Sulkta-OSS/mithril-go
2
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions

Compare commits

base: Sulkta-OSS:main
Branches Tags
Sulkta-OSS:main
Sulkta-OSS:v1.0.1
Sulkta-OSS:v1.0.0
..
compare: Sulkta-OSS:v1.0.0
Branches Tags
Sulkta-OSS:main
Sulkta-OSS:v1.0.1
Sulkta-OSS:v1.0.0

No commits in common. "main" and "v1.0.0" have entirely different histories.
main ... v1.0.0

12 changed files with 164 additions and 226 deletions
Download patch file Download diff file Expand all files Collapse all files

40
.forgejo/workflows/gitleaks.yml
View file

@ -1,40 +0,0 @@
# .forgejo/workflows/gitleaks.yml
#
# Sulkta canonical gitleaks workflow. Drop a copy into every public repo at
# `.forgejo/workflows/gitleaks.yml` after the Forgejo act_runner is registered
# (task #295).
#
# Pairs with the pre-receive hook installed on every bare repo — that one is
# the strict enforcement layer (rejects the push); this one provides the
# per-PR red ✗ that branch-protection rules can require before merge.
#
# Layer 1 (this workflow): visible per-PR status, can be a required check.
# Layer 2 (pre-receive hook): strict enforcement at the server.
# Layer 3 (johnny5 cron sweep): nightly full-history sweep across all repos.
name: gitleaks
on:
push:
pull_request:
jobs:
scan:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
with:
# Full history — gitleaks needs depth to scan a commit range.
fetch-depth: 0
- name: install gitleaks
run: |
curl -sSL -o gl.tar.gz \
https://github.com/gitleaks/gitleaks/releases/download/v8.21.2/gitleaks_8.21.2_linux_x64.tar.gz
tar xzf gl.tar.gz gitleaks
chmod +x gitleaks
./gitleaks version
- name: scan
run: |
./gitleaks detect --source . --no-banner --redact --verbose

