// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license. use crate::colors; use crate::fs_util::resolve_from_cwd; use deno_core::error::custom_error; use deno_core::error::uri_error; use deno_core::error::AnyError; #[cfg(test)] use deno_core::parking_lot::Mutex; use deno_core::serde::Deserialize; use deno_core::serde::Serialize; use deno_core::url; use deno_core::ModuleSpecifier; use deno_core::OpState; use log; use std::collections::HashSet; use std::fmt; use std::hash::Hash; use std::path::{Path, PathBuf}; #[cfg(test)] use std::sync::atomic::AtomicBool; #[cfg(test)] use std::sync::atomic::Ordering; const PERMISSION_EMOJI: &str = "⚠️"; lazy_static::lazy_static! { static ref DEBUG_LOG_ENABLED: bool = log::log_enabled!(log::Level::Debug); } /// Tri-state value for storing permission state #[derive(PartialEq, Debug, Clone, Copy, Deserialize, PartialOrd)] pub enum PermissionState { Granted = 0, Prompt = 1, Denied = 2, } impl PermissionState { #[inline(always)] fn log_perm_access(name: &str, info: Option<&str>) { // Eliminates log overhead (when logging is disabled), // log_enabled!(Debug) check in a hot path still has overhead // TODO(AaronO): generalize or upstream this optimization if *DEBUG_LOG_ENABLED { log::debug!( "{}", colors::bold(&format!( "{}️ Granted {}", PERMISSION_EMOJI, Self::fmt_access(name, info) )) ); } } fn fmt_access(name: &str, info: Option<&str>) -> String { format!( "{} access{}", name, info.map_or(String::new(), |info| { format!(" to {}", info) }), ) } fn error(name: &str, info: Option<&str>) -> AnyError { custom_error( "PermissionDenied", format!( "Requires {}, run again with the --allow-{} flag", Self::fmt_access(name, info), name ), ) } /// Check the permission state. bool is whether a prompt was issued. fn check( self, name: &str, info: Option<&str>, prompt: bool, ) -> (Result<(), AnyError>, bool) { match self { PermissionState::Granted => { Self::log_perm_access(name, info); (Ok(()), false) } PermissionState::Prompt if prompt => { let msg = Self::fmt_access(name, info); if permission_prompt(&msg) { Self::log_perm_access(name, info); (Ok(()), true) } else { (Err(Self::error(name, info)), true) } } _ => (Err(Self::error(name, info)), false), } } } impl fmt::Display for PermissionState { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { PermissionState::Granted => f.pad("granted"), PermissionState::Prompt => f.pad("prompt"), PermissionState::Denied => f.pad("denied"), } } } impl Default for PermissionState { fn default() -> Self { PermissionState::Prompt } } #[derive(Clone, Debug, Default, PartialEq)] pub struct UnitPermission { pub name: &'static str, pub description: &'static str, pub state: PermissionState, pub prompt: bool, } impl UnitPermission { pub fn query(&self) -> PermissionState { self.state } pub fn request(&mut self) -> PermissionState { if self.state == PermissionState::Prompt { if permission_prompt(&format!("access to {}", self.description)) { self.state = PermissionState::Granted; } else { self.state = PermissionState::Denied; } } self.state } pub fn revoke(&mut self) -> PermissionState { if self.state == PermissionState::Granted { self.state = PermissionState::Prompt; } self.state } pub fn check(&mut self) -> Result<(), AnyError> { let (result, prompted) = self.state.check(self.name, None, self.prompt); if prompted { if result.is_ok() { self.state = PermissionState::Granted; } else { self.state = PermissionState::Denied; } } result } } #[derive(Clone, Debug, Default, Deserialize, PartialEq)] pub struct UnaryPermission { #[serde(skip)] pub name: &'static str, #[serde(skip)] pub description: &'static str, pub global_state: PermissionState, pub granted_list: HashSet, pub denied_list: HashSet, #[serde(skip)] pub prompt: bool, } #[derive(Clone, Eq, PartialEq, Hash, Debug, Default, Deserialize)] pub struct ReadDescriptor(pub PathBuf); #[derive(Clone, Eq, PartialEq, Hash, Debug, Default, Deserialize)] pub struct WriteDescriptor(pub PathBuf); #[derive(Clone, Eq, PartialEq, Hash, Debug, Default, Deserialize)] pub struct NetDescriptor(pub String, pub Option); impl NetDescriptor { fn new>(host: &&(T, Option)) -> Self { NetDescriptor(host.0.as_ref().to_string(), host.1) } pub fn from_string(host: String) -> Self { let url = url::Url::parse(&format!("http://{}", host)).unwrap(); let hostname = url.host_str().unwrap().to_string(); NetDescriptor(hostname, url.port()) } } impl fmt::Display for NetDescriptor { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.write_str(&match self.1 { None => self.0.clone(), Some(port) => format!("{}:{}", self.0, port), }) } } #[derive(Clone, Eq, PartialEq, Hash, Debug, Default, Deserialize)] pub struct EnvDescriptor(pub String); #[derive(Clone, Eq, PartialEq, Hash, Debug, Default, Deserialize)] pub struct RunDescriptor(pub String); #[derive(Clone, Eq, PartialEq, Hash, Debug, Default, Deserialize)] pub struct FfiDescriptor(pub String); impl UnaryPermission { pub fn query(&self, path: Option<&Path>) -> PermissionState { let path = path.map(|p| resolve_from_cwd(p).unwrap()); if self.global_state == PermissionState::Denied && match path.as_ref() { None => true, Some(path) => self .denied_list .iter() .any(|path_| path_.0.starts_with(path)), } { PermissionState::Denied } else if self.global_state == PermissionState::Granted || match path.as_ref() { None => false, Some(path) => self .granted_list .iter() .any(|path_| path.starts_with(&path_.0)), } { PermissionState::Granted } else { PermissionState::Prompt } } pub fn request(&mut self, path: Option<&Path>) -> PermissionState { if let Some(path) = path { let (resolved_path, display_path) = resolved_and_display_path(path); let state = self.query(Some(&resolved_path)); if state == PermissionState::Prompt { if permission_prompt(&format!