From b9b3551d79ae14c89088c233e655017724d59a08 Mon Sep 17 00:00:00 2001 From: Rasmus Dahlberg Date: Tue, 20 Oct 2020 16:59:12 +0200 Subject: removed old files --- doc/api.md | 205 ------------------------------------------------------------- 1 file changed, 205 deletions(-) delete mode 100644 doc/api.md diff --git a/doc/api.md b/doc/api.md deleted file mode 100644 index ebd666d..0000000 --- a/doc/api.md +++ /dev/null @@ -1,205 +0,0 @@ -# System Transparency Log -This document provides a sketch of System Transparency (ST) logging. The basic -idea is to insert hashes of system artifacts into a public, append-only, and -tamper-evident transparency log, such that any enforcing client can be sure that -they see the same system artifacts as everyone else. A system artifact could -be an operating system image, a Debian package, or generally just a checksum of -something opaque. - -An ST log can be implemented on-top of -[Trillian](https://trillian.transparency.dev) using a custom STFE personality. -For reference you may look at Certificate Transparency (CT) logging and -[CTFE](https://github.com/google/certificate-transparency-go/tree/master/trillian/ctfe), -which implements [RFC 6962](https://tools.ietf.org/html/rfc6962). - -We reuse RFC 6962 and its follow-up specification [RFC -6962/bis](https://datatracker.ietf.org/doc/draft-ietf-trans-rfc6962-bis/) to the -largest extent possible. - -## Log parameters -A log is defined by the following immutable parameters: -- Log identifier: a unique identifier -- Public key: a unique public key -- Base URL: where can this log be reached? E.g., example.com:1234/log -- Hash algorithm: e.g., SHA-256 -- Signature algorithm: e.g., ECDSA on a given curve. - -Note that **there is no MMD**. The idea is to merge added entries as soon as -possible, and no client should trust that something is logged until an inclusion -proof can be provided that references a trustworthy STH. - -## Minimum acceptance criteria -A log should accept a submission if it is: -- Well-formed, see below. -- Digitally signed - - Proves who submitted an entry for logging - - The signing key must chain back to a valid trust anchor - -## Data structure definitions -We encode everything that is digitally signed as in [RFC -5246](https://tools.ietf.org/html/rfc5246). Therefore, we use the same -description language for our data structures. A definition of the log's Merkle -tree can be found in RFC 6962, see -[§2](https://tools.ietf.org/html/rfc6962#section-2). - -### Repurposing `TransItem` as `StItem` -A general-purpose `TransItem` is defined by RFC 6962/bis. Below we define our -own `TransItem`, but name it `STItem` to emphasize that they are not the same. -Some definitions are re-used and others are added. - -``` -enum { - reserved(0), - signed_tree_head_v1(1), // defined in RFC 6962/bis, §4.10 - signed_debug_info_v1(2), // defined below, think "almost SCT" - consistency_proof_v1(3), // defined in RFC 6962/bis, §4.11 - inclusion_proof_v1(4), // defined in RFC 6962/bis, §4.12 - checksum_v1(5), // defined below, think "leaf data" - (65535) -} StFormat; - -struct { - StFormat format; - select (format) { - case signed_tree_head_v1: SignedTreeHeadV1; - case signed_debug_info_v1: SignedDebugInfoV1; - case consistency_proof_v1: ConsistencyProofV1; - case inclusion_proof_v1: InclusionProofV1; - case checksum_v1: ChecksumV1; - } message; -} StItem; -``` - -An `StItem` can be serialized into a list as described in RFC 6962/bis, -[§6.2](https://datatracker.ietf.org/doc/html/draft-ietf-trans-rfc6962-bis-34#section-6.2). - -### Merkle tree leaf types -In the future there might be several types of leaves. Say, one for operating -system packages, another one for Debian packages, and a third one for -general-purpose checksums. For now we only define the latter. - -#### Checksum -A checksum entry contains a package identifier such as `foobar-1.2.3` and an -artifact hash that uses the log's configured hash function. - -``` -struct { - opaque package<0..2^8-1>; // package identifier - opaque checksum<32..2^8-1>; // artifact hash that used the log's hash func -} ChecksumV1; -``` - -For example, the checksum type could be used by Firefox to [enforce public -binary logging before accepting a new software -update](https://wiki.mozilla.org/Security/Binary_Transparency). It is assumed -that the entities relying on the checksum type know how to find the artifact -source (if not already at hand) and then reproduce the logged hash from it. - -### Signed Debug Info -RFC 6962 uses Signed Certificate Timestamps (SCTs) as promises of public -logging within a time known as the Maximum Merge Delay (MMD). We provide no -such promise: a Signed Debug Info (SDI) is an intent to log because the -submitter is authorized to do so and the entry appears to be valid. It will be -merged into the log's Merkle tree as soon as possible on a best-effort basis. -If an unexpected delay is encountered, the submitter can present the issued SDI -to the log operator (who can then investigate the underlying reason further). -``` -struct { - LogID log_id; // defined in RFC 6962 - opaque message<0..2^16-1> // debug string that is only meant for the log - opaque signature; // computed by the log over the StItem in question -} SignedDebugInfoV1; -``` -## Public endpoints -Clients talk to the log with HTTPS GET/POST requests. POST parameters -are JSON objects, GET parameters are URL encoded, and serialized data is -expressed as base-64. See details in as in RFC 6962, -[§4](https://tools.ietf.org/html/rfc6962#section-4). - -Unless specified otherwise, the data in question is serialized. - -### add-entry -``` -POST https:///st/v1/add-entry -``` - -Input: -- item: an `StItem` that corresponds to a valid leaf type. Only -`checksum_v1` at this time. -- signature: a `DigitallySigned` object as defined in RFC 5246, -[§4.7](https://tools.ietf.org/html/rfc5246#section-4.7), that covers this item. -- certificate: base-64 encoded X.509 certificate that is vouched for by a trust -anchor and which produced the above signature. - -Output: -- sdi: an `StItem` structure of type `signed_debug_info_v1` that covers the -added item. - -### get-entries -``` -GET https:///st/v1/get-entries -``` - -Input: -- start: 0-based index of first entry to retrieve in decimal. -- end: 0-based index of last entry to retrieve in decimal. - -Output: -- entries: an array of objects, each consisting of - - leaf: `StItem` that corresponds to the leaf's type. - - signature: `DigitallySigned` object that covers the retrieved item. - - chain: an array of base-64 encoded certificates, where the first - corresponds to the signing certificate and the final one a trust anchor. - -The signature and chain can be viewed as a leaf's appendix, i.e., something that -is stored by the log but not part of the leaf itself. - -### get-anchors -``` -GET https:///st/v1/get-anchors -``` - -No input. - -Output: -- certificates: an array of base-64 encoded trust anchors that the log accept. - -### get-proof-by-hash -``` -GET https:///st/v1/get-proof-by-hash -``` - -Input: -- hash: a base-64 encoded leaf hash. -- tree_size: the thee size that the proof should be based on in decimal. - -The leaf hash value is computed as in RFC 6962/bis, -[§4.7](https://datatracker.ietf.org/doc/html/draft-ietf-trans-rfc6962-bis-34#section-4.7). - -Output: -- inclusion: an `StItem` of type `inclusion_proof_v1`. Note that this structure -includes both the leaf index and an audit path for the tree size. - -### get-consistency-proof -``` -GET https:///st/v1/get-consistency-proof -``` - -Input: -- first: the `tree_size` of the older tree in decimal. -- second: the `tree_size` of the newer tree in decimal. - -Output: -- consistency: an `StItem` of type `consistency_proof_v1` that corresponds to -the requested tree sizes. - -### get-sth -``` -GET https:///st/v1/get-sth -``` - -No input. - -Output: -- sth: an `StItem` of type `signed_tree_head_v1`, which corresponds to the most -recently known STH, which corresponds to the most recently known STH. -- cgit v1.2.3