sloppy-rfc4880-0.1.5/.gitignore010064400017500001750000000000361346076675600143730ustar0000000000000000/target **/*.rs.bk Cargo.lock sloppy-rfc4880-0.1.5/.travis.yml010064400017500001750000000001651346076675600145170ustar0000000000000000language: rust script: - cargo build --verbose --all - cargo build --verbose --examples - cargo test --verbose --all sloppy-rfc4880-0.1.5/Cargo.toml.orig010064400017500001750000000012621350357044000152510ustar0000000000000000[package] name = "sloppy-rfc4880" version = "0.1.5" description = "RFC 4880 parser extract from the openpgp crate" authors = ["Pierre-Étienne Meunier ", "kpcyrd "] license = "Apache-2.0" repository = "https://github.com/kpcyrd/sloppy-rfc4880" keywords = ["rfc4880", "pgp", "gpg", "gnupg", "openpgp"] categories = ["parser-implementations"] readme = "README.md" edition = "2018" [badges] travis-ci = { repository = "kpcyrd/sloppy-rfc4880" } [dependencies] log = "0.4" byteorder = "1.2" failure = "0.1" base64 = "0.10" serde = { version="1.0", features=["derive"] } hex = "0.3.2" sha-1 = "0.8.1" [dev-dependencies] env_logger = "0.6" bytes = "0.4.10" sloppy-rfc4880-0.1.5/Cargo.toml0000644000000025330000000000000115210ustar00# THIS FILE IS AUTOMATICALLY GENERATED BY CARGO # # When uploading crates to the registry Cargo will automatically # "normalize" Cargo.toml files for maximal compatibility # with all versions of Cargo and also rewrite `path` dependencies # to registry (e.g. crates.io) dependencies # # If you believe there's an error in this file please file an # issue against the rust-lang/cargo repository. If you're # editing this file be aware that the upstream Cargo.toml # will likely look very different (and much more reasonable) [package] edition = "2018" name = "sloppy-rfc4880" version = "0.1.5" authors = ["Pierre-Étienne Meunier ", "kpcyrd "] description = "RFC 4880 parser extract from the openpgp crate" readme = "README.md" keywords = ["rfc4880", "pgp", "gpg", "gnupg", "openpgp"] categories = ["parser-implementations"] license = "Apache-2.0" repository = "https://github.com/kpcyrd/sloppy-rfc4880" [dependencies.base64] version = "0.10" [dependencies.byteorder] version = "1.2" [dependencies.failure] version = "0.1" [dependencies.hex] version = "0.3.2" [dependencies.log] version = "0.4" [dependencies.serde] version = "1.0" features = ["derive"] [dependencies.sha-1] version = "0.8.1" [dev-dependencies.bytes] version = "0.4.10" [dev-dependencies.env_logger] version = "0.6" [badges.travis-ci] repository = "kpcyrd/sloppy-rfc4880" sloppy-rfc4880-0.1.5/Cargo.toml.orig0000644000000025340000000000000124610ustar00# THIS FILE IS AUTOMATICALLY GENERATED BY CARGO # # When uploading crates to the registry Cargo will automatically # "normalize" Cargo.toml files for maximal compatibility # with all versions of Cargo and also rewrite `path` dependencies # to registry (e.g., crates.io) dependencies # # If you believe there's an error in this file please file an # issue against the rust-lang/cargo repository. If you're # editing this file be aware that the upstream Cargo.toml # will likely look very different (and much more reasonable) [package] edition = "2018" name = "sloppy-rfc4880" version = "0.1.5" authors = ["Pierre-Étienne Meunier ", "kpcyrd "] description = "RFC 4880 parser extract from the openpgp crate" readme = "README.md" keywords = ["rfc4880", "pgp", "gpg", "gnupg", "openpgp"] categories = ["parser-implementations"] license = "Apache-2.0" repository = "https://github.com/kpcyrd/sloppy-rfc4880" [dependencies.base64] version = "0.10" [dependencies.byteorder] version = "1.2" [dependencies.failure] version = "0.1" [dependencies.hex] version = "0.3.2" [dependencies.log] version = "0.4" [dependencies.serde] version = "1.0" features = ["derive"] [dependencies.sha-1] version = "0.8.1" [dev-dependencies.bytes] version = "0.4.10" [dev-dependencies.env_logger] version = "0.6" [badges.travis-ci] repository = "kpcyrd/sloppy-rfc4880" sloppy-rfc4880-0.1.5/LICENSE010064400017500001750000000261351346076675600134200ustar0000000000000000 Apache License Version 2.0, January 2004 http://www.apache.org/licenses/ TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION 1. 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See the License for the specific language governing permissions and limitations under the License. sloppy-rfc4880-0.1.5/README.md010064400017500001750000000033421346076675600136650ustar0000000000000000# sloppy-rfc4880 [![Build Status][travis-img]][travis] [![crates.io][crates-img]][crates] [![docs.rs][docs-img]][docs] [travis-img]: https://travis-ci.com/kpcyrd/sloppy-rfc4880.svg?branch=master [travis]: https://travis-ci.com/kpcyrd/sloppy-rfc4880 [crates-img]: https://img.shields.io/crates/v/sloppy-rfc4880.svg [crates]: https://crates.io/crates/sloppy-rfc4880 [docs-img]: https://docs.rs/sloppy-rfc4880/badge.svg [docs]: https://docs.rs/sloppy-rfc4880 Pure rust parser for RFC-4880 (OpenPGP Message Format). The codebase is heavily based on the [openpgp] crate, but all crypto code has been removed to keep the number of dependencies low for projects that only need to decode the binary packet format. [openpgp]: https://crates.io/crates/openpgp In addition, the codebase has been hardened to ensure it can handle arbitrary input without crashing. Also, an optional allocation limit has been added to avoid OOM on bogus inputs. # Fuzzing The codebase was extensively fuzzed using cargo-fuzz and libfuzzer. The corpus folder has been bootstrapped using a full dump of a pgp keyserver: ```sh git clone https://github.com/kpcyrd/sloppy-rfc4880 mkdir pgp cd pgp wget -c -r -p -e robots=off -N -l1 --cut-dirs=3 -nH http://pgp.key-server.io/dump/2018-10-07/ cd ../sloppy-rfc4880 for x in ../pgp/sks-dump-*; do cat "$x" | cargo run --release --example split fuzz/corpus/rfc4880/pgp cargo +nightly fuzz cmin --release rfc4880 done ``` You can download a copy of a pre-processed corpus folder from the [release page][0]. [0]: https://github.com/kpcyrd/sloppy-rfc4880/releases To start fuzzing, run: ```sh cargo +nightly fuzz run --release rfc4880 -j $(nproc) -- -timeout=240 -rss_limit_mb=500 ``` # License Apache-2.0 sloppy-rfc4880-0.1.5/data/freebsd.asc010064400017500001750000001136131346076675600154240ustar0000000000000000-----BEGIN PGP PUBLIC KEY BLOCK----- mQGiBD1rpGQRBACJ1CQS7VnTTvH3wjscXQed2RoeVi+n3HtxaF9ApJbxb77dXk+/ DL1ZR0bcZ8s7uQ1D5BkrqSHevoA9FlEN02MM9qyIerXter2/ZEporVOG+/XMkIiV rd3AgVwUnawhOMKTlYmttcOpADKr9RkYvCT6QMqFDXJssbW7gPlEqOzhYwCgoIdD ygZ5RdfXm/hBnp+oTWadeIED/2WvL/Iy0YheRTSmTvEdK+Cd4xPhmY2SrrvF2+lE oFIn94C0fJhqKhJp+wGXmQ/h3yF0gcr1NfFBm6y1iztEz2n0ciaEmMf1tu0Y+u+Y E0/1Igpoj9Kj5xxRJD5wYyDi0qzxP8BhvJ6sKJtO+f6/OIgZ0ITYWakim7d3RrNV 0ditA/0XUvDgdEB0hm7iqR8FbwKNmS8DVKGs+CYrFwSBJ0vUH65WFapbdWbi2uwm 8CDKgSWpS16/PVr/ql84ePWdiVhHYmkkjuWPUFHSUcDiYL8YG9rnymw6Enx3Nyyr ewiUOJFzWN6/u3O4x2M9ljrQQ1FmmAbw9R4KT/KHOyBC0W+xHbQ3RnJlZUJTRCBT ZWN1cml0eSBPZmZpY2VyIDxzZWN1cml0eS1vZmZpY2VyQEZyZWVCU0Qub3JnPoha 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PUBLIC KEY BLOCK----- sloppy-rfc4880-0.1.5/examples/dump.rs010064400017500001750000000022021350356756500155240ustar0000000000000000extern crate sloppy_rfc4880; extern crate env_logger; extern crate bytes; #[macro_use] extern crate log; use std::io::{self, Read}; use sloppy_rfc4880::{Tag, pubkey, signature}; fn main() { env_logger::init(); let mut buf = Vec::new(); io::stdin().read_to_end(&mut buf).expect("read_to_end"); let mut parser = sloppy_rfc4880::Parser::new(buf.as_slice()); loop { match parser.next() { Some((tag, body)) => { let body = bytes::Bytes::from(body.clone()); println!