( "read access to \"{}\"", display_path.display() )) { self.granted_list.insert(ReadDescriptor(resolved_path)); PermissionState::Granted } else { self.denied_list.insert(ReadDescriptor(resolved_path)); self.global_state = PermissionState::Denied; PermissionState::Denied } } else if state == PermissionState::Granted { self.granted_list.insert(ReadDescriptor(resolved_path)); PermissionState::Granted } else { state } } else { let state = self.query(None); if state == PermissionState::Prompt { if permission_prompt("read access") { self.granted_list.clear(); self.global_state = PermissionState::Granted; PermissionState::Granted } else { self.global_state = PermissionState::Denied; PermissionState::Denied } } else { state } } } pub fn revoke(&mut self, path: Option<&Path>) -> PermissionState { if let Some(path) = path { let path = resolve_from_cwd(path).unwrap(); self .granted_list .retain(|path_| !path.starts_with(&path_.0)); } else { self.granted_list.clear(); } if self.global_state == PermissionState::Granted { self.global_state = PermissionState::Prompt; } self.query(path) } pub fn check(&mut self, path: &Path) -> Result<(), AnyError> { let (resolved_path, display_path) = resolved_and_display_path(path); let (result, prompted) = self.query(Some(&resolved_path)).check( self.name, Some(&format!("\"{}\"", display_path.display())), self.prompt, ); if prompted { if result.is_ok() { self.granted_list.insert(ReadDescriptor(resolved_path)); } else { self.denied_list.insert(ReadDescriptor(resolved_path)); self.global_state = PermissionState::Denied; } } result } /// As `check()`, but permission error messages will anonymize the path /// by replacing it with the given `display`. pub fn check_blind( &mut self, path: &Path, display: &str, ) -> Result<(), AnyError> { let resolved_path = resolve_from_cwd(path).unwrap(); let (result, prompted) = self.query(Some(&resolved_path)).check( self.name, Some(&format!("<{}>", display)), self.prompt, ); if prompted { if result.is_ok() { self.granted_list.insert(ReadDescriptor(resolved_path)); } else { self.denied_list.insert(ReadDescriptor(resolved_path)); self.global_state = PermissionState::Denied; } } result } } impl UnaryPermission { pub fn query(&self, path: Option<&Path>) -> PermissionState { let path = path.map(|p| resolve_from_cwd(p).unwrap()); if self.global_state == PermissionState::Denied && match path.as_ref() { None => true, Some(path) => self .denied_list .iter() .any(|path_| path_.0.starts_with(path)), } { PermissionState::Denied } else if self.global_state == PermissionState::Granted || match path.as_ref() { None => false, Some(path) => self .granted_list .iter() .any(|path_| path.starts_with(&path_.0)), } { PermissionState::Granted } else { PermissionState::Prompt } } pub fn request(&mut self, path: Option<&Path>) -> PermissionState { if let Some(path) = path { let (resolved_path, display_path) = resolved_and_display_path(path); let state = self.query(Some(&resolved_path)); if state == PermissionState::Prompt { if permission_prompt(&format!( "write access to \"{}\"", display_path.display() )) { self.granted_list.insert(WriteDescriptor(resolved_path)); PermissionState::Granted } else { self.denied_list.insert(WriteDescriptor(resolved_path)); self.global_state = PermissionState::Denied; PermissionState::Denied } } else if state == PermissionState::Granted { self.granted_list.insert(WriteDescriptor(resolved_path)); PermissionState::Granted } else { state } } else { let state = self.query(None); if state == PermissionState::Prompt { if permission_prompt("write access") { self.granted_list.clear(); self.global_state = PermissionState::Granted; PermissionState::Granted } else { self.global_state = PermissionState::Denied; PermissionState::Denied } } else { state } } } pub fn revoke(&mut self, path: Option<&Path>) -> PermissionState { if let Some(path) = path { let path = resolve_from_cwd(path).unwrap(); self .granted_list .retain(|path_| !path.starts_with(&path_.0)); } else { self.granted_list.clear(); } if self.global_state == PermissionState::Granted { self.global_state = PermissionState::Prompt; } self.query(path) } pub fn check(&mut self, path: &Path) -> Result<(), AnyError> { let (resolved_path, display_path) = resolved_and_display_path(path); let (result, prompted) = self.query(Some(&resolved_path)).check( self.name, Some(&format!("\"{}\"", display_path.display())), self.prompt, ); if prompted { if result.is_ok() { self.granted_list.insert(WriteDescriptor(resolved_path)); } else { self.denied_list.insert(WriteDescriptor(resolved_path)); self.global_state = PermissionState::Denied; } } result } } impl UnaryPermission { pub fn query>( &self, host: Option<&(T, Option)>, ) -> PermissionState { if self.global_state == PermissionState::Denied && match host.as_ref() { None => true, Some(host) => match host.1 { None => self .denied_list .iter() .any(|host_| host.0.as_ref() == host_.0), Some(_) => self.denied_list.contains(&NetDescriptor::new(host)), }, } { PermissionState::Denied } else if self.global_state == PermissionState::Granted || match host.as_ref() { None => false, Some(host) => { self.granted_list.contains(&NetDescriptor::new(&&( host.0.as_ref().to_string(), None, ))) || self.granted_list.contains(&NetDescriptor::new(host)) } } { PermissionState::Granted } else { PermissionState::Prompt } } pub fn request>( &mut self, host: Option<&(T, Option)>, ) -> PermissionState { if let Some(host) = host { let state = self.query(Some(host)); let host = NetDescriptor::new(&host); if state == PermissionState::Prompt { if permission_prompt(&format!("network access to \"{}\"", host)) { self.granted_list.insert(host); PermissionState::Granted } else { self.denied_list.insert(host); self.global_state = PermissionState::Denied; PermissionState::Denied } } else if state == PermissionState::Granted { self.granted_list.insert(host); PermissionState::Granted } else { state } } else { let state = self.query::<&str>(None); if state == PermissionState::Prompt { if permission_prompt("network access") { self.granted_list.clear(); self.global_state = PermissionState::Granted; PermissionState::Granted } else { self.global_state = PermissionState::Denied; PermissionState::Denied } } else { state } } } pub fn revoke>( &mut self, host: Option<&(T, Option)>, ) -> PermissionState { if let Some(host) = host { if host.1.is_some() { self .granted_list .remove(&NetDescriptor(host.0.as_ref().to_string(), host.1)); } self .granted_list .remove(&NetDescriptor(host.0.as_ref().to_string(), None)); } else { self.granted_list.clear(); } if self.global_state == PermissionState::Granted { self.global_state = PermissionState::Prompt; } self.query(host) } pub fn check>( &mut self, host: &(T, Option), ) -> Result<(), AnyError> { let new_host = NetDescriptor::new(&host); let (result, prompted) = self.query(Some(host)).check( self.name, Some(&format!