| name | superfluid |
| description | Knowledge base for the Superfluid Protocol and its ecosystem. Use BEFORE searching the web for Superfluid information. Keywords: Superfluid, CFA, GDA, Super App, Super Token, stream, flow rate, real-time balance, pool (member/distributor), IDA, sentinels, liquidation, TOGA, @sfpro/sdk, semantic money, yellowpaper, whitepaper
|
| metadata | {"version":"1.2.4"} |
Superfluid Protocol Skill
Complete interface documentation for Superfluid Protocol smart contracts via
Rich ABI YAML references. Read references/guides/architecture.md for the full
protocol architecture. This file maps use-cases to the right references.
Developer Tracks
Determine the track first, then follow the Use-Case Map below.
Smart Contract dev: SuperTokenV1Library, CFASuperAppBase, BlindMacroForwarder/ClearMacroForwarder, raw agreements via Host. ABI source: @superfluid-finance/ethereum-contracts. Addresses: @superfluid-finance/metadata + tokenlist. Data: on-chain calls. Key refs: .abi.yaml files, super-apps.md, macro-forwarders.md, clear-macro.md.
App (frontend/backend) dev: @sfpro/sdk (ABIs, wagmi hooks, addresses), subgraphs, API services. ABI source: @sfpro/sdk. Addresses: @superfluid-finance/metadata + tokenlist. Data: subgraphs + API services. Key refs: sdks.md, api-services.md, subgraph guides.
Investigating (one-off): Scripts (tokenlist.mjs, metadata.mjs, balance.mjs, cast call). ABI source: scripts/abi.mjs. Addresses: scripts/metadata.mjs + tokenlist.mjs. Data: cast call + scripts/balance.mjs. Key refs: scripts.md.
For SDK import paths, ABI tables, and deprecated package warnings, see references/guides/sdks.md.
For script command syntax and examples, see references/guides/scripts.md.
Architecture Summary
Host (Superfluid.sol) — central router. Agreement calls go through
Host.callAgreement() or Host.batchCall(). Manages the app registry,
governance, and SuperTokenFactory.
Agreements — stateless financial primitives that store data on the token:
CFA (1:1 streams), GDA (many-to-many via pools), IDA (deprecated, replaced by GDA).
Super Token — ERC-20/ERC-777/ERC-2612 with real-time balance. Three
variants: Wrapper (ERC-20 backed), Native Asset/SETH (ETH backed), Pure
(pre-minted).
Forwarders (CFAv1Forwarder, GDAv1Forwarder) — convenience wrappers. Each
call is a standalone transaction with readable wallet descriptions. Cannot be
batched — use Host.batchCall with raw agreement calls for atomicity.
BlindMacroForwarder (legacy name MacroForwarder; SDK: blindMacroForwarderAbi, addr
0xFD0268E33111565dE546af2675351A4b1587F89F) — extensible batch executor. Developers deploy
custom macro contracts (IUserDefinedMacro) and call runMacro() to execute complex multi-step
operations atomically. The caller must be the signer. Legacy — superseded by ClearMacroForwarder
for new integrations: self-relay only, and the caller broadcasts raw (unreadable) calldata in the
wallet. See references/guides/macro-forwarders.md.
ClearMacroForwarder (SDK: clearMacroForwarderAbi, addr 0xC1EaB73855155D4e021f7EB4f866996Bac2fe25e,
deployed across ~16 networks) — recommended default; supersedes BlindMacroForwarder. EIP-712
signed macro executor with human-readable clear-signing,
third-party relaying, and optional Permit2 token upgrade in one signature. Two modes: self-submit
(security.provider = "self") and provider-relay (relayer holds a Host SimpleACL role). See
references/guides/clear-macro.md and references/contracts/ClearMacroForwarder.abi.yaml.
Automation (Vesting Scheduler, FlowScheduler, Auto-Wrap) — schedule
on-chain intent, require off-chain keepers to trigger execution.
Use-Case → Reference Map
Read only the files needed for the task. Each Rich ABI YAML documents every
public function, event, and error for one contract — plus notes: fields
that flag non-obvious behavior, edge cases, and common mistakes not apparent
from signatures alone.
