use std::array::TryFromSliceError;
use std::fmt::Debug;
use std::num::ParseIntError;
use crate::xdr::{
self, ContractCodeEntryExt, Error as XdrError, Hash, HostFunction, InvokeHostFunctionOp,
LedgerEntryData, Limits, OperationBody, ReadXdr, ScMetaEntry, ScMetaV0, Transaction,
TransactionResult, TransactionResultResult, VecM, WriteXdr,
};
use clap::{command, Parser};
use super::restore;
use crate::{
assembled::simulate_and_assemble_transaction,
commands::{
global,
txn_result::{TxnEnvelopeResult, TxnResult},
NetworkRunnable,
},
config::{self, data, network},
key,
print::Print,
rpc,
tx::builder::{self, TxExt},
utils, wasm,
};
const CONTRACT_META_SDK_KEY: &str = "rssdkver";
const PUBLIC_NETWORK_PASSPHRASE: &str = "Public Global Stellar Network ; September 2015";
#[derive(Parser, Debug, Clone)]
#[group(skip)]
pub struct Cmd {
#[command(flatten)]
pub config: config::Args,
#[command(flatten)]
pub fee: crate::fee::Args,
#[command(flatten)]
pub wasm: wasm::Args,
#[arg(long, short = 'i', default_value = "false")]
pub ignore_checks: bool,
}
#[derive(thiserror::Error, Debug)]
pub enum Error {
#[error("error parsing int: {0}")]
ParseIntError(#[from] ParseIntError),
#[error("internal conversion error: {0}")]
TryFromSliceError(#[from] TryFromSliceError),
#[error("xdr processing error: {0}")]
Xdr(#[from] XdrError),
#[error("jsonrpc error: {0}")]
JsonRpc(#[from] jsonrpsee_core::Error),
#[error(transparent)]
Rpc(#[from] rpc::Error),
#[error(transparent)]
Config(#[from] config::Error),
#[error(transparent)]
Wasm(#[from] wasm::Error),
#[error("unexpected ({length}) simulate transaction result length")]
UnexpectedSimulateTransactionResultSize { length: usize },
#[error(transparent)]
Restore(#[from] restore::Error),
#[error("cannot parse WASM file {wasm}: {error}")]
CannotParseWasm {
wasm: std::path::PathBuf,
error: wasm::Error,
},
#[error("the deployed smart contract {wasm} was built with Soroban Rust SDK v{version}, a release candidate version not intended for use with the Stellar Public Network. To deploy anyway, use --ignore-checks")]
ContractCompiledWithReleaseCandidateSdk {
wasm: std::path::PathBuf,
version: String,
},
#[error(transparent)]
Network(#[from] network::Error),
#[error(transparent)]
Data(#[from] data::Error),
#[error(transparent)]
Builder(#[from] builder::Error),
}
impl Cmd {
pub async fn run(&self, global_args: &global::Args) -> Result<(), Error> {
let res = self
.run_against_rpc_server(Some(global_args), None)
.await?
.to_envelope();
match res {
TxnEnvelopeResult::TxnEnvelope(tx) => println!("{}", tx.to_xdr_base64(Limits::none())?),
TxnEnvelopeResult::Res(hash) => println!("{}", hex::encode(hash)),
};
Ok(())
}
}
#[async_trait::async_trait]
impl NetworkRunnable for Cmd {
type Error = Error;
type Result = TxnResult<Hash>;
async fn run_against_rpc_server(
&self,
args: Option<&global::Args>,
config: Option<&config::Args>,
) -> Result<TxnResult<Hash>, Error> {
let print = Print::new(args.map_or(false, |a| a.quiet));
let config = config.unwrap_or(&self.config);
let contract = self.wasm.read()?;
let network = config.get_network()?;
let client = network.rpc_client()?;
client
.verify_network_passphrase(Some(&network.network_passphrase))
.await?;
let wasm_spec = &self.wasm.parse().map_err(|e| Error::CannotParseWasm {
wasm: self.wasm.wasm.clone(),
error: e,
})?;
if let Some(rs_sdk_ver) = get_contract_meta_sdk_version(wasm_spec) {
if rs_sdk_ver.contains("rc")
&& !self.ignore_checks
&& network.network_passphrase == PUBLIC_NETWORK_PASSPHRASE
{
return Err(Error::ContractCompiledWithReleaseCandidateSdk {
wasm: self.wasm.wasm.clone(),
version: rs_sdk_ver,
});
} else if rs_sdk_ver.contains("rc")
&& network.network_passphrase == PUBLIC_NETWORK_PASSPHRASE
{
