[−][src]Crate fbas_analyzer
A library and tool for analyzing the quorum structure of federated byzantine agreement systems (FBASs) like Stellar. Related research paper here.
We recommend using the Analysis
struct for doing analyses.
Example analysis
use fbas_analyzer::{Fbas, Analysis, bitset, bitsetvec}; let fbas = Fbas::from_json_file(std::path::Path::new("test_data/correct.json")); let analysis = Analysis::new(&fbas); assert!(analysis.has_quorum_intersection()); // "Unwrapping" analysis results gives us their internal representation, with node IDs // corresponding to node indices in the input JSON. assert_eq!(bitsetvec![{0,1},{0,10},{1,10}], analysis.minimal_blocking_sets().unwrap()); // You can also directly transform results into vectors of public keys or organization names... let mss_pretty = analysis.minimal_splitting_sets().into_pretty_vec_vec(&fbas, None); assert_eq!(vec!["GCGB2S2KGYARPVIA37HYZXVRM2YZUEXA6S33ZU5BUDC6THSB62LZSTYH"], mss_pretty[0]); // ...or serialize them using serde. assert_eq!("[0,1,10]", serde_json::to_string(&analysis.top_tier()).unwrap()); // You can post-process results. Let's say we believe that node 0 has crashed... let remaining_mbs = analysis.minimal_blocking_sets().without_nodes(&[0]).minimal_sets(); assert_eq!(bitsetvec![{1},{10}], remaining_mbs.unwrap()); // Yikes!
More examples...
...can be found in the src/bin
and examples
folders...
Modules
preprocessing | |
sets | |
simulation | |
timing |
Macros
bitset | Create a |
bitsetvec | Create a |
timed | Measure the time it takes for an operation to complete (as |
timed_secs | Measure the time it takes for an operation to complete (in seconds, as |
Structs
Analysis | Front end for the most interesting FBAS analyses. Among other things, it does ID space shrinking (which improves memory and performance when using bit sets) and caches the results of long-running computations. |
Fbas | Representation of an FBAS. |
Groupings | Defines one concrete way to group the nodes of an |
NodeIdSetResult | Wraps a node ID set. |
NodeIdSetVecResult | Wraps a vector of node ID sets. Node ID sets are stored in shrunken form to preserve memory. |
QuorumSet |
Traits
AnalysisResult |
Functions
find_minimal_blocking_sets | Find all minimal blocking sets in the FBAS. |
find_minimal_quorums | Find all minimal quorums in the FBAS. |
find_minimal_splitting_sets | If the FBAS doesn't enjoy quorum intersection, this returns the minimal splitting sets of all sub-FBASs. As this is probably not what you want then, you should check for quorum intersection before using this function. |
find_nonintersecting_quorums | Find at least two non-intersecting quorums. Use this function if you don't want to enumerate all minimal quorums and/or it is likely that the FBAS lacks quorum intersection and you want to stop early in such cases. |
find_symmetric_clusters | Finds groups of nodes (represented as quorum sets) such that all members of the same group have the exact identical quorum set, and the nodes contained in this quorum set are exactly the group of nodes (a symmetric cluster). Once no more such clusters are found, returns the maximum quorum of the remaining nodes. (So, getting a result with more than 1 entry implies that we don't have quorum intersection.) |
Type Definitions
NodeId | |
NodeIdSet |