("\"{}\"", new_host)), self.prompt, ); if prompted { if result.is_ok() { self.granted_list.insert(new_host); } else { self.denied_list.insert(new_host); self.global_state = PermissionState::Denied; } } result } pub fn check_url(&mut self, url: &url::Url) -> Result<(), AnyError> { let hostname = url .host_str() .ok_or_else(|| uri_error("Missing host"))? .to_string(); let display_host = match url.port() { None => hostname.clone(), Some(port) => format!("{}:{}", hostname, port), }; let host = &(&hostname, url.port_or_known_default()); let (result, prompted) = self.query(Some(host)).check( self.name, Some(&format!("\"{}\"", display_host)), self.prompt, ); if prompted { if result.is_ok() { self.granted_list.insert(NetDescriptor::new(&host)); } else { self.denied_list.insert(NetDescriptor::new(&host)); self.global_state = PermissionState::Denied; } } result } } impl UnaryPermission { pub fn query(&self, env: Option<&str>) -> PermissionState { #[cfg(windows)] let env = env.map(|env| env.to_uppercase()); #[cfg(windows)] let env = env.as_deref(); if self.global_state == PermissionState::Denied && match env { None => true, Some(env) => self.denied_list.iter().any(|env_| env_.0 == env), } { PermissionState::Denied } else if self.global_state == PermissionState::Granted || match env { None => false, Some(env) => self.granted_list.iter().any(|env_| env_.0 == env), } { PermissionState::Granted } else { PermissionState::Prompt } } pub fn request(&mut self, env: Option<&str>) -> PermissionState { if let Some(env) = env { let env = if cfg!(windows) { env.to_uppercase() } else { env.to_string() }; let state = self.query(Some(&env)); if state == PermissionState::Prompt { if permission_prompt(&format!("env access to \"{}\"", env)) { self.granted_list.insert(EnvDescriptor(env)); PermissionState::Granted } else { self.denied_list.insert(EnvDescriptor(env)); self.global_state = PermissionState::Denied; PermissionState::Denied } } else if state == PermissionState::Granted { self.granted_list.insert(EnvDescriptor(env)); PermissionState::Granted } else { state } } else { let state = self.query(None); if state == PermissionState::Prompt { if permission_prompt("env access") { self.granted_list.clear(); self.global_state = PermissionState::Granted; PermissionState::Granted } else { self.global_state = PermissionState::Denied; PermissionState::Denied } } else { state } } } pub fn revoke(&mut self, env: Option<&str>) -> PermissionState { if let Some(env) = env { #[cfg(windows)] let env = env.to_uppercase(); self.granted_list.remove(&EnvDescriptor(env.to_string())); } else { self.granted_list.clear(); } if self.global_state == PermissionState::Granted { self.global_state = PermissionState::Prompt; } self.query(env) } pub fn check(&mut self, env: &str) -> Result<(), AnyError> { #[cfg(windows)] let env = &env.to_uppercase(); let (result, prompted) = self.query(Some(env)).check( self.name, Some(&format!("\"{}\"", env)), self.prompt, ); if prompted { if result.is_ok() { self.granted_list.insert(EnvDescriptor(env.to_string())); } else { self.denied_list.insert(EnvDescriptor(env.to_string())); self.global_state = PermissionState::Denied; } } result } pub fn check_all(&mut self) -> Result<(), AnyError> { let (result, prompted) = self.query(None).check(self.name, Some("all"), self.prompt); if prompted { if result.is_ok() { self.global_state = PermissionState::Granted; } else { self.global_state = PermissionState::Denied; } } result } } impl UnaryPermission { pub fn query(&self, cmd: Option<&str>) -> PermissionState { if self.global_state == PermissionState::Denied && match cmd { None => true, Some(cmd) => self.denied_list.iter().any(|cmd_| cmd_.0 == cmd), } { PermissionState::Denied } else if self.global_state == PermissionState::Granted || match cmd { None => false, Some(cmd) => self.granted_list.iter().any(|cmd_| cmd_.0 == cmd), } { PermissionState::Granted } else { PermissionState::Prompt } } pub fn request(&mut self, cmd: Option<&str>) -> PermissionState { if let Some(cmd) = cmd { let state = self.query(Some(cmd)); if state == PermissionState::Prompt { if permission_prompt(&format!("run access to \"{}\"", cmd)) { self.granted_list.insert(RunDescriptor(cmd.to_string())); PermissionState::Granted } else { self.denied_list.insert(RunDescriptor(cmd.to_string())); self.global_state = PermissionState::Denied; PermissionState::Denied } } else if state == PermissionState::Granted { self.granted_list.insert(RunDescriptor(cmd.to_string())); PermissionState::Granted } else { state } } else { let state = self.query(None); if state == PermissionState::Prompt { if permission_prompt("run access") { self.granted_list.clear(); self.global_state = PermissionState::Granted; PermissionState::Granted } else { self.global_state = PermissionState::Denied; PermissionState::Denied } } else { state } } } pub fn revoke(&mut self, cmd: Option<&str>) -> PermissionState { if let Some(cmd) = cmd { self.granted_list.remove(&RunDescriptor(cmd.to_string())); } else { self.granted_list.clear(); } if self.global_state == PermissionState::Granted { self.global_state = PermissionState::Prompt; } self.query(cmd) } pub fn check(&mut self, cmd: &str) -> Result<(), AnyError> { let (result, prompted) = self.query(Some(cmd)).check( self.name, Some(&format!("\"{}\"", cmd)), self.prompt, ); if prompted { if result.is_ok() { self.granted_list.insert(RunDescriptor(cmd.to_string())); } else { self.denied_list.insert(RunDescriptor(cmd.to_string())); self.global_state = PermissionState::Denied; } } result } pub fn check_all(&mut self) -> Result<(), AnyError> { let (result, prompted) = self.query(None).check(self.name, Some("all"), self.prompt); if prompted { if result.is_ok() { self.global_state = PermissionState::Granted; } else { self.global_state = PermissionState::Denied; } } result } } impl UnaryPermission { pub fn query(&self, lib: Option<&str>) -> PermissionState { if self.global_state == PermissionState::Denied && match lib { None => true, Some(lib) => self.denied_list.iter().any(|lib_| lib_.0 == lib), } { PermissionState::Denied } else if self.global_state == PermissionState::Granted || match lib { None => false, Some(lib) => self.granted_list.iter().any(|lib_| lib_.0 == lib), } { PermissionState::Granted } else { PermissionState::Prompt } } pub fn request(&mut self, lib: Option<&str>) -> PermissionState { if let Some(lib) = lib { let state = self.query(Some(lib)); if state == PermissionState::Prompt { if permission_prompt(&format!