("{:?}: {:?}", tag, body); match tag { Tag::PublicKey => { let fp = pubkey::fingerprint(&*body); println!("\tfingerprint: {:?}", fp); }, Tag::Signature => { let issuer = signature::parse(&*body).expect("signature::parse"); println!("\tissuer: {:?}", issuer); }, _ => (), } }, None => break, } info!("Remaining: {:?}", parser.inner().len()); } } sloppy-rfc4880-0.1.5/examples/split.rs010064400017500001750000000022231346076675600157220ustar0000000000000000extern crate sloppy_rfc4880; extern crate env_logger; #[macro_use] extern crate log; use std::fs; use std::env; use std::io::{self, Read}; use std::path::PathBuf; fn find_free_num(prefix: &str, ctr: &mut usize) -> PathBuf { loop { let path = PathBuf::from(format!("{}{}", prefix, ctr)); if !path.exists() { return path; } else { *ctr += 1; } } } fn main() { env_logger::init(); let prefix = env::args().skip(1).next().expect("Missing prefix"); let mut buf = Vec::new(); io::stdin().read_to_end(&mut buf).expect("read_to_end"); let total = buf.len(); let mut ctr = 0; let mut parser = sloppy_rfc4880::Parser::new(buf.as_slice()); let mut old = 0; loop { if parser.next().is_none() { break; } let path = find_free_num(&prefix, &mut ctr); let remaining = parser.inner().len(); let new = total - remaining; let range = old..new; info!("Dumping {:?} into {:?}, remaining={:?}", range, path, remaining); fs::write(path, &buf[range]).expect("Failed to write"); old = new; } } sloppy-rfc4880-0.1.5/examples/unarmor.rs010064400017500001750000000005611346076675600162550ustar0000000000000000extern crate sloppy_rfc4880; extern crate env_logger; use std::io::{self, prelude::*}; fn main() { env_logger::init(); let mut buf = Vec::new(); io::stdin().read_to_end(&mut buf).expect("read_to_end"); let key = sloppy_rfc4880::armor::read_armored(&mut buf.as_slice()).expect("read_armored"); io::stdout().write_all(&key).expect("write_all"); } sloppy-rfc4880-0.1.5/src/armor.rs010064400017500001750000000155171350347355300146560ustar0000000000000000use base64; use crate::errors::*; use std::io::prelude::*; pub fn read_armored(r: &mut R) -> Result> { let mut buf = String::new(); let mut content = String::new(); let mut armor_started = false; let mut contents_started = false; loop { buf.clear(); let n = r.read_line(&mut buf)?; if n == 0 { break; } let tr = buf.trim_end(); if tr.starts_with("-----BEGIN PGP ") && tr.ends_with("-----") { armor_started = true } else if tr.starts_with("-----END PGP ") && tr.ends_with("-----") { break; } else if armor_started { if contents_started { if buf.starts_with('=') { contents_started = false } else { content += tr } } else if tr == "" { contents_started = true } } } base64::decode(&content) .map_err(Error::from) } #[cfg(test)] mod tests { use super::*; use std::io::BufReader; fn bytes() -> Vec { let bytes = base64::decode(&r#"mQENBFu6q90BCADgD7Q9aH5683yt7hzPktDkAUNAZJHwYhUNeyGK43frPyDRWQmqN+oXTfiYWLQN +d7KNBTnF9uwyBdaLM7SH44lLNYo8W09mVM2eK+wt19uf5HYNgAE8la45QLo/ce9CQVe1a4oXNWq 6l0FOY7M+wLe+G2wMwz8RXGgwd/qQp4/PB5YpUhxnAnzClxvwymrL6BQXsRcKSMSD5bIzIv95n10 