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717cd7b16f
sal/os/tests/package_tests.rs
Mahmoud-Emad c4cdb8126c
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Details
feat: Add support for new OS package 
- Add a new `sal-os` package containing OS interaction utilities.
- Update workspace members to include the new package.
- Add README and basic usage examples for the new package.
2025-06-21 15:45:43 +03:00

367 lines
11 KiB
Rust
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use sal_os::package::{PackHero, Platform};
#[test]
fn test_pack_hero_creation() {
// Test that we can create a PackHero instance
let hero = PackHero::new();
// Test that platform detection works
let platform = hero.platform();
match platform {
Platform::Ubuntu | Platform::MacOS | Platform::Unknown => {
// All valid platforms
}
}
}
#[test]
fn test_platform_detection() {
let hero = PackHero::new();
let platform = hero.platform();
// Platform should be deterministic
let platform2 = hero.platform();
assert_eq!(format!("{:?}", platform), format!("{:?}", platform2));
// Test platform display
match platform {
Platform::Ubuntu => {
assert_eq!(format!("{:?}", platform), "Ubuntu");
}
Platform::MacOS => {
assert_eq!(format!("{:?}", platform), "MacOS");
}
Platform::Unknown => {
assert_eq!(format!("{:?}", platform), "Unknown");
}
}
}
#[test]
fn test_debug_mode() {
let mut hero = PackHero::new();
// Test setting debug mode
hero.set_debug(true);
hero.set_debug(false);
// Debug mode setting should not panic
}
#[test]
fn test_package_operations_error_handling() {
let hero = PackHero::new();
// Test with invalid package name
let result = hero.is_installed("nonexistent-package-12345-xyz");
// This should return a result (either Ok(false) or Err)
// Validate that we get a proper result type
match result {
Ok(is_installed) => {
// Should return false for non-existent package
assert!(
!is_installed,
"Non-existent package should not be reported as installed"
);
}
Err(_) => {
// Error is also acceptable (e.g., no package manager available)
// The important thing is it doesn't panic
}
}
// Test install with invalid package
let result = hero.install("nonexistent-package-12345-xyz");
// This should return an error
assert!(result.is_err());
// Test remove with invalid package
let result = hero.remove("nonexistent-package-12345-xyz");
// This might succeed (if package wasn't installed) or fail
// Validate that we get a proper result type
match result {
Ok(_) => {
// Success is acceptable (package wasn't installed)
}
Err(err) => {
// Error is also acceptable
// Verify error message is meaningful
let error_msg = err.to_string();
assert!(!error_msg.is_empty(), "Error message should not be empty");
}
}
}
#[test]
fn test_package_search_basic() {
let hero = PackHero::new();
// Test search with empty query
let result = hero.search("");
// Should handle empty query gracefully
// Validate that we get a proper result type
match result {
Ok(packages) => {
// Empty search might return all packages or empty list
// Verify the result is a valid vector
assert!(
packages.len() < 50000,
"Empty search returned unreasonably large result"
);
}
Err(err) => {
// Error is acceptable for empty query
let error_msg = err.to_string();
assert!(!error_msg.is_empty(), "Error message should not be empty");
}
}
// Test search with very specific query that likely won't match
let result = hero.search("nonexistent-package-xyz-12345");
if let Ok(packages) = result {
// If search succeeded, it should return a vector
// The vector should be valid (we can get its length)
let _count = packages.len();
// Search results should be reasonable (not absurdly large)
assert!(
packages.len() < 10000,
"Search returned unreasonably large result set"
);
}
// If search failed, that's also acceptable
}
#[test]
fn test_package_list_basic() {
let hero = PackHero::new();
// Test listing installed packages
let result = hero.list_installed();
if let Ok(packages) = result {
// If listing succeeded, it should return a vector
// On most systems, there should be at least some packages installed
println!("Found {} installed packages", packages.len());
}
// If listing failed (e.g., no package manager available), that's acceptable
}
#[test]
fn test_package_update_basic() {
let hero = PackHero::new();
// Test package list update
let result = hero.update();
// This might succeed or fail depending on permissions and network
// Validate that we get a proper result type
match result {
Ok(_) => {
// Success is good - package list was updated
}
Err(err) => {
// Error is acceptable (no permissions, no network, etc.)
let error_msg = err.to_string();
assert!(!error_msg.is_empty(), "Error message should not be empty");
// Common error patterns we expect
let error_lower = error_msg.to_lowercase();
assert!(
error_lower.contains("permission")
|| error_lower.contains("network")
|| error_lower.contains("command")
|| error_lower.contains("not found")
|| error_lower.contains("failed"),
"Error message should indicate a reasonable failure cause: {}",
error_msg
);
}
}
}
#[test]
#[ignore] // Skip by default as this can take a very long time and modify the system
fn test_package_upgrade_basic() {
let hero = PackHero::new();
// Test package upgrade (this is a real system operation)
let result = hero.upgrade();
// Validate that we get a proper result type
match result {
Ok(_) => {
// Success means packages were upgraded
println!("Package upgrade completed successfully");
}
Err(err) => {
// Error is acceptable (no permissions, no packages to upgrade, etc.)