("ffi access to \"{}\"", lib)) { self.granted_list.insert(FfiDescriptor(lib.to_string())); PermissionState::Granted } else { self.denied_list.insert(FfiDescriptor(lib.to_string())); self.global_state = PermissionState::Denied; PermissionState::Denied } } else if state == PermissionState::Granted { self.granted_list.insert(FfiDescriptor(lib.to_string())); PermissionState::Granted } else { state } } else { let state = self.query(None); if state == PermissionState::Prompt { if permission_prompt("ffi access") { self.granted_list.clear(); self.global_state = PermissionState::Granted; PermissionState::Granted } else { self.global_state = PermissionState::Denied; PermissionState::Denied } } else { state } } } pub fn revoke(&mut self, lib: Option<&str>) -> PermissionState { if let Some(lib) = lib { self.granted_list.remove(&FfiDescriptor(lib.to_string())); } else { self.granted_list.clear(); } if self.global_state == PermissionState::Granted { self.global_state = PermissionState::Prompt; } self.query(lib) } pub fn check(&mut self, lib: &str) -> Result<(), AnyError> { let (result, prompted) = self.query(Some(lib)).check( self.name, Some(&format!("\"{}\"", lib)), self.prompt, ); if prompted { if result.is_ok() { self.granted_list.insert(FfiDescriptor(lib.to_string())); } else { self.denied_list.insert(FfiDescriptor(lib.to_string())); self.global_state = PermissionState::Denied; } } result } pub fn check_all(&mut self) -> Result<(), AnyError> { let (result, prompted) = self.query(None).check(self.name, Some("all"), self.prompt); if prompted { if result.is_ok() { self.global_state = PermissionState::Granted; } else { self.global_state = PermissionState::Denied; } } result } } #[derive(Clone, Debug, Default, PartialEq)] pub struct Permissions { pub read: UnaryPermission, pub write: UnaryPermission, pub net: UnaryPermission, pub env: UnaryPermission, pub run: UnaryPermission, pub ffi: UnaryPermission, pub hrtime: UnitPermission, } #[derive(Clone, Debug, PartialEq, Default, Serialize, Deserialize)] pub struct PermissionsOptions { pub allow_env: Option>, pub allow_hrtime: bool, pub allow_net: Option>, pub allow_ffi: Option>, pub allow_read: Option>, pub allow_run: Option>, pub allow_write: Option>, pub prompt: bool, } impl Permissions { pub fn new_read( state: &Option>, prompt: bool, ) -> UnaryPermission { UnaryPermission:: { name: "read", description: "read the file system", global_state: global_state_from_option(state), granted_list: resolve_read_allowlist(state), denied_list: Default::default(), prompt, } } pub fn new_write( state: &Option>, prompt: bool, ) -> UnaryPermission { UnaryPermission:: { name: "write", description: "write to the file system", global_state: global_state_from_option(state), granted_list: resolve_write_allowlist(state), denied_list: Default::default(), prompt, } } pub fn new_net( state: &Option>, prompt: bool, ) -> UnaryPermission { UnaryPermission:: { name: "net", description: "network", global_state: global_state_from_option(state), granted_list: state .as_ref() .map(|v| { v.iter() .map(|x| NetDescriptor::from_string(x.clone())) .collect() }) .unwrap_or_else(HashSet::new), denied_list: Default::default(), prompt, } } pub fn new_env( state: &Option>, prompt: bool, ) -> UnaryPermission { UnaryPermission:: { name: "env", description: "environment variables", global_state: global_state_from_option(state), granted_list: state .as_ref() .map(|v| { v.iter() .map(|x| { EnvDescriptor(if cfg!(windows) { x.to_uppercase() } else { x.clone() }) }) .collect() }) .unwrap_or_else(HashSet::new), denied_list: Default::default(), prompt, } } pub fn new_run( state: &Option>, prompt: bool, ) -> UnaryPermission { UnaryPermission:: { name: "run", description: "run a subprocess", global_state: global_state_from_option(state), granted_list: state .as_ref() .map(|v| v.iter().map(|x| RunDescriptor(x.clone())).collect()) .unwrap_or_else(HashSet::new), denied_list: Default::default(), prompt, } } pub fn new_ffi( state: &Option>, prompt: bool, ) -> UnaryPermission { UnaryPermission:: { name: "ffi", description: "load a dynamic library", global_state: global_state_from_option(state), granted_list: state .as_ref() .map(|v| v.iter().map(|x| FfiDescriptor(x.clone())).collect()) .unwrap_or_else(HashSet::new), denied_list: Default::default(), prompt, } } pub fn new_hrtime(state: bool, prompt: bool) -> UnitPermission { unit_permission_from_flag_bool( state, "hrtime", "high precision time", prompt, ) } pub fn from_options(opts: &PermissionsOptions) -> Self { Self { read: Permissions::new_read(&opts.allow_read, opts.prompt), write: Permissions::new_write(&opts.allow_write, opts.prompt), net: Permissions::new_net(&opts.allow_net, opts.prompt), env: Permissions::new_env(&opts.allow_env, opts.prompt), run: Permissions::new_run(&opts.allow_run, opts.prompt), ffi: Permissions::new_ffi(&opts.allow_ffi, opts.prompt), hrtime: Permissions::new_hrtime(opts.allow_hrtime, opts.prompt), } } pub fn allow_all() -> Self { Self { read: Permissions::new_read(&Some(vec![]), false), write: Permissions::new_write(&Some(vec![]), false), net: Permissions::new_net(&Some(vec![]), false), env: Permissions::new_env(&Some(vec![]), false), run: Permissions::new_run(&Some(vec![]), false), ffi: Permissions::new_ffi(&Some(vec![]), false), hrtime: Permissions::new_hrtime(true, false), } } /// A helper function that determines if the module specifier is a local or /// remote, and performs a read or net check for the specifier. pub fn check_specifier( &mut self, specifier: &ModuleSpecifier, ) -> Result<(), AnyError> { match specifier.scheme() { "file" => match specifier.to_file_path() { Ok(path) => self.read.check(&path), Err(_) => Err(uri_error(format!( "Invalid file path.