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scripting.md

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Scripting - Flow Diagrams

  1. High level overview
    1. Notes
  2. Script Execution
  3. Nonce Management

High level overview

graph TD;
    ScriptArgs::run_script-->ScriptArgs::compile;
    ScriptArgs::compile-->A{ScriptArgs::execute};
    A-- "(resume || verify) && !broadcast" -->B{ScriptArgs::resume_deployment};
    A-- "broadcast" -->ScriptArgs::handle_broadcastable_transactions;

    B-- multi-chain --> MultiChainSequence::load
    B-- single-chain --> ScriptArgs::resume_single_deployment
    ScriptArgs::resume_single_deployment--> ScriptSequence::load
    ScriptSequence::load--> receipts::wait_for_pending
    receipts::wait_for_pending -- resume --> ScriptArgs::send_transactions

    MultiChainSequence::load --> ScriptArgs::multi_chain_deployment

    ScriptArgs::multi_chain_deployment-- "resume[..]" --> receipts::wait_for_pending
    ScriptArgs::multi_chain_deployment-- "resume[..]" --> ScriptArgs::send_transactions
    ScriptArgs::multi_chain_deployment-- "broadcast[..]" --> ScriptArgs::send_transactions

    ScriptArgs::send_transactions--verify-->ScriptArgs::verify_contracts


    ScriptArgs::handle_broadcastable_transactions-->ScriptConfig::collect_rpcs;
    ScriptConfig::collect_rpcs-->ScriptArgs::create_script_sequences
    ScriptArgs::create_script_sequences--"[..]"-->C{Skip onchain simulation};
    C--yes-->D{"How many sequences?"};
    C--no-->ScriptArgs::fills_transactions_with_gas;
    ScriptArgs::fills_transactions_with_gas-->ScriptArgs::onchain_simulation;
    ScriptArgs::onchain_simulation-->D;

    D--"+1 seq"-->MultiChainSequence::new
    D--"1 seq"-->ScriptSequence::new

    MultiChainSequence::new-->ScriptArgs::multi_chain_deployment
    ScriptSequence::new-->ScriptArgs::single_deployment
    ScriptArgs::single_deployment-->ScriptArgs::send_transactions

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Notes

  1. [..] - concurrently executed

  2. The bit below does not actually influence the state initially defined by --broadcast. It only happens because there might be private keys declared inside the script that need to be collected again. --resume only resumes publishing the transactions, nothing more!

graph TD;
ScriptArgs::execute-- "(resume || verify) && !broadcast" -->ScriptArgs::resume_deployment;
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  1. ScriptArgs::execute executes the script, while ScriptArgs::onchain_simulation only executes the broadcastable transactions collected by ScriptArgs::execute.

Script Execution

graph TD;
subgraph ScriptArgs::execute
a[*]-->ScriptArgs::prepare_runner
subgraph ::prepare_runner
ScriptArgs::prepare_runner--fork_url-->Backend::spawn;
ScriptArgs::prepare_runner-->Backend::spawn;
end
Backend::spawn-->
ScriptRunner-->ScriptRunner::setup;
subgraph ::setup
ScriptRunner::setup--libraries-->Executor::deploy;
ScriptRunner::setup--ScriptContract-->Executor::deploy;
Executor::deploy--"setUp()"-->Executor::call_committing;
end
subgraph ::script
Executor::call_committing-->ScriptRunner::script;
ScriptRunner::script--"run()"-->Executor::call;
end
end
Executor::call-. BroadcastableTransactions .->ScriptArgs::handle_broadcastable_transactions;

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Nonce Management

During the first execution stage on forge script, foundry has to adjust the nonce from the sender to make sure the execution and state are as close as possible to its on-chain representation.

Making sure that msg.sender is our signer when calling setUp() and run() and that its nonce is correct (decreased by one on each call) when calling vm.broadcast to create a contract.

We skip this, if the user hasn't set a sender and they're using the Config::DEFAULT_SENDER.

graph TD

    ScriptRunner::setup-->default_foundry_caller-deployScript;
    default_foundry_caller-deployScript-->user_sender-deployLibs;
    user_sender-deployLibs-->Contract.setUp;
    Contract.setUp-->A0{Executor::call};
    A0-->vm.broadcast;
    A0-->vm.startBroadcast;
    A0-->vm.getNonce;

    vm.broadcast--> A{cheatcode.corrected_nonce}
    vm.startBroadcast-->A
    vm.getNonce-->A

    A--true-->continue_setUp;
    A--false-->B[sender_nonce=-1];
    B-->C[cheatcode.corrected_nonce=true];
    C-->continue_setUp;
    continue_setUp-->end_setUp;
    end_setUp-->D{cheatcode.corrected_nonce}
    D--true-->E[cheatcode.corrected_nonce=false];
    D--false-->F[sender_nonce=initial_nonce+predeployed_libraries_count];
    E-->ScriptRunner::script;
    F-->ScriptRunner::script;
    ScriptRunner::script-->Contract.run;
    Contract.run-->G{Executor::call};
    G-->H[vm.broadcast];
    G-->I[vm.startBroadcast];
    G-->J[vm.getNonce];

    H--> K{cheatcode.corrected_nonce}
    I-->K
    J-->K

    K--true-->continue_run;
    K--false-->L[sender_nonce=-1];
    L-->M[cheatcode.corrected_nonce=true];
    M-->continue_run;
    continue_run-->end_run;
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