from_ptr(gn))
}
}
}
impl GeneralNameRef {
fn ia5_string(&self, ffi_type: c_int) -> Option<&str> {
unsafe {
if (*self.as_ptr()).type_ != ffi_type {
return None;
}
#[cfg(boringssl)]
let d = (*self.as_ptr()).d.ptr;
#[cfg(not(boringssl))]
let d = (*self.as_ptr()).d;
let ptr = ASN1_STRING_get0_data(d as *mut _);
let len = ffi::ASN1_STRING_length(d as *mut _);
#[allow(clippy::unnecessary_cast)]
let slice = util::from_raw_parts(ptr as *const u8, len as usize);
// IA5Strings are stated to be ASCII (specifically IA5). Hopefully
// OpenSSL checks that when loading a certificate but if not we'll
// use this instead of from_utf8_unchecked just in case.
str::from_utf8(slice).ok()
}
}
/// Returns the contents of this `GeneralName` if it is an `rfc822Name`.
pub fn email(&self) -> Option<&str> {
self.ia5_string(ffi::GEN_EMAIL)
}
/// Returns the contents of this `GeneralName` if it is a `directoryName`.
pub fn directory_name(&self) -> Option<&X509NameRef> {
unsafe {
if (*self.as_ptr()).type_ != ffi::GEN_DIRNAME {
return None;
}
#[cfg(boringssl)]
let d = (*self.as_ptr()).d.ptr;
#[cfg(not(boringssl))]
let d = (*self.as_ptr()).d;
Some(X509NameRef::from_const_ptr(d as *const _))
}
}
/// Returns the contents of this `GeneralName` if it is a `dNSName`.
pub fn dnsname(&self) -> Option<&str> {
self.ia5_string(ffi::GEN_DNS)
}
/// Returns the contents of this `GeneralName` if it is an `uniformResourceIdentifier`.
pub fn uri(&self) -> Option<&str> {
self.ia5_string(ffi::GEN_URI)
}
/// Returns the contents of this `GeneralName` if it is an `iPAddress`.
pub fn ipaddress(&self) -> Option<&[u8]> {
unsafe {
if (*self.as_ptr()).type_ != ffi::GEN_IPADD {
return None;
}
#[cfg(boringssl)]
let d: *const ffi::ASN1_STRING = std::mem::transmute((*self.as_ptr()).d);
#[cfg(not(boringssl))]
let d = (*self.as_ptr()).d;
let ptr = ASN1_STRING_get0_data(d as *mut _);
let len = ffi::ASN1_STRING_length(d as *mut _);
#[allow(clippy::unnecessary_cast)]
Some(util::from_raw_parts(ptr as *const u8, len as usize))
}
}
}
impl fmt::Debug for GeneralNameRef {
fn fmt(&self, formatter: &mut fmt::Formatter<'_>) -> fmt::Result {
if let Some(email) = self.email() {
formatter.write_str(email)
} else if let Some(dnsname) = self.dnsname() {
formatter.write_str(dnsname)
} else if let Some(uri) = self.uri() {
formatter.write_str(uri)
} else if let Some(ipaddress) = self.ipaddress() {
let address = <[u8; 16]>::try_from(ipaddress)
.map(IpAddr::from)
.or_else(|_| <[u8; 4]>::try_from(ipaddress).map(IpAddr::from));
match address {
Ok(a) => fmt::Debug::fmt(&a, formatter),
Err(_) => fmt::Debug::fmt(ipaddress, formatter),
}
} else {
formatter.write_str("(empty)")
}
}
}
impl Stackable for GeneralName {
type StackType = ffi::stack_st_GENERAL_NAME;
}
foreign_type_and_impl_send_sync! {
type CType = ffi::DIST_POINT;
fn drop = ffi::DIST_POINT_free;
/// A `X509` distribution point.
pub struct DistPoint;
/// Reference to `DistPoint`.
pub struct DistPointRef;
}
impl DistPointRef {
/// Returns the name of this distribution point if it exists
pub fn distpoint(&self) -> Option<&DistPointNameRef> {
unsafe { DistPointNameRef::from_const_ptr_opt((*self.as_ptr()).distpoint) }
}
}
foreign_type_and_impl_send_sync! {
type CType = ffi::DIST_POINT_NAME;
fn drop = ffi::DIST_POINT_NAME_free;
/// A `X509` distribution point.