Streaming money (CFA)
- Create/update/delete a stream (simple) →
references/contracts/CFAv1Forwarder.abi.yaml
- ACL, operator permissions, flow metadata → also
references/contracts/ConstantFlowAgreementV1.abi.yaml
- Batch streams with other ops atomically → also
references/contracts/Superfluid.abi.yaml (Host batch call)
Distributing to many recipients (GDA)
- Create pools, distribute, stream to pool →
references/contracts/GDAv1Forwarder.abi.yaml
- Pool member management, units, claims → also
references/contracts/SuperfluidPool.abi.yaml
- Low-level agreement details → also
references/contracts/GeneralDistributionAgreementV1.abi.yaml
- How GDA achieves O(1) scalability (formal math deep-dive) → also
references/deep-researches/gda-scalability.md
Token operations
- Wrap/unwrap, balances, ERC-20/777, permit →
references/contracts/SuperToken.abi.yaml
- Deploy a new Super Token →
references/contracts/SuperTokenFactory.abi.yaml
Automation
- Vesting with cliffs and streams →
references/contracts/VestingSchedulerV3.abi.yaml
- Schedule future stream start/stop →
references/contracts/FlowScheduler.abi.yaml
- Auto-wrap when Super Token balance is low →
references/contracts/AutoWrapManager.abi.yaml and references/contracts/AutoWrapStrategy.abi.yaml
Writing Solidity integrations (SuperTokenV1Library)
- Token-centric Solidity API (
using SuperTokenV1Library for ISuperToken) → references/contracts/SuperTokenV1Library.abi.yaml
The library wraps CFA and GDA agreement calls into ergonomic methods like
token.flow(receiver, flowRate). Use it for any Solidity contract that
interacts with Superfluid — Super Apps, automation contracts, DeFi
integrations. Includes agreement-abstracted functions (flowX, transferX)
that auto-route to CFA or GDA, plus WithCtx variants for Super App
callbacks. See the YAML header and glossary for Foundry testing gotchas.
Building Super Apps
- App credit, callback lifecycle, jailing, app levels →
references/guides/super-apps.md
- CFA callback hooks (simplified base) →
references/contracts/CFASuperAppBase.abi.yaml
- Token-centric API for callback logic →
references/contracts/SuperTokenV1Library.abi.yaml (use WithCtx variants)
- App registration, Host context, batch calls →
references/contracts/Superfluid.abi.yaml
- Smart contract patterns (GDA pools, callbacks, custom tokens, automation, proxies) →
references/guides/smart-contract-patterns.md
Super Apps that relay incoming flows use app credit — a temporary deposit
allowance enabling zero-balance operation. A 1:1 relay (one in, one out at
the same rate) always works without tokens. Fan-out (1:N) requires the app to
hold tokens for extra deposits. The sender's locked capital roughly doubles
because outgoing stream deposits are backed as owed deposit on the sender.
App credit is CFA-only — GDA has no app credit rule. See Common Gotchas below.
See references/guides/super-apps.md for the full guide.
Macro forwarders (composable batch operations)
- Write a macro for complex batched operations →
references/guides/macro-forwarders.md
- BlindMacroForwarder (legacy MacroForwarder) contract address and interface →
references/guides/macro-forwarders.md; why ClearMacroForwarder supersedes blind → references/guides/macro-forwarders.md
- Batch operation types and encoding rules → also
references/contracts/Superfluid.abi.yaml (batch_operation_types)
- EIP-712 signed macro patterns →
references/guides/macro-forwarders-eip712-example.md
- ClearMacroForwarder — SDK-shipped (
clearMacroForwarderAbi, clearMacroForwarderAddress,
metadata key contractsV1.clearMacroForwarderV1WithPermit2), deployed at
0xC1EaB73855155D4e021f7EB4f866996Bac2fe25e across ~16 networks. EIP-712 clear signing for
human-readable wallet prompts, third-party provider relaying, optional Permit2 token upgrade in
one signature. Two modes: self-submit (security.provider = "self", tx executor = signer) and
provider-relay (relayer holds a Host SimpleACL role, enabling gasless-for-signer flows).