100
README.md
View file

@ -2,38 +2,46 @@
Pure-Go client for the Cardano [Mithril](https://mithril.network) protocol. Pure-Go client for the Cardano [Mithril](https://mithril.network) protocol.
Mithril is Cardano's stake-based certified-snapshot system. A new node Mithril is Cardano's stake-based certified-snapshot system — it lets a new
bootstraps the chain from a cryptographically-verified snapshot instead node bootstrap the chain from a cryptographically-verified snapshot
of replaying every block from genesis. instead of replaying every block from genesis.
The reference [`mithril-client`](https://github.com/input-output-hk/mithril) The official [`mithril-client`](https://github.com/input-output-hk/mithril)
is Rust. `mithril-go` is a pure-Go reimplementation: single static binary, is Rust. `mithril-go` is a pure-Go reimplementation that produces a single
no CGo, no `blst`, no upstream Rust runtime. Also ships an MCP stdio static binary with no CGo, no upstream Rust runtime, and an MCP-native
server for agent use. tool surface for AI agents — useful for:
- Embedding Mithril bootstrap into Go-based Cardano tooling (alongside
`gouroboros`, `dingo`, etc.)
- Constrained ARM/embedded targets where shipping the Rust binary + its
deps is overkill
- Operators who prefer a single `go install`-able helper
- AI agents (Claude Code, Cursor, Zed, ...) that want to verify Mithril
certs as a callable tool
## Status ## Status
Consensus-correct verification against live mainnet and preprod. **Working consensus-correct verification against live mainnet and preprod.**
| Capability | Status | | Capability | Status |
|---|---| |---|---|
| Aggregator REST client (list, show, cert, walk-chain) | done | | Aggregator REST client | ✅ list, show, cert, walk-chain |
| Resumable HTTP download (SHA hook + progress) | done | | Resumable HTTP download (SHA hook + progress) | |
| Streamed zstd+tar extract (tar-slip defended) | done | | Streamed zstd+tar extract (tar-slip defended) | |
| Genesis Ed25519 verification | done | | Genesis Ed25519 verification | ✅ live mainnet + preprod |
| STM BLS12-381 aggregate verification | done | | STM BLS12-381 aggregate verification | ✅ live mainnet + preprod |
| Lottery-win threshold (Taylor series, big.Rat) | done | | Lottery-win threshold (Taylor series, big.Rat) | |
| Merkle batch-proof verification (Blake2b-256) | done | | Merkle batch-proof verification (Blake2b-256) | |
| AVK chaining + epoch + hash continuity | done | | AVK chaining + epoch + hash continuity | |
| Full chain verification (genesis → head) | done | | **Full chain verification (genesis → head)** | ✅ live mainnet + preprod |
| Per-immutable SHA manifest verification | done | | Per-immutable SHA manifest verification | |
| MCP stdio server (8 tools) | done | | MCP stdio server (8 tools) | |
| Full immutables-download loop (8000+ files) | pending | | Full immutables-download loop (8000+ files) | |
## Quick start ## Quick start
```bash ```bash
go build ./cmd/mithril-go # ~9.5 MB single static binary go build ./cmd/mithril-go # produces a 9.5 MB single static binary
mithril-go info -network mainnet mithril-go info -network mainnet
mithril-go list -network mainnet mithril-go list -network mainnet
@ -71,24 +79,27 @@ internal/
verify/ Genesis Ed25519 verification verify/ Genesis Ed25519 verification
``` ```
## Upstream details that aren't documented ## What was non-obvious (so future-you doesn't have to dig)
Three things in the upstream Rust that aren't documented anywhere
prominent:
1. **DST is empty.** Mithril's BLS hash-to-G1 uses an empty domain 1. **DST is empty.** Mithril's BLS hash-to-G1 uses an empty domain
separation tag, not the IETF standard separation tag, not the IETF standard `BLS_SIG_BLS12381G1_XMD:SHA-256_SSWU_RO_NUL_`.
`BLS_SIG_BLS12381G1_XMD:SHA-256_SSWU_RO_NUL_`. The Rust calls The Rust calls `blst.verify(sig, msg, &[], &[], pk, ...)` — the
`blst.verify(sig, msg, &[], &[], pk, ...)` — the `&[]` is the empty DST. `&[]` is the empty DST.
2. **Signed message is `signed_message_bytes || mt_root_bytes`**, 2. **The signed message is `signed_message_bytes || mt_root_bytes`**,
not `signed_message` alone. The Merkle commitment root is appended not `signed_message` alone. The Merkle commitment root is appended
before BLS verify. before BLS verify.
3. **Aggregation is MuSig-style scalar-weighted**, not plain. 3. **Aggregation is MuSig-style scalar-weighted, not plain.**
`t_i = Blake2b-128(Blake2b-128(σ_0‖…‖σ_{n-1}) ‖ be_u64(i))`, `t_i = Blake2b-128(Blake2b-128(σ_0‖…‖σ_{n-1}) ‖ be_u64(i))`,
then `aggr_sig = Σ t_i·sig_i` and `aggr_vk = Σ t_i·vk_i`. then `aggr_sig = Σ t_i·sig_i` and `aggr_vk = Σ t_i·vk_i`.
Plain summation does not interop with blst. Plain summation does not interop with blst.
The `protocol_message` hash is SHA-256 over key-then-value, with keys Plus the `protocol_message` hash is SHA-256 over key-then-value, with
ordered by **Rust enum declaration order**, not alphabetical. keys ordered by **Rust enum declaration order**, not alphabetical.
## JSON + exit codes ## Machine / LLM usage
Every query command accepts `-json`: Every query command accepts `-json`:
@ -108,11 +119,12 @@ Stable exit codes:
| 5 | signature verification failure (genesis or STM) | | 5 | signature verification failure (genesis or STM) |
| 130 | canceled (SIGINT) | | 130 | canceled (SIGINT) |
Existing codes won't renumber. These are the contract — existing codes won't renumber.
## MCP server ### MCP server
`mithril-go mcp` brings up a Model Context Protocol stdio server. `mithril-go mcp` brings up a Model Context Protocol stdio server.
Compatible with any MCP client (Claude Code, Cursor, Zed, custom agents).
Tools exposed: Tools exposed:
@ -123,9 +135,15 @@ Tools exposed:
| `mithril_show_snapshot` | Detail for a snapshot (or `latest`) | | `mithril_show_snapshot` | Detail for a snapshot (or `latest`) |
| `mithril_get_certificate` | Cert by hash (or `head`) | | `mithril_get_certificate` | Cert by hash (or `head`) |
| `mithril_walk_cert_chain` | Walk previous_hash from head to genesis | | `mithril_walk_cert_chain` | Walk previous_hash from head to genesis |
| `mithril_verify_certificate` | Ed25519 or STM BLS verify, dispatched by cert kind | | `mithril_verify_certificate` | Ed25519 OR STM BLS verify, dispatched by cert kind |
| `mithril_verify_chain` | Full chain verify with per-step report | | `mithril_verify_chain` | Full chain verify with per-step report |
| `mithril_verify_genesis` | Walk to genesis + Ed25519 verify | | `mithril_verify_genesis` | Walk to genesis + Ed25519 verify (legacy single-purpose tool) |
Example agent flow:
```
agent: tools/call mithril_verify_chain {network: mainnet}
→ {verified: true, length: 89, genesis_hash: "...", steps: [...]}
```
## Dependencies ## Dependencies
@ -147,14 +165,14 @@ go test -tags live ./... # hits live preprod aggregator
## Verified against live networks (latest run) ## Verified against live networks (latest run)
``` ```
mainnet chain 89 STM + 1 genesis ok mainnet chain 89 STM + 1 genesis
mainnet head 59 signers, 1972 wins ok mainnet head 59 signers, 1972 wins
mainnet genesis Ed25519 ok mainnet genesis Ed25519
preprod chain 89 STM + 1 genesis ok preprod chain 89 STM + 1 genesis
preprod head 2 signers, 11 wins ok preprod head 2 signers, 11 wins
preprod genesis Ed25519 ok preprod genesis Ed25519
``` ```
## License ## License
Apache-2.0. See `LICENSE`. Matches upstream Mithril. Apache-2.0. See `LICENSE`. Matches the upstream Mithril project.

