| name | arcium |
| description | Build and debug encrypted Solana applications with Arcium — data stays private during computation, no single party sees it. Use when writing Arcis circuits (#[encrypted], #[instruction]), wiring Anchor programs with init/queue_computation/callback flows, choosing Shared vs Mxe encrypted state, encrypting inputs with @arcium-hq/client (RescueCipher, x25519), or debugging ArgBuilder ordering, nonce, callback, or computation finalization failures. Covers dark pools, sealed-bid auctions, encrypted voting, hidden game state, confidential DeFi, secure randomness, and threshold signing. Also use for getting started with your first Arcium app.
|
| license | MIT |
| compatibility | Bundled mcp.json configures the Arcium MCP server automatically. |
| metadata | {"author":"arcium-hq","version":"2.1"} |
Arcium
Encrypted computation on Solana via MPC. Data stays encrypted during computation. The arcium CLI (wraps Anchor) handles init, build, test, and deploy — use MCP for current flags and options.
MCP Tools: search_arcium_docs for discovery (returns page path), then query_docs_filesystem_arcium_docs with cat <path>.mdx for full-page reads (e.g., cat /developers/arcis/mental-model.mdx).
When to Use
Use when:
- You need trustless computation -- cryptographically guaranteed, no single party sees the data
- Multiple parties compute on combined data without revealing inputs
- On-chain state must remain encrypted but computable
- Privacy: sealed-bid auctions, voting, hidden game state, dark pools, confidential DeFi
Constraints:
- Fixed loop bounds required (no variable-length iteration)
Mental Model
Arcium apps have three coupled surfaces. Most bugs are mismatches across their boundaries:
| Surface | Responsibility | Common Boundary Bugs |
|---|
| Circuit (Arcis/Rust) | Pure fixed-shape MPC logic | Variable loops, dynamic collections, .reveal() inside conditionals |
| Program (Anchor/Rust) | Orchestration: init + queue + callback | Macro name mismatch, callback accounts not writable, wrong ArgBuilder order |
| Client (TypeScript) | Key exchange, encryption, submission, decryption | Nonce reuse, missing .x25519_pubkey() for Shared, param order ≠ circuit order |
MPC constraints (from how secret sharing works):
- Both branches of
if/else execute unless the condition is a compile-time constant — cost = sum of both branches, not max
- Loops must have fixed bounds — no
while, break, continue
- Comparisons are expensive; arithmetic (add/multiply) is nearly free
.reveal() and .from_arcis() cannot be called inside conditionals (exception: compile-time constant conditions)
- All data must be fixed-size — no
Vec, String, HashMap; use [T; N]
Intent Router
Identify what you're building, then read the linked reference before coding. For API details, CLI flags, deployment, and versions, use MCP directly.
Core Pattern: Three Functions
Every computation needs three functions in your Solana program:
| Function | Purpose | When Called |
|---|
init_<name>_comp_def | Initialize computation definition | Once per instruction |
<name> | Build args + queue computation | Each request |
<name>_callback | Handle result from Arx nodes | After MPC completes |
const COMP_DEF_OFFSET_FLIP: u32 = comp_def_offset("flip");
pub fn init_flip_comp_def(ctx: Context<InitFlipCompDef>) -> Result<()> {
init_comp_def(ctx.accounts, None, None)
}
pub fn flip(ctx: Context<Flip>, offset: u64, ...) -> Result<()> {
let args = ArgBuilder::new()...build();
queue_computation(ctx.accounts, offset, args,
vec![FlipCallback::callback_ix(offset, &ctx.accounts.mxe_account, &[])?],
1, 0,
)?;
Ok(())
}
#[arcium_callback(encrypted_ix = "flip")]
pub fn flip_callback(ctx: Context<FlipCallback>,
output: SignedComputationOutputs<FlipOutput>) -> Result<()> {
let result = output.verify_output(...)?;
}
Encryption size: RescueCipher encrypts any scalar to 32 bytes regardless of type.
Formula: ciphertext_size = 32 * number_of_scalar_values. See troubleshooting.md for the full size table.
Encryption Context
| Scenario | Use |
|---|
| User inputs, results returned to user | Enc<Shared, T> |
| Internal state users shouldn't access | Enc<Mxe, T> |
| State persisted across computations | Enc<Mxe, T> |
| Final reveal to all parties | .reveal() |
Gotchas
Reference during development to avoid common mistakes.
NEVER:
- NEVER reuse a nonce — every
cipher.encrypt() call needs a fresh randomBytes(16)
- NEVER combine multiple ciphertexts into one ArgBuilder call — each encrypted scalar is its own
[u8; 32] call
- NEVER omit
.x25519_pubkey() for Enc<Shared, T> (silent failure); Enc<Mxe, T> skips it
Critical (silent failures)
- Macro string matching: All macro strings must exactly match
#[instruction] fn NAME across #[arcium_callback], comp_def_offset(), #[init_computation_definition_accounts], #[queue_computation_accounts], #[callback_accounts]
- ArgBuilder ordering: Calls must match circuit parameter order left-to-right. For
Enc<Shared, T>: .x25519_pubkey() then .plaintext_u128(nonce) then ciphertexts. For Enc<Mxe, T>: .plaintext_u128(nonce) then ciphertexts. Missing .x25519_pubkey() for Shared = silent failure.
- Division by secret zero: Guard divisors with the safe divisor pattern -- both branches execute in MPC, so the division always runs. See patterns.md — Safe Division.
- Combined ciphertext arrays: Each encrypted scalar needs a separate
[u8; 32] ArgBuilder call — do NOT pass [u8; 64] for a two-scalar type. See troubleshooting.md — Ciphertext Size Mismatch.
Warning (wrong results)
- Nonce reuse: Same nonce for multiple encryptions = garbled output. Use unique
randomBytes(16) per encryption.
- Callback account writability: Pass extra accounts via
CallbackAccount { pubkey, is_writable: true } in callback_ix(..., &[...]). Also mark #[account(mut)] in callback struct. Accounts cannot be created or resized during callbacks.
- Output struct naming: Circuit
fn add_together generates AddTogetherOutput. Single returns use field_0 (a SharedEncryptedStruct<1> or MXEEncryptedStruct<1> with .ciphertexts and .nonce). Tuple returns nest field_0, field_1, etc.
Tips
- Prefer arithmetic over comparisons (cheaper in MPC)
- Comparisons/divisions are cheaper with narrower types (
u64 vs u128); storage cost is identical
Debug Triage Order
Start here when a computation fails or returns wrong results.
When a computation fails, returns wrong results, or never finalizes — check in this order:
- Names match exactly —
#[instruction] fn NAME must match across #[arcium_callback(encrypted_ix = "NAME")], comp_def_offset("NAME"), and all account macros
- Comp def initialized —
init_*_comp_def must be called once before any computation
- ArgBuilder param order — calls must match circuit fn parameters left-to-right
- Shared params include pubkey —
.x25519_pubkey() before .plaintext_u128(nonce) before ciphertexts (missing = silent failure)
- Nonce is unique — fresh
randomBytes(16) per encryption, same nonce passed to program
- Callback registered and writable —
callback_ix(...) passed in queue_computation call, accounts set in BOTH CallbackAccount { pubkey, is_writable: true } AND #[account(mut)] in callback struct
- Environment correct — cluster offset matches network, MXE public key available (retry with backoff), RPC endpoint reliable
For detailed error solutions: troubleshooting.md
Verification Checklist
Pre-deploy gate. Run through before deploying or submitting a PR.
Circuit:
Program:
Client:
Deploy:
Resources