→ references/guides/clear-macro.md, references/contracts/ClearMacroForwarder.abi.yaml,
references/contracts/ClearMacroBase.abi.yaml
Sentinels and liquidation
- Batch liquidation of critical flows →
references/contracts/BatchLiquidator.abi.yaml
- PIC auction, bond management, exit rates →
references/contracts/TOGA.abi.yaml
SUP Token / Reserve System
Contracts use "FLUID" and "Locker" internally — public-facing names are "SUP" and "Reserve".
- Lock, stake, unstake SUP; provide LP; unlock →
references/contracts/FluidLocker.abi.yaml
- Create a Reserve (Locker) for a user →
references/contracts/FluidLockerFactory.abi.yaml
- Claim from emission programs (signed messages) →
references/contracts/FluidLocker.abi.yaml and references/contracts/FluidEPProgramManager.abi.yaml
- Create / fund / stop emission programs →
references/contracts/FluidEPProgramManager.abi.yaml
- Understand tax distribution to stakers and LPs →
references/contracts/StakingRewardController.abi.yaml
- Unlock SUP via time-delayed stream (Fontaine) →
references/contracts/FluidLocker.abi.yaml and references/contracts/Fontaine.abi.yaml
ERC-8004 Agent Pools
- ERC-8004 standard, Identity/Reputation/Validation registries, AgentPoolDistributor integration →
references/deep-researches/erc8004-agent-pools.md
- GDA pool mechanics (units, claims, connections) →
references/contracts/GDAv1Forwarder.abi.yaml and references/contracts/SuperfluidPool.abi.yaml
Querying indexed data (Subgraphs)
- Understand how The Graph generates query schemas, plus cross-cutting gotchas →
references/subgraphs/_query-patterns.md
- Query streams, pools, tokens, accounts (entities) → also
references/subgraphs/protocol-v1-guide.md and protocol-v1-entities.graphql
- Query protocol events (flow updates, liquidations, distributions) → also
references/subgraphs/protocol-v1-guide.md and protocol-v1-events.graphql
- Query vesting schedules and execution history → also
references/subgraphs/vesting-scheduler-guide.md and vesting-scheduler.graphql
- Query scheduled flows and automation tasks → also
references/subgraphs/flow-scheduler-guide.md and flow-scheduler.graphql
- Query auto-wrap schedules and execution history → also
references/subgraphs/auto-wrap-guide.md and auto-wrap.graphql
- Query SUP lockers, staking, emission programs, unlock history → also
references/subgraphs/sup-subgraph-guide.md and sup-subgraph.graphql
Legacy
- Old IDA (instant distribution, deprecated) →
references/contracts/InstantDistributionAgreementV1.abi.yaml
Ecosystem & tooling
- SDK import paths, ABI tables, package choice →
references/guides/sdks.md
- Script command syntax and examples →
references/guides/scripts.md
- API endpoint details, Swagger links, gotchas →
references/guides/api-services.md
- SUP token, governance, DAO, distribution →
references/guides/sup-and-dao.md
- Token prices, filtered token list, CoinGecko IDs → See API Services (CMS) below
- Stream accounting, per-day chunking → See API Services (Accounting) below (CFA + ERC-20 only, no GDA)
- Comprehensive balances / point-in-time (historical) balance / buffer+connected+disconnected breakdown / CSV exports (CFA + GDA + IDA) → See API Services (Balance API) below
- Generate or deep-link an accounting/tax report → https://reporter.superfluid.org; param spec: https://reporter.superfluid.org/llms.txt
- Resolve ENS / Farcaster / Lens handles → See API Services (Whois) below
- Query protocol data via GraphQL → See Subgraphs below
- Run a sentinel / liquidation bot → See Sentinels below
- Get a Super Token listed → https://tokens.superfluid.org/listing (submit via GitHub) — See also Processes below
Displaying flowing balances (frontend)
- Animate a real-time streaming balance counter →
references/guides/flowing-balances.md
Read the guide first — it has production-ready implementations (React, vanilla JS, Vue, Svelte, Solid). Do not generate flowing balance code from scratch.