38
cmd/mithril-go/json.go
View file

@ -3,6 +3,7 @@ package main
import ( import (
"encoding/json" "encoding/json"
"fmt" "fmt"
"io"
"os" "os"
) )
@ -18,39 +19,12 @@ func emitJSON(v any) int {
return 0 return 0
} }
// emitJSONErr writes a structured error envelope to stdout in the shape // emitJSONErr writes a structured error envelope. Mirrors the shape
// MCP / agent consumers expect: // Claude/MCP-friendly consumers want: {"error": {"code":..., "message":...}}.
// func emitJSONErr(w io.Writer, code, msg string) {
// {"error": {"code": "...", "message": "..."}} enc := json.NewEncoder(w)
//
// Returns the supplied exit code so callers can do `return emitJSONErr(...)`.
func emitJSONErr(code int, kind, msg string) int {
enc := json.NewEncoder(os.Stdout)
enc.SetIndent("", " ") enc.SetIndent("", " ")
_ = enc.Encode(map[string]any{ _ = enc.Encode(map[string]any{
"error": map[string]any{ "error": map[string]string{"code": code, "message": msg},
"code": code,
"kind": kind,
"message": msg,
},
}) })
return code
}
// failure routes an error to either stdout-as-JSON (when the user passed
// -json) or stderr-as-text (default). Returns the supplied exit code.
//
// kind is a stable short string ("network", "integrity", "verify",
// "usage", "internal") — agents can branch on this without parsing
// human-readable text.
func failure(asJSON bool, code int, kind, prefix string, err error) int {
msg := err.Error()
if prefix != "" {
msg = prefix + ": " + msg
}
if asJSON {
return emitJSONErr(code, kind, msg)
}
fmt.Fprintln(os.Stderr, msg)
return code
} }

