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denoland-deno/ext/node/ops/blocklist.rs

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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
use std::cell::RefCell;
use std::collections::HashSet;
use std::net::IpAddr;
use std::net::Ipv4Addr;
use std::net::Ipv6Addr;
use std::net::SocketAddr;
use deno_core::anyhow::anyhow;
use deno_core::anyhow::bail;
use deno_core::error::AnyError;
use deno_core::op2;
use deno_core::OpState;
use ipnetwork::IpNetwork;
use ipnetwork::Ipv4Network;
use ipnetwork::Ipv6Network;
use serde::Serialize;
pub struct BlockListResource {
blocklist: RefCell<BlockList>,
}
impl deno_core::GarbageCollected for BlockListResource {}
#[derive(Serialize)]
struct SocketAddressSerialization(String, String);
#[op2(fast)]
pub fn op_socket_address_parse(
state: &mut OpState,
#[string] addr: &str,
#[smi] port: u16,
#[string] family: &str,
) -> Result<bool, AnyError> {
let ip = addr.parse::<IpAddr>()?;
let parsed: SocketAddr = SocketAddr::new(ip, port);
let parsed_ip_str = parsed.ip().to_string();
let family_correct = family.eq_ignore_ascii_case("ipv4") && parsed.is_ipv4()
|| family.eq_ignore_ascii_case("ipv6") && parsed.is_ipv6();
if family_correct {
let family_is_lowercase = family[..3].chars().all(char::is_lowercase);
if family_is_lowercase && parsed_ip_str == addr {
Ok(true)
} else {
state.put::<SocketAddressSerialization>(SocketAddressSerialization(
parsed_ip_str,
family.to_lowercase(),
));
Ok(false)
}
} else {
Err(anyhow!("Invalid address"))
}
}
#[op2]
#[serde]
pub fn op_socket_address_get_serialization(
state: &mut OpState,
) -> Result<SocketAddressSerialization, AnyError> {
Ok(state.take::<SocketAddressSerialization>())
}
#[op2]
#[cppgc]
pub fn op_blocklist_new() -> BlockListResource {
let blocklist = BlockList::new();
BlockListResource {
blocklist: RefCell::new(blocklist),
}
}
#[op2(fast)]
pub fn op_blocklist_add_address(
#[cppgc] wrap: &BlockListResource,
#[string] addr: &str,
) -> Result<(), AnyError> {
wrap.blocklist.borrow_mut().add_address(addr)
}
#[op2(fast)]
pub fn op_blocklist_add_range(
#[cppgc] wrap: &BlockListResource,
#[string] start: &str,
#[string] end: &str,
) -> Result<bool, AnyError> {
wrap.blocklist.borrow_mut().add_range(start, end)
}
#[op2(fast)]
pub fn op_blocklist_add_subnet(
#[cppgc] wrap: &BlockListResource,
#[string] addr: &str,
#[smi] prefix: u8,
) -> Result<(), AnyError> {
wrap.blocklist.borrow_mut().add_subnet(addr, prefix)
}
#[op2(fast)]
pub fn op_blocklist_check(
#[cppgc] wrap: &BlockListResource,
#[string] addr: &str,
#[string] r#type: &str,
) -> Result<bool, AnyError> {
wrap.blocklist.borrow().check(addr, r#type)
}
struct BlockList {
rules: HashSet<IpNetwork>,
}
impl BlockList {
pub fn new() -> Self {
BlockList {
rules: HashSet::new(),
}
}
fn map_addr_add_network(
&mut self,
addr: IpAddr,
prefix: Option<u8>,
) -> Result<(), AnyError> {
match addr {
IpAddr::V4(addr) => {
let ipv4_prefix = prefix.unwrap_or(32);
self
.rules
.insert(IpNetwork::V4(Ipv4Network::new(addr, ipv4_prefix)?));
let ipv6_mapped = addr.to_ipv6_mapped();
let ipv6_prefix = 96 + ipv4_prefix; // IPv4-mapped IPv6 address prefix starts at 96
self
.rules
.insert(IpNetwork::V6(Ipv6Network::new(ipv6_mapped, ipv6_prefix)?));
}
IpAddr::V6(addr) => {
if let Some(ipv4_mapped) = addr.to_ipv4_mapped() {
let ipv4_prefix = prefix.map(|v| v.clamp(96, 128) - 96).unwrap_or(32);
self
.rules
.insert(IpNetwork::V4(Ipv4Network::new(ipv4_mapped, ipv4_prefix)?));
}
let ipv6_prefix = prefix.unwrap_or(128);
self
.rules
.insert(IpNetwork::V6(Ipv6Network::new(addr, ipv6_prefix)?));
}
};
Ok(())
}
pub fn add_address(&mut self, address: &str) -> Result<(), AnyError> {
let ip: IpAddr = address.parse()?;
self.map_addr_add_network(ip, None)?;
Ok(())
}
pub fn add_range(
&mut self,
start: &str,
end: &str,
) -> Result<bool, AnyError> {
let start_ip: IpAddr = start.parse()?;
let end_ip: IpAddr = end.parse()?;
match (start_ip, end_ip) {
(IpAddr::V4(start), IpAddr::V4(end)) => {
let start_u32: u32 = start.into();
let end_u32: u32 = end.into();
if end_u32 < start_u32 {
// Indicates invalid range.