pub struct DistPointName;
/// Reference to `DistPointName`.
pub struct DistPointNameRef;
}
impl DistPointNameRef {
/// Returns the contents of this DistPointName if it is a fullname.
pub fn fullname(&self) -> Option<&StackRef<GeneralName>> {
unsafe {
if (*self.as_ptr()).type_ != 0 {
return None;
}
StackRef::from_const_ptr_opt((*self.as_ptr()).name.fullname)
}
}
}
impl Stackable for DistPoint {
type StackType = ffi::stack_st_DIST_POINT;
}
foreign_type_and_impl_send_sync! {
type CType = ffi::ACCESS_DESCRIPTION;
fn drop = ffi::ACCESS_DESCRIPTION_free;
/// `AccessDescription` of certificate authority information.
pub struct AccessDescription;
/// Reference to `AccessDescription`.
pub struct AccessDescriptionRef;
}
impl AccessDescriptionRef {
/// Returns the access method OID.
pub fn method(&self) -> &Asn1ObjectRef {
unsafe { Asn1ObjectRef::from_ptr((*self.as_ptr()).method) }
}
// Returns the access location.
pub fn location(&self) -> &GeneralNameRef {
unsafe { GeneralNameRef::from_ptr((*self.as_ptr()).location) }
}
}
impl Stackable for AccessDescription {
type StackType = ffi::stack_st_ACCESS_DESCRIPTION;
}
foreign_type_and_impl_send_sync! {
type CType = ffi::X509_ALGOR;
fn drop = ffi::X509_ALGOR_free;
/// An `X509` certificate signature algorithm.
pub struct X509Algorithm;
/// Reference to `X509Algorithm`.
pub struct X509AlgorithmRef;
}
impl X509AlgorithmRef {
/// Returns the ASN.1 OID of this algorithm.
pub fn object(&self) -> &Asn1ObjectRef {
unsafe {
let mut oid = ptr::null();
X509_ALGOR_get0(&mut oid, ptr::null_mut(), ptr::null_mut(), self.as_ptr());
Asn1ObjectRef::from_const_ptr_opt(oid).expect("algorithm oid must not be null")
}
}
}
foreign_type_and_impl_send_sync! {
type CType = ffi::X509_OBJECT;
fn drop = X509_OBJECT_free;
/// An `X509` or an X509 certificate revocation list.
pub struct X509Object;
/// Reference to `X509Object`
pub struct X509ObjectRef;
}
impl X509ObjectRef {
pub fn x509(&self) -> Option<&X509Ref> {
unsafe {
let ptr = X509_OBJECT_get0_X509(self.as_ptr());
X509Ref::from_const_ptr_opt(ptr)
}
}
}
impl Stackable for X509Object {
type StackType = ffi::stack_st_X509_OBJECT;
}
cfg_if! {
if #[cfg(any(boringssl, ossl110, libressl273))] {
use ffi::{X509_getm_notAfter, X509_getm_notBefore, X509_up_ref, X509_get0_signature};
} else {
#[allow(bad_style)]
unsafe fn X509_getm_notAfter(x: *mut ffi::X509) -> *mut ffi::ASN1_TIME {
(*(*(*x).cert_info).validity).notAfter
}
#[allow(bad_style)]
unsafe fn X509_getm_notBefore(x: *mut ffi::X509) -> *mut ffi::ASN1_TIME {
(*(*(*x).cert_info).validity).notBefore
}
#[allow(bad_style)]
unsafe fn X509_up_ref(x: *mut ffi::X509) {
ffi::CRYPTO_add_lock(
&mut (*x).references,
1,
ffi::CRYPTO_LOCK_X509,
"mod.rs\0".as_ptr() as *const _,
line!() as c_int,
);
}
#[allow(bad_style)]
unsafe fn X509_get0_signature(
psig: *mut *const ffi::ASN1_BIT_STRING,
palg: *mut *const ffi::X509_ALGOR,
x: *const ffi::X509,
) {
if !psig.is_null() {
*psig = (*x).signature;
}
if !palg.is_null() {
*palg = (*x).sig_alg;
}
}
}
}
cfg_if! {
if #[cfg(any(boringssl, ossl110, libressl350))] {
use ffi::{
X509_ALGOR_get0, ASN1_STRING_get0_data, X509_STORE_CTX_get0_chain, X509_set1_notAfter,
X509_set1_notBefore, X509_REQ_get_version, X509_REQ_get_subject_name,
};
} else {
use ffi::{
ASN1_STRING_data as ASN1_STRING_get0_data,