124
cmd/mithril-go/main.go
View file

@ -16,7 +16,6 @@ import (
"encoding/json" "encoding/json"
"flag" "flag"
"fmt" "fmt"
"io"
"net/http" "net/http"
"os" "os"
"os/signal" "os/signal"
@ -25,17 +24,17 @@ import (
"text/tabwriter" "text/tabwriter"
"time" "time"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/aggregator" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/aggregator"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/artifact" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/artifact"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/chain" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/chain"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/manifest" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/manifest"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/mcp" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/mcp"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/networks" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/networks"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/stm" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/stm"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/verify" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/verify"
) )
const version = "1.0.1" const version = "0.0.3-dev"
// Stable exit codes. Any addition goes at the end; existing values // Stable exit codes. Any addition goes at the end; existing values
// don't renumber. LLM/automation-friendly contract. // don't renumber. LLM/automation-friendly contract.
@ -133,12 +132,14 @@ func cmdList(ctx context.Context, args []string) int {
asJSON := fs.Bool("json", false, "emit structured JSON") asJSON := fs.Bool("json", false, "emit structured JSON")
n, _, err := resolveNetwork(fs, args) n, _, err := resolveNetwork(fs, args)
if err != nil { if err != nil {
return failure(*asJSON, exitUsage, "usage", "", err) fmt.Fprintln(os.Stderr, err)
return 2
} }
c := aggregator.New(n.AggregatorURL) c := aggregator.New(n.AggregatorURL)
snaps, err := c.ListCardanoDBSnapshots(ctx) snaps, err := c.ListCardanoDBSnapshots(ctx)
if err != nil { if err != nil {
return failure(*asJSON, exitNetwork, "network", "list", err) fmt.Fprintln(os.Stderr, "list:", err)
return exitNetwork
} }
if *asJSON { if *asJSON {
return emitJSON(map[string]any{ return emitJSON(map[string]any{
@ -166,7 +167,8 @@ func cmdShow(ctx context.Context, args []string) int {
asJSON := fs.Bool("json", false, "emit structured JSON") asJSON := fs.Bool("json", false, "emit structured JSON")
n, rest, err := resolveNetwork(fs, args) n, rest, err := resolveNetwork(fs, args)
if err != nil { if err != nil {
return failure(*asJSON, exitUsage, "usage", "", err) fmt.Fprintln(os.Stderr, err)
return exitUsage
} }
hash := "latest" hash := "latest"
if len(rest) > 0 { if len(rest) > 0 {
@ -175,7 +177,8 @@ func cmdShow(ctx context.Context, args []string) int {
c := aggregator.New(n.AggregatorURL) c := aggregator.New(n.AggregatorURL)
snap, err := resolveSnapshot(ctx, c, hash) snap, err := resolveSnapshot(ctx, c, hash)
if err != nil { if err != nil {
return failure(*asJSON, exitNetwork, "network", "show", err) fmt.Fprintln(os.Stderr, "show:", err)
return exitNetwork
} }
if *asJSON { if *asJSON {
return emitJSON(snap) return emitJSON(snap)
@ -279,11 +282,12 @@ func cmdVerify(ctx context.Context, args []string) int {
asJSON := fs.Bool("json", false, "emit structured JSON") asJSON := fs.Bool("json", false, "emit structured JSON")
n, rest, err := resolveNetwork(fs, args) n, rest, err := resolveNetwork(fs, args)
if err != nil { if err != nil {
return failure(*asJSON, exitUsage, "usage", "", err) fmt.Fprintln(os.Stderr, err)
return exitUsage
} }
if len(rest) == 0 { if len(rest) == 0 {
return failure(*asJSON, exitUsage, "usage", "", fmt.Fprintln(os.Stderr, "verify: cert hash required (or 'head' / 'genesis')")
fmt.Errorf("verify: cert hash required (or 'head' / 'genesis' / 'chain' / 'manifest <dir>')")) return exitUsage
} }
mode := rest[0] // "head" = verify head cert (STM, not yet), "genesis" = walk chain + verify genesis, or a specific hash mode := rest[0] // "head" = verify head cert (STM, not yet), "genesis" = walk chain + verify genesis, or a specific hash
c := aggregator.New(n.AggregatorURL) c := aggregator.New(n.AggregatorURL)
@ -305,21 +309,24 @@ func cmdVerify(ctx context.Context, args []string) int {
func runVerifyManifest(args []string, asJSON bool) int { func runVerifyManifest(args []string, asJSON bool) int {
if len(args) == 0 { if len(args) == 0 {
return failure(asJSON, exitUsage, "usage", "", fmt.Fprintln(os.Stderr, "verify manifest: needs path to download dir (with digests/ + db/)")
fmt.Errorf("verify manifest: needs path to download dir (with digests/ + db/)")) return exitUsage
} }
dir := args[0] dir := args[0]
digestsPath, err := manifest.LocateDigests(filepath.Join(dir, "digests")) digestsPath, err := manifest.LocateDigests(filepath.Join(dir, "digests"))
if err != nil { if err != nil {
