⚡ Cairo Native ⚡

A compiler to convert Cairo's intermediate representation "Sierra" code
to machine code via MLIR and LLVM.

Report Bug · Request Feature

To get started on how to setup and run cairo-native check the getting started section.

To read more in-depth documentation, visit this page.

• Implemented Library Functions
• Getting started
• Command Line Interface
• Benchmarking
• API usage example
• From MLIR to native binary

⚠️ Disclaimer

🚧 cairo-native is still being built therefore API breaking changes might happen often so use it at your own risk. 🚧

For versions under 1.0 cargo doesn't comply with semver, so we advise to pin the version the version you use. This can be done by adding cairo-native = "0.1.0" to your Cargo.toml

Implemented Library Functions

Cairo Native works by leveraging the intermediate representation of Cairo called Sierra. Sierra uses a list of builtin functions that implement the language functionality, those are called library functions, short: libfuncs. Basically every statement in a sierra program is a call to a libfunc, thus they are the core of Cairo Native progress towards feature parity.

This is a list of the current progress implementing each libfunc.

Implemented libfuncs (click to open)

1. alloc_local
2. array_append
3. array_get
4. array_len
5. array_new
6. array_pop_front_consume
7. array_pop_front
8. array_slice
9. array_snapshot_pop_back
10. array_snapshot_pop_front
11. bitwise
12. bool_and_impl
13. bool_not_impl
14. bool_or_impl
15. bool_to_felt252
16. bool_xor_impl
17. box_forward_snapshot
18. branch_align
19. bytes31_const
20. bytes31_to_felt252
21. bytes31_try_from_felt252
22. call_contract_syscall (StarkNet)
23. class_hash_to_felt252 (StarkNet)
24. class_hash_try_from_felt252 (StarkNet)
25. contract_address_const (StarkNet)
26. contract_address_to_felt252 (StarkNet)
27. contract_address_try_from_felt252 (StarkNet)
28. deploy_syscall (StarkNet)
29. disable_ap_tracking
30. downcast
31. drop (3)
32. dup (3)
33. ec_neg
34. ec_point_from_x_nz
35. ec_point_is_zero
36. ec_point_try_new_nz
37. ec_point_unwrap
38. ec_point_zero
39. ec_state_add_mul
40. ec_state_add
41. ec_state_init
42. ec_state_try_finalize_nz
43. emit_event_syscall (StarkNet)
44. enable_ap_tracking
45. enum_from_bounded_int
46. enum_init
47. enum_match
48. enum_snapshot_match
49. felt252_add_const (4)
50. felt252_add
51. felt252_const
52. felt252_dict_entry_finalize
53. felt252_dict_entry_get
54. felt252_dict_new
55. felt252_dict_squash
56. felt252_div_const (4)
57. felt252_div (4)
58. felt252_is_zero
59. felt252_mul_const (4)
60. felt252_mul
61. felt252_sub_const (4)
62. felt252_sub
63. finalize_locals
64. function_call
65. get_available_gas
66. get_block_hash_syscall (StarkNet)
67. get_builtin_costs (5)
68. get_execution_info_syscall (StarkNet)
69. hades_permutation
70. i128_diff
71. i16_diff
72. i32_diff
73. i64_diff
74. i8_diff
75. into_box (2)
76. jump
77. keccak_syscall (StarkNet)
78. library_call_syscall (StarkNet)
79. match_nullable
80. null
81. nullable_forward_snapshot
82. nullable_from_box
83. pedersen
84. print
85. rename
86. replace_class_syscall (StarkNet)
87. revoke_ap_tracking
88. send_message_to_l1_syscall (StarkNet)
89. snapshot_take (1)
90. span_from_tuple
91. storage_address_from_base_and_offset (StarkNet)
92. storage_address_from_base (StarkNet)
93. storage_address_to_felt252 (StarkNet)
94. storage_address_try_from_felt252 (StarkNet)
95. storage_base_address_const (StarkNet)
96. storage_base_address_from_felt252 (StarkNet)
97. storage_read_syscall (StarkNet)
98. storage_write_syscall (StarkNet)
99. store_local
100. store_temp
101. struct_construct
102. struct_deconstruct
103. struct_snapshot_deconstruct
104. u128_byte_reverse
105. u128_const
106. u128_eq
107. u128_guarantee_mul
108. u128_is_zero
109. u128_mul_guarantee_verify
110. u128_overflowing_add
111. u128_overflowing_sub
112. u128_safe_divmod
113. u128_sqrt
114. u128_to_felt252
115. u128s_from_felt252
116. u16_const
117. u16_eq
118. u16_is_zero
119. u16_overflowing_add
120. u16_overflowing_sub
121. u16_safe_divmod
122. u16_sqrt
123. u16_to_felt252
124. u16_try_from_felt252
125. u16_wide_mul
126. u256_is_zero
127. u256_safe_divmod
128. u256_sqrt
129. u32_const
130. u32_eq
131. u32_is_zero
132. u32_overflowing_add
133. u32_overflowing_sub
134. u32_safe_divmod
135. u32_sqrt
136. u32_to_felt252
137. u32_try_from_felt252
138. u32_wide_mul
139. u64_const
140. u64_eq
141. u64_is_zero
142. u64_overflowing_add
143. u64_overflowing_sub
144. u64_safe_divmod
145. u64_sqrt
146. u64_to_felt252
147. u64_try_from_felt252
148. u64_wide_mul
149. u8_const
150. u8_eq
151. u8_is_zero
152. u8_overflowing_add
153. u8_overflowing_sub
154. u8_safe_divmod
155. u8_sqrt
156. u8_to_felt252
157. u8_try_from_felt252
158. u8_wide_mul
159. unbox (2)
160. unwrap_non_zero
161. upcast
162. withdraw_gas_all (5)
163. withdraw_gas (5)