\n Specifier: {}", specifier ))), }, "data" => Ok(()), "blob" => Ok(()), _ => self.net.check_url(specifier), } } } impl deno_net::NetPermissions for Permissions { fn check_net>( &mut self, host: &(T, Option), ) -> Result<(), AnyError> { self.net.check(host) } fn check_read(&mut self, path: &Path) -> Result<(), AnyError> { self.read.check(path) } fn check_write(&mut self, path: &Path) -> Result<(), AnyError> { self.write.check(path) } } impl deno_fetch::FetchPermissions for Permissions { fn check_net_url(&mut self, url: &url::Url) -> Result<(), AnyError> { self.net.check_url(url) } fn check_read(&mut self, path: &Path) -> Result<(), AnyError> { self.read.check(path) } } impl deno_timers::TimersPermission for Permissions { fn allow_hrtime(&mut self) -> bool { self.hrtime.check().is_ok() } fn check_unstable(&self, state: &OpState, api_name: &'static str) { crate::ops::check_unstable(state, api_name); } } impl deno_websocket::WebSocketPermissions for Permissions { fn check_net_url(&mut self, url: &url::Url) -> Result<(), AnyError> { self.net.check_url(url) } } impl deno_ffi::FfiPermissions for Permissions { fn check(&mut self, path: &str) -> Result<(), AnyError> { self.ffi.check(path) } } fn unit_permission_from_flag_bool( flag: bool, name: &'static str, description: &'static str, prompt: bool, ) -> UnitPermission { UnitPermission { name, description, state: if flag { PermissionState::Granted } else { PermissionState::Prompt }, prompt, } } fn global_state_from_option(flag: &Option>) -> PermissionState { if matches!(flag, Some(v) if v.is_empty()) { PermissionState::Granted } else { PermissionState::Prompt } } pub fn resolve_read_allowlist( allow: &Option>, ) -> HashSet { if let Some(v) = allow { v.iter() .map(|raw_path| { ReadDescriptor(resolve_from_cwd(Path::new(&raw_path)).unwrap()) }) .collect() } else { HashSet::new() } } pub fn resolve_write_allowlist( allow: &Option>, ) -> HashSet { if let Some(v) = allow { v.iter() .map(|raw_path| { WriteDescriptor(resolve_from_cwd(Path::new(&raw_path)).unwrap()) }) .collect() } else { HashSet::new() } } /// Arbitrary helper. Resolves the path from CWD, and also gets a path that /// can be displayed without leaking the CWD when not allowed. fn resolved_and_display_path(path: &Path) -> (PathBuf, PathBuf) { let resolved_path = resolve_from_cwd(path).unwrap(); let display_path = path.to_path_buf(); (resolved_path, display_path) } /// Shows the permission prompt and returns the answer according to the user input. /// This loops until the user gives the proper input. #[cfg(not(test))] fn permission_prompt(message: &str) -> bool { if !atty::is(atty::Stream::Stdin) || !atty::is(atty::Stream::Stderr) { return false; }; #[cfg(unix)] fn clear_stdin() { let r = unsafe { libc::tcflush(0, libc::TCIFLUSH) }; assert_eq!(r, 0); } #[cfg(not(unix))] fn clear_stdin() { use winapi::shared::minwindef::TRUE; use winapi::shared::minwindef::UINT; use winapi::shared::minwindef::WORD; use winapi::shared::ntdef::WCHAR; use winapi::um::processenv::GetStdHandle; use winapi::um::winbase::STD_INPUT_HANDLE; use winapi::um::wincon::FlushConsoleInputBuffer; use winapi::um::wincon::PeekConsoleInputW; use winapi::um::wincon::WriteConsoleInputW; use winapi::um::wincontypes::INPUT_RECORD; use winapi::um::wincontypes::KEY_EVENT; use winapi::um::winnt::HANDLE; use winapi::um::winuser::MapVirtualKeyW; use winapi::um::winuser::MAPVK_VK_TO_VSC; use winapi::um::winuser::VK_RETURN; unsafe { let stdin = GetStdHandle(STD_INPUT_HANDLE); // emulate an enter key press to clear any line buffered console characters emulate_enter_key_press(stdin); // read the buffered line or enter key press read_stdin_line(); // check if our emulated key press was executed if is_input_buffer_empty(stdin) { // if so, move the cursor up to prevent a blank line move_cursor_up(); } else { // the emulated key press is still pending, so a buffered line was read // and we can flush the emulated key press flush_input_buffer(stdin); } } unsafe fn flush_input_buffer(stdin: HANDLE) { let success = FlushConsoleInputBuffer(stdin); if success != TRUE { panic!( "Error flushing console input buffer: {}", std::io::Error::last_os_error().to_string() ) } } unsafe fn emulate_enter_key_press(stdin: HANDLE) { // https://github.com/libuv/libuv/blob/a39009a5a9252a566ca0704d02df8dabc4ce328f/src/win/tty.c#L1121-L1131 let mut input_record: INPUT_RECORD = std::mem::zeroed(); input_record.EventType = KEY_EVENT; input_record.Event.KeyEvent_mut().bKeyDown = TRUE; input_record.Event.KeyEvent_mut().wRepeatCount = 1; input_record.Event.KeyEvent_mut().wVirtualKeyCode = VK_RETURN as WORD; input_record.Event.KeyEvent_mut().wVirtualScanCode = MapVirtualKeyW(VK_RETURN as UINT, MAPVK_VK_TO_VSC) as WORD; *input_record.Event.KeyEvent_mut().uChar.UnicodeChar_mut() = '\r' as WCHAR; let mut record_written = 0; let success = WriteConsoleInputW(stdin, &input_record, 1, &mut record_written); if success != TRUE { panic!( "Error emulating enter key press: {}", std::io::Error::last_os_error().to_string() ) } } unsafe fn is_input_buffer_empty(stdin: HANDLE) -> bool { let mut buffer = Vec::with_capacity(1); let mut events_read = 0; let success = PeekConsoleInputW(stdin, buffer.as_mut_ptr(), 1, &mut events_read); if success != TRUE { panic!( "Error peeking console input buffer: {}", std::io::Error::last_os_error().to_string() ) } events_read == 0 } fn move_cursor_up() { use std::io::Write; write!(std::io::stderr(), "\x1B[1A").expect("expected to move cursor up"); } fn read_stdin_line() { let mut input = String::new(); let stdin = std::io::stdin(); stdin.read_line(&mut input).expect("expected to read line"); } } // For security reasons we must consume everything in stdin so that previously // buffered data cannot effect the prompt. clear_stdin(); let opts = "[y/n (y = yes allow, n = no deny)] "; let msg = format!( "{} ️Deno requests {}. Allow? {}", PERMISSION_EMOJI, message, opts ); // print to stderr so that if deno is > to a file this is still displayed. eprint!("{}", colors::bold(&msg)); loop { let mut input = String::new(); let stdin = std::io::stdin(); let result = stdin.read_line(&mut input); if result.is_err() { return false; }; let ch = match input.chars().next() { None => return false, Some(v) => v, }; match ch.to_ascii_lowercase() { 'y' => return true, 'n' => return false, _ => { // If we don't get a recognized option try again. let msg_again = format!("Unrecognized option '{}' {}", ch, opts); eprint!