blob_decoder/lib.rs
1//! `blob-decoder` — identify and decode opaque forensic blobs of unknown type.
2//!
3//! Hand it raw bytes; it reports what they are, decodes them, and returns
4//! **scored, cited candidates** — recursively unwrapping nested wrappers (a
5//! base64'd, gzip'd binary-plist is reported as the full
6//! `Base64 → Gzip → BinaryPlist` chain).
7//!
8//! The actual decoding is delegated to mature crates (`plist`, `base64`, `hex`,
9//! `uuid`, `flate2`, `snap`, `serde_json`); this crate adds only the
10//! orchestration layer: identify → dispatch → score → recursively unwrap, plus a
11//! clean forensic result type.
12//!
13//! # Epistemics
14//!
15//! A blob is often underdetermined: bytes that are valid hex are frequently also
16//! valid base64, and a run of ASCII is *technically* decodable as base64 to
17//! gibberish. `blob-decoder` never asserts a single verdict — it returns every
18//! plausible reading with an honest [`Confidence`], and a low-confidence reading
19//! lowers the rank, never hides the finding.
20//!
21//! # Example
22//!
23//! ```
24//! // gzip magic (0x1f 0x8b) → identified as a Gzip wrapper.
25//! let gz = b"\x1f\x8b\x08\x00\x00\x00\x00\x00";
26//! let cands = blob_decoder::identify(gz);
27//! assert_eq!(cands[0].kind, blob_decoder::BlobKind::Gzip);
28//! ```
29#![forbid(unsafe_code)]
30#![cfg_attr(test, allow(clippy::unwrap_used, clippy::expect_used))]
31
32pub mod identify;
33
34pub use identify::{identify, identify_with_limits};
35
36/// The engine's version (`CARGO_PKG_VERSION`), for callers that surface it.
37pub const VERSION: &str = env!("CARGO_PKG_VERSION");
38
39/// A recognised (or unrecognised) blob type.
40///
41/// The `citation` and `label` are carried per-kind so a reading is traceable to
42/// the authoritative format definition it was matched against.
43#[derive(Debug, Clone, Copy, PartialEq, Eq, serde::Serialize)]
44#[serde(rename_all = "snake_case")]
45pub enum BlobKind {
46 /// Apple binary property list (`bplist00` magic).
47 BinaryPlist,
48 /// Apple XML property list.
49 XmlPlist,
50 /// gzip member (`1f 8b` magic).
51 Gzip,
52 /// zlib stream (RFC 1950 header).
53 Zlib,
54 /// Snappy framed stream.
55 Snappy,
56 /// base64 text (standard or URL-safe alphabet).
57 Base64,
58 /// Hexadecimal text.
59 Hex,
60 /// A UUID / GUID (16 raw bytes or the canonical hyphenated string).
61 Uuid,
62 /// JSON (object or array root).
63 Json,
64 /// UTF-16LE text.
65 Utf16Le,
66 /// UTF-8 text (printable).
67 Utf8Text,
68 /// No known type matched — the raw head bytes are reported for the analyst.
69 Unknown,
70}
71
72impl BlobKind {
73 /// A short human label.
74 #[must_use]
75 pub fn label(self) -> &'static str {
76 match self {
77 Self::BinaryPlist => "Apple binary property list",
78 Self::XmlPlist => "Apple XML property list",
79 Self::Gzip => "gzip stream",
80 Self::Zlib => "zlib stream",
81 Self::Snappy => "Snappy framed stream",
82 Self::Base64 => "base64 text",
83 Self::Hex => "hexadecimal text",
84 Self::Uuid => "UUID / GUID",
85 Self::Json => "JSON",
86 Self::Utf16Le => "UTF-16LE text",
87 Self::Utf8Text => "UTF-8 text",
88 Self::Unknown => "unknown",
89 }
90 }
91
92 /// The authoritative spec / reference this kind is matched against.
93 #[must_use]
94 pub fn citation(self) -> &'static str {
95 match self {
96 Self::BinaryPlist | Self::XmlPlist => {
97 "Apple CoreFoundation CFBinaryPList.c; `man 5 plist`"
98 }
99 Self::Gzip => "RFC 1952 (GZIP file format)",
100 Self::Zlib => "RFC 1950 (ZLIB compressed data format)",
101 Self::Snappy => "google/snappy framing_format.txt",
102 Self::Base64 => "RFC 4648 §4-5 (Base 64 / Base64url)",
103 Self::Hex => "RFC 4648 §8 (Base 16)",
104 Self::Uuid => "RFC 9562 (UUID)",
105 Self::Json => "RFC 8259 (JSON)",
106 Self::Utf16Le => "The Unicode Standard; RFC 2781 (UTF-16LE)",
107 Self::Utf8Text => "RFC 3629 (UTF-8)",
108 Self::Unknown => "no matching format",
109 }
110 }
111
112 /// True when this kind is a *wrapper* whose payload is itself another blob
113 /// (base64/hex text, or a compression stream) — the recursion drivers.
