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Olas audit details

  • Total Prize Pool: $90,500 in USDC
    • HM awards: $72,000 in USDC
    • QA awards: $3,000 in USDC
    • Judge awards: $9,000 in USDC
    • Validator awards: $6,000 in USDC
    • Scout awards: $500 in USDC
  • Join C4 Discord to register
  • Submit findings using the C4 form
  • Read our guidelines for more details
  • Starts May 28, 2024 20:00 UTC
  • Ends June 18, 2024 20:00 UTC

Automated Findings / Publicly Known Issues

The 4naly3er report can be found here.

Note for C4 wardens: Anything included in this Automated Findings / Publicly Known Issues section is considered a publicly known issue and is ineligible for awards.

The known issues (some of them intended by design) that are not in scope for this audit are outlined in the following:

Additionally, the following are not in scope for this audit.

Overview

This audit is focused on smart contracts related to Olas staking mechanism. Olas on-chain protocol can be divided in three main parts: governance, registries, and tokenomics. Here is an overview of these parts.

The governance is designed to assume various control points to steer the Olas protocol. The governance token, veOLAS is the virtualized representation of OLAS locked and used a similar approach to veCRV, where votes are weighted depending on the time OLAS is locked other than the amount of locked OLAS.

The VoteWeighting contract enables Olas DAO members (via veOLAS) to vote on staking programs, assigning weights according to their preferences. It adopts a model similar to the Curve Gauge Controller, maintains a list of gauges and their associated weights. Modifications from the original Curve Gauge Controller include granting anyone the ability to add staking contracts by removing ownership control on this functionality, and eliminating additional categorization by contract type. For more details on VotingWeight, see Olas staking smart contracts and Olas staking whitepaper.

The list of the governance contracts in scope for the current audit can be found in the Scope section below.

Registries allow developer of code in form of agents, components, or services to register and manage their code on-chain. The code existing off-chain will be uniquely represented on-chain by means of NFTs. A summary of registries is provided here. The registry contracts related to Olas staking collectively form a robust system for managing staking services within an Olas ecosystem. The StakingFactory serves as a gateway for deploying staking contracts, offering flexibility through customizable verification logic. Staking contracts, designed for compatibility, provide standardized functionalities while allowing variation in activity checks tailored to specific use cases. The StakingActivityCheck contract optimistically ensures that stakers meet predefined activity criteria, contributing to the fair distribution of rewards (see Olas staking smart contracts for more details).

The list of the registries contracts in scope for the current audit can be found in the Scope section below.

The tokenomics provides the following pimitives: Staking, developer rewards, and bonding (cf. Olas tokenomics paper and Olas staking whitepaper for more details).

Tokenomics contracts related to Olas staking introduce a robust and decentralized framework for allocating OLAS emissions to staking programs beyond the boundaries of Ethereum to various networks such as Gnosis, Polygon, Arbitrum, Solana, and more. More details can be found in Olas staking smart contracts.