("{}", colors::bold(&msg_again)); } }; } } // When testing, permission prompt returns the value of STUB_PROMPT_VALUE // which we set from the test functions. #[cfg(test)] fn permission_prompt(_message: &str) -> bool { STUB_PROMPT_VALUE.load(Ordering::SeqCst) } #[cfg(test)] lazy_static::lazy_static! { /// Lock this when you use `set_prompt_result` in a test case. static ref PERMISSION_PROMPT_GUARD: Mutex<()> = Mutex::new(()); } #[cfg(test)] static STUB_PROMPT_VALUE: AtomicBool = AtomicBool::new(true); #[cfg(test)] fn set_prompt_result(value: bool) { STUB_PROMPT_VALUE.store(value, Ordering::SeqCst); } #[cfg(test)] mod tests { use super::*; use deno_core::resolve_url_or_path; // Creates vector of strings, Vec macro_rules! svec { ($($x:expr),*) => (vec![$($x.to_string()),*]); } #[test] fn check_paths() { let allowlist = vec![ PathBuf::from("/a/specific/dir/name"), PathBuf::from("/a/specific"), PathBuf::from("/b/c"), ]; let mut perms = Permissions::from_options(&PermissionsOptions { allow_read: Some(allowlist.clone()), allow_write: Some(allowlist), ..Default::default() }); // Inside of /a/specific and /a/specific/dir/name assert!(perms.read.check(Path::new("/a/specific/dir/name")).is_ok()); assert!(perms.write.check(Path::new("/a/specific/dir/name")).is_ok()); // Inside of /a/specific but outside of /a/specific/dir/name assert!(perms.read.check(Path::new("/a/specific/dir")).is_ok()); assert!(perms.write.check(Path::new("/a/specific/dir")).is_ok()); // Inside of /a/specific and /a/specific/dir/name assert!(perms .read .check(Path::new("/a/specific/dir/name/inner")) .is_ok()); assert!(perms .write .check(Path::new("/a/specific/dir/name/inner")) .is_ok()); // Inside of /a/specific but outside of /a/specific/dir/name assert!(perms.read.check(Path::new("/a/specific/other/dir")).is_ok()); assert!(perms .write .check(Path::new("/a/specific/other/dir")) .is_ok()); // Exact match with /b/c assert!(perms.read.check(Path::new("/b/c")).is_ok()); assert!(perms.write.check(Path::new("/b/c")).is_ok()); // Sub path within /b/c assert!(perms.read.check(Path::new("/b/c/sub/path")).is_ok()); assert!(perms.write.check(Path::new("/b/c/sub/path")).is_ok()); // Sub path within /b/c, needs normalizing assert!(perms .read .check(Path::new("/b/c/sub/path/../path/.")) .is_ok()); assert!(perms .write .check(Path::new("/b/c/sub/path/../path/.")) .is_ok()); // Inside of /b but outside of /b/c assert!(perms.read.check(Path::new("/b/e")).is_err()); assert!(perms.write.check(Path::new("/b/e")).is_err()); // Inside of /a but outside of /a/specific assert!(perms.read.check(Path::new("/a/b")).is_err()); assert!(perms.write.check(Path::new("/a/b")).is_err()); } #[test] fn test_check_net_with_values() { let mut perms = Permissions::from_options(&PermissionsOptions { allow_net: Some(svec![ "localhost", "deno.land", "github.com:3000", "127.0.0.1", "172.16.0.2:8000", "www.github.com:443" ]), ..Default::default() }); let domain_tests = vec![ ("localhost", 1234, true), ("deno.land", 0, true), ("deno.land", 3000, true), ("deno.lands", 0, false), ("deno.lands", 3000, false), ("github.com", 3000, true), ("github.com", 0, false), ("github.com", 2000, false), ("github.net", 3000, false), ("127.0.0.1", 0, true), ("127.0.0.1", 3000, true), ("127.0.0.2", 0, false), ("127.0.0.2", 3000, false), ("172.16.0.2", 8000, true), ("172.16.0.2", 0, false), ("172.16.0.2", 6000, false), ("172.16.0.1", 8000, false), // Just some random hosts that should err ("somedomain", 0, false), ("192.168.0.1", 0, false), ]; for (host, port, is_ok) in domain_tests { assert_eq!(is_ok, perms.net.check(&(host, Some(port))).is_ok()); } } #[test] fn test_check_net_only_flag() { let mut perms = Permissions::from_options(&PermissionsOptions { allow_net: Some(svec![]), // this means `--allow-net` is present without values following `=` sign ..Default::default() }); let domain_tests = vec![ ("localhost", 1234), ("deno.land", 0), ("deno.land", 3000), ("deno.lands", 0), ("deno.lands", 3000), ("github.com", 3000), ("github.com", 0), ("github.com", 2000), ("github.net", 3000), ("127.0.0.1", 0), ("127.0.0.1", 3000), ("127.0.0.2", 0), ("127.0.0.2", 3000), ("172.16.0.2", 8000), ("172.16.0.2", 0), ("172.16.0.2", 6000), ("172.16.0.1", 8000), ("somedomain", 0), ("192.168.0.1", 0), ]; for (host, port) in domain_tests { assert!(perms.net.check(&(host, Some(port))).is_ok()); } } #[test] fn test_check_net_no_flag() { let mut perms = Permissions::from_options(&PermissionsOptions { allow_net: None, ..Default::default() }); let domain_tests = vec![ ("localhost", 1234), ("deno.land", 0), ("deno.land", 3000), ("deno.lands", 0), ("deno.lands", 3000), ("github.com", 3000), ("github.com", 0), ("github.com", 2000), ("github.net", 3000), ("127.0.0.1", 0), ("127.0.0.1", 3000), ("127.0.0.2", 0), ("127.0.0.2", 3000), ("172.16.0.2", 8000), ("172.16.0.2", 0), ("172.16.0.2", 6000), ("172.16.0.1", 8000), ("somedomain", 0), ("192.168.0.1", 0), ]; for (host, port) in domain_tests { assert!(!perms.net.check(&(host, Some(port))).is_ok()); } } #[test] fn test_check_net_url() { let mut perms = Permissions::from_options(&PermissionsOptions { allow_net: Some(svec![ "localhost", "deno.land", "github.com:3000", "127.0.0.1", "172.16.0.2:8000", "www.github.com:443" ]), ..Default::default() }); let url_tests = vec![ // Any protocol + port for localhost should be ok, since we don't specify ("http://localhost", true), ("https://localhost", true), ("https://localhost:4443", true), ("tcp://localhost:5000", true), ("udp://localhost:6000", true), // Correct domain + any port and protocol should be ok incorrect shouldn't ("https://deno.land/std/example/welcome.ts", true), ("https://deno.land:3000/std/example/welcome.ts", true), ("https://deno.lands/std/example/welcome.ts", false), ("https://deno.lands:3000/std/example/welcome.ts", false), // Correct domain + port should be ok all other combinations should err ("https://github.com:3000/denoland/deno", true), ("https://github.com/denoland/deno", false), ("https://github.com:2000/denoland/deno", false), ("https://github.net:3000/denoland/deno", false), // Correct ipv4 address + any port should be ok others should err ("tcp://127.0.0.1", true), ("https://127.0.0.1", true), ("tcp://127.0.0.1:3000", true), ("https://127.0.0.1:3000", true), ("tcp://127.0.0.2", false), ("https://127.0.0.2", false), ("tcp://127.0.0.2:3000", false), ("https://127.0.0.2:3000", false), // Correct address + port should be ok all other combinations should err ("tcp://172.16.0.2:8000", true), ("https://172.16.0.2:8000", true), ("tcp://172.16.0.2", false), ("https://172.16.0.2", false), ("tcp://172.16.0.2:6000", false), ("https://172.16.0.2:6000", false), ("tcp://172.16.0.1:8000", false), ("https://172.16.0.1:8000", false), // Testing issue #6531 (Network permissions check doesn't account for well-known default ports) so we dont regress ("https://www.github.com:443/robots.txt", true), ]; for (url_str, is_ok) in url_tests { let u = url::Url::parse(url_str).unwrap(); assert_eq!