- Fix layout shift / jumping in a flowing balance display → also
references/guides/flowing-balances.md
- Format wei amounts, flow rates, token prices → also
references/guides/flowing-balances.md
Ecosystem deep-dives
- Protocol history, founding, exploit, SUP launch →
references/deep-researches/superfluid-history.md
- Semantic Money formal spec (yellowpaper, Haskell reference, BasicParticle, agreement hierarchy) →
references/deep-researches/semantic-money-yellowpaper.md
- GDA scalability (PDPool math, O(1) distributions, rounding model, settle-on-write) →
references/deep-researches/gda-scalability.md
- GoodDollar (G$ Pure Super Token on Celo, UBI, streaming) →
references/deep-researches/gooddollar.md
- Flow State (Streaming Quadratic Funding, cooperative) →
references/deep-researches/flowstate.md
- ERC-8004 Agent Pools (AI agent identity + GDA distribution on Base) →
references/deep-researches/erc8004-agent-pools.md
- Planet IX (GameFi, CFA, custom Super Tokens, SuperApp callbacks) →
references/deep-researches/planet-ix.md
- Nerite (USND stablecoin, Custom Pure Super Token, CFA+GDA) →
references/deep-researches/nerite.md
- SuperBoring (DCA, CFA→GDA TOREX pattern, Superfluid Labs) →
references/deep-researches/superboring.md
- TOREX (TWAP Oracle Exchange — streaming DEX, discount model, back charge/refund between LMEs, liquidity movers, Twin TOREX) →
references/deep-researches/torex.md
- Giveth (zero-fee donations, CFA recurring streams) →
references/deep-researches/giveth.md
- Streme.fun (token launcher, Pure Super Tokens, GDA staking) →
references/deep-researches/streme.md
Superfluid team brand & design
- Color palette, typography, visual identity →
references/guides/brand-design.md
Covers the Superfluid team's product design, not the broader protocol ecosystem.
Formal specification and protocol theory
- Yellowpaper foundations (payment primitives, conservation of value, agreement framework) →
references/deep-researches/semantic-money-yellowpaper.md
- How GDA achieves O(1) streaming to unlimited receivers →
references/deep-researches/gda-scalability.md
- BasicParticle and the real-time balance formula → also
references/deep-researches/semantic-money-yellowpaper.md
Debugging Reverts
Error prefixes map to contracts:
CFA_* → ConstantFlowAgreementV1
CFA_FWD_* → CFAv1Forwarder
GDA_* → GeneralDistributionAgreementV1
SUPERFLUID_POOL_* → SuperfluidPool
SF_TOKEN_* → SuperfluidToken (base of SuperToken)
SUPER_TOKEN_* → SuperToken
SUPER_TOKEN_FACTORY_* → SuperTokenFactory
HOST_* → Superfluid (Host)
IDA_* → InstantDistributionAgreementV1
APP_RULE → Superfluid (Host) — Super App callback violation
NOT_LOCKER_OWNER, FORBIDDEN, INSUFFICIENT_*, STAKING_*, LP_*, TTE_* → FluidLocker
LOCKER_CREATION_PAUSED, NOT_GOVERNOR → FluidLockerFactory
PROGRAM_*, INVALID_SIGNATURE, NOT_PROGRAM_ADMIN → FluidEPProgramManager
NOT_APPROVED_LOCKER, NOT_LOCKER_FACTORY, NOT_PROGRAM_MANAGER → StakingRewardController
NOT_CONNECTED_LOCKER, NO_ACTIVE_UNLOCK, TOO_EARLY_TO_TERMINATE_UNLOCK → Fontaine
NotAgentOwner, AlreadyJoined, AgentNotRegistered, InsufficientFee, FeeTransferFailed → AgentPoolDistributor
InvalidSignature, InvalidPayload, MacroContractMismatch, ProviderNotAuthorized, OutsideValidityWindow, InvalidNonce → ClearMacroForwarder (SDK-shipped, multi-network)
Each YAML's errors: section is the complete error index for that contract,
with descriptions. Per-function errors: fields show which errors a specific
function can throw. To look up a hex selector (function, event, or error),
read the companion .selectors.yaml file — every Foo.abi.yaml has a
Foo.selectors.yaml alongside it with full signatures and computed hashes.