Not yet implemented libfuncs (click to open)

1. const_as_box
2. secp256k1_add_syscall (StarkNet)
3. secp256k1_get_point_from_x_syscall (StarkNet)
4. secp256k1_get_xy_syscall (StarkNet)
5. secp256k1_mul_syscall (StarkNet)
6. secp256k1_new_syscall (StarkNet)
7. secp256r1_add_syscall (StarkNet)
8. secp256r1_get_point_from_x_syscall (StarkNet)
9. secp256r1_get_xy_syscall (StarkNet)
10. secp256r1_mul_syscall (StarkNet)
11. secp256r1_new_syscall (StarkNet)

Not yet implemented libfuncs (testing category only, click to open)

Testing libfuncs:

1. pop_log (StarkNet, testing)
2. redeposit_gas
3. set_account_contract_address (StarkNet, testing)
4. set_block_number (StarkNet, testing)
5. set_block_timestamp (StarkNet, testing)
6. set_caller_address (StarkNet, testing)
7. set_chain_id (StarkNet, testing)
8. set_contract_address (StarkNet, testing)
9. set_max_fee (StarkNet, testing)
10. set_nonce (StarkNet, testing)
11. set_sequencer_address (StarkNet, testing)
12. set_signature (StarkNet, testing)
13. set_transaction_hash (StarkNet, testing)
14. set_version (StarkNet, testing)

Footnotes on the libfuncs list:

1. It is implemented but we're not handling potential issues like lifetimes yet.
2. It is implemented but we're still debating whether it should be a Rust-like Box<T> or if it's fine treating it like another variable.
3. It is implemented but side-effects are not yet handled (ex. array cloning/dropping).
4. Not supported by the Cairo to Sierra compiler.
5. Implemented with a dummy. It doesn't do anything yet.

Getting Started

Dependencies

• Linux or macOS (aarch64 included) only for now
• LLVM 17 with MLIR: On debian you can use apt.llvm.org, on macOS you can use brew
• Nightly Rust
• Git

Setup

This step applies to all operating systems.

Run the following make target to install the dependencies (both Linux and macOS):

make deps

Linux

Since Linux distributions change widely, you need to install LLVM 17 via your package manager, compile it or check if the current release has a Linux binary.

