zecfoundation
/
zebra
mirror of https://github.com/ZcashFoundation/zebra.git
1
0
Fork 0
Code Issues Projects Releases Wiki Activity
zebra/zebrad/tests/acceptance.rs

2324 lines
80 KiB
Rust
Raw Blame History

//! Acceptance test: runs zebrad as a subprocess and asserts its
//! output for given argument combinations matches what is expected.
//!
//! ## Note on port conflict
//!
//! If the test child has a cache or port conflict with another test, or a
//! running zebrad or zcashd, then it will panic. But the acceptance tests
//! expect it to run until it is killed.
//!
//! If these conflicts cause test failures:
//! - run the tests in an isolated environment,
//! - run zebrad on a custom cache path and port,
//! - run zcashd on a custom port.
//!
//! ## Failures due to Configured Network Interfaces or Network Connectivity
//!
//! If your test environment does not have any IPv6 interfaces configured, skip IPv6 tests
//! by setting the `ZEBRA_SKIP_IPV6_TESTS` environmental variable.
//!
//! If it does not have any IPv4 interfaces, IPv4 localhost is not on `127.0.0.1`,
//! or you have poor network connectivity,
//! skip all the network tests by setting the `ZEBRA_SKIP_NETWORK_TESTS` environmental variable.
//!
//! ## Large/full sync tests
//!
//! This file has sync tests that are marked as ignored because they take too much time to run.
//! Some of them require environment variables or directories to be present:
//!
//! - `FULL_SYNC_MAINNET_TIMEOUT_MINUTES` env variable: The total number of minutes we
//! will allow this test to run or give up. Value for the Mainnet full sync tests.
//! - `FULL_SYNC_TESTNET_TIMEOUT_MINUTES` env variable: The total number of minutes we
//! will allow this test to run or give up. Value for the Testnet ful sync tests.
//! - `/zebrad-cache` directory: For some sync tests, this needs to be created in
//! the file system, the created directory should have write permissions.
//!
//! Here are some examples on how to run each of the tests:
//!
//! ```console
//! $ cargo test sync_large_checkpoints_mainnet -- --ignored --nocapture
//!
//! $ cargo test sync_large_checkpoints_mempool_mainnet -- --ignored --nocapture
//!
//! $ sudo mkdir /zebrad-cache
//! $ sudo chmod 777 /zebrad-cache
//! $ export FULL_SYNC_MAINNET_TIMEOUT_MINUTES=600
//! $ cargo test full_sync_mainnet -- --ignored --nocapture
//!
//! $ sudo mkdir /zebrad-cache
//! $ sudo chmod 777 /zebrad-cache
//! $ export FULL_SYNC_TESTNET_TIMEOUT_MINUTES=600
//! $ cargo test full_sync_testnet -- --ignored --nocapture
//! ```
//!
//! Please refer to the documentation of each test for more information.
//!
//! ## Lightwalletd tests
//!
//! The lightwalletd software is an interface service that uses zebrad or zcashd RPC methods to serve wallets or other applications with blockchain content in an efficient manner.
//! There are several versions of lightwalled in the form of different forks. The original
//! repo is <https://github.com/zcash/lightwalletd> but Zecwallet Lite uses a custom fork: <https://github.com/adityapk00/lightwalletd>.
//! The custom fork from adityapk00 is the one Zebra use for this tests:
//!
//! Zebra lightwalletd tests are not all marked as ignored but none will run unless
//! at least the `ZEBRA_TEST_LIGHTWALLETD` environment variable is present:
//!
//! - `ZEBRA_TEST_LIGHTWALLETD` env variable: Needs to be present to run any of the lightwalletd tests.
//! - `ZEBRA_CACHED_STATE_DIR` env var: The path to a zebra blockchain database.
//! - `LIGHTWALLETD_DATA_DIR` env variable. The path to a lightwalletd database.
//! - `--features lightwalletd-grpc-tests` cargo flag. The flag given to cargo to build the source code of the running test.
//!
//! Here are some examples of running each test:
//!
//! ```console
//! $ export ZEBRA_TEST_LIGHTWALLETD=true
//! $ cargo test lightwalletd_integration -- --nocapture
//!
//! $ export ZEBRA_TEST_LIGHTWALLETD=true
//! $ export ZEBRA_CACHED_STATE_DIR="/path/to/zebra/state"
//! $ export LIGHTWALLETD_DATA_DIR="/path/to/lightwalletd/database"
//! $ cargo test lightwalletd_update_sync -- --nocapture
//!
//! $ export ZEBRA_TEST_LIGHTWALLETD=true
//! $ export ZEBRA_CACHED_STATE_DIR="/path/to/zebra/state"
//! $ cargo test lightwalletd_full_sync -- --ignored --nocapture
//!
//! $ export ZEBRA_TEST_LIGHTWALLETD=true
//! $ cargo test lightwalletd_test_suite -- --ignored --nocapture
//!
//! $ export ZEBRA_TEST_LIGHTWALLETD=true
//! $ export ZEBRA_CACHED_STATE_DIR="/path/to/zebra/state"
//! $ cargo test fully_synced_rpc_test -- --ignored --nocapture
//!
//! $ export ZEBRA_TEST_LIGHTWALLETD=true
//! $ export ZEBRA_CACHED_STATE_DIR="/path/to/zebra/state"
//! $ export LIGHTWALLETD_DATA_DIR="/path/to/lightwalletd/database"
//! $ cargo test sending_transactions_using_lightwalletd --features lightwalletd-grpc-tests -- --ignored --nocapture
//!
//! $ export ZEBRA_TEST_LIGHTWALLETD=true
//! $ export ZEBRA_CACHED_STATE_DIR="/path/to/zebra/state"
//! $ export LIGHTWALLETD_DATA_DIR="/path/to/lightwalletd/database"
//! $ cargo test lightwalletd_wallet_grpc_tests --features lightwalletd-grpc-tests -- --ignored --nocapture
//! ```
//!
//! ## Getblocktemplate tests
//!
//! Example of how to run the get_block_template test:
//!
//! ```console
//! ZEBRA_CACHED_STATE_DIR=/path/to/zebra/state cargo test get_block_template --features getblocktemplate-rpcs --release -- --ignored --nocapture
//! ```
//!
//! Example of how to run the submit_block test:
//!
//! ```console
//! ZEBRA_CACHED_STATE_DIR=/path/to/zebra/state cargo test submit_block --features getblocktemplate-rpcs --release -- --ignored --nocapture
//! ```
//!
//! Please refer to the documentation of each test for more information.
//!
//! ## Checkpoint Generation Tests
//!
//! Generate checkpoints on mainnet and testnet using a cached state:
//! ```console
//! GENERATE_CHECKPOINTS_MAINNET=1 ENTRYPOINT_FEATURES=zebra-checkpoints ZEBRA_CACHED_STATE_DIR=/path/to/zebra/state docker/entrypoint.sh
//! GENERATE_CHECKPOINTS_TESTNET=1 ENTRYPOINT_FEATURES=zebra-checkpoints ZEBRA_CACHED_STATE_DIR=/path/to/zebra/state docker/entrypoint.sh
//! ```
//!
//! ## Disk Space for Testing
//!
//! The full sync and lightwalletd tests with cached state expect a temporary directory with
//! at least 300 GB of disk space (2 copies of the full chain). To use another disk for the
//! temporary test files:
//!
//! ```sh
//! export TMPDIR=/path/to/disk/directory
//! ```
use std::{
collections::HashSet,
env, fs, panic,
path::PathBuf,
time::{Duration, Instant},
};
use color_eyre::{
eyre::{eyre, Result, WrapErr},
Help,
};
use zebra_chain::{
block::{self, Height},
parameters::Network::{self, *},
};
use zebra_network::constants::PORT_IN_USE_ERROR;
use zebra_node_services::rpc_client::RpcRequestClient;
use zebra_state::constants::LOCK_FILE_ERROR;
use zebra_test::{args, command::ContextFrom, net::random_known_port, prelude::*};
mod common;
use common::{
check::{is_zebrad_version, EphemeralCheck, EphemeralConfig},
config::random_known_rpc_port_config,
config::{
config_file_full_path, configs_dir, default_test_config, persistent_test_config, testdir,
},
launch::{
spawn_zebrad_for_rpc, ZebradTestDirExt, BETWEEN_NODES_DELAY, EXTENDED_LAUNCH_DELAY,
LAUNCH_DELAY,
},
lightwalletd::{can_spawn_lightwalletd_for_rpc, spawn_lightwalletd_for_rpc},
sync::{
create_cached_database_height, sync_until, MempoolBehavior, LARGE_CHECKPOINT_TEST_HEIGHT,
LARGE_CHECKPOINT_TIMEOUT, MEDIUM_CHECKPOINT_TEST_HEIGHT, STOP_AT_HEIGHT_REGEX,
STOP_ON_LOAD_TIMEOUT, SYNC_FINISHED_REGEX, TINY_CHECKPOINT_TEST_HEIGHT,
TINY_CHECKPOINT_TIMEOUT,
},
test_type::TestType::{self, *},
};
/// The maximum amount of time that we allow the creation of a future to block the `tokio` executor.
///
/// This should be larger than the amount of time between thread time slices on a busy test VM.
///
/// This limit only applies to some tests.
pub const MAX_ASYNC_BLOCKING_TIME: Duration = zebra_test::mock_service::DEFAULT_MAX_REQUEST_DELAY;
/// The test config file prefix for `--feature getblocktemplate-rpcs` configs.
pub const GET_BLOCK_TEMPLATE_CONFIG_PREFIX: &str = "getblocktemplate-";
#[test]
fn generate_no_args() -> Result<()> {
let _init_guard = zebra_test::init();
let child = testdir()?
