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//! Decoding functions for PEM-encoded data //! //! A PEM object is a container, which can store (amongst other formats) a public X.509 //! Certificate, or a CRL, etc. It contains only printable characters. //! PEM-encoded binary data is essentially a beginning and matching end tag that encloses //! base64-encoded binary data (see: //! <https://en.wikipedia.org/wiki/Privacy-enhanced_Electronic_Mail>). //! //! # Examples //! //! To parse a certificate in PEM format, first create the `Pem` object, then decode //! contents: //! //! ```rust,no_run //! use x509_parser::pem::Pem; //! use x509_parser::x509::X509Version; //! //! static IGCA_PEM: &str = "../assets/IGC_A.pem"; //! //! # fn main() { //! let data = std::fs::read(IGCA_PEM).expect("Could not read file"); //! for pem in Pem::iter_from_buffer(&data) { //! let pem = pem.expect("Reading next PEM block failed"); //! let x509 = pem.parse_x509().expect("X.509: decoding DER failed"); //! assert_eq!(x509.tbs_certificate.version, X509Version::V3); //! } //! # } //! ``` //! //! This is the most direct method to parse PEM data. //! //! Another method to parse the certificate is to use `parse_x509_pem`: //! //! ```rust,no_run //! use x509_parser::pem::parse_x509_pem; //! use x509_parser::parse_x509_certificate; //! //! static IGCA_PEM: &[u8] = include_bytes!("../assets/IGC_A.pem"); //! //! # fn main() { //! let res = parse_x509_pem(IGCA_PEM); //! match res { //! Ok((rem, pem)) => { //! assert!(rem.is_empty()); //! // //! assert_eq!(pem.label, String::from("CERTIFICATE")); //! // //! let res_x509 = parse_x509_certificate(&pem.contents); //! assert!(res_x509.is_ok()); //! }, //! _ => panic!("PEM parsing failed: {:?}", res), //! } //! # } //! ``` //! //! Note that all methods require to store the `Pem` object in a variable, mainly because decoding //! the PEM object requires allocation of buffers, and that the lifetime of X.509 certificates will //! be bound to these buffers. use crate::certificate::X509Certificate; use crate::error::{PEMError, X509Error}; use crate::parse_x509_certificate; use nom::{Err, IResult}; use std::io::{BufRead, Cursor, Seek, SeekFrom}; /// Representation of PEM data #[derive(PartialEq, Debug)] pub struct Pem { /// The PEM label pub label: String, /// The PEM decoded data pub contents: Vec<u8>, } #[deprecated(since = "0.8.3", note = "please use `parse_x509_pem` instead")] pub fn pem_to_der(i: &[u8]) -> IResult<&[u8], Pem, PEMError> { parse_x509_pem(i) } /// Read a PEM-encoded structure, and decode the base64 data /// /// Return a structure describing the PEM object: the enclosing tag, and the data. /// Allocates a new buffer for the decoded data. /// /// Note that only the *first* PEM block is decoded. To iterate all blocks from PEM data, /// use [`Pem::iter_from_buffer`]. /// /// For X.509 (`CERTIFICATE` tag), the data is a certificate, encoded in DER. To parse the /// certificate content, use `Pem::parse_x509` or `parse_x509_certificate`. pub fn parse_x509_pem(i: &[u8]) -> IResult<&'_ [u8], Pem, PEMError> { let reader = Cursor::new(i); let res = Pem::read(reader); match res { Ok((pem, bytes_read)) => Ok((&i[bytes_read..], pem)), Err(e) => Err(Err::Error(e)), } } impl Pem { /// Read the next PEM-encoded structure, and decode the base64 data /// /// Returns the certificate (encoded in DER) and the number of bytes read. /// Allocates a new buffer for the decoded data. /// /// Note that a PEM file can contain multiple PEM blocks. This function returns the /// *first* decoded object, starting from the current reader position. /// To get all objects, call this function repeatedly until `PEMError::MissingHeader` /// is returned. /// /// # Examples /// ``` /// let file = std::fs::File::open("assets/certificate.pem").unwrap(); /// let subject = x509_parser::pem::Pem::read(std::io::BufReader::new(file)) /// .unwrap().0 /// .parse_x509().unwrap() /// .tbs_certificate.subject.to_string(); /// assert_eq!