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authorRasmus Dahlberg <rasmus.dahlberg@kau.se>2021-04-20 12:28:28 +0200
committerRasmus Dahlberg <rasmus.dahlberg@kau.se>2021-04-20 12:28:28 +0200
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+# System Transparency Logging: API v0
+This document describes details of the System Transparency logging API,
+version 0. The broader picture is not explained here. We assume that you have
+read the System Transparency design document. It can be found [here](https://github.com/system-transparency/stfe/blob/design/doc/design.md).
+
+**Warning.**
+This is a work-in-progress document that may be moved or modified.
+
+## Overview
+The log implements an HTTP(S) API:
+- Requests that add data to the log use the HTTP POST method. The HTTP content
+type is `application/x-www-form-urlencoded`. The posted data are key-value
+pairs. Binary data must be base64-encoded.
+- Requests that retrieve data from the log use the HTTP GET method. The HTTP
+content type is `application/x-www-form-urlencoded`. Input parameters are
+key-value pairs.
+- Responses are JSON objects. The HTTP content type is `application/json`.
+- Error messages are human-readable strings. The HTTP content type is
+`text/plain`.
+
+We decided to use these web formats for requests and responses because the log
+is running as an HTTP(S) service. In other words, anyone that interacts with
+the log is most likely using these formats already. The other benefit is that
+all requests and responses are human-readable. This makes it easier to
+understand the protocol, troubleshoot issues, and copy-paste. We favored
+compatibility and understandability over a wire-efficient format.
+
+Note that we are not using JSON for signed and/or logged data. In other words,
+a submitter that wishes to distribute log responses to their user base in a
+different format may do so. The forced (de)serialization parser on _end-users_
+is a small subset of Trunnel. Trunnel is an "idiot-proof" wire-format that the
+Tor project uses.
+
+## Primitives
+### Cryptography
+The log uses the same Merkle tree hash strategy as [RFC 6962, ยง2](https://tools.ietf.org/html/rfc6962#section-2).
+The hash functions must be [SHA256](https://csrc.nist.gov/csrc/media/publications/fips/180/4/final/documents/fips180-4-draft-aug2014.pdf).
+The log must sign tree heads using [Ed25519](https://tools.ietf.org/html/rfc8032).
+The log's witnesses must also sign tree heads using Ed25519.
+
+All other parts that are not Merkle tree related also use SHA256 as the hash
+function. Using more than one hash function would increases the overall attack
+surface: two hash functions must be collision resistant instead of one.
+
+We recommend that submitters sign using Ed25519. We also support RSA with
+[deterministic](https://tools.ietf.org/html/rfc8017#section-8.2)
+or [probabilistic](https://tools.ietf.org/html/rfc8017#section-8.1)
+padding. Supporting RSA is suboptimal, but excluding it would make the log
+useless for many possible adopters.
+
+### Serialization
+We use the [Trunnel](https://gitweb.torproject.org/trunnel.git) [description language](https://www.seul.org/~nickm/trunnel-manual.html)
+to define (de)serialization of data structures that need to be signed or
+inserted into the Merkle tree. Trunnel is more expressive than the
+[SSH wire format](https://tools.ietf.org/html/rfc4251#section-5).
+It is about as expressive as the [TLS presentation language](https://tools.ietf.org/html/rfc8446#section-3).
+A notable difference is that Trunnel supports integer constraints. The Trunnel
+language is also readable by humans _and_ machines. "Obviously correct code"
+can be generated in C and Go.
+
+A fair summary of our Trunnel usage is as follows.
+
+All integers are 64-bit, unsigned, and in network byte order. A fixed-size byte
+array is put into the serialization buffer in-order, starting from the first
+byte. These basic types are concatenated to form a collection. You should not
+need a general-purpose Trunnel (de)serialization parser to work with this
+format. If you have one, you may use it though. The main point of using
+Trunnel is that it makes a simple format explicit and unambiguous.
+
+TODO: URL-encode _or_ JSON? I think we should only need one. Always doing HTTP
+POST would also ensure that input parameters don't show up in web server logs.
+
+#### Merkle tree head
+Tree heads are signed by the log and its witnesses. It contains a timestamp, a
+tree size, and a root hash. The timestamp is included so that monitors can
+ensure _liveliness_. It is the time since the UNIX epoch (January 1, 1970
+00:00:00 UTC) in milliseconds. The tree size specifies the current number of
+leaves. The root hash fixes the structure and content of the Merkle tree.
+
+```
+struct tree_head {
+ u64 timestamp;
+ u64 tree_size;
+ u8 root_hash[32];
+};
+```
+
+The serialized tree head must be signed using Ed25519. A witness must only sign
+the log's tree head if it is consistent with prior history and the timestamp is
+roughly correct. A timestamp is roughly correct if it is not backdated or
+future-dated more than 12 hours.
+
+#### Merkle tree leaf
+The log supports a single leaf type. It contains a checksum, a signature
+scheme, a signature that the submitter computed over that checksum, and the hash
+of the public verification key that can be used to verify the signature.
+
+```
+const ALG_ED25519 = 1; // RFC 8032
+const ALG_RSASSA_PKCS1_V1_5 = 2; // RFC 8017
+const ALG_RSASSA_PSS = 3; // RFC 8017
+
+struct tree_leaf {
+ u8 checksum[32];
+ u64 signature_scheme IN [
+ ALG_ED25519,
+ ALG_RSASSA_PKCS1_V1_5,
+ ALG_RSASSA_PSS,
+ ];
+ union signature[signature_scheme] {
+ ALG_ED25519: u8 ed25519[32];
+ default: u8 rsa[512];
+ }
+ u8 key_hash[32];
+}
+```
+
+A key-hash is included in the leaf so that it can be attributed to the signing
+entity. A hash, rather than the full public verification key, is used to force
+the verifier to locate the appropriate key and make an explicit trust decision.
