Crates.io | mollusk-svm-programs-memo |
lib.rs | mollusk-svm-programs-memo |
version | 0.0.13 |
source | src |
created_at | 2024-12-04 05:57:49.268111 |
updated_at | 2024-12-12 03:41:23.96366 |
description | SVM program SPL Memo. |
homepage | |
repository | https://github.com/buffalojoec/mollusk |
max_upload_size | |
id | 1471285 |
size | 100,334 |
SVM program test harness.
The harness is designed to directly invoke the loaded executable program using the rBPF VM, bypassing any transaction sanitization and runtime checks, and instead directly processing the instruction with the VM.
let program_id = Pubkey::new_unique();
let key1 = Pubkey::new_unique();
let key2 = Pubkey::new_unique();
let instruction = Instruction::new_with_bytes(
program_id,
&[],
vec![
AccountMeta::new(key1, false),
AccountMeta::new_readonly(key2, false),
],
);
let accounts = vec![
(key1, AccountSharedData::default()),
(key2, AccountSharedData::default()),
];
let mollusk = Mollusk::new(program_id, "my_program");
let result = mollusk.process_instruction(&instruction, &accounts);
You can also use the Check
API provided by Mollusk for easy post-execution
checks, rather than writing them manually. The API method
process_and_validate_instruction
will still return the result, allowing you
to perform further checks if you desire.
let sender = Pubkey::new_unique();
let recipient = Pubkey::new_unique();
let base_lamports = 100_000_000u64;
let transfer_amount = 42_000u64;
let instruction = system_instruction::transfer(&sender, &recipient, transfer_amount);
let accounts = [
(
sender,
AccountSharedData::new(base_lamports, 0, &system_program::id()),
),
(
recipient,
AccountSharedData::new(base_lamports, 0, &system_program::id()),
),
];
let checks = vec![
Check::success(),
Check::compute_units(system_processor::DEFAULT_COMPUTE_UNITS),
Check::account(&sender)
.lamports(base_lamports - transfer_amount)
.build(),
Check::account(&recipient)
.lamports(base_lamports + transfer_amount)
.build(),
];
Mollusk::default().process_and_validate_instruction(
&instruction,
&accounts,
&checks,
);
Mollusk also offers a compute unit usage bencher for profiling a program's compute unit usage.
Example:
// If using with `cargo bench`, tell Mollusk where to find the program.
std::env::set_var("SBF_OUT_DIR", "../target/deploy");
// Optionally disable logging.
solana_logger::setup_with("");
/* Instruction & accounts setup ... */
let mollusk = Mollusk::new(&program_id, "my_program");
MolluskComputeUnitBencher::new(mollusk)
.bench(("bench0", &instruction0, &accounts0))
.bench(("bench1", &instruction1, &accounts1))
.bench(("bench2", &instruction2, &accounts2))
.bench(("bench3", &instruction3, &accounts3))
.must_pass(true)
.out_dir("../target/benches")
.execute();
You can invoke this benchmark test with cargo bench
. Don't forget to add a
bench to your project's Cargo.toml
.
[[bench]]
name = "compute_units"
harness = false
Mollusk will output bench details to the output directory in Markdown.
Note:
Delta
is the change since the last time the bench was run.
Name | CUs | Delta |
---|---|---|
bench0 | 450 | -- |
bench1 | 579 | -129 |
bench2 | 1,204 | +754 |
bench3 | 2,811 | +2,361 |
Mollusk also has first-class support for generating fixtures from tests, which can be used for things like fuzzing.
There are two protobuf layouts supported by Mollusk:
org.mollusk.svm
: The protobuf layouts defined by
the Mollusk library, which map directly to the structure of a Mollusk unit
test.org.solana.sealevel.v1
: The protobuf layouts
defined by Firedancer and used to test program instructions between targets
on Firedancer and Agave.Each protobuf layout has its own corresponding crate for all of the binding
support: mollusk-svm-fuzz-fixture
and mollusk-svm-fuzz-fixture-firedancer
respectively.
The base library itself (mollusk-svm
) provides support for working with
fixtures directly from a Mollusk instance, via the fuzz
and fuzz-fd
feature
flags, which can be used standalone or together.
When either fuzz-fixture feature flag is enabled, Mollusk can do the following:
To generate a fuzz fixture from a Mollusk unit test, provide the necessary
environment variables alongside your call to cargo test-sbf
, like so:
EJECT_FUZZ_FIXTURES="my/fixtures/dir" cargo test-sbf ...
JSON versions of fixtures are also supported.
See the documentation in harness/src/lib.rs
for more
information.