Change verify_json to use the same interface as verify_event.

2019-07-11 01:08:34 -07:00 · 2019-07-11 01:08:34 -07:00 · fe90cdabf9
commit fe90cdabf9
parent e64df47d23
4 changed files with 170 additions and 120 deletions
--- a/Cargo.toml
+++ b/Cargo.toml
@ -17,7 +17,6 @@ base64 = "0.10.1"
 ring = "0.14.6"
 serde_json = "1.0.39"
 untrusted = "0.6.2"
 url = "1.7.2"
 [dependencies.serde]
 version = "1.0.90"
--- a/src/functions.rs
+++ b/src/functions.rs
@ -1,17 +1,12 @@
 //! Functions for signing and verifying JSON and events.
-use std::{collections::HashMap, hash::BuildHasher};
+use std::collections::HashMap;
 use base64::{decode_config, encode_config, STANDARD_NO_PAD};
 use ring::digest::{digest, SHA256};
 use serde_json::{from_str, from_value, map::Map, to_string, to_value, Value};
-use crate::{
+use crate::{keys::KeyPair, signatures::SignatureMap, verification::Verifier, Error};
    keys::KeyPair,
    signatures::{Signature, SignatureMap},
    verification::Verifier,
    Error,
 };
 /// The fields that are allowed to remain in an event during redaction.
 static ALLOWED_KEYS: &[&str] = &[
@ -189,6 +184,8 @@ pub fn to_canonical_json(value: &Value) -> Result<String, Error> {
 /// # Examples
 ///
 /// ```rust
 /// use std::collections::HashMap;
 ///
 /// const PUBLIC_KEY: &str = "XGX0JRS2Af3be3knz2fBiRbApjm2Dh61gXDJA8kcJNI";
 /// const SIGNATURE_BYTES: &str =
 ///     "K8280/U9SSy9IVtjBuVeLr+HpOB4BQFWbg+UZaADMtTdGYI7Geitb76LTrr5QV/7Xg4ahLwYGYZzuHGZKM5ZAQ";
@ -201,18 +198,119 @@ pub fn to_canonical_json(value: &Value) -> Result<String, Error> {
 /// let signature = ruma_signatures::Signature::new("ed25519:1", &signature_bytes).unwrap();
 ///
 /// // Deserialize the signed JSON.
-/// let value = serde_json::from_str("{}").unwrap();
+/// let value = serde_json::from_str(
 ///     r#"{
 ///         "signatures": {
 ///             "example.com": {
 ///                 "ed25519:1": "K8280/U9SSy9IVtjBuVeLr+HpOB4BQFWbg+UZaADMtTdGYI7Geitb76LTrr5QV/7Xg4ahLwYGYZzuHGZKM5ZAQ"
 ///             }
 ///         }
 ///     }"#
 /// ).unwrap();
 ///
 /// // Create the verifier for the Ed25519 algorithm.
 /// let verifier = ruma_signatures::Ed25519Verifier;
 ///
-/// // Verify the signature.
+/// // Create the `SignatureMap` that will inform `verify_json` which signatures to verify.
-/// assert!(ruma_signatures::verify_json(&verifier, &public_key, &signature, &value).is_ok());
+/// let mut signature_set = HashMap::new();
 /// signature_set.insert("ed25519:1".to_string(), PUBLIC_KEY.to_string());
 /// let mut verify_key_map = HashMap::new();
 /// verify_key_map.insert("example.com".to_string(), signature_set);
 ///
 /// // Verify at least one signature for each server in `verify_key_map`.
 /// assert!(ruma_signatures::verify_json(&verifier, &verify_key_map, &value).is_ok());
 /// ```
 pub fn verify_json<V>(
    verifier: &V,
    verify_key_map: &SignatureMap,
    value: &Value,
 ) -> Result<(), Error>
 where
    V: Verifier,
 {
    let map = match value {
        Value::Object(ref map) => map,
        _ => return Err(Error::new("JSON value must be a JSON object")),
    };
    let signature_map: SignatureMap = match map.get("signatures") {
        Some(signatures_value) => match signatures_value.as_object() {
            Some(signatures) => from_value(Value::Object(signatures.clone()))?,
            None => return Err(Error::new("Field `signatures` must be a JSON object")),
        },
        None => return Err(Error::new("JSON object must contain a `signatures` field.")),
    };
    for (server_name, verify_keys) in verify_key_map {
        let signature_set = match signature_map.get(server_name) {
            Some(set) => set,
            None => {
                return Err(Error::new(format!(
                    "no signatures found for server `{}`",
                    server_name
                )))
            }
        };
        let mut maybe_signature = None;
        let mut maybe_verify_key = None;
        for (key_id, verify_key) in verify_keys {
            if let Some(signature) = signature_set.get(key_id) {
                maybe_signature = Some(signature);
                maybe_verify_key = Some(verify_key);
                break;
            }
        }
        let signature = match maybe_signature {
            Some(signature) => signature,
            None => {
                return Err(Error::new(
                    "event is not signed with any of the given verify keys",
                ))
            }
        };
        let verify_key = match maybe_verify_key {
            Some(verify_key) => verify_key,
            None => {
                return Err(Error::new(
                    "event is not signed with any of the given verify keys",
                ))
            }
        };
        let signature_bytes = decode_config(signature, STANDARD_NO_PAD)?;
        let verify_key_bytes = decode_config(&verify_key, STANDARD_NO_PAD)?;
        verify_json_with(verifier, &verify_key_bytes, &signature_bytes, value)?;
    }
    Ok(())
 }
 /// Uses a public key to verify a signed JSON object.