X509_STORE_CTX_get_chain as X509_STORE_CTX_get0_chain,
X509_set_notAfter as X509_set1_notAfter,
X509_set_notBefore as X509_set1_notBefore,
};
#[allow(bad_style)]
unsafe fn X509_REQ_get_version(x: *mut ffi::X509_REQ) -> ::libc::c_long {
ffi::ASN1_INTEGER_get((*(*x).req_info).version)
}
#[allow(bad_style)]
unsafe fn X509_REQ_get_subject_name(x: *mut ffi::X509_REQ) -> *mut ::ffi::X509_NAME {
(*(*x).req_info).subject
}
#[allow(bad_style)]
unsafe fn X509_ALGOR_get0(
paobj: *mut *const ffi::ASN1_OBJECT,
pptype: *mut c_int,
pval: *mut *mut ::libc::c_void,
alg: *const ffi::X509_ALGOR,
) {
if !paobj.is_null() {
*paobj = (*alg).algorithm;
}
assert!(pptype.is_null());
assert!(pval.is_null());
}
}
}
cfg_if! {
if #[cfg(any(ossl110, boringssl, libressl270))] {
use ffi::X509_OBJECT_get0_X509;
} else {
#[allow(bad_style)]
unsafe fn X509_OBJECT_get0_X509(x: *mut ffi::X509_OBJECT) -> *mut ffi::X509 {
if (*x).type_ == ffi::X509_LU_X509 {
(*x).data.x509
} else {
ptr::null_mut()
}
}
}
}
cfg_if! {
if #[cfg(any(ossl110, libressl350, boringssl))] {
use ffi::X509_OBJECT_free;
} else {
#[allow(bad_style)]
unsafe fn X509_OBJECT_free(x: *mut ffi::X509_OBJECT) {
ffi::X509_OBJECT_free_contents(x);
ffi::CRYPTO_free(x as *mut libc::c_void);
}
}
}
cfg_if! {
if #[cfg(any(ossl110, libressl350, boringssl))] {
use ffi::{
X509_CRL_get_issuer, X509_CRL_get0_nextUpdate, X509_CRL_get0_lastUpdate,
X509_CRL_get_REVOKED,
X509_REVOKED_get0_revocationDate, X509_REVOKED_get0_serialNumber,
};
} else {
#[allow(bad_style)]
unsafe fn X509_CRL_get0_lastUpdate(x: *const ffi::X509_CRL) -> *mut ffi::ASN1_TIME {
(*(*x).crl).lastUpdate
}
#[allow(bad_style)]
unsafe fn X509_CRL_get0_nextUpdate(x: *const ffi::X509_CRL) -> *mut ffi::ASN1_TIME {
(*(*x).crl).nextUpdate
}
#[allow(bad_style)]
unsafe fn X509_CRL_get_issuer(x: *const ffi::X509_CRL) -> *mut ffi::X509_NAME {
(*(*x).crl).issuer
}
#[allow(bad_style)]
unsafe fn X509_CRL_get_REVOKED(x: *const ffi::X509_CRL) -> *mut ffi::stack_st_X509_REVOKED {
(*(*x).crl).revoked
}
#[allow(bad_style)]
unsafe fn X509_REVOKED_get0_serialNumber(x: *const ffi::X509_REVOKED) -> *mut ffi::ASN1_INTEGER {
(*x).serialNumber
}
#[allow(bad_style)]
unsafe fn X509_REVOKED_get0_revocationDate(x: *const ffi::X509_REVOKED) -> *mut ffi::ASN1_TIME {
(*x).revocationDate
}
}
}
#[derive(Copy, Clone, PartialEq, Eq)]
pub struct X509PurposeId(c_int);
impl X509PurposeId {
pub const SSL_CLIENT: X509PurposeId = X509PurposeId(ffi::X509_PURPOSE_SSL_CLIENT);
pub const SSL_SERVER: X509PurposeId = X509PurposeId(ffi::X509_PURPOSE_SSL_SERVER);
pub const NS_SSL_SERVER: X509PurposeId = X509PurposeId(ffi::X509_PURPOSE_NS_SSL_SERVER);
pub const SMIME_SIGN: X509PurposeId = X509PurposeId(ffi::X509_PURPOSE_SMIME_SIGN);
pub const SMIME_ENCRYPT: X509PurposeId = X509PurposeId(ffi::X509_PURPOSE_SMIME_ENCRYPT);
pub const CRL_SIGN: X509PurposeId = X509PurposeId(ffi::X509_PURPOSE_CRL_SIGN);
pub const ANY: X509PurposeId = X509PurposeId(ffi::X509_PURPOSE_ANY);
pub const OCSP_HELPER: X509PurposeId = X509PurposeId(ffi::X509_PURPOSE_OCSP_HELPER);
pub const TIMESTAMP_SIGN: X509PurposeId = X509PurposeId(ffi::X509_PURPOSE_TIMESTAMP_SIGN);
#[cfg(ossl320)]
pub const CODE_SIGN: X509PurposeId = X509PurposeId(ffi::X509_PURPOSE_CODE_SIGN);
/// Constructs an `X509PurposeId` from a raw OpenSSL value.
