use async_trait::async_trait;
use clap::{CommandFactory, Parser};
use std::path::Path;
use crate::interpreter::{ExecResult, OutputData};
use crate::tools::{schema_from_clap, ExecContext, ToolCtx, GlobalFlags, Tool, ToolArgs, ToolSchema};
pub struct Readlink;
#[derive(Parser, Debug)]
#[command(name = "readlink", about = "Print symlink target or resolved path")]
struct ReadlinkArgs {
#[arg(short = 'f', long = "canonicalize")]
canonicalize: bool,
#[command(flatten)]
global: GlobalFlags,
paths: Vec<String>,
}
#[async_trait]
impl Tool for Readlink {
fn name(&self) -> &str {
"readlink"
}
fn schema(&self) -> ToolSchema {
schema_from_clap(
&ReadlinkArgs::command(),
"readlink",
"Print symlink target or resolved path",
[
("Read symlink target", "readlink link.txt"),
("Canonicalize path", "readlink -f ../some/./path"),
],
)
}
async fn execute(&self, args: ToolArgs, ctx: &mut dyn ToolCtx) -> ExecResult {
let Some(ctx) = ctx.as_any_mut().downcast_mut::<ExecContext>() else {
return ExecResult::failure(1, "internal error: kernel builtin requires ExecContext");
};
let parsed = match ReadlinkArgs::try_parse_from(
std::iter::once("readlink".to_string()).chain(args.to_argv()),
) {
Ok(p) => p,
Err(e) => return ExecResult::failure(2, format!("readlink: {e}")),
};
parsed.global.apply(ctx);
if args.positional.is_empty() {
return ExecResult::failure(1, "readlink: missing path argument");
}
let canonicalize = parsed.canonicalize;
let mut output = String::new();
let mut last_err: Option<String> = None;
for value in &args.positional {
let path_str = crate::interpreter::value_to_string(value);
let resolved = ctx.resolve_path(&path_str);
if canonicalize {
let resolved_str = resolved.to_string_lossy();
output.push_str(&normalize_path(&resolved_str));
output.push('\n');
continue;
}
match ctx.backend.read_link(Path::new(&resolved)).await {
Ok(target) => {
output.push_str(&target.display().to_string());
output.push('\n');
}
Err(e) => {
use crate::backend::BackendError;
last_err = Some(match &e {
BackendError::Io(msg) if msg.contains("not a symbolic link") => {
format!("readlink: {}: not a symbolic link", path_str)
}
BackendError::NotFound(_) => {
format!("readlink: {}: No such file or directory", path_str)
}
_ => format!("readlink: {}: {}", path_str, e),
});
}
}
}
let mut result = ExecResult::with_output(OutputData::text(output));
if let Some(msg) = last_err {
result.err = msg;
result = result.with_code(1);
}
result
}
}
fn normalize_path(path: &str) -> String {
let path = Path::new(path);
let mut components = Vec::new();
let is_absolute = path.is_absolute();
for component in path.components() {
match component {
std::path::Component::ParentDir => {
if !components.is_empty() && components.last() != Some(&"..") {
components.pop();
} else if !is_absolute {
components.push("..");
}
}
std::path::Component::CurDir => {}
std::path::Component::Normal(s) => {
if let Some(s) = s.to_str() {
components.push(s);
}
}
std::path::Component::RootDir => {
components.clear();
}
std::path::Component::Prefix(_) => {}
}
}
if is_absolute {
format!("/{}", components.join("/"))
} else if components.is_empty() {
".".to_string()
} else {
components.join("/")
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::ast::Value;
use crate::vfs::{MemoryFs, VfsRouter};
use std::sync::Arc;
fn make_ctx() -> ExecContext {
let mut vfs = VfsRouter::new();
vfs.mount("/", MemoryFs::new());
ExecContext::new(Arc::new(vfs))
}
#[tokio::test]
async fn test_readlink_canonicalize() {
let mut ctx = make_ctx();
let mut args = ToolArgs::new();
args.positional
.push(Value::String("/some/../path/./file".into()));
args.flags.insert("f".to_string());
let result = Readlink.execute(args, &mut ctx).await;
assert!(result.ok());
assert_eq!(result.text_out().trim(), "/path/file");
}
#[tokio::test]
async fn test_readlink_without_flag_on_regular_file_fails() {
use crate::vfs::Filesystem;
let mut vfs = VfsRouter::new();
let mem = MemoryFs::new();
mem.write(Path::new("regular.txt"), b"content").await.unwrap();
vfs.mount("/", mem);
let mut ctx = ExecContext::new(Arc::new(vfs));
let mut args = ToolArgs::new();
args.positional.push(Value::String("/regular.txt".into()));
let result = Readlink.execute(args, &mut ctx).await;
assert!(!result.ok());
assert!(result.err.contains("not a symbolic link"));
}
#[tokio::test]
async fn test_readlink_missing_path() {
let mut ctx = make_ctx();
let result = Readlink.execute(ToolArgs::new(), &mut ctx).await;
assert!(!result.ok());
}
async fn make_ctx_with_symlink() -> ExecContext {
use crate::vfs::Filesystem;
let mut vfs = VfsRouter::new();
let mem = MemoryFs::new();
mem.write(Path::new("target.txt"), b"content").await.unwrap();
mem.symlink(Path::new("target.txt"), Path::new("link.txt")).await.unwrap();
mem.symlink(Path::new("nonexistent"), Path::new("broken.txt")).await.unwrap();
vfs.mount("/", mem);
ExecContext::new(Arc::new(vfs))
}
#[tokio::test]
async fn test_readlink_symlink_target() {
let mut ctx = make_ctx_with_symlink().await;
let mut args = ToolArgs::new();
args.positional.push(Value::String("/link.txt".into()));
let result = Readlink.execute(args, &mut ctx).await;
assert!(result.ok());
assert_eq!(result.text_out().trim(), "target.txt");
}
#[tokio::test]
async fn test_readlink_on_regular_file() {
let mut ctx = make_ctx_with_symlink().await;
let mut args = ToolArgs::new();
args.positional.push(Value::String("/target.txt".into()));
let result = Readlink.execute(args, &mut ctx).await;
assert!(!result.ok());
assert!(result.err.contains("not a symbolic link"));
}
#[tokio::test]
async fn test_readlink_broken_symlink() {
let mut ctx = make_ctx_with_symlink().await;
let mut args = ToolArgs::new();
args.positional.push(Value::String("/broken.txt".into()));
let result = Readlink.execute(args, &mut ctx).await;
assert!(result.ok());
assert_eq!(result.text_out().trim(), "nonexistent");
}
#[tokio::test]
async fn test_readlink_not_found() {
let mut ctx = make_ctx_with_symlink().await;
let mut args = ToolArgs::new();
args.positional.push(Value::String("/does-not-exist".into()));
let result = Readlink.execute(args, &mut ctx).await;
assert!(!result.ok());
assert!(result.err.contains("No such file"));
}
}