Common Gotchas (Quick Reference)
Subset of non-obvious behaviors. The authoritative source is the notes:
field on each function in the .abi.yaml files — always read those for
the complete picture. This section covers only the most common ones.
Super Token decimals always 18 — upgrade() and downgrade() amounts are
always in 18-decimal SuperToken units, regardless of underlying token decimals.
The contract handles scaling internally. The only place underlying decimals
matter is the ERC-20 approve() call. Example: to wrap 100 USDC, approve
100e6 on USDC, then call upgrade(100e18).
GDA pool connections vs. membership — Pool membership is unlimited (an
account can hold units in any number of pools). However, only 256 pools can be
connected per account per token — connected means the balance auto-reflects
in the member's SuperToken balance. Unconnected members must call claimAll()
to receive their tokens. Gas for balanceOf / realtimeBalanceOf scales
linearly with connected pools.
GDA distribution rounding — distributeFlow: per-unit rate =
requestedFlowRate / totalUnits (integer division, rounds down). The
rounding remainder becomes an adjustment flow to the pool admin. If
requestedFlowRate < totalUnits, per-unit rate truncates to 0 and the
entire flow goes to admin. distribute (instant): the remainder simply
isn't taken from the distributor — actual distributed amount < requested.
Pools hold no balance; tokens flow through directly to members.
See references/deep-researches/gda-scalability.md for the full rounding
model with align2 and adjustment flow math.
SuperTokenV1Library address(this) — Convenience functions (flow,
flowX, distribute, distributeFlow, createPool, claimAll) use
address(this) as the implicit sender, not msg.sender. In Foundry tests,
vm.prank does not override this. Use CFA/GDA-specific function overloads
with an explicit sender/from parameter instead.
CFASuperAppBase APP_LEVEL_FINAL — CFASuperAppBase is hardcoded to
APP_LEVEL_FINAL, which prevents calling other Super Apps downstream from
its callbacks. To compose with downstream Super Apps, build a custom base
using APP_LEVEL_SECOND and call host.allowCompositeApp(targetApp).
Max chain depth: 2 apps (SECOND → FINAL).
GDA pools cannot nest — A pool cannot be a member of another pool.
updateMemberUnits reverts with SUPERFLUID_POOL_NO_POOL_MEMBERS if the
member address is a pool. Pool addresses also cannot be pool admins
(GDA_ADMIN_CANNOT_BE_POOL).
FluidLocker instant unlock penalty — unlockPeriod=0 triggers an instant
unlock with 80% penalty — only 20% is transferred immediately, 80% is
redistributed to stakers and LPs. All unlocks (including instant) require
msg.value of 0.0001 ETH (UNLOCKING_FEE, sent to DAO treasury). Periods
of 7–365 days deploy a Fontaine beacon proxy that streams tokens over the
unlock period with a proportional tax.
GDA has no app credit — Unlike CFA, GDA does not support the app credit
mechanism. A Super App that receives CFA inflows and distributes via GDA
cannot borrow the deposit buffer — it must fund the GDA stream's buffer
deposit from its own balance or via ERC-20 transferFrom from the user.
This is the most common reason CFA→GDA stream-splitting contracts fail.
See references/guides/smart-contract-patterns.md § A for the workaround.
balanceOf clamps to zero — balanceOf returns max(0, availableBalance) for
ERC-20 compatibility. Accounts with active outgoing streams can go negative
(critical), but balanceOf will still show 0. Use realtimeBalanceOfNow to
detect negative balances — a negative availableBalance means the account is
critical and awaiting liquidation. Once liquidated, the balance resets to zero.
