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nushell/crates/nu-command/src/system/registry_query.rs
Darren Schroeder c1738620e3
remove unwraps in registry_query command (#10936) 
# Description

After talking to @CAD97, I decided to change these unwraps to expects.
See the comments. The bigger question is, how did unwrap pass the CI?

# User-Facing Changes
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2023-11-03 08:12:36 -05:00

328 lines
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Rust
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use nu_engine::CallExt;
use nu_protocol::{
ast::Call,
engine::{Command, EngineState, Stack},
record, Category, Example, IntoInterruptiblePipelineData, IntoPipelineData, PipelineData,
ShellError, Signature, Span, Spanned, SyntaxShape, Type, Value,
};
use windows::{core::PCWSTR, Win32::System::Environment::ExpandEnvironmentStringsW};
use winreg::{enums::*, types::FromRegValue, RegKey};
#[derive(Clone)]
pub struct RegistryQuery;
impl Command for RegistryQuery {
fn name(&self) -> &str {
"registry query"
}
fn signature(&self) -> Signature {
Signature::build("registry query")
.input_output_types(vec![(Type::Nothing, Type::Any)])
.switch("hkcr", "query the hkey_classes_root hive", None)
.switch("hkcu", "query the hkey_current_user hive", None)
.switch("hklm", "query the hkey_local_machine hive", None)
.switch("hku", "query the hkey_users hive", None)
.switch("hkpd", "query the hkey_performance_data hive", None)
.switch("hkpt", "query the hkey_performance_text hive", None)
.switch("hkpnls", "query the hkey_performance_nls_text hive", None)
.switch("hkcc", "query the hkey_current_config hive", None)
.switch("hkdd", "query the hkey_dyn_data hive", None)
.switch(
"hkculs",
"query the hkey_current_user_local_settings hive",
None,
)
.switch(
"no-expand",
"do not expand %ENV% placeholders in REG_EXPAND_SZ",
Some('u'),
)
.required("key", SyntaxShape::String, "registry key to query")
.optional(
"value",
SyntaxShape::String,
"optionally supply a registry value to query",
)
.category(Category::System)
}
fn usage(&self) -> &str {
"Query the Windows registry."
}
fn extra_usage(&self) -> &str {
"Currently supported only on Windows systems."
}
fn run(
&self,
engine_state: &EngineState,
stack: &mut Stack,
call: &Call,
_input: PipelineData,
) -> Result<PipelineData, ShellError> {
registry_query(engine_state, stack, call)
}
fn examples(&self) -> Vec<Example> {
vec![
Example {
description: "Query the HKEY_CURRENT_USER hive",
example: "registry query --hkcu environment",
result: None,
},
Example {
description: "Query the HKEY_LOCAL_MACHINE hive",
example: r"registry query --hklm 'SYSTEM\CurrentControlSet\Control\Session Manager\Environment'",
result: None,
},
]
}
}
fn registry_query(
engine_state: &EngineState,
stack: &mut Stack,
call: &Call,
) -> Result<PipelineData, ShellError> {
let call_span = call.head;
let skip_expand = call.has_flag("no-expand");
let registry_key: Spanned<String> = call.req(engine_state, stack, 0)?;
let registry_key_span = &registry_key.clone().span;
let registry_value: Option<Spanned<String>> = call.opt(engine_state, stack, 1)?;
let reg_hive = get_reg_hive(call)?;
let reg_key = reg_hive.open_subkey(registry_key.item)?;
if registry_value.is_none() {
let mut reg_values = vec![];
for (name, val) in reg_key.enum_values().flatten() {
let reg_type = format!("{:?}", val.vtype);
let nu_value = reg_value_to_nu_value(val, call_span, skip_expand);
reg_values.push(Value::record(
record! {
"name" => Value::string(name, call_span),
"value" => nu_value,
"type" => Value::string(reg_type, call_span),
},
*registry_key_span,
))
}
Ok(reg_values.into_pipeline_data(engine_state.ctrlc.clone()))
} else {
match registry_value {
Some(value) => {
let reg_value = reg_key.get_raw_value(value.item.as_str());