let error_msg = err.to_string();
assert!(!error_msg.is_empty(), "Error message should not be empty");
println!("Package upgrade failed as expected: {}", error_msg);
}
}
}
#[test]
fn test_package_upgrade_interface() {
// Test that the upgrade interface works without actually upgrading
let hero = PackHero::new();
// Verify that PackHero has the upgrade method and it returns the right type
// This tests the interface without performing the actual upgrade
let _upgrade_fn = PackHero::upgrade;
// Test that we can call upgrade (it will likely fail due to permissions/network)
// but we're testing that the interface works correctly
let result = hero.upgrade();
// The result should be a proper Result type
match result {
Ok(_) => {
// Upgrade succeeded (unlikely in test environment)
}
Err(err) => {
// Expected in most test environments
// Verify error is meaningful
let error_msg = err.to_string();
assert!(!error_msg.is_empty(), "Error should have a message");
assert!(error_msg.len() > 5, "Error message should be descriptive");
}
}
}
// Platform-specific tests
#[cfg(target_os = "linux")]
#[test]
fn test_linux_platform_detection() {
let hero = PackHero::new();
let platform = hero.platform();
// On Linux, should detect Ubuntu or Unknown (if not Ubuntu-based)
match platform {
Platform::Ubuntu | Platform::Unknown => {
// Expected on Linux
}
Platform::MacOS => {
panic!("Should not detect macOS on Linux system");
}
}
}
#[cfg(target_os = "macos")]
#[test]
fn test_macos_platform_detection() {
let hero = PackHero::new();
let platform = hero.platform();
// On macOS, should detect MacOS
match platform {
Platform::MacOS => {
// Expected on macOS
}
Platform::Ubuntu | Platform::Unknown => {
panic!("Should detect macOS on macOS system, got {:?}", platform);
}
}
}
// Integration tests that require actual package managers
// These are marked with ignore so they don't run by default
#[test]
#[ignore]
fn test_real_package_check() {
let hero = PackHero::new();
// Test with a package that's commonly installed
#[cfg(target_os = "linux")]
let test_package = "bash";
#[cfg(target_os = "macos")]
let test_package = "bash";
#[cfg(not(any(target_os = "linux", target_os = "macos")))]
let test_package = "unknown";
let result = hero.is_installed(test_package);
if let Ok(is_installed) = result {
println!("Package '{}' is installed: {}", test_package, is_installed);
} else {
println!(
"Failed to check if '{}' is installed: {:?}",
test_package, result
);
}
}
#[test]
#[ignore]
fn test_real_package_search() {
let hero = PackHero::new();
// Search for a common package
let result = hero.search("git");
if let Ok(packages) = result {
println!("Found {} packages matching 'git'", packages.len());
if !packages.is_empty() {
println!(
"First few matches: {:?}",
&packages[..std::cmp::min(5, packages.len())]
);
}
} else {
println!("Package search failed: {:?}", result);
}
}
#[test]
#[ignore]
fn test_real_package_list() {
let hero = PackHero::new();
// List installed packages
let result = hero.list_installed();
if let Ok(packages) = result {
println!("Total installed packages: {}", packages.len());
if !packages.is_empty() {
println!(
"First few packages: {:?}",
&packages[..std::cmp::min(10, packages.len())]
);
}
} else {
println!("Package listing failed: {:?}", result);
}
}
#[test]
fn test_platform_enum_properties() {
// Test that Platform enum can be compared
assert_eq!(Platform::Ubuntu, Platform::Ubuntu);
assert_eq!(Platform::MacOS, Platform::MacOS);
assert_eq!(Platform::Unknown, Platform::Unknown);
assert_ne!(Platform::Ubuntu, Platform::MacOS);
assert_ne!(Platform::Ubuntu, Platform::Unknown);
assert_ne!(Platform::MacOS, Platform::Unknown);
}
#[test]
fn test_pack_hero_multiple_instances() {
// Test that multiple PackHero instances work correctly
let hero1 = PackHero::new();
let hero2 = PackHero::new();
// Both should detect the same platform
assert_eq!(
format!("{:?}", hero1.platform()),
format!("{:?}", hero2.platform())
);
// Both should handle debug mode independently
let mut hero1_mut = hero1;
let mut hero2_mut = hero2;
hero1_mut.set_debug(true);
hero2_mut.set_debug(false);
// No assertions here since debug mode doesn't have observable effects in tests
// But this ensures the API works correctly
}
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