5CvW5Hql7JR9zgOR+gHqVOH8HBUcZxMumrTM6aKLgAhgM8Sn36gCFOfjlG1b1OFLZhUtgro/nnEO mAurRsCZy8M5h8QMFpZChIH8kgHs90F/CCvGjMq3qvWcH8ZsPUizABEBAAG0NUhhbnMgQWNrZXIg KGV4YW1wbGUgY29tbWVudCkgPGhhbnMuYWNrZXJAZXhhbXBsZS5jb20+iQFOBBMBCAA4FiEEyzeO 1eEwbB03hcqBM00IodGdlj8FAlu6q90CGwMFCwkIBwIGFQgJCgsCBBYCAwECHgECF4AACgkQM00I odGdlj/AJQgAjmk+iP5b7Jt7+f+lU4Oprlf3f3DG/uh5Ge6MjV7cvtxlhZJRD5hxGt9RwwnEp61T BSbrem288pM89ilQfTNe0wUr9OzwWzh/8Ngl5iWnD2ah3Mpi5R1V/YMNf2cnwVjqNvfkRHdNc43p ZOkC2GoiTUn0QY0UBpOWZMN3//ANi6ZtiK/L0IZQND/gKvOzu/4tfaJeBl26T3cVYj53p3G3jhlb 92vVa8SRuL3S3bzd1h5snDgU1uXHmNHGbhkEc4KUneQ0V9/bdZrg6OzFAfM1ghgfoId+YpQHer9L 26ISL3QF58wdEXfIdHYEmMlANjBMO2cUlQXgONuCgkMuY7GBmrkBDQRbuqvdAQgA41jqCumCxYV0 NdSYNnTSSDRyd69dOUYCAPT80iZ739s7KKJS9X9KVfGmDjfiu2RcfR/KYj53HoyOm4Pm/+ONN8De 4ktzXpIpJxGC+O8NBvd9vkboAS6qnCjK7KVEr91ymxxVKp2dzZvVfpIjWVZR5i2EAvS5vw8UK4gL 8ALH+S9leJFZrQWcgyoJOJzHRzr9pesX2HvdgcNG1O6QUArlsnsTnqpi/hu7tQa8tifBpWDeArOA 23Y2DgeehdDFlSU/8KD4J+AkFrWWlcTaMsvSChXQkCHEMRIcSOfXtdpX5KJSE7UBQdD1opm+mR79 VeHnuJAAVZZtUZmJA7pjdKykYQARAQABiQE2BBgBCAAgFiEEyzeO1eEwbB03hcqBM00IodGdlj8F Alu6q90CGwwACgkQM00IodGdlj8bMAf+Lq3Qive4vcrCTT4IgvVjarOACdcbtt5RhVBTimT19rDW NH+m+PfPjo3FSlBj5cm70KAXUS2LBFFxhakTZ/MqcQroWZpVbBxj4kipEVVJZFdUZQaDERJql0xY GOQrNMQ4JGqJ84BRrtOExjSqo41KhAhNe+bwPGH9/Igiixc4tH07xa7TOy4MyJv/6gpbHy/lW1hq pCAgM5fT/im5/6QFk0tED6vIuc54IWiOmwCnjZiQnJ8uCwEu+cuJ5Exwy9CNERLp5v0y4eG+0E+a t9j/macOg39qf09t53pTqe9dWv5NIi319TeBsKZ2lb0crrQjsbHqk0DAUwgQuoANqLkuvA=="# .replace("\n", "") ).expect("base64"); bytes } #[test] fn unarmor_key() { let key = String::from(r#"-----BEGIN PGP PUBLIC KEY BLOCK----- mQENBFu6q90BCADgD7Q9aH5683yt7hzPktDkAUNAZJHwYhUNeyGK43frPyDRWQmq N+oXTfiYWLQN+d7KNBTnF9uwyBdaLM7SH44lLNYo8W09mVM2eK+wt19uf5HYNgAE 8la45QLo/ce9CQVe1a4oXNWq6l0FOY7M+wLe+G2wMwz8RXGgwd/qQp4/PB5YpUhx nAnzClxvwymrL6BQXsRcKSMSD5bIzIv95n105CvW5Hql7JR9zgOR+gHqVOH8HBUc ZxMumrTM6aKLgAhgM8Sn36gCFOfjlG1b1OFLZhUtgro/nnEOmAurRsCZy8M5h8QM FpZChIH8kgHs90F/CCvGjMq3qvWcH8ZsPUizABEBAAG0NUhhbnMgQWNrZXIgKGV4 YW1wbGUgY29tbWVudCkgPGhhbnMuYWNrZXJAZXhhbXBsZS5jb20+iQFOBBMBCAA4 FiEEyzeO1eEwbB03hcqBM00IodGdlj8FAlu6q90CGwMFCwkIBwIGFQgJCgsCBBYC AwECHgECF4AACgkQM00IodGdlj/AJQgAjmk+iP5b7Jt7+f+lU4Oprlf3f3DG/uh5 Ge6MjV7cvtxlhZJRD5hxGt9RwwnEp61TBSbrem288pM89ilQfTNe0wUr9OzwWzh/ 8Ngl5iWnD2ah3Mpi5R1V/YMNf2cnwVjqNvfkRHdNc43pZOkC2GoiTUn0QY0UBpOW ZMN3//ANi6ZtiK/L0IZQND/gKvOzu/4tfaJeBl26T3cVYj53p3G3jhlb92vVa8SR uL3S3bzd1h5snDgU1uXHmNHGbhkEc4KUneQ0V9/bdZrg6OzFAfM1ghgfoId+YpQH er9L26ISL3QF58wdEXfIdHYEmMlANjBMO2cUlQXgONuCgkMuY7GBmrkBDQRbuqvd AQgA41jqCumCxYV0NdSYNnTSSDRyd69dOUYCAPT80iZ739s7KKJS9X9KVfGmDjfi u2RcfR/KYj53HoyOm4Pm/+ONN8De4ktzXpIpJxGC+O8NBvd9vkboAS6qnCjK7KVE r91ymxxVKp2dzZvVfpIjWVZR5i2EAvS5vw8UK4gL8ALH+S9leJFZrQWcgyoJOJzH Rzr9pesX2HvdgcNG1O6QUArlsnsTnqpi/hu7tQa8tifBpWDeArOA23Y2DgeehdDF lSU/8KD4J+AkFrWWlcTaMsvSChXQkCHEMRIcSOfXtdpX5KJSE7UBQdD1opm+mR79 VeHnuJAAVZZtUZmJA7pjdKykYQARAQABiQE2BBgBCAAgFiEEyzeO1eEwbB03hcqB M00IodGdlj8FAlu6q90CGwwACgkQM00IodGdlj8bMAf+Lq3Qive4vcrCTT4IgvVj arOACdcbtt5RhVBTimT19rDWNH+m+PfPjo3FSlBj5cm70KAXUS2LBFFxhakTZ/Mq cQroWZpVbBxj4kipEVVJZFdUZQaDERJql0xYGOQrNMQ4JGqJ84BRrtOExjSqo41K hAhNe+bwPGH9/Igiixc4tH07xa7TOy4MyJv/6gpbHy/lW1hqpCAgM5fT/im5/6QF k0tED6vIuc54IWiOmwCnjZiQnJ8uCwEu+cuJ5Exwy9CNERLp5v0y4eG+0E+at9j/ macOg39qf09t53pTqe9dWv5NIi319TeBsKZ2lb0crrQjsbHqk0DAUwgQuoANqLku vA== =kRIv -----END PGP PUBLIC KEY BLOCK-----"#); let key = read_armored(&mut BufReader::new(key.as_bytes())).expect("read_armored"); let bytes = bytes(); assert_eq!