Gasless transactions are a subsidy that externalizes costs from users to relayers or applications. This creates a principal-agent problem where the entity paying the gas has different optimization goals than the end-user, leading to censorship or front-running risks.
account-abstraction-fixing-crypto-ux
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Why Gasless Transactions Create Misaligned Incentives
Removing gas fees destroys the native spam deterrent, forcing dApps to build centralized gatekeepers. This is the hidden cost of 'free' transactions.
introduction
THE INCENTIVE MISMATCH
The Free Lunch Fallacy
Gasless transaction models shift cost burdens, creating systemic risks and hidden centralization.
The relayer becomes a centralized point of failure and control. Systems like ERC-4337 Account Abstraction or Gelato Network must manage private keys or off-chain services, reintroducing the trusted intermediaries that blockchains were built to eliminate.
Fee abstraction does not eliminate costs, it redistributes them. Applications must monetize user activity elsewhere, often through extractive MEV or inflated tokenomics, creating a hidden tax more opaque than transparent gas fees.
Evidence: The Polygon Gas Station Network initially subsidized transactions to bootstrap adoption, a cost that became unsustainable at scale and shifted to a more explicit sponsorship model, proving the subsidy is temporary.
key-trends
GASLESS TRANSACTIONS
The Spam Economy: Three Emerging Patterns
Fee abstraction, while user-friendly, creates a hidden economy of spam and MEV by decoupling transaction costs from the user.
01
The Problem: Subsidized Spam & Sybil Attacks
When users pay zero gas, the cost of submitting a transaction is externalized. This creates a direct incentive for spamming the network with worthless transactions to extract value, overwhelming sequencers and validators.\n- Sybil Onslaught: Attackers can spin up thousands of fake accounts at near-zero cost to farm airdrops or manipulate governance.\n- Network Congestion: Legitimate users face delayed confirmations and higher effective costs as spam clogs the mempool.
100k+
Spam Txs/Hour
0
User Cost
02
The Problem: MEV Extraction Without Skin in the Game
Gasless users have no financial disincentive to submit low-quality or predatory transactions, enabling rampant MEV. Searchers and builders exploit this to sandwich trades or censor transactions, with the user bearing none of the failed bid cost.\n- Intent-Based Exploits: Systems like UniswapX and CowSwap must design complex constraints to prevent spam in their order flows.\n- Relayer Dilemma: Services like Across and LayerZero must absorb the cost of failed transactions, creating unsustainable economic models.
$1B+
Annual MEV
0%
User Risk
03
The Solution: Cryptographic Proof-of-Personhood
The only viable long-term fix is to cryptographically tie transaction rights to a verified human identity, breaking the Sybil economics. This moves the cost from gas fees to the cost of forging a human identity.\n- World ID / Proof of Humanity: Uses biometrics to issue a globally unique proof, making spam unprofitable.\n- Social Graph Attestations: Protocols like Gitcoin Passport use aggregated credentials to create a cost barrier for bots.
1
Human = 1 Proof
> $100
Sybil Cost
deep-dive
THE INCENTIVE MISMATCH
From Sybil Farms to Centralized Gatekeepers
Gasless transaction models, while user-friendly, create perverse economic incentives that shift power from users to centralized relayers and validators.
Gasless transactions externalize costs. Users do not pay gas, so they have zero incentive to optimize transaction size or frequency. This creates a moral hazard where users spam the network, forcing the entity subsidizing the gas—like a dApp or a relayer network—to bear the full cost.
This cost externalization breeds centralization. To manage unpredictable costs, subsidizing entities implement rate-limiting and KYC. Services like Biconomy and Gelato become centralized gatekeepers, deciding which transactions get relayed based on their own risk models, not user sovereignty.
The result is protocol capture. The economic model of ERC-4337 account abstraction and intent-based systems like UniswapX depends on off-chain actors (bundlers, solvers) acting honestly. These actors consolidate power to achieve economies of scale, recreating the web2 platform risks crypto aimed to dismantle.
Evidence: On Polygon, over 90% of gasless transactions processed by a major relayer were Sybil-generated airdrop farming attempts. This forced the relayer to implement strict geo-blocking and wallet reputation filters, centralizing access control.
INCENTIVE MISALIGNMENT
Abuse Vector Comparison: Gas-Paid vs. Gasless
This table compares the security and incentive models of traditional gas-paid transactions against gasless meta-transactions, highlighting the systemic risks introduced by decoupling payment from execution.
| Abuse Vector / Metric | Gas-Paid (Native) | Gasless (Sponsored / Meta-TX) | Hybrid (Paymaster / Bundler) |
|---|---|---|---|
Transaction Sender Pays Gas | |||
Frontrunning Profit Motive | MEV searcher pays gas | Relayer / Bundler pays gas | Paymaster or Bundler pays gas |
Spam Cost to Attacker | Gas cost per tx | Zero (if subsidized) | Subsidized, limited by stake |
Sybil Attack Viability | Cost-prohibitive | Trivial | Moderate (cost = stake slashing risk) |
Relayer Censorship Power | None (decentralized mempool) | Absolute (centralized relayer) | Moderate (decentralized bundler set) |
Fee Extractable by Intermediary | 0% (goes to validators) | Up to 100% of user's swap | Bundler tip + paymaster markup |
Primary Defender Against Spam | Economic (gas burn) | Reputational / Whitelists | Economic (staked capital) |
Example Protocols / Standards | Ethereum L1, Uniswap V2 | Gas Station Network (GSN), Biconomy | ERC-4337, Polygon Supernets |
protocol-spotlight
THE SPONSORED GAS TRAP
How Leading dApps Are Coping (And Centralizing)
To offer gasless UX, dApps are forced into centralized relayers and opaque subsidy models, creating systemic risk and misaligned incentives.