114 #[must_use]
115 pub fn is_wrapper(self) -> bool {
116 matches!(
117 self,
118 Self::Gzip | Self::Zlib | Self::Snappy | Self::Base64 | Self::Hex
119 )
120 }
121}
122
123/// How strongly the evidence supports a reading. Ordered `Low < Medium < High`
124/// so candidates sort best-first by *descending* confidence.
125///
126/// - [`Confidence::High`] — a strong, near-unique MAGIC signature or a full
127/// successful structural parse (`bplist00`, `1f 8b`, a valid RFC 1950 header,
128/// a parseable JSON object, a canonical hyphenated UUID string).
129/// - [`Confidence::Medium`] — a magic matched but the payload failed to fully
130/// decode, or a heuristic wrapper (base64/hex) whose decoded payload was
131/// itself recognised as a concrete type.
132/// - [`Confidence::Low`] — a purely structural heuristic that a random blob
133/// could satisfy by coincidence (16 arbitrary bytes as a UUID; base64/hex text
134/// decoding only to more opaque bytes; plain printable text).
135#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, serde::Serialize)]
136#[serde(rename_all = "snake_case")]
137pub enum Confidence {
138 /// A coincidence-prone structural heuristic.
139 Low,
140 /// A magic matched but payload decode was partial, or a heuristic wrapper
141 /// whose payload was recognised.
142 Medium,
143 /// A strong magic signature or a full successful parse.
144 High,
145}
146
147/// One scored, cited candidate reading of a blob. A wrapper candidate nests the
148/// identification of its decoded payload in [`Candidate::inner`], so a
149/// `base64 → gzip → binary-plist` blob reports the whole chain.
150#[derive(Debug, Clone, serde::Serialize)]
151pub struct Candidate {
152 /// The identified (or unidentified) kind.
153 pub kind: BlobKind,
154 /// How strongly the evidence supports this reading.
155 pub score: Confidence,
156 /// A human summary of *what was found* (root type, byte counts, decoded
157 /// text prefix, or — for [`BlobKind::Unknown`] — the raw head bytes).
158 pub summary: String,
159 /// The authoritative spec citation for [`Candidate::kind`].
160 pub citation: &'static str,
161 /// For a wrapper kind, the identification of the decoded/decompressed
162 /// payload — the next link in the chain. `None` for a leaf reading, a failed
163 /// decode, or when the recursion depth cap was reached.
164 #[serde(skip_serializing_if = "Option::is_none")]
165 pub inner: Option<Box<DecodedChain>>,
166}
167
168/// The decoded payload of a wrapper [`Candidate`]: how many bytes it produced
169/// and the best reading of those bytes.
170#[derive(Debug, Clone, serde::Serialize)]
171pub struct DecodedChain {
172 /// Number of bytes the wrapper decoded/decompressed to (after any cap).
173 pub decoded_len: usize,
174 /// True when the decoded output was truncated at the size cap (a possible
175 /// decompression bomb) — the payload reading is of the capped prefix.
176 pub capped: bool,
177 /// The best (highest-confidence) reading of the decoded payload.
178 pub best: Box<Candidate>,
179}
180
181/// Resource bounds for [`identify_with_limits`] — the guard against
182/// decompression bombs and infinitely-nested wrappers on untrusted input.
183#[derive(Debug, Clone, Copy)]
184pub struct Limits {
185 /// Maximum recursion depth through nested wrappers.
186 pub max_depth: usize,
187 /// Maximum bytes to hold from a single decompression/decode step (a
188 /// decompression bomb is capped here, never allowed to exhaust memory).
189 pub max_output: usize,
190 /// Inputs larger than this skip the *heuristic* decoders (base64/hex/text);
191 /// magic-signature detection still runs. Bounds worst-case work.
192 pub max_input: usize,
193}
194
195impl Default for Limits {
196 fn default() -> Self {
197 Self {
198 max_depth: 8,
199 max_output: 64 * 1024 * 1024,
200 max_input: 128 * 1024 * 1024,
201 }
202 }
203}