(subject, "CN=lists.for-our.info"); /// ``` pub fn read(mut r: impl BufRead + Seek) -> Result<(Pem, usize), PEMError> { let mut line = String::new(); let label = loop { let num_bytes = r.read_line(&mut line)?; if num_bytes == 0 { // EOF return Err(PEMError::MissingHeader); } if !line.starts_with("-----BEGIN ") { line.clear(); continue; } let mut iter = line.split_whitespace(); let label = iter.nth(1).ok_or(PEMError::InvalidHeader)?; break label; }; let label = label.split('-').next().ok_or(PEMError::InvalidHeader)?; let mut s = String::new(); loop { let mut l = String::new(); let num_bytes = r.read_line(&mut l)?; if num_bytes == 0 { return Err(PEMError::IncompletePEM); } if l.starts_with("-----END ") { // finished reading break; } s.push_str(l.trim_end()); } let contents = base64::decode(&s).or(Err(PEMError::Base64DecodeError))?; let pem = Pem { label: label.to_string(), contents, }; Ok((pem, r.seek(SeekFrom::Current(0))? as usize)) } /// Decode the PEM contents into a X.509 object pub fn parse_x509(&self) -> Result<X509Certificate, ::nom::Err<X509Error>> { parse_x509_certificate(&self.contents).map(|(_, x509)| x509) } /// Returns an iterator over the PEM-encapsulated parts of a buffer /// /// Only the sections enclosed in blocks starting with `-----BEGIN xxx-----` /// and ending with `-----END xxx-----` will be considered. /// Lines before, between or after such blocks will be ignored. /// /// The iterator is fallible: `next()` returns a `Result<Pem, PEMError>` object. /// An error indicates a block is present but invalid. /// /// If the buffer does not contain any block, iterator will be empty. pub fn iter_from_buffer(i: &[u8]) -> PemIterator<Cursor<&[u8]>> { let reader = Cursor::new(i); PemIterator { reader } } /// Returns an iterator over the PEM-encapsulated parts of a reader /// /// Only the sections enclosed in blocks starting with `-----BEGIN xxx-----` /// and ending with `-----END xxx-----` will be considered. /// Lines before, between or after such blocks will be ignored. /// /// The iterator is fallible: `next()` returns a `Result<Pem, PEMError>` object. /// An error indicates a block is present but invalid. /// /// If the reader does not contain any block, iterator will be empty. pub fn iter_from_reader<R: BufRead + Seek>(reader: R) -> PemIterator<R> { PemIterator { reader } } } /// Iterator over PEM-encapsulated blocks /// /// Only the sections enclosed in blocks starting with `-----BEGIN xxx-----` /// and ending with `-----END xxx-----` will be considered. /// Lines before, between or after such blocks will be ignored. /// /// The iterator is fallible: `next()` returns a `Result<Pem, PEMError>` object. /// An error indicates a block is present but invalid. /// /// If the buffer does not contain any block, iterator will be empty. #[allow(missing_debug_implementations)] pub struct PemIterator<Reader: BufRead + Seek> { reader: Reader, } impl<R: BufRead + Seek> Iterator for PemIterator<R> { type Item = Result<Pem, PEMError>; fn next(&mut self) -> Option<Self::Item> { if let Ok(&[]) = self.reader.fill_buf() { return None; } let reader = self.reader.by_ref(); let r = Pem::read(reader).map(|(pem, _)| pem); if let Err(PEMError::MissingHeader) = r { None } else { Some(r) } } } #[cfg(test)] mod tests { use super::*; #[test] fn read_pem_from_file() { let file = std::io::BufReader::new(std::fs::File::open("assets/certificate.pem").unwrap()); let subject = Pem::read(file) .unwrap() .0 .parse_x509() .unwrap() .tbs_certificate .subject .to_string(); assert_eq!(subject, "CN=lists.for-our.info"); } }