return failure(asJSON, exitGeneric, "internal", "locate digests.json", err) fmt.Fprintln(os.Stderr, "locate digests.json:", err)
return exitGeneric
} }
entries, err := manifest.Load(digestsPath) entries, err := manifest.Load(digestsPath)
if err != nil { if err != nil {
return failure(asJSON, exitIntegrity, "integrity", "load manifest", err) fmt.Fprintln(os.Stderr, "load manifest:", err)
return exitIntegrity
} }
res, err := manifest.Verify(entries, filepath.Join(dir, "db")) res, err := manifest.Verify(entries, filepath.Join(dir, "db"))
if err != nil { if err != nil {
return failure(asJSON, exitGeneric, "internal", "verify manifest", err) fmt.Fprintln(os.Stderr, "verify manifest:", err)
return exitGeneric
} }
if asJSON { if asJSON {
code := emitJSON(res) code := emitJSON(res)
@ -342,11 +349,13 @@ func runVerifyChain(ctx context.Context, n networks.Network, asJSON bool) int {
c := aggregator.New(n.AggregatorURL) c := aggregator.New(n.AggregatorURL)
snap, err := resolveSnapshot(ctx, c, "latest") snap, err := resolveSnapshot(ctx, c, "latest")
if err != nil { if err != nil {
return failure(asJSON, exitNetwork, "network", "resolve", err) fmt.Fprintln(os.Stderr, "resolve:", err)
return exitNetwork
} }
res, err := chain.Verify(ctx, nil, n, snap.CertificateHash, 2048) res, err := chain.Verify(ctx, nil, n, snap.CertificateHash, 2048)
if err != nil { if err != nil {
return failure(asJSON, exitNetwork, "network", "chain verify", err) fmt.Fprintln(os.Stderr, "chain verify:", err)
return exitNetwork
} }
if asJSON { if asJSON {
code := emitJSON(res) code := emitJSON(res)
@ -381,19 +390,22 @@ func runVerifyGenesis(ctx context.Context, c *aggregator.Client, n networks.Netw
// Find the head snapshot's cert, walk to genesis, verify Ed25519 on the genesis cert. // Find the head snapshot's cert, walk to genesis, verify Ed25519 on the genesis cert.
snap, err := resolveSnapshot(ctx, c, "latest") snap, err := resolveSnapshot(ctx, c, "latest")
if err != nil { if err != nil {
return failure(asJSON, exitNetwork, "network", "resolve", err) fmt.Fprintln(os.Stderr, "resolve:", err)
return exitNetwork
} }
certs, err := c.CertChain(ctx, snap.CertificateHash, 2048) chain, err := c.CertChain(ctx, snap.CertificateHash, 2048)
if err != nil { if err != nil {
return failure(asJSON, exitNetwork, "network", "chain", err) fmt.Fprintln(os.Stderr, "chain:", err)
return exitNetwork
} }
if len(certs) == 0 { if len(chain) == 0 {
return failure(asJSON, exitGeneric, "internal", "", fmt.Errorf("empty chain")) fmt.Fprintln(os.Stderr, "empty chain")
return exitGeneric
} }
gen := certs[len(certs)-1] gen := chain[len(chain)-1]
if gen.GenesisSignature == "" { if gen.GenesisSignature == "" {
return failure(asJSON, exitGeneric, "internal", "", fmt.Fprintln(os.Stderr, "tail of chain is not a genesis certificate")
fmt.Errorf("tail of chain is not a genesis certificate")) return exitGeneric
} }
return verifyGenesisCert(n, gen, asJSON) return verifyGenesisCert(n, gen, asJSON)
} }
@ -401,7 +413,8 @@ func runVerifyGenesis(ctx context.Context, c *aggregator.Client, n networks.Netw
func runVerifyHead(ctx context.Context, c *aggregator.Client, n networks.Network, asJSON bool) int { func runVerifyHead(ctx context.Context, c *aggregator.Client, n networks.Network, asJSON bool) int {
snap, err := resolveSnapshot(ctx, c, "latest") snap, err := resolveSnapshot(ctx, c, "latest")
if err != nil { if err != nil {
return failure(asJSON, exitNetwork, "network", "resolve", err) fmt.Fprintln(os.Stderr, "resolve:", err)
return exitNetwork
} }
return runVerifySingle(ctx, c, n, snap.CertificateHash, asJSON) return runVerifySingle(ctx, c, n, snap.CertificateHash, asJSON)
} }
@ -409,7 +422,8 @@ func runVerifyHead(ctx context.Context, c *aggregator.Client, n networks.Network
func runVerifySingle(ctx context.Context, c *aggregator.Client, n networks.Network, hash string, asJSON bool) int { func runVerifySingle(ctx context.Context, c *aggregator.Client, n networks.Network, hash string, asJSON bool) int {
cert, err := c.GetCertificate(ctx, hash) cert, err := c.GetCertificate(ctx, hash)
if err != nil { if err != nil {
return failure(asJSON, exitNetwork, "network", "cert", err) fmt.Fprintln(os.Stderr, "cert:", err)
return exitNetwork
} }
if cert.GenesisSignature != "" { if cert.GenesisSignature != "" {
return verifyGenesisCert(n, cert, asJSON) return verifyGenesisCert(n, cert, asJSON)
@ -424,15 +438,18 @@ func verifySTMCert(ctx context.Context, c *aggregator.Client, n networks.Network
// Re-fetch as raw JSON to access the AVK + params fields. // Re-fetch as raw JSON to access the AVK + params fields.
raw, err := fetchCertRaw(ctx, n.AggregatorURL, hash) raw, err := fetchCertRaw(ctx, n.AggregatorURL, hash)
if err != nil { if err != nil {
return failure(asJSON, exitNetwork, "network", "fetch raw cert", err) fmt.Fprintln(os.Stderr, "fetch raw cert:", err)
return exitNetwork
} }
ms, err := stm.DecodeMultiSig(raw.MultiSignature) ms, err := stm.DecodeMultiSig(raw.MultiSignature)
if err != nil { if err != nil {