(is_ok, perms.net.check_url(&u).is_ok()); } } #[test] fn check_specifiers() { let read_allowlist = if cfg!(target_os = "windows") { vec![PathBuf::from("C:\\a")] } else { vec![PathBuf::from("/a")] }; let mut perms = Permissions::from_options(&PermissionsOptions { allow_read: Some(read_allowlist), allow_net: Some(svec!["localhost"]), ..Default::default() }); let mut fixtures = vec![ ( resolve_url_or_path("http://localhost:4545/mod.ts").unwrap(), true, ), ( resolve_url_or_path("http://deno.land/x/mod.ts").unwrap(), false, ), ( resolve_url_or_path("data:text/plain,Hello%2C%20Deno!").unwrap(), true, ), ]; if cfg!(target_os = "windows") { fixtures .push((resolve_url_or_path("file:///C:/a/mod.ts").unwrap(), true)); fixtures .push((resolve_url_or_path("file:///C:/b/mod.ts").unwrap(), false)); } else { fixtures.push((resolve_url_or_path("file:///a/mod.ts").unwrap(), true)); fixtures.push((resolve_url_or_path("file:///b/mod.ts").unwrap(), false)); } for (specifier, expected) in fixtures { assert_eq!(perms.check_specifier(&specifier).is_ok(), expected); } } #[test] fn check_invalid_specifiers() { let mut perms = Permissions::allow_all(); let mut test_cases = vec![]; if cfg!(target_os = "windows") { test_cases.push("file://"); test_cases.push("file:///"); } else { test_cases.push("file://remotehost/"); } for url in test_cases { assert!(perms .check_specifier(&resolve_url_or_path(url).unwrap()) .is_err()); } } #[test] fn test_query() { let perms1 = Permissions::allow_all(); let perms2 = Permissions { read: UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_read(&Some(vec![PathBuf::from("/foo")]), false) }, write: UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_write(&Some(vec![PathBuf::from("/foo")]), false) }, net: UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_net(&Some(svec!["127.0.0.1:8000"]), false) }, env: UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_env(&Some(svec!["HOME"]), false) }, run: UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_run(&Some(svec!["deno"]), false) }, ffi: UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_ffi(&Some(svec!["deno"]), false) }, hrtime: UnitPermission { state: PermissionState::Prompt, ..Default::default() }, }; #[rustfmt::skip] { assert_eq!(perms1.read.query(None), PermissionState::Granted); assert_eq!(perms1.read.query(Some(Path::new("/foo"))), PermissionState::Granted); assert_eq!(perms2.read.query(None), PermissionState::Prompt); assert_eq!(perms2.read.query(Some(Path::new("/foo"))), PermissionState::Granted); assert_eq!(perms2.read.query(Some(Path::new("/foo/bar"))), PermissionState::Granted); assert_eq!(perms1.write.query(None), PermissionState::Granted); assert_eq!(perms1.write.query(Some(Path::new("/foo"))), PermissionState::Granted); assert_eq!(perms2.write.query(None), PermissionState::Prompt); assert_eq!(perms2.write.query(Some(Path::new("/foo"))), PermissionState::Granted); assert_eq!(perms2.write.query(Some(Path::new("/foo/bar"))), PermissionState::Granted); assert_eq!(perms1.net.query::<&str>(None), PermissionState::Granted); assert_eq!(perms1.net.query(Some(&("127.0.0.1", None))), PermissionState::Granted); assert_eq!(perms2.net.query::<&str>(None), PermissionState::Prompt); assert_eq!(perms2.net.query(Some(&("127.0.0.1", Some(8000)))), PermissionState::Granted); assert_eq!(perms1.env.query(None), PermissionState::Granted); assert_eq!(perms1.env.query(Some(&"HOME".to_string())), PermissionState::Granted); assert_eq!(perms2.env.query(None), PermissionState::Prompt); assert_eq!(perms2.env.query(Some(&"HOME".to_string())), PermissionState::Granted); assert_eq!(perms1.run.query(None), PermissionState::Granted); assert_eq!(perms1.run.query(Some(&"deno".to_string())), PermissionState::Granted); assert_eq!(perms2.run.query(None), PermissionState::Prompt); assert_eq!(perms2.run.query(Some(&"deno".to_string())), PermissionState::Granted); assert_eq!(perms1.ffi.query(None), PermissionState::Granted); assert_eq!(perms1.ffi.query(Some(&"deno".to_string())), PermissionState::Granted); assert_eq!(perms2.ffi.query(None), PermissionState::Prompt); assert_eq!(perms2.ffi.query(Some(&"deno".to_string())), PermissionState::Granted); assert_eq!(perms1.hrtime.query(), PermissionState::Granted); assert_eq!(perms2.hrtime.query(), PermissionState::Prompt); }; } #[test] fn test_request() { let mut perms: Permissions = Default::default(); #[rustfmt::skip] { let _guard = PERMISSION_PROMPT_GUARD.lock(); set_prompt_result(true); assert_eq!(perms.read.request(Some(Path::new("/foo"))), PermissionState::Granted); assert_eq!(perms.read.query(None), PermissionState::Prompt); set_prompt_result(false); assert_eq!(perms.read.request(Some(Path::new("/foo/bar"))), PermissionState::Granted); set_prompt_result(false); assert_eq!(perms.write.request(Some(Path::new("/foo"))), PermissionState::Denied); assert_eq!(perms.write.query(Some(Path::new("/foo/bar"))), PermissionState::Prompt); set_prompt_result(true); assert_eq!(perms.write.request(None), PermissionState::Denied); set_prompt_result(true); assert_eq!(perms.net.request(Some(&("127.0.0.1", None))), PermissionState::Granted); set_prompt_result(false); assert_eq!(perms.net.request(Some(&("127.0.0.1", Some(8000)))), PermissionState::Granted); set_prompt_result(true); assert_eq!(perms.env.request(Some(&"HOME".to_string())), PermissionState::Granted); assert_eq!(perms.env.query(None), PermissionState::Prompt); set_prompt_result(false); assert_eq!(perms.env.request(Some(&"HOME".to_string())), PermissionState::Granted); set_prompt_result(true); assert_eq!(perms.run.request(Some(&"deno".to_string())), PermissionState::Granted); assert_eq!(perms.run.query(None), PermissionState::Prompt); set_prompt_result(false); assert_eq!(perms.run.request(Some(&"deno".to_string())), PermissionState::Granted); set_prompt_result(true); assert_eq!(perms.ffi.request(Some(&"deno".to_string())), PermissionState::Granted); assert_eq!(perms.ffi.query(None), PermissionState::Prompt); set_prompt_result(false); assert_eq!(perms.ffi.request(Some(&"deno".to_string())), PermissionState::Granted); set_prompt_result(false); assert_eq!