tracing::warn!("the deployed smart contract {path} was built with Soroban Rust SDK v{rs_sdk_ver}, a release candidate version not intended for use with the Stellar Public Network", path = self.wasm.wasm.display());
}
}
let source_account = config.source_account()?;
let account_details = client
.get_account(&source_account.clone().to_string())
.await?;
let sequence: i64 = account_details.seq_num.into();
let (tx_without_preflight, hash) =
build_install_contract_code_tx(&contract, sequence + 1, self.fee.fee, &source_account)?;
if self.fee.build_only {
return Ok(TxnResult::Txn(Box::new(tx_without_preflight)));
}
if !self.fee.sim_only {
let code_key =
xdr::LedgerKey::ContractCode(xdr::LedgerKeyContractCode { hash: hash.clone() });
let contract_data = client.get_ledger_entries(&[code_key]).await?;
if let Some(entries) = contract_data.entries {
if let Some(entry_result) = entries.first() {
let entry: LedgerEntryData =
LedgerEntryData::from_xdr_base64(&entry_result.xdr, Limits::none())?;
match &entry {
LedgerEntryData::ContractCode(code) => {
if code.ext.ne(&ContractCodeEntryExt::V0) {
print.infoln("Skipping install because wasm already installed");
return Ok(TxnResult::Res(hash));
}
}
_ => {
tracing::warn!("Entry retrieved should be of type ContractCode");
}
}
}
}
}
print.infoln("Simulating install transaction…");
let txn = simulate_and_assemble_transaction(&client, &tx_without_preflight).await?;
let txn = Box::new(self.fee.apply_to_assembled_txn(txn).transaction().clone());
if self.fee.sim_only {
return Ok(TxnResult::Txn(txn));
}
print.globeln("Submitting install transaction…");
let txn_resp = client
.send_transaction_polling(&self.config.sign_with_local_key(*txn).await?)
.await?;
if args.map_or(true, |a| !a.no_cache) {
data::write(txn_resp.clone().try_into().unwrap(), &network.rpc_uri()?)?;
}
if let Some(TransactionResult {
result: TransactionResultResult::TxInternalError,
..
}) = txn_resp.result
{
restore::Cmd {
key: key::Args {
contract_id: None,
key: None,
key_xdr: None,
wasm: Some(self.wasm.wasm.clone()),
wasm_hash: None,
durability: super::Durability::Persistent,
},
config: config.clone(),
fee: self.fee.clone(),
ledgers_to_extend: None,
ttl_ledger_only: true,
}
.run_against_rpc_server(args, None)
.await?;
}
if args.map_or(true, |a| !a.no_cache) {
data::write_spec(&hash.to_string(), &wasm_spec.spec)?;
}
Ok(TxnResult::Res(hash))
}
}
fn get_contract_meta_sdk_version(wasm_spec: &soroban_spec_tools::contract::Spec) -> Option<String> {
let rs_sdk_version_option = if let Some(_meta) = &wasm_spec.meta_base64 {
wasm_spec.meta.iter().find(|entry| match entry {
ScMetaEntry::ScMetaV0(ScMetaV0 { key, .. }) => {
key.to_utf8_string_lossy().contains(CONTRACT_META_SDK_KEY)
}
})
} else {
None
};
if let Some(rs_sdk_version_entry) = &rs_sdk_version_option {
match rs_sdk_version_entry {
ScMetaEntry::ScMetaV0(ScMetaV0 { val, .. }) => {
return Some(val.to_utf8_string_lossy());
}
}
}
None
}
pub(crate) fn build_install_contract_code_tx(
source_code: &[u8],
sequence: i64,
fee: u32,
source: &xdr::MuxedAccount,
) -> Result<(Transaction, Hash), Error> {
let hash = utils::contract_hash(source_code)?;
let op = xdr::Operation {
source_account: None,
body: OperationBody::InvokeHostFunction(InvokeHostFunctionOp {
host_function: HostFunction::UploadContractWasm(source_code.try_into()?),
auth: VecM::default(),
}),
};
let tx = Transaction::new_tx(source.clone(), fee, sequence, op);
Ok((tx, hash))
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_build_install_contract_code() {
let result = build_install_contract_code_tx(
b"foo",
300,
1,
&stellar_strkey::ed25519::PublicKey::from_payload(
utils::parse_secret_key("SBFGFF27Y64ZUGFAIG5AMJGQODZZKV2YQKAVUUN4HNE24XZXD2OEUVUP")
.unwrap()
.verifying_key()
.as_bytes(),
)
.unwrap()
.to_string()
.parse()
.unwrap(),
);
assert!(result.is_ok());
}
}