If you are on Debian/Ubuntu, check out the repository https://apt.llvm.org/ Then you can install with:

sudo apt-get install llvm-17 llvm-17-dev llvm-17-runtime clang-17 clang-tools-17 lld-17 libpolly-17-dev libmlir-17-dev mlir-17-tools

If you decide to build from source, here are some indications:

Install LLVM from source instructions

# Go to https://github.com/llvm/llvm-project/releases
# Download the latest LLVM 17 release:
# The blob to download is called llvm-project-17.x.x.src.tar.xz

# For example
wget https://github.com/llvm/llvm-project/releases/download/llvmorg-17.0.3/llvm-project-17.0.3.src.tar.xz
tar xf llvm-project-17.0.3.src.tar.xz

cd llvm-project-17.0.3.src.tar
mkdir build
cd build

# The following cmake command configures the build to be installed to /opt/llvm-17
cmake -G Ninja ../llvm \
   -DLLVM_ENABLE_PROJECTS="mlir;clang;clang-tools-extra;lld;polly" \
   -DLLVM_BUILD_EXAMPLES=OFF \
   -DLLVM_TARGETS_TO_BUILD="Native" \
   -DCMAKE_INSTALL_PREFIX=/opt/llvm-17 \
   -DCMAKE_BUILD_TYPE=RelWithDebInfo \
   -DLLVM_PARALLEL_LINK_JOBS=4 \
   -DLLVM_ENABLE_BINDINGS=OFF \
   -DCMAKE_C_COMPILER=clang -DCMAKE_CXX_COMPILER=clang++ -DLLVM_ENABLE_LLD=ON \
   -DLLVM_ENABLE_ASSERTIONS=OFF

ninja install

Setup a environment variable called MLIR_SYS_170_PREFIX, LLVM_SYS_170_PREFIX and TABLEGEN_170_PREFIX pointing to the llvm directory:

# For Debian/Ubuntu using the repository, the path will be /usr/lib/llvm-17
export MLIR_SYS_170_PREFIX=/usr/lib/llvm-17
export LLVM_SYS_170_PREFIX=/usr/lib/llvm-17
export TABLEGEN_170_PREFIX=/usr/lib/llvm-17

Run the deps target to install the other dependencies such as the cairo compiler (for tests, benchmarks).

make deps

MacOS

The makefile deps target (which you should have ran before) installs LLVM 17 with brew for you, afterwards you need to execute the env-macos.sh script to setup the needed environment variables.

source env-macos.sh

Make commands:

Running make by itself will list available targets.

• Install the necessary dependencies (on Linux, you need to get LLVM 17 manually):

make deps

• Build a release version:

make build

Or with your native CPU Architecture for even more performance (usually):

make build-native

• Install the cairo-native-dump and cairo-native-run commands:

make install

• Build a optimized development version:

make build-dev

• View and open the docs:

make doc-open

• Run the tests:

make test

• Generate coverage:

make coverage

• Run clippy and format checks:

make check

• Compile the runtime library used for ahead of time compilation:

make runtime

Command Line Interface

cairo-native-dump:

Usage: cairo-native-dump [OPTIONS] <INPUT>

Arguments:
  <INPUT>

Options:
  -o, --output <OUTPUT>  [default: -]
  -h, --help             Print help

cairo-native-run:

This tool allows to run programs using the JIT engine, like the cairo-run tool, the parameters can only be felt values.

echo '1' | cairo-native-run 'program.cairo' 'program::program::main' --inputs - --outputs -

Usage: cairo-native-run [OPTIONS] <INPUT> <ENTRY_POINT>

Arguments:
  <INPUT>
  <ENTRY_POINT>

Options:
  -i, --inputs <INPUTS>
  -o, --outputs <OUTPUTS>
  -p, --print-outputs
  -h, --help               Print help

API usage example

This is a usage example using the API for an easy Cairo program that requires the least setup to get running. It allows you to compile and execute a program using the JIT.

