//! A program that generates ca certs, certs verified by the ca, and public //! and private keys. extern crate boring_patch as boring; use boring::asn1::Asn1Time; use boring::bn::{BigNum, MsbOption}; use boring::error::ErrorStack; use boring::hash::MessageDigest; use boring::pkey::{PKey, PKeyRef, Private}; use boring::rsa::Rsa; use boring::x509::extension::{ AuthorityKeyIdentifier, BasicConstraints, KeyUsage, SubjectAlternativeName, SubjectKeyIdentifier, }; use boring::x509::{X509NameBuilder, X509Ref, X509Req, X509ReqBuilder, X509}; /// Make a CA certificate and private key fn mk_ca_cert() -> Result<(X509, PKey), ErrorStack> { let rsa = Rsa::generate(2048)?; let privkey = PKey::from_rsa(rsa)?; let mut x509_name = X509NameBuilder::new()?; x509_name.append_entry_by_text("C", "US")?; x509_name.append_entry_by_text("ST", "TX")?; x509_name.append_entry_by_text("O", "Some CA organization")?; x509_name.append_entry_by_text("CN", "ca test")?; let x509_name = x509_name.build(); let mut cert_builder = X509::builder()?; cert_builder.set_version(2)?; let serial_number = { let mut serial = BigNum::new()?; serial.rand(159, MsbOption::MAYBE_ZERO, false)?; serial.to_asn1_integer()? }; cert_builder.set_serial_number(&serial_number)?; cert_builder.set_subject_name(&x509_name)?; cert_builder.set_issuer_name(&x509_name)?; cert_builder.set_pubkey(&privkey)?; let not_before = Asn1Time::days_from_now(0)?; cert_builder.set_not_before(¬_before)?; let not_after = Asn1Time::days_from_now(365)?; cert_builder.set_not_after(¬_after)?; cert_builder.append_extension(BasicConstraints::new().critical().ca().build()?)?; cert_builder.append_extension( KeyUsage::new() .critical() .key_cert_sign() .crl_sign() .build()?, )?; let subject_key_identifier = SubjectKeyIdentifier::new().build(&cert_builder.x509v3_context(None, None))?; cert_builder.append_extension(subject_key_identifier)?; cert_builder.sign(&privkey, MessageDigest::sha256())?; let cert = cert_builder.build(); Ok((cert, privkey)) } /// Make a X509 request with the given private key fn mk_request(privkey: &PKey) -> Result { let mut req_builder = X509ReqBuilder::new()?; req_builder.set_pubkey(privkey)?; let mut x509_name = X509NameBuilder::new()?; x509_name.append_entry_by_text("C", "US")?; x509_name.append_entry_by_text("ST", "TX")?; x509_name.append_entry_by_text("O", "Some organization")?; x509_name.append_entry_by_text("CN", "www.example.com")?; let x509_name = x509_name.build(); req_builder.set_subject_name(&x509_name)?; req_builder.sign(privkey, MessageDigest::sha256())?; let req = req_builder.build(); Ok(req) } /// Make a certificate and private key signed by the given CA cert and private key fn mk_ca_signed_cert( ca_cert: &X509Ref, ca_privkey: &PKeyRef, ) -> Result<(X509, PKey), ErrorStack> { let rsa = Rsa::generate(2048)?; let privkey = PKey::from_rsa(rsa)?; let req = mk_request(&privkey)?; let mut cert_builder = X509::builder()?; cert_builder.set_version(2)?; let serial_number = { let mut serial = BigNum::new()?; serial.rand(159, MsbOption::MAYBE_ZERO, false)?; serial.to_asn1_integer()? }; cert_builder.set_serial_number(&serial_number)?; cert_builder.set_subject_name(req.subject_name())?; cert_builder.set_issuer_name(ca_cert.subject_name())?; cert_builder.set_pubkey(&privkey)?; let not_before = Asn1Time::days_from_now(0)?; cert_builder.set_not_before(¬_before)?; let not_after = Asn1Time::days_from_now(365)?; cert_builder.set_not_after(¬_after)?; cert_builder.append_extension(BasicConstraints::new().build()?)?; cert_builder.append_extension( KeyUsage::new() .critical() .non_repudiation() .digital_signature() .key_encipherment() .build()?, )?; let subject_key_identifier = SubjectKeyIdentifier::new().build(&cert_builder.x509v3_context(Some(ca_cert), None))?; cert_builder.append_extension(subject_key_identifier)?; let auth_key_identifier = AuthorityKeyIdentifier::new() .keyid(false) .issuer(false) .build(&cert_builder.x509v3_context(Some(ca_cert), None))?; cert_builder.append_extension(auth_key_identifier)?; let subject_alt_name = SubjectAlternativeName::new() .dns("*.example.com") .dns("hello.com") .build(&cert_builder.x509v3_context(Some(ca_cert), None))?; cert_builder.append_extension(subject_alt_name)?; cert_builder.sign(ca_privkey, MessageDigest::sha256())?; let cert = cert_builder.build(); Ok((cert, privkey)) } fn real_main() -> Result<(), ErrorStack> { let (ca_cert, ca_privkey) = mk_ca_cert()?; let (cert, _privkey) = mk_ca_signed_cert(&ca_cert, &ca_privkey)?; // Verify that this cert was issued by this ca match ca_cert.issued(&cert) { Ok(()) => println!("Certificate verified!"), Err(ver_err) => println!("Failed to verify certificate: {}", ver_err), }; Ok(()) } fn main() { match real_main() { Ok(()) => println!("Finished."), Err(e) => println!("Error: {}", e), }; }