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8329990a33afba80cbd4a6bf0b6e5e11e8f63b0b
pezkuwi-subxt/historic/examples/storage.rs
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James Wilson 8329990a33 v0.50.0: Integrate frame-decode, redo storage APIs and break up Error. (#2100) 
* WIP integrating new frame-decode and working out new storage APIS

* WIP: first pass adding new storage things to subxt-core

* Second pass over Address type and start impl in Subxt

* WIP new storage APIs

* WIP New storage APIs roughly completed, lots of errors still

* Remove PlainorMap enum; plain and map values now use same struct to simplify usage

* Begin 'fixing' errors

* WIP splitting errors and tidying payload/address traits

* Get subxt-core compiling

* Small fixes in subxt-core and remove metadata mod

* subxt-core: cargo check --all-targets passes

* Fix test

* WIP starting to update subxt from subxt-core changes

* WIP splitting up subxt errors into smaller variants

* WIP errors: add DispatchError errors

* Port new Storage APIs to subxt-core

* cargo check -p subxt passes

* Quick-fix errors in subxt-cli (explore subcommand)

* fmt

* Finish fixing codegen up and start fixing examples

* get Subxt examples compiling and bytes_at for constants

* Add some arcs to limit lifetimes in subxt/subxt-core storage APIs

* A little Arcing to allow more method chaining in Storage APIs, aligning with Subxt

* Update codegen test

* cargo check --all-targets passing

* cargo check --features 'unstable-light-client' passing

* clippy

* Remove unused dep in subxt

* use published frame-decode

* fix wasm-example

* Add new tx extension to fix daily tests

* Remove unused subxt_core::dynamic::DecodedValue type

* Update book to match changes

* Update docs to fix more broken bits

* Add missing docs

* fmt

* allow larger result errs for now

* Add missing alloc imports in subxt-core

* Fix doc tests and fix bug getting constant info

* Fix V14 -> Metadata transform for storage & constants

* Fix parachain example

* Fix FFI example

* BlockLength decodes t ostruct, not u128

* use fetch/iter shorthands rather than entry in most storage tests

* Fix some integration tests

* Fix Runtime codegen tests

* Expose the dynamic custom_value selecter and use in a UI test

* Update codegen metadata

* Tidy CLI storage query and support (str,str) as a storage address

* Add (str,str) as valid constant address too

* Show string tuple in constants example

* Via the magic of traits, avoid needing any clones of queries/addresses and accept references to them

* clippy
2025-11-10 11:38:07 +00:00

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Rust
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#![allow(missing_docs)]
use subxt_historic::{Error, OnlineClient, PolkadotConfig, ext::StreamExt};
#[tokio::main]
async fn main() -> Result<(), Error> {
// Configuration for the Polkadot relay chain.
let config = PolkadotConfig::new();
// Create an online client for the Polkadot relay chain, pointed at a Polkadot archive node.
let client = OnlineClient::from_url(config, "wss://rpc.polkadot.io").await?;
// Iterate through some randomly selected blocks to show how to fetch and decode storage.
for block_number in 12345678.. {
println!("=== Block {block_number} ===");
// Point the client at a specific block number. By default this will download and cache
// metadata for the required spec version (so it's cheaper to instantiate again), if it
// hasn't already, and borrow the relevant legacy types from the client.
let client_at_block = client.at(block_number).await?;
// We'll work the account balances at the given block, for this example.
let account_balances = client_at_block.storage().entry("System", "Account")?;
// We can see the default value for this entry at this block, if one exists.
if let Some(default_value) = account_balances.default_value() {
let default_balance_info = default_value.decode_as::<scale_value::Value>()?;
println!(" Default balance info: {default_balance_info}");
}
// We can fetch a specific account balance by its key, like so (here I just picked a random key
// I knew to exist from iterating over storage entries):
let account_id_hex = "9a4d0faa2ba8c3cc5711852960940793acf55bf195b6eecf88fa78e961d0ce4a";
let account_id: [u8; 32] = hex::decode(account_id_hex).unwrap().try_into().unwrap();
if let Some(entry) = account_balances.fetch((account_id,)).await? {
// We can decode the value into our generic `scale_value::Value` type, which can
// represent any SCALE-encoded value, like so:
let _balance_info = entry.decode_as::<scale_value::Value>()?;
// Or, if we know what shape to expect, we can decode the parts of the value that we care
// about directly into a static type, which is more efficient and allows easy type-safe
// access, like so:
#[derive(scale_decode::DecodeAsType)]
struct BalanceInfo {
data: BalanceInfoData,
}
#[derive(scale_decode::DecodeAsType)]
struct BalanceInfoData {
free: u128,
reserved: u128,
misc_frozen: u128,
fee_frozen: u128,
}
let balance_info = entry.decode_as::<BalanceInfo>()?;
println!(
" Single balance info from {account_id_hex} => free: {} reserved: {} misc_frozen: {} fee_frozen: {}",
balance_info.data.free,
balance_info.data.reserved,
balance_info.data.misc_frozen,
balance_info.data.fee_frozen,
);
}
// Or we can iterate over all of the account balances and print them out, like so. Here we provide an
// empty tuple, indicating that we want to iterate over everything and not only things under a certain key
// (in the case of account balances, there is only one key anyway, but other storage entries may map from
// several keys to a value, and for those we can choose which depth we iterate at by providing as many keys
// as we want and leaving the rest). Here I only take the first 10 accounts I find for the sake of the example.
let mut all_balances = account_balances.iter(()).await?.take(10);
while let Some(entry) = all_balances.next().await {
let entry = entry?;
let key = entry.key()?;
// Decode the account ID from the key (we know here that we're working
// with a map which has one value, an account ID, so we just decode that part:
let account_id = key
.part(0)
.unwrap()
.decode_as::<[u8; 32]>()?
.expect("We expect this key to decode into a 32 byte AccountId");
let account_id_hex = hex::encode(account_id);
// Decode these values into our generic scale_value::Value type. Less efficient than
// defining a static type as above, but easier for the sake of the example.
let balance_info = entry.value().decode_as::<scale_value::Value>()?;
println!(" {account_id_hex} => {balance_info}");
}
// We can also chain things together to fetch and decode a value in one go.
let _val = client_at_block
.storage()
.entry("System", "Account")?
.fetch((account_id,))
.await?
.unwrap()
.decode_as::<scale_value::Value>()?;
let _vals = client_at_block
.storage()
.entry("System", "Account")?
.iter(())
.await?;
}
Ok(())
}
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