Example code to run a program:

use starknet_types_core::felt::Felt;
use cairo_native::context::NativeContext;
use cairo_native::executor::NativeExecutor;
use cairo_native::values::JitValue;
use std::path::Path;

fn main() {
    let program_path = Path::new("programs/examples/hello.cairo");
    // Compile the cairo program to sierra.
    let sierra_program = cairo_native::utils::cairo_to_sierra(program_path);

    // Instantiate a Cairo Native MLIR context. This data structure is responsible for the MLIR
    // initialization and compilation of sierra programs into a MLIR module.
    let native_context = NativeContext::new();

    // Compile the sierra program into a MLIR module.
    let native_program = native_context.compile(&sierra_program).unwrap();

    // The parameters of the entry point.
    let params = &[JitValue::Felt252(Felt::from_bytes_be_slice(b"user"))];

    // Find the entry point id by its name.
    let entry_point = "hello::hello::greet";
    let entry_point_id = cairo_native::utils::find_function_id(&sierra_program, entry_point);

    // Instantiate the executor.
    let native_executor = NativeExecutor::new(native_program);

    // Execute the program.
    let result = native_executor
        .execute(entry_point_id, params, None)
        .unwrap();

    println!("Cairo program was compiled and executed successfully.");
    println!("{:?}", result);
}

Example code to run a Starknet contract:

use starknet_types_core::felt::Felt;
use cairo_lang_compiler::CompilerConfig;
use cairo_lang_starknet::contract_class::compile_path;
use cairo_native::context::NativeContext;
use cairo_native::executor::NativeExecutor;
use cairo_native::utils::find_entry_point_by_idx;
use cairo_native::values::JitValue;
use cairo_native::{
    metadata::syscall_handler::SyscallHandlerMeta,
    starknet::{BlockInfo, ExecutionInfo, StarkNetSyscallHandler, SyscallResult, TxInfo, U256},
};
use std::path::Path;

/// To run a starknet contract, we need to use a syscall handler, here we show how to implement one (at the end).
#[derive(Debug)]
struct SyscallHandler;

fn main() {
    let path = Path::new("programs/examples/hello_starknet.cairo");

    let contract = compile_path(
        path,
        None,
        CompilerConfig {
            replace_ids: true,
            ..Default::default()
        },
    )
    .unwrap();

    let entry_point = contract.entry_points_by_type.constructor.get(0).unwrap();
    let sierra_program = contract.extract_sierra_program().unwrap();

    let native_context = NativeContext::new();

    let mut native_program = native_context.compile(&sierra_program).unwrap();
    native_program
        .insert_metadata(SyscallHandlerMeta::new(&mut SyscallHandler))
        .unwrap();

    // Call the echo function from the contract using the generated wrapper.
    let entry_point_fn =
        find_entry_point_by_idx(&sierra_program, entry_point.function_idx).unwrap();

    let fn_id = &entry_point_fn.id;

    let native_executor = NativeExecutor::new(native_program);

    let result = native_executor
        .execute_contract(
            fn_id,
            // The calldata
            &[JitValue::Felt252(Felt::ONE)],
            u64::MAX.into(),
        )
        .expect("failed to execute the given contract");

    println!();
    println!("Cairo program was compiled and executed successfully.");
    println!("{result:#?}");
}

// Implement an example syscall handler.
impl StarkNetSyscallHandler for SyscallHandler {
    fn get_block_hash(
        &mut self,
        block_number: u64,
        _gas: &mut u128,
    ) -> SyscallResult<Felt> {
        println!("Called `get_block_hash({block_number})` from MLIR.");
        Ok(Felt::from_bytes_be_slice(b"get_block_hash ok"))
    }

    fn get_execution_info(
        &mut self,
        _gas: &mut u128,
    ) -> SyscallResult<cairo_native::starknet::ExecutionInfo> {
        println!("Called `get_execution_info()` from MLIR.");
        Ok(ExecutionInfo {
            block_info: BlockInfo {
                block_number: 1234,
                block_timestamp: 2345,
                sequencer_address: 3456.into(),
            },
            tx_info: TxInfo {
                version: 4567.into(),
                account_contract_address: 5678.into(),
                max_fee: 6789,
                signature: vec![1248.into(), 2486.into()],
                transaction_hash: 9876.into(),
                chain_id: 8765.into(),
                nonce: 7654.into(),
            },
            caller_address: 6543.into(),
            contract_address: 5432.into(),
            entry_point_selector: 4321.into(),
        })
    }