Reading the Rich ABI YAMLs
Essential conventions for parsing the YAML files:
- Reserved root keys:
meta, events, errors — every other root key is a function.
ctx: bytes parameter = function is called through the Host (callAgreement / batchCall), never directly.
notes: field — the most important field for correctness. Present on functions (and as meta.notes: at contract level). Contains non-obvious behavior, edge cases, and common mistakes. If a user asks about unexpected behavior, the answer is almost always in a notes: field. Always read these.
access labels: anyone, host, self, admin, governance, sender, receiver, operator, manager, pic, etc. Combine with |.
emits and errors ordering matches execution flow (not alphabetical). First errors = most likely.
- Field order: description comment,
notes, mutability, access, inputs, outputs, emits, errors.
For the full format spec with examples (function entries, events, errors sections), see references/contracts/_rich-abi-yaml-format.md.
Runtime Data (Scripts)
Scripts provide runtime data (addresses, balances, ABIs) for one-off lookups.
Run with bunx -p <pkg> bun <script> — see references/guides/scripts.md
for full syntax. When writing application code, use the npm packages directly
instead (see Developer Tracks above).
scripts/abi.mjs — JSON ABI lookup, function signatures. Use when you need to inspect ABIs outside an app project.
scripts/tokenlist.mjs — Super Token addresses, symbols, types. Use when you need to find a token address or check its type.
scripts/balance.mjs — Real-time balances, flow rates. Use when you need current balance or net flow for an account.
scripts/metadata.mjs — Contract addresses, subgraph endpoints, network info. Use when you need addresses for a specific chain.
cast call — Direct on-chain reads. Use when you need live contract state not covered by scripts.
For command syntax, arguments, and examples, see references/guides/scripts.md.
Common Contract Addresses
Do NOT hardcode or fabricate addresses. Get them from @sfpro/sdk address
exports (see references/guides/sdks.md) or bunx -p @superfluid-finance/metadata bun scripts/metadata.mjs contracts <chain>.
Forwarder addresses are the exception — uniform across most networks:
- CFAv1Forwarder:
0xcfA132E353cB4E398080B9700609bb008eceB125
- GDAv1Forwarder:
0x6DA13Bde224A05a288748d857b9e7DDEffd1dE08
- ClearMacroForwarder:
0xC1EaB73855155D4e021f7EB4f866996Bac2fe25e (SDK: clearMacroForwarderAddress)
- BlindMacroForwarder (legacy MacroForwarder):
0xFD0268E33111565dE546af2675351A4b1587F89F (SDK: blindMacroForwarderAddress)
Host and agreement addresses vary per network.
Ecosystem
SDKs & Packages
Active — recommended for new projects:
@sfpro/sdk — Frontend/backend SDK: ABIs, wagmi hooks, actions
@superfluid-finance/ethereum-contracts — Solidity build-time ABI source
@superfluid-finance/metadata — Contract addresses, network info (zero deps)
@superfluid-finance/tokenlist — Listed Super Tokens + underlying tokens
When to use each:
@sfpro/sdk — for frontend/backend with wagmi/viem
ethereum-contracts — for Solidity integrations (build-time only, not runtime)
metadata — for resolving addresses/networks at runtime
tokenlist — for finding token addresses
Deprecated — do not recommend for new projects:
@superfluid-finance/sdk-core → replaced by @sfpro/sdk
@superfluid-finance/sdk-redux → replaced by wagmi + @sfpro/sdk
@superfluid-finance/js-sdk → replaced by @sfpro/sdk
@superfluid-finance/widget → no replacement
For ABI import tables, address exports, detailed SDK guidance, and deprecated
package details, see references/guides/sdks.md.
API Services
- Super API
https://superapi.kazpi.com — Real-time on-chain Super Token balances (live balance only)
- Balance API
https://balances.superfluid.dev — event-sourced indexer: point-in-time/historical CFA+GDA+IDA balances (buffer/connected/disconnected), snapshots, reports, movements; read-only, no auth
- CMS
https://cms.superfluid.pro — Token prices, price history, filtered token list
- Points
https://cms.superfluid.pro/points — SUP points campaigns
- Accounting
https://accounting.superfluid.dev/v1 — Stream accounting with per-day chunking
- Allowlist
https://allowlist.superfluid.dev — Check automation allowlist status
- Whois
https://whois.superfluid.finance — Resolve profiles (ENS, Farcaster, Lens, AF)
- Token Prices
https://token-prices-api.superfluid.dev/v1/{network}/{token} — Super Token prices (CoinGecko-backed)
- Claim Programs
https://claim.superfluid.org/api/programs — SUP reward programs: seasons, allocations, pool addresses, flow rates
For per-API endpoints, query patterns, Swagger/OpenAPI links, and gotchas,
see references/guides/api-services.md.