(key, bytes); } #[test] fn unarmor_key_extra_data() { let key = String::from(r#"-----BEGIN PGP PUBLIC KEY BLOCK----- Version: GnuPG v2 Foo: bar mQENBFu6q90BCADgD7Q9aH5683yt7hzPktDkAUNAZJHwYhUNeyGK43frPyDRWQmq N+oXTfiYWLQN+d7KNBTnF9uwyBdaLM7SH44lLNYo8W09mVM2eK+wt19uf5HYNgAE 8la45QLo/ce9CQVe1a4oXNWq6l0FOY7M+wLe+G2wMwz8RXGgwd/qQp4/PB5YpUhx nAnzClxvwymrL6BQXsRcKSMSD5bIzIv95n105CvW5Hql7JR9zgOR+gHqVOH8HBUc ZxMumrTM6aKLgAhgM8Sn36gCFOfjlG1b1OFLZhUtgro/nnEOmAurRsCZy8M5h8QM FpZChIH8kgHs90F/CCvGjMq3qvWcH8ZsPUizABEBAAG0NUhhbnMgQWNrZXIgKGV4 YW1wbGUgY29tbWVudCkgPGhhbnMuYWNrZXJAZXhhbXBsZS5jb20+iQFOBBMBCAA4 FiEEyzeO1eEwbB03hcqBM00IodGdlj8FAlu6q90CGwMFCwkIBwIGFQgJCgsCBBYC AwECHgECF4AACgkQM00IodGdlj/AJQgAjmk+iP5b7Jt7+f+lU4Oprlf3f3DG/uh5 Ge6MjV7cvtxlhZJRD5hxGt9RwwnEp61TBSbrem288pM89ilQfTNe0wUr9OzwWzh/ 8Ngl5iWnD2ah3Mpi5R1V/YMNf2cnwVjqNvfkRHdNc43pZOkC2GoiTUn0QY0UBpOW ZMN3//ANi6ZtiK/L0IZQND/gKvOzu/4tfaJeBl26T3cVYj53p3G3jhlb92vVa8SR uL3S3bzd1h5snDgU1uXHmNHGbhkEc4KUneQ0V9/bdZrg6OzFAfM1ghgfoId+YpQH er9L26ISL3QF58wdEXfIdHYEmMlANjBMO2cUlQXgONuCgkMuY7GBmrkBDQRbuqvd AQgA41jqCumCxYV0NdSYNnTSSDRyd69dOUYCAPT80iZ739s7KKJS9X9KVfGmDjfi u2RcfR/KYj53HoyOm4Pm/+ONN8De4ktzXpIpJxGC+O8NBvd9vkboAS6qnCjK7KVE r91ymxxVKp2dzZvVfpIjWVZR5i2EAvS5vw8UK4gL8ALH+S9leJFZrQWcgyoJOJzH Rzr9pesX2HvdgcNG1O6QUArlsnsTnqpi/hu7tQa8tifBpWDeArOA23Y2DgeehdDF lSU/8KD4J+AkFrWWlcTaMsvSChXQkCHEMRIcSOfXtdpX5KJSE7UBQdD1opm+mR79 VeHnuJAAVZZtUZmJA7pjdKykYQARAQABiQE2BBgBCAAgFiEEyzeO1eEwbB03hcqB M00IodGdlj8FAlu6q90CGwwACgkQM00IodGdlj8bMAf+Lq3Qive4vcrCTT4IgvVj arOACdcbtt5RhVBTimT19rDWNH+m+PfPjo3FSlBj5cm70KAXUS2LBFFxhakTZ/Mq cQroWZpVbBxj4kipEVVJZFdUZQaDERJql0xYGOQrNMQ4JGqJ84BRrtOExjSqo41K hAhNe+bwPGH9/Igiixc4tH07xa7TOy4MyJv/6gpbHy/lW1hqpCAgM5fT/im5/6QF k0tED6vIuc54IWiOmwCnjZiQnJ8uCwEu+cuJ5Exwy9CNERLp5v0y4eG+0E+at9j/ macOg39qf09t53pTqe9dWv5NIi319TeBsKZ2lb0crrQjsbHqk0DAUwgQuoANqLku vA== =kRIv -----END PGP PUBLIC KEY BLOCK-----"#); let key = read_armored(&mut BufReader::new(key.as_bytes())).expect("read_armored"); let bytes = bytes(); assert_eq!(key, bytes); } } sloppy-rfc4880-0.1.5/src/encoding.rs010064400017500001750000000024711350347355300153170ustar0000000000000000use crate::errors::*; use byteorder::{BigEndian, ReadBytesExt}; use std::io::Read; pub trait ReadValue<'a> { fn read_string(&mut self) -> Result<&'a [u8]>; fn read_mpi(&mut self) -> Result<&'a [u8]>; } impl<'a> ReadValue<'a> for &'a [u8] { // Not a formal def, mut used many times in the RFC. fn read_string(&mut self) -> Result<&'a [u8]> { let length = (*self).read_u16::()? as usize; if length <= self.len() { let (a, b) = self.split_at(length); *self = b; Ok(a) } else { bail!("Index out of bounds") } } // https://tools.ietf.org/html/rfc4880#section-3.2 fn read_mpi(&mut self) -> Result<&'a [u8]> { let length = (*self).read_u16::()? as usize; let length = (length + 7) >> 3; if length <= self.len() { let (a, b) = self.split_at(length); *self = b; Ok(a) } else { bail!("Index out of bounds") } } } pub fn read_length(l0: usize, s: &mut R) -> Result { Ok(if l0 <= 191 { l0 } else if l0 <= 223 { let l1 = s.read_u8()? as usize; (((l0 - 192) << 8) | l1) + 192 } else { debug_assert!