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pezkuwichain/revive:main pezkuwichain/revive:kvpanch/get_llvm_version_from_submodule pezkuwichain/revive:cl/call_gas pezkuwichain/revive:kvpanch/llvm_21 pezkuwichain/revive:lj/ci-benchmarks pezkuwichain/revive:cl/rul pezkuwichain/revive:refactor/make-all-field-in-selection-public pezkuwichain/revive:cl/stack_vars pezkuwichain/revive:cl/optsize pezkuwichain/revive:cl/optimize-math pezkuwichain/revive:cl/outline pezkuwichain/revive:cl/resolc-0.3.0 pezkuwichain/revive:cl/v0.1.0 pezkuwichain/revive:cl/fix-llvm-build pezkuwichain/revive:cl/emsdk pezkuwichain/revive:pg/fix-lint pezkuwichain/revive:pg/add-compiler-opts pezkuwichain/revive:pg/add-js-revive pezkuwichain/revive:cl/assign pezkuwichain/revive:cl/calls pezkuwichain/revive:as-release-json pezkuwichain/revive:gh-pages pezkuwichain/revive:yuri/fix-artifacts-archives pezkuwichain/revive:es/ci-stuff pezkuwichain/revive:cl/disable-validation pezkuwichain/revive:sm/js-asserts pezkuwichain/revive:es/release-revice pezkuwichain/revive:sm/pack-resolc pezkuwichain/revive:davidk/add-import-resolution-to-resolc pezkuwichain/revive:sm/rmasync pezkuwichain/revive:sm/nodejs pezkuwichain/revive:release-ci pezkuwichain/revive:calls pezkuwichain/revive:pvm-link-bug pezkuwichain/revive:remix pezkuwichain/revive:offload-to-fn pezkuwichain/revive:rv64 pezkuwichain/revive:pvm-bswap
pezkuwichain/revive:llvm-21.1.6-revive.140ca99 pezkuwichain/revive:llvm-21.1.6-revive.a5e2309 pezkuwichain/revive:v0.5.0 pezkuwichain/revive:v0.4.1 pezkuwichain/revive:v0.4.0 pezkuwichain/revive:v0.3.0 pezkuwichain/revive:v0.2.0 pezkuwichain/revive:v0.1.0 pezkuwichain/revive:llvm-18.1.8-revive.af39d50 pezkuwichain/revive:v0.1.0-dev.16 pezkuwichain/revive:v0.1.0-dev.15 pezkuwichain/revive:llvm-18.1.8-revive.e3a9c95 pezkuwichain/revive:v0.1.0-dev.14.1 pezkuwichain/revive:v0.1.0-dev.14 pezkuwichain/revive:v0.1.0-dev.13 pezkuwichain/revive:v0.1.0-dev.12 pezkuwichain/revive:llvm-18.1.8-revive.22f3ceb pezkuwichain/revive:llvm-18.1.8-revive.48a019e pezkuwichain/revive:v0.1.0-dev.11 pezkuwichain/revive:v0.1.0-dev.10 pezkuwichain/revive:v0.1.0-dev.9 pezkuwichain/revive:v0.1.0-dev.8 pezkuwichain/revive:v0.1.0-dev.7 pezkuwichain/revive:v0.1.0-dev.6 pezkuwichain/revive:v0.1.0-dev.5 pezkuwichain/revive:v0.1.0-dev-4 pezkuwichain/revive:v0.1.0-dev-3 pezkuwichain/revive:v0.1.0-dev-2 pezkuwichain/revive:v0.1.0-dev
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pezkuwichain/revive:main pezkuwichain/revive:kvpanch/get_llvm_version_from_submodule pezkuwichain/revive:cl/call_gas pezkuwichain/revive:kvpanch/llvm_21 pezkuwichain/revive:lj/ci-benchmarks pezkuwichain/revive:cl/rul pezkuwichain/revive:refactor/make-all-field-in-selection-public pezkuwichain/revive:cl/stack_vars pezkuwichain/revive:cl/optsize pezkuwichain/revive:cl/optimize-math pezkuwichain/revive:cl/outline pezkuwichain/revive:cl/resolc-0.3.0 pezkuwichain/revive:cl/v0.1.0 pezkuwichain/revive:cl/fix-llvm-build pezkuwichain/revive:cl/emsdk pezkuwichain/revive:pg/fix-lint pezkuwichain/revive:pg/add-compiler-opts pezkuwichain/revive:pg/add-js-revive pezkuwichain/revive:cl/assign pezkuwichain/revive:cl/calls pezkuwichain/revive:as-release-json pezkuwichain/revive:gh-pages pezkuwichain/revive:yuri/fix-artifacts-archives pezkuwichain/revive:es/ci-stuff pezkuwichain/revive:cl/disable-validation pezkuwichain/revive:sm/js-asserts pezkuwichain/revive:es/release-revice pezkuwichain/revive:sm/pack-resolc pezkuwichain/revive:davidk/add-import-resolution-to-resolc pezkuwichain/revive:sm/rmasync pezkuwichain/revive:sm/nodejs pezkuwichain/revive:release-ci pezkuwichain/revive:calls pezkuwichain/revive:pvm-link-bug pezkuwichain/revive:remix pezkuwichain/revive:offload-to-fn pezkuwichain/revive:rv64 pezkuwichain/revive:pvm-bswap
pezkuwichain/revive:llvm-21.1.6-revive.140ca99 pezkuwichain/revive:llvm-21.1.6-revive.a5e2309 pezkuwichain/revive:v0.5.0 pezkuwichain/revive:v0.4.1 pezkuwichain/revive:v0.4.0 pezkuwichain/revive:v0.3.0 pezkuwichain/revive:v0.2.0 pezkuwichain/revive:v0.1.0 pezkuwichain/revive:llvm-18.1.8-revive.af39d50 pezkuwichain/revive:v0.1.0-dev.16 pezkuwichain/revive:v0.1.0-dev.15 pezkuwichain/revive:llvm-18.1.8-revive.e3a9c95 pezkuwichain/revive:v0.1.0-dev.14.1 pezkuwichain/revive:v0.1.0-dev.14 pezkuwichain/revive:v0.1.0-dev.13 pezkuwichain/revive:v0.1.0-dev.12 pezkuwichain/revive:llvm-18.1.8-revive.22f3ceb pezkuwichain/revive:llvm-18.1.8-revive.48a019e pezkuwichain/revive:v0.1.0-dev.11 pezkuwichain/revive:v0.1.0-dev.10 pezkuwichain/revive:v0.1.0-dev.9 pezkuwichain/revive:v0.1.0-dev.8 pezkuwichain/revive:v0.1.0-dev.7 pezkuwichain/revive:v0.1.0-dev.6 pezkuwichain/revive:v0.1.0-dev.5 pezkuwichain/revive:v0.1.0-dev-4 pezkuwichain/revive:v0.1.0-dev-3 pezkuwichain/revive:v0.1.0-dev-2 pezkuwichain/revive:v0.1.0-dev

1 Commits
pvm-bswap .. gh-pages

Author SHA1 Message Date
alvicsam f6dcd23e90 init 2025-03-21 10:11:32 +01:00
259 changed files with 1 additions and 36873 deletions
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.gitignore
-14
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/target
*.dot
.vscode/
.DS_Store
/*.sol
/*.yul
/*.ll
/*.s
/llvm-project
/llvm18.0
node_modules
artifacts
tmp
package-lock.json
Cargo.lock
Generated
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Cargo.toml
-51
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[workspace]
resolver = "2"
members = ["crates/*"]
[workspace.dependencies]
hex = "0.4"
petgraph = "0.6"
cc = "1.0"
libc = "0.2"
tempfile = "3.8"
anyhow = "1.0"
semver = { version = "1.0", features = [ "serde" ] }
itertools = "0.12"
serde = { version = "1.0", features = [ "derive" ] }
serde_json = { version = "1.0", features = [ "arbitrary_precision" ] }
regex = "1.10"
once_cell = "1.19"
num = "0.4"
sha1 = "0.10"
sha2 = "0.10"
sha3 = "0.10"
md5 = "0.7"
colored = "2.1"
thiserror = "1.0"
which = "5.0"
path-slash = "0.2"
rayon = "1.8"
structopt = { version = "0.3", default-features = false }
rand = "0.8"
polkavm-common = { branch = "master_byteswap", git = "https://github.com/koute/polkavm.git" }
polkavm-linker = { branch = "master_byteswap", git = "https://github.com/koute/polkavm.git" }
polkavm = { branch = "master_byteswap", git = "https://github.com/koute/polkavm.git" }
alloy-primitives = "0.6"
alloy-sol-types = "0.6"
env_logger = { version = "0.10.0", default-features = false }
serde_stacker = "0.1"
criterion = { version = "0.5", features = ["html_reports"] }
# Benchmarking against EVM
primitive-types = { version = "0.12", features = ["codec"] }
evm-interpreter = { git = "https://github.com/xermicus/evm.git", branch = "separate-compilation" }
[workspace.dependencies.inkwell]
git = "https://github.com/TheDan64/inkwell.git"
commit = "d916c66"
default-features = false
features = ["serde", "llvm18-0", "no-libffi-linking", "target-riscv"]
[profile.benchmark]
inherits = "release"
lto = true
LICENSE-APACHE
-191
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@@ -1,191 +0,0 @@
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Copyright (c) 2019 Matter Labs
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Unless required by applicable law or agreed to in writing, software
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LICENSE-MIT
-21
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@@ -1,21 +0,0 @@
MIT License
Copyright (c) 2019 Matter Labs
Permission is hereby granted, free of charge, to any person obtaining a copy
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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SOFTWARE.
Makefile
-47
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@@ -1,47 +0,0 @@
.PHONY: install test test-solidity test-cli test-integration clean
install: install-bin install-npm
install-bin:
cargo install --path crates/solidity
install-npm:
npm install && npm fund
test: install test-integration test-cli test-solidity
test-integration: install-bin
cargo test --package revive-integration
test-solidity: install
cargo test --package revive-solidity
test-cli: install
npm run test:cli
bench-prepare: install-bin
cargo criterion --bench prepare --features bench-evm,bench-pvm --message-format=json \
| criterion-table > crates/benchmarks/PREPARE.md
bench-execute: install-bin
cargo criterion --bench execute --features bench-evm,bench-pvm --message-format=json \
| criterion-table > crates/benchmarks/EXECUTE.md
bench-extensive: install-bin
cargo criterion --all --all-features --message-format=json \
| criterion-table > crates/benchmarks/BENCHMARKS.md
bench-quick: install-bin
cargo criterion --all --features bench-evm
bench: install-bin
cargo criterion --all --features bench-evm,bench-pvm --message-format=json \
| criterion-table > crates/benchmarks/BENCHMARKS.md
clean:
cargo clean ; \
rm -rf node_modules ; \
rm -rf crates/solidity/src/tests/cli-tests/artifacts ; \
cargo uninstall revive-solidity ; \
rm -f package-lock.json
README.md
-38
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# revive
YUL and EVM bytecode recompiler to LLVM, targetting RISC-V on PolkaVM.
Code bases of [frontend](https://github.com/matter-labs/era-compiler-solidity) and [code generator](https://github.com/matter-labs/era-compiler-llvm-context) are forked and adapted from ZKSync `zksolc`.
# Status
Currently, primary goal of this codebase is to allow for benchmarks comparing performance against ink! and solang artifacts as well as EVM interpreters.
# TODO
The project is in a very early PoC phase. Don't yet expect the produced code to be working nor to be correct for anything more than a basic flipper contract at the current stage.
- [ ] Efficient implementations of byte swaps, memset, memmove, mulmod and the like
- [ ] Use `drink` for integration tests once we have 64bit support in PolkaVM
- [x] Use PolkaVM allocator for heap space
- [ ] Exercice `schlau` and possibly `smart-bench` benchmark cases
- [x] Tests currently rely on the binary being in $PATH, which is very annoying and requires `cargo install` all the times
- [ ] Define how to do deployments
- [ ] Calling conventions for calling other contracts
- [ ] Runtime environment isn't fully figured out; implement all EVM builtins
- [ ] Iron out many leftovers from the ZKVM target
- [ ] Use of exceptions
- [ ] Change long calls (contract calls)
- [ ] Check all alignments, attributes etc. if they still make sense with our target
- [x] Custom extensions related to zk VM
- [ ] `Active Pointer`: Redundant to calldata forwarding in pallet contracts. [Mainly used here](https://github.com/matter-labs/era-contracts/blob/4aa7006153ad571643342dff22c16eaf4a70fdc1/system-contracts/contracts/libraries/EfficientCall.sol) however we could offer a similar optimization.
- []
- [ ] Add a lot more test cases
- [ ] Debug information
- [ ] Look for and implement further optimizations
- [ ] Differential testing against EVM
- [x] Switch to LLVM 18 which has `RV{32,64}E` targets upstream
- [ ] Minimize scope of "stdlib"
- [ ] Document differences from EVM
- [ ] Audit for bugs and correctness
- [ ] Rebranding
build-llvm.sh
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#!/usr/bin/env bash
set -euo pipefail
INSTALL_DIR="${PWD}/llvm18.0"
mkdir -p $INSTALL_DIR
# Clone LLVM 18 (any revision after commit bd32aaa is supposed to work)
if [ ! -d "llvm-project" ]; then
git clone --depth 1 --branch release/18.x https://github.com/llvm/llvm-project.git
fi
# Build LLVM, clang
cd llvm-project
mkdir -p build
cd build
cmake -G Ninja -DLLVM_ENABLE_ASSERTIONS=On \
-DLLVM_ENABLE_TERMINFO=Off \
-DLLVM_ENABLE_LIBXML2=Off \
-DLLVM_ENABLE_ZLIB=Off \
-DLLVM_ENABLE_PROJECTS='clang;lld' \
-DLLVM_TARGETS_TO_BUILD='RISCV' \
-DLLVM_ENABLE_ZSTD=Off \
-DCMAKE_BUILD_TYPE=MinSizeRel \
-DCMAKE_INSTALL_PREFIX=$INSTALL_DIR \
../llvm
ninja
ninja install
# Build compiler builtins
cd ../compiler-rt
mkdir -p build
cd build
CFLAGS="--target=riscv32 -march=rv32em -mabi=ilp32e -nostdlib -nodefaultlibs -mcpu=generic-rv32"
cmake -G Ninja -DCMAKE_BUILD_TYPE=Release -DCMAKE_INSTALL_PREFIX=$INSTALL_DIR \
-DCOMPILER_RT_BUILD_BUILTINS=ON \
-DCOMPILER_RT_BUILD_LIBFUZZER=OFF \
-DCOMPILER_RT_BUILD_MEMPROF=OFF \
-DCOMPILER_RT_BUILD_PROFILE=OFF \
-DCOMPILER_RT_BUILD_SANITIZERS=OFF \
-DCOMPILER_RT_BUILD_XRAY=OFF \
-DCMAKE_C_COMPILER=$INSTALL_DIR/bin/clang \
-DCMAKE_C_COMPILER_TARGET="riscv32" \
-DCMAKE_ASM_COMPILER_TARGET="riscv32" \
-DCMAKE_AR=$INSTALL_DIR/bin/llvm-ar \
-DCMAKE_NM=$INSTALL_DIR/bin/llvm-nm \
-DCMAKE_RANLIB=$INSTALL_DIR/bin/llvm-ranlib \
-DCOMPILER_RT_BAREMETAL_BUILD=ON \
-DLLVM_CONFIG_PATH=$INSTALL_DIR/bin/llvm-config \
-DCMAKE_C_FLAGS="$CFLAGS" \
-DCMAKE_ASM_FLAGS="$CFLAGS" \
-DCOMPILER_RT_TEST_COMPILER=$INSTALL_DIR/bin/clang \
-DCMAKE_CXX_FLAGS="$CFLAGS" \
-DCOMPILER_RT_DEFAULT_TARGET_ONLY=ON \
-DCMAKE_SYSTEM_NAME=Linux \
..
ninja
ninja install
echo ""
echo "success"
echo "add this directory to your PATH: ${INSTALL_DIR}/bin/"
crates/benchmarks/Cargo.toml
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@@ -1,32 +0,0 @@
[package]
name = "revive-benchmarks"
version = "0.1.0"
edition = "2021"
authors = [
"Cyrill Leutwiler <cyrill@parity.io>",
]
[features]
default = ["bench-pvm-interpreter"]
bench-pvm-interpreter = []
bench-pvm = []
bench-evm = ["revive-differential"]
bench-extensive = []
[dependencies]
hex = { workspace = true }
polkavm = { workspace = true }
revive-integration = { path = "../integration" }
revive-differential = { path = "../differential", optional = true }
alloy-primitives = { workspace = true }
[dev-dependencies]
criterion = { workspace = true }
[[bench]]
name = "execute"
harness = false
[[bench]]
name = "prepare"
harness = false
crates/benchmarks/benches/execute.rs
-185
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@@ -1,185 +0,0 @@
#[cfg(feature = "bench-extensive")]
use std::time::Duration;
use criterion::{
criterion_group, criterion_main, measurement::Measurement, BenchmarkGroup, BenchmarkId,
Criterion,
};
#[cfg(any(feature = "bench-pvm-interpreter", feature = "bench-pvm"))]
use polkavm::BackendKind;
use revive_benchmarks::prepare_pvm;
use revive_integration::cases::Contract;
fn bench<P, L, I, M>(mut group: BenchmarkGroup<'_, M>, parameters: &[P], labels: &[L], contract: I)
where
P: Clone,
L: std::fmt::Display,
I: Fn(P) -> Contract,
M: Measurement,
{
assert_eq!(parameters.len(), labels.len());
for (p, l) in parameters.iter().zip(labels.iter()) {
#[cfg(feature = "bench-evm")]
{
let contract = contract(p.clone());
let vm = revive_differential::prepare(contract.evm_runtime, contract.calldata);
group.bench_with_input(BenchmarkId::new("EVM", l), p, move |b, _| {
b.iter(|| {
revive_differential::execute(vm.clone());
});
});
}
#[cfg(feature = "bench-pvm-interpreter")]
{
let contract = contract(p.clone());
let (state, mut instance, export) = prepare_pvm(
&contract.pvm_runtime,
&contract.calldata,
BackendKind::Interpreter,
);
group.bench_with_input(BenchmarkId::new("PVMInterpreter", l), p, |b, _| {
b.iter(|| {
revive_integration::mock_runtime::call(state.clone(), &mut instance, export);
});
});
}
#[cfg(feature = "bench-pvm")]
{
let contract = contract(p.clone());
let (state, mut instance, export) = prepare_pvm(
&contract.pvm_runtime,
&contract.calldata,
BackendKind::Compiler,
);
group.bench_with_input(BenchmarkId::new("PVM", l), p, |b, _| {
b.iter(|| {
revive_integration::mock_runtime::call(state.clone(), &mut instance, export);
});
});
}
}
group.finish();
}
#[cfg(feature = "bench-extensive")]
fn group_extensive<'error, M>(
c: &'error mut Criterion<M>,
group_name: &str,
) -> BenchmarkGroup<'error, M>
where
M: Measurement,
{
let mut group = c.benchmark_group(group_name);
group
.sample_size(10)
.measurement_time(Duration::from_secs(60));
group
}
fn bench_baseline(c: &mut Criterion) {
let parameters = &[0u8];
bench(
c.benchmark_group("Baseline"),
parameters,
parameters,
|_| Contract::baseline(),
);
}
fn bench_odd_product(c: &mut Criterion) {
#[cfg(feature = "bench-extensive")]
let group = group_extensive(c, "OddProduct");
#[cfg(not(feature = "bench-extensive"))]
let group = c.benchmark_group("OddProduct");
#[cfg(feature = "bench-extensive")]
let parameters = &[2_000_000i32, 4_000_000, 8_000_000, 120_000_000];
#[cfg(not(feature = "bench-extensive"))]
let parameters = &[10_000, 100_000];
bench(group, parameters, parameters, Contract::odd_product);
}
fn bench_triangle_number(c: &mut Criterion) {
#[cfg(feature = "bench-extensive")]
let group = group_extensive(c, "TriangleNumber");
#[cfg(not(feature = "bench-extensive"))]
let group = c.benchmark_group("TriangleNumber");
#[cfg(feature = "bench-extensive")]
let parameters = &[3_000_000i64, 6_000_000, 12_000_000, 180_000_000];
#[cfg(not(feature = "bench-extensive"))]
let parameters = &[10_000, 100_000];
bench(group, parameters, parameters, Contract::triangle_number);
}
fn bench_fibonacci_recurisve(c: &mut Criterion) {
#[cfg(not(feature = "bench-extensive"))]
let group = c.benchmark_group("FibonacciRecursive");
#[cfg(feature = "bench-extensive")]
let group = group_extensive(c, "FibonacciRecursive");
#[cfg(feature = "bench-extensive")]
let parameters = &[26, 30, 34, 38];
#[cfg(not(feature = "bench-extensive"))]
let parameters = &[12, 16, 20];
bench(group, parameters, parameters, Contract::fib_recursive);
}
fn bench_fibonacci_iterative(c: &mut Criterion) {
#[cfg(not(feature = "bench-extensive"))]
let group = c.benchmark_group("FibonacciIterative");
#[cfg(feature = "bench-extensive")]
let group = group_extensive(c, "FibonacciIterative");
#[cfg(feature = "bench-extensive")]
let parameters = &[256, 100000, 1000000, 100000000];
#[cfg(not(feature = "bench-extensive"))]
let parameters = &[64, 128, 256];
bench(group, parameters, parameters, Contract::fib_iterative);
}
fn bench_fibonacci_binet(c: &mut Criterion) {
let parameters = &[64, 128, 256];
bench(
c.benchmark_group("FibonacciBinet"),
parameters,
parameters,
Contract::fib_binet,
);
}
fn bench_sha1(c: &mut Criterion) {
let parameters = &[vec![0xff], vec![0xff; 64], vec![0xff; 512]];
let labels = parameters.iter().map(|p| p.len()).collect::<Vec<_>>();
bench(
c.benchmark_group("SHA1"),
parameters,
&labels,
Contract::sha1,
);
}
criterion_group!(
name = execute;
config = Criterion::default();
targets = bench_baseline,
bench_odd_product,
bench_triangle_number,
bench_fibonacci_recurisve,
bench_fibonacci_iterative,
bench_fibonacci_binet,
bench_sha1
);
criterion_main!(execute);
crates/benchmarks/benches/prepare.rs
-172
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@@ -1,172 +0,0 @@
use criterion::{criterion_group, criterion_main, BenchmarkId, Criterion};
use polkavm::BackendKind;
use revive_benchmarks::instantiate_engine;
use revive_integration::cases::Contract;
fn bench(
c: &mut Criterion,
group_name: &str,
#[cfg(feature = "bench-evm")] evm_runtime: Vec<u8>,
#[cfg(any(feature = "bench-pvm-interpreter", feature = "bench-pvm"))] pvm_runtime: Vec<u8>,
) {
let mut group = c.benchmark_group(group_name);
let code_size = 0;
#[cfg(feature = "bench-evm")]
group.bench_with_input(
BenchmarkId::new("Evm", code_size),
&evm_runtime,
|b, code| b.iter(|| revive_differential::prepare(code.clone(), Vec::new())),
);
#[cfg(feature = "bench-pvm-interpreter")]
{
let engine = instantiate_engine(BackendKind::Interpreter);
group.bench_with_input(
BenchmarkId::new("PVMInterpreterCompile", code_size),
&(&pvm_runtime, engine),
|b, (code, engine)| {
b.iter(|| {
revive_integration::mock_runtime::recompile_code(code, engine);
});
},
);
}
#[cfg(feature = "bench-pvm-interpreter")]
{
let engine = instantiate_engine(BackendKind::Interpreter);
let module = revive_integration::mock_runtime::recompile_code(&pvm_runtime, &engine);
group.bench_with_input(
BenchmarkId::new("PVMInterpreterInstantiate", code_size),
&(module, engine),
|b, (module, engine)| {
b.iter(|| {
revive_integration::mock_runtime::instantiate_module(module, engine);
});
},
);
}
#[cfg(feature = "bench-pvm")]
{
let engine = instantiate_engine(BackendKind::Compiler);
group.bench_with_input(
BenchmarkId::new("PVMCompile", code_size),
&(&pvm_runtime, engine),
|b, (code, engine)| {
b.iter(|| {
revive_integration::mock_runtime::recompile_code(code, engine);
});
},
);
}
#[cfg(feature = "bench-pvm")]
{
let engine = instantiate_engine(BackendKind::Compiler);
let module = revive_integration::mock_runtime::recompile_code(&pvm_runtime, &engine);
group.bench_with_input(
BenchmarkId::new("PVMInstantiate", code_size),
&(module, engine),
|b, (module, engine)| {
b.iter(|| {
revive_integration::mock_runtime::instantiate_module(module, engine);
});
},
);
}
group.finish();
}
fn bench_baseline(c: &mut Criterion) {
bench(
c,
"PrepareBaseline",
#[cfg(feature = "bench-evm")]
Contract::baseline().evm_runtime,
#[cfg(any(feature = "bench-pvm-interpreter", feature = "bench-pvm"))]
Contract::baseline().pvm_runtime,
);
}
fn bench_odd_product(c: &mut Criterion) {
bench(
c,
"PrepareOddProduct",
#[cfg(feature = "bench-evm")]
Contract::odd_product(0).evm_runtime,
#[cfg(any(feature = "bench-pvm-interpreter", feature = "bench-pvm"))]
Contract::baseline().pvm_runtime,
);
}
fn bench_triangle_number(c: &mut Criterion) {
bench(
c,
"PrepareTriangleNumber",
#[cfg(feature = "bench-evm")]
Contract::triangle_number(0).evm_runtime,
#[cfg(any(feature = "bench-pvm-interpreter", feature = "bench-pvm"))]
Contract::triangle_number(0).pvm_runtime,
);
}
fn bench_fibonacci_recursive(c: &mut Criterion) {
bench(
c,
"PrepareFibonacciRecursive",
#[cfg(feature = "bench-evm")]
Contract::fib_recursive(0).evm_runtime,
#[cfg(any(feature = "bench-pvm-interpreter", feature = "bench-pvm"))]
Contract::fib_recursive(0).pvm_runtime,
);
}
fn bench_fibonacci_iterative(c: &mut Criterion) {
bench(
c,
"PrepareFibonacciIterative",
#[cfg(feature = "bench-evm")]
Contract::fib_iterative(0).evm_runtime,
#[cfg(any(feature = "bench-pvm-interpreter", feature = "bench-pvm"))]
Contract::fib_iterative(0).pvm_runtime,
);
}
fn bench_fibonacci_binet(c: &mut Criterion) {
bench(
c,
"PrepareFibonacciBinet",
#[cfg(feature = "bench-evm")]
Contract::fib_binet(0).evm_runtime,
#[cfg(any(feature = "bench-pvm-interpreter", feature = "bench-pvm"))]
Contract::fib_binet(0).pvm_runtime,
);
}
fn bench_sha1(c: &mut Criterion) {
bench(
c,
"PrepareSHA1",
#[cfg(feature = "bench-evm")]
Contract::sha1(Default::default()).evm_runtime,
#[cfg(any(feature = "bench-pvm-interpreter", feature = "bench-pvm"))]
Contract::sha1(Default::default()).pvm_runtime,
);
}
criterion_group!(
name = prepare;
config = Criterion::default();
targets = bench_baseline,
bench_odd_product,
bench_triangle_number,
bench_fibonacci_recursive,
bench_fibonacci_iterative,
bench_fibonacci_binet,
bench_sha1
);
criterion_main!(prepare);
crates/benchmarks/src/lib.rs
-24
View File
@@ -1,24 +0,0 @@
use polkavm::{BackendKind, Config, Engine, ExportIndex, Instance, SandboxKind};
use revive_integration::mock_runtime;
use revive_integration::mock_runtime::State;
pub fn prepare_pvm(
code: &[u8],
input: &[u8],
backend: BackendKind,
) -> (State, Instance<State>, ExportIndex) {
let mut config = Config::new();
config.set_backend(Some(backend));
config.set_sandbox(Some(SandboxKind::Linux));
let (instance, export_index) = mock_runtime::prepare(code, Some(config));
(State::new(input.to_vec()), instance, export_index)
}
pub fn instantiate_engine(backend: BackendKind) -> Engine {
let mut config = Config::new();
config.set_backend(Some(backend));
config.set_sandbox(Some(SandboxKind::Linux));
mock_runtime::setup(Some(config))
}
crates/builtins/Cargo.toml
-9
View File
@@ -1,9 +0,0 @@
[package]
name = "revive-builtins"
version = "0.1.0"
edition = "2021"
build = "build.rs"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
crates/builtins/build.rs
-31
View File
@@ -1,31 +0,0 @@
use std::{env, fs, io::Read, path::Path, process::Command};
fn main() {
let lib = "libclang_rt.builtins-riscv32.a";
let mut llvm_lib_dir = String::new();
Command::new("llvm-config")
.args(["--libdir"])
.output()
.expect("llvm-config should be able to provide LD path")
.stdout
.as_slice()
.read_to_string(&mut llvm_lib_dir)
.expect("llvm-config output should be utf8");
let lib_path = std::path::PathBuf::from(llvm_lib_dir.trim())
.join("linux")
.join(lib);
let archive = fs::read(lib_path).expect("clang builtins for riscv32 not found");
let out_dir = env::var_os("OUT_DIR").expect("has OUT_DIR");
let archive_path = Path::new(&out_dir).join(lib);
let len = archive.len();
std::fs::write(archive_path, &archive).expect("can write to OUT_DIR");
let src_path = Path::new(&out_dir).join("compiler_rt.rs");
let src = format!("pub static COMPILER_RT: &[u8; {len}] = include_bytes!(\"{lib}\");");
fs::write(src_path, src).expect("can write to OUT_DIR");
println!("cargo:rerun-if-changed=build.rs");
}
crates/builtins/src/lib.rs
-1
View File
@@ -1 +0,0 @@
include!(concat!(env!("OUT_DIR"), "/compiler_rt.rs"));
crates/common/.github/ISSUE_TEMPLATE/bug_report.md
Vendored
-39
View File
@@ -1,39 +0,0 @@
---
name: Bug report
about: Use this template for reporting issues
title: ''
labels: bug
assignees: ''
---
### 🐛 Bug Report
#### 📝 Description
Provide a clear and concise description of the bug.