.with_config(&mut default_test_config()?)?
.spawn_child(args!["generate"])?;
let output = child.wait_with_output()?;
let output = output.assert_success()?;
// First line
output.stdout_line_contains("# Default configuration for zebrad")?;
Ok(())
}
#[test]
fn generate_args() -> Result<()> {
let _init_guard = zebra_test::init();
let testdir = testdir()?;
let testdir = &testdir;
// unexpected free argument `argument`
let child = testdir.spawn_child(args!["generate", "argument"])?;
let output = child.wait_with_output()?;
output.assert_failure()?;
// unrecognized option `-f`
let child = testdir.spawn_child(args!["generate", "-f"])?;
let output = child.wait_with_output()?;
output.assert_failure()?;
// missing argument to option `-o`
let child = testdir.spawn_child(args!["generate", "-o"])?;
let output = child.wait_with_output()?;
output.assert_failure()?;
// Add a config file name to tempdir path
let generated_config_path = testdir.path().join("zebrad.toml");
// Valid
let child =
testdir.spawn_child(args!["generate", "-o": generated_config_path.to_str().unwrap()])?;
let output = child.wait_with_output()?;
let output = output.assert_success()?;
assert_with_context!(
testdir.path().exists(),
&output,
"test temp directory not found"
);
assert_with_context!(
generated_config_path.exists(),
&output,
"generated config file not found"
);
Ok(())
}
#[test]
fn help_no_args() -> Result<()> {
let _init_guard = zebra_test::init();
let testdir = testdir()?.with_config(&mut default_test_config()?)?;
let child = testdir.spawn_child(args!["help"])?;
let output = child.wait_with_output()?;
let output = output.assert_success()?;
// The first line should have the version
output.any_output_line(
is_zebrad_version,
&output.output.stdout,
"stdout",
"are valid zebrad semantic versions",
)?;
// Make sure we are in help by looking for the usage string
output.stdout_line_contains("Usage:")?;
Ok(())
}
#[test]
fn help_args() -> Result<()> {
let _init_guard = zebra_test::init();
let testdir = testdir()?;
let testdir = &testdir;
// The subcommand "argument" wasn't recognized.
let child = testdir.spawn_child(args!["help", "argument"])?;
let output = child.wait_with_output()?;
output.assert_failure()?;
// option `-f` does not accept an argument
let child = testdir.spawn_child(args!["help", "-f"])?;
let output = child.wait_with_output()?;
output.assert_failure()?;
Ok(())
}
#[test]
fn start_no_args() -> Result<()> {
let _init_guard = zebra_test::init();
// start caches state, so run one of the start tests with persistent state
let testdir = testdir()?.with_config(&mut persistent_test_config()?)?;
let mut child = testdir.spawn_child(args!["-v", "start"])?;
// Run the program and kill it after a few seconds
std::thread::sleep(LAUNCH_DELAY);
child.kill(false)?;
let output = child.wait_with_output()?;
let output = output.assert_failure()?;
output.stdout_line_contains("Starting zebrad")?;
// Make sure the command passed the legacy chain check
output.stdout_line_contains("starting legacy chain check")?;
output.stdout_line_contains("no legacy chain found")?;
// Make sure the command was killed
output.assert_was_killed()?;
Ok(())
}
#[test]
fn start_args() -> Result<()> {
let _init_guard = zebra_test::init();
let testdir = testdir()?.with_config(&mut default_test_config()?)?;
let testdir = &testdir;
let mut child = testdir.spawn_child(args!["start"])?;
// Run the program and kill it after a few seconds
std::thread::sleep(LAUNCH_DELAY);
child.kill(false)?;
let output = child.wait_with_output()?;
// Make sure the command was killed
output.assert_was_killed()?;
output.assert_failure()?;
// unrecognized option `-f`
let child = testdir.spawn_child(args!["start", "-f"])?;
let output = child.wait_with_output()?;
output.assert_failure()?;
Ok(())
}
#[tokio::test]
async fn db_init_outside_future_executor() -> Result<()> {
let _init_guard = zebra_test::init();
let config = default_test_config()?;
let start = Instant::now();
// This test doesn't need UTXOs to be verified efficiently, because it uses an empty state.
let db_init_handle =
zebra_state::spawn_init(config.state.clone(), config.network.network, Height::MAX, 0);
// it's faster to panic if it takes longer than expected, since the executor
// will wait indefinitely for blocking operation to finish once started
let block_duration = start.elapsed();
assert!(
block_duration <= MAX_ASYNC_BLOCKING_TIME,
"futures executor was blocked longer than expected ({block_duration:?})",
);
db_init_handle.await?;
Ok(())
}
/// Check that the block state and peer list caches are written to disk.
#[test]
fn persistent_mode() -> Result<()> {
let _init_guard = zebra_test::init();
let testdir = testdir()?.with_config(&mut persistent_test_config()?)?;
let testdir = &testdir;
let mut child = testdir.spawn_child(args!["-v", "start"])?;
// Run the program and kill it after a few seconds
std::thread::sleep(EXTENDED_LAUNCH_DELAY);
child.kill(false)?;
let output = child.wait_with_output()?;
// Make sure the command was killed
output.assert_was_killed()?;
let cache_dir = testdir.path().join("state");
assert_with_context!(
cache_dir.read_dir()?.count() > 0,
&output,
"state directory empty despite persistent state config"
);
let cache_dir = testdir.path().join("network");
assert_with_context!(
cache_dir.read_dir()?.count() > 0,
&output,
"network directory empty despite persistent network config"
);
Ok(())
}
#[test]
fn ephemeral_existing_directory() -> Result<()> {
ephemeral(EphemeralConfig::Default, EphemeralCheck::ExistingDirectory)
}
#[test]
fn ephemeral_missing_directory() -> Result<()> {
ephemeral(EphemeralConfig::Default, EphemeralCheck::MissingDirectory)
}
#[test]
fn misconfigured_ephemeral_existing_directory() -> Result<()> {
ephemeral(
EphemeralConfig::MisconfiguredCacheDir,
EphemeralCheck::ExistingDirectory,
)
}
#[test]
fn misconfigured_ephemeral_missing_directory() -> Result<()> {
ephemeral(
EphemeralConfig::MisconfiguredCacheDir,
EphemeralCheck::MissingDirectory,
)
}
/// Check that the state directory created on disk matches the state config.
///
/// TODO: do a similar test for `network.cache_dir`
#[tracing::instrument]
fn ephemeral(cache_dir_config: EphemeralConfig, cache_dir_check: EphemeralCheck) -> Result<()> {
use std::io::ErrorKind;
let _init_guard = zebra_test::init();
let mut config = default_test_config()?;
let run_dir = testdir()?;
let ignored_cache_dir = run_dir.path().join("state");
if cache_dir_config == EphemeralConfig::MisconfiguredCacheDir {
// Write a configuration that sets both the cache_dir and ephemeral options
config.state.cache_dir = ignored_cache_dir.clone();
}
if cache_dir_check == EphemeralCheck::ExistingDirectory {
// We set the cache_dir config to a newly created empty temp directory,
// then make sure that it is empty after the test
fs::create_dir(&ignored_cache_dir)?;
}
let mut child = run_dir
.path()
.with_config(&mut config)?
.spawn_child(args!["start"])?;
// Run the program and kill it after a few seconds
std::thread::sleep(EXTENDED_LAUNCH_DELAY);
child.kill(false)?;
let output = child.wait_with_output()?;
// Make sure the command was killed
output.assert_was_killed()?;
let expected_run_dir_file_names = match cache_dir_check {
// we created the state directory, so it should still exist
EphemeralCheck::ExistingDirectory => {
assert_with_context!(
ignored_cache_dir
.read_dir()
.expect("ignored_cache_dir should still exist")
.count()
== 0,
&output,
"ignored_cache_dir not empty for ephemeral {:?} {:?}: {:?}",
cache_dir_config,
cache_dir_check,
ignored_cache_dir.read_dir().unwrap().collect::<Vec<_>>()
);
["state", "network", "zebrad.toml"].iter()
}
// we didn't create the state directory, so it should not exist
EphemeralCheck::MissingDirectory => {
assert_with_context!(
ignored_cache_dir
.read_dir()
.expect_err("ignored_cache_dir should not exist")
.kind()
== ErrorKind::NotFound,
&output,
"unexpected creation of ignored_cache_dir for ephemeral {:?} {:?}: the cache dir exists and contains these files: {:?}",
cache_dir_config,
cache_dir_check,
ignored_cache_dir.read_dir().unwrap().collect::<Vec<_>>()
);
["network", "zebrad.toml"].iter()
}
};
let expected_run_dir_file_names = expected_run_dir_file_names.map(Into::into).collect();
let run_dir_file_names = run_dir
.path()
.read_dir()
.expect("run_dir should still exist")
.map(|dir_entry| dir_entry.expect("run_dir is readable").file_name())
// ignore directory list order, because it can vary based on the OS and filesystem
.collect::<HashSet<_>>();
assert_with_context!(
run_dir_file_names == expected_run_dir_file_names,
&output,
"run_dir not empty for ephemeral {:?} {:?}: expected {:?}, actual: {:?}",
cache_dir_config,
cache_dir_check,
expected_run_dir_file_names,
run_dir_file_names
);
Ok(())
}
#[test]
fn version_no_args() -> Result<()> {
let _init_guard = zebra_test::init();
let testdir = testdir()?.with_config(&mut default_test_config()?)?;
let child = testdir.spawn_child(args!["--version"])?;
let output = child.wait_with_output()?;
let output = output.assert_success()?;
// The output should only contain the version
output.output_check(
is_zebrad_version,
&output.output.stdout,
"stdout",
"a valid zebrad semantic version",
)?;
Ok(())
}
#[test]
fn version_args() -> Result<()> {
let _init_guard = zebra_test::init();
let testdir = testdir()?.with_config(&mut default_test_config()?)?;
let testdir = &testdir;
// unrecognized option `-f`
let child = testdir.spawn_child(args!["tip-height", "-f"])?;
let output = child.wait_with_output()?;
output.assert_failure()?;
// unrecognized option `-f` is ignored
let child = testdir.spawn_child(args!["--version", "-f"])?;
let output = child.wait_with_output()?;
let output = output.assert_success()?;
// The output should only contain the version
output.output_check(
is_zebrad_version,
&output.output.stdout,
"stdout",
"a valid zebrad semantic version",
)?;
Ok(())
}
/// Run config tests that use the default ports and paths.
