// Functions for storing and retrieving function information. These functions also take care of // autoloading functions in the $fish_function_path. Actual function evaluation is taken care of by // the parser and to some degree the builtin handling library. use crate::ast::{self, Node}; use crate::common::{assert_sync, escape, valid_func_name, FilenameRef}; use crate::env::{EnvStack, Environment}; use crate::event::{self, EventDescription}; use crate::ffi::{self, parser_t, Repin}; use crate::global_safety::RelaxedAtomicBool; use crate::parse_tree::{NodeRef, ParsedSourceRefFFI}; use crate::parser_keywords::parser_keywords_is_reserved; use crate::wchar::{wstr, WString, L}; use crate::wchar_ext::WExt; use crate::wchar_ffi::wcstring_list_ffi_t; use crate::wchar_ffi::{AsWstr, WCharFromFFI, WCharToFFI}; use crate::wutil::{dir_iter::DirIter, gettext::wgettext_expr, sprintf}; use cxx::{CxxWString, UniquePtr}; use once_cell::sync::Lazy; use std::collections::{HashMap, HashSet}; use std::pin::Pin; use std::sync::{Arc, Mutex}; #[derive(Clone)] pub struct FunctionProperties { /// Reference to the node, along with the parsed source. pub func_node: NodeRef, /// List of all named arguments for this function. pub named_arguments: Vec, /// Description of the function. pub description: WString, /// Mapping of all variables that were inherited from the function definition scope to their /// values, as (key, values) pairs. pub inherit_vars: Box<[(WString, Vec)]>, /// Set to true if invoking this function shadows the variables of the underlying function. pub shadow_scope: bool, /// Whether the function was autoloaded. /// This is the only field which is mutated after the properties are created. pub is_autoload: RelaxedAtomicBool, /// The file from which the function was created, or None if not from a file. pub definition_file: Option, /// Whether the function was copied. pub is_copy: bool, /// The file from which the function was copied, or None if not from a file. pub copy_definition_file: Option, /// The line number where the specified function was copied. pub copy_definition_lineno: i32, } /// FunctionProperties are safe to share between threads. const _: () = assert_sync::(); /// Type wrapping up the set of all functions. /// There's only one of these; it's managed by a lock. struct FunctionSet { /// The map of all functions by name. funcs: HashMap>, /// Tombstones for functions that should no longer be autoloaded. autoload_tombstones: HashSet, /// The autoloader for our functions. autoloader: cxx::UniquePtr, } impl FunctionSet { /// Remove a function. /// \return true if successful, false if it doesn't exist. fn remove(&mut self, name: &wstr) -> bool { if self.funcs.remove(name).is_some() { event::remove_function_handlers(name); true } else { false } } /// Get the properties for a function, or None if none. fn get_props(&self, name: &wstr) -> Option> { self.funcs.get(name).cloned() } /// \return true if we should allow autoloading a given function. fn allow_autoload(&self, name: &wstr) -> bool { // Prohibit autoloading if we have a non-autoload (explicit) function, or if the function is // tombstoned. let props = self.get_props(name); let has_explicit_func = props.map_or(false, |p: Arc| !p.is_autoload.load()); let tombstoned = self.autoload_tombstones.contains(name); !has_explicit_func && !tombstoned } } /// The big set of all functions. static FUNCTION_SET: Lazy> = Lazy::new(|| { Mutex::new(FunctionSet { funcs: HashMap::new(), autoload_tombstones: HashSet::new(), autoloader: ffi::make_autoload_ffi(L!