#### 🔄 Reproduction Steps
Steps to reproduce the behaviour
#### 🤔 Expected Behavior
Describe what you expected to happen.
#### 😯 Current Behavior
Describe what actually happened.
#### 🖥️ Environment
Any relevant environment details.
#### 📋 Additional Context
Add any other context about the problem here. If applicable, add screenshots to help explain.
#### 📎 Log Output
```
Paste any relevant log output here.
```
crates/common/.github/ISSUE_TEMPLATE/feature_request.md
Vendored
-21
View File
@@ -1,21 +0,0 @@
---
name: Feature request
about: Use this template for requesting features
title: ''
labels: feat
assignees: ''
---
### 🌟 Feature Request
#### 📝 Description
Provide a clear and concise description of the feature you'd like to see.
#### 🤔 Rationale
Explain why this feature is important and how it benefits the project.
#### 📋 Additional Context
Add any other context or information about the feature request here.
crates/common/.github/pull_request_template.md
Vendored
-20
View File
@@ -1,20 +0,0 @@
# What ❔
<!-- What are the changes this PR brings about? -->
<!-- Example: This PR adds a PR template to the repo. -->
<!-- (For bigger PRs adding more context is appreciated) -->
## Why ❔
<!-- Why are these changes done? What goal do they contribute to? What are the principles behind them? -->
<!-- Example: PR templates ensure PR reviewers, observers, and future iterators are in context about the evolution of repos. -->
## Checklist
<!-- Check your PR fulfills the following items. -->
<!-- For draft PRs check the boxes as you complete them. -->
- [ ] PR title corresponds to the body of PR.
- [ ] Tests for the changes have been added / updated.
- [ ] Documentation comments have been added / updated.
- [ ] Code has been formatted via `cargo fmt` and checked with `cargo clippy`.
crates/common/.github/workflows/cargo-license.yaml
Vendored
-9
View File
@@ -1,9 +0,0 @@
name: Cargo license check
on: pull_request
jobs:
cargo-deny:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
- uses: EmbarkStudios/cargo-deny-action@v1
crates/common/.github/workflows/ci.yaml
Vendored
-23
View File
@@ -1,23 +0,0 @@
name: "Rust CI"
on:
pull_request:
jobs:
build:
name: cargo build
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
- uses: actions-rust-lang/setup-rust-toolchain@v1
- run: cargo build --verbose
formatting:
name: cargo fmt
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
- uses: actions-rust-lang/setup-rust-toolchain@v1
with:
components: rustfmt
- name: Rustfmt Check
uses: actions-rust-lang/rustfmt@v1
crates/common/.github/workflows/secrets_scanner.yaml
Vendored
-17
View File
@@ -1,17 +0,0 @@
name: Leaked Secrets Scan
on: [pull_request]
jobs:
TruffleHog:
runs-on: ubuntu-latest
steps:
- name: Checkout code
uses: actions/checkout@ac593985615ec2ede58e132d2e21d2b1cbd6127c # v3
with:
fetch-depth: 0
- name: TruffleHog OSS
uses: trufflesecurity/trufflehog@0c66d30c1f4075cee1aada2e1ab46dabb1b0071a
with:
path: ./
base: ${{ github.event.repository.default_branch }}
head: HEAD
extra_args: --debug --only-verified
crates/common/.gitignore
-14
View File
@@ -1,14 +0,0 @@
# Generated by Cargo
# will have compiled files and executables
/target/
# Remove Cargo.lock from gitignore if creating an executable, leave it for libraries
# More information here https://doc.rust-lang.org/cargo/guide/cargo-toml-vs-cargo-lock.html
Cargo.lock
# These are backup files generated by rustfmt
**/*.rs.bk
# IDE
/.idea/
/.vscode/
crates/common/Cargo.toml
-19
View File
@@ -1,19 +0,0 @@
[package]
name = "revive-common"
version = "0.1.0"
authors = [
"Cyrill Leutwiler <cyrill@parity.io>",
"Oleksandr Zarudnyi <a.zarudnyy@matterlabs.dev>",
]
license = "MIT OR Apache-2.0"
edition = "2021"
description = "Shared constants of the revive compiler"
[lib]
doctest = false
[dependencies]
anyhow = { workspace = true }
serde = { workspace = true, features = ["derive"] }
serde_json = { workspace = true, features = [ "arbitrary_precision", "unbounded_depth" ] }
serde_stacker = { workspace = true }
crates/common/README.md
-35
View File
@@ -1,35 +0,0 @@
# zkSync Era: Compiler Common
[![Logo](eraLogo.svg)](https://zksync.io/)
zkSync Era is a layer 2 rollup that uses zero-knowledge proofs to scale Ethereum without compromising on security
or decentralization. As it's EVM-compatible (with Solidity/Vyper), 99% of Ethereum projects can redeploy without
needing to refactor or re-audit any code. zkSync Era also uses an LLVM-based compiler that will eventually enable
developers to write smart contracts in popular languages such as C++ and Rust.
This repository contains the common compiler constants.
## License
This library is distributed under the terms of either
- Apache License, Version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or <http://www.apache.org/licenses/LICENSE-2.0>)
- MIT license ([LICENSE-MIT](LICENSE-MIT) or <http://opensource.org/licenses/MIT>)
at your option.
## Official Links
- [Website](https://zksync.io/)
- [GitHub](https://github.com/matter-labs)
- [Twitter](https://twitter.com/zksync)
- [Twitter for Devs](https://twitter.com/zkSyncDevs)
- [Discord](https://join.zksync.dev/)
## Disclaimer
zkSync Era has been through extensive testing and audits, and although it is live, it is still in alpha state and
will undergo further audits and bug bounty programs. We would love to hear our community's thoughts and suggestions
about it!
It's important to note that forking it now could potentially lead to missing important
security updates, critical features, and performance improvements.
crates/common/src/base.rs
-15
View File
@@ -1,15 +0,0 @@
//!
//! The number base constants.
//!
/// The binary number base.
pub const BASE_BINARY: u32 = 2;
/// The octal number base.
pub const BASE_OCTAL: u32 = 8;
/// The decimal number base.
pub const BASE_DECIMAL: u32 = 10;
/// The hexadecimal number base.
pub const BASE_HEXADECIMAL: u32 = 16;
crates/common/src/bit_length.rs
-25
View File
@@ -1,25 +0,0 @@
//!
//! The common sizes in bits.
//!
/// The `bool` type bit-length.
pub const BIT_LENGTH_BOOLEAN: usize = 1;
/// The `u8` type or byte bit-length.
pub const BIT_LENGTH_BYTE: usize = 8;
/// The x86 word type (usually `u32`) bit-length.
pub const BIT_LENGTH_X32: usize = crate::byte_length::BYTE_LENGTH_X32 * BIT_LENGTH_BYTE;
/// The x86_64 word type (usually `u64`) bit-length.
pub const BIT_LENGTH_X64: usize = crate::byte_length::BYTE_LENGTH_X64 * BIT_LENGTH_BYTE;
/// The ETH address (usually `u160`) bit-length.
pub const BIT_LENGTH_ETH_ADDRESS: usize =
crate::byte_length::BYTE_LENGTH_ETH_ADDRESS * BIT_LENGTH_BYTE;
/// The field (usually `u256` or `i256`) bit-length.
pub const BIT_LENGTH_FIELD: usize = crate::byte_length::BYTE_LENGTH_FIELD * BIT_LENGTH_BYTE;
/// Bit length of the runtime value type.
pub const BIT_LENGTH_VALUE: usize = crate::byte_length::BYTE_LENGTH_VALUE * BIT_LENGTH_BYTE;
crates/common/src/byte_length.rs
-24
View File
@@ -1,24 +0,0 @@
//!
//! The common sizes in bytes.
//!
/// The byte-length.
pub const BYTE_LENGTH_BYTE: usize = 1;
/// The x86 word byte-length.
pub const BYTE_LENGTH_X32: usize = 4;
/// Native stack alignment size in bytes
pub const BYTE_LENGTH_STACK_ALIGN: usize = 4;
/// The x86_64 word byte-length.
pub const BYTE_LENGTH_X64: usize = 8;
/// The ETH address byte-length.
pub const BYTE_LENGTH_ETH_ADDRESS: usize = 20;
/// The field byte-length.
pub const BYTE_LENGTH_FIELD: usize = 32;
/// Byte length of the runtime value type.
pub const BYTE_LENGTH_VALUE: usize = 16;
crates/common/src/eravm/address.rs
-117
View File
@@ -1,117 +0,0 @@
//!
//! The EraVM address constants.
//!
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_TO_L1: u16 = 0xFFFF;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_PRECOMPILE: u16 = 0xFFFD;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_META: u16 = 0xFFFC;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_MIMIC_CALL: u16 = 0xFFFB;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_SYSTEM_MIMIC_CALL: u16 = 0xFFFA;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_MIMIC_CALL_BYREF: u16 = 0xFFF9;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_SYSTEM_MIMIC_CALL_BYREF: u16 = 0xFFF8;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_RAW_FAR_CALL: u16 = 0xFFF7;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_RAW_FAR_CALL_BYREF: u16 = 0xFFF6;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_SYSTEM_CALL: u16 = 0xFFF5;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_SYSTEM_CALL_BYREF: u16 = 0xFFF4;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_SET_CONTEXT_VALUE_CALL: u16 = 0xFFF3;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_SET_PUBDATA_PRICE: u16 = 0xFFF2;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_INCREMENT_TX_COUNTER: u16 = 0xFFF1;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_GET_GLOBAL_PTR_CALLDATA: u16 = 0xFFF0;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_GET_GLOBAL_CALL_FLAGS: u16 = 0xFFEF;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_GET_GLOBAL_PTR_RETURN_DATA: u16 = 0xFFEE;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_EVENT_INITIALIZE: u16 = 0xFFED;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_EVENT_WRITE: u16 = 0xFFEC;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_ACTIVE_PTR_LOAD_CALLDATA: u16 = 0xFFEB;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_ACTIVE_PTR_LOAD_RETURN_DATA: u16 = 0xFFEA;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_ACTIVE_PTR_ADD: u16 = 0xFFE9;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_ACTIVE_PTR_SHRINK: u16 = 0xFFE8;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_ACTIVE_PTR_PACK: u16 = 0xFFE7;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_MULTIPLICATION_HIGH_REGISTER: u16 = 0xFFE6;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_GET_GLOBAL_EXTRA_ABI_DATA: u16 = 0xFFE5;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_ACTIVE_PTR_DATA_LOAD: u16 = 0xFFE4;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_ACTIVE_PTR_DATA_COPY: u16 = 0xFFE3;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_ACTIVE_PTR_DATA_SIZE: u16 = 0xFFE2;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_CONST_ARRAY_DECLARE: u16 = 0xFFE1;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_CONST_ARRAY_SET: u16 = 0xFFE0;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_CONST_ARRAY_FINALIZE: u16 = 0xFFDF;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_CONST_ARRAY_GET: u16 = 0xFFDE;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_DECOMMIT: u16 = 0xFFDD;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_ACTIVE_PTR_LOAD_DECOMMIT: u16 = 0xFFDC;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_RETURN_FORWARD: u16 = 0xFFDB;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_REVERT_FORWARD: u16 = 0xFFDA;
/// The corresponding simulation predefined address.
pub const ERAVM_ADDRESS_ACTIVE_PTR_SWAP: u16 = 0xFFD9;
crates/common/src/eravm/mod.rs
-5
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@@ -1,5 +0,0 @@
//!
//! The EraVM constants.
//!
pub mod address;
crates/common/src/evm_version.rs
-91
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@@ -1,91 +0,0 @@
//!
//! The EVM version.
//!
use serde::Deserialize;
use serde::Serialize;
///
/// The EVM version.
///
#[derive(Debug, Serialize, Deserialize, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)]
#[serde(rename_all = "camelCase")]
pub enum EVMVersion {
/// The corresponding EVM version.
#[serde(rename = "homestead")]
Homestead,
/// The corresponding EVM version.
#[serde(rename = "tangerineWhistle")]
TangerineWhistle,
/// The corresponding EVM version.
#[serde(rename = "spuriousDragon")]
SpuriousDragon,
/// The corresponding EVM version.
#[serde(rename = "byzantium")]
Byzantium,
/// The corresponding EVM version.
#[serde(rename = "constantinople")]
Constantinople,
/// The corresponding EVM version.
#[serde(rename = "petersburg")]
Petersburg,
/// The corresponding EVM version.
#[serde(rename = "istanbul")]
Istanbul,
/// The corresponding EVM version.
#[serde(rename = "berlin")]
Berlin,
/// The corresponding EVM version.
#[serde(rename = "london")]
London,
/// The corresponding EVM version.
#[serde(rename = "paris")]
Paris,
/// The corresponding EVM version.
#[serde(rename = "shanghai")]
Shanghai,
/// The corresponding EVM version.
#[serde(rename = "cancun")]
Cancun,
}
impl TryFrom<&str> for EVMVersion {
type Error = anyhow::Error;
fn try_from(value: &str) -> Result<Self, Self::Error> {
Ok(match value {
"homestead" => Self::Homestead,
"tangerineWhistle" => Self::TangerineWhistle,
"spuriousDragon" => Self::SpuriousDragon,
"byzantium" => Self::Byzantium,
"constantinople" => Self::Constantinople,
"petersburg" => Self::Petersburg,
"istanbul" => Self::Istanbul,
"berlin" => Self::Berlin,
"london" => Self::London,
"paris" => Self::Paris,
"shanghai" => Self::Shanghai,
"cancun" => Self::Cancun,
_ => anyhow::bail!("Invalid EVM version: {}", value),
})
}
}
impl std::fmt::Display for EVMVersion {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
Self::Homestead => write!(f, "homestead"),
Self::TangerineWhistle => write!(f, "tangerineWhistle"),
Self::SpuriousDragon => write!(f, "spuriousDragon"),
Self::Byzantium => write!(f, "byzantium"),
Self::Constantinople => write!(f, "constantinople"),
Self::Petersburg => write!(f, "petersburg"),
Self::Istanbul => write!(f, "istanbul"),
Self::Berlin => write!(f, "berlin"),
Self::London => write!(f, "london"),
Self::Paris => write!(f, "paris"),
Self::Shanghai => write!(f, "shanghai"),
Self::Cancun => write!(f, "cancun"),
}
}
}
crates/common/src/exit_code.rs
-9
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@@ -1,9 +0,0 @@
//!
//! The exit code constants.
//!
/// The common application success exit code.
pub const EXIT_CODE_SUCCESS: i32 = 0;
/// The common application failure exit code.
pub const EXIT_CODE_FAILURE: i32 = 1;
crates/common/src/extension.rs
-48
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@@ -1,48 +0,0 @@
//!
//! The file extensions.
//!
/// The manifest file extension.
pub static EXTENSION_MANIFEST: &str = "toml";
/// The JSON data file extension.
pub static EXTENSION_JSON: &str = "json";
/// The ABI file extension.
pub static EXTENSION_ABI: &str = "abi";
/// The Yul IR file extension.
pub static EXTENSION_YUL: &str = "yul";
/// The EVM legacy assembly IR file extension.
pub static EXTENSION_EVMLA: &str = "evmla";
/// The Ethereal IR file extension.
pub static EXTENSION_ETHIR: &str = "ethir";
/// The EVM file extension.
pub static EXTENSION_EVM: &str = "evm";
/// The EVM bytecode file extension.
pub static EXTENSION_EVM_BINARY: &str = "bin";
/// The Solidity file extension.
pub static EXTENSION_SOLIDITY: &str = "sol";
/// The LLL IR file extension.
pub static EXTENSION_LLL: &str = "lll";
/// The Vyper file extension.
pub static EXTENSION_VYPER: &str = "vy";
/// The LLVM source code file extension.
pub static EXTENSION_LLVM_SOURCE: &str = "ll";
/// The LLVM bitcode file extension.
pub static EXTENSION_LLVM_BINARY: &str = "bc";
/// The EraVM assembly file extension.
pub static EXTENSION_ERAVM_ASSEMBLY: &str = "zasm";
/// The EraVM bytecode file extension.
pub static EXTENSION_ERAVM_BINARY: &str = "zbin";
crates/common/src/lib.rs
-21
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@@ -1,21 +0,0 @@
//!
//! The compiler common library.
//!
pub(crate) mod base;
pub(crate) mod bit_length;
pub(crate) mod byte_length;
pub(crate) mod eravm;
pub(crate) mod evm_version;
pub(crate) mod exit_code;
pub(crate) mod extension;
pub(crate) mod utils;
pub use self::base::*;
pub use self::bit_length::*;
pub use self::byte_length::*;
pub use self::eravm::address::*;
pub use self::evm_version::EVMVersion;
pub use self::exit_code::*;
pub use self::extension::*;
pub use self::utils::*;
crates/common/src/utils.rs
-35
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@@ -1,35 +0,0 @@
//!
//! The compiler common utils.
//!
///
/// Deserializes a `serde_json` object from slice with the recursion limit disabled.
///
/// Must be used for all JSON I/O to avoid crashes due to the aforementioned limit.
///
pub fn deserialize_from_slice<O>(input: &[u8]) -> anyhow::Result<O>
where
O: serde::de::DeserializeOwned,
{
let mut deserializer = serde_json::Deserializer::from_slice(input);
deserializer.disable_recursion_limit();
let deserializer = serde_stacker::Deserializer::new(&mut deserializer);
let result = O::deserialize(deserializer)?;
Ok(result)
}
///
/// Deserializes a `serde_json` object from string with the recursion limit disabled.
///
/// Must be used for all JSON I/O to avoid crashes due to the aforementioned limit.
///
pub fn deserialize_from_str<O>(input: &str) -> anyhow::Result<O>
where
O: serde::de::DeserializeOwned,
{
let mut deserializer = serde_json::Deserializer::from_str(input);
deserializer.disable_recursion_limit();
let deserializer = serde_stacker::Deserializer::new(&mut deserializer);
let result = O::deserialize(deserializer)?;
Ok(result)
}
crates/differential/Cargo.toml
-10
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@@ -1,10 +0,0 @@
[package]
name = "revive-differential"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
evm-interpreter = { workspace = true }
primitive-types = { workspace = true }
crates/differential/src/lib.rs
-154
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@@ -1,154 +0,0 @@
use evm_interpreter::{
interpreter::{EtableInterpreter, RunInterpreter},
trap::CallCreateTrap,
Context, Etable, ExitError, Log, Machine, RuntimeBackend, RuntimeBaseBackend,
RuntimeEnvironment, RuntimeState, TransactionContext, Valids,
};
use primitive_types::{H160, H256, U256};
static RUNTIME_ETABLE: Etable<RuntimeState, UnimplementedHandler, CallCreateTrap> =
Etable::runtime();
pub struct UnimplementedHandler;
impl RuntimeEnvironment for UnimplementedHandler {
fn block_hash(&self, _number: U256) -> H256 {
unimplemented!()
}
fn block_number(&self) -> U256 {
unimplemented!()
}
fn block_coinbase(&self) -> H160 {
unimplemented!()
}
fn block_timestamp(&self) -> U256 {
unimplemented!()
}
fn block_difficulty(&self) -> U256 {
unimplemented!()
}
fn block_randomness(&self) -> Option<H256> {
unimplemented!()
}
fn block_gas_limit(&self) -> U256 {
unimplemented!()
}
fn block_base_fee_per_gas(&self) -> U256 {
unimplemented!()
}
fn chain_id(&self) -> U256 {
unimplemented!()
}
}
impl RuntimeBaseBackend for UnimplementedHandler {
fn balance(&self, _address: H160) -> U256 {
unimplemented!()
}
fn code_size(&self, _address: H160) -> U256 {
unimplemented!()
}
fn code_hash(&self, _address: H160) -> H256 {
unimplemented!()
}
fn code(&self, _address: H160) -> Vec<u8> {
unimplemented!()
}
fn storage(&self, _address: H160, _index: H256) -> H256 {
unimplemented!()
}
fn exists(&self, _address: H160) -> bool {
unimplemented!()
}
fn nonce(&self, _address: H160) -> U256 {
unimplemented!()
}
}
impl RuntimeBackend for UnimplementedHandler {
fn original_storage(&self, _address: H160, _index: H256) -> H256 {
unimplemented!()
}
fn deleted(&self, _address: H160) -> bool {
unimplemented!()
}
fn is_cold(&self, _address: H160, _index: Option<H256>) -> bool {
unimplemented!()
}
fn mark_hot(&mut self, _address: H160, _index: Option<H256>) {
unimplemented!()
}
fn set_storage(&mut self, _address: H160, _index: H256, _value: H256) -> Result<(), ExitError> {
unimplemented!()
}
fn log(&mut self, _log: Log) -> Result<(), ExitError> {
unimplemented!()
}
fn mark_delete(&mut self, _address: H160) {
unimplemented!()
}
fn reset_storage(&mut self, _address: H160) {
unimplemented!()
}
fn set_code(&mut self, _address: H160, _code: Vec<u8>) -> Result<(), ExitError> {
unimplemented!()
}
fn reset_balance(&mut self, _address: H160) {
unimplemented!()
}
fn deposit(&mut self, _address: H160, _value: U256) {
unimplemented!()
}
fn withdrawal(&mut self, _address: H160, _value: U256) -> Result<(), ExitError> {
unimplemented!()
}
fn inc_nonce(&mut self, _address: H160) -> Result<(), ExitError> {
unimplemented!()
}
}
#[derive(Clone)]
pub struct PreparedEvm {
pub valids: Valids,
pub vm: Machine<RuntimeState>,
}
pub fn prepare(code: Vec<u8>, data: Vec<u8>) -> PreparedEvm {
let state = RuntimeState {
context: Context {
address: H160::default(),
caller: H160::default(),
apparent_value: U256::default(),
},
transaction_context: TransactionContext {
gas_price: U256::default(),
origin: H160::default(),
}
.into(),
retbuf: Vec::new(),
};
PreparedEvm {
valids: Valids::new(&code[..]),
vm: evm_interpreter::Machine::new(code.into(), data.to_vec().into(), 1024, 0xFFFF, state),
}
}
pub fn execute(pre: PreparedEvm) -> Vec<u8> {
let mut vm = EtableInterpreter::new_valid(pre.vm, &RUNTIME_ETABLE, pre.valids);
vm.run(&mut UnimplementedHandler {})
.exit()
.unwrap()
.unwrap();
vm.retval.clone()
}
crates/extensions/Cargo.toml
-9
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@@ -1,9 +0,0 @@
[package]
name = "revive-extensions"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
inkwell = { workspace = true, features = ["target-riscv", "no-libffi-linking", "llvm18-0"] }
crates/extensions/bswap.ll
-13
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@@ -1,13 +0,0 @@
target datalayout = "e-m:e-p:32:32-i64:64-n32-S128"
target triple = "riscv32-unknown-unknown-elf"
define dso_local noundef i256 @__bswap(i256 noundef %0) local_unnamed_addr #0 {
%2 = tail call i256 @llvm.bswap.i256(i256 %0)
ret i256 %2
}
; Function Attrs: mustprogress nocallback nofree nosync nounwind speculatable willreturn memory(none)
declare i256 @llvm.bswap.i256(i256) #1
attributes #0 = { alwaysinline mustprogress nofree norecurse nosync nounwind willreturn memory(none) }
attributes #1 = { mustprogress nocallback nofree nosync nounwind speculatable willreturn memory(none) }
crates/extensions/build.rs
-40
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@@ -1,40 +0,0 @@
use std::{env, fs, path::Path, process::Command};
fn compile(source_path: &str, output_path: &str) {
let output = Command::new("llc")
.args([
"-O3",
"-filetype=asm",
"-mattr=+zbb,+e,+m",
source_path,
"-o",
output_path,
])
.output()
.expect("should be able to invoke llc");
assert!(
output.status.success(),
"failed to compile {}: {:?}",
source_path,
output
);
}
fn main() {
let in_file = "bswap.ll";
let out_file = "bswap.s";
let out_dir = env::var_os("OUT_DIR").expect("env should have $OUT_DIR");
let out_path = Path::new(&out_dir).join(out_file);
compile(
in_file,
out_path.to_str().expect("$OUT_DIR should be UTF-8"),
);
let src_path = Path::new(&out_dir).join("bswap.rs");
let src = format!("pub static ASSEMBLY: &str = include_str!(\"{out_file}\");");
fs::write(src_path, src).expect("should be able to write in $OUT_DIR");
println!("cargo:rerun-if-changed=build.rs");
println!("cargo:rerun-if-changed=bswap.ll");
}
crates/extensions/src/lib.rs
-40
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@@ -1,40 +0,0 @@
//! Custom RISC-V extension in PolkaVM that are partially supported.