(perms.hrtime.request(), PermissionState::Denied); set_prompt_result(true); assert_eq!(perms.hrtime.request(), PermissionState::Denied); }; } #[test] fn test_revoke() { let mut perms = Permissions { read: UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_read( &Some(vec![PathBuf::from("/foo"), PathBuf::from("/foo/baz")]), false, ) }, write: UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_write( &Some(vec![PathBuf::from("/foo"), PathBuf::from("/foo/baz")]), false, ) }, net: UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_net( &Some(svec!["127.0.0.1", "127.0.0.1:8000"]), false, ) }, env: UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_env(&Some(svec!["HOME"]), false) }, run: UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_run(&Some(svec!["deno"]), false) }, ffi: UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_ffi(&Some(svec!["deno"]), false) }, hrtime: UnitPermission { state: PermissionState::Denied, ..Default::default() }, }; #[rustfmt::skip] { assert_eq!(perms.read.revoke(Some(Path::new("/foo/bar"))), PermissionState::Prompt); assert_eq!(perms.read.query(Some(Path::new("/foo"))), PermissionState::Prompt); assert_eq!(perms.read.query(Some(Path::new("/foo/baz"))), PermissionState::Granted); assert_eq!(perms.write.revoke(Some(Path::new("/foo/bar"))), PermissionState::Prompt); assert_eq!(perms.write.query(Some(Path::new("/foo"))), PermissionState::Prompt); assert_eq!(perms.write.query(Some(Path::new("/foo/baz"))), PermissionState::Granted); assert_eq!(perms.net.revoke(Some(&("127.0.0.1", Some(9000)))), PermissionState::Prompt); assert_eq!(perms.net.query(Some(&("127.0.0.1", None))), PermissionState::Prompt); assert_eq!(perms.net.query(Some(&("127.0.0.1", Some(8000)))), PermissionState::Granted); assert_eq!(perms.env.revoke(Some(&"HOME".to_string())), PermissionState::Prompt); assert_eq!(perms.run.revoke(Some(&"deno".to_string())), PermissionState::Prompt); assert_eq!(perms.ffi.revoke(Some(&"deno".to_string())), PermissionState::Prompt); assert_eq!(perms.hrtime.revoke(), PermissionState::Denied); }; } #[test] fn test_check() { let mut perms = Permissions { read: Permissions::new_read(&None, true), write: Permissions::new_write(&None, true), net: Permissions::new_net(&None, true), env: Permissions::new_env(&None, true), run: Permissions::new_run(&None, true), ffi: Permissions::new_ffi(&None, true), hrtime: Permissions::new_hrtime(false, true), }; let _guard = PERMISSION_PROMPT_GUARD.lock(); set_prompt_result(true); assert!(perms.read.check(Path::new("/foo")).is_ok()); set_prompt_result(false); assert!(perms.read.check(Path::new("/foo")).is_ok()); assert!(perms.read.check(Path::new("/bar")).is_err()); set_prompt_result(true); assert!(perms.write.check(Path::new("/foo")).is_ok()); set_prompt_result(false); assert!(perms.write.check(Path::new("/foo")).is_ok()); assert!(perms.write.check(Path::new("/bar")).is_err()); set_prompt_result(true); assert!(perms.net.check(&("127.0.0.1", Some(8000))).is_ok()); set_prompt_result(false); assert!(perms.net.check(&("127.0.0.1", Some(8000))).is_ok()); assert!(perms.net.check(&("127.0.0.1", Some(8001))).is_err()); assert!(perms.net.check(&("127.0.0.1", None)).is_err()); assert!(perms.net.check(&("deno.land", Some(8000))).is_err()); assert!(perms.net.check(&("deno.land", None)).is_err()); set_prompt_result(true); assert!(perms.run.check("cat").is_ok()); set_prompt_result(false); assert!(perms.run.check("cat").is_ok()); assert!(perms.run.check("ls").is_err()); set_prompt_result(true); assert!(perms.env.check("HOME").is_ok()); set_prompt_result(false); assert!(perms.env.check("HOME").is_ok()); assert!(perms.env.check("PATH").is_err()); set_prompt_result(true); assert!(perms.hrtime.check().is_ok()); set_prompt_result(false); assert!(perms.hrtime.check().is_ok()); } #[test] fn test_check_fail() { let mut perms = Permissions { read: Permissions::new_read(&None, true), write: Permissions::new_write(&None, true), net: Permissions::new_net(&None, true), env: Permissions::new_env(&None, true), run: Permissions::new_run(&None, true), ffi: Permissions::new_ffi(&None, true), hrtime: Permissions::new_hrtime(false, true), }; let _guard = PERMISSION_PROMPT_GUARD.lock(); set_prompt_result(false); assert!(perms.read.check(Path::new("/foo")).is_err()); set_prompt_result(true); assert!(perms.read.check(Path::new("/foo")).is_err()); assert!(perms.read.check(Path::new("/bar")).is_ok()); set_prompt_result(false); assert!(perms.read.check(Path::new("/bar")).is_ok()); set_prompt_result(false); assert!(perms.write.check(Path::new("/foo")).is_err()); set_prompt_result(true); assert!(perms.write.check(Path::new("/foo")).is_err()); assert!(perms.write.check(Path::new("/bar")).is_ok()); set_prompt_result(false); assert!(perms.write.check(Path::new("/bar")).is_ok()); set_prompt_result(false); assert!(perms.net.check(&("127.0.0.1", Some(8000))).is_err()); set_prompt_result(true); assert!(perms.net.check(&("127.0.0.1", Some(8000))).is_err()); assert!(perms.net.check(&("127.0.0.1", Some(8001))).is_ok()); assert!(perms.net.check(&("deno.land", Some(8000))).is_ok()); set_prompt_result(false); assert!(perms.net.check(&("127.0.0.1", Some(8001))).is_ok()); assert!(perms.net.check(&("deno.land", Some(8000))).is_ok()); set_prompt_result(false); assert!(perms.run.check("cat").is_err()); set_prompt_result(true); assert!(perms.run.check("cat").is_err()); assert!(perms.run.check("ls").is_ok()); set_prompt_result(false); assert!(perms.run.check("ls").is_ok()); set_prompt_result(false); assert!(perms.env.check("HOME").is_err()); set_prompt_result(true); assert!(perms.env.check("HOME").is_err()); assert!(perms.env.check("PATH").is_ok()); set_prompt_result(false); assert!(perms.env.check("PATH").is_ok()); set_prompt_result(false); assert!(perms.hrtime.check().is_err()); set_prompt_result(true); assert!(perms.hrtime.check().is_err()); } #[test] #[cfg(windows)] fn test_env_windows() { let mut perms = Permissions::allow_all(); perms.env = UnaryPermission { global_state: PermissionState::Prompt, ..Permissions::new_env(&Some(svec!["HOME"]), false) }; set_prompt_result(true); assert!(perms.env.check("HOME").is_ok()); set_prompt_result(false); assert!(perms.env.check("HOME").is_ok()); assert!(perms.env.check("hOmE").is_ok()); assert_eq!( perms.env.revoke(Some(&"HomE".to_string())), PermissionState::Prompt ); } }