("fish_function_path").to_ffi()), }) }); /// Necessary until autoloader has been ported to Rust. unsafe impl Send for FunctionSet {} /// Make sure that if the specified function is a dynamically loaded function, it has been fully /// loaded. Note this executes fish script code. fn load(name: &wstr, parser: &mut parser_t) -> bool { parser.assert_can_execute(); let mut path_to_autoload: Option = None; // Note we can't autoload while holding the funcset lock. // Lock around a local region. { let mut funcset: std::sync::MutexGuard = FUNCTION_SET.lock().unwrap(); if funcset.allow_autoload(name) { let path = funcset .autoloader .as_mut() .unwrap() .resolve_command_ffi(&name.to_ffi() /* Environment::globals() */) .from_ffi(); if !path.is_empty() { path_to_autoload = Some(path); } } } // Release the lock and perform any autoload, then reacquire the lock and clean up. if let Some(path_to_autoload) = path_to_autoload.as_ref() { // Crucially, the lock is acquired after perform_autoload(). ffi::perform_autoload_ffi(&path_to_autoload.to_ffi(), parser.pin()); FUNCTION_SET .lock() .unwrap() .autoloader .as_mut() .unwrap() .mark_autoload_finished(&name.to_ffi()); } path_to_autoload.is_some() } /// Insert a list of all dynamically loaded functions into the specified list. fn autoload_names(names: &mut HashSet, get_hidden: bool) { // TODO: justify this. let vars = EnvStack::principal(); let Some(path_var) = vars.get_unless_empty(L!("fish_function_path")) else { return; }; let path_list = path_var.as_list(); for ndir_str in path_list { let Ok(mut dir) = DirIter::new(ndir_str) else { continue; }; while let Some(entry) = dir.next() { let Ok(entry) = entry else { continue; }; let func: &WString = &entry.name; if !get_hidden && func.char_at(0) == '_' { continue; } let suffix: Option = func.chars().rposition(|x| x == '.'); // We need a ".fish" *suffix*, it can't be the entire name. if let Some(suffix) = suffix { if suffix > 0 && entry.name.slice_from(suffix) == ".fish" { // Also ignore directories. if !entry.is_dir() { let name = entry.name.slice_to(suffix).to_owned(); names.insert(name); } } } } } } /// Add a function. This may mutate \p props to set is_autoload. pub fn add(name: WString, props: Arc) { let mut funcset = FUNCTION_SET.lock().unwrap(); // Historical check. TODO: rationalize this. if name.is_empty() { return; } // Remove the old function. funcset.remove(&name); // Check if this is a function that we are autoloading. props .is_autoload .store(funcset.autoloader.autoload_in_progress(&name.to_ffi())); // Create and store a new function. let existing = funcset.funcs.insert(name, props); assert!( existing.is_none(), "Function should not already be present in the table" ); } /// \return the properties for a function, or None. This does not trigger autoloading. pub fn get_props(name: &wstr) -> Option> { if parser_keywords_is_reserved(name) { None } else { FUNCTION_SET.lock().unwrap().get_props(name) } } /// \return the properties for a function, or None, perhaps triggering autoloading. pub fn get_props_autoload(name: &wstr, parser: &mut parser_t) -> Option> { parser.assert_can_execute(); if parser_keywords_is_reserved(name) { return None; } load(name, parser); get_props(name) } /// Returns true if the function named \p cmd exists. /// This may autoload. pub fn exists(cmd: &wstr, parser: &mut parser_t) -> bool { parser.assert_can_execute(); if !valid_func_name(cmd) { return false; } get_props_autoload(cmd, parser).is_some() } /// Returns true if the function \p cmd either is loaded, or exists on disk in an autoload /// directory. pub fn exists_no_autoload(cmd: &wstr) -> bool { if !valid_func_name(cmd) { return false; } if parser_keywords_is_reserved(cmd) { return false; } let mut funcset = FUNCTION_SET.lock().unwrap(); // Check if we either have the function, or it could be autoloaded. funcset.get_props(cmd).is_some() || funcset .autoloader .as_mut() .unwrap() .can_autoload(&cmd.to_ffi()) } /// Remove the function with the specified name. pub fn remove(name: &wstr) { let mut funcset = FUNCTION_SET.lock().unwrap(); funcset.remove(name); // Prevent (re-)autoloading this function. funcset.autoload_tombstones.insert(name.to_owned()); } // \return the body of a function (everything after the header, up to but not including the 'end'). fn get_function_body_source(props: &FunctionProperties) -> &wstr { // We want to preserve comments that the AST attaches to the header (#5285). // Take everything from the end of the header to the 'end' keyword. let Some(header_source) = props.func_node.header.try_source_range() else { return L!