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use anyhow::{bail, format_err, Result};
use diem_crypto::{
ed25519::{Ed25519PrivateKey, Ed25519PublicKey},
ValidCryptoMaterialStringExt,
};
use diem_state_view::StateView;
use diem_types::{
access_path::AccessPath,
account_config::{
self, type_tag_for_currency_code, AccountResource, BalanceResource, XUS_NAME,
},
chain_id::ChainId,
transaction::{
Module as TransactionModule, RawTransaction, Script as TransactionScript,
ScriptFunction as TransactionScriptFunction, SignedTransaction, Transaction,
TransactionStatus,
},
vm_status::KeptVMStatus,
};
use diem_vm::DiemVM;
use language_e2e_tests::data_store::{FakeDataStore, GENESIS_CHANGE_SET_FRESH};
use move_binary_format::file_format::{CompiledModule, CompiledScript};
use move_core_types::{
account_address::AccountAddress,
gas_schedule::{GasAlgebra, GasConstants},
identifier::{IdentStr, Identifier},
language_storage::{ModuleId, ResourceKey, TypeTag},
move_resource::MoveStructType,
transaction_argument::{convert_txn_args, TransactionArgument},
};
use move_lang::{shared::verify_and_create_named_address_mapping, FullyCompiledProgram};
use move_transactional_test_runner::{
framework::{run_test_impl, CompiledState, MoveTestAdapter},
tasks::{EmptyCommand, InitCommand, SyntaxChoice, TaskInput},
vm_test_harness::view_resource_in_move_storage,
};
use once_cell::sync::Lazy;
use std::{
collections::{BTreeMap, HashMap},
path::Path,
};
use structopt::StructOpt;
struct DiemTestAdapter<'a> {
compiled_state: CompiledState<'a>,
storage: FakeDataStore,
default_syntax: SyntaxChoice,
}
struct TransactionParameters {
pub sequence_number: u64,
pub max_gas_amount: u64,
pub gas_unit_price: u64,
pub gas_currency_code: String,
pub expiration_timestamp_secs: u64,
}
fn parse_ed25519_private_key(s: &str) -> Result<Ed25519PrivateKey> {
Ok(Ed25519PrivateKey::from_encoded_string(s)?)
}
#[derive(StructOpt, Debug)]
struct DiemPublishArgs {
#[structopt(short = "k", long = "private-key", parse(try_from_str = parse_ed25519_private_key))]
privkey: Ed25519PrivateKey,
}
#[derive(StructOpt, Debug)]
struct DiemRunArgs {
#[structopt(short = "k", long = "private-key", parse(try_from_str = parse_ed25519_private_key))]
privkey: Ed25519PrivateKey,
}
impl<'a> DiemTestAdapter<'a> {
fn fetch_account_resource(&self, signer_addr: &AccountAddress) -> Result<AccountResource> {
let account_access_path = AccessPath::resource_access_path(ResourceKey::new(
*signer_addr,
AccountResource::struct_tag(),
));
let account_blob = self
.storage
.get(&account_access_path)
.unwrap()
.ok_or_else(|| {
format_err!(
"Failed to fetch account resource under address {}. Has the account been created?",
signer_addr
)
})?;
Ok(bcs::from_bytes(&account_blob).unwrap())
}
fn fetch_balance_resource(
&self,
signer_addr: &AccountAddress,
balance_currency_code: Identifier,
) -> Result<BalanceResource> {
let currency_code_tag = type_tag_for_currency_code(balance_currency_code);
let balance_resource_tag = BalanceResource::struct_tag_for_currency(currency_code_tag);
let balance_access_path =
AccessPath::resource_access_path(ResourceKey::new(*signer_addr, balance_resource_tag));
let balance_blob = self
.storage
.get(&balance_access_path)
.unwrap()
.ok_or_else(|| {
format_err!(
"Failed to fetch balance resource under address {}.",
signer_addr
)
})?;
Ok(bcs::from_bytes(&balance_blob).unwrap())
}
fn fetch_default_transaction_parameters(
&self,
signer_addr: &AccountAddress,
) -> Result<TransactionParameters> {
let account_resource = self.fetch_account_resource(signer_addr)?;
let sequence_number = account_resource.sequence_number();
let gas_currency_code = XUS_NAME.to_string();
let max_number_of_gas_units = GasConstants::default().maximum_number_of_gas_units;
let gas_unit_price = 0;
let max_gas_amount = if gas_unit_price == 0 {
max_number_of_gas_units.get()
} else {
let account_balance = self.fetch_balance_resource(
signer_addr,
account_config::from_currency_code_string(&gas_currency_code).unwrap(),
)?;
std::cmp::min(
max_number_of_gas_units.get(),
account_balance.coin() / gas_unit_price,
)
};
Ok(TransactionParameters {
sequence_number,
gas_currency_code,
gas_unit_price,
max_gas_amount,
expiration_timestamp_secs: 40000,
})
}
fn run_transaction(&mut self, txn: SignedTransaction) -> Result<()> {
let mut outputs = DiemVM::execute_block_and_keep_vm_status(
vec![Transaction::UserTransaction(txn)],
&self.storage,
)
.unwrap();
assert_eq!(outputs.len(), 1);
let (status, output) = outputs.pop().unwrap();
match output.status() {
TransactionStatus::Keep(kept_vm_status) => match kept_vm_status {
KeptVMStatus::Executed => {
self.storage.add_write_set(output.write_set());
}
_ => {
bail!("Failed to execute transaction. VMStatus: {}", status)