///
/// Unlike the other tests, these tests can not be run in parallel, because
/// they use the generated config. So parallel execution can cause port and
/// cache conflicts.
#[test]
fn config_tests() -> Result<()> {
valid_generated_config("start", "Starting zebrad")?;
// Check what happens when Zebra parses an invalid config
invalid_generated_config()?;
// Check that we have a current version of the config stored
last_config_is_stored()?;
// Check that Zebra's previous configurations still work
stored_configs_work()?;
// Runs `zebrad` serially to avoid potential port conflicts
app_no_args()?;
Ok(())
}
/// Test that `zebrad` runs the start command with no args
#[tracing::instrument]
fn app_no_args() -> Result<()> {
let _init_guard = zebra_test::init();
// start caches state, so run one of the start tests with persistent state
let testdir = testdir()?.with_config(&mut persistent_test_config()?)?;
let mut child = testdir.spawn_child(args![])?;
// Run the program and kill it after a few seconds
std::thread::sleep(LAUNCH_DELAY);
child.kill(true)?;
let output = child.wait_with_output()?;
let output = output.assert_failure()?;
output.stdout_line_contains("Starting zebrad")?;
// Make sure the command passed the legacy chain check
output.stdout_line_contains("starting legacy chain check")?;
output.stdout_line_contains("no legacy chain found")?;
// Make sure the command was killed
output.assert_was_killed()?;
Ok(())
}
/// Test that `zebrad start` can parse the output from `zebrad generate`.
#[tracing::instrument]
fn valid_generated_config(command: &str, expect_stdout_line_contains: &str) -> Result<()> {
let _init_guard = zebra_test::init();
let testdir = testdir()?;
let testdir = &testdir;
// Add a config file name to tempdir path
let generated_config_path = testdir.path().join("zebrad.toml");
// Generate configuration in temp dir path
let child =
testdir.spawn_child(args!["generate", "-o": generated_config_path.to_str().unwrap()])?;
let output = child.wait_with_output()?;
let output = output.assert_success()?;
assert_with_context!(
generated_config_path.exists(),
&output,
"generated config file not found"
);
// Run command using temp dir and kill it after a few seconds
let mut child = testdir.spawn_child(args![command])?;
std::thread::sleep(LAUNCH_DELAY);
child.kill(false)?;
let output = child.wait_with_output()?;
let output = output.assert_failure()?;
output.stdout_line_contains(expect_stdout_line_contains)?;
// [Note on port conflict](#Note on port conflict)
output.assert_was_killed().wrap_err("Possible port or cache conflict. Are there other acceptance test, zebrad, or zcashd processes running?")?;
assert_with_context!(
testdir.path().exists(),
&output,
"test temp directory not found"
);
assert_with_context!(
generated_config_path.exists(),
&output,
"generated config file not found"
);
Ok(())
}
/// Check if the config produced by current zebrad is stored.
#[tracing::instrument]
#[allow(clippy::print_stdout)]
fn last_config_is_stored() -> Result<()> {
let _init_guard = zebra_test::init();
let testdir = testdir()?;
// Add a config file name to tempdir path
let generated_config_path = testdir.path().join("zebrad.toml");
// Generate configuration in temp dir path
let child =
testdir.spawn_child(args!["generate", "-o": generated_config_path.to_str().unwrap()])?;
let output = child.wait_with_output()?;
let output = output.assert_success()?;
assert_with_context!(
generated_config_path.exists(),
&output,
"generated config file not found"
);
// Get the contents of the generated config file
let generated_content =
fs::read_to_string(generated_config_path).expect("Should have been able to read the file");
// We need to replace the cache dir path as stored configs has a dummy `cache_dir` string there.
let processed_generated_content = generated_content
.replace(
zebra_state::Config::default()
.cache_dir
.to_str()
.expect("a valid cache dir"),
"cache_dir",
)
.trim()
.to_string();
// Loop all the stored configs
//
// TODO: use the same filename list code in last_config_is_stored() and stored_configs_work()
for config_file in configs_dir()
.read_dir()
.expect("read_dir call failed")
.flatten()
{
let config_file_path = config_file.path();
let config_file_name = config_file_path
.file_name()
.expect("config files must have a file name")
.to_string_lossy();
if config_file_name.as_ref().starts_with('.') || config_file_name.as_ref().starts_with('#')
{
// Skip editor files and other invalid config paths
tracing::info!(
?config_file_path,
"skipping hidden/temporary config file path"
);
continue;
}
// Read stored config
let stored_content = fs::read_to_string(config_file_full_path(config_file_path))
.expect("Should have been able to read the file")
.trim()
.to_string();
// If any stored config is equal to the generated then we are good.
if stored_content.eq(&processed_generated_content) {
return Ok(());
}
}
println!(
"\n\
Here is the missing config file: \n\
\n\
{processed_generated_content}\n"
);
Err(eyre!(
"latest zebrad config is not being tested for compatibility. \n\
\n\
Take the missing config file logged above, \n\
and commit it to Zebra's git repository as:\n\
zebrad/tests/common/configs/{}<next-release-tag>.toml \n\
\n\
Or run: \n\
cargo build {}--bin zebrad && \n\
zebrad generate | \n\
sed 's/cache_dir = \".*\"/cache_dir = \"cache_dir\"/' > \n\
zebrad/tests/common/configs/{}<next-release-tag>.toml",
if cfg!(feature = "getblocktemplate-rpcs") {
GET_BLOCK_TEMPLATE_CONFIG_PREFIX
} else {
""
},
if cfg!(feature = "getblocktemplate-rpcs") {
"--features=getblocktemplate-rpcs "
} else {
""
},
if cfg!(feature = "getblocktemplate-rpcs") {
GET_BLOCK_TEMPLATE_CONFIG_PREFIX
} else {
""
},
))
}
/// Checks that Zebra prints an informative message when it cannot parse the
/// config file.
#[tracing::instrument]
fn invalid_generated_config() -> Result<()> {
let _init_guard = zebra_test::init();
let testdir = &testdir()?;
// Add a config file name to tempdir path.
let config_path = testdir.path().join("zebrad.toml");
// Generate a valid config file in the temp dir.
let child = testdir.spawn_child(args!["generate", "-o": config_path.to_str().unwrap()])?;
let output = child.wait_with_output()?;
let output = output.assert_success()?;
assert_with_context!(
config_path.exists(),
&output,
"generated config file not found"
);
// Load the valid config file that Zebra generated.
let mut config_file = fs::read_to_string(config_path.to_str().unwrap()).unwrap();
// Let's now alter the config file so that it contains a deprecated format
// of `mempool.eviction_memory_time`.
config_file = config_file
.lines()
// Remove the valid `eviction_memory_time` key/value pair from the
// config.
.filter(|line| !line.contains("eviction_memory_time"))
.map(|line| line.to_owned() + "\n")
.collect();
// Append the `eviction_memory_time` key/value pair in a deprecated format.
config_file += r"
[mempool.eviction_memory_time]
nanos = 0
secs = 3600
";
// Write the altered config file so that Zebra can pick it up.
fs::write(config_path.to_str().unwrap(), config_file.as_bytes())
.expect("Could not write the altered config file.");
// Run Zebra in a temp dir so that it loads the config.
let mut child = testdir.spawn_child(args!["start"])?;
// Return an error if Zebra is running for more than two seconds.
//
// Since the config is invalid, Zebra should terminate instantly after its
// start. Two seconds should be sufficient for Zebra to read the config file
// and terminate.
std::thread::sleep(Duration::from_secs(2));
if child.is_running() {
// We're going to error anyway, so return an error that makes sense to the developer.
child.kill(true)?;
return Err(eyre!(
"Zebra should have exited after reading the invalid config"
));
}
let output = child.wait_with_output()?;
// Check that Zebra produced an informative message.
output.stderr_contains("Zebra could not parse the provided config file. This might mean you are using a deprecated format of the file.")?;
Ok(())
}
/// Test all versions of `zebrad.toml` we have stored can be parsed by the latest `zebrad`.
#[tracing::instrument]
fn stored_configs_work() -> Result<()> {
let old_configs_dir = configs_dir();
for config_file in old_configs_dir
.read_dir()
.expect("read_dir call failed")
.flatten()
{
let config_file_path = config_file.path();
let config_file_name = config_file_path
.file_name()
.expect("config files must have a file name")
.to_string_lossy();
if config_file_name.as_ref().starts_with('.') || config_file_name.as_ref().starts_with('#')
{
// Skip editor files and other invalid config paths
tracing::info!(
?config_file_path,
"skipping hidden/temporary config file path"
);
continue;
}
// ignore files starting with getblocktemplate prefix
// if we were not built with the getblocktemplate-rpcs feature.
