Crates.io | sol-dev-utils |
lib.rs | sol-dev-utils |
version | 0.1.5 |
source | src |
created_at | 2024-08-26 10:14:52.774534 |
updated_at | 2024-09-09 08:48:42.629682 |
description | Solana development utils |
homepage | |
repository | |
max_upload_size | |
id | 1352046 |
size | 9,095 |
A collection of utilities and macros to enhance Solana program development, focusing on compute unit logging and instruction discriminant generation.
*Read below for important notes on CU measurement correction.
[dependencies]
sol_dev_proc_macros = "0.1.5"
[features]
compute-fn = []
use sol_dev_proc_macros::compute_fn;
#[cfg_attr(feature = "compute-fn", compute_fn)]
fn my_function() {
// Function body
}
with Cargo.toml
:
Then if you want to enable logging, compile with:
cargo build-sbf --features compute-fn
If you build normally, the compute_fn
attribute will be stripped from the code and introduces no overhead.
Then
cargo install sol-dev-cli
sol-dev-cli parse dir <path-to-dir>
parses all your logs to log_parsed.json
.
[dependencies]
sol_dev_proc_macros = "0.1.5"
use sol_dev_proc_macros::compute_fn;
#[compute_fn]
fn my_function() {
// Function body
}
Produces log entries:
[
"Program log: my_function {{",
"Program consumption: 196528 units remaining",
"Program consumption: 196528 units consumed",
"Program log: }} my_function"
]
[dependencies]
sol_dev_macros = "0.1.5"
use sol_dev_macros::compute_fn;
compute_fn!("My Block" => {
// Your code here
some_fn();
});
[
"Program log: My Block {{",
"Program consumption: 196528 units remaining",
"Program consumption: 196528 units consumed",
"Program log: }} My Block"
]
cargo install sol-dev-cli
The CLI can be used to parse the logs generated by the compute unit logging macros. The logs can be parsed from a file or a directory containing multiple log files.
sol-dev-cli parse dir <path-to-dir>
sol-dev-cli parse file <path-to-file>
This parses logs into JSON that looks like this:
[
{
"type": "invoke"
"id": "11111111111111111111111111111111111111111111"
depth: 1,
children: [
{
"type": "function",
"name": "my_function",
"naive_local": 726,
"naive_global": 2971,
"local": 418,
"global": 11.5,
"children": [<children>]
}
<more children>
],
<more invocations>
]
Measurement | Description |
---|---|
naive_local | Raw CU consumed within the function, excluding its children, including measurement overhead |
naive_global | Raw CU consumed within the function, excluding its children, including measurement overhead |
local | Adjusted CU consumed within the function, excluding its children, excluding measurement overhead |
global | Adjusted CU consumed within the function, excluding its children, excluding measurement overhead |
Of course measuring CU itself costs CU. Some of this extra cost we can account for, some of it we can't.
What we can account for is the cost of the msg!
macro and sol_log_compute_units!
macro.
Some of this cost goes to the caller of the function, and some of it is internalized by the function itself.
We can correct for this cost with some simple arithmetic, which is reflected in the 'local' and 'global' measurements.
What we can't account for is that this macro will cause the compiler to generate different code, which will have a different CU cost. This unaccounted difference is why we provide both naive and adjusted measurements. Example:
use sol_dev_macros::compute_fn;
fn my_inner_function() {
// Function body
}
#[compute_fn]
fn my_function() {
// Function body
my_inner_function();
}
Normally, my_inner_function
would likely be inlined into my_function
, turning this into a single function call.
Using compute_fn
will prevent inlining, causing two function calls.
We cannot account for this difference easily, so user discretion is advised.
In practice, these differences are significant, so be weary of this. My advice is to only use measurements to quantify the relative cost of different code paths, not the absolute cost.
[dependencies]
sol_dev_utils = "0.1.5"
use sol_dev_proc_macros::anchor_discriminant;
match discriminant {
anchor_discriminant![initialize] => initialize(),
// This is equivalent to:
// anchor_discriminant![global:initialize] => initialize(),
anchor_discriminant![process] => process(),
anchor_discriminant![custom:finalize] => finalize(),
_ => return Err(ProgramError::InvalidInstructionData.into()),
}
Handles the global namespace automatically if no namespace is provided.
Contributions are welcome! Please open an issue or submit a pull request.
This project is licensed under the MIT License - see the LICENSE file for details.