 ///
 /// # Parameters
 ///
 /// * verifier: A `Verifier` appropriate for the digital signature algorithm that was used.
 /// * public_key: The raw bytes of the public key used to sign the JSON.
 /// * signature: The raw bytes of the signature.
 /// * value: The `serde_json::Value` (JSON value) that was signed.
 ///
 /// # Errors
 ///
 /// Returns an error if:
 ///
 /// * The provided JSON value is not a JSON object.
 /// * Verification fails.
 pub fn verify_json_with<V>(
    verifier: &V,
    public_key: &[u8],
-    signature: &Signature,
+    signature: &[u8],
    value: &Value,
 ) -> Result<(), Error>
 where
@ -422,17 +520,6 @@ where
 ///
 /// const PUBLIC_KEY: &str = "XGX0JRS2Af3be3knz2fBiRbApjm2Dh61gXDJA8kcJNI";
 ///
 /// // Decode the public key used to generate the signature into raw bytes.
 /// let public_key = base64::decode_config(&PUBLIC_KEY, base64::STANDARD_NO_PAD).unwrap();
 ///
 /// // Create a map from key ID to public key.
 /// let mut example_server_keys = HashMap::new();
 /// example_server_keys.insert("ed25519:1", public_key.as_slice());
 ///
 /// // Insert the public keys into a map keyed by server name.
 /// let mut verify_key_map = HashMap::new();
 /// verify_key_map.insert("domain", example_server_keys);
 ///
 /// // Deserialize an event from JSON.
 /// let value = serde_json::from_str(
 ///     r#"{
@ -462,17 +549,24 @@ where
 /// // Create the verifier for the Ed25519 algorithm.
 /// let verifier = ruma_signatures::Ed25519Verifier;
 ///
 /// // Create a map from key ID to public key.
 /// let mut example_server_keys = HashMap::new();
 /// example_server_keys.insert("ed25519:1".to_string(), PUBLIC_KEY.to_string());
 ///
 /// // Insert the public keys into a map keyed by server name.
 /// let mut verify_key_map = HashMap::new();
 /// verify_key_map.insert("domain".to_string(), example_server_keys);
 ///
 /// // Verify at least one signature for each server in `verify_key_map`.