//! We use inline assembly to emit partially supported instructions.
use inkwell::{context::Context, module::Module, support::LLVMString};
include!(concat!(env!("OUT_DIR"), "/bswap.rs"));
/// Returns a LLVM module containing a `__bswap` function, which
/// - Takes a `i256` value argument
/// - Byte swaps it using `rev8` from the `zbb` extension
/// - Returns the `i256` value
///
/// Returns `Error` if the module fails to validate, which should never happen.
pub fn module<'context>(
context: &'context Context,
module_name: &str,
) -> Result<Module<'context>, LLVMString> {
let module = context.create_module(module_name);
module.set_inline_assembly(ASSEMBLY);
module.verify()?;
Ok(module)
}
#[cfg(test)]
mod tests {
#[test]
fn assembly_contains_rev8_instruction() {
assert!(crate::ASSEMBLY.contains("rev8"));
}
#[test]
fn module_is_valid() {
inkwell::targets::Target::initialize_riscv(&Default::default());
let context = inkwell::context::Context::create();
assert!(crate::module(&context, "polkavm_bswap").is_ok());
}
}
crates/integration/Cargo.toml
-20
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@@ -1,20 +0,0 @@
[package]
name = "revive-integration"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
polkavm = { workspace = true }
alloy-primitives = { workspace = true }
alloy-sol-types = { workspace = true }
hex = { workspace = true }
env_logger = { workspace = true }
revive-solidity = { path = "../solidity" }
revive-differential = { path = "../differential" }
era-compiler-llvm-context = { path = "../llvm-context" }
[dev-dependencies]
sha1 = { workspace = true }
crates/integration/contracts/Baseline.sol
-7
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@@ -1,7 +0,0 @@
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.24;
contract Baseline {
function baseline() public payable {}
}
crates/integration/contracts/Computation.sol
-23
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@@ -1,23 +0,0 @@
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.24;
contract Computation {
function triangle_number(int64 n) public pure returns (int64 sum) {
unchecked {
for (int64 x = 1; x <= n; x++) {
sum += x;
}
}
}
function odd_product(int32 n) public pure returns (int64) {
unchecked {
int64 prod = 1;
for (int32 x = 1; x <= n; x++) {
prod *= 2 * int64(x) - 1;
}
return prod;
}
}
}
crates/integration/contracts/ERC20.sol
-74
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@@ -1,74 +0,0 @@
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.20;
// https://github.com/OpenZeppelin/openzeppelin-contracts/blob/v3.0.0/contracts/token/ERC20/IERC20.sol
interface IERC20 {
function totalSupply() external view returns (uint);
function balanceOf(address account) external view returns (uint);
function transfer(address recipient, uint amount) external returns (bool);
function allowance(
address owner,
address spender
) external view returns (uint);
function approve(address spender, uint amount) external returns (bool);
function transferFrom(
address sender,
address recipient,
uint amount
) external returns (bool);
event Transfer(address indexed from, address indexed to, uint value);
event Approval(address indexed owner, address indexed spender, uint value);
}
contract ERC20 is IERC20 {
uint public totalSupply;
mapping(address => uint) public balanceOf;
mapping(address => mapping(address => uint)) public allowance;
string public name = "Solidity by Example";
string public symbol = "SOLBYEX";
uint8 public decimals = 18;
function transfer(address recipient, uint amount) external returns (bool) {
balanceOf[msg.sender] -= amount;
balanceOf[recipient] += amount;
emit Transfer(msg.sender, recipient, amount);
return true;
}
function approve(address spender, uint amount) external returns (bool) {
allowance[msg.sender][spender] = amount;
emit Approval(msg.sender, spender, amount);
return true;
}
function transferFrom(
address sender,
address recipient,
uint amount
) external returns (bool) {
allowance[sender][msg.sender] -= amount;
balanceOf[sender] -= amount;
balanceOf[recipient] += amount;
emit Transfer(sender, recipient, amount);
return true;
}
function mint(uint amount) external {
balanceOf[msg.sender] += amount;
totalSupply += amount;
emit Transfer(address(0), msg.sender, amount);
}
function burn(uint amount) external {
balanceOf[msg.sender] -= amount;
totalSupply -= amount;
emit Transfer(msg.sender, address(0), amount);
}
}
crates/integration/contracts/Fibonacci.sol
-67
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@@ -1,67 +0,0 @@
// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.24;
// https://medium.com/coinmonks/fibonacci-in-solidity-8477d907e22a
contract FibonacciRecursive {
function f(uint n) internal pure returns (uint) {
if (n <= 1) {
return n;
} else {
return f(n - 1) + f(n - 2);
}
}
function fib3(uint n) public pure returns (uint) {
return f(n);
}
}
contract FibonacciIterative {
function fib3(uint n) external pure returns (uint b) {
if (n == 0) {
return 0;
}
uint a = 1;
b = 1;
for (uint i = 2; i < n; i++) {
unchecked {
uint c = a + b;
a = b;
b = c;
}
}
return b;
}
}
contract FibonacciBinet {
function fib3(uint n) external pure returns (uint a) {
if (n == 0) {
return 0;
}
uint h = n / 2;
uint mask = 1;
// find highest set bit in n
while (mask <= h) {
mask <<= 1;
}
mask >>= 1;
a = 1;
uint b = 1;
uint c;
while (mask > 0) {
c = a * a + b * b;
if (n & mask > 0) {
b = b * (b + 2 * a);
a = c;
} else {
a = a * (2 * b - a);
b = c;
}
mask >>= 1;
}
return a;
}
}
crates/integration/contracts/MSize.sol
-20
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@@ -1,20 +0,0 @@
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.24;
contract MSize {
uint[] public data;
function mSize() public pure returns (uint size) {
assembly {
size := msize()
}
}
function mStore100() public pure returns (uint size) {
assembly {
mstore(100, msize())
size := msize()
}
}
}
crates/integration/contracts/SHA1.sol
-240
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@@ -1,240 +0,0 @@
// SPDX-License-Identifier: BSD-2-Clause
pragma solidity ^0.8.4;
contract SHA1 {
function sha1(bytes memory data) public pure returns (bytes20 ret) {
assembly {
// Get a safe scratch location
let scratch := mload(0x40)
// Get the data length, and point data at the first byte
let len := mload(data)
data := add(data, 32)
// Find the length after padding
let totallen := add(and(add(len, 1), 0xFFFFFFFFFFFFFFC0), 64)
switch lt(sub(totallen, len), 9)
case 1 {
totallen := add(totallen, 64)
}
let h := 0x6745230100EFCDAB890098BADCFE001032547600C3D2E1F0
function readword(ptr, off, count) -> result {
result := 0
if lt(off, count) {
result := mload(add(ptr, off))
count := sub(count, off)
if lt(count, 32) {
let mask := not(sub(exp(256, sub(32, count)), 1))
result := and(result, mask)
}
}
}
for {
let i := 0
} lt(i, totallen) {
i := add(i, 64)
} {
mstore(scratch, readword(data, i, len))
mstore(add(scratch, 32), readword(data, add(i, 32), len))
// If we loaded the last byte, store the terminator byte
switch lt(sub(len, i), 64)
case 1 {
mstore8(add(scratch, sub(len, i)), 0x80)
}
// If this is the last block, store the length
switch eq(i, sub(totallen, 64))
case 1 {
mstore(
add(scratch, 32),
or(mload(add(scratch, 32)), mul(len, 8))
)
}
// Expand the 16 32-bit words into 80
for {
let j := 64
} lt(j, 128) {
j := add(j, 12)
} {
let temp := xor(
xor(
mload(add(scratch, sub(j, 12))),
mload(add(scratch, sub(j, 32)))
),
xor(
mload(add(scratch, sub(j, 56))),
mload(add(scratch, sub(j, 64)))
)
)
temp := or(
and(
mul(temp, 2),
0xFFFFFFFEFFFFFFFEFFFFFFFEFFFFFFFEFFFFFFFEFFFFFFFEFFFFFFFEFFFFFFFE
),
and(
div(temp, 0x80000000),
0x0000000100000001000000010000000100000001000000010000000100000001
)
)
mstore(add(scratch, j), temp)
}
for {
let j := 128
} lt(j, 320) {
j := add(j, 24)
} {
let temp := xor(
xor(
mload(add(scratch, sub(j, 24))),
mload(add(scratch, sub(j, 64)))
),
xor(
mload(add(scratch, sub(j, 112))),
mload(add(scratch, sub(j, 128)))
)
)
temp := or(
and(
mul(temp, 4),
0xFFFFFFFCFFFFFFFCFFFFFFFCFFFFFFFCFFFFFFFCFFFFFFFCFFFFFFFCFFFFFFFC
),
and(
div(temp, 0x40000000),
0x0000000300000003000000030000000300000003000000030000000300000003
)
)
mstore(add(scratch, j), temp)
}
let x := h
let f := 0
let k := 0
for {
let j := 0
} lt(j, 80) {
j := add(j, 1)
} {
switch div(j, 20)
case 0 {
// f = d xor (b and (c xor d))
f := xor(
div(x, 0x100000000000000000000),
div(x, 0x10000000000)
)
f := and(div(x, 0x1000000000000000000000000000000), f)
f := xor(div(x, 0x10000000000), f)
k := 0x5A827999
}
case 1 {
// f = b xor c xor d
f := xor(
div(x, 0x1000000000000000000000000000000),
div(x, 0x100000000000000000000)
)
f := xor(div(x, 0x10000000000), f)
k := 0x6ED9EBA1
}
case 2 {
// f = (b and c) or (d and (b or c))
f := or(
div(x, 0x1000000000000000000000000000000),
div(x, 0x100000000000000000000)
)
f := and(div(x, 0x10000000000), f)
f := or(
and(
div(x, 0x1000000000000000000000000000000),
div(x, 0x100000000000000000000)
),
f
)
k := 0x8F1BBCDC
}
case 3 {
// f = b xor c xor d
f := xor(
div(x, 0x1000000000000000000000000000000),
div(x, 0x100000000000000000000)
)
f := xor(div(x, 0x10000000000), f)
k := 0xCA62C1D6
}
// temp = (a leftrotate 5) + f + e + k + w[i]
let temp := and(
div(
x,
0x80000000000000000000000000000000000000000000000
),
0x1F
)
temp := or(
and(
div(x, 0x800000000000000000000000000000000000000),
0xFFFFFFE0
),
temp
)
temp := add(f, temp)
temp := add(and(x, 0xFFFFFFFF), temp)
temp := add(k, temp)
temp := add(
div(
mload(add(scratch, mul(j, 4))),
0x100000000000000000000000000000000000000000000000000000000
),
temp
)
x := or(
div(x, 0x10000000000),
mul(temp, 0x10000000000000000000000000000000000000000)
)
x := or(
and(
x,
0xFFFFFFFF00FFFFFFFF000000000000FFFFFFFF00FFFFFFFF
),
mul(
or(
and(div(x, 0x4000000000000), 0xC0000000),
and(div(x, 0x400000000000000000000), 0x3FFFFFFF)
),
0x100000000000000000000
)
)
}
h := and(
add(h, x),
0xFFFFFFFF00FFFFFFFF00FFFFFFFF00FFFFFFFF00FFFFFFFF
)
}
ret := mul(
or(
or(
or(
or(
and(
div(h, 0x100000000),
0xFFFFFFFF00000000000000000000000000000000
),
and(
div(h, 0x1000000),
0xFFFFFFFF000000000000000000000000
)
),
and(div(h, 0x10000), 0xFFFFFFFF0000000000000000)
),
and(div(h, 0x100), 0xFFFFFFFF00000000)
),
and(h, 0xFFFFFFFF)
),
0x1000000000000000000000000
)
}
}
}
crates/integration/contracts/Value.sol
-9
View File
@@ -1,9 +0,0 @@
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.24;
contract Value {
function value() public payable returns (uint ret) {
ret = msg.value;
}
}
crates/integration/contracts/flipper.sol
-10
View File
@@ -1,10 +0,0 @@
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.24;
contract Flipper {
bool coin;
function flip() public {
coin = !coin;
}
}
crates/integration/contracts/mStore8.sol
-12
View File
@@ -1,12 +0,0 @@
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.24;
contract MStore8 {
function mStore8(uint value) public pure returns (uint256 word) {
assembly {
mstore8(0x80, value)
word := mload(0x80)
}
}
}
crates/integration/src/cases.rs
-119
View File
@@ -1,119 +0,0 @@
use alloy_primitives::U256;
use alloy_sol_types::{sol, SolCall};
#[derive(Clone)]
pub struct Contract {
pub evm_runtime: Vec<u8>,
pub pvm_runtime: Vec<u8>,
pub calldata: Vec<u8>,
}
sol!(contract Baseline { function baseline() public payable; });
sol!(contract Computation {
function odd_product(int32 n) public pure returns (int64);
function triangle_number(int64 n) public pure returns (int64 sum);
});
sol!(
contract FibonacciRecursive {
function fib3(uint n) public pure returns (uint);
}
);
sol!(
contract FibonacciIterative {
function fib3(uint n) external pure returns (uint b);
}
);
sol!(
contract FibonacciBinet {
function fib3(uint n) external pure returns (uint a);
}
);
sol!(
contract SHA1 {
function sha1(bytes memory data) public pure returns (bytes20 ret);
}
);
impl Contract {
pub fn baseline() -> Self {
let code = include_str!("../contracts/Baseline.sol");
let name = "Baseline";
Self {
evm_runtime: crate::compile_evm_bin_runtime(name, code),
pvm_runtime: crate::compile_blob(name, code),
calldata: Baseline::baselineCall::new(()).abi_encode(),
}
}
pub fn odd_product(n: i32) -> Self {
let code = include_str!("../contracts/Computation.sol");
let name = "Computation";
Self {
evm_runtime: crate::compile_evm_bin_runtime(name, code),
pvm_runtime: crate::compile_blob(name, code),
calldata: Computation::odd_productCall::new((n,)).abi_encode(),
}
}
pub fn triangle_number(n: i64) -> Self {
let code = include_str!("../contracts/Computation.sol");
let name = "Computation";
Self {
evm_runtime: crate::compile_evm_bin_runtime(name, code),
pvm_runtime: crate::compile_blob(name, code),
calldata: Computation::triangle_numberCall::new((n,)).abi_encode(),
}
}
pub fn fib_recursive(n: u32) -> Self {
let code = include_str!("../contracts/Fibonacci.sol");
let name = "FibonacciRecursive";
Self {
evm_runtime: crate::compile_evm_bin_runtime(name, code),
pvm_runtime: crate::compile_blob(name, code),
calldata: FibonacciRecursive::fib3Call::new((U256::from(n),)).abi_encode(),
}
}
pub fn fib_iterative(n: u32) -> Self {
let code = include_str!("../contracts/Fibonacci.sol");
let name = "FibonacciIterative";
Self {
evm_runtime: crate::compile_evm_bin_runtime(name, code),
pvm_runtime: crate::compile_blob(name, code),
calldata: FibonacciIterative::fib3Call::new((U256::from(n),)).abi_encode(),
}
}
pub fn fib_binet(n: u32) -> Self {
let code = include_str!("../contracts/Fibonacci.sol");
let name = "FibonacciBinet";
Self {
evm_runtime: crate::compile_evm_bin_runtime(name, code),
pvm_runtime: crate::compile_blob(name, code),
calldata: FibonacciBinet::fib3Call::new((U256::from(n),)).abi_encode(),
}
}
pub fn sha1(pre: Vec<u8>) -> Self {
let code = include_str!("../contracts/SHA1.sol");
let name = "SHA1";
Self {
evm_runtime: crate::compile_evm_bin_runtime(name, code),
pvm_runtime: crate::compile_blob(name, code),
calldata: SHA1::sha1Call::new((pre,)).abi_encode(),
}
}
}
crates/integration/src/lib.rs
-85
View File
@@ -1,85 +0,0 @@
use cases::Contract;
use mock_runtime::State;
pub mod cases;
pub mod mock_runtime;
#[cfg(test)]
mod tests;
/// Compile the blob of `contract_name` found in given `source_code`.
/// The `solc` optimizer will be enabled
pub fn compile_blob(contract_name: &str, source_code: &str) -> Vec<u8> {
compile_blob_with_options(
contract_name,
source_code,
true,
revive_solidity::SolcPipeline::Yul,
)
}
/// Compile the EVM bin-runtime of `contract_name` found in given `source_code`.
/// The `solc` optimizer will be enabled
pub fn compile_evm_bin_runtime(contract_name: &str, source_code: &str) -> Vec<u8> {
let file_name = "contract.sol";
let contracts = revive_solidity::test_utils::build_solidity_with_options_evm(
[(file_name.into(), source_code.into())].into(),
Default::default(),
None,
revive_solidity::SolcPipeline::Yul,
true,
)
.expect("source should compile");
let bin_runtime = &contracts
.get(contract_name)
.unwrap_or_else(|| panic!("contract '{}' didn't produce bin-runtime", contract_name))
.object;
hex::decode(bin_runtime).expect("bin-runtime shold be hex encoded")
}
/// Compile the blob of `contract_name` found in given `source_code`.
pub fn compile_blob_with_options(
contract_name: &str,
source_code: &str,
solc_optimizer_enabled: bool,
pipeline: revive_solidity::SolcPipeline,
) -> Vec<u8> {
let file_name = "contract.sol";
let contracts = revive_solidity::test_utils::build_solidity_with_options(
[(file_name.into(), source_code.into())].into(),
Default::default(),
None,
pipeline,
era_compiler_llvm_context::OptimizerSettings::cycles(),
solc_optimizer_enabled,
)
.expect("source should compile")
.contracts
.expect("source should contain at least one contract");
let bytecode = contracts[file_name][contract_name]
.evm
.as_ref()
.expect("source should produce EVM output")
.assembly_text
.as_ref()
.expect("source should produce assembly text");
hex::decode(bytecode).expect("hex encoding should always be valid")
}
pub fn assert_success(contract: Contract, differential: bool) -> State {
let (mut instance, export) = mock_runtime::prepare(&contract.pvm_runtime, None);
let state = mock_runtime::call(State::new(contract.calldata.clone()), &mut instance, export);
assert_eq!(state.output.flags, 0);
if differential {
let evm = revive_differential::prepare(contract.evm_runtime, contract.calldata);
assert_eq!(state.output.data.clone(), revive_differential::execute(evm));
}
state
}
crates/integration/src/mock_runtime.rs
-256
View File
@@ -1,256 +0,0 @@
//! Mock environment used for integration tests.
//! TODO: Switch to drink! once RISCV is ready in polkadot-sdk
use std::collections::HashMap;
use alloy_primitives::{Keccak256, U256};
use polkavm::{
Caller, Config, Engine, ExportIndex, GasMeteringKind, Instance, Linker, Module, ModuleConfig,
ProgramBlob, Trap,
};
#[derive(Default, Clone, Debug)]
pub struct State {
pub input: Vec<u8>,
pub output: CallOutput,
pub value: u128,
pub storage: HashMap<U256, U256>,
}
#[derive(Clone, Debug)]
pub struct CallOutput {
pub flags: u32,
pub data: Vec<u8>,
}
impl Default for CallOutput {
fn default() -> Self {
Self {
flags: u32::MAX,
data: Vec::new(),
}
}
}
impl State {
pub fn new(input: Vec<u8>) -> Self {
Self {
input,
..Default::default()
}
}
pub fn reset_output(&mut self) {
self.output = Default::default();
}
pub fn assert_storage_key(&self, at: U256, expect: U256) {
assert_eq!(self.storage[&at], expect);
}
}
fn link_host_functions(engine: &Engine) -> Linker<State> {
let mut linker = Linker::new(engine);
linker
.func_wrap(
"input",
|caller: Caller<State>, out_ptr: u32, out_len_ptr: u32| -> Result<(), Trap> {
let (mut caller, state) = caller.split();
assert!(state.input.len() <= caller.read_u32(out_len_ptr).unwrap() as usize);
caller.write_memory(out_ptr, &state.input)?;
caller.write_memory(out_len_ptr, &(state.input.len() as u32).to_le_bytes())?;
Ok(())
},
)
.unwrap();
linker
.func_wrap(
"seal_return",
|caller: Caller<State>, flags: u32, data_ptr: u32, data_len: u32| -> Result<(), Trap> {
let (caller, state) = caller.split();
state.output.flags = flags;
state.output.data = caller.read_memory_into_vec(data_ptr, data_len)?;
Err(Default::default())
},
)
.unwrap();
linker
.func_wrap(
"value_transferred",
|caller: Caller<State>, out_ptr: u32, out_len_ptr: u32| -> Result<(), Trap> {
let (mut caller, state) = caller.split();
let value = state.value.to_le_bytes();
caller.write_memory(out_ptr, &value)?;
caller.write_memory(out_len_ptr, &(value.len() as u32).to_le_bytes())?;
Ok(())
},
)
.unwrap();
linker
.func_wrap(
"debug_message",
|caller: Caller<State>, str_ptr: u32, str_len: u32| -> Result<u32, Trap> {
let (caller, _) = caller.split();
let data = caller.read_memory_into_vec(str_ptr, str_len)?;
print!("debug_message: {}", String::from_utf8(data).unwrap());
Ok(0)
},
)
.unwrap();
linker
.func_wrap(
"set_storage",
|caller: Caller<State>,
key_ptr: u32,
key_len: u32,
value_ptr: u32,
value_len: u32|
-> Result<u32, Trap> {
let (caller, state) = caller.split();
assert_eq!(key_len, 32, "storage key must be 32 bytes");
assert_eq!(value_len, 32, "storage value must be 32 bytes");
let key = caller.read_memory_into_vec(key_ptr, key_len)?;
let value = caller.read_memory_into_vec(value_ptr, value_len)?;
state.storage.insert(
U256::from_be_bytes::<32>(key.try_into().unwrap()),
U256::from_be_bytes::<32>(value.try_into().unwrap()),
);
Ok(0)
},
)
.unwrap();
linker
.func_wrap(
"get_storage",
|caller: Caller<State>,
key_ptr: u32,
key_len: u32,
out_ptr: u32,
out_len_ptr: u32|
-> Result<u32, Trap> {
let (mut caller, state) = caller.split();
let key = caller.read_memory_into_vec(key_ptr, key_len)?;
let out_len = caller.read_u32(out_len_ptr)?;
assert!(out_len >= 32);
let value = state
.storage
.get(&U256::from_be_bytes::<32>(key.try_into().unwrap()))
.map(U256::to_be_bytes::<32>)
.unwrap_or_default();
caller.write_memory(out_ptr, &value[..])?;
caller.write_memory(out_len_ptr, &32u32.to_le_bytes())?;
Ok(0)
},
)
.unwrap();
linker
.func_wrap(
"hash_keccak_256",
|caller: Caller<State>,
input_ptr: u32,
input_len: u32,
out_ptr: u32|
-> Result<(), Trap> {
let (mut caller, _) = caller.split();
let pre = caller.read_memory_into_vec(input_ptr, input_len)?;
let mut hasher = Keccak256::new();
hasher.update(&pre);
caller.write_memory(out_ptr, &hasher.finalize()[..])?;
Ok(())
},
)
.unwrap();
linker
}
pub fn setup(config: Option<Config>) -> Engine {
Engine::new(&config.unwrap_or_default()).unwrap()
}
pub fn recompile_code(code: &[u8], engine: &Engine) -> Module {
let mut module_config = ModuleConfig::new();
module_config.set_gas_metering(Some(GasMeteringKind::Sync));
Module::new(engine, &module_config, code).unwrap()
}
pub fn instantiate_module(module: &Module, engine: &Engine) -> (Instance<State>, ExportIndex) {
let export = module.lookup_export("call").unwrap();
let func = link_host_functions(engine).instantiate_pre(module).unwrap();
let instance = func.instantiate().unwrap();
(instance, export)
}
pub fn prepare(code: &[u8], config: Option<Config>) -> (Instance<State>, ExportIndex) {
let blob = ProgramBlob::parse(code).unwrap();
let engine = Engine::new(&config.unwrap_or_default()).unwrap();
let mut module_config = ModuleConfig::new();
module_config.set_gas_metering(Some(GasMeteringKind::Sync));
let module = Module::from_blob(&engine, &module_config, &blob).unwrap();
let export = module.lookup_export("call").unwrap();
let func = link_host_functions(&engine)
.instantiate_pre(&module)
.unwrap();
let instance = func.instantiate().unwrap();
(instance, export)
}
pub fn call(mut state: State, on: &mut Instance<State>, export: ExportIndex) -> State {
state.reset_output();
let mut state_args = polkavm::StateArgs::default();
state_args.set_gas(polkavm::Gas::MAX);
let call_args = polkavm::CallArgs::new(&mut state, export);
init_logs();
match on.call(state_args, call_args) {
Err(polkavm::ExecutionError::Trap(_)) => state,
Err(other) => panic!("unexpected error: {other}"),
Ok(_) => panic!("unexpected return"),
}
}
fn init_logs() {
if std::env::var("RUST_LOG").is_ok() {
#[cfg(test)]
let test = true;
#[cfg(not(test))]
let test = false;
let _ = env_logger::builder().is_test(test).try_init();
}
}
crates/integration/src/tests.rs
-267
View File
@@ -1,267 +0,0 @@
use alloy_primitives::{FixedBytes, Keccak256, I256, U256};
use alloy_sol_types::{sol, SolCall};
use sha1::Digest;
use crate::{
assert_success,
cases::Contract,
mock_runtime::{self, State},
};
#[test]
fn fibonacci() {
let parameter = 6;
for contract in [
Contract::fib_recursive(parameter),
Contract::fib_iterative(parameter),
Contract::fib_binet(parameter),
] {
let state = assert_success(contract, true);
let received = U256::from_be_bytes::<32>(state.output.data.try_into().unwrap());
let expected = U256::from(8);
assert_eq!(received, expected);
}
}
#[test]
fn flipper() {
let code = crate::compile_blob("Flipper", include_str!("../contracts/flipper.sol"));
let state = State::new(0xcde4efa9u32.to_be_bytes().to_vec());
let (mut instance, export) = mock_runtime::prepare(&code, None);
let state = crate::mock_runtime::call(state, &mut instance, export);
assert_eq!(state.output.flags, 0);
assert_eq!(state.storage[&U256::ZERO], U256::try_from(1).unwrap());
let state = crate::mock_runtime::call(state, &mut instance, export);
assert_eq!(state.output.flags, 0);
assert_eq!(state.storage[&U256::ZERO], U256::ZERO);
}
#[test]
fn hash_keccak_256() {
sol!(
#[derive(Debug, PartialEq, Eq)]
contract TestSha3 {
function test(string memory _pre) external payable returns (bytes32);
}
);
let source = r#"contract TestSha3 {
function test(string memory _pre) external payable returns (bytes32 hash) {
hash = keccak256(bytes(_pre));
}
}"#;
let code = crate::compile_blob("TestSha3", source);
let param = "hello";
let input = TestSha3::testCall::new((param.to_string(),)).abi_encode();
let state = State::new(input);
let (mut instance, export) = mock_runtime::prepare(&code, None);
let state = crate::mock_runtime::call(state, &mut instance, export);
assert_eq!(state.output.flags, 0);
let mut hasher = Keccak256::new();
hasher.update(param);
let expected = hasher.finalize();
let received = FixedBytes::<32>::from_slice(&state.output.data);
assert_eq!(received, expected);
}
#[test]
fn erc20() {
let _ = crate::compile_blob("ERC20", include_str!("../contracts/ERC20.sol"));
}
#[test]
fn triangle_number() {
let state = assert_success(Contract::triangle_number(13), true);
let received = U256::from_be_bytes::<32>(state.output.data.try_into().unwrap());
let expected = U256::try_from(91).unwrap();
assert_eq!(received, expected);
}
#[test]
fn odd_product() {
let state = assert_success(Contract::odd_product(5), true);
let received = I256::from_be_bytes::<32>(state.output.data.try_into().unwrap());
let expected = I256::try_from(945i64).unwrap();
assert_eq!(received, expected);
}
#[test]
fn msize_plain() {
sol!(
#[derive(Debug, PartialEq, Eq)]
contract MSize {
function mSize() public pure returns (uint);
}
);
let code = crate::compile_blob_with_options(
"MSize",
include_str!("../contracts/MSize.sol"),
false,
revive_solidity::SolcPipeline::EVMLA,
);
let (mut instance, export) = mock_runtime::prepare(&code, None);
let input = MSize::mSizeCall::new(()).abi_encode();
let state = crate::mock_runtime::call(State::new(input), &mut instance, export);
assert_eq!(state.output.flags, 0);
// Solidity always stores the "free memory pointer" (32 byte int) at offset 64.
let expected = U256::try_from(64 + 32).unwrap();
let received = U256::from_be_bytes::<32>(state.output.data.try_into().unwrap());
assert_eq!(received, expected);
}
#[test]
fn transferred_value() {
sol!(
contract Value {
function value() public payable returns (uint);
}
);
let code = crate::compile_blob("Value", include_str!("../contracts/Value.sol"));
let mut state = State::new(Value::valueCall::SELECTOR.to_vec());
state.value = 0x1;
let (mut instance, export) = mock_runtime::prepare(&code, None);
let state = crate::mock_runtime::call(state, &mut instance, export);
assert_eq!(state.output.flags, 0);
let expected = I256::try_from(state.value).unwrap();
let received = I256::from_be_bytes::<32>(state.output.data.try_into().unwrap());
assert_eq!(received, expected);
}
#[test]
fn msize_non_word_sized_access() {
sol!(
#[derive(Debug, PartialEq, Eq)]
contract MSize {
function mStore100() public pure returns (uint);
}
);
let code = crate::compile_blob_with_options(
"MSize",
include_str!("../contracts/MSize.sol"),
false,
revive_solidity::SolcPipeline::Yul,
);
let (mut instance, export) = mock_runtime::prepare(&code, None);
let input = MSize::mStore100Call::new(()).abi_encode();
let state = crate::mock_runtime::call(State::new(input), &mut instance, export);
assert_eq!(state.output.flags, 0);
// https://docs.zksync.io/build/developer-reference/differences-with-ethereum.html#mstore-mload
// "Unlike EVM, where the memory growth is in words, on zkEVM the memory growth is counted in bytes."
