mirror of
https://github.com/zerotier/ZeroTierOne.git
synced 2024-12-23 14:52:24 +00:00
365 lines
11 KiB
Rust
365 lines
11 KiB
Rust
extern crate rand;
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extern crate tempfile;
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extern crate winapi;
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extern crate winreg;
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#[cfg(feature = "serialization-serde")]
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#[macro_use]
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extern crate serde_derive;
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use self::rand::Rng;
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use std::collections::HashMap;
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use std::ffi::{OsStr, OsString};
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use tempfile::tempdir;
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use winapi::shared::winerror;
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use winreg::enums::*;
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use winreg::types::FromRegValue;
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use winreg::{RegKey, RegValue};
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#[test]
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fn test_raw_handle() {
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let hklm = RegKey::predef(HKEY_LOCAL_MACHINE);
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let handle = hklm.raw_handle();
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assert_eq!(HKEY_LOCAL_MACHINE, handle);
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}
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#[test]
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fn test_load_appkey() {
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let val_name = "LoadKeyTest";
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let dir = tempdir().unwrap();
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let file_path = dir.path().join("RustLoadAppkeyTest.dat");
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let val1 = "Test123".to_owned();
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{
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let key1 = RegKey::load_app_key(&file_path, true).unwrap();
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key1.set_value(val_name, &val1).unwrap();
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// this fails on Windows 7 with ERROR_ALREADY_EXISTS
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let key_err = RegKey::load_app_key_with_flags(&file_path, KEY_READ, 0).unwrap_err();
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assert_eq!(
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key_err.raw_os_error(),
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Some(winerror::ERROR_SHARING_VIOLATION as i32)
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);
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}
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let val2: String = {
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// this fails on Windows 7 with ERROR_ALREADY_EXISTS
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let key2 = RegKey::load_app_key_with_flags(&file_path, KEY_READ, 1).unwrap();
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key2.get_value(val_name).unwrap()
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};
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assert_eq!(val1, val2);
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}
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#[test]
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fn test_open_subkey_with_flags_query_info() {
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let hklm = RegKey::predef(HKEY_LOCAL_MACHINE);
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let win = hklm
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.open_subkey_with_flags("Software\\Microsoft\\Windows", KEY_READ)
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.unwrap();
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let info = win.query_info().unwrap();
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info.get_last_write_time_system();
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#[cfg(feature = "chrono")]
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info.get_last_write_time_chrono();
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assert!(win
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.open_subkey_with_flags("CurrentVersion\\", KEY_READ)
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.is_ok());
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assert!(hklm
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.open_subkey_with_flags("i\\just\\hope\\nobody\\created\\that\\key", KEY_READ)
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.is_err());
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}
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#[test]
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fn test_create_subkey_disposition() {
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let hkcu = RegKey::predef(HKEY_CURRENT_USER);
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let path = "Software\\WinRegRsTestCreateSubkey";
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let (_subkey, disp) = hkcu.create_subkey(path).unwrap();
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assert_eq!(disp, REG_CREATED_NEW_KEY);
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let (_subkey2, disp2) = hkcu.create_subkey(path).unwrap();
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assert_eq!(disp2, REG_OPENED_EXISTING_KEY);
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hkcu.delete_subkey_all(&path).unwrap();
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}
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macro_rules! with_key {
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($k:ident, $path:expr => $b:block) => {{
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let mut path = "Software\\WinRegRsTest".to_owned();
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path.push_str($path);
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let ($k, _disp) = RegKey::predef(HKEY_CURRENT_USER)
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.create_subkey(&path).unwrap();
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$b
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RegKey::predef(HKEY_CURRENT_USER)
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.delete_subkey_all(path).unwrap();
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}}
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}
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#[test]
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fn test_delete_subkey() {
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let path = "Software\\WinRegRsTestDeleteSubkey";
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RegKey::predef(HKEY_CURRENT_USER)
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.create_subkey(path)
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.unwrap();
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assert!(RegKey::predef(HKEY_CURRENT_USER)
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.delete_subkey(path)
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.is_ok());
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}
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#[test]
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fn test_delete_subkey_with_flags() {
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let path = "Software\\Classes\\WinRegRsTestDeleteSubkeyWithFlags";
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RegKey::predef(HKEY_CURRENT_USER)
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.create_subkey_with_flags(path, KEY_WOW64_32KEY)
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.unwrap();
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assert!(RegKey::predef(HKEY_CURRENT_USER)
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.delete_subkey_with_flags(path, KEY_WOW64_32KEY)
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.is_ok());
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}
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#[test]
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fn test_copy_tree() {
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with_key!(key, "CopyTree" => {
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let (sub_tree, _sub_tree_disp) = key.create_subkey("Src\\Sub\\Tree").unwrap();
