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|
//! This module implements `builtins.toXML`, which is a serialisation
//! of value information as well as internal tvix state that several
//! things in nixpkgs rely on.
use bstr::ByteSlice;
use std::borrow::Cow;
use std::{io::Write, rc::Rc};
use crate::{ErrorKind, Value};
/// Recursively serialise a value to XML. The value *must* have been
/// deep-forced before being passed to this function.
pub fn value_to_xml<W: Write>(mut writer: W, value: &Value) -> Result<(), ErrorKind> {
// Write a literal document declaration, using C++-Nix-style
// single quotes.
writeln!(writer, "<?xml version='1.0' encoding='utf-8'?>")?;
let mut emitter = XmlEmitter::new(writer);
emitter.write_open_tag("expr", &[])?;
value_variant_to_xml(&mut emitter, value)?;
emitter.write_closing_tag("expr")?;
Ok(())
}
fn write_typed_value<W: Write, V: ToString>(
w: &mut XmlEmitter<W>,
name_unescaped: &str,
value: V,
) -> Result<(), ErrorKind> {
w.write_self_closing_tag(name_unescaped, &[("value", &value.to_string())])?;
Ok(())
}
fn value_variant_to_xml<W: Write>(w: &mut XmlEmitter<W>, value: &Value) -> Result<(), ErrorKind> {
match value {
Value::Thunk(t) => return value_variant_to_xml(w, &t.value()),
Value::Null => {
w.write_open_tag("null", &[])?;
w.write_closing_tag("null")?;
}
Value::Bool(b) => return write_typed_value(w, "bool", b),
Value::Integer(i) => return write_typed_value(w, "int", i),
Value::Float(f) => return write_typed_value(w, "float", f),
Value::String(s) => return write_typed_value(w, "string", s.to_str()?),
Value::Path(p) => return write_typed_value(w, "path", p.to_string_lossy()),
Value::List(list) => {
w.write_open_tag("list", &[])?;
for elem in list.into_iter() {
value_variant_to_xml(w, elem)?;
}
w.write_closing_tag("list")?;
}
Value::Attrs(attrs) => {
w.write_open_tag("attrs", &[])?;
for elem in attrs.iter() {
w.write_open_tag("attr", &[("name", &elem.0.to_str_lossy())])?;
value_variant_to_xml(w, elem.1)?;
w.write_closing_tag("attr")?;
}
w.write_closing_tag("attrs")?;
}
Value::Closure(c) => {
w.write_open_tag("function", &[])?;
match &c.lambda.formals {
Some(formals) => {
let mut attrs: Vec<(&str, &str)> = Vec::with_capacity(2);
if formals.ellipsis {
attrs.push(("ellipsis", "1"));
}
if let Some(ref name) = &formals.name {
attrs.push(("name", name.as_str()));
}
w.write_open_tag("attrspat", &attrs)?;
for arg in formals.arguments.iter() {
w.write_self_closing_tag("attr", &[("name", &arg.0.to_str_lossy())])?;
}
w.write_closing_tag("attrspat")?;
}
None => {
// TODO(tazjin): tvix does not currently persist function
// argument names anywhere (whereas we do for formals, as
// that is required for other runtime behaviour). Because of
// this the implementation here is fake, always returning
// the same argument name.
//
// If we don't want to persist the data, we can re-parse the
// AST from the spans of the lambda's bytecode and figure it
// out that way, but it needs some investigating.
w.write_self_closing_tag("varpat", &[("name", /* fake: */ "x")])?;
}
}
w.write_closing_tag("function")?;
}
Value::Builtin(_) => {
w.write_open_tag("unevaluated", &[])?;
w.write_closing_tag("unevaluated")?;
}
Value::AttrNotFound
| Value::Blueprint(_)
| Value::DeferredUpvalue(_)
| Value::UnresolvedPath(_)
| Value::Json(..)
| Value::FinaliseRequest(_) => {
return Err(ErrorKind::TvixBug {
msg: "internal value variant encountered in builtins.toXML",
metadata: Some(Rc::new(value.clone())),
})
}
Value::Catchable(_) => {
panic!("tvix bug: value_to_xml() called on a value which had not been deep-forced")
}
};
Ok(())
}
/// A simple-stupid XML emitter, which implements only the subset needed for byte-by-byte compat with C++ nix’ `builtins.toXML`.
struct XmlEmitter<W> {
/// The current indentation
cur_indent: usize,
writer: W,
}
impl<W: Write> XmlEmitter<W> {
pub fn new(writer: W) -> Self {
XmlEmitter {
cur_indent: 0,
writer,
}
}
/// Write an open tag with the given name (which is not escaped!)