#[cfg(not(feature = "getblocktemplate-rpcs"))]
if config_file_name
.as_ref()
.starts_with(GET_BLOCK_TEMPLATE_CONFIG_PREFIX)
{
tracing::info!(
?config_file_path,
"skipping getblocktemplate-rpcs config file path"
);
continue;
}
let run_dir = testdir()?;
let stored_config_path = config_file_full_path(config_file.path());
// run zebra with stored config
let mut child =
run_dir.spawn_child(args!["-c", stored_config_path.to_str().unwrap(), "start"])?;
// zebra was able to start with the stored config
child.expect_stdout_line_matches("Starting zebrad".to_string())?;
// finish
child.kill(false)?;
let output = child.wait_with_output()?;
let output = output.assert_failure()?;
// [Note on port conflict](#Note on port conflict)
output
.assert_was_killed()
.wrap_err("Possible port conflict. Are there other acceptance tests running?")?;
}
Ok(())
}
/// Test if `zebrad` can sync the first checkpoint on mainnet.
///
/// The first checkpoint contains a single genesis block.
#[test]
fn sync_one_checkpoint_mainnet() -> Result<()> {
sync_until(
TINY_CHECKPOINT_TEST_HEIGHT,
Mainnet,
STOP_AT_HEIGHT_REGEX,
TINY_CHECKPOINT_TIMEOUT,
None,
MempoolBehavior::ShouldNotActivate,
// checkpoint sync is irrelevant here - all tested checkpoints are mandatory
true,
true,
)
.map(|_tempdir| ())
}
/// Test if `zebrad` can sync the first checkpoint on testnet.
///
/// The first checkpoint contains a single genesis block.
// TODO: disabled because testnet is not currently reliable
// #[test]
#[allow(dead_code)]
fn sync_one_checkpoint_testnet() -> Result<()> {
sync_until(
TINY_CHECKPOINT_TEST_HEIGHT,
Testnet,
STOP_AT_HEIGHT_REGEX,
TINY_CHECKPOINT_TIMEOUT,
None,
MempoolBehavior::ShouldNotActivate,
// checkpoint sync is irrelevant here - all tested checkpoints are mandatory
true,
true,
)
.map(|_tempdir| ())
}
/// Test if `zebrad` can sync the first checkpoint, restart, and stop on load.
#[test]
fn restart_stop_at_height() -> Result<()> {
let _init_guard = zebra_test::init();
restart_stop_at_height_for_network(Network::Mainnet, TINY_CHECKPOINT_TEST_HEIGHT)?;
// TODO: disabled because testnet is not currently reliable
// restart_stop_at_height_for_network(Network::Testnet, TINY_CHECKPOINT_TEST_HEIGHT)?;
Ok(())
}
fn restart_stop_at_height_for_network(network: Network, height: block::Height) -> Result<()> {
let reuse_tempdir = sync_until(
height,
network,
STOP_AT_HEIGHT_REGEX,
TINY_CHECKPOINT_TIMEOUT,
None,
MempoolBehavior::ShouldNotActivate,
// checkpoint sync is irrelevant here - all tested checkpoints are mandatory
true,
true,
)?;
// if stopping corrupts the rocksdb database, zebrad might hang or crash here
// if stopping does not write the rocksdb database to disk, Zebra will
// sync, rather than stopping immediately at the configured height
sync_until(
height,
network,
"state is already at the configured height",
STOP_ON_LOAD_TIMEOUT,
reuse_tempdir,
MempoolBehavior::ShouldNotActivate,
// checkpoint sync is irrelevant here - all tested checkpoints are mandatory
true,
false,
)?;
Ok(())
}
/// Test if `zebrad` can activate the mempool on mainnet.
/// Debug activation happens after committing the genesis block.
#[test]
fn activate_mempool_mainnet() -> Result<()> {
sync_until(
block::Height(TINY_CHECKPOINT_TEST_HEIGHT.0 + 1),
Mainnet,
STOP_AT_HEIGHT_REGEX,
TINY_CHECKPOINT_TIMEOUT,
None,
MempoolBehavior::ForceActivationAt(TINY_CHECKPOINT_TEST_HEIGHT),
// checkpoint sync is irrelevant here - all tested checkpoints are mandatory
true,
true,
)
.map(|_tempdir| ())
}
/// Test if `zebrad` can sync some larger checkpoints on mainnet.
///
/// This test might fail or timeout on slow or unreliable networks,
/// so we don't run it by default. It also takes a lot longer than
/// our 10 second target time for default tests.
#[test]
#[ignore]
fn sync_large_checkpoints_mainnet() -> Result<()> {
let reuse_tempdir = sync_until(
LARGE_CHECKPOINT_TEST_HEIGHT,
Mainnet,
STOP_AT_HEIGHT_REGEX,
LARGE_CHECKPOINT_TIMEOUT,
None,
MempoolBehavior::ShouldNotActivate,
// checkpoint sync is irrelevant here - all tested checkpoints are mandatory
true,
true,
)?;
// if this sync fails, see the failure notes in `restart_stop_at_height`
sync_until(
(LARGE_CHECKPOINT_TEST_HEIGHT - 1).unwrap(),
Mainnet,
"previous state height is greater than the stop height",
STOP_ON_LOAD_TIMEOUT,
reuse_tempdir,
MempoolBehavior::ShouldNotActivate,
// checkpoint sync is irrelevant here - all tested checkpoints are mandatory
true,
false,
)?;
Ok(())
}
// TODO: We had `sync_large_checkpoints_testnet` and `sync_large_checkpoints_mempool_testnet`,
// but they were removed because the testnet is unreliable (#1222).
// We should re-add them after we have more testnet instances (#1791).
/// Test if `zebrad` can run side by side with the mempool.
/// This is done by running the mempool and syncing some checkpoints.
#[test]
#[ignore]
fn sync_large_checkpoints_mempool_mainnet() -> Result<()> {
sync_until(
MEDIUM_CHECKPOINT_TEST_HEIGHT,
Mainnet,
STOP_AT_HEIGHT_REGEX,
LARGE_CHECKPOINT_TIMEOUT,
None,
MempoolBehavior::ForceActivationAt(TINY_CHECKPOINT_TEST_HEIGHT),
// checkpoint sync is irrelevant here - all tested checkpoints are mandatory
true,
true,
)
.map(|_tempdir| ())
}
#[tracing::instrument]
fn create_cached_database(network: Network) -> Result<()> {
let height = network.mandatory_checkpoint_height();
let checkpoint_stop_regex =
format!("{STOP_AT_HEIGHT_REGEX}.*commit checkpoint-verified request");
create_cached_database_height(
network,
height,
// We don't need the ZK parameters, we're only using checkpoints
true,
// Use checkpoints to increase sync performance while caching the database
true,
// Check that we're still using checkpoints when we finish the cached sync
&checkpoint_stop_regex,
)
}
#[tracing::instrument]
fn sync_past_mandatory_checkpoint(network: Network) -> Result<()> {
let height = network.mandatory_checkpoint_height() + 1200;
let full_validation_stop_regex =
format!("{STOP_AT_HEIGHT_REGEX}.*commit contextually-verified request");
create_cached_database_height(
network,
height.unwrap(),
// We need the ZK parameters for full validation
false,
// Test full validation by turning checkpoints off
false,
// Check that we're doing full validation when we finish the cached sync
&full_validation_stop_regex,
)
}
/// Sync `network` until the chain tip is reached, or a timeout elapses.
///
/// The timeout is specified using an environment variable, with the name configured by the
/// `timeout_argument_name` parameter. The value of the environment variable must the number of
/// minutes specified as an integer.
#[allow(clippy::print_stderr)]
#[tracing::instrument]
fn full_sync_test(network: Network, timeout_argument_name: &str) -> Result<()> {
let timeout_argument: Option<u64> = env::var(timeout_argument_name)
.ok()
.and_then(|timeout_string| timeout_string.parse().ok());
// # TODO
//
// Replace hard-coded values in create_cached_database_height with:
// - the timeout in the environmental variable
// - the path from ZEBRA_CACHED_STATE_DIR
if let Some(_timeout_minutes) = timeout_argument {
create_cached_database_height(
network,
// Just keep going until we reach the chain tip
block::Height::MAX,
// We need the ZK parameters for full validation
false,
// Use the checkpoints to sync quickly, then do full validation until the chain tip
true,
// Finish when we reach the chain tip
SYNC_FINISHED_REGEX,
)
} else {
eprintln!(
"Skipped full sync test for {network}, \
set the {timeout_argument_name:?} environmental variable to run the test",
);
Ok(())
}
}
// These tests are ignored because they're too long running to run during our
// traditional CI, and they depend on persistent state that cannot be made
// available in github actions or google cloud build. Instead we run these tests
// directly in a vm we spin up on google compute engine, where we can mount
// drives populated by the sync_to_mandatory_checkpoint tests, snapshot those drives,
// and then use them to more quickly run the sync_past_mandatory_checkpoint tests.
/// Sync up to the mandatory checkpoint height on mainnet and stop.
#[allow(dead_code)]
#[cfg_attr(feature = "test_sync_to_mandatory_checkpoint_mainnet", test)]
fn sync_to_mandatory_checkpoint_mainnet() -> Result<()> {
let _init_guard = zebra_test::init();
let network = Mainnet;
create_cached_database(network)
}
/// Sync to the mandatory checkpoint height testnet and stop.
#[allow(dead_code)]
#[cfg_attr(feature = "test_sync_to_mandatory_checkpoint_testnet", test)]
fn sync_to_mandatory_checkpoint_testnet() -> Result<()> {
let _init_guard = zebra_test::init();
let network = Testnet;
create_cached_database(network)
}
/// Test syncing 1200 blocks (3 checkpoints) past the mandatory checkpoint on mainnet.
///
/// This assumes that the config'd state is already synced at or near the mandatory checkpoint
/// activation on mainnet. If the state has already synced past the mandatory checkpoint
/// activation by 1200 blocks, it will fail.