match reg_value {
Ok(val) => {
let reg_type = format!("{:?}", val.vtype);
let nu_value = reg_value_to_nu_value(val, call_span, skip_expand);
Ok(Value::record(
record! {
"name" => Value::string(value.item, call_span),
"value" => nu_value,
"type" => Value::string(reg_type, call_span),
},
value.span,
)
.into_pipeline_data())
}
Err(_) => Err(ShellError::GenericError(
"Unable to find registry key/value".to_string(),
format!("Registry value: {} was not found", value.item),
Some(value.span),
None,
Vec::new(),
)),
}
}
None => Ok(Value::nothing(call_span).into_pipeline_data()),
}
}
}
fn get_reg_hive(call: &Call) -> Result<RegKey, ShellError> {
let flags: Vec<_> = [
"hkcr", "hkcu", "hklm", "hku", "hkpd", "hkpt", "hkpnls", "hkcc", "hkdd", "hkculs",
]
.iter()
.copied()
.filter(|flag| call.has_flag(flag))
.collect();
if flags.len() > 1 {
return Err(ShellError::GenericError(
"Only one registry key can be specified".into(),
"Only one registry key can be specified".into(),
Some(call.head),
None,
Vec::new(),
));
}
let hive = flags.first().copied().unwrap_or("hkcu");
let hkey = match hive {
"hkcr" => HKEY_CLASSES_ROOT,
"hkcu" => HKEY_CURRENT_USER,
"hklm" => HKEY_LOCAL_MACHINE,
"hku" => HKEY_USERS,
"hkpd" => HKEY_PERFORMANCE_DATA,
"hkpt" => HKEY_PERFORMANCE_TEXT,
"hkpnls" => HKEY_PERFORMANCE_NLSTEXT,
"hkcc" => HKEY_CURRENT_CONFIG,
"hkdd" => HKEY_DYN_DATA,
"hkculs" => HKEY_CURRENT_USER_LOCAL_SETTINGS,
_ => {
return Err(ShellError::NushellFailedSpanned {
msg: "Entered unreachable code".into(),
label: "Unknown registry hive".into(),
span: call.head,
})
}
};
Ok(RegKey::predef(hkey))
}
fn reg_value_to_nu_value(
mut reg_value: winreg::RegValue,
call_span: Span,
skip_expand: bool,
) -> nu_protocol::Value {
match reg_value.vtype {
REG_NONE => Value::nothing(call_span),
REG_BINARY => Value::binary(reg_value.bytes, call_span),
REG_MULTI_SZ => reg_value_to_nu_list_string(reg_value, call_span),
REG_SZ | REG_EXPAND_SZ => reg_value_to_nu_string(reg_value, call_span, skip_expand),
REG_DWORD | REG_DWORD_BIG_ENDIAN | REG_QWORD => reg_value_to_nu_int(reg_value, call_span),
// This should be impossible, as registry symlinks should be automatically transparent
// to the registry API as it's used by winreg, since it never uses REG_OPTION_OPEN_LINK.
// If it happens, decode as if the link is a string; it should be a registry path string.
REG_LINK => {
reg_value.vtype = REG_SZ;
reg_value_to_nu_string(reg_value, call_span, skip_expand)
}
// Decode these as binary; that seems to be the least bad option available to us.
// REG_RESOURCE_LIST is a struct CM_RESOURCE_LIST.
// REG_FULL_RESOURCE_DESCRIPTOR is a struct CM_FULL_RESOURCE_DESCRIPTOR.
// REG_RESOURCE_REQUIREMENTS_LIST is a struct IO_RESOURCE_REQUIREMENTS_LIST.
REG_RESOURCE_LIST | REG_FULL_RESOURCE_DESCRIPTOR | REG_RESOURCE_REQUIREMENTS_LIST => {
reg_value.vtype = REG_BINARY;
Value::binary(reg_value.bytes, call_span)
}
}
}
fn reg_value_to_nu_string(
reg_value: winreg::RegValue,
call_span: Span,
skip_expand: bool,
) -> nu_protocol::Value {
let value = String::from_reg_value(&reg_value)
.expect("registry value type should be REG_SZ or REG_EXPAND_SZ");
// REG_EXPAND_SZ contains unexpanded references to environment variables, for example, %PATH%.
// winreg not expanding these is arguably correct, as it's just wrapping raw registry access.
// These placeholder-having strings work in *some* Windows contexts, but Rust's fs/path APIs
// don't handle them, so they won't work in Nu unless we expand them here. Eagerly expanding the
// strings here seems to be the least bad option. This is what PowerShell does, for example,
// although reg.exe does not. We could do the substitution with our env, but the officially
// correct way to expand these strings is to call Win32's ExpandEnvironmentStrings function.