(l0 == 0xff); s.read_u32::()? as usize }) } sloppy-rfc4880-0.1.5/src/errors.rs010064400017500001750000000001331346076675600150520ustar0000000000000000pub use failure::{Error, ResultExt}; pub type Result = ::std::result::Result; sloppy-rfc4880-0.1.5/src/lib.rs010064400017500001750000000067711350356631400143040ustar0000000000000000#![warn(unused_extern_crates)] #[macro_use] extern crate log; #[macro_use] extern crate failure; use std::io::prelude::*; pub mod armor; pub mod errors; mod encoding; pub mod packet; pub use packet::Tag; pub mod pubkey; pub mod signature; pub use signature::Signature; pub struct Parser { r: R, max_alloc: Option, } impl Parser { pub fn new(r: R) -> Parser { Parser { r, max_alloc: None, } } pub fn with_max_alloc(r: R, max_alloc: usize) -> Parser { Parser { r, max_alloc: Some(max_alloc), } } pub fn inner(&self) -> &R { &self.r } } impl Iterator for Parser { type Item = (Tag, Vec); fn next(&mut self) -> Option { let mut packet_body = Vec::new(); let tag = packet::read(&mut self.r, &mut packet_body, &self.max_alloc); debug!("Received tag: {:?}", tag); match tag { Ok(tag) => Some((tag, packet_body)), _ => None, } } } #[cfg(test)] mod tests { use armor::read_armored; use std::io::BufReader; use super::*; #[test] fn extract_userid_from_pubkey() { let key = include_bytes!("../data/hans_acker.asc"); let key = read_armored(&mut BufReader::new(&key[..])).expect("read_armored"); for (tag, body) in Parser::new(key.as_slice()) { println!("{:?}: {:?}", tag, body); if tag == Tag::UserID { let body = String::from_utf8(body).expect("invalid utf8"); println!("UserID: {:?}", body); assert_eq!("Hans Acker (example comment) ", body); return; } } unreachable!("UserID wasn't found"); } #[test] fn extract_userid_from_pubkey_freebsd() { let key = include_bytes!("../data/freebsd.asc"); let key = read_armored(&mut BufReader::new(&key[..])).expect("read_armored"); for (tag, body) in Parser::new(key.as_slice()) { // println!("{:?}: {:?}", tag, body); if tag == Tag::UserID { let body = String::from_utf8(body).expect("invalid utf8"); println!("UserID: {:?}", body); assert_eq!("FreeBSD Security Officer ", body); return; } } unreachable!("UserID wasn't found"); } #[test] fn extract_userid_from_pubkey_freebsd_with_alloc_limit() { let key = include_bytes!("../data/freebsd.asc"); let key = read_armored(&mut BufReader::new(&key[..])).expect("read_armored"); for (tag, body) in Parser::with_max_alloc(key.as_slice(), 1024 * 1024) { // println!("{:?}: {:?}", tag, body); if tag == Tag::UserID { let body = String::from_utf8(body).expect("invalid utf8"); println!("UserID: {:?}", body); assert_eq!("FreeBSD Security Officer ", body); return; } } unreachable!("UserID wasn't found"); } #[test] fn extract_userid_from_pubkey_freebsd_with_tiny_alloc_limit() { let key = include_bytes!("../data/freebsd.asc"); let key = read_armored(&mut BufReader::new(&key[..])).expect("read_armored"); for (_tag, _body) in Parser::with_max_alloc(key.as_slice(), 3) { unreachable!("max alloc didn't work"); } } } sloppy-rfc4880-0.1.5/src/packet.rs010064400017500001750000000115561350347355300150040ustar0000000000000000use crate::errors::*; use crate::encoding::read_length; use byteorder::{BigEndian, ReadBytesExt}; use std::io::Read; // https://tools.ietf.org/html/rfc4880#section-4.3 // sed -e "s/ *\(.*\) = \(.*\),/\2 => Some(Packet::\1),/" #[derive(Debug, Clone, Copy, PartialEq, Eq)] pub enum Tag { PublicKeyEncryptedSessionKey = 1, Signature = 2, SymmetricKeyEncryptedSessionKey = 3, OnePassSignature = 4, SecretKey = 5, PublicKey = 6, SecretSubkey = 7, CompressedData = 8, SymmetricallyEncryptedData = 9, Marker = 10, LiteralData = 11, Trust = 12, UserID = 13, PublicSubkey = 14, UserAttribute = 17, SymIntData = 18, ModificationDetectionCode = 19, } impl Tag { fn from_byte(b: u8) -> Option { match b { 1 => Some(Tag::PublicKeyEncryptedSessionKey), 2 => Some(Tag::Signature), 3 => Some(Tag::SymmetricKeyEncryptedSessionKey), 4 => Some(Tag::OnePassSignature), 5 => Some(Tag::SecretKey), 6 => Some(Tag::PublicKey), 7 => Some(Tag::SecretSubkey), 8 => Some(Tag::CompressedData), 9 => Some(Tag::SymmetricallyEncryptedData), 10 => Some(Tag::Marker), 11 => Some(Tag::LiteralData), 12 => Some(Tag::Trust), 13 => Some(Tag::UserID), 14 => Some(Tag::PublicSubkey), 17 => Some(Tag::UserAttribute), 18 => Some(Tag::SymIntData), 19 => Some(Tag::ModificationDetectionCode), _ => None, } } } fn ensure_alloc_limit(requested: usize, max_alloc: &Option) -> Result<()> { if let Some(max_alloc) = max_alloc { if requested > *max_alloc { bail!