01
The MetaMask Snaps Problem
Wallet-as-a-Service models like Biconomy and Particle Network abstract gas via centralized relayers, creating a single point of failure. The dApp's backend signs and pays for user transactions, effectively custodializing the UX. This centralizes trust in the relayer's infrastructure and solvency, a regression from Ethereum's design principles.
99%+
Relayer Uptime
1
Central Failure Point
02
The UniswapX Subsidy Dilemma
Intent-based protocols shift gas costs to professional fillers (like 1inch and Across) who bundle transactions. To be competitive, dApps must offer retroactive fee rebates or direct subsidies, creating a hidden cost center. This leads to a winner-take-most market where only protocols with deep VC treasuries can afford premium UX, stifling innovation.
$M+
Monthly Subsidy Cost
~3s
Settlement Latency
03
The LayerZero Verifier Centralization
Omnichain middleware like LayerZero and Axelar uses a set of designated off-chain verifiers (oracles/relayers) to pass messages. While users don't pay gas on the destination chain, the system's security collapses to the honesty of a few entities. This creates a permissioned bridge model disguised as a permissionless network, with ~$20B+ in TVL relying on this trusted setup.
~15
Active Verifiers
$20B+
TVL at Risk
04
The ERC-4337 Paymaster Bottleneck
Account Abstraction's paymaster model allows sponsors to pay gas in any token. In practice, paymaster services (like Stackup) become centralized liquidity pools and policy engines. They must manage non-EVM gas asset risk and censor-resistant transaction ordering, recreating the very miner extractable value (MEV) problems they aim to solve.
~500ms
Policy Check
High
Operational Cost
counter-argument
THE INCENTIVE MISMATCH
But What About...? Refuting the Optimist's View
Gasless transactions shift costs from users to third parties, creating systemic risks and perverse incentives.
Gasless transactions are not free. They externalize costs to relayers or dApps, creating a hidden subsidy model that distorts economic signals. This is the core misalignment.
Relayers become centralized rent-seekers. Services like Biconomy or Gelato must front gas costs, incentivizing them to batch transactions for profit, not user benefit. This recreates the MEV extractor role.
Protocols face unsustainable burdens. A dApp offering gasless onboarding, like a hypothetical UniswapX feature, assumes a massive, volatile liability. This creates a winner-takes-most dynamic favoring well-funded incumbents.
Evidence: The EIP-4337 Account Abstraction standard centralizes bundler power. Analysis shows top three Ethereum bundlers control over 60% of UserOperation volume, a clear centralization vector.
takeaways
GASLESS FALLACY
TL;DR for Builders and Investors
Abstracting gas fees creates a critical misalignment between users, applications, and the underlying network's security.
01
The User Subsidy Trap
Apps like dYdX and Argent pay gas to onboard users, creating a CAC time bomb. This model is unsustainable at scale, leading to either a rug-pull on the sponsor or a broken UX when subsidies end.\n- Unit Economics Collapse at >1M users\n- Forces apps to monetize via extractive MEV or fees\n- Creates a false sense of 'free' that distorts product-market fit
$0.05-$0.50
Avg. Subsidy Cost
>1M
Unsustainable Scale
02
Relayer Centralization Risk
Gasless tx rely on centralized relayers (e.g., Biconomy, Gelato) to broadcast and pay fees. This recreates the trusted intermediary problem crypto solves.\n- Creates a single point of censorship and failure\n- Relayer can front-run or censor user transactions\n- Network security becomes dependent on a few entities' solvency
~3-5
Dominant Relayers
100%
Censorship Power
03
Intent-Based Architectures as the Fix
The solution is shifting from gasless transactions to intent-based systems (e.g., UniswapX, CowSwap, Across). Users sign a desired outcome, and a decentralized solver network competes to fulfill it, baking costs into the result.\n- Aligns incentives via solver competition\n- Preserves user sovereignty (no trusted relayer)\n- Enables complex cross-chain swaps without gas knowledge
10-30%
Better Execution
Decentralized
Solver Network
04
The Validator Economics Problem
Gas fees are the primary reward for Ethereum PoS validators and other L1s. Pervasive gasless transactions could starve the security budget, forcing inflation or reducing decentralization.\n- Security depends on fee revenue post-merge\n- EIP-1559 burning + gasless = net deflationary pressure on validator income\n- Risks pushing validation towards centralized, low-cost operators
-XX%
Validator Revenue
Security Risk
Long-Term
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