// ref: <https://learn.microsoft.com/en-us/windows/win32/sysinfo/registry-value-types>
// We can skip the dance if the string doesn't actually have any unexpanded placeholders.
if skip_expand || reg_value.vtype != REG_EXPAND_SZ || !value.contains('%') {
return Value::string(value, call_span);
}
// The encoding dance is unfortunate since we read "Windows Unicode" from the registry, but
// it's the most resilient option and avoids making potentially wrong alignment assumptions.
let value_utf16 = value.encode_utf16().chain([0]).collect::<Vec<u16>>();
// Like most Win32 string functions, the return value is the number of TCHAR written,
// or the required buffer size (in TCHAR) if the buffer is too small, or 0 for error.
// Since we already checked for the case where no expansion is done, we can start with
// an empty output buffer, since we expect to require at least one resize loop anyway.
let mut out_buffer = vec![];
loop {
match unsafe {
ExpandEnvironmentStringsW(PCWSTR(value_utf16.as_ptr()), Some(&mut *out_buffer))
} {
0 => {
// 0 means error, but we don't know what the error is. We could try to get
// the error code with GetLastError, but that's a whole other can of worms.
// Instead, we'll just return the original string and hope for the best.
// Presumably, registry strings shouldn't ever cause this to error anyway.
return Value::string(value, call_span);
}
size if size as usize <= out_buffer.len() => {
// The buffer was large enough, so we're done. Remember to remove the trailing nul!
let out_value_utf16 = &out_buffer[..size as usize - 1];
let out_value = String::from_utf16_lossy(out_value_utf16);
return Value::string(out_value, call_span);
}
size => {
// The buffer was too small, so we need to resize and try again.
// Clear first to indicate we don't care about the old contents.
out_buffer.clear();
out_buffer.resize(size as usize, 0);
continue;
}
}
}
}
#[test]
fn no_expand_does_not_expand() {
let unexpanded = "%AppData%";
let reg_val = || winreg::RegValue {
bytes: unexpanded
.encode_utf16()
.chain([0])
.flat_map(u16::to_ne_bytes)
.collect(),
vtype: REG_EXPAND_SZ,
};
// normally we do expand
let nu_val_expanded = reg_value_to_nu_string(reg_val(), Span::unknown(), false);
assert!(nu_val_expanded.as_string().is_ok());
assert_ne!(nu_val_expanded.as_string().unwrap(), unexpanded);
// unless we skip expansion
let nu_val_skip_expand = reg_value_to_nu_string(reg_val(), Span::unknown(), true);
assert!(nu_val_skip_expand.as_string().is_ok());
assert_eq!(nu_val_skip_expand.as_string().unwrap(), unexpanded);
}
fn reg_value_to_nu_list_string(reg_value: winreg::RegValue, call_span: Span) -> nu_protocol::Value {
let values = <Vec<String>>::from_reg_value(&reg_value)
.expect("registry value type should be REG_MULTI_SZ")
.into_iter()
.map(|s| Value::string(s, call_span));
// There's no REG_MULTI_EXPAND_SZ, so no need to do placeholder expansion here.
Value::list(values.collect(), call_span)
}
fn reg_value_to_nu_int(reg_value: winreg::RegValue, call_span: Span) -> nu_protocol::Value {
let value =
match reg_value.vtype {
// See discussion here https://github.com/nushell/nushell/pull/10806#issuecomment-1791832088
// "The unwraps here are effectively infallible...", so I changed them to expects.
REG_DWORD => u32::from_reg_value(&reg_value)
.expect("registry value type should be REG_DWORD") as i64,
REG_DWORD_BIG_ENDIAN => {
// winreg (v0.51.0) doesn't natively decode REG_DWORD_BIG_ENDIAN
u32::from_be_bytes(unsafe { *reg_value.bytes.as_ptr().cast() }) as i64
}
REG_QWORD => u64::from_reg_value(&reg_value)
.expect("registry value type should be REG_QWORD") as i64,
_ => unreachable!(
"registry value type should be REG_DWORD, REG_DWORD_BIG_ENDIAN, or REG_QWORD"
),
};
Value::int(value, call_span)
}
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