// "For example, if you write mstore(100, 0) the msize on zkEVM will be 132, but on the EVM it will be 160."
let expected = U256::try_from(132).unwrap();
let received = U256::from_be_bytes::<32>(state.output.data.try_into().unwrap());
assert_eq!(received, expected);
}
#[test]
fn mstore8() {
sol!(
#[derive(Debug, PartialEq, Eq)]
contract MStore8 {
function mStore8(uint value) public pure returns (uint256 word);
}
);
let code = crate::compile_blob("MStore8", include_str!("../contracts/mStore8.sol"));
let (mut instance, export) = mock_runtime::prepare(&code, None);
let mut assert = |parameter, expected| {
let input = MStore8::mStore8Call::new((parameter,)).abi_encode();
let state = crate::mock_runtime::call(State::new(input), &mut instance, export);
assert_eq!(state.output.flags, 0);
let received = U256::from_be_bytes::<32>(state.output.data.try_into().unwrap());
assert_eq!(received, expected);
};
for (parameter, expected) in [
(U256::MIN, U256::MIN),
(
U256::from(1),
U256::from_str_radix(
"452312848583266388373324160190187140051835877600158453279131187530910662656",
10,
)
.unwrap(),
),
(
U256::from(2),
U256::from_str_radix(
"904625697166532776746648320380374280103671755200316906558262375061821325312",
10,
)
.unwrap(),
),
(
U256::from(255),
U256::from_str_radix(
"115339776388732929035197660848497720713218148788040405586178452820382218977280",
10,
)
.unwrap(),
),
(U256::from(256), U256::from(0)),
(
U256::from(257),
U256::from_str_radix(
"452312848583266388373324160190187140051835877600158453279131187530910662656",
10,
)
.unwrap(),
),
(
U256::from(258),
U256::from_str_radix(
"904625697166532776746648320380374280103671755200316906558262375061821325312",
10,
)
.unwrap(),
),
(
U256::from(123456789),
U256::from_str_radix(
"9498569820248594155839807363993929941088553429603327518861754938149123915776",
10,
)
.unwrap(),
),
(
U256::MAX,
U256::from_str_radix(
"115339776388732929035197660848497720713218148788040405586178452820382218977280",
10,
)
.unwrap(),
),
] {
assert(parameter, expected);
}
}
#[test]
fn sha1() {
let pre = vec![0xffu8; 512];
let mut hasher = sha1::Sha1::new();
hasher.update(&pre);
let hash = hasher.finalize();
let state = assert_success(Contract::sha1(pre), true);
let expected = FixedBytes::<20>::from_slice(&hash[..]);
let received = FixedBytes::<20>::from_slice(&state.output.data[..20]);
assert_eq!(received, expected);
}
crates/linker/Cargo.toml
-17
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@@ -1,17 +0,0 @@
[package]
name = "revive-linker"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
inkwell = { workspace = true }
tempfile = { workspace = true }
polkavm-linker = { workspace = true }
polkavm-common = { workspace = true }
libc = { workspace = true }
anyhow = { workspace = true }
revive-builtins = { path = "../builtins" }
lld-sys = { path = "../lld-sys" }
crates/linker/src/lib.rs
-78
View File
@@ -1,78 +0,0 @@
use std::{env, ffi::CString, fs};
use lld_sys::LLDELFLink;
use revive_builtins::COMPILER_RT;
const LINKER_SCRIPT: &str = r#"
SECTIONS {
.text : { KEEP(*(.text.polkavm_export)) *(.text .text.*) }
}"#;
fn invoke_lld(cmd_args: &[&str]) -> bool {
let c_strings = cmd_args
.iter()
.map(|arg| CString::new(*arg).expect("ld.lld args should not contain null bytes"))
.collect::<Vec<_>>();
let args: Vec<*const libc::c_char> = c_strings.iter().map(|arg| arg.as_ptr()).collect();
unsafe { LLDELFLink(args.as_ptr(), args.len()) == 0 }
}
fn polkavm_linker<T: AsRef<[u8]>>(code: T) -> anyhow::Result<Vec<u8>> {
let mut config = polkavm_linker::Config::default();
config.set_strip(true);
polkavm_linker::program_from_elf(config, code.as_ref())
.map(|blob| blob.as_bytes().to_vec())
.map_err(|reason| anyhow::anyhow!("polkavm linker failed: {}", reason))
}
pub fn link<T: AsRef<[u8]>>(input: T) -> anyhow::Result<Vec<u8>> {
let dir = tempfile::tempdir().expect("failed to create temp directory for linking");
let output_path = dir.path().join("out.so");
let object_path = dir.path().join("out.o");
let linker_script_path = dir.path().join("linker.ld");
let compiler_rt_path = dir.path().join("libclang_rt.builtins-riscv32.a");
fs::write(&object_path, input).map_err(|msg| anyhow::anyhow!("{msg} {object_path:?}"))?;
if env::var("PVM_LINKER_DUMP_OBJ").is_ok() {
fs::copy(&object_path, "/tmp/out.o")?;
}
fs::write(&linker_script_path, LINKER_SCRIPT)
.map_err(|msg| anyhow::anyhow!("{msg} {linker_script_path:?}"))?;
fs::write(&compiler_rt_path, COMPILER_RT)
.map_err(|msg| anyhow::anyhow!("{msg} {compiler_rt_path:?}"))?;
let ld_args = [
"ld.lld",
"--lto=full",
"--error-limit=0",
"--relocatable",
"--emit-relocs",
"--no-relax",
"--gc-sections",
"--library-path",
dir.path().to_str().expect("should be utf8"),
"--library",
"clang_rt.builtins-riscv32",
linker_script_path.to_str().expect("should be utf8"),
object_path.to_str().expect("should be utf8"),
"-o",
output_path.to_str().expect("should be utf8"),
];
if invoke_lld(&ld_args) {
return Err(anyhow::anyhow!("ld.lld failed"));
}
if env::var("PVM_LINKER_DUMP_SO").is_ok() {
fs::copy(&output_path, "/tmp/out.so")?;
};
let blob = fs::read(&output_path)?;
polkavm_linker(blob)
}
crates/lld-sys/Cargo.toml
-14
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@@ -1,14 +0,0 @@
[package]
name = "lld-sys"
version = "0.1.0"
edition = "2021"
build = "build.rs"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
libc = { workspace = true }
[build-dependencies]
cc = { workspace = true }
crates/lld-sys/build.rs
-45
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@@ -1,45 +0,0 @@
fn llvm_config(arg: &str) -> String {
let output = std::process::Command::new("llvm-config")
.args([arg])
.output()
.unwrap_or_else(|_| panic!("`llvm-config {arg}` failed"));
String::from_utf8(output.stdout)
.unwrap_or_else(|_| panic!("output of `llvm-config {arg}` should be utf8"))
}
fn set_rustc_link_flags() {
println!("cargo:rustc-link-search=native={}", llvm_config("--libdir"));
for lib in [
"lldELF",
"lldCommon",
"lldMachO",
"LLVMSupport",
"LLVMLinker",
"LLVMCore",
"LLVMLTO",
"LLVMTargetParser",
"LLVMBinaryFormat",
"LLVMDemangle",
] {
println!("cargo:rustc-link-lib=static={lib}");
}
#[cfg(target_os = "linux")]
println!("cargo:rustc-link-lib=dylib=stdc++");
}
fn main() {
llvm_config("--cxxflags")
.split_whitespace()
.fold(&mut cc::Build::new(), |builder, flag| builder.flag(flag))
.flag("-Wno-unused-parameter")
.cpp(true)
.file("src/linker.cpp")
.compile("liblinker.a");
set_rustc_link_flags();
println!("cargo:rerun-if-changed=build.rs");
}
crates/lld-sys/src/lib.rs
-3
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@@ -1,3 +0,0 @@
extern "C" {
pub fn LLDELFLink(args: *const *const libc::c_char, size: libc::size_t) -> libc::c_int;
}
crates/lld-sys/src/linker.cpp
-22
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@@ -1,22 +0,0 @@
#include "lld/Common/Driver.h"
#include "lld/Common/CommonLinkerContext.h"
#include "llvm/Support/CrashRecoveryContext.h"
LLD_HAS_DRIVER(elf);
extern "C" bool LLDELFLink(const char *argv[], size_t length)
{
bool canRunAgain;
{
llvm::ArrayRef<const char *> args(argv, length);
llvm::CrashRecoveryContext crc;
if (!crc.RunSafely([&]()
{ canRunAgain = lld::elf::link(args, llvm::outs(), llvm::errs(), false, false); }))
return false;
}
llvm::CrashRecoveryContext crc;
return canRunAgain && crc.RunSafely([&]()
{ lld::CommonLinkerContext::destroy(); });
}
crates/llvm-context/Cargo.toml
-36
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@@ -1,36 +0,0 @@
[package]
name = "era-compiler-llvm-context"
version = "1.4.1"
authors = [
"Oleksandr Zarudnyi <a.zarudnyy@matterlabs.dev>",
"Cyrill Leutwiler <cyrill@parity.io>",
]
license = "MIT OR Apache-2.0"
edition = "2021"
description = "Shared front end code of the EraVM compilers"
[lib]
doctest = false
[dependencies]
anyhow = { workspace = true }
semver = { workspace = true }
itertools = { workspace = true }
serde = { workspace = true, features = ["derive"] }
regex = { workspace = true }
once_cell = { workspace = true }
num = { workspace = true }
hex = { workspace = true }
sha2 = { workspace = true }
sha3 = { workspace = true }
md5 = { workspace = true }
inkwell = { workspace = true }
zkevm_opcode_defs = { git = "https://github.com/matter-labs/era-zkevm_opcode_defs", branch = "v1.4.1" }
revive-common = { path = "../common" }
pallet-contracts-pvm-llapi = { path = "../pallet-contracts-pvm-llapi" }
revive-linker = { path = "../linker" }
revive-builtins = { path = "../builtins" }
revive-stdlib = { path = "../stdlib" }
revive-extensions = { path = "../extensions" }
crates/llvm-context/src/debug_config/ir_type.rs
-40
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@@ -1,40 +0,0 @@
//!
//! The debug IR type.
//!
///
/// The debug IR type.
///
#[allow(non_camel_case_types)]
#[allow(clippy::upper_case_acronyms)]
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub enum IRType {
/// Whether to dump the Yul code.
Yul,
/// Whether to dump the EVM legacy assembly code.
EVMLA,
/// Whether to dump the Ethereal IR code.
EthIR,
/// Whether to dump the Vyper LLL IR code.
LLL,
/// Whether to dump the LLVM IR code.
LLVM,
/// Whether to dump the assembly code.
Assembly,
}
impl IRType {
///
/// Returns the file extension for the specified IR.
///
pub fn file_extension(&self) -> &'static str {
match self {
Self::Yul => revive_common::EXTENSION_YUL,
Self::EthIR => revive_common::EXTENSION_ETHIR,
Self::EVMLA => revive_common::EXTENSION_EVMLA,
Self::LLL => revive_common::EXTENSION_LLL,
Self::LLVM => revive_common::EXTENSION_LLVM_SOURCE,
Self::Assembly => revive_common::EXTENSION_ERAVM_ASSEMBLY,
}
}
}
crates/llvm-context/src/debug_config/mod.rs
-140
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@@ -1,140 +0,0 @@
//!
//! The debug configuration.
//!
pub mod ir_type;
use std::path::PathBuf;
use serde::Deserialize;
use serde::Serialize;
use self::ir_type::IRType;
///
/// The debug configuration.
///
#[derive(Debug, Default, Serialize, Deserialize, Clone)]
pub struct DebugConfig {
/// The directory to dump the IRs to.
pub output_directory: PathBuf,
}
impl DebugConfig {
///
/// A shortcut constructor.
///
pub fn new(output_directory: PathBuf) -> Self {
Self { output_directory }
}
///
/// Dumps the Yul IR.
///
pub fn dump_yul(&self, contract_path: &str, code: &str) -> anyhow::Result<()> {
let mut file_path = self.output_directory.to_owned();
let full_file_name = Self::full_file_name(contract_path, None, IRType::Yul);
file_path.push(full_file_name);
std::fs::write(file_path, code)?;
Ok(())
}
///
/// Dumps the EVM legacy assembly IR.
///
pub fn dump_evmla(&self, contract_path: &str, code: &str) -> anyhow::Result<()> {
let mut file_path = self.output_directory.to_owned();
let full_file_name = Self::full_file_name(contract_path, None, IRType::EVMLA);
file_path.push(full_file_name);
std::fs::write(file_path, code)?;
Ok(())
}
///
/// Dumps the Ethereal IR.
///
pub fn dump_ethir(&self, contract_path: &str, code: &str) -> anyhow::Result<()> {
let mut file_path = self.output_directory.to_owned();
let full_file_name = Self::full_file_name(contract_path, None, IRType::EthIR);
file_path.push(full_file_name);
std::fs::write(file_path, code)?;
Ok(())
}
///
/// Dumps the LLL IR.
///
pub fn dump_lll(&self, contract_path: &str, code: &str) -> anyhow::Result<()> {
let mut file_path = self.output_directory.to_owned();
let full_file_name = Self::full_file_name(contract_path, None, IRType::LLL);
file_path.push(full_file_name);
std::fs::write(file_path, code)?;
Ok(())
}
///
/// Dumps the unoptimized LLVM IR.
///
pub fn dump_llvm_ir_unoptimized(
&self,
contract_path: &str,
module: &inkwell::module::Module,
) -> anyhow::Result<()> {
let llvm_code = module.print_to_string().to_string();
let mut file_path = self.output_directory.to_owned();
let full_file_name = Self::full_file_name(contract_path, Some("unoptimized"), IRType::LLVM);
file_path.push(full_file_name);
std::fs::write(file_path, llvm_code)?;
Ok(())
}
///
/// Dumps the optimized LLVM IR.
///
pub fn dump_llvm_ir_optimized(
&self,
contract_path: &str,
module: &inkwell::module::Module,
) -> anyhow::Result<()> {
let llvm_code = module.print_to_string().to_string();
let mut file_path = self.output_directory.to_owned();
let full_file_name = Self::full_file_name(contract_path, Some("optimized"), IRType::LLVM);
file_path.push(full_file_name);
std::fs::write(file_path, llvm_code)?;
Ok(())
}
///
/// Dumps the assembly.
///
pub fn dump_assembly(&self, contract_path: &str, code: &str) -> anyhow::Result<()> {
let mut file_path = self.output_directory.to_owned();
let full_file_name = Self::full_file_name(contract_path, None, IRType::Assembly);
file_path.push(full_file_name);
std::fs::write(file_path, code)?;
Ok(())
}
///
/// Creates a full file name, given the contract full path, suffix, and extension.
///
fn full_file_name(contract_path: &str, suffix: Option<&str>, ir_type: IRType) -> String {
let mut full_file_name = contract_path.replace('/', "_").replace(':', ".");
if let Some(suffix) = suffix {
full_file_name.push('.');
full_file_name.push_str(suffix);
}
full_file_name.push('.');
full_file_name.push_str(ir_type.file_extension());
full_file_name
}
}
crates/llvm-context/src/eravm/const.rs
-75
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@@ -1,75 +0,0 @@
//!
//! The LLVM context constants.
//!
/// The LLVM framework version.
pub const LLVM_VERSION: semver::Version = semver::Version::new(18, 1, 4);
/// The EraVM version.
pub const ZKEVM_VERSION: semver::Version = semver::Version::new(1, 3, 2);
/// The register width sized type
pub static XLEN: usize = revive_common::BIT_LENGTH_X32;
/// The heap memory pointer pointer global variable name.
pub static GLOBAL_HEAP_MEMORY_POINTER: &str = "memory_pointer";
/// The calldata pointer global variable name.
pub static GLOBAL_CALLDATA_POINTER: &str = "ptr_calldata";
/// The calldata size global variable name.
pub static GLOBAL_CALLDATA_SIZE: &str = "calldatasize";
/// The return data pointer global variable name.
pub static GLOBAL_RETURN_DATA_POINTER: &str = "ptr_return_data";
/// The return data size pointer global variable name.
pub static GLOBAL_RETURN_DATA_SIZE: &str = "returndatasize";
/// The call flags global variable name.
pub static GLOBAL_CALL_FLAGS: &str = "call_flags";
/// The extra ABI data global variable name.
pub static GLOBAL_EXTRA_ABI_DATA: &str = "extra_abi_data";
/// The active pointer global variable name.
pub static GLOBAL_ACTIVE_POINTER: &str = "ptr_active";
/// The constant array global variable name prefix.
pub static GLOBAL_CONST_ARRAY_PREFIX: &str = "const_array_";
/// The global verbatim getter identifier prefix.
pub static GLOBAL_VERBATIM_GETTER_PREFIX: &str = "get_global::";
/// The external call data offset in the auxiliary heap.
pub const HEAP_AUX_OFFSET_EXTERNAL_CALL: u64 = 0;
/// The constructor return data offset in the auxiliary heap.
pub const HEAP_AUX_OFFSET_CONSTRUCTOR_RETURN_DATA: u64 =
8 * (revive_common::BYTE_LENGTH_FIELD as u64);
/// The number of the extra ABI data arguments.
pub const EXTRA_ABI_DATA_SIZE: usize = 0;
/// The `create` method deployer signature.
pub static DEPLOYER_SIGNATURE_CREATE: &str = "create(bytes32,bytes32,bytes)";
/// The `create2` method deployer signature.
pub static DEPLOYER_SIGNATURE_CREATE2: &str = "create2(bytes32,bytes32,bytes)";
/// The absence of system call bit.
pub const NO_SYSTEM_CALL_BIT: bool = false;
/// The system call bit.
pub const SYSTEM_CALL_BIT: bool = true;
///
/// The deployer call header size that consists of:
/// - selector (4 bytes)
/// - salt (32 bytes)
/// - bytecode hash (32 bytes)
/// - constructor arguments offset (32 bytes)
/// - constructor arguments length (32 bytes)
///
pub const DEPLOYER_CALL_HEADER_SIZE: usize =
revive_common::BYTE_LENGTH_X32 + (revive_common::BYTE_LENGTH_FIELD * 4);
crates/llvm-context/src/eravm/context/address_space.rs
-39
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@@ -1,39 +0,0 @@
//!
//! The address space aliases.
//!
///
/// The address space aliases.
///
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub enum AddressSpace {
/// The stack memory.
#[default]
Stack,
/// The heap memory.
Heap,
/// The auxiliary heap memory.
HeapAuxiliary,
/// The generic memory page.
Generic,
/// The code area.
Code,
/// The storage.
Storage,
/// The transient storage.
TransientStorage,
}
impl From<AddressSpace> for inkwell::AddressSpace {
fn from(value: AddressSpace) -> Self {
match value {
AddressSpace::Stack => Self::from(0),
AddressSpace::Heap => Self::from(1),
AddressSpace::HeapAuxiliary => Self::from(2),
AddressSpace::Generic => Self::from(3),
AddressSpace::Code => Self::from(4),
AddressSpace::Storage => Self::from(5),
AddressSpace::TransientStorage => Self::from(6),
}
}
}
crates/llvm-context/src/eravm/context/argument.rs
-76
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@@ -1,76 +0,0 @@
//!
//! The LLVM argument with metadata.
//!
///
/// The LLVM argument with metadata.
///
#[derive(Debug, Clone)]
pub struct Argument<'ctx> {
/// The actual LLVM operand.
pub value: inkwell::values::BasicValueEnum<'ctx>,
/// The original AST value. Used mostly for string literals.
pub original: Option<String>,
/// The preserved constant value, if available.
pub constant: Option<num::BigUint>,
}
impl<'ctx> Argument<'ctx> {
/// The calldata offset argument index.
pub const ARGUMENT_INDEX_CALLDATA_OFFSET: usize = 0;
/// The calldata length argument index.
pub const ARGUMENT_INDEX_CALLDATA_LENGTH: usize = 1;
///
/// A shortcut constructor.
///
pub fn new(value: inkwell::values::BasicValueEnum<'ctx>) -> Self {
Self {
value,
original: None,
constant: None,
}
}
///
/// A shortcut constructor.
///
pub fn new_with_original(
value: inkwell::values::BasicValueEnum<'ctx>,
original: String,
) -> Self {
Self {
value,
original: Some(original),
constant: None,
}
}
///
/// A shortcut constructor.
///
pub fn new_with_constant(
value: inkwell::values::BasicValueEnum<'ctx>,
constant: num::BigUint,
) -> Self {
Self {
value,
original: None,
constant: Some(constant),
}
}
///
/// Returns the inner LLVM value.
///
pub fn to_llvm(&self) -> inkwell::values::BasicValueEnum<'ctx> {
self.value
}
}
impl<'ctx> From<inkwell::values::BasicValueEnum<'ctx>> for Argument<'ctx> {
fn from(value: inkwell::values::BasicValueEnum<'ctx>) -> Self {
Self::new(value)
}
}
crates/llvm-context/src/eravm/context/attribute.rs
-132
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@@ -1,132 +0,0 @@
//! The LLVM attribute.
use serde::Deserialize;
use serde::Serialize;
/// The LLVM attribute.
///
/// In order to check the real order in a new major version of LLVM, find the `Attributes.inc` file
/// inside of the LLVM build directory. This order is actually generated during the building.
///
/// FIXME: Generate this in build.rs?
#[derive(Debug, Serialize, Deserialize, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub enum Attribute {
Unused = 0,
AllocAlign = 1,
AllocatedPointer = 2,
AlwaysInline = 3,
Builtin = 4,
Cold = 5,
Convergent = 6,
CoroDestroyOnlyWhenComplete = 7,
DeadOnUnwind = 8,
DisableSanitizerInstrumentation = 9,
FnRetThunkExtern = 10,
Hot = 11,
ImmArg = 12,
InReg = 13,
InlineHint = 14,
JumpTable = 15,
MinSize = 16,
MustProgress = 17,
Naked = 18,
Nest = 19,
NoAlias = 20,
NoBuiltin = 21,
NoCallback = 22,
NoCapture = 23,
NoCfCheck = 24,
NoDuplicate = 25,
NoFree = 26,
NoImplicitFloat = 27,
NoInline = 28,
NoMerge = 29,
NoProfile = 30,
NoRecurse = 31,
NoRedZone = 32,
NoReturn = 33,
NoSanitizeBounds = 34,
NoSanitizeCoverage = 35,
NoSync = 36,
NoUndef = 37,
NoUnwind = 38,
NonLazyBind = 39,
NonNull = 40,
NullPointerIsValid = 41,
OptForFuzzing = 42,
OptimizeForDebugging = 43,
OptimizeForSize = 44,
OptimizeNone = 45,
PresplitCoroutine = 46,
ReadNone = 47,
ReadOnly = 48,
Returned = 49,
ReturnsTwice = 50,
SExt = 51,
SafeStack = 52,
SanitizeAddress = 53,
SanitizeHWAddress = 54,
SanitizeMemTag = 55,
SanitizeMemory = 56,
SanitizeThread = 57,
ShadowCallStack = 58,
SkipProfile = 59,
Speculatable = 60,
SpeculativeLoadHardening = 61,
StackProtect = 62,
StackProtectReq = 63,
StackProtectStrong = 64,
StrictFP = 65,
SwiftAsync = 66,
SwiftError = 67,
SwiftSelf = 68,
WillReturn = 69,
Writable = 70,
WriteOnly = 71,
ZExt = 72,
//LastEnumAttr = 72,
// FirstTypeAttr = 73,
ByRef = 73,
ByVal = 74,
ElementType = 75,
InAlloca = 76,
Preallocated = 77,
StructRet = 78,
// LastTypeAttr = 78,
// FirstIntAttr = 79,
Alignment = 79,
AllocKind = 80,
AllocSize = 81,
Dereferenceable = 82,
DereferenceableOrNull = 83,
Memory = 84,
NoFPClass = 85,
StackAlignment = 86,
UWTable = 87,
VScaleRange = 88,
// LastIntAttr = 88,
}
impl TryFrom<&str> for Attribute {
type Error = String;
fn try_from(value: &str) -> Result<Self, Self::Error> {
match value {
"AlwaysInline" => Ok(Attribute::AlwaysInline),
"Cold" => Ok(Attribute::Cold),
"Hot" => Ok(Attribute::Hot),
"MinSize" => Ok(Attribute::MinSize),
"OptimizeForSize" => Ok(Attribute::OptimizeForSize),
"NoInline" => Ok(Attribute::NoInline),
"WillReturn" => Ok(Attribute::WillReturn),
"WriteOnly" => Ok(Attribute::WriteOnly),
"ReadNone" => Ok(Attribute::ReadNone),
"ReadOnly" => Ok(Attribute::ReadOnly),
"NoReturn" => Ok(Attribute::NoReturn),
// FIXME: Not in Attributes.inc
//"InaccessibleMemOnly" => Ok(Attribute::InaccessibleMemOnly),
"MustProgress" => Ok(Attribute::MustProgress),
_ => Err(value.to_owned()),
}
}
}
crates/llvm-context/src/eravm/context/build.rs
-45
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@@ -1,45 +0,0 @@
//!
