// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license. use ansi_term::Style; use atty; use crate::deno_error::permission_denied; use crate::flags::DenoFlags; use deno::ErrBox; use log; use std::collections::HashSet; use std::fmt; use std::io; use std::path::PathBuf; use std::sync::atomic::{AtomicBool, AtomicUsize, Ordering}; use std::sync::Arc; const PERMISSION_EMOJI: &str = "⚠️"; /// Tri-state value for storing permission state pub enum PermissionAccessorState { Allow = 0, Ask = 1, Deny = 2, } impl From for PermissionAccessorState { fn from(val: usize) -> Self { match val { 0 => PermissionAccessorState::Allow, 1 => PermissionAccessorState::Ask, 2 => PermissionAccessorState::Deny, _ => unreachable!(), } } } impl From for PermissionAccessorState { fn from(val: bool) -> Self { if val { PermissionAccessorState::Allow } else { PermissionAccessorState::Ask } } } impl fmt::Display for PermissionAccessorState { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { PermissionAccessorState::Allow => f.pad("Allow"), PermissionAccessorState::Ask => f.pad("Ask"), PermissionAccessorState::Deny => f.pad("Deny"), } } } #[derive(Debug)] pub struct PermissionAccessor { state: Arc, } impl PermissionAccessor { pub fn new(state: PermissionAccessorState) -> Self { Self { state: Arc::new(AtomicUsize::new(state as usize)), } } pub fn is_allow(&self) -> bool { match self.get_state() { PermissionAccessorState::Allow => true, _ => false, } } /// If the state is "Allow" walk it back to the default "Ask" /// Don't do anything if state is "Deny" pub fn revoke(&self) { if self.is_allow() { self.ask(); } } pub fn allow(&self) { self.set_state(PermissionAccessorState::Allow) } pub fn ask(&self) { self.set_state(PermissionAccessorState::Ask) } pub fn deny(&self) { self.set_state(PermissionAccessorState::Deny) } /// Update this accessors state based on a PromptResult value /// This will only update the state if the PromptResult value /// is one of the "Always" values pub fn update_with_prompt_result(&self, prompt_result: &PromptResult) { match prompt_result { PromptResult::AllowAlways => self.allow(), PromptResult::DenyAlways => self.deny(), _ => {} } } #[inline] pub fn get_state(&self) -> PermissionAccessorState { self.state.load(Ordering::SeqCst).into() } fn set_state(&self, state: PermissionAccessorState) { self.state.store(state as usize, Ordering::SeqCst) } } impl From for PermissionAccessor { fn from(val: bool) -> Self { Self::new(PermissionAccessorState::from(val)) } } impl Default for PermissionAccessor { fn default() -> Self { Self { state: Arc::new(AtomicUsize::new(PermissionAccessorState::Ask as usize)), } } } #[derive(Debug, Default)] pub struct DenoPermissions { // Keep in sync with src/permissions.ts pub allow_read: PermissionAccessor, pub read_whitelist: Arc>, pub allow_write: PermissionAccessor, pub write_whitelist: Arc>, pub allow_net: PermissionAccessor, pub net_whitelist: Arc>, pub allow_env: PermissionAccessor, pub allow_run: PermissionAccessor, pub allow_hrtime: PermissionAccessor, pub no_prompts: AtomicBool, } impl DenoPermissions { pub fn from_flags(flags: &DenoFlags) -> Self { Self { allow_read: PermissionAccessor::from(flags.allow_read), read_whitelist: Arc::new(flags.read_whitelist.iter().cloned().collect()), allow_write: PermissionAccessor::from(flags.allow_write), write_whitelist: Arc::new( flags.write_whitelist.iter().cloned().collect(), ), allow_net: PermissionAccessor::from(flags.allow_net), net_whitelist: Arc::new(flags.net_whitelist.iter().cloned().collect()), allow_env: PermissionAccessor::from(flags.allow_env), allow_run: PermissionAccessor::from(flags.allow_run), allow_hrtime: PermissionAccessor::from(flags.allow_hrtime), no_prompts: AtomicBool::new(flags.no_prompts), } } pub fn check_run(&self) -> Result<(), ErrBox> { let msg = "access to run a subprocess"; match self.allow_run.get_state() { PermissionAccessorState::Allow => { self.log_perm_access(msg); Ok(()) } PermissionAccessorState::Ask => match self.try_permissions_prompt(msg) { Err(e) => Err(e), Ok(v) => { self.allow_run.update_with_prompt_result(&v); v.check()?; self.log_perm_access(msg); Ok(()) } }, PermissionAccessorState::Deny => Err(permission_denied()), } } pub fn check_read(&self, filename: &str) -> Result<(), ErrBox> { let msg = &format!("read access to \"{}\"", filename); match self.allow_read.get_state() { PermissionAccessorState::Allow => { self.log_perm_access(msg); Ok(()) } state => { if check_path_white_list(filename, &self.read_whitelist) { self.log_perm_access(msg); Ok(()) } else { match state { PermissionAccessorState::Ask => { match self.try_permissions_prompt(msg) { Err(e) => Err(e), Ok(v) => { self.allow_read.update_with_prompt_result(&v); v.check()?; self.log_perm_access(msg); Ok(()) } } } PermissionAccessorState::Deny => Err(permission_denied()), _ => unreachable!