-/// assert!(ruma_signatures::verify_event(&verifier, verify_key_map, &value).is_ok());
+/// assert!(ruma_signatures::verify_event(&verifier, &verify_key_map, &value).is_ok());
 /// ```
-pub fn verify_event<V, S>(
+pub fn verify_event<V>(
    verifier: &V,
-    verify_key_map: HashMap<&str, HashMap<&str, &[u8], S>, S>,
+    verify_key_map: &SignatureMap,
    value: &Value,
 ) -> Result<(), Error>
 where
    V: Verifier,
    S: BuildHasher,
 {
    let redacted = redact(value)?;
@ -532,13 +626,14 @@ where
        let canonical_json = from_str(&to_canonical_json(&redacted)?)?;
-        verify_json(
+        let signature_bytes = decode_config(signature, STANDARD_NO_PAD)?;
        let verify_key_bytes = decode_config(&verify_key, STANDARD_NO_PAD)?;
        verify_json_with(
            verifier,
-            verify_key,
+            &verify_key_bytes,
-            &Signature::new(
+            &signature_bytes,
                "ed25519:fixme",
                &decode_config(signature, STANDARD_NO_PAD).expect("FIXME"),
            )?,
            &canonical_json,
        )?;
    }
--- a/src/lib.rs
+++ b/src/lib.rs
@ -100,8 +100,6 @@ use std::{
    fmt::{Display, Formatter, Result as FmtResult},
 };
 pub use url::Host;
 pub use functions::{
    content_hash, hash_and_sign_event, reference_hash, sign_json, to_canonical_json, verify_event,
    verify_json,
@ -150,6 +148,12 @@ impl Display for Error {
    }
 }
 impl From<base64::DecodeError> for Error {
    fn from(error: base64::DecodeError) -> Self {
        Self::new(error.to_string())
    }
 }
 impl From<serde_json::Error> for Error {
    fn from(error: serde_json::Error) -> Self {
        Self::new(error.to_string())
@ -183,12 +187,8 @@ mod test {
    use super::{
        hash_and_sign_event, sign_json, to_canonical_json, verify_event, verify_json,
-        Ed25519KeyPair, Ed25519Verifier, Signature,
+        Ed25519KeyPair, Ed25519Verifier,
    };
    const EMPTY_JSON_SIGNATURE: &str =
        "K8280/U9SSy9IVtjBuVeLr+HpOB4BQFWbg+UZaADMtTdGYI7Geitb76LTrr5QV/7Xg4ahLwYGYZzuHGZKM5ZAQ";
    const MINIMAL_JSON_SIGNATURE: &str =
        "KqmLSbO39/Bzb0QIYE82zqLwsA+PDzYIpIRA2sRQ4sL53+sN6/fpNSoqE7BP7vBZhG6kYdD13EIMJpvhJI+6Bw";
    const PUBLIC_KEY: &str = "XGX0JRS2Af3be3knz2fBiRbApjm2Dh61gXDJA8kcJNI";
    const PRIVATE_KEY: &str = "YJDBA9Xnr2sVqXD9Vj7XVUnmFZcZrlw8Md7kMW+3XA0";
@ -315,27 +315,17 @@ mod test {
    #[test]
    fn verify_empty_json() {
-        let signature = Signature::new(
+        let value = from_str(r#"{"signatures":{"example.com":{"ed25519:1":"K8280/U9SSy9IVtjBuVeLr+HpOB4BQFWbg+UZaADMtTdGYI7Geitb76LTrr5QV/7Xg4ahLwYGYZzuHGZKM5ZAQ"}}}"#).unwrap();
            "ed25519:1",
            decode_config(&EMPTY_JSON_SIGNATURE, STANDARD_NO_PAD)
                .unwrap()
                .as_slice(),
        )
        .unwrap();
        let value = from_str("{}").unwrap();
        let verifier = Ed25519Verifier;
-        assert!(verify_json(
+        let mut signature_set = HashMap::new();
-            &verifier,
+        signature_set.insert("ed25519:1".to_string(), PUBLIC_KEY.to_string());
-            decode_config(&PUBLIC_KEY, STANDARD_NO_PAD)
+
-                .unwrap()
+        let mut verify_key_map = HashMap::new();
-                .as_slice(),
+        verify_key_map.insert("example.com".to_string(), signature_set);
-            &signature,
+
-            &value,
+        assert!(verify_json(&verifier, &verify_key_map, &value).is_ok());
        )
        .is_ok());
    }
    #[test]
@ -393,68 +383,40 @@ mod test {
    #[test]
    fn verify_minimal_json() {
        let signature = Signature::new(
            "ed25519:1",
            decode_config(&MINIMAL_JSON_SIGNATURE, STANDARD_NO_PAD)
                .unwrap()
                .as_slice(),
        )
        .unwrap();
        let value = from_str(
            r#"{"one":1,"signatures":{"example.com":{"ed25519:1":"KqmLSbO39/Bzb0QIYE82zqLwsA+PDzYIpIRA2sRQ4sL53+sN6/fpNSoqE7BP7vBZhG6kYdD13EIMJpvhJI+6Bw"}},"two":"Two"}"#
        ).unwrap();
        let verifier = Ed25519Verifier;
-        assert!(verify_json(
+        let mut signature_set = HashMap::new();
-            &verifier,
+        signature_set.insert("ed25519:1".to_string(), PUBLIC_KEY.to_string());
-            decode_config(&PUBLIC_KEY, STANDARD_NO_PAD)
+
-                .unwrap()
+        let mut verify_key_map = HashMap::new();
-                .as_slice(),