+
+## Public endpoints
+Every log has a base URL that identifies it uniquely. The only constraint is
+that it must be a valid HTTP(S) URL that can have the `/st/v0/<endpoint>` suffix
+appended. For example, a complete endpoint URL could be
+`https://log.example.com/2021/st/v0/get-signed-tree-head`.
+
+### get-signed-tree-head
+```
+GET <base url>/st/v0/get-signed-tree-head
+```
+
+Input key-value pairs:
+- `type`: either the string "latest", "stable", or "cosigned".
+ - "latest": ask for the most recent signed tree head.
+ - "stable": ask for a recent signed tree head that is fixed for some period
+ of time.
+ - "cosigned": ask for a recent cosigned tree head.
+
+Output:
+- On success: status 200 OK and a signed tree head. The response body is
+defined by the following [schema](https://github.com/system-transparency/stfe/blob/design/doc/schema/sth.schema.json).
+- On failure: a different status code and a human-readable error message.
+
+### get-proof-by-hash
+```
+POST <base url>/st/v0/get-proof-by-hash
+```
+
+Input key-value pairs:
+- `leaf_hash`: a base64-encoded leaf hash that identifies which `tree_leaf` the
+log should prove inclusion for. The leaf hash is computed using the RFC 6962
+hashing strategy. In other words, `H(0x00 | tree_leaf)`.
+- `tree_size`: the tree size of a tree head that the proof should be based on.
+
+Output:
+- On success: status 200 OK and an inclusion proof. The response body is
+defined by the following [schema](https://github.com/system-transparency/stfe/blob/design/doc/schema/inclusion_proof.schema.json).
+- On failure: a different status code and a human-readable error message.
+
+### get-consistency-proof
+```
+POST <base url>/st/v0/get-consistency-proof
+```
+
+Input key-value pairs:
+- `new_size`: the tree size of a newer tree head.
+- `old_size`: the tree size of an older tree head that the log should prove is
+consistent with the newer tree head.
+
+Output:
+- On success: status 200 OK and a consistency proof. The response body is
+defined by the following [schema](https://github.com/system-transparency/stfe/blob/design/doc/schema/consistency_proof.schema.json).
+- On failure: a different status code and a human-readable error message.
+
+### get-leaves
+```
+POST <base url>/st/v0/get-leaves
+```
+
+Input key-value pairs:
+- `start_size`: zero-based index of the first leaf to retrieve.
+- `end_size`: index of the last leaf to retrieve.
+
+Output:
+- On success: status 200 OK and a list of leaves. The response body is
+defined by the following [schema](https://github.com/system-transparency/stfe/blob/design/doc/schema/leaves.schema.json).
+- On failure: a different status code and a human-readable error message.
+
+The log may truncate the list of returned leaves. However, it must not be an
+empty list on success.
+
+### add-leaf
+```
+POST <base url>/st/v0/add-leaf
+```
+
+Input key-value pairs:
+- `leaf_checksum`: the checksum that the submitter wants to log in base64.
+- `signature_scheme`: the signature scheme that the submitter wants to use.
+- `tree_leaf_signature`: the submitter's `tree_leaf` signature in base64.
+- `verification_key`: the submitter's public verification key. It is serialized
+as described in the corresponding RFC, then base64-encoded.
+- `domain_hint`: a domain name that indicates where the public verification-key
+hash can be downloaded in base64. Supported methods: DNS and HTTPS
+(TODO: docdoc).
+
+Output:
+- On success: HTTP 200. The log will _try_ to incorporate the submitted leaf
+into its Merkle tree.
+- On failure: a different status code and a human-readable error message.
+
+The submitted entry will not be accepted if the signature is invalid or if the
+downloaded verification-key hash does not match. The submitted entry may also
+not be accepted if the second-level domain name exceeded its rate limit. By
+coupling every add-leaf request with a second-level domain, it becomes more
+difficult to spam the log. You would need an excessive number of domain names.
+This becomes costly if free domain names are rejected.
+
+The log does not publish domain-name to key bindings because key management is
+more complex than that.
+
+Public logging should not be assumed until an inclusion proof is available. An
+inclusion proof should not be relied upon unless it leads up to a trustworthy
+signed tree head. Witness cosigning can make a tree head trustworthy.
+
+TODO: the log may allow no `domain_hint`? Especially useful for v0 testing.
+
+### add-cosignature
+```
+POST <base url>/st/v0/add-cosignature
+```
+
+Input key-value pairs:
+- `signature`: a base64-encoded signature over a `tree_head` that is fixed for
+some period of time. The cosigning witness retrieves the tree head using the
+`get-signed-tree-head` endpoint with the "stable" type.
+- `key_hash`: a base64-encoded hash of the public verification key that can be
+used to verify the signature.
+
+Output:
+- HTTP status 200 OK on success. Otherwise a different status code and a
+human-readable error message.
+
+The key-hash can be used to identify which witness signed the log's tree head.
+A key-hash, rather than the full verification key, is used to force the verifier
+to locate the appropriate key and make an explicit trust decision.