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for v in &["one", "two", "three"] {
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sub_tree.set_value(v, v).unwrap();
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}
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let (dst, _dst_disp) = key.create_subkey("Dst").unwrap();
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assert!(key.copy_tree("Src", &dst).is_ok());
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});
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}
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#[test]
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fn test_long_value() {
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with_key!(key, "LongValue" => {
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let name = "RustLongVal";
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let val1 = RegValue { vtype: REG_BINARY, bytes: (0..6000).map(|_| rand::random::<u8>()).collect() };
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key.set_raw_value(name, &val1).unwrap();
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let val2 = key.get_raw_value(name).unwrap();
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assert_eq!(val1, val2);
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});
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}
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macro_rules! test_value_sz {
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($fname:ident, $kname:expr, $conv:expr => $tout:ty) => {
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#[test]
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fn $fname() {
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with_key!(key, $kname => {
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let name = "RustSzVal";
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let val1 = $conv("Test123 \n$%^&|+-*/\\()");
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key.set_value(name, &val1).unwrap();
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let val2: $tout = key.get_value(name).unwrap();
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assert_eq!(val1, val2);
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});
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}
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}
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}
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test_value_sz!(test_string_value, "StringValue", str::to_owned => String);
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test_value_sz!(test_str_value, "StrValue", |x|x => String);
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test_value_sz!(test_os_string_value, "OsStringValue", OsString::from => OsString);
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test_value_sz!(test_os_str_value, "OsStrValue", OsStr::new => OsString);
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#[test]
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fn test_long_string_value() {
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with_key!(key, "LongStringValue" => {
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let name = "RustLongStringVal";
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let val1 : String = rand::thread_rng().gen_ascii_chars().take(7000).collect();
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key.set_value(name, &val1).unwrap();
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let val2: String = key.get_value(name).unwrap();
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assert_eq!(val1, val2);
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});
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}
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#[test]
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fn test_long_os_string_value() {
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with_key!(key, "LongOsStringValue" => {
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let name = "RustLongOsStringVal";
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let val1 = rand::thread_rng().gen_ascii_chars().take(7000).collect::<String>();
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let val1 = OsStr::new(&val1);
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key.set_value(name, &val1).unwrap();
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let val2: OsString = key.get_value(name).unwrap();
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assert_eq!(val1, val2);
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});
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}
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macro_rules! test_value_multi_sz {
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($fname:ident, $kname:expr, $conv:expr => $tout:ty) => {
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#[test]
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fn $fname() {
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with_key!(key, $kname => {
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let name = "RustMultiSzVal";
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let val1 = vec![
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$conv("lorem ipsum\ndolor"),
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$conv("sit amet")
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];
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key.set_value(name, &val1).unwrap();
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let val2: Vec<$tout> = key.get_value(name).unwrap();
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assert_eq!(val1, val2);
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});
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}
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}
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}
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test_value_multi_sz!(test_vec_string_value, "StringVectorValue", str::to_owned => String);
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test_value_multi_sz!(test_vec_str_value, "StrVectorValue", |x|x => String);
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test_value_multi_sz!(test_vec_os_string_value, "OsStringVectorValue", OsString::from => OsString);
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test_value_multi_sz!(test_vec_os_str_value, "OsStrVectorValue", OsStr::new => OsString);
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#[test]
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fn test_u32_value() {
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with_key!(key, "U32Value" => {
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let name = "RustU32Val";
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let val1 = 1_234_567_890u32;
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key.set_value(name, &val1).unwrap();
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let val2: u32 = key.get_value(name).unwrap();
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assert_eq!(val1, val2);
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});
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}
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#[test]
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fn test_u64_value() {
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with_key!(key, "U64Value" => {
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let name = "RustU64Val";
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let val1 = 1_234_567_891_011_121_314u64;
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key.set_value(name, &val1).unwrap();
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let val2: u64 = key.get_value(name).unwrap();
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assert_eq!(val1, val2);
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});
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}
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#[test]
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fn test_delete_value() {
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with_key!(key, "DeleteValue" => {
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let name = "WinregRsTestVal";
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key.set_value(name, &"Qwerty123").unwrap();
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assert!(key.delete_value(name).is_ok());
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});
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}
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#[test]
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fn test_enum_keys() {