pub fn from_raw(id: c_int) -> Self {
X509PurposeId(id)
}
/// Returns the raw OpenSSL value represented by this type.
pub fn as_raw(&self) -> c_int {
self.0
}
}
/// A reference to an [`X509_PURPOSE`].
pub struct X509PurposeRef(Opaque);
/// Implements a wrapper type for the static `X509_PURPOSE` table in OpenSSL.
impl ForeignTypeRef for X509PurposeRef {
type CType = ffi::X509_PURPOSE;
}
impl X509PurposeRef {
/// Get the internal table index of an X509_PURPOSE for a given short name. Valid short
/// names include
/// - "sslclient",
/// - "sslserver",
/// - "nssslserver",
/// - "smimesign",
/// - "smimeencrypt",
/// - "crlsign",
/// - "any",
/// - "ocsphelper",
/// - "timestampsign"
///
/// The index can be used with `X509PurposeRef::from_idx()` to get the purpose.
#[allow(clippy::unnecessary_cast)]
pub fn get_by_sname(sname: &str) -> Result<c_int, ErrorStack> {
unsafe {
let sname = CString::new(sname).unwrap();
cfg_if! {
if #[cfg(any(ossl110, libressl280, boringssl))] {
let purpose = cvt_n(ffi::X509_PURPOSE_get_by_sname(sname.as_ptr() as *const _))?;
} else {
let purpose = cvt_n(ffi::X509_PURPOSE_get_by_sname(sname.as_ptr() as *mut _))?;
}
}
Ok(purpose)
}
}
/// Get an `X509PurposeRef` for a given index value. The index can be obtained from e.g.
/// `X509PurposeRef::get_by_sname()`.
#[corresponds(X509_PURPOSE_get0)]
pub fn from_idx(idx: c_int) -> Result<&'static X509PurposeRef, ErrorStack> {
unsafe {
let ptr = cvt_p_const(ffi::X509_PURPOSE_get0(idx))?;
Ok(X509PurposeRef::from_const_ptr(ptr))
}
}
/// Get the purpose value from an X509Purpose structure. This value is one of
/// - `X509_PURPOSE_SSL_CLIENT`
/// - `X509_PURPOSE_SSL_SERVER`
/// - `X509_PURPOSE_NS_SSL_SERVER`
/// - `X509_PURPOSE_SMIME_SIGN`
/// - `X509_PURPOSE_SMIME_ENCRYPT`
/// - `X509_PURPOSE_CRL_SIGN`
/// - `X509_PURPOSE_ANY`
/// - `X509_PURPOSE_OCSP_HELPER`
/// - `X509_PURPOSE_TIMESTAMP_SIGN`
pub fn purpose(&self) -> X509PurposeId {
unsafe {
cfg_if! {
if #[cfg(any(ossl110, libressl280, boringssl))] {
let x509_purpose = self.as_ptr() as *const ffi::X509_PURPOSE;
} else {
let x509_purpose = self.as_ptr() as *mut ffi::X509_PURPOSE;
}
}
X509PurposeId::from_raw(ffi::X509_PURPOSE_get_id(x509_purpose))
}
}
}