(""); }; let Some(end_kw_source) = props.func_node.end.try_source_range() else { return L!(""); }; let body_start = header_source.start as usize + header_source.length as usize; let body_end = end_kw_source.start as usize; assert!( body_start <= body_end, "end keyword should come after header" ); props .func_node .parsed_source() .src .slice_to(body_end) .slice_from(body_start) } /// Sets the description of the function with the name \c name. /// This triggers autoloading. fn set_desc(name: &wstr, desc: WString, parser: &mut parser_t) { parser.assert_can_execute(); load(name, parser); let mut funcset = FUNCTION_SET.lock().unwrap(); if let Some(props) = funcset.funcs.get(name) { // Note the description is immutable, as it may be accessed on another thread, so we copy // the properties to modify it. let mut new_props = props.as_ref().clone(); new_props.description = desc; funcset.funcs.insert(name.to_owned(), Arc::new(new_props)); } } /// Creates a new function using the same definition as the specified function. Returns true if copy /// is successful. pub fn copy(name: &wstr, new_name: WString, parser: &parser_t) -> bool { let filename = parser.current_filename_ffi().from_ffi(); let lineno = parser.get_lineno(); let mut funcset = FUNCTION_SET.lock().unwrap(); let Some(props) = funcset.get_props(name) else { // No such function. return false; }; // Copy the function's props. let mut new_props = props.as_ref().clone(); new_props.is_autoload.store(false); new_props.is_copy = true; new_props.copy_definition_file = Some(Arc::new(filename)); new_props.copy_definition_lineno = lineno.into(); // Note this will NOT overwrite an existing function with the new name. // TODO: rationalize if this behavior is desired. funcset.funcs.entry(new_name).or_insert(Arc::new(new_props)); return true; } /// Returns all function names. /// /// \param get_hidden whether to include hidden functions, i.e. ones starting with an underscore. pub fn get_names(get_hidden: bool) -> Vec { let mut names = HashSet::::new(); let funcset = FUNCTION_SET.lock().unwrap(); autoload_names(&mut names, get_hidden); for name in funcset.funcs.keys() { // Maybe skip hidden. if !get_hidden && (name.is_empty() || name.char_at(0) == '_') { continue; } names.insert(name.clone()); } names.into_iter().collect() } /// Observes that fish_function_path has changed. pub fn invalidate_path() { // Remove all autoloaded functions and update the autoload path. let mut funcset = FUNCTION_SET.lock().unwrap(); funcset.funcs.retain(|_, props| !props.is_autoload.load()); funcset.autoloader.as_mut().unwrap().clear(); } impl FunctionProperties { /// Return the description, localized via wgettext. pub fn localized_description(&self) -> &'static wstr { if self.description.is_empty() { L!("") } else { wgettext_expr!(&self.description) } } /// Return true if this function is a copy. pub fn is_copy(&self) -> bool { self.is_copy } /// Return a reference to the function's definition file, or None if it was defined interactively or copied. pub fn definition_file(&self) -> Option<&wstr> { self.definition_file.as_ref().map(|f| f.as_utfstr()) } /// Return a reference to the vars that this function has inherited from its definition scope. pub fn inherit_vars(&self) -> &[(WString, Vec)] { &self.inherit_vars } /// If this function is a copy, return a reference to the original definition file, or None if it was defined interactively or copied. pub fn copy_definition_file(&self) -> Option<&wstr> { self.copy_definition_file.as_ref().map(|f| f.as_utfstr()) } /// Return the 1-based line number of the function's definition. pub fn definition_lineno(&self) -> i32 { // Return one plus the number of newlines at offsets less than the start of our function's // statement (which includes the header). // TODO: merge with line_offset_of_character_at_offset? let Some(source_range) = self.func_node.try_source_range() else { panic!("Function has no source range"); }; let func_start = source_range.start as usize; let source = &self.func_node.parsed_source().src; assert!