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with_key!(key, "EnumKeys" => {
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let mut keys1 = vec!("qwerty", "asdf", "1", "2", "3", "5", "8", "йцукен");
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keys1.sort_unstable();
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for i in &keys1 {
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key.create_subkey(i).unwrap();
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}
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let keys2: Vec<_> = key.enum_keys().map(|x| x.unwrap()).collect();
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assert_eq!(keys1, keys2);
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});
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}
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#[test]
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fn test_enum_values() {
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with_key!(key, "EnumValues" => {
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let mut vals1 = vec!("qwerty", "asdf", "1", "2", "3", "5", "8", "йцукен");
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vals1.sort_unstable();
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for i in &vals1 {
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key.set_value(i,i).unwrap();
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}
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let mut vals2: Vec<String> = Vec::with_capacity(vals1.len());
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let mut vals3: Vec<String> = Vec::with_capacity(vals1.len());
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for (name, val) in key.enum_values()
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.map(|x| x.unwrap())
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{
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vals2.push(name);
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vals3.push(String::from_reg_value(&val).unwrap());
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}
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assert_eq!(vals1, vals2);
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assert_eq!(vals1, vals3);
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});
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}
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#[test]
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fn test_enum_long_values() {
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with_key!(key, "EnumLongValues" => {
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let mut vals = HashMap::with_capacity(3);
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for i in &[5500, 9500, 15000] {
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let name: String = format!("val{}", i);
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let val = RegValue { vtype: REG_BINARY, bytes: (0..*i).map(|_| rand::random::<u8>()).collect() };
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vals.insert(name, val);
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}
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for (name, val) in key.enum_values()
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.map(|x| x.unwrap())
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{
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assert_eq!(val.bytes, vals[&name].bytes);
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}
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});
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}
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#[cfg(feature = "serialization-serde")]
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#[test]
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fn test_serialization() {
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#[derive(Debug, PartialEq, Serialize, Deserialize)]
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struct Rectangle {
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x: u32,
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y: u32,
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w: u32,
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h: u32,
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}
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#[derive(Debug, PartialEq, Serialize, Deserialize)]
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struct Test {
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t_bool: bool,
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t_u8: u8,
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t_u16: u16,
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t_u32: u32,
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t_u64: u64,
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t_usize: usize,
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t_struct: Rectangle,
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t_string: String,
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t_map: HashMap<String, HashMap<String, u32>>,
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t_i8: i8,
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t_i16: i16,
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t_i32: i32,
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t_i64: i64,
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t_isize: isize,
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t_f64: f64,
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t_f32: f32,
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t_char: char,
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}
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let mut k1 = HashMap::new();
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k1.insert("val1".to_owned(), 32);
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k1.insert("val2".to_owned(), 64);
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k1.insert("val3".to_owned(), 128);
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let mut k2 = HashMap::new();
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k2.insert("val1".to_owned(), 256);
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k2.insert("val2".to_owned(), 512);
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k2.insert("val3".to_owned(), 1024);
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let mut map = HashMap::new();
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map.insert("key1".to_owned(), k1);
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map.insert("key2".to_owned(), k2);
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let v1 = Test {
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t_bool: false,
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t_u8: 127,
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t_u16: 32768,
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t_u32: 123_456_789,
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t_u64: 123_456_789_101_112,
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t_usize: 1_234_567_891,
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t_struct: Rectangle {
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x: 55,
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y: 77,
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w: 500,
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h: 300,
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},
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t_map: map,
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t_string: "Test123 \n$%^&|+-*/\\()".to_owned(),
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t_i8: -123,
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t_i16: -2049,
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t_i32: 20100,
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t_i64: -12_345_678_910,
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t_isize: -1_234_567_890,
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t_f64: -0.01,
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t_f32: 3.15,
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t_char: 'a',
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};
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with_key!(key, "Serialization" => {
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key.encode(&v1).unwrap();
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let v2: Test = key.decode().unwrap();
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assert_eq!(v1, v2);
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});
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}
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