    fn deploy(
        &mut self,
        class_hash: Felt,
        contract_address_salt: Felt,
        calldata: &[Felt],
        deploy_from_zero: bool,
        _gas: &mut u128,
    ) -> SyscallResult<(Felt, Vec<Felt>)> {
        println!("Called `deploy({class_hash}, {contract_address_salt}, {calldata:?}, {deploy_from_zero})` from MLIR.");
        Ok((
            class_hash + contract_address_salt,
            calldata.iter().map(|x| x + &Felt::ONE).collect(),
        ))
    }

    fn replace_class(
        &mut self,
        class_hash: Felt,
        _gas: &mut u128,
    ) -> SyscallResult<()> {
        println!("Called `replace_class({class_hash})` from MLIR.");
        Ok(())
    }

    fn library_call(
        &mut self,
        class_hash: Felt,
        function_selector: Felt,
        calldata: &[Felt],
        _gas: &mut u128,
    ) -> SyscallResult<Vec<Felt>> {
        println!(
            "Called `library_call({class_hash}, {function_selector}, {calldata:?})` from MLIR."
        );
        Ok(calldata.iter().map(|x| x * Felt::from(3)).collect())
    }

    fn call_contract(
        &mut self,
        address: Felt,
        entry_point_selector: Felt,
        calldata: &[Felt],
        _gas: &mut u128,
    ) -> SyscallResult<Vec<Felt>> {
        println!(
            "Called `call_contract({address}, {entry_point_selector}, {calldata:?})` from MLIR."
        );
        Ok(calldata.iter().map(|x| x * Felt::from(3)).collect())
    }

    fn storage_read(
        &mut self,
        address_domain: u32,
        address: Felt,
        _gas: &mut u128,
    ) -> SyscallResult<Felt> {
        println!("Called `storage_read({address_domain}, {address})` from MLIR.");
        Ok(address * Felt::from(3))
    }

    fn storage_write(
        &mut self,
        address_domain: u32,
        address: Felt,
        value: Felt,
        _gas: &mut u128,
    ) -> SyscallResult<()> {
        println!("Called `storage_write({address_domain}, {address}, {value})` from MLIR.");
        Ok(())
    }

    fn emit_event(
        &mut self,
        keys: &[Felt],
        data: &[Felt],
        _gas: &mut u128,
    ) -> SyscallResult<()> {
        println!("Called `emit_event({keys:?}, {data:?})` from MLIR.");
        Ok(())
    }

    fn send_message_to_l1(
        &mut self,
        to_address: Felt,
        payload: &[Felt],
        _gas: &mut u128,
    ) -> SyscallResult<()> {
        println!("Called `send_message_to_l1({to_address}, {payload:?})` from MLIR.");
        Ok(())
    }

    fn keccak(
        &mut self,
        input: &[u64],
        _gas: &mut u128,
    ) -> SyscallResult<cairo_native::starknet::U256> {
        println!("Called `keccak({input:?})` from MLIR.");
        Ok(U256(Felt::from(1234567890).to_le_bytes()))
    }

    /*
    ... more code here, check out the full example in examples/starknet.rsd
    */
}

For more examples, check out the examples/ directory.

Benchmarking

Requirements

• hyperfine: cargo install hyperfine
• cairo >=1.0
• Cairo Corelibs
• LLVM 16 with MLIR

You need to setup some environment variables:

$MLIR_SYS_170_PREFIX=/path/to/llvm17  # Required for non-standard LLVM install locations.
$LLVM_SYS_170_PREFIX=/path/to/llvm17  # Required for non-standard LLVM install locations.
$TABLEGEN_170_PREFIX=/path/to/llvm17  # Required for non-standard LLVM install locations.

make bench

The bench target will run the ./scripts/bench-hyperfine.sh script. This script runs hyperfine commands to compare the execution time of programs in the ./programs/benches/ folder. Each program is compiled and executed via the execution engine with the cairo-native-run command and via the cairo-vm with the cairo-run command provided by the cairo codebase. The cairo-run command should be available in the $PATH and ideally compiled with cargo build --release. If you want the benchmarks to run using a specific build, or the cairo-run commands conflicts with something (e.g. the cairo-svg package binaries in macos) then the command to run cairo-run with a full path can be specified with the $CAIRO_RUN environment variable.