Links


Scope

Files in scope

Contract SLOC Purpose Libraries used
governance/contracts/VoteWeighting.sol 427 The contract enables Olas DAO members (via veOLAS) to vote on staking programs, assigning weights according to their preferences.
registries/contracts/staking/StakingBase.sol 518 Base abstract smart contract for staking a service by its owner solmate/*
registries/contracts/staking/StakingFactory.sol 159 Smart contract for staking factory
registries/contracts/staking/StakingNativeToken.sol 22 Smart contract for staking a service secured with the native network token
registries/contracts/staking/StakingProxy.sol 30 Smart contract for staking proxy
registries/contracts/staking/StakingToken.sol 58 Smart contract for staking a service secured with an ERC20 token
registries/contracts/staking/StakingVerifier.sol 133 Smart contract for service staking contracts verification
registries/contracts/staking/StakingActivityChecker.sol 28 Smart contract for performing a service staking activity check
registries/contracts/utils/SafeTransferLib.sol 41 This contract provides a library with safe methods for transferring ERC-20 tokens
tokenomics/contracts/staking/DefaultDepositProcessorL1.sol 112 Smart contract for sending tokens and data via arbitrary bridge from L1 to L2 and processing data received from L2
tokenomics/contracts/staking/DefaultTargetDispenserL2.sol 253 Smart contract for processing tokens and data received on L2, and data sent back to L1
tokenomics/contracts/staking/EthereumDepositProcessor.sol 87 Smart contract for processing tokens and data on L1
tokenomics/contracts/staking/ArbitrumDepositProcessorL1.sol 98 Smart contract for sending tokens and data via Arbitrum bridge from L1 to L2 and processing data received from L2
tokenomics/contracts/staking/ArbitrumTargetDispenserL2.sol 33 Smart contract for processing tokens and data received on Arbitrum L2, and data sent back to L1
tokenomics/contracts/staking/GnosisDepositProcessorL1.sol 48 Smart contract for sending tokens and data via Gnosis bridge from L1 to L2 and processing data received from L2
tokenomics/contracts/staking/GnosisTargetDispenserL2.sol 50 Smart contract for processing tokens and data received on Gnosis L2, and data sent back to L1
tokenomics/contracts/staking/OptimismDepositProcessorL1.sol 69 Smart contract for sending tokens and data via Optimism bridge from L1 to L2 and processing data received from L2
tokenomics/contracts/staking/OptimismTargetDispenserL2.sol 45 Smart contract for processing tokens and data received on Optimism L2, and data sent back to L1
tokenomics/contracts/staking/PolygonDepositProcessorL1.sol 58 Smart contract for sending tokens and data via Polygon bridge from L1 to L2 and processing data received from L2 fx-portal/*
tokenomics/contracts/staking/PolygonTargetDispenserL2.sol 34 Smart contract for processing tokens and data received on Polygon L2, and data sent back to L1 fx-portal/*
tokenomics/contracts/staking/WormholeDepositProcessorL1.sol 78 Smart contract for sending tokens and data via Wormhole bridge from L1 to L2 and processing data received from L2 @wormhole-solidity-sdk/*
tokenomics/contracts/staking/WormholeTargetDispenserL2.sol 88 Smart contract for processing tokens and data received via Wormhole on L2, and data sent back to L1 @wormhole-solidity-sdk/*
tokenomics/contracts/Tokenomics.sol 733 Smart contract implementing the tokenomics model for code incentives, discount factor bonding mechanism regulations, and staking points. @prb-math/*
tokenomics/contracts/TokenomicsConstants.sol 60 Smart contract with tokenomics constants for annual inflation supplies
tokenomics/contracts/Dispenser.sol 644 Smart contract for distributing dev rewards and claim staking emissions
tokenomics/contracts/interfaces/IDonatorBlacklist.sol 4 DonatorBlacklist interface
tokenomics/contracts/interfaces/IErrorsTokenomics.sol 31 Errors interface
tokenomics/contracts/interfaces/IBridgeErrors.sol 23 Bridge Errors interface
TOTAL 3964
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Scoping Q & A

General questions

Question Answer
ERC20 used by the protocol Any (all possible ERC20s)
Test coverage Governance Functions: 99.43% - Registries Functions: 99.46% - Tokenomics Functions: 99.32%
ERC721 used by the protocol Some contracts in scope interacts with Solmate ERC721, however such ERC721 contract is not scope.
ERC777 used by the protocol None
ERC1155 used by the protocol None
Chains the protocol will be deployed on Ethereum, Arbitrum, Base, Optimism, Polygon, OtherGnosis, Celo, Solana

ERC20 token behaviors in scope

Question Answer
Missing return values Yes
Fee on transfer Yes
Balance changes outside of transfers Yes
Upgradeability Yes
Flash minting Yes
Pausability Yes
Approval race protections Yes
Revert on approval to zero address Yes
Revert on zero value approvals Yes
Revert on zero value transfers Yes
Revert on transfer to the zero address Yes
Revert on large approvals and/or transfers Yes
Doesn't revert on failure Yes
Multiple token addresses Yes
Low decimals ( < 6) Yes
High decimals ( > 18) Yes
Blocklists Yes

External integrations (e.g., Uniswap) behavior in scope:

Question Answer
Enabling/disabling fees (e.g. Blur disables/enables fees) No
Pausability (e.g. Uniswap pool gets paused) No
Upgradeability (e.g. Uniswap gets upgraded) No

EIP compliance checklist

None

Additional context

Main invariants

Here some examples.