//! The LLVM module build.
//!
use std::collections::BTreeMap;
use serde::Deserialize;
use serde::Serialize;
///
/// The LLVM module build.
///
#[derive(Debug, Serialize, Deserialize)]
pub struct Build {
/// The EraVM text assembly.
pub assembly_text: String,
/// The metadata hash.
pub metadata_hash: Option<[u8; revive_common::BYTE_LENGTH_FIELD]>,
/// The EraVM binary bytecode.
pub bytecode: Vec<u8>,
/// The EraVM bytecode hash.
pub bytecode_hash: String,
/// The hash-to-full-path mapping of the contract factory dependencies.
pub factory_dependencies: BTreeMap<String, String>,
}
impl Build {
///
/// A shortcut constructor.
///
pub fn new(
assembly_text: String,
metadata_hash: Option<[u8; revive_common::BYTE_LENGTH_FIELD]>,
bytecode: Vec<u8>,
bytecode_hash: String,
) -> Self {
Self {
assembly_text,
metadata_hash,
bytecode,
bytecode_hash,
factory_dependencies: BTreeMap::new(),
}
}
}
crates/llvm-context/src/eravm/context/code_type.rs
-26
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@@ -1,26 +0,0 @@
//!
//! The contract code types.
//!
///
/// The contract code types (deploy and runtime).
///
/// They do not represent any entities in the final bytecode, but this separation is always present
/// in the IRs used for translation to the EVM bytecode.
///
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub enum CodeType {
/// The deploy code.
Deploy,
/// The runtime code.
Runtime,
}
impl std::fmt::Display for CodeType {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
Self::Deploy => write!(f, "deploy"),
Self::Runtime => write!(f, "runtime"),
}
}
}
crates/llvm-context/src/eravm/context/debug_info.rs
-109
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@@ -1,109 +0,0 @@
//!
//! The LLVM debug information.
//!
use inkwell::debug_info::AsDIScope;
use num::Zero;
///
/// The LLVM debug information.
///
pub struct DebugInfo<'ctx> {
/// The compile unit.
compile_unit: inkwell::debug_info::DICompileUnit<'ctx>,
/// The debug info builder.
builder: inkwell::debug_info::DebugInfoBuilder<'ctx>,
}
impl<'ctx> DebugInfo<'ctx> {
///
/// A shortcut constructor.
///
pub fn new(module: &inkwell::module::Module<'ctx>) -> Self {
let (builder, compile_unit) = module.create_debug_info_builder(
true,
inkwell::debug_info::DWARFSourceLanguage::C,
module.get_name().to_string_lossy().as_ref(),
"",
"",
false,
"",
0,
"",
inkwell::debug_info::DWARFEmissionKind::Full,
0,
false,
false,
"",
"",
);
Self {
compile_unit,
builder,
}
}
///
/// Creates a function info.
///
pub fn create_function(
&self,
name: &str,
) -> anyhow::Result<inkwell::debug_info::DISubprogram<'ctx>> {
let subroutine_type = self.builder.create_subroutine_type(
self.compile_unit.get_file(),
Some(self.create_type(era_compiler_common::BIT_LENGTH_FIELD)?),
&[],
inkwell::debug_info::DIFlags::zero(),
);
let function = self.builder.create_function(
self.compile_unit.get_file().as_debug_info_scope(),
name,
None,
self.compile_unit.get_file(),
42,
subroutine_type,
true,
false,
1,
inkwell::debug_info::DIFlags::zero(),
false,
);
self.builder.create_lexical_block(
function.as_debug_info_scope(),
self.compile_unit.get_file(),
1,
1,
);
Ok(function)
}
///
/// Creates a primitive type info.
///
pub fn create_type(
&self,
bit_length: usize,
) -> anyhow::Result<inkwell::debug_info::DIType<'ctx>> {
self.builder
.create_basic_type(
"U256",
bit_length as u64,
0,
inkwell::debug_info::DIFlags::zero(),
)
.map(|basic_type| basic_type.as_type())
.map_err(|error| anyhow::anyhow!("Debug info error: {}", error))
}
///
/// Finalizes the builder.
///
pub fn finalize(&self) {
self.builder.finalize();
}
}
crates/llvm-context/src/eravm/context/evmla_data.rs
-34
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@@ -1,34 +0,0 @@
//!
//! The LLVM IR generator EVM legacy assembly data.
//!
use crate::eravm::context::argument::Argument;
///
/// The LLVM IR generator EVM legacy assembly data.
///
/// Describes some data that is only relevant to the EVM legacy assembly.
///
#[derive(Debug, Clone)]
pub struct EVMLAData<'ctx> {
/// The Solidity compiler version.
/// Some instruction behave differenly depending on the version.
pub version: semver::Version,
/// The static stack allocated for the current function.
pub stack: Vec<Argument<'ctx>>,
}
impl<'ctx> EVMLAData<'ctx> {
/// The default stack size.
pub const DEFAULT_STACK_SIZE: usize = 64;
///
/// A shortcut constructor.
///
pub fn new(version: semver::Version) -> Self {
Self {
version,
stack: Vec::with_capacity(Self::DEFAULT_STACK_SIZE),
}
}
}
crates/llvm-context/src/eravm/context/function/block/evmla_data/key.rs
-41
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@@ -1,41 +0,0 @@
//!
//! The LLVM IR generator function block key.
//!
use crate::eravm::context::code_type::CodeType;
///
/// The LLVM IR generator function block key.
///
/// Is only relevant to the EVM legacy assembly.
///
#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct Key {
/// The block code type.
pub code_type: CodeType,
/// The block tag.
pub tag: num::BigUint,
}
impl Key {
///
/// A shortcut constructor.
///
pub fn new(code_type: CodeType, tag: num::BigUint) -> Self {
Self { code_type, tag }
}
}
impl std::fmt::Display for Key {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(
f,
"{}_{}",
match self.code_type {
CodeType::Deploy => "dt",
CodeType::Runtime => "rt",
},
self.tag
)
}
}
crates/llvm-context/src/eravm/context/function/block/evmla_data/mod.rs
-25
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@@ -1,25 +0,0 @@
//!
//! The LLVM function block EVM legacy assembly data.
//!
pub mod key;
///
/// The LLVM function block EVM legacy assembly data.
///
/// Describes some data that is only relevant to the EVM legacy assembly.
///
#[derive(Debug, Clone)]
pub struct EVMLAData {
/// The initial hashes of the allowed stack states.
pub stack_hashes: Vec<md5::Digest>,
}
impl EVMLAData {
///
/// A shortcut constructor.
///
pub fn new(stack_hashes: Vec<md5::Digest>) -> Self {
Self { stack_hashes }
}
}
crates/llvm-context/src/eravm/context/function/block/mod.rs
-68
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@@ -1,68 +0,0 @@
//!
//! The LLVM IR generator function block.
//!
pub mod evmla_data;
use self::evmla_data::EVMLAData;
///
/// The LLVM IR generator function block.
///
#[derive(Debug, Clone)]
pub struct Block<'ctx> {
/// The inner block.
inner: inkwell::basic_block::BasicBlock<'ctx>,
/// The EVM legacy assembly compiler data.
evmla_data: Option<EVMLAData>,
}
impl<'ctx> Block<'ctx> {
///
/// A shortcut constructor.
///
pub fn new(inner: inkwell::basic_block::BasicBlock<'ctx>) -> Self {
Self {
inner,
evmla_data: None,
}
}
///
/// Sets the EVM legacy assembly data.
///
pub fn set_evmla_data(&mut self, data: EVMLAData) {
self.evmla_data = Some(data);
}
///
/// The LLVM object reference.
///
pub fn inner(&self) -> inkwell::basic_block::BasicBlock<'ctx> {
self.inner
}
///
/// Returns the EVM data reference.
///
/// # Panics
/// If the EVM data has not been initialized.
///
pub fn evm(&self) -> &EVMLAData {
self.evmla_data
.as_ref()
.expect("The EVM data must have been initialized")
}
///
/// Returns the EVM data mutable reference.
///
/// # Panics
/// If the EVM data has not been initialized.
///
pub fn evm_mut(&mut self) -> &mut EVMLAData {
self.evmla_data
.as_mut()
.expect("The EVM data must have been initialized")
}
}
crates/llvm-context/src/eravm/context/function/declaration.rs
-26
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@@ -1,26 +0,0 @@
//!
//! The LLVM function declaration.
//!
///
/// The LLVM function declaration.
///
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub struct Declaration<'ctx> {
/// The function type.
pub r#type: inkwell::types::FunctionType<'ctx>,
/// The function value.
pub value: inkwell::values::FunctionValue<'ctx>,
}
impl<'ctx> Declaration<'ctx> {
///
/// A shortcut constructor.
///
pub fn new(
r#type: inkwell::types::FunctionType<'ctx>,
value: inkwell::values::FunctionValue<'ctx>,
) -> Self {
Self { r#type, value }
}
}
crates/llvm-context/src/eravm/context/function/evmla_data.rs
-86
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@@ -1,86 +0,0 @@
//!
//! The LLVM function EVM legacy assembly data.
//!
use std::collections::BTreeMap;
use crate::eravm::context::function::block::evmla_data::key::Key as BlockKey;
use crate::eravm::context::function::block::Block;
///
/// The LLVM function EVM legacy assembly data.
///
/// Describes some data that is only relevant to the EVM legacy assembly.
///
#[derive(Debug)]
pub struct EVMLAData<'ctx> {
/// The ordinary blocks with numeric tags.
/// Is only used by the Solidity EVM compiler.
pub blocks: BTreeMap<BlockKey, Vec<Block<'ctx>>>,
/// The function stack size.
pub stack_size: usize,
}
impl<'ctx> EVMLAData<'ctx> {
///
/// A shortcut constructor.
///
pub fn new(stack_size: usize) -> Self {
Self {
blocks: BTreeMap::new(),
stack_size,
}
}
///
/// Inserts a function block.
///
pub fn insert_block(&mut self, key: BlockKey, block: Block<'ctx>) {
if let Some(blocks) = self.blocks.get_mut(&key) {
blocks.push(block);
} else {
self.blocks.insert(key, vec![block]);
}
}
///
/// Returns the block with the specified tag and initial stack pattern.
///
/// If there is only one block, it is returned unconditionally.
///
pub fn find_block(
&self,
key: &BlockKey,
stack_hash: &md5::Digest,
) -> anyhow::Result<Block<'ctx>> {
if self
.blocks
.get(key)
.ok_or_else(|| anyhow::anyhow!("Undeclared function block {}", key))?
.len()
== 1
{
return self
.blocks
.get(key)
.ok_or_else(|| anyhow::anyhow!("Undeclared function block {}", key))?
.first()
.cloned()
.ok_or_else(|| anyhow::anyhow!("Undeclared function block {}", key));
}
self.blocks
.get(key)
.ok_or_else(|| anyhow::anyhow!("Undeclared function block {}", key))?
.iter()
.find(|block| {
block
.evm()
.stack_hashes
.iter()
.any(|hash| hash == stack_hash)
})
.cloned()
.ok_or_else(|| anyhow::anyhow!("Undeclared function block {}", key))
}
}
crates/llvm-context/src/eravm/context/function/intrinsics.rs
-149
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@@ -1,149 +0,0 @@
//!
//! The LLVM intrinsic functions.
//!
use inkwell::types::BasicType;
use crate::eravm::context::address_space::AddressSpace;
use crate::eravm::context::function::declaration::Declaration as FunctionDeclaration;
///
/// The LLVM intrinsic functions, implemented in the LLVM back-end.
///
/// Most of them are translated directly into bytecode instructions.
///
#[derive(Debug)]
pub struct Intrinsics<'ctx> {
/// The trap.
pub trap: FunctionDeclaration<'ctx>,
/// The memory copy within the heap.
pub memory_copy: FunctionDeclaration<'ctx>,
/// The memory copy from a generic page.
pub memory_copy_from_generic: FunctionDeclaration<'ctx>,
/// Performs endianness swaps on i256 values
pub byte_swap: FunctionDeclaration<'ctx>,
}
impl<'ctx> Intrinsics<'ctx> {
/// The corresponding intrinsic function name.
pub const FUNCTION_TRAP: &'static str = "llvm.trap";
/// The corresponding intrinsic function name.
pub const FUNCTION_MEMORY_COPY: &'static str = "llvm.memcpy.p1.p1.i256";
/// The corresponding intrinsic function name.
pub const FUNCTION_MEMORY_COPY_FROM_GENERIC: &'static str = "llvm.memcpy.p3.p1.i256";
/// The corresponding intrinsic function name.
pub const FUNCTION_BYTE_SWAP: &'static str = "llvm.bswap.i256";
///
/// A shortcut constructor.
///
pub fn new(
llvm: &'ctx inkwell::context::Context,
module: &inkwell::module::Module<'ctx>,
) -> Self {
let void_type = llvm.void_type();
let bool_type = llvm.bool_type();
let field_type = llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32);
let _stack_field_pointer_type = llvm.ptr_type(AddressSpace::Stack.into());
let heap_field_pointer_type = llvm.ptr_type(AddressSpace::Heap.into());
let generic_byte_pointer_type = llvm.ptr_type(AddressSpace::Generic.into());
let trap = Self::declare(
llvm,
module,
Self::FUNCTION_TRAP,
void_type.fn_type(&[], false),
);
let memory_copy = Self::declare(
llvm,
module,
Self::FUNCTION_MEMORY_COPY,
void_type.fn_type(
&[
heap_field_pointer_type.as_basic_type_enum().into(),
heap_field_pointer_type.as_basic_type_enum().into(),
field_type.as_basic_type_enum().into(),
bool_type.as_basic_type_enum().into(),
],
false,
),
);
let memory_copy_from_generic = Self::declare(
llvm,
module,
Self::FUNCTION_MEMORY_COPY_FROM_GENERIC,
void_type.fn_type(
&[
heap_field_pointer_type.as_basic_type_enum().into(),
generic_byte_pointer_type.as_basic_type_enum().into(),
field_type.as_basic_type_enum().into(),
bool_type.as_basic_type_enum().into(),
],
false,
),
);
let byte_swap = Self::declare(
llvm,
module,
Self::FUNCTION_BYTE_SWAP,
field_type.fn_type(&[field_type.as_basic_type_enum().into()], false),
);
Self {
trap,
memory_copy,
memory_copy_from_generic,
byte_swap,
}
}
///
/// Finds the specified LLVM intrinsic function in the target and returns its declaration.
///
pub fn declare(
llvm: &'ctx inkwell::context::Context,
module: &inkwell::module::Module<'ctx>,
name: &str,
r#type: inkwell::types::FunctionType<'ctx>,
) -> FunctionDeclaration<'ctx> {
let intrinsic = inkwell::intrinsics::Intrinsic::find(name)
.unwrap_or_else(|| panic!("Intrinsic function `{name}` does not exist"));
let argument_types = Self::argument_types(llvm, name);
let value = intrinsic
.get_declaration(module, argument_types.as_slice())
.unwrap_or_else(|| panic!("Intrinsic function `{name}` declaration error"));
FunctionDeclaration::new(r#type, value)
}
///
/// Returns the LLVM types for selecting via the signature.
///
pub fn argument_types(
llvm: &'ctx inkwell::context::Context,
name: &str,
) -> Vec<inkwell::types::BasicTypeEnum<'ctx>> {
let field_type = llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32);
match name {
name if name == Self::FUNCTION_MEMORY_COPY => vec![
llvm.ptr_type(AddressSpace::Heap.into())
.as_basic_type_enum(),
llvm.ptr_type(AddressSpace::Heap.into())
.as_basic_type_enum(),
field_type.as_basic_type_enum(),
],
name if name == Self::FUNCTION_MEMORY_COPY_FROM_GENERIC => vec![
llvm.ptr_type(AddressSpace::Heap.into())
.as_basic_type_enum(),
llvm.ptr_type(AddressSpace::Generic.into())
.as_basic_type_enum(),
field_type.as_basic_type_enum(),
],
name if name == Self::FUNCTION_BYTE_SWAP => vec![field_type.as_basic_type_enum()],
_ => vec![],
}
}
}
crates/llvm-context/src/eravm/context/function/llvm_runtime.rs
-667
View File
@@ -1,667 +0,0 @@
//!
//! The LLVM runtime functions.
//!
use inkwell::types::BasicType;
use crate::eravm::context::address_space::AddressSpace;
use crate::eravm::context::function::declaration::Declaration as FunctionDeclaration;
use crate::eravm::context::function::Function;
use crate::optimizer::Optimizer;
///
/// The runtime functions, implemented on the LLVM side.
///
/// The functions are automatically linked to the LLVM implementations if the signatures match.
///
#[derive(Debug)]
pub struct LLVMRuntime<'ctx> {
/// The LLVM personality function, used for exception handling.
pub personality: FunctionDeclaration<'ctx>,
/// The LLVM exception throwing function.
pub cxa_throw: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub div: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub sdiv: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub r#mod: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub smod: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub shl: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub shr: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub sar: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub byte: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub add_mod: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub mul_mod: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub exp: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub sign_extend: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub sha3: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub system_request: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
//pub far_call: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub far_call_byref: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub static_call: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub static_call_byref: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub delegate_call: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub delegate_call_byref: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub mimic_call: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub mimic_call_byref: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub r#return: FunctionDeclaration<'ctx>,
/// The corresponding LLVM runtime function.
pub revert: FunctionDeclaration<'ctx>,
}
impl<'ctx> LLVMRuntime<'ctx> {
/// The LLVM personality function name.
pub const FUNCTION_PERSONALITY: &'static str = "__personality";
/// The LLVM exception throwing function name.
pub const FUNCTION_CXA_THROW: &'static str = "__cxa_throw";
/// The corresponding runtime function name.
pub const FUNCTION_DIV: &'static str = "__div";
/// The corresponding runtime function name.
pub const FUNCTION_SDIV: &'static str = "__sdiv";
/// The corresponding runtime function name.
pub const FUNCTION_MOD: &'static str = "__mod";
/// The corresponding runtime function name.
pub const FUNCTION_SMOD: &'static str = "__smod";
/// The corresponding runtime function name.
pub const FUNCTION_SHL: &'static str = "__shl";
/// The corresponding runtime function name.
pub const FUNCTION_SHR: &'static str = "__shr";
/// The corresponding runtime function name.
pub const FUNCTION_SAR: &'static str = "__sar";
/// The corresponding runtime function name.
pub const FUNCTION_BYTE: &'static str = "__byte";
/// The corresponding runtime function name.
pub const FUNCTION_ADDMOD: &'static str = "__addmod";
/// The corresponding runtime function name.
pub const FUNCTION_MULMOD: &'static str = "__mulmod";
/// The corresponding runtime function name.
pub const FUNCTION_EXP: &'static str = "__exp";
/// The corresponding runtime function name.
pub const FUNCTION_SIGNEXTEND: &'static str = "__signextend";
/// The corresponding runtime function name.
pub const FUNCTION_SHA3: &'static str = "__sha3";
/// The corresponding runtime function name.
pub const FUNCTION_SYSTEM_REQUEST: &'static str = "__system_request";
/// The corresponding runtime function name.
pub const FUNCTION_FARCALL: &'static str = "__farcall";
/// The corresponding runtime function name.
pub const FUNCTION_STATICCALL: &'static str = "__staticcall";
/// The corresponding runtime function name.
pub const FUNCTION_DELEGATECALL: &'static str = "__delegatecall";
/// The corresponding runtime function name.
pub const FUNCTION_MIMICCALL: &'static str = "__mimiccall";
/// The corresponding runtime function name.
pub const FUNCTION_FARCALL_BYREF: &'static str = "__farcall_byref";
/// The corresponding runtime function name.
pub const FUNCTION_STATICCALL_BYREF: &'static str = "__staticcall_byref";
/// The corresponding runtime function name.
pub const FUNCTION_DELEGATECALL_BYREF: &'static str = "__delegatecall_byref";
/// The corresponding runtime function name.
pub const FUNCTION_MIMICCALL_BYREF: &'static str = "__mimiccall_byref";
/// The corresponding runtime function name.
pub const FUNCTION_RETURN: &'static str = "__return";
/// The corresponding runtime function name.
pub const FUNCTION_REVERT: &'static str = "__revert";
///
/// A shortcut constructor.
///
pub fn new(
llvm: &'ctx inkwell::context::Context,
module: &inkwell::module::Module<'ctx>,
optimizer: &Optimizer,
) -> Self {
let personality = Self::declare(
module,
Self::FUNCTION_PERSONALITY,
llvm.i32_type().fn_type(&[], false),
None,
);
let cxa_throw = Self::declare(
module,
Self::FUNCTION_CXA_THROW,
llvm.void_type().fn_type(
vec![
llvm.ptr_type(AddressSpace::Stack.into())
.as_basic_type_enum()
.into();
3
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_cxa_throw_attributes(llvm, cxa_throw);
let div = Self::declare(
module,
Self::FUNCTION_DIV,
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.fn_type(
vec![
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into();
2
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, div, optimizer);
Function::set_pure_function_attributes(llvm, div);
let r#mod = Self::declare(
module,
Self::FUNCTION_MOD,
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.fn_type(
vec![
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into();
2
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, r#mod, optimizer);
Function::set_pure_function_attributes(llvm, r#mod);
let sdiv = Self::declare(
module,
Self::FUNCTION_SDIV,
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.fn_type(
vec![
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into();
2
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, sdiv, optimizer);
Function::set_pure_function_attributes(llvm, sdiv);
let smod = Self::declare(
module,
Self::FUNCTION_SMOD,
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.fn_type(
vec![
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into();
2
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, smod, optimizer);
Function::set_pure_function_attributes(llvm, smod);
let shl = Self::declare(
module,
Self::FUNCTION_SHL,
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.fn_type(
vec![
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into();
2
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, shl, optimizer);
Function::set_pure_function_attributes(llvm, shl);
let shr = Self::declare(
module,
Self::FUNCTION_SHR,
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.fn_type(
vec![
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into();
2
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, shr, optimizer);
Function::set_pure_function_attributes(llvm, shr);
let sar = Self::declare(
module,
Self::FUNCTION_SAR,
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.fn_type(
vec![
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into();
2
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, sar, optimizer);
Function::set_pure_function_attributes(llvm, sar);
let byte = Self::declare(
module,
Self::FUNCTION_BYTE,
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.fn_type(
vec![
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into();
2
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, byte, optimizer);
Function::set_pure_function_attributes(llvm, byte);
let add_mod =
Self::define(module, Self::FUNCTION_ADDMOD).expect("should be declared in stdlib");
Function::set_default_attributes(llvm, add_mod, optimizer);
Function::set_pure_function_attributes(llvm, add_mod);
let mul_mod =
Self::define(module, Self::FUNCTION_MULMOD).expect("should be declared in stdlib");
Function::set_default_attributes(llvm, mul_mod, optimizer);
Function::set_pure_function_attributes(llvm, mul_mod);
let exp = Self::define(module, Self::FUNCTION_EXP).expect("should be declared in stdlib");
Function::set_default_attributes(llvm, exp, optimizer);
Function::set_pure_function_attributes(llvm, exp);
let sign_extend =
Self::define(module, Self::FUNCTION_SIGNEXTEND).expect("should be declared in stdlib");
Function::set_default_attributes(llvm, sign_extend, optimizer);
Function::set_pure_function_attributes(llvm, sign_extend);
let sha3 = Self::declare(
module,
Self::FUNCTION_SHA3,
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.fn_type(
vec![
llvm.ptr_type(AddressSpace::Heap.into())
.as_basic_type_enum()
.into(),
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into(),
llvm.custom_width_int_type(revive_common::BIT_LENGTH_BOOLEAN as u32)
.as_basic_type_enum()
.into(),
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, sha3, optimizer);
Function::set_attributes(
llvm,
sha3,
//vec![Attribute::ArgMemOnly, Attribute::ReadOnly],
vec![],
false,
);
let system_request = Self::declare(
module,
Self::FUNCTION_SYSTEM_REQUEST,
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.fn_type(
vec![
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into(),
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into(),
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into(),
llvm.ptr_type(AddressSpace::Stack.into())
.as_basic_type_enum()
.into(),
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, system_request, optimizer);
Function::set_attributes(
llvm,
system_request,
//vec![Attribute::ArgMemOnly, Attribute::ReadOnly],
vec![],
false,
);
let external_call_arguments: Vec<inkwell::types::BasicMetadataTypeEnum> = vec![
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into();
crate::eravm::context::function::runtime::entry::Entry::MANDATORY_ARGUMENTS_COUNT
+ crate::eravm::EXTRA_ABI_DATA_SIZE
];
let mut mimic_call_arguments = external_call_arguments.clone();
mimic_call_arguments.push(
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into(),
);
let mut external_call_arguments_by_ref: Vec<inkwell::types::BasicMetadataTypeEnum> = vec![
llvm.ptr_type(AddressSpace::Generic.into())
.as_basic_type_enum()
.into(),
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into(),
];
external_call_arguments_by_ref.extend::<Vec<inkwell::types::BasicMetadataTypeEnum>>(vec![
llvm.custom_width_int_type(
revive_common::BIT_LENGTH_FIELD as u32
)
.as_basic_type_enum()
.into();
crate::eravm::EXTRA_ABI_DATA_SIZE
]);
let mut mimic_call_arguments_by_ref = external_call_arguments_by_ref.clone();
mimic_call_arguments_by_ref.push(
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into(),
);
let external_call_result_type = llvm
.struct_type(
&[
llvm.ptr_type(AddressSpace::Generic.into())
.as_basic_type_enum(),
llvm.bool_type().as_basic_type_enum(),
],
false,
)
.as_basic_type_enum();
//let far_call = Self::declare(
// module,
// Self::FUNCTION_FARCALL,
// external_call_result_type.fn_type(external_call_arguments.as_slice(), false),
// Some(inkwell::module::Linkage::External),
//);
//Function::set_default_attributes(llvm, far_call, optimizer);
let static_call = Self::declare(
module,
Self::FUNCTION_STATICCALL,
external_call_result_type.fn_type(external_call_arguments.as_slice(), false),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, static_call, optimizer);
let delegate_call = Self::declare(
module,
Self::FUNCTION_DELEGATECALL,
external_call_result_type.fn_type(external_call_arguments.as_slice(), false),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, delegate_call, optimizer);
let mimic_call = Self::declare(
module,
Self::FUNCTION_MIMICCALL,
external_call_result_type.fn_type(mimic_call_arguments.as_slice(), false),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, mimic_call, optimizer);
let far_call_byref = Self::declare(
module,
Self::FUNCTION_FARCALL_BYREF,
external_call_result_type.fn_type(external_call_arguments_by_ref.as_slice(), false),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, far_call_byref, optimizer);
let static_call_byref = Self::declare(
module,
Self::FUNCTION_STATICCALL_BYREF,
external_call_result_type.fn_type(external_call_arguments_by_ref.as_slice(), false),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, static_call_byref, optimizer);
let delegate_call_byref = Self::declare(
module,
Self::FUNCTION_DELEGATECALL_BYREF,
external_call_result_type.fn_type(external_call_arguments_by_ref.as_slice(), false),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, delegate_call_byref, optimizer);
let mimic_call_byref = Self::declare(
module,
Self::FUNCTION_MIMICCALL_BYREF,
external_call_result_type.fn_type(mimic_call_arguments_by_ref.as_slice(), false),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, mimic_call_byref, optimizer);
let r#return = Self::declare(
module,
Self::FUNCTION_RETURN,
llvm.void_type().fn_type(
vec![
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into();
3
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, r#return, optimizer);
let revert = Self::declare(
module,
Self::FUNCTION_REVERT,
llvm.void_type().fn_type(
vec![
llvm.custom_width_int_type(revive_common::BIT_LENGTH_FIELD as u32)
.as_basic_type_enum()
.into();
3
]
.as_slice(),
false,
),
Some(inkwell::module::Linkage::External),
);
Function::set_default_attributes(llvm, revert, optimizer);
Self {
personality,
cxa_throw,
div,
sdiv,
r#mod,
smod,
shl,
shr,
sar,
byte,
add_mod,
mul_mod,
exp,
sign_extend,
sha3,
system_request,
//far_call,
static_call,
delegate_call,
mimic_call,
far_call_byref,
static_call_byref,
delegate_call_byref,
mimic_call_byref,
r#return,
revert,
}
}
///
/// Declares an LLVM runtime function in the `module`,
///
pub fn declare(
module: &inkwell::module::Module<'ctx>,
name: &str,
r#type: inkwell::types::FunctionType<'ctx>,
linkage: Option<inkwell::module::Linkage>,
) -> FunctionDeclaration<'ctx> {
let value = module.add_function(name, r#type, linkage);
FunctionDeclaration::new(r#type, value)
}
/// Create the function definition from an existing symbol.
pub fn define(
module: &inkwell::module::Module<'ctx>,
name: &str,
) -> Option<FunctionDeclaration<'ctx>> {
let value = module.get_function(name)?;
value.set_linkage(inkwell::module::Linkage::External);
FunctionDeclaration::new(value.get_type(), value).into()
}
///
/// Modifies the external call function with `is_byref` and `is_system` modifiers.