return Ok(false);
}
for ip in start_u32..=end_u32 {
let addr: Ipv4Addr = ip.into();
self.map_addr_add_network(IpAddr::V4(addr), None)?;
}
}
(IpAddr::V6(start), IpAddr::V6(end)) => {
let start_u128: u128 = start.into();
let end_u128: u128 = end.into();
if end_u128 < start_u128 {
// Indicates invalid range.
return Ok(false);
}
for ip in start_u128..=end_u128 {
let addr: Ipv6Addr = ip.into();
self.map_addr_add_network(IpAddr::V6(addr), None)?;
}
}
_ => bail!("IP version mismatch between start and end addresses"),
}
Ok(true)
}
pub fn add_subnet(&mut self, addr: &str, prefix: u8) -> Result<(), AnyError> {
let ip: IpAddr = addr.parse()?;
self.map_addr_add_network(ip, Some(prefix))?;
Ok(())
}
pub fn check(&self, addr: &str, r#type: &str) -> Result<bool, AnyError> {
let addr: IpAddr = addr.parse()?;
let family = r#type.to_lowercase();
if family == "ipv4" && addr.is_ipv4() || family == "ipv6" && addr.is_ipv6()
{
Ok(self.rules.iter().any(|net| net.contains(addr)))
} else {
Err(anyhow!("Invalid address"))
}
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_add_address() {
// Single IPv4 address
let mut block_list = BlockList::new();
block_list.add_address("192.168.0.1").unwrap();
assert!(block_list.check("192.168.0.1", "ipv4").unwrap());
assert!(block_list.check("::ffff:c0a8:1", "ipv6").unwrap());
// Single IPv6 address
let mut block_list = BlockList::new();
block_list.add_address("2001:db8::1").unwrap();
assert!(block_list.check("2001:db8::1", "ipv6").unwrap());
assert!(!block_list.check("192.168.0.1", "ipv4").unwrap());
}
#[test]
fn test_add_range() {
// IPv4 range
let mut block_list = BlockList::new();
block_list.add_range("192.168.0.1", "192.168.0.3").unwrap();
assert!(block_list.check("192.168.0.1", "ipv4").unwrap());
assert!(block_list.check("192.168.0.2", "ipv4").unwrap());
assert!(block_list.check("192.168.0.3", "ipv4").unwrap());
assert!(block_list.check("::ffff:c0a8:1", "ipv6").unwrap());
// IPv6 range
let mut block_list = BlockList::new();
block_list.add_range("2001:db8::1", "2001:db8::3").unwrap();
assert!(block_list.check("2001:db8::1", "ipv6").unwrap());
assert!(block_list.check("2001:db8::2", "ipv6").unwrap());
assert!(block_list.check("2001:db8::3", "ipv6").unwrap());
assert!(!block_list.check("192.168.0.1", "ipv4").unwrap());
}
#[test]
fn test_add_subnet() {
// IPv4 subnet
let mut block_list = BlockList::new();
block_list.add_subnet("192.168.0.0", 24).unwrap();
assert!(block_list.check("192.168.0.1", "ipv4").unwrap());
assert!(block_list.check("192.168.0.255", "ipv4").unwrap());
assert!(block_list.check("::ffff:c0a8:0", "ipv6").unwrap());
// IPv6 subnet
let mut block_list = BlockList::new();
block_list.add_subnet("2001:db8::", 64).unwrap();
block_list.add_subnet("::ffff:127.0.0.1", 128).unwrap();
assert!(block_list.check("2001:db8::1", "ipv6").unwrap());
assert!(block_list.check("2001:db8::ffff", "ipv6").unwrap());
assert!(!block_list.check("192.168.0.1", "ipv4").unwrap());
// Check host addresses of IPv4 mapped IPv6 address
let mut block_list = BlockList::new();
block_list.add_subnet("1.1.1.0", 30).unwrap();
assert!(block_list.check("::ffff:1.1.1.1", "ipv6").unwrap());
assert!(!block_list.check("::ffff:1.1.1.4", "ipv6").unwrap());
}
#[test]
fn test_check() {
// Check IPv4 presence
let mut block_list = BlockList::new();
block_list.add_address("192.168.0.1").unwrap();
assert!(block_list.check("192.168.0.1", "ipv4").unwrap());
// Check IPv6 presence
let mut block_list = BlockList::new();
block_list.add_address("2001:db8::1").unwrap();
assert!(block_list.check("2001:db8::1", "ipv6").unwrap());
// Check IPv4 not present
let block_list = BlockList::new();
assert!(!block_list.check("192.168.0.1", "ipv4").unwrap());
// Check IPv6 not present
let block_list = BlockList::new();
assert!(!block_list.check("2001:db8::1", "ipv6").unwrap());
// Check invalid IP version
let block_list = BlockList::new();
assert!(block_list.check("192.168.0.1", "ipv6").is_err());
// Check invalid type
let mut block_list = BlockList::new();
block_list.add_address("192.168.0.1").unwrap();
assert!(block_list.check("192.168.0.1", "invalid_type").is_err());
}
}