eyebot-bridgebot_skill

This skill optimizes cross-chain transfers by routing, costing, and security scoring for seamless asset movement across bridges.
  • Python

1.1k

GitHub Stars

4

Bundled Files

2 months ago

Catalog Refreshed

4 months ago

First Indexed

Readme & install

Copy the install command, review bundled files from the catalogue, and read any extended description pulled from the listing source.

Installation

Preview and clipboard use veilstrat where the catalogue uses aiagentskills.

npx veilstrat add skill openclaw/skills --skill eyebot-bridgebot

  • _meta.json815 B
  • manifest.yaml173 B
  • package.json227 B
  • SKILL.md1.2 KB

Overview

This skill is a cross-chain bridge specialist that helps move tokens between blockchains with optimized routing, fee comparison, and security-aware recommendations. It picks the best bridge path for a transfer based on cost, speed, and risk, and provides real-time status updates for in-flight transfers. The goal is seamless, low-cost, and secure asset transfers across major EVM and popular layer-2 networks.

How this skill works

The skill queries multiple bridge providers and liquidity routers to assemble candidate routes, then scores each by fee, estimated time, and a security risk metric. It returns a ranked quote set and can execute a selected route, tracking the transaction across source and destination chains. Real-time monitoring and status endpoints let you follow confirmations, handle retries, or surface errors for manual intervention.

When to use it

  • Moving tokens between Ethereum, Base, Polygon, Arbitrum, Optimism, BSC, or Avalanche.
  • Choosing the lowest-fee or fastest route among multiple bridge providers.
  • Validating bridge security before committing large transfers.
  • Automating recurring cross-chain transfers with monitoring and alerts.
  • Recovering status and troubleshooting stuck or delayed transfers.

Best practices

  • Always request multiple quotes and compare total cost including on-chain gas.
  • Split very large transfers across multiple bridges to reduce counterparty risk.
  • Prefer bridges with higher security scores for high-value transfers.
  • Use status tracking immediately after send to monitor confirmations and catch failures early.
  • Test new chain or token combos with small amounts before moving larger balances.

Example use cases

  • Get a cost and speed comparison for moving 1 ETH from Ethereum mainnet to Base before sending.
  • Execute an optimized transfer from Polygon to Arbitrum that balances fee and arrival time.
  • Monitor a bridge transaction hash to detect completion or trigger a retry workflow.
  • Run nightly archived transfers for treasury allocations while minimizing fees.
  • Assess risk and choose a conservative route when transferring large reserves.

FAQ

The skill supports major bridges such as Across, Stargate, Hop, Celer, and native chain bridges across Ethereum, Base, Polygon, Arbitrum, Optimism, BSC, and Avalanche.

How does the security score work?

Security scoring aggregates public audits, bridge history, known incidents, and on-chain behavior to produce a relative risk metric for each bridge route.

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