#[allow(dead_code)]
#[cfg_attr(feature = "test_sync_past_mandatory_checkpoint_mainnet", test)]
fn sync_past_mandatory_checkpoint_mainnet() -> Result<()> {
let _init_guard = zebra_test::init();
let network = Mainnet;
sync_past_mandatory_checkpoint(network)
}
/// Test syncing 1200 blocks (3 checkpoints) past the mandatory checkpoint on testnet.
///
/// This assumes that the config'd state is already synced at or near the mandatory checkpoint
/// activation on testnet. If the state has already synced past the mandatory checkpoint
/// activation by 1200 blocks, it will fail.
#[allow(dead_code)]
#[cfg_attr(feature = "test_sync_past_mandatory_checkpoint_testnet", test)]
fn sync_past_mandatory_checkpoint_testnet() -> Result<()> {
let _init_guard = zebra_test::init();
let network = Testnet;
sync_past_mandatory_checkpoint(network)
}
/// Test if `zebrad` can fully sync the chain on mainnet.
///
/// This test takes a long time to run, so we don't run it by default. This test is only executed
/// if there is an environment variable named `FULL_SYNC_MAINNET_TIMEOUT_MINUTES` set with the number
/// of minutes to wait for synchronization to complete before considering that the test failed.
#[test]
#[ignore]
fn full_sync_mainnet() -> Result<()> {
// TODO: add "ZEBRA" at the start of this env var, to avoid clashes
full_sync_test(Mainnet, "FULL_SYNC_MAINNET_TIMEOUT_MINUTES")
}
/// Test if `zebrad` can fully sync the chain on testnet.
///
/// This test takes a long time to run, so we don't run it by default. This test is only executed
/// if there is an environment variable named `FULL_SYNC_TESTNET_TIMEOUT_MINUTES` set with the number
/// of minutes to wait for synchronization to complete before considering that the test failed.
#[test]
#[ignore]
fn full_sync_testnet() -> Result<()> {
// TODO: add "ZEBRA" at the start of this env var, to avoid clashes
full_sync_test(Testnet, "FULL_SYNC_TESTNET_TIMEOUT_MINUTES")
}
#[cfg(feature = "prometheus")]
#[tokio::test]
async fn metrics_endpoint() -> Result<()> {
use hyper::Client;
let _init_guard = zebra_test::init();
// [Note on port conflict](#Note on port conflict)
let port = random_known_port();
let endpoint = format!("127.0.0.1:{port}");
let url = format!("http://{endpoint}");
// Write a configuration that has metrics endpoint_addr set
let mut config = default_test_config()?;
config.metrics.endpoint_addr = Some(endpoint.parse().unwrap());
let dir = testdir()?.with_config(&mut config)?;
let child = dir.spawn_child(args!["start"])?;
// Run `zebrad` for a few seconds before testing the endpoint
// Since we're an async function, we have to use a sleep future, not thread sleep.
tokio::time::sleep(LAUNCH_DELAY).await;
// Create an http client
let client = Client::new();
// Test metrics endpoint
let res = client.get(url.try_into().expect("url is valid")).await;
let (res, child) = child.kill_on_error(res)?;
assert!(res.status().is_success());
let body = hyper::body::to_bytes(res).await;
let (body, mut child) = child.kill_on_error(body)?;
child.kill(false)?;
let output = child.wait_with_output()?;
let output = output.assert_failure()?;
output.any_output_line_contains(
"# TYPE zebrad_build_info counter",
&body,
"metrics exporter response",
"the metrics response header",
)?;
std::str::from_utf8(&body).expect("unexpected invalid UTF-8 in metrics exporter response");
// Make sure metrics was started
output.stdout_line_contains(format!("Opened metrics endpoint at {endpoint}").as_str())?;
// [Note on port conflict](#Note on port conflict)
output
.assert_was_killed()
.wrap_err("Possible port conflict. Are there other acceptance tests running?")?;
Ok(())
}
#[cfg(feature = "filter-reload")]
#[tokio::test]
async fn tracing_endpoint() -> Result<()> {
use hyper::{Body, Client, Request};
let _init_guard = zebra_test::init();
// [Note on port conflict](#Note on port conflict)
let port = random_known_port();
let endpoint = format!("127.0.0.1:{port}");
let url_default = format!("http://{endpoint}");
let url_filter = format!("{url_default}/filter");
// Write a configuration that has tracing endpoint_addr option set
let mut config = default_test_config()?;
config.tracing.endpoint_addr = Some(endpoint.parse().unwrap());
let dir = testdir()?.with_config(&mut config)?;
let child = dir.spawn_child(args!["start"])?;
// Run `zebrad` for a few seconds before testing the endpoint
// Since we're an async function, we have to use a sleep future, not thread sleep.
tokio::time::sleep(LAUNCH_DELAY).await;
// Create an http client
let client = Client::new();
// Test tracing endpoint
let res = client
.get(url_default.try_into().expect("url_default is valid"))
.await;
let (res, child) = child.kill_on_error(res)?;
assert!(res.status().is_success());
let body = hyper::body::to_bytes(res).await;
let (body, child) = child.kill_on_error(body)?;
// Set a filter and make sure it was changed
let request = Request::post(url_filter.clone())
.body(Body::from("zebrad=debug"))
.unwrap();
let post = client.request(request).await;
let (_post, child) = child.kill_on_error(post)?;
let tracing_res = client
.get(url_filter.try_into().expect("url_filter is valid"))
.await;
let (tracing_res, child) = child.kill_on_error(tracing_res)?;
assert!(tracing_res.status().is_success());
let tracing_body = hyper::body::to_bytes(tracing_res).await;
let (tracing_body, mut child) = child.kill_on_error(tracing_body)?;
child.kill(false)?;
let output = child.wait_with_output()?;
let output = output.assert_failure()?;
// Make sure tracing endpoint was started
output.stdout_line_contains(format!("Opened tracing endpoint at {endpoint}").as_str())?;
// TODO: Match some trace level messages from output
// Make sure the endpoint header is correct
// The header is split over two lines. But we don't want to require line
// breaks at a specific word, so we run two checks for different substrings.
output.any_output_line_contains(
"HTTP endpoint allows dynamic control of the filter",
&body,
"tracing filter endpoint response",
"the tracing response header",
)?;
output.any_output_line_contains(
"tracing events",
&body,
"tracing filter endpoint response",
"the tracing response header",
)?;
std::str::from_utf8(&body).expect("unexpected invalid UTF-8 in tracing filter response");
// Make sure endpoint requests change the filter
output.any_output_line_contains(
"zebrad=debug",
&tracing_body,
"tracing filter endpoint response",
"the modified tracing filter",
)?;
std::str::from_utf8(&tracing_body)
.expect("unexpected invalid UTF-8 in modified tracing filter response");
// [Note on port conflict](#Note on port conflict)
output
.assert_was_killed()
.wrap_err("Possible port conflict. Are there other acceptance tests running?")?;
Ok(())
}
/// Test that the JSON-RPC endpoint responds to a request,
/// when configured with a single thread.
#[tokio::test]
async fn rpc_endpoint_single_thread() -> Result<()> {
rpc_endpoint(false).await
}
/// Test that the JSON-RPC endpoint responds to a request,
/// when configured with multiple threads.
#[tokio::test]
async fn rpc_endpoint_parallel_threads() -> Result<()> {
rpc_endpoint(true).await
}
/// Test that the JSON-RPC endpoint responds to a request.
///
/// Set `parallel_cpu_threads` to true to auto-configure based on the number of CPU cores.
#[tracing::instrument]
async fn rpc_endpoint(parallel_cpu_threads: bool) -> Result<()> {
use serde_json::Value;
let _init_guard = zebra_test::init();
if zebra_test::net::zebra_skip_network_tests() {
return Ok(());
}
// Write a configuration that has RPC listen_addr set
// [Note on port conflict](#Note on port conflict)
let mut config = random_known_rpc_port_config(parallel_cpu_threads)?;
let dir = testdir()?.with_config(&mut config)?;
let mut child = dir.spawn_child(args!["start"])?;
// Wait until port is open.
child.expect_stdout_line_matches(
format!("Opened RPC endpoint at {}", config.rpc.listen_addr.unwrap()).as_str(),
)?;
// Create an http client
let client = RpcRequestClient::new(config.rpc.listen_addr.unwrap());
// Make the call to the `getinfo` RPC method
let res = client.call("getinfo", "[]".to_string()).await?;
// Test rpc endpoint response
assert!(res.status().is_success());
let body = res.bytes().await;
let (body, mut child) = child.kill_on_error(body)?;
let parsed: Value = serde_json::from_slice(&body)?;
// Check that we have at least 4 characters in the `build` field.
let build = parsed["result"]["build"].as_str().unwrap();
assert!(build.len() > 4, "Got {build}");
// Check that the `subversion` field has "Zebra" in it.
let subversion = parsed["result"]["subversion"].as_str().unwrap();
assert!(subversion.contains("Zebra"), "Got {subversion}");
child.kill(false)?;
let output = child.wait_with_output()?;
let output = output.assert_failure()?;
// [Note on port conflict](#Note on port conflict)
output
.assert_was_killed()
.wrap_err("Possible port conflict. Are there other acceptance tests running?")?;
Ok(())
}
/// Test that Zebra's non-blocking logger works, by creating lots of debug output, but not reading the logs.
/// Then make sure Zebra drops excess log lines. (Previously, it would block waiting for logs to be read.)
///
/// This test is unreliable and sometimes hangs on macOS.