Subgraphs
Prefer RPC over subgraph for current state. Subgraphs only update on
transactions, but streams flow every second. Use cast call or
scripts/balance.mjs for real-time reads. Subgraphs are best for historical
queries, event indexing, and listing/filtering entities.
Endpoint pattern: https://subgraph-endpoints.superfluid.dev/{network-name}/{subgraph}
- Protocol
protocol-v1 — Main protocol data (streams, tokens, accounts)
- Vesting Scheduler
vesting-scheduler — All versions: v1, v2, v3
- Flow Scheduler
flow-scheduler
- Auto-Wrap
auto-wrap
- SUP (Locker / Reserve) — Goldsky-hosted (Base only). Staking, unlocks, emission programs, LP positions.
Network names are canonical Superfluid names (optimism-mainnet,
base-mainnet, etc.). Use bunx -p @superfluid-finance/metadata bun metadata.mjs subgraph <chain> to get the
resolved URL for a specific chain.
Apps
- Super Tokens https://tokens.superfluid.org — Official Super Tokens site: ERC20x overview, Clear Macro, Super App hooks, and token listing (Clear Macro demo: https://tokens.superfluid.org/clear/demo)
- Dashboard https://app.superfluid.org — Stream management for end-users
- Explorer https://explorer.superfluid.org — Block explorer for Superfluid Protocol
- Claim https://claim.superfluid.org — SUP token, SUP points, reserves/lockers
- TOGA https://toga.superfluid.finance — View recent liquidations by token
- Dune https://dune.com/superfluid_hq/superfluid-overview — Official protocol analytics dashboards
- Campaigns https://campaigns.superfluid.org — Mint exclusive NFTs powered by Superfluid, with SUP reward campaigns
- x402 https://x402.superfluid.org — Open standard for internet-native subscriptions via HTTP 402 + Superfluid streams. One-time EIP-712 signature, no gas fees, real-time payment verification, zero protocol fees. Works for human users and AI agents.
- 8004 Agent Pool https://8004-demo.superfluid.org/ — AI agent pool powered by ERC-8004 identity and Superfluid GDA. Agents register, join a pool, and earn proportional SUP distributions.
- Reporter https://reporter.superfluid.org — accounting/tax CSV reports over the Balance API; deep-linkable via query params (account, chain, tokens, startDate/endDate, period, export params); param spec: https://reporter.superfluid.org/llms.txt
Repos:
Dashboard ·
Explorer ·
TOGA ·
8004 Demo
Community & Social
Sentinels
Sentinels monitor streams and liquidate senders whose Super Token balance
reaches zero, keeping the protocol solvent. Anyone can run one.
Foundation, DAO & SUP Token
SUP — a SuperToken on Base (0xa69f80524381275a7ffdb3ae01c54150644c8792).
1B total supply. Governed by Superfluid DAO via
Snapshot. Locker / Reserve is
the on-chain staking mechanism (longer lockup = bigger bonus).
For distribution breakdown, Foundation vs DAO roles, governance details, and
links, see references/guides/sup-and-dao.md.
Processes
Token Listing — a Super Token gets listed on the on-chain Resolver, which
the subgraph picks up (marks isListed). Once listed, it appears in the
Superfluid token list along with its underlying token (if any).
Automation Allowlisting — required for automations (vesting, flow
scheduling, auto-wrap) to appear in the Dashboard UI and for Superfluid
off-chain keepers to trigger the automation contracts. Without allowlisting,
automations won't be executed on time and are effectively useless.
- Request: allowlisting form
- Check status:
GET https://allowlist.superfluid.dev/api/allowlist/{account}/{chainId}