///
pub fn modify(
&self,
function: FunctionDeclaration<'ctx>,
is_byref: bool,
) -> anyhow::Result<FunctionDeclaration<'ctx>> {
let modified = if
/*function == self.far_call {
match is_byref {
false => self.far_call,
true => self.far_call_byref,
}
} else if */
function == self.static_call {
match is_byref {
false => self.static_call,
true => self.static_call_byref,
}
} else if function == self.delegate_call {
match is_byref {
false => self.delegate_call,
true => self.delegate_call_byref,
}
} else if function == self.mimic_call {
match is_byref {
false => self.mimic_call,
true => self.mimic_call_byref,
}
} else {
anyhow::bail!(
"Cannot modify an external call function `{}`",
function.value.get_name().to_string_lossy()
);
};
Ok(modified)
}
}
crates/llvm-context/src/eravm/context/function/mod.rs
-428
View File
@@ -1,428 +0,0 @@
//!
//! The LLVM IR generator function.
//!
pub mod block;
pub mod declaration;
pub mod evmla_data;
pub mod intrinsics;
pub mod llvm_runtime;
pub mod r#return;
pub mod runtime;
pub mod vyper_data;
pub mod yul_data;
use std::collections::HashMap;
use crate::eravm::context::attribute::Attribute;
use crate::eravm::context::pointer::Pointer;
use crate::optimizer::settings::size_level::SizeLevel;
use crate::optimizer::Optimizer;
use self::declaration::Declaration;
use self::evmla_data::EVMLAData;
use self::r#return::Return;
use self::runtime::Runtime;
use self::vyper_data::VyperData;
use self::yul_data::YulData;
///
/// The LLVM IR generator function.
///
#[derive(Debug)]
pub struct Function<'ctx> {
/// The high-level source code name.
name: String,
/// The LLVM function declaration.
declaration: Declaration<'ctx>,
/// The stack representation.
stack: HashMap<String, Pointer<'ctx>>,
/// The return value entity.
r#return: Return<'ctx>,
/// The entry block. Each LLVM IR functions must have an entry block.
entry_block: inkwell::basic_block::BasicBlock<'ctx>,
/// The return/leave block. LLVM IR functions may have multiple returning blocks, but it is
/// more reasonable to have a single returning block and other high-level language returns
/// jumping to it. This way it is easier to implement some additional checks and clean-ups
/// before the returning.
return_block: inkwell::basic_block::BasicBlock<'ctx>,
/// The Yul compiler data.
yul_data: Option<YulData>,
/// The EVM legacy assembly compiler data.
evmla_data: Option<EVMLAData<'ctx>>,
/// The Vyper data.
vyper_data: Option<VyperData>,
}
impl<'ctx> Function<'ctx> {
/// The near call ABI function prefix.
pub const ZKSYNC_NEAR_CALL_ABI_PREFIX: &'static str = "ZKSYNC_NEAR_CALL";
/// The near call ABI exception handler name.
pub const ZKSYNC_NEAR_CALL_ABI_EXCEPTION_HANDLER: &'static str = "ZKSYNC_CATCH_NEAR_CALL";
/// The stack hashmap default capacity.
const STACK_HASHMAP_INITIAL_CAPACITY: usize = 64;
///
/// A shortcut constructor.
///
pub fn new(
name: String,
declaration: Declaration<'ctx>,
r#return: Return<'ctx>,
entry_block: inkwell::basic_block::BasicBlock<'ctx>,
return_block: inkwell::basic_block::BasicBlock<'ctx>,
) -> Self {
Self {
name,
declaration,
stack: HashMap::with_capacity(Self::STACK_HASHMAP_INITIAL_CAPACITY),
r#return,
entry_block,
return_block,
yul_data: None,
evmla_data: None,
vyper_data: None,
}
}
///
/// Returns the function name reference.
///
pub fn name(&self) -> &str {
self.name.as_str()
}
///
/// Checks whether the function is defined outside of the front-end.
///
pub fn is_name_external(name: &str) -> bool {
name.starts_with("llvm.")
|| (name.starts_with("__")
&& name != Runtime::FUNCTION_ENTRY
&& name != Runtime::FUNCTION_DEPLOY_CODE
&& name != Runtime::FUNCTION_RUNTIME_CODE)
}
///
/// Checks whether the function is related to the near call ABI.
///
pub fn is_near_call_abi(name: &str) -> bool {
name.starts_with(Self::ZKSYNC_NEAR_CALL_ABI_PREFIX)
|| name == Self::ZKSYNC_NEAR_CALL_ABI_EXCEPTION_HANDLER
}
///
/// Returns the LLVM function declaration.
///
pub fn declaration(&self) -> Declaration<'ctx> {
self.declaration
}
///
/// Returns the N-th parameter of the function.
///
pub fn get_nth_param(&self, index: usize) -> inkwell::values::BasicValueEnum<'ctx> {
self.declaration()
.value
.get_nth_param(index as u32)
.expect("Always exists")
}
///
/// Sets the memory writer function attributes.
///
pub fn set_attributes(
llvm: &'ctx inkwell::context::Context,
declaration: Declaration<'ctx>,
attributes: Vec<Attribute>,
force: bool,
) {
for attribute_kind in attributes.into_iter() {
match attribute_kind {
attribute_kind @ Attribute::AlwaysInline if force => {
let is_optimize_none_set = declaration
.value
.get_enum_attribute(
inkwell::attributes::AttributeLoc::Function,
Attribute::OptimizeNone as u32,
)
.is_some();
if !is_optimize_none_set {
declaration.value.remove_enum_attribute(
inkwell::attributes::AttributeLoc::Function,
Attribute::NoInline as u32,
);
declaration.value.add_attribute(
inkwell::attributes::AttributeLoc::Function,
llvm.create_enum_attribute(attribute_kind as u32, 0),
);
}
}
attribute_kind @ Attribute::NoInline if force => {
declaration.value.remove_enum_attribute(
inkwell::attributes::AttributeLoc::Function,
Attribute::AlwaysInline as u32,
);
declaration.value.add_attribute(
inkwell::attributes::AttributeLoc::Function,
llvm.create_enum_attribute(attribute_kind as u32, 0),
);
}
attribute_kind => declaration.value.add_attribute(
inkwell::attributes::AttributeLoc::Function,
llvm.create_enum_attribute(attribute_kind as u32, 0),
),
}
}
}
///
/// Sets the default attributes.
///
/// The attributes only affect the LLVM optimizations.
///
pub fn set_default_attributes(
llvm: &'ctx inkwell::context::Context,
declaration: Declaration<'ctx>,
optimizer: &Optimizer,
) {
if optimizer.settings().level_middle_end == inkwell::OptimizationLevel::None {
Self::set_attributes(
llvm,
declaration,
vec![Attribute::OptimizeNone, Attribute::NoInline],
false,
);
} else if optimizer.settings().level_middle_end_size == SizeLevel::Z {
Self::set_attributes(
llvm,
declaration,
vec![Attribute::OptimizeForSize, Attribute::MinSize],
false,
);
}
Self::set_attributes(llvm, declaration, vec![Attribute::NoFree], false);
}
///
/// Sets the front-end runtime attributes.
///
pub fn set_frontend_runtime_attributes(
llvm: &'ctx inkwell::context::Context,
declaration: Declaration<'ctx>,
optimizer: &Optimizer,
) {
if optimizer.settings().level_middle_end_size == SizeLevel::Z {
Self::set_attributes(llvm, declaration, vec![Attribute::NoInline], false);
}
}
///
/// Sets the exception handler attributes.
///
pub fn set_exception_handler_attributes(
llvm: &'ctx inkwell::context::Context,
declaration: Declaration<'ctx>,
) {
Self::set_attributes(llvm, declaration, vec![Attribute::NoInline], false);
}
///
/// Sets the CXA-throw attributes.
///
pub fn set_cxa_throw_attributes(
llvm: &'ctx inkwell::context::Context,
declaration: Declaration<'ctx>,
) {
Self::set_attributes(llvm, declaration, vec![Attribute::NoProfile], false);
}
///
/// Sets the pure function attributes.
///
pub fn set_pure_function_attributes(
llvm: &'ctx inkwell::context::Context,
declaration: Declaration<'ctx>,
) {
Self::set_attributes(
llvm,
declaration,
vec![
Attribute::MustProgress,
Attribute::NoUnwind,
// FIXME: LLVM complains about ReadNone being not valid for fns
// Attribute::ReadNone,
Attribute::WillReturn,
],
false,
);
}
///
/// Saves the pointer to a stack variable, returning the pointer to the shadowed variable,
/// if it exists.
///
pub fn insert_stack_pointer(
&mut self,
name: String,
pointer: Pointer<'ctx>,
) -> Option<Pointer<'ctx>> {
self.stack.insert(name, pointer)
}
///
/// Gets the pointer to a stack variable.
///
pub fn get_stack_pointer(&self, name: &str) -> Option<Pointer<'ctx>> {
self.stack.get(name).copied()
}
///
/// Removes the pointer to a stack variable.
///
pub fn remove_stack_pointer(&mut self, name: &str) {
self.stack.remove(name);
}
///
/// Returns the return entity representation.
///
pub fn r#return(&self) -> Return<'ctx> {
self.r#return
}
///
/// Returns the pointer to the function return value.
///
/// # Panics
/// If the pointer has not been set yet.
///
pub fn return_pointer(&self) -> Option<Pointer<'ctx>> {
self.r#return.return_pointer()
}
///
/// Returns the return data size in bytes, based on the default stack alignment.
///
/// # Panics
/// If the pointer has not been set yet.
///
pub fn return_data_size(&self) -> usize {
self.r#return.return_data_size()
}
///
/// Returns the function entry block.
///
pub fn entry_block(&self) -> inkwell::basic_block::BasicBlock<'ctx> {
self.entry_block
}
///
/// Returns the function return block.
///
pub fn return_block(&self) -> inkwell::basic_block::BasicBlock<'ctx> {
self.return_block
}
///
/// Sets the EVM legacy assembly data.
///
pub fn set_evmla_data(&mut self, data: EVMLAData<'ctx>) {
self.evmla_data = Some(data);
}
///
/// Returns the EVM legacy assembly data reference.
///
/// # Panics
/// If the EVM data has not been initialized.
///
pub fn evmla(&self) -> &EVMLAData<'ctx> {
self.evmla_data
.as_ref()
.expect("The EVM data must have been initialized")
}
///
/// Returns the EVM legacy assembly data mutable reference.
///
/// # Panics
/// If the EVM data has not been initialized.
///
pub fn evmla_mut(&mut self) -> &mut EVMLAData<'ctx> {
self.evmla_data
.as_mut()
.expect("The EVM data must have been initialized")
}
///
/// Sets the Vyper data.
///
pub fn set_vyper_data(&mut self, data: VyperData) {
self.vyper_data = Some(data);
}
///
/// Returns the Vyper data reference.
///
/// # Panics
/// If the Vyper data has not been initialized.
///
pub fn vyper(&self) -> &VyperData {
self.vyper_data
.as_ref()
.expect("The Vyper data must have been initialized")
}
///
/// Returns the Vyper data mutable reference.
///
/// # Panics
/// If the Vyper data has not been initialized.
///
pub fn vyper_mut(&mut self) -> &mut VyperData {
self.vyper_data
.as_mut()
.expect("The Vyper data must have been initialized")
}
///
/// Sets the Yul data.
///
pub fn set_yul_data(&mut self, data: YulData) {
self.yul_data = Some(data);
}
///
/// Returns the Yul data reference.
///
/// # Panics
/// If the Yul data has not been initialized.
///
pub fn yul(&self) -> &YulData {
self.yul_data
.as_ref()
.expect("The Yul data must have been initialized")
}
///
/// Returns the Yul data mutable reference.
///
/// # Panics
/// If the Yul data has not been initialized.
///
pub fn yul_mut(&mut self) -> &mut YulData {
self.yul_data
.as_mut()
.expect("The Yul data must have been initialized")
}
}
crates/llvm-context/src/eravm/context/function/return.rs
-73
View File
@@ -1,73 +0,0 @@
//!
//! The LLVM IR generator function return entity.
//!
use crate::eravm::context::pointer::Pointer;
///
/// The LLVM IR generator function return entity.
///
#[derive(Debug, Clone, Copy)]
pub enum Return<'ctx> {
/// The function does not return a value.
None,
/// The function returns a primitive value.
Primitive {
/// The primitive value pointer allocated at the function entry.
pointer: Pointer<'ctx>,
},
/// The function returns a compound value.
/// In this case, the return pointer is allocated on the stack by the callee.
Compound {
/// The structure pointer allocated at the function entry.
pointer: Pointer<'ctx>,
/// The function return type size.
size: usize,
},
}
impl<'ctx> Return<'ctx> {
///
/// A shortcut constructor.
///
pub fn none() -> Self {
Self::None
}
///
/// A shortcut constructor.
///
pub fn primitive(pointer: Pointer<'ctx>) -> Self {
Self::Primitive { pointer }
}
///
/// A shortcut constructor.
///
pub fn compound(pointer: Pointer<'ctx>, size: usize) -> Self {
Self::Compound { pointer, size }
}
///
/// Returns the pointer to the function return value.
///
pub fn return_pointer(&self) -> Option<Pointer<'ctx>> {
match self {
Return::None => None,
Return::Primitive { pointer } => Some(pointer.to_owned()),
Return::Compound { pointer, .. } => Some(pointer.to_owned()),
}
}
///
/// Returns the return data size in bytes, based on the default stack alignment.
///
pub fn return_data_size(&self) -> usize {
revive_common::BYTE_LENGTH_FIELD
* match self {
Self::None => 0,
Self::Primitive { .. } => 1,
Self::Compound { size, .. } => *size,
}
}
}
crates/llvm-context/src/eravm/context/function/runtime/default_call.rs
-255
View File
@@ -1,255 +0,0 @@
//!
//! The `default_call` function.
//!
use inkwell::types::BasicType;
use crate::eravm::context::function::declaration::Declaration as FunctionDeclaration;
use crate::eravm::context::function::llvm_runtime::LLVMRuntime;
use crate::eravm::context::function::Function;
use crate::eravm::context::Context;
use crate::eravm::Dependency;
use crate::eravm::WriteLLVM;
///
/// The `default_call` function.
///
/// Generates a default contract call, if the `msg.value` is zero.
///
#[derive(Debug)]
pub struct DefaultCall {
/// The name of the inner function used for the low-level call.
inner_name: String,
/// The function name with the low-level function name as an element.
name: String,
}
#[allow(unused)]
impl DefaultCall {
/// The gas argument index.
pub const ARGUMENT_INDEX_GAS: usize = 0;
/// The address argument index.
pub const ARGUMENT_INDEX_ADDRESS: usize = 1;
/// The input offset argument index.
pub const ARGUMENT_INDEX_INPUT_OFFSET: usize = 2;
/// The input length argument index.
pub const ARGUMENT_INDEX_INPUT_LENGTH: usize = 3;
/// The output offset argument index.
pub const ARGUMENT_INDEX_OUTPUT_OFFSET: usize = 4;
/// The output length argument index.
pub const ARGUMENT_INDEX_OUTPUT_LENGTH: usize = 5;
///
/// A shortcut constructor.
///
pub fn new(call_function: FunctionDeclaration) -> Self {
let inner_name = call_function.value.get_name().to_string_lossy().to_string();
let name = Self::name(call_function);
Self { inner_name, name }
}
///
/// Returns the function name.
///
pub fn name(call_function: FunctionDeclaration) -> String {
let suffix = match call_function.value.get_name().to_string_lossy() {
name if name == LLVMRuntime::FUNCTION_FARCALL => "far",
name if name == LLVMRuntime::FUNCTION_STATICCALL => "static",
name if name == LLVMRuntime::FUNCTION_DELEGATECALL => "delegate",
name => panic!("Invalid low-level call inner function `{name}`"),
};
format!("__default_{suffix}_call")
}
///
/// Returns the low-level call function.
///
fn inner_function<'ctx, D>(&self, context: &Context<'ctx, D>) -> FunctionDeclaration<'ctx>
where
D: Dependency + Clone,
{
match self.inner_name.as_str() {
//name if name == LLVMRuntime::FUNCTION_FARCALL => context.llvm_runtime().far_call,
name if name == LLVMRuntime::FUNCTION_STATICCALL => context.llvm_runtime().static_call,
name if name == LLVMRuntime::FUNCTION_DELEGATECALL => {
context.llvm_runtime().delegate_call
}
name => panic!("Invalid low-level call inner function `{name}`"),
}
}
}
impl<D> WriteLLVM<D> for DefaultCall
where
D: Dependency + Clone,
{
fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
let function_type = context.function_type(
vec![
context.field_type().as_basic_type_enum(),
context.field_type().as_basic_type_enum(),
context.field_type().as_basic_type_enum(),
context.field_type().as_basic_type_enum(),
context.field_type().as_basic_type_enum(),
context.field_type().as_basic_type_enum(),
],
1,
false,
);
let function = context.add_function(
self.name.as_str(),
function_type,
1,
Some(inkwell::module::Linkage::Private),
)?;
Function::set_frontend_runtime_attributes(
context.llvm,
function.borrow().declaration(),
&context.optimizer,
);
Ok(())
}
fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
context.set_current_function(self.name.as_str())?;
/*
let gas = context
.current_function()
.borrow()
.get_nth_param(Self::ARGUMENT_INDEX_GAS)
.into_int_value();
let address = context
.current_function()
.borrow()
.get_nth_param(Self::ARGUMENT_INDEX_ADDRESS)
.into_int_value();
let input_offset = context
.current_function()
.borrow()
.get_nth_param(Self::ARGUMENT_INDEX_INPUT_OFFSET)
.into_int_value();
let input_length = context
.current_function()
.borrow()
.get_nth_param(Self::ARGUMENT_INDEX_INPUT_LENGTH)
.into_int_value();
let output_offset = context
.current_function()
.borrow()
.get_nth_param(Self::ARGUMENT_INDEX_OUTPUT_OFFSET)
.into_int_value();
let output_length = context
.current_function()
.borrow()
.get_nth_param(Self::ARGUMENT_INDEX_OUTPUT_LENGTH)
.into_int_value();
*/
context.set_basic_block(context.current_function().borrow().entry_block());
let status_code_result_pointer = context.build_alloca(
context.field_type(),
"contract_call_result_status_code_pointer",
);
/*
context.build_store(status_code_result_pointer, context.field_const(0));
let abi_data = crate::eravm::utils::abi_data(
context,
input_offset,
input_length,
Some(gas),
AddressSpace::Heap,
false,
)?
.into_int_value();
let result = context
.build_call(
self.inner_function(context),
crate::eravm::utils::external_call_arguments(
context,
abi_data.as_basic_value_enum(),
address,
vec![],
None,
)
.as_slice(),
"contract_call_external",
)
.expect("IntrinsicFunction always returns a flag");
let result_abi_data = context
.builder()
.build_extract_value(
result.into_struct_value(),
0,
"contract_call_external_result_abi_data",
)
.expect("Always exists");
let result_abi_data_pointer = Pointer::new(
context.byte_type(),
AddressSpace::Generic,
result_abi_data.into_pointer_value(),
);
let result_abi_data_casted = result_abi_data_pointer.cast(context.field_type());
let result_status_code_boolean = context
.builder()
.build_extract_value(
result.into_struct_value(),
1,
"contract_call_external_result_status_code_boolean",
)
.expect("Always exists");
let result_status_code = context.builder().build_int_z_extend_or_bit_cast(
result_status_code_boolean.into_int_value(),
context.field_type(),
"contract_call_external_result_status_code",
)?;
context.build_store(status_code_result_pointer, result_status_code);
let source = result_abi_data_casted;
let destination = Pointer::new_with_offset(
context,
AddressSpace::Heap,
context.byte_type(),
output_offset,
"contract_call_destination",
);
context.build_memcpy_return_data(
context.intrinsics().memory_copy_from_generic,
destination,
source,
output_length,
"contract_call_memcpy_from_child",
);
context.write_abi_pointer(
result_abi_data_pointer,
crate::eravm::GLOBAL_RETURN_DATA_POINTER,
);
context.write_abi_data_size(
result_abi_data_pointer,
crate::eravm::GLOBAL_RETURN_DATA_SIZE,
);
*/
context.build_unconditional_branch(context.current_function().borrow().return_block());
context.set_basic_block(context.current_function().borrow().return_block());
let status_code_result =
context.build_load(status_code_result_pointer, "contract_call_status_code")?;
context.build_return(Some(&status_code_result));
Ok(())
}
}
crates/llvm-context/src/eravm/context/function/runtime/deploy_code.rs
-105
View File
@@ -1,105 +0,0 @@
//!
//! The deploy code function.
//!
use std::marker::PhantomData;
use crate::eravm::context::address_space::AddressSpace;
use crate::eravm::context::code_type::CodeType;
use crate::eravm::context::function::runtime::Runtime;
use crate::eravm::context::pointer::Pointer;
use crate::eravm::context::Context;
use crate::eravm::Dependency;
use crate::eravm::WriteLLVM;
///
/// The deploy code function.
///
/// Is a special function that is only used by the front-end generated code.
///
#[derive(Debug)]
pub struct DeployCode<B, D>
where
B: WriteLLVM<D>,
D: Dependency + Clone,
{
/// The deploy code AST representation.
inner: B,
/// The `D` phantom data.
_pd: PhantomData<D>,
}
impl<B, D> DeployCode<B, D>
where
B: WriteLLVM<D>,
D: Dependency + Clone,
{
///
/// A shortcut constructor.
///
pub fn new(inner: B) -> Self {
Self {
inner,
_pd: PhantomData,
}
}
}
impl<B, D> WriteLLVM<D> for DeployCode<B, D>
where
B: WriteLLVM<D>,
D: Dependency + Clone,
{
fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
let function_type =
context.function_type::<inkwell::types::BasicTypeEnum>(vec![], 0, false);
context.add_function(
Runtime::FUNCTION_DEPLOY_CODE,
function_type,
0,
Some(inkwell::module::Linkage::External),
)?;
self.inner.declare(context)
}
fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
context.set_current_function(Runtime::FUNCTION_DEPLOY_CODE)?;
context.set_basic_block(context.current_function().borrow().entry_block());
context.set_code_type(CodeType::Deploy);
if let Some(vyper) = context.vyper_data.as_ref() {
for index in 0..vyper.immutables_size() / revive_common::BYTE_LENGTH_FIELD {
let offset = (crate::eravm::r#const::HEAP_AUX_OFFSET_CONSTRUCTOR_RETURN_DATA
as usize)
+ (1 + index) * 2 * revive_common::BYTE_LENGTH_FIELD;
let value = index * revive_common::BYTE_LENGTH_FIELD;
let pointer = Pointer::new_with_offset(
context,
AddressSpace::HeapAuxiliary,
context.field_type(),
context.field_const(offset as u64),
"immutable_index_initializer",
);
context.build_store(pointer, context.field_const(value as u64))?;
}
}
self.inner.into_llvm(context)?;
match context
.basic_block()
.get_last_instruction()
.map(|instruction| instruction.get_opcode())
{
Some(inkwell::values::InstructionOpcode::Br) => {}
Some(inkwell::values::InstructionOpcode::Switch) => {}
_ => context
.build_unconditional_branch(context.current_function().borrow().return_block()),
}
context.set_basic_block(context.current_function().borrow().return_block());
context.build_return(None);
Ok(())
}
}
crates/llvm-context/src/eravm/context/function/runtime/deployer_call.rs
-332
View File
@@ -1,332 +0,0 @@
//!
//! The `deployer_call` function.
//!
use inkwell::types::BasicType;
use crate::eravm::context::address_space::AddressSpace;
use crate::eravm::context::function::Function;
use crate::eravm::context::pointer::Pointer;
use crate::eravm::context::Context;
use crate::eravm::Dependency;
use crate::eravm::WriteLLVM;
///
/// The `deployer_call` function.
