diff --git a/crates/nu-command/Cargo.toml b/crates/nu-command/Cargo.toml index a82c35628..3175a6ec9 100644 --- a/crates/nu-command/Cargo.toml +++ b/crates/nu-command/Cargo.toml @@ -110,6 +110,7 @@ version = "3.1" features = [ "Win32_Foundation", "Win32_Storage_FileSystem", + "Win32_System_Environment", "Win32_System_SystemServices", "Win32_Security", "Win32_System_Threading", diff --git a/crates/nu-command/src/system/registry_query.rs b/crates/nu-command/src/system/registry_query.rs index b9e3f9de7..1ae03f467 100644 --- a/crates/nu-command/src/system/registry_query.rs +++ b/crates/nu-command/src/system/registry_query.rs @@ -5,7 +5,8 @@ use nu_protocol::{ record, Category, Example, IntoInterruptiblePipelineData, IntoPipelineData, PipelineData, ShellError, Signature, Span, Spanned, SyntaxShape, Type, Value, }; -use winreg::{enums::*, RegKey}; +use windows::{core::PCWSTR, Win32::System::Environment::ExpandEnvironmentStringsW}; +use winreg::{enums::*, types::FromRegValue, RegKey}; #[derive(Clone)] pub struct RegistryQuery; @@ -92,12 +93,13 @@ fn registry_query( if registry_value.is_none() { let mut reg_values = vec![]; for (name, val) in reg_key.enum_values().flatten() { - let (nu_value, reg_type) = reg_value_to_nu_value(val, call_span); + let reg_type = format!("{:?}", val.vtype); + let nu_value = reg_value_to_nu_value(val, call_span); reg_values.push(Value::record( record! { "name" => Value::string(name, call_span), "value" => nu_value, - "type" => Value::string(format!("{:?}", reg_type), call_span), + "type" => Value::string(reg_type, call_span), }, *registry_key_span, )) @@ -109,12 +111,13 @@ fn registry_query( let reg_value = reg_key.get_raw_value(value.item.as_str()); match reg_value { Ok(val) => { - let (nu_value, reg_type) = reg_value_to_nu_value(val, call_span); + let reg_type = format!("{:?}", val.vtype); + let nu_value = reg_value_to_nu_value(val, call_span); Ok(Value::record( record! { "name" => Value::string(value.item, call_span), "value" => nu_value, - "type" => Value::string(format!("{:?}", reg_type), call_span), + "type" => Value::string(reg_type, call_span), }, value.span, ) @@ -174,61 +177,109 @@ fn get_reg_hive(call: &Call) -> Result { Ok(RegKey::predef(hkey)) } -fn reg_value_to_nu_value( - reg_value: winreg::RegValue, - call_span: Span, -) -> (nu_protocol::Value, winreg::enums::RegType) { +fn reg_value_to_nu_value(mut reg_value: winreg::RegValue, call_span: Span) -> nu_protocol::Value { match reg_value.vtype { - REG_NONE => (Value::nothing(call_span), reg_value.vtype), - REG_SZ => ( - Value::string(reg_value.to_string(), call_span), - reg_value.vtype, - ), - REG_EXPAND_SZ => ( - Value::string(reg_value.to_string(), call_span), - reg_value.vtype, - ), - REG_BINARY => (Value::binary(reg_value.bytes, call_span), reg_value.vtype), - REG_DWORD => ( - Value::int( - unsafe { *(reg_value.bytes.as_ptr() as *const u32) } as i64, - call_span, - ), - reg_value.vtype, - ), - REG_DWORD_BIG_ENDIAN => ( - Value::int( - unsafe { *(reg_value.bytes.as_ptr() as *const u32) } as i64, - call_span, - ), - reg_value.vtype, - ), - REG_LINK => ( - Value::string(reg_value.to_string(), call_span), - reg_value.vtype, - ), - REG_MULTI_SZ => ( - Value::string(reg_value.to_string(), call_span), - reg_value.vtype, - ), - REG_RESOURCE_LIST => ( - Value::string(reg_value.to_string(), call_span), - reg_value.vtype, - ), - REG_FULL_RESOURCE_DESCRIPTOR => ( - Value::string(reg_value.to_string(), call_span), - reg_value.vtype, - ), - REG_RESOURCE_REQUIREMENTS_LIST => ( - Value::string(reg_value.to_string(), call_span), - reg_value.vtype, - ), - REG_QWORD => ( - Value::int( - unsafe { *(reg_value.bytes.as_ptr() as *const u32) } as i64, - call_span, - ), - 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), + 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) + } + + // 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) -> nu_protocol::Value { + let value = String::from_reg_value(®_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: + + // We can skip the dance if the string doesn't actually have any unexpanded placeholders. + if 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::>(); + + // 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; + } + } + } +} + +fn reg_value_to_nu_list_string(reg_value: winreg::RegValue, call_span: Span) -> nu_protocol::Value { + let values = >::from_reg_value(®_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 { + REG_DWORD => u32::from_reg_value(®_value).unwrap() 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(®_value).unwrap() as i64, + _ => unreachable!( + "registry value type should be REG_DWORD, REG_DWORD_BIG_ENDIAN, or REG_QWORD" + ), + }; + Value::int(value, call_span) +}