return failure(asJSON, exitIntegrity, "integrity", "decode multi_signature", err) fmt.Fprintln(os.Stderr, "decode multi_signature:", err)
return exitIntegrity
} }
avk, err := stm.DecodeAVK(raw.AggregateVerificationKey) avk, err := stm.DecodeAVK(raw.AggregateVerificationKey)
if err != nil { if err != nil {
return failure(asJSON, exitIntegrity, "integrity", "decode avk", err) fmt.Fprintln(os.Stderr, "decode avk:", err)
return exitIntegrity
} }
msg := []byte(cert.SignedMessage) msg := []byte(cert.SignedMessage)
params := stm.Parameters{K: raw.Metadata.Parameters.K, M: raw.Metadata.Parameters.M, PhiF: raw.Metadata.Parameters.PhiF} params := stm.Parameters{K: raw.Metadata.Parameters.K, M: raw.Metadata.Parameters.M, PhiF: raw.Metadata.Parameters.PhiF}
@ -484,21 +501,14 @@ func fetchCertRaw(ctx context.Context, aggregatorURL, hash string) (*rawCert, er
if err != nil { if err != nil {
return nil, err return nil, err
} }
req.Header.Set("Accept", "application/json")
resp, err := http.DefaultClient.Do(req) resp, err := http.DefaultClient.Do(req)
if err != nil { if err != nil {
return nil, err return nil, err
} }
defer resp.Body.Close() defer resp.Body.Close()
if resp.StatusCode >= 400 {
body, _ := io.ReadAll(io.LimitReader(resp.Body, 2048))
return nil, fmt.Errorf("aggregator GET /certificate/%s: %d: %s", hash, resp.StatusCode, string(body))
}
// Cap at 16 MiB — current mainnet cert JSON is well under 100 KiB.
limited := io.LimitReader(resp.Body, 16<<20)
var r rawCert var r rawCert
if err := json.NewDecoder(limited).Decode(&r); err != nil { if err := json.NewDecoder(resp.Body).Decode(&r); err != nil {
return nil, fmt.Errorf("decode cert json: %w", err) return nil, err
} }
return &r, nil return &r, nil
} }
@ -506,7 +516,8 @@ func fetchCertRaw(ctx context.Context, aggregatorURL, hash string) (*rawCert, er
func verifyGenesisCert(n networks.Network, cert *aggregator.Certificate, asJSON bool) int { func verifyGenesisCert(n networks.Network, cert *aggregator.Certificate, asJSON bool) int {
vk, err := verify.DecodeGenesisVerifyKey(n.GenesisVerifyKey) vk, err := verify.DecodeGenesisVerifyKey(n.GenesisVerifyKey)
if err != nil { if err != nil {
return failure(asJSON, exitGeneric, "internal", "decode genesis key", err) fmt.Fprintln(os.Stderr, "decode genesis key:", err)
return exitGeneric
} }
err = verify.GenesisFromJSON(vk, cert.SignedMessage, cert.GenesisSignature, cert.ProtocolMessage) err = verify.GenesisFromJSON(vk, cert.SignedMessage, cert.GenesisSignature, cert.ProtocolMessage)
if asJSON { if asJSON {
@ -541,25 +552,28 @@ func cmdCert(ctx context.Context, args []string) int {
asJSON := fs.Bool("json", false, "emit structured JSON") asJSON := fs.Bool("json", false, "emit structured JSON")
n, rest, err := resolveNetwork(fs, args) n, rest, err := resolveNetwork(fs, args)
if err != nil { if err != nil {
return failure(*asJSON, exitUsage, "usage", "", err) fmt.Fprintln(os.Stderr, err)
return exitUsage
} }
if len(rest) == 0 { if len(rest) == 0 {
return failure(*asJSON, exitUsage, "usage", "", fmt.Fprintln(os.Stderr, "cert: hash required (or 'head' to use the latest snapshot's cert_hash)")
fmt.Errorf("cert: hash required (or 'head' to use the latest snapshot's cert_hash)")) return exitUsage
} }
head := rest[0] head := rest[0]
c := aggregator.New(n.AggregatorURL) c := aggregator.New(n.AggregatorURL)
if head == "head" { if head == "head" {
snap, err := resolveSnapshot(ctx, c, "latest") snap, err := resolveSnapshot(ctx, c, "latest")
if err != nil { if err != nil {
return failure(*asJSON, exitNetwork, "network", "resolve head", err) fmt.Fprintln(os.Stderr, "resolve head:", err)
return exitNetwork
} }
head = snap.CertificateHash head = snap.CertificateHash
} }
if *chain { if *chain {
certs, err := c.CertChain(ctx, head, *maxDepth) certs, err := c.CertChain(ctx, head, *maxDepth)
if err != nil { if err != nil {
return failure(*asJSON, exitNetwork, "network", "chain", err) fmt.Fprintln(os.Stderr, "chain:", err)
return exitNetwork
} }
if *asJSON { if *asJSON {
return emitJSON(map[string]any{"chain_length": len(certs), "certs": certs}) return emitJSON(map[string]any{"chain_length": len(certs), "certs": certs})
@ -577,7 +591,8 @@ func cmdCert(ctx context.Context, args []string) int {
} }
cert, err := c.GetCertificate(ctx, head) cert, err := c.GetCertificate(ctx, head)
if err != nil { if err != nil {
return failure(*asJSON, exitNetwork, "network", "cert", err) fmt.Fprintln(os.Stderr, "cert:", err)
return exitNetwork
} }
if *asJSON { if *asJSON {
return emitJSON(cert) return emitJSON(cert)
@ -604,7 +619,8 @@ func cmdInfo(args []string) int {
asJSON := fs.Bool("json", false, "emit structured JSON") asJSON := fs.Bool("json", false, "emit structured JSON")
n, _, err := resolveNetwork(fs, args) n, _, err := resolveNetwork(fs, args)
if err != nil { if err != nil {
return failure(*asJSON, exitUsage, "usage", "", err) fmt.Fprintln(os.Stderr, err)
return exitUsage
} }
if *asJSON { if *asJSON {
return emitJSON(map[string]any{ return emitJSON(map[string]any{