}
},
TransactionStatus::Discard(_) => {
bail!("Transaction discarded. VMStatus: {}", status)
}
TransactionStatus::Retry => panic!(),
}
Ok(())
}
}
impl<'a> MoveTestAdapter<'a> for DiemTestAdapter<'a> {
type ExtraInitArgs = EmptyCommand;
type ExtraPublishArgs = DiemPublishArgs;
type ExtraRunArgs = DiemRunArgs;
type Subcommand = EmptyCommand;
fn compiled_state(&mut self) -> &mut CompiledState<'a> {
&mut self.compiled_state
}
fn default_syntax(&self) -> SyntaxChoice {
self.default_syntax
}
fn init(
default_syntax: SyntaxChoice,
pre_compiled_deps: Option<&'a FullyCompiledProgram>,
task_opt: Option<TaskInput<(InitCommand, Self::ExtraInitArgs)>>,
) -> Self {
let additional_mapping = match task_opt.map(|t| t.command) {
Some((InitCommand { named_addresses }, _)) => {
verify_and_create_named_address_mapping(named_addresses).unwrap()
}
None => BTreeMap::new(),
};
let mut named_address_mapping = diem_framework::diem_framework_named_addresses();
for (name, addr) in additional_mapping {
if named_address_mapping.contains_key(&name) {
panic!(
"Invalid init. The named address '{}' is reserved by either the move-stdlib or diem-framework",
name
)
}
named_address_mapping.insert(name, addr);
}
let mut storage = FakeDataStore::new(HashMap::new());
storage.add_write_set(GENESIS_CHANGE_SET_FRESH.write_set());
Self {
compiled_state: CompiledState::new(named_address_mapping, pre_compiled_deps),
default_syntax,
storage,
}
}
fn publish_module(
&mut self,
module: CompiledModule,
gas_budget: Option<u64>,
extra_args: Self::ExtraPublishArgs,
) -> Result<()> {
let module_id = module.self_id();
let signer = module_id.address();
let params = self.fetch_default_transaction_parameters(signer)?;
let mut module_blob = vec![];
module.serialize(&mut module_blob).unwrap();
let txn = RawTransaction::new_module(
*signer,
params.sequence_number,
TransactionModule::new(module_blob),
gas_budget.unwrap_or(params.max_gas_amount),
params.gas_unit_price,
params.gas_currency_code,
params.expiration_timestamp_secs,
ChainId::test(),
)
.sign(
&extra_args.privkey,
Ed25519PublicKey::from(&extra_args.privkey),
)?
.into_inner();
self.run_transaction(txn)?;
Ok(())
}
fn execute_script(
&mut self,
script: CompiledScript,
type_args: Vec<TypeTag>,
signers: Vec<AccountAddress>,
txn_args: Vec<TransactionArgument>,
gas_budget: Option<u64>,
extra_args: Self::ExtraRunArgs,
) -> Result<()> {
assert!(!signers.is_empty());
let mut script_blob = vec![];
script.serialize(&mut script_blob)?;
let params = self.fetch_default_transaction_parameters(&signers[0])?;
let txn = RawTransaction::new_script(
signers[0],
params.sequence_number,
TransactionScript::new(script_blob, type_args, txn_args),
gas_budget.unwrap_or(params.max_gas_amount),
params.gas_unit_price,
params.gas_currency_code,
params.expiration_timestamp_secs,
ChainId::test(),
)
.sign_multi_agent(&extra_args.privkey, vec![], vec![])
.unwrap()
.into_inner();
self.run_transaction(txn)?;
Ok(())
}
fn call_function(
&mut self,
module: &ModuleId,
function: &IdentStr,
type_args: Vec<TypeTag>,
signers: Vec<AccountAddress>,
txn_args: Vec<TransactionArgument>,
gas_budget: Option<u64>,
extra_args: Self::ExtraRunArgs,
) -> Result<()> {
assert!(!signers.is_empty());
let params = self.fetch_default_transaction_parameters(&signers[0])?;
let txn = RawTransaction::new_script_function(
signers[0],
params.sequence_number,
TransactionScriptFunction::new(
module.clone(),
function.to_owned(),
type_args,
convert_txn_args(&txn_args),
),
gas_budget.unwrap_or(params.max_gas_amount),
params.gas_unit_price,
params.gas_currency_code,
params.expiration_timestamp_secs,
ChainId::test(),
)
.sign(
&extra_args.privkey,
Ed25519PublicKey::from(&extra_args.privkey),
)?
.into_inner();
self.run_transaction(txn)?;
Ok(())
}
fn view_data(
&mut self,
address: AccountAddress,
module: &ModuleId,
resource: &IdentStr,
type_args: Vec<TypeTag>,
) -> Result<String> {
view_resource_in_move_storage(&self.storage, address, module, resource, type_args)
}
fn handle_subcommand(
&mut self,
_subcommand: TaskInput<Self::Subcommand>,
) -> Result<Option<String>> {
unreachable!()
}
}
static PRECOMPILED_DIEM_FRAMEWORK: Lazy<FullyCompiledProgram> = Lazy::new(|| {
let program_res = move_lang::construct_pre_compiled_lib(
&diem_framework::diem_stdlib_files(),
None,
move_lang::Flags::empty().set_sources_shadow_deps(false),
diem_framework::diem_framework_named_addresses(),
)
.unwrap();
match program_res {
Ok(df) => df,
Err((files, errors)) => {
eprintln!("!!!Diem Framework failed to compile!!!");
move_lang::diagnostics::report_diagnostics(&files, errors)
}
}
});
pub fn run_test(path: &Path) -> Result<(), Box<dyn std::error::Error>> {
run_test_impl::<DiemTestAdapter>(path, Some(&*PRECOMPILED_DIEM_FRAMEWORK))
}