("Allocation larger than max_alloc"); } } Ok(()) } // TODO: In the next definition, replace Cow with an iterator returning &[u8] (for partial length). // // Problem: we can't read the next packet until we've read all the // partial packets. The `read_packet` function below is correct, but // allocates a vector which might get big. pub fn read(reader: &mut B, body: &mut Vec, max_alloc: &Option) -> Result { body.clear(); let tag = reader.read_u8()?; if tag & 0x80 != 0x80 { bail!("0x80 must be set in tag"); } let is_new_format = tag & 0x40 == 0x40; trace!("New packet format: {:?}", is_new_format); let tag = if is_new_format { let packet_tag = tag & 0x3f; let mut l0 = reader.read_u8()?; if l0 >= 224 && l0 < 0xff { trace!("Partial body length...."); while l0 >= 224 && l0 < 0xff { // partial length let len = 1 << (l0 & 0x1f); trace!("Partial read: {:?}", len); // read more len bytes let i0 = body.len(); ensure_alloc_limit(i0 + len, max_alloc)?; trace!("Resizing buffer to {:?}", i0 + len); body.resize(i0 + len, 0); trace!("Resize done"); reader.read_exact(&mut body[i0..])?; trace!("Read done"); l0 = reader.read_u8()?; trace!("Next l0: {:?}", l0); } // Last part of the packet let len = read_length(l0 as usize, reader)?; trace!("Last part: {:?}", len); let i0 = body.len(); ensure_alloc_limit(i0 + len, max_alloc)?; body.resize(i0 + len, 0); reader.read_exact(&mut body[i0..])?; } else { let len = read_length(l0 as usize, reader)?; trace!("Packet length: {:?}", len); ensure_alloc_limit(len, max_alloc)?; body.resize(len, 0); reader.read_exact(&mut body[..])?; } packet_tag } else { let packet_tag = (tag >> 2) & 0xf; trace!("Packet tag: {:?}", Tag::from_byte(packet_tag)); let length_type = tag & 0x3; if length_type == 0 { let len = reader.read_u8()? as usize; ensure_alloc_limit(len, max_alloc)?; body.resize(len, 0); reader.read_exact(&mut body[..])?; } else if length_type == 1 { let len = reader.read_u16::()? as usize; ensure_alloc_limit(len, max_alloc)?; body.resize(len, 0); reader.read_exact(&mut body[..])?; } else if length_type == 2 { let len = reader.read_u32::()? as usize; ensure_alloc_limit(len, max_alloc)?; body.resize(len, 0); reader.read_exact(&mut body[..])?; } else { // TODO: we can't enforce an allocation limit here reader.read_to_end(body)?; }; packet_tag }; if let Some(tag) = Tag::from_byte(tag) { Ok(tag) } else { bail!("Unknown Tag") } } sloppy-rfc4880-0.1.5/src/pubkey.rs010064400017500001750000000024431350356737300150330ustar0000000000000000use sha1::{Sha1, Digest}; pub fn fingerprint(pubkey: &[u8]) -> String { let mut h = Sha1::new(); h.input(b"\x99"); let len = pubkey.len() as u16; h.input(len.to_be_bytes()); h.input(pubkey); let fp = h.result(); hex::encode_upper(fp) } #[cfg(test)] mod tests { use super::*; #[test] fn calculate_fingerprint() { let pubkey = b"\x04[\xba\xab\xdd\x01\x08\0\xe0\x0f\xb4=h~z\xf3|\xad\xee\x1c\xcf\x92\xd0\xe4\x01C@d\x91\xf0b\x15\r{!