#[test]
#[cfg(not(target_os = "macos"))]
fn non_blocking_logger() -> Result<()> {
use futures::FutureExt;
use std::{sync::mpsc, time::Duration};
let rt = tokio::runtime::Runtime::new().unwrap();
let (done_tx, done_rx) = mpsc::channel();
let test_task_handle: tokio::task::JoinHandle<Result<()>> = rt.spawn(async move {
let _init_guard = zebra_test::init();
// Write a configuration that has RPC listen_addr set
// [Note on port conflict](#Note on port conflict)
let mut config = random_known_rpc_port_config(false)?;
config.tracing.filter = Some("trace".to_string());
config.tracing.buffer_limit = 100;
let zebra_rpc_address = config.rpc.listen_addr.unwrap();
let dir = testdir()?.with_config(&mut config)?;
let mut child = dir
.spawn_child(args!["start"])?
.with_timeout(TINY_CHECKPOINT_TIMEOUT);
// Wait until port is open.
child.expect_stdout_line_matches(
format!("Opened RPC endpoint at {}", config.rpc.listen_addr.unwrap()).as_str(),
)?;
// Create an http client
let client = RpcRequestClient::new(zebra_rpc_address);
// Most of Zebra's lines are 100-200 characters long, so 500 requests should print enough to fill the unix pipe,
// fill the channel that tracing logs are queued onto, and drop logs rather than block execution.
for _ in 0..500 {
let res = client.call("getinfo", "[]".to_string()).await?;
// Test that zebrad rpc endpoint is still responding to requests
assert!(res.status().is_success());
}
child.kill(false)?;
let output = child.wait_with_output()?;
let output = output.assert_failure()?;
// [Note on port conflict](#Note on port conflict)
output
.assert_was_killed()
.wrap_err("Possible port conflict. Are there other acceptance tests running?")?;
done_tx.send(())?;
Ok(())
});
// Wait until the spawned task finishes or return an error in 45 seconds
if done_rx.recv_timeout(Duration::from_secs(45)).is_err() {
return Err(eyre!("unexpected test task hang"));
}
rt.shutdown_timeout(Duration::from_secs(3));
match test_task_handle.now_or_never() {
Some(Ok(result)) => result,
Some(Err(error)) => Err(eyre!("join error: {:?}", error)),
None => Err(eyre!("unexpected test task hang")),
}
}
/// Make sure `lightwalletd` works with Zebra, when both their states are empty.
///
/// This test only runs when the `ZEBRA_TEST_LIGHTWALLETD` env var is set.
///
/// This test doesn't work on Windows, so it is always skipped on that platform.
#[test]
#[cfg(not(target_os = "windows"))]
fn lightwalletd_integration() -> Result<()> {
lightwalletd_integration_test(LaunchWithEmptyState {
launches_lightwalletd: true,
})
}
/// Make sure `zebrad` can sync from peers, but don't actually launch `lightwalletd`.
///
/// This test only runs when the `ZEBRA_CACHED_STATE_DIR` env var is set.
///
/// This test might work on Windows.
#[test]
fn zebrad_update_sync() -> Result<()> {
lightwalletd_integration_test(UpdateZebraCachedStateNoRpc)
}
/// Make sure `lightwalletd` can sync from Zebra, in update sync mode.
///
/// This test only runs when:
/// - the `ZEBRA_TEST_LIGHTWALLETD`, `ZEBRA_CACHED_STATE_DIR`, and
/// `LIGHTWALLETD_DATA_DIR` env vars are set, and
/// - Zebra is compiled with `--features=lightwalletd-grpc-tests`.
///
/// This test doesn't work on Windows, so it is always skipped on that platform.
#[test]
#[cfg(not(target_os = "windows"))]
#[cfg(feature = "lightwalletd-grpc-tests")]
fn lightwalletd_update_sync() -> Result<()> {
lightwalletd_integration_test(UpdateCachedState)
}
/// Make sure `lightwalletd` can fully sync from genesis using Zebra.
///
/// This test only runs when:
/// - the `ZEBRA_TEST_LIGHTWALLETD` and `ZEBRA_CACHED_STATE_DIR` env vars are set, and
/// - Zebra is compiled with `--features=lightwalletd-grpc-tests`.
///
///
/// This test doesn't work on Windows, so it is always skipped on that platform.
#[test]
#[ignore]
#[cfg(not(target_os = "windows"))]
#[cfg(feature = "lightwalletd-grpc-tests")]
fn lightwalletd_full_sync() -> Result<()> {
lightwalletd_integration_test(FullSyncFromGenesis {
allow_lightwalletd_cached_state: false,
})
}
/// Make sure `lightwalletd` can sync from Zebra, in all available modes.
///
/// Runs the tests in this order:
/// - launch lightwalletd with empty states,
/// - if `ZEBRA_CACHED_STATE_DIR` is set:
/// - run a full sync
/// - if `ZEBRA_CACHED_STATE_DIR` and `LIGHTWALLETD_DATA_DIR` are set:
/// - run a quick update sync,
/// - run a send transaction gRPC test,
/// - run read-only gRPC tests.
///
/// The lightwalletd full, update, and gRPC tests only run with `--features=lightwalletd-grpc-tests`.
///
/// These tests don't work on Windows, so they are always skipped on that platform.
#[tokio::test]
#[ignore]
#[cfg(not(target_os = "windows"))]
async fn lightwalletd_test_suite() -> Result<()> {
lightwalletd_integration_test(LaunchWithEmptyState {
launches_lightwalletd: true,
})?;
// Only runs when ZEBRA_CACHED_STATE_DIR is set.
lightwalletd_integration_test(UpdateZebraCachedStateNoRpc)?;
// These tests need the compile-time gRPC feature
#[cfg(feature = "lightwalletd-grpc-tests")]
{
// Do the quick tests first
// Only runs when LIGHTWALLETD_DATA_DIR and ZEBRA_CACHED_STATE_DIR are set
lightwalletd_integration_test(UpdateCachedState)?;
// Only runs when LIGHTWALLETD_DATA_DIR and ZEBRA_CACHED_STATE_DIR are set
common::lightwalletd::wallet_grpc_test::run().await?;
// Then do the slow tests
// Only runs when ZEBRA_CACHED_STATE_DIR is set.
// When manually running the test suite, allow cached state in the full sync test.
lightwalletd_integration_test(FullSyncFromGenesis {
allow_lightwalletd_cached_state: true,
})?;
// Only runs when LIGHTWALLETD_DATA_DIR and ZEBRA_CACHED_STATE_DIR are set
common::lightwalletd::send_transaction_test::run().await?;
}
Ok(())
}
/// Run a lightwalletd integration test with a configuration for `test_type`.
///
/// Tests that sync `lightwalletd` to the chain tip require the `lightwalletd-grpc-tests` feature`:
/// - [`FullSyncFromGenesis`]
/// - [`UpdateCachedState`]
///
/// Set `FullSyncFromGenesis { allow_lightwalletd_cached_state: true }` to speed up manual full sync tests.
///
/// # Relibility
///
/// The random ports in this test can cause [rare port conflicts.](#Note on port conflict)
///
/// # Panics
///
/// If the `test_type` requires `--features=lightwalletd-grpc-tests`,
/// but Zebra was not compiled with that feature.
#[tracing::instrument]
fn lightwalletd_integration_test(test_type: TestType) -> Result<()> {
let _init_guard = zebra_test::init();
// We run these sync tests with a network connection, for better test coverage.
let use_internet_connection = true;
let network = Mainnet;
let test_name = "lightwalletd_integration_test";
if test_type.launches_lightwalletd() && !can_spawn_lightwalletd_for_rpc(test_name, test_type) {
tracing::info!("skipping test due to missing lightwalletd network or cached state");
return Ok(());
}
// Launch zebra with peers and using a predefined zebrad state path.
let (mut zebrad, zebra_rpc_address) = if let Some(zebrad_and_address) =
spawn_zebrad_for_rpc(network, test_name, test_type, use_internet_connection)?
{
tracing::info!(
?test_type,
"running lightwalletd & zebrad integration test, launching zebrad...",
);
zebrad_and_address
} else {
// Skip the test, we don't have the required cached state
return Ok(());
};
if test_type.needs_zebra_cached_state() {
zebrad
.expect_stdout_line_matches(r"loaded Zebra state cache .*tip.*=.*Height\([0-9]{7}\)")?;
} else {
// Timeout the test if we're somehow accidentally using a cached state
zebrad.expect_stdout_line_matches("loaded Zebra state cache .*tip.*=.*None")?;
}
// Launch lightwalletd, if needed
let lightwalletd_and_port = if test_type.launches_lightwalletd() {
tracing::info!(
?test_type,
?zebra_rpc_address,
"waiting for zebrad to open its RPC port..."
);
zebrad.expect_stdout_line_matches(format!(
"Opened RPC endpoint at {}",
zebra_rpc_address.expect("lightwalletd test must have RPC port")
))?;
tracing::info!(
?zebra_rpc_address,
"launching lightwalletd connected to zebrad",
);
// Launch lightwalletd
let (mut lightwalletd, lightwalletd_rpc_port) = spawn_lightwalletd_for_rpc(
network,
test_name,
test_type,
zebra_rpc_address.expect("lightwalletd test must have RPC port"),
)?
.expect("already checked for lightwalletd cached state and network");
tracing::info!(
?lightwalletd_rpc_port,
"spawned lightwalletd connected to zebrad",
);
// Check that `lightwalletd` is calling the expected Zebra RPCs
// getblockchaininfo
if test_type.needs_zebra_cached_state() {
lightwalletd.expect_stdout_line_matches(
"Got sapling height 419200 block height [0-9]{7} chain main branchID [0-9a-f]{8}",
)?;
} else {
// Timeout the test if we're somehow accidentally using a cached state in our temp dir
lightwalletd.expect_stdout_line_matches(
"Got sapling height 419200 block height [0-9]{1,6} chain main branchID 00000000",
)?;
}
if test_type.needs_lightwalletd_cached_state() {
lightwalletd.expect_stdout_line_matches("Found [0-9]{7} blocks in cache")?;
} else if !test_type.allow_lightwalletd_cached_state() {
// Timeout the test if we're somehow accidentally using a cached state in our temp dir
lightwalletd.expect_stdout_line_matches("Found 0 blocks in cache")?;
}
// getblock with the first Sapling block in Zebra's state
//
// zcash/lightwalletd calls getbestblockhash here, but
// adityapk00/lightwalletd calls getblock
//
// The log also depends on what is in Zebra's state:
//
// # Cached Zebra State
//
// lightwalletd ingests blocks into its cache.