12
cmd/mithril-go/mcp.go
View file

@ -4,12 +4,12 @@ import (
"context" "context"
"fmt" "fmt"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/aggregator" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/aggregator"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/chain" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/chain"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/mcp" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/mcp"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/networks" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/networks"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/stm" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/stm"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/verify" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/verify"
) )
func errString(e error) string { func errString(e error) string {

2
go.mod
View file

@ -1,4 +1,4 @@
module git.sulkta.com/Sulkta-Coop/mithril-go module git.sulkta.coop/Sulkta-Coop/mithril-go
go 1.26 go 1.26

4
internal/artifact/download.go
View file

@ -121,10 +121,6 @@ func Download(ctx context.Context, uri, destPath, expectedSHA256 string, progres
if expectedSHA256 != "" { if expectedSHA256 != "" {
got := hex.EncodeToString(h.Sum(nil)) got := hex.EncodeToString(h.Sum(nil))
if got != expectedSHA256 { if got != expectedSHA256 {
// Remove the .part file — leaving it behind would cause every
// subsequent retry to resume from the same corrupted bytes and
// fail SHA again indefinitely.
_ = os.Remove(partPath)
return fmt.Errorf("SHA256 mismatch: want %s, got %s", expectedSHA256, got) return fmt.Errorf("SHA256 mismatch: want %s, got %s", expectedSHA256, got)
} }
} }

8
internal/chain/chain.go
View file

@ -24,10 +24,10 @@ import (
"io" "io"
"net/http" "net/http"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/aggregator" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/aggregator"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/networks" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/networks"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/stm" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/stm"
"git.sulkta.com/Sulkta-Coop/mithril-go/internal/verify" "git.sulkta.coop/Sulkta-Coop/mithril-go/internal/verify"
) )
// Step is the per-cert record in a chain-verification report. // Step is the per-cert record in a chain-verification report.

6
internal/stm/lottery.go
View file

@ -58,12 +58,6 @@ func IsLotteryWon(phiF float64, ev [64]byte, stake, totalStake uint64) bool {
if math.Abs(phiF-1.0) < 1e-15 { if math.Abs(phiF-1.0) < 1e-15 {
return true return true
} }
// Defensive: zero-stake or zero-total-stake produces nonsense (and
// totalStake==0 would panic at SetFrac). Guard at the lottery layer
// in addition to AVK-decode-time validation.
if stake == 0 || totalStake == 0 {
return false
}
// ev as big int (LE interpretation) // ev as big int (LE interpretation)
evInt := evAsBigInt(ev) evInt := evAsBigInt(ev)

34
internal/stm/merkle.go
View file

@ -4,6 +4,7 @@ import (
"bytes" "bytes"
"encoding/binary" "encoding/binary"
"fmt" "fmt"
"sort"
"golang.org/x/crypto/blake2b" "golang.org/x/crypto/blake2b"
) )
@ -77,31 +78,16 @@ func VerifyMerkleBatch(root []byte, nrLeaves int, leafValues [][]byte, indices [
if len(leafValues) != len(indices) { if len(leafValues) != len(indices) {
return fmt.Errorf("leaves/indices count mismatch: %d vs %d", len(leafValues), len(indices)) return fmt.Errorf("leaves/indices count mismatch: %d vs %d", len(leafValues), len(indices))
} }
if nrLeaves <= 0 { // Must be sorted ascending
return fmt.Errorf("nrLeaves must be positive, got %d", nrLeaves)
}
// Validate every proof node is a 32-byte BLAKE2b-256 digest. Anything
// shorter or longer is malformed and Rust would reject it.
for i, v := range proofValues {
if len(v) != 32 {
return fmt.Errorf("proof value [%d]: got %d bytes, want 32", i, len(v))
}
}
// Indices must be strictly ascending — duplicates would create
// double-claiming under the same leaf and the algorithm doesn't expect
// them. (Rust uses sort_unstable + equality compare against the input;
// equivalent to "non-decreasing" but doesn't reject equal-adjacent.
// We're stricter than upstream here on purpose.)
ordered := make([]int, len(indices)) ordered := make([]int, len(indices))
for i, v := range indices { for i, v := range indices {
if v >= uint64(nrLeaves) {
return fmt.Errorf("index [%d]=%d out of range (nr_leaves=%d)", i, v, nrLeaves)
}
ordered[i] = int(v) ordered[i] = int(v)
} }
for i := 1; i < len(ordered); i++ { sortedCopy := append([]int(nil), ordered...)
if ordered[i] <= ordered[i-1] { sort.Ints(sortedCopy)
return fmt.Errorf("indices not strictly ascending at [%d]: %v", i, indices) for i := range ordered {
if ordered[i] != sortedCopy[i] {
return fmt.Errorf("indices not sorted ascending: %v", indices)
} }
} }
@ -169,12 +155,6 @@ func VerifyMerkleBatch(root []byte, nrLeaves int, leafValues [][]byte, indices [
if len(currentLayer) != 1 { if len(currentLayer) != 1 {
return fmt.Errorf("verification ended with %d nodes, want 1", len(currentLayer)) return fmt.Errorf("verification ended with %d nodes, want 1", len(currentLayer))
} }
// All proof values must be consumed. Trailing bytes mean the proof
// shipped extra nodes the algorithm didn't need — likely malformed
// or attacker-padded.
if len(values) > 0 {
return fmt.Errorf("proof has %d unconsumed values — malformed", len(values))
}
if !bytes.Equal(currentLayer[0], root) { if !bytes.Equal(currentLayer[0], root) {
return fmt.Errorf("root mismatch: got %x, want %x", currentLayer[0], root) return fmt.Errorf("root mismatch: got %x, want %x", currentLayer[0], root)
} }