  1. Only DAO members can cast their vote on votingWeigh
  2. Only executed DAO vote allow to sync information form L1 to L2 and vice-versa
  3. In the contract in scope, only dispenser contracts has the manager rights to mint OLAS via Treasury
  4. OLAS token transfer can happen only from L1 to L2

Attack ideas (where to focus for bugs)

Here some examples.

  1. Issues arising from cross-chain interactions
  2. Issues arising from incorrect tokenomics calculation
  3. Minting that exceeds the global inflation curve
  4. Attack to distribute more rewards than expected
  5. Issues arising from ability to abuse staking factory contracts

All trusted roles in the protocol

  • DAO members decisions are always assumed to be honest
  • DAO executed vote are always assumed to be honest

Describe any novel or unique curve logic or mathematical models implemented in the contracts:

Olas staking is a novel staking mechanism that can spawn desirable autonomous AI agent economies in crypto and beyond. The smart contracts in scope of this audit are essential to enable Olas staking. Details on Olas staking can be found in https://staking.olas.network/poaa-whitepaper.pdf.

A brief overview of the tokenomics model can be found here https://github.com/valory-xyz/autonolas-tokenomics/blob/pre-c4a/docs/Autonolas_tokenomics_audit.pdf. For more details, see the tokenomics paper https://www.autonolas.network/documents/whitepaper/Autonolas_Tokenomics_Core_Technical_Document.pdf. Details on

An overview of the governance process can be found here https://github.com/valory-xyz/autonolas-governance/blob/pre-c4a/docs/Governance_process.pdf.

A brief overview of registries can be found here https://github.com/valory-xyz/autonolas-registries/blob/pre-c4a/docs/AgentServicesFunctionality.pdf . Here, the protocol withepaper https://www.autonolas.network/documents/whitepaper/Whitepaper%20v1.0.pdf.

Running tests

This repository will follows the standard Hardhat development process.

  • The code is written on Solidity starting from version 0.8.15.
  • The standard versions of Node.js along with Yarn are required to proceed further (confirmed to work with Yarn 1.22.19 and npm 10.1.0 and node v18.6.0);
  • Foundry is required to run the foundry tests.

Install the dependencies

Each relevant directory has the package.json file managing dependencies, and the setup parameters are stored in the corresponding hardhat.config.js file. Simply run the following command to install each of the projects (cd governance / registries / tokenomics):

yarn install

Core components

The contracts, deploy scripts, regular scripts and tests are located in the following folders respectively:

contracts
scripts
test

Compile the code and run

Governance

cd governance

Compile the code:

npx hardhat compile

Run tests with Hardhat:

npx hardhat test

Registries

cd registries

Compile the code:

npx hardhat compile

Run tests with Hardhat:

npx hardhat test

Run tests with Foundry:

forge test --hh -vv

Tokenomics

cd tokenomics

Compile the code:

npm run compile

Run tests with Hardhat:

npx hardhat test

Run tests with Foundry:

forge test --hh -vv

Foundry testing

Note

Forge tests don't run by default!

For them to run in the corresponding folder (registries / tokenomics) one needs to go in the folder and initialize an empty git repo with the git init command, i.e. for registries:

cd registries
git init
forge test --hh -vvv

Run tests coverage for each of the corresponding folder (governance / registries / tokenomics)

npx hardhat coverage

Screenshot from 2024-05-27 23-52-57 Screenshot from 2024-05-28 00-05-33 Screenshot from 2024-05-28 00-15-47

Miscellaneous

Employees of OLAS and employees' family members are ineligible to participate in this audit.

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