//
// # Empty Zebra State
//
// lightwalletd tries to download the Sapling activation block, but it's not in the state.
//
// Until the Sapling activation block has been downloaded,
// lightwalletd will keep retrying getblock.
if !test_type.allow_lightwalletd_cached_state() {
if test_type.needs_zebra_cached_state() {
lightwalletd.expect_stdout_line_matches(
"([Aa]dding block to cache)|([Ww]aiting for block)",
)?;
} else {
lightwalletd.expect_stdout_line_matches(regex::escape(
"Waiting for zcashd height to reach Sapling activation height (419200)",
))?;
}
}
Some((lightwalletd, lightwalletd_rpc_port))
} else {
None
};
let (mut zebrad, lightwalletd) = if test_type.needs_zebra_cached_state() {
if let Some((lightwalletd, lightwalletd_rpc_port)) = lightwalletd_and_port {
#[cfg(feature = "lightwalletd-grpc-tests")]
{
use common::lightwalletd::sync::wait_for_zebrad_and_lightwalletd_sync;
tracing::info!(
?lightwalletd_rpc_port,
"waiting for zebrad and lightwalletd to sync...",
);
let (lightwalletd, zebrad) = wait_for_zebrad_and_lightwalletd_sync(
lightwalletd,
lightwalletd_rpc_port,
zebrad,
zebra_rpc_address.expect("lightwalletd test must have RPC port"),
test_type,
// We want to wait for the mempool and network for better coverage
true,
use_internet_connection,
)?;
(zebrad, Some(lightwalletd))
}
#[cfg(not(feature = "lightwalletd-grpc-tests"))]
panic!(
"the {test_type:?} test requires `cargo test --feature lightwalletd-grpc-tests`\n\
zebrad: {zebrad:?}\n\
lightwalletd: {lightwalletd:?}\n\
lightwalletd_rpc_port: {lightwalletd_rpc_port:?}"
);
} else {
// We're just syncing Zebra, so there's no lightwalletd to check
tracing::info!(?test_type, "waiting for zebrad to sync to the tip");
zebrad.expect_stdout_line_matches(SYNC_FINISHED_REGEX)?;
(zebrad, None)
}
} else {
let lightwalletd = lightwalletd_and_port.map(|(lightwalletd, _port)| lightwalletd);
// We don't have a cached state, so we don't do any tip checks for Zebra or lightwalletd
(zebrad, lightwalletd)
};
tracing::info!(
?test_type,
"cleaning up child processes and checking for errors",
);
// Cleanup both processes
//
// If the test fails here, see the [note on port conflict](#Note on port conflict)
//
// zcash/lightwalletd exits by itself, but
// adityapk00/lightwalletd keeps on going, so it gets killed by the test harness.
zebrad.kill(false)?;
if let Some(mut lightwalletd) = lightwalletd {
lightwalletd.kill(false)?;
let lightwalletd_output = lightwalletd.wait_with_output()?.assert_failure()?;
lightwalletd_output
.assert_was_killed()
.wrap_err("Possible port conflict. Are there other acceptance tests running?")?;
}
let zebrad_output = zebrad.wait_with_output()?.assert_failure()?;
zebrad_output
.assert_was_killed()
.wrap_err("Possible port conflict. Are there other acceptance tests running?")?;
Ok(())
}
/// Test will start 2 zebrad nodes one after the other using the same Zcash listener.
/// It is expected that the first node spawned will get exclusive use of the port.
/// The second node will panic with the Zcash listener conflict hint added in #1535.
#[test]
fn zebra_zcash_listener_conflict() -> Result<()> {
let _init_guard = zebra_test::init();
// [Note on port conflict](#Note on port conflict)
let port = random_known_port();
let listen_addr = format!("127.0.0.1:{port}");
// Write a configuration that has our created network listen_addr
let mut config = default_test_config()?;
config.network.listen_addr = listen_addr.parse().unwrap();
let dir1 = testdir()?.with_config(&mut config)?;
let regex1 = regex::escape(&format!("Opened Zcash protocol endpoint at {listen_addr}"));
// From another folder create a configuration with the same listener.
// `network.listen_addr` will be the same in the 2 nodes.
// (But since the config is ephemeral, they will have different state paths.)
let dir2 = testdir()?.with_config(&mut config)?;
check_config_conflict(dir1, regex1.as_str(), dir2, PORT_IN_USE_ERROR.as_str())?;
Ok(())
}
/// Start 2 zebrad nodes using the same metrics listener port, but different
/// state directories and Zcash listener ports. The first node should get
/// exclusive use of the port. The second node will panic with the Zcash metrics
/// conflict hint added in #1535.
#[test]
#[cfg(feature = "prometheus")]
fn zebra_metrics_conflict() -> Result<()> {
let _init_guard = zebra_test::init();
// [Note on port conflict](#Note on port conflict)
let port = random_known_port();
let listen_addr = format!("127.0.0.1:{port}");
// Write a configuration that has our created metrics endpoint_addr
let mut config = default_test_config()?;
config.metrics.endpoint_addr = Some(listen_addr.parse().unwrap());
let dir1 = testdir()?.with_config(&mut config)?;
let regex1 = regex::escape(&format!(r"Opened metrics endpoint at {listen_addr}"));
// From another folder create a configuration with the same endpoint.
// `metrics.endpoint_addr` will be the same in the 2 nodes.
// But they will have different Zcash listeners (auto port) and states (ephemeral)
let dir2 = testdir()?.with_config(&mut config)?;
check_config_conflict(dir1, regex1.as_str(), dir2, PORT_IN_USE_ERROR.as_str())?;
Ok(())
}
/// Start 2 zebrad nodes using the same tracing listener port, but different
/// state directories and Zcash listener ports. The first node should get
/// exclusive use of the port. The second node will panic with the Zcash tracing
/// conflict hint added in #1535.
#[test]
#[cfg(feature = "filter-reload")]
fn zebra_tracing_conflict() -> Result<()> {
let _init_guard = zebra_test::init();
// [Note on port conflict](#Note on port conflict)
let port = random_known_port();
let listen_addr = format!("127.0.0.1:{port}");
// Write a configuration that has our created tracing endpoint_addr
let mut config = default_test_config()?;
config.tracing.endpoint_addr = Some(listen_addr.parse().unwrap());
let dir1 = testdir()?.with_config(&mut config)?;
let regex1 = regex::escape(&format!(r"Opened tracing endpoint at {listen_addr}"));
// From another folder create a configuration with the same endpoint.
// `tracing.endpoint_addr` will be the same in the 2 nodes.
// But they will have different Zcash listeners (auto port) and states (ephemeral)
let dir2 = testdir()?.with_config(&mut config)?;
check_config_conflict(dir1, regex1.as_str(), dir2, PORT_IN_USE_ERROR.as_str())?;
Ok(())
}
/// Start 2 zebrad nodes using the same RPC listener port, but different
/// state directories and Zcash listener ports. The first node should get
/// exclusive use of the port. The second node will panic.
///
/// This test is sometimes unreliable on Windows, and hangs on macOS.
/// We believe this is a CI infrastructure issue, not a platform-specific issue.
#[test]
#[cfg(not(any(target_os = "windows", target_os = "macos")))]
fn zebra_rpc_conflict() -> Result<()> {
let _init_guard = zebra_test::init();
if zebra_test::net::zebra_skip_network_tests() {
return Ok(());
}
// Write a configuration that has RPC listen_addr set
// [Note on port conflict](#Note on port conflict)
//
// This is the required setting to detect port conflicts.
let mut config = random_known_rpc_port_config(false)?;
let dir1 = testdir()?.with_config(&mut config)?;
let regex1 = regex::escape(&format!(
r"Opened RPC endpoint at {}",
config.rpc.listen_addr.unwrap(),
));
// From another folder create a configuration with the same endpoint.
// `rpc.listen_addr` will be the same in the 2 nodes.
// But they will have different Zcash listeners (auto port) and states (ephemeral)
let dir2 = testdir()?.with_config(&mut config)?;
check_config_conflict(dir1, regex1.as_str(), dir2, "Unable to start RPC server")?;
Ok(())
}
/// Start 2 zebrad nodes using the same state directory, but different Zcash
/// listener ports. The first node should get exclusive access to the database.
/// The second node will panic with the Zcash state conflict hint added in #1535.
#[test]
fn zebra_state_conflict() -> Result<()> {
let _init_guard = zebra_test::init();
// A persistent config has a fixed temp state directory, but asks the OS to
// automatically choose an unused port
let mut config = persistent_test_config()?;
let dir_conflict = testdir()?.with_config(&mut config)?;
// Windows problems with this match will be worked on at #1654
// We are matching the whole opened path only for unix by now.
let contains = if cfg!(unix) {
let mut dir_conflict_full = PathBuf::new();
dir_conflict_full.push(dir_conflict.path());
dir_conflict_full.push("state");
dir_conflict_full.push(format!(
"v{}",
zebra_state::constants::DATABASE_FORMAT_VERSION
));
dir_conflict_full.push(config.network.network.to_string().to_lowercase());
format!(
"Opened Zebra state cache at {}",
dir_conflict_full.display()
)
} else {
String::from("Opened Zebra state cache at ")
};
check_config_conflict(
dir_conflict.path(),
regex::escape(&contains).as_str(),
dir_conflict.path(),
LOCK_FILE_ERROR.as_str(),
)?;
Ok(())
}
/// Launch a node in `first_dir`, wait a few seconds, then launch a node in
/// `second_dir`. Check that the first node's stdout contains
/// `first_stdout_regex`, and the second node's stderr contains
/// `second_stderr_regex`.