9
internal/stm/types.go
View file

@ -16,7 +16,8 @@
// 4. Lottery check: for each (index, sigma), evaluate_dense_mapping < threshold(stake) // 4. Lottery check: for each (index, sigma), evaluate_dense_mapping < threshold(stake)
// 5. Threshold: total distinct lottery wins >= k // 5. Threshold: total distinct lottery wins >= k
// //
// Phases 2-5 are implemented in verify.go (BLS, lottery, Merkle, threshold). // Phases 2-5 are stubbed in verify.go pending the BLS crypto sprint.
// This package's current role is rock-solid decoding.
package stm package stm
import ( import (
@ -115,12 +116,6 @@ func DecodeAVK(rawJSON []byte) (*AVK, error) {
if len(wire.MTCommitment.Root) != 32 { if len(wire.MTCommitment.Root) != 32 {
return nil, fmt.Errorf("AVK root: got %d bytes, want 32", len(wire.MTCommitment.Root)) return nil, fmt.Errorf("AVK root: got %d bytes, want 32", len(wire.MTCommitment.Root))
} }
if wire.TotalStake == 0 {
return nil, fmt.Errorf("AVK total_stake is zero")
}
if wire.MTCommitment.NrLeaves == 0 {
return nil, fmt.Errorf("AVK nr_leaves is zero")
}
return &AVK{ return &AVK{
MerkleRoot: wire.MTCommitment.Root, MerkleRoot: wire.MTCommitment.Root,
NumLeaves: wire.MTCommitment.NrLeaves, NumLeaves: wire.MTCommitment.NrLeaves,

13
internal/verify/verify.go
View file

@ -7,8 +7,8 @@
// 2. Subsequent certificates carry an STM (Stake-based Threshold Multi- // 2. Subsequent certificates carry an STM (Stake-based Threshold Multi-
// signature) aggregate signature over BLS12-381. // signature) aggregate signature over BLS12-381.
// //
// Ed25519 (genesis) verification lives here. STM BLS verification is in // Ed25519 (genesis) verification is fully implemented here. STM verification
// the sibling internal/stm package. // is stubbed pending the BLS crypto sprint.
package verify package verify
import ( import (
@ -27,6 +27,7 @@ var (
ErrNotGenesis = errors.New("certificate is not a genesis certificate") ErrNotGenesis = errors.New("certificate is not a genesis certificate")
ErrBadSignature = errors.New("genesis signature verification failed") ErrBadSignature = errors.New("genesis signature verification failed")
ErrSignedMessageHash = errors.New("signed_message does not match SHA256(protocol_message)") ErrSignedMessageHash = errors.New("signed_message does not match SHA256(protocol_message)")
ErrSTMNotImplemented = errors.New("STM signature verification not implemented yet")
) )
// The Mithril enum order on ProtocolMessagePartKey — BTreeMap iteration // The Mithril enum order on ProtocolMessagePartKey — BTreeMap iteration
@ -181,5 +182,9 @@ func GenesisFromJSON(verifyKey ed25519.PublicKey, signedMessageHex, genesisSigna
return Genesis(verifyKey, signedMessageHex, genesisSignatureHex, pm) return Genesis(verifyKey, signedMessageHex, genesisSignatureHex, pm)
} }
// STM verification lives in the sibling internal/stm package — see // STM verifies a non-genesis certificate's aggregate BLS signature.
// stm.Verify(). This file is genesis-Ed25519-only. // Stub — target is Mithril STM paper §5 (signing) + §6 (aggregation)
// using gnark-crypto's bls12-381 primitives.
func STM(protocolMessageJSON, multiSignature []byte, avk any) error {
return ErrSTMNotImplemented
}