From MLIR to native binary

# to mlir with llvm dialect
sierra2mlir program.sierra -o program.mlir

# translate all dialects to the llvm dialect
"$MLIR_SYS_170_PREFIX/bin/mlir-opt" \
        --canonicalize \
        --convert-scf-to-cf \
        --canonicalize \
        --cse \
        --expand-strided-metadata \
        --finalize-memref-to-llvm \
        --convert-func-to-llvm \
        --convert-index-to-llvm \
        --reconcile-unrealized-casts \
        "program.mlir" \
        -o "program-llvm.mlir"

# translate mlir to llvm-ir
"$MLIR_SYS_170_PREFIX"/bin/mlir-translate --mlir-to-llvmir program-llvm.mlir -o program.ll

# compile natively
"$MLIR_SYS_170_PREFIX"/bin/clang program.ll -Wno-override-module \
    -L "$MLIR_SYS_170_PREFIX"/lib -L"./target/release/" \
    -lsierra2mlir_utils -lmlir_c_runner_utils \
    -Wl,-rpath "$MLIR_SYS_170_PREFIX"/lib \
    -Wl,-rpath ./target/release/ \
    -o program

./program

cairo-native-test cli tool

This tool mimics the cairo-test tool and is identical to it, the only feature it doesn't have is the profiler.

You can download it on our releases page.

$ cairo-native-test --help
Compiles a Cairo project and runs all the functions marked as `#[test]`.
Exits with 1 if the compilation or run fails, otherwise 0.

Usage: cairo-native-test [OPTIONS] <PATH>

Arguments:
  <PATH>  The Cairo project path to compile and run its tests

Options:
  -s, --single-file            Whether path is a single file
      --allow-warnings         Allows the compilation to succeed with warnings
  -f, --filter <FILTER>        The filter for the tests, running only tests containing the filter string [default: ]
      --include-ignored        Should we run ignored tests as well
      --ignored                Should we run only the ignored tests
      --starknet               Should we add the starknet plugin to run the tests
      --run-mode <RUN_MODE>    Run with JIT or AOT (compiled) [default: jit] [possible values: aot, jit]
  -O, --opt-level <OPT_LEVEL>  Optimization level, Valid: 0, 1, 2, 3. Values higher than 3 are considered as 3 [default: 0]
  -h, --help                   Print help
  -V, --version                Print version

For single files, you can use the -s, --single-file option.

For a project, it needs to have a cairo_project.toml specifying the crate_roots. You can find an example under the cairo-tests/ folder, which is a cairo project that works with this tool.

cairo-native-test -s myfile.cairo

cairo-native-test ./cairo-tests/

This will run all the tests (functions marked with the #[test] attribute).

Debugging Tips

Useful environment variables

These 2 env vars will dump the generated MLIR code from any compilation on the current working directory as:

• dump.mlir: The MLIR code after passes without locations.
• dump-debug.mlir: The MLIR code after passes with locations.
• dump-prepass.mlir: The MLIR code before without locations.
• dump-prepass-debug.mlir: The MLIR code before passes with locations.

Do note that the MLIR with locations is in pretty form and thus not suitable to pass to mlir-opt.

export NATIVE_DEBUG_DUMP_PREPASS=1
export NATIVE_DEBUG_DUMP=1

Enable logging to see the compilation process:

export RUST_LOG="cairo_native=trace"

Other tips:

• Try to find the minimal program to reproduce an issue, the more isolated the easier to test.
• Use the debug_utils print utilities, more info here:

#[cfg(feature = "with-debug-utils")]
{
    metadata.get_mut::<DebugUtils>()
        .unwrap()
        .print_pointer(context, helper, entry, ptr, location)?;
}