(), } } } } } pub fn check_write(&self, filename: &str) -> Result<(), ErrBox> { let msg = &format!("write access to \"{}\"", filename); match self.allow_write.get_state() { PermissionAccessorState::Allow => { self.log_perm_access(msg); Ok(()) } state => { if check_path_white_list(filename, &self.write_whitelist) { self.log_perm_access(msg); Ok(()) } else { match state { PermissionAccessorState::Ask => { match self.try_permissions_prompt(msg) { Err(e) => Err(e), Ok(v) => { self.allow_write.update_with_prompt_result(&v); v.check()?; self.log_perm_access(msg); Ok(()) } } } PermissionAccessorState::Deny => Err(permission_denied()), _ => unreachable!(), } } } } } pub fn check_net(&self, host_and_port: &str) -> Result<(), ErrBox> { let msg = &format!("network access to \"{}\"", host_and_port); match self.allow_net.get_state() { PermissionAccessorState::Allow => { self.log_perm_access(msg); Ok(()) } state => { let parts = host_and_port.split(':').collect::>(); if match parts.len() { 2 => { if self.net_whitelist.contains(parts[0]) { true } else { self .net_whitelist .contains(&format!("{}:{}", parts[0], parts[1])) } } 1 => self.net_whitelist.contains(parts[0]), _ => panic!("Failed to parse origin string: {}", host_and_port), } { self.log_perm_access(msg); Ok(()) } else { self.check_net_inner(state, msg) } } } } pub fn check_net_url(&self, url: url::Url) -> Result<(), ErrBox> { let msg = &format!("network access to \"{}\"", url); match self.allow_net.get_state() { PermissionAccessorState::Allow => { self.log_perm_access(msg); Ok(()) } state => { let host = url.host().unwrap(); let whitelist_result = { if self.net_whitelist.contains(&format!("{}", host)) { true } else { match url.port() { Some(port) => { self.net_whitelist.contains(&format!("{}:{}", host, port)) } None => false, } } }; if whitelist_result { self.log_perm_access(msg); Ok(()) } else { self.check_net_inner(state, msg) } } } } fn check_net_inner( &self, state: PermissionAccessorState, prompt_str: &str, ) -> Result<(), ErrBox> { match state { PermissionAccessorState::Ask => { match self.try_permissions_prompt(prompt_str) { Err(e) => Err(e), Ok(v) => { self.allow_net.update_with_prompt_result(&v); v.check()?; self.log_perm_access(prompt_str); Ok(()) } } } PermissionAccessorState::Deny => Err(permission_denied()), _ => unreachable!(), } } pub fn check_env(&self) -> Result<(), ErrBox> { let msg = "access to environment variables"; match self.allow_env.get_state() { PermissionAccessorState::Allow => { self.log_perm_access(msg); Ok(()) } PermissionAccessorState::Ask => match self.try_permissions_prompt(msg) { Err(e) => Err(e), Ok(v) => { self.allow_env.update_with_prompt_result(&v); v.check()?; self.log_perm_access(msg); Ok(()) } }, PermissionAccessorState::Deny => Err(permission_denied()), } } /// Try to present the user with a permission prompt /// will error with permission_denied if no_prompts is enabled fn try_permissions_prompt( &self, message: &str, ) -> Result { if self.no_prompts.load(Ordering::SeqCst) { return Err(permission_denied()); } if !atty::is(atty::Stream::Stdin) || !atty::is(atty::Stream::Stderr) { return Err(permission_denied()); }; permission_prompt(message) } fn log_perm_access(&self, message: &str) { if log_enabled!(log::Level::Info) { eprintln!( "{}", Style::new() .bold() .paint(format!("{}️ Granted {}", PERMISSION_EMOJI, message)) ); } } pub fn allows_run(&self) -> bool { self.allow_run.is_allow() } pub fn allows_read(&self) -> bool { self.allow_read.is_allow() } pub fn allows_write(&self) -> bool { self.allow_write.is_allow() } pub fn allows_net(&self) -> bool { self.allow_net.is_allow() } pub fn allows_env(&self) -> bool { self.allow_env.is_allow() } pub fn allows_hrtime(&self) -> bool { self.allow_hrtime.is_allow() } pub fn revoke_run(&self) -> Result<(), ErrBox> { self.allow_run.revoke(); Ok(()) } pub fn revoke_read(&self) -> Result<(), ErrBox> { self.allow_read.revoke(); Ok(()) } pub fn revoke_write(&self) -> Result<(), ErrBox> { self.allow_write.revoke(); Ok(()) } pub fn revoke_net(&self) -> Result<(), ErrBox> { self.allow_net.revoke(); Ok(()) } pub fn revoke_env(&self) -> Result<(), ErrBox> { self.allow_env.revoke(); Ok(()) } pub fn revoke_hrtime(&self) -> Result<(), ErrBox> { self.allow_hrtime.revoke(); Ok(()) } } /// Quad-state value for