/// and attributes (Keys are not escaped! Only attribute values are.)
pub fn write_open_tag(
&mut self,
name_unescaped: &str,
attrs: &[(&str, &str)],
) -> std::io::Result<()> {
self.add_indent()?;
self.writer.write_all(b"<")?;
self.writer.write_all(name_unescaped.as_bytes())?;
self.write_attrs_escape_vals(attrs)?;
self.writer.write_all(b">\n")?;
self.cur_indent += 2;
Ok(())
}
/// Write a self-closing open tag with the given name (which is not escaped!)
/// and attributes (Keys are not escaped! Only attribute values are.)
pub fn write_self_closing_tag(
&mut self,
name_unescaped: &str,
attrs: &[(&str, &str)],
) -> std::io::Result<()> {
self.add_indent()?;
self.writer.write_all(b"<")?;
self.writer.write_all(name_unescaped.as_bytes())?;
self.write_attrs_escape_vals(attrs)?;
self.writer.write_all(b" />\n")?;
Ok(())
}
/// Write a closing tag with the given name (which is not escaped!)
pub fn write_closing_tag(&mut self, name_unescaped: &str) -> std::io::Result<()> {
self.cur_indent -= 2;
self.add_indent()?;
self.writer.write_all(b"</")?;
self.writer.write_all(name_unescaped.as_bytes())?;
self.writer.write_all(b">\n")?;
Ok(())
}
#[inline]
fn add_indent(&mut self) -> std::io::Result<()> {
self.writer.write_all(&b" ".repeat(self.cur_indent))
}
/// Write an attribute list
fn write_attrs_escape_vals(&mut self, attrs: &[(&str, &str)]) -> std::io::Result<()> {
for (name, val) in attrs {
self.writer.write_all(b" ")?;
self.writer.write_all(name.as_bytes())?;
self.writer.write_all(br#"=""#)?;
self.writer
.write_all(Self::escape_attr_value(val).as_bytes())?;
self.writer.write_all(b"\"")?;
}
Ok(())
}
/// Escape the given attribute value, making sure we only actually clone the string if we needed to replace something.
fn escape_attr_value(s: &str) -> Cow<str> {
let mut last_escape: usize = 0;
let mut res: Cow<str> = Cow::Borrowed("");
// iterating via char_indices gives us the ability to index the original string slice at character boundaries
for (idx, c) in s.char_indices() {
match Self::should_escape_char(c) {
None => {}
Some(new) => {
// add characters since the last escape we did
res += &s[last_escape..idx];
// add the escaped value
res += new;
last_escape = idx + 1;
}
}
}
// we did not need to escape anything, so borrow original string
if last_escape == 0 {
Cow::Borrowed(s)
} else {
// add the remaining characters
res += &s[last_escape..];
res
}
}
fn should_escape_char(c: char) -> Option<&'static str> {
match c {
'<' => Some("<"),
'>' => Some(">"),
'"' => Some("""),
'\'' => Some("'"),
'&' => Some("&"),
'\n' => Some("
"),
'\r' => Some("
"),
_ => None,
}
}
}
#[cfg(test)]
mod tests {
use bytes::buf::Writer;
use pretty_assertions::assert_eq;
use crate::builtins::to_xml::XmlEmitter;
use std::borrow::Cow;
#[test]
fn xml_gen() {
let mut buf = Vec::new();
let mut x = XmlEmitter::new(&mut buf);
x.write_open_tag("hello", &[("hi", "it’s me"), ("no", "<escape>")])
.unwrap();
x.write_self_closing_tag("self-closing", &[("tag", "yay")])
.unwrap();
x.write_closing_tag("hello").unwrap();
assert_eq!(
std::str::from_utf8(&buf).unwrap(),
r##"<hello hi="it’s me" no="<escape>">
<self-closing tag="yay" />
</hello>
"##
);
}
#[test]
fn xml_escape() {
match XmlEmitter::<Writer<Vec<u8>>>::escape_attr_value("ab<>c&de") {
Cow::Owned(s) => assert_eq!(s, "ab<>c&de".to_string(), "escape stuff"),
Cow::Borrowed(s) => panic!("s should be owned {}", s),
}
match XmlEmitter::<Writer<Vec<u8>>>::escape_attr_value("") {
Cow::Borrowed(s) => assert_eq!(s, "", "empty escape is borrowed"),
Cow::Owned(s) => panic!("s should be borrowed {}", s),
}
match XmlEmitter::<Writer<Vec<u8>>>::escape_attr_value("hi!ŷbla") {
Cow::Borrowed(s) => assert_eq!(s, "hi!ŷbla", "no escape is borrowed"),
Cow::Owned(s) => panic!("s should be borrowed {}", s),
}
match XmlEmitter::<Writer<Vec<u8>>>::escape_attr_value("hi!<ŷ>bla") {
Cow::Owned(s) => assert_eq!(
s,
"hi!<ŷ>bla".to_string(),
"multi-byte chars are correctly used"
),
Cow::Borrowed(s) => panic!("s should be owned {}", s),
}
}
}
|