thin-provisioning-tools/tests/common/input_arg.rs

273 lines
6.7 KiB
Rust

use anyhow::Result;
use std::ffi::OsStr;
use thinp::file_utils;
use crate::args;
use crate::common::fixture::*;
use crate::common::process::*;
use crate::common::program::*;
use crate::common::test_dir::*;
use crate::common::thin_xml_generator::{write_xml, FragmentedS};
//------------------------------------------
// wrappers
type ArgsBuilder = fn(&mut TestDir, &OsStr, &dyn Fn(&[&OsStr]) -> Result<()>) -> Result<()>;
fn with_output_md_untouched(
td: &mut TestDir,
input: &OsStr,
thunk: &dyn Fn(&[&OsStr]) -> Result<()>,
) -> Result<()> {
let output = mk_zeroed_md(td)?;
ensure_untouched(&output, || {
let args = args!["-i", input, "-o", &output];
thunk(&args)
})
}
fn with_output_superblock_zeroed(
td: &mut TestDir,
input: &OsStr,
thunk: &dyn Fn(&[&OsStr]) -> Result<()>,
) -> Result<()> {
let output = mk_zeroed_md(td)?;
ensure_superblock_zeroed(&output, || {
let args = args!["-i", input, "-o", &output];
thunk(&args)
})
}
fn input_arg_only(
_td: &mut TestDir,
input: &OsStr,
thunk: &dyn Fn(&[&OsStr]) -> Result<()>,
) -> Result<()> {
let args = args![input];
thunk(&args)
}
fn build_args_fn(t: ArgType) -> Result<ArgsBuilder> {
match t {
ArgType::InputArg => Ok(input_arg_only),
ArgType::IoOptions => Ok(with_output_md_untouched),
}
}
//------------------------------------------
// test invalid arguments
pub fn test_missing_input_arg<'a, P>() -> Result<()>
where
P: InputProgram<'a>,
{
let args: [&str; 0] = [];
let stderr = run_fail(P::path(), args)?;
assert!(stderr.contains(P::missing_input_arg()));
Ok(())
}
#[macro_export]
macro_rules! test_missing_input_arg {
($program: ident) => {
#[test]
fn missing_input_arg() -> Result<()> {
test_missing_input_arg::<$program>()
}
};
}
pub fn test_missing_input_option<'a, P>() -> Result<()>
where
P: InputProgram<'a>,
{
let mut td = TestDir::new()?;
let output = mk_zeroed_md(&mut td)?;
ensure_untouched(&output, || {
let stderr = run_fail(P::path(), args!["-o", &output])?;
assert!(stderr.contains(P::missing_input_arg()));
Ok(())
})
}
#[macro_export]
macro_rules! test_missing_input_option {
($program: ident) => {
#[test]
fn missing_input_option() -> Result<()> {
test_missing_input_option::<$program>()
}
};
}
pub fn test_input_file_not_found<'a, P>() -> Result<()>
where
P: InputProgram<'a>,
{
let mut td = TestDir::new()?;
let wrapper = build_args_fn(P::arg_type())?;
wrapper(&mut td, "no-such-file".as_ref(), &|args: &[&OsStr]| {
let stderr = run_fail(P::path(), args)?;
assert!(stderr.contains(P::file_not_found()));
Ok(())
})
}
#[macro_export]
macro_rules! test_input_file_not_found {
($program: ident) => {
#[test]
fn input_file_not_found() -> Result<()> {
test_input_file_not_found::<$program>()
}
};
}
pub fn test_input_cannot_be_a_directory<'a, P>() -> Result<()>
where
P: InputProgram<'a>,
{
let mut td = TestDir::new()?;
let wrapper = build_args_fn(P::arg_type())?;
wrapper(&mut td, "/tmp".as_ref(), &|args: &[&OsStr]| {
let stderr = run_fail(P::path(), args)?;
assert!(stderr.contains("Not a block device or regular file"));
Ok(())
})
}
#[macro_export]
macro_rules! test_input_cannot_be_a_directory {
($program: ident) => {
#[test]
fn input_cannot_be_a_directory() -> Result<()> {
test_input_cannot_be_a_directory::<$program>()
}
};
}
pub fn test_unreadable_input_file<'a, P>() -> Result<()>
where
P: InputProgram<'a>,
{
let mut td = TestDir::new()?;
// input an unreadable file
let input = P::mk_valid_input(&mut td)?;
duct::cmd!("chmod", "-r", &input).run()?;
let wrapper = build_args_fn(P::arg_type())?;
wrapper(&mut td, input.as_ref(), &|args: &[&OsStr]| {
let stderr = run_fail(P::path(), args)?;
assert!(stderr.contains("Permission denied"));
Ok(())
})
}
#[macro_export]
macro_rules! test_unreadable_input_file {
($program: ident) => {
#[test]
fn unreadable_input_file() -> Result<()> {
test_unreadable_input_file::<$program>()
}
};
}
//------------------------------------------
// test invalid content
pub fn test_help_message_for_tiny_input_file<'a, P>() -> Result<()>
where
P: BinaryInputProgram<'a>,
{
let mut td = TestDir::new()?;
let input = td.mk_path("meta.bin");
file_utils::create_sized_file(&input, 1024)?;
let wrapper = build_args_fn(P::arg_type())?;
wrapper(&mut td, input.as_ref(), &|args: &[&OsStr]| {
let stderr = run_fail(P::path(), args)?;
assert!(stderr.contains("Metadata device/file too small. Is this binary metadata?"));
Ok(())
})
}
#[macro_export]
macro_rules! test_help_message_for_tiny_input_file {
($program: ident) => {
#[test]
fn prints_help_message_for_tiny_input_file() -> Result<()> {
test_help_message_for_tiny_input_file::<$program>()
}
};
}
pub fn test_spot_xml_data<'a, P>() -> Result<()>
where
P: BinaryInputProgram<'a>,
{
let mut td = TestDir::new()?;
// input a large xml file
let input = td.mk_path("meta.xml");
let mut gen = FragmentedS::new(4, 10240);
write_xml(&input, &mut gen)?;
let wrapper = build_args_fn(P::arg_type())?;
wrapper(&mut td, input.as_ref(), &|args: &[&OsStr]| {
let stderr = run_fail(P::path(), args)?;
eprintln!("{}", stderr);
let msg = format!(
"This looks like XML. {} only checks the binary metadata format.",
P::name()
);
assert!(stderr.contains(&msg));
Ok(())
})
}
#[macro_export]
macro_rules! test_spot_xml_data {
($program: ident) => {
#[test]
fn spot_xml_data() -> Result<()> {
test_spot_xml_data::<$program>()
}
};
}
pub fn test_corrupted_input_data<'a, P>() -> Result<()>
where
P: InputProgram<'a>,
{
let mut td = TestDir::new()?;
let input = mk_zeroed_md(&mut td)?;
let wrapper = match P::arg_type() {
ArgType::InputArg => input_arg_only,
ArgType::IoOptions => with_output_superblock_zeroed,
};
wrapper(&mut td, input.as_ref(), &|args: &[&OsStr]| {
let stderr = run_fail(P::path(), args)?;
assert!(stderr.contains(P::corrupted_input()));
Ok(())
})
}
#[macro_export]
macro_rules! test_corrupted_input_data {
($program: ident) => {
#[test]
fn corrupted_input_data() -> Result<()> {
test_corrupted_input_data::<$program>()
}
};
}
//------------------------------------------