+        verify_key_map.insert("example.com".to_string(), signature_set);
-            &signature,
+
-            &value,
+        assert!(verify_json(&verifier, &verify_key_map, &value).is_ok());
        )
        .is_ok());
        let reverse_value = from_str(
            r#"{"two":"Two","signatures":{"example.com":{"ed25519:1":"KqmLSbO39/Bzb0QIYE82zqLwsA+PDzYIpIRA2sRQ4sL53+sN6/fpNSoqE7BP7vBZhG6kYdD13EIMJpvhJI+6Bw"}},"one":1}"#
        ).unwrap();
-        assert!(verify_json(
+        assert!(verify_json(&verifier, &verify_key_map, &reverse_value).is_ok());
            &verifier,
            decode_config(&PUBLIC_KEY, STANDARD_NO_PAD)
                .unwrap()
                .as_slice(),
            &signature,
            &reverse_value,
        )
        .is_ok());
    }
    #[test]
    fn fail_verify_json() {
-        let signature = Signature::new(
+        let value = from_str(r#"{"not":"empty","signatures":{"example.com":"K8280/U9SSy9IVtjBuVeLr+HpOB4BQFWbg+UZaADMtTdGYI7Geitb76LTrr5QV/7Xg4ahLwYGYZzuHGZKM5ZAQ"}}"#).unwrap();
            "ed25519:1",
            decode_config(&EMPTY_JSON_SIGNATURE, STANDARD_NO_PAD)
                .unwrap()
                .as_slice(),
        )
        .unwrap();
        let value = from_str(r#"{"not":"empty"}"#).unwrap();
        let verifier = Ed25519Verifier;
-        assert!(verify_json(
+        let mut signature_set = HashMap::new();
-            &verifier,
+        signature_set.insert("ed25519:1".to_string(), PUBLIC_KEY.to_string());
-            decode_config(&PUBLIC_KEY, STANDARD_NO_PAD)
+
-                .unwrap()
+        let mut verify_key_map = HashMap::new();
-                .as_slice(),
+        verify_key_map.insert("example.com".to_string(), signature_set);
-            &signature,
+
-            &value,
+        assert!(verify_json(&verifier, &verify_key_map, &value).is_err());
        )
        .is_err());
    }
    #[test]
@ -536,13 +498,11 @@ mod test {
    #[test]
    fn verify_minimal_event() {
-        let public_key = decode_config(&PUBLIC_KEY, STANDARD_NO_PAD).unwrap();
+        let mut signature_set = HashMap::new();
-
+        signature_set.insert("ed25519:1".to_string(), PUBLIC_KEY.to_string());
        let mut example_server_keys = HashMap::new();
        example_server_keys.insert("ed25519:1", public_key.as_slice());
        let mut verify_key_map = HashMap::new();
-        verify_key_map.insert("domain", example_server_keys);
+        verify_key_map.insert("domain".to_string(), signature_set);
        let value = from_str(
            r#"{
@ -571,6 +531,6 @@ mod test {
        let verifier = Ed25519Verifier;
-        assert!(verify_event(&verifier, verify_key_map, &value).is_ok());
+        assert!(verify_event(&verifier, &verify_key_map, &value).is_ok());
    }
 }
--- a/src/verification.rs
+++ b/src/verification.rs
@ -3,7 +3,7 @@
 use ring::signature::{verify, ED25519};
 use untrusted::Input;
-use crate::{signatures::Signature, Error};
+use crate::Error;
 /// A digital signature verifier.
 pub trait Verifier {
@ -11,19 +11,15 @@ pub trait Verifier {
    ///
    /// # Parameters
    ///
-    /// * public_key: The public key of the key pair used to sign the message.
+    /// * public_key: The raw bytes of the public key of the key pair used to sign the message.
-    /// * signature: The `Signature` to verify.
+    /// * signature: The raw bytes of the signature to verify.
-    /// * message: The message that was signed.
+    /// * message: The raw bytes of the message that was signed.
    ///
    /// # Errors
    ///
    /// Returns an error if verification fails.
-    fn verify_json(
+    fn verify_json(&self, public_key: &[u8], signature: &[u8], message: &[u8])
-        &self,
+        -> Result<(), Error>;
        public_key: &[u8],
        signature: &Signature,
        message: &[u8],
    ) -> Result<(), Error>;
 }
 /// A verifier for Ed25519 digital signatures.
@ -34,14 +30,14 @@ impl Verifier for Ed25519Verifier {
    fn verify_json(
        &self,
        public_key: &[u8],
-        signature: &Signature,
+        signature: &[u8],
        message: &[u8],
    ) -> Result<(), Error> {
        verify(
            &ED25519,
            Input::from(public_key),
            Input::from(message),
-            Input::from(signature.as_bytes()),
+            Input::from(signature),
        )
        .map_err(|_| Error::new("signature verification failed"))
    }