representing user input on permission prompt #[derive(Debug, Clone)] pub enum PromptResult { AllowAlways = 0, AllowOnce = 1, DenyOnce = 2, DenyAlways = 3, } impl PromptResult { /// If value is any form of deny this will error with permission_denied pub fn check(&self) -> Result<(), ErrBox> { match self { PromptResult::DenyOnce => Err(permission_denied()), PromptResult::DenyAlways => Err(permission_denied()), _ => Ok(()), } } } impl fmt::Display for PromptResult { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { PromptResult::AllowAlways => f.pad("AllowAlways"), PromptResult::AllowOnce => f.pad("AllowOnce"), PromptResult::DenyOnce => f.pad("DenyOnce"), PromptResult::DenyAlways => f.pad("DenyAlways"), } } } fn permission_prompt(message: &str) -> Result { let msg = format!("️{} Deno requests {}. Grant? [a/y/n/d (a = allow always, y = allow once, n = deny once, d = deny always)] ", PERMISSION_EMOJI, message); // print to stderr so that if deno is > to a file this is still displayed. eprint!("{}", Style::new().bold().paint(msg)); loop { let mut input = String::new(); let stdin = io::stdin(); let _nread = stdin.read_line(&mut input)?; let ch = input.chars().next().unwrap(); match ch.to_ascii_lowercase() { 'a' => return Ok(PromptResult::AllowAlways), 'y' => return Ok(PromptResult::AllowOnce), 'n' => return Ok(PromptResult::DenyOnce), 'd' => return Ok(PromptResult::DenyAlways), _ => { // If we don't get a recognized option try again. let msg_again = format!("Unrecognized option '{}' [a/y/n/d (a = allow always, y = allow once, n = deny once, d = deny always)] ", ch); eprint!("{}", Style::new().bold().paint(msg_again)); } }; } } fn check_path_white_list( filename: &str, white_list: &Arc>, ) -> bool { let mut path_buf = PathBuf::from(filename); loop { if white_list.contains(path_buf.to_str().unwrap()) { return true; } if !path_buf.pop() { break; } } false } #[cfg(test)] mod tests { use super::*; // Creates vector of strings, Vec macro_rules! svec { ($($x:expr),*) => (vec![$($x.to_string()),*]); } #[test] fn check_paths() { let whitelist = svec!["/a/specific/dir/name", "/a/specific", "/b/c"]; let perms = DenoPermissions::from_flags(&DenoFlags { read_whitelist: whitelist.clone(), write_whitelist: whitelist.clone(), no_prompts: true, ..Default::default() }); // Inside of /a/specific and /a/specific/dir/name assert!(perms.check_read("/a/specific/dir/name").is_ok()); assert!(perms.check_write("/a/specific/dir/name").is_ok()); // Inside of /a/specific but outside of /a/specific/dir/name assert!(perms.check_read("/a/specific/dir").is_ok()); assert!(perms.check_write("/a/specific/dir").is_ok()); // Inside of /a/specific and /a/specific/dir/name assert!(perms.check_read("/a/specific/dir/name/inner").is_ok()); assert!(perms.check_write("/a/specific/dir/name/inner").is_ok()); // Inside of /a/specific but outside of /a/specific/dir/name assert!(perms.check_read("/a/specific/other/dir").is_ok()); assert!(perms.check_write("/a/specific/other/dir").is_ok()); // Exact match with /b/c assert!(perms.check_read("/b/c").is_ok()); assert!(perms.check_write("/b/c").is_ok()); // Sub path within /b/c assert!(perms.check_read("/b/c/sub/path").is_ok()); assert!(perms.check_write("/b/c/sub/path").is_ok()); // Inside of /b but outside of /b/c assert!(perms.check_read("/b/e").is_err()); assert!(perms.check_write("/b/e").is_err()); // Inside of /a but outside of /a/specific assert!(perms.check_read("/a/b").is_err()); assert!(perms.check_write("/a/b").is_err()); } #[test] fn test_check_net() { let perms = DenoPermissions::from_flags(&DenoFlags { net_whitelist: svec![ "localhost", "deno.land", "github.com:3000", "127.0.0.1", "172.16.0.2:8000" ], no_prompts: true, ..Default::default() }); let domain_tests = vec![ ("localhost:1234", true), ("deno.land", true), ("deno.land:3000", true), ("deno.lands", false), ("deno.lands:3000", false), ("github.com:3000", true), ("github.com", false), ("github.com:2000", false), ("github.net:3000", false), ("127.0.0.1", true), ("127.0.0.1:3000", true), ("127.0.0.2", false), ("127.0.0.2:3000", false), ("172.16.0.2:8000", true), ("172.16.0.2", false), ("172.16.0.2:6000", false), ("172.16.0.1:8000", false), // Just some random hosts that should err ("somedomain", false), ("192.168.0.1", false), ]; 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), ]; for (url_str, is_ok) in url_tests.iter() { let u = url::Url::parse(url_str).unwrap(); assert_eq!(*is_ok, perms.check_net_url(u).is_ok()); } for (domain, is_ok) in domain_tests.iter() { assert_eq!(*is_ok, perms.check_net(domain).is_ok()); } } }