///
/// Calls the deployer system contract, which returns the newly deployed contract address or 0.
///
/// The address is returned in the first 32-byte word of the return data. If it is 0, the 0 is
/// returned. If the entire call has failed, there is also a 0 returned.
///
#[derive(Debug)]
pub struct DeployerCall {
/// The address space where the calldata is allocated.
/// Solidity uses the ordinary heap. Vyper uses the auxiliary heap.
address_space: AddressSpace,
}
impl DeployerCall {
/// The default function name.
pub const FUNCTION_NAME: &'static str = "__deployer_call";
/// The value argument index.
pub const ARGUMENT_INDEX_VALUE: usize = 0;
/// The input offset argument index.
pub const ARGUMENT_INDEX_INPUT_OFFSET: usize = 1;
/// The input length argument index.
pub const ARGUMENT_INDEX_INPUT_LENGTH: usize = 2;
/// The signature hash argument index.
pub const ARGUMENT_INDEX_SIGNATURE_HASH: usize = 3;
/// The salt argument index.
pub const ARGUMENT_INDEX_SALT: usize = 4;
///
/// A shortcut constructor.
///
pub fn new(address_space: AddressSpace) -> Self {
Self { address_space }
}
}
impl<D> WriteLLVM<D> for DeployerCall
where
D: Dependency + Clone,
{
fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
let function_type = context.function_type(
vec![
context.field_type().as_basic_type_enum(),
context.field_type().as_basic_type_enum(),
context.field_type().as_basic_type_enum(),
context.field_type().as_basic_type_enum(),
context.field_type().as_basic_type_enum(),
],
1,
false,
);
let function = context.add_function(
Self::FUNCTION_NAME,
function_type,
1,
Some(inkwell::module::Linkage::External),
)?;
Function::set_frontend_runtime_attributes(
context.llvm,
function.borrow().declaration(),
&context.optimizer,
);
Ok(())
}
fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
context.set_current_function(Self::FUNCTION_NAME)?;
let value = context
.current_function()
.borrow()
.get_nth_param(Self::ARGUMENT_INDEX_VALUE)
.into_int_value();
let input_offset = context
.current_function()
.borrow()
.get_nth_param(Self::ARGUMENT_INDEX_INPUT_OFFSET)
.into_int_value();
let input_length = context
.current_function()
.borrow()
.get_nth_param(Self::ARGUMENT_INDEX_INPUT_LENGTH)
.into_int_value();
let signature_hash = context
.current_function()
.borrow()
.get_nth_param(Self::ARGUMENT_INDEX_SIGNATURE_HASH)
.into_int_value();
let salt = context
.current_function()
.borrow()
.get_nth_param(Self::ARGUMENT_INDEX_SALT)
.into_int_value();
let error_block = context.append_basic_block("deployer_call_error_block");
let success_block = context.append_basic_block("deployer_call_success_block");
let value_zero_block = context.append_basic_block("deployer_call_value_zero_block");
let value_non_zero_block = context.append_basic_block("deployer_call_value_non_zero_block");
let value_join_block = context.append_basic_block("deployer_call_value_join_block");
context.set_basic_block(context.current_function().borrow().entry_block());
let _abi_data = crate::eravm::utils::abi_data(
context,
input_offset,
input_length,
None,
self.address_space,
true,
)?;
let signature_pointer = Pointer::new_with_offset(
context,
self.address_space,
context.field_type(),
input_offset,
"deployer_call_signature_pointer",
);
context.build_store(signature_pointer, signature_hash)?;
let salt_offset = context.builder().build_int_add(
input_offset,
context.field_const(revive_common::BYTE_LENGTH_X32 as u64),
"deployer_call_salt_offset",
)?;
let salt_pointer = Pointer::new_with_offset(
context,
self.address_space,
context.field_type(),
salt_offset,
"deployer_call_salt_pointer",
);
context.build_store(salt_pointer, salt)?;
let arguments_offset_offset = context.builder().build_int_add(
salt_offset,
context.field_const((revive_common::BYTE_LENGTH_FIELD * 2) as u64),
"deployer_call_arguments_offset_offset",
)?;
let arguments_offset_pointer = Pointer::new_with_offset(
context,
self.address_space,
context.field_type(),
arguments_offset_offset,
"deployer_call_arguments_offset_pointer",
);
context.build_store(
arguments_offset_pointer,
context.field_const(
(crate::eravm::DEPLOYER_CALL_HEADER_SIZE
- (revive_common::BYTE_LENGTH_X32 + revive_common::BYTE_LENGTH_FIELD))
as u64,
),
)?;
let arguments_length_offset = context.builder().build_int_add(
arguments_offset_offset,
context.field_const(revive_common::BYTE_LENGTH_FIELD as u64),
"deployer_call_arguments_length_offset",
)?;
let arguments_length_pointer = Pointer::new_with_offset(
context,
self.address_space,
context.field_type(),
arguments_length_offset,
"deployer_call_arguments_length_pointer",
);
let arguments_length_value = context.builder().build_int_sub(
input_length,
context.field_const(crate::eravm::DEPLOYER_CALL_HEADER_SIZE as u64),
"deployer_call_arguments_length",
)?;
context.build_store(arguments_length_pointer, arguments_length_value)?;
let result_pointer =
context.build_alloca(context.field_type(), "deployer_call_result_pointer");
context.build_store(result_pointer, context.field_const(0))?;
let deployer_call_result_type = context.structure_type(&[
context
.llvm()
.ptr_type(AddressSpace::Generic.into())
.as_basic_type_enum(),
context.bool_type().as_basic_type_enum(),
]);
let deployer_call_result_pointer =
context.build_alloca(deployer_call_result_type, "deployer_call_result_pointer");
context.build_store(
deployer_call_result_pointer,
deployer_call_result_type.const_zero(),
)?;
let is_value_zero = context.builder().build_int_compare(
inkwell::IntPredicate::EQ,
value,
context.field_const(0),
"deployer_call_is_value_zero",
)?;
context.build_conditional_branch(is_value_zero, value_zero_block, value_non_zero_block)?;
context.set_basic_block(value_zero_block);
//let deployer_call_result = context
// .build_call(
// context.llvm_runtime().far_call,
// crate::eravm::utils::external_call_arguments(
// context,
// abi_data,
// context.field_const(zkevm_opcode_defs::ADDRESS_CONTRACT_DEPLOYER.into()),
// vec![],
// None,
// )
// .as_slice(),
// "deployer_call_ordinary",
// )
// .expect("Always returns a value");
//context.build_store(deployer_call_result_pointer, deployer_call_result)?;
context.build_unconditional_branch(value_join_block);
context.set_basic_block(value_non_zero_block);
//let deployer_call_result = context
// .build_call(
// context.llvm_runtime().far_call,
// crate::eravm::utils::external_call_arguments(
// context,
// abi_data.as_basic_value_enum(),
// context.field_const(zkevm_opcode_defs::ADDRESS_MSG_VALUE.into()),
// vec![
// value,
// context.field_const(zkevm_opcode_defs::ADDRESS_CONTRACT_DEPLOYER.into()),
// context.field_const(u64::from(crate::eravm::r#const::SYSTEM_CALL_BIT)),
// ],
// None,
// )
// .as_slice(),
// "deployer_call_system",
// )
// .expect("Always returns a value");
//context.build_store(deployer_call_result_pointer, deployer_call_result)?;
context.build_unconditional_branch(value_join_block);
context.set_basic_block(value_join_block);
let result_abi_data_pointer = context.build_gep(
deployer_call_result_pointer,
&[
context.field_const(0),
context
.integer_type(revive_common::BIT_LENGTH_X32)
.const_zero(),
],
context
.llvm()
.ptr_type(AddressSpace::Generic.into())
.as_basic_type_enum(),
"deployer_call_result_abi_data_pointer",
);
let result_abi_data =
context.build_load(result_abi_data_pointer, "deployer_call_result_abi_data")?;
let result_status_code_pointer = context.build_gep(
deployer_call_result_pointer,
&[
context.field_const(0),
context
.integer_type(revive_common::BIT_LENGTH_X32)
.const_int(1, false),
],
context.bool_type().as_basic_type_enum(),
"contract_call_external_result_status_code_pointer",
);
let result_status_code_boolean = context
.build_load(
result_status_code_pointer,
"contract_call_external_result_status_code_boolean",
)?
.into_int_value();
context.build_conditional_branch(result_status_code_boolean, success_block, error_block)?;
context.set_basic_block(success_block);
let result_abi_data_pointer = Pointer::new(
context.field_type(),
AddressSpace::Generic,
result_abi_data.into_pointer_value(),
);
let address_or_status_code = context.build_load(
result_abi_data_pointer,
"deployer_call_address_or_status_code",
)?;
context.build_store(result_pointer, address_or_status_code)?;
context.build_unconditional_branch(context.current_function().borrow().return_block());
context.set_basic_block(error_block);
let result_abi_data_pointer = Pointer::new(
context.byte_type(),
AddressSpace::Generic,
result_abi_data.into_pointer_value(),
);
context.write_abi_pointer(
result_abi_data_pointer,
crate::eravm::GLOBAL_RETURN_DATA_POINTER,
);
context.write_abi_data_size(
result_abi_data_pointer,
crate::eravm::GLOBAL_RETURN_DATA_SIZE,
);
context.build_unconditional_branch(context.current_function().borrow().return_block());
context.set_basic_block(context.current_function().borrow().return_block());
let result = context.build_load(result_pointer, "deployer_call_result")?;
context.build_return(Some(&result));
Ok(())
}
}
crates/llvm-context/src/eravm/context/function/runtime/entry.rs
-282
View File
@@ -1,282 +0,0 @@
//!
//! The entry function.
//!
use inkwell::types::BasicType;
use crate::eravm::context::address_space::AddressSpace;
use crate::eravm::context::function::runtime::Runtime;
use crate::eravm::context::Context;
use crate::eravm::Dependency;
use crate::eravm::WriteLLVM;
use crate::EraVMPointer as Pointer;
///
/// The entry function.
///
/// The function is a wrapper managing the runtime and deploy code calling logic.
///
/// Is a special runtime function that is only used by the front-end generated code.
///
#[derive(Debug, Default)]
pub struct Entry {}
impl Entry {
/// The call flags argument index.
pub const ARGUMENT_INDEX_CALL_FLAGS: usize = 0;
/// The number of mandatory arguments.
pub const MANDATORY_ARGUMENTS_COUNT: usize = 2;
/// Reserve 1kb for calldata.
pub const MAX_CALLDATA_SIZE: usize = 1024;
/// Initializes the global variables.
/// The pointers are not initialized, because it's not possible to create a null pointer.
pub fn initialize_globals<D>(context: &mut Context<D>) -> anyhow::Result<()>
where
D: Dependency + Clone,
{
let calldata_type = context.array_type(context.byte_type(), Self::MAX_CALLDATA_SIZE);
context.set_global(
crate::eravm::GLOBAL_CALLDATA_POINTER,
calldata_type,
AddressSpace::Stack,
calldata_type.get_undef(),
);
context.set_global(
crate::eravm::GLOBAL_HEAP_MEMORY_POINTER,
context.llvm().ptr_type(AddressSpace::Generic.into()),
AddressSpace::Stack,
context.xlen_type().get_undef(),
);
context.build_store(
context
.get_global(crate::eravm::GLOBAL_HEAP_MEMORY_POINTER)?
.into(),
context.build_sbrk(context.integer_const(32, 0))?,
)?;
context.set_global(
crate::eravm::GLOBAL_CALLDATA_SIZE,
context.field_type(),
AddressSpace::Stack,
context.field_undef(),
);
context.set_global(
crate::eravm::GLOBAL_RETURN_DATA_SIZE,
context.field_type(),
AddressSpace::Stack,
context.field_const(0),
);
context.set_global(
crate::eravm::GLOBAL_CALL_FLAGS,
context.field_type(),
AddressSpace::Stack,
context.field_const(0),
);
let extra_abi_data_type = context.array_type(
context.field_type().as_basic_type_enum(),
crate::eravm::EXTRA_ABI_DATA_SIZE,
);
context.set_global(
crate::eravm::GLOBAL_EXTRA_ABI_DATA,
extra_abi_data_type,
AddressSpace::Stack,
extra_abi_data_type.const_zero(),
);
Ok(())
}
/// Load the calldata via seal `input` and initialize the calldata end
/// and calldata size globals.
pub fn load_calldata<D>(context: &mut Context<D>) -> anyhow::Result<()>
where
D: Dependency + Clone,
{
let input_pointer = context
.get_global(crate::eravm::GLOBAL_CALLDATA_POINTER)?
.value
.as_pointer_value();
let input_pointer_casted = context.builder.build_ptr_to_int(
input_pointer,
context.xlen_type(),
"input_pointer_casted",
)?;
let length_pointer = context.build_alloca(context.xlen_type(), "len_ptr");
let length_pointer_casted = context.builder.build_ptr_to_int(
length_pointer.value,
context.xlen_type(),
"length_pointer_casted",
)?;
context.build_store(
length_pointer,
context.integer_const(32, Self::MAX_CALLDATA_SIZE as u64),
)?;
context.builder().build_call(
context.module().get_function("input").expect("is declared"),
&[input_pointer_casted.into(), length_pointer_casted.into()],
"call_seal_input",
)?;
// Store the calldata size
let calldata_size = context
.build_load(length_pointer, "input_size")?
.into_int_value();
let calldata_size_casted = context.builder().build_int_z_extend(
calldata_size,
context.field_type(),
"zext_input_len",
)?;
context.set_global(
crate::eravm::GLOBAL_CALLDATA_SIZE,
context.field_type(),
AddressSpace::Stack,
calldata_size_casted,
);
// Store calldata end pointer
let input_pointer = Pointer::new(
input_pointer.get_type(),
AddressSpace::Generic,
input_pointer,
);
let calldata_end_pointer = context.build_gep(
input_pointer,
&[calldata_size_casted],
context
.llvm()
.ptr_type(AddressSpace::Generic.into())
.as_basic_type_enum(),
"return_data_abi_initializer",
);
context.write_abi_pointer(
calldata_end_pointer,
crate::eravm::GLOBAL_RETURN_DATA_POINTER,
);
context.write_abi_pointer(calldata_end_pointer, crate::eravm::GLOBAL_ACTIVE_POINTER);
Ok(())
}
/// Calls the deploy code if the first function argument was `1`.
/// Calls the runtime code otherwise.
pub fn leave_entry<D>(context: &mut Context<D>) -> anyhow::Result<()>
where
D: Dependency + Clone,
{
let is_deploy = context
.current_function()
.borrow()
.get_nth_param(Self::ARGUMENT_INDEX_CALL_FLAGS);
context.set_global(
crate::eravm::GLOBAL_CALL_FLAGS,
is_deploy.get_type(),
AddressSpace::Stack,
is_deploy.into_int_value(),
);
let deploy_code_call_block = context.append_basic_block("deploy_code_call_block");
let runtime_code_call_block = context.append_basic_block("runtime_code_call_block");
context.build_conditional_branch(
is_deploy.into_int_value(),
deploy_code_call_block,
runtime_code_call_block,
)?;
let deploy_code = context
.functions
.get(Runtime::FUNCTION_DEPLOY_CODE)
.cloned()
.ok_or_else(|| anyhow::anyhow!("Contract deploy code not found"))?;
let runtime_code = context
.functions
.get(Runtime::FUNCTION_RUNTIME_CODE)
.cloned()
.ok_or_else(|| anyhow::anyhow!("Contract runtime code not found"))?;
context.set_basic_block(deploy_code_call_block);
context.build_invoke(deploy_code.borrow().declaration, &[], "deploy_code_call");
context.build_unconditional_branch(context.current_function().borrow().return_block());
context.set_basic_block(runtime_code_call_block);
context.build_invoke(runtime_code.borrow().declaration, &[], "runtime_code_call");
context.build_unconditional_branch(context.current_function().borrow().return_block());
Ok(())
}
}
impl<D> WriteLLVM<D> for Entry
where
D: Dependency + Clone,
{
fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
let entry_arguments = vec![context.bool_type().as_basic_type_enum()];
let entry_function_type = context.function_type(entry_arguments, 0, false);
context.add_function(Runtime::FUNCTION_ENTRY, entry_function_type, 0, None)?;
context.declare_extern_function("deploy")?;
context.declare_extern_function("call")?;
Ok(())
}
/// Instead of a single entrypoint, the runtime expects two exports: `call ` and `deploy`.
/// `call` and `deploy` directly call `entry`, signaling a deploy if the first arg is `1`.
/// The `entry` function loads calldata, sets globals and calls the runtime or deploy code.
fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
let entry = context
.get_function(Runtime::FUNCTION_ENTRY)
.expect("the entry function should already be declared")
.borrow()
.declaration;
crate::EraVMFunction::set_attributes(
context.llvm(),
entry,
vec![crate::EraVMAttribute::NoReturn],
true,
);
context.set_current_function("deploy")?;
context.set_basic_block(context.current_function().borrow().entry_block());
assert!(context
.build_call(entry, &[context.bool_const(true).into()], "entry_deploy")
.is_none());
context.set_basic_block(context.current_function().borrow().return_block);
context.build_unreachable();
context.set_current_function("call")?;
context.set_basic_block(context.current_function().borrow().entry_block());
assert!(context
.build_call(entry, &[context.bool_const(false).into()], "entry_call")
.is_none());
context.set_basic_block(context.current_function().borrow().return_block);
context.build_unreachable();
context.set_current_function(Runtime::FUNCTION_ENTRY)?;
context.set_basic_block(context.current_function().borrow().entry_block());
Self::initialize_globals(context)?;
Self::load_calldata(context)?;
Self::leave_entry(context)?;
context.build_unconditional_branch(context.current_function().borrow().return_block());
context.set_basic_block(context.current_function().borrow().return_block());
context.build_unreachable();
Ok(())
}
}
crates/llvm-context/src/eravm/context/function/runtime/mod.rs
-100
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@@ -1,100 +0,0 @@
//!
//! The front-end runtime functions.
//!
pub mod default_call;
pub mod deploy_code;
pub mod deployer_call;
pub mod entry;
pub mod runtime_code;
use crate::eravm::context::address_space::AddressSpace;
use crate::eravm::context::function::declaration::Declaration as FunctionDeclaration;
use crate::eravm::context::Context;
use crate::eravm::Dependency;
use crate::eravm::WriteLLVM;
use self::default_call::DefaultCall;
use self::deployer_call::DeployerCall;
///
/// The front-end runtime functions.
///
#[derive(Debug, Clone)]
pub struct Runtime {
/// The address space where the calldata is allocated.
/// Solidity uses the ordinary heap. Vyper uses the auxiliary heap.
address_space: AddressSpace,
}
impl Runtime {
/// The main entry function name.
pub const FUNCTION_ENTRY: &'static str = "__entry";
/// The deploy code function name.
pub const FUNCTION_DEPLOY_CODE: &'static str = "__deploy";
/// The runtime code function name.
pub const FUNCTION_RUNTIME_CODE: &'static str = "__runtime";
///
/// A shortcut constructor.
///
pub fn new(address_space: AddressSpace) -> Self {
Self { address_space }
}
///
/// Returns the corresponding runtime function.
///
pub fn default_call<'ctx, D>(
context: &Context<'ctx, D>,
call_function: FunctionDeclaration<'ctx>,
) -> FunctionDeclaration<'ctx>
where
D: Dependency + Clone,
{
context
.get_function(DefaultCall::name(call_function).as_str())
.expect("Always exists")
.borrow()
.declaration()
}
///
/// Returns the corresponding runtime function.
///
pub fn deployer_call<'ctx, D>(context: &Context<'ctx, D>) -> FunctionDeclaration<'ctx>
where
D: Dependency + Clone,
{
context
.get_function(DeployerCall::FUNCTION_NAME)
.expect("Always exists")
.borrow()
.declaration()
}
}
impl<D> WriteLLVM<D> for Runtime
where
D: Dependency + Clone,
{
fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
//DefaultCall::new(context.llvm_runtime().far_call).declare(context)?;
DefaultCall::new(context.llvm_runtime().static_call).declare(context)?;
DefaultCall::new(context.llvm_runtime().delegate_call).declare(context)?;
DeployerCall::new(self.address_space).declare(context)?;
Ok(())
}
fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
//DefaultCall::new(context.llvm_runtime().far_call).into_llvm(context)?;
DefaultCall::new(context.llvm_runtime().static_call).into_llvm(context)?;
DefaultCall::new(context.llvm_runtime().delegate_call).into_llvm(context)?;
DeployerCall::new(self.address_space).into_llvm(context)?;
Ok(())
}
}
crates/llvm-context/src/eravm/context/function/runtime/runtime_code.rs
-86
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@@ -1,86 +0,0 @@
//!
//! The runtime code function.
//!
use std::marker::PhantomData;
use crate::eravm::context::code_type::CodeType;
use crate::eravm::context::function::runtime::Runtime;
use crate::eravm::context::Context;
use crate::eravm::Dependency;
use crate::eravm::WriteLLVM;
///
/// The runtime code function.
///
/// Is a special function that is only used by the front-end generated code.
///
#[derive(Debug)]
pub struct RuntimeCode<B, D>
where
B: WriteLLVM<D>,
D: Dependency + Clone,
{
/// The runtime code AST representation.
inner: B,
/// The `D` phantom data.
_pd: PhantomData<D>,
}
impl<B, D> RuntimeCode<B, D>
where
B: WriteLLVM<D>,
D: Dependency + Clone,
{
///
/// A shortcut constructor.
///
pub fn new(inner: B) -> Self {
Self {
inner,
_pd: PhantomData,
}
}
}
impl<B, D> WriteLLVM<D> for RuntimeCode<B, D>
where
B: WriteLLVM<D>,
D: Dependency + Clone,
{
fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
let function_type =
context.function_type::<inkwell::types::BasicTypeEnum>(vec![], 0, false);
context.add_function(
Runtime::FUNCTION_RUNTIME_CODE,
function_type,
0,
Some(inkwell::module::Linkage::External),
)?;
self.inner.declare(context)
}
fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
context.set_current_function(Runtime::FUNCTION_RUNTIME_CODE)?;
context.set_basic_block(context.current_function().borrow().entry_block());
context.set_code_type(CodeType::Runtime);
self.inner.into_llvm(context)?;
match context
.basic_block()
.get_last_instruction()
.map(|instruction| instruction.get_opcode())
{
Some(inkwell::values::InstructionOpcode::Br) => {}
Some(inkwell::values::InstructionOpcode::Switch) => {}
_ => context
.build_unconditional_branch(context.current_function().borrow().return_block()),
}
context.set_basic_block(context.current_function().borrow().return_block());
context.build_unreachable();
Ok(())
}
}
crates/llvm-context/src/eravm/context/function/vyper_data.rs
-52
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@@ -1,52 +0,0 @@
//!
//! The LLVM function Vyper data.
//!
use std::collections::HashMap;
///
/// The LLVM function Vyper data.
///
/// Describes some data that is only relevant to Vyper.
///
#[derive(Debug)]
pub struct VyperData {
/// The block-local variables. They are still allocated at the beginning of the function,
/// but their parent block must be known in order to pass the implicit arguments thereto.
/// Is only used by the Vyper LLL IR compiler.
label_arguments: HashMap<String, Vec<String>>,
}
impl Default for VyperData {
fn default() -> Self {
Self {
label_arguments: HashMap::with_capacity(Self::LABEL_ARGUMENTS_HASHMAP_INITIAL_CAPACITY),
}
}
}
impl VyperData {
/// The label arguments hashmap default capacity.
const LABEL_ARGUMENTS_HASHMAP_INITIAL_CAPACITY: usize = 16;
///
/// A shortcut constructor.
///
pub fn new() -> Self {
Self::default()
}
///
/// Returns the list of a Vyper label arguments.
///
pub fn label_arguments(&self, label_name: &str) -> Option<Vec<String>> {
self.label_arguments.get(label_name).cloned()
}
///
/// Inserts arguments for the specified label.
///
pub fn insert_label_arguments(&mut self, label_name: String, arguments: Vec<String>) {
self.label_arguments.insert(label_name, arguments);
}
}
crates/llvm-context/src/eravm/context/function/yul_data.rs
-53
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@@ -1,53 +0,0 @@
//!
//! The LLVM function Yul data.
//!
use std::collections::HashMap;
use num::BigUint;
///
/// The LLVM function Yul data.
///
/// Describes some data that is only relevant to Yul.
///
#[derive(Debug)]
pub struct YulData {
/// The constants saved to variables. Used for peculiar cases like call simulation.
/// It is a partial implementation of the constant propagation.
constants: HashMap<String, BigUint>,
}
impl Default for YulData {
fn default() -> Self {
Self {
constants: HashMap::with_capacity(Self::CONSTANTS_HASHMAP_INITIAL_CAPACITY),
}
}
}
impl YulData {
/// The constants hashmap default capacity.
const CONSTANTS_HASHMAP_INITIAL_CAPACITY: usize = 16;
///
/// A shortcut constructor.
///
pub fn new() -> Self {
Self::default()
}
///
/// Returns a constant if it has been saved.
///
pub fn get_constant(&self, name: &str) -> Option<BigUint> {
self.constants.get(name).cloned()
}
///
/// Saves a constant detected with the partial constant propagation.
///
pub fn insert_constant(&mut self, name: String, value: BigUint) {
self.constants.insert(name, value);
}
}
crates/llvm-context/src/eravm/context/global.rs
-63
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@@ -1,63 +0,0 @@
//!
//! The LLVM global value.
//!
use inkwell::types::BasicType;
use inkwell::values::BasicValue;
use crate::eravm::context::address_space::AddressSpace;
use crate::eravm::context::Context;
use crate::EraVMDependency;
///
/// The LLVM global value.
///
#[derive(Debug, Clone, Copy)]
pub struct Global<'ctx> {
/// The global type.
pub r#type: inkwell::types::BasicTypeEnum<'ctx>,
/// The global value.
pub value: inkwell::values::GlobalValue<'ctx>,
}
impl<'ctx> Global<'ctx> {
///
/// A shortcut constructor.
///
pub fn new<D, T, V>(
context: &mut Context<'ctx, D>,
r#type: T,
address_space: AddressSpace,
initializer: V,
name: &str,
) -> Self
where
D: EraVMDependency + Clone,
T: BasicType<'ctx>,
V: BasicValue<'ctx>,
{
let r#type = r#type.as_basic_type_enum();
let value = context
.module()
.add_global(r#type, Some(address_space.into()), name);
let global = Self { r#type, value };
global.value.set_linkage(inkwell::module::Linkage::Private);
global
.value
.set_visibility(inkwell::GlobalVisibility::Default);
global.value.set_externally_initialized(false);
if let AddressSpace::Code = address_space {
global.value.set_constant(true);
}
if !r#type.is_pointer_type() {
global.value.set_initializer(&initializer);
} else {
global.value.set_initializer(&r#type.const_zero());
context.build_store(global.into(), initializer).unwrap();
}
global
}
}
crates/llvm-context/src/eravm/context/loop.rs
-33
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@@ -1,33 +0,0 @@
//!