#[tracing::instrument]
fn check_config_conflict<T, U>(
first_dir: T,
first_stdout_regex: &str,
second_dir: U,
second_stderr_regex: &str,
) -> Result<()>
where
T: ZebradTestDirExt + std::fmt::Debug,
U: ZebradTestDirExt + std::fmt::Debug,
{
// Start the first node
let mut node1 = first_dir.spawn_child(args!["start"])?;
// Wait until node1 has used the conflicting resource.
node1.expect_stdout_line_matches(first_stdout_regex)?;
// Wait a bit before launching the second node.
std::thread::sleep(BETWEEN_NODES_DELAY);
// Spawn the second node
let node2 = second_dir.spawn_child(args!["start"]);
let (node2, mut node1) = node1.kill_on_error(node2)?;
// Wait a few seconds and kill first node.
// Second node is terminated by panic, no need to kill.
std::thread::sleep(LAUNCH_DELAY);
let node1_kill_res = node1.kill(false);
let (_, mut node2) = node2.kill_on_error(node1_kill_res)?;
// node2 should have panicked due to a conflict. Kill it here anyway, so it
// doesn't outlive the test on error.
//
// This code doesn't work on Windows or macOS. It's cleanup code that only
// runs when node2 doesn't panic as expected. So it's ok to skip it.
// See #1781.
#[cfg(target_os = "linux")]
if node2.is_running() {
return node2
.kill_on_error::<(), _>(Err(eyre!(
"conflicted node2 was still running, but the test expected a panic"
)))
.context_from(&mut node1)
.map(|_| ());
}
// Now we're sure both nodes are dead, and we have both their outputs
let output1 = node1.wait_with_output().context_from(&mut node2)?;
let output2 = node2.wait_with_output().context_from(&output1)?;
// Make sure the first node was killed, rather than exiting with an error.
output1
.assert_was_killed()
.warning("Possible port conflict. Are there other acceptance tests running?")
.context_from(&output2)?;
// Make sure node2 has the expected resource conflict.
output2
.stderr_line_matches(second_stderr_regex)
.context_from(&output1)?;
output2
.assert_was_not_killed()
.warning("Possible port conflict. Are there other acceptance tests running?")
.context_from(&output1)?;
Ok(())
}
#[tokio::test]
#[ignore]
async fn fully_synced_rpc_test() -> Result<()> {
let _init_guard = zebra_test::init();
// We're only using cached Zebra state here, so this test type is the most similar
let test_type = TestType::UpdateCachedState;
let network = Network::Mainnet;
let (mut zebrad, zebra_rpc_address) = if let Some(zebrad_and_address) =
spawn_zebrad_for_rpc(network, "fully_synced_rpc_test", test_type, false)?
{
tracing::info!("running fully synced zebrad RPC test");
zebrad_and_address
} else {
// Skip the test, we don't have the required cached state
return Ok(());
};
let zebra_rpc_address = zebra_rpc_address.expect("lightwalletd test must have RPC port");
zebrad.expect_stdout_line_matches(format!("Opened RPC endpoint at {zebra_rpc_address}"))?;
let client = RpcRequestClient::new(zebra_rpc_address);
// Make a getblock test that works only on synced node (high block number).
// The block is before the mandatory checkpoint, so the checkpoint cached state can be used
// if desired.
let res = client
.text_from_call("getblock", r#"["1180900", 0]"#.to_string())
.await?;
// Simple textual check to avoid fully parsing the response, for simplicity
let expected_bytes = zebra_test::vectors::MAINNET_BLOCKS
.get(&1_180_900)
.expect("test block must exist");
let expected_hex = hex::encode(expected_bytes);
assert!(
res.contains(&expected_hex),
"response did not contain the desired block: {res}"
);
Ok(())
}
#[tokio::test]
async fn delete_old_databases() -> Result<()> {
use std::fs::{canonicalize, create_dir};
let _init_guard = zebra_test::init();
// Skip this test because it can be very slow without a network.
//
// The delete databases task is launched last during startup, after network setup.
// If there is no network, network setup can take a long time to timeout,
// so the task takes a long time to launch, slowing down this test.
if zebra_test::net::zebra_skip_network_tests() {
return Ok(());
}
let mut config = default_test_config()?;
let run_dir = testdir()?;
let cache_dir = run_dir.path().join("state");
// create cache dir
create_dir(cache_dir.clone())?;
// create a v1 dir outside cache dir that should not be deleted
let outside_dir = run_dir.path().join("v1");
create_dir(&outside_dir)?;
assert!(outside_dir.as_path().exists());
// create a `v1` dir inside cache dir that should be deleted
let inside_dir = cache_dir.join("v1");
create_dir(&inside_dir)?;
let canonicalized_inside_dir = canonicalize(inside_dir.clone()).ok().unwrap();
assert!(inside_dir.as_path().exists());
// modify config with our cache dir and not ephemeral configuration
// (delete old databases function will not run when ephemeral = true)
config.state.cache_dir = cache_dir;
config.state.ephemeral = false;
// run zebra with our config
let mut child = run_dir
.with_config(&mut config)?
.spawn_child(args!["start"])?;
// delete checker running
child.expect_stdout_line_matches("checking for old database versions".to_string())?;
// inside dir was deleted
child.expect_stdout_line_matches(format!(
"deleted outdated state directory deleted_state={canonicalized_inside_dir:?}"
))?;
assert!(!inside_dir.as_path().exists());
// deleting old databases task ended
child.expect_stdout_line_matches("finished old database version cleanup task".to_string())?;
// outside dir was not deleted
assert!(outside_dir.as_path().exists());
// finish
child.kill(false)?;
let output = child.wait_with_output()?;
let output = output.assert_failure()?;
// [Note on port conflict](#Note on port conflict)
output
.assert_was_killed()
.wrap_err("Possible port conflict. Are there other acceptance tests running?")?;
Ok(())
}
/// Test sending transactions using a lightwalletd instance connected to a zebrad instance.
///
/// See [`common::lightwalletd::send_transaction_test`] for more information.
///
/// This test doesn't work on Windows, so it is always skipped on that platform.
#[tokio::test]
#[ignore]
#[cfg(feature = "lightwalletd-grpc-tests")]
#[cfg(not(target_os = "windows"))]
async fn sending_transactions_using_lightwalletd() -> Result<()> {
common::lightwalletd::send_transaction_test::run().await
}
/// Test all the rpc methods a wallet connected to lightwalletd can call.
///
/// See [`common::lightwalletd::wallet_grpc_test`] for more information.
///
/// This test doesn't work on Windows, so it is always skipped on that platform.
#[tokio::test]
#[ignore]
#[cfg(feature = "lightwalletd-grpc-tests")]
#[cfg(not(target_os = "windows"))]
async fn lightwalletd_wallet_grpc_tests() -> Result<()> {
common::lightwalletd::wallet_grpc_test::run().await
}
/// Test successful getpeerinfo rpc call
///
/// See [`common::get_block_template_rpcs::get_peer_info`] for more information.
#[tokio::test]
#[cfg(feature = "getblocktemplate-rpcs")]
async fn get_peer_info() -> Result<()> {
common::get_block_template_rpcs::get_peer_info::run().await
}
/// Test successful getblocktemplate rpc call
///
/// See [`common::get_block_template_rpcs::get_block_template`] for more information.
#[tokio::test]
#[ignore]
#[cfg(feature = "getblocktemplate-rpcs")]
async fn get_block_template() -> Result<()> {
common::get_block_template_rpcs::get_block_template::run().await
}
/// Test successful submitblock rpc call
///
/// See [`common::get_block_template_rpcs::submit_block`] for more information.
#[tokio::test]
#[ignore]
#[cfg(feature = "getblocktemplate-rpcs")]
async fn submit_block() -> Result<()> {
common::get_block_template_rpcs::submit_block::run().await
}
/// Check that the the end of support code is called at least once.
#[test]
fn end_of_support_is_checked_at_start() -> Result<()> {
let _init_guard = zebra_test::init();
let testdir = testdir()?.with_config(&mut default_test_config()?)?;
let mut child = testdir.spawn_child(args!["start"])?;
// Give enough time to start up the eos task.
std::thread::sleep(Duration::from_secs(30));
child.kill(false)?;
let output = child.wait_with_output()?;
let output = output.assert_failure()?;
// Zebra started
output.stdout_line_contains("Starting zebrad")?;
// End of support task started.
output.stdout_line_contains("Starting end of support task")?;
// Make sure the command was killed
output.assert_was_killed()?;
Ok(())
}
/// Test `zebra-checkpoints` on mainnet.
///
/// If you want to run this test individually, see the module documentation.
/// See [`common::checkpoints`] for more information.
#[tokio::test]
#[ignore]
#[cfg(feature = "zebra-checkpoints")]
async fn generate_checkpoints_mainnet() -> Result<()> {
common::checkpoints::run(Mainnet).await
}
/// Test `zebra-checkpoints` on testnet.
/// This test might fail if testnet is unstable.
///
/// If you want to run this test individually, see the module documentation.
/// See [`common::checkpoints`] for more information.
#[tokio::test]
#[ignore]
#[cfg(feature = "zebra-checkpoints")]
async fn generate_checkpoints_testnet() -> Result<()> {
common::checkpoints::run(Testnet).await
}
Reference in New Issue View Git Blame Copy Permalink