( func_start <= source.char_count(), "function start out of bounds" ); 1 + source .slice_to(func_start) .chars() .filter(|&c| c == '\n') .count() as i32 } /// If this function is a copy, return the original line number, else 0. pub fn copy_definition_lineno(&self) -> i32 { self.copy_definition_lineno } /// Return a definition of the function, annotated with properties like event handlers and wrap /// targets. This is to support the 'functions' builtin. /// Note callers must provide the function name, since the function does not know its own name. pub fn annotated_definition(&self, name: &wstr) -> WString { let mut out = WString::new(); let desc = self.localized_description(); let def = get_function_body_source(self); let handlers = event::get_function_handlers(name); out.push_str("function "); // Typically we prefer to specify the function name first, e.g. "function foo --description bar" // But if the function name starts with a -, we'll need to output it after all the options. let defer_function_name = name.char_at(0) == '-'; if !defer_function_name { out.push_utfstr(&escape(name)); } // Output wrap targets. for wrap in ffi::complete_get_wrap_targets_ffi(&name.to_ffi()).from_ffi() { out.push_str(" --wraps="); out.push_utfstr(&escape(&wrap)); } if !desc.is_empty() { out.push_str(" --description "); out.push_utfstr(&escape(desc)); } if !self.shadow_scope { out.push_str(" --no-scope-shadowing"); } for handler in handlers { let d = &handler.desc; match d { EventDescription::Signal { signal } => { sprintf!(=> &mut out, " --on-signal %ls", signal.name()); } EventDescription::Variable { name } => { sprintf!(=> &mut out, " --on-variable %ls", name); } EventDescription::ProcessExit { pid } => { sprintf!(=> &mut out, " --on-process-exit %d", pid); } EventDescription::JobExit { pid, .. } => { sprintf!(=> &mut out, " --on-job-exit %d", pid); } EventDescription::CallerExit { .. } => { out.push_str(" --on-job-exit caller"); } EventDescription::Generic { param } => { sprintf!(=> &mut out, " --on-event %ls", param); } EventDescription::Any => { panic!("Unexpected event handler type"); } }; } let named = &self.named_arguments; if !named.is_empty() { out.push_str(" --argument"); for name in named { // TODO: should these names be escaped? sprintf!(=> &mut out, " %ls", name); } } // Output the function name if we deferred it. if defer_function_name { out.push_str(" -- "); out.push_utfstr(&escape(name)); } // Output any inherited variables as `set -l` lines. for (name, values) in self.inherit_vars.iter() { // We don't know what indentation style the function uses, // so we do what fish_indent would. sprintf!(=> &mut out, "\n set -l %ls", name); for arg in values { out.push(' '); out.push_utfstr(&escape(arg)); } } out.push('\n'); out.push_utfstr(def); // Append a newline before the 'end', unless there already is one there. if !def.ends_with('\n') { out.push('\n'); } out.push_str("end\n"); out } } pub struct FunctionPropertiesRefFFI(pub Arc); impl FunctionPropertiesRefFFI { fn definition_file(&self) -> UniquePtr { if let Some(file) = self.0.definition_file() { file.to_ffi() } else { UniquePtr::null() } } fn definition_lineno(&self) -> i32 { self.0.definition_lineno() } fn copy_definition_lineno(&self) -> i32 { self.0.copy_definition_lineno() } fn shadow_scope(&self) -> bool { self.0.shadow_scope } fn named_arguments(&self) -> UniquePtr { self.0.named_arguments.to_ffi() } fn get_description(&self) -> UniquePtr { self.0.description.to_ffi() } fn annotated_definition(&self, name: &CxxWString) -> UniquePtr { self.0.annotated_definition(name.as_wstr()).to_ffi() } fn is_autoload(&self) -> bool { self.0.is_autoload.load() } fn is_copy(&self) -> bool { self.0.is_copy } fn get_block_statement_node_ffi(&self) -> *const u8 { let stmt: &ast::BlockStatement = &self.0.func_node; stmt as *const ast::BlockStatement as *const u8 } fn parsed_source_ffi(&self) -> *mut u8 { let source = self.0.func_node.parsed_source_ref(); let res = Box::new(ParsedSourceRefFFI(Some(source))); Box::into_raw(res) as *mut u8 } fn copy_definition_file_ffi(&self) -> UniquePtr { if let Some(file) = self.0.copy_definition_file() { file.to_ffi() } else { UniquePtr::null() } } } #[allow(clippy::boxed_local)] fn function_add_ffi(name: &CxxWString, props: Box) { add(name.from_ffi(), props.0); } fn function_remove_ffi(name: &CxxWString) { remove(name.as_wstr()); } fn function_get_props_ffi(name: &CxxWString) -> *mut FunctionPropertiesRefFFI { let props = get_props(name.as_wstr()); if let Some(props) = props { Box::into_raw(Box::new(FunctionPropertiesRefFFI(props))) } else { std::ptr::null_mut() } } fn function_get_props_autoload_ffi( name: &CxxWString, parser: Pin<&mut parser_t>, ) -> *mut FunctionPropertiesRefFFI { let props = get_props_autoload(name.as_wstr(), parser.unpin()); if let Some(props) = props { Box::into_raw(Box::new(FunctionPropertiesRefFFI(props))) } else { std::ptr::null_mut() } } fn function_load_ffi(name: &CxxWString, parser: Pin<&mut parser_t>) -> bool { load(name.as_wstr(), parser.unpin()) } fn function_set_desc_ffi(name: &CxxWString, desc: &CxxWString, parser: Pin<&mut parser_t>) { set_desc(name.as_wstr(), desc.from_ffi(), parser.unpin()); } fn function_exists_ffi(cmd: &CxxWString, parser: Pin<&mut parser_t>) -> bool { exists(cmd.as_wstr(), parser.unpin()) } fn function_exists_no_autoload_ffi(cmd: &CxxWString) -> bool { exists_no_autoload(cmd.as_wstr()) } fn function_get_names_ffi(get_hidden: bool, mut out: Pin<&mut wcstring_list_ffi_t>) { let names = get_names(get_hidden); for name in names { out.as_mut().push(name.to_ffi()); } } fn function_copy_ffi(name: &CxxWString, new_name: &CxxWString, parser: Pin<&mut parser_t>) -> bool { copy(name.as_wstr(), new_name.from_ffi(), parser.unpin()) } #[cxx::bridge] mod function_ffi { extern "C++" { include!("ast.h"); include!("parse_tree.h"); include!("parser.h"); include!("wutil.h"); type parser_t = crate::ffi::parser_t; type wcstring_list_ffi_t = crate::ffi::wcstring_list_ffi_t; } extern "Rust" { #[cxx_name = "function_properties_t"] type FunctionPropertiesRefFFI; fn definition_file(&self) -> UniquePtr; fn definition_lineno(&self) -> i32; fn copy_definition_lineno(&self) -> i32; fn shadow_scope(&self) -> bool; fn named_arguments(&self) -> UniquePtr; fn get_description(&self) -> UniquePtr; fn annotated_definition(&self, name: &CxxWString) -> UniquePtr; fn is_autoload(&self) -> bool; fn is_copy(&self) -> bool; #[cxx_name = "copy_definition_file"] fn copy_definition_file_ffi(&self) -> UniquePtr; /// Returns unowned pointer to BlockStatement, cast to a u8. #[cxx_name = "get_block_statement_node"] fn get_block_statement_node_ffi(&self) -> *const u8; /// Returns rust::Box::into_raw(), cast to a u8. #[cxx_name = "parsed_source"] fn parsed_source_ffi(self: &FunctionPropertiesRefFFI) -> *mut u8; #[cxx_name = "function_add"] fn function_add_ffi(name: &CxxWString, props: Box); #[cxx_name = "function_remove"] fn function_remove_ffi(name: &CxxWString); /// Returns a Box::into_raw(), or nullptr if None. #[cxx_name = "function_get_props_raw"] fn function_get_props_ffi(name: &CxxWString) -> *mut FunctionPropertiesRefFFI; /// Returns a Box::into_raw(), or nullptr if None. #[cxx_name = "function_get_props_autoload_raw"] fn function_get_props_autoload_ffi( name: &CxxWString, parser: Pin<&mut parser_t>, ) -> *mut FunctionPropertiesRefFFI; #[cxx_name = "function_load"] fn function_load_ffi(name: &CxxWString, parser: Pin<&mut parser_t>) -> bool; #[cxx_name = "function_set_desc"] fn function_set_desc_ffi(name: &CxxWString, desc: &CxxWString, parser: Pin<&mut parser_t>); #[cxx_name = "function_exists"] fn function_exists_ffi(cmd: &CxxWString, parser: Pin<&mut parser_t>) -> bool; #[cxx_name = "function_exists_no_autoload"] fn function_exists_no_autoload_ffi(cmd: &CxxWString) -> bool; #[cxx_name = "function_get_names"] fn function_get_names_ffi(get_hidden: bool, out: Pin<&mut wcstring_list_ffi_t>); #[cxx_name = "function_copy"] fn function_copy_ffi( name: &CxxWString, new_name: &CxxWString, parser: Pin<&mut parser_t>, ) -> bool; #[cxx_name = "function_invalidate_path"] fn invalidate_path(); } } unsafe impl cxx::ExternType for FunctionPropertiesRefFFI { type Id = cxx::type_id!("function_properties_t"); type Kind = cxx::kind::Opaque; }