//! The LLVM IR generator loop.
//!
///
/// The LLVM IR generator loop.
///
#[derive(Debug, Clone)]
pub struct Loop<'ctx> {
/// The loop current block.
pub body_block: inkwell::basic_block::BasicBlock<'ctx>,
/// The increment block before the body.
pub continue_block: inkwell::basic_block::BasicBlock<'ctx>,
/// The join block after the body.
pub join_block: inkwell::basic_block::BasicBlock<'ctx>,
}
impl<'ctx> Loop<'ctx> {
///
/// A shortcut constructor.
///
pub fn new(
body_block: inkwell::basic_block::BasicBlock<'ctx>,
continue_block: inkwell::basic_block::BasicBlock<'ctx>,
join_block: inkwell::basic_block::BasicBlock<'ctx>,
) -> Self {
Self {
body_block,
continue_block,
join_block,
}
}
}
crates/llvm-context/src/eravm/context/mod.rs
-1860
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File diff suppressed because it is too large Load Diff
crates/llvm-context/src/eravm/context/pointer.rs
-134
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@@ -1,134 +0,0 @@
//!
//! The LLVM pointer.
//!
use inkwell::types::BasicType;
use crate::eravm::context::address_space::AddressSpace;
use crate::eravm::context::global::Global;
use crate::eravm::context::Context;
use crate::eravm::Dependency;
///
/// The LLVM pointer.
///
#[derive(Debug, Clone, Copy)]
pub struct Pointer<'ctx> {
/// The pointee type.
pub r#type: inkwell::types::BasicTypeEnum<'ctx>,
/// The address space.
pub address_space: AddressSpace,
/// The pointer value.
pub value: inkwell::values::PointerValue<'ctx>,
}
impl<'ctx> Pointer<'ctx> {
///
/// A shortcut constructor.
///
pub fn new<T>(
r#type: T,
address_space: AddressSpace,
value: inkwell::values::PointerValue<'ctx>,
) -> Self
where
T: BasicType<'ctx>,
{
Self {
r#type: r#type.as_basic_type_enum(),
address_space,
value,
}
}
///
/// Wraps a 256-bit primitive type pointer.
///
pub fn new_stack_field<D>(
context: &Context<'ctx, D>,
value: inkwell::values::PointerValue<'ctx>,
) -> Self
where
D: Dependency + Clone,
{
Self {
r#type: context.field_type().as_basic_type_enum(),
address_space: AddressSpace::Stack,
value,
}
}
///
/// Creates a new pointer with the specified `offset`.
///
pub fn new_with_offset<D, T>(
context: &Context<'ctx, D>,
address_space: AddressSpace,
r#type: T,
offset: inkwell::values::IntValue<'ctx>,
name: &str,
) -> Self
where
D: Dependency + Clone,
T: BasicType<'ctx>,
{
assert_ne!(
address_space,
AddressSpace::Stack,
"Stack pointers cannot be addressed"
);
let offset = context.safe_truncate_int_to_i32(offset).unwrap();
let value = context
.builder
.build_int_to_ptr(offset, context.llvm().ptr_type(address_space.into()), name)
.unwrap();
Self::new(r#type, address_space, value)
}
///
/// Casts the pointer into another type.
///
pub fn cast<T>(self, r#type: T) -> Self
where
T: BasicType<'ctx>,
{
Self {
r#type: r#type.as_basic_type_enum(),
address_space: self.address_space,
value: self.value,
}
}
pub fn address_space_cast<D>(
self,
context: &Context<'ctx, D>,
address_space: AddressSpace,
name: &str,
) -> anyhow::Result<Self>
where
D: Dependency + Clone,
{
let value = context.builder().build_address_space_cast(
self.value,
context.llvm().ptr_type(address_space.into()),
name,
)?;
Ok(Self {
address_space,
value,
..self
})
}
}
impl<'ctx> From<Global<'ctx>> for Pointer<'ctx> {
fn from(global: Global<'ctx>) -> Self {
Self {
r#type: global.r#type,
address_space: AddressSpace::Stack,
value: global.value.as_pointer_value(),
}
}
}
crates/llvm-context/src/eravm/context/solidity_data.rs
-59
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@@ -1,59 +0,0 @@
//!
//! The LLVM IR generator Solidity data.
//!
use std::collections::BTreeMap;
///
/// The LLVM IR generator Solidity data.
///
/// Describes some data that is only relevant to Solidity.
///
#[derive(Debug, Default)]
pub struct SolidityData {
/// The immutables identifier-to-offset mapping. Is only used by Solidity due to
/// the arbitrariness of its identifiers.
immutables: BTreeMap<String, usize>,
}
impl SolidityData {
///
/// A shortcut constructor.
///
pub fn new() -> Self {
Self::default()
}
///
/// Returns the current number of immutables values in the contract.
///
pub fn immutables_size(&self) -> usize {
self.immutables.len() * revive_common::BYTE_LENGTH_FIELD
}
///
/// Allocates memory for an immutable value in the auxiliary heap.
///
/// If the identifier is already known, just returns its offset.
///
pub fn allocate_immutable(&mut self, identifier: &str) -> usize {
let number_of_elements = self.immutables.len();
let new_offset = number_of_elements * revive_common::BYTE_LENGTH_FIELD;
*self
.immutables
.entry(identifier.to_owned())
.or_insert(new_offset)
}
///
/// Gets the offset of the immutable value.
///
/// If the value is not yet allocated, then it is done forcibly.
///
pub fn get_or_allocate_immutable(&mut self, identifier: &str) -> usize {
match self.immutables.get(identifier).copied() {
Some(offset) => offset,
None => self.allocate_immutable(identifier),
}
}
}
crates/llvm-context/src/eravm/context/tests.rs
-136
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@@ -1,136 +0,0 @@
//!
//! The LLVM IR generator context tests.
//!
use crate::eravm::context::attribute::Attribute;
use crate::eravm::context::Context;
use crate::eravm::DummyDependency;
use crate::optimizer::settings::Settings as OptimizerSettings;
use crate::optimizer::Optimizer;
pub fn create_context(
llvm: &inkwell::context::Context,
optimizer_settings: OptimizerSettings,
) -> Context<DummyDependency> {
crate::eravm::initialize_target();
let module = llvm.create_module("test");
let optimizer = Optimizer::new(optimizer_settings);
Context::<DummyDependency>::new(llvm, module, optimizer, None, true, None)
}
#[test]
pub fn check_attribute_null_pointer_is_invalid() {
let llvm = inkwell::context::Context::create();
let mut context = create_context(&llvm, OptimizerSettings::cycles());
let function = context
.add_function(
"test",
context
.field_type()
.fn_type(&[context.field_type().into()], false),
1,
Some(inkwell::module::Linkage::External),
)
.expect("Failed to add function");
assert!(function
.borrow()
.declaration()
.value
.attributes(inkwell::attributes::AttributeLoc::Function)
.contains(&llvm.create_enum_attribute(Attribute::NullPointerIsValid as u32, 0)));
}
#[test]
pub fn check_attribute_optimize_for_size_mode_3() {
let llvm = inkwell::context::Context::create();
let mut context = create_context(&llvm, OptimizerSettings::cycles());
let function = context
.add_function(
"test",
context
.field_type()
.fn_type(&[context.field_type().into()], false),
1,
Some(inkwell::module::Linkage::External),
)
.expect("Failed to add function");
assert!(!function
.borrow()
.declaration()
.value
.attributes(inkwell::attributes::AttributeLoc::Function)
.contains(&llvm.create_enum_attribute(Attribute::OptimizeForSize as u32, 0)));
}
#[test]
pub fn check_attribute_optimize_for_size_mode_z() {
let llvm = inkwell::context::Context::create();
let mut context = create_context(&llvm, OptimizerSettings::size());
let function = context
.add_function(
"test",
context
.field_type()
.fn_type(&[context.field_type().into()], false),
1,
Some(inkwell::module::Linkage::External),
)
.expect("Failed to add function");
assert!(function
.borrow()
.declaration()
.value
.attributes(inkwell::attributes::AttributeLoc::Function)
.contains(&llvm.create_enum_attribute(Attribute::OptimizeForSize as u32, 0)));
}
#[test]
pub fn check_attribute_min_size_mode_3() {
let llvm = inkwell::context::Context::create();
let mut context = create_context(&llvm, OptimizerSettings::cycles());
let function = context
.add_function(
"test",
context
.field_type()
.fn_type(&[context.field_type().into()], false),
1,
Some(inkwell::module::Linkage::External),
)
.expect("Failed to add function");
assert!(!function
.borrow()
.declaration()
.value
.attributes(inkwell::attributes::AttributeLoc::Function)
.contains(&llvm.create_enum_attribute(Attribute::MinSize as u32, 0)));
}
#[test]
pub fn check_attribute_min_size_mode_z() {
let llvm = inkwell::context::Context::create();
let mut context = create_context(&llvm, OptimizerSettings::size());
let function = context
.add_function(
"test",
context
.field_type()
.fn_type(&[context.field_type().into()], false),
1,
Some(inkwell::module::Linkage::External),
)
.expect("Failed to add function");
assert!(function
.borrow()
.declaration()
.value
.attributes(inkwell::attributes::AttributeLoc::Function)
.contains(&llvm.create_enum_attribute(Attribute::MinSize as u32, 0)));
}
crates/llvm-context/src/eravm/context/vyper_data.rs
-50
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@@ -1,50 +0,0 @@
//!
//! The LLVM IR generator Vyper data.
//!
///
/// The LLVM IR generator Vyper data.
///
/// Describes some data that is only relevant to Vyper.
///
#[derive(Debug)]
pub struct VyperData {
/// The immutables size tracker. Stores the size in bytes.
/// Does not take into account the size of the indexes.
immutables_size: usize,
/// Whether the contract forwarder has been used.
is_forwarder_used: bool,
}
impl VyperData {
///
/// A shortcut constructor.
///
pub fn new(immutables_size: usize, is_forwarder_used: bool) -> Self {
Self {
immutables_size,
is_forwarder_used,
}
}
///
/// Returns the size of the immutables data of the contract.
///
pub fn immutables_size(&self) -> usize {
self.immutables_size
}
///
/// Sets the forwarder usage flag.
///
pub fn set_is_forwarder_used(&mut self) {
self.is_forwarder_used = true;
}
///
/// Returns the forwarder usage flag.
///
pub fn is_forwarder_used(&self) -> bool {
self.is_forwarder_used
}
}
crates/llvm-context/src/eravm/context/yul_data.rs
-92
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@@ -1,92 +0,0 @@
//!
//! The LLVM IR generator Yul data.
//!
use std::collections::BTreeMap;
use num::Zero;
///
/// The LLVM IR generator Yul data.
///
/// Describes some data that is only relevant to Yul.
///
#[derive(Debug, Default)]
pub struct YulData {
/// The system mode flag.
/// The call simulations only work if this mode is enabled.
is_system_mode: bool,
/// The list of constant arrays in the code section.
/// It is a temporary storage used until the finalization method is called.
const_arrays: BTreeMap<u8, Vec<num::BigUint>>,
}
impl YulData {
///
/// A shortcut constructor.
///
pub fn new(is_system_mode: bool) -> Self {
Self {
is_system_mode,
const_arrays: BTreeMap::new(),
}
}
///
/// Whether the system mode is enabled.
///
pub fn is_system_mode(&self) -> bool {
self.is_system_mode
}
///
/// Declares a temporary constant array representation.
///
pub fn const_array_declare(&mut self, index: u8, size: u16) -> anyhow::Result<()> {
if self.const_arrays.contains_key(&index) {
anyhow::bail!(
"The constant array with index {} is already declared",
index
);
}
self.const_arrays
.insert(index, vec![num::BigUint::zero(); size as usize]);
Ok(())
}
///
/// Sets a value in the constant array representation.
///
pub fn const_array_set(
&mut self,
index: u8,
offset: u16,
value: num::BigUint,
) -> anyhow::Result<()> {
let array = self.const_arrays.get_mut(&index).ok_or_else(|| {
anyhow::anyhow!("The constant array with index {} is not declared", index)
})?;
if offset >= array.len() as u16 {
anyhow::bail!(
"The constant array with index {} has size {} but the offset is {}",
index,
array.len(),
offset,
);
}
array[offset as usize] = value;
Ok(())
}
///
/// Finalizes the constant array declaration.
///
pub fn const_array_take(&mut self, index: u8) -> anyhow::Result<Vec<num::BigUint>> {
self.const_arrays.remove(&index).ok_or_else(|| {
anyhow::anyhow!("The constant array with index {} is not declared", index)
})
}
}
crates/llvm-context/src/eravm/evm/arithmetic.rs
-149
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@@ -1,149 +0,0 @@
//!
//! Translates the arithmetic operations.
//!
use inkwell::values::BasicValue;
use crate::eravm::context::Context;
use crate::eravm::Dependency;
///
/// Translates the arithmetic addition.
///
pub fn addition<'ctx, D>(
context: &mut Context<'ctx, D>,
operand_1: inkwell::values::IntValue<'ctx>,
operand_2: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
Ok(context
.builder()
.build_int_add(operand_1, operand_2, "addition_result")?
.as_basic_value_enum())
}
///
/// Translates the arithmetic subtraction.
///
pub fn subtraction<'ctx, D>(
context: &mut Context<'ctx, D>,
operand_1: inkwell::values::IntValue<'ctx>,
operand_2: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
Ok(context
.builder()
.build_int_sub(operand_1, operand_2, "subtraction_result")?
.as_basic_value_enum())
}
///
/// Translates the arithmetic multiplication.
///
pub fn multiplication<'ctx, D>(
context: &mut Context<'ctx, D>,
operand_1: inkwell::values::IntValue<'ctx>,
operand_2: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
Ok(context
.builder()
.build_int_mul(operand_1, operand_2, "multiplication_result")?
.as_basic_value_enum())
}
///
/// Translates the arithmetic division.
///
pub fn division<'ctx, D>(
context: &mut Context<'ctx, D>,
operand_1: inkwell::values::IntValue<'ctx>,
operand_2: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
Ok(context
.builder()
.build_int_unsigned_div(operand_1, operand_2, "udiv")?
.into())
}
///
/// Translates the arithmetic remainder.
///
pub fn remainder<'ctx, D>(
context: &mut Context<'ctx, D>,
operand_1: inkwell::values::IntValue<'ctx>,
operand_2: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
Ok(context
.build_call(
context.llvm_runtime().r#mod,
&[
operand_1.as_basic_value_enum(),
operand_2.as_basic_value_enum(),
],
"add_mod_call",
)
.expect("Always exists"))
}
///
/// Translates the signed arithmetic division.
///
/// Two differences between the EVM and LLVM IR:
/// 1. In case of division by zero, 0 is returned.
/// 2. In case of overflow, the first argument is returned.
///
pub fn division_signed<'ctx, D>(
context: &mut Context<'ctx, D>,
operand_1: inkwell::values::IntValue<'ctx>,
operand_2: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
Ok(context
.build_call(
context.llvm_runtime().sdiv,
&[
operand_1.as_basic_value_enum(),
operand_2.as_basic_value_enum(),
],
"add_mod_call",
)
.expect("Always exists"))
}
///
/// Translates the signed arithmetic remainder.
///
pub fn remainder_signed<'ctx, D>(
context: &mut Context<'ctx, D>,
operand_1: inkwell::values::IntValue<'ctx>,
operand_2: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
Ok(context
.build_call(
context.llvm_runtime().smod,
&[
operand_1.as_basic_value_enum(),
operand_2.as_basic_value_enum(),
],
"add_mod_call",
)
.expect("Always exists"))
}
crates/llvm-context/src/eravm/evm/bitwise.rs
-235
View File
@@ -1,235 +0,0 @@
//!
//! Translates the bitwise operations.
//!
use inkwell::values::BasicValue;
use crate::eravm::context::Context;
use crate::eravm::Dependency;
///
/// Translates the bitwise OR.
///
pub fn or<'ctx, D>(
context: &mut Context<'ctx, D>,
operand_1: inkwell::values::IntValue<'ctx>,
operand_2: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
Ok(context
.builder()
.build_or(operand_1, operand_2, "or_result")?
.as_basic_value_enum())
}
///
/// Translates the bitwise XOR.
///
pub fn xor<'ctx, D>(
context: &mut Context<'ctx, D>,
operand_1: inkwell::values::IntValue<'ctx>,
operand_2: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
Ok(context
.builder()
.build_xor(operand_1, operand_2, "xor_result")?
.as_basic_value_enum())
}
///
/// Translates the bitwise AND.
///
pub fn and<'ctx, D>(
context: &mut Context<'ctx, D>,
operand_1: inkwell::values::IntValue<'ctx>,
operand_2: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
Ok(context
.builder()
.build_and(operand_1, operand_2, "and_result")?
.as_basic_value_enum())
}
///
/// Translates the bitwise shift left.
///
pub fn shift_left<'ctx, D>(
context: &mut Context<'ctx, D>,
shift: inkwell::values::IntValue<'ctx>,
value: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
let overflow_block = context.append_basic_block("shift_left_overflow");
let non_overflow_block = context.append_basic_block("shift_left_non_overflow");
let join_block = context.append_basic_block("shift_left_join");
let result_pointer = context.build_alloca(context.field_type(), "shift_left_result_pointer");
let condition_is_overflow = context.builder().build_int_compare(
inkwell::IntPredicate::UGT,
shift,
context.field_const((revive_common::BIT_LENGTH_FIELD - 1) as u64),
"shift_left_is_overflow",
)?;
context.build_conditional_branch(condition_is_overflow, overflow_block, non_overflow_block)?;
context.set_basic_block(overflow_block);
context.build_store(result_pointer, context.field_const(0))?;
context.build_unconditional_branch(join_block);
context.set_basic_block(non_overflow_block);
let value =
context
.builder()
.build_left_shift(value, shift, "shift_left_non_overflow_result")?;
context.build_store(result_pointer, value)?;
context.build_unconditional_branch(join_block);
context.set_basic_block(join_block);
context.build_load(result_pointer, "shift_left_result")
}
///
/// Translates the bitwise shift right.
///
pub fn shift_right<'ctx, D>(
context: &mut Context<'ctx, D>,
shift: inkwell::values::IntValue<'ctx>,
value: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
let overflow_block = context.append_basic_block("shift_right_overflow");
let non_overflow_block = context.append_basic_block("shift_right_non_overflow");
let join_block = context.append_basic_block("shift_right_join");
let result_pointer = context.build_alloca(context.field_type(), "shift_right_result_pointer");
let condition_is_overflow = context.builder().build_int_compare(
inkwell::IntPredicate::UGT,
shift,
context.field_const((revive_common::BIT_LENGTH_FIELD - 1) as u64),
"shift_right_is_overflow",
)?;
context.build_conditional_branch(condition_is_overflow, overflow_block, non_overflow_block)?;
context.set_basic_block(overflow_block);
context.build_store(result_pointer, context.field_const(0))?;
context.build_unconditional_branch(join_block);
context.set_basic_block(non_overflow_block);
let value = context.builder().build_right_shift(
value,
shift,
false,
"shift_right_non_overflow_result",
)?;
context.build_store(result_pointer, value)?;
context.build_unconditional_branch(join_block);
context.set_basic_block(join_block);
context.build_load(result_pointer, "shift_right_result")
}
///
/// Translates the arithmetic bitwise shift right.
///
pub fn shift_right_arithmetic<'ctx, D>(
context: &mut Context<'ctx, D>,
shift: inkwell::values::IntValue<'ctx>,
value: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
let overflow_block = context.append_basic_block("shift_right_arithmetic_overflow");
let overflow_positive_block =
context.append_basic_block("shift_right_arithmetic_overflow_positive");
let overflow_negative_block =
context.append_basic_block("shift_right_arithmetic_overflow_negative");
let non_overflow_block = context.append_basic_block("shift_right_arithmetic_non_overflow");
let join_block = context.append_basic_block("shift_right_arithmetic_join");
let result_pointer = context.build_alloca(
context.field_type(),
"shift_right_arithmetic_result_pointer",
);
let condition_is_overflow = context.builder().build_int_compare(
inkwell::IntPredicate::UGT,
shift,
context.field_const((revive_common::BIT_LENGTH_FIELD - 1) as u64),
"shift_right_arithmetic_is_overflow",
)?;
context.build_conditional_branch(condition_is_overflow, overflow_block, non_overflow_block)?;
context.set_basic_block(overflow_block);
let sign_bit = context.builder().build_right_shift(
value,
context.field_const((revive_common::BIT_LENGTH_FIELD - 1) as u64),
false,
"shift_right_arithmetic_sign_bit",
)?;
let condition_is_negative = context.builder().build_int_truncate_or_bit_cast(
sign_bit,
context.bool_type(),
"shift_right_arithmetic_sign_bit_truncated",
)?;
context.build_conditional_branch(
condition_is_negative,
overflow_negative_block,
overflow_positive_block,
)?;
context.set_basic_block(overflow_positive_block);
context.build_store(result_pointer, context.field_const(0))?;
context.build_unconditional_branch(join_block);
context.set_basic_block(overflow_negative_block);
context.build_store(result_pointer, context.field_type().const_all_ones())?;
context.build_unconditional_branch(join_block);
context.set_basic_block(non_overflow_block);
let value = context.builder().build_right_shift(
value,
shift,
true,
"shift_right_arithmetic_non_overflow_result",
)?;
context.build_store(result_pointer, value)?;
context.build_unconditional_branch(join_block);
context.set_basic_block(join_block);
context.build_load(result_pointer, "shift_right_arithmetic_result")
}
///
/// Translates the `byte` instruction.
///
pub fn byte<'ctx, D>(
context: &mut Context<'ctx, D>,
operand_1: inkwell::values::IntValue<'ctx>,
operand_2: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
Ok(context
.build_call(
context.llvm_runtime().byte,
&[
operand_1.as_basic_value_enum(),
operand_2.as_basic_value_enum(),
],
"byte_call",
)
.expect("Always exists"))
}
crates/llvm-context/src/eravm/evm/call.rs
-116
View File
@@ -1,116 +0,0 @@
//!
//! Translates a contract call.
//!
use inkwell::values::BasicValue;
use crate::eravm::context::argument::Argument;
use crate::eravm::context::function::declaration::Declaration as FunctionDeclaration;
use crate::eravm::context::Context;
use crate::eravm::Dependency;
///
/// Translates a contract call.
///
/// If the `simulation_address` is specified, the call is substituted with another instruction
/// according to the specification.
///
#[allow(clippy::too_many_arguments)]
pub fn default<'ctx, D>(
_context: &mut Context<'ctx, D>,
_function: FunctionDeclaration<'ctx>,
_gas: inkwell::values::IntValue<'ctx>,
_address: inkwell::values::IntValue<'ctx>,
_value: Option<inkwell::values::IntValue<'ctx>>,
_input_offset: inkwell::values::IntValue<'ctx>,
_input_length: inkwell::values::IntValue<'ctx>,
_output_offset: inkwell::values::IntValue<'ctx>,
_output_length: inkwell::values::IntValue<'ctx>,
_constants: Vec<Option<num::BigUint>>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
todo!();
/*
let ordinary_block = context.append_basic_block("contract_call_ordinary_block");
let join_block = context.append_basic_block("contract_call_join_block");
let result_pointer = context.build_alloca(context.field_type(), "contract_call_result_pointer");
context.build_store(result_pointer, context.field_const(0));
context.builder().build_switch(
address,
ordinary_block,
&[(
context.field_const(zkevm_opcode_defs::ADDRESS_IDENTITY.into()),
identity_block,
)],
)?;
{
context.set_basic_block(identity_block);
let result = identity(context, output_offset, input_offset, output_length)?;
context.build_store(result_pointer, result);
context.build_unconditional_branch(join_block);
}
context.set_basic_block(ordinary_block);
let result = if let Some(value) = value {
default_wrapped(
context,
function,
gas,
value,
address,
input_offset,
input_length,
output_offset,
output_length,
)?
} else {
let function = Runtime::default_call(context, function);
context
.build_call(
function,
&[
gas.as_basic_value_enum(),
address.as_basic_value_enum(),
input_offset.as_basic_value_enum(),
input_length.as_basic_value_enum(),
output_offset.as_basic_value_enum(),
output_length.as_basic_value_enum(),
],
"default_call",
)
.expect("Always exists")
};
context.build_store(result_pointer, result);
context.build_unconditional_branch(join_block);
context.set_basic_block(join_block);
let result = context.build_load(result_pointer, "contract_call_result");
Ok(result)
*/
}
///
/// Translates the Yul `linkersymbol` instruction.
///
pub fn linker_symbol<'ctx, D>(
context: &mut Context<'ctx, D>,
mut arguments: [Argument<'ctx>; 1],
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
let path = arguments[0]
.original
.take()
.ok_or_else(|| anyhow::anyhow!("Linker symbol literal is missing"))?;
Ok(context
.resolve_library(path.as_str())?
.as_basic_value_enum())
}
crates/llvm-context/src/eravm/evm/calldata.rs
-84
View File
@@ -1,84 +0,0 @@
//!
//! Translates the calldata instructions.
//!
use crate::eravm::context::address_space::AddressSpace;
use crate::eravm::context::pointer::Pointer;
use crate::eravm::context::Context;
use crate::eravm::Dependency;
use inkwell::types::BasicType;
///
/// Translates the calldata load.
///
pub fn load<'ctx, D>(
context: &mut Context<'ctx, D>,
offset: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
let calldata_pointer = context
.get_global(crate::eravm::GLOBAL_CALLDATA_POINTER)?
.value
.as_pointer_value();
let offset = context.build_gep(
Pointer::new(context.byte_type(), AddressSpace::Stack, calldata_pointer),
&[offset],
context.field_type().as_basic_type_enum(),
"calldata_pointer_with_offset",
);
context
.build_load(offset, "calldata_value")
.and_then(|value| context.build_byte_swap(value))
}
///
/// Translates the calldata size.
///
pub fn size<'ctx, D>(
context: &mut Context<'ctx, D>,
) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
where
D: Dependency + Clone,
{
let value = context.get_global_value(crate::eravm::GLOBAL_CALLDATA_SIZE)?;
Ok(value)
}
///
/// Translates the calldata copy.
///
pub fn copy<'ctx, D>(
context: &mut Context<'ctx, D>,
destination_offset: inkwell::values::IntValue<'ctx>,
source_offset: inkwell::values::IntValue<'ctx>,
size: inkwell::values::IntValue<'ctx>,
) -> anyhow::Result<()>
where
D: Dependency + Clone,
{
let offset = context.safe_truncate_int_to_i32(destination_offset)?;
let size = context.safe_truncate_int_to_i32(size)?;
let destination = context.build_heap_gep(offset, size)?;
let calldata_pointer = context
.get_global(crate::eravm::GLOBAL_CALLDATA_POINTER)?
.value
.as_pointer_value();
let source = context.build_gep(
Pointer::new(context.byte_type(), AddressSpace::Stack, calldata_pointer),
&[context.safe_truncate_int_to_i32(source_offset)?],
context.byte_type(),
"calldata_pointer_with_offset",
);
context.build_memcpy(
context.intrinsics().memory_copy_from_generic,
destination,
source,
size,
"calldata_copy_memcpy_from_child",
)
}

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