\x8a\xe3w\xeb? \xd1Y\t\xaa7\xea\x17M\xf8\x98X\xb4\r\xf9\xde\xca4\x14\xe7\x17\xdb\xb0\xc8\x17Z,\xce\xd2\x1f\x8e%,\xd6(\xf1m=\x99S6x\xaf\xb0\xb7_n\x7f\x91\xd86\0\x04\xf2V\xb8\xe5\x02\xe8\xfd\xc7\xbd\t\x05^\xd5\xae(\\\xd5\xaa\xea]\x059\x8e\xcc\xfb\x02\xde\xf8m\xb03\x0c\xfcEq\xa0\xc1\xdf\xeaB\x9e?<\x1eX\xa5Hq\x9c\t\xf3\n\\o\xc3)\xab/\xa0P^\xc4\\)#\x12\x0f\x96\xc8\xcc\x8b\xfd\xe6}t\xe4+\xd6\xe4z\xa5\xec\x94}\xce\x03\x91\xfa\x01\xeaT\xe1\xfc\x1c\x15\x1cg\x13.\x9a\xb4\xcc\xe9\xa2\x8b\x80\x08`3\xc4\xa7\xdf\xa8\x02\x14\xe7\xe3\x94m[\xd4\xe1Kf\x15-\x82\xba?\x9eq\x0e\x98\x0b\xabF\xc0\x99\xcb\xc39\x87\xc4\x0c\x16\x96B\x84\x81\xfc\x92\x01\xec\xf7A\x7f\x08+\xc6\x8c\xca\xb7\xaa\xf5\x9c\x1f\xc6l=H\xb3\0\x11\x01\0\x01"; let fp = fingerprint(pubkey); assert_eq!(fp.as_str(), "CB378ED5E1306C1D3785CA81334D08A1D19D963F"); } } sloppy-rfc4880-0.1.5/src/signature.rs010064400017500001750000000113071350347355300155300ustar0000000000000000use byteorder::{BigEndian, ReadBytesExt}; use crate::errors::*; use crate::encoding::{ReadValue, read_length}; use serde::{Serialize, Deserialize}; #[derive(Debug, PartialEq, Serialize, Deserialize)] pub struct Signature { pub keyid: Option, pub fingerprint: Option, } pub fn parse(mut body: &[u8]) -> Result { let initial_body = body; let version = body.read_u8()?; let mut keyid = None; let mut fingerprint = None; debug!("signature version: {:?}", version); match version { // 3 => TODO 4 => { let _sigtype = body.read_u8()?; let _pk_algo = body.read_u8()?; let _hash_algo = body.read_u8()?; let mut hashed_subpacket = body.read_string()?; let initial_len = initial_body.len() - body.len(); debug!("initial_len: {:?}", initial_len); let mut unhashed_subpacket = body.read_string()?; while !hashed_subpacket.is_empty() { let sub = Subpacket::read(&mut hashed_subpacket)?; match sub { Some(Subpacket::Issuer(i)) => keyid = Some(i), Some(Subpacket::IssuerFingerprint(fp)) => fingerprint = Some(fp), _ => (), } } while !unhashed_subpacket.is_empty() { let sub = Subpacket::read(&mut unhashed_subpacket)?; match sub { Some(Subpacket::Issuer(i)) => keyid = Some(i), Some(Subpacket::IssuerFingerprint(fp)) => fingerprint = Some(fp), _ => (), } } Ok(Signature { keyid, fingerprint, }) }, _ => bail!("unsupported signature version: {}", version), } } pub enum Subpacket { Issuer(String), IssuerFingerprint(String), Unknown, } impl Subpacket { fn read(packet: &mut &[u8]) -> Result> { let p0 = packet.read_u8()? as usize; let len = read_length(p0, packet)?; if len <= packet.len() { let (mut a, b) = packet.split_at(len); *packet = b; match a.read_u8()? { 16 => { let issuer = a.read_u64::()?; let issuer = format!("{:X}", issuer); Ok(Some(Subpacket::Issuer(issuer))) }, 33 => { let _v = a.read_u8()?; let fp = hex::encode_upper(a); Ok(Some(Subpacket::IssuerFingerprint(fp))) }, _ => Ok(None), } } else { bail!("index out of bounds") } } } #[cfg(test)] mod tests { use super::*; #[test] fn parse_signature_issuer() { let bytes = b"\x04\x10\x01\x08\0\x1d\x16!\x04\x90;\xabsd\x0e\xb6\xd6U3\xef\xf3F\x8f\x12,\xe8\x16\"\x95\x05\x02[\xdc\xcb\x16\0\n\t\x10F\x8f\x12,\xe8\x16\"\x95dE\x10\0\x9b\xa3\x8f\x05d\xe8c\xffp\xad9\x97\xa9Z\xae\x93\x1a\xb8u\xa7Dm\x1e\xa4\xbd\xfd\xd0X\xfe\x07\x95y-I\x10<\xc8\x03\x8b\x11\xf3\x9eU\xf8s\xdf\xdc\xab\x1d\x9a\xf8\x03\x17\xd0{q\x1fG\xedp\xef\xae!\xd0:\x82\xcc\xbc\xd9Yl\0W:\xa0n\xd5I\x8a~\xa7\xa3z\xb8\xe11\xbc\xbb\x1f\x9d;\x01\x97\x85\x8e%\x02\x18\x14H*\xf0\x9a\xb1_\xc0\x01r\xe4p!\xcf\xd2\xb4\xb0\x06[/v\xeab`\xf3\xdc\xa8\xf0\xd9h\xa5\xc1h\xd1z\xee\x0c*,\xc0\"\xfd\x8f\x1c\xe5\xc1\x12\xb6\xcd\x03\x060\xbd0S\t\x85\x92\x8eN.\xac\xad\x05\x8e\x80\xea\xd2\xfb\xd9\\\xddA\xc0\xc7Q#3I\xb8;